ML20126K970
| ML20126K970 | |
| Person / Time | |
|---|---|
| Site: | Arkansas Nuclear  |
| Issue date: | 02/25/1981 |
| From: | ARKANSAS POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML20126K968 | List: |
| References | |
| NUDOCS 8105270108 | |
| Download: ML20126K970 (200) | |
Text
- - - - - _ _ _.
O
.,/
ARKANSAS POWER AND LIGilT COMPANY ARKANSAS NUCLEAR ONE UNIT 1 DOCKET NUMBER 50-313 PRIMARY REACTOR CONTAINMENT INTEGRATED LEAKAGE RATE TEST FEBRUARY 25, 1981 i
GJ l
Submitted To The United States Nuclear Regulatory Commission Pursuant To Facility Operating License Number DPR - 51 b) v t
%loS270le8
'%_J TABLE OF CONTENTS Page I
INTRODUCTION 1
II TEST SYNOPSIS 2
III TEST DATA SUl: MARY 6
IV ANALYSIS AND INTERPRETATION 12 V
COMPUTER REPORT / DATA PRINTOUT DEFINITIONS 13 APPENDICES A
Bechtel ILRT Computer Program Summary B
ILRT Stabilization Summary Data C
ILRT Summary Data
-~
D ILRT Calculations Trend Report Mass Point Analysis Total Time Analysis E
ILRT Plots Temperature vs Time Pressure vs Time Vapor Pressure vs Time Air Mass vs Time F
Verification Flow Test Stabilization Data G
Verification Flow Test Summary Data H
Verification Flow Test Calculations Total Time Analysis Mass Point Analysis I
Results of Local Leakage Rate Tests AV SU-2
i O
LIST OF FIGURES iV Figure Title Page 1
Temperature vs time 2
Pressure vs time LIST OF TABLES Table 1
Dewpoint and Temperature 11 Sensor Volume Fractions
)
I SU-2
- - - - - - - - - - - - - -I
I.
INTRODUCTION The reactor containment building Integrated Leakage Rate Test (Type A) is per-formed to demonstrate that leakage through the primary reactor containment and systems and components penetrating primary containment shall not exceed allow-1 able leakage. rate values as specified in the Plant Technical Specifications.
4 A sucessful Type A test was perform d at Arkansas Nuclear One, Unit 1 between f
13:15 on 2/24/81 and 05:45 on 2/25/81. The results were substantiated by the i
data from the Verification Test acquired between 06:00 and 11:45 on 2/25/81.
These tests were performed according to the requirements of the Arkansas i
Nuclear One Technical Specifications and 10CFR 50, Appendix J. The Type A test was conducted applying the absolute method defined in ANSI /ANS 56.8-1980 (previously ANSI N274), " Containment System Leakage Testing Requirements." The leakage rate was calculated by formulas specified in ANSI 45.4-1972, " Leakage Rate Testing of Containment Structures for Nuclear Reactors" 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 /ANS 56.8-1980 (Mass-Point).
O I
O SU-2 7
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II.
TEST SYNOPSIS
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Prior to containment pressurization a survey was conducted at each of the installed containment ILRT instrumentation locations. During the survey one of two failed dewpoint temperature systems was repaired, therefore, the total dewpoint sensors available for the test was 5. The number of RTD's availabe was
- 18. Two pressure gauges were available, one pressure reading (PRES 1) was utilized in the data evaluation, the second was a backup.
A containment pressure of 14 psig was attained at 08:45 on February 23, 1981.
Pressurization was discontinued until a survey of exterior and interior containment penetration areas was made. No significant leakage was noted and full test pressure was attained at 13:15 on February 24, 1981.
A power failure occured on the data acquisition system between 17:45 and 18:15.
This was four and a half hours after the beginning of the stabilization time.
The plots in Figures 1 and 2 illustrate the perturbations in temperature and pressure caused by the power failure. The temperatures and pressures af ter 20:00 exhibit a similar trend to those before the power failure. The initial data point was at 20:00 for the IRLT calculations. The IRLT was completed at 05:45 on February 25,1981. At 06:00 on February 25, 1981, an imposed leak rate of 13.44 scfm was initiated. After stabilization, data was acquired between 07:30 and 11:45 for analysis.
The test data resulted in a calculated leakage rate of 0.038%/ day using the mass point calculation technique and 0.034%/ day using the total time calculation.
rs The 95% upper confidence limits were 0.046%/ day and 0.092%/ day for the above i,)
techniques respectively. The computer data summaries aad calculations are s
included in Appendices B through H.
To allow for possible deterioration of the containment boundary between scheduled ILRT's, the calculated leakage rates cannot exceed 75% of the maximum allowable leakage rates (per 10CFR 50, Appendix J, " Primary Reactor Containment Leakage Testing for Water Cooled Power Reactors"). Therefore, the leakage rate determined during the peak pressure ILRT must not exceed 0.150%/ day. All criteria for the short duration test were met.
As per 10 CFR 50, Appendix J, the verification test requirements are that the dif ference between the supplemental test data and the Type A leakage rate is less than 0.25 La:
(Lam + Lo - Lvm) < 0.25 La 0.200%/ day Maximum allowable leak rate for peak pressure La
=
=
imposed leak rate = 0.200%/ day to
=
Lam = Containment leak rate calculated at pressure Mass point 0.038%/ day
=
Total time 0.034%/ day
=
!N)
SU-2 2
Lvm =
Containment leakage rate calculated during the verification test.
t Mass point 0.24 6%/ day
=
Total time 0.237%/ day
=
Mass Point l (0 038 +0.200) - 0.246 l
< 0.05 0.008 < 0.05 Total Time l (0.034 + 0.200) - 0.237 l
< 0.05 0.003 < 0.05 Therefore, the Verification Test data substantiates the Type A data.
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1 i
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TEMPERATURE VS TIME DURING ILRT UkRN;R$ NUCLEfA DNE IL8'T RT 59 PSIG TEM *EDATURE 529.447 529.579 529.700 529.941 529.972 530.10 530.234 530.365
.................. +._-.--..........-_+-...........3 f^N
\\
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1400 -
e
/
1500 -
1600 -
1700 -
Failure of Power Supply 1900 -
e o
2000 -
2300 -
a s
+
2200 -
q e
o 2300 -
,7O e
0-e 100 -
+
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200 -
e e
e 300 -
t e
400 -
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500 -
+
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e 700 -
e 900 -
D) e 9n0 -
q~/
+
+
10% -
+
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4 Figure 1 1500 -
+
MO H9;A* Pt'X L E 46 DME IL27 AT $7 FIIS PRESSURE VS TIME DURING ILRT PPE 75'JRE 73.4527 73.4707 73.4997 73.5067 73.5246 73.5426 73.5606 73.5736 e-e-----.---o--
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s---
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1400 -
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1500 -
e 1600 -
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e Failure of Power Supply 1900 -
2000 -
ee 2100 -
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e 2300 -
e e
e rs g
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e 100 -
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700 -
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900 -
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5 Figure 2
=
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III.
TEST DATA
SUMMARY
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V A. Plant Information Owner Arkansas Power & Light Plant Arkansas Nuclear One, Unit 1 Loca tion 6 Mi NW of Russellville Containment type Prestressed, post-tensioned concrete NSSS Supplier, Type B & W, PWR Docket No.
50-313 License Nv.
DPR 51 5/21/74 B. Technical Data
- 1. Containment Net 1,910,000 cu. ft.
Free Air Volume
- 2. Design Pressure 50 psig
- 3. Normal Design Temperature 150*F
- 4. Calculated Peak Accident 59 psig Pressure, Pa
- 5. Containment ILRT Average 60-120*F gs Temperature Limits
- 6. Peak Accident Temperature 350*F C. Test Results - Type A Test
- 1. Test Method Absolute
- 2. Data Analysis Techniques Mass Point (per ANSI /ANS 56.8-1980) and Total-Time (per BN-TOP-1)
- 3. Test Pressure 59.2 psig
- 4. Maximum Allowable Leakage 0.200%/ day Rate, La
- 5. 75% of L 0.150%/ day a
f~s
\\~.
SU-2 6
- 6. Integrated Leakage Rate Leakage Rate, %/ day
'b Test Results From Regres-At Upper 95%
V sion Line Confidence (Lam)
Limit
- a. Mass Point Analysis 0.038 0.046
- b. Total-Time Analysis 0.034 0.092
-7.
Verification Test Imposed-13.44 SCFM Leakage Rate (0.200%/ day)
- 8. Verification Test Results Leakage Rate
(%/ day)
- a. Mass Point Analysis 0.246
- b. Total-Time !.nalysis 0.237
- 9. Verification Test Limits Test Limits
(%/ day)
- a. Mass Point Analysis
- 1) Upper Limit (Lo+LaurF0.25La) 0.289 2 ) Lower Limit (Lo+ Lam-0.25La) 0.189
- b. Total Time Analysis
- 1) Upper Limit (Lo+Lamt0.25La) 0.285
- 2) Lower Limit (Lo+ Lam-0.25La) 0.185
- 10. Report Printouts The Report Printouts of the Type A and Verification Test summary data and calculations are provided for the Mass Point and Total Time Analysis (Appendixes B through H). Stabilization data is also provided (Appendix A).
D. Test Results - Type B & C Tests Refer to Appendix I for a summary of local leakage rate test results since the last ILRT was performed.
O SU-2 7
, - _. _ _ _. _ _. ~,, _ _ _ _ _ _ _ -., _ _ - _., _. - -. -,. _ -, _ _.. _.. -, _ _ _ _ _.. _. _, _. _ _ _... _,... _. _,.. _ _
..l E.
Integrated Leakage Rate Measurement System
.O
- 1. Absolute Pressure (2 channels) l Range:-
0-100,000 counts Measure system error:
0.001 psia Sensor error:
0.005 psia Range:
0-100 psia Texas Instruments Model 145-02 Precision Pressure Instrument, Serial No. 2861.
t Bourdon Capsule Serial No. 6806 Calibration Date:. November 13, 1980 Texas Instruments Model 145-02 Precision Pressure Instrument, Serial No. 2860 Bourdon Capsule Serial No. 6807 Calibration Date: November 13, 1980
- 2. Drybulb Temperature (18 plus 3 spares)
Range:
(-190 )-(+200) *F Measurement system error:
0.1*F Sensor error:
0.2*F Resistance Temperature Detectors - Leeds & Northrup Thermohm lead,100-ohm copper O,
Calibration Date: ' February 5,1981
- 3. Dewpoint Temperature (5 sensors)
Range:
0-100*F Measurement system error:
0.1*F Sensor error:
0.54*F Dewpoint Temperature Systems - EG & G 660 Calibration Date: December 9,1980 Monitor S/N Sensor S/N 631 816 633 817 657 806 64 0 821 648 822 l
-g i
O SU-2 8
.. _... _.. -.. _... _ _. _. _, _ _ _ _, _ _.. ~
..a, a-
. ur a.
a
..a
.s n
a 1
- 4. Verification Flow (1 channel)
Range:
1.2 - 23.3 scfm 1.0% F.S.
Accuracy:-.
February 1981 Calibration Date:
Flowmeter-Brooks Hi-accuracy full view rotameter, Model 110-08K2-B1A
- 5. Overall Instrumentation Selection Guideline (ISG) Value (from ANSI /ANS 56.8-1980) based on ILRT instrumentation and an eight hour minimum test duration is 0.045.
This is calculated using the errors described above and pressure of 73.7 psia, dewpoint temperature of 59.7 (.009 psia /*F from steam tables between 59 and 60*F) and RTD temperature of 529.7 for eight hours.
'6. Drybulb and Dewpoint Temperature Sensor Volume Fractions - See Table 1 F.
.Information Retained at Plant The following information is available for review at the Facility:
- 1. A listing of all containment penetrations, including the total number of like penetrations, penetration size and function.
- 2. A listing of normal operating instrumentation used for the leakage rate test.
- 3. A system line up (at time of test), showing required valve positions and status of piping systems.
- 4. A continuous, sequential log of events from initial survey of contain-ment to restoration of all tested systems.
- 5. Documentation of instrumentation calibrations and standards.
- 6. Data to verify temperature stabilization criteria as established by test procedure (Appendix A and Figures 1 and 2).
- 7. The working copy of test procedure that would include signature sign-off of procedural steps.
- 8. The procedure and all data that would verify completion of penetrations and valve testing (B & C-type tests), including as found leak rates,
. corrective action taken, and final leak rate.
O SU-2 9
9.
A listing of all test exceptions including changes in containment system boundaries instituted by licensee to conclude successful testing.
- 10. Description of method of leak rate verification of instrument measuring system (super-imposed leakage), with calibration information on flow-meters along with calculations that were used to measure the verification leakage rate.
- 11. The P & ID's of pertinent systems readily available.
l-l O
l I
l O
SU-2 10 i
l TABLE 1 DEWPOINT AND TEMPERATURE SENSOR VOLUME FRACTIONS VOLUME RTD NUMBER FRACTION i
l TE - 2401
.054 TE - 2402
.064 TE - 2403
.027 TE - 2407
.027 TE - 2408
.070 TE - 2409
.029 TE - 2411
.010 TE - 2413
.021 TE - 2414
.021 TE - 2415
.027 TE - 2416
.027 I
TE - 2404
.089 TE - 2405
.089 I
TE - 2406
.089 TE - 2410
.089 TE - 2417
.089
(' N TE - 2418
.089
\\.
TE - 2419
.089 DEWPOINT HYDROMETER NO.
816
.140 817
.140 806
.180 821
.270 822
.270
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SU-2 11
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IV.
ANALYSIS AND INTERPRETATION A.
Type A Test Results The.following penetrations were used for the ILRT:
Penetration No.
Equipment Leakage Rate P 43 '
SA 45 12 acem P 46 IA-52 0 accm P 49 ILRT Pressurizing line 11 acem TOTAL 23 accm B.
Types B and C Test Results The total of tested type B and C local leakage rates is 1267 accm. The acceptance criterion is that the above total be less than 43660 acem (0.12% per day, 60% of La).
C.
Conclusion The ILRT results for the upper 95% confidence limits at 59 psig
(-0 psi, +2 psi) were:
Mass Point Analysis 0.046 % per day Total Time Analysis 0.092 % per day These values must be increased by leakage rates in section IV. A above.
The total, 23 accm (equivalent to 0.00006 % per day) is insignificant.
The above 95% upper confidence limits remain unchanged.
The acceptance criterion is that these values be less than 0.150%/ day (75% of La). The calculated values are within the acceptance criteria.
The ISG was calculated as 0.045 which is within the acceptance criterion of 0.050 (25% of La).
DO SU-2 12
,m.--
COMPUTER REPORT AND DATA PRINTOUT DEFINITIONS V.
REPORT / DATA PRINTOUT DESCRIPTION A.-
MASS-POINT REPORT: A presentation of leakage rate (%/ day) as determined by the Mass-Point Method described in the " Computer Program" section of this report. The " Calculated Leakage Rate" is the value determined from the regression analysis. The " Containment Air Mass" values are the masses of dry air in the containment (lb mass), determined from the Equation of State, which are used in the regression analysis.
B.
TOTAL-TIME REPORT: A presentation of leakage rate (%/ day) as determined by the Total-Time Method. The " Calculated Leakage Rate" is the value determined using total-time calculations, which are used in the above regression analysis.
C.
TREND REPORT: A tabular presentation of leakage rates (as determined by the Total-Time Method described in the " Computer Program" section of this report) in percent of the initial contained mass of dry air per day
(%/ day), elapsed time (hours), and number of data points.
D.
SUMMARY
DATA: The actual data used to calculate leakage rates by the various methods described in.the " Computer Program" section of this re-port. The fis a column headings are TIME, DATE, TEMP, PRESSURE, AND VPRS, and contain data defined thus:
- 1. TIME: Real time in twenty four hour notation (hours and minutes).
- 2. DATE: Julian calendar date (month and day),
- 3. TEMP: Containment weighted average drybulb temperature in absolute units, degrees Rankine (*R)
- 4. PRESSURE: Partial pressure of the dry air component of the containment atmosphere in absolute units (psia).
- 5. VPRS: Partial pressure of water vapor of the containment atmosphere in absolute units (psia).
E.
SUMMARY
OF MEASURED DATA: The individual containment atmosphere drybulb tempera tures, dewpoint temperatures and absolute total pressure measured at the time and date as indicated, which are used to determine the temp-erature and pressure described in D.3 and D.4 above.
- 1. TEMP 1 through TEMP 18 are the drybulb temperatures. The values in paranthesis are equivalent to temperatures, *F, multiplied by 100, as acquired from the data acquisition system (DAS). The values in the lef t-hand column are the corrected temperatures expressed in absolute units,
- R.
O SU-2 13
/
- 2. PRES 1 and PRES 2 measure the total absolute containment pressure. The
\\
right-handed value, in parentheses, is a number in counts as acquired from the DAS. This count value is converted to a value in psia by the computer via the instrument's calibration table, counts versus psia.
The left-hand column is the absolute total pressure, psia.
- 3. VPRS 1 through VPRS 5 are the dewpoint temperaturee (water vapor
. pressures).-The values in parentheses column are equivalent to tempera-tures,F, multiplied by 100, as acquired from the DAS. The values in the lef t-hand column are the water vapor pressures, psia, from the stea tables for saturated steam corresponding to ths dewpoint (satu-ration) temperatures in the center column.
D.
SUMMARY
OF CORRECTED DATA: The same data as described in Paragraph V.D above. The time and date are acquired from the DAS digital clock / calendar module. The temperature and pressure values are determined as follows:
- 1. TEMPERATURE, 'R, is the volume weighted average containment atmosphere i
drybul' temperature derived from TEMP 1 through TEMP 18.
l
- 2. CORRECTED PRESSURE, psia, is the partial pressure of the dry air component of the containment atmosphere, absolute. The volume weighted average containment atmosphere water vapor pressure is subtracted from PRESS 1, total pressure, yielding the partial pressure of the dry air.
/"'
- 3. VAPOR PRESSURE, psia, is the volume weighted average containment j
I atmosphere water vapor pressure, absolute, derived from VPRS 1 through I
VPRS 5.
l l
l l
. ;O -
%J SU-2' 14
~_
~. _
BECHTEL ILRT COMPUTER PROGRAM O
A.
Program and Report Description 1.
The Bechtel ILRT computer program is used to determine the integrated. leakage rate of a nuclear reactor primary containment structure. The program is used to compute leakage rate based on input values of time, containment atmosphere total pressure, drybulb temperature, and dewpoint temperature (water napor pres-sure). Leakage rate is computed using the Absolute Me: hod as defined in ANSI N45.4-1972, " Leakage Rate Testing of Contain-ment 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 dif ferent report printouts.
2.
The first printout, the Total-Time Report, is based on the Total-Time Method described in ANSI N45.4-1972.
Leakage rate is computed from initial values of free' air volume, containment atmosphere drybulb temperature and partial pressure of dry air, the latest values of the same parameters, and elapsed time.
These individually computed leakage rates are statistically averaged using linear regression by the method of least squares.
The Total-Time Method is the computational technique upon which O'
the short duration test criteria of BN-TOP-1, Revision 1,
" Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants," are based.
3.
The second printout, the Trend Report, is a summary of leakage rate values based on Total-Time and Mass-Point computations presented as a function of number of data points and elapsed time (test duration). The Trend Report provides all leakage rate values required for comparison to the acceptance criteria of BN-TOP-1 for conduct of a short duration test.
4.
The third printout is the Mass-Point Report and is based on the Mass-Point Analysis Technique described in ANSI 56.8-1980
" Containment System Leakage Testing Requirements." The mass of dry air in the containment is computed at each data point (time) using the Equation of State, f rom 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 squa res. Leakage rate is detetuined from the statistically derived slope and intercept of the regression line.
5.
The program is written in a high level language and is designed for use on an interactive time-shared computer system via a T1001719-M 1
D
/T-remote data terminal. Brief' descriptions of program use, formulae
(. /.
used for leakage rate computations, and program logic are provided in the following paragraphs.
B.
Explanation of Program
'l.
The Bechtel ILRT computer program is written, for use by experi-enced ILRT personnel, to determine containment integrated leakage rates based on the Absolute Method described in ANSI N45.4-1972.
2Property "ANSI code" (as page type) with input value "ANSI N45.4-1972.</br></br>2" contains invalid characters or is incomplete and therefore can cause unexpected results during a query or annotation process..
Information loaded into the program prior to the start of the test:
a.
Number of containment atmosphere drybulb temperature sensors and dewpoint temperature (water vapor pressure) sensors to be used in leakage rate computations for the specific test b.
Volume fractions assigned to each of the above sensors c.
Calibration data for above sensors, if required d.
Calibration data for pressure sensor.
3.
Information entered into the program at the start of the test:
a.
Test title O
q b.
Current test pressure and peak test pressure i
c.
Maximum allowable leakage rate at peak test pressure d.
If the test is a verification test:
(1) Imposed leakage rate (2) Leakage rates determined using the two computational
{
methods described in Paragraph A above during the ILRT.
4.
Data entered during the test, used to compute leakage rate:
a.
Time and date b.
Containment atmosphere drybulb temperatures c.
Containment atmosphere pressure d.
Containment atmosphere dewpoint temperatures 5.
Af ter all data at a given time are entered, a Summary of Measured l
Data report (refer to " Program Logic," Paragraph D, " Data" option command) is printed on the data terminal. After a final
{
verification of the entered data, the time, date, containment atmosphere weighted average drybulb temperature, partial pressure T1001719-M 2
_. _. _ _.. ~, _..
'O of the dry air and water vapor pressure cre stored on a data V
file.
6.
.If drybulb and dewpoint temperature sensors should fail during the test, the data from the sensor (s) are not used. The volume fractions for the remaf Mng sensors are recomputed and reloaded into the program for use in ensuing leakage rate computations.
C.
Leakage Rate Formulae 1.
Computation using the Total-Time Method:
a.
Measured leakage rate, from data:
P V = Wj RT1 (1) 1 P V = W RTi (2) i 1
Li (100)
(3)
=
Ati W1 Solving for W1 and Wi and substituting equations (1) and (2) into (3) yields:
2400 T Pg I
(1 -
)
(4 )
'e Li
=
Ati TPi1 where:
W,Wi Weight of contained mass of dry air at times
=
1 ti and ti respectively, Ibm.
T,Ti Containment atmosphere drybulb temperature at
=
1 times ti and ti respectively,
- R.
P,Pi Partial pressure of the dry air component of the
=
1 containment atmosphere at times ti and ti re-spectively, psia.
Containment free air volume (assumed to be con-V
=
r 3
stant during the test), ft,
th Real time at 1st and i data points respectively, ti, tg
=
hours and minutes.
Ati Elapsed time from ti to ti, hours.
f
=
Ft.lbf Specific gas constant for air = 53.35 R
=
lbm.*R Li Measured leakage rate computed during time interval
=
ti to ti, %/ day.
T1001719-M 3
-,.. ~.
b.
Calculated leakage rate from regression analysis:
(5)
L
=_a + bkN where:
L = Calculated leakage rate, %/ day, as determined from the regression line.
21)-(h)(Ek)
(IL ) (Ik g
gg f
(6)
=
a N (Ikg ) - (Ek )2 2
g s.
N(EL k ) - (E ) (Ekg) fi i
(7) b
=
N(Ik )2 _ ( g )2 g
i th Elapsed time at time of i data point k
=
g Number of data points N
=
N I
I
=
i=1 O-Calculated leakage rate at the 95% confidence level (inclu-c.
ding error associated with the test).
Total-Time Method per BN-TOP-1.
(8) 95=a+bk+g L
where:
L95 = Calculated leakage rate at the 95% confidence level,
%/ day, at elapsed tice k.
For kN < 24 r(L -L )2 i
(g " )
1 1 N
(9 }
0.025;N-2 1+ ~ +
S-
=t N-2 N
I(k -k)2 L
i 2.37 2.82 where, t0.025;N-2 = 1.96 +
+
(N-2)2 ;
N-2 T1001719-M 4
1
[
\\
For kN ~> 24
%) '
E(L -5 )2 (k - )
1 1 1
N g=t0.025;N-2 N
I(k -k)2 N-2 i
1.64(N-2)2+3.53(N-2)+0.86 where, t0.025;N-2 "
2n 34 1m 5 = Calculated leakage rate computed using equation (5) 1 at total elapsed time k, %/ day.
i Iki k
=-
N 2.
Computation using the Mass-Point Method a.
Contained mass of dry air from data:
(Q,/ _
W = 144 g (10)
/
PV where:
All symbols as previously defined.
b.
Calculated leakage rate from regression analysis:
b
_.L = 2400 g (11) where:
L = Calculated leakage rate, %/ day, as determined from the regression line.
Iwi-bEki a=
(12)
N O
l T1001719-M 5
i
I I (W -E W /N)
(k -I k /N) ]
i i
i i
g E (k - n /N)2 i
g I
th kt = Total elapsed time at time of i data point, hours N = Number of data points th W = Contained mass of dry air at i data point, lbm, as 1
computed f rom equation (10).
N I=E i=1 c.
Calculated leakage rate at the 95% confidence level.
2400 L95 =
(b + S )
(14) b a
where:
595 = Calculated leakage rate at the 95% confidence level,
%/ day I(W -E )2 g
g N-2 Sb t0.025;N-2 (15)
E(k -k)2 g
1.64(N-2 )2+3. 53 (N-2 )2+0.86 where, t0.025;N-2 "
(N-2 )2+1.2 2 (N-2 )-1. 52 E = Contained mass of dry air, lbm, computed at the ith i
data point from the regression equation E = a + bk.
(16 )
All other symbols as previously defined.
T1001719-M 6
D.
Program Logic
[T
- 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 are presented below:
OPTION COMMAND FUNCTION DATA Enables operator to enter raw data. When the system requests values of time, temperature, 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 temperature, partial pressure of dry air, and water vapor pressure is printed.
TREND Terminal will print out a Trend Report.
TOTAL Terminal will print out a Total-Time Report.
MASS Terminal will print out a Mass-Point Report.
/
I 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 When used with a given file nare, the printer will print out a list of the Summary Data stored on the file.
SU-2/ll 7
..~.
( SIGN ON )
t
\\ ENTER BASIC / ~
ND
/ ENTER PREV 16US
{ INFORMATION/
\\ VALUES FROM FILES]T
. YES e
r 1
DATA 9 ENTERS SUMM ARY DATA STORED ON (OPTIONSI D ME erPREV t
-(ENTER D ATA)
CORRECTS m CORR
SUMMARY
D ATA L
e
'E R RO R?)
[ YES o
STO RES
SUMMARY
5, ENTER
/'
, N0 D ATA ON trSAVE.
A CORRECTl0NS/.
SELECTED FILE o
(
SUMMARY
OF m TREND
- l TREND REPORT l ME ASURED DATA
. p tr-TOTAL T01 AL TIME o
'E R RO R?)
NO
"- M ASS MASS POINT REPORT CORRECTED
SUMMARY
DATA PRINTOU1 ir LIST PRINT OUT OF
SUMMARY
l DATA 4-TERM
- ( SIGN OFF )
)
BECHTEL CONTAINMENT INTEGRATED LEAKAGE RATE TEST L
COMPUTER PROGRAM FLOW CHART y
FIGURE 1 O
i G If1020$3 01 T-"P+9 t-1 r-W -v fr-er ry 2--46p
& q w$989N*yWw+M g &r MMy -y WWmeaT et +
y g --st-sasp-r ~e e c9-FN-*t a
Vl=-'Tgre -Nef-Mw-e-ww=9-+r+prPi+Mwg-f p eT9'e wt w
g-+ e awy p$ w rum'-
we w g - p-pr=m+1%Ne 'w'T'we st yT
IUMMARY OF MERSURED DRTR AT 1315 0224 TEMP 1 =
529.427
( 6979.)
TEMP 2=
529.607
( 6997.)
TEMP 3=
529.900
( 6926.)
TEMP 4=
530.750
( 7111.)
TEMP 5=
531.190
( 7155.)
TEMP 6=
531.366
( 7172.)
TEMP 7=
531.179
( 7155.)
TEMP 9=
. 530.654
( 7106.)
TEMP 9=
530.567
( 7092.)
TEMP 10 =
530.350
( 7077.)
TEMP 11 530.979
( 7139.)
=
TEMP 12 =
530.956
( 7129.)
TEMD 13 =
530.354
( 7079.)
TEMP 14 =
530.100
( 7050.)
TEMP 15 =
530,259
( 7065.)
TEMP 16 = -530.351
( 7079.)
TEMP 17 =
530.200
( 7063.)
TEMP 19 =
530'396
( 7090.)
('
PRES 1 =
73.923 ( 74237.)
PREI 2=
73.905 ( 72622.)
VPRS 1 =
0.259
( 6033.>
VPRT 2=
0.252
( 5953.)
VPRS 3=
0.259
( 6029.)
VPRS 4=
0.254
( 5977.)
VPRS 5=
0.249
( 5909.)
SUMMRRY OF CDRRECTED DRTR TIME = 1315 DATE = 0224 TEMPERATURE (DEGREES R. )
530.300
=
CDRRECTED PREISURE (PSIR) 73.5696
=
V9POR PREOSURE (PSIRT 0.2535
=
~T e
7 g--++a
+-
r y
_.gp
--e.
m-ug-e-.----+-.
--y,,.g--+----
--e
(-
LJ
SUMMARY
OF MERSURED DATR RT 1330 0224 TEMP 1 =. 529.327
( 6969.)
TEMP 2=
529.617
( 6999.)
TEMP 3=
529.950
( 6921.)
TEMP 4=
530.660
( 7102.)
TEMP 5=
531.120
( 7149.)
TEMP 6=
531.496
( 7195.)
1 TEMD 7=
531.309
( 7169.)
TEMo 9=
530.534
( 7094.)
TEMP 9=
530.497
( 7095.)
TEMP 10 =
530.220
( 7064.S TEMP 11 530.917
( 7123.)
=
TEMP 12 =
530.656
( 7109.)
TEMP 13 =
530.204
( 7063.)
TEMP 14 =
529.900
( 7030,S TEMP 15 =
530.090
( 7049."i TEMP 16 =
530.191
( 7061.)
TEMP 17 =
529.990
( 7042.)
TEMP 19 =
530.146
( 7055.)
PRES 1 =
73.902 < 74216.)
PRES 2=
73.793 ( 72601.)
s
\\
VPRS 1
0.256
( 6003.)
=
VPRS 2=
0.251
( 5945.)
VPRS 3=
0.257
( 6010.)
YPRS 4=
0.254
( 5979.)
VPRS 5=
0.250
( 5929.)
SUMMARY
DF CURRECTED DATR TIME = 1330 DATE = 0224 TEMPERATURE (DEGREES R.)
530.160
=
CURRECTED PRESSURE (PSIRN 73.5490
=
VRPOR PRESSURE (PSIR) 0.2532
=
O
l IUMMADY OF MEASURED DATA AT 1345 0224 TEMP 1=
529.297
( 6966.)
TEMP 2=
529.517
( 6999.)
TEMP 3=
529.990
( 6925.)
TEMP 4=
530.560
( 7092.)
TEMP 5=
531.060
( 7143.)
TEMP 6=
531.396
( 7174.)
TEMP 7=
531.173
( 7155.)
TEMP 9=
530.314
( 7072.)
TEMP 9=
530.357
( 7071.)
TEMP 10 =
530.120
( 7054.)
TEMP 11 530.727
( 7114.)
=
TEMP 12 =
530.546
( 7097.)
TEMP 13 =
530.063
( 7049.)
TEMP 14 =
529.770
( 7017.)
TEMP 15 =
529.990
( 7037.)
TEMP 16 =
530.060
( 7049.)
TEMP 17 =
529.850
( 7029.)
TEMP 18 =
530.036
( 7044.)
PREI 1=
73.739 ( 74202.)
,f-~
PREI 2=
73.769 ( 72597.)
VPRS 1=
0.256
( 6002.)
VPR3 2=
0.252
( 5953.)
VPRI 3=
0.259
( 6027.)
VPRS 4=
0.255
( 5997. l' VPRI 5=
0.250
( 5939.)
SUMMARY
OF CDPRECTED DATA TIME = 1345 DATE = 0224 TEMPERATURE (DEGREE 3 R.) =
530.053 CORRECTED PRE 23URE (PSI Ai 73.5343
=
VAPOR PRE 23URE (PII A) 0.2540
=
Ov 1
',G -
%J IUMMARY DF MEA 3URED DATA AT 1400 0224 TEMP 1 =- 529.267
( 6963.)
TEMP 2=
529.457
( 6992.)
TEMP 3=
529.970
( 6923.)
TEMP 4=
530.440
( 7090.)
TEMP 5=
530.950
( 7122.)
TEMP 6=
531.396
( 7175.)
TEMP 7=
529.447
( 6992.)
TEMP-9=
530.414
( 7092.)
TEMP 9=
530.237
( 7064.)
TEMP 10.=
530.040
< 7046.)
TEMP 11 =
530.667
( 7109.)
TEMP 12 =
530.456
( 7099.)
TEMP 13 =
529.973
( 7040.)
TEMP 14 =
529.700
( 7010.)
TEMP 15 =
529.990
( 7029.)
TEMP 16 =
529.990
( 7042.)
TEMP 17 =
529.760
( 7019.)
TEMP 19 =
529.906
( 7031.)
PRES ~ 1 =
73.779 ( 74192.)
(f s)
PRES 2 =-
73.759 ( 72576.)
VPRI 1=
0.256
( 6000.)
VPRS 2=
0.250
( 5939.)
VPRS 3=
0.259
( 6024.)
VPRS 4=
0.254
( 5990.)
VPRS 5=
0.250
< 5939.)
SUMMARY
DF CDPRECTED DATR TIME = 1400 DATE = 0224 i
TEMPERRTURE (DEGREEI R.)
=
529.952 CD9RECTED PRESSURE (PSI A)
=
73.5249 i
VAPDP PPESSURE (PSI A) 0.2536
=
g
+%f g
m v4 4yvme y + g
-9mm
+
-<w y e tcy+
yP--
-ar
-v++++ee 1
W-e h wee
- =-m v-ms fa wawer-y e
t-e---
+-- - - * *-
l nV
SUMMARY
OF MERIURED DATA RT 1415 0224 l
TEND 1 =
529.217
( 6959.)
TEMP 2=
529.487
( 6 995. ~>
TEMP 3=
529.920
( 6919.)
TEMP 4=
530.330
( 7074.)
TEMD 5=
530.790
( 7115.)
TEMP 6=
531.246
( 7160.)
TEMP 7=
531.909
( 7229.)
TEMP 9=
530.163
( 7057.)
TEMP 9=
530.227
( 7059.i TEMP 10 =
529.970
( 7039.)
TEMP 11 =
530.537
( 7095.)
TEMP 12 =
530.406
( 7093.'>
TEMP 13 =
529.993
( 7032.)
TEMP 14 =
529.660
( 7006.)
TEMP 15 =
529.960
( 7025.)
TEMP 16 =
529.900
( 7033.)
TEMP 17 =
529.690
( 7012.)
TEMP 19 =
529.936
( 7024.)
s PRES 1
'73.770 ( 74194.)
=
)
PRES 2=
73.749 ( 72567.)
VPRS 1=
0.255. < 5999.)
VPRS 2=
0.251
( 5949.)
VPRS 3=
0.259
( 6024.)
VPRS 4=
0.254
( 5979.)
VPRS 5=
0.249
( 5917.)
SUMMARY
OF CORRECTED DATR TIME = 1415 DATE = 0224 TEMPERATURE (DEGREES R.)
529.914
=
CDRRECTED PRESSURE (PSIA) 73.5174
=
VAPDR PRES 3URE (PSIA) 0.2530
=
(~)h l
wtrw vem-+
e
,3w9 9'm1.-
y
,--m--g 7guir ew
,g v-y e
EP=='
t 7 t-
- C-*
-'*1w-y w-9 f airmgri
- -t--wy-
"--'HT
$WvW-e-
-*-1'
l l
4
(~')\\
SUMMARY
OF MEASURED DATR AT 1430 0224 4
TEMP 1 =
529.197
( 6956.)
TEMP 2=
529.417
( 6979.)
TEMP 3=
529.810
( 6917. '>
TEMP 4=
530.310
( 7067.)
TEMP 5=
530.910
( 7119.)
TEMP 6=
530.676
( 7103.)
TEMP 7=
529.436
( 6991.)
TEMP 8=
530.123
( 7053.)
TEMP 9=
530.107
( 7046.)
TEMP 10 =
529.930
( 7035.)
TEMP 11 530.537
( 7095.)
=
TEMP 12 =
530.376
( 7080.)
TEMP 13 =
529.953
( 7029.)
TEMP 14 =
529.610
( 7001.)
TEMP 15 =
S29.800
( 7019.)
TEMP 16 =
529.890
( 7031.)
TEMP 17 =
529.660
( 7009.)
TEMP 18 =
529.826
( 7023.)
[}
PRES 1 =
73.763 ( 74177,)
N/
PRES 2=
73.745 ( 72563.)
VPRS 1=
0.255
( 5991.)
VPRS 2=
0.251
( 5942.)
VPRS 3=
0.259
( 6025.)
VPRS 4=
0.255
( 5990.)
VPRS 5=
0.250
( 5936.)
SUMMARY
OF CORRECTED DATR TIME = 1430 DATE = 0224 TEMPERATUPE (DEGREES P.)
529.331
=
CORRECTED PRESSUPE (PSIR) 73.5097
=
VADOR PRESSURE (PSIR) 0.2537
=
l t
l
O IUMMARY OC MEASURED DATA AT 1445 0224 TEMP 1 =
529.207
( 6957.)
TEMP 2=
529.417
( 6979.i TEMP 3=
529.750
( 6911.)
TEMP 4=
530.250
( 7061.)
TEMP 5=
530.690
( 7106.)
TEMP 6=
530.616
( 7097.)
TEMP 7=
529.116
( 6949.)
TEMP S=
530.053
( 7046.)
TEMP 9=
530.047
( 7040.)
TEMP 10 =
529.990
( 7031.)
TEMP 11 5-530.437
( 7095.)
TEMP 12 =
530.356
( 7078.)
TEMP 13 =
529.913
( 7024.)
TEMP 14 =
529.610
( 7001.)
TEMP 15 =
529.760
( 7015.)
TEMP 16 =
529.920
( 7025.)
TEMP 17 =
529.630
( 7006.)
TEMP 19 =
529.326
( 7023.)
PPES 1 =
73.757 ( 74171.)
/"'N PREI 2=
73.739 ( 72557./
i N--l VPRI 1 =
0.255
( 5991.)
VPRS 2=
0.251
< 5949.)
VPRS 3=
0.259
( 6025.)
VPRS 4=
0.254
( 5933.)
VPRS 5=
0.250
( 5929.)
IUMMARY OF CORRECTED DATA TIME = 1445 DATE = 0224 TEMPERATURE (DEGREE 3 P.)
529.902
=
CORRECTED PRES $URE (PSIA) 73.5040
=
VAPDR PRESIURE (PSI Ai 0.2534
=
j
IUMMARY OF MEASURED DATA AT 1500 0224 TEMP 1=
529.157
( 6952.)
l TEMP 2=
529.407
( 6977.)
TEMA 3=
529.690
< 6905.)
TEMP 4=
530.190
( 7055.)
TEMP 5=
530.600
( 7097.)
TEMP 6=
930.556
( 7091.)
TEMP 72 530.057
( 7043.)
TEMP S=
530.063
( 7047.)
TEMP 9=
529.997
( 7034.)
TEMP 10 =
529.960
( 7029.)
TEMP 11 =
530.437
( 7095.)
TEMP 12 =
530.306
( 7073.)
TEMP 13 =
529.793
( 7021.)
TEMP'14 =
529.550
( 6995.)
i TEMP 15 =
529.700
( 7009.)
TEMP 16 =
529.900
( 7023.)
TEMP 17 =
529.620
( 7005.)
TEMP 18 =
529.767
( 7017.)
PRES 1=
73.753 ( 74167.:'
PPES 2=
73.733 ( 72552.:'
1 VPRS 1 =
0.255
( 5992. :a VPRS 2=
0.251
< 5942.)
VPRS 3=
0.259
( 6027.)
VPRS 4=
0.255
( 5996.)
VPRS 5=
0.249
( 5926.)
SUMMARY
OF CURRECTED DATA TIME = 1500 DATE = 0224 TEMPERATURE (DEGREES R.)
529.769
=
CORRECTED PRESSURE (PSIA) 73.5001
=
VAPOR PRESSURE (PSIA) 0.2534
=
Ov
OU IUMMARY OF MEASURED DATA 4T 1515 0224 TEMP 1 =
529.177
( 6954.)
TEMD 2=
529.417
( 6973.)
TEMP 3=
529.710
( 6907.)
TEMP 4=
530.200
( 7056.)
TEMP 5=
530.600
( 7097.)
TEMo 6=
530.556
( 7091.)
TEMo 7=
530.117
( 7049.)
TEMP 9=
530.033
( 7044.)
TEMP 9=
529.957
( 7031.)
TEMA 10 =
529.950
( 7027.)
TEMP 11 530.407
( 7032.)
=
TEMP 12 =
530.256
( 7069.)
TEMP 13 =
529.763
( 7019.)
TEMP 14 =
529.540
( 6994.)
TEMP 15 =
529.690
( 7009.)
TEMP 16 =
529.350
( 7029.)
TEMP 17 =
529.600
( 7003.)
TEMD 19 =
529.737
( 7014.)
PRES 1 =
73.749 ( 74162.)
PRES 2=
73.729 ( 72549.)
YPR3 1=
0.255
( 5999.)
VPRI 2=
0.251
( 5947.)
VPPS 3=
0.259
( 6029.)
VPRS 4=
0.254
( 5994.)
VPRS 5=
0.252
( 5953.)
SUMMARY
OF CURRECTED DATA TIME = 1515 DATE = 0224 TEMPERATURE (DEGREES R.)
529.762
=
CORRECTED PRESIURE (PIIA> =
?3.4945 VAPOP PRESSURE (PIIA) 0.2540
=
OO
(3 V-
'IUMMARY DF MEASURED DATA AT 1530 0224 TEMP 1=
529.157
( 6952.)
TEMP 2=
529.467
( 6993.)
TEMP 3=
529.690
( 6905.)
TEMP 4=
530.170
( 7053.)
TEND 5=
530.600
( 7097.)
TEMD 6=
530.526
( 7099.)
TEMP 7=
530.017
( 7039.)
TEMP 9=
.529.993
( 7039.)
TEMP 9=
529.917
( 7027.)
TEMP 10 =
529.920
( 7024.)
TEMP 11 530.357
( 7077.)
=
TEMP 12 =
530.266
( 7069.)
TKMP 13 =
529.743
( 7017.)
TEMP 14 =
529.510
( 6991.)
TEMP 15 =
529.650
< 7004.)
TEMP 16 =
529.780
( 7021.)
TEMP 17 =
529.550
( 6999.)
TEMP 19 =
529.717
( 7012.)
/'
PRES 1=
73.746 ( 74159.)
\\_]
/
PRES 2=
73.725 ( 72544.)
VPRI 1=
0.255
( 5990.)
YPRS 2=
0.251
( 5946.)
VPRS 3=
0.259
( 6025.)
VPRS 4=
0.254
( 5979.)
VPRS 5=
0.252
( 5960.)
IUMMARY DF CURRECTED D&TA TIME = 1530 DATE = 0224 TEMPERATURE (DEGREES R.)
529.737
=
CDPRECTED PPEISURE (PSIA) 73.4915
=
YAPOD PRESSURE (PSIA) =
0.2540
\\
(w
SUMMARY
OF MEASURED DATA AT 1545 0224 TEMP 1=
529.107
( 6947.)
TEMP 2=
529.417
( 6979.)
TEMP 3=
529.670
( 6903.)
TEMP 4=
530.140
( 7050.)
TEMP 5=
530.570
( 7094.)
TEMo 6=
530.506
( 7096.)
TEMP 7=
529.406
( 6979.)
TEMP 9=
530.023
( 7043.)
TEMP 9=
529.907
( 7026.)
TEMP 10 =
529.900
( 7022.)
TEMP 11 =
530.367
( 7079.'s TEMP 12 =.530.216
( 7064.)
TEMP 13 =
529.693
( 7011.)
TEMP 14 =
529.490
( 6999.)
TEMP 15 =
529.640
( 7003.)
TEMP 16 =
529.790
( 7022.i TEMP 17 =
529.530
( 6996.)
TEMP 19 =
529.697
( 7010.)
PRES 1
73.742 ( 74155.)
=
(N PRES 2=
73.722 < 72541.)
VPRS 1 =
0.255
( 5999.)
VPRS 2=
0.251
( 5950.)
VPRS 3=
0.259
( 6031.)
VPRS 4=
0.254
( 5974.)
VPRS 5=
0.251
( 5949.)
IUMMARY OF CORRECTED DATR TIME = 1545 DATE = 0224 TEMPERATURE (DEGREES R.)
529.706
=
CDPRECTED PRESSURE (PSI A's 73.4879
=
VAPOR PRESSURE (PSIA) 0.2539
=
()- -
(
i
SUMMARY
OF MEASURED DATA AT 1600 0=24 TEMP 1=
529.107
( 6947.1 TEMP 2=
529.407
( 6977.)
TEMP 3=
529.690
( 6905.)
TEMP 4=
530.150
( 7051.)
TEMP 5=
530.660
( 7103.)
TEMP 6=
530.496
( 7034.)
TEMP 7=
529.236
( 6961.)
TEMP S=
530.003
( 7041.)
TEMP 9=
529.937
( 7029.)
TEMP 10 =
529.760 C 7019. )
TEMP 11 =
530.337
( 7075.)
TEMD 12 =
530.196
( 7062.)
TEMP 13 =
529.713
( 7014.)
TEMP 14 =
529.460
( 6936.)
TEMP 15 =
529.'620
( 7001.)
TEMP 16 =
529.750
( 7019.)
TEMP 17 =
529.500
( 6993.)
TEMP 19 =
529.667
( 7007.)
I~
PRES 1 =
73.739 ( 74152.)
(>3 -
PRES 2=
73.719 ( 72539.)
VPRS 1=
0.255
( 5990.)
VPRS 2=
0.251
( 5949.-
VPRS 3=
0.259
( 6026.)
VPRS 4=
0.254
( 5993.)
VPRS 5=
0.252
( 5959.)
SUMMARY
OF CDRRECTED DATA TIME = 1600 DATE = 0224 TENDERATURE (DEGREES R.)
529.696
=
CORRECTED PRESSURE (PSIA) =
73.4844 VAPOR PRESSURE (PSIAi =
0.2541 0
1
("%
SUMMARY
OF MEASURED DATA AT 1615 0224 TEMP 1 =
529.167
( 6953.:)
TEMP 2=
529.397
( 6976.)
TEMP 3=
529.740
( 6910.)
TEMP 4=
530.140
( 7050.)
TEMP 5=
530.690
( 7106.)
TEMP 6=
530.446
( 7090.)
TEMP 7=
529.326
( 6970.)
TEMP S=
529.953
( 7036.)
TEMP.
9=
529.987- ( 7024.)
TEMP 10 =
529.7x0
( 7020.)
TEMP 11 530.297
( 7071.)
=
TEMP 12 =
530.196
( 7062.)
TEMP 13 =
529.693
('7012.)
TEMP 14 =
529.460
( 6996.)
TEMP 15 =
529.600
( 6999.)
TEMP 16 =
529.770
( 7020.)
TEMP 17 =
529.470
( 6990.)
TEMP 18 =
529.667
( 7007.)
PRES 1 =
73.737 ( 74150.)
PRES 2=
73.716 ( 72535.)
YPRS 1 =
0.255
( 5991.)
VPRS 2=
0.252
( 5952.)
'VPRS 3=
0.259
( 6022.)
VPRS 4=
0.255
( 5999.)
VPRS 5=
0.251
( 5942.)
SUMMARY
OF CORRECTED DATA TIME = 1615 DATE = 0224 TEMPERATUPE (DEGREES R.)
529.695
=
CURRECTED PRESSURE (PSI A) 73.4927
=
VAPOR PRESSURE (PSIA) 0.2539
=
r
SUMMARY
OF MEASURED DATA AT 1630 0224 TEMP 1=
523.127
( 6849.)
TEMP 2=
529.447
( 6931.)
TEND 3=
529.490
( 6335.)
TEMP 4=
530.120
( 704).)
TEMP 5=
530.510
( 7089.)
TEMP 6=
530.426
( 7079.)
TEMP-7=
529.176
( 6955.)
TEMP 9=
529.913
( 7032.)
TEMP 9=
529.867
( 7022.)
TEMP 10 =
529.770
( 7019.)
TEMP 11 530.367
( 7079.)
=
TEMP'12 =
530.176
( 7060.)
TEMP 13 =
529.653
( 7009.)
TEMP 14 =
529.430
( 6993.)
TEMP 15 =
529.590
( 6993.)
TEMP 16 =
529.750
( 7019.)
TEMP 17 =
529.500
( 6993.)
TEMP 19 =
529.647
( 7005.)
PRES 1=
73.734 ( 74147.)
-( )
PRES 2=
73.714 ( 72533.)
VPRS 1=
0.255
( 5935.4 VPRS 2=
0.251
< 5945.)
VPRS 3=
0.259
( 6025.)
VPRS 4=
0.254
( 5990.)
VPRS 5=
0.249
( 5924.)
SUMMARY
OF CORRECTED DATA TIME = 1630 DATE = 0224 TEMDERATURE (DEGREES R.)
529.664
=
CORRECTED PRESSURE (PSI A) 73.4905
=
VAPUR PRESSURE (PSI A) 0.2531
=
f%U f
pw.-,
m w
e-
-ty y'-'e'
'N'ME* * " "*" "'"" '~" '* '
SUMMARY
OF MEASURED DATA AT 1645 0224 i
TEMP 1 =
529.157
( 6952.)
TEMP 2=
529.477
( 6994.)
TEMP 3=
529.630
( 6904.)
TEMP 4=
530.030
( 7044.)
TEMP 5=
530.600
( 7097.)
TEMP 6=
530.506
( 7096.)
q TEMP 7=
529.016
( 6939.)
J TEMP 9=
529.833
( 7024.)
TEMP 9=
529.957
( 7021.)
TEMA 10 =
529.750
( 7017.)
TEMP 12 =
530.307
( 7072.)
TEMP 12 =
530.176
( 7060.)
TEMP 13 =
529.643
( 7007.)
TEMP 14 =
529.440
( 6994.)
TEMP 15 =
529.570
( 6996.)
TEMP 16 =
529.730
( 7016.)
TEMP 17 =
529.440
( 6997.)
TEMP 18 =. 529.637
( 7004.)
PRES 1=
73.732 ( 74145.)
()
PRES 2=
73.712 ( 72531.)
VPAS 1=
0.255
( 5996.)
VPRS 2=
0.251
( 5950.)
VPRS 3=
0.259
( 6020.)
{
VPPS 4=
0.254
( 5979.)
VPPS 5=
0.249
( 5923.)
SUMMARY
OF CDRRECTED DATA TIME = 1645 D9TE = 0224 TEMPERATURE (DEGREES P.)
529.665
=
l l
CORRECTED PRESSURE (PSIA) 73.4736
=
VADOR PRESSURE (PSIA) 0.2531
=
(
L O
SUMMARY
OF MEASURED DATA AT 1700 0224 TEMP 1
529.187
( 6955.)
=
TEMP 2=
529.417
( 6978.)
TEMP 3=
529.620
( 6999.)
TEMP 4=
530.100
( 7046.)
TEMP 5=
530.560
( 7093.)
TEMP 6=
530.476
( 7093.)
TEMP 7=
529.996
( 6936.)
TEMP 9=
529.943
( 7025.)
TEMP 9=
529.797
( 7015.)
TEMP'10 =
529.740
( 7016. :a TEMP 11
' 530.297
( 7071.)
=
TEMP 12 =
530.186
( 7061.)
TEMP 13 =
529.653
( 7003.)
-TEMP 14'=
'529.430
( 6993.)
TEMP 15 =
529.560
( 6995.)
TEMP 16 =
529.310
( 7024.)
TEMP 17 =
529.470
( 6990.)
TEMP 18 =
529.647
( 7005.)
PRES 1 =
73.731 ( 74144.)
(~N PRES 2=
73.710 ( 72529.)
VPRS 1=
0.255
( 5990.)
VPRS 2=
0.252
< 5956.:'
VPRS 3=
0.259
( 6024.)
VPRS 4=
0.254
( 5979.)
VPRS 5=
0.252
( 5959.)
SU:1 MARY OF CORRECTED DATA TIME = 1700 DATE = 0224 TEMPERATURE (DEGREES R.)
529.667
=
CORRECTED PRESSURE (PSI A) 73.4765
=
VAPOR PRESSURE (PSIA) 0.2541
=
O
l
%J
SUMMARY
OF MEASURED DATA AT 1715 0224 TEMP. 1 =
529.197
( 6956.)
TEMP - 2 =
529.447
( 6991.)
TEMP 3=
523.480
( 6894.)
TEMP 4=
530.110
( 7047.)
TEMP 5=
530.410
( 7079.)
TEMP 6=
530.436
( 7079.)
TEMP 7=
529.216
( 6959.)
TEMP 9=
529.363
( 7027.)
TEMP 9=
529.797
( 7015.)
TEMP 10 =
529.740
( 7016.)
TEMP 11 =
530.317
( 7073.)
TEMP 12 =
530.166
( 7059.)
TEMP 13 =
529.633
( 7006.)
TEMP 14 =
529.390
( 6978.)
TEMP 15 =
529.590
( 6997.)
TEMP 16 =
529.690
( 7012.)
TEMP 17 =
529.460
( 6999.)
TEMP 18 =
529.597
( 7000.)
PRES-1 =
73.729 ( 74142.)
/
PRES 2=
73.709 ( 72528.)
.VPRS 1 =
0.255
( 5999.)
VPRS 2=
0.250
(.5937.)
VPRS 3=
0.259
( 6029.)
VPRS 4=
0.255
( 5992.)
YPRS 5=
0.252
( 5951.i
SUMMARY
DF CDPRECTED DATA TIME = 1715 DATE = 0224 TEMPERATURE (DEGREES R.)
529.635
=-
CORRECTED PRESSURE (PSI A)
=
73.4746 1
VAPOR PRESSURE (PSIA) =
0.2541 q
e
-4'-'apa---m=-t gT*wgew,+*eg 9m'e=
es w t' y
y-_-*9.---*
gg-Tw 9-y y --
w+
se r r-p.'rgv-""r--'T=
MIP-s$
- M-T"9Sf we TT
- "M+7--
y
'--'+t*Iv'9t-+
9 PT
ZEGE *O
'EI!c) 3en!!3sd dCeE/
=
6E2t 'E2
' V I! c) 360!!3hd G3103hhCO
=
6E9*6EG
(*e 5336530) Ebn1663cW31
=
tEFO = 316G OE2T = 3WII E1EC G3103)J6C! iC / 6EWkn!
<*0GGG )
TGE *O G
SEcA
=
<*GiGG )
tGE *C
= t
!ddA
*E209 )
EGE *0 E
SbdA
=
':
- E t 6 G >
TGE*0
= 2
! eda c'066G )
GGE *O
= T
!. f dA r.*iEGE2 ) 602*E2 2
!3de
=
(*TritZ > Ec2*E2
= T 53dc ET dW31 h
(*T002 >
209*6ES
=
i'6669 *)
09t*6EG
= 21 ek31 i*0E02 )
022*62G 91 cW31
=
<
- t669 )
OGG'6EG GT cW31
=
1.*6269 )
06E*6ES ti dW31
=
(*2002 )
Et9*6EG ET cW31
=
(*EG02 )
ZGT'0EG ET dW31
=
c.*E202 >
20E*0EG TT dW31
=
('tT02 )
0E2*62G OT cW31
=
<*6002 )
ZEZ'6cG 6
cW31
=
/*EE02 )
EEE *6EG 6
eW31
=
i:'GG69 )
92T'6EG 2
cW31
=
- '6202 )
9Et*0EG
= 9 dW31
("EE02 >
OTG'OES G
cW31
=
1*Gt02 >
060'0EG
=t cW31
(*2EE9 )
OTG*EEG E
eW31
=
i *t269 )
22E'625
=2 cW31
<*EGE9 )
29T*EEG
= T cW31 tE20 OE4T 16 b1EG G360!E3W iC AbEWWn!
1 1
1 1
i O
9EG2 *O
'6I!c) 360!!36d hCebe
=
TEZt*EZ e6I!c) Shn!!3hd 03103hECO
=
969 *62G
<*h 533h?3G) 3601663eW31
=
t220 = 316G Grif = 3WII 6160 G3103dhCO dC Ah6WWr!
<*tE6G >
0G2 '0
=G
!bdA
(*966G >
GGE *0
=t ShdA
(*2E09 )
6G2 *0
=E ShdA
<*0tdG )
TGe*O
=2 Shet
(*266G )
GG2 *O T
ShdA
=
("G2G22 ) 902 *E2
=2 53hd r*0titi ) ic2 *E2 l
T 53hd
=
('0002 )
26G'62G
= ET eW31
< *EE69 )
OGr*62G
= ZT cW31
/*ET02 )
002'62G
= 9T dW31
(*2669 )
OEG '62G
= GT eW31
(*E269 )
OEE*62G
= ti eW31
(*G002 )
E29*62G
= ET eW31
(*T902 )
9ET*0EG
= 2T eW21
(*E202 )
ZTE*0EG TT cW31
=
<*ET02 >
OT2*62G
= OT cW31
(*9T02 >
20E*62G
=6 cW31
<*E202 >
E26 *62G
=E cW31
< *EG02 )
ZGT*0EG
=2 dW31
(*6202 )
96t*0EG
=9 eW31
<*20T2 )
OG9*0EG
=G eW31
'*Et02 ?
020'0EG
=t cW31 C'006? )
Ot9'EEG
=E eW31 r *6269 )
22t *6cG
=2 eW31 v '2GE9 )
2GT'62G
= T eW31 t220 Gr2T 16 616G 03h0!63W dC A66WWO!
O
=.
t i
SUMMARY
OF MEASURED DATA AT 1315 0224 TEMP 1'=
523.067
.( 6343./
TEMD 2=
329.297
( 6966.>
TEMP 3=
523.460
( 6332.)
TEMP 4= ~529.960
( 7032.'s TEMP 5=
530.360
( 7 073..>
TEMD 6=
530.506
( 7 0 36. >
TEMD 7=
529.377
( 7025.)
TEMP 3'=
529.713
( 7012.)
TEMP 9=
529.757
-( 7011.>
TEMA 10 =
529.590
( 7001.)
TEMP 11 530.157
( 7057.3
=
?
TEMP 12 =
529.947
( 7037.)
TEMP 13 =
529.463
( 6939.)
TEMP 14 =
529.240' ( 69s4.>
TEMP 15 =
529.400
( 6979.)
TEMP 16 =
529.630
( 700s.)
TEMP 17 =
329.310
( 6974.'s TEMP 13 =
529.457
( 6936.)
O v
PRE 3 1 =
73.715 ( 74123.)
PRE 3 2=
73.696 ( 72515.>
VPRI 1=
0.253
( 5972.
VPRS 2=
0.249
( 5925.e VPR3 3=
0.257
( 6009.:s VPR3 4=
0.254
( 5979.>
VPRS 5=
0.251
( 5949.)
i l
l r
l IUitiARY Je 00RRECTED DATA TIME = 1915 DATE = O224 TEM *ERATURE (DEsREEI R.)
529.512
=
OJORECTED DRE33JRE (03I A' 73.4617
=
VADD? sRE33URE (33IA>
0.2530
=
1 i
..... -..,..,.., ~... -,.. -, -,..,
,,,,, -. ~ -.
--,-~,,-n-~.r,-n.--a,~~-
-e-
- - ~ - *
<,-v--wwm wr=
e-w v v ~ r e ~ r n *-*
,cws~^
fM y
IUMMARY 3~ MEAIURED DATA AT 1330 0224 TEMP 1=
523.147 - < 6351.)
TEMP 2=
529.437
( 6930.i TEMP 3=
523.430
< 6379.i TEMP 4=
530.010
( 7037.)
TEMD 5=
530.300
( 7067.)
TEMP 6=
530.296
( 7065.>
TEMP 7=
523.766
( 6914.)
TEMP 3=
329.743
( 7015. :e TEMP 9=
529.637
( 7004.'s TEMD 10 =
529.670
( 7009.4 TEMP 11 =
530.207
( 7062.)
TEMP 12 =
530.027
( 7045.)
TEMP 13 =
529.503
( 6993.)
TEMP 14 =
524.230
( 6963..i TEMP 15 = ' 529.430
< 6932.4 TEMP 16 =
529.660
( 7009.)
TEMP 17 =
529.390
( 6932.s TEMP 13 =
529.507
( 6991.)
~ f
PREI 1
73.717 ( 74130.s
=
PRE 5 2=
73.697 ( 72516.)
VPRI. 1 0.255
( 5937.>
=
V?R5 2=
0.249
('5923.)
VPRS 3=
0.257
( 6010.)
VPR3 4 =
0.253
( 5 97 3. '>
VPRI 5=
0.252
( 5960.)
IUMM99Y OF 00RRECTED DAT9 TIME = 1330 DATE = 0224 TEMPERATURE (DE6REEI R. >
529.539
=
C3RRECTED PREISURE (#3IAs 73.4633
=
VADOR PREI3URE (P3I Ai
=
0.2534
- (
r y
-,"y,,y-rvw.or
--+-+, -, -w syy*,
c y
--ow.-
w.,-,6 y,-,.-ei
- s
- w w-
--,s.,-g y-,w-+
--,,y-
,ww--
, - ---,=w e or
,4re -, a w
3
-w n1- -,ww--
v- - -tr--war 1~,+
=. -
I
)
J 3UMMAR/ DF MEASURED D9TA AT J345 0224 TEM
- 1 523.167
< 6353.)
=
TEM" 2-=
529.377
( 6974..'
TEMP 3=
' 523.530
( 6394.>
TEMD-4=
- 530.000
(-7036.)
TEMP 5=
530.390
( 7076.>
TEMP 6=
- 530.406
( 7076...
TEMP. - 7=
523.396
( 6927.e TEMD= 3=
529.753
( 7016..
TEM
- 9=
529.717 C 7007...
TEMP 10 =- 529.630
( 7010.)
TEMP 11 530.207
(-7062.i
=
TEMP 12 =
530.047
( 7047.'>
TEM
- 13
- 529.573
( 7000.s TEM
- 14 =
529.300
( 6970.i TEMP 15 =
529.470
( 6936.)
TEMP 16 =
529.690
( 7012..e TEMP 17 =
529.370
( 6930.>
TEM
- 13 =
529.507
( 6991.>
PREI 1
73.713 ( 74131.'
=
PRES 2-=~
73.693 ( 72517.>
VPRI
- 1. =
0.254'
( 5930.>
VPRI 2=
0.250
( 5930.4
/PRI 3=
0.257
-( 6013.>
'VPR3 4=
0.255
( 5935.>
V"RS 5=
0.251
( 5945.'i SUMMARf 0F 0]RRECTED DATA TIME = 1345 DATE = 0224 TEMPERATURE (DEGREES R. /
529.566
=
CDRRECTED PRES 3URE
(* IIA' 73.4644
=
VADOR ?RE33URE (PSI 9' 0.2533
=
W
,,v.
,,-e.<,r,,
y--,
.,,,+w,-,
,,-,,y,-%y.wy.,_,
y
,-,,,,,n,.-.-
.,....,.,,%-e.,
.-c.,,,,w,,,..w..,
-,-_,.,y,.
,,..,.o,w-1,v..ew.,,,c
(
r IUMMARY OF MEASUR5D DATA AT 1900 0224 L
TEMP 1=
523.147
( 6351.)
TEMP 2=
529.397
( 6976.)
TEMo 3=
523.470
( 6333.~e TEMD 4=
530.030
( 7039. :e TEMP 5=
530.450
( 7032.s TEMS 6=
530.326
( 7063.>
TEMP 7=
529.737
( 7016.)
TEMP 3=
529.773
( 7013.)
TEMP 9=
529.637
( 7004.>
TEMP 10 =
329.690
( 7011.)
TEMP 11 =
530.227
( 7064.)
TEMP 12 =
530.027
( 7045.)
TEMP 13 =
529.533
( 7001.>
TEMP 14 =
529.290
( 6 96 9. >
TEMP 15 =
529.470
( 6936.)
TEMP 16 =
529.630
< 7 011. '>
TEMP 17 =
529.420
( 6935.>
TEMD 13 =
529.537
( 6994.>
/" '
PRE 3 1 =
73.713 ( 74131.)
PRES 2' =
73.693 ( 72517.)
VPR3 1=
0.254
( 5932.)
VPRI 2=
0.250
( 5936...
VPR3 3=
0.253
( 6019.)
VPRI 4=
0.255
( 5935..'
VPRI 5=
0.251
('5943.>
IUMMAR/ 3.
CORRECTED DATA TIME = 1900 DATE = 0224 TEMDERATURE (DEGREE 3 R.)
329.530
=
CORRECTED "PE33URE (PII A>
73.4641
=
VA*DR PREISURE (P3IA>
0.2536
=
Y IUMMARY JF MEAIURED DATA AT 1915 0224 TEMP 1
523.197
( 6356.e
=
TEMP 2=
52?.427
( 6979.)
TEMP 3=
523.730
( 6909.)
TEMP 4=
530.040
( 7040.>
TEMP 5=
530.460
( 7033.>
TEMP 6=
530.456
( 7031.>
TEMP 7=
529.196
( 6957.)
TEMP 3=
529.793
( 7020.>
TEMo 9=
529.727
( 7003.)
TEMP 10 = ~529.720
( 7014.>
TEMP 11 =
530.227
( 7064.)
TEMP 12 =
530.037
( 7043.)
TEMP 13 =
529.533
( 7001.>
TEMD 14 =
329.320
( 6972.)
TEMP 15 =
529.430
( 6937.)
TEMP 16 =
529.730
( 7016.e TEMP 17 =
529.420
( 6935.>
TEMP 13 =
329.477
( 6933.)
?REI 1 =
73.719 ( 74132.s PREI 2=
73.693 ( 7251?.)
VPRI 1=
0.255
( 5936.)
VPRI 2=
0.250
( 5933.)
VPRI 3=
0.257
( 6012.>
VPRI 4=
0.254
( 5976.)
VPRI 5=
0.252
< 5951.)
IU:11AR f 37 C3RRECTED DATA TIME = 1915 DATE = 0224 TEMPERATURE (DEGREEI R.)
529.593
=
IJRRECTED PREIIURE (PIIA) 73.4654
=
()
/ADJR ?REIIJRE (PII A.
0.2533
=
. r s.
l V) t IUMMARY 3~ MEAIURED DATA AT 1930 0224 TEMP 1 =
523.137
( 6355.)
TEMP 2=
329.407
( 6977.)
TEMP 3'=
523.530
( 6394.>
TEMP 4=
530.030
( 7039.)
TEMP 5=
530.350
( 7072./
TEMP 6=
530.406
( 7076./
TEMP 7=
529.056
( 6 94 3. >
TEMP 3=
529.753
( 7016.)
TEMP 9=
529.697
( 7005.>
TEMP 10 =
529.710
( 7013.)
TEMP 11 =
330.207
( 7062.)
TEMP 12 =
530.077
( 7050.)
' TEMP 13 =
529.593
( 7002.>
TEMP 14 =
529.320
( 6972.>
TEMP 15 =
529.490
( 6933.)
TEMP 16 =
329.750
( 7013./
TEMP 17 =
529.390
( 6932.)
TEMP 13 =
529.517
( 6992.)
PRES 1=
73.719 ( 74132.)
PRE 3 2=
73.693 ( 72517.1 VPRI 1 =
0.255
( 5936.)
V?RS 2=
0.250
( 5937.i VPR3 3=
0.253
( 6022.>
VPRI 4=
0.255
( 5937.'s VPRI 5=
0.251
( 5945.>
IUMMARY 3.: C3RRECTED DATA i
TIME = 1930 DATE = 0224 TEMPERATURE.< DEGREE 3 R.1 529.535
=
03RRECTED PRESIJRE (PSIA' 73.4650
=
VAPJR PREIIJRE (PIIA>
0.2537
=
[~
s i
1
.-y-,-
+,v--r.
,m e
r--,
-srw----,
,,,.e-y,,--.
,...r,4~t
-ey,.e twe w.c<w+-m-r-r=
w-
-gU I'JMM9RY 3* ME9SURED D9T9 9T 1945 0224 TEMP' 1 =
523.197
( 6356.>
TEMP 2=
529.477
( 6934.i TEMP 2 =
523.710
( 6907.*
TEMP 4 =
530.000
( 7034.s TEMD 5=
530.460
( 7033..'
TEMD 4=
530.446
( 7032...
TEMD 7=
529.747
( 7012.s TEMD 3=
529.733
( 7019..'
TEMD 9=
529.737
( 7009.1 i
TEMP 10 =
529.700
( 7012.)
l
'TEMD 11 =
~
530.257
( 7067.i TEMD 12 =
530.117
( 7054.
l 7002.'
TEMD 13 =
529.593
(
TEMP 14 =
529.320
( 6972.)
TEMP 15 =
529.490
( 6933.i TEMo 16 =
529.770
( 7020.i TEND 17 =
529.410
( 4934.3 TEMD 13 =
529.517
( 6992.)
l
- REI 1=
73.719 ( 74132.i PREI 2=
73.493 ( 72517.i VDRI 1 =
0.254
( 5932.i VPRI 2=
0.250
( 5939.'
VDRS 3=
0.257
( 4017.'
VDRI 4=
0.254
( 5930.*
VPRS 5=
0.251
( 594 9. a 1
1 IUM197Y 38 03RRECTED 39T9 TIME = 1945 D9TE = 0224 l
TEM *ERATURE (DEGREEI R.i 529.419
=
l 030RECTED 3REI3URE (*II9e 73.4652
=
1983R *REIIURE (DI!9 0.2535
=
1 ATEST3 02/25/81 11:21PST
SUMMARY
DATA l
ARKANSAS NUCLEAR DNE ILRT AT 59 PSIG ALMAX = 0.200 VDL = 1910000.00 o
o TIME DATE TEMP PRESSURE VPRS 2000 224 529.61530
- 73.464889 0.25379908 2015 224 529.62564 73.465120 0.25356730 2030 224 529.62463 73.465798 0.25288924 2045 224 529.63177 73.465487 0.25320122 2100 224 529.63046 73.464063 0.25363127 2115 224 529.61636 73.464657 0.25303742 2130 224 529.63886 73.464235 0.25345945 2145 224 529.63367 73.464175 0.25351916 2200 224 529.63765 73.464090 0.25360347 2215 224 529.64468 73.464564 0.25312987 2230 224 529.64830 73.464290 0.25340423
_[2300 J245 224 529.62591 73.463717 0.25397750 224 529.67610 73.464250 0.25344437 2315 224 529.68372 73.463771 0.25392362 2330 224 529.67970 73.464935 0.25474634 2345 224 529.69705 73.466254 0.25342712 0
225 529.68667 73.466413 0.25326931 15 225 529.69527 73.466724 0.25295771 30 225 529.70030 73.466509 0.25317264 45 225 529.65942 73.469705 0.25395276 100 225 529.67233 73.470912 0.25373993 115 225 529.67555 73.471169 0.25348418 130 225 529.70988 73.471477 0.25416961 145 225 529.70725 73.472938 0.25370174 200 225 529.71412 73.473135 0.25350482 215 225 529.76042 73.471610 0.25502995 230 225 529.75677 73.474096 0.25454278 245 225 529.75845 73.476331 0.25428560 300 225 529.77067 73.477518 0.25409199 315 225 529.78767 73.478996 0.25360774 330 225 529.80055 73.478512 0.25409183 345 225 529.79969 73.479342 0.25425579 400 225 529.90936 73.490771 0.25382106 415 225 529.80830 73.482465 0.25411580 430 225 529.94332 73.482904 0.25467034 445 225 529.95211 73.482915 0.25475960 500 225 529.84493 73.485065 0.25449824
('~}/ 515 s,,
225 529.95980 73.496032 0.25452479 530 225 529.35952 73.489313 0.25323917 545 225 529.99272 73.489208 0.25333730 0
0
- 0. 0
- 0. 0
- 0. 0
h IU199RY J: ME9I9 RED D9TA AT 2000 0224
-TEMD 1=
523.207
( 6357.i TEMD 2=
329.437
( 6930.)
TEMD 3=
523.740
( 6910.i TEMD 4=
530.000
( 7036.4 TEMD 5=
530.430
( 7030.'
TEMS 6=
530.466
( 7032.i TEMD 7=
529.076
< 6945.i TEMs 3=
529.733
( 7019.i TEMo 9=
529.737
( 7009.i TEMD 10 =
529.740
( 7016.i
-TEMD 11 =
530.267
( 7063.s TEMD 12 =
530.137
( 7056.s TEMD 13 =
529.613
( 7004.i TEMS 14 =
529.330
< 6973.8 TEMD 15 =
529.470
( 6936.'
TEMD 16 =
529.770
( 7020.i TEMD 17 =
529.420
( 6935.)
f TEMP 13 =
529.537
( 6994.'
DRES 1 =
73.719 ( 74132.i "RE3 2a 73.693 ( 72517.s VPRI 1=
0.255
( 5936.e VDRI 2=
0.250
( 5937.4 VDRS 3=
0.253
< 6019.*
VDR3 4=
0.256
(.5997.i V3RI 5=
0.251
( 5943.i IU199RY 3: CURRECTED D979 1
TIME = 2000 D9TE = 0224 TEMPER 9TUDE (DE3REFI R.*
529.615
=
03RRECTED 3REISURE (DII9' 73.4649
=
l
5 _j)
V930R 3REIIURE (*3194 0.2533
=
y w,r - % y.e p--ee y,
-,v-,,
.v.,..w.r...g.-w-
,y.
-m----,w,-
. v w,. e
,.3-,.,-rww.,,,m.,ww.co.r,.-e,-
.,,.wew..,..,#..
...p.,y---,-.,c-.--w,-.-r,w, c
f IV.t19PY 0F men 39 RED D979 AT 2015 0224 TEMD 1 =
523.227
( 6359.'
TEMP 2=
529.427
( 6979..
+
TEMo 3=
523.730
( 6914.s TEMP 4=
530.020
( 7033.4 TEMP 5=
530.500
( 7037..i TEMD 6=
530.466
( 7032.'
TEMs 7=
529.957
( 7033.i TEMP 3=
529.773
( 7013.4 TEMP 3=
529.727
( 7003.s TEMD 10 =
529.740
( 7016.1 TEMo 11 =-
530.247
( 7066..
TEMP 12 =
530.117
( 7054.e TEMP 13 = -529.603
( 7003.i TEMo 14 =
529.310
< 6971.1 TEMo 15'=
529.490
( 6933.4 TEMD 16 =
529.750
( 7013.s TEMo 17 =
529.420
( 6935.)
TEMD 13 =
529.537
( 6994.*
s DREI. 1 =
73.719 ( 74132.)
l PREI 2=
73.693 ( 72517.3 VPRI 1 =
0.255
( 3937..
VPRI 2 =.
0.250
< 5936.e VPRI 3=
0.253
( 6024.s VDRI 4=
0.255
( 5992.2 VsRS 5=
0.250
( 5935.*
3 IV.1199f J: OORRECTED D9T9 TIME = 2015 D9TE = 0224 TEMoER9TURE (DEGPEEI R. s 529.326
=
03RRECTED PPEISURE (33I9) 73.4651
=
V9POR *REIIURE (PII9i 0.253s
=
[
_,,,.ge--,,_
w-+~
-a-
l 1
ai (m,/
3J1M9RY JF MEA 3URED DATA 97 2030 0224 TEMD 1 =
523.227 i 6359.>
TEMP 2=
529.447 1 6931.>
TEM
- 3=
523.530
( 6394.)
TEMP 4=
530.030
( 7039.*
-5 =
530.460
( 7033.>
TEMD 6=
530.466
( 7032.s TEMP
.7 =
529.937
( 7036.i TEMP 3 =. 529.313
( 7022.)
TEMo 9=
329.717
( 7007.1 TEMP 10 =
329.740
( 7016.)
TEMP 11 530.257
( 7067.)
=
TEMP 12 =
530.137
( 7056.>
TEMo 13 =
529.613
( 7004.7 TEMP 14 =
529.300
( 6970.)
TEMP 15~=
529.510
( 6990.')
TEMP 16 =
529.730
( 7016.)
TEMP 17 =
529.430
( 6936.)
TEMo 13 =
529.557
( 6996.)
PRE 3 1=
73.719 ( 74132.)
f-PREI 2=
73.693 ( 72517.)
(
VDRS 1
0.255
( 5937.)
=
VPRS 2=
0.250
( 5935.)
VPRI 3=
0.253
( 6019.)
VPRS 4=
0.254
( 5930.)
VPRS 5=
0.249
( 5923.)
SU1M99Y 33 CORRECTED D9T9 TIME = 2030 DATE = 0224 TEMPERATURE (DEGREE 3 R.)
529.625
=
03RRECTED DREIIURE (DIIAa 73.4653
=
VADDP PRE 31URE (PSIAi 0.2529
=
,~
\\
A SUMM9RY OF MEASURED DATA AT 2045 0224 TEMP 1 =
523.217' ( 6353.i TEM 5 2=
529.477
( 6934.4 TEMP 3=
523.730
< 6909.)
TEMP 4~=
530.050
( 7041.>
TEMP 5=
530.600
( 7097.i TEND 6=
530.536
( 7039.'
TEMP 7=
529.336
( 6976.
. TEMP 3=
529.733
( 7019.)
TEMP 9=
529.637
( 7 0 04. ~e TEMP 10 =
529.700
( 7012.
TEMP 11 =
530.237
( 7065.>
TEMP 12 =
530.147
( 7057.>
TEMP 13 =
529.613
( 7004.)
TEMS 14 =
529.310
( 6971.)
TEMP 15 =
529.520
( 6 991..)
TEMP 16 =
529.690
( 7012.)
TEMP 17 =
529.430
( 6936.)
TEMP 13 =
529.547
( 6995.)
PRES 1a 73.719 ( 74132.)
PRES 2=
73.693 ( 72517.)
VDRS 1=
0.255
( 5937.)
VPRS 2=
0.250
( 5933.)
.VPRS 3=
0.253
( 6013.1 VPRS 4=
0.254
( 5930.4 VPRS 5=
0.250
( 5935.)
SUMM9RY 3* 03RRECTED DATA TIME = 2045 D9TE = 0224 TEMPERATU9E (DEGREES R. >
529.632
=
33RRECTED *RESSURE ("SI9' 73.4655
=
/aPOR PRESSURE (DSIA) 0.2532
=
t
~\\
~..
.. _, _. _, _,,. _ _,, -.~, _. - _ _
OO SU,11ARY 3: MEASURED DAT9 AT 2100 0224 TEMD l'=
523.197
( 6356.)
TEMP 2=
529.417
( 6973.)
TEMo 3=
523.750
( 6911.>
TEMP 4=
530.050
( 7041.'s TEMD 5=
530.610- ( 7093.>
TEM
- 6=
530.456- ( 7031.)
TEM
- 7=
529.617
( 6999.i TEMc 3=
529.7s3
( 7017.)
TEMP
.9=
529.727
( 7003.4 TEMo 10 =
529.730
( 7015.7 TEMD 11 =
530.247
( 7066.>
TEMP-12 =
530.037
( 7051.)
TEMP 13 =
529.613
( 7004.)
TEMo 14 =
529.310
( 6971.)
TEMD 15 =
529.530
( 6992.)
TEMP 16 =
529.740
( 7017.)
TEMS 17 =
529.430
( 6936.e TEMo 13 =
529.557
( 6996.)
PREI 1 =
73.713 ( 74131.)
DRES 2=
73.697 ( 72516.>
.,Q V
VPRI 1 =
0.255
.( 5991.)
VDRS 2=
0.250
( 5937.i VPRS 3=
0.257
( 6011.1 VPRI 4=
0.254
( 5932.i VPRI 5=
0.252
( 5954.>
SUMMARY
OF C3RRECTED DATA TIME = 2100 D9TE = 0224 TEMPERATURE (DEGREEI R.)
529.630
=
23RRECTED PRE 3SURE (PSI Ai 73.4641
=
VAD34 3REISURE (DIIA>
0.2536
=
O
IUMMARY OF MEA 3URED DATA AT 2115 0224 TEMP 1=
523.247
( 6361.>
TEMD 2=
529.477
( 6934.)
TEMD 3=
523.700
( 6906.)
TEMD 4=
530.060
( 7042.)
TEMP 5=
530.360
( 7073.)
TEMP 6=
530.446
( 7030.>
TEMP, 7=
529.296
( 6967.)
TEMS 3=
529.733
( 7019.)
TEMP P=
529.737
( 7009.)
TEMP 10 =
529.760
( 7013.)
TEMP 11 =
530.247
( 7066.)
TEMP 12 =
530.137
( 7056.)
TEMP 13 =
529.623
( 7005.)
TEMP 14 =
529.330
( 6973.)
TEMP 15 =
529.520
( 6991.)
TEMS 16 =
529.670
( 7010.)
TEMP 17 = '529.440
( 6937.)
TEMP 13 =
529.547
( 6995.)
r
?RES 1=
73.713 ( 74131.)
PRES 2=
73.697 ( 72516.)
VPRI 1 =
0.255
( 5936.)
4/?RI 2=
0.251
( 5942.>
VPRI 3=
0.253
( 6019.)
V3RI 4=
0.254
( 5931.)
VPR3 5=
0.249
( 5925.)
l I'JMMARY 3: 03RRECTED DATA TIME = 2115 DATE = 0224 TEM *ERATURE (DEGREE 3 R.)
529.616
=
00RREOTED PREIIURE (P3IAs 73.4647
=
VAP3R PPEII'JRE (*3IAi 0.2530
=
t
v
-3UMMARY 3F MEAIURED DATA ST 2130 0224 i
TEMD 1=
523.247
( 6361.)
TEMP 2=
529.497
( 6936.>
TEMD 3=
523.700
( 6906.)
TEMD 4=
530.040
( 7040.)
TEMo 5=
530.460
( 7033.)
TEMP 6=
530.526
( 7033.s TEMD 7=
530.257
( 7063.>
TEMP 3= '529.733
( 7019.>
TEMo 9=
529.757
( 7011.)
TEMP 10 =
529.730
( 7015.)
TEMo il =
530.267
( 7063.)
TEMP 12 =
530.117
( 7054.)
TEMP 13 =
529.593
( 7002.)
TEMP 14 =
529.330
( 6973.)
TEMP 15 =
529.500
( 6939.i TEMo 16 =
529.790
( 7022.>
TEMP 17 =
529.440
( 6937.)
TEMP 13 =
529.527
( 6993.)
r PRE 3 1=
73.713 ( 74131.)
PRES 2=
73.697 ( 72516.)
A t
4 G
VPRS 1=
0.254
( 5934.)
VPRS 2=
0.250
( 5939.)
VPRI 3=
0.253
( 6019.)
VPRS 4=
0.254
( 5973.
VDR3 5=
0.251
( 5943.)
IUMM9RY 3F C3RRECTED DATA TIME = 2130 DATE = 0224 TEMDERATURE (DE6REE3 R.)
529.639
=
03RRECTED PRESSURE
(* IIA) 73.4642
=
VADOR DRE33URE (P3IA) 0.2535
=
s
. ~.
_. ~.., _... _ _. _ _ _ _.. _. _ _. -
J IUMMARY 3: MEAIURED DATA AT 2145 0224 TEMP 1' =
523.237
( 6360.)
TEMD 2=
529.437
( 6935.)
TEMD 3=
523.630
( 6399.s TEMo 4=
530.020
( 7033.)
TEMD 5=
530.360
( 7073.)
TEMP 6=
530.466
( 7032.)
TEMD 7=
530.157
( 7053.)
TEMD 3=
529.793
( 7020.>
TEMA 9=
529.767
( 7012.>
TEMP 10 =
529.740
( 7016.)
TEMo 12 530.247
( 7066.)
=
TEMo 12 =
530.107
( 7053.)
TEMP 13 =
529.643
( 7007.)
TEMo 14 =
529.330
( 6973.)
TEMP 15 =
529.530
( 6992.)
TEMP 16 =- 529.310
( 7024.'s TEMo 17 =
529.440
( 6 9 37. '>
TEMD 13 =
529.527
( 6993.)
"RE3 1=
73.713-( 74131.)
(o PRES 2=
73.697 ( 72516.)
/*RS 1
0.255
( 5937..'
=
VPRI 2=
0.251
( 5947.)
VPRI 3=
0.253
( 6023.>
VPRI 4=
0.255
( 5990.3 VPRI 5=
0.250
( 5930.4 IJ1M9RY 3: 03RRECTED DATA i
TIME = 2145 DATE = 0224 TEMPERATURE (DEGREES R.)
529.634
=
C3RRECTED PRES 3URE (* IIA
- 73.4642
=
VAoUR PRESIUSE (DEI A) 0.2535
=
'N t_
- - ~ -
_ -~s (m-)
i IUM19RY OF ME93URED D979 9T 2200 0224 TEMP 1 =
523.247
( 6361.)
TEMP 2=
329.517
( 6 29 B.. )
l TEMP 3=
523.760
(
')
s,.
TEMP 4=
530.060
(
- f. )
TEMP 5=
530.420
( <J 9.)
TEMP 6=
530.446
( 7030.)
TEMo 7=
529.917
( 7029.e TEMP 3=
529.733
( 7019.
TEMs 9=
529.717
( 7007.)
TEMP 10 =
529.750
( 7017.'s TEMP 11-=
530.257
( 7067.)
TEMP 12 =
530.107
( 7053..'
TEMP 13 =
529.613
( 7004.)
TEMs 14 =
529.350
( 6975./
TEMP 15 =
529.510
( 6990.)
TEMS 16 =
529.750
( 7013.)
TEMP 17 =
529.450
( 6933.)
TEM
- 13 =
529.567
( 6997.>
(~^/
g PRES 1 =
73.713 ( 74131.)
(,
PSE3 2=
73.697 ( 72516.)
VSR3 1
0.255
( 5937.)
=
VPR3 2=
0.251
( 5946.)
VPRI 3=
0.253
( 6023.>
VPRI 4=
0.254
( 5930.>
VPRI
'5 =
0.251
( 5944.)
SUMM9RY 3 3DRRECTED D9T9 TIME = 2200 D9TE
- 0224 TEMPERATURE (DEGPEE3 R. ~'
329.633
=
I 33P.RECTED PRE 33URE (23I9' 73.4641
=
V9?O2 PREi3URE (P3IA) 0.2536
=
-O
r(/
IUMMARY JF MERIURED DATA AT 2215 0224 TEMP 1
523.277
( 6 36 4. '>
=
TEMP-2=
529.477
( 6934.)
TEMP 3=
523.770
( 6913.)
TEMo 4=
530.060
( 7042.)
TEMP 5=
530.460
( 7033.)
TEMP 6=
530.446
( 7030.)
TEMP 7=
529.937
( 7031.)
TEMP 3=
529.303
( 7021.)
TEMP 9=
529.747
( 7010.)
TEMP 10 =
529.730
( 7015.)
TEMP 11 =
530.247
( 7066..i TEMP 12 =
530.117
( 7054.)
TEMP 13 =
529.623
( 7005.)
TEMP 14 =
529.320
( 6972.)
TEMP'15 =
529.540
( 6993.)
TEMP 16 =
529.300
< 7023.)
TEMP 17 =
529.450
( 6933.)
TEMP 13 =
529.547
( 6995.)
PREI 1=
73.713 ( 74131.)
()
PRES 2=
73.697 ( 72516.)
'O VPRI 1 =.
0.254
( 5933.)
VPRI 2=
0.250
< 5935.'s VPRI 3=
0.253
( 6019.)
VPR3 4=
0.254
( 5976.)
VPRI 5=
0.250
( 5939.)
IUMMARY 3F CURRECTED DATA TIME = 2215 DATE = 0224 TEMDERATURE (DEGREE 3 R.)
329.645
=
03RRECTED PRE 33URE (PII A) 73.4646
=
VAP3R PREIIURE (P3I A's 0.2531
=
(
x_-
l
.. ~.
l t
IUMMAPY 3~ MEAIURED DATA AT 2230 0224 TEMP 1 =
523.267
( 6363.)
TEMP 2=
529.457
( 6932.)
TEMP 3=
323.330
< 6924..)
TEMP 4=
530.100
( 7046.)
TEMP 5=
530.490
( 7036.)
TEMP 6=
530.526- ( 7033.>
TEMP 7=
529.977
( 7035.>
TEMP 3=
529.313
( 7022.)
TEMP 9=
529.747
( 7010.i TEMP 10 =
529.750
( 7017.)
TEMP 11 =
530.257
( 7067.)
TEMP 12 =
530.037
( 7051.)
TEMP 13 =
529.633
( 7006.)
TEMP 14 =
529.340
< 6974.)
TEMP 15 =
529.530
( 6992.)
TEMP 16 =
529.750
( 7013.)
TEMP 17 =
329.470
( 6990.)
TEMP 13 =
529.537
( 6994.)
OQ PRE 3 1 =
73.713 ( 74131.)
PREI 2=
73.696 ( 72515.)
VPRI 1 =
0.255
( 5933.)
VPRI 2=
0.251
( 5940.)
/PRI 3=
0.253
( 6025.)
VPPI 4=
0.254
( 5975.)
VPRI 5=
0.251
( 5942.)
IUMMARY 3F 03RRECTED DATA TIME = 2230 DATE = 0224 TEMPERATURE (DEGREE 3 R.)
329.643
=
03RRECTED 3REI3URE (PSI A*
73.4643
=
I VAo3R PPEIIURE (PII A) 0.2534
=
0
\\
l
[~b.
/
G.
IUMMAR/ 3.: MEAIURED DATA AT 2245.0224 TEMP 1
523.267
( 6363.)
=
TEMP-2=
529.337
( 6975.)
TEMP 3=
523.330
( 6924.>
TEMD 4=
530.020
( 7033.)
TEMP 5=
530.430
( 7035.)
TEMP 6=
530.606
( 7096.>
TEMP-7=
530.007
( 7033.4 TEMP 3=
329.733
( 7019.)
TEMP 9=
529.737
( 7009.)
TEMP 10 =
529.710
( 7013.)
TEMP 11 530.267
( 7063.)
=
TEMP 12 =
530.107
( 7053.)
l TEMP 13 =
529.603
( 7003.)
'TEMo 14 =
529.310
( 6971.)
TEMP 15 =
529.520
( 6991.)
TEMP 16 =
529.720
( 7015.)
-TEMP 17 =
529.410
( 6934.)
TEMP 13 =
529.497
-( 6990.)
-*RE3 1 =-
73.713 ( 74131.)
7-s "REI 2=
73.696 ( 72515.)
k VPRI 1 =-
0.254
( 5934.)
VPRI 2=
0.249
( 5923.)
VPRI 3=
0.253
( 6022.)
/DR3 4=
0.255
( 5939.>
VPR3 5=
0.253
( 3962.)
IUMMAR'/ 3F 03RRECTED DATA TIME = 2245 DATE = 0224 TEMPERATURE (DEGREE 3 R./
529.626
=
33RREITED PRE 33URE (P3IAi 73.4637
=
V9P3R PRESIURE (PIIA) =
0.2540 l
(
us l
l
)
1"
\\.
SUMMARY
OF MEASURED DATA AT 2300 0224 TEMP 1
523.297
( 6366.)
=
TEMP 2=
529,527
( 6939.)
TEMP 3=
523.910
( 5927.7)
TEMP 4=
530.030
( 7044.)
TEMP 5=
530.430
( 7035.)
TEMP s=
530.646
( 7100.)
TEMP 7=
530.217
( 7059.)
TEMP 3=
529.793
( 7020.)
TEMP 9=
529.757
( 7011.)
TEMP 10 =
329.770
( 7019.)
TEMP 11 530.237-( 7070.)
=
TEMP 12 =
530.057- ( 7043.)
TEMP 13 =
529.673
( 7010.)
TEMP 14 =
529.390
( 5979.)
TEMP 15 =
529.530
( 6 9 97. '>
TEMP 16 =
529.740
( 7017.)
TEMP 17 =
529.490
( 6992.)
TEMP 13 =
529.537
( 4999.)
"REI 1 =
73.713 ( 74131.)
2REI 2=
73.696 ( 72515.)
b V
/PRI 1
0.255- ( 5992.)
=
/PRI 2=
0.249
( 5923.)
VPRI 3=
0.257
( 6016.)
/PRI 4=
0.254
( 5975.)
/ PRS 5=
0.252
( 5954.i 4
IUMMARY 3F CORRECTED DATA TIME = 2300 DATE = 0224 TEMPERATURE (DEGREE 3 R. )
529.676
=
03RREOTED PREIIURE (PIIAi =
73.4642 V933R PRESIURE (PII A
0.2534
=
my-7
--+w g
a ym-.---*3- - - - -
>g--
>-----e ywm-cmwyymeg y
f-g r,-y-#---y--p---,-erggp-
.-+-1+,--wrs w-s-%y y
rw r
eg-w-
l l
IUMMARY OF MEA 3URED DATA AT 2315 0224 TEMP 1=
523.327
( 6369.:'
TEMP 2=
529.467
( 6933.)
TEMP 3=
523.920
( 6923.)
TEMP 4=
530.100
( 7046.2 TEMP 5=
330.470
( 7034.)
TEMP.
6=
530.666
( 7102.)
TEMP 7=
529.427
( 6930.)
TEMP 3=
529.303
( 7021.)
TEMP 9=
529.737
( 7014.)
TEMP 10 =
529.730
( 7020.1 TEMP !!
=
530.317
( 7073.)
TEMP 12 =
330.157
( 7053.)
TEMP 13 =
529.663
( 7009.)
TEMP'14 =
529.420
( 6932.)
TEMP 15 =
529.520
( 6991.)
TEMP 16 =
529.320
( 7025.)
TEMP 17 =
529.430
( 6991.)
TEMP 13 =
529.627
( 7003.)
'k_
PRE 3 1 =
73.713 ( 74131.)
PRE 3 2=
73.696 ( 72515.)
7PRI 1 =
0.255
( 5937.s 7PRI 2=
0.251
( 3943.4 7PR3 3=
0.253
( 6027.)
YPR3 4=
0.255
( 5995.4 VPRI 5=
0.251
( 5941.)
SUMMARY
3F OURRECTED DATA TIME = 2315 DATE = 0224 TEMPERATURE (DEGREE 3 R.:'
529.634
=
33RRECTED PRESIURE (PSI A) 73.4633
=
()
VAPOR PRE 33URE (P3IAi 0.2539
=
v)
SUMMARY
3F MEA 3URED DATA AT 2330 0224 TEMP 1=
523.237
( 6366.)
TEMP 2=
329.497
( 6936.'s
-TEMP 3=
323.390
( 6925.'s TEMP 4=
530.090
( 7045.)
TEMP 5=
530.430
( 7035.)
TEMP 6=
530.556
( 7091.)
TEMP 7=
529.567
( 6994.)
TEMP 3=
529.303
( 7021.)
' TEMP 9=
529.307
( 7016.)
TEMP 10 =
529.300
( 7022.)
TEMP 11 530.267
( 7063.)
=
TEMP 12 =
530.136
( 7061.)
TEMP 13 =
529.663
( 7009.)
TEMP 14 =
529.360
( 6976.)
TEMP'15 =
529.520
( 6991.)
TEMP 16 =
529.340
( 7027.)
TEMP 17 =
529.510
( 6994.)
TEMP 13 =
529.537
( 6999.)
(~%
(s PRE 3 1=
- 73. 72 0 < 74133. ) -
?RES 2=
73.697 ( 72516.)
7PR3 1 =
0.255
( 5939.'s 7PR3 2=
0.251
( 5941.)
/PR3 3=
0.253
( 6024.)
/PR3 4'=
0.255
( 5939.)
7PRI 5=
0.254
( 5933.)
SUMMARY
3F 03RRECTED DATA TIME = 2330 DATE = 0224 TEMPERATURE (DEGREES R.)
529.630
=
CJRRECTED PRE 33URE (PSI A's 73.4649
=
VADDR ?RE33URE (PSIA) 0.2547
=
\\
l j
i
,-.-.n,.-
,w.,,-
n,,,-,n.
~..
,-.-,.,,-,-,,,,,~,,,...-n-e,,..,--.--,,,~.-,-en e
i%
V IUM1ARY 3: MEAIURED DATA AT 2345 0224 523.327
( 6369.>
TEMo 1
=
TEMP 2=
529.437
( 6935.)
TEMP 3=
523.960
( 6932.)
l TEMo 4=
530.110
( 7047.i
)
TEMP 5=
530.530
( 7090.)
TEMP 6=
530.536
( 7094.)
TEMP 7=
530.547- ( 7092.i TEMP 3=
529.323
( 7023.)
TEMP 9=
529.767
( 7012.1 TEMP 10 =
529.790
( 7021.)
l TEMP 11 =
530.317
( 7073.)
TEMP 12 =
530.127
( 7055.)
TEMP 13 =
529.673
( 7010.)
TEMP 14 =
329.390
( 6979.4 TEMP 15 =
529.570
( 6996.)
TEMP 16 =
529.350
( 7023.)
TEMo 17 =
52?.490
( 6992.)
TEMo 13 =
529.557
( 6996.)
PRES 1=
73.720 ( 74133.)
( ).
PRE 3 2=
73.697 ( 72516.)
VPRI 1=
0.255
( 5937.)
VPR3 2=
0.249
( 5913.)
VPRI 3=
0.253
( 6019.)
VPRI 4=
0.254
( 5977.)
VPRI 5=
0.252
( 5957.)
3UMMARY 3: ODRRECTED DATA TIME = 2345 DATE = 0224 j
529.697 TEMPERATURE (DEGREE 3 R.)
=
CURRECTED PREISURE (PSI A
73.4663
=
VADDR PRESIUPE (P3IA4 0.2534
=
e\\
tk IUMM9RY.3F MEA 3URED DATA AT 0 0225 TEMP 1
523.267
( 6363.)
=
TEMP 2=
529.497
( 6936.)
TEMP 3=
523.930
( 6929.)
TEMP 4=
530.130
( 7049.)
TEMP 5=
530.540
( 7091.)
TEMP 6=
530.536
( 7094.)
TEMP 7='
529.547
( 6992.)
TEMP 3=
529.323
( 7023.)
TEMP 9=
529.77?
( 7013.)
TEMP 10 =
529.730
( 7020.)
TEMP 11 530.237
( 7070.)
=
TEMP 12 =
530.166
( 7059.)
TEMP 13 =
529.673
( 7010.)
TEMP 14 =
529.410
( 6931.)
TEMP 15 =
529.550
( 6994.1 TEMP 16 =
529.330
( 7026.)
TEMP.17 =
529.470
( 6990.)
TEMP 13 = -529.537
( 6999,)
'O v
PRE 3 1
73.720 ( 74133.)
=
PRES 2=
73.697 ( 72516.)
VPRS 1 =
0.255
( 5933.)
VPRS 2=
0.250
< 3936.)
VPR3 3=
0.256
( 5993.)
VPRI 4=
0.253
( 5973.)
VPR3 5=
0.252
( 5959.)
IUMMAR'r 3F CURRECTED DATA TIME =
0 DATE = 0225 TEMPERATURE (DEGREE 3 R.)
529.637
=
C3RRECTED PRE 23URE (P3I A'i 73.4664
=
VAPOR PRE 33URE (P3I A) 0.2533
=
\\.
l IUMMARY D: MEAIURED DATA AT 15 022$
TEMP 1=
523.317
( 6363.)
TEMP.
2=
529.437
( 6935.)
TEMP 3=
523.920
( 6923.)
TEMP 4=
530.150- ( 7051.)
i TEMP 5=
530.570
( 7094.)
TEMP 6=
'530.646
(-7100.)
TEMP.
?=
530.317
( 7069.)
TEMP 3=-
529.333
( 7024.)
TEMP 9=
529.737 C '7014. )
i TEMP 10 =
529.310
( 7023.)
TEMP 11 =
530.277
( 7069.)
TEMP 12 =
530.127
( 7055. la TEMP-13 =
529.663
'( 7009.)
TEMP 14 =
529.390
( 6979.)
TEMP 15 =
529.530
( 6997.)
TEMP 16 =
529.310
'( 7024.)
TEMP 17 =
529.510
( 6994.)
i TEMP 13 =
329.537
( 6994.)
PRE 3 1=
73.720 ( 74133.)
\\
PRES 2=
73.697 ( 72516.)
VPRS 1=
0.254
( 5973.)
VPRI 2=
0.250
( 5935.)
VPR3 3=
0.257
( 6011.)
VPR3 4=
0.254
( 5976.)
VPRI 5=
0.251
( 5 94 0. >
e IUMMARY 3F CORRECTED DATA TIME =
15 DATE = 0225 TEMPERATURE (DEGREE 3 R.)
529.695
=
CURRECTED PRE 33URE (P3IA) =
73.4667 VAPOR PRE 33URE (P 3 I A
0.2530
=
..._.__:__.._._.__a,.
k OV IUMMARY 3F MEAIURED DATA A1 30 0225 TEMP 1 =
523.347
( 63 't. )
TEMS 2=
529.437
'( 6935.)
TEMP 3=
523.970 #( 6933.)
1 TEMP 4=
530.130
( 7049.)
i TEMP 5=
530.560
( 7093.)
1 TEMP 6=
530.536
( 7094.)
)
TEMP
-'=
529.597
( 6997.)
TEMP 3=
529.333
( 7024.)
l TEMP 9=
529.797
( 7015.)
TEMP 10 =
529.340. ( 7026.).
TEMP 11 =
530.297
( 7071.)
TEMP 12 =
530.176
( 7060.)
TEMP 13 =
529.633
( 7011.)
TEMP 14 =
529.330
( 6973.)
l
-TEMP 15 =
529.550
( 6994.)
TEMP 16 =
529.340
( 7027.)
TEMP 17 =
529.520
( 6995.)
TEMP 13 =
529.537
( 6999.)
PREI 1 =
73.720-( 74133.)
PREI 2=
73.697 ( 72516.)
l l
VPRI-1 0.254
< 5932.)
=
VPRI 2=
0.251
( 5940.)
VPRI 3=
0.253
( 6020.)
VPRI 4=
0.254
( 5930.)
l' VPR3 5=
0.250
( 5934.)
l i
IUMMARY 3F CURRECTED DATA TIME =
30 DATE = 0225 TEM 2ERATURE (DEGREE 3 R.>
529.700
=
3DRRECTED PRE 33URE.(P3IA) 73.4665
=
VAP3R PRE 23URE (PII A) 0.2532
=
O
-=
()
SUMMARY
OF MEASURED DATA AT 45 0225 TEMP 1=
528,337
( 6870.)
TEMP 2=
529.497
( 6986.)
TEMP 3=
528.900
( 6926.)
TEMP 4=
530.070
( 7043.)
TEMP 5=
530.470
( 7084.)
TEMP 6=
530.626
( 7098.)
TEMP 7=
529.046
( 6942.)
TEMP 8=
529.803
( 7021.)
TEMP 9=
529.817
( 7017.)
TEMP 10 =
529.780
( 7020.)
TEMP 11 =
530.327
( 7074.)
TEMP 12 =
530.067
( 7049.)
TEMP 13 =
529.653
( 7008.)
TEMP 14 =
529.350
( 6975.)
TEMP 15 =
529.580
( 6997.)
TEMP 16 =
529.760
( 7019.)
TEMP 17 =
529.500
( 6993.)
TEMP 18 =
529.537
( 6994.)
/(,
PRES 1=
73.724 ( 74137.)
PRES 2=
73.700 ( 72519.)
VPRS 1=
0.255
( 5992.)
VPRS 2=
0.250
( 5936.)
VPRS 3=
0.258
( 6023.)
VPRS 4=
0.254
( 5976.)
VPRS 5=
0.253
( 5965.)
SUMMARY
OF CDRRECTED DATA T I P.c' =
45 DATE = 0225 TEMPERATURE (DEGREES R.)
529.659
=
CORRECTED PPESSURE (PSIA) 73.4697
=
VAPDR PRESSURE (PSIA) 0.2540
=
0
O
SUMMARY
,0F MEASURED DATA AT 100 0225 TEMP 1=
528.317
( 6868.)
TEMP 2=
529.467
( 6983.)
TEMP 3=
528.850
( 6921.)
TEMP 4=
530.110
( 7047.)
TEMP 5=
530.510
( 7088.)
TEMP 6=
530.706
( 7106.)
TEMP 7=
529.406
( 6978.)
TEMP 8=
529.833
( 7024.)
TEMP 9=
529.757
( 7011.)
TEMP 10 =
529.790
( 7021.)
TEMP 11 =
530.287
( 7070.)
TEMP 12 =
530.107
( 7053.)
TEMP 13 =
529.663
( 7009.)
TEMP 14 =
529.380
( 6978.)
TEMP 15 =
529.570
( 6996.)
TEMP 16 =
529.790
( 7022.)
TEMP.17 =
529.480
( 6991.)
TEMP 18 =
529.557
( 6996.)
("N PRES 1=
73.725 ( 74138.)
(_,)
PRES 2=
73.700 ( 72519.)
VPRS 1=
0.255
( 5990.)
VPRS 2=
0.251
( 5943.)
VPRS 3=
0.258
( 6021.)
VPRS 4=
0.255
( 5992.)
VPRS 5=
0.250
( 5939.)
SUMMARY
OF CORRECTED DATA TIME =
100 DATE = 0225 TEMPERATURE (DEGREES R.)
529.672
=
CORRECTED PRESSURE (PSI A) 73.4709
=
VAPOR PRESSURE (PSIA)
=
0.2537 f%
b 1
l l
f~%.
w,]
SUMMARY
OF MEASURED DATA AT 115 0225 I
TEMP 1=
528.317
( 6868.)
TEMP 2=
529.497
( 6986.)
TEMP 3=
528.900
( 6926.)
TEMP 4=
530.130
( 7049.)
TEMP 5=
530.520
( 7089.)
TEMP 6=
530.626
( 7098.)
TEMP 7=
530.037
( 7041.)
TEMP 8=
529.843
( 7025.)
TEMP 9=
529.767
( 7012.)
TEMP 10 =
529.810
( 7023.)
TEMP 11 =
530.267
( 7070.)
TEMP 12 =
530.037- ( 7046.)
TEMP 13 =
529.673
( 7010.)
TEMP 14 =
529.370
( 6977.)
TEMP 15 =
529.560
( 6995.)
TEMP 16 =
529.780
( 7021.)
TEMP 17 =
529.500
( 6993.)
TEMP 18 =
529.557
( 6996.)
GY]
PRES 1=
73.725 ( 74138.)
PRES 2=
73.700 ( 72519.)
VPRS 1=
0.255
( 5995.)
VPRS 2=
0.250
( 5939.)
VPRS 3=
0.258
( 6018.)
VPRS 4=
0.255
( 5989.)
VPRS 5=
0.250
( 5933.)
SUMMARY
OF CORRECTED DATA TIME =
115 DATE = 0225 TEMPERATURE (DEGREES R.)
529.676
=
CDPRECTED PPESSURE (PSI A) 73.4712
=
VAPOR PRESSUPE (PSI A) 0.2535
=
---w-e--..,,,---
-<.---e
.,,,,--g
.,,,w n-
-w.
..e
>e-
-,.v
. + -. -
+
f3
\\_/
j
SUMMARY
OF MEASURED DATA AT 130 0225 TEMP 1=
528.357
( 6872.)
TEMP 2=
529.567
( 6993.)
TEMP 3=
528.960
( 6932.)
TEMP 4=
550.130
( 7049.)
. TEMP-5=
530.530
( 7090.)
TEMP 6=
530.596
( 7095.)
TEMP 7=
530.037
( 7041.)
TEMP 8=
529.873
( 7028.)
TEMP 9=
529.787
( 7014.)
TEMP 10 =
529.810
( 7023.)
TEMP 11 =
530.297
( 7071.)
TEMP 12 =
530.137
( 7056.)
TEMP 13 =
529.673
( 7010.)
TEMP 14 =
529.390
( 6979.)
TEMP 15 =
529.590
< 6998.)
TEMP 16 =
529.980
( 7031.)
TEMP 17 = 529.480
( 6991.)
TEMP 18 = 529.607
( 7001.)
PRES 1 =
73.726 ( 74139.)
PRES 2=
73.701 ( 72520.)
VPRS 1=
0.255
( 5992.)
YPRS 2=
0.251
( 5943.)
VPRS 3=
0.258
( 6022.)
VPRS 4=
- 0. Ec54
( 5983.)
VPRS-5=
0.253
( 5964.)
r
SUMMARY
OF CORRECTED DATA TIME =
130 DATE = 0225 TEMPERATURE (DEGREES R.)
529.710
=
CORRECTED PRESSURE (PSIA) 73.4715
=
VAPDR PRESSURE (PSI A) 0.2542
=
O V
SUMMARY
OF MEASURED DATA AT 145 0225 TEMP 1=
528.367
( 6873.)
TEMP 2=
529.507
( 6987.)
TEMP 3=
529.020
( 6938.)
TEMP 4=
530.140
< 7050.)
TEMP 5=
530.580
( 7095.)
TEMP 6=
530.826
( 7117.)
TEMP 7=
529.537
( 6991.)
TEMP 8=
529.853
( 7026.)
TEMP 9=
529.847
( 7020.)
TEMP 10 = 529.840
( 7026.)
TEMP 11 =
530.307
( 7072.)
TEMP 12 =
530.176
( 7060.)
TEMP 13 =
529.663
( 7009.)
TEMP 14 =
529.360
( 6976.)
TEMP 15 =
529.580
( 6997.)
TEMP 16 =
$29.780
( 7021.)
TEMP 17 =
529.530
( 6996.)
TEMP 18 =
529.577
( 6998.)
(~
PRES 1=
73.727 ( 74140.)
PRES 2=
73.702 ( 72521.)
YPRS 1 =
0 255
( 5990.)
VPRS 2=
0.251
( 5943.)
VPRS 3=
0.257
( 6010.)
VPRS 4=
0.255
( 5988.)
VPRS 5=
0.251
( 5949.)
SUMMARY
OF CORRECTED DATR TIME =
145 DATE = OC25 TEMPERATURE (DEGREES R.)
529.707
=
CORRECTED PRESSURE (PSI A) 73.4729
=
VAPOR PRESSURE (PSIA)
=
0.2537 O
(1) l
SUMMARY
OF MEASURED DATA AT 200 0225 TEMP 1=
528.367
( 6873.)
TEMP 2=
529.477
( 6984.)
l TEMP 3=
529.030
( 6939.)
l TEMP 4=
530.140
( 7050.)
TEMP 5=
530.490
( 7086.)
TEMP 6=
530.636
( 7099.)
TEMP 7=
530.097
( 7047.)
TEMP 8=
529.853
( 7026.)
TEMP 9=
529.847
( 7020.)
l TEMP 10 =
529.840
( 7026.)
l TEMP 11 =
530.347
( 7076.)
l TEMP 12 =
530.147
( 7057.)
TEMP 13 =
529.693
( 7012.)
TEMP 14 =
529.380
( 6978.)
TEMP 15 = 529.630
( 7002.)
TEMP 16 =
529.840
( 7027.)
TEMP 17 = 529.530
( 6996.)
TEMP 18 =
529.597
( 7000.)
PRES 1=
73.727 ( 74140.)
PRES 2=
73.702 ( 72521.)
O VPRS 1=
0.255
( 5990.)
VPRS 2=
0.250
( 5936.)
VPRS 3=
0.238
( 6018.)
l VPPS 4=
0.255
( 5988.)
VPRS 5=
0.250
( 5939.)
L l
SUMMARY
OF CORRECTED DATA TIME =
200 DATE = 0225 TEMPERATURE (DEGREES R.)
529.714
=
CORRECTED PRESSURE (PSIA) 73.4731
=
VAPOR PRESSURE (PSIA) 0.2535 Od
=
_-____._.__---__-.__--~c-
O
SUMMARY
OF MEASURED DATA AT 215 0225 TEMP 1 =
528.427
( 6879.)
TEMP 2=
529.527
( 6989.)
TEMP 3=
529.030
( 6939.)
TEMP 4=
530.160
< 7052.)
TEMP 5=
530.620
( 7099.)
TEMP 6=
530.766
( 7112.)
TEMP 7=
530.537
( 7091.)
TEMP 8=
529.863
( 7027.)
TEMP 9=
529.857
( 7021.)
TEMP 10 = 529.840
( 7026.)
TEMP 11 530.357
( 7077.)
=
TEMP 12 = 530.226
( 7065.)
TEMP 13 a 529.733
( 7016.)
TEMP 14 =
529.420
( 6982.)
TEMP 15 =
529.620
( 7001.)
TEMP 16 =
529.920
( 7035.)
TEMP 17 =
529.540
( 6997.)
TEMP 18 =
529.597
( 7000.)
PRES 1=
73.727 ( 74140.)
PRES 2=
73.702 ( 72521.)
F)
\\'
VPRS 1=
0.255
( 5988.)
VPRS 2=
0.251
( 5949.)
VPRS 3=
0.258
( 6027.)
VPRS 4=
0.255
( 5994.)
VPRS 5=
0.254
( 5984.)
SUMMARY
OF CORRECTED DATA f
I TIME =
215 DATE = 0225 l
TEMPERATURE (DEGREES R.)
529.760
=
CDRRECTED PRESSURE (PSI A) 73.4716
=
VAPOR PRESSURE (PSIA) =
0.2550 0
OO
SUMMARY
OF MERSURED DATA AT 230 0225 TEMP 1'=
528.377
( 6874.)
TEMP 2=
529.507
( 6987.)
TEMP 3=
529.050
< 6941.)
TEMP 4=
530.190
( 7055.)
TEMP 5=
530.640
( 7101.)
TEMP 6=
530.756
( 7111.)
TEMP 7=
529.777
( 7015.)
TEMP 8=
529.903
( 7031.)
TEMP 9=
529.887
( 7024.)
TEMP 10 =
529.880
( 7030.)
TEMP 11 =
530.367
( 7078.)
TEMP 12 =
530.216
( 7064.)
TEMP 13 =
529.733
( 7016.)
TEMP 14 =
529.430
( 6983.)-
TEMP 15 =
529.620
( 7001.)
TEMP 16 =
529.880
( 7031.)
TEMP 17 =
529.560
( 6999.)
TEMP 18 =
529.647
( 7005.)
7s, PRES 1 =
73.729 ( 74142.)
(j PRES 2=
73.705 ( 72524.)
VPRS 1=
0.255
( 5989.)
VPRS 2=
0.251
( 5950.)
YPRS 3=
0.258
( 6021.)
VPRS 4=
0.256
( 5996.)
VPRS 5=
0.253
( 5965.)
SUMMARY
OF CORRECTED DATA TIME = 230 DATE = 0225 TEMPERATURE (DEGREES R.)
529.757
=
CURRECTED PRESSUPE (PSIA) 73.4741
=
l VAPDR PPESSUPE (PSIR) =
0.2545 i
l l
1 4
kV
SUMMARY
OF MEASURED DATA AT 245 0225 TEMP 1=
528.407
( 6877.)
TEMP 2=
529.527
( 6989.)
TEMP 3=
529.030
( 6939.)
TEMP 4=
530.200
( 7056.)
TEMP 5=
530.640
( 7.101.)
TEMP 6=
530.826
( 7118.)
TEMP 7=
529.507
( 6988.)
TEMP 8=
529.883
( 7029.)
TEMP 9=
529.877
( 7023.)
TEMP 10 =
529.860
( 7028.)
TEMP 11 =
530.367
( 7078.)
TEMP 12 =
530.256
( 7068.)
TEMP 13 =
529.763
( 7019.)
TEMP 14 =
529.450
( 6985.)
TEMP 15 =
529.640
( 7003.)
TEMP 16 =
529.800
( 7023.)
TEMP 17 =
529.560
( 6999.)
TEMP 18 =
529.627
( 7003.)
PRES 1=
73.731 ( 74144.)
(}
PRES 2=
7*.705 ( 72524.)
VPRS 1=
0.255
( 5988.)
VPRS 2=
0.251
( 5945.)
VPRS 3=
0.259
( 6029.)
VPRS 4=
0.255
( 5987,)
VPRS 5=
0.252
( 5961.)
SUMMARY
09 CDPRECTED DATA TIME =
245 DATE = 0225 TEMPERATURE (DEGREES R.)
529.758
=
CORRECTED PRESSURE (PSIR) 73.4763
=
VAPOR PRESSURE (PSIA)
=
0.2543
i rmg
%.)
SUMMARY
DF MEASURED DATA AT 300 0225 TEMP 1=
528.437
( 6880.)
TEMP 2=
529.547
( 6991.)
TEMP 3=
529.050
( 6941.)
TEMP 4=
530.170
( 7053.)
TEMP 5=
530.640
( 7101.)
TEMP 6=
530.726
( 7108.)
TEMP 7=
530.257
( 7063.)
TEMP-8=
529.903
( 7031.)
TEMP 9=
529.857
( 7021.)
TEMP 10 =
529.890
( 7031.)
TEMP 11 =
530.357
( 7077.)
TEMP 12 =
530.256
( 7068.)
TEMP 13 =
529.733
( 7016.)
TEMP 14 =
529.460
( 6986.)
TEMP 15 =
529.670
( 7006.)
TEMP 16 =
529.820
( 7025.)
TEMP li' =
529.590
< 7002.)
TEMP 18 =
529.617
( 7002.)
PRES 1=
73.732 ( 74145.)
O PRES 2=
73.706 ( 72525.)
VPRS 1=
0.255
( 5900.)
VPRS 2=
0.251
( 5944.)
VPRS 3=
0.258
( 6021.)
VPRS 4=
0.256
( 5997.)
VPRS 5=
0.251
( 5948.)
SUMMARY
OF CDRRECTED DATA i
TIME =
300 DATE = 0225 TEMPERATURE (DEGREES R.)
529.771
=
l CDRRECTED PRESSURE (PSIA) 73.4775
=
1 l
VAPDR PRESSURE (PSIA) 0.2541
=
(
O t
SUMMARY
OF NEASURED DATR AT 315 0225 TEMP 1 =
528.407
( 6877.)
TEMP 2=
529.547
( 6991.)
TEMP 3=
529.040
( 6940.)
TEMP 4=
530.230
( 7059.)
TEMP 5=
530.730
( 7110.)
TEMP 6=
530.756
( 7111.)
TEMP 7=
530.567
( 7094.)
TEMP 8=
529.903
( 7031.)
TEMP 9=
529.897
( 7025.)
TEMP 10 =
529.890
( 7031.)
TEMP 11 =
530.387
( 7080.)
TEMP 12 =
530.276
( 7070.)
TEMP 13 =
529.773
( 7020.)
TEMP 14 =
529.450
( 6985.)
TE3 P 15 =
529.660
( 7005.)
TEMP 16 =
529.830
( 7026.)
TEMP 17 e 529.590
( 7002.)
TEMP 18 =
529.627
( 7003.)
PRES 1=
73.733 ( 74146.)
PRES 2=
73.707 ( 72526.)
O YPRS 1=
0.255
( 5986.)
YPRS 2=
0.251
( 5946.)
VPRS 3=
0.258
( 6024.)
YPRS 4=
0.255
( 5995.)
VPRS 5=
0.250
( 5929.)
SUMMARY
OF CORRECTED DATA TIME =
315 DATE = 022U TEMPERATURE (DEGREES R.)
529.788
=
CORRECTED PRESSURE (PSIA) 73.4790
=
VAPOR PRESSURE (PSI A) 0.2536
=
gs U
Or.
(_)
SUMMARY
OF MEASURED DATA AT 330 0225 TEMP
!=
528.437
( 6880.)
TEMP 2=
529.547
( 6991.)
TEMP 3=
529.080
( 6944.)
TEMP 4=
530.240
( 7060.)
TEMP 5=
530.740
( 7111.)
TEMP 6=
530.806
( 7116.)
TEMP 7=
530.307
( 7068.)
TEMP 8=
529.913
( 7032.)
TEMP 9=
529.957
( 7031.)
TEMP 10 =
529.870
( 7029.)
TEMP 11 =
530.407
( 7082.)
TEMP 12 =
530.296
( 7072.)
TEMP 13 =
529.753
( 7018.)
TEMP 14 =
529.470
( 6987.)
TEMP 15 =
529.660
( 7005.)
TEMP 16 =
529.880
( 7031.)
TEMP 17 =
529.580
( 7001.)
TEMP 18 =
529.667
( 7007.)
PRES 1=
73.733 ( 74146.)
}
PRES 2=
73.707 ( 72526.)
VPRS 1=
0.256
( 5996.)
VPRS 2=
0.251
( 5941.)
VPPS 3=
0.258
( 6026.)
VPRS 4=
0.255
( 5985.)
VPRS 5=
0.252
( 5955.)
SUMMAPY OF CORRECTED DATA TIME =
330 DATE = 0225 TEMPERATURE (DEGREES R.)
=
529.801 CORRECTED PRESSURE (PSIA) 73.4785
=
VAPOR PRESSURE (PSIA) =
0.2541
[
N i
l
-(~h s/
t
SUMMARY
OF hEASURED DATA AT 345 0225 TEMP 1=
528.427
( 6879.)
TEMP 2=
529.527
( 6989.)
TEMP 3=
529.080
( 6944.)
TEMP 4=
530.230
( 7059.)
TEMP 5=
530.650
< 7102.)
TEMP 6=
530.836
( 7119.)
TEMP 7=
530.137
( 7051.)
o TEMP 8=
529.923
( 7033.)
TEMP 9=
529.907
( 7026.)
TEMP 10 =
529.870
( 7029.)
TEMP 11 =
530.377
( 7079.)
TEMP 12 =
530.276
( 7070.)
TEMP 13 =
529.743
( 7017.)
TEMP 14 e 529.400
( 6988.)
TEMP 15 =
529.680
( 7007.)
TEMP 16 =
529.880
( 7031.)
TEMPL17 =
529.580
( 7001.)
TEMP 18 =
529.667
( 7007.)
PRES 1=
73.734 ( 74147.)
PRES 2=
73.709 ( 72528.)
YPRS 1=
0.256
( 5998.)
VPRS 2=
0.251
( 5943.)
VPRS 3=
0.258
( 6027.)
VPRS 4=
0.255
( 5985.)
VPRS 5=
0.252
( 5959.)
SUMMARY
OF CORRECTED DATA TIME =
345 DATE = 0225 TEMPERATl8PE (DEGREES R.)
529.790
=
CORRECTED PRESSURE (PSIA) 73.4793
=
VAPOP PRESSURE (PSI A) 0.2543
=
O(a J
Ox '
V
SUMMARY
OF MEASURED DATA AT 400 0225 TEMP 1=
528.507
( 6887.)
TEMP 2=
329.577
( 6994.)
TEMP 3=
529.120
( 6948.)
TEMP 4=
530.240
( 7060.)
TEMP 5=
530.680
( 7105.)
TEMP 6=
530.856
( 7121.)
TEMP 7=
530.277
( 7065.)
TEMP 8=
529.943
( 7035.)
TEMP 9=
529.867
( 7022.)
TEMP 10 =
529.910
( 7033.)
TEMP 11 =
530.437
( 7085.)
TEMP 12 =
530.296
( 7072.)
TEMP 13 =
529.793
< 7022.)
TEMP 14 =
529.470
( 6987.,
TEMP 15 =
529.690
( 7008.)
TEMP 16 =
529.880
( 7031.)
TEMP 17 =
529.600
( 7003.)
TEMP 18 =
529.627
( 7003.)
PRES 1 =
73.735 ( 74148.)
("'( -
PRES 2=
73.710 ( 72529.)
N.
VPRS 1=
0.255
( 5990.)
VPRS 2=
0.251
( 5948.)
VPRS 3a 0.258
( 6025.)
VPRS 4=
0.255
( 5991.)
VPRS 5=
0.250
( 5938.)
SUMMARY
OF CORRECTED DATA TIME =
400 DATE = 0225 TEMPERATURE (DEGREES P.)
529.809
=
CORRECTED PRESSURE (PSIA) 73.4808
=
VAPOR PRES!URE (PSIA) 0.2538
=
O
iO v
SUMMARY
OF MEASURED DATA AT 415 0225 TEMP 1 =
528.487
( 6085.)
TEMP 2=
529.607
( 6997.)
TEMP 3=
529.120
< 6948.)
TEMP 4=
530.240
( 7060.)
TEMP 5=
530.690
( 7106.)
TEMP 6=
530.876
( 7123.)
TEMP 7=
530.417. < 7079.)
TEMP 8=
529.923
( 7033.)
TEMP 9=
529.907
( 7026.)
TEMP 10 =
529.920
( 7034.)
TEMP 11 530.407
( 7082.)
=
TEMP 12 =
530.206
( 7063.)
TEMP 13 =
529.793
( 7022.)
TEMP 14 =
529.460
( 6986.)
. TEMP 15 =
529.690
( 7008.)
TEMP 16 =
529.860
( 7029.)
TEMP 17 =
529.610
( 7004.)
TEMP 18 =
529.687
( 7009.)
PRES 1=
73.737 ( 74150.)
(g)
PRES 2=
73.711 ( 72530.)
VPRS 1=
0.255
( 5989.)
VPRS 2=
0.252
( 5951.)
VPRS 3=
0.257
( 6015.)
VPRS 4=
0.256
( 6001.)
VPRS 5=
0.251
( 5946.)
l
SUMMARY
OF CORRECTED DATA TIME =
415 DATE = 0225 TEMPERATURE (DEGREES R.)
529.808
=
CORRECTED PRESSURE (PSIA) 73.4825
=
VAPOR PRESSUPE (PSIA) =
0.2541 m
tv
SUMMARY
OF MGASURED DATA AT 430 0225 TEMP 1=
528.497
( 6886.)
TEMP 2=
529.657
( 7002.)
TEMP 3=
529.130
( 6949.)
TEMP 4=
530.270
( 7063.)
TEMP 5=
530.810
( 7118.)
TEMP 6=
530.856
( 7121.)
TEMP 7=
530.357
( 7073.)
t TEMP 8=
529.963
( 7037.)
TEMP 9=
529.927
( 7028.)
TEMP 10 =
529.880
( 7030.)
TEMP 11 530.427
( 7084.)
=
TEMP 12 =
530.306
( 7073.)
TEMP 13 =
529.813
( 7024.)
TEMP 14 =
529.510
( 6991.)
TEMP 15 =
529.700
( 7009.)
TEMP 16 =
529.940
( 7037.)
TEMP 17 =
529.620
( 7005.)
TEMP 18 =
529.667
( 7007.)
("]
PRES 1=
73.738 ( 74151.)
(,,/
PRES 2=
73.712 ( 72531.)
VPRS 1 =
0.255
( 5995.)
VPRS 2=
0.251
( 5941.)
VPRS 3=
0.258
( 6028.)
VPRS 4=
0.255
( 5990.)
VPRS 5=
0.254
( 5973.)
i
SUMMARY
OF CORRECTED DATA TIME =
430 DATE = 0225 t
TEMPERATURE (DEGREES R.)
529.843
=
CORRECTED PRESSURE (PSIA) 73.4829
=
VAPOR PRESSUPE (PSIA) =
0.2547 O
(~h Q1
SUMMARY
OF MEASURED DATA AT 445 0225 TEMP 1=
528.527
( 6889.)
TEMP 2 =' 529.657
( 7002.)
TEMP 3=
529.120
( 6948.)
TEMP 4=
530.270
( 7063.)
TEMP 5=
530.790
( 7116.)
TEMP 6=
530.816
( 7117.)
TEMP 7=
529.947
( 7032.)
TEMP 8=
529.943
( 7035.)
TEMP 9=
529.927
( 7028.)
TEMP 10 =
529.960
( 7038.)
TEMP 11
=
530.457
( 7087.)
TEMP 12 =
530.296
( 7072.)
TEMP 13 =
529.813
( 7024.)
TEMP 14 =
529.550
( 6995.)
TEMP 15 =
529.700
( 7009.)
TEMP 16 =
529.970
( 7040.)
TEMP 17 =
529.660
( 7009.)
TEMP 18 =
529.697
( 7010.)
o
()
PRES 1 =
73.738 ( 74151.)
PRES 2=
73.713 ( 72532.)
VPRS 1 =
0.255
( 5993.)
VPRS 2=
0.252
( 5953.)
VPRS 3=
0.258
( 6020.)
YPPS 4=
0.256
( 6000.)
VPRS 5=
0.253
( 5967.)
SUMMARY
OF CORRECTED DATA TIME =
445 DATE = 0225 TEMPERATURE (DEGPEES R.)
529.852
=
CDRRECTED PRESSURE (PSIA) 73.4828
=
VAPOR PRESSURE (PSIA) 0.2548
=
i
\\
V
s
SUMMARY
DF MEASURED DATA AT. 500 0225 TEMP 1=
528.527
( 6889.)
TEMP 2=
529.617
( 6998.)
TEMP 3=
529.160
( 6952.)
TEMP 4=
530.250
( 7061.)
TEMP 5=
530.720
( 7109.)
TEMP 6=
530.786
( 7114.)
TEMP 7=
530.087
( 7046.)
TEMP 8=
529.983
( 7039.)
TEMP 9=
529.947
( 7030.)
TEMP 10 =
529.970
( 7039.)
TEMP 11 =
530.437
( 7085.)
TEMP 12 =
530.306
( 7073.)
TEMP 13 =
529.823
( 7025.)
TEMP 14 =
529.520
( 6992.)
TEMP 15 =
529.730
( 7012.)
TEMP 16 =
529.910
( 7034.)
TEMP 17 =
529.640
( 7007.)
TEMP 18 =
529.737
( 7014.)
PRES 1 =
73.740 ( 74153.)
PRES 2=
73.714 ( 72533.)
VPRS 1 =
0.255
( 5993.)
VPRS 2=
0.252
( 5951.)
VPRS 3=
0.259
( 6032.)
VPRS 4=
0.255
( 5989.)
VPRS 5=
0.252
( 5960.)
l
SUMMARY
OF CDRRECTED DATA
(
TIME =
500 DATE = 0225 TEMPERATURE (DEGREES R.)
529.845
=
CDPRECTED PRESSUPE <: PSIA) =
73.4851 I
VAPOR PPESSURE (PSIA) =
0.2545 a
1
1 l
l g-s
\\,l
SUMMARY
DF MERSURED DATA RT 515 0225 TEMP 1' =
528.547
( 6891.)
TEMP 2=
529.627
( 6999.)
TEMP 3=
529.250
( 6951.)
TEMP 4=
530.300
( 7066.)
TEMP 5=
530.720
( 7109.)
TEMP 6=
530.866
(,7122.)
1EMP
.7 =
530.017
( 7039.)
. TEMP 8=
529.993
( 7040.)
TEMP 9=
529.967
( 7032.)
TEMP 10 =
529.930
( 7035.)
TEMP 11 =
530.507
( 7092.)
TEMP 12 =
530.316
( 7074.)
TEMP 13 =
529.853
( 7028.)
TEMP 14 =
529.510
( 6991.)
TEMP 15 =
529.770
( 7016.)
TEMP 16 =
529.930
( 7036.)
TEMP 17 =
529.670
( 7010.)
TEMP 18 =
529.707
( 7011.)
PRES 1=
73.741 ( 74154.)
()
PRES 2=
73.715 ( 72534.)
VPRS 1 =
0.256
( 5999.)
-VPRS 2-=
0.252
( 5957.)
VPPS 3=
0.258
( 6026.)
VPRS 4=
0.256
( 5999.)
VPRS 5=
0.251
( 5949.)
SUMMAPY OF CDRRECTED DATR TIME =
515 DATE = 0225 TEMPERATURE (DEGREES R.)
529.859
=
CORRECTED PRESSURE (PSIA) 73.4860
=
VRPOR PRESSURE (PSIR) 0.2545
=
d(s
SUMMARY
OF MEASURED DATA AT 530 0225 I
TEMP 1 =
528.547
( 6891.)
TEMP 2=
529.687
( 7005.)
TEMP 3=
529.190
( 6955.)
TEMP 4=
530.300
( 7066.)
TEMP 5=
530.760
( 7113.)
l TEMP 6=
530.796
( 7115.)
TEMP 7=
530.267
( 7064.)
TEMP 8=
530.003
( 7041.)
TEMP 9=
529.957
( 7031.)
TEMP 10 =
529.930
( 7035.)
TEMP 11 =
5SO.457
( 7087.)
TEMP 12 =
530.326
( 7075.)
TEMP 13 =
529.853
( 7028.)
TEMP 14 =
529.510
( 6991.)
TEMP 15 =
529.730
( 7012.)
TEMP 16 =
529.910
( 7034.)
TEMP 17 =
529.640
( 7007.)
TEMP 18 =
529.707
('7011.)
PRES 1 =
73.742 ( 74155.)
[
PRES 2=
73.716 ( 72535.)
. v)
VPRS 1 =
0.255
( 5995.)
VPRS 2=
0.251
( 5950.)
VPRS 3=
0.258
( 6028.)
VPRS 4=
0.246
( 5895.)
VPRS 5=
0.256
( 6004.)
l
SUMMARY
OF CORRECTED DATA TIME =
530 DATE = 0225 l
TEMPERATURE (DEGREES R.)
529.859
=
CDPRECTED PRESSURE (PSIA) =
73.4883 VAPOR PRESSURE (PSIA) 0.2532
=
[
OO
SUMMARY
OF MEASURED DATR RT 545 0225 TEMP 1 = 528.577
( 6894.)
TEMP 2=
529.627
( 6999.)
TEMP-3=
529.210
( 6957.)
TEMP 4=
530.340
( 7070.)
TEMP 5=
530.770
( 7114.)
TEMP 6=
530.816
( 7117.)
TEMP 7=
530.607
( 7098.)
TEMP 8=
530.013
( 7042.)
TEMP 9=
529.997
( 7035.)
TEMP 10 =
529.970
( 7039.)
TEMP 11 = 530.497
( 7091.)
TEMP 22 =
530.356
( 7078.)
TEMP 13 =
529.853
( 7028.)
TEMP 14 =
529.540
( 6994.)
TEMP 15 =
529.750
( 7014.)
TEMP 16 =
529.970
( 7040.)
TEMP 17 =
529.660
( 7009.)
TEMP 18 =
529.737
( 7014.)
PRES 1 =
73.743 ( 74156.)
}
PRES 2=
73.717 ( 72536.)
YPRS 1=
0.255
( 5991.)
VPRS 2=
0.251
( 5943.)
VPPS 3=
0.259
( 6031.)
VPRS 4a 0.253
( 5969.)
VPRS 5=
0.250
( 5938.)
SUMMARY
OF CDPRECTED DATR TIME =
545 DRTE = 0225 TEMPERATURE (DEGREES R.)
529.983
=
.CDRRECTED PRESSURE (PSIR) 73.4892
=
VAPOR PRESSURE (PSIR) 0.2533
=
bv
O
\\_)
ARKANSAS NUCLEAD DNE ILRT AT 59 PSIG TREND REPDRT
. LEAKAGE RATES (WEIGHT PERCENT / DAY)
TIME AND D9TE AT START OF TEST:
2000 0224 ELAo3ED TIME:
9.75 HOURS
- ND. D9T9 ELADIED TOT 9L-TIME ANALYSIS MASS-POINT ANALYSIS DDINTS TIME MEAN CALCULATED CALCULATED 95% UCL
.10 2.25 0.071 0.051 0.061 0.036 11 2.50 0.070 0.054 0.063 0.034 1$
$' 75 0.067 0.044 0.050 0.072 13 3.00 0.069 0.057 0.067 0.093 14' 3.25 0;072
- 0.069 0.032 0.109 15 3.50 0.073 0.072 0.034 0.103 16 3.75 0.074 0.076 0.037-0.107
("%,7 4.00 0.074 0.074 0.033 0.101 s s3 4.25 0.073 0.074 0.031 0.097 19 4.50 0.073 0.074 0.030 0.094 20 4.75 0.070 0.061 0.061 0.034 21 5.00 0.067 0.051 0.043 0.072 22 5.25 0.065 0.043 0.033 0.062 23 5.50 0.063 0.040 0.036 0.053 24 5.75 0.062 0.036 0.031 0.052 25 6.00 0.061 0.033 0.029 0.043 26 6.25 0.061 0.037 0.035 0.054 27 6.50 0.061 0.037 0.037 0.055 23 6.75 0.060 0.036 0.036 0.052 29 7.00 0.059 0.035 0.036 0.051 30 7.25 0.059 0.035 0.036 0.050 31 7.50 0.053 0.036 0.033 0.051 32 7.75 0.053 0.035 0.037 0.050 33 3.00 0.057 0.035 0.037 0.049 34 3.25 0.057 0.034 0.036 0.047 35 3.50 0.057 0.035 0.038 0.043 36 3.75 0.057 0.036 0.040 0.050 37
?. 00 0.056 0.035 0.039 0.049 33 9.25 0.056 0.035 0.039 0.04?
3?
9.50 0.055 0.034 0.038 0.047 40 9.75 0.055 0.034 0.038 0.046 b
2 m+i-
- e--rp g
w.
y-a.c r
w--e yg,
r-
.e-
.sy
-ge, g.,
,wr.,
y,..,,w,q
--e.,,,yrup-+?
im 7 %y+ m-g e
e 'up-v ti-'--
""i+
ARKANSAS NUCLEAR DNE ILRT AT 59 PSIG LEAKAGE RATE (WEIGHT PERCENT / DAY)
MASS-POINT ANALYSIS TIME AND DATE AT START OF TEST:
2000 0224 f~s
()
ELAPSED TIME 9.75 HOURS TIME TEMP PRESSURE CTNT. AIR MASS LOSS TOT.RVG. MASS (R)
(PSIR)
MRSS (LBM)
(L BM)
LOSS (LBM/HR)
)
l 2000 529.615 73.4649 715123 j
2015 529.626 73.4651 715111 11.7 46.8 2030 529.625 73.4658 715119
-8.0 7.5 2045 529.632 73.4655 715107 12.7 21.9 2100 529.630 73.4641 715094 12.1 28.5 2115 529.616 73.4647 715119
-24.8 2.9 2130 529.639 73.4642 715085 34.5 25.4 l
2145 529.634 73.4642 715091
-6.4 18.1 2200 529.638 73.4641 715085 6.2 19.0 2215 529.645 73.4646 715080 4.9 19.0 2230 529.648 73.4643 715073 7.6 20.2 2245 529.626 73.4637 715097
-24.7 9.4 2300 529.676 73.4642 715035 62.6 29.4 2315 529.684 73.4639 715020 15.0 31.8 2330 529.680 73.4649 715036
-16.8 24.7 2345 529.697 73.4663 715026 10.6 25.9 0
529.687 73.4664 715041
-15.6 20.4 15 529.695' 73.4667 715033 8.6 21.2 301 529.700.
73.4665-715024 8.9 22.0 45 529.659 73.4697 715110
-86.3 2.7
("'SO 529.672 73.4709 715105 5.7 3.7
(_ti 5 529.676 73.4712 715103 1.8 3.8 130 529.710 73.4715 715059 43.4 11.6 145 529.707 73.4729 715077
-17.8
- 8. 0 200 529.714 73.4731' 715070 7.4 8.9 215 529.760 73.4716 714992 77.3 20.9 230- 529.757 73.4741 715022
-29.0.
15.6 245 529.758 73.4763 715041
-19.6 12.1 300 529.771 73.4775 715036 4.9 12.4 315 529.'788 73.4790 715028 8.6 13.2 330 529.801 73.4785 715005 22.1 15.7 345 529.790 73.4793 715028
-22.8 12.2 400 529.809 73.4808 715016 12.7 13.4 415 529.808 73.4825 715034
-17.9 10.8 430 529.843 73.4829 714991 43.0 15.6 445 529.852 73.4828 714978 12.7 16.6 500 529.845 73.4851 715009
-31.6 12.6 515 529.859 73.4860 715000 9.3 13.3 530 529.859 73.4883 715023
-22.6 10.6 545.529.883 73.4892 714999 23.9 12.7 FREE RIR VOLUME USED (MILLIONS OF CU. FT.)
1.910
=
REGRESSION LINE O
INTERCEPT (LBM) 715109
=
SLOPE (LBM'HR)
=
-11.4 MAXIMUM ALLOWABLE LEAKAGE RATE 0.200
=
75 % OF MAXIMUM ALLOWABLE LEAKAGE RATE 0.150
=
THE UPPER 95% CONFIDENCE LIMIT
=
0.046 THE CALCULATED LEAKAGE RATE 0.033
=
ARKANSAS NUCLEAR DNE ILRT AT 59 PSIG LERKAGE RATE (WEIGHT PERCENT / DAY)
TOTAL-TIME ANALYSIS fs TIME AND DATE AT START DF TEST:
2000 0224 Q
ELAPSED TIMEt 9.75 HOURS TIME
. TEMP.
PRESSURE MERSURED (R)
(PSIR)
LEAKAGE RATE 2000 529.615 73.4649-t 2015 529.626 73.4651 0.157 2030 529.625
'73.4658 0.025 2045' 529.632 73.4655 0.073 l
2100 529.630 73.4641 0.096 2115
.529.616 73.4647 0.010 2130 529.639 73.4642 0.085 2145
-529.634 73.4642 0.061 2200 529.638 73.4641 0.064 2215 529.645 73.4646 0.064 2230-529.648, 73.4643 0.068 2245 529.626 73.4637 0.031 2300-529.676 73.4642 0.099 2315-529.684 73.4638 0.107 2330 529.680.
73.4649 0.083 2345. '529.697 73.4663 0.087-0 529.687 73.4664 0.068 15 529.695 73.4667 0.071 30 529.700 73.4665 0.074 45 529.659 73.4697 0.009
()-
100-529.672.
'73.4709 0.012 115 529.676 73.4712 0.013 130 529.710 73.4715 0.039 145 529.707 73.4729 0.027 200 529.714 73.4731 0.030 215 529.760 73.4716 0.070 230-529.757 73.4741 0.052 245 529.758 73.4763 0.041 300 529.771 73.4775 0.042 315 529.788 73.4790 0.044
'330 529.801 73.4785 0.053 345 529.790 73.4793 0.041 400 529.809 73.4808 0.045 415 529.808 73.4825 0.036 430 529.843 73.4829 0.052 445 529.852 73.4828 0.056 500 529.845 73.4851 0.042 515 529.859 73.4860 0.045 530 529.859 73.4883 0.035 545 529.883 73.4892 0.043 MEAN OF MEASURED LERKAGE RATES
=
0.055 MAXIMUM ALLOWABLE LEAKAGE RATE 0.200
=
O 75 % OF MAXIMUM ALLOWABLE LEAKAGE RATE 0.150
=
THE UPPER 95% CONFIDENCE LIMIT 0.092
=
THE CALCULATED LEAKAGE RATE 0.034
=
l l
l
. -,,-..~. - -.. ~ --.-- -
An r.at*A1 NOCLEFS ONE IL*7 At 59 PSIG TEM *EDMttf E 529.447 529.579 529.709 529.941 529.972 530.103 530.234 530.365 e.--........--..-...e=
-e.........e=
...e.........e..........
e
(%
e e
3400 -
e 1500 -
e e
1600 -
e e
1700 -
o e
e e
e 1900 -
e e
2000 -
i e
e e
2100 -
e e
2200 -
e e
e o
2300 -
e f%
I g
0-e e
e 160 -
e e
200 -
=
=
e e
300 -
e
=
e 400 -
e e
e e
500 -
e e
e l
e 1
400 -
e 700 -
e e
900 -
e e
O 960 -
e e
e e
(
2000 -
e e
e 1100 -
e e
et i tiat;4 % Pr/: leu DatE IL*f M 5) FIIS P2E!$URE l
l 73.4527 73.4707
?3.4997 73.506?
?).5246 73.5426
?3.5606 73 5796 e....-....+.-
__e-
.........e...
.........e e
e e
1400 -
s e
)
e 1500 -
e e
e 1600 e
e 1
e i
1700 -
I e
e e
e e
l e
1900 -
e e
e 2000 e
e e
2l00 -
e o
e e
2200 -
e e
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2300 -
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e 0
e 100 -
e e
e e
203 -
e e
e e
300 e
e e
400 e
e 500 -
e e
600 -
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e e
700 -
e e
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900 -
e e
e 300 e
e e
1000 -
e e
y
+
e 1100 -
+
e e
9 r-
,. -,,.., -..,.,, -,,, - = -. - -, - -,,
ADV997 Ai N')C'. Erd DNE !L97 47 59 e$ 3 5 vesco **E77'JPE 0.2525 0.2533,
0.2541 0.2549 0.2557 0.2565 0.25*3 0.2591 e.........e........e.........e.........e.........e........ e...
e p)
+
,Q
+
1400 -
e e
e 1500 -
e e
1600 -
e e
!?00 e
e e
1900 -
e e
e 2000 e
2300
- e e
e 2200 -
e e
e 2300 -
e
=
e e
0 e
e e
e 100
+
200 e
e e
300 -
e e
e e
400 e
e
+
500 -
e i
e e
600 a e
e j
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700 -
e e
e e
900 e
e e
a v>0 p
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e 10.m.
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1100 -
j e
1
,n--
46r4M345 NVOLERA DME IL*T RT $9 PTIS AlkNei I
?!4490.52 714601.66 714722.73 714943.91 714945.04 715096.17 ?!5207.30 715329.43 l
l
+- -
__,.........+.........+.........+-
_-+.........+
1400 1500 -
l
\\
1600 e
I 1
1700 -
~
e 1900 -
~
2000 -
~
e 2100 -
~
2200 -
~
2300 -
(-
0
~
e
~
100 -
e I
200 -
~
e 300 -
e 400 -
500 -
+
600 -
700 -
e 900 -
900 e
p s
1000 e
e 1Ina -
e
O
SUMMARY
OF MEASURED DATA RT 600 0225 TEMP 1 =
528.567
( 6893.)
TEMP 2=
529.697
( 7006.)
TEMP 3=
529.210
( 6957.)
TEMP 4=
530.320
( 7068.)
TEMP 5=
530.800
( 7117.)
TEMP 6=
530.856
( 7121.)
TEMP 7=
529.597
( 6997.)
TEMP 8=
530.013
( 7042.)
TEMP 9=
529.997
( 7035.)-
TEMP 10 =
529.980
( 7040.)
TEMP'11 =
530.477
( 7089.)
TEMP 12 =
530.266
( 7069.)
TEMP 13 =
529.893
( 7032.)
TEMP 14 =
529.520
( 6992.)
TEMP 15 =
529.780
( 7017.)
TEMP 16 =
529.950
( 7038.)
TEMP 17 =
529.690
( 7012.)
TEMP 18 =
529.717
( 7012.)
PRES 1
73.742 ( 74155.)
=
~
PRES 2=
73.717 ( 72536.)
VPRS 1=
0.256
( 6004.)
VPRS 2=
0.251
< 5946.)
VPRS 3=
0.256
( 5996.)
VPRS 4=
0.255
( 5991.)
VPRS 5=
0.251
( 5948.)
SUMMARY
OF CORRECTED DATA TIME =
600 DATE = 0225 TEMPERATURE (DEGREES R.)
529.875
=
CORRECTED PRESSURE (PSIR) =
73.4878 YAPOR PRESSURE (PSIA) =
0.2537 0
9
.y
~~.c+-.
.,-ve---,
m, r
%+.---.-.-..--..------.m..,~w, w<.
,w.,
--<---..-,+r~,:,,.rce.---<,,.
e,-.--..~r-e---,
(v) l
SUMMARY
OF MEASURED DATA AT 615 0225 TEMP 1 =- 528.537
( 6890.)
TEMP 2=
529.657
( 7002.)
TEMP 3=
529.210
( 6957.)
-TEMP 4 =
530.360
( 7072.)
TEMP 5=
530.840
( 7121.)
TEMP ~ 6=
530.816
( 7117.)
TEMP 7=
529.497
( 6987.)
TEMP 9=
530.013
( 7042.)
TEMP 9=
530.017
( 7037.)
TEMP 10 =
529.980
( 7040.)
TEMP 11 530.467
( 7088.)
l
=
TEMP 12 =
530.356
( 7078.)
TEMP 13 =
529.883
( 7031.)
TEMP 14 =
529.540
( 6994.)
TEMP 15 =
529.780
( 7017.)
TEMP 16 =
529.920
( 7035.)
TEMP 17 =
529.720
( 7015.)
TEMP 18 =
529.737
( 7014.)
e-PRES 1 =
73.740 ( 74153.)
(gj PRES 2=
73.716 ( 72535.)
VPRS 1=
0.255
( 5994.)
VPRS 2=
0.251
( 5949.)
VPRS 3=
0.258
(.6018.)
VPRS 4=
0.255
( 5999.)
VPRS 5=
0.252
< 5958.)-
SUMMARY
OF CDRRECTED DATA TIME =
615 DATE = 0225 TEMPERATURE (DEGREES R.)
529.883
=
CORRECTED PRESSURE (PSIA) =
73.4854 VAPDP PRESSUPE (PSIR)
=
0.2542 i
i 4
i i
~
(D U
SUMMARY
OF MERSURED DATA RT 630 0225 TEMP 1
528.637 C 6900.)
=
TEMP 2=
529.687
( 7005.)
TEMP 3=
529.220
( 6958.)
- TEMP, 4=
530.340
( 7070.)
TEMP 5=
530.800
( 7117.)
TEMP 6=
530.886
( 7124.)
TEMP 7=
530.607
( 7098.)
TEMP 9=
530.033
( 7044.)
TEMP 9=
530.027
( 7038.)
TEMP 10 =
529.970
( 7039.)
TEMP 11 530.477
( 7089.)
=
TEMP 12 =
530.356
( 7078.)
TEMP 13 =
529.913
( 7034.)
TEMP 14 =
529.580
< 6998.)
TENP 15 =
529.800
( 7019.)
TEMP 16 =
529.960
( 7039.)
TEMP 17 =
529.720
( 7015.)
TEMP 18 =
529.757
( 7016.)
PRES 1=
73.740 ( 74153.)
PRES 2=
73.716 ( 72535.)
VPRS 1=
0.258
( 6021.)
VPRS 2=
0.254
( 5983.)
VPRS 3=
0.262
( 6062.)
VPPS 4=
0.258
( 6028.)
VPRS 5=
0.256
( 5999.)
SUMMARY
OF CORRECTED DATR TIME =
630 DATE = 0225 TEMPERATURE (DEGREES R.)
529.914
=
CORRECTED PRESSURE (PSIA) 73.4819
=
VAPOR PRESSURE (PSIA) =
0.2577 O
SUMMARY
DF MERTURED DATR AT 645 0225 TEMP 1 =
528.567
( 6893.)
TEMP 2=
529.697
( 7006.)
TEMP 3=
529.210
( 6957.)
TEMP 4=
530.340
( 7070.)
TEMP 5=
530.860
( 7123.)
TEMP 6=
530.876
( 7123.)
TEMP 7=
530.537
( 7091.)
TEMP 8=
530.053
( 7046.)
TEMP 9=
530.067
( 7042.)
TEMP 10 =
530.000
( 7042.)
TEMP 11 530.507
( 7092.)
=
TEMP 72 =
530.376
( 7080.)
TEMP 13 =
529.903
( 7033.)
TEMP 14 =
529.580
( 6998.)
TEMP 15 =
529.810
( 7020.)
TEMP 16 =
530.000
( 7043.)
TEMP 17 =
529.700
( 7013.)
TEMP 18 = 529.796
( 7020.)
)
PRES 1.=
73.739 ( 74152.)
PRES 2=
73.715 ( 72534.)
VPRS 1=
0.255
( 5993.)
VPRS 2=
0.251
( 5941.)
VPRS 3=
0.258
( 6025.)
VPRS 4=
0.256
( 6005.)
VPRS 5=
0.252 f 5951.)
SUMMARY
OF CORRECTED DRTR TIME =
645 DATE = 0225 TEMPERATURE (DEGREES R.)
=
529.924 CORPECTTD PRESSURE (PSIR)
=
73.4941 VRPOR PRESSURE (PSIR) =
0.2544
.e
,,,-e-s=--,
,ve~.--
n
+-v
..e,m v..-->..ew,
-,--.-a
.e<w.e-,
(^
SUMMARY
OF MEASURED DATA AT 700 0225 TEMP 1 =
528.577
( 6894.)
TEMP 2=
529.717
( 7008.)
TEMP 3=
529.240
( 6960.)
TEMP 4=
530.360
( 7072.)
TEMP 5=
530.800
( 7117.)
TEMP 6=
531.066
( 7142.)
TEMP 7=
530.457
< 7083.)
TEMP 8=
S30.043
(.7045.)
TEMP 9=
530.077
( 7043.)
TEMP 10 =
530.030
( 7045.)
TEMP 11 530.527
( 7094.)
=
TEMP 12 =
530.376
( 7080.)
TEMP 13 =
529.893
( 7032.)
TEMP 14 =
529.570
( 6997.)
TEMP 15 =
529.790
( 7018,.)
TEMP 16 =
529.950
( 7038.)
TEMP 17 =
529. 10
( 7013.)
TEMP 18 =
529.787
( 7019.)
f-s(
PRES 1 =
73.738 ( 74151.)
( j PRES 2=
73.713 ( 72532.)
VPRS 1=
0.255
( 5993.)
VPRS 2=
0.252
( 5953.)
VPRS 3=
0.258
( 6028.)
VPRS 4=
0.256
( 5998.)
VPRS 5=
0.252
( 5951.)
SUMMARY
OF CORRECTED DATA TIME =
700 DATE = 0225 TEMPERATURE (DEGREES R.) =
529.920 CORRECTED PRESSUPE (PSIA) 73.4831
=
VAPOR PRES 3URE (PSIA) 0.2545
=
C s
\\
SUMMRRY OF MEASURED DATA AT 715 0225 I
f TEMP 1
528.617
( 6898.)
=
TEMP 2=
529.687
( 7005.)
TEMP 3=
529.300
( 6966.)
TEMP 4=
530.380
( 7074.)
TEMP 5=
530.810
( 7118.)
TEMP 6=
531.166
( 7152.)
l TEMP 7 =- 530.637
( 7101.)
l TEMP 8=
530.053
( 7046.)
l TEMP 9=
530.077
( 7043.)
l TEMP 10 =
530.050
( 7047.)
i TEMP 11 530 517
( 7093.)
I
=
TEMP 12 =
530.3"6
( 7080,)
TEMP 13 =
529.903
( 7633.)
j TEMP 14 =
529.580
( 6c98.)
TEMP 15 =
M29.810
( 7020.)
TEMP 16 =
530.010
( 7044.)
TEMP 17 =
529.720
( 7015.)
{
TEMP 18 =. 529.796
( 7020.)
PRES 1=
73.738 ( 74151.)
f- )
PRES 2=
73.713 ( 72532.)
-(
VPRS 1=
0.256
( 5996.)
VPRS 2=
0.252
( 5955.)
VPRS 3=
0.259
( 6034.)
VPRS 4=
0.255
( 5991.)
VPRS 5=
0.253
( 5970.)
l
SUMMARY
OF CDPRECTED DATR TIME =
715 DATE = 0225 TEMPERATURE (DEGREES R.)
=
529.940 CORRECTED PRESSURE (PSI A) ' =
73.4827 VRPDP PRESSURE (PSIR) 0.2549
=
O L
gs.
t ARKANSAS NUCLEAR DNE VERIFICATIDN TEST LEAKAGE RATE (WEIGHT PERCENT / DAY)
MASS-PDINT AN9 LYSIS TIME AND DATE AT START OF-TEST:
730 0225 ELAPSED TIME:
4.25 HDURS TIME TEMP PRESSURE CTMT. AIR MASS LDSS TDT. AVG. MASS (R)
(PSIA)
MASS (LBM)
(LBM)
LDSS (LBM
_____________________________________________'HR)
.730 539.934 73.4920.
714960 745 529.944 73.4909-714936-24.1 96.5 900 529.957 73.4905 714314 22.1 92.4 915 529.971 73.4906 714796 17.7 95.2 930 529.995 73.4904 714775 20.9 94.9
' 945 530.006 73.4902 714746 29.1 91.2 900 530.004 73.4799 714734 11.6 93.7 915 530.020 73.4902 714725
- 9. 9 76.9 Il30 330.029 73.4900 714712 13.4 73.9 d45 530.036 73.4793 714701 11.3 70.7 1000 530.050 73.4737 714670 30.4 75.9 1015 530.060 73.4796 714657 13.6 73.9 1030 530.077 73.4739
-714636 20.4 74.5 1045 530.096 73.4733 714609 27.4 77.2 1100 530.093 73.4772 714599 10.5 74.7 1115 530.107 73.4775 714592 15.9 73.9 1130 530.135 73.4771 714541 41.4 79.7 1145 530.132 73.4774 714547
-6.4 73.5 FREE AIR VOLUME USED (MILLIONS OF CU. FT.)
1.910
=
REGRESSION LINE-
' INTERCEPT (L BM) 714952
=
SLDPE (LBM'HR)
-73.2
=
VERIFICATION TEST LEAKAGE RATE UPPER LIMIT =
C.299 VERIFICATION TEST LEAKAGE RATE LDWER LIMIT =
0.199 THE CALCULATED LEAKAGE PATE 0.246
=
-(_
i 1
,~,
,m..~,,..,...,m..-
_.. -. =
~. -
$-(
1 i
ARKANSAS.NUCLEAP DNE VERIFICATIDM TEST 4
LEAKAGE RATE (WEIGHT PERCENT / DAY)'
TDTAL-TIME AN9 LYSIS TIME AND DATE AT STROT OF TEST:
730 0225 ELAPSED TIME:
4.25 HOUDS TIME TEMP.
PRESSURE MEASUPED (R)
(PSIR)
LEAKAGE PATE 730 529.934 73.4920 i
-745 529.944 73.4909 0.324 900 529.957 73.4305
- 0. 31 915 U29.971 73.4906
- 0. 2i 930 529.995 73.4904 0.293 945 530.006 73.4302 0.306 900 530.004 73.473?
0.231 rs 915 530.020 73.4902 0.253
' (,)'
930
.530.029 73.4900 0.243 945 530.036 73.4799 0.237 1000 530.050 73.4797 0.254 1015 530.060 73.4736 0.249 1030 530.077 73.4799 0.250 1045 530.096 73.4733 0.259 11G0 530.093 73.4772 0.251
!!15 530.107 73.4775 0.249 1130 530.135 73.4771 0.267 1145 530.132 73.4774 0.247 4
MEAN DF MEASUPED LEAKAGE PATES 0.269
=
YERIFICATIDN TEST LERKAGE PATE UPPEP LIMIT =
0.295 VERIFICATIDH TEST LEAKAGE PATE LOWER LIMIT =
0.195 THE CALCULATED LEAKAGE PATE 0.237
=
i
..u..
. -..I
m AVERIF1 02/25/91 11:33PST 3UMMARY DATA ARKANSAS NUCLEAP DNE VERIFICATION TEST' ALMAX = 0.200 VOL = 1910000.00 VRATET = 0.235 VPATEM = 0.239 o
TIME DATE TEMP-PRESSURE VPPS 730 225 529.93399 73.492022 0.25455359 745 ' 225 529.94353 73.490990 0.25470695 300 225 529.95693 73.490455 0.25513117 915 225 529.97102 73.490602 0.25499371 330 225 529.99514 73.490403 0.25517991
)45 225 530.00557 73.490246 0.25534064
\\900 225 530.00443 73.479993 0.25569460 915 225
-530.02022 73.490192 0.25540444 930 225 530.02976
. 73.479990 0.25460255 945 225 530.03559 73.479771 0.25492159 1000 225 530.05049 73.479709 0.25599299 1015 225 530.05994 73.479616 0.25597627 1030 225 530.07655 73.479321 0.25577196 1045 225 530.09646 73.479767 0.25592514 1100 225 530.09322 73.477235 0.25636395 1115 225 530.10703 73.477522 0.25607719 1130 225 530.13495 73.477119 0.25647969 1145 225 530.13206 73.477395 0.25621449 0
0
- 0. 0
- 0. 0
- 0. 0 y
,,c
..wr.y,--
n.
m_..,
.....-r..
..,,,.wr e.,
,.,,.e.
....,y.%-
.-,-,.c.
r,,.
>-,y
f
SUMMARY
OF MEASURED DATA AT 730 0225 TEMP.
1=
528,567
( 6893.)
TEMP 2=
529.727
( 7009.)
TEMP 3=
529.270
( 6963.)
TEMP 4=
530.370
( 7073.)
TEMP 5=
530.940
( 7121.)
TEMP 6=
531.156
( 7151.)
TEMP 7=
530.877
( 7125.)
TEMP 9=
530.063
( 7047.)
TEMP 9=
530.177
( 7053.)
TEMP 10 =
529.990
( 7041.)
TEMP 11 =
530.547
( 7096.)
TEMP 12 =
530.386
( 7081.)
TEMP 13 =
529.913
( 7034.)
TEMP 14 =
529.550
(. 6995.)
TEMP 15 =
529.920
( 7021.)
TEMP 16 =
529.960
( 7039.)
TEMP 17 =
529.690
( 7012.)
TEMP 18 =
529.757
( 7016.)
()
PRES 1 =
73.737 ( 74150.)
x/
PRES 2=
73.713 ( 72532.)
VPPS 1
0.256
( 6000.)
=
V'RS 2=
0.252
( 5953.)
VPRS 3=
0.258
( 6023.)
VPPS 4=
0.256
( 6003.)
VPRS 5=
0.251
( 5950.)
SUMMARY
OF CDPRECTED DATA TIME =
730 DATE = 0225 TEMPERATURE (DEGPEES R.)
529.934
=
CORRECTED PRESSURE (PSIA) 73.4820
=
VAPOR PRESSURE (PSI A's
=
0.2546 0
,.,.n.,
n.
,,.,,w.
- -,, ~
em
,.w,
.,-.e
,,.,, w
,.r.
n-
en t
SUMMAPY DF MEASURED DATA 6T 745 0225 529.647
( 6901.)
TEMP 1
=
TEMP 2=
529.797
( 7016.)
TEMP 3=
529.300
( 6966.)
-TEMP 4=
530.370
( 7073.)
TEMP 5=
530.900
( 7117.)
TEMD 6=
531.046
( 7140.)
TEMP 7=
529.497
( 6987.)
TEMD 9=
530.073
( 7049.)
TEMP 9=
530.057
( 7041.)
TEMP 10 =
530.020
( 7044.)
TEMP 11 =
530.547
( 7096.)
TEMP 12 =
530.406
( 7093.)
TEMP 13 =
529.933
( 7036.)
TEMP 14 =
529.590
( 6999.)
TEMP 15 =
529.950
( 7024.)
TEMP 16 =
529.960
( 7039.)
TEMP 17 =
529.760
( 7019.)
TEMP 18 =
529.916
( 7022.)
r~s PRES 1=
73.736 ( 74149.)
'N,)-
PRES 2=
73.713 ( 72532.)
VPRS 1 =
0.256
( 6000.)
VPPS 2=
0.252
( 5953.)
VPRS 3=
0.259
( 6029.)
0.256
( 5996.)
VPRS 4 =
VPRS 5=
0.252
( 5959.)
SUMMARY
OF CDRRECTED DATA TIME =
745 DATE = 0225 TEMPEPATUPE (DEGREES R.)
529.944
=
COPPECTED PRESSURE (PSIA) =
73.4909
)
VAPOR PRESSURE (PSIA) 0.2547
=
O l
m,
^
i\\
SUMMARY
OF MEASUPED DATA AT 800 0225 TEMP 1
'529.657
( 6902.)
=
TEMP 2=
529.737
( 7010.)
TEMP 3=
529.290
( 6965.)
TEMP 4=
530.380
( 7074.)
TEMP 5=
530.860
( 7123.)
TEMP 6=
530.966
( 7132.)
TEMP 7=
529.797
( 7017.)
TEMP S=
530.093
( 7049.)
TEMP 9=
530.057
( 7041.)
TEMP 10 =
530.040
( 7046.)
TEMP 11 530.557
-( 7097.)
=
TEMP 12 =
530.396
( 7092.)
TEMP 13 =
529.933
( 7036.)
TEMP 14 529.640
( 7004.)
=
TEMP 15 =
529.840
( 7023.)
TEMP 16 =
530.070
( 7050.)
TEMP 17 =
529.750
( 7019.)
TEMP 19 =
529.906
( 7021.)
PRES 1 =
73.736 ( 74149.)
PPES 2=
73.713 ( 72532.)
\\
VPPS 1 =
0.256
( 5996.)
VPPS 2=
0.E51
( 5950.)
VPRS 3=
0.259
( 6035.)
VPPS 4 =
0.255
( 5994.)
VPPS 5=
0.254
( 5978.)
SUMMARY
OF COPPECTED DATA TIME =
900 DATE = 0225 TEMPERATURE (DEGREES P.)
529.957
=
CORRECTED PPES!UPE (PSIA) 73.4905
=
VAPDP PPESSUPE G SIA) 0.2551
=
k
SUMMARY
OF MEASUPED DATA AT 915 0225 TEMP
~1=
529.677
( 6904.)
TEMP 2=
529.777
( 7014.)
TEMP 3=
529.260
< 6962.)
TEMP 4=
530.460
( 7092.)
TEMP 5=
531.010
( 7139.)
TEMP 6=
530.906
( 7126.)
TEMP 7=
530.527
(. 7090.)
TEMP 9 =- 530.093
( 7049.)
TEMP 9=
530.057
( 7041.)
TEMP 10 =
530.030
( 7045.)
TEMP 11 =
530.577
( 7099.)
TEMP 12 =
530.306
( 7073.)
TEMP 13 =
529.943
( 7037.)
TEMP 14 =
529.630
( 7003.)
TEMP-15 =
529.950
( 7024.)
TEMP 16 =
530.040
( 7047.)
TEMP 17 =
529.750
( 7019.)
TEMP 19 =
529.936
( 7024.)
73.736 ( 74149.)
PRES 1
=
f-'g PRES 2=
73.713 ( 72532.')
( j 0.256
( 5999.)
VPRS 1 =
VPRS 2=
0.252
( 5956.)
VoRS 3=
0.259
( 6033.)
VPRS 4=
0.257
( 6007.)
VPRS 5=
0.252
< 5956.)
SUMMARY
OF CDPPECTED DATA TIME =
915 DATE = 0225 529.971 TEMPEPATURE (DEGPEES R.)
=
73.4806 CURRECTED PPESSURE (PSIA)
=
0.2550 VADOR PPESSUPE (PSIA)
=
- [^T V
y
+g-e rv,-'- - ---wem e-r r.:
esws
,r,ya w
-e
,r
=evy-*r-mc
+c e-
-e,-re, er,-re-w ar e,
-m-w ee e st.
mw-
.-#e e.ww.
O r\\j IUMMARY OF MEASUPED DATA AT 830 0225 528.707
( 6907.)-
TEMP 1
=
TEMP 2=
529.797
( 7016.)
TEMP 3=
529.280
( 6964.)
TEMP 4=-
530.430
( 7079.)
TEMP 5=
531.020
( 7139.)
TEMP 6=
531.006
( 7136.)
TEMP 7=
530.477
( 7085.)
TEMP 9=
530.113
- c. 7052.)
TEMP 9=
530.147
( 7050.)
TEMP 10 =
530.050
( 7047.)
TEMP 11 =
530.577
( 7099.)
TEMo 12 =
530.446
( 7097.)
TEMP 13 =
529.963
( 7039.)
TEMP 14 =
529.610
( 7001.)
TEMS 15 =
529.970
( 7026.)
TEMP 16 =
529.930
( 7036.)
TEMP 17 =
529.760
( 7019.)
TEMP 18 =
529.936
( 7024.)
)
POES 1 =
73.736 ( 74149.)
PRES 2=
'73.713 ( 72532.)
VPRS 1 =
0.256
( 6003.)
VPPt 2=
0.252
( 5954.)
VPPI 3=
0.259
( 6031.)
VPPS 4=
0.256
( 6001.)
VPRS 5=
0.253
( 5970.)
SUMMARY
OF COPPECTED DATA TIME =
930 DATE = 0225 TEMPERATUPE (DEGREES P. )
=
529.995 CDPPECTED PRESSUPE (PSIA) 73.4904
=
VAPDP PPESSUPE (PSIA) 0.2552
=
A
SUMMARY
OF MEASURED DATA AT 845 0225 TEMP 1=
528.727
( 6909.)
TEMP 2=
529.927
( 7019.)
TEMP 3=
529.320
( 6968.)
TEMP 4=
530.430
( 7079.)
TEMP 5=
530.880
( 7125.)
TEMP 6=
530.946
( 7130.)
TEMP 7=
530.427
( 7080.)
' TEMP 9=
530.123
( 7053.)
TEMo 9=
530.097
( 7045.)
TEMP 10 =
530.090
( 7050.)
530.607
( 7102.)
TEMP 11 =
TEMP 12 =
530.456
( 7089.)
TEMP 13 =
529.943
( 7037.)
TEMP 14 =
529.650
( 7005.)
TEMP 15 =
529.950
( 7024.)
TEMP 16 =
530.150
( 7059.)
TEMP 17 =
529.910
( 7024.)
TEMP 18 =
529.866
( 7027.)
- 73. 736 < 74149.)
PRES 1 =
PPES 2=
73.713 ( 72532.)
O VPRS 1=
0.256
( 6001.)
VPRS 2=
0.252
( 5959.)
VPRS 3=
0.259
( 6037.)
VPRS 4=
0.256
( 6002.)
VPRS 5=
0.253
( 5970.)
SUMMARY
OF CDRRECTED DATA TIME =
845 l
DATE = 0225 530.006 TEMPEPATURE (DEGREES P.)
=
73.4802 CORRECTED PRESSURE (PSIA)
=
V'APOR PPESSURE (PSIA) 0.2553
=
r 1
y-e-
g,
5-e
-awf e-e*M,w
-=ms1 w
>ae--e-e v
- w e=-
de w
e--
m w
- --*-e-*-
- me*-
V,O=,
SUMM90Y Do MEASURED D9TA.9T 900 0225 J
TEMP 1=
529.707
( 6907.)
TEMP 2'=
529.7971 ( 7016.)
TEMD
-3.=
529.300
( 6966.)
TEMo 4=
530.460
( 7092.)
TEMP 5=
530.910
(.7129.)
TEMP 6=
531.006- ( 7136.)
TEMo-7=
530.917
< 7119.)
TEMo 9=
530.123 '(
7053.).
TEMo 9=
530.127. < 7049.)
TEMP.10 =
530.0?O' ( 7051.)
= - 530.577
( 7099.)
TEMD 11 TEMo 12 =
530.426
( 7095.)
TEMo 13 =
529.993
( 7041.)
TEMP 14.=
529.640
( 7004.)
TEMP 15 = - 529.990
( 7027.)
TEMD 16 =
530.090
( 7052.)
TEMo'17 =-'529.900
( 7023.)
~ ~
TEMo 19 =. 529.936.-( 7024.)
73.735 ( 74149.)
PRES 1
=
/ ~
ooES' 2=
73.712 ( 72531.)
b) 0.256 d 6003.)
VDRS 1 =
VoPS 2=
0.252
( 5955.)
VPP!
3=
0.25?
( 6036.)
VPCS 4=
0.257
( 6012.)
YoRI 5=
0.254
( 5?76.)
SUMM90Y Do CDooECTED DAT9 TIME =
900 DATE = 0225 530.004 TEMPERATURE (DEGREES o.)
=
73.4799 CDRDECTED ooESSUSE (PSI 9) =
V9oDo PoESSURE (PSIA) 0.2557
=
(
g pp g g>
aw+pe-9 r.-
gpeg - 3+
-m gru---as
-,y
-as 9
- +-rev-+y+,ye, v,yey--n-y me--
y,,r--rg-gw-ew y,w
,-ywrwy.-ee,,
,etr..-
w, y ywe,,,,e,sa.-.www..,
m.
w w e,i
-%i-3
.-ww-e--v
1 SUMM9RY:DF MEASUoED D9TA AT 915 0225 TEMP 1 =
529.747
( 6911.)
TEMP 2=
529.937
( 7020.)
TEMo 3=
529.290
( 6965.)
TEMo 4 =. 530.500
( 7096.)
TEMo 5=
530.930
( 7130.)
TEMo 6'=
530.966
( 7132.)
TEMo 7=
530.737
( 7111.)
TEMD 9=
530.133
( 7054.)
TEMD 9=
530.157
( 7051.)-
TEMo 10 =
530.110
( 7053.)
TEMD 11 =
530.597
( 7101.)
TEMP 12 =
530.466
( 7039.)
TEMD 13 =
529.963
( 7039.)
TEMD 14 =
529.690
( 7009.)
TEMo 15 =
529.990
( 7027.)
TEMD 16 =
530.090
( 7052.)
TEMD 17 =
529.920
( 7025.)
TEMP 19 =
529.956
( 7026.)
PRES 1
73.736 ( 74149.)
=
DRES 2=
73.712 ( 72531.)
t^
\\
VPRS 1 =
0.256
( 6002.)
VPDS 2=
0.253
( 5962.
VPRS 3=-
0.259
( 6032.)
VooS 4=
0.256
( 6002.)
VDPS' 5=
0.254
( 5974.)
SUMMADY OF C00RECTED DAT9 TIME =
915 D9TE = 0225 TEMoECATUDE (DEGREES D. )
530.020
=
COooECTED PRESSURE (PSIR) 73.4902
=
VADOR PRESSUoE (PSIA) 0.2554
=
[w
,ve-y
-s=yr w
.r-
< -, -.. - + -
w we.
., * +-,--
. -. -. +
= - - - -. -
=
-re-<
l i
l l
J l
/"'s N,)
SUMMROY OF MEASURED DATA AT 930 0225 TEMP 1'=
529.717
( 6909.)
TEMD 2=
529.947
( 7021.)
TEMP 3=
529.320
( 6969.)
TEMD 4=
530.470
(. 709 3. )
TEMD 5'=
530.940
( 7131.)
TEMo.
6=
531.106
( 7146.)
TEMD 7=
530.997
( 7126.)
TEMP 9=
530.153
( 7056.)
TEMD 9 =- '530.157
(. 7 051. ).
TEMo 10 =
530.130
( 7055.)
TEMo 11 =
530.617
( 7103.)
TEMD 12 =
530.436
( 7096.)
TEMP 13 =
530.003
( 7043.)
TEMD 14 =
529.660
( 7006.)
TEMD 15 =
529.920
(. 7 031. )
TEMo 16 =
530.050
( 7049.)
TEMP 17 =
529.040
( 7027.)
TEMD 19 =
529.366
( 7027.)
PRES 1=-
73.735 ( 74149.)
PRES 2=
73.712 ( ?2531.)
gy
(
VPRS 1
0.256
( 6005.)
=
VPPS 2=
0.252
( 5952.)
VPRI 3=
0.260
( 6040.)
VDRS 4=
0.256
( 5999.)
VoRS 5=
0.251
( 5943.)
SUMM9RY OF CORRECTED DATA TIME =
930 DATE = 0225 530.029
)
TEMBERATUPE (DEGREES R.)
=
CDooECTED PRESSUDE (PSIA) 73.4900
=
VADOR PRESSURE (PSIA) 0.2546
=
O 1
~.. ~., _
~...,,_ _ - -.,
x
SUMMARY
00 MEASURED DATA AT 945 0225 TEMP 1 =
529.757
(.6912.)
TEMP 2=
529.327
( 7019.)
TEMo 3=
529.360- ( 6972.)
TEMo 4=
530.470
( 7093.)
TEMD 5=
531.010
( 7139.)
TEMP 6=
531.036
( 7139.)
TEMo 7=
530.497
( 7037.)
TEMP 9=
530.143
( 7055.)
TEMP 9=
530.137
( 7049.)
TEMP 10 =
530.130- ( 7055.)
TEMo 11 530.627
( 7104.)
=
TEMP 12 =
530.426
( 7095.)
TEMD 13 =
530.013
( 7044.)
TEMP 14 =
529.690
( 7003.)
TEMo 15 =
529.920
( 7031.)
TEMP 16 =
530.110
( 7054.)
TEMP 17 =
529.350
( 7029.)
TEMP 19 =
529.846
( 7025.s
, PRES 1 =
73.735 ( 74149.)
f-s.
PRES 2=
73.712 < 72531.)
i VFRS 1=
0.257
( 6009.)
VPDS 2=
0.253
( 5965.)
VPRS 3=
0.260
( 6041.)
VPRS 4=
0.256
( 5996.)
VPRS 5=
0.251
( 5945.)
SUMMAoY OF CORRECTED D9TA TIME =
945 DATE = 0225 TEMPERATURE (DEGREES R.)
530.036
=
CDPRECTED PRESSUDE (DSIA) 73.4799
=
VADDR DRESSUDE (PSI A) 0.2549
=
Iu
k
SUMMARY
DF MEASURED DATA AT 1000 0225 TEMP 1 =
529.737
( 6910.)
TEMP 2=
529.917
( 7019.)
TEMP 3=
529.340
( 6970.)
TEMP-4=
530.520
( 7098.)
' TEMP 5=
530.930
( 7130.)-
TEMP 6=
531.096
( 7145.)
TEMP 7.=
530.377
( 7075.)
TEMP 9=
530.194
( 7059.)
TEMP-9=
530.147
( 7050.)
TEMP 10 =
530.140
( 7056.)
TEMP 11 530.627
( 7104.)
=
TEMP 12 =
530.506
( 7093.)
TEMP 13 =
530.023
( 7045.)
TEMP 14 =
529.730
( 7013.)
TEMD 15 =
529.950
( 7034.)
TEMP 16 =
530.130
( 7056.)
TEMo 17 =
529.930
( 7026.)
TEMo 19 =
529.996
(' 7 0 3 0. )
PRES 1 =
73.735 ( 74149.)
PRES 2=
73.712 ( 72531.)
b
\\--
VPRS 1 =
0.257
( 6014.)
VPRS 2=
0.252
( 5961.)
VPRS 3=
0.259
( 6039.)
VPRS 4=
0.256
( 6003.)
VPRS 5=
0.254
( 5932.)
SUMMARY
Oc CORRECTED DATA TIME = 1000 i
DATE = 0225 TEMDEPATURE (DEGREES R.)
530.050
=
CORRECTED PRESSURE (DSIA) 73.4797
=
VADDD PRESSURE (PSIA) 0.2559
=
- - - - - - - - -. - -. - - - - - - - ~. - - - - - - - - - - - - - - - - - - -
\\
('y
SUMMARY
DC MEASURED DATA AT 1015 0225 TEMP.
1=
529.737
( 6910.)
TEMo 2'=
529.337
( 7020.)
TEMo'~3 =
529.360
( 6972.)
'TEMo-4=
530.510
( 7097.)
TEMo 5=
530.930
( 7130.)
TEMo 6=
531.176
( 7153.)
TEMo 7=
530.727
( 7110.)
TEMo 9=
530.194
( 7060.)
TEMo 9 =' 530.227
( 7059.)
TEMD 10 =
530.160- ( 7059.)
TEMD~11 530.647
( 7106.)
=
TEMP 12 =
530.516
( 7094.)
TEMo 13 =' 530.043
( 7047.)
TEMo 14 =
529.710
( 7011.)
TEMD '15 = - 529.920
( 7031.)
TEMD 16 =
530.090
( 7051.)
TEMD 17 =
529.950
( 7023.)
TEMD 19 =
529,336
( 7034.')
ooES
'l 73.735 ( 74143.)
=
PPES 2=
73.711 ( 72530.')
-e
\\
VoRS 1 =
0.256
( 6002.)
VoRS 2=
0.253
( 5965.)
.VPRS 3=
0.259
( 6033.)
VPRS 4a
-0.257
( 6003.)
VPRS 5=
0.254
( 5994.)
SUMMtPY OF CDoRECTED DATA TIME = 1015 DATE = 0225 TEMPERATUPE (DEGREES R.)
530.060
=
CDPoECTED PDESSURE (PSIA) =
73.4796 VADDP PRESSUPE (DSI9) =
0.2560
i
/~
'i N
SUMMARY
OF MEASURED DATA RT 1030 0225 l
i 1
TEMP ~
1=
529.797
( 6916.)
i TEMP 2=
529.997
( 7025.)
TEMP. 3=
529.370
( 6973.)
TEMP 4=
530.520
( 7099.)
TEMP 5=
530.950
( 7132.)
TEMP 6=
531.046
( 7140.)
i TEMP 7=
530.607
( 7099.)-
' TEMP 9=
530.234
( 7064.)
TEMP 9=
530.197
( 7055.)
TEMP 10 =
530.170
( 7059.)
TEMP 11 530.657
( 7107.)
=
TEMP 12 =
530.496
( 7092.)
TEMP 13 =
530.033
( 7046.)
TEMP 14 =
529.760
( 7016.)
TEMP 15 =
529.970
< 7036.)
TEMP 16 =
530.160
( 7059.)
' TEMP 17 =
529.950
( 7029.)
TEMP 18 =
529.926
( 7033.)
. PRES J =
73.735 ( 74149.)
PRES 2=
73.711 ( 72530.)
[
-VPPS 1 =
0.257
( 6011.)
VPRS 2=
0.253
( 5962.)
VPRS 3 =-
0.259
( 6033.)
VPRS 4=
0.257
( 6009.)
VPRS 5=
0.254
( 5973.)
SUMMARY
OF CDPRECTED DATA TIME = 1030 DATE = 0225 TEMPERATURE (DEGREES R.)
530.077
=
CORRECTED PRESSURE (PSIA) 73.4799
=
VAPOR PRESSURE (PSI A) 0.2559
=
Ov 2.
4 l
1
,f-sg
. U'
SUMMARY
OF MEASURED DATA AT 1045 0225
~
TEMP 1 =
529,917
( 6919.)
TEMP' 2=
529.927. < 7029.)
TEMP 3=
529.360
( 6972.)
TEMP 4=
530.550
( 7091.)
TEMP 5=
531.100
( 7147.)
' TEMP 6=
531.066
( 7142.)
TEMP 7=
530.517
( 7099 )
TEMP 9=
530.194
( 7060.)
TEMP 9=
530.217
( 7057.)
TEMP 10 =
530.160
( 7059.)
TEMP 11 =. 530.657
( 7107.)
TEMP 12 =
530.526
( 7095.)
TEMP 13 =
530.073
( 7050.)
. TEMP 14 =
529.750
( 7015.)
TEMo 15 =
529.970
( 7036.)
TEMP 16 =
530.171
( 7060.)
TEMo 17 =
529.960
( 7029.)
' TEMP 529.916
( 7032.)
i
~ -
- REI i
73.735 ( 74149.)
=
PRE!
2=
73.710 ( 72529.)
~
(
i 4
VoRS
-1 =
0.257
( 6012.)
VPRS 2=
0.253
( 5967.)
YPRS 3=
0.259
( 6035.)
VPRS 4=
0.257
( 6013.)
VPRS 5=
0.253
( 5970.)
SUMMARY
OF CORRECTED DATA TIME = 1045 DATE = 0225 TEMDERATURE (DEGREES R.)
530.096
=
CDORECTED PRESSURE (PSIA) 73.4799
=
VAPOR PRESSURE (PSIA) 0.2559
=
Ov
'f
. ~.
j' x
SUMMARY
DF MEASURED DATA AT 1100 0225 TEMP.
1=
529.797
( 6916.)
TEMP 2=
529.897
( 7025.)
TEMP 3=
529.390
( 6975.)
TEMo 4=
530.570
( 7093.)
TEMP 5=
531.110
( 7149.)
i TEMP 6=
'531.076
( 7143.)
TEMP 7=
530.317
('7069.)
1 TEMP 9=
530.224
( 7063.)
TEMP 9=
530.227
( 7059.)
TEMo-10 =
530.190
(-7061.)
TEMP 11 530.697
( 7111.)
=
TEMP 12 =
530.536
( 7096.)
TEMP 13 =
530.043
( 7047.)
TEMP 14 =
529.730
( 7013.)
TEMP 15 =
529.970
( 7036.)
TEMP 16 =
530.150
( 7059.)
TEMP 17 =
529.990
( 7032.)
TEMP 19 =
529.916
( 7032.)
PRES I =
73.734 ( 74147.)
PRES 2=
73.710 ( 72529.)
O)
VPRS 1
0.256
( 6005.)
=
VPRS 2=
0.253-( 5964.)
VPRS 3=
0.259
( '6 0 39. )
VPRS 4=
0.256
( 6006.)
VPRS 5=
0.256
( 6002.)
SUMMAPY OF CDRRECTED DATA TIME = 1100 DATE = 0225 TEMPERATURE (DEGREES R.)
530.093
=
CDPRECTED PRESSURE (PSIA) 73.4772
=
VAPDP PRESSURE (PSIA) 0.2564
=
/'s
\\)
~_
SUMMARY
OF MEASURED DATA AT 1115 0225 TEMP 1 =
529.917
( 6919.)
TEMP 2=
529.997
( 7025.)
TEMP 3=
529.430
( 6979.)
TEMD 4=
- 530.570
( 7093.)
TEMP' 5=
531.020
( 7139.)'
TEMP 6=
531.146
( 7150.)
TEMD 7=
530.547
( 7092.)
TEMo 9=
530.224
( 7063.)
TEMP 9=
530.227
( 7059.)
TEMo 10 =
530.200
( 7062.)
TEMP 11 530.697-( 7111.)
=
TEMP 12 =. 530.526
( 7095.)
TEMP 13 =
530.073
( 7050.)
TEMP 14 =
529.770
( 7017.)
TEMP 15 =
530.000
( 7039.)
TEMD 16 =
530.160
( 7059.)
. TEMo 17 = -529.910
( 7034.)
- TEMP 19 =
529.946
( - 7 035. )
PRES 1 =
73.734 ( 74147.)
PPES 2=
73.710 ( 72529.s C(
VoRS l'=
0.257
( 6016.)
VPRS 2=
0.253
( 5971.)
VPOS 3=
0.260 - ( 6040.)
VPRS 4=
0.256
( 6005.)
VPRS 5=
0.254
( 5991.)
SUMMAoY OF CDPRECTED DATA TIME = 1115 DATE = 0225 TEMPERATUPE (DEGREES R.)
530.107
=
1 CDRRECTED PRESSUPE (PSIA)
]
73.4775
=
VADDP PRESSUoE (PSIA) =
0.2561 i
i L\\
A.
T t4Mdeeerr
- 8*s--me--etr t-m=9 e f e my oamn+"
et w v
mw1N.itn >p yWm---
y-e vp er'n-?
y g-F*.i.Pg-14=>'S4feege
$ e es-Ier'ey 4 =P#gy13 yr w
it ' W'P'-1 #*Mm--g--g-p g
D ene g"su--11 ped 4 W ikT
1
(',
a
SUMMARY
OF MEASURED DATA AT 1130.0225 TEMP 1=
528.877
( 6924.)
- TEMP 2=
529.897. ( 7026.)
TEMP-3=
529.420
( 6979.')
TEMP 4=
530.630
( 7099.)
TEMP 5=
531.180
( 7155.)
TEMo.
6=
531.166
( 7152.)
TEMP 7=
530.477
( 7095.)
TEMP 9=
530.274
( 7069.)
TEMP 9=
530.267
( 7062.)
TEMP 10 =
530.220
( 7064.)
~
530.737
(.7115.)
TEMo 11
=
TEMP 12 =
530.546
( 7097.)
TEMP 13 =
53^.103
( 7053.)
TEMP 14 =
529.740- ( 7014.)
TEMP 15 =
530.020
( 7041.)
TEMP 16 =
530.171
( 7060.)
TEMP 17 =
529.910
( 7034.)
TEMP 19 =
529.996
( 7039.)
73.734 ( 74147.)
PRES 1 =
PRES 2=
73.710 ( 72529.)
OV 0.256 ' ( 6005.)
VPRS 1
=
VPRS 2=
0.253
( 5966.)
VPPS 3=
0.260
( 6 04 4. '>
VoRS 4=
0.257
( 6015.)-
VPRS 5=
0.255
( 5993.)
1
SUMMARY
OF CORRECTED DATA TIME = 1130 DATE = 0225 530.135 TEMPERATURE (DEGPEES R.)
=
CORRECTED PPESSURE (P SI A's a 73.4771 0.2565 VAPDR PRESSUPE (PSIA)
=
OQ w
w s
.<v i
.vy--
e.
qerw--,,-wem e-w--
s--
m
-e4+-4 m e ee, w
y
+
r=-tv-wt-e--
,4-
SUMMARY
OF MEASURED DATA AT 1145 0225-TEMP 1=
529.967
( 6923.)
TEMP 2=
529.917
( 7029.)
TEMP 3=
529.430
< 6979.)-
TEMP 4=
530.600
( 7096.)
TEND 5=
531.170
( 7154.')
TEMP 6=
531.146
( 7150 )
-TEMP
'7=
529.697
( 7006.)
TEMP 9=
530.264
( 7067.)
TEMD 9=
530.237.
( 7059.)
TEMP 10 =
530.240
( 7066.)
' TEMP 11 =
530.747
( 7116.)
TEMP 12 =
530.516
( 7094.)
TEMP 13 =
530.113
( 7054.)
4 TEMP 14 =
529.760
( 7016.)
TEMD 15.=
530.020
( 7041.)
TEMP 16 =
530.221
( 7065.)
TEMD 17 =_.529.910
( 7034.)
TEMP 19 =
530.006
( TF41.)
PRES l' =
73.734 ( 74147.)
(~N PPES 2=
73.710 ( 72529.)
VPRS 1=
0.253 - ( 6019.)
VPRS 2=
0.253
( 5967.)
VPRS 31 0.260
( 6046.)
0.256
( 6005.)
VPRS 4 =
VPRS 5=
0.254
( 5993.)
SUMMARY
OF CORRECTED DATA TIME = 1145 DATE = 0225 530.132 TEMPERATURE (DEGREES R.)
=
73.4774 CDPRECTED PRESSURE (PSI A)
=
0.2562 VAPOR DPESEURE (PSIA)
=-
[s.
-y J
any
+msm
-pagr w e y emy-e,
+r ye+gW v-f w a y w er v r-e 6-
',-.*e-*w ray.--
e u= is wm
+
n,wst:---=
es+ r ce +-
re -
- e
- r-s e =-w w-v w w+ d
.e w e swr **-
se n-
.-e-w-+4-==6we-e'**=*=*w'=w'e==-u+--
m
+-
r h
'o y
ARKANSAS NUCLEAR ONE VERIFICATION TEST LEAKAGE RATE 04EIGHT PEPCENT/ DAY) i r1 ASS-POINT ANALYSIS TIME Arid DATE AT START OF TEST:
730 0225 ELAPSED TIME:
4.25 HOURS TIME TEMP PRE S:SURE CTMT. AIR MASS LOSS TOT. AVG. MASS (R)
(PSIA)
MASS (LBM)
(LBM)
LOSS (LBM/HR) 730 529.934 73.4920 714860 745 529.944 73.4809 714836 c:4.1 96.5 800' 529.957 73.4905 714914 22.1 92.4 815 529.971 73.4806 714796 17.7 85.2 830 529.985 73.4804 714775 20.9 94.8 845 530.006 73.4902 714746 29.1 91.2 990 530.004 73.4799 714734 11.6 83.7 915 530.020 73.4902
?!4725 S.8 76.8 930 530.023 73.4900 714712 13.4 73.9 945-530.036 73.4?99 714701
.11.3 70.7 1000 530.050 73.4787 714670 30.4 75.9 1015 -530.060 73.4796 714657 13.7 73.9 1030 530.077 73.4799 71463' 20.4 74.5
'1045 ~ 530.096
-73.4799 714609 27.4 77.2 1100 530.093 73.4772 714599 10.5 74.7 1115 530.107 73.4775 714593
~15.9 73.9 1130 530 135' 73.4771 714541 41.4 79.7
/ 145 530.132 73.4774 714547
-6.3 73.5 1
FREE AIP. VOLUME USED (MILLIONS OF CU. F T..)
1.910
=
REGRE5'IION LIfiE IfiTERCEPT (LBtO 714852
=
SLOPE (LBM hrs
-73.2
=
VERIFICATION TEIT LEAKAGE PATE UPPER LIMIT =
0.299 VERIFICATION TEST LEAKAGE PATE LOWER LIMIT =
0.189 THE CALCULATED LEAKAGE RATE 0.246
=
.. s t
r..,<-
<w
., -,,-+i,,.,,,,
,,-w
,xw,#
y-
---ry
~g.,-.
,,,--.y r-v
,y yv.-,,.m.,,,,-,.p-,-,4,9,#.g,ww.+
y a.,-u
-%.y
-.-e n-v w
~4.ew e.-
1 4
i.
ARKANSHTfiUCLEAR ONE EPIFICATIOff IEST LEAKAGE PATE OdEIGHT PERCENT / DAY)
TOTAL-TIf1E AfiALYSIS n
(
TIME Arit DATE AT START OF TEST:
730 0225 ELAPSED tit 1E:
4.25 HOURS tit 1E TEt1P.
PRESSURE MEASUPED rR)
(PSIA)
LEAKAGE PATE 730 529.934 73.4820 745 529.944 73.480*
0.324 800 529.957 73.4805 0.310 l
915 529.971 73.4906 O.286 930 529.985 73.4804 0.285 845 530.006 73.4902
- 0. 306 900 530.004 73.4789 0.281 915 530.020 73.4802 0.259 930 530.029 73.4900 0.248 945 530.036 73.4799 0.237 1000 530.050 73.4787 0.254 1015' 530,06.0 73.4786.
O.248 1(30 530.077 73.4789 0.250 1045 530.096 73.4799 0.259 1100 530.093 73.4772 0.251 1115 530.107 73.4775 0.248 1130 530.135 73.4771 0.267 g
1145 530.132 73.4774 0.247 t
s
(
t1ER!i DF MEASUPED LEAKAGE PATES 0.268
=
VERIFICATION TEST LEAKAGE PALE UPPEP LIr1IT =
0.285 VERIFICATION TEST -LEAKAGE PATE LDidEP LIr4IT =
l 0.195 THE CALCULATED LEAKAGE PATE 0.237
=
i i
- l 4
l l
)
LV
APPENDIX I RESULTS OF LOCAL LEAKAGE RATE TESTS
SUMMARY
OF DATA FOR REFUELING OUTACF. #4 ARKANSAS NUCLEAR ONE, UNIT 1 The local leakage measured for each tested penetration is summarized below.
For containment isolation valves in series, tested individually, the local Jeakage reported for that penetration is equal to the measured local leakage of the isolation valve with the highest leak rate.
For containment isolation valves tested simultaneously (pressurizing between valves), the local leakage reported for that penetration is equal to the total local leakage measured.
TYPE C TESTS PERETRATION LEAK RATE NUMBER SYSTEM ACCM 7B Sampling 0
9 Seal Water Return 0
11 Rad. Waste 118 14 Rx. Coolant Letdown 61 19 Spent Fuel Cooling 137 LO7 24A,B,C H2 Purge Air System "A' 24 25 Air Pariculate Monitoring System 0
39 Quench Tk. Fill 0
40 Fire Water 0
41 i
Nitrogen Supply 81 47 CRD Cooling (ICW) 0 49 Containment Test Conn.
11 51 Chilled Water 22 52 RCP Cooling (ICW) 0 53A,B,C H2 Purge Air System "B" 102 54 Intermed. Cooling 88 59 Chilled Water 46 60 Intermed. Cooling 27 62 Intermed. Cooling 14 68 RB Sump Drain 152 70 Quench Tk Drain 0
V-1 Purge Line Inlet 343 V-2 Furge Line Outlet 0
TOTAL 1226 O
SU-2/11 1
._.m m
1:
4 s
TYPE B TESTS 5,
PENETRATION LEAK RATE i
_ NUMBER SYSTEM ACCM C-1 Equipment Hatch 24 i
C-2 Escape Lock 0
C-3 Fuel > Transfer Tube 17 C-4 Personnel Lock 0
All Electrical Cannisters 0
i i
TOTAL 41 4
1 4
j TOTAL' 0F TYPE B AND C PENETRATIONS TESTED 1267 1
f f -
t 1
?
i l
SU-2/11 2
\\
I O
ARKANSAS POWER & LIGHT ARKANSAS NUCLEAR ONE UNIT 1 LLRT DATA REFUELING OUTAGE #4 NOTE: ALL ELECTRICAL PENETRATIONS HAD ZERO LEAKAGE O
LLRT DATA TAKEN JUST PRIOR TO 2/25/81 ILRT O
i PEKETRATION VALVE LEAKAGE TSST NUMBER NUMBER CC/ MIN.
PREST'UE COMMENTS C-1 Equip. Hatch 24 73.0 C-2 Inner Seal 0
72.6 C-2 Outer Seal 0
73.0 C-2 Barrel Test 0
72.6 C-3 Fuel Transfer 17 72.7 Canal C-4 Inner Seal 0
72.1 C-4 Outer Seal 0
72.2 C-4 Barrel Test 72.2 Not tested at this time 7B CV-1845 0
74.7 7B CV-1054 0
73.3 9
CV-1274 0
74.5 9
CV-1270 0
74.0 9
CV-1271 0
74.0 9
CV-1272 0
74.0 9
CV-1273 0
74.6 11 CV-4804 118 73.5 11 CV-4803 116 74.0 14 CV-1221 52 72.7 As found 2895.542 cc/ min.
(Mechanics Repaired) 14 CV-1214 57 73.4 14 CV-1216 4
73.0 19 SF-42 0
73.4 19 SF-43 22 72.1 19 SF-44 115 72.2 24 CV-7446 0
74.1 24 CV-7445 24 73.9 24 CV-7449 0
75.0 25 CV-7454 0
74.5 25 CV-7453 0
74.3 39 CV-1065 0
74.1 40 CV-5612 0
73.2 40 CV-5611 0
72.5 O
SU-2/11 1
LLnT DATA TAKEN JUST PRIOR TO 2/25/81 ILRT (Continued)
O PENETRATION VALVE LEAKAGE TEST NUMBER NUMBER CC/ MIN.
PRESSURE COMMENTS 41 CV-1667 81 72.3 47 CV-2235 0
73.7 49 ILRT Connection 11 74.9 51, CV-6202 22 72.2 52 CV-2234 0
74.2 53A CV-7443 0
72.7 53B CV-7447 102 75.0 53C CV-7444 0
75.0 l
54 CV-2233 88 72.3 59 CV-6203 46 73.3 59 CV-6205 24 74.4 60 CV-2220 0
72.8 60 CV-2221 26 74.0 62 CV-2214 14 72.0 62 CV-2215 0
73.2 68 CV-4400 94 74.8 68 CV-4446 152 74.9 70 CV-1052 0
74.2 70 CV-1053 0
74.4 V-1 CV-7404 CV-7402 343 73.6 V-1 CV-7401 0
72.6 V-2 CV-7403 0
72.6 O
SU-2/11 2
O 1
l 1
ARKANSAS POWER & LIGHT ARKANSAS NUCLEAT. ONE UNIT 1 LLRT DATA i
REFUELING OUTAGE #3 NOTE: ALL ELECTRICAL PENETRATIONS O
HAD ZERO LEAKAGE O
LLRT DATA TAKEN DURING REFUELING OUTAGE #3
(
TEST PENETRATION VALVE LEAKAGE PRESSURE NUMBER NUMBER CC/ MIN.
DATE
+.1 psia C0KHENTS C-1 Equip. Hatch 0
5/16/79 73.6 C-2 Barrel Test 0
4/26/79 69.1 C-2 Inner Seal 0
4/25/79 73.0 C-2 Outer Seal 0
4/26/79 70.4 3 Fuel Transfer 38 4/26/79 72.0 Canal C-4 Barrel Test 1106 5/21/79 66.3 C-4 Inner Seal 2
5/21/79 N/A Flow test C-4 Outer Seal 11 5/21/79 N/A Flow test C-4 Barrel Test 22 5/31/79 N/A Flow test 7B CV-1054 0
4/24/79 71.9 7B CV-1845 0
4/30/79 72.7 9
CV-1274 14 4/12/79 70.3 9
CV-1270 0
4/11/79 71.9 9
CV-1271 0
4/11/79 70.3 9
CV-1272 3
4/ 11/79 72.0 9
CV-1273 64 4/11/79 68.1 11 CV-4804 144 4/26/79 71.5 As found 678.41cc/ min.
(Mechanics Repair) 11 CV-4803 15 4/23/79 72.0 As found 476.76cc/ min.
(Mechanics Repair) 14 CV-1221 14 4/21/79 72.3 14 CV-1214 0
5/1/79 74.6 14 CV-1216 0
5/1/79 74.1 19 SF-42 0
5/7/79 75.0 19 SF-43 0
5/7/79 75.0 19 SF-44 242 5/9/79 73.5 24A CV-7445 58 4/27/79 73.0 As four.d 409.04cc/ min.
(Mechanics Repair) 24B CV-7449 1
5/5/79 73.6 As found 352.65cc/ min.
(Mechanics Repair) 25 CV-7454 11 4/16/79 71.3 25 CV-7453 0
4/17/79 71.5 39 CV-1065 97 4/24/79 74.6 O
SU 2/11 1
LLRT DATA TAKEN DURING REFUELING OUTAGE #3 (Continued) f3 TEST d PENETRATION VALVE LEAKAGE PRESSURE NUMBER
_ NUMBER CC/ MIN.
DATE
+.1 psia COMMENTS 40 CV-5612 9
4/12/79 70.0 40 CV-5611 114 4/12/79 68.6 41 CV-1667 10 4/7/79 70.8 As found>50,000cc/ min.
(Mechanics Repaired) 47 CV-2235 11 4/14/79 70.4 51 CV-6202 14 4/7/79 71.4 52 CV-2234 14 4/5/79 64.3 53A CV-7443 5
4/13/79 71.6 53B CV-7447 0
4/13/79 71.2 54 CV-2233 4
4/10/79 72.7
+
59 CV-6203 0
4/2/79 68.3 59 CV-6205 0
4/2/79 69.2 60 CV-2220 0
4/7/79 64.3 60 CV-2221 0
4/ 12/79 67.4 62 CV-2214 0
4/9/79 66.8 62 CV-2215 14 4/9/79 68.9 68 CV-4400 9
4/18/79 72.4 68 CV-4446 21 5/1/79 69.2 70 CV-1052 51 5/7/79 63.8 70 CV-1053 0
5/8/79 66.5 As found 570.09cc/ min.
(Mechanics Repaired)
V-1 CV-7404 0
5/1/79 64.0 As found 50,000cc/ min.
CV-7402 (Mechanics Repaired)
V-2 CV-7401 0
4/27/79 74.8 CV-7403 O
SU-2/11 2
(
O l
ARKANSAS POWER & LIGHT ARKANSAS NUCLEAR ONE UNIT 1 LLRT DATA MISCELLANEOUS FROM 3-16-78 to 12-17-80 NOTE: ALL ELECTRICAL PENETRATIONS TESTED FROM 3-22-79 thru 3-28-79 HAD ZERO LEAKAGE l
l O
MISCELLANEOUS LLRT DATA FROM 3-16-78 to 12-17-80 1
0 TEST PENETRATION VALVE LEAKAGE PRESSURE NUMBER NUMBER CC/ MIN.
DATE
+.1 psia COMMENTS C-1 Equip. Hatch 4
11/15/79 75.0 C Equip. Hatch 28 8/9/79 73.2 C-1 Equip. Hatch 15 6/7/79 72.2 C-1 Equip. Hatch 15 1/31/79 71.3 C-1 Equip. Hatch 8
4/14/78 74.8 C-2 Outer Seal 3
11/15/79 74.7 C-2 Barrel Test 787 11/16/79 74.9 C-2 Inner Seal 0
11/16/79 74.2 C-2 Barrel Test 34 12/19/78 69.9 C-2 Outer Seal 0
12/19/78 69.9 C-2 Inner Seal 0
12/18/78 69.4 C-4 Barrel Test 0
11/21/79 N/A Flow Test C-4 Inner Seals 1
11/15/79 N/A Flow Test C-4 Barrel Test 0
8/11/79 N/A Flow Test l
C-4 Barrel Test 1
8/15/79 N/A Flow Test C-4 Personnel Hatch 8 6/19/79 N/A Flow Test C-4 Personnel Hatch 7 6/18/79 N/A Flow Test C-4 Personnel Hatch 7 6/ 17/79 N/A Flow Test Barrel Test 0
12/19/78 69.6 O
C-4 C-4 Seal Test 1
12/19/78 74.7 C-4 Personnel Hatch 1 12/17/78 N/A Flow Test C-4 Personnel Hatch 1 10/26/78 N/A Flow Test C-4 Personnel Hatch 1 8/20/78 N/A Flow Test C-4 Personnel Hatch 1 6/15/78 N/A Flow Test C-4 Personnel Hatch 1 5/16/78 N/A Flow Test C-4 Personnel Hatch 6 3/23/78 N/A Flow Test V-1 CV-7404 0
11/15/79 74.9 i
CV-7402 V-1 CV-7404 42 11/14/79 73.9 CV-7402 V CV-7404 13979 11/9/79 65.2 Repaired and retested CV-7402 11-14-79 V-1 CV-7404 32 8/7/79 72.6 As Found 22695.0cc/ min.
CV-7402 (Mechanics Repaired)
V-2 CV-7401 CV-7403 0
11/15/79 74.9 V-2 CV-7401 CV-7403 99 11/15/79 74.1 V-2 CV-7401 CV-7403 32 8/8/79 71.9 O-SU-2/11 1
MISCELLANEOUS LLRT DATA FROM 3-16-78 to 12-17-80 (Continued)
[)
TEST
\\' d PENETRATION VALVE LEAKAGE PRESSURE NUMBER NUMBER CC/ MIN.
DATE
+.1 raia CGMMENTS 24A CV-7454 3
5/25/79 74.0 As Found 1654.97cc/ min (Mechanics Repaired) 53B CV-7447 47 11/13/79 70.3 53B CV-7447 180 8/30/79 70.4 53B CV-7447 269 8/10/79 70.4 C-1 Equip. Hatch 30 3/ 17/7 8 74.9 C-2 Inner Seal 0
3/18/78 74.6 C-2 Outer Seal 40 3/18/78 74.8 C-4 Personnel Hatch 6 3/23/78 N/A Flow Test 42 PH2O O
3/16/7 8 74.9 48 PH17 30 3/17/78 74.9 C-1 Equip. Hatch 9
2/6/80 75.0 C-1 Equip. Hatch 0
6/3/80 73.1 C-1 Equip. Hatch 49 9/24/80 72.0
/g C-1 Equip. Hatch 21 8/1/80 72.4
(' ')
C-2 Escape Hatch 0
9/23/80 71.8 C-2 Outer Seal 0
7/29/80 72.5 C-2 Inner Seal 165 7/29/80 71.5 C-2 Barrel Test 0
7/29/80 72.5 C-2 Inner Seal 0
12/6/80 73.0 C-2 Outer Seal 0
12/6/80 73.1 C-2 Barrel Test 0
12/6/ 8 0 73.0 V-1 CV-7404 210 2/6/80 74.1 As Found>50,000cc/ min CV-7402 (Mechanics Repaired)
V-1 CV-7404 0
6/6/80 74.2 CV-7402 V-1 CV-7404 0
9/24/80 72.5 CV-7402 V-1 CV-7404 0
8/2/80 73.2 As Found>50,000CC/ min.
CV-74 02 (Mechanics Repaired)
V-2 CV-7403 158 2/6/80 73.8 As Found>50,000cc/ min.
CV-7401 (Mechanics Repaired)
V-2 CV-7403 0
6/6/80 71.6 CV-7401 CV-7403 0
8/2/80 72.9 As Found>50,000CC/ min.
,. s (v)
CV-7401 (Mechanics Repaired)
CV-7403 0
6/24/80 71.5 CV-7401 2
SU-2/11
~..
MISCELLANE0US LLRT DATA FROM 3-16-78 to 12-17-80 (Continued)
TEST PENETRATION '
VALVE LEAKAGE PRESSURE r
1 NUMBER NUMBER CC/ MIN.
DATE
+.1 psia
, COMMENTS P-49 Blank 0
6/5/80 73.2 P-49 Blank 0
8/1/80 74.6 P-49 Blank 0
9/24/80 70.8 I
C-4 Seals 2
2/6/80 N/A Flow Test C-4 Personnel Lock-1 8/3/80 N/A Flow Test C-4 Personnel Lock 1
5/2/80 N/A Flow Test C-4 Personnel Lock 2
5/4/80 N/A Flow Test C-4 Personnel Lock 15 6/3/80 N/A Flow Test C-4 Personnel Lock 72 6/8/80 N/A Flow Test C-4 Personnel Lock 9
6/24/80 N/A Flow Test C-4 Personnel Lock 10 6/24/80 N/A Flow Test C-4 Personnel Lock 1
3/4/80 N/A Flow Test C-4 Personnel Lock 1
8/5/80 N/A Flow Test C-4 Personnel Lock 2
8/16/80 N/A Flow Test C-4 Personnel Lock 6
7/16/80 N/A Flow Test C-4 Barrel 0
7/15/80 72.3 As Found>$0,000cc/ min.
(Mechanics Repaired)
C-4 Personnel Hatch 0 9/26/80 70.0 C-4 Seals 0
11/14/80 72.3 C-4 Outer Seal 0
12/6/80 74.4 C-4 Inner Seal 0
12/6/80 73.8 i
C-4 Inner Seal 0
12/9/80 72.5 C-4 Outer Seal 0
12/9/80 71.4 C-4' Inner Seal 0
12/16/80 72.8 C-4 Outer Seal 0
12/16/80 73.7 C-4 Outer Seal 0
12/ 17/80 73.8 C-4 Barrel 0
12/ 17/80 74.2 i
lO I
SU-2/11 3
_.. ~