ML20112F768
| ML20112F768 | |
| Person / Time | |
|---|---|
| Site: | Arkansas Nuclear  |
| Issue date: | 12/31/1984 |
| From: | BECHTEL GROUP, INC. |
| To: | |
| Shared Package | |
| ML20112F763 | List: |
| References | |
| NUDOCS 8503270553 | |
| Download: ML20112F768 (145) | |
Text
O Arkansas Power & Light Arkansas Nuclear One Unit 1 l0 Primary Reactor Containment Integrated Leakage Rate Test Final Report December 1984 l
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O ARKANSAS POWER AND LIGHT COMPANY a
ARKANSAS NUCLEAR ONE UNIT 1 DOCKET NUMBER 50-313 1
PRIMARY REACTOR CONTAINMENT INTEGRATED LEAKAGE RATE TEST DECEMBER 17, 1984 Submitted to The United State Nuclear Regulatory Commission Pursuant To Facility Operating License Number DPR - 51 SU-077
TABLE OF CONTENTS Section Pg I.
INTRODUCTION 1
II.
TEST SYNOPSIS 2
III. TEST DATA
SUMMARY
4 IV.
ANALYSIS AND INTERPRETATION 9
V.
COMPUTER REPORT / DATA PRINTOUT DEFINITIONS 10 VI.
REFERENCES 12 Appendix A.
Bechtel ILRT Computer Program Summary B.
ILRT Stabilization Summary Data C.
ILRT Summary Data D.
ILRT Calculations Trand Report Mass Point Analysis Total Time Analysis E.
ILRT Plots Temperature vs Time Pressure vs Tiec Vapor Pressure vs Time Air Mass vs Time Mass Point Leakage Rate vs Time Total Time Leakage 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 Plot: Air Mass vs Time
+
I.
Results of Local Leakage Rate Test M.
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LIST OF TABLES Table h
1 Dewpoint and Temperature Sensor Volume Fractions 8
O e
O SU-077 111
. -. -... - -.. - - -. - - =.. - - - - - - - - - - - - - - = - - - - - - - - - -
I I.
INTRODUCTION The reactor containment building Integrated Leakage Rate Test (Type A) is performed to demonstrate that leakage through the primary reactor containment and systems and components penetrating primary containment shall not exceed allowable leakage rate values as specified in the Plant Technical Specifications.
A successful Type A test was performed at Arkansas Nuclear One, Unit 1 between 2322 on 12/14/84 and 0030 on 12/17/84. The results were substantiated by the data from the Verification Test acquired between 0345 and 0745 on 12/17/84. These tests were performed according to the requirements of the Arkansas Nuclear One Technical Specifications and 10CFR50, Appendix J.
The Type A test was conducted applying the absolute method defined in ANSI /ANS 56.8-1981 (previously ANSI N274), " Containment System Leakage Testing Requirements." The leakage rate was calculated by formulas specified in ANS145.4-1972, " 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. 8-1981 (Mass-Point).
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II.
-TEST SYNOPSIS Prior to contain'sent pressurization, two temperature surveys were conducted at each of the installed containment ILRT instrumentation locations. The first survey data were not consistent with Data Acquisition _ System (DAS) readings due to an incomplete mixing of air.
Af ter containment fans had neen running for several hours, the survey was reperformed satisfactorily.
Eighteen RTDs were available for the test. Two pressure sensors were
-available, with one (PI-1) used in data evaluation and the other (PI-2) used as a backup. Initially six dewpoint sensors were available for the test. However,- during the test, number one dewpoint sensor behaved 7-erratically _ and was removed f rom calculations. After considering the relative locations of dewpoint sensors, communication between containment sub-volumes, and the data from the containment temperature survey, test personnel-decided to assign the volume fraction of dewpoint sensor number one to dewpoint sensor number two.
Soon af ter. the compressors were started, pressure instruments were found not to be responding to the increase in containment pressure.
Pressurization was halted at approximately 5 psig (as read _in the control room) and an entry was made into the containment. The inboard isolation valve on the pressure sensing line _and the outboard isolation valve for the flow verification line were opened. Due to valve lineup discrepancies found during the first hour of. pressurization, an external valve lineup
. verification was performed and pressurization recommenced at 1038 on i
i-
-12/15/84 At 25.07 psia (8.44 psig) pressurization was suspended for a local leak survey. The breathing air system was shut down due to a leak downstream of the external isolation valve for P-43.
The nitrogen supply system i-valve lineup was modified slightly to prevent back leakage of nitrogen and CV-1667, a boundary valve of P-41, was closed by hand.
Compressors were re started.
Test pressure was reached at 1110 on 16 December,1984. However, as a result of the pressurization air cooling down, pressure decreased slightly. Since the acceptable band of pressure was so small - 59.0 to 59.3 psig - a decision was made to introduce additional air to bring i
pressure up to a value of 73.86 psia (59.23 psig) prior to the start of n
the stabilization period.
I During the temperature stabilization period, two leaks were identified and corrected: one at the outlet of the verification flow rotameter, and the other in the packing of ILRT-1.
l-The Integrated Leakage Rate Test was begun at 1630 on 12/16/84 and all
(
acceptance criteria were met at 0030 on 12/17/84. The test data resulted j
in a calculated leakage rate of 0.041%/ day using the Mass Point calculation technique and 0.031%/ day using the Total Time calculation.
The 95% upper confidence limits were 0.046%/ day and 0.103%/ day for the above techniques respectively. The computer data summaries and calculations are included in Appendix B through H.
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l l
To allow for the possible deterioration of the containment boundary between scheduled ILRT's, the calculated leakage rates must be less than s
75% of the maximum allowable leakage rate (per 10CFR50, Appendix J,
" Primary Reactor Containments Leakage Testing for Water Cooled Power Reactors").- Therefore, the leakage rate determined during the peak pressure ILRT must be less than 0.150%/ day. All criteria for the short duration test were met.
Af ter' health physics had determined that pressurization air could be safely discharged into the atmosphere, a leakage race of 0.200%/ day (13.2 SCFM) was imposed upon the system. The verification test was started at 0345 on 12/17 /84, and leakage rate was monitored for a period of 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.
This leakage rate was calculated to be 0.260%/ day using the Mass Point technique and 0.254%/ day using the Total Time technique.
As per 10CFR50, Appendix J, the verification test requirements are that the difference between the supplemental test data and the Type A leakage rate is less than 0.25 La, which can be written as:
l(L
+ L, - L }l ( 0.25L, where:
L,
= Maximum allowable leakage, rate for peak pressure
= 0.200%/ day w
L,
= Imposed leakage rate
= 0.200%/ day L
= Containment-leakage rate calculated at pressure
= 0.041%/ day (Mass Point)
= 0.032%/ day (Total Time)
L
= Containment leakage rate calculated during the verification test
= 0.260%/ day (Mass Point)
= 0.254%/ day (Total Time)
Therefore, the lef t hand side of the equation (Lam + Lo - Lvm) can be l
calculated to be equal to 0.019%/ day for the mass point analysis and 0.022%/ day for the total time analysis. Since both of these calculations are less than 25% of La (0.05%/ day) the verification test data substantiate the Type A test data.
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4 1
4 III. TEST DATA
SUMMARY
A.
Plant Information Owne'r Arkansas Power & Light i
Plant Arkansas Nuclear One, Unit 1 Location 6 Mi NW of Russellville Containment type Prestressed, post-tensioned concrete j
NSSS Supplier, Type B & W PWR Docket No.
50-313 License No.
DPR 51 5/21/74 B.
Technical Data i
1.
Containment Net 1,910,000 cu. ft.
Free Air Volume t-2.
Design Pressure 59 psig 3.
Normal Design Temperature 150*F t
4.
Calculated Peak Accident 59 psig Pressure, Pa e
5.
Containment ILRT Average 60-110*F l
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 56.8-1981)
Total Time (per BN-TOP-1) 1 3.
Test Pressure 59.065 psig 4
Maximum Allowable Leakage 0.200%/ day Rate, La 5.
75% of La 0.150%/ day 4
6.
Integrated Leakage Rate Leakage Rate,
%/ day Test Results From Ecgression At Upper 95%
2 Line (Laa)
Confidence Limit
- a. Mass Point Analysis 0.041 0.046 i
- b. Total-Time Analysis 0.031 0.103
'( )
7.
Verification Test Imposed 13.20 SCFM Leakage Rate (0.200%/ day)
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_ _ _. _, _ _.. -. - _. _. ~ _ _. _. _ - _ _ _
T 8.
Verification Test Results Leakage Rate J-(%/ day) s-
- a. Mass Point Analysis 0.260
- b. Total Time Analysis 0.254 9.
Verification Test Limits Test Limits l
(%/ day)
- a. Mass Point Analysis
- 1) Upper Limit (Lo+ Lam +0.25La) 0.288
- 2) Lower Limit (Lo+ Lam-0.25La) 0.188
- b. Total Time Analysis
- 1) Upper Limit (Lo+ Lam +0.25La) 0.279 4
- 2) Lower Limit (Lo+ Lam-0.25La) 0.179
- 10. Report Printouts The _ Report Printouts of the Type A and Verification Test summary data and calculation are provided for the Mass Point and Total Time Analysis (Appendix C through H).
Stabilization data are also provided (Appendix B).
)
D.
Test Results - Type B & C Tests 4
J Refer to Appendix I for a summary of Local Leakage Rate Test results since the last ILRT was performed.
i E.
Integrated Leakage Rate Measurement System 1.
Absolute Pressure (2 channels)
Range:
0-100,000 counts Measurement system error:
0.001 psia Sensor error:
0.005 psia Range:
0-100 psia Repeatability:
0.005 psia i
Texas Instruments Model 145-02 Precision ' Pressure Instrument, Serial No. 2861 Bourdon Capsule Serial No. 6806 Calibration Date: 10/10/84 Texas Instrument Model 145-02 Precision Pressure Instrument, Serial No. 2860 Bourdon Capsule Serial No. 6807 Calibration Date: 10/10/84 l
SU-077 5
L
2.
Drybulb Temperature (18 plus 3 spares)
Range:
(-190) - (+200)"F
-Measurement system error:
0.1"F Sensor error:
0.2"F Repeatability-0.05"F Resistance Temperature Detectors - Leeds & Northrup Thermohm lead, 100-ohm copper Calibration Date: 11/19/84 3.
Dewpoint Temperature (6 sensors)
Range:
0-100*F Measurement system error:
0.1"F Sensor error:
0.54"F Repeatability:
0.1"F Dewpoint Temperature Systems - EG & G 660 Calibration Date: 12/4/84 4
Verification Flow (1 channel)
Ra nge:
1.0-24.0 scfm
-Accuracy:
1.0% F.S.
Calibration Date:
11/20/84 Flowmeter-Brooks Hi-accuracy full view rotameter, O
Model 1110-08K2-BLA 5.
Overall Instrumentation Selection Guideline (ISG) Value (f rom ANSI /ANS 56.8-1981) based on ILRT instrumentation and an eight hour minimum test duration is 0.037.
This is calculated using the errors described above and pressure of 73.69 psia, dewpoint temperature of 65.09 (0.0108 psia /"F f rom steam tables between 65 and 66*F) and RTD temperature of 532.43"R 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 lineup (at time of test), showing required valve 7-~
(j positions and status of piping systems.
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- (' y 4.
A continuous, sequential log of events f rom initial survey of 1\\~/
containment to restoration of all tested systems.
5.
Documentation of instrumentation calibration 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 (Type B and C tests), including as found leak rates, corrective action taken, and final leak rate.
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 (superimposed leakage), with calibration information on flowmeters along with calculations that were used to measure the verification leakage rate.
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- 11. The P&ID's of pertinent systems are readily available.
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O TABLE 1 V
DEWPOINI AND TEMPERATURE SENSOR VOLUME FRACTIONS f
VOLUNE RTD NUMBER FRACTION TE-2401
.054 TE-2402
.064 TE-2403
.027
{
TE-2407
.029 TE-2408
.070 TE-2409
.027 TE-2411
.010 TE-2413
.021 TE-2414
.021 TE-2415
.027 TE-2416
.027 TE-2404
.089 TE-2405
.089 TE-2406
.089 TE-2410
.089 TE-2417
.089
-TE-2418
.089 TE-2419
.089 O
DEWPOINT HYGROMETER NO.
FRACTION DHY-001
- 0. 0*
DHY-002
.280 DHY-003
.180 j
DHY-007
.180 DHY-005
.180 DHY-006
.180 l
- Dewcell DHY-001 f ailed during the test. The volume fraction from DHY-001 was added to DHY-002.
i SU-077 8
O IV.
ANALYSIS AND INTERPRETATION N]
u A.
Type A Test Results The following penetrations were used for the ILRT:
Penetration No.
Equipment Leakage Rate P 42 PH-19, PH-20 197.46 acem P 43 SA 45 11.90 acem P 46 IA 52 9.61 acem P 48 PH-17, PH-18 26.49 acem P 49 ILRT Pressurizing Line 327.00 acem TOTAL 572.46 acem Converted to seem 2921.5 seem B.
Valve CV-1667 at penetration number P-41 was hand tightened during the test. A Local Leakage Rate Test performed af ter the completion of the ILRT gave a result of 77.67 acem for that penetration. This value, converted to scem, is 396.38 sccm.
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C.
Type B and C Test Results The totals of tested Type B and C local leakage rates are: as found, 15,341 scem; as left, 11,653 scem. The acceptance criterion is that the above total be less than 224,000 seem (0.12% per day, 60%
of La). The total for type B and C tests is within the acceptance criteria.
D.
Conclusion The ILRT results for the upper 95% confidence limits at 59 psig (-0 psi, +.3 psi) were:
Mass Point Analysis 0.046% per day Total Time Analysis 0.103% per day These values must be increased by leakage rates in section IV.A and B above. The total, 3317.9 seem (equivalent to 0.0018% per day),
added to the two 95% confidence limits results in a value of 0.048%
per day for Mass Point, and 0.105% per day for Total Time.
The acceptance criterion is that these values be less than 0.150%/ day (75% of La). The calculated values are within the
-g acceptance criterion.
b The ISG was calculated as 0.037 which is within the acceptance criterion of 0.050 (25% of La).
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d 4
/~k COMPUTER REPORT AND DATA PRINTOUT DEFINITIONS U
V.
REPORT / DATA PRINTOUT DESCRIPTION ~
A.
Mass Point Report:
A presentation of leakage rate (%/ day) as determined by the a
Mass-Point Method described in the " Computer Program" section of this report. The " Calculated Leakage Rate" is the value determined f rom 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.
i 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 Mass Point Total Time Methods 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 O
methods described in the " Computer Program" section of this report.
. The five 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).
]
I 3.
TEMP:
Containment weighted-average drybulb temperature in I
absolute units, degrees Rankine (*R).
\\
4.
PRESSURE: Partial pressure of the dry air component of the containment atmosphere in absolute units (psia).
j 5.
VPRS:
Partial pressure of water vapor of the containment i
atmosphere in absolute units (psia).
u E.
Summary of Measured Data:
The individual containment atmosphere drybulb temperatures, dewpoint temperatures and absolute total pressure measured at the time and date as indicated, which are used to determine the temperature and j
pressure described in D.3 and D.4 above.
1.
TEMP 1 through TEMP 18 are the drybulb temperatures. The values in parenthesis are equivalent to temperatures, "F, as acquired 11 from the data acquisition system (DAS). The values in the lef t-hand column are the corrected temperatures expressed in absolute units, *R.
SU-077 10
I T 2.
PRES 1 and PRES 2 measure the total absolute containment pressure. The right-hand value, in parenthesis, 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 lef t-hand column is the absolute total pressure, psia.
3.
VPRS 1 through VPRS 6 are the dewpoint temperatures (water vapor pressures). The values in parenthesis column are equivalent to temperatures, *F, as acquired f rom the DAS. The values in the lef t-hand column are the water vapor pressures, psia, from the steam tables for saturated steam corresponding to the dewpoint (saturation) temperature in the center column.
f 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 drybulb temperature derived from TEMP 1 through TEMP 18.
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 atmosphere water vapor pressure, absolute, derived from VPRS 1 through VPRS 6.
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o SU-077 11
VI.
REFERENCES 1.
Arkansas Nuclear One Unit 1 Procedure No. 1309-09, Integrated Leak Rate Test of Primary Containment (Type A Test).
2.
Code of Federal Regulation, Title 10, Part 50, Appendix J, Primary Reactor Containment Leakage Testing for water cooled Power Reactors.
3.
ANSI /ANS 56.8-1981, Containment System Leakage Testing Require-ment.
4 Bechtel Topical Report BN-TOP-1, Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants, Revision 1, 1972.
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A t
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- O APPENDIX A DESCRIPTION OF BECHTEL ILRT COMPUTER PROGRAM A.
PROGRAM AND REPORT DESCRIPTION 1.
The Bechtel IIJLT computer program.is used to determine the integrated leakage rate of a nuclear primary containment structure. The program is used to compute leakage rate based on input values of time, free air volume, containment atmosphere total pressure, drybulb temperature, and dewpoint temperature (water vapor pressure). Leakage rate is computed using the Absolute Method as defined in ANSI /ANS 56.8-1981, " Containment System 14akage Testing Requirements" and BN-TOP-1, Rev 1. " Testing i
Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants." The program is designed to allow the user to evaluate containment leakage rate test results at the jobsite during containment leakage testing.
Current leakage rate values may be obtained at any time during the testing period using one of two computational methods, yielding three different report printouts.
2.
In the first printout, the Total Time Report, leakage rate is computed from initial values of free air volume, containment atmosphere drybulb temperature and partial pressure of dry air, O
the latest values of the same parameters, and elapsed time. These individually computed leakage rates are statistically averaged using linear regression by the method of least squares. The Total Time Method is the computational technique upon which the short duration test criteria of BN-TOP-1, Rev 1. " Testing Criteria for Integrated Isakage Rate Testing of Primary Containment Structures for Nuclear Power Plant," are based.
3.
The second printout is the Mass Point Report and is based on the Mass Point Analysis Technique described in ANSI /ANS 56.8-1981,
" Containment System Isakage Testing Requirements." The mass of dry air in the containment is computed at each data point (time) using the Equation of State, from current values of containment 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 squares. Isakage rate is determined from the statistically derived slope and intercept of the regression line.
4.
The third printout, the Trend Report, is a summary of leakage rate values based on Total Time and Hass 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 comparision to the acceptance criteria of BN-TOP-1 for conduct of a short duration test.
O SU-061 A-1 w
f 5.
The program is written in a high level language and is designed i
for use on a micro-computer. Brief descriptions of progra use,
)
formulae used for leakage rate computations, and program logic are provided in the following paragraphs.
B.
EXPLANATION OF PROGRAM 1.
The Bechtel IIAT computer program is written, for use by i
experienced ILRT personnel, to determine enntainment integrated leakage rates based on the Absolute Method described in ANSI /ANS i
56.8-1981 and BN-TOP-1.
i I
2.
Information loaded into the progran prior to or at the start of the test:
a.
Number of containment staosphere drybulb temperature sensors, dewpoint temperature (water vapor pressure) sensors and i
4 pressure sages to be used in leakage rate computations for the specific test 4.
b.
Volume fractions assigned to each of the above sensors c.
Calibration data for above sensors d.
Test title e.
Test pressure f.
Maximum allowable leakage rate at test pressure.
3.
Data received from the data acquistion system during the test, and used to compute leakage rate:
a.
Time and date b.
Containment staosphere drybulb temperatures c.
Containment atmosphere pressure (s) d.
Containment atmosphere dewpoint temperatures e.
Containment free air volume.
4.
After all data at a given time are received, a Summary of Measured Data Report (refer to " Program Logic," Paragrapn D. " Data" option command) is printed.
5.
If drybulb and dewpoint temperature sensors should fail during the tests, the data from the sensor (s) are not used. The volume fractions for the remaining sensors are recomputed and reloaded into the program for use in ensuing leakage rate computations.
SU-061 A-2
(D
%.-. I C.
LEAKAGE RATE FORMUIAE 1.
Computaton using the Total Time Method a.
Nessured leakage rate from date:
- wT M
y1 i 1 PV
= W RT (2) l g3 g g l
2400 (W -W) g 1
(3) l 1
=
l.
A *i "1
f and substituting equations (1) and (2) l into_(3) yields:ndW Solving for W a g
l Lg,2400 [y.
lgg\\
(4)
IPV TPVgyy/
1 Atg g where:
W1, Wi = Weight of contained mass of dry air at times ti and gi respectively, iba.
i T, Ti = Containent atmosphere drybulb temperature at times ti 1
and ti respectively,
'R.
,P, Pi = Partial pressure of the dry air component of the 1
containment atmosphere at times ti and ti respectively, psia.
V, Vi - Containment free air volume at times ti and ti 1
4 respectively, (constant or variable during the test),
ft3 i
= Time at l'* and ith l
t data points respectively, hours.
y, tg Ati
= Elapsed time from ti to ti, hours.
R
= Specific gas constant for air = 53.35 ft.lbf/lbs.*R.
Li
= Hessured leakage rate computed during time interval ti to ti, wt%/ cay.
To reduce truncation error, the computer program uses the following equivalent formulation:
-2400 AW O
g At W
g g 3j SU-061 A-3
OV where:
A i
1-1 j
1 1
V
. ATg AP
, avg, APg g g
P V
PV I
1 g
g1 l
1 +ATg Tg AP
=P
-P g
g y
=V
-V g
g y
AT
=T
-T g
g y
b.
Calculated leakage rate from regression analysis:
L = a + b.itN where:
P
_L = Calculated leakage rate, wt%/ day, as determined from the regression line.
M At )/N a = (ILg g
(6) b = N(IL At ) - (E M t )
(7) g g g
g N(It b - (M /
g g
N = Number of data points N
I=I i=1 c.
Calculated leakage rate at the 95% confidence level.
I
=a+bAtN*3 95 L
where:
b5 = calculated leakaae rate at the 95% confidence level, at elapsed time At
- N O
SU-061 A-4
- ~. - -. -..
i For AtN < 24 0
i i
1 A *1 (N-2 [ x
= t.025;N-2 (
S
~*
~
)
!(
-I
/N [
(9a).
[1 + 1,+ (At
~
N i
i N
where:
= 1.9 M6 + 2.37226 + 2.82250 t.025;N-2 0
N-2 (N-2)2 For AtN > 24 L O *1}!( ~ }
S_ = t.025;N-2 (ZL
~*
~
1 0
i i
L
[
+ (At - A7) /(I t
- @t [/N (N
N g
g where:
.6 m (N-2 E + 3.5283(N-2) + 0.85602 t.025;N-2 =
0 (N-2)2 + 1.2209(N-2) - 1.5162
_. IAt1 at N
2.
Computation using the Mass Point Method a.
Contained mass of dry air from data:
PV wg 144 gi (10)
RTg I
where:
All symbols as previously defined.
Y J
' O SU-061 A-5
i b.
Calculated leakage nte from regression analysis, W = a + b t:
I = -2400 b (11) a where:
L = Calculated leakage rate wt%/ day, as determined form the regression line a = (IW - bIac )/N (12) g g
b = N(IW atg),(W)h )
(g3) g g
i 2
N(IAt ) - (IAt h g
0 At = Total elapsed time at time 1 data point, hours g
N
= Number of data points th W
= Contained mass of dry air at i data point, Iba, as I
computed from equation (10)
N I=I i=1 Inorder to reduce truncation error, the computer program uses the following equivalent formulation:
~
AW Z
1)/N a
=W 1 * (Z
~
1 WI 1
l AW AW N (I A*i) - I I 0*1 y
b
= W' i
N(I At ), (ygg g 2
l i
where A i is as previously defined.
I W1
!O SU-061 A-6
c.
Calculated leakage rate at the 95: confidence level.
b5 (b - S }
C14)
=
h where:
b5 = calculated leakage rate at the 95% confidence level, wt.%/ day.
l!
Sb " *0 025;N-2 SN (15)
[! Gat
-@t[]
g g
where, t.025;N-2 = 1.6449(N-2)2 + 3.5283(N-2) + 0.85602 0
(N-2)2 + 1.2209(N-2) - 1.5162 S=
I"i - (a + b At )]2 1/2 g
N-2 j
h
~ II C# l"1)) /N I
5=W ICA"i "13 i
1 N-2
\\
[I (AW /W ) At -I(AW /W )(IA t )/N ]2 1/2 g 1 g
g 1 i
1 ) _ (33,,)2 2
jg j
I(at O
SD-061 A-7
.. ~ -
i 1
D.
PROGRAM LOGIC 1.
The Bechtel IIJLT computer program logic flow is controlled by a
)
set of user options. The user options and a brief descripton of their associated function are presented below.
1 OPTION COMMAND FUNCTION After starting the progras execution, the user either enters the name of the file containing previously entered data or initializes s new data file.
DATA Enables user to enter raw data. When the system requested values of time, volume, temperature, pressure and vapor pressure, the user enters the appropriate data. After completing the data entry, a suasary 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, data, average temperature, partial pressure of dry air, and water vapor pressure
(
is printed.
TREND A Trend Report is printed.
TOTAL A Total Time Report is printed.
MASS A Mass Point Report is printed.
TERM Enables user to sign-off temporarily or permanently.
All data is saved on a file for restarting.
CORR Enables user to correct previously entered data.
LIST A Suasary Data Report is printed.
PLOT Enables user to plot aussary data, individual sensor data, air mass or leakage rate versus time.
DELETE Enables user to delete a data point.
j INSERT Enables user to reinstate a previously deleted data point.
VOLFRA Enables user to change volume fractions.
TIME Enables the user to specify the time interval for a report or plot.
VERF Enables.the user to input imposed leakage rate and calculated ILRT leakage rates at start of verification test.
SU-061 A-8 l
l l
T fT -
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
\\_,/
SUMMARY
DATA
.200 VOLUME =
1910000.
ALMAX
=
VRATET =
.229 VRATEM =.238 TIME DATE TEMP PRESSURE VPRS VOLUME 1230 1216 533.027 73.4736
.3132 1910000.
1245 1216 532.825 73.4490
.3129 1910000.
i 1300 1216 532.713 73.4333
.3127 1910000.
1315 1216 532.627 73.4212
.3119 1910000.
1330 1216 532.545 73.4125
.3097 1910000.
1345 1216 532.495 73.4035
.3108 1910000.
1400 1216 532.449 73.3972
.3101 1910000.
1415 1216 532.395 73.3921
.3092 1910000.
1430 1216 532.373 73.3876
.3088 1910000.
1445 1216-532.372 73.3834
.3090 1910000.
1500 1216 532.343 73.3803
.3081 1910000.
1515 1216 532.327 73.3769
.3085 1910000.
1530 1216 532.311 73.3750
.3085 1910000.
1545 1216 532.315 73.3732
.3083 1910000.
1600 1216 532.298 73.3717
.3078 1910000.
1615 1216 532.305 73.3700
.3085 1910000.
1630 1216 532.299 73.3703
.3072 1910000.
Db D
=
S k
O B-1
~
SUMMARY
OF MEASURED DATA AT 1230 1216 1v s
TEMP 1 = 532.8800
(
73.210 )
TEMP 2 = 531.7100
(
72.040 )
TEMP 3 = 529.0500
(
69.380 )
TEMP 4 = 533.3600
(
73.690 )
TEMP 5 = 533.4800
(
73.810 )
TEMP 6 = 534.5400
(
74.870 )
TEMP 7 = 536.4000
(
76.730 )
TEMP 8 = 532.9000
(
73.230 )
TEMP 9 = 533.0500
(
73.380 )
TEMP 10 = 533.0800
(
73.410 )
TEMP 11 = 533.7500
(
74.000 )
TEMP 12 = 533.1100
(
73.440 )
TEMP 13 = 533.3900
(
73.720 )
TEMP 14 = 533.2200
(
73.550 )
TEMP 15 = 533.1800
(
73.510 )
TEMP 16 = 532.8700
(
73.200 )
TEMP 17 = 533.0700
(
73.400 )
TEMP 18 = 533.0800
(
73.410 )
PRES 1 =
73.7867
( 74255.0 )
PRES 2=
73.7734
( 72557.0 )
("'/
)
.VPRS 1
.3148
(
65.870 )
=
(.
'VPRS 2=
.3144
(
65.830 )
VPRS 3=
.3121
(
65.620 )
VPRS 4=
.3081
(
65.250 )
VPRS 5=
.3192
(
66.270 )
VPRS 6=
.3114
(
65.550 )
SUMMARY
OF CORRECTED DATA TIME = 1230 DATE = 1216 TEMPERATURE (DEGREES R.) =
533.0273 CORRECTED PRESSURE (PSIA) 73.4736
=
VAPOR PRESSURE (PSIA)
.3132
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710630.2
=
O.
v B-2
[
l
SUMMARY
OF MEASURED DATA AT 1245 1216 AJ TEMP 1 = 532.8800
(
72.930 )
TEMP _ 2 = 531.7100- (
71.910 )
TEMP 3 = 529.0500
(
69.250 )
TEMP 4 = 533.3600
(
73.540 )
-TEMP 5 = 533.4800
(
73.720 )
TEMP 6 = 534.5400
(
74.670 )
TEMP 7 = 536.4000
(~
76.560 )
TEMP 8 = 532.9000
(
73.170 )
TEMP 9 = 533.0500
(
73.240 )
TEMP 10 = 533.0000
(
73.170 )
TEMP 11 = 533.7500
(
73.900 )
TEMP 12 = 533.1100
(
73.310 )
TEMP 13 = 533.3900
(
73.430 )
TEMP 14 = 533.2200
(
73.220 )
TEMP 15 = 533.1800
(
73.290 )
TEMP 16 = 532.8700
(
73.040 )
TEMP 17 = 533.0700
(
73.140 )
TEMP 18 = 533.0800
(
73.180 )
PRES 1=
73.7867
( 74230.0 )
PRES 2=
73.7734
( 72533.0 )
O VPRS 1=
.3148
(
64.780 )
VPRS 2=
.3144
(
65.780 )
VPRS 3=
.3121
(
66.050 )
VPRS 4=
.3081
(
65.150 )
VPRS 5=
.3192
(
66.340 )
VPRS 6=
.3114
(
65.070 )
SUMMARY
OF CORRECTED DATA TIME = 1245 DATE = 1216 532.8250 TEMPERATURE (DEGREES R.)
=
73.4490 l
CORRECTED PRESSURE (PSIA)
=
.3129 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710662.6 AIR MASS (LBM)
=
g s_-)
l B-3 i.
-O
SUMMARY
OF MEASURED DATA AT 1300 1216 t
j.
TEMP 1 = 532.8800
(
73.040 )
TEMP. 2 = 531.7100
(
71.950 )
TEMP 3 = 529.0500
(
69.270 )
TEMP 4 = 533.3600
(
73.430 )
TEMP 5 = 533.4800
(
73.690 )
TEMP 6 = 534.5400
(
74.510 )
TEMP 7 = 536.4000
(
76.370 )
TEMP 8 = 532.9000
(
73.130 )
TEMP 9 = 533.0500
(
73.210 )
TEMP 10 = 533.0000
(
73.020 )
TEMP 11 = 533.7500
(
73.860 )
TEMP 12 = 533.1100
(
73.120 )
' TEMP-13 = 533.3900
(
73.230 )
TEMP 14 = 533.2200
(
73.060 )
TEMP 15 = 533.1800
(
73.150 )
TEMP 16 = 532.8700
(
72.850 )
TEMP 17 = 533.0700
(
73.040 )
TEMP 18 = 533.0800
(
73.030 )
PRES 1
73.7867
( 74214.0 )
=
PRES 2=
73.7734
( 72517.0 )
(^}
VPRS 1
.3148
(
65.110 )
=
(_)
VPRS 2=
.3144
(
65.760 )
VPRS 3=
.3121
(
66.000 )
VPRS 4=
.3081
(
65.110 )
VPRS 5=
.3192
(
66.200 )
VPRS 6=
.3114
(
65.240 )
SUMMARY
OF CORRECTED DATA TIME = 1300 DATE = 1216 TEMPERATURE (DEGREES R.)
532.7132
=
73.4333 CORRECTED PRESSURE (PSIA)
=
VAPOR-PRESSURE (PSIA)
.3127
=
1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) 710659.8
=
B-4
't
(
)
SUMMARY
OF MEASURED DATA AT 1315 1216 TEMP 1 = 532.8800
(
72.920 )
TEMP 2 = 531.7100
(
71.930 )
TEMP 3 = 529.0500
(
69.360 )
TEMP 4 = 533.3600
(
73.360 ).
TEMP 5 = 533.4800
(
73.560 )
TEMP 6 = 534.5400
(
74.390 )
-TEMP 7 = 536.4000
(
76.390 )
TEMP 8 = 532.9000
(
73.150 )
TEMP 9 = 533.0500
(
73.120 )
TEMP 10 = 533.0800
(
72.930 )
TEMP 11 533.7500
(
73.810 )
=
TEMP 12 = 533.1100
(
73.040 )
TEMP 13 = 533.3900
(
73.090 )
TEMP 14 = 533.2200
(
72.960 )
TEMP 15 = 533.1800
(
73.110 )
TEMP 16 = 532.8700
(
72.710 )
TEMP 17 = 533.0700
(
72.940 )
i TEMP 18 = 533.0800
(
72.940 )
PRES 1=
73.7867
( 74201.0 )
PRES 2=
73.7734
( 72504.0 )
C VPRS 1
.3148
(
63.910 )
=
(-
VPRS 2=
.3144
(
65.760 )
VPRS 3=
.3121
(
65.820 )
VPRS 4=
.3081
(
65.130 )
VFRS 5=
.3192
(
65.980 )
VPRS 6=
.3114
(
65.210 )
SUMMARY
OF CORRECTED DATA TIME = 1315 DATE = 1216 i
TEMPERATURE (DEGREES R.)
532.6271
=
73.4212 CORRECTED PRESSURE (PSIA)
=
.3119 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710657.7 AIR MASS (LBM)
=
4 4
4
- /'
(
4 B-5
.m.--.
.....,.~w
,.,_e_.
m
,.__.,..-_.y._,.__.__.
m,,....,.,
.-()
SUMMARY
OF MEASURED DATA AT 1330 1216 TEMP 1 = 532.8800
(
72.830 )
TEMP 2 = 531.7100
(
71.900 )
TEMP 3 = 529.0500
(
69.100 )
TEMP 4 = 533.3600
(
73.240 )
TEMP 5 = 533.4800
(
73.580 )
TEMP 6 = 534.5400
(
74.290 )
TEMP 7 = 536.4000
(
76.330 )
4 TEMP 8 = 532.9000
(
72.920 )
TEMP 9 = 533.0500
(
72.990 )
TEMP 10 = 533.0800
(
72.840 )
TEMP 11 = 533.7500
(
73.730 )
TEMP 12 = 533.1100
(
72.920 )
TEMP 13 = 533.3900
(
72.980 )
TEMP 14 = 533.2200
(
72.890 )
TEMP 15 = 533.1800
(
73.030 )
TEMP 16 = 532.8700
(
72.660 )
TEMP 17 = 533.0700
(
72.850 )
TEMP 18 = 533.0800
(
72.890 )
73.7867
( 74190.0 )
PRES 1 =
PRES 2=
73.7734
( 72494.0 )
O
.3148
(
64.080 )
VPRS 1 =
VPRS 2=
.3144
(
65.580 )
VPRS 3=
.3121
(
65.600 )
VPRS 4=
.3081
(
64.920 )
VPRS 5=
.3192
(
65.030 )
VPRS 6=
.3114
(
64.930 )
SUMMARY
OF CORRECTED DATA 3
TIME = 1330 DATE = 1216 532.5450 TEMPERATURE (DEGREES R.:
=
73.4125 CORRECTED PRESSURE (PSIA)
=
.3097 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) =
710682.9 4
B-6
r-(
)
SUMMARY
OF MEASURED DATA AT 1345 1216 TEMP 1 = 532.8800
(
72.910 )
TEMP 2 = 531.7100
(
71.880 )
TEMP 3 = 529.0500
(
69.350 )
TEMP 4 = 533.3600
(
73.190 )
TEMP 5 = 533.4800
(
73.470 )
TEMP 6 = 534.5400
(
74.240 )
TEMP 7 = 536.4000
(
76.200 )
TEMP 8 = 532.9000
(
72.910 )
TEMP 9 = 533.0500
(
72.970 )
TEMP 10 = 533.0800
(
72.790 )
TEMP 11 = 533.7500
(
73.680 )
TEMP 12 = 533.1100
(
72.840 )
TEMP 13 = 533.3900
(
72.930 )
TEMP 14 = 533.2200
(
72.810 )
TEMP 15 = 533.1800
(
72.960 )
TEMP 16 = 532.8700
(
72.610 )
TEMP 17 = 533.0700
(
72.770 )
TEMP 18 = 533.0800
(
72.790 )
73.7867
( 74182.0 )
PRES 1
=
PRES 2=
73.7734
( 72485.0 )
VPRS 1=
.3148
(
64.260 )
(j)
(_
VPRS 2=
.3144
(
65.700 )
VPRS 3=
.3121
(
65.790 )
VPRS 4=
.3081
(
65.130 )
VPRS 5=
.3192
(
65.650 )
VPRS 6=
.3114
(
65.090 )
SUMMARY
OF CORRECTED DATA TIME = 1345 DATE = 1216 532.4950 TEMPERATURE (DEGREES R.)
=
73.4035 CORRECTED PRESSURE (PSIA)
=
VAPOR PRESSURE (PSIA) =
.3108 1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) =
710662.1 l
[
t I
B-7
[ )\\
SUMMARY
OF MEASURED DATA AT 1400 1216 TEMP 1 = 532.8800
(
72.860 )
TEMP 2 = 531.7100
(
71.880 )
TEMP 3 = 529.0500
(
69.240 )
TEMP 4 = 533.3600
(
73.150 )
TEMP 5 = 533.4800
(
73.430 )
TEMP 6 = 534.5400
(
74.240 )
TEMP 7 = 536.4000
(
76.220 )
TEMP 8 = 532.9000
(
72.810 )
TEMP 9 = 533.0500
(
72.960 )
TEMP 10 = 533.0800
(
72.740 )
TEMP 11 = 533.7500
(
73.650 )
TEMP 12 = 533.1100
(
72.860 )
TEMP 13 = 533.3900
(
72.910 )
TEMP 14 = 533.2200
(
72.750 )
TEMP 15 = 533.1800
(
72.900 )
TEMP 16 = 532.8700
(
72.500 )
TEMP 17 = 533.0700
(
72.710 )
TEMP 18 = 533.0000 72.730 )
PRES 1
73.7867
( 74175.0 )
=
PRES 2=
73.7734
( 72478.0 )
VPRS 1
.3148
(
65.400 )
=
)
VPRS 2=
.3144
(
65.600 )
s VPRS 3=
.3121
(
65.620 )
VPRS 4=
.3081
(
64.790 )
VPRS 5=
.3192
(
65.960 )
VPRS 6=
.3114
(
65.090 )
SUMMARY
OF CORRECTED DATA TIME = 1400 DATE = 1216 l
TEMPERATURE (DEGREES R.)
532.4492
=
73.3972 CORRECTED PRESSURE (PSIA)
=
VAPOR PRESSURE (PSIA)
.3101
=
1910000.0 l
VOLUME (CU.FT.)
=
AIR MASS (LBM) 710662.5
=
l
\\
i B-4 t.
{ )-
SUMMARY
OF MEASURED DATA AT 1415 1216 TEMP 1 = 532.8800
(
72.710 )
TEMP 2 = 531.7100. (
71.800 )
TEMP 3 = 529.0500
(
69.170 )
TEMP 4 = 533.3600
(
73.130 )
TEMP 5 = 533.4800
(
73.400 )
TEMP 6 = 534.5400
(
74.230 )
TEMP 7 = 536.4000
(
76.140 )
TEMP B = 532.9000
(
72.860 )
TEMP 9 = 533.0500
(
72.910 )
TEMP 10 = 533.0800
(
72.680 )
TEMP 11 = 533.7500
(
73.610 )
TEMP 12 = 533.1100
(
72.770 )
TEMP 13 = 533.3900
(
72.840 )
TEMP 14 = 533.2200
(
72.710 )
TEMP 15 = 533.1800
(
72.820 )
TEMP 16 = 532.8700
(
72.470 )
TEMP 17 = 533.0700
(
72.660 )
TEMP 18 = 533.0800
(
72.670 )
PRES 1
73.7867
( 74169.0 )
=
PRES 2=
73.7734
( 72472.0 )
("'
VPRS 1
.3148
(
63.890 )
=
\\
VPRS 2=
.3144
(
65.550 )
VPRS 3=
.3121
(
65.370 )
VPRS 4=
.3081
(
64.950 )
VPRS 5=
.3192
(
65.730 )
VPRS 6=
.3114
(
65.050 )
SUMMARY
OF CORRECTED DATA TIME = 1415 DATE = 1216 532.3954 TEMPERATURE (DEGREES R.)
=
73.'3921 CORRECTED PRESSURE (PSIA)
=
.3092 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710685.0 AIR MASS (LBM)
=
O B-S
/
/
k_)\\
SUMMARY
OF MEASURED DATA AT 1430 1216 TEMP 1 = 532.8800
(
72.770 )
-TEMP 2 = 531.7100
(
71.870 )
TEMP 3 = 529.0500
(
69.010 )
TEMP 4 = 533.3600
(
73.100 )
TEMP 5 = 533.4800
(
73.420 )
-TEMP 6 = 534.5400
(
74.130 )
TEMP 7 = 536.4000
(
76.130 )
TEMP 8 = 532.9000
(
72.960 )
TEMP 9 = 533.0500
(
72.900 )
TEMP 10 = 533.0800
(
72.640 )
~
TEMP 11 = 533.7500
(
73.590 )
TEMP 12 = 533.1100
(
72.720 )
TEMP 13 = 533.3900
(
72.800 )
TEMP 14 = 533.2200
(
72.690 )
TEMP 15 = 533.1800
(
72.780 )
TEMP 16 = 532.8700
(
72.430 )
TEMP 17 = 533.0700
(
72.660 )
TEMP 18 = 533.0800
(
72.650 )
73.7867
( 74164.0 )
PRES 1
=
PRES 2=
73.7734
( 72467.0 )
(
.3148
(
63.460 )
VPRS
'l
=
VPRS 2=
.3144
(
65.540 )
VPRS 3=
.3121
(
65.280 )
VPRS 4=
.3081
(
64.970 )
VPRS 5=
.3192
(
65.870 )
VPRS 6=
.3114
(
64.770 )
SUMMARY
OF CORRECTED DATA TIME = 1430 DATE = 1216 532.3730 TEMPERATURE (DEGREES R.)
=
73.3876 CORRECTED PRESSURE (PSIA)
=
.3088 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710670.9 AIR MASS (LBM)
=
O B-10
-[h/\\
SUMMARY
OF MEASURED DATA AT 1445 1216
~
TEMP 1 = 532.8800
(
72.960 )
TEMP 2 = 531.7100
(
71.880 )
TEMP 3 = 529.0500
(
69.350 )
TEMP 4 = 533.3600
(
73.090 )
TEMP 5 = 533.4800
(
73.450 )
TEMP
~6 = 534.5400
(
74.160 )
TEMP 7 = 536.4000
(-
76.120 )
TEMP 8 = 532.9000
(
72.920 )
TEMP 9 = 533.0500
(
72.860 )
TEMP 10 = 533.0800
(
72.610 )
TEMP 11 = 533.7500
(
73.560 )
TEMP 12 = 533.1100
(
72.710 )
TEMP 13 = 533.3900
(
72.780 )
TEMP 14 = 533.2200
(
72.680 )
TEMP 15 = 533.1800
(
72.750 )
TEMP 16 = 532.8700
(
72.400 )
TEMP 17 = 533.0700
(
72.590 )
TEMP 18 = 533.0000
(
72.590 )
PRES 1=
73.7867
( 74160.0 )
PRES 2=
73.7734
( 72463.0 )
.3148
(
63.460 )
!A VPRS 1
=
(_)
VPRS 2=
.3144
(
65.470 )
VPRS 3=
.3121
(
65.790 )
VPRS 4=
.3081
(
64.930 )
VPRS 5=
.3192
(
65.510 )
VPRS 6=
.3114
(
64.890 )
SUMMARY
OF CORRECTED DATA TIME = 1445 DATE = 1216 l
l 532.3718 TEMPERATURE (DEGREES R.)
=
73.3834 CORRECTED PRESSURE (PSIA)
=-
.3090 VAPOR PRESSURE'(PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710631.9 p
AIR MASS (LBM)
=
l l
O B-11 j
l m-m..-
e.-
'(
SUMMARY
OF MEASURED DATA AT 1500 1216 TEMP 1 = 532.8800
(
72.910 )
TEMP 2 = 531.7100
(
71.870 )
TEMP 3 = 529.0500
(
69.300 )
TEMP 4 = 533.3600
(
73.060 )
TEMP 5 = 533.4800
(
73.330 )
TEMP 6 = 534.5400
(
74.190 )
TEMP 7 = 536.4000
(
76.130 )
TEMP 8 = 532.9000
(
72.940 )
TEMP 9 = 533.0500
(
72.830 )
TEMP 10 = 533.0800
(
72.580 )
TEMP 11 = 533.7500
(
73.550 )
TEMP 12 = 533.1100
(
72.670 )
TEMP 13 = 533.3900
(
72.750 )
TEMF 14 = 533.2200
(
72.640 )
TEMP 1S = 533.1800
(
72.750 )
TEMP 16 - 532.8700
(
72.390 )
TEMP 17 = C33.0700
(
72.540 )
TEMP 18 = 53J.0800
(
72.600 )
PRES 1=
73.7867
( 74156.0 )
PRES 2=
73.7734
( 72459.0 )
VPRS 1
.3148
(
64.770 )
=
',(
VPRS 2=
.3144
(
65.390 )
VPRS 3=
.3121
(
65.440 )
VPRS 4=
.3081
(-
64.600 )
VPRS 5=-
.3192
(
65.810 )
VPRS 6=
.3114
(
64.920 )
SUMMARY
OF CORRECTED DATA l
TIME = 1500 t
DATE'= 1216 l
TEMPERATURE (DEGREES R.)
532.3432
=
CORRECTED PRESSURE (PSIA) 73.3803
=
VAPOR PRESSURE (PSIA)
.3081
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710640.4
=
l l
[
\\
i B-12
(
fs
(_)
SUMMARY
OF MEASURED DATA AT 1515 1216 TEMP 1 = 532.4600
(
72.790 )
TEMP 2 = 531.5600
(
71.890 )
TEMP 3 = 529.1600
(
69.490 )
TEMP 4 = 532.6700
(
73.000 )
TEMP 5 = 533.0500
(
73.380 )
TEMP 6 = 533.7300
(
74.060 )
TEMP 7 = 535.7800
(
76.110 )
TEMP 8'= 532.6000
(
72.930 )
TEMP 9 = 532.4800
(
72.810 )
TEMP 10 = 532.2100
(
72.540 )
TEMP 11 = 533.2000
(
73.530 )
TEMP 12 = 532.3300
(
72.660 )
TEMP 13 = 532.4100
(
72.740 )
TEMP 14 = 532.2800
(
72.610 )
TEMP 15 = 532.4000
(
72.730 )
TEMP 16 = 532.0600
(
72.390 )
TEMP 17 = 532.2000
(
72.530 )
TEMP 18 = 532.2200
(
72.550 )
PRES 1
73.6855
( 74153.0 )
=
PRES 2=
73.6717
( 72457.0 )
.C' VPRS 1=
.2987
(
64.360 )
(_-)
VPRS 2=
.3107
(
65.490 )
VPRS 3=
.3074
(
65.180 )
VPRS 4=
.3045
(
64.910 )
VPRS 5=
.3124
(
65.650 )
VPRS 6=
.3065
(
65.100 )
SUMMARY
OF CORRECTED DATA TIME = 1515 DATE = 1216 l
TEMPERATURE (DEGREES R.)
532.3274
=
CORRECTED PRESSURE (PSIA) 73.3769
=
.3085 VAPOR PRESSURE (PSIA)
=
l VOLUME (CU.FT.)
1910000.0
=
710628.6 AIR MASS (LBM)
=
1.
B-13 L_
SUMMARY
OF MEASURED DATA AT 1530 1216 TEMP 1 = 532.8800
(
72.690 )
f'}
TEMP 2 = 531.7100
(
71.870 )
f
(_/
TEMP 3 = 529.0500
(
69.460 )
TEMP 4 = 533.3600
(
73.000 )
TEMP 5 = 533.4000
(
73.310 )
TEMP 6 = 534.5400
(
74.120 )
TEMP 7 = 536.4000
(
76.060 )
TEMP 8 = 532.9000
(
72.910 )
TEMP 9 = 533.0500
(
72.810 )
TEMP 10 = 533.0800
(
72.530 )
TEMP 11 = 533.7500
(
73.530 )
TEMP 12 = 533.1100
(
72.610 )
TEMP 13 = 533.3900
(
72.710 )
TEMP 14 = 533.2200
(
72.620 )
TEMP 15 = 533.1800
(
72.720 )
TEMP 16 = 532.8700
(
72.370 )
TEMP 17 = 533.0700
(
72.560 )
TEMP 18 = 533.0000
(
72.570 )
PRES 1=
73.7867
( 74151.0 )
PRES 2=
73.7734
( 72455.0 )
VPRS 1
.3148
(
65.250 )
=
VPRS 2=
.3144
(
65.470 )
VPRS 3=
.3121
(
65.490 )
VPRS 4=
.3081
(
65.050 )
VPRS 5=
.3192
(
65.550 )
()
VPRS 6=
.3114
(
64.750 )
SUMMARY
OF CORRECTED DATA TIME = 1530 DATE = 1216 TEMPERATURE (DEGREES R.)
532.3110
=
CORRECTED PRESSURE (PSIA) 73.3750
=
VAPOR PRESSURE (PSIA)
.3085
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710631.0
=
i 4
.!O B-14
+
[
b
SUMMARY
OF MEASURED DATA AT 1545 1216
\\>
TEMP 1 = 532.6000
(
72.930 )
TEMP 2 = 531.5700
(
71.900 )
TEMP 3 = 529.1000
(
69.430 )
TEMP 4 = 532.6600
(
72.990 )
TEMP 5 = 533.0300
(
73.360 )
TEMP 6 = 533.7000
(
74.110 )
TEMP 7 = 535.7500
(
76.000 )
TEMP 8 = 532.5900
(
72.920 )
TEMP 9 = 532.4600
(
72.790 )
TEMP 10 = 532.2000
(
72.530 )
TEMP 11 = 533.1700
(
73.500 )
TEMP 12 = 532.2900
(
72.620 )
TEMP 13 = 532.3800
(
72.710 )
TEMP 14 = 532.2400
(
72.570 )
TEMP 15 = 532.3000
(
72.710 )
TEMP 16 = 531.9800
(
72.310 )
TEMP 17 = 532.2000
(
72.530 )
TEMP 18 = 532.2400
(
72.570 )
PRES 1=
73.6815
( 74149.0 )
PRES 2=
73.6666
( 72452.0 )
VPRS 1=
.3032
(
64.790 )
\\
VPRS 2=
.3098
(
65.410 )
VPRS 3=
.3107
(
65.490 )
VPRS 4=
.3045
(
64.910 )
VPRS 5=
.3123
(
65.640 )
VPRS 6=
.3031
(
64.780 )
SUMMARY
OF CORRECTED DATA TIME = 1545 DATE = 1216 TEMPERATURE (DEGREES R.)
532.3147
=
CORRECTED PRESSURE (PSIA) 73.3732
=
VAPOR PRESSURE (PSIA)
.3083
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710609.8
=
O B-15
p-(j
SUMMARY
OF MEASURED DATA AT 1600 1216 TEMP 1 = 532.5600
(
72.890 )
TEMP 2 = 531.5700
(
71.900 )
TEMP 3 = 529.0500
(
69.380 )
TEMP 4 = 532.6600
(
72.990 )
TEMP 5 = 533.0400
(
73.370 )
TEMP 6 = 533.7700
(
74.100 )
TEMP 7 = 535.7500
(
76.000 )
TEMP 8 = 532.5900
(
72.920 )
TEMP 9 = 532.4500
(
72.700 )
TEMP 10 = 532.2000
(
72.530 )
TEMP 11 = 533.1500
(
73.480 )
TEMP 12 = 532.2600
(
72.590 )
TEMP 13 = 532.3600
(
72.690 )
TEMP 14 = 532.2100
(
72.540 )
TEMP 15 = 532.3800
(
72.710 )
TEMP 16 = 532.0000
(
72.330 )
TEMP 17 = 532.1900
(
72.520 )
TEMP 18 = 532.1600
(
72.490 )
PRES 1
73.6795
( 74147.0 )
=
PRES 2=
73.6656
( 72451.0 )
VPRS 1
.3041
(
64.870 )
=
VPRS 2=
.3105
(
65.470 )
VPRS 3=
.3060
(
65.050 )
VPRS 4=
.3044
(
64.900 )
VPRS 5=
.3154
(
65.920 )
VPRS 6=
.3013
(
64.610 )
SUMMARY
OF CORRECTED DATA TIME = 1600 DATE = 1216 TEMPERATURE (DEGREES R.)
532.2975
=
CORRECTED PRESSURE (PSIA) 73.3717
=
VAPOR PRESSURE (PSIA) =
.3078 VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710617.9
=
l I
o>
u-B-16 i
f~')'.
SUMMARY
OF MEASURED DATA AT 1615 1216
'v TEMP 1 = 532.4600
(
72.790 )
TEMP 2 = 531.5900
(
71.920 )
TEMP 3 = 529.2200
(
69.550 )
TEMP 4 = 532.6200
(
72.950 )
TEMP 5 = 533.0600
(
73.390 )
TEMP 6 = 533.7900
(
74.120 )
TEMP 7 = 535.7500
(
76.080 )
TEMP 8 = 532.5600
(
72.890 )
TEMP 9 = 532.4500
(
72.780 )
TEMP 10 = 532.2100
(
72.540 )
TEMP 11 = 533.1900
(
73.520 )
TEMP 12 = 532.2000
(
72.610 )
TEMP 13 = 532.3600
(
72.690 )
TEMP 14 = 532.2200
(
72.550 )
TEMP 15 = 532.3800
(
72.710 )
TEMP 16 = 532.0000
(
72.330 )
TEMP 17 = 532.1700
(
72.500 )
TEMP 18 = 532.2100
(
72.540 )
PRES 1 =
73.6785
( 74146.0 )
PRES 2=
73.6646
( 72450.0 )
.rw VPRS 1
.3005
(
64.530 )
=
(
VPRS 2=
.3098
(
65.410 )
VPRS 3=
.3103
(
65.450 )
VPRS 4=
.3066
(
65.110 )
VPRS 5=
.3147
(
65.860 )
VPRS 6=
.3005
(
64.530 )
i
SUMMARY
OF CORRECTED DATA TIME = 1615 DATE = 1216 532.3048 TEMPERATURE (DEGREES R.)
=
73.3700 CORRECTED PRESSURE (PSIA)
=
.3085 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710591.5 AIR MASS (LBM)
=
(
s-17
[
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
's TEMPERATURE DEGREES F 72.500 12.503 72.u7 72.750 72.833 72.917 73.000 73.003 73.167 73.250 73.333 73.417 73.5 %
+-
+
+
+_.
+
+.___._ _ +
.+.
+
+ _.
+_.
+ ___. +
1230 1
+
1245 1
+
i 1300 !
+
1315 1
+
1330 1
+
1345 l
+
14M i
+
1415 1
+
1430 1
+
1445 1
+
1500 1
+
l 1515 1
+
1530 l
+
1545 1
+
1600 l
+
1615 i
+
i 1630 1
+
+..
.+
_ +
+
. _ _ +
.. _ _ _ + _ _
.+
..+
.__+_. __.+
.+
.__..+
72.500 72.503 72.u7 72.750 72.833 72.917 73.000 73.003 73.167 73.250 73.333 73.417 73.500 O
4
.I I.
I e
O 8-18
Q ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
\\,.s AIRMASS LBM X 1000
~
710.452~ 710.472.710.491 710.511 710.530 710.549 710.569 710.588 710.607 710.627 710.646 710.6M 710.685
+ _
.+.__ __ +
+
.+
+
+
__ +
.+
+
+
.+___.,
1230 1
+
1245 1
+
1300 I
+
1315 1
+
1330 1
+
1345 1
+
1400 1
+
1415 i
+
1430 I
+
1445 1
+
1500 1
+
1515 1
+
1530 1
+
'1545 1
+
.1600 I'
+
1615 1
+
I 1630 e
+
+ _ _ 4
. +.....__,
+_
.+
...__+.__.__.+ _ +
.+
+
+....
710.452 710.472 710.491 710.511 710.530 710.549 710.569 710.588 710.607 710.627 710.646 710.M6 710.685 l
l J
B-19
1 r~N ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
()
SUMMARY
DATA
.200 VOLUME =
1910000.
ALMAX
=
VRATET =
.229 VRATEM =.238 TIME DATE TEMP PRESSURE VPRS VOLUME 1630 1216 532.299 73.3703
.3072 1910000.
1645 1216 532.293 73.3691
.3074 1910000.
1700 1216 532.307 73.3679
.3076 1910000.
1715 1216 532.287 73.3681
.3074 1910000.
1730 1216 532.299 73.3686
.3069 1910000.
1745 1216 532.304 73.3686
.3069 1910000.
1800 1216 532.298 73.3683
.3073 1910000.
1815 1216 532.308 73.3685
.3070 1910000.
1830 1216 532.317 73.3697
.3068 1910000.
1845 1216 532.326 73.3706
.3069 1910000.
1900 1216 532.331 73.3720
.3065 1910000.
1915 1216 532.326 73.3727
.3069 1910000.
1930 1216 532.334 73.3736
.3069 1910000.
1945 1216 532.357 73.3741
.3074 1910000.
2000 1216 532.365 73.3761
.3064 1910000.
2015 1216 532.390 73.3762
.3073 1910000.
2030 1216 532.411 73.3795
.3070 1910000.
2045 1216 532.416 73.3802
.3073 1910000.
2100 1216 532.429 73.3839
.3046 1910000.
[~}-
2115 1216 532.448 73.3851
.3053 1910000.
\\_
2130 1216 532.460 73.3845
.3069 1910000.
2145 1216 532.474 73.3886
.3038 1910000.
2200 1216 532.497 73.3894
.3060 1910000.
2215 1216 532.491 73.3907
.3057 1910000.
2230 1216 532.521 73.3928
.3056 1910000.
2245 1216 532.531 73.3939
.3065 1910000.
2300 1216 532.554 73.3962
.3061 1910000.
2315 1216 532.567 73.4011
.3042 1910000.
2330 1216 532.588 73.4017
.3056 1910000.
2345 1216 532.601 73.4021
.3072 1910000.
O 1217 532.633 73.4060
.3053 1910000.
15 1217 532.634 73.4076
.3057 1910000.
30 1217 532.676 73.4096
.3056 1910000.
\\)
c-1
-[ ]'
SUMMARY
OF MEASURED DATA AT 1630 1216 v
TEMP 1 = 532.5600
(
72.890 )
TEMP 2 = 531.5800
(
71.910 )
TEMP 3 = 529.2400
-(
69.570 )
TEMP 4 = 532.6400
(
72.970 )
TEMP 5 = 532.9500
(
73.280 )
TEMP 6 = 533.7800
(
74.110 )
TEMP 7 = 535.7400
(
76.070 )
TEMP 8 = 532.5100
(
72.840 )
TEMP 9 = 532.4500
(
72.780 )
TEMP 10 = 532.2100
(
72.540 )
TEMP 11 = 533.1600
(
73.490 )
TEMP 12 = 532.3300
(
72.660 )
TEMP 13 = 532.3400
(
72.670 )
TEMP 14 = 532.1700
(
72.500 )
TEMP 15 = 532.4000
(
72.730 )
TEMP 16 = 532.0000
(
72.330 )
TEMP 17 = 532.1800
(
72.510 )
TEMP 18 = 532.1800
(
72.510 )
PRES 1
73.6775
( 74145.0 )
=
PRES 2=
73.6636
( 72449.0 )
(Q,/
VPRS 1
.3066
(
65.110 )
=
VPRS 2=
.3103
(
65.450 )
VPRS 3=
.3064
(
65.090 )
VPRS 4=
.3018
(
64.660 )
VPRS 5=
.3153
(
65.910 )
VPRS 6=
.3006
(
64.540 )
SUMMARY
OF CORRECTED DATA TIME = 1630 DATE = 1216 TEMPERATURE (DEGREES R.)
532.2990
=
CORRECTED PRESSURE (PSIA) 73.3703
=
VAPOR PRESSURE (PSIA)
.3072
=
VOLUME (CU.FT.) =
1910000.0 AIR MASS (LBM) 710602.4
=
O C-2
n
~)
SUMMARY
OF MEASURED DATA AT 1645 1216
~.)
TEMP 1 = 532.5300
(
72.860 )
TEMP 2 = 531.6000
(
71.930 )
TEMP 3 = 529.1100
(
69.440 )
TEMP 4 = 532.6400
(
72.970 )
TEMP 5 = 532.9700
(
73.300 )
TEMP 6 = 533.7000
(
74.110 )
TEMP 7 = 535.7700
(
76.100 )
TEMP 8 = 532.5300
(
72.860 )
TEMP 9 = 532.4300
(
72.760 )
TEMP 10 = 532.2100
(
72.540 )
TEMP 11 = 533.1900
(
73.520 )
TEMP 12 = 532.2800
(
72.610 )
TEMP 13 = 532.3300
(
72.660 )
TEMP 14 = 532.2000
(
72.530 )
TEMP 15 = 532.3800
(
72.710 )
TEMP 16 = 532.0200
(
72.350 )
TEMP 17 = 532.1600
(
72.490 )
TEMP 18 a 532.1800
(
72.510 )
PRES 1=
73.6765
( 74144.0 )
PRES 2=
73.6625
( 72448.0 )
g-s VPRS 1=
.3086
(
65.290 )
g i
VPRS 2=
.3099
(
65.420 )
VPRS 3=
.3120
(
65.610 )
VPRS 4=
.3010
(
64.580 )
VPRS 5=
.3117
(
65.500 )
VPRS 6=
.3012
(
64.600 )
SUMMARY
OF CORRECTED DATA TIME = 1645 DATE = 1216 TEMPERATURE (DEGREES R.)
532.2933
=
CORRECTED PRESSURE (PSIA) 73.3691
=
VAPOR PRESSURE (PSIA)
.3074
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) =
710398.2
(\\
C-3
.A.
\\s)
SUMMARY
OF MEASURED DATA AT 1700 1216 TEMP 1 = 532.6400
(
72.970 )
TEMP 2 = 531.6200
(
71.950 )
TEMP 3 = 529.2500
(
69.500 )
TEMP 4 = 532.6400
(
72.970 )
TEMP 5 = 533.0300
(
73.360 )
TEMP 6 = 533.7800
(
74.110 )
TEMP 7 = 535.7500
(
76.080 )
TEMP 8 = 532.4400
(
72.770 )
TEMP 9 = 532.4500
(
72.700 )
TEMP 10 = 532.2200
(
72.550 )
TEMP 11 = 533.1800
(
73.510 )
TEMP 12 = 532.3200
(
72.650 )
TEMP 13 = 532.3500
(
72.600 )
TEMP 14 = 532.1000
(
72.510 )
TEMP 15 = 532.3700
(
72.700 )
TEMP 16 = 532.0000
(
72.330 )
TEMP 17 = 532.1500
(
72.480 )
TEMP 18 = 532.1800
(
72.510 )
PRES 1=
73.6755
( 74143.0 )
PRES 2=
73.6615
( 72447.0 )
' l' Q)
.3226
(
66.570 )
VPRS 1 =
VPRS 2=
.3090
(
65.330 )
VPRS 3=
.3106
(
65.400 )
VPRS 4=
.3027
(
64.740 )
VPRS 5=
.3115
(
65.560 )
VPRS 6=
.3036
(
64.830 )
SUMMARY
OF CORRECTED DATA TIME = 1700 DATE = 1216 532.3067 TEMPERATURE (DEGREES R.)
=
73.3679 CORRECTED PRESSURE (PSIA)
=
VAPOR PRESSURE (PSIA)
=
.3076 1910000.0 VOLUME (CU.FT.) =
710569.0 AIR MA9S (LBM)
=
l
{
C\\
l L) l C-4 L
[>
SUMMARY
OF MEASURED DATA AT 1715 1216
~-
TEMP 1 = 532.8000
(
72.790 )
TEMP 2 = 531.7100
(
71.960 )
TEMP 3 = 529.0500
(
69.470 )
TEMP 4 = 533.3600
(
73.000 )
TEMP 5 = 533.4800
(
73.330 )
TEMP 6 = 534.5400
(
74.110 )
TEMP 7 = 536.4000
(
76.070 )
TEMP O = 532.9000
(
72.900 )
TEMP 9 = 533.0500
(
72.790 )
TEMP 10 = 533.0000
(
72.510 )
TEMP 11 = 533.7500
(
73.480 )
TEMP 12 = 533.1100
(
72.600 )
TEMP 13 = 533.3900
(
72.640 )
TEMP 14 = 533.2200
(
72.510 )
TEMP 15 = 533.1800
(
72.710 )
TEMP 16 = 532.8700
(
72.300 )
TEMP 17 = 533.0700
(
72.490 )
TEMP 18 = 533.0800
(
72.530 )
PRES 1=
73.7867
( 74143.0 )
PRES 2=
73.7734
( 72447.0 )
r
VPRS 1 =
.3148
(
65.920 )
(,j)
VPRS 2=
.3144
(
65.280 )
VPRS 3=
.3121
(
65.470 )
VPRS 4=
.3081
(
64.760 )
VPRS 5=
.3192
(
65.690 )
VPRS 6=
.3114
(
64.660 )
SUMMARY
OF CORRECTED DATA TIME = 1715 DATE = 1216 532.2873 TEMPERATURE (DEGREES R.)
=
CORRECTED PRESSURE (PSIA) 73.3681
=
.3074 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710596.8 AIR MASS (LBM)
=
l
\\
C-5
(3)
SUMMARY
OF MEASURED DATA AT 1730 1216 r
TEMP 1 = 532.8800
(
72.890 )
TEMP 2 = 531.7100
(
71.970 )
TEMP 3 = 529.0500
(
69.500 )
TEMP 4 = 533.3600
(
72.970 )
TEMP 5 = 533.4800
(
73.390 )
TEMP 6 = 534.5400
(
74.060 )
TEMP 7 = 536.4000
(
76.060 )
TEMP 8 = 532.9000
(
72.840 )
TEMP 9 = 533.0500
(
72.770 )
TEMP 10 = 533.0800
(
72.540 )
TEMP 11 = 533.7500
(
73.520 )
TEMP 12 = 533.1100
(
72.600 )
TEMP 13 = 533.3900
(
72.650 )
TEMP 14 = 533.2200
(
72.520 )
TEMP 15 = 533.1800
(
72.710 )
TEMP 16 = 532.8700
(
72.330 )
TEMP 17 = 533.0700
(
72.460 )
TEMP 18 = 533.0800
(
72.520 )
PRES 1=
73.7867
( 74143.0 )
PRES 2=
73.7734
( 72447.0 )
[~}-
VPRS 1=
.3148
(
64.680 )
\\~
VPRS 2=
.3144
(
65.400 )
VPRS 3=
.3121
(
65.420 )
VPRS 4=
.3001
(
64.620 )
VPRS 5=
.3192
(
65.510 )
VPRS 6=
.3114
(
64.590 )
SUMMARY
OF CORRECTED DATA TIME = 1730 DATE = 1216 532.2993 TEMPERATURE (DEGREES R.)
=
73.3686 CORRECTED PRESSURE (PSIA)
=
.3069 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710585.6 AIR MASS (LBM)
=
C-4
r-l l.n
(,)
SUMMARY
OF MEASURED DATA AT 1745 1216 TEMP 1 = 532.8000
(
72.980 )
TEMP 2 = 531.7100
(
71.970 )
. TEMP 3 = 529.0500
(
69.580 )
TEMP 4 = 533.3600
(
72.950 )
TEMP 5 = 533.4800
(
73.440 )
TEMP 6 = 534.5400
(
74.100 )
TEMP 7 = 536.4000
(
76.090 )
TEMP B = 532.9000
(
72.840 )
TEMP 9 = 533.0500
(
72.760 )
TEMP 10 = 533.0800
(
72.550 )
TEMP 11 = 533.7500
(
73.510 )
TEMP 12 = 533.1100
(
72.600 )
TEMP 13 = 533.3900
(
72.660 )
TEMP 14 = 533.2200
(
72.490 )
TEMP 15 = 533.1000
(
72.710 )
TEMP 16 = 532.8700
(
72.330 )
TEMP 17 = 533.0700
(
72.460 )
TEMP 18 = 533.0800
(
72.490 )
PRES 1
73.7867
( 74143.0 )
=
PRES 2=
73.7734
( 72447.0 )
i VPRS 1=
.3148
(
65.510 )
l VPRS 2=
.3144
(
65.300 )
VPRS 3=
.3121
(
65.380 )
VPRS 4=
.3081
(
64.610 )
VPRS 5=
.3192
(
65.520 )
VPRS 6=
.3114
(
64.790 )
l l
l
SUMMARY
OF CORRECTED DATA TIME = 1745 DATE = 1216 TEMPERATURE (DEGREES R.)
532.3038
=
CORRECTED PRESSURE (PSIA) 73.!686
=
l VAPOR PRESSURE (PSIA)
.3069
=
VOLUME (CU.FT.)
1910000.0
=
l AIR MASS (LBM) 710579.6
=
I C-7 L
t I \\
SUMMARY
OF MEASURED DATA AT 1800 1216 TEMP 1 = 532.8800-
_(
72.960 )
TEMP 2 = 531.7100
(
71.980 )
TEMP-3 = 529.0500
(
69.460 )
TEMP 4 = 533.3600
(
72.980 )
TEMP 5 = 533.4800
(
73.380 )
. TEMP 6 = 534.5400
(
74.130 )
TEMP 7 = 536.4000
(
76.060 )
TEMP 8 = 532.9000
(
72.870 )
TEMP 9 = 533.0500
(
72.780 )
TEMP 10 = 533.0800
(
72.550 )
TEMP 11 = 533.7500
(
73.510 )
TEMP 12 = 533.1100
(
72.620 )
TEMP 13 = 533.3900
(
72.650 )
TEMP 14 = 533.2200
(
72.510 )
TEMP 15 = 533.1800
(
72.710 )
TEMP 16 = 532.8700
(
72.260 )
TEMP 17 = 533.0700
(
72.470 )
TEMP 18 = 533.0000
(
72.520 )
PRES 1
73.7867
( 74143.0 )
=
PRES 2=
73.7734
( 72447.0 )
(^5 VPRS 1
.3148
(
64.660 )
=
p
(,)
VPRS 2=
.3144
(
65.330 )
VPRS 3=
.3121
(
65.370 )
VPRS 4=
.3081
(
64.650 )
VPRS 5=
.3192
(
65.280 )
VPRS 6=
.3114
(
65.120 )
SUMMARY
OF CORRECTED DATA TIME = 1800 DATE = 1216 i
532.2983 TEMPERATURE (DEGREES R.)
=
73.3683 CORRECTED PRESSURE (PSIA)
=
VAPOR PRESSURE (PSIA)
.3073
=
1910000.0 VOLUME (CU.FT.)
=
710583.8 AIR MASS (LBM)
=
O 4
C-8
p) -
SUMMARY
OF MEASURED DATA AT 1815 1216 q,
TEMP 1 = 532.8800
(
72.950 )
TEMP 2 = 531.7100
(
72.020 )
TEMP 3 = 529.0500
(
69.410 )
TEMP 4 = 533.3600
(
72.970
)-
TEMP 5 = 533.4800
(
73.340 )
TEMP 6 = 534.5400
(
74.040 )
TEMP 7 = 536.4000
(
76.090 )
TEMP 8 = 532.9000
(
72.910 )
TEMP 9 = 533.0500
(
72.780 )
TEMP 10 = 533.0800
(
72.550 )
TEMP 11 = 533.7500
(
73.550 )
TEMP 12 = 533.1100
(
72.630 )
TEMP 13 = 533.3900
(
72.680 )
TEMP 14 = 533.2200
(
72.540 )
TEMP 15 = 533.1800
(
72.730 )
TEMP 16 = 532.8700
(
72.270 )
TEMP 17 = 533.0700
(
72.520 )
TEMP 18 = 533.0800
(
72.510 )
73.7867
( 74143.0 )
PRES 1
=
PRES 2=
73.7734
( 72447.0 )
f~}
VPRS 1=
.3148
(
66.460 )
\\/
VPRS 2=
.3144
(
65.280 )
VPRS 3=
.3121
(
65.470 )
VPRS 4=
.3081
(
64.740 )
VPRS 5=
.3192
(
65.440 )
VPRG 6=
.3114
(
64.730 )
SUMMARY
OF CORRECTED DATA TIME = 1815 DATE = 1216 l
532.3082 TEMPERATURE (DEGREES R.)
=
73.3685 CORRECTED PRESSURE (PSIA)
=
=
.3070 VAPOR PRESSURE (PSIA) 1910000.0 VOLUME (CU.FT.)
=
710572.8 AIR MASS (LBM) =
O C-9
s()
SUMMARY
OF MEASURED DATA AT 1830 1216 TEMP 1 = 532.8800
(
73.070 )
I
. TEMP 2 = 531.7100
(
72.020 )
" TEMP 3 = 529.0500
(
69.540 )
TEMP 4 = 533.3600
(
72.960 )
1EMP 5.= 533.4800
(
73.290 )
TEMP-6 = 534.5400
(
74.190 )
TEMP 7 = 536.4000
(
76.110 )
TEMP 8 = 532._9000
(
72.870 )
TEMP 9 = 533.0500
(
72.770-)
TEMP 10 = 533.0800
(
72.510 )
TEMP 11 = 533.7500
(
73.550 )
TEMP 12 = 533.1100
(
72.670 )
TEMP 13 = 533.3900
(
72.670 )
TEMP 14 = 533.2200
(
72.510 )
TEMP 15 = 533.1800
(
72.700 )
TEMP 16 = 532.8700
(
72.340 )
-TEMP 17 = 533.0700
(
72.470 )
TEMP 18 = 533.0800
(
72.530 )
73.7867
( 74144.0 )
PRES 1
=
PRES 2=
73.7734
( 72448.0 )
/~N VPRS 1
.3148
(
65.000 )
=
(,)
VPRS 2=
.3144
(
65.160 )
VPRS 3=
.3121
(
65.550 )
VPRS 4=
.3081
(
64.970 )
VPRS 5=
.3192
(
65.590 )
VPRS 6=
.3114
(
64.350 )
SUMMARY
OF CORRECTED DATA TIME = 1830 DATE = 1216 532.3173 TEMPERATURE (DEGREES R.)
=
73.3697 CORRECTED PRESSURE (PSIA)
=
.3068 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710572.0 AIR MASS (LBM)
=
AJ r*
C-10
SUMMARY
OF MEASURED DATA AT 1845 1216 TEMP 1 = 532.8800
(
73.090 )
TEMP 2 = 531.7100
(
72.060 )
TEMP 3 = 529.0500
(
69.600 )
TEMP 4.= 533.3600
(
73.000 )
TEMP 5 = 533.4800
(
73.290 )
TEMP 6 = 534.5400
(
74.230 )
TEMP 7 = 536.4000
(
76.120 )
TEMP 8 = 532.9000
(
72.830 )
TEMP 9 = 533.0500
(
72.790 )
TEMP 10 = 533.0800
(
72.540 )
TEMP 11 = 533.7500
(
73.560 )
TEMP 12 = 533.1100
(
72.630 )
TEMP 13 = 533.3900
(
72.670 )
TEMP 14 = 533.2200
(
72.510 )
TEMP 15 = 533.1800
(
72.740 )
TEMP 16 = 532.8700
(
72.320 )
TEMP 17 = 533.0700
(
72.480 )
TEMP 18 = 533.0800
(
72.540 )
73.7867
( 74145.0 )
PRES 1
=
PRES 2=
73.7734
( 72450.0 )
'f,N )
VPRS 1 =
.3148
(
66.020 )
/
VPRS 2=
.3144
(
65.270 )
VPRS 3=
.3121
(
64.970 )
VPRS 4=
.3001
(
64.890 )
VPRS 5=
.3192
(
65.700 )
VPRS 6=
.3114
(
64.790 )
SUMMARY
OF CORRECTED DATA TIME = 1845 DATE = 1216 532.3256 TEMPERATURE (DEGREES R.)
=
73.3706 CORRECTED PRESSURE (PSIA)
=
.3069 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710569.5 AIR MASS (LBM)
=
O C-11
[
)
SUMMARY
OF MEASURED DATA AT 1900 1216 LJ TEMP 1 = 532.8800
(
73.010 )
TEMP 2 = 531.7100
(
72.040 )
TEMP 3 = 529.0500
(
69.540 )
TEMP 4 = 533.3600
(
72.990 )
TEMP 5 = 533.4000
(
73.270 )
TEMP 6 = 534.5400
(
74.290 )
TEMP 7 = 536.4000
(
76.110 )
TEMP 8 = 532.9000
(
72.760 )
TEMP 9 = 533.0500
(
72.820 )
TEMP 10 = 533.0800
(
72.570 )
TEMP 11 = 533.7500
(
73.560 )
TEMP 12 = 533.1100
(
72.640 )
TEMP 13 = 533.3900
(
72.700 )
TEMP 14 = 533.2200
(
72.530 )
TEMP 15 = 533.1800
(
72.720 )
TEMP 16 = 532.8700
(
72.400 )
TEMP 17 = 533.0700
(
72.500 )
TEMP 18 = 533.0800
(
72.540 )
PRES 1=
73.7867
( 74146.0 )
PRES 2=
73.7734
( 72451.0 )
.3148
(
64.070 )
_ '"N VPRS 1
=
VPRS 2=
.3144
(
65.240 )
VPRS 3=
.3121
(
65.240 )
VPRS 4=
.3081
(
64.590 )
VPRS 5=
.3192
(
65.390 )
VPRS 6=
.3114
(
64.930 )
SUMMARY
OF CORRECTED DATA TIME = 1900 DATE = 1216 532.3307 TEMPERATURE (DEGREES R.)
=
73.3720 CORRECTED PRESSURE (PSIA)
=
.3065 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710577.0 AIR MASS (LBM)
=
%-)
l c-12 i
([
SUMMARY
OF MEASURED DATA AT 1915 1216 TEMP 1 = 532.8800
(
72.900 )
TEMP 2 = 531.7100
(
72.050 )
TEMP 3 = 529.0500
(
69.430 )
TEMP 4 = 533.3600
(
73.020 )
TEMP 5 = 533.4800
(
73.310 )
TEMP 6 = 534.5400
(
74.250 )
TEMP 7 = 536.4000
(
76.120 )
' TEMP 8 = 532.9000
(
72.720 )
TEMP 9 = 533.0500
(
72.850 )
TEMP 10 = 533.0800
(
72.570 )
TEMP 11 = 533.7500
(
73.560 )
TEMP 12 = 533.1100
(
72.640 )
TEMP 13 = 533.3900
(
72.700 )
TEMP 14 = 533.2200
(
72.550 )
TEMP 15 = 533.1800
(
72.750 )
TEMP 16 = 532.8700
(
72.350 )
TEMP 17 = 533.0700
(
72.500 )
TEMP 18 = 533.0800
(
72.550 )
PRES 1=
73.7867
( 74147.0 )
PRES 2=
73.7734
( 72452.0 )
,/'
VPRS 1
.3148
(
64.830 )
=
(,j VPRS 2=
.3144
(
65.280 )
VPRS 3=
.3121
(
65.480 )
VPRS 4=
.3081
(
64.490 )
VPRS 5=
.3192
(
65.580 )
VPRS 6=
.3114
(
64.730 )
SUMMARY
OF CORRECTED DATA TIME = 1915 DATE = 1216 i
532.3257 l
TEMPERATURE (DEGREES R.)
=
73.3727 CORRECTED PRESSURE (PSIA)
=
.3069 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710589.5 AIR MASS (LBM)
=
[
i (3
\\s,/
C-13
SUMMARY
OF MEASURED DATA AT-1930 1216 TEMP 1 = 532.8800
(
72.820 )
TEMP 2 = 531.7100
(
72.110 )
TEMP' 3 = 529.0500
(
69.540 )
TEMP 4 = 533.3600
(
73.010 )
TEMP 5 = 533.4800
(
73.270 )
TEMP 6 = 534.5400
(
74.280 )
TEMP 7 = 536.4000
(
76.150 )
l
' TEMP 8 = 532.9000
(
72.740 )
TEMP 9 = 533.0500
(
72.810 )
i TEMP 10 = 533.0800
(
72.590 )
TEMP 11 = 533.7500
(
73.580 )
TEMP 12 = 533.1100
(
72.660 )
TEMP'13 = 533.3900
(
72.710 )
TEMP 14 = 533.2200
( -72.550 )
TEMP 15 = 533.1800
(
72.770 )
TEMP 16 = 532.8700
(
72.340 )
TEMP 17 = 533.0700
(
72.500 )
TEMP 18 = 533.0000
(
72.590 )
73.7867
( 74148.0 )
PRES 1 =
PRES 2=
73.7734
( 72453.0 )
.3148
(
65.t10 )
rY VPRS 1
=
_(,,/
VPRS 2=
.3144
(
65.210 )
VPRS 3=
.3121
(
65.270 )
VPRS 4=
.3081
(
64.780 )
VPRS 5=
.3192
(
65.770 )
VPRS 6=
.3114
(
64.600 )
SUMMARY
OF CORRECTED DATA TIME = 1930 DATE = 1216 TEMPERATURE (DEGREES R.)
532.3340
=
73.3736 CORRECTED PRESSURE (PSIA)
=
l
-VAPOR PRESSURE (PSIA)
.3069
=
1910000.0 VOLUME (CU.FT.)
=
710587.6 AIR MASS (LBM)
=
0 4
t-I
-s
(_j
SUMMARY
OF MEASURED DATA AT 1945 1216 TEMP 1 = 532.8800
(
72.980 )
TEMP 2 = 531.7100
(
72.120 )
TEMP 3 = 529.0500
(
69.480 )
TEMP 4 = 533.3600
(
73.010 )
TEMP 5 = 533.4800
(
73.300 )
TEMP 6 = 534.5400
(
74.330 )
TEMP 7 = 536.4000
(
76.140 )
TEMP 8 = 532.9000
(
72.750 )
TEMP 9 = 533.0500
(
72.870 )
TEMP 10 = 533.0800
(
72.580 )
TEMP 11 = 533.7500
(
73.600 )
TEMP 12 = 533.1100
(
72.690 )
TEMP 13 = 533.3900
(
72.710 )
TEMP 14 = 533.2200
(
72.500 )
TEMP 15 = 533.1800
(
72.770 )
TEMP 16 = 532.8700
(
72.370 )
TEMP 17 = 533.0700
(
72.530 )
TEMP 18 = 533.0800
(
72.580 )
PRES 1
73.7867
( 74149.0 )
=
PRES 2=
73.7734
( 72454.0 )
[~N VPRS 1 =
.3148
(
64.590 )
-(,
VPRS 2=
.3144
(
65.190 )
VPRS 3=
.3121
(
65.420 )
VPRS 4=
.3081
(
64.770 )
VPRS 5=
.3192
(
65.480 )
VPRS 6=
.3114
(
65.060 )
SUMMARY
OF CORRECTED DATA TIME = 1945 DATE = 1216 532.3566 TEMPERATURE (DEGREES R.)
=
CORRECTED PRESSURE (PSIA) 73.3741
=
.3074 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) 710562.1
=
t C-15
(~.
(
)
SUMMARY
OF MEASURED DATA AT 2000 1216 TEMP 1 = 532.8800
-(
73.010 )
TEMP 2 = 531.7100
(
72.130 )
TEMP 3 = 529.0500
(
69.510 )
TEMP 4 = 533.3600
(
73.050 )
TEMP 5 = 533.4800
(
73.280 )
TEMP 6 = 534.5400
(
74.410 )
TEMP 7 = 536.4000
(
76.160 )
TEMP 8 = 532.9000
(
72.760 )
TEMP 9 = 533.0500
(
72.840 )
TEMP 10 = 533.0000
(
72.600 )
TEMP 11 = 533.7500
(
73.600 )
TEMP 12 = 533.1100
(
72.700 )
TEMP 13 = 533.'3900
(
72.730 )
TEMP 14 = 533.2200
(
72.600 )
TEMP 15 = 533.1800
(
72.760 )
-TEMP 16 = 532.8700
(
72.320 )
TEMP 17 = 533.0700
(
72.540 )
TEMP 18 = 533.0800
(
72.610 )
73.7867
( 74150.0 )
PRES 1
=
PRES 2=
73.7734
( 72455.0 )
f' VPRS 1
.3148
(
65.240 )
=
VPRS 2=
.3144
(
65.260 )
VPRS 3=
.3121-(
65.300 )
VPRS 4=
.3081
(
64.700 )
VPRS 5=
.3192
(
65.460 )
VPRS 6=
.3114
(
64.600 )
SUMMARY
OF CORRECTED DATA TIME = 2000 DATE = 1216 532.3646 TEMPERATURE (DEGREES R.)
=
73.3761 CORRECTED PRESSURE (PSIA)
=
.3064 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710571.3 AIR MASS (LBM)
=
OV c-16
'['N.
i
SUMMARY
OF MEASURED DATA AT 2015 1216 V
TEMP 1 = 532.8800
(
73.000 )
TEMP 2 = 531.7100
(
72.130 )
TEMP 3 = 529.0500
(
69.470 )
TEMP 4 = 533.3600
(
73.060 )
TEMP 5 = 533.4800
(
73.460 )
TEMP 6 = 534.5400
(
74.330 )
TEMP 7 = 536.4000
(
76.150 )
TEMP O = 532.9000
(
72.790 )
TEMP 9 = 533.0500
(
72.860 )
TEMP 10 = 533.0800
(
72.610 )
TEMP 11 = 533.7500
(
73.570 )
TEMP 12 = 533.1100
(
72.770 )
TEMP 13 = 533.3900
(
72.730 )
TEMP 14 = 533.2200
(
72.570 )
TEMP 15 = 533.1800
(
72.800 )
TEMP 16 = 532.8700
(
72.370 )
TEMP 17 = 533.0700
(
72.550 )
TEMP 18 = 533.0800
(
72.600 )
73.7867
( 74151.0 )
PRES 1
=
PRES 2=
73.7734
( 72456.0 )
.3148
(
65.700 )
VPRS 1
(")N
=
(_
VPRS 2=
.3144
(
65.170 )
VPRS 3=
.3121
(
65.290 )
VPRS 4=
.3081
(
64.780 )
VPRS S=
.3192
(
65.850 )
VPRS 6=
.3114
(
64.780 )
SUMMARY
OF CORRECTED DATA TIME = 2015 DATE = 1216 532.3900 TEMPERATURE (DEGREES R.)
=
73.3762 CORRECTED PRESSURE (PSIA)
=
.3073 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) =
710537.6 D
C-17
l
.,m j
(JE
SUMMARY
OF MEASURED DATA AT 2030 1216 TEMP 1 = 532.8800
(
73.070 )
TEMP 2 = 531.7100
(
72.150 )
TEMP 3 = 529.0500
(
69.370 )
TEMP 4 = 533.3600
(
73.060 )
TEMP 5 = 533.4800
(
73.510 )
TEMP. 6 = 534.5400
(
74.380 )
TEMP 7 = 536.4000
(
76.210 )
TEMP 8 = 532.9000
(
72.810 )
TEMP 9 = 533.0500
(
72.870 )
TEMP 10 = 533.0800
(
72.630 )
~
TEMP 11 = 533.7500
(
73.650 )
TEMP 12 = 533.1100
(
72.770 )
TEMP 13 = 533.3900
(
72.760 )
TEMP 14 = 533.2200
(
72.610 )
TEMP 15 = 533.1800
(
72.790 )
TEMP 16 = 532.8700
(
72.420 )
TEMP 17 = 533.0700
(
72.570 )
TEMP 18 = 533.0800
(
72.630 )
PRES 1
73.7867
( 74154.0 )
=
PRES 2=
73.7734
( 72458.0 )
{/
VPRS
'l
.3148
(
64.270 )
=
)
VPRS 2=
.3144
(
65.220 )
s, VPRS 3=
.3121
(
65.400 )
VPRS 4=
.3081
(
64.620 )
VPRS 5=
.3192
(
65.710 )
VPRS 6=
.3114
(
64.720 )
SUMMARY
OF CORRECTED DATA TIME = 2030 DATE = 1216 532.4111 TEMPERATURE (DEGREES R.)
=
73.3795 CORRECTED PRESSURE (PSIA)
=
.3070 VAPOR PRESSURE (PSIA)
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710541.5
=
l-I O v
i r
C-18
.f\\_,f
SUMMARY
OF MEASURED DATA AT 2045 1216 TEMP 1 = 532.8800
(
73.180 )
TEMP 2 = 531.7100
(
72.190 )
TEMP 3 = 529.0500
(
69.510 )
TEMP 4 = 533.3600
(
73.070 )
TEMP 5 = 533.4800
(
73.310 )
TEMP 6 = 534.5400
(
74.400 )
TEMP, 7 = 536.4000
(
76.220 )
TEMP B = 532.9000
(
72.830 )
TEMP 9 = 533.0500
(
72.890 )
TEMP 10 = 533.0800
(
72.620 )
TEMP 11 = 533.7500
(
73.630 )
TEMP 12 = 533.1100
(
72.770 )
TEMP 13 = 533.3900
(
72.750 )
TEMP 14 = 533.2200
(
72.600 )
TEMP 15 = 533.1800
(
72.850 )
TEMP 16 = 532.8700
(
72.450 )
TEMP 17 = 533.0700
(.
72.550 )
TEMP 18 = 533.0800
(
72.640 )
73.7867
( 74155.0 )
PRES 1
=
PRES 2=
73.7734
( 72459.0 )
(
VPRS 1
.3148
(
65.630 )
=
VPRS 2=
.3144
(
65.250 )
VPRS 3=
.3121
(
65.520 )
VPRS 4=
.3081
(
64.550 )
VPRS 5=
.3192
(
65.550 )
VPRS 6=
.3114
(
64.930 )
SUMMARY
OF CORRECTED DATA TIME = 2045 DATE = 1216 532.4156 TEMPERATURE (DEGREES R.)
=
73.3802 CORRECTED PRESSURE (PSIA)
=
.3073 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710542.3 AIR MASS (LBM)
=
m
~-
C-19
,e
..e v.-oe
,,--r,.
-,,,-m,.-
e
,,,, - ---- g y,,nnn---.--..-,-
- -,-,---r-----
(%
k_
SUMMARY
OF MEASURED DATA AT 2100 1216 TEMP 1 = 532.8800
(
73.140 )
TEMP 2 = 531.7100
(
72.190 )
TEMP 3 = 529.0500
(
69.470 )
TEMP 4 = 533.3600
(
73.090 )
TEMP 5 = 533.4800
(
73.400 )
TEMP 6 = 534.5400
(
74.390 )
TEMP 7 = 536.4000
(
76.230 )
TEMP 8 = 532.9000
(
72.800 )
TEMP 9 = 533.0500
(
72.910 )
TEMP 10 = 533.0800
(
72.650 )
TEMP 11 = 533.7500
(
73.680 )
TEMP 12 = 533.1100
(
72.800 )
TEMP 13 = 533.3900
(
72.760 )
TEMP 14 = 533.2200
(
72.620 )
TEMP 15 = 533.1800
(
72.850 )
TEMP 16 = 532.8700
(
72.440 )
TEMP 17 = 533.0700
(
72.580 )
TEMP 18 = 533.0800
(
72.650 )
PRES 1=
73.7867
( 74156.0 )
PRES 2=
73.7734
( 72461.0 )
- (
)
VPRS 1=
.3148
(
65.310 )
VPRS 2=
.3144
(
65.120 )
VPRS-3=
.3121
(
64.870 )
VPRS 4=
.3081
(
64.540 )
VPRS 5=
.3192
(
65.430 )
VPRS 6=
.3114
(
64.510 )
SUMMARY
OF CORRECTED DATA TIME = 2100 DATE = 1216 532.4290 TEMPERATURE (DEGREES R.)
=
CORRECTED PRESSURE (PSIA) 73.3839
=
VAPOR PRESSURE (PSIA)
.3046
=
1910000.0 VOLUME (CU.FT.)
=
710560.2 AIR MASS (LBM)
=
O C-20
. p)
(,
SUMMARY
OF MEASURED DATA AT 2115 1216 TEMP 1 = 532.8800
(
73.140 )
TEMP 2 = 531.7100
(
72.190 )
TEMP 3 ' 529.0500
(
69.690 )
TEMP 4 = 533.3600
(
73.070 )
TEMP 5 = 533.4800
(
73.420 )
TEMP 6 = 534.5400
(
74.370 )
TEMP
'7 = 536.4000
(
76.240 )
TEMP O = 532.9000
(
72.840 )
TEMP 9 = 533.0500
(
72.870 )
TEMP 10 = 533.0800
(
72.680 )
TEMP 11 = 533.7500
(
73.670 )
TEMP 12 = 533.1100
(
72.810 )
TEMP 13 = 533.3900
(
72.770 )
TEMP 14 = 533.2200
(
72.670 )
TEMP 15 = 533.1800
(
72.850 )
TEMP 16 = 532.8700
(
72.470 )
TEMP 17 = 533.0700
(
72.600 )
TEMP 18 = 533.0800
(
72.660 )
73.7867
( 74158.0 )
PRES 1
=
PRES 2=
73.7734
( 72462.0 )
i-]m
(
VPRS 1
.3148
(
64.960 )
=
\\-
VPRS 2=
.3144
(
65.250 )
VPRS 3=
.3121
(
65.040 )
VPRS 4=
.3081
(
64.460 )
VPRS 5=
.3192
(
65.670 )
VPRS 6=
.3114
(
64.350 )
SUMMARY
OF CORRECTED DATA TIME = 2115 DATE = 1216 TEMPERATURE (DEGREES R.)
532.4475
=
CORRECTED PRESSURE (PSIA) 73.3851
=
VAPOR PRESSURE (PSIA)
.3053
=
1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) 710547.6
=
+
11
~
C-21 s.
g)
(
SUMMARY
OF MEASURED DATA AT 2130 1216 TEMP 1 = 532.8800
(
73.190 )
TEMP 2 = 531.7100
(
72.230 )
TEMP 3 = 529.0500
(
69.520 )
TEMP 4 = 533.3600
(
73.120 )
TEMP 5 = 533.4800
(
73.490 )
TEMP 6 = 534.5400
(
74.380 )
TEMP 7 = 536.4000
(
76.240 )
TEMP 8 = 532.9000
(
72.890 )
TEMP 9 = 533.0500
(
72.940 )
TEMP 10 = 533.0800
(
72.690 )
TEMP 11 = 533.7500
(
73.690 )
TEMP 12 = 533.1100
(
72.820 )
TEMP 13 = 533.3900
(
72.790 )
TEMP 14 = 533.2200
(
72.640 )
TEMP 15 = 533.1800
(
72.850 )
TEMP 16 = 532.8700
(
72.450 )
TEMP 17 = 533.0700
(
72.610 )
TEMP 18 = 533.0800
(
72.690 )
PRES 1
73.7867
( 74159.0 )
=
PRES 2=
73.7734
( 72464.0 )
[~D VPRS 1
.3148
(
66.290 )
=
'N-
/
VPRS 2=
.3144
(
65.230 )
VPRS 3=
.3121
(
65.270 )
VPRS 4=
.3081
(
64.720 )
VPRS 5=
.3192
(
65.650 )
VPRS 6=
.3114
(
64.770 )
SUMMARY
OF CORRECTED DATA TIME = 2130 DATE = 1216 TEMPERATURE (DEGREES R.)
532.4599
=
CORRECTED PRESSURE (PSIA) 73.3845
=
VAPOR PRESSURE (PSIA)
.3069
=
VOLUME (CU.FT.)
1910000.0
=
710525.0 AIR MASS (LBM)
=
m C-22
\\
\\,J_
SUMMARY
OF-MEASURED DATA AT 2145 1216 TEMP 1 = 532.8800
(
73.280 )
TEMP 2 = 531.7100
(
72.230 )
TEMP 3 = 529.0500
(
69.580 )
TEMP 4 = 533.3600
(
73.130 )
TEMP 5 = 533.4800
(
73.470 )
TEMP 6 = 534.5400
(
74.360 )
TEMP 7 = 536.4000
-(
76.260 )
TEMP 8 = 532.9000
(
72.930 )
TEMP 9 = 533.0500
(
72.940 )
TEMP 10 = 533.0800
(
72.700 )
TEMP 11 = 533.7500
(
73.710 )
TEMP 12 = 533.1100
(
72.810 )
TEMP 13 = 533.3900
(
72.810 )
TEMP 14 = 533.2200
(
72.660 )
TEMP 15 = 533.1800
(
72.890 )
TEMP 16 = 532.8700
(
72.490 )
TEMP 17 = 533.0700
(
72.610 )
TEMP 18 = 533.0800
(
72.660 )
73.7867
( 74160.0 )
PRES 1
=
PRES 2=
73.7734
( 72465.0 )
')
VPRS 1
.3148
(
66.110 )
=
VPRS 2=
.3144
(
65.160 )
VPRS 3=
.3121
(
64.860 )
VPRS 4=
.3081
(
64.450 )
VPRS 5=
.3192
(
65.260 )
VPRS 6=
.3114
(
64.310 )
SUMMARY
OF CORRECTED DATA TIME = 2145 DATE = 1216 532.4737 TEMPERATURE (DEGREES R.)
=
73.3886 CORRECTED PRESSURE (PSIA)
=
.3038 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710546.5 AIR MASS (LBM)
=
(%b C-23
.1
C')
( _/
SUMMARY
OF MEASURED DATA AT 2200 1216 TEMP 1 = 532.8800
(
73.320 )
TEMP 2 = 531.7100
(
72.270 )
TEMP 3 = 529.0500
(
69.740 )
TEMP 4 = 533.3600
(
73.130 )
TEMP 5 = 533.4800
(
73.430 )
TEMP 6 = 534.5400
(
74.380 )
TEMP-7 = 536.4000
(
76.280 )
TEMP 8 = 532.9000
(
72.940 )
TEMP 9 = 533.0500
(
72.920 )
TEMP 10 = 533.0800
(
72.690 )
TEMP 11 = 533.7500
(
73.770 )
TEMP 12 = 533.1100
(
72.870 )
TEMP 13 = 533.3900
(
72.810 )
TEMP 14 = 533.2200
(
72.680 )
TEMP 15 = 533.1800
(
72.900 )
TEMP 16 = 532.8700
(
72.480 )
TEMP 17 = 533.0700
(
72.630 )
TEMP 18 = 533.0800
(
72.730 )
PRES 1
73.7867
( 74163.0 )
=
PRES 2=
73.7734
( 72467.0 )
(']
.3148
(
67.290 )
VPRS 1
=
VPRS 2=
.3144
(
65.190 )
VPRS 3=
.3121
(
65.290 )
VPRS 4=
.3081
(
64.300 )
VPRS 5=
.3192
(
65.610 )
i VPRS 6=
.3114
(
64.770 )
l
SUMMARY
OF CORRECTED DATA l
TIME = 2200 DATE = 1216 532.4969 TEMPERATURE (DEGREES R.)
=
73.3894 l
CORRECTED PRESSURE (PSIA)
=
VAPOR PRESSURE (PSIA)
.3060
=
1910000.0 VOLUME (CU.FT.)
=
710523.2
{
AIR MASS (LBM)
=
O C-24
)
SUMMARY
OF MEASURED DATA AT 2215 1216 TEMP 1 = 532.8800
(
73.110 )
TEMP 2 = 531.7100
(
72.300 )
TEMP 3 = 529.0500
(
69.650 )
TEMP 4 = 533.3600
(
73.180 )
TEMP 5 = 533.4800
(
73.470 )
TEMP 6 = 534.5400
(
74.420 )
TEMP 7 = 536.4000
(
76.270 )
TEMP 8 = 532.9000
(
72.910 )
TEMP 9 = 533.0500
(
72.950 )
TEMP 10 = 533.0800
(
72.720 )
TEMP 11 = 533.7500
(
73.760 )
TEMP 12 = 533.1100
(
72.860 )
TEMP 13 = 533.3900
(
72.840 )
TEMP 14 = 533.2200
(
72.690 )
TEMP 15 = 533.1800
(
72.900 )
TEMP 16 = 532.8700
(
72.470 )
TEMP 17 = 533.0700
(
72.630 )
TEMP 18 = 533.0000
(
72.710 )
73.7867
( 74164.0 )
PRES 1
=
PRES 2=
73.7734
( 72469.0 )
[~')
.3148
(
65.530 )
VPRS 1
=
\\~/
VPRS 2=
.3144
(
65.240 )
VPRS 3=
.3121
(
65.150 )
VPRS 4=
.3081
(
64.610 )
VPRS 5=
.3192
(
65.350 )
VPRS 6=
.3114
(
64.630 )
SUMMARY
OF CORRECTED DATA TIME = 2215 DATE = 1216 TEMPERATURE (DEGREES R.)
532.4908
=
73.3907 CORRECTED PRESSURE (PSIA)
=
.3057 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) 710543.9
=
O C-25
(-
SUMMARY
OF MEASURED DATA AT 2230 1216 TEMP 1 = 532.8800
(
73.230 )
TEMP 2 = 531.7100
(
72.310 )
TEMP 3 = 529.0500
(
69.750 )
TEMP 4 = 533.3600
(
73.170 )
TEMP 5 = 533.4800
(
73.480 )
TEMP 6 = 534.5400
(
74.380 )
TEMP 7 = 536.4000
(
76.300 )
TEMP 8 = 532.9000
(
72.930 )
TEMP 9 = 533.0500
(
72.950 )
TEMP 10 = 533.0800
(
72.740 )
TEMP 11 = 533.7500
(
73.800 )
TEMP 12 = 533.1100
(
72.920 )
TEMP 13 = 533.3900
(
72.840 )
TEMP 14 = 533.2200
(
72.730 )
TEMP 15 = 533.1800
(
72.920 )
TEMP 16 = 532.8700
(
72.520 )
TEMP 17 = 533.0700
(
72.660 )
TEMP 18 = 533.0000
(
72.720 )
PRES 1
73.7867
( 74166.0 )
=
PRES 2=
73.7734
( 72471.0 )
/~'
(
M RS 1=
.3148
(
65.000 )
(FRS 2=
.3144
(
65.190 )
VPRS 3=
.3121
(
65.160 )
VPRS 4=
.3081
(
64.440 )
VPRS 5=
.3192
(
65.540 )
VPRS 6=
.3114
(
64.630 )
~
SUMMARY
OF CORRECTED DATA TIME = 2230 DATE = 1216 532.5211 TEMPERATURE (DEGREES R.)
=
73.3928 CORRECTED PRESSURE (PSIA)
=
.3056 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710523.7 AIR MASS (LBM)
=
C-26
SUMMARY
OF MEASURED DATA AT 2245 1216 TEMP 1 = 532.8800
(
73.320 )
TEMP 2 = 531.7100
(
72.340 )
TEMP 3 = 529.0500
(
69.630 )
TEMP 4 = 533.3600
(
73.220 )
TEMP 5 = 533.4800
(
73.520 )
TEMP 6 = 534.5400
(
74.390 )
TEMP 7 = 536.4000
(
76.310 )
TEMP 8 = 532.9000
(
72.980 )
TEMP 9 = 533.0500
(
73.000 )
TEMP 10 = 533.0800
(
72.740 )
TEMP 11 = 533.7500
(
73.770 )
TEMP 12 = 533.1100
(
72.880 )
TEMP 13 = 533.3900
(
72.840 )
TEMP 14 = 533.2200
(
72.720 )
TEMP 15 = 533.1800
(
72.910 )
TEMP 16 = 532.8700
(
72.560 )
TEMP 17 = 533.0700
(
72.670 )
TEMP 18 = 533.0800
(
72.740 )
PRES 1 =
73.7867
( 74168.0 )
PRES 2=
73.7734
( 72473.0 )
(~
VPRS 1 =
.3148
(
64.600 )
\\-
.VPRS 2=
.3144
(
65.140 )
VPRS 3=
.3121
(
65.640 )
VPRS 4=
.3081
(
64.400 )
VPRS 5=
.3192
(
65.290 )
VPRS 6=
.3114
(
64.990 )
SUMMARY
OF CORRECTED DATA TIME = 2245 DATE = 1216 i
TEMPERATURE (DEGREES R.)
532.5314
=
CORRECTED PRESSURE (PSIA) 73.3939
=
VAPOR PRESSURE (PSIA)
.3065
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710520.3
=
C-27 e
,e
.m
, _.,.., _,., -, -, - --+,, -, -,,
,.-,..,,,-,-.v,
-~_.--__yn-.---_-
I i
SUMMARY
OF MEASURED DATA AT 2300 1216 V
TEMP 1 = 532.8800
(
73.320 )
TEMP 2 = 531.7100
(
72.370 )
[
TEMP 3 = 529.0500
(
69.720 )
TEMP 4 = 533.3600
(
73.240 )
TEMP 5 = 533.4800
(
73.630 )
l TEMP 6 = 534.5400
(
74.490 )
TEMP 7 = 536.4000
(
76.330 )
I TEMP 8 = 532.9000
(
72.970 )
TEMP 9 = 533.0500
(
72.980 )
TEMP 10 = 533.0800
.(
72.740 )
TEMP 11 = 533.7500
(
73.780 )
TEMP 12 = 533.1100
(
72.960 )
TEMP 13 = 533.3900
(
72.870 )
TEMP 14 = 533.2200
(
72.720 )
TEMP 15 = 533.1800
(
72.940 )
TEMP 16 = 532.8700
(
72.540 )
TEMP 17 = 533.0700
(
72.640 )
TEMP 18 = 533.0800
(
72.730 )
PRES 1 =
73.7867
( 74170.0 )
PRES 2=
73.7734
( 72475.0 )
(*
VPRS 1
.3148
(
65.130 )
=
\\
VPRS 2=
.3144
(
65.190 )
VPRS 3=
.3121
(
65.330 )
VPRS 4=
.3081
(
64.650 )
VPRS 5=
.3192
(
65.570 )
VPRS 6=
.3114
(
64.490 )
SUMMARY
OF CORRECTED DATA TIME = 2300 DATE = 1216 TEMPERATURE (DEGREES R.)
532.5536
=
CORRECTED PRESSURE (PSIA) 73.3962
=
VAPOR PRESSURE (PSIA)
.3061
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710513.6
=
O C-28
n
- \\s,)
SUMMARY
OF MEASURED DATA AT 2315 1216 TEMP 1 = 532.8800
(
73.330 )
TEMP 2 = 531.7100
(
72.380 )
TEMP 3 = 529.0500
(
69.690 )
TEMP 4 = 533.3600
(
73.210 )
TEMP 5 = 533.4800
(
73.700 )
TEMP 6 = 534.5400
(
74.460 )
TEMP 7 = 536.4000
(
76.380 )
TEMP 8 = 532.9000
(
72.980 )
TEMP 9 = 533.0500
(
72.990 )
TEMP 10 = 533.0000
(
72.780 )
TEMP 11 = 533.7500
(
73.800 )
TEMP 12 = 533.1100
(
72.910 )
TEMP 13 = 533.3900
(
72.900 )
TEMP 14 = 533.2200
(
72.730 )
TEMP 15 = 533.1800
(
72.960 )
TEMP 16 = 532.8700
(
72.530 )
TEMP 17 = 533.0700
(
72.690 )
TEMP 18 = 533.0800
(
72.760 )
PRES 1=
73.7867
( 74173.0 )
PRES 2=
73.7734
( 72477.0 )
I 1
VPRS 1
.3148
(
64.820 )
=
l VPRS 2=
.3144
(
65.250 )
VPRS 3=
.3121
(
64.640 )
VPRS 4=
.3081
(
64.890 )
VPRS 5=
.3192
(
65.290 )
VPRS 6=
.3114
(
64.120 )
SUMMARY
OF CORRECTED DATA TIME = 2315 DATE = 1216 TEMPERATURE (DEGREES R.)
532.5670
=
CORRECTED PRESSURE (PSIA) 73.4011
=
VAPOR PRESSURE (PSIA)
.3042
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710543.3
=
/O U
c-2s
r J
SUMMARY
0F MEASURED DATA AT 2330 1216
-t TEMP 1 = 532.6800
(
73.260 )
TEMP 2 = 531.7100
(
72.410 )
TEMP 3 = 529.0500
(
69.730 )
TEMP 4 = 533.3600
(
73.250 )
TEMP 5 = 533.4800
(
73.600 )
TEMP 6 = 534.5400
(
74.500 )
TEMP 7 = 536.4000
(
76.370 )
TEMP 8 = 532.9000
(
73.020 )
TEMP 9 = 533.0500
(
73.080 )
TEMP 10 = 533.0800- (
72.790 )
TEMP 11 = 533.7500
(
73.840 )
TEMP 12 = 533.1100
(
72.930 )
TEMP 13 = 533.3900
(
72.920 )
TEMP 14 = 533.2200
(
72.790 )
TEMP 15 = 533.1800
(
73.020 )
TEMP 16 = 532.8700
(
72.550 )
TEMP 17 = 533.0700
(
72.700 )
TEMP 18 = 533.0800
(
72.820 )
PRES 1
73.7867
( 74175.0 )
=-
PRES 2=
73.7734
( 72479.0 )
' (
VPRS
.1
.3148
(
65.030 )
=
VPRS 2=
.3144
(
65.150 )
VPRS 3=
.3121
(
65.200 )
VPRS 4=
.3081
(
64.430 )
VPRS 5=
.3192
(
65.360 )
VPRS 6=
.3114
(
64.860 )
SUMMARY
OF CORRECTED DATA TIME = 2330 DATE = 1216 TEMPERATURE (DEGREES R.)
532.5876
=
CORRECTED PRESSURE (PSIA) 73.4017
=
VAPOR PRESSURE (PSIA)
.3056
=
VOLUME (CU.FT.)
1910000.0
=
710521.1 AIR MASS (LBM)
=
O C--30
i
/m( ).
SUMMARY
OF MEASURED DATA AT 2345 1216 TEMP 1 = 532.8800
(
73.380 )
TEMP 2 = 531.7100
(
72.430 )
TEMP 3 = 529.0500
(
69.840 )
TEMP 4 = 533.3600
(
73.250 )
l TEMP 5 = 533.4800
(
73.570 )
TEMP 6 = 534.5400
(
74.530 )
TEMP 7 = 536.4000
(
76.400 )
TEMP 8 = 532.9000
(
73.030 )
TEMP 9 = 533.0500
(
73.070 )
TEMP 10 = 533.0000
(
72.820 )
TEMP 11 = 533.7500
(
73.850 )
TEMP 12 = 533.1100
(
72.960 )
TEMP 13 = 533.3900
(
72.930 )
TEMP 14 = 533.2200
(
72.770 )
TEMP 15 = 533.1800
(
73.020 )
TEMP 16 = 532.8700
(
72.570 )
TEMP 17 = 533.0700
(
72.730 )
TEMP 18 = 533.0800
(
72.780 )
PRES 1
73.7867
( 74177.0 )
=
PRES 2=
73.7734
( 72481.0 )
(]
VPRS 1
.3148
(
64.560 )
=
(_/
VPRS 2=
.3144
(
65.180 )
VPRS 3=
.3121
(
65.520 )
VPRS 4=
.3081
(
64.610 )
VPRS 5=
.3192
(
65.860 )
VPRS 6=
.3114
(
64.640 )
SUMMARY
OF CORRECTED DATA t
TIME = 2345 DATE = 1216 TEMPERATURE (DEGREES R.)
532.6011
=
CORRECTED PRESSURE (PSIA) 73.4021
=
VAPOR PRESSURE (PSIA)
.3072
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710506.7
=
O I
C-31
(T
SUMMARY
OF MEASURED DATA AT O 1217
\\_)
TEMP 1 = 532.8800
(
73.350 )
TEMP 2 = 531.7100
(
72.460 )
TEMP 3 = 529.0500
(
69.980 )
TEMP 4 = 533.3600
(
73.290 )
TEMP 5 = 533.4800
(
73.660 )
TEMP 6 = 534.5400
(
74.560 )
TEMP 7 = 536.4000
(
76.420 )
TEMP 8 = 532.9000
(
73.020 )
TEMP 9 = 533.0500
(
73.090 )
TEMP 10 = 533.0800
(
72.700 )
TEMP 11 = 533.7500
(
73.860 )
TEMP 12 = 533.1100
(
73.010 )
TEMP 13 = 533.3900
(
72.940 )
TEMP 14 = 533.2200
(
72.790 )
TEMP 15 = 533.1800
(
73.040 )
TEMP 16 = 532.8700
(
72.640 )
TEMP 17 = 533.0700
(
72.760 )
TEMP 18 = 533.0800
(
72.800 )
PRES 1
73.7867
( 74179.0 )
=
PRES 2=
73.7734
( 72483.0 )
VPRS 1
.3148
-(
65.140 )
=
(
VPRS 2=
.3144
(
65.220 )
VPRS 3=
.3121
(
64.850 )
VPRS 4=
.3081
(
64.680 )
VPRS 5=
.3192
(
65.390 )
VPRS 6=
.3114
(
64.650 )
SUMMARY
OF CORRECTED DATA TIME =
0 DATE = 1217 TEMPERATURE (DEGREES R.)
532.6326
=
CORRECTED PRESSURE (PSIA) 73.4060
=
VAPOR PRESSURE (PSIA)
.3053
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710502.6
=
O C-32
)
SUMMARY
OF MEASURED DATA AT 15 1217 TEMP 1 = 532.8800
(
73.200 )
TEMP 2-= 531.7100
(
72.430 )
TEMP 3 = 529.0500
(
69.790 )
TEMP 4 = 533.3600
(
73.280 )
' TEMP 5 = 533.4800
(
73.710 )
TEMP 6 = 534.5400
(
74.600 )
TEMP 7 = 536.4000
(
76.470 )
TEMP 8 = 532.9000
(
73.080 )
TEMP 9 = 533.0500
(
73.120 )
TEMP 10 = 533.0800
(
72.830 )
TEMP 11 533.7500
(
73.910 )
=
TEMP 12 = 533.1100
(
72.940 )
TEMP 13 = 533.3900
(
72.950 )
TEMP 14 = 533.2200
(
72.820 )
TEMP 15 = 533.1800
(
73.030 )
TEMP 16 = 532.8700
(
72.620 )
. TEMP 17 = 533.0700
(
72.800 )
TEMP 18 = 533.0000
(
72.850 )
PRES 1=
73.7867
( 74181.0 )
PRES 2=
73.7734
( 72486.0 )
O
-VPRS 1
.3148
(
64.650 )
=
VPRS 2=
.3144
(
65.220 )
VPRS 3=
.3121
(
65.120 )
VPRS 4=
.3081
(
64.670 )
VPRS-5=
.3192
(
65.110 )
VPRS 6=
.3114
(
64.870 )
SUMMARY
OF CORRECTED DATA TIME =
15 DATE = 1217 TEMPERATURE (DEGREES R.)
532.6338
=
73.4076 CORRECTED PRESSURE (PSIA)
=
.3057 VAPOR PRESSURE (PSIA)
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710516.7
=
f
,!O T
C-33 4
' s)
SUMMARY
OF MEASURED DATA AT 30 1217 t,
TEMP 1 = 532.8800
(
73.410 )
TEMP 2 = 531.7100
(
72.470 )
TEMP 3 = 529.0500
(
69.890 )
TEMP 4 = 533.3600
(
73.330 )
TEMP 5 = 533.4800
(
73.800 )
TEMP 6 = 534.5400
(
74.600 )
TEMP 7 = 536.4000
(
76.440 )
TEMP 8 = 532.9000
(
73.100 )
TEMP 9 = 533.0500
(
73.130 )
TEMP 10 = 533.0800
(
72.850 )
TEMP 11 = 533.7500
(
73.920 )
TEMP 12 = 533.1100
(
73.020 )
TEMP 13 = 533.3900
(
72.990 )
TEMP 14 = 533.2200
(
72.870 )
TEMP 15 = 533.1800
(
73.060 )
TEMP 16 = 532.8700
(
72.690 )
TEMP 17 = 533.0700
(
72.770 )
TEMP 18 = 533.0800
(
72.850 )
73.7867
( 74183.0 )
PRES 1
=
PRES 2=
73.7734
( 72488.0 )
()
VPRS 1
.3148
(
66.010 )
=
(_/
VPRS 2=
.3144
(
65.060 )
VPRS 3=
.3121
(
65.300 )
VPRS 4=
.3081
(
64.780 )
VPRS 5=
.3192
(
65.390 )
VPRS 6=
.3114
(
64.510 )
SUMMARY
OF CORRECTED DATA TIME =
30 DATE = 1217 532.6763 TEMPERATURE (DEGREES R.)
=
73.4096 CORRECTED PRESSURE (PSIA)
=
.3056 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710479.8 AIR MASS (LBM)
=
s C-34
(s')
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT x'
TREND REPORT TIME AND DATE AT START OF TEST: 1630 1216 1984 NO.
END TOTAL TIME ANALYSIS MASS POINT ANALYSIS PTS TIME MEAS. CALCULATED UCL CALCULATED UCL
_ _ _ _ _ _ _ _ _ _ _ = = _
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ = - -
4 1715
.025
.087 1.549
.062
.368 5
1730
.057
.061
.598
.047
.190 6
1745
.062
.053
.393
.048
.133 7
1800
.042
.040
.296
.037
.095 8
1815
.057
.040
.252
.042
.084 9
1830
.051
.038
.221
.042
.073 10 1845
.049
.036
.199
.041
.066 11 1900
.034
.030
.177
.035
.056 12 1915
.016
.020
.155
.023
.044 13 1930
.017
.013
.138
.016
.035 14 1945
.042
.015
.134
.021
.038 15 2000
.030
.014
.127
.021
.035 16 2015
.058
.020
.131
.030
.046 17 2030
.051
.023
.131
.035
.050 18 2045
.048
.025
.129
.037
.051 19 2100
.032
.024
.123
.035
.047 20 2115
.039
.024
.120
.035
.046
("'x 21 2130
.052
.027
.121
.038
.049
(,)
22 2145
.036
.026
.117
.037
.047 23 2200
.049
.028
.117
.039
.048 24 2215
.034
.027
.113
.038
.046 25 2230
.044
.028
.112
.039
.046 26 2245
.044
.029
.111
.039
.047 27 2300
.046
.030
.110
.040
.047 28 2315'
.030
.028
.107
.038
.045 29 2330
.039
.028
.105
.038
.044 30 2345
.045
.029
.105
.039
.045 31 0
.045
.030
.104
.040
.045 32 15
.037
.030
.103
.039
.044 33 30
.052
.031
.103
.041
.046 OO
\\
\\
\\
D-1
\\
(
)
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)
MASS POINT ANALYSIS TIME AND DATE AT START OF TEST: 1630 1216 1984 TEST DURATION:
8.00 HOURS TIME TEMP PRESSURE CTMT. AIR MASS LOSS AVERAGE MASS (R)
(PSIA)
MASS (LBM)
(LBM)
LOSS (LBM/HR) 1630 532.299 73.3703 710602.
1645 532.293 73.3691 710598.
4.2 16.7 1700 532.307 73.3679 710569.
29.2 66.8 1715 532.287 73.3681 710597.
-27.8 7.4 1730 532.299 73.3686 710586.
11.2 16.8 1745 532.304 73.3686 710580.
6.0 18.3 1800 532.298 73.3683 710584.
-4.2 12.4 1815 532.308 73.3685 710573.
11.0 16.9 1830 532.317 73.3697 710572.
.8 15.2 1845 532.326 73.3706 710570.
2.5 14.6 1900 532.331 73.3720 710577.
-7.5 10.1 1915 532.326 73.3727 710590.
-12.5 4.7 1930 532.334 73.3736 710588.
1.9 4.9 1945 532.357 73.3741 710562.
25.6 12.4 2000 532.365 73.3761 710571.
-9.3 8.9
("x 2015 532.390 73.3762 710538.
33.7 17.3
(,)
2030 532.411 73.3795 710542.
-3.9 15.2 2045 532.416 73.3802 710542.
.8 14.1 2100 532.429 73.3839 710560.
-17.9 9.4 2115 532.448 73.3851 710548.
12.6 11.5 2130 532.460 73.3845 710525.
22.7 15.5 2145 532.474 73.3886 710547.
-21.6 10.6 2200 532.497 73.3894 710523.
23.3 14.4 2215 532.491 73.3907 710544.
-20.8 10.2 2230 532.521 73.3928 710524.
20.3 13.1 2245 532.531 73.3939 710520.
3.3 13.1 2300 532.554 73.3962 710514.
6.7 13.7 2315 532.567 73.4011 710543.
-29.7 8.8 2330 532.588 73.4017 710521.
22.2 11.6 2345 532.601 73.4021 710507.
14.4 13.2 0
532.633 73.4060 710503.
4.1 13.3 15 532.634 73.4076 710517.
-14.0 11.1 30 532.676 73.4096 710480.
36.9 15.3 FREE AIR VOLUME USED (CU. FT.)
=1910000.
REGRESSION LINE INTERCEPT (LBM)
= 710600.
-12.1 SLOPE (LBM/HR)
=
MAXIMUM ALLOWABLE LEAKAGE RATE
.200
=
.150 75% OF MAXIMUM ALLOWABLE LEAKAGE RATE
=
THE UPPER 95% CONFIDENCE LIMIT
.046
=
7s 1
THE CALCULATED LEAKAGE RATE
.041
=
'%-)
N
\\
\\
\\
D-2 s
[ ')
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
s./
LEAKAGE RATE (WEIGHT PERCENT / DAY)
TOTAL TIME ANALYSIS TIME AND DATE AT START OF TEST: 1630 1216 1984 TEST DURATION:
8.00 HOURS TIME TEMP PRESSURE MEASURED (R)
(PSIA)
LEAKAGE RATE 1630 532.299 73.3703 1645 532.293 73.3691
.056 1700 532.307 73.3679
.226 1715 532.287 73.3681
.025 1730 532.299 73.3686
.057 1745 532.304 73.3686
.062 1000 532.298 73.3683
.042 1815 532.308 73.3685
.057 1830 532.317 73.3697
.051 1845 532.326 73.3706
.049 1900 532.331 73.3720
.034 1915 532.326 73.3727
.016 1930 532.334 73.3736
.017 1945-532.357 73.3741
.042 2000 532.365-73.3761
.030 j 'g 2015 532.390 73.3762
.058 e
g j
2030 532.411 73.3795
.051
'~'
2045 532.416 73.3802
.048 2100 532.429 73.3839
.032 2115 532.448 73.3851
.039 2130 532.460 73.3845
.052 2145 532.474 73.3886
.036 2200 532.497 73.3894
.049 2215 532.491 73.3907
.034 2230 532.521 73.3928
.044 2245 532.531 73.3939
.044 2300 532.554 73.3962
.046 2315 532.567 73.4011
.030 2330 532.588 73.4017
.039 2345 532.601 73.4021
.045 0
532.633 73.4060
.045 15-532.634 73.4076
.037 30 532.676 73.4096
.052 MEAN OF THE MEASURED LEAKAGE RATES
.048
=
MAXIMUM ALLOWABLE LEAKAGE RATE
.200
=
75% OF MAXIMUM ALLOWABLE LEAKAGE RATE
.150
=
THE UPPER 95% CONFIDENCE LIMIT
.103
=
THE CALCULATED LEAKAGE RATE
.031
=
o D-3
/
's ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
(_)
TEMPERATURE DEGREES F 72,550 72.600 72.650 72.700 72.750 72.800 72.850 72.900 72.950 73.000 73.050 73.100 73.150
...+
+..
.+
1630 1
+
1645 1
+
1700 1
+
1715 l
+
1730 1
+
1745 1
+
1900 I
+
1915 I
+
1830 !
+
1845 1
+
1900 ?
+
1915 I
+
1930 1
+
1945 i
+
2000 !
+
2015 1
+
2030 1
+
2045 i
+
2l00 ?
+
2115 !
+
4!
~
2215 1
+
2230 i
+
2245 i
+
2300 !
+
2315 !
+
2330 1
+
2345 1
+
0!
+
15 1
+
30 1
+
+
.__.+.
4
.....__ +.___.. __,
72.550 72.600 72.650 72.700 72.750 72.000 72.850 72.900 77.?50 73.000 73.050 73.100 73.150 m
E -1
[]
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
'L/
PRESSURE PSIA 73.360 73.345 73.370 73.375 73.380 73.385 73.390 73.395 73.400 73.405 73.410 73.415 73.420 4
.+
+
+
+
+
+ _
.+. ___+. _ __.+
_ _.+
+
1630 1
+
1645 !
+
1700 1
+
1715 1
+
1730 1
+
1745 1
+
1900 1
+
1815 1
+
1830 1
+
1845 1
+
1900 1
+
1915 1
+
1930 1
+
1945 1
+
2000 1
+
2015 1
+
2030 1
+
2045 1
+
2100 1
+
21151
+
30 1
+
45 1
+
200 1
+
2215 I
+
2230 1
+
2245 !
+
2300 l
+
2315 1
+
2330 1
+
2345 1
+
01
+
15 !
+
30 1
+
+.
--+
+
.+
+
.+
_____+
+
+__
.+-.
+
.+
.+
73.340 73.365 73.370 73.375 73.380 73.385 73.390 73.395 73.400 73.405 73.410 73.415 73.420 (D
L)
E-2
(]
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
'/
VAPOR PRESSURE PSIA m
.300
.301
.302
.303
.304
.305
.306
.306
.307
.308
.309
.310
.311
+
+
.+..
+
...+..
.+..
+.
.+
+
+..
+
.....+...
+
1630 1
+
1645 1
+
1700 1
+
1715 1
+
1730 1
+
1745 1
+
1900 1
+
1815 !
+
1830 1
+
1845 1
+
1900 1
+
1915 i
+
1930 1
+
1945 1
+
2000 1
+
2015 1
+
2030 1
+
2045 i
+
2100 !
+
2115 1
+
30 !
+
45 1
+
200 1
+
2215 1
+
2230 1
+
2245 1
+
2300 1
+
2315 1
+
2330 1
+
2345 1
+
01
+
15 1
+
30 1
+
+
.. +
. +
-+.
.+..
.+.....+
+-
+.........+
+
+
.+
.300
.301
.302
.303
.304
.305
.306
.306
.307
.300
.309
.310
.311 m
E-3
()
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT C)
AIRMASS LBM X 1000 710.247 710.277 710.306 710.336 710.365 710.395 710.425 710.454 710.484 710.514 710.543 710.573 710.602
+
+
_. +
+
++
+
+-
+..-
+
+
+
4 1630 1
+
1645 i
+
1700 :
+
1715 i
+
1730 !
+
1745 1
+
1900 1
+
1815 :
+
1830 1
+
1845 i
+
1900 1
+
1915 :
+
1930 1
+
1945 1
+
2000 !
+
2015 l
+
2030 1
+
2045 1
+
2100
+
2115 :
+
130 1
+
45 :
+
200 t
+
2215 !
+
2230 1
+
2245 !
+
2300 :
+
2315 i
+
2330 :
+
2345 :
+
0!
+
15 1
+
30 s
+
+..
+.....+
..+..
+
.+
+.
. +
+..
.+.....,
+
-+
710.247 710.277 710.306 710.336 710.365 710.395 710.425 710.454 710.484 710.514 710.543 710.573 710.602 r
i E-4
1
[~'1 ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
(/
MASS POINT LEAKAGE RATE (+)
AND UCL(%)
.000
.031
.061
.092
.123
.153
.184
.215
.245
.276
.307
.337
.368
+++
+
..+
.+.
+
+.
+
+
....+
..+
1630 I 1645 1 1700 1 1715 !
+
1 1730 :
+
1 1745 l
+
1 1800 l
+
1 1815 :
+
1 1830 :
~
1
+
1 1845 !
+
1900 i
+
1 1915 !
+
1 1930 !
+
1 1945 :
+
1 2000 1
+
1 2015 1
+
1 2030 :
+
1 2045 !
+
1 2100 1
+ 1 2115 :
+ 1 01
+ 1 51
+1 00 1
+1 2215 1
+1 2230 1
+1 2245 1
+1 2300 1
+1 2315 1
+1 2330 1
+1 2345 :
+1 0:
+1 15 1
+1 30 1
+1 e
+..
...+
.+
...+.......,
+
.+...
+.
. +
+
+
+
+
l
.000
.031
.061
.092
.123
.153
.184
.215
.245
.276
.307
.337
.368 l
i O
O v
l E-5
T' ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
(_)}
TOTAL TIME LEAKAGE RATE (+)
AND UCL(%)
.000
.129
.258
.387
.516
.646
.775
.904 1.033 1.162 1.291 1.420 1.549
+.___.___.+.____.___+
+..__+
+ _____..+...
+.__.__,
+
+ _______+
+
1630 1 1645 1 1700 1 1715 !
+
1 1730 1
+
1 1745 i +
1 1900 1 +
1 1815 l +
1 1830 1 +
1 1845 l +
1 1900 1 +
1 1915 1 +
1 1930 1+
1 1945 l+
1 2000 1+
1 2015 1 +
1 2030 1 +
1 2045 i +
1 2!00 l +
1 2115 1 +
1 I+
1 I+
1 1+
1 2215 1 +
1 2230 1 +
1 2245 I +
1 2300 1 +
1 2315 i +
1 2330 I +
1 2345 1 +
1 01+
1 15 1 +
1 30 1 +
1 +
+..
+
-+.____.___+____..__.+
+
+-
.. + _____...+.... ___+
..+._____.+
.000
.129
.258
.387
.516
.646
.775
.904 1.033 1.162 1.291 1.420 1.549 E-6
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
\\
SUMMARY
DATA
~
ALMAX
.200
-VOLUME =' 1910000.
=
VRATET =
.229 VRATEM =.238 TIME DATE TEMP PRESSURE VPRS VOLUME 100 1217 532.712 73.4137
.3066 1910000.
I
-115 1217 532.720 73.4162
.3060 1910000.
130 1217 532.757 73.4179
. 3063 1910000.
145 1217 532.785 73.4199
.3063 L1910000.
200 1217 532.804 73.4223
.3059 1910000.
3 215 1217 532.819 73.4238
.3073 1910000.
230 1217-532.051 73.4277
.3054 1910000.
245 1217-532.860 73.4282
.3060 1910000.
300 1217 532.880 73.4291
.3060 1910000.
315 1217 532.902 73.4282
.3079 1910000.
330 1217 532.920 73.4300
.3071 1910000.
4-O 1
i i
s
- O 1
F-1 s
.1._-.
7.-~
- (,)
SUMMARY
OF MEASURED DATA AT 100 1217 TEMP 1 = 532.8800
(
73.360 )
TEMP 2 = 531.7100
(
72.530 )
TEMP 3 = 529.0500
(
69.930 )
TEMP 4 = 533.3600
(
73.370 )
TEMP 5 = 533.4800
(
73.800 )
TEMP 6 = 534.5400
(-'74.590 )
TEMP 7 = 536.4000
(
76.500 )
TEMP 8 = 532.9000
(
73.170 )
TEMP 9 = 533.0500
(
73.180 )
TEMP 10 = 533.0000
(
72.920 )
TEMP 11 = 533.7500
(
73.940 )
TEMP 12 = 533.1100
(
73.080 )
TEMP 13 = 533.3900
(
73.030 )
TEMP 14 = 533.2200
(
72.880 )
TEMP 15 = 533.1800
(
73.140 )
TEMP 16 = 532.8700
(
72.680 )
TEMP 17 = 533.0700
(
72.840 )
TEMP 18 = 533.0800
(
72.900 )
PRES 1
73.7867
( 74188.0 )
=
PRES 2=
73.7734
( 72492.0 )
[}
VPRS 1
.3148
(
64.350 )
=
N-VPRS 2=
.3144
(
65.220 )
VPRS 3=
.3121
(
65.080 )
VPRS 4=
.3081
(
64.830 )
VPRS 5=
.3192
(
65.480 )
VPRS 6=
.3114
(
64.840 )
SUMMARY
OF CORRECTED DATA TIME =
100 DATE = 1217 TEMPERATURE (DEGREES R.)
532.7117
=
CORRECTED PRESSURE (PSIA) 73.4137
=
VAPOR PRESSURE (PSIA)
.3066
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710471.4
=
1 i
F-2
- ~. - -
pm
(,)
SUMMARY
OF MEASURED DATA AT 115 1217 TEMP 1 = 532.8800
(
73.350 )
TEMP 2 = 531.7100
(
72.550 )
TEMP 3 = 529.0500
(
69.860 )
TEMP 4 = 533.3600
(
73.420 )
TEMP 5 = 533.4800
(
73.760 )
' TEMP 6 = 534.5400
(
74.640 )
TEMP 7 = 536.4000
(
76.540 )
TEMP 8 = 532.9000
(
73.150 )
TEMP 9 = 533.0500
(
73.200 )
TEMP 10 = 533.0800
(
72.920 )
TEMP 11 = 533.7500
(
73.960 )
TEMP 12 = 533.1100
(
73.090 )
TEMP 13 = 533.3900
(
73.060 )
TEMP 14 = 533.2200
(
72.900 )
TEMP 15 = 533.1800
(
73.130 )
TEMP 16 = 532.8700
(
72.710 )
TEMP 17 = 533.0700
(
72.840 )
TEMP 18 = 533.0800
(
72.920 )
PRES 1
73.7867
( 74190.0 )
=
PRES 2=
73.7734
( 72494.0 )
.3148
(
64.470 )
VPRS 1
=
VPRS 2=
.3144
(
65.200 )
VPRS 3=
.3121
(
65.390 )
VPRS 4=
.3081
(
64.390 )
VPRS 5=
.3192
(
65.510 )
VPRS 6=
.3114
(
64.690 )
SUMMARY
OF CORRECTED DATA TIME =
115 DATE = 1217 532.7205 TEMPERATURE (DEGREES R.)
=
73.4162 CORRECTED PRESSURE (PSIA)
=
VAPOR PRESSURE (PSIA)
.3060
=
1910000.0 VOLUME (CU.FT.)
=
710484.0 AIR MASS (LBM)
=
4 N/
F-3 L
h ))
SUMMARY
OF MEASURED DATA AT 130 1217 TEMP 1 = 532.8800
(
73.410 )
TEMP 2 = 531.7100
(
72.570 )
TEMP 3 = 529.0500
(
70.010 )
TEMP 4 =-533.3600
(
73.400 )
TEMP 5 = 533.4800
(
73.930 )
TEMP 6 = 534.5400
(
74.610 )
TEMP 7 = 536.4000
(
76.530 )
TEMP 8 = 532.9000
(
73.160 )
TEMP 9 = 533.0500
(
73.220 )
TEMP 10 = 533.0000
(
72.940 )
TEMP 11 = 533.7500
(
73.980 )
TEMP 12 = 533.1100
(
73.100 )
TEMP 13 = 533.3900
(
73.060 )
TEMP 14 = 533.2200
(
72.940 )
TEMP 15 = 533.1800
(
73.140 )
TEMP 16 = 532.8700
(
72.780 )
TEMP 17 = 533.0700
(
72.870 )
TEMP 18 = 533.0000
(
72.940 )
j PRES 1=
73.7867
( 74192.0 )
PRES 2=
73.7734
( 72496.0 )
VPR5 1
.3148
(
64.610 )
. n,
=
VPRS 2=
.3144
(
65.240 )
g_
/PR3 3=
.3121
(
65.370 )
VPRS 4=
.3081
(
64.540 )
VPRS 5=
.3192
(
65.430 )
VPRS 6=
.3114
(
64.700 )
SUMMARY
OF CORRECTED DATA TIME =
130 DATE = 1217 i
532.7571 TEMPERATURE (DEGREES R.)
=
73.4179 CORRECTED PRESSURE (PSIA)
=-
VAPOR PRESSURE (PSIA)
.3063
=
1910000.0 VOLUME (CU.FT.)
=
710452.1 AIR MASS (LBM)
=
F-4
, ~. _ _
. _ _ _. _. _. - ~,. _. _, _ _ _. -, _. _
f-.
(
SUMMARY
OF MEASURED DATA AT 145 1217 TEMP 1 = 532.8800
(
73.500 )
TEMP 2 = 531.7100
(
72.610 )
TEMP 3 = 529.0500
(
69.920 )
TEMP 4 = 533.3600
(
73.390 )
TEMP 5 = 533.4800
(.73.840 )
TEMP 6 = 534.5400
(
74.610 )
TEMP 7 = 536.4000
(
76.570 )
TEMP O = 532.9000
(
73.230 )
TEMP 9 = 533.0500
(
73.220 )
TEMP 10 = 533.0800
(
72.980 )
TEMP 11 = 533.7500
(
74.020 )
TEMP 12 = 533.1100
(
73.180 )
TEMP 13 = 533.3900
(
73.090 )
TEMP 14 = 533.2200
(
72.990 )
TEMP 15 = 533.1800
(
73.160 )
TEMP 16 = 532.8700
(
72.780 )
TEMP 17 = 533.0700
(
72.920 )
TEMP 18 = 533.0800
(
73.000 )
73.7867
( 74194.0 )
PRES 1
=
PRES 2=
73.7734
( 72498.0 )
C}
.3148
(
65.060 )
VPRS 1
=
k-VPRS 2=
.3144
(
65.310 )
m VPRS 3=
.3121
(
65.310 )
VPRS 4=
.3081
(
64.470 )
VPRS 5=
.3192
(
65.480 )
VPRS 6=
.3114
(
64.600 )
SUMMARY
OF CORRECTED DATA TIME =
145 DATE = 1217 532.7854 TEMPERATURE (DEGREES R.)
=
73.4199 CORRECTED PRESSURE (PSIA)
=
.3063 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710433.5 AIR MASS (LBM)
=
N F-5
(,
SUMMARY
OF MEASURED DATA AT-200 1217 TEMP 1 = 532.8800
(
73.550 )
TEMP 2 = 531.7100
(
72.600 )
TEMP 3 = 529.0500
(
69.860 )
TEMP 4 = 533.3600
(
73.450 )
TEMP 5 = 533.4800
(
73.960 )
TEMP 6 = 534.5400
(
74.680 )
TEMP 7 = 536.4000
(
76.580 )
TEMP 8 = 532.9000
(
73.250 )
TEMP 9 = 533.0500
(
73.210 )
TEMP 10 = 533.0800
(
72.990 )
TEMP 11 = 533.7500
(
74.020 )
TEMP 12 = 533.1100
(
73.210 )
TEMP 13 = 533.3900
(
73.110 )
TEMP 14 = 533.2200
(
72.990 )
TEMP 15 = 533.1800
(
73.160 )
TEMP 16 = 532.8700
(
72.830 )
TEMP 17 = 533.0700
(
72.900 )
TEMP 18 = 533.0800
(
72.980 )
73.7867
( 74196.0 )
PRES 1
=
PRES 2=
73.7734
( 72500.0 )
[ }
VPRS 1
.3148
(
65.140 )
=
k/
VPRS 2=
.3144
(
65.240 )
VPRS 3=
.3121
(
65.170 )
VPRS 4=
.3081
(
64.510 )
VPRS 5=
.3192
(
65.700 )
VPRS 6=
.3114
(
64.370 )
SUMMARY
OF CORRECTED DATA TIME =
200 DATE = 1217 532.8037 TEMPERATURE (DEGREES R.)
=
73.4223 CORRECTED PRESSURE (PSIA)
=
.3059 VAPOR PTsESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710432.2 AIR MASS (LBM)
=
L F-6
fM-
' (,,)
SUMMARY
OF MEASURED DATA AT 215 1217
' TEMP 1 = 532.8000
'(
73.530 )
TEMP 2 = 531.7100
(
72.650 )
TEMP 3 = 529.0500
(
70.030 )
TEMP 4 = 533.3600
(
73.500 )
TEMP. 5 = 533.4800
(
73.990 )
TEMP 6 = 534.5400
(
74.680 )
TEMP
'7 = 536.4000
(
76.590 )
TEMP 8 = 532.9000
(
73.240 )
TEMP. 9 = 533.0500
(
73.270 )
TEMP 10 = 533.0800
(
72.990 )
TEMP 11 = 533.7500
(
74.050 )
TEMP 12 = 533.1100
(
73.170 )
TEMP 13 = 533.3900
(
73.130 )
TEMP 14 = 533.2200
(
73.020 )
TEMP 15 = 533.1800
(
73.230 )
TEMP 16 = 532.8700
(
72.800 )
TEMP 17 = 533.0700
(
72.880 )
TEMP 18 = 533.0800
(
72.980 )
PRES 1
73.7867
( 74199.0 )
=
PRES 2=
73.7734
( 72502.0 )
[
VPRS
'l
.3148
(
65.090 )
=
\\-
VPRS 2=
.3144
(
65.270 )
VPRS 3='
.3121
(
65.180 )
VPRS 4=
.3081
(
64.740 )
VPRS 5=
.3192
(
65.740 )
VPRS 6=
.3114
(
64.890 )
SUMMARY
OF CORRECTED DATA TIME =
215 DATE = 1217 TEMPERATURE (DEGREES R.)
532.8187
=
CORRECTED PRESSURE (PSIA) 73.423E
=
VAPOR PRESSURE (PSIA)
.3073
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710427.0
=
i O
4
- bV F-7 L
-++
p 4
J.--
1 p/-
(,
SUMMARY
OF MEASURED DATA AT 230 1217 TEMP 1 = 532.8800
(
73.620 )
TEMP 2 = 531.7100
(
72.660 )
TEMP 3 = 529.0500
(
70.000 )
TEMP 4 = 533.3600
(
73.480 )
TEMP 5 = 533.4800
(
73.990 )
TEMP 6 = 534.5400
(
74.680 )
TEMP 7 = 536.4000
(
76.620 )
TEMP 8 = 532.9000
(
73.280 )
TEMP 9 = 533.0500
(
73.330 )
TEMP 10 = 533.0800
(
73.030 )
TEMP 11 = 533.7500
(
74.070 )
TEMP 12 = 533.1100
(
73.220 )
TEMP 13 = 533.3900
(
73.140 )
TEMP 14 = 533.2200
(
73.030 )
TEMP 15 = 533.1800
(
73.250 )
TEMP 16 = 532.8700
(
72.860 )
TEMP 17 = 533.0700
(
72.940 )
TEMP 18 = 533.0800
(
73.040 )
PRES 1=
73.7867
( 74201.0 )
PRES 2=
73.7734
( 72505.0 )
(
VPRS 1=
.3148
(
64.720 )
VPRS 2=
.3144
(
65.140 )
VPRS 3=
.3121
(
65.210 )
VPRS 4=
.3081
(
64.490 )
VPRS 5=
.3192
(
65.640 )
VPRS 6=
.3114
(
64.420 )
SUMMARY
OF CORRECTED DATA TIME =
230 DATE = 1217 532.8508 TEMPERATURE (DEGREES R.)
=
73.4277 CORRECTED PRESSURE (PSIA)
=
.3054 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710421.8 i
AIR MASS (LBM) =
O F-8
[
SUMMARY
OF MEASURED DATA AT 245 1217
's.,))
TEMP 1 = 532.8800
(
73.530 )
TEMP 2 =-531.7100
(
72.690 )
TEMP 3 = 529.0500
(
70.010 )
TEMP 4 = 533.3600
(
73.520 )
TEMP 5 = 533.4800
(
73.960 )
TEMP 6 = 534.5400
(
74.720 )
TEMP 7 = 536.4000
(
76.630 )
TEMP O = 532.9000
(
73.240 )
TEMP 9 = 533.0500
(
73.290 )
TEMP 10 = 533.0800- (
73.050 )
TEMP 11 = 533.7500
(
74.120 )
TEMP 12 = 533.1100
(
73.210 )
TEMP 13 = 533.3900
(
73.170 )
TEMP 14 = 533.2200
(
73.070 )
TEMP 15 = 533.1800
(
73.270 )
TEMP 16 = 532.8700
(
72.850 )
TEMP 17 = 533.0700
(
72.970 )
TEMP 18 = 533.0000
(
73.070 )
PRES 1
73.7867
( 74202.0 )
=
PRES 2=
73.7734
( 72506.0 )
.3148
(
65.950 )
rw VPRS 1 =
' ('#)
VPRS 2=
.3144
(
65.260 )
VPRS 3=
.3121
(
65.140 )
VPRS 4=
.3081
(
64.460 )
VPRS 5=
.3192
(
65.590 )
VPRS 6=
.3114
(
64.660 )
SUMMARY
OF CORRECTED DATA TIME =
245 DATE = 1217 532.8602 TEMPERATURE (DEGREES R.)
=
CORRECTED PRESSURE (PSIA) 73.4282
=
.3060 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) 710413.8
=
F-9
SUMMARY
OF MEASURED DATA AT 300 1217 TEMP 1 = 532.8800
(
73.610 )
TEMP 2 = 531.7100
(
72.710 )
TEMP 3 = 529.0500
(
70.070 )
TEMP 4 = 533.3600
(
73.530 )
TEMP 5 = 533.4800
(
73.990 )
TEMP 6 = 534.5400
(
74.760 )
TEMP 7 = 536.4000
(
76.660 )
. TEMP G = 532.9000
(
73.320 )
TEMP 9 = 533.0500
(
73.320 )
TEMP 10 = 533.0800
(-
73.070 )
TEMP 11 = 533.7500
(
74.110 )
TEMP 12 = 533.1100
(
73.290 )
TEMP 13 = 533.3900
(
73.190 )
TEMP 14 = 533.2200
(
73.040 )
TEMP 15 = 533.1800
(
73.270 )
TEMP 16 = 532.8700
(
72.050 )
TEMP 17 = 533.0700
(
72.900 )
TEMP 18 = 533.0800
(
73.060 )
PRES 1=
73.7867
( 74203.0 )
PRES 2=
73.7734
( 72506.0 )
O VPRS 1=
.3148
(
66.030 )
VPRS 2=
.3144
(
65.300 )
VPRS 3=
.3121
(
64.880 )
VPRS 4=
.3001
(
64.850 )
VPRS 5=
.3192
(
65.370 )
VPRS 6=
.3114
(
64.740 )
SUMMARY
OF CORRECTED DATA TIME =
300 DATE = 1217 TEMPERATURE (DEGREES R.)
532.8800
=
CORRECTED PRESSURE (PSIA) 73.4291
=
VAPOR PRESSURE (PSIA)
.3060
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710396.1
=
C::)
F-10
O (M.
(
)
SUMMARY
OF MEASURED DATA AT 315 1217 TEMP 1 = 532.8800
(
73.640 )
TEMP 2 = 531.7100
(
72.720 )
TEMP 3 = 529.0500
(
70.040 )
TEMP 4 = 533.3600
(
73.500 )
TEMP 5 = 533.4000
(
73.970 )
TEMP 6 = 534.5400
(
74.750 )
TEMP 7 = 536.4000
(
76.690 )
TEMP 8 = 532.9000
(
73.380 )
TEMP 9 = 533.0500
(
73.330 )
TEMP 10 = 533.0000
(
73.090 )
TEMP 11 = 533.7500
(
74.130 )
TEMP 12 = 533.1100
(
73.280 )
TEMP 13 = 533.3900
(
73.220 )
TEMP 14 = 533.2200
(
73.060 )
TEMP 15 = 533.1800
(
73.290 )
TEMP 16 = 532.8700
(
72.920 )
TEMP 17 = 533.0700
(
73.000 )
TEMP 18 = 533.0800
(
73.110 )
PRES 1
73.7867
( 74204.0 )
=
PRES 2=
73.7734
( 72507.0 )
Os
.3148
(
67.170 )
VPRS 1
=
VPRS 2=
.3144
(
65.330 )
VPRS 3=
.3121
(
65.480 )
VPRS 4=
.3081
(
64.660 )
VPRS 5=
.3192
(
65.690 )
VPRS 6=
.3114
(
64.900 )
SUMMARY
OF CORRECTED DATA TIME =
315 DATE = 1217 TEMPERATURE (DEGREES R.)
532.9018
=
73.4282 CORRECTED PRESSURE (PSIA)
=
.3079 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710359.1 AIR MASS (LBM)
=
l
/'N F-11 L.
(3
!w.sl.
SUMMARY
OF MEASURED DATA AT 330 1217 TEMP 1 = 532.8800
(
73.600 )
TEMP 2 = 531.7100
(
72.750 )
TEMP 3 = 529.0500
(
70.060 )
TEMP 4 = 533.3600
(
73.600 )
TEMP 5 = 533.4800
(
73.990 )
TEMP 6 = 534.5400
(.74.750 )
TEMP 7 = 536.4000
(
76.720-)
TEMP 8 = 532.9000
(
73.360 )
TEMP 9 = 533.0500
(
73.370 )
TEMP 10 = 533.0800
(
73.140 )-
TEMP 11 = 533.7500
(
74.160 )
TEMP 12 = 533.1100
(
73.320 )
TEMP 13 = 533.3900
(
73.240 )
TEMP 14 = 533.2200
(
73.110 )
TEMP 15 = 533.1800
(
73.320 )
TEMP 16 = 532.8700
(
72.890 )
TEMP 17 = 533.0700
(
73.020 )
TEMP 18 = 533.0800
(
73.130 )
PRES 1=
73.7867
( 74205.0 )
PRES 2=
73.7734
( 72508.0 )
()
.3148
(
68.480 )
VPRS 1
=
VPRS 2=
.3144
(
65.340 )
VPRS 3=
.3121
(
64.940 )
VPRS 4=
.3081
(
65.020 )
VPRS 5=
.3192
(
65.790 )
VPRS 6=
.3114
(
64.560 )
SUMMARY
OF CORRECTED DATA TIME =
330 DATE = 1217 532.9203 TEMPERATURE (DEGREES R.)
=
73.4300 CORRECTED PRESSURE (PSIA)
=
.3071 VAPOR PRESSURE (PSIA)
=
.910000.0 VOLUME (CU.FT.)
=
710351.5 AIR MASS'(LBM)
=
O F-12
=
(~'
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
SUMMARY
DATA
(
ALMAX
.200 VOLUME =
1910000.
=
VRATET =
.229 VRATEM =.238 TIME DATE TEMP PRESSURE VPRS VOLUME 345 1217 532.938 73.4314
.3067 1910000.
400 1217 532.965 73.4319
.3072 1910000.
415 1217 532.979 73.4322
.3069 1910000.
430 1217 533.004 73.4340
.3060 1910000.
445 1217 533.043 73.4351
.3060 1910000.
500 1217 533.058 73.4344
.3067 1910000.
515 1217 533.065 73.4361
.3070 1910000.
530 1217 533.087 73.4368
.3072 1910000.
545 1217 533.110 73.4383
.3067 1910000.
600 1217 533.136 73.4373
.3087 1910000.
615 1217 533.152 73.4376
.3084 1910000.
630 1217 533.160 73.4392
.3089 1910000.
645 1217 533.195 73.4404
.3076 1910000.
~
700 1217 533.204 73.4405'
.3085 1910000.
715 1217 533.227 73.4415
.3075 1910000.
730 1217 533.238 73.4426
.3083 1910000.
745 1217 533.258 73.4439
.3080 1910000.
4 4
0 i
G-1
A
()
SUMMARY
OF MEASURED DATA AT 345 1217 TEMP 1 = 532.8800
(
73.580 )
TEMP 2 = 531.7100
(
72.760 )
TEMP 3 = 529.0500
(
69.990 )
TEMP 4 = 533.3600
(
73.640 )
TEMP 5 = 533.4800
(
74.020 )
TEMP 6 = 534.5400
(
74.810 )
TEMP 7 = 536.4000
(
76.730 )
TEMP 8 = 532.9000
(
73.390 )
. TEMP 9 = 533.0500
(
73.350 )
TEMP 10 = 533.0000
(
73.110 )
TEMP 11 = 533.7500
(
74.150 )
TEMP 12 = 533.1100
(
73.330 )
TEMP 13 = 533.3900
(
73.240 )
TEMP 14 = 533.2200
(
73.130 )
TEMP 15 = 533.1800
(
73.320 )
TEMP 16 = 532.8700
(
72.970 )
TEMP 17 = 533.0700
(
73.070 )
TEMP 18 = 533.0800
(
73.150 )
PRES 1=
73.7867
( 74206.0 )
PRES 2=
73.7734
( 72509.0 )
VPRS 1 =
.3148
(
66.290 )
(
VPRS 2=
.3144
(
65.310 )
VPRS 3=
.3121
(
65.470 )
VPRS 4=
.3001
(
64.720 )
VPRS 5=
.3192
(
65.560 )
VPRS 6=
.3114
(
64.390 )
SUMMARY
OF CORRECTED DATA TIME =
345 DATE = 1217 532.9381 TEMPERATURE (DEGREES R.)
=
73.4314 CORRECTED PRESSURE (PSIA)
=
.3067 VAPOR PRESSURE (PSIA)
=
VOLUME (CU.FT.)
1910000.0
=
710341.4 AIR MASS (LBM)
=
O G -2
r~'N i _)
SUMMARY
OF MEASURED DATA AT 400 1217 s
TEMP 1 = 532.8800
(
73.660 )
TEMP 2 = 531.7100
(
72.800 )
TEMP 3 = 529.0500
(
70.040 )
TEMP 4 = 533.3600
(
73.630 )
TEMP 5 = 533.4800
(
74.180 )
TEMP 6 = 534.5400
(
74.880 )
TEMP 7 = 536.4000
(
76.750 )
TEMP 8 = 532.9000
(
73.420 )
TEMP 9 = 533.0500
(
73.450 )
TEMP 10 = 533.0000
(
73.140 )
TEMP 11 = 533.7500
(
74.210 )
TEMP 12 = 533.1100
(
73.290 )
TEMP 13 = 533.3900
(
73.270 )
TEMP 14 = 533.2200
(
73.140 )
TEMP 15 = 533.1800
(
73.350 )
TEMP 16 = 532.8700
(
72.940 )
TEMP 17 = 533.0700
(
73.060 )
TEMP 18 = 533.0000
(
73.160 )
73.7867
( 74207.0 )
PRES 1
=
PRES 2=
73.7734
( 72510.0 )
[
)
VPRS 1
.3148
(
61.200 )
=
\\#
VPRS 2=
.3144
(
65.180 )
VPRS 3=
.3121
(
65.460 )
VPRS 4=
.3081
(
64.630 )
VPRS 5=
.3192
(
65.690 )
VPRS 6=
.3114
(
64.830 )
SUMMARY
OF CORRECTED DATA TIME =
400 DATE = 1217 532.9645 TEMPERATURE (DEGREES R.)
=
73.4319 CORRECTED PRESSURE (PSIA)
=
.3072 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710310.9 AIR MASS (LBM)
=
l l
O
,O f
G-3 l
s
,e3 t,
)
SUMMARY
OF MEASURED DATA AT 415 1217 TEMP 1 = 532.8000
(
73.720 )
TEMP 2 = 531.7100
(
72.810 )
TEMP 3 = 529.0500
(
69.960 )
TEMP 4 = 533.3600
(
73.660 )
TEMP' 5 = 533.4800
(
74.070 )
TEMP 6 = 534.5400
(
74.880 )
TEMP 7 = 536.4000
(
76.760 )
TEMP 8 = 532.9000
(
73.380 )
TEMP 9 = 533.0500
(
73.430 )
TEMP 10 = 533.0000
(
73.170 )
TEMP 11 = 533.7500
(
74.240 )
TEMP 12 = 533.1100
(
73.350 )
TEMP 13 = 533.3900
(
73.280 )
TEMP 14 = 533.2200
(
73.170 )
TEMP 15 = 533.1800
(
73.390 )
TEMP 16 = 532.8700
(
72.960 )
TEMP 17'= 533.0700
(
73.100 )
TEMP 18 = 533.0000
(
73.180 )
73.7867
( 74207.0 )
PRES 1 =
PRES 2=
73.7734
( 72510.0 )
I\\
VPRS 1 =
.3148
(
64.810 )
kl VPRS 2=
.3144
(
65.370 )
m VPRS 3=
.3121
(
65.390 )
VPRS 4=
.3081
(
64.440 )
VPRS 5=
.3192
(
65.680 )
VPRS 6=
.3114
(
64.650 )
SUMMARY
OF CORRECTED DATA TIME =
415 DATE = 1217 532.9795 TEMPERATURE (DEGREES R.)
=-
73.4322 CORRECTED PRESSURE (PSIA)
=
.3069 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710293.8 AIR MASS (LBM)
=
l l
G-4
l
SUMMARY
OF MEASURED DATA AT 430 1217 TEMP 1 = 532.8800
(
73.650 )
. TEMP 2 = 531.7100
(
72.820 )
TEMP 3 = 529.0500
(
70.150 )
TEMP 4 = 533.3600
(
73.740 )
TEMP 5 = 533.4800
(
74.030 )
TEMP 6 = 534.5400
(
74.910 )
TEMP 7 = 536.4000
(
76.780 )
TEMP 8 = 532.9000
(
73.440 )
TEMP 9 = 533.0500
(
73.480 )
TEMP 10 = 533.0800
(
73.190 )
TEMP 11 = 533.7500
(
74.240 )
TEMP 12 = 533.1100
(
73.440 )
TEMP 13 = 533.3900
(
73.300 )
-TEMP 14 = 533.2200
(
73.190 )
TEMP 15 = 533.1800
(
73.400 )
TEMP 16 = 532.8700
(
73.000 )
TEMP 17 = 533.0700
(
73.120 )
TEMP 18 = 533.0000
(
73.190 )
PRES 1=
73.7867
( 74200.0 )
PRES 2=
73.7734
( 72511.0 )
[
VPRS 1=
.3148
(
65.270 )
VPRS 2=
.3144
(
65.290 )
VPRS 3=
.3121
(
65.170 )
VPRS 4=
.3081
(
64.550 )
VPRS 5=
.3192
(
65.500 )
VPRS 6=
.3114
(
64.620 )
SUMMARY
OF CORRECTED DATA TIME =
430 DATE = 1217 533.0035 TEMPERATURE (DEGREES R.)
=
73.4340 CORRECTED PRESSURE (PSIA)
=
.3060 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710279.6 AIR MASS (LBM)
=
O G-5
m
/'%
(_j
SUMMARY
OF MEASURED DATA AT 445 1217 TEMP 1 = 532.8800
(
73.750 )
TEMP 2 = 531.7100
(
72.870 )
TEMP 3 = 529.0500
(
70.270 )
TEMP 4 = 533.3600
(
73.710 )
TEMP 5 = 533.4800
(
74.160 )
TEMP 6 = 534.5400
(
74.930 )
TEMP 7 = 536.4000
(
76.810 )
TEMP 8 = 532.9000
(
73.450 )
TEMP 9 = 533.0500
(
73.510 )
TEMP 10 = 533.0800
(
73.230 )
TEMP 11 = 533.7500
(
74.280 )
TEMP 12 ='533.1100
(
73.430 )
TEMP 13 = 533.3900
(
73.340 )
TEMP 14 = 533.2200
(
73.190 )
TEMP 15 = 533.1800
(
73.420 )
TEMP 16 = 532.8700
(
73.070 )
TEMP 17 = 533.0700
(
73.160 )
TEMP 18 = 533.0800
(
73.210 )
PRES 1=
73.7867
( 74209.0 )
PRES 2=
73.7734
( 72512.0 )
D VPRS 1
.3148
(
65.250 )
=
/
VPRS 2=
.3144
(
65.290 )
VPRS 3=
.3121
(
64.990 )
VPRS 4=
.3081
(
64.550 )
VPRS 5=
.3192
(
65.610 )
VPRS 6=
.3114
(
64.650 )
SUMMARY
OF CORRECTED DATA TIME =
445 DATE = 1217 533.0435 TEMPERATURE (DEGREES R.)
=
73.4351 CORRECTED PRESSURE (PSIA)
=
.3060 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710236.G AIR MASS (LBM)
=
O>
u-l l
l 04 l
L
i.
.r'%
-(j
SUMMARY
_OF MEASURED DATA AT 500 1217 TEMP 1 = 532.8800- (
73.760 )
TEMP
'2.= 531.7100
(
72.870 )
TEMP 3 = 529.0500
(
70.200 )
TEMP 4 = 533.3600
(
73.710 )
TEMP 5 = 533.4800
(
74.230 )
TEMP 6 = 534.5400
(
74.990 )
TEMP 7 = 536.4000
(
76.830 )
TEMP 8 = 532.9000
(
73.470 )
TEMP 9 = 533.0500
(
73.510 )
TEMP 10 = 533.0800
(
73.220 )
. TEMP 11 = 533.7500
(
74.260 )
TEMP 12 = 533.1100
(
73.420 )
TEMP 13 = 533.3900
(
73.370 )
TEMP 14 = 533.2200
(
73.220 )
TEMP 15'= 533.1800
(
73.430 )
TEMP 16 = 532.8700
(
73.050 )
TEMP 17 = 533.0700
(
73.160')
TEMP 18 = 533.0800
(
73.280 )
i PRES 1=
73.7867
( 74209.0 )
PRES 2=
73.7734
( 72513.0 )
[' /j VPRS 1=>
.3148
(
65.390 )
s_
VPRS 2=
.3144
(
65.350 )
VPRS 3=
.3121
(
65.220 )
VPRS 4=
.3001
(
64.430 )
VPRS 5=
.3192
(
65.600 )
VPRS 6=
.3114
(
64.830 )
SUMMARY
OF CORRECTED DATA' TIME =
500 DATE = 1217 533.0582 TEMPERATURE (DEGREES R.)
=
73.4344 CORRECTED PRESSURE (PSIA)
=
.3067 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710210.2 AIR MASS (LBM)
=
9 O
G-7
-A(,)
SUMMARY
OF MEASURED DATA AT 515 1217 TEMP 1 = 532.8800
(
73.730 )
TEMP 2 = 531.7100
(
72.910')
e TEMP. 3 = 529.0500
(
70.260 )
TEMP 4 = 533.3600
(
73.750 )
TEMP 5 = 533.4800
(
74.140 )
TEMP 6 = 534.5400
(
74.890 )
TEMP 7 = 536.4000
(
76.890 )
TEMP B = 532.9000
(
73.520 )
-TEMP 9 = 533.0500
(
73.500 )
TEMP 10 = 533.0800
(
73.270 )
TEMP 11 = 533.7500
(
74.290 )
TEMP 12 = 533.1100
(
73.440 )
TEMP 13 = 533.3900
(
73.370 )
TEMP 14 = 533.2200
(
73.240 )
TEMP 15 = 533.1800
(
73.470 )
TEMP 16 = 532.8700
(
73.080 )
TEMP 17 = 533.0700
(
73.160 )
TEMP 18 = 533.0800
(
73.260 )
PRES 1=
73.7867
( 74211.0 )
PRES 2=
73.7734
( 72514.0 )
i VF RS 1
.3148
(
64.070 )
=
w VPRS 2=
.3144
(
65.340
)-
VPRS 3=
.3121
(
65.440 )
s VFRS 4=
.3081
(
64.740 )
VPRS 5=
.3192
(
65.340 )
VPRS 6=
.3114
(
64.730 )
SUMMARY
OF CORRECTED DATA TIME =
515 DATE = 1217 TEMPERATURE (DEGREES R.)
533.0646
=
CORRECTED PRESSURE (PSIA) 73.4361
=
VAPOR PRESSURE (PSIA)
.3070
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710218.1
=
s/
G -4
i l
-f
( j'
SUMMARY
OF MEASURED DATA AT 530 1217 TEMP 1 = 532.8800
(
73.790 )
TEMP 2 = 531.7100
(
72.900 )
TEMP 3 = 529.0500
(
70.310 )
TEMP 4 = 533.3600
(
73.790 )
TEMP 5 = 533.4800
(
74.140 )
TEMP 6 = 534.5400
(
74.890 )
TEMP 7.= 536.4000
(
76.870 )
TEMP 8 = 532.9000
(
73.560 )
TEMP 9 = 533.0500
(
73.550 )
TEMP 10 = 533.0800
(
73.270 )
TEMP 11 = 533.7500
(
74.320 )
TEMP 12 = 533.1100
(
73.450 )
TEMP 13 = 533.3900
(
73.400 )
TEMP 14 = 533.2200
(
73.270 )
TEMP 15 = 533.1800
(
73.490 )
TEMP 16 = 532.8700
(
73.000 )
TEMP 17 = 533.0700
(
73.210 )
TEMP 18 = 533.0800
(
73.290 )
PRES 1=
73.7867
( 74212.0 )
PRES 2=
73.7734
( 72515.0 )
f)
VPRS 1
.3148
(
65.610 )
=
\\_/
VPRS 2=
.3144
(
65.250 )
VPRS 3=
.3121
(
65.090 )
VPRS 4=
.3081
(
65.100.)
VPRS 5=
.3192
(
65.580 )
VPRS 6=
.3114
(
64.770 )
4
SUMMARY
OF CORRECTED DATA TIME =
530-DATE = 1217 533.0873 TEMPERATURE (DEGREES R.)
=
CORRECTED PRESSURE (PSIA) 73.4368.
=
.3072 VAPOR PRESSURE (PSIA)
=
VOLUME (CU.FT.)
1910000.0
=
710194.6 AIR MASS (LBM)
=
\\
G-9
O)
(,
SUMMARY
OF MEASURED DATA AT 545 1217 TEMP 1 = 532.8800
(
73.790 )
TEMP 2 = 531.7100
(
72.940 )
TEMP 3 = 529.0500
(
70.310 )
TEMP 4 = 533.3600
(
73.800 )
-TEMP 5 = 533.4800
(
74.160 )
TEMP 6 = 534.5400
(
74.980 )
TEMP 7 = 536.4000
(
76.910 )
TEMP 8 = 532.9000
(
73.560 )
TEMP 9 = 533.0500
(
73.570 )
TEMP 10 = 533.0800
(
73.280 )
TEMP 11 = 533.7500
(
74.360 )
TEMP 12 = 533.1100
(
73.530 )
TEMP 13 = 533.3900
(
73.410 )
TEMP 14 = 533.2200
(
73.290 )
TEMP 15 = 533.1800
(
73.480 )
TEMP 16 = 532.8700
(
73.150 )
TEMP 17 = 533.0700
(
73.180 )
TEMP 18 = 533.0000
(
73.310 )
PRES 1
73.7867
( 74213.0 )
=
PRES 2=
73.7734
( 72516.0 )
O-VPRS 1 =
.3148
(
64.600 )
VPRS 2=
.3144
(
65.260 )
VPRS 3=
.3121
(
65.270 )
VPRS 4=
.3081
(
64.870 )
VPRS 5=
.3192
(
65.390 )
VPRS 6=
.3114
(
64.730 )
SUMMARY
OF CORRECTED DATA TIME =
545 DATE = 1217 TEMPERATURE (DEGREES R.)
533.1104
=
CORRECTED PRESSURE (PSIA) 73.4383
=
VAPUR PRESSURE (PSIA)
.3067
=
VOLUME (CU.FT.)
1910000.0
=
710178.4 AIR MASS (LBM)
=
G-10
7) t,,/
SUMMARY
OF MEASURED DATA AT 600 1217 TEMP 1 = 532.8800
(
73.860 )
TEMP 2 = 531.7100
(
72.970 )
TEMP. 3 = 529.0500
(
70.370 )
TEMP 4 = 533.3600
(
73.780 )
TEMP 5 = 533.4800
(
74.200 )
TEMP 6 = 534.5400
(
74.970 )
TEMP 7 = 536.4000
(
76.890 )
TEMP 8 = 532.9000
(
73.570 )
TEMP 9 = 533.0500
(
73.540 )
TEMP 10 = 533.0800
(
73.330 )
TEMP 11 = 533.7500
(
74.390 )
TEMP 12 = 533.1100
(
73.510 )
TEMP 13 = 533.3900
(
73.420 )
TEMP 14 = 533.2200
(
73.340 )
TEMP 15 = 533.1800
(
73.550 )
TEMP 16 = 532.8700
(
73.140 )
TEMP 17 = 533.0700
(
73.220 )
. TEMP 18 = 533.0800
(
73.340 )
73.7867
( 74214.0 )
PRES 1
=
PRES 2=
73.7734
( 72517.0 )
()T
.3148
(
63.420 )
VPRS 1
=
s.
VPRS 2=
.3144
(
65.360 )
VPRS 3=
.3121
(
65.690 )
VPRS 4=
.3081
(
64.900 )
VPRS 5=
.3192
(
65.700 )
VPRS 6=
.3114
(
64.820 )
SUMMARY
OF CORRECTED DATA TIME =
600 DATE = 1217 533.1364 TEMPERATURE (DEGREES R.)
=
73.4373 CORRECTED PRESSURE (PSIA)
=
.3087 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710134.6 AIR MASS (LBM)
=
G-11 c
fx,()
SUMMARY
OF MEASURED DATA AT 615 1217 TEMP 1 = 532.8800
(
73.870 )
TEMP 2 = 531.7100
(
73.000 )
TEMP 3 = 529.0500
(
70.430 )
TEMP 4 = 533.3600
(
73.840 )
TEMP 5 = 533.4800
(
74.160 )
TEMP 6 = 534.5400
(
75.010 )
TEMP 7 = 536.4000
(
76.960 )
TEMP 8 = 532.9000
(
73.700 )
TEMP 9 = 533.0500
(
73.580 )
TEMP 10 = 533.0800
(
73.300 )
TEMP 11 = 533.7500
(
74.380 )
TEMP 12 = 533.1100
(
73.540 )
TEMP 13 = 533.3900
(
73.450 )
TEMP 14 = 533.2200
(
73.310 )
TEMP 15 = 533.1800
(
73.530 )
TEMP 16 = 532.8700
(
73.160 )
TEMP 17 = 533.0700
(
73.270 )
TEMP 18 = 533.0800
(
73.350 )
PRES 1=
73.7867
( 74214.0 )
PRES 2=
73.7734
( 72517.0-)
O
.3148
(
64.110 )
VPRS 1 =
VPRS 2=
.3144
(
65.350 )
VPRS 3=
.3121
(
65.490-)
VPRS 4=
.3081
(
64.930 )
VPRS 5=
.3192
(
65.530 )
VPRS 6=
.3114
(
65.060 )
SUMMARY
OF CORRECTED DATA TIME =
615 LATE = 1217 533.1517 TEMPERATURE (DEGREES R.)
=
73.4376 CORRECTE? PRESSURE (PSIA)
=
.3084 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710116.4 AIR MASS (LBM)
=
l G-12 i
1 1
(-)
U
SUMMARY
OF. MEASURED DATA AT 630 1217 TEMP 1 = 532.8800
(
73.910 )
TEMP 2 = 531.7100
(
73.000 )
TEMP 3 = 529.0500
(
70.350 )'
TEMP 4 = 533.3600
(
73.880 )
TEMP 5 = 533.4800
(
74.240 )
TEMP 6 = 534.5400
(
74.960 )
TEMP 7 = 536.4000
(
76.970 )
TEMP S = 532.9000
(
73.700 )
TEMP-9 = 533.0500
(
73.610 )
TEMP 1.0 = 533.0800
(
73.360 )
TEMP 11 = 533.7500
(
74.410 >
TEMP 12 = 533.1100
(
73.560 )
TEMP 13 = 533.3900
(
73.460 )
TEMP 14 = 533.2200
(
73.320 )
TEMP 15 = 533.1800- (
73.530 )
TEMP 16 = 532.8700
(
73.140 )
TEMP 17 = 533.0700
(
73.250 )
TEMP 18 = 533.0800
(
73.350 )
PRES 1=
73.7867
( 74216.0 )
PRES 2=
73.7734
( 72518.0 )
VPRS 1
.3148
(
64.950 )
=
_ VPRS 2=
.3144
(
65.380 )
VPRS 3=
.3121
(
65.630')
VPRS 4=
.3081
(
65.020 )
VPRS 5=
.3192
(
65.730 )
VPRS 6=
.3114
(
64.790 )
1
SUMMARY
OF CORRECTED DATA TIME =
630 DATE = 1217 533.1602 TEMPERATURE (DEGREES R.)
=
CORRECTED PRESSURE (PSIA) 73.4392
=
VAPOR PRESSURE (PSIA)
.3089
=
VOLUME (CU.FT.)
1910000.0
=
AIR MASS (LBM) 710120.3
=
1 G-13
p)
SUMMARY
OF MEASURED DATA AT 645 1217 TEMP 1 = 532.8800
(
73.880 )
TEMP 2 = 531.7100
(
73.010 )
TEMP 3 = 529.0500
(
70.510 )
TEMP 4 = 533.3600
(
73.870 )
TEMP 5 = 533.4800
(
74.220 )
TEMP 6 = 534.5400
(
74.970 )
TEMP 7 = 536.4000
(
76.960 )
TEMP 8 = 532.9000
(
73.720 )
TEMP 9 = 533.0500
(
73.650 )
TEMP 10 = 533.0800
(
73.390 )
TEMP 11 = 533.7500
(
74.420 )
TEMP 12 = 533.1100
(
73.600 )
TEMP 13 = 533.3900
(
73.500 )
TEMP 14 = 533.2200
(
73.320 )
TEMP 15 = 533.1800
(
73.600 )
TEMP 16 = 532.8700
(
73.220 )
TEMP 17 = 533.0700
(
73.310 )
TEMP 18 = 533.0800
(
73.400 )
73.7867
( 74216.0 )
PRES 1
=
PRES 2=
73.7734
( 72519.0 )
(T VPRS 1
.3148
(
65.660 )
=
(ms/
VPRS 2=
.3144
(
65.260 )
VPRS 3=
.3121
(
65.370 )
VPRS 4=
.3081
(
64.630 )
VPRS 5=
.3192
(
65.960 )
VPRS 6=
.3114
(
64.750 )
SUMMARY
OF CORRECTED DATA TIME =
645 DATE = 1217 e
533.1946 TEMPERATURE (DEGREES R.)
=
73.4404 CORRECTED PREGSURE (PSIA)
=
.3076 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710086.5 AIR MASS (LBM)
=
G-14
- (~N j
)
SUMMARY
OF MEASURED DATA AT 700 1217
-TEMP 1 = 532.8800
(
73.700 )
TEMP 2 = 531.7100
(
73.050 )
TEMP 3 = 529.0500
(
70.650 )
TEMP 4 = 533.3600
(
73.890 )
TEMP 5 = 533.4800
(
74.320 )
-TEMP 6 = 534.5400
(
74.9EO )
TEMP 7 = 536.4000
(
77.000 )
TEMP 8 = 532.9000
(
73.730 )
TEMP 9 = 533.0500
.(
73.720 )
TEMP 10 = 533.0800
(
73.400 )
TEMP 11 = 533.7500
(
74.470 )
TEMP 12 = 533.1100
(
73.560 )
TEMP 13 = 533.3900
(
73.510 )
TEMP 14 = 533.2200
(
73.350 )
TEMP 15 = 533.1800
(
73.600 )
TEMP 16 = 532.8700
(
73.200 )
TEMP 17 = 533.0700
(
73.320 )
TEMP 18 = 533.0800
(
73.3GO )
73.7867
( 74217.0 )
PRES 1
=
PRES 2=
73.7734
( 72519.0 )
[~h VPRS 1
.3148
(
66.330 )
=
\\-
VPRS 2=
.3144
(
65.330 )
VPRS 3=
.3121
(
65.420 )
VPRS 4=
.3081
(
64.620 )
VPRS 5=
.3192
(
65.830 )
VPRS 6=
.3114
(
65.190 )
SUMMARY
OF CORRECTED DATA TIME =
700 DATE = 1217 533.2044 TEMPERATURE (DEGREES R.)
=
73.4405 CORRECTED PRESSURE (PSIA)
=
.3085 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
AIR MASS (LBM) 710074.6
=
i-O I'
G-15
y3 T, )
SUMMARY
OF MEASURED DATA AT 715 1217 TEMP 1 = 532.8800
(
73.770 )
TEMP 2 = 531.7100
(
73.000 )
TEMP 3 = 529.0500
(
70.490 )
TEMP 4 = 533.3600
(
73.940 )
TEMP 5 = 533.4800
(
74.270 )
TEMP 6 = 534.5400
(
75.090 )
TEMP 7 = 536.4000
(
77.040 )
TEMP 8 = 532.9000
(
73.780 )
TEMP 9 = 533.0500
(
73.680 )
TEMP 10 = 533.0800
(
73.420 )
TEMP 11 = 533.7500
(
74.490 )
TEMP 12 = 533.1100
(
73.620 )
TEMP 13 = 533.3900
(
73.540 )
TEMP 14 = 533.2200
(
73.410 )
TEMP 15 = 533.1800
(
73.640 )
TEMP 16 = 532.8700
(
73.200 )
TEMP 17 = 533.0700
(
73.350 )
TEMP 18 = 533.0800
(
73.420 )
PRES 1=
73.7867
( 74217.0 )
PRES 2=
73.7734
( 72520.0 )
/Y VPRS.
1=
.3148
(
65.720 )
VPRS 2=
.3144
(
65.370 )
VPRS 3=
.3121
(
65.390 )
VPRS 4=
.3081
(
64.650 )
VPRS 5=
.3192
(
65.280 )
VPRS 6=
.3114
(
65.190 )
SUMMARY
OF CORRECTED DATA TIME =
715 DATE = 1217 533.2273 TEMPERATURE (DEGREES R.)
=
73.4415 CORRECTED PRESSURE (PSIA)
=
.3075 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710053.3 AIR MASS (LBM)
=
O s,/
m t
G-16 f
_~.. _. _ _ _ _ _ _ _.... _ _ _ _ _ _. - _ _ _, _ _ _... _ _ _. _ _ _. _ _ _ - - - - - _
i 4
. o).
(
SUMMARY
OF MEASURED DATA AT 730 1217 i
TEMP
.1~= 532.8800
(
73.820 )
TEMP 2 = 531.7100
(
73.080 )
TEMP 3 = 529.0500
(
70.490 )
TEMP 4 = 533.3600
(
73.930 )
TEMP 5 = 533.4800
(
74.260 )
TEMP 6 = 534.5400
(
75.080 )
-TEMP 7 = 536.4000
(
77.020 )
TEMP 8 = 532.9000
(
73.750 )
TEMP 9 = 533.0500
(
73.730 )
TEMP 10 = 533.0800
(
73.450 )
TEMP 11 = 533.7500
(
74.490 )
TEMP 12 = 533.1100
(
73.600 )
TEMP 13 = 533.3900
(
73.560 )
TEMP 14 = 533.2200
(
73.440.)
TEMP 15 = 533.1800- (
73.650 )
TEMP 16 = 532.8700
(
73.240 )
TEMP 17 = 533.0700
(
73.340')
TEMP 18 = 533.0800
(
73.440 )
PRES 1
73.7867
( 74219.0 )
=
PRES 2=
73.7734
( 72521.0 )
'^
VPRS 1=
.3148
(
66.450 )
VPRS 2=
.3144
(
65.350 )
VPRS 3=
.3121
(
65.630 )
VPRS 4=
.3081
(
64.520 )
VPRS 5=
.3192
(
65.990 )
.VPRS 6=
.3114
(
64.800 ).
SUMMARY
OF CORRECTED DATA TIME =
730 DATE = 1217 533.2377 TEMPERATURE (DEGREES R.)
=
73.4426 CORRECTED PRESSURE (PSIA)
=
.3083 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710050.8 AIR MASS (LBM)
=
l.
\\
G-17 i.
,,j)
SUMMARY
OF MEASURED DATA AT 745 1217 TEMP 1 = 532.8800
(
73.720 )
TEMP 2 = 531.7100
(
73.120 )
TEMP 3 = 529.0500
(
70.640 )
TEMP 4 = 533.3600
(
73.980 )
TEMP-5 = 533.4800
(
74.370 )
TEMP 6 = 534.5400
(
75.050 )
TEMP 7 = 536.4000
(
77.040 )
TEMP 8 = 532.9000
(
73.790 )
TEMP 9 = 533.0500
(
73.710 )
TEMP 10 = 533.0800
(
73.430 )
TEMP 11 = 533.7500
(
74.510 )
TEMP 12 = 533 1100
(
73.600 )
TEMP 13 = 533.3900
(
73.570 )
TEMP 14 = 533.2200
(
73.460 )
TEMP 15 = 533.1800
(
73.670 )
TEMP 16 = 532.8700
(
73.230 )
TEMP 17 = 533.0700
(
73.370 )
TEMP 18 = 533.0800
(
73.480 )
73.7867
( 74220.0 )
PRES 1
=
PRES 2=
73.7734
( 72522.0 )
/~N VPRS 1
.3148
(
65.160 )
=
\\_,k VPRS 2=
.3144
(
65.390 )
VPRS 3=
.3121
(
65.550 )
VPRS 4=
.3081
(
64.870 )
VPRS 5=
.3192
(
65.600 )
VPRS 6=
.3114
(
64.710 )
SUMMARY
OF CORRECTED DATA TIME =
745 DATE = 1217.
533.2577 TEMPERATURE (DEGREES R.)
=
73.4439 CORRECTED PRESSURE (PSIA)
=
.3080 VAPOR PRESSURE (PSIA)
=
1910000.0 VOLUME (CU.FT.)
=
710036.9 AIR MASS (LBM)
=
G G-18
~
-((_}-
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)
TOTAL TIME ANALYSIS TIME AND DATE AT START OF TEST:
345 1217 1984 TEST DURATION:
4.00 HOURS TIME TEMP PRESSURE MEASURED (R)
(PSIA)
LEAKAGE RATE 345 532.938 73.4314 400 532.965 73.4319
.412 415 532.979 73.4322
.322 430 533.004 73.4340
.278 445 533.043 73.4351
.353 500 533.058 73.4344
.355 515 533.065 73.4361
.278 530 533.087 73.4368
.283 545 533.110 73.4383
.275 600 533.136 73.4373
.311 615 533.152 73.4376
.304 630 533.160 73.4392
.272 645 533.195 73.4404
.287 700 533.204 73.4405
.277 715 533.227 73.4415
.278 f w,
- 730, 533.238 73.4426
.262
(
)
745 533.258 73.4439
.257 MEAN OF THE MEASURED LEAKAGE RATES
.300
=
VERIFICATION TEST LEAKAGE RATE UPPER LIMIT =
.279 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT =
.179 THE CALCULATED LEAKAGE RATE
.254
=
9 d
H-1
[~
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT
\\_-
LEAKAGE RATE (WEIGHT PERCENT / DAY)
MASS POINT ANALYSIS TIME AND DATE AT START OF TEST:
345 1217 1984 TEST DURATION:
4.00 HOURS TIME TEMP PRESSURE CTMT. AIR MASS LOSS AVERAGE MASS (R)
(PSIA)
MASS (LBM)
(LBM)
LOSS (LBM/HR)
. _ - _ -_ _ _ _ = _ _ _ _ _ _ _ _ _
_ - - = _ _.
==-.
._==-------
345 532.938 73.4314 710341.
400 532.965 73.4319 710311.
30.5 122.0 415 532.979 73.4322 710294.
17.1 95.3 430 533.004 73.4340 710280.
14.1 82.3 445 533.043 73.4351 710237.
42.9 104.6 500 533.058 73.4344 710210.
26.6 105.0 515 533.065 73.4361 710218.
-7.9 82.2 530 533.087 73.4368 710195.
23.5 83.9 545 533.110 73.4383 710178.
16.2 81.5 600 533.136 73.4373 710135.
43.8 91.9 615 533.152 73.4376 710116.
18.1 90.0 630 533.160 73.4392 710120.
-3.9 80.4 645 533.195 73.4404 710087.
33.8 85.0 700 533.204 73.4405 710075.
12.0 82.1 715 533.227 73.4415 710053.
21.3 82.3.
f-730 533.238 73.4426 710051.
2.5 77.5 (3) 745 533.258 73.4439 710037.
14.0 76.1 FREE AIR VOLUME USED (CU. FT.)
=1910000.
REGRESSION LINE INTERCEPT (LBM)
= 710327.
SLOPE (LBM/HR)
-77.0
=
VERIFICATION TEST LEAKAGE RATE UPPER LIMIT =
.288 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT =
.188
.260 THE CALCULATED LEAKAGE RATE
=
bd H-2 L
fS ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT AIRMASS LBM X 1000 710.000 710.029 710.057 710.006 710.114 710.142 710.171 710.199 710.220 710.256 710.285 710.313 710.341
+...+
.+
.+
+_
__ +
+
.+
+
+ _
+..
345 :
+
400 1
+
'415 !
+
430 :
+
.445 !
+
500 1
+
515 !
+
530 1
+
545 t
+
600 1
+
'615 1
+
6M I
+
MS I
+
700 !
+
715 1
+-
730 1
+
745 e
+'
e
+
+
+
+
+
__+
+ _ _ +
+..
+ __.+.
710.000 710.029 710.057 710.086 710.!!4 710.142 710.171 710.199 710.228 710.256 710.285 710.313 710.341 O
1-
~
O
'f H-3
a ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT TEMPERATURE DEGREES F 73.268 73.295 73.321 73.348 73.375 73.401 73.428 73.455 73.481 73.508 73.534 73.561 73.588
+-.
--.+.- _ -+ - - + _.+
- +.. - - - - - + - - - - - + - - - - + - -.
+. - - - + -.
. + - -.. -. +
345 +
400 1
+
415 1
+
4M t
+
445 1
+
500 1
+
i 515 1
+
530 1
+
545 1
+
600 1
+
615 i
+
630 1
+
645 1
+
700 1
+
i 715 1
+
730 !
+
+
745 1 1
+
+ - - - - + -
- - +..
+ -.
- +
. +
. - - +.. - - -. + - -
+
. + - - -.. +
+
73.268 73.295 73.321 73.348 73.375 73.401 73.428 73.455 73.481 73.508 73.534 73.561 73.588 O
4 0
i.
a 1
- o H -4
.-,--,.--.,,,---,-,.,,--__.,,,n,-.,,,-,_,m.m_,-n,,.,,,g-,,-,,----,,-,,.,,-,,g.,,.,-,,-_,,.mwy,,,,
,--n-n-.--.n, p.
,. - -.,- -,m
r ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT PRESSURE PSIA 73.431 73.432 73.434 73.435 73.436 73.437 73.438 73.439 73.440' 73.441 73.442 73.443 73.444 345 +
400 l
+
415 I
+
430 1
+
445 1
+
5M I
+
515 1 -
- +
530 l
+
545
+
600 l
+
615 1
+
- 630 l
+
645 I
+
- 700 1
+
715 1
+
730 1
+
743 1
+
++
+
.+ _ _..+
+ _
73.431 73.432 73.434-73.435 73.436 73.437 73.438 73.439 73.440 73.441 73.442 73.443 73.444 O
t 4
I O
4 i
H-5
.-,--em--
e
,,6-.--
-,--,-,,--.---.e---,,-,,,,,mw,<<
.,--m n
m
,,,- w na,v-
-r,,--,w.--,-ww
,m,-----
., -,-,g,,-,,--w,--,,
e-www-,,e,---
,.,,,--.-n,
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT VAPOR PRESSURE PSIA s
.300
.301
.302
.303
.304
.305
.306
.306
-.307
.300
.309
.310
.311
.+.___
+
.+
+
.+
..+...
+
+--__.__+
.__+
..+_ __...+
345 1
+
400 1
+
415 1
+
430 1
+
445 1
+
500 1-
+
515 1
+
530 1
+
'545 1
+
600 1
+
615 1
+
630 1
+
645 1
+
700 1
+
715 1
+
730 !
+
745 1
+
+..
.+.__.
+
+.____..+
.+
_ +.....__+
+.. _. _ +.__.
+
.+
+
.300
.301
.302
.303
.304
.305
.306
.306
.307
.300
.309
.310
.311 O
O H-6 e
j]
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT V
MASS POINT LEAKAGE RATE (+)
AND UCL(%)
-.000
.034
.068
.103
.137
.171
.205
.240
.274
.308
.342
.376
.411
+..____. +..
+-
.+
+--__
.+ _
+ __ _ +-..____+ - - +_
+_.___ _.,
345 1 400 1 415 1 430 1
+
1 445 1
+
1 S21
+
1 515 1
+
1 530 l-
+
1 H51
+
1 600 1
~
+
1 i
615 i
+
1 i~
630 1
+
1 685 1
+
1 7M I
+
1 713 1
+ 1 7}01
+ 1 745 i e
+ 1
+ _.+.
+___ _.+.__...+ _..+ ___. _ +.__
+.
+
+
+
+.
.000
.034
.068
.103
.137
.171
.205
.240
.274
.308
.342
.376
.411
\\
O H-7
=
- ('
j*
ARKANSAS NUCLEAR ONE UNIT 1 1984 ILRT v
TOTAL TIME LEAKAGE RATE (+) AND UCL(%)
.M0
-.051
.101
.152
.203
.253
.304
.355
.405
.456
.507
.557
.H8
+
+. _
. +
_+
+
..+.--...+.
.+
+
+
+.____. +
345 1 400 1 415 1 430 1
+
1 445 I
+
1 500 1
+
1 515 1
+
1
. 5M I
+
1 545 l
+
1
- 600 1
+
1 615 I
+
1 6M I
+
1 H51
+
1 700 1
+
1 715 1
+
1 7M I
+
1 745 1
+
1
+
+
.+
.+.
+
.+
+
+
.+
+
+
.000
.051
.101
.152
.203
.253
.304
.355
.405
.456
.507
.557
.We i
s 4
e l
O H-8 L
APPENDIX I RESULTS OF LOCAL LEAKAGE RATE TESTS
SUMMARY
OF DATA FOR REFUELING OUTAGE #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 leakage reported for that penetration is equal to the measured local leakage of the isolation valve with the highest leakage rate.
For containment isolation valves tested simultaneouly (pressurizing between valves), the local leakage reported for that penetration is equal to the total local leakage measured.
TYPE C TESTS PENETRATION LEAK RATE (ACCM)
NUMBER SYSTEM "AS FOUND" "AS LEFT" 7B Sampling 7.32 36.16 9
Seal Water Return 80.65 35.46 l'[d D
11 Rad. Waste 1052.7 74.01 14 Rx. Coolant Letdown 50.45 50.45 19 Spent Fuel Cooling 12.07 12.07 24A,B
.H2 Purge Air System "A" 778.22 76.64 25 Air Particulate Monitoring System 0.0 0.0 39 Quench Tk. Fill 23.08 23.08 4
40 Fire Water 0.0 25.64 41 Nitrogen Supply
- 0. 0 0.0 47 CRD Cooling (ICW)
- 0. 0
- 0. 0 1
51 Chilled Water 75.90 75.90 52 RCP Cooling (ICW) 0.0 0.0 53A,B.
H2 Purge Air System "B" 117.10 175.09 54 Intermed. Cooling
- 0. 0 0.0 i
59 Chilled Water 35.05 53.48 I
60 Intermed. Cooling 0.0 13.97 62 Intermed. Cooling 76.99 151.5
[
68 RB Sump Drain 441.58 441.56 i
70 Quench Tk Drain 29.59 29.59 V-1 Purge Line Inlet 0.0 0.0 l
V-2 Purge Line Outlet 150.58 780.89 Total 2931.28 2055.51 i
i
- O j'
SU-077 I-1
l TYPE B TESTS PENETRATION LEAK RATE (ACCM)
NUMBER SYSTEM "AS FOUND" "AS LEFT" C-1 Equipment Hatch 0.0 37.50 C-2 Escape Lock 0.0 6.78 C-3 Fuel Transfer Tube 4
"7.76 160.00 C-4 Personnel Lock 0.0 24.05 All Electrical Cannisters
- 0. 0 0.0 Total 74.76 228.33 "AS FOUND" "AS LEFT" TOTAL OF TYPE B AND C PENETRATIONS TESTED 3006.04 2283.84 CONVERTED TO SCCM 15341 11653 ilO l
O SU-077 I-2
=
O ARKANSAS POWER & LIGHT COMPANY ARKANSAS NUCLEAR ONE
{
UNIT 1 LLRT DATA REFUELING OUTAGE f6 NOTE: ALL ELECTRICAL PENETRATIONS HAD ZERO LEAKAGE O
4
}
O SU-077 I-3
=,
4
< f)
.Q LLRT DATA TAKEN JUST PRIOR TO 12/17/84 ILRT PENET.
VALVE LEAKAGE (ACCM)
NUMBER NUMBER "AS FOUND" "AS LEFT" COMMENTS C-1 Equip. Hatch 0.0 37.50 "AS FOUND" value obtained from the "AS LEFT" following midcycle outage C-2 Inner Seal 0.0 6.78 All "AS FOUND" values for C-2 4
C-2 Outer Seal 0.0 0.0 obtained from latest C-2 Marrel Test 0.0 0.0 semi-annual test C-3 Fuel Transfer 74.76 160.0 "AS FOUND" value is the "AS Canal LEFT" value from 1R5 C-4 Inner Seal
- 0. 0 23.66 Inner and outer seal "AS C-4 Outer Seal 0.0 24.05 FOUND" values are those C-4 Barrel Test 0.0 0.0 recorded after building entry for ASPR shutdown on 8/10/84. Barrel "AS FOUND" was value noted in latest semi-annual test.
4 7B CV-1845 0.0 0.0 7B CV-1054' 7.32 36.16 9
CV-1274 8.70 35.46 9
CV-1270 16.86 0.0 9
CV-1271 0.0 0.0 9
CV-1272 80.65 0.0 9
CV-1273' O.0 0.0 11 CV-4804 74.01 74.01 11 CV-4803 1052.7 18.33 14 CV-1221 0.0 0.0 14 CV-1214 50.45 50.45 j
14 CV-1216 23.02 23.02 19 SF-42 0.0
- 0. 0 19 SF-43 12.07 12.07 19 SF-44 0.0 0.0 24 CV-7446 304.63 40.90 24 CV-7445 742.48 37.63
- ~
24 CV-7449, 7450 35.74 35.74 l
25 CV-7454 0.0 0.0 25 CV-7453 0.0 0.0 39 CV-1065 23.08 23.08 SU-077 I-4
f'
_r s Q
LLRT DATA TAKEN JUST PRIOR TO 12/17/84 ILRT (CONT'D)
PENET.
VALVE LEAKAGE (ACCM)
NUMBER NUMBER "AS FOUND" "AS LEFT" COMMENTS 40 CV-5612 0.0 25.64 40 CV-5611 0.0 0.0 41 CV-1667 0.0 0.0 47 CV-2235 0.0 0.0 49 ILRT Connection 0.0 "AS FOUND" value obtained from 1R5 "AS LEFT".
No current "AS LEFT" available since penetration in use for ILRT 75.9 75.9 51 CV-6202 0.0 0.0 52 CV-2284 0.0 0.0 53A CV-7443 60.81 56.89 53A CV-7444 15.34 15.34
- ()
53B CV-7447, 7448 56.29 118.20 V
54 Cv-2233 0.0 0.0 59 CV-6203 35.05 35.05 59 CV-6205 0.0 53.48 60 CV-2220 0.0 13.97 60 CV-2221
- 0. 0 0.0 62 CV-2214 0.0 0.0 62 CV-2215 76.99 151.5 l
68 CV-4446 39.6 "AS FOUND" data unavailable as CV-4446 actuator malfunc-tioned prior to test 68 CV-4400 441.58 441.58 70 CV-1052 29.59 29.59 70 CV-1053 0.0 0.0 V-1 CV-7402, 7404 0.0 0.0 "AS FOUND" value obtained from post 1984 mid-cycle outage data
)
V-2 CV-7401, 7403 150.58 780.89 "AS FOUND" value obtained from post 1984 mid-cycle outage data SU-077 I-5 i
i 1
4 1
I
\\
ARKANSAS POWER & LIGHT CO.
j ARKANSAS NUCLEAR ONE 1
UNIT 1 i
LLRT DATA REFUELING OUTAGE #5 NOTE: ALL ELECTRICAL PENETRATIONS HAD ZERO LEAKAGE t
1 l
l l
l 5
I i
(.
l l
l l
l i
SU-077 I-6
.. ~ _
LLRT DATA TAKEN FOR REFUELING OUTAGE i5 PENET.
VALVE LEAKAGE NUMBER NUMBER (ACCM)
COMMENTS C-1 Equip. Hatch 18.75 C Barrel Test 173.066 All C-2 values are from the latest Inner Seal
- 0. 0 semi-annual test (3/28/83)
Outer Seal 2.869 C-3 Fuel Transfer 74.76 Canal C-4 Barrel Test 0.0 All C-4 values are from the latest Inner Seal 0.0 semi-annual test (3/28/83)
Outer Seal 0.0 7B CV-1054, 1854 0.0 9
CV-1270, 1271, 0.0 1272, 1273, 1274 11 CV-4803, 4804 128.69 14 CV-1221, 1214, 9.48 1216 19 SG-42, 43, 44 212.79 24A CV-7445 28.46 24B CV-7449 17.93 25 CV-7453, 7454 0.0 39 CV-1065 0.0 40 CV-5611, 5612 6.22 41 CV-1667 31.99 43 SA-45 8.861 46 IA-52.
117.59 47 CV-2235 61.6 49 ILRT Conn.
0.0 SU-077 I-7
,~~
LLRT DATA TAKEN FOR REFUELING OUTAGE #5 (CONT'D)
PENET.
. VALVE LEAKAGE NUMBER NUMBER (ACCM)
COMMENTS 51 CV-6202 0.0 52 CV-2234 0.0 53A CV-7443 10.48 53B CV-7447 0.0 54 CV-2233 0.0 59 CV-6203, 6205 119.79 60 CV-2220, 2221 22.3 62-CV-2214, 2215 0.0 68 CV-4400, 4446 23.44 70 CV-1052, 1053 99.285 V-1 CV-7402, 7404 0.0 V-2 CV-7401, 7403 0.0 TOTAL 1168.351 accm i
converted to seem 5962.597 seem l
The total for all type B and C local leakage rates is 5962.597 seca. The i
acceptance criterion is that the above total be less than 224,000 seca (0.12%
per day, 60% of La). The total for refueling outage number 5 is within the acceptance criterion.
l l
l SU-077 I-8 L
.... ~ -.
... -.... - ~...
t
)
i i
ARKANSAS POWER & LIGHT CO.
ARKANSAS NUCLEAR ONE l'
t UNIT 1 f
I LLRT DATA l
MISCELLANEOUS FROM 3/2/81 TO 9/13/84 4
k 1
e 2
I i
f s
I I
h l
l t
i i
5 l
1 i
SU-077 I_9 h-
MISCELLANEOUS LLRT DATA - 1981 PENET. VALVE-LEAKAGE NUMBER NUMBER (ACCM)
DATE COMMENTS C-1 Equip. Hatch 24.28 3/2/81 22.9 7/24/81 15.29 8/28/81 C-2 Inner Seal 0.0 4/17/81
. Outer Seal 0.0 4/17/81 Barrel Seal.
0.0 6/23/81 Semi-annual test Inner Seal 0.0 6/22/81 Outer Seal 0.0 6/23/81 Barrel Seal 0.0 12/8/81 Semi-annual test Inner Seal 4.3 12/8/81 Outer Seal 0.0 12/8/81 C-4 Barrel Seal 0.0 3/13/81 Inner Seal 0.0 3/13/81 Outer Seal 0.0 3/13/81
~
Barrel' Seal 728.6 6/2/81 As found leakage, 4002.1.acca.
Semi-annual test.
Inner Seal 0.0 6/2/81 Flow test (semi-annual)
Outer Seal 0.0 6/2/81 Flow test (semi-annual)
Barrel Seal 0.0 12/16/81 Semi-annual test Inner Seal 0.0 12/16/81 Outer Seal 0.0 12/17/81 43 SA-45 11.734 4/25/81 Data for 1981 ILRT 46 IA-52 0.0 4/14/81 Data for 1981 ILRT Flow test 49 ILRT Conn.
6.66 3/5/81 12.96 7/25/81 8.68 8/28/8 V-1 CV-7402 and 0.0 3/10/81 As found leakage 750,000 acem CV-7404 186.0 7/25/81 0.0 8/28/81 e
V-2 CV-7401 and 186.72 3/10/81 CV-7403 212.0 7/25/81 0.0 8/28/81 SU-077 I-10 L-
k 4
MISCELLANEOUS LLRT DATA - 1982 PENET. VALVE LEAKAGE NUMBER NUMBER (ACCM)
DATE COMMENTS C-1 Equip. Hatch 18.48-5/1/82 0.0 8/13/82 l
C-2 Inner Seal 0.0 4/18/82 Replaced locking bolts outer Seal 0.0 4/18/82 Barrel Seal
- 0. 0 4/19/82 i
Inner Seal-0.0 7/22/82 Semi-annual test Barrel Seal 0.0 7/22/82 Outer Seal 0.0 7/22/82 i
C-4 Inner Seal.
0.0 7/29/82 Semi-annual test Barrel Seal 0.0 7/29/82 Outer Seal 0.0 7/29/82 P-24A CV-7445, 7446 173.182 4/29/82 SLBIC modification P-24B CV-7449, 7450 28.465 4/29/82 SLBIC Modification P-25 CV-7453, 7454 0.0 4/29/82
'SLBIC modification P-49 ILRT Conn.
0.0 4/29/82 0.0 6/8/82 PS3A CV-7443, 7444 7.097 4/29/82 SLBIC modification
- P-53B CV-7447, 7448 0.0 4/29/82 SLBIC modification V-1 CV-7402, 7404 0.0 5/1/82 0.0 6/6/82 0.0 8/14/82 v-2 CV-7401, 7403 0.0 5/1/82 0.0 6/6/82 0.0 8/14/82 O
SU-077-I-il
i MISCELLANEOUS LLRT DATA - 1983 PENET. VALVE LEAKAGE NUMBER NUMBER (ACCM)
DATE COMMENTS C-1 Equip. Hatch 18.23 5/26/83 C-2
. Inner Seal' O.0 3/28/83 Semi-annual test outer Seal 2.869 3/28/83 Barrel Seal 173.066 3/28/83 Inner Seal 0.0 6/20/83 Semi-annual test Outer Seal 1.63 6/20/83 Barrei Seal
- 0. 0 6/20/83 Inner Seal 0.0 12/16/83 Semi-annual test Outer Seal
- 0. 0 12/16/83 Barrel Seal 0.0 12/16/83 C-4 Inner Seal 0.0 3/28/83 Semi-annual test Outer Seal 0.0 3/28/83 Barrel Seal 0.0 3/28/83 Inner Seal.
0.0 7/24/83 Prior to heat up Outer Seal
- 0. 0 7/24/83 Inner Seal 0.0 8/1/83 Semi-annual test Outer Seal 0.0 8/1/83 Barrel Seal 0.0 8/1/83 Inner Seal 0.0 9/12/83 End of forced outage Outer Seal 0.0 9/12/83 E-1 N/A 0.0 5/10/83 Previous test invalid due to blockage E-53 N/A 0.0 1/21/83 Showed low readings E-54
-N/A 0.0 1/21/83 Showed low readings P-14 CV-1214 214.36 5/10/83 Previous test invalid due to blockage CV-1216
- 0. 0 5/10/83 Previous test invalid due to blockage O
SU-077 I-12
- (
MISCELLANEOUS LLRT DATA - 1983 (CONT'D)
PENET. VALVE LEAKAGE NUMBER NUMBER (ACCM)
DATE COMMENTS V-1 CV-7402, and 0.0 3/28/82 CV-7404 0.0 5/18/83 0.0 5/23/83 0.0 5/26/83 0.0 6/29/83 0.0 7/24/83 Prior to heat-up 0.0 9/12/83 End of forced outage V-2
-CV-7401 and 0.0 3/28/83 CV-7403 154.81 5/18/83 0.0 5/23/83 0.0 5/26/83 368.16 6/29/83 0.0 7/24/83 Prior to heat-up 0.0 9/12/83 End of forced ouage O
L O
SU-077 I-13 l
L
l MISCELLANEOUS LLRT DATA - 1984
,PENET. VALVE LEAKAGE NUMBER NUMBER (ACCM)
DATE COMMENTS C-1 Equip. Eatch
- 0. 0 4/7/84 Mid-cycle outage C-2 Inner Seal 0.0 1/31/84 Semi-annual test Outer Seal 0.0 1/31/84 Barrel Seal 0.0 1/31/84 Inner Seal 0.0 4/8/84 Outer Seal 0.0 4/8/84 Inner Seal 0.0 9/13/84 Semi-annual test Outer Seal 0.0 9/13/84 Barrel Seal
- 0. 0 9/13/84 E-53 N/A 0.0 4/17/84 Pressure low P-59 CV-6203 24.24 3/31/84 Post-maintenance V-1 CV-7402 and 0.0 4/9/84 Mid-cycle outage CV-7404 V-2 CV-7401 and 150.588 4/9/84 Mid-cycle outage CV-7403 f
l I
(
v 1
i i
SU-077 I-14 l
4 PERSONNEL HATCH (C-4) POST-ENTRY TEST - 1981 (All tests are flow type unless otherwise indicated)
LEAKAGE SEAL DATE (ACCM)
COMMENTS Inner 3/14/81 0.0 Pressure decay method Outer 3/14/81
- 0. 0 Pressure decay method 3/18/81 32.8 Seal not identified Inner 3/15/81 0.0 Outer 4/2/81 48.0 Inner 4/9/81 70.0 Outer 4/9/81 78.4 4/16/81 79.0 Seal not identified 4/17/81
- 0. 0 Seal not identified 4/18/81 7.2 Seal not identified O'
Inner 5/14/81 75.0 Outer 5/17/81 0.0 Inner 6/3/81 0.0 Outer 6/3/81 0.0 Inner 6/20/81 2.1 Outer 6/20/81 2.5 Inner 7/6/81 20.7 Outer 7/6/81 51.7 7/9/81 0.0 Seal not identified Inner 7/14/81 0.0 l
Outer 7/14/81
- 0. 0 l
l Inner 7/26/81 7.5 Outer 7/26/81 9.8 7/27/81 31.0 Seal Not identified Inner 7/28/81 11.6 Outer 7/28/81 9.4 I
Inner 8/3/81 0.0
-(
Outer 8/3/81 0.0 l
I SU-077 I-15 l
l
PERSONNEL HATCH (C-4) POST-ENTRY TEST - 1981 (CONT'D)
(All tests are flow type unless otherwise indicated)
LEAKAGE SEAL DATE (ACCM)
COMMENTS Inner 8/14/81 6.0 Outer 8/14/81 10.0 Inner 8/19/81
- 1. 9 Outer 8/19/81 7.8 Inner 8/29/81 0.0 Outer 8/29/81 0.0 As found leakage: 5.6 acem Inner 8/30/81 0.0 Outer 8/30/81 0.0 Inner 12/2/81 6.8 Outer 12/2/81 0.0 11/12/81 13.0 Seal not identified 11/30/81 0.0 Seal not identified Inner 12/3/81 10.0 Outer 12/3/81 0.0 A
i i
SU-077 I-16 t'
i A-()
PERSONNEL HATCH (C-4) POST-ENTRY TEST - 1982 (All tests are decay type unless otherwise indicated)
LEAKAGE SEAL DATE (ACCM)
COMMENTS 1/12/82 98.0 Flow test - Seal not identified 1/14/82 0.0 Flow test - Seal not identified 2/2/82 0.0 Flow test - Seal not identified 2/11/82 88.0 Flow test - Seal not identified Inner 5/4/82 0.0 Outer 5/4/82 0.0
-Inner 5/4/82
- 0. 0 Outer 5/4/82 0.0 Inner 5/6/82 0.0 Outer 5/6/82 0.0 Inner 5/21/82 0.0
()
Outer 5/21/82-0.0 Inner 5/21/82 0.0 Outer 5/21/82 0.0 Inner 6/8/82 0.0 Outer 6/8/82 0.0 Inner 6/9/82 0.0 Outer 6/9/82 0.0 Inner 6/10/82
- 0. 0 Outer 6/10/82 0.0 Inner 6/25/82
- 0. 0 Outer 6/25/82
- 0. 0 Inner 7/20/82
- 0. 0 Outer 7/20/82
- 0. 0 Inner 7/21/82 0.0 Outer 7/21/82 0.0 Inner 8/6/82 0.0 Outer 8/6/82
- 0. 0 Inner.
8/15/82 0.0 Outer 8/15/82 0.0 SU-077 I-17
i 7
l i
PERSONNEL HATCH (C-4) POST-ENTRY TEST - 1982 (CONT'D)
(All tests are decay type unless otherwise indicated)
LEAKAGE SEAL DATE (ACCM)
COMMENTS Inner 8/19/82 0.0 Outer 8/19/82 0.0
-Inner 8/23/82 0.0 Outer 8/23/82 0.0 Inner 9/15/82
~0.0 Outer 9/15/82 0.0 Inner 11/6/82 0.0 Outer 11/6/82 0.0
.lv l
l l'
O SU-077 I-18 l
A PERSONNEL HATCH (C-4) POST-ENTRY TEST - 1983 (All tests are decay type unless otherwise indicated)
LEAKAGE SEAL DATE (ACCM)
COMMENTS Inner 3/31/83 0.0 Outer 3/31/83 0.0 Inner 4/1/83 0.0 Outer 4/1/83 0.0 Inner 4/13/83 0.0 A total of 5 separate tests were Outer 4/13/83 0.0 performed on the job order given this date. All leakage rates were 0.0.
Inner 5/18/83 0.0 Outer 5/18/83 0.0 Inner' 5/19/83
- 0. 0 Outer 5/19/83 0.0 Inner 5/23/83 0.0 Outer 5/23/83 0.0 Inner 5/24/83 0.0 Outer 5/24/83 0.0 Inner 5/26/83 0.0 Outer 5/26/83 0.0 Inner 5/28/83 0.0 Outer 5/28/83 0.0 Inner 6/2/83 0.0 Outer 6/2/83 0.0 Inner 6/11/83 0.0 Outer 6/11/83 0.0 Inner 6/16/83 0.0 Outer 6/16/83 0.0 Inner 6/17/83 0.0 Outer 6/17/83 0.0 Inner 6/20/83 0.0 Outer 6/20/83 0.0 Inner 7/1/83 0.0 Outer 7/1/83 0.0 SU-077 I-19
.. -. ~....-- -.-- - - - -.--
y.
i PERSONNEL HATCH (C-4) POST-ENTRY TEST - 1983 (CONT'D)
(All tests are decay type unless otherwise indicated)
LEAKAGE SEAL DATE (ACCM)
COMMENTS Inner 7/1/83
.32568 Outer 7/1/83 0.0 Inner 7/25/83 0.0 Outer 7/25/83
- 1. 0 Inner 7/26/83 0.0 Outer 7/26/83 0.0 Inner 8/25/83 0.0 Outer 8/25/83 0.0 Inner 9/11/83 0.0 A total of 3 separate tests were Outer 9/11/83 0.0 performed on the job order given this date. All leakage rates were 0.0 Inner 9/12/83 0.0 Outer 9/12/83 0.0 Inner 9/13/83 0.0 Outer 9/13/83 0.0 Inner 9/24/83 0.0 Outer 9/24/83 0.0 Inner 9/25/83 0.0
-Outer 9/25/83 0.0 Inner-10/8/83 0.0 Outer 10/8/83 0.0
. Inner 10/12/83 0.0 Outer 10/12/83 0.0 Inner 10/29/83 0.0 A total of 3 separate tests were Outer 10/29/83 0.0 performed on the job order given this date. All leakage rates were 0.0.
O SU-077 I-20
l PERSONNEL HATCH (C-4) POST-ENTRY TEST - 1984 (All tests are decay type unless otherwise indicated)
LEAKAGE SEAL DATE (ACCM)
COMMENTS Inner ~
1/31/84 0.0 Outer 1/31/84
- 0. 0 -
Inner 4/10/84
- 0. 0 Outer 4/10/84 0.0 Inner 4/11/84
- 0. 0 Outer 4/11/84 0.0 Inner 4/11/84 0.0 Outer 4/11/84 0.0 l.
Inner
.5/7/84 0.0 Outer 5/7/84 0.0 Inner 5/9/84
- 0. 0 Outer-5/9/84 0.0 l
Inner 8/3/84
- 0. 0 l
Outer 8/3/84 0.0 Inner 8/11/84 0.0 Outer 8/11/84 0.0
' O SU-077 I-21
-. - -..