ML20102B240
| ML20102B240 | |
| Person / Time | |
|---|---|
| Site: | Vogtle  |
| Issue date: | 06/30/1992 |
| From: | GEORGIA POWER CO. |
| To: | |
| Shared Package | |
| ML20102B227 | List: |
| References | |
| NUDOCS 9207280278 | |
| Download: ML20102B240 (107) | |
Text
.-. ____ ___ - - -
O GEORGIA POWER-COMPANY-VOGTLE ELECTRIC' GENERATING PLANT UNIT 2-FIRST-PERIODIC-
-REACTOR CONTAINMENT-BUILDING-INTEGRATED LEAKAGE-RATE TEST ~
.3UNE'1992-FINAL REPORT
.i 1
4 Prepared. by:-
Southern-CompanyjServices,jInc.
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Af ey 9207280278 920720 PDR ADOCK 05000425-PDR=
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TABLE OF CONTENTS O
1.0 Introduction Page 1 2.0 Summary Page 2-3.0 Methodology Pagn 3 3.1 Leakage Rate Calculations Page 3 3.2 Test Measurements Page 3 4.0_ Test Procedure Page 5 4.1 Initial Conditions Page 5 4.2 Pressurization Page 6 4.3 Stabilization Page 6 4.4 Type A Test Page 6 4.5 Verification Page 7 4.6 Depressurization Page 7
' (~j) s 5.0 Results and Ar.alysis Page 8 5.1 Total Time Results Page 8 5.2 Verification Results Page 10 5.3 Mass' Point Results Page 11 6.0_ References Page 12 Tables and Figures -
Appendix I ILRT Computer Program Description Appendix II Type B and C Local' Leakage Rate Test Results Appendix III Instrument Calibration Summary-i Appendix IV' General Information
' Appendix V Test Data p) s._
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n:
I LIST OF'TArm3S p-D Table Title-
, 'l Dry-bulb and DewfPoint~ Temperature Sensor Locations
[ 2 Temperature-Stabilization 3 Data Summary a
! 4 Total Time Leakage Rate Report-1
) 5 Total Time Leakage Rate Report - Verification y
6 Mass Point Leakage RateLReport~
7 ' Mass Point Leakage Rate Report' -Verification f~ LIST OF' FIGURES.
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- Figure Title
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Temperature During Stabilization
~.. \-p) 2 Air Mass - Type A Test-3 Mean Temperature -; Type A Test -
L 4 Total Pressure-- Type-A Test .
5 Vapor Pressure'- Type =A-Test 6- ._ Total Time ILRT-Leakage Rate: Plot- .
7- - Air Mass -' Verification-8 Total' Time: Verification LeakageLRate-Plot -
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1.0 INTRODUCTION
pg The First Periodic Integrated Leakage Rate Test (ILRT) at'
(,) Georgia Power Company's Vogtle Electric Generating Plant (VEGP) Unit 2 was performed or. April 19-20, 1992. The ILRT was ,
performed as required by 10CFR50 Appendix J (Reference 1) and the Vogtle Final Safety Analysis Report (FSAR)J(Reference 4) to demonstrate that leakage through the containment bounoary doesinot exceed the VEGP Technical Specification (Reference 2) limit. The test was performed in accordance-with Procedure VEGP 28329-2 Revision 3 (Reference 3). The following documentation is retained at the site along with the official test copy of the procedure:
o systems status (lineup) o event log o instrumentation validation (calibrations, Instrument Selection Guide, etc.)
i o temperature' stabilization data o local leak rate tests o integrated leakage rate data o quality assurance.
o verification leakage rates i
A summary of general plant information as related to the Integrated Leakhge Rate Test is provided in Appendix IV.
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- 2. 0 SUF04ARY The First Periodic Integrated Leakage Rate Test for the VEGP
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Unit 2 centsinruent was successfully cospisted at 164 4C p.m.
(all times EST) on April 19, 1992. The duration of the-test was B.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> The varification test was. completed on April 20, 1992.
The results of the test follows-Leakage Rate (weight %/ day)
Total Time Analysis 95% Upper Confidence Limit (UCL) Total Acceptance 4
Time Leakage Rate- Limit (0.75 Lal 0.1377 0.1500 Extrapolated Total Time Acceptance Calculated Leakage Rato Limit (0.75 La)
< 0.0209 0.1500 73 Mean of Acceptance (s,) Measured , Limit (La - max Leakage allowable Rates leakage' rate) 0.0740 0.2000' Leakage penalties are added to the;above 95 percent total time leakage rate to account for penetrations-in nonstandard alignment and for water inventory char.ge. Total penalties amounted to a leakage of'O.0037 weight percent / day. This results in a final as-left leakage rate of 0.1410 weight percent / day,-which'is less than the acceptance limit of 0.1500 weight percent / day.
To determine the as-found leakage re.te, theLO 0097. weight percent / day minimum pathway-improvement made during the;1ocal leakage rate testing program is added to the 0.1410 weight percent / day as-left UCL. This results in a final as-found leakage rate of 0.1507 weight percent / day which is less than the acceptance limit of 0.2000 weight percent / day.
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i 3.0 METHODOLOGY g3 3.1 Leakage Rate Calculations
(_)
Test methods and procedures are specified in ANSI N45.4-1972 (Reference 6) and in BN-TOP-1 (Reference 7). ANSI N45.4 is cited in 10CFR50 Appendix J, and BN-TOP-1 is an alternative method acceptable to the USNBC.
Reference 7 describes the total time test which is used for Type A tests of a duration less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. Since the Type A test described in this report was less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, the total time calculations were used to determine leakage rate.
Reference 1 allows 0.sakage rate calculations to be performed using the mass point method defined in ANSI /ANS 56.8-1987 (Reference 5). The' Typo A tect must have a duration of at least 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to use this methodology per keference 1. Mass point results are provided in this report for information only.
Data from the instrumented containment is reduced by direct application of the ideal gas. law, PV = w RT, to calculate air mass at each data point. The changeLin air mass provides information to develop the leakage rate.
The. total time data analysis technique is based.on the premise that the leakage rate varies linearly with time. A measured leakage rate is calculated as the initial air mass minus
(~)
tj current air mass divided by' current time minus initial'timo. A straight line is then fitted to the measured rate versus time data. The. calculated leakage rate is defined as-the ordinate of this line at-the end of the test.
The total time test-has three acceptance criteria. First, the end-of-test leakage rate 95 percent UCL must be lass than the accaptance leakage rate (0.75 La)..Second, the calculated leakage rate extrapolated to a 24-hour test duration must be less.than the acceptance leakags rate (0.75-La). Third, the mean of the measured leakage rates over the final 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> of the test must be less than the maximum allowable leakage rate (La).
3.2 Test Heasurements Thirty dry-bulb and six dew point temperature-sensors located inside containment were used to collect:information for.
leakage rate calculations. These-wereflocated at approximately equally spaced elevations representing horizontally sliced volume-fractions. Sensor locations and' volume fractions (Table
- 1) were established by considering temperature / dew point distributions and.the containment free volume.
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Since both dry-bulb and dew point temperatures tend to exhibit a vertical stratification at the completion of pressurization
(~) and throughout the. test, sensors were set at approximately
\> equally spaced elevations. The volume associated _with each sensor was taken as a horizontal slice through the containment with the sensor at its approximate vertical centroid. The possibility of an unusual in-plane temperature distribution esa accounted for by arranging sensors in a spiral cc. figuration. The bearing of each sensor was advanced approximately 90 degrees (dry-bulb) or 180 degrees (dew point) from that of the sensor above it. Above the refueling floor, the radius was set such that one-half of the horizontal slice area was inside the spiral surface and the other half outside.
Below the refuel floor, sensors were positioned about midway between the secondary shield and-the liner. One dry-bulb sensor was suspended in the refuel cavity. Sensors above the refuel floor were suspended from spray rings and structural steel. Those below the refuel floor were suspanded from grating, piping, and structural steel.
Dry-bulb temperatures were measured using 100-Ohm platinum resistance temperature detectors (RTDs). Dew point temperatures were measured using optical chilled mirror dew point hygrometers. Those devices use a oirect-measuring sensor
) automatically held at the dew point temperature by an optical 4
system. This technique is a primary measurement of the water h vapor content of the air. The mirror temperature represents the true dew point temperature and is measured by an imbedded
(} precision platinum resistance thermometer.
Absolute pressure was measured using a vibrating cylinder element sensor connected through tubing to.a containment penetration. The change in pressure during an ILRT is quite small relative to the absolute pressure. The pressure dev3ce used has an accuracy of +/- 0.015 percent RDG, +/- 0.002 percent Full Scale and a repeatability of +/- 0.001 percent Full Scale.
1 A data logger was used to collect data at 15-minute intervals.
Information from the RTDs, deu point sensors, and pressure indicators was transferred from the data logger.to the ILRT computer for analysis. The data system ganerated a printed tape record of each data set transmitted to the computer.
The ILRT computer was an IBM PC compatible. A. compiled Basic
- program as described in Appendix I was run on the computer.
The imposed leakage rate for the verification test was measured using a float type flowmeter.
All instrumentation was calibrated prior to the ILRT.
Instrumentation characteristics and calibration information 1:
summarized in Appendix III. Calibration documents are included
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\_ with the official test copy of the procedure.
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4.0 TEST PROCEDURE A
'(_) 4.1 Initial Conditions A general inspection of the accessible interior and exterior surfaces of the containment ouilding was performed prior to the ILRT. No repairs or adjustments were made to the containment after initiation of the inspection so that the building could be tested as close as practical to the "as is" condition. All Type B an C local leak rate tests (Appendix II) were completed prior to the inspection. The inspection uncovered no evidence of structural deterioration which would affect the containment structural integrity or leak-tightness.
Plant systems were aligned for the ILRT as specified in the plant procedure. Isolation valves, except those in systems required to maintain the plant in a safe condition and those systems used to conduct the ILRT, were set as close as possible to post-LOCA positions specified in the FSAR. Any valves deviating from-FSAR positions are listed and justified in the ILRT proccure.
For those systems or penetrations that were in service or isolated during the test, a penalty addition m 4.a 5e made to the Type A test results. The penalty addition is ttw sum of the minimum pathway leakages for those penetrations. Penalties were-added for the following nonstandard alignments:
penetrations 31, 49, 68, 87 and the pressurization header.
Piping was vented and drained to expose valve seats per post-LOCA scenarios. All sources of gas at pressures above containment test pressure were isolated or vented to prevent leakage into the containment during the ILRT.
A temperature / dew point survey was performed, with fans off, to confirm the placement locations of the sensors. An in-situ test on the sensors was performed to demonstrate the proper functioning of the sensors and the data collection system.
Resistance *emperature detector (RTD);in-situ tests.were donc using an ita bath (32 degrees ?) and verifying that temperature at the data system. Dew point-in-situ. tests were done using a calibrated dew point instrument . (spare dew cell) to measure dew point-temperature at each.nensor and comparing-the results with dew point temperature at the data system. The survey showed that all instruments were operating within the required degree of accuracy.
The official test copy of the procedure documents the completion of the prerequisites for the. test, including all exceptions to specified conditions.
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4.2 Pressurization e The containment was pressurized using oil free compressors (3
,J discharging through an after cooler / moisture separator and refrigerated air dryer. Twelve 1500-SCFM compressors were used. Compressor discharge to containment was routed through temporary piping to containment petotrations 68 and 87. Start-of pressurization occurred at 10:*9 a p.m. on April 18, 1992.
Pressurization was terminated when containment pressure reached 45.9 peig at 9:45 a.m. on April 19, 1992. This allowed a 0.9-psi margin for pressure drop to ensure the gage pressure would be at or above the 45-psig minimum pressure required for the test. Containment atmospheric condition data was recorded at 15-minute u.tervals.
4.3 Stabiliza* ion.
Upon reaching ILkT test pressure, the containment was allowed {
to stabilize. Containment conditions were recorded at 9 15-minute intervals. Stabilization criteria were met at 2:00-p.m. on April 19, 1992. (See Table 2.) Actual change rates and maximum allowable change rates are listed below:
Rate Actual Maximum Allowable .
Rate of change of average dT = -0.469 1.0 degree temperature is less than 1.0 (-0.469<1.0) degree F/ hour averaged over g-) the last 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> LJ .,
Rate of change of temperature d(dT) = 0.089 0.5 degrees changes less than 0.5 degrees (0.089<0.5)
F/ hour / hour averaged over the last 2-hours Rate of change of temperature dT1 = -0.411 0.5 degrees averaged over the last' hour dT4 = -0.804 (0.393<0.5) does not deviate by more than 0.5 degrees F/ hour from the dT1 - dT4 =
average rate of change over 0.393 the last 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> 1 containment temperature stabilization dhta is shown graphically in Figure 1.
4.4 Type A Test Upon meeting the stabilization criteria, start of the Type A test was declared. The Type A test was started at 2:00 p.m. on April 19, 1992. Containment conditions were recorded at 15-minute intervals. The test was successfully concluded at 10:45 p.m. on April 19, 1992. Results of the test are recorded in section 5.1 of this report.
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4.5 Verification g Following completion of the Type A test, a 14.88-SCFM
(_) verification leak was imposed, which is between the limits of 0.75 La and 1.25 La specified in Reference 7. This flow was calculated using the flowmeter calibration point closest to La, containment free air volume, and containment temperature and pressure at the end of the Type A test. Containment atmospheric conditions were allowed to stabilize for-1 hour.
The verification test was then started at 12:00 midnight on April 30, 1992, and successfully comploted at 4:30 a.m.-on April 20, 1992. Results of the cast are recorded in section 5.2.
Table 3 provides a summary of data collected during the stabilization, the Type A test, and the verification as discussed in sections 4.3, 4.4, and 4.S.
4.6 Depressurization containment depressurization was started at 4:48 a.m. on April 20, 1992, at a rate of no'more than 10 psi per-hour.
Depressuritation was completed at 11:50 a.m. on April 20, 1992. Containment and other plant systems modified for the ILRT were restored to normal plant operation configuration following depressurization.
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5.0 RESULTS AND ANALYSIS 5.1 Total Time Reculta The end-of-test leakage rate was within the three acceptance
' criteria stated in References 2 and 3. The end-of-test leakage rate values and acceptance limits are listed below.
Leakage Rate (weight %/ day)
Total Time Analysis 95% UCL on Total Accentance Time Leakage Rate Limit'(0.75 La) 0.1373 0.1500 Extrapolated Total Time Acceptance Calculated Leakage Rate Limit (0.75 La)
< 0.0209 0.1500-Mean of Acceptance Measured Limit-(La - max Leakage allowable
/ Rates leakage rate) 0.0740 0.2000 Penalty additions and corrections must be applied'to account for nonstandard alignment of valves and water _ level changes.
Penalty additions are the sum of the minimum pathway leakages determined for those penetrations which were not in a normal post-LOCA position. A summary of these penetrations and their contribution to the penalty addition are-presented below.
Penetration Description As-left leakage (SCCM) 49 Seal Leakoff & Excess Letdown 74.4 68 ILRT Pressurization'Line 6.0 87 ILRT Pressurization Line 6.0 31 Spare Electrical Penetration 0.0 e -
Pressurization Header 7108.0-Total leakage (SCCM) 7194.4 Total leakage (weight percent / day) 0.00334
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The penalty addition associated with the pressurization header is the result of an incorrect valve line-up on the header. The (s
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- leakage recorded is a conservative calculation of the effect cf this incorrect line-up. The calculation and its documentation are in the official test copy of the plant procedure.
A water inventory correction to account for the increase in sump water level has been calculated. The calculation and its documentation are in the official test copy of the plant procedure. The water inventory correction is 0.00036 weight percent / day.
The VEGP Technical Specifications specify a maximum allowable leakage rate of 0.200 weight percent / day. In addition, the VEGP Technical Specifications require an as-left leakage rate of less than 75 percent of the maximum allowable rate. This is to allow a margin for-deterioration of the leakage boundary. Tne 95 percent UCL leakage rate, penalty addition, final as-left leakage rate, and acceptance limit are listed-below:
95% UCL Leakage Rate 0.1373 weight percent / day Penalty Addition 0.00334 weight percent / day Water Inventory Correction 0.00036 weight percent / day Final As-Left Laakage Rate 0.1410 weight percent / day
() Acceptance Limit-(0.75 La) 0.1500 weight percent / day Table 4 lists air mass and leakage rates (measured, calculated, and UCL) . The extrapolated rate is determined by extrapolating the final 21 calculated leakage rates-out to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. These final 21 points show a falling trend. The extrapolated rate is less than 0.0209 weight percent / day which is less than 0.1500 weight percent / day.~The mean of-the measured rates is 0.0740, weight percent / day which is less-than 0.2000 Weight percent / day.
Figures 2 through 6 present a graphic demonstration of'the data collected during the Type A test. The air mass plot (Figure 2) shows lines whose slopes represent leakage rates. A 3 east squares fit line'is plotted through the actual test data which must-lie above a line representing the acceptance limit.
As seen in the graph, the-actual leakage rate was less than the allowable rate. The temperature plot (Figure'3)_shows the weighted average dry-bulb temperature of the containment air-mass. The total temperature change was 1.988 degrees F over the 8.75-hour test period. The pressure' plot (Figure 4) shows the containment total pressure and~a total change of 0.225 psi. The vapor pressure plot (Figure 5)-shows a-total change in vapor pressure of 0.0054 psi. Figure 6 shows a plot of total time leakage rate data from Table 4. The leakage rate
(~1 UCL must be below a line representing the acceptance limit. As
seen from the graph, the UCL is below the allowable 13-it.
page 9 of 12
l The as-found leakage rate is calculated by adding the as-left leakage rate to the penetration minimum pathway improvements f' made-during the local leakage rate testing program. The l-} minimum pathway improvements and calculated as-found UCL leakage. rate are listed belet.
Minimum Pathway Leakage Penetration As-found As-left 23 220 SCCM 72.3 SCCM 36 661 SCCM 62.3 SCCM 38 433- SCCM 232 .SCCM 39 245 SCCM 84.5 SCCM 40 10930 SCCM- 399 SCCM-49 74.4 SCCM 11.9 SCCM 50 19.4'SCCM 1.2 SCCM 77 57.6 SCCM 50.5 SCCM 80 5460 SCCM 340 SCCM 81 3850 SCCM 27 SCCM 83 310 SCCM 38.4 SCCM 90 10.6 SCCM 10.5 SCCM i 100 64.7 SCCM 50.8 SCCM EH 13.9 SCCM 11.1 SCCM Sum 22349.6 SCCM- 1391.5 SCCM Minimum pathway improvement = 22349.6-1391.5 = 20958.1 SCCM f')
s-
= 0.0097 weight percent / day As-Left Leakage Rate 0.1410 weight percent / day Minimum Pathway Improvement 0.0097 weight percent / day
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Final As-Found Leakage Rate 0.1507 weight percent / day Acceptance Limit (La) 0.2000 weight percent / day 5.2 Verification Results-The verification test introduced an additional' leak of 14.88 SCFM. Verification test results are listed in Table 5 and graphed in Figures 7 and 8. The results of the~
verification are-acceptable-if.the leakage rate calculated ,
after imposition of the-additional leak falls within the limits of Lam + Lo +/- 0.25 La (which satisfies VEGP Techinical Specification 4.6.1.2.c), where Lam is the previously calculated. leakage rate, Lo is-the imposed leakage, and La'is the maximum allowable leakage rate. The-final results and acceptance limits are listed below:
Upper Limit Rate 0.2665 weight percent / day Total Time Calculated Rate .0.2185 weight percent / day Lower Limit Rate 0.1665 weight percent / day 0
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i i 5.3-Mass Point Results e-A'
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Mass point results are includedTfor information purposes in Tables-6 and'7.-The mass-point-calculated-rate is the_ slope of.
the line fitted-.to the-air mass / time data _-by the method of' least squares. The calculated-mass point leakage rate-is 0.0394 weight percent / day.-The mass, point:UCL is:0.0473 weight..
- percent / day < 0.1500 weight percent / day. Details on,the mass:
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point method'are found in
Reference:
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6.0 REFERENCES
.. -1. Code ofiFederal Regulations,. Title _10, Part 50, Appendix J, V Reactor Containment Leakage Testing-for Water Cooled Power t
Reactors.
- 2. Vogtle Electric Generating Plant, Units 1.and 2, Technical specifications. ,
3..Vogtle Electric Generating Plant, Procedure No. VEGP :28329 -
2 Revision 3,- Containment Integrated Leak Rate Surveillance Test.
- 4. Vogtle Electric Generating Plant Units 1 and 2, Final 4 -Safety Analysis Report.
i-
- 5. ANSI /ANS 56.8-1987, ' Containmont System Leakage Testing.
Requirements.
<6 . ANSI N45.4-1972, Leakage RateLTesting of Containment- '
._ Structures for Nuclear Reactors.
- 7. Bechtel Topical Report BN-TOP-1,fTesting CriteriaE7or Integrated Leakage Rate Testing >of Primary. Containment' Structures for Nuclear : Power: Plants,- Revision 1, :1972.=
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O TABLES AND' FIGURES O
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TABLE 1 DRYBULB AND DEW POINT TEMPERATURE SENSOR LOCATIONS DRYBULB SENSORS Sensor Elevation Azimuth Distance From Volume Number _.; feet) (degrees) Ctr of Ctat (ft) Fractions 1 387 135 24 0.018 2 377 225 24 0.026 3 368 315 24 0.032 4 359 45 24 0.037 5 351 180 49 0.038-6 343 270 49 0.039 7 336- 0 49 0.037 8 329 90 49 0.037 9 322 180 49 0.038 10 315 270 49 0.038 11 308 0 49 0.038.
12 301 90 49 0.038 13 294 183 49 0.038 14 287 270 49 0.038 15 280 0 49 0.038 16 273 90 49 0.038 17 266 180 49 0.037 O 18 259 270 49 0.036 b 19 20 252 245 0
90 49 49 0.034 0.033 21 238 180 49' O.033 22 231 270 49 0.033 1 23 224 0 49 0.036 l 24 202 270 12 0.017 25 216 180 58 0.022 26 208 285 60 0.029 27 200 0 59 0.029 28 192 90 63 0.029 29 184~ 195 60 0.029 30 176 310 62 0.035 1.000 DEW POINT SENSORS 1 368 225 24 0.151 2 329 0 49 0.189
- 3. 294 90 49 0.190 4 259 180. 48 0.178 5 227 0 60 0;119 6 -196 195 59 0.173.
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TABLE 2 TEMPERATURE STADILIZATION REPORT
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Start Time = 1000 4/J9/92
- = stabilization criterion satisfied data elapsed temp. dT1 dT4 dT1-dT4 dT d(dT) cet time,hr dog F avg dT avg dT avg avg (1 hr) (4 hr) (2 hr) (2 hr) 1 0.00 87.030 2 0.25 86.490 ,
3 0.50 86.092 4 0.75 85.771 5 1.00 85.504 -1.527 a 1.25 85.279 -1.211 7 1.50 85.084 -1.008 8 1.75 85.911 -0.860 9 2.00 84.751 -0.753 -1.140 0.760 10 2.25 84.611 -0.669 -0.940* 0.514 11 2.50- 84.474 -0.611 -0.809* 0.369* ;
12 2.75 84.347 -0.564 -0.712* 0.281*
13 3.00 84.225 -0.526 -0.640* 0.204* ;
14 3.25 84.116 -0.494 -0.581* 0.173*
15 3.50 84.012 -0.462 -0.536* 0.137*
16 3.75 83.910 -0.437 -0.501* 0.117*
17 4.00 83.813 -0.411 -0.804 0.393* -0.469* 0.089*
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TABLE 3 (STABILIZATION)
DATA
SUMMARY
REPORT data time date temparature pressure vapor dry air set dog F psia pressure mass psia lbm 1 1000 419- 87.0303 60.4154 0.4450 814232.46 2 1015 419 86.4899 60.3634 0.4442 814341.87 3 1070 419 86.0924 60.3235 0.4450 814381.54 4 1045 419 85.7710 60.2913 0.4439 814417.92 5 1100 419 85.5037 60.2643 0.4458 8144,4.61 6 1115 419 85.2792 60.2407 0.446S 814448.73 7 1130 419 85.0844 60.2198 0.4467 814452.64 8 1145 419 84.9113 60.2011 0.4478 814441.77 9 1200 419 84.7510 60.1839 0.4485 814437.82 10 1215 419 84.6105 60.1681 0.4494 814420.42 11 1230 419 84.4738 60.1533 0.4497 814418.45 12 1245 419 84.3469 60.1395 0.4500 814415.97 13 1300 419 84.2246 60.1265 0.4513 814404.14-14 1315 419 84.1162 60.1140 0.4523 814381.86 15 1330 419 84.0115 60.1022 0.4526 814373.39 16 1345 419 83.9095 60.0911 0.4534 814363.74 17 1400 419 83.8135 60.0803 0.4539 814353.67 O
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TABLE 3 '
(TYPE A TEST)
DATA
SUMMARY
REPORT data time date temperature pressure vapor dry air set dog F psia pressure mass psia lbm 1 1400 419 83.8135 60.0803 0.4539 814353.67 2 1415 419 83.7264 60.0701 0.4560 814315.60 3 1430 419 -83.6367 60.0603 0.4540 814343.99 4 1445 419 83.5558 60.0508 0.4580 814280.25 5 1500 419 83.4621 60.0418 0.4580 814298.31 6 1515 419 83.3985 60.0328 0.4581 814269.47 7 1530 419 93.3209 60.0243 0.4586 814262.57 8 1545 419 83.2473 60.0139 0.4588 -814255.68 9 1600 419 83.1817 60.0079 0.4595 814235.07 10 1615 419 83.1138 60.0000 0.4596 814227.69 11 1630 419 83.0532 59.9927 0.4597 814217.01 12 1645 419 82.9878 59.9857 0.4595 814221.47 13 2700 419 82.9296 59.9790 0.4599 814211.94 14 1715 419 82.8739 59.9724 0.4605 814197.33 15 1730 419 82.8071 59.9664 0.4602 814219.96 16 1745 419 82.7520 59.9602 0.4599 814221.03 814209.47 17 1800 419 82.7030 59.9542 0.4602 18 1815 419 82.6519 59.9484- 0.4597 814212.37 19 1830 419 82.6038 59.9428 0.4595 814211.23 20 1845 419 82.5480 59.9372 0.4590- 814225.03 21 1900 419 82.5000 39.9321 0.4598 814217.22
\- 22 1915 419 82.4574 59.9269 0.4597 814210.69 23 1930 -419 82.4104 59.9217 0.4595 814213.46 24 1945 419 82.3674 59.9165 0.4596 814204.87 25 2000 419 82.3246 59.9114 0.4596 814199.54 26 2015 419 82.2775 59.9066 0.4593 814208.54 27 2030 419 82.2272 59.9008 0.4595 814201.46 28 2045 419 84.1736 59.8948 0.4595 814200.31 29 2100 419 82.1230 59.8891 0.4599 814193.42 30 2115 419 82.0731 59.8836 0.4593 814201.02 31 2130 419 82.0300 59.8784 0.4596- 814189.79 32 2145 419 81.9874 59.8735 0.4590 814194.99 33 2200 419 81.9373 59.8689 0.4594 814201.29 34 2215 419 81.0992 59.8643 0.4593 814197.51-35 2230 419 81.8630 59.8597 0.4595 814186.92 36 2245 419 81.8255 59.8553 - 0.4593 814184.63
/- .
k t
TABLE 3 (VERIFICATION)
DATA
SUMMARY
REPORT data time date temperatura pressure vapor dry air pressure set dog F psia mass 3
psia lbm 1 0 420 81.6413 59.82b9 0.4589 814105.24
- 2 15 420 81.6074 59.8238 0.4584 814093.86 3 30 420 81.5766 59.8187 0.4585 814068.69 4 4 45 420 81.5497 59.8137 0.4583 814043.27 ,
5 100 420 81.5168 59.8089 0.4581 814030.12 6 115 420 81.4826 59.8043 0.4581 814018.14 7 130 420 81.4544 59.7995- 0.4578 813997.85 8 145 420 81.4240 59.7945- 0.4578 813976.01 9 200 420' 81.3974 59.7902 0.4574 -813961.94 10 215 420 81.3690 59.7859- 0.4575 813944.55 11 230 420 81.3379 59.7813 0.4575 813928.88 12 245 420 81.3145 59.7770 0.4574 813905.76 13 300 420 81.2866 59.7726 0.4572 813890.35 14 315 420 81.2612 59.7680 0.4566 813872.82 15 330 420 81.2394 59.7636 0.4566 813846.36 16 345 420 81.2115 59.7593 0.4566 813828.96 17 400 420 81.1856 59.7546- 0.4558 813814.86 10 415 420 81.1592 59.7506 0.4558 813799.70 19 430 420 81.1318 59.7460 0.4554 813782.72 t
O
a
!' TABLE 4 l TOTAL TIME LEAKAGE RATE REPORT i
- data time date elapsed dry air measured leakage UCL h set tino mass rate rate rate j (hrs) (1bm) (%/ day).(%/ day) (%/ day)
) 1 1400 419 0.00 814353.67 0.0000 ' O.0000 0.0000 2 1415 419 0.25 814315.60 0.4488 0.4488 0.4488
. 3 1430 419 0.50 - 814343.99 0.0571 0.0571 0.0571 4 - 1445 419 0.75 814280.25 0.2885 0.1846 2.6494 5 1500 419 1.00 814298.31 0.1632 0.1456 1.0562 6 1515 419 1.25 814269.47 0.1985- 0.1523 . 0.7491 I
7 1530 419 1.50 814262.57 0.1790 0.1475 - 0.6032 ,
4 8 1545 419 1.75 814255.68 0.1650 0.1396 0.5156- ]
9 1600 419 2.00 814235.07 0.1748 0.1397 0.4668 !
^
10 1615- 419- 2.25' 814227.69 0.1650 0.1369- 0.4284 i 11 1630 419 2.50 814217.01 0.1611 0.1342 _0.3992 !
12 1345 419 2.75 814221.47 0.1417 0.1266 0.3699 13 1700 419 3.00 814211.94' O.1392 0.1207 0.3468 _;
-14 1715 419 3.25 814197.33- 0.1418 0.1173 0.3298 f 15 1730 419 3.50 814219.96- 0.1126 - 0.1076 0.3076- l 16_ 1745 419 3.75 814221.03 0.10421 0.0982 0.2876 (
17 1800 419 4.00 814209.47 0.1062 0.0914' O.2720 I 18 1815 419 4.25 814212.37 - 0.0980 0.0844 0.2572-19 1830 419. 4.50- 814211.23_ 0.0933 . 0.0780 0.2439 20 1845 419 4.75' 814225.03 0.0798. ' O.0703 0.2300 0 21 22 23 1900 1915 1930 419 419 419 5.00 5.25 5.50 814217.22 : 0.0804 814210.69 0.0803' 814213.46: 0.0751 0.0642-
. 0.0592 0.0542-0.2184 0.2087 0.1995-24 1945 419: 5.75- 814204.87 0.0763 0.0504- . 0.1919 25 2000- 419 6.00 814199.54 0.0757 0.0471 0.1855-26 2015 419 6.25 814208.54' 0.0684> - 0.0433 0.1785 >
27 2030 419 6.50 - 814201.46 _0.0690c 0.0402 0.1727 j 28 2045- 419 -6.75 814200.31- 0.0670- . 0.0374- 0.1674 ;
29 2100. 419 7.00 814193.42 0.0675 0.0350- 0.1629 30 2115 419 7.25 S14201.02: 0.0621- 0.0324: 0.1581 ;
31- .2130 419 7.50- 814189.79- 0.0644 0.0304 0.1544 l
- 32 2145 -419 7.75- 814194.99 0.0603 0.0283 0.1504 1
- 33 2200 - 419 - 8.00 814201.29. 0.0561- 0.0259 0.1464 .
34 2215 :
419. 8.25 814197'51 0.0558
. 0.0239 0.3427. .
- 35. 2230- 419 8.50' 814186.92' O.0578 0.0223 - 0.1399:
36' 2245 - 419 8.75- .--
814184.63 l0.0569 0.0209. - 0.1373 ;
1 Allowable-leakageirate,;La =- 0.2000 %/ day.
75%fLa. .
= 0.1500'%/dayL ,
Total:tima leakage rate- ' = 0.0209;%/ day =
Total time--UCL7 E= 0.1373-4/ day
- ~
-g+ ey me- p- g g y a-- .m.
9g rg. -a.wg-y=g,y=-' ghM e g.. d.qAye , g 4 <- ---
9yg y y .gr n. ,y gg.ap.9ya ,J 9 p. R " e=F.u9w. 9 h er y g. <gnips, g .ui--4w
TABLE 5 TOTAL TIME LEAKAGE RATE REPORT !
VERIFICATION data time dato elapsed dry air measured leakago l set time mass rate rate I (hrs) (1bm) (%/ day) (%/ day) 1 0 420 0.00 814105.24 0.0000 0.0000 2 15 420 0.25 814093.86 0.1342 0.1342 1 3 30 420 0.50 814068.69 0.2155 0.2155 i 4 45 420 0.75 814043.27 0.2436 0.2524 l 5 100 420 1.00 814030.12 0.2215 0.2472 ,
6 115 420 1.25 814018.14 0.2054 0.2337 )
7 130 420 1.50 813997.85 0.2111 0.2289 q 8 145 420 1.75 813976.01 0.2177 0.2288 l 9 200 420- 2.00 813961.94 .0.2112 0.2257 l 10 215 420 2.25 813944.55 0.2105 0.2232 11 230 420 2.50 813928.88 0.2080 0.2205 I 12 245 420 2.75 813905.76- 0.2138 0.2203 13 300 420 3.00 -813890.35 0.2112 0.2193-14 315 420 3.25 813872.82 0.2108 0-?,183 15 330 420 3.50 813846.36 0.2181 0.2194 16 345 420 3.75 813828.96 0.2172 0.2201 17 400 420 -4.00 813814.86. 0.2140 0.2198 18 415 420 4.25 813799.70 0.2119 0.2191 19 430 420 4.50 813782.72 0.2113 0.2184 Upper limit on leakage rate = '0.2665 %/ day Mass point leakage rate = 0.2184 %/ day ,
Lower limit on leakage rate = 0.1665 %/ day
.- ~_- , . .- -. .~ . - - - - . - - - - -.. -. -. _ - . - - - . .- -
t TABLE 6
- i MASS POINT LEAKAGE RATE REPORT data time date elapsed - dry air leakage UCL
- set time mass rate rato !
(hrs) (1bm) (%/ day) (%/ day) 1 1400 419 0.00 814353.67 0.0000 0.0000 2 1415 419 0.25 814315.60 0.4488 0.4428 i 3 1430 419 0.50 814343.99- 0.0571 1.9926 4 1445 419 0.75 814280.25 0.2262 0.6399 1 5 1500 419 1.00 814298.31 0.1722 0.3769 6 1515 419 1.25 814269.47- 0.1807 0.3025- .
7 1530 419 1.50 814262.57 0.1731 0.2550 I 8 1545 419 1.75 814255.68 0.1623 0.2224 9 1600 419 2.00 814235.07 0.1626 ~0.2080 10 1615 419 2.25 814227.69 0.1587 0.1945 a 11 1630 419 2.50 814217.01 0.1550 .1841 12' 1345 419 -2.75 814221.47 0.1449 0.1711' 13 1700 419 3.00 814211.94 0.1378 0.1609-14 1715 419 3.25 814197.33 0.1342 0.1542.
15 1730 419 3.50 814219.96 0.1219 0.1432 j 16 1745 419 3.75 814221.03 0.1107 0.1325:
17- 1800 419 4.00 814209.47 0.1035- 0.1240- +
18- 1815 419 4.25 814212.37 0.0961 0.1157-19 1830 419 4.50 814211.23' O.0894 0.1083 20 1845 419 4.75 814225.03 0.0810 0.0998 !
O 21 22 23.
1900 1915 1930 419 419 419 5.00 5.25 5.50 814217.22 814210.69 814213.46' 0.0749 0.0703 0.0657 0.0929 0.0872 0.0818 24 1945 419 5.75 814204.87 0.0625 0.0776 25 2000 419 6.00 814199.54 0.0601 -0.0741 '
26 2015 419 6.25 814208.54 0.0567 0.0701 27 2030 419 6.50 814201.46: 0.0542 0.0668 28 2045 419 6.75. .814200.31 0.0520 0.0638-29 2100 419 7.00 814193.42 -0.0504 0.0615 30' '2115 419 7.25 814201.02 0.0481 0.0587' 'i 31 2130: 419 7.50 814189.79 0.0468- 0.0568 32- 2145 419 7.75L 814194.99 0.0451 .0.0546 1 33 2200 419 8.00: 814201.29- 0.0431L 0.0522 34 2215: 419 9.25 814197.51 0.0414 'O.0501 :
35 2230 419 8.50 --814186.92' O.0404 0.0487
- 36 2245 ~419 8.75'- 1814184.63 0.0394: 0.0473 Allowable leakage rate, La-= -
~ 0.2000 %/ day 75%ELa . = 0.1500.%/ day Mass point leakage rate -
= 0.03941%/ day. J Mass pointiUCL = 0.0473_%/ day-q
1 TABLE 7 MASS POINT LEAKAGE RATE REPORT fI
\/
VERIFICATION I l
data time dato elapsed dry air leakage set time mass rate (hrc) (1ba) (%/ day) 1 0 420 0.00 814105.24 0.0000 2 15 420 0.25 814003.86 0.1342 3 30 420 0.50 814068.69 0.2155 i 4 45 420 0.75 814043.27 0.3489 t 5 100 420 1.00 814030.12 0.2368 l 6 115 420 1.25 814018.14 0.2197 I l
7 130 420 1.50 813997.85 0.2157 8 145 420 1.75- 813976.01 0.2175.
9 200 420 2.00 813961.94 0.2149 10 215 420 2.25 813944.55 0.2131 !
11 230 420 2.b0 -813928.88 0.2108.
12 245 420 2.75 813905.76 0.2118 13 300 420 3.00 813890.35 0.2115 14 315 -420 3.25 813872.82 0.2111 15 330 420 3.50 813846.36 0.2134 16 345 420 3.75 813828.96 0.2147 17 400 420 4.00 813814.86 0.2147 18 415 420 4.25 813799.70 0.2141 19 430 420 4.50 813782.72 0.2134 (s/ Upper limit on leakage rate =
Mass point leakage rate =
0.2850 %/ day 0.2134 %/ day ,
Lower limit on leakage rate =
0.1850 %/ day ,
O. O O .
t i
VOGTLE UNIT 21992 ILRT TEMPERATURE DURING STABILIZATION ;
87.5
.W C
., D:
HE
~
t C cn n w=
1,3 -
t
.I
- i. W F- - :
i
- 83._5 ,
10: 00 am 2- 00 pm 04/19/92 04/19/92 TIME (HOURS)
FIGURE i 4;
LOL O O !
VOGTLE UNIT 21992 ILRT AIR MASS - TYPE A. TEST 814,400 LEAST SQUAES FIT LINE TMEUGH DATA 4:::'*, ..---*
4 .
,--~~...
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4 fs.?
9
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, v# - $ 0,,f
's 4
813.'800 - - ' ' ' -' '''''''''''**'
2:00 pm 10: 45 m
.04/19/92 TIME. 04/19792
- - (HOURS) 2 FIGURE 2-
- OL 0 .O l ;
t t
t
- VOGTLE UNIT 21992 ILRT ,
MEAN TEMPERATURE - TYPE A TEST .
t
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. TIME 04/19/92 ,
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, (HOURS) -
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FIGURE 3-
i04 O- .O 1
e V0GTLE UNIT 2 1992. ILRT L
TOTAL PRESSURE -- TYPE A TEST .
1 i
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n i i r W -
.g. >
. a g- ,
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(HOURS)- ,
FIGURE 4 .;
v . . . - - .-
o o o I
. - [
V0GTLE UNIT 21992 ILRT I VAPOR PRESSURE - TYPE A TEST
-0.462 i
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. c.
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- 04/19/92: TIME- 04/19/92 (HOURS) t FIGURE 5-
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,y,,w....m , ..[- -r , . ".#4,.
.. . .r, _-_ _ ,,_________.____mm_________.._ _ . _. _ _ . _ . . . __. . . _ _ _ _ .- __ _ . _ _
O O O V0GTLE UNIT 21992 ILRT
. TOTAL TME LEAKAGE . RATE
- t TYPE A TEST 0.50
~
's s
i g
a %
g
\ TOTAL TIME UCL
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- -- 04/19/pm. 92 TIME 10:04/19 45 f92
- (HOURS)
FIGURE 6 ,
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l APPENDIX I
[)
U ILRT COMPUTER PROGRAM DESCRIPTION The ILRT computer program used in this test was a program purchased by Southern Company Services (SCS) from BCP Technical Services. The program is a modified version of the BCP standard ILRT program prepared for specific use at VEGP.
Complete verification of the VEGP version has been performed 4 and documented. The program source code was included ir the porchase of the software should there be the need to review the routines used to calculate the various ILRT parameters.
The BCP ILRT program is written in Microsoft QuickBASIC, Version 4.5, for IBM Personal Computers and Compatibles.
Upon starting the program the user is prompted for the following predatat Number of temperature sensors Number of dowpoint sensors Number of pressure sensors Containment free air volume Allowable leakage rate, La sensor volume fractions once the test is started the following data is received from the data acquisition system during the test
/~N Time and date
(_-) Containment atmosphere drybulb temperatures Containment atmosphere pressure Containment atmosphere dew point temperatures Program options' provide calculation of the following reports:
DATA
SUMMARY
REPORT. Displays data set number, time, date, temperature, pressure, vapor pressure and dry air mass for all data sets.
l DATA SET REPORT. Displays data set number, time, date, sensor L data. (raw data and calibrated values) , weighted' average i temperature, pressure and vapor pressure, and volume and dry air mass.
MASS POINT LEAKAGE RATE REPORT. (ANSI /ANS 56.8 - 1987).
Displays data set numbor, time, dato, clapsed time, dry air mass, mass point leakage-rate and UCL for all data sets.
TOTAL TIME LEAKAGE RATE REPORT. (BN-TOP-1, rev. 1). Displays data set number, time, date, elapsed time, dry air mass, total time measured leakage rate, leakage rate (calculated) and UCL for all data sets.
TREND REPORT. Displays data set number, time, date, elapsed time, total time measured Icakage rate, leakage rate (calculated) and UCL, and mass point leakage rate and UCL for l t -
L>
u- -
l i
all data sets.
DATA REJECTION REPORT. (ANSI /ANS 56.6 - 1987). Displays data g-s set number, time, air mass, linear least square fit (air
( j mass), residual from least square fit, standard error of residual and standardized residual for all data Jets.
TEMPERATURE STABILIZATION REPORT. (ANSI /ANS 56.8 - 1987 and BH-TOP-1, rev.1) . Displays start time and date, data set number, 4 elapsed time, temperature, 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 4 hour4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> average rates of i temperature change and difference (ANSI criteria), and 2 hour2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> average rate of temperature change and 2 hour2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> averaou change !
in rate of temperature-change, i.e , second derivative, (BN- ;
TOP-1 criteria) for all data sets. l The following plots are available AIR MASS. P'ots the air mass, regression line and 75% La line.
LEAK RATES. Plots the mass point and total time leakage rate,-
UCLs and 75% La line.
TEMPERATUalE. Plots the weighted average temperature, '
temperature for one sensor, or temperature for all sensors.
PRESSURE. Plot
- the weighted average pressure, pressure for one sensor, or pressure for-all sensors.
DEW POINT / VAPOR-PRESSURE. Plots the weighted average vapor pressure, dew point temperature for one senscr, or dew point temperature for all sensors.
In addition the program allows for manual data entry, data correction, data set insertion, and deletion-of a data set from calculations.
(D V
v
APPENDIX II TYPE B AND C LOCAL LEAKAGE RATE TEST RESUITS Results for Type B and C local leakage rate testa performed between the completion of the pre operational ILRT and the start of the 1992 ILRT are presented herein.
O o
v I
n
()
TYPE B AND C RESULTS - 1992 OUTAGE PAGE 1 AS-FOUND AS-LEFT PENETRATION VALVE E LEAKAGE E LEAKAGE 5 N/A 3/11/92 9.1 SCCM 4/02/92 17.3 SCCM 11A 21411U4031 1/28/92 546.0 SCCM 1/28/92 546.0 SCCM 11A 2HV-5280 1/28/92 54.5 SCCM 1/28/92 54.5 SCCM 12A 21411U4029 1/30/92 8260.0 SCCM 4/16/92 809.0 SCCM 12A 2HV-5281 d./16/9k 588.0 SCCM 4/16/92 588.0 SCCM 13A 2HV-12976 3/14/92 497.0 SCCM 3/14/92 497.0 SCCM 13A 2HV-12975 3/14/92 413.0 SCCM 3/14/92 413.0 SCCM 13B 2HV-12978 3/13/92 6.9 SCCM 3/13/92 6.9 SCCM 4 13B 2HV-12977 3/13/92 8.1 SCCM 3/13/92 8.1 SCCM 15 21213U6051 4/04/92 6.0 SCCM 4/07/92 47.3 SCCM 15 2121306050 4/04/92 6.3 SCCM 4/07/92 40.J SCCM 22 21418U4038 2/18/92 10.7 SCCM 2/18/92 10.7 SCCM fl V
22 23 21418U4005 22401U4184 2/18/92 7.3 SCCM 2/18/92 7.3 SCCM 3/23/92 344000.0 SCCM 4/06/92 72.3 SCCM 23 22401U4211 4/06/92- 220.0 SCCM 4/06/92 220.0 SCCM 24 2HV-3546 3/17/92 31.8 SCCM '4/22/92 112.0 SCCM 24 2HV-3502 3/17/92 767.0 SCCM 4/22/92 6.0 SCCM 24 2HV-8i'1 3/17/92 767.0 SCCM 4/22/92 6.0 SCCM 28 2HV-15.J 3/24/92 49.1 SCCM 4/07/92 49.2 SCCM 28 7.HV-1979 3/2A/92 90.6 SCCM 4/07/92 69.7 SCCM 29 2HV-1974 3/24/92 29.1 SCCM 4/04/92 99.6 SCCM 29 21217U4113 3/24/92 29.1 SCCM 4/04/92 99.6 SCCM 29 2HV-1975 3/24/92 19.3 SCCM 4/04/92 136.3 SCCM 34 21206U6016 3/30/92 500.0 SCCM 4/06/92 695.0 SCCM 34 2HV-90018 3/30/92 49.0 SCCM 4/06/92 55.2 SCCM 35 2120606015 3/13/92 121.0 SCCM 3/19/92 87.0 SCCM 35 2HV-9001A 3/13/92 6.0 SCCM 3/19/92 24'i.3 SCCM 36 21205V4002 3/12/92 661.0 SCCM 4/04/92 62.3 SCCM 37 21205V4001 3/12/92 68.2 SCCM 4/04/92 78.2 SCCM 38 21206V4001 3/12/92 433.0 SCCM 3/22/9? 232.0 SCCM 39 21206V4002 3/12/92 245.0 SCCM 3/26/92 84.5 SCCM 40 22301U4036 3/27/92 10930.0-SCCM 4/17/92 1922.0 SCCM 40 2HV-27901 3/27/92 >20000: SCCM 4/17/92 399.0 SCCM 41 2HV-8871 3/23/92 137.6 SCCM 3/23/92 137.6 SCCM' 41 2HV-8964 3/23/92 148.5 SCCM 3/23/92 148.5 SCCM 41 2HV-8888 3/23/92 148.5 SCCM 3/23/92 148.5 SCCM 42 2240204017 3/12/92 232.0 SCCM 3/12/92 232.0 SCCM
<j (a) Leak rate exceeded range of leak rate monitor used.
1 i
\. .
1
TYPE B AND C RESULTS - 1992 OUTAGE PAGE 2
,- = . - .
AS-FOUND AS-LEFT PENETRATION YRIE Q&II LEAKAGE DAII LEAKAGE 42 2HV-8880 3/12/92 77.4.SCCM 3/12/92- 77.4 SCCM 48 2HV-8160- 3/17/92 6.0.SCCM 4/04/92_ .- 7.6 SCCM 48 2HV-8152 3/18/92- 7.7 SCCM; 4/04/92 .14.5 SCCM:
, 49 2HV-8112 3/31/92- 117.0 SCCM 4/09/92 70.5 SCCM 49 21208U4021 3/31/92- 117.0-SCCM 4/09/92 -70.5 SCCM 49 2HV-8100 3/31/92 74.4 SCCM 4/09/921 11.'9 : SCCM -
50 2120806032:- 4/07/92- 1124.0 SCCM 4/13/92- 1617.0 SCCM, 50 2HV-8105 4/07/92- 19.4 SCCM: 4/13/92 - -1.2 SCCM-55 _N/A -3/11/92 6.3 SCCM 4/12/92. 119.2 SCCM 62 2HV-8047 2/13/92 6.0'SCCM -2/13/92 '6.0-SCCM 62 2HV-8033 :2/13/92 -12.0 SCCM- 2/13/92- '12.0 SCCM 63 21201U6112 3/20/92- 25.2.SCCM; 4/04/92- 272.0 SCCM 63 2HV-8028 3/20/92 17.2 SCCM 4/04/92L 595.0 SCCM O 64A 64B 67A N/A N/A 2HV-3513-
'3/14/92-3/14/92 8.8 SCCM:
6.0 SCCM 12.0 SCCM=
'3/14/92 3/14/92_
-8.8lSCCM
~6.0 SCCM-3/16/92L 3/16/92 12.0 SCCM 67A 2HV-3514' 3/16/92-- 26.0 SCCM 3/16/92 26.0 SCCM 678 2HV-3507 3/16/92L 6.0.SCCM -
4/09/92 7.3 SCCM 67B 2HV-3508 3/16/92 - '34.4 SCCM :4/09/92 16.8 SCCM 68' N/A '3/14/92. 196.5 SCCM< -4/23/92; . -6.0 SCCM'
-69A 21411U4043- 1/30/92 =340.0:SCCM 1/30/92 :340;0 SCCM-
, 69A 2HV-5278 - 1/30/92- 7.6 SCCM l/30/92 7.6 SCCM 698 21411U4044 ~1/28/92 60.7 SCCM: 1/28/92: 60.7 SCCM
~69B 2HV-5279 1/28/92; 15.4 SCCM 1/28/92' 15.4,5CCM 70A 2HV-2790A 3/14/92 -6.0LSCCM l3/14/92: 6.0 SCCM 4
'70A
- 2HV-2791A 3/14/92- -6.0lSCCM 3/14/92_ 6.0.SCCM:
- 70A- '2HV-27908 3/14/92 '6.0;SCCM. i3/14/92- 6.0 SCCM
<7081 21513U4001. 3/13/92- zl8.1 SCCM 3/13/92-- :18.1- SCCM :
70B~ ^2HV-2793A 3/13/92- 14.0.SCCM- 3/13/92: 14.0 SCCM:
71A L2HV-2792AL -3/14/92- 6.0 SCCM 3/14/92: -6.0 SCCM-71A1 2HV-27918- 3/14/92 122.3 SCCM- '3/14/92 22.3-SCCM
- 71A' '2HV-2792B- 3/14/92- 6.0-SCCM
- .6,0 SCCM z
3/14/92-716 2151304002 3/13/92 i228.0 SCCM "3/13/92- e228.0 SCCM 718: -2HV-2793B- .3/13/92_ - 6.8.SCCM r3/13/92; -6.8 SCCM
' 72A:
(2HV-10950 _ :3/13/92- _123.3lSCCM- ^3/13/92L :123.3 SCCM
-72A l21204U4159 3/13/92 -4.2 SCCM; 3/13/92 .14.2 SCCM 728? 2HV-10952 ~3/13/92: 136.0 SCCM- c3/13/92_ 136.0 SCCM
TYPE B AND C RESULTS - 1992 OUTAGE PAGE 3 :
l AS-FOUND AS-LEFT PENETRATION YALYI DAII LEAXAGE QAII LEAKAGE 728 21204U4161 3/13/92 6.3 SCCM 3/13/92 6.3 SCCM 73A 2HV-10951 3/13/92 48.5 SCCM 3/13/92 48.5 SCCM l' 73A 21204U4160 3/13/92 29.3 SCCM 3/13/92 29.3 SCCM 738 2HV-10953 3/13/92 331.0 SCCM 3/13/92 331.0 SCCM 738 21204U4162 3/13/92 39.9 SCCM 3/13/92 39.9 SCCM 77 2HV-7699 4/14/92 50.5 SCCM 4/14/92 50.5 SCCM i 77 2HV-7136 4/14/92 57.6 SCCM 4/14/92 57.6 SCCM .
78 2HV-0780 3/31/92 137.1 SCCM 3/31/92 137.1 SCCM l 78 2HV-0781 3/31/92 250.0 SCCM 3/31/92 250.0 SCCM 79 2HV-7126 3/12/92 8.5 SCCM 3/12/92 ~,5 SCCM 79 2HV-7150 3/12/92 6.0 SCCM 3/12/92 d.0 SCCM fs)
V 80 80 22401U4034 2HV-9385 1/23/92 3/10/92 330000.0 SCCM 340.0 SCCM 2/18/92 3/10/92 1781.0 SCCM 340.0 SCCM 81 2242004049 3/27/92 3850.0 SCCM 3/29/92 588.0 SCCM 81 2HV-9378 3/27/92 >200004 SCCM U19/92 27.0 SCCM 83 2HV-2626A 1/07/92 3120.0 SCCM yl5/92 36.3 SCCM 83 2HV-2626B 1/07/92 2740.0 SCCM 4/15/92 255.0 SCCM 83 2HV-2627A/B :'07/92 4550.0 SCCM 4/15/92 -38.4 SCCM 84 2HV-2628A 1/08/92 526.0 SCCM 4/16/92 1186.0 SCCM 84 2HV-2628B 1/08/92 .101.3 SCCM 4/16/92 85.4 SCCM 84 2HV-2629A/8 1/08/92 910.0 SCCM 4/16/92 519.0 SCCM 86A 2HV-8211 2/06/92 6.0 SCCM 2/06/92 6.0 SCCM 86A 2HV-8212 2/06/92 7.4 SCCM 2/06/92 7.4 SCCM 86C 2HV-8209 3/15/92 152.4 SCCM- 3/15/92 152.4 SCCM 86C 2HV-8208 3/15/92 157.5 SCCM 3/15/92 157.5 SCCM 87 N/A 3/14/92 8.8 SCCM 4/23/92 6.0 SCCM 89 N/A 4/14/92 . 6.0 SCCM 4/14/92 6.0-SCCM 90 N/A 3/11/92 10.6 SCCM 4/02/92 10.5 SCCM 100 2HV-2624A 3/13/92 138.2 SCCM 3/21/92 25.8 SCCM-100 21508U4012 3/13/92- -64.1 SCCM 3/21/92 33.9 SCCM 100 2HV-26248 3/13/92 -64.7 SCCM 3/21/92- 50.8 SCCM Personnel Airlock 3/10/92 271.0 SCCM 4/17/92 880.2 SCCM Escape Airlock 4/14/92 779.0 SCCM 4/14/92 779.0 SCCM Equipment Hatch 3/11/92 13.9 SCCM 4/18/92 11.1 SCCM Electrical (1-72) Various Insignificant g .
(4) Leak rate exceeded range of leak rate monitor used.
dbf1147s(p3)
O Tvec 8 Au0 C aCSUt15 - 1990 Ou1ACC PAGC 1 .
=
AS-FOUND AS-LEFT PENETRATION VALYE DAIE LEAKAGE QalE LIAKAGE 5 N/A 9/16/90 19.3 SCCM 10/11/90 7.0 SCCM llA 21411U4031 8/30/90 242.0 SCCM 8/03/90 242.0 SCCM 11A 2HV-5280 -
8/03/90 78.2 SCCM C/03/90 78.2 SCCM 12A 21411U4029 8/03/90 25.7 SCCM 8/03/90 25.7 SCCM >
12A 2HV-5281 8/03/90 34.8 SCCM 8/03/90 34.8 SCCM 13A 2HV-12976 9/18/90 175.1 SCCM 9/18/90 175.1 SCCM 13A 2HV-12975 9/18/90 142.6 SCCM 9/18/90 142.6 SCCM ,
138 2HV-12978 9/18/90 7.9 *CCM 9/18/90 7.9 SCCM 138 2HV-12977 9/18/90 6.0 'CM 9/18/90 6.0 SCCM 15 21213U6051 10/17/90 6.0 sCCM 10/17/90 6.0 SCCM 15 21213U6050 10/17/90 8.2 SCCM 10/17/90 8.2 SCCM
- 22. 21418U4038 7/24/90 7.4 SCCM 7/24/90 _ 7.4 SCCM
\ 22 21418U4005 7/24/90 41.8 SCCM~ 1/24/90 41.8 SCCM 23- 2240104184 9/05/90 8.0 SCCM 9/05/90 8.0 SCCM 23 22401U4211 9/05/90 411.0 SCCM 9/05/90 411.0 SCCM 24 2HV-3548 9/19/90 31.6 SCCM 10/17/90 57.8 SCCM 24 2HV-3502 9/19/90 37.2 SCCM_ 10/17/90 95.5 SCCM 24 2HV-8220 9/19/90 -37.2 SCCM 10/17/90 95.5 SCCM 28 2HV-1978 10/03/90 32.5_SCCM 10/08/90 30.3 SCCM 28 2HV-1979 10/03/90- 53.2 SCCM- 10/08/90 47.6 SCCM 29 2HV-1974 10/04/90 35.2 SCCM 10/04/90 35.2 SCCM 29 21217U4113 10/04/90 35.2 SCCM 10/04/90 35.2 SCCM 29 2HV-1975 10/04/90 24.4 SCCM 10/04/90 24.4 SCCM 34 2120606016 10/03/90 368.0 SCCM 10/03/90 358.0 SCCM-34 2HV-90018 10/03/90 39.2 SCCM 10/03/90 39.2 SCCM 35 21206U6015 9/18/o0- 334.0 SCCM 9/20/90- 946.0 SCCM-35 2HV-9001A 9/18/90 25.1 SCCM. 9/20/90 59.9 SCCM 36 21205V4001 .9/18/90 -11060.0 SCCM 10/27/90- 682.0 SCCM 37 21205V4001 9/16/90 56.8 SCCM 10/29/80 319.0 SCCM
-38 21206V4001 9/17/90 _702.0 SCCM 10/24/90 360.0 SCCM-39 21206V4002 9/17/90_ _317.0 SCCM 10/24/90 152.1 SCCM 40 22301U4036 10/03/90' 1306.0 SCCM 10/03/90 7.0 SCCM 40- -2HV-27901- 10/03/90- -10170.0 SCCM 10/23/90 2450.0~SCCM 41' '2HV-8871 10/03/90 149.0 SCCM 10/25/90 7.4 SCCM :
41 :2HV-8964 10/03/90 156.5 SCCM 10/25/90 10.9 SCCM >
41 .2HV-8888- 10/03/90 156.5 SCCM- -10/25/90 10.9 SCCM p
42 .22402U4017 -9/26/90 127.0 SCCM 9/26/90 127.0 SCCM G
i l
h V TYPE B AND C RESULTS - 1990 OUTAGE PAGE 2 AS-FOUND AS-LEFT PENETRATION YALYI DATI LEAKAGE DAIf LEAKAGE 42 2HV-8880 9/26/90 11.2 SCCM 9/26/90 11.2 SCCM 48 2HV-8160 9/19/90 470.0 SCCM 9/25/90 6.9 SCCM 48 2HV-8152. 9/19/90 391.0 SCCM 9/25/90 6.0 SCCM 49 2HV-8112 10/03/90 110.7 SCCM 10/03/90- 110.7 SCCM-49 21208U4021 10/03/90 110.7 SCCM 10/03/90 110.7 SCCM 49 2HV-8100 10/03/90 31.7 SCCM 10/03/90 31.7 SCCM 50 21208U6032 10/10/90 67.0 SCCM 10/10/90 '67.0 SCCM -
50 2HV-8105 10/10/90 6.0 SCCM 10/10/90 6.0 SCCM 55 N/A 9/16/90 242.0 SCCM 10/11/90 34.5 SCCM 62 2HV-8047 8/09/90. 6.0 SCCM 8/09/90 6.0 SCCM 62 2HV-8033 8/09/90 6.0 SCCM 8/09/90 6.0 SCCM 63 21201U6112 9/21/5J 74,4 SCCM 10/19/90 6.0_SCCM O 63 64A 2HV-8028 N/A 9/21/90 9/24/90 12.8 SCCM 120.2 SCCM 10/19/90 9/24/90 6.0 SCCM 120.2 SCCM 6,6 SCCM 648 N/A 9/24/90_ 6.6 SCCM 9/24/90 67A 2HV-3513 9/18/90 14970.0 SCCM 10/16/90 4.2 SCCM 67A- 2HV-3514 9/18/90 14000.0 SCCM- ~_10/16/90 4.2 SCCM-678 2HV-3507 9/19/90 167.1 SCCM 11/01/90 6.0 SCCM 678 2HV-3508 9/19/90 46.6 SCCM- 11/01/90 24.5 SCCM 68 N/A 9/24/90 -151.2 SCCM 9/24/90 -151.2 SCCM l 69A 21411U4043 8/02/90 1140.0 SCCM 8/02/90 1140.0 SCCM ,
! 09A 2HV-5278 8/02/90 1553.0 SCCM 8/02/90 1553.0 SCCM l
69B 21411U4044 8/02/90 178.5-SCCM~ :8/02/90 178.6 SCCM 698 2HV-5279 8/02/90 1172.0 SCCM 8/02/90 1172.0'SCCM ,
704 2HV-2790A 9/04/90 6.0 SCCM 9/04/90 6.0.SCCM I
70A 2HV-2791B 9/04/90 - 8.9 SCCM -9/04/90 8.9 SCCM
, 70A 2HV-2790B 9/04/90 6.0 SCCM 9/04/90 6.0 SCCM-
- 708 -21513U4001- - 9/04/00 272.0 SCCM' 9/04/90 272.0 SCCM-708- 2HV-2793A 9/04/90 8.9 SCCM 9/04/90 8.9 SCCM 1
71A 2HV-2792A- 9/06/90 3.2 SCCM--. 9/06/90 3.2 SCCMl 71A 2HV-27918 9/06/90 - 3.9 SCCM: 9/06/90- 3.9 SCCM 71A- 2HV-27928 9/06/90~ 13.5 SCCM -9/06/90 -13.5 SCCM l 71 B -- 21513U4002 - 9/06/90 24.2 SCCM 9/06/90 24.2 SCCM
- . 71B 2HV-27938 9/06/90
- 7.2 SCCM- 9/06/90 7.21SCCM 72A- 2HV-10950 9/24/90 2010;O SCCM- 10/03/90 145.7-SCCM-72A 21204U4159 9/24/90 1856.) SCCM. 10/03/90 6.0 SCCM 72B- 2HV-10952 9/24/90 - 366.0 SCCM 10/09/90 225.6 SCCM O
Q l
i w * ,-g -
4.e+-) y--y,e
TYPE B AND C RESULTS - 1990 OUTAGE PAGE 3 AS-FOUND AS-LEFT PENETRATION YALY.E DAII LEAKAGE DAIX LEAKAGE 72B 21204U4161 9/24/90 3370.0 SCCM 10/09/90 7.6 SCCM 73A 2HV-10951 9/25/90 789.0 SCCM 10/18/90 91.0 SCCM 73A 21204U4160 9/25/90 20.0 SCCM 10/18/90 13.8 SCCM 73B 2HV-10953 9/25/90 462.0 SCCM 10/10/90 465.0 SCCM 73B 21204U4162 9/25/90 29.0 SCCM 10/10/90- 7.1 SCCM 77 2HV-7699 9/21/90 231.8 SCCM 9/21/90 231.8 SCCM 77 2HV-7136 9/21/90 147.3 SCCM 9/21/90 147.3 SCCM 78 2HV-0780 8/23/90 99.S SCCM 8/23/90 99.5 SCCM 78 2HV-0781 8/23/90 162.5 SCCM S/23/90 162.5 SCCM 79 2HV-7126 9/19/90 6.8 SCCM 9/19/90 6.8 SCCM 79 2HV-7150 9/19/90 7.2 $CCM 9/19/90 7.2 SCCM 80 22401U4034 7/26/90 2320.0 SCCM 7/26/90 2320.0 SCCM 30 2HV-9385 7/26/90 67.0 SCCM 7/26/90 67.0 SCCM 81 22420U4049 10/04/90 520.0 SCCM 10/04/90 520.0 SCCM p 81 ?HV-9378 10/04/90 166.0 SCCM 10/04/90 166.0 SCCM t i 83 RHV-2626A 10/22/90 178.4 SCCM 10/22/90 178.4 SCCM V 83 ^4V-2626B 10/22/90 46.9 SCCM 10/22/90 46.9 SCCM 83 2HV-2627A/B 10/22/90 23.0 SCCM 10/22/90 23.0 SCCM 84 2HV-2628A 10/22/90 3760.0 SCCM 10/23/90 578.0 SCCM 84 2HV-2628B 10/22/90 32.0 SCCM 10/23/90 108.0 SCCM 84 2HV-2629A/B 10/22/90 69.5 SCCM 10/23/90 672.0 SCCM 86A 2HV-8211 8/07/90 6.0 SCCM 8/07/90 6.0 SCCM 86A 2HV-8212 8/07/90 6.0 SCCM 8/07/90 6.0 SCCM 86C 2HV-8209 0/21/90 157.2 SCCM 9/21/90 157.2 SCCM PSC 2HV-0208 9/21/90 166.4 SCCM 9/21/90 165 4 SCCM 67 N/A 9/24/90 6.0 SCCM 9/24/90 t.0 SCCM 89 N/A it/17/90 11.2 SCCM 10/20/90 14.0 SCCM 90 N/A 9/16/90 24.1 SCCM 10/11/93 18.2 SCCM 100 2HV-2624A 9/16/90 44.5 SCCM- 9/16/90 44.5 SCCM 100 2150804012 9/16/90 29.3 SCCM 9/16/90 29.3 SCCM 100 2HV-2624B 9/16/90 37.6 SCCM 9/16/30 37.6 SCCM Personnel Airlock 8/30/90 50.9 SCCM 10/29/90 3766.0 SCCM Escape Airlock 10/26/90 367.8 SCCM 10/26/90 367.8 SCCM Equipment Hatch 0/15/90 145.2 SCCM 10/30/90- 12.2 SCCM Electrical (1-72) Various Insignificant N/A dbfl147s(p6) 7 .
( )
v
I TYPE B'AND C RESULTS - NONSCHEDULED TESTS PAGE 1 AS-FOUND AS-LEFT PENETRATION y.6Lyf DAlf LEAKAGE DAlf LEAKAGE
_ = ..
5 N/A 3/02/89 391.0 SCCM 3/02/89 391.0 SCCM 11A 21411U4031 2/25/89 1800.0 SCCM 2/25/89 1800.0 SCCM 11A 2HV-5280 2/14/89 291.0 SCCM 2/14/89 291.0 SCCM 12A 21411U4029 2/24/89 1580.0 SCCM 2/24/89 1580.0 SCCM 12A 2HV-5281 2/24/89 22.1 SCCM 2/24/80 22.1 SCCM 15 2121306051 2/15/89 23.7 SCCM 2/15/89 23.7 SCCM 15 21213U6050 2/15/89 23.7 SCCM 2/15/89 23.7 SCCM 22 21418U4038 1/23/89 3.1 SCCM 1/23/89 3.1 SCCM 22 21418U4005 1/23/89 75.4 SCCM 1/23/89 75.4 SCCM 23 22401U4184 2/23/89 9065.0 SCCM 2/23/89 9065.0 SCCM
(/), 23 22401U4211 :/25/89 5205.0 SCCM 2/25/89 5205.0 SCCM
( 24 2HV-3548 ?/27/89 29,1 SCCM 2/27/89 29.1 SCCM 24 2HV-3502 2/27/89 29.1 SCCM 2/27/89 29.1 SCCM 24 2HV-8220 2/27/89 29.1 SCCM 2/27/89 29.1 SCCM 28 2HV-1978 2/26/89 299.0 SCCM 2/26/89 299.0 SCCM 28 2HV-1979 2/26/89 125.1 SCCM 2/26/89 125.1 SCCM 34 2120606016 1/30/89 871.0 SCCM 1/30/89 871.0 SCCM 34 2HV-9001B 1/30/89 31.6 SCCM 1/30/89 31.6 SCCM 35 2120606015 2/02/89 186.0 SCCM 2/02/89 186.0 SCCM 35 2HV-9001A 2/02/89 16.5 SCCM 2/02/89 16.5 SCCM 36 21205V4002 1/25/89 1440.0 SCCM 1/25/89 1440.0 SCCM 37 21205V4001 2/02/S9 1479.0 SCCM 2/02/89 1479.0 SCCM 38 21206V4001 2/03/89 670.0 SCCM 2/03/89 470.0 SCCM 39 21206V4002 2/04/89 960.0 SCCM _.2/04/89 960.0 SCCM 40 22301U4036 2/04/89 306.0 SCCM 2/04/89 306.0 SCCM 40 2HV-27901 2/28/89 2950.0 SCCM 2/28/89 2950.0 SCCM 41 2HV-8871 2/23/89 29.6 SCCM 2/23/89 29.6 SCCM 41 2HV-8964 2/23/89 29.6 SCCM 2/23/89 29.6 SCCM 41 2HV-8888 2/23/89 29.6 SCCM 2/23/89 29.6 SCCM 42 22402U4017 2/15/89 363.0 SCCM 2/15/89 363.0 SCCM A
()
}
TYPE B AND C RESULTS - NONSCHEDULED TESTS .
4
< PAGE 2-i a
i
! AS-FOUND AS-LEFT PENETRATIOM y&Ly1 DAIX LEAXAGE Q&Il LEAKAGE 4
j 42 2HY-8880 2/15/89 29.6 SCCM 2/15/89 29.5 SCCM ,
48 2HV-3160 2/22/89 21.9 SCCM 2/22/89 -21.9 SCCH.
it 2HV-8152 2/22/89 21.9 SCCM 2/22/89- 21.9 SCCM 4r 2HV-8112 2/27/89 82.5-SCCM 2/27/89= 82.5 SCCM
- 49 21208U4021- 2/27/89 82.5 SCCM 2/27/89 82.5 SCCM L 2HV-8100 2/,"?/89 49 11.5 SCCM 2/27/89- 11.5'SCCM >
21208U6032 -
j 50 2/0S/89 2970.0_SCCM 2/03/89: 2970.0-SCCM. <
50 2HV-8105 - 2/03/89; 542.0 SCCM 2/03/89 _542.0 SCCM 55 N/A 3/02/89 28.4 SCCM 3/02/89 28.4 SCCM 52 2HV-8047 2/10/89 29.6 SCCM- 2/10/89 29.6 SCCM
- 62 2HV-8033 2/10/89 29.6 SCCM 2/10/89' 29.6 SCCM-
, t 63- 21201U6112 2/13/89 _29.6 SCCH- 2/13/80 29.6 SCCM
' 63 2HV-8028-2/13/89- 29.6 SCCM 2/13/F.) 29.6 SCCM i 64A N/A 1/29/89 28.3_SCCM 1/29/;? 28.3 SCCM
- 64B N/A -1/29/89 28.4 SCCM 1/2Po ) 'B.4 SCCM i 67A 2HV-3513 2/14/89_ 1656.0'SCCM_ 2/le /P6' it 5.0 SC;r
- 67A 2HV-3514 2/14/89 1513.0;SCCMJ 2/14/e"; D'3.0 SCCh
, 67B 2HV-5507 - 2/01/89 397.0;SCCM '
J/01/.ir 3 7.0 SCCH:
67B 2HV-3508 2/01/89 435.0:SCCM: '2/01/b9 8a5.0 SCCM <
r 68 N/AL 2/02/89 292iG SCCM 2/02/89 292.0 SCCM
~
69A 21411U4043 1/18/89 377.0 SCCM- :1/18/89- 377.0 SCCM-69A 2HV-5278 1/18/89 _29.6 SCCM- 1/18/89 29.6 SCCM 4
69B 21411U4044 . 2/27/89 90.6 SCCK- 2/27/89 90G6 SCCM 69B 2HV-5279 - 2/22/89, 29.6 SCCM- 2/22/89. 29.6;SCCM 71A_ 2HV-2792A 2/05/89- 29.6-SCCM 2/05/89: 29.6 SCCM
,+
71A 2HV-2791B 2/05/39 29.6 SCCM -2/05/89: 29.6 SCCM
- 71A 2HV-2792B- 2/05/89 _30.2 SCCM-
- 2/05/89 30.2 SCCM 718 21513U4002 2/04/89- 62.3 SCCM '2/04/89 62.3_SCCM1 71B 2HV-27938 2/04/89 26.4.SCCM L2/04/89 - 26.4 SCCM 72A. 2HV-10950- 1/20/89 '1667.0 SCCM: 1/20/89- 1667.0 SCCM 4
72AL 21204U4159- -1/20/89_ -29.6-SCCM :1/20/89 29.6 SCCM 72B 2HV-10952 ; 1/31/89 29.6 SCCM' 1/31/89 29.6 SCCM t
t
._ . - - _ _ , . . ~ . _ . , - ,- - , - . . _ . _ . _ ,
4 TYPE B AND C RESULTS - NONSCHEDULED TESTS-PAGE 3 AS-FOUNDL AS<lEFT PENETRATION yALyf Qall LEAXAGE DAII Lfg&QF
.= .-_-_ __________. ____________.- . _ _ _ ..
72B 21204U4161- 1/31/89 29.6 SCCM_ 1/31/89- 29.6 SCCM. '
73A 2HV-10951 1/31/89 869.0 SCCM 1/31/89 869.0_SCCM 73A- 21204U4160 1/31/89 2.9 SCCM -1/31/89 2.9-SCCM 73B 2HV-10953- 1/31/89; 807.0 SCCM- 1/31/89- 807.0 SCCM-738 21204U4162 1/31/89 93.6 SCCM ~1/31/89 93.6 SCCM 77- 2HV-7699 1/26/89 -25.8 SCCM 1/26/89 25.8 SCCM 77 :2HV-7136 1/26/89 -58.9 SCCM 1/26/89- 58.9 SCCM 78 2HV-0780 2/16/89 1202.0 SCCM 2/16/89: 1202.0 SCCM 78 2HV-0781 3/25/89 1150.0 SCCM- 2/25/89 1150.0 SCCM 79 2HV-7126 2/10/89 29.6 SCCM- 2/10/89 ,29.6 SCCM 79 2HV-715t 2/10/89' 29.6 SCCM 2/10/89 :29.6 SCCM O ao 80 22*atuac34 2HV-9385 2/2seaa 2/25/89-1323 a scca 362.0 SCCM 2 /2s/8' 2323 a scca 2/25/39 362,0 SCCM 81 2242004049- -
2/21/89 1157,0 SCCM 2/21/89 :1157.0 SCCM 81 2HV-9378 2/21/89 500.0 SCCM 2/21/89 500.0 SCCM ,
86A 2HV-8211 2/17/89 3.1 SCCM- -2/17/89 3.1 SCCM ;
86A 2HV-8212 2/17/89 159.2 SCCM{
2/17/89- 159.2 SCCM 86C; 2HV-8209 2/18/89 111.0 SCCM- 2/18/89 Ill.0.SCCM 86C 2HV-8208- 2/18/89 186.7 SCCM- 2/18/89 -186.7-SCCM 87- N/A: -2/01/89 29.5 SCCM. 2/01/89- '29.5 SCCM-89 N/A 2/20/89'. --29.6 SCCM 2/20/89 . 29.6 SCCM 90 N/A- 3/02/89 395.0 SCCM 3/02/89 395.0 SCCM 100' 2HV-2624A- 2/01/89 61.4 SCCM 2/01/89' -61.4 SCCM 100 21508U4012 2/01/89 385.0-SCCM- 2/01/89- 385.0 SCCM' 100 2HV-2624B 2/01/89.- 47.2lSCCM- 2/01/89 47.2 SCCM.
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- . TYPE B AND C'RESULTS.
- 0VARTERLY SURVEILLANCES q L
PENETRATION 83:
1; .
I
! PENETRATION Y&LVI DAIE LEAKAGE D&IE LEAKAGE b . 83 2HV-2626A . 8/10/89L 638.0.SCCM; -11/01/891 338.0LSCCM
- 83 .2HV-2626B
- 8/10/09: 134.'1 SCCM? :;11/01/89: -150~.0 SCCM; j ~ 83 2HV-2627A/B: 8/10/893 ::700.0:SCCM: 11/01/89 :3500.0"SCCM-L j-
- 83- -2HV-2626A
- - 2/07/90l .240.0 SCCM- 14/18/90 :-269.0 SCCM '
i - 83 2HV-2626B ; 2/07/90' -174.0 - SCCM _- -4/18/90' :_244~.0 SCCM -
j- - 2HV-2627A/B: 2/07/90e .737.0~SCCM i4/18/90l ::138.0 SCCM L
- 83 -
- 2HV-2626A- ' 7/10/901 :162.9fSCCM :10/22/903 178.4:;SCCM:
! q : 83 2HV-2626B- _ 7/10/90 ;62;1-SCCM:: 410/22/90: : 46.9 S( CM .- ,
j V 83 .2HV-2627A/B- 7/10/90 1922.0_-SCCM ;10/22/90 L 23.0 ' SCO.M :
b _ 83 -2HV-2626A- 41/24/91' 64.3 SCCM T4/17/91> 334.01SCCM i
>- . 83 2HV-2626B^ :1/24/91 -. 20.4=SCCM f4/17/91 130.0;SCCM L 83 2HV-2627A/B ,l/24/91- : 227.~3 :SCCM c .
14/17/91 1433.0 SCCM:-
- i. - -
[ 83 ;2HV-2626A:
'7/09/91 J92.4 SCCM: l10/02/91g t259.0;SCCM=
- 81.0-SCCM-
! '83 -.7/09/91- L74.6sSCCM -10/02/91
- 83 .2HV-2627A/Bi 7/09/91 491.0 SCCM) ?;10/02/91 ;783;0:SCCM '
83- '2HV-2626A: 1/07/92; 3120.0 SCCM) ~4/15/92l -36.3-SCCM
- 83 2HV-2626B; :1/07/92:. :2740.0=SCCM 4/15/92.- 255.0 SCCM
- 83 2HV-2627A/Bi --I/07/92.
- 4550.0 SCCM 14/15/92f 38.4 SCCM A _
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b) TYPE B AND C RESULTS - QUARTERLY SURVEILLANCES PENETRATION 84 PENETRATION yEJE DAIE LEAKAGE DAIE Ifa;ACd -
84 2HV-2628A 8/10/89 280.0 SCCM' 11/02/89 335.0 SCCM 84 2HV-2628B 8/10/89 f.,08.0 SCCN 11/02/89 91.9 SCCM 84 2HV-2629A/B 8/10/89 1562.0 SCCM 11/02/89 6010.0 SCCM 84 2HV-2628A 2/08/90 440.0 SCCM 4/20/90 1103.0 SCCM 84 2HV-26288 2/08/90 108.0 SCCM .4/20/90 863.0 SCCM a 84 2HV-2629A/B 2/08/90 191.0 SCCM 4/20/90 1008.0 SCCM 84 2HV-2628A 7/10/90 425.0 SCCM 10/23/90 578.0 SCCM 84 2HV-26288 7/10/90 42.0 SCCM 10/23/90 108.0 SCCM 84 2HV-2629A/B -7/10/90 7.0 SCCM 10/23/90 672.0 SCCM 84 2HV-2628A 1/24/91 560.0 SCCM 4/17/51 284'.0 SCCM
~
84 2HV-2628B 1/24/91 65.8 SCCM 4/17/91 68.8 SCCM 84 2HV-2629A/B 1/24/91 5700.0 SCCM 4/17/91 433.0 SCCM.
- 84 2HV-2629A/B 3/21/91 472.0 SCCM 84 2HV-2628A 7/10/91 87.0 SCCM 10/04/91- 435.0 SCCM 84 2HV-2628B 7/10/91 50.0 SCCM 10/04/91 ?9.0 SCCM 84 2HV-2629A/B 7/10/91 1150.0 SCCM 10/04/91 1796.0 SCCM 84 2HV-2628A 1/08/92 526.0 SCCM 4/16/92 1186.0 SCCM 84 2HV-26288 1/08/92 101.3 SCCM 4/16/92 85.4 SCCM 84 2HV-2629A/B 1/08/92 910.0 SCCM 4/16/92 519.0 SCCM
- Due to high leakage rate on 1/2d/91, additional LLRT performed on outboard valves on 3/21/91.
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() TYPE B AND C RESULTS - PERSONNEL AIRLOCK COMPOSITE TESTS QM1 LEAKAGE DME LEAKAGE 2/08/89 1411.6 SCCM _4/18/91 3956.0 SCCM 8/08/89 1018.0 SCCM 10/01/91 9686.1 SCCM 1/23/90 7316.0 SCCM 12/11/91 687.5 SCCM 6/15/90 101.8 SCCM 4/17/92 880.2 SCCM 10/29/90 3766.0 SCCM
( TYPE B AND C RESULTS - ESCAPE LOCK
~
tfhif0 SITE TESTS QUI LEAKAGE QME LEAKAGE 3/02/89 79.8 SCCM 10/26/90 367.8 SCCM-3/03/89 -782.6 SCCM 4/13/91 - 1366.0 SCCM 8/14/89- 485.3 SCCM '9/28/91 1091.3 SCCM 1/31/90 173.0 SCCM '2/28/92 '375.6 SCCM 6/27/90 1669.2 SCCM 4/14/92. ~779.0 SCCM dbf1143s(6) p)s l.
. __ _ . . _ . _ . .._._ _ __ . ~ . _ . _ _ _ , _ . . . - _ . . . ~ . _ _ , _ . _ . _ _ _ _ _ _ . _ . - _ . _
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9 p
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I j:
f 2/25/89 23.2 SCCM i; 10/30/90 12.2 SCCM-
.4/18/92 11.1 SCCM-- 1 1
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!- ct-1 TYPE.C'RESULTS --ELECTRICAL PENETRATIONST i . . .
- - ' Total electrical- penetration -leakage' for 72
- electrical penetrations har been:-
insignificant.-
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APPENDIX III
,. 3 INSTRUMENT CALIBRATION
SUMMARY
t]
r Parameter / Instrument Data S
Pres 8ure/ Range: 0 - 100 psia i Volumetrics-Model PPM-1000 Accuracy: +/-0.015% RDG Precision Pressure Gauge +/-0.002% F.S.
Repeatability: +/-0.001% F.S.
Resolution: 0.001% F.S.
Cal. Date: 1-27-92 Drybulb Temperature /- Range: 0 to +150 degrees F 100 OHM Platinum Resistance Accuracy: +/-0.1 degrees F Temperature Detectors Sensitivity: 0.01 degrees F Repeatability: 0.01 degrees F Cal. Date: 3-5-92 Dew point Temperature / Range: -40 to +140 degrees F EG&G Dowtrak Humidity Accuracy: +/-1 degrees F Transmitter Cal. Date: 2-12-92 Flow / Range: 0 to 13.4 scfm Brooks Rotameter Accuracy: +/-2.0% FS Model GT-1000 Cal. Date: 3-5-92
- (/}
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APPENDIX IV GENERAL INFORMATION b)~
s.
General Data Owner - Georgia Power Company
- Plant Name - Vogtle Electric Generating Plant (VEGP)
Unit - 2 Outage Cycle - 2nd refueling Containment Description - steel _ lined prestressed concrete Date test was completed - April 19, 1992 Test Data Test Method - absolute Test Duration - 8.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br />s-Data Analysis Technique - total time Test Pressure 45.0 (+1.0 psig, -0 psig)
Maximum Allowable Leakage Rate (La) 0.200 wt.-t/ day Acceptance Limit ~(0.75La) 0.150 wt.%/ day calculated Leakage Rate (Lam). 0.0209 wt.%/ day calculated' leakage rate at upper confidence limit (UCL) 0.1373 wt.%/ day Final leakage rate (UCL + penalties)_ 0.1410 wt.%/ day Verification Test
(~}l
'w Calibrated Leak Superimposed- 0.1956 wt.%/ day Upper limit rate _0.2665 wt.%/ day Lower limit rate 0.1665.wt.%/ day Total time calculated rate 0.2185 wt.%/ day Duration of Test. Segments.
Pressurization , 11.1 hours1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> Stabilization 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> Type A Test 8.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> Verification 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> + 4.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> Depressurization 7.03 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> Total 36.38 hours4.398148e-4 days <br />0.0106 hours <br />6.283069e-5 weeks <br />1.4459e-5 months <br />.
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..- < APPENDIX-V -
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- - TEST DATA t-p '
lD -Raw data'for'the Type lA Test.and the Veri fi cat i on Tes t'are presented-in this' appendix.= -
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1992 VEGF Unit 2 Typ3 A TCOt data' set i rwg time = 14CJ date = 419
sensor raw data value temparature 1( 86.640 ) = 86.640 deg. F temperature 2( 86.020-) = 86.020 deg. F-temperature 3( 86.540 ) = 86.540 deg. F temperature 4( 86.520 ) = 86.520 deg. F temperature 5( 86.820 )- = 86.820 deg. F temperature 6 (- 86.680 ) = 86.680 deg. F temperature 7( 86.740 ) = 86.740-deg. F temperature 8( 87.540 ) = 87.540 deg. F temperature 9( 86.610 ) = 86.610 deg. F temperature 10 ( 86.410 ) = 86.410 deg.-F
! temperature 11 ( 84.930 ) = 84.930 deg. F 86.440 ) 86.440 deg.-F temperature 12-( =
temperature 13-( B5.330 ) = _85.330 deg. F temperature 14 ( 85.850 ) = 85.850 deg. F temperature 15 ( 84.530 ) = 84.530 deg. F temperature 16 ( 84.470 ) =- 84.470.deg.-F temperature 17_( 84.610 ) = 84.610 deg. F temperature 18 ( 84.340 ) = 84.340 deg.:F-temperature 19 ( 81.220 ) = 81.220 deg. F temperature 20 ( 83.940 )_ = 83.940 deg. F temperature 21 ( -82.020 )- = 82.020 deg..F
<- temperature 22 (. 80.800:) = 80,800-deg. F (sj temperature temperature 23 ( 80.780 )
24 ( 79.160 )
=
=
80.780 deg. F 79.160 deg. F temperature 25 (- 80.420 ) = 80.420 deg. F ,
temperature 26 ( 79.750 ) = 79.750 deg..F temperature 27 ( 79.620 ) = 79.620 deg. ?
temperature 23 ( 78.470 ) = 78.470 deg.'F temperature 29 ( 77.970 )~ = 77.970 deg. F 3
temperature 30-( 75.780 ) =. 75.780 deg. F dewpoint 1 ( 82.120 )_ =- 82.120 deg. F , 0.5430 psia dewpoint 2 ( 80.650 ) = 80.650 deg. F , 0.5177 psia dewpoint 3 ( 78.790') =- -78.790 deg. F , 0.4871 psia dewpoint 4 ( 71.940-) = 71.940 deg. F', 0.3876 psia dewpoint 5 ( '71.680-) = 71.680'deg..F ,_0.3843 psia dewp int '6 (- -71.810 ) = 71.810 deg. P ,-0.3859 psia pressure 1 ( 60.0803-) = 60.0803; psia 60.0900 )
~
pressure 2 ( = 60.0900 psia-weighted averages,-volume and air mass temperature- =- 83.81346 deg. F-pressure = 60.08030 psia vapor pressure = ~0.45389;psiaz volume = 2750000 cu. ft.
- dry air mass = 814353.67 lbu
[/
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'1992 VEGP Unit 2~Typ3 A Tact data set 2 qr-) time = 1415 date = 419 V sensor raw data value temperature. 1 ( 86.530 ) = 86.530 deg. F temperature 2 ( 85.920 ) = 85.920 deg. F temperature' 3 ( 86.420 ) = 86.420 deg. F temperature 4 (' 86.410 ) = 86.410 deg. F temperature 5 ( 86.720 ) = 86.720_deg. F temperature 6 ( 86.550 ) = 86.550 deg. F temperature 7( 86.640 ) =- 86.640 deg. F-temperature 8 ( 87.430 ) = 87.430 deg. F temperature 9 ( 86.510 ) = 86.510 deg. F temperature 10 ( 86.270') = 86.270 deg. F temperature 11 ( 84.800 ) = 84.800 deg. F temperature 12 ( 86.320 ) = 86.320 deg. F temperature 13 ( 85.210 ) = 85.210 deg. F temperature 14 ( 85.730 ) = 85.730 deg. F temperature 15 (. 84.420') = 84.420 dog. F temperature 16 ( 84.360 ) =- 84.360 deg. F temperature 17 ( 84.470 ) = 84.470 deg. F temperature 18 ( 84.240 ) = 84.240 deg. F i temperature 19 ( 81.150 ) = 81.150 deg'. F. l temperature.20 ( 83.820 ) = 83.820 deg. P temperature 21.( 81.980 ) = 81.980 deg. F g temperature 22 ( 80.780 ) = 80.780 deg. F l
() temperature 23 ( 80.750-) = 80.750-deg. F temperature 24 ( 79.130 ) e 79.130 deg. F temperature 25 ( 80.400 ) = 80.400 deg. F ,
temperature 26 ( 79.720 ) = 79.720 deg. F temperature 27 ( 79.600 ) = 179.600 deg. F temperature 28 ( 78.460 ) = 78.460 deg.L F temperattre 29 ( 77.960 ) = 77.960 deg. F temperature 30 ( 75.760 ) = 75.760 deg. F dewpoint 1 ( 82.080-) = 82.080 deg. F ,.0.5423 psia' l dewpoint' 2 ( 80.580 ) = 80.580.deg. F~, 0.5165 psia
. dewpoint 3 ( .78.750 ) -= -78.750 deg.-F:, 0.4865 psia-dewpoint 4 ( 72.820.) -= 72.820 deg. F , 0.3993 psia dewpoint 5 ( 71.790-). = 71.790 deg. F.,.0~.3857 psia dewpoint '6 ( 71.960') = 71.960 deg. F , 0.3879 psia t
pressure 1 ( 60.0701 )~ =1 .60.0701 psia pressure 2. ( .6 0 . 0 7 9 8 .) . =- 60.0798 psia-weighted averages, volume and air mass temperature = 83.72638 deg. F pressure- = 60.07010 psia vapor pressure =- 0.45603 psia
! volume = 2750000 cu. ft.
J'^y~ dry air mass = 814315.60 lbm
- V _
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- . ~ . - . ..
- 1992 VEGP Unit 2 Typ3 A To2t data set 13' A
(,,/ .
time = 1430 date = 419 sensor ra( data value temperature 11c~( 86.420s) =L 86.420 deg.1F temperature 2 ( 85.810 ) = 85.810 deg.-.F temperature 3 ( 86.310 }- = 86.310 deg. F temperature 4 ( 86.270-) - =. .86.270 deg.-F.
temperature 5( 86.600 ) = 86.600 deg. F
- temperature 6 - (- 86.440 ) = 186.440 deg.'F temperature -7 (; 86.490 ) = 86.490 deg. F i temperature 8 - (- 87.300 ) .= 87.300 deg. F
- temperature 9 ( 86.380 ) = 86.380-deg. F
- temperature.10 ( 86.170 ) = 86.170 deg. F
, temperature 11--( 84.660 )- = 84.660 deg. F .
- temperature 12 ( 86.190 )- -
=- 86.190 deg._F i
temperature 13_( 85.080 )- = 85.080 deg. 1P temperature 14--( 85.610 ) =' 85.C10_deg._F
, temperature 15-( 84.280 )- =< 84.280 deg. F .
temperature 161( = 84.220-deg..F temperature 17-( 84.220 84.320 )) " = 84.320.deg.=F. ,
temperature 18 (_ 84,120 )' = 84.120udeg. F
, temperature 19 ( _81~.080 ) = 181.080;deg.JF
, temperature-20-( 83.730_) =- 83.730Ldag. F' 81.950 deg.: -FJ
()j temperature 21 (J 81.950.)- =
temperature 22 ( '80.760') = 80.760:deg.LF.
. temperature 23 ( -80.720-) = 80.720 deg. F temperature 24 (. 79.110 ) = 79.110 deg..F .
temperature-25 ( 80.380 ) =- 80.380 deg. F temperature 26 (. 79.720') = 79.720 deg.iF?
- temperature 27_( 79.590') = 79. 590 : deg. s F -
temperature 28;( 78.460 ) = 78.460Ldag.7F; >
i temperature 29;(. 77.980 ). = 77.980,deg. 1F temperature =30-( 75.780-) = 175.780;deg.RF p
_ dewpoint 1 :(: 82.070 ) =- 82.070 deg.LF_,.0.5422 psiaj dewpoint. 2 (= : 80.310 ). =. 80.310 deg.-F ,SO4 5120; psia-4 dewpoint 3 -( 78.~630 ) = 78.630.deg.EF , 0.4846 psia dewpoint -4 ( -72.150 ) =- 72.150Tdeg.iF ,f0.3904 psia-
- dewpoint 1 5 ( 72.020 ). = :72. 020 ' deg. F ,- 0.3887_ psia-dewpoint L6 -( 72.150.) = ,72 ; 150 : deg. ...F _ , . 0'. 3 9 041 psia :
pressure 1 ( 60.0603 ) = : 60.0603 psia!
60.0699. psia
. pressure -2 -(4 60.0699c) =
. weighted averages, volume and air mass
-temperature = - 83.63675 deg.xF pressure = 60.06030-psia vapor pressure = 0.45399Lpsia i
/~'\ . volume u- 2750000 cu. ft..
- k/I dry' air mass a 814343.99.lbm T
4 -an-y . e ,, -g 4 w , < , . . , u v . -e.o d a r 4 , y g g g y -+e
. . .. . - - =
l 1992 VEGP Unit 2lTyps A Tsot .
1 b data set 4 time = 1445 date = 419 l sensor raw data value l temperature' 1 ( 86.310 ) = :
86.310 deg. F
- temperature 2.( -85.700 ) = 85.700 deg. F
- temperature 3 ( 86.190 ) = 86.190 deg. F 4 temperature 4 ( 86.160 ) = 86.160 deg.-F.
l temperature 5-( 86.490 ) = 86.490 deg.-F-i temperature ~6 ( 86.340 ) = 86.340 deg.-F temperature 7 ( 86.370 ) =; 86.370 deg.-F temperature- 8 ( 87.190-) = 87.190 deg. F j temperature 9 ( 86.280 ) = 86.200 deg.'F-4 temperature 10 (- 86.060 ) = 86.060 deg. F-i temperature 11 ( 84.540 ) = - 84.540 deg. F F temperature 12' (- -86.110 ) = - 86.110 deg. F temperature 13 ( 84.930 )_ t= - 84.930 deg. F temperature 141( _85.490 ) = 85.490-deg..F temperature 15.( 84.170 ) = - 84.170 deg. F t temperature 16~(_184.110 ) -= 84~.110 deg.EF '
- _ temperature 17 (. 84.220-)_ =
- 84.220 dag. JP temperature 18 ( :84.000:) = 84.000_deg. F
[ temperature.19 ( 81.010 ) = - 81.010 deg. F
] temperature 20 ( 83.640 ) = 83.640;deg. F temperature'21-( '81.9001) = - .81.900 dag. F
- - (f' s temperature 22-( 80.740
- ) = - 80.740 deg..F temperature 23 ( 80.7107)- = 80.710 deg.lP.
temperature 24_(_ 79.090 ) '= 79.090 deg. .F ,
< temperature _25 ( 80.380 ) = 80.380-deg.;F.
temperature 26 ( 79.710 ) = 79.710'deg.LF-E temperature 27 (- 79.590 ) = 79.590-deg. lP-
' temperature 28.-(
~
J8.460-)- = 78.460.deg.-F temperature 29 ( 77.980 ) = :77.980 deg. F= -r
, temperature 30-( -75.760:) = 75.760 deg.1F 4 dewpoint- 'l ( -82.080-) = 82.080 deg. F ,-0.5423-psiai dewpoint. 2 ( 80.470 ) = 80.470__deg. . F.,._0.5147 psia j dewpoint _ 3_ ( 78.950-) = 78.950 deg. F , 0;4897' psia.
t -dewpoint 4 ( 73. 050 '-) . = 73.050 deg;-F ,s0.4024 psia, dewpoint 5 ~( 72.'140-) =- .72.140Ldeg.-~-F1,10.3903.psiaf dewpoint .6 ( 7 2 . 2 4 0 -- )' : = - : 72. 24 0 ' deg. J F; , .- 0. 3 916_ psia '
. pressure 1- ( 60.0508?) .= -60.0508 psia pressure :2 ( . 60.0605 ) =
~
60.0605. psia I weighted averages, volume and air; mass temperature _ -= '83.55584_deg. F1 pressure = - 60.05080 psia-7 vapor pressure == ' 0.45803= psia.
[ /:
ON-
. volume
-dry. air mass
- =
=
2750000 cu.-ft.
814280.25-lba 4
t w -+Tg 't P- m- M ^). ** $ 3.- g g 75 P= giiv e re-p9g eyy-
4 19921VEGP Unit-2 Typ3 A Tact
. data set- 5 time = 1500 date = 419 4
sensor raw data value temperature = 1-(- 86.200 ) _ = - 8 6. 2 00 . deg . F temperature 2;( 85.580-); = 85.580'deg.' F _
temperature 3 ( 86.090 )- = 86.090 deg.JF temperature' 4 ( 8 6. 03 0 ')-- = 96.030 deg. F temperature 5 ( 8G.370 ) = 86.370 deg. F
-temperature 6( 86.210 ) = - - 86.210'deg.1 F F temperature . 7 ( 86.270 ) = 86.270 deg. F temperature 8 ( 87.090 )- = 87.090 dag. F
- temperature 9 ( 86.160 ) = 86.160 deg. F
-tempercture 10 ( 85.900 )L = 85.900 deg. F temperature 11 (-'84.410 ); = 84.410 deg. F >
tempe ature;12 ( 85.990')
=- 85.990 deg. F
. Etemperature 13 ( 84.820-) = - 84.320;deg. F .
temperature 14 ( 85.350 ) = 85.350 deg.*F
. temperature'15 ( 84.040 ) -= 84.040_deg.:F temperature 16 ( 83.980-); = 83.980:deg.:F 4 temperature 17 (' 84~.070')- =: 84.070:deg. F'
- . temperature 18 ( 83.880 ) = 83.880 deg.~F temperature 19'( 80.940 ) =- -80.940 deg.JF
-temperature 20~( 83.520') = 83.520 deg. F
+
f-s temperature 121 (- 81.850 ) = 81.850 dag. F.
I
- r temperature 22--( 80.700--) = 80.700 deg. F 4 \~/ temperature 23 (. 80.670 )L = 80.6701deg.1F
- temperature 24 ( 79.060 ) = 79.060 deg. F ,
1 temperature 25 ( 80.350.). = 80.350 deg. F temperature 26 ( ~79.680,) = 79.680 deg..F temperature 27'(- 79.570-) =- 79.570 deg. F temperature 28 ( 78.440~). = '78.440Ldeg. F temperature 29 ( 77.970-) = 77.970 deg. Fi temperature 30 ( -75.760 ) = 173.760 deg. F' J
dewpoint 1- ( <280_). = 81~.980 deg.1F,,f 0.5406; psia-dewpoint 2 ( 80.430-)i = 80.'430 deg.1Fc,;0.5140 psia-dewpoint- 3 ( 78.950_-) ==- 178 950ldeg.1F,,-0.'4897 psia-
, dewpoint 4 ( 72.990f) = -72.990fdeg.lF;,3 0'4016 . psia dewpoint 5 ( 172.270-) - =- 72.270 deg.JF.,30.3920 psia 4 dewpoint 6 ( 72.3701) ! : = -72.370 deg. Ff,_0.3933 psiaj .
J pressure 1- -( 60.0418') =- 60.0418_ psia
> pressure- 2 ( 60. 0516L ')-- =L 60.0516 psia-weighted? averages, volume land; air.. mass? .
temperature -= :83.46207 deg.:F--
pressure:. ~=- 560.04180 psia 4
.. vapor pressure = 0.45800 psia volume = 2750000 cu.1ft.
(p/
\ss dry air mass = 814298.31 lbm o
e P V- W 4 F e ti g+ -
y- a-"-y :-< ga -) * -ry 'f 'Nwt8-TfT-t Y T-w v -Mr-V y~@N'
1992 VEGP Unit 2 Typ3 A TOct data cet 6 -
(Oj time = 1515 date = 419 sensor raw data value temperature 1 ( 86.08C ) = 86.080 deg. F temperature 2 ( 85.490 ) = 85.490 deg. F temperature 3 ( 85.990 ) = 85.990 deg. F temperature 4 ( 85.940 ) = 85.940 deg. F temperature 5 ( 86.280 ) = 86.280 deg. F :.
temperature 6 ( 86.120 ) = 86.120 deg. F- i' temperature 7 ( 86.180 ) = 86.180 deg. F-temperature 8 ( 87.000 ) = 87.000 deg. F temperature 9 ( 86.070 ) = 86.070 deg. F temperature 10 ( 85.830 ) = 85.830 deg. F temperature 11 ( 84.300 ) = 84.300 deg. F temperature 12 ( 85.930 ) = 85.930 deg. F temperature 13 ( S4.720 ) = 84.720 deg. F temperature 14 ( 85.240 ) = 85.240 deg. F temperature 15 ( 83.930 ) = 83.930 deg. F temperature 16 ( 83.890-) = 83.890 deg. F temperature 17 ( 83.970 ) = 83.970'deg. F temperature 18 ( 83.800 ). = 83.800 dog. F temperature 19 ( 80.870 ) = 80.870 deg. F temperature 20 ( 83.460 ) = 83.460 deg. F' temperature 21 ( 81.840 ) = 81.840 deg. F
(,_ ) temperature 22 ( 80.700 ) = 80.700 deg. F
\/ temperature 23 ( 80.670 ) = 80.670 deg. F temperature 24 ( 79.060 ) = 79.060 deg. F ,
temperature 25 ( 80.330 ) = 80.330 deg. F temperature 26 ( 79.670 ) = 79.670 deg. F temperature 27 ( 79.570 ) = 79.570 deg. F temperature 28 ( 78.460 ) = 78.460 deg. F temperature 29-( 77.990 ) = 77.990 deg. F temperature 30 ( 75.760 ) = 75.760 deg. F dewpoint 1 ( 81.960 )' = 81.960 deg. F , 0.5402 psia dewpoint 2 ( 80.310 ) u 80.310 deg. F , 0.5120 psia dewpoint 3 ( 78.670 ) = 78.670-deg. F , 0.4852 psia dewpoint 4. ( 73.330.) = 73.330'deg. F-, 0.4063 psia dewpoint 5 ( 72.440 ) = -72.440 deg. F , 0.3943 psia dewpoint 6 ( 72.490 ) = 72.490.deg. F , 0.3949 psia i pressure 1 ( 60.0328 ) = 60.0328 psia pressure 2 ( 60.0428 ) = 60.0428 psia weighted averages, volume and air mass temperature = 83.39849 deg. F pressure = 60.03280-psia vapor pressure = 0.45808 psia
[~') volume = 2750000 cu. ft.
(f dry air mass = 814269.47'lbm 1
1
1992-VEGP Unit 2 Typ3 A Tcat data set 7' q
(_,1 time = 1530 date = 419 sensor raw data value temperature 1 (~ 86.000 )- = B6.000-deg. F temperature 2 ( 85.400 ) = 85.400 deg. F temperature 3 ( 85.890 ) = 85.890 deg. F temperature 4 ( 85.860-) = 85.860 deg. F temperature 5 ( 86.160 ) = 86.160 deg. F temperature 6_( 86.030 ) a- 86.030 deg. F ,
temperature 7 ( 80.070 ) = 86.070 deg. F tamperature 8 ( 86.880 ) = 86.880 deg. F temperature 9 ( B5.990 ) = 85.990 deg. F temperature 10 ( 85.700 ) = 85.700 deg. F temperature 11 ( 84.190 ) = 84.190 deg. F temperature 12 ( 85.820 ) = 85.820'deg. F temperature 13 ( 84.580 ) = 84.580 deg. F temperature 14 ( 85.140-) = 85.140 dog. F temperature 15 ( 83.850 ) = 83.850 deg..F temperature 16 ( 83.780-) = 83.780 deg. F temperature 17 ( 83.870 ) = 83.870 deg. F temperature la ( 83.700 )- = 83.700 deg. F temperature 19 ( 80.810 ) = 80.810 deg. F-temperature 20-( 83.380 ) = 83.380 deg. F r~s temperature al (- 81.770-) = 81.770 deg. F
'( ,) temperature 22 ( 80.670 ) = 80.670 deg. F temperature 23 ( 80.650 ) = 80.650 deg.lF temperature 24 ( 79.020 ) = 79.020 deg. F tamperature 25 ( 80.330 ) n 80.330 deg. F
-temperature 26 ( 79.660 ) = 79.660 deg. F temperature 27 ( 79.560-) = 79.560 deg. F temperature 28 ( 78.430 ) = 78.430 deg. F temperature 29 ( 77.980 ) = 77.980 deg. F-temperature 30 ( 75.760 ) = 75.760_deg. F dewpoint 1 ( 81.940 ) = 81.940 deg. F , 0.5399 psia dewpoint 2~ ( 80.270 ) = 80.270 deg. F , 0.5113 psia dewpoint 3 ( 78.740 ) = 78.740 deg. F , 0.4863 psia
-dewpoint 4 ( 73.380 )- = 73.380-deg. .
F1 , 0.4069 psia dewpoint 5 ( 72.540 ) = 72.540 deg. F ,1 0.3956 psia dewpoint 6 ( 72.580 ),
= 72.580-deg. F , 0.3961 psia-pressure 1 ( 60.0243 )- = 60.0243 psia pressure 2 ( 60.0344') = 60.0344 psia weighted averages, volume.and' air mass temperature = 83.32086 deg. F pressure = 60.02430 psia
,_ vapor pressure = 0.45860 psia i i volume = 2750000 cu. ft.
\J dry air mass = 814262.57 lbm i
~: . - _ _ _ _ _ _ _ _ - - _ . - 1
1992 VEGP Unit 2 Typ3 A TOOT data set 8 n date = 439 f time = 1545 sensor raw data value 4
temperature 1( 85.900 ) = 85.900 deg. F temperature 2( 85.290 ) = 85.290 deg. F temperature 3 ( 85.800 ) = 85.800 deg. F temperature 4( 85.750 ) = 85.750 deg. F temperature 5 ( .86.070 ) = 86.070 deg. F temperature 6 (- 85.940 ) = 85.940 deg. F
, temperature 7 ( 85.960 ) = 85.960 deg. F temperature 8 ( 86.770 ) = 86.770 deg. F temperature 9 (. 85.870 ) = 85.870 deg. F temperature 10 ( 85.630 ) = 85.630 deg. F temperature 11 ( 84.090 ) = 84.090 deg. F temperature 12 ( 85.720 ) = 85.720 deg. F temperature 13 ( 84.470 ) = 84.470 deg. F
- temperature 14 ( 85.040 ) = 85.040 deg. F-temperature 15 ( 83.750 ) = 83.750 deg. F temperature 16 ( 83.680 ) = 83.680 deg. F temperature 17 ( 83.780 ) = 83.780 deg. F temperature 18 ( 83.600 ) = 83.600 deg. F temperature 19 ( 80.740 ) = 80.740~deg. F temperature 20 ( 83.290 ) = 83.290 deg. F temperature 21 ( 81.740 ) = 81.740 deg. F g-);
, temperature 22 ( 80.640 ) = 80.640 deg. F temperature 23 ( 80.640 ) = 80.640 deg. F temperature 24 ( 79.010 ) = -79.010 deg. F _
temperature 25-( 80.310 ) = 80.310 deg. F temperature 26 ( 79.640 ) = 79.640 deg. F-temperature 27 ( 79.550 ) = 79.550 deg. F temperature 28 ( 78.430-) = 78.430.deg.,F temperature 29 ( 77.980 ) = 77.980 deg. F
. temperature 30 ( 75.750 ) = 75.750 deg. F dowpoint 1 ( 81.830 ) = 81.830 deg. F , 0.5380 psia dewpoinu 2 ( 80.300 ) = 80.300 deg. F,, 0.5118 psia
' dewpoint 3 ( 78.700 ) = 78.700 deg. F , 0.4857_ psia dewpoint 4 ( 73.390 ) = 73.390 deg. F , 0.4071 psia dewpoint 5 ( 72.670 ) = ~ 72.670-deg..F ,10.3973 psia dowpoint -6 ( 7?.690 ) = 72.690'deg. F, 0.3976 psia precsure 1 ( 60.0159 ) = 60.0159 psia pressure 2 ( 60.0263 ) = 60.0263 psia weighted averages, volume and air mass temperature = 83.24734 deg. F pressure. = 60.01590 psia vapor pressure = 0.45877 psia
()(~/
volume dry air mass
=
=
2750000 814255.68 cu..ft.
lbm
1992 VEGP Unit 2 Typ3 A TGot data set 9 (h
(_) time = 1600 date = 419 sensor raw data value temperature 1( 85.800 ) = 85.800 deg. F temperature 2 ( 85.200 ) = 85.200 deg. F temperature 3 ( 85.700 ) = 85.700 deg. F temperature 4 ( 85.660 ) = 85.660 deg. F temperature 5 (- -85.980 ) = 85.980 deg. F temperature 6 ( 85.830 ) = 85.830 deg. F temperature- 7 ( 85.850 ) = 85.850 deg. F temperature 8 ( 86.680 ) i= 86.680 deg.-F temperature 9 ( 85.790 ) = 85.790 deg. F temperature 10 ( 85.540 ). = 85.540 deg. F temperature 11 (_ 83.980') = 83.980 deg. F temperature 12 ( 85.640 ) = 85.640 deg. F temperature 13 ( 84.370 ) = 84.370 deg. F reaperature 14 ( 84.920 ) = 84.920 deg'.F temperature _15 ( 83.660-) - = 83,G60 deg. .F temperature 16'( 83.600 ). - = 83.600 deg. F 83.700 ) =
temperature 17 ( 83.700 deg. F temperature 18 ( 83.500 ) = 83.500'deg. F temperature 19 ( 80.690 ) . = 80.690 deg. F temperature 20 ( 83.240 ) = 83.240 deg.-F f-) temperature 21 ( 81.720 ) = 81.720 deg. F
- ('f ' temperature 22-(. 80.630 ) = _ 80.630 deg. F temperature-23-(' 80.610 ). = 80.610 deg.lP temperature 24 ( 78.990 ) = 78.990 deg. F .
temperature 25 ( 80.310 ) = 80.310 dag. F temperature 26'( -79.640 ) = 79.640 deg.lF temperature 27: ( 79.550 ) = - 79.550 deg. F temperature 28 ( 78.440 ) = 78.440.deg. F temperature.29 ( -77.990 ) = 77.990 deg. F temperature 30;( 75.760 ) = 75.760 deg. F dewpoint 1 -( 81.780 ) = 81.780 deg. F ,l0.5371 psia dewpoint 2 ( 80.310 ) = 80.310 deg.:P , 0.5120 psia dewpoint 3 ( 78.600 ) = 78.600 deg. F', 0.4841 psia dewpoint 4 (_ 73.7101) = 73.710 deg. F , 0.4115 psia dewpoint 5 ( -72.790 ). = 72.790 deg. F ,_O.3989 psia dewpoint- 6 ( 72.7501) = 72.750 deg. F , 0.3984 psia-pressureL 1 ( 60.0079 ) = 60.0079 psia-pressura 2 ( 60.0182 ) = 60.0182 psia 4
weighted averages, volume and a.r mass temperature = 83.18168 deg. F pressure = 60.00790 psia-vapor pressure = 'O.45948 psia
/,_.) volume = 2750000 cu. ft.
wl - dry air mass = 814235.07 lbm l
j
- _ _ m .. . . . .. . ._
1992 VEGP Unit 2 Typa A Toct data set 10-
^( 3 time = 1615 date = 419 sensor raw data value temperature 'l ( 85.720 ) = 85.720 deg. F-temperature 2 ( 85.110 ) = 85.110-deg. F temperature 3 ( 85.600 ) = 85.600 deg. F temperature 4- ( 85.560 ) = 85.560 deg. F temperature 5 ( 85.880 ) = -85.880 deg. F temperature 6 ( 85.7f; ; 85.760 deg. F temperature 7 ( 85.760 ) 85.760 deg._F temperature 8 ( 86.600 )- r. 86.600 deg.-F temperature- 9 ( 85.700 ) = 85.700_deg. F temperature 10_( 85.470 ) = 85.470 deg.-F temperature 11 ( 83.870 ) -= 83.870 deg.-F temperature 12 ( 85.540 ) = 85.540;deg. F temperature 13 ( 84.280 ) = 84.280-deg. F temperature 14 ( 84.820 )_ = 84.820 deg. F temperature 15~( 83.570 ) = 83.570 deg. F temperature 16 ( :83.490 ) = 83.490 deg. F temperature 17 ( 83.600 ) = 83.600 deg. F-temperature 18.( _83.400 ) = 83.400;deg. F temperature 19 ( '80.610 ) = 80.610:deg. F temperature 2^ I, 83.170-) = 83.170-deg. F
,_ temperature.21 ( 81.680 ) = 81.680:deg. F
( temperature 227' 80.620 ) = 80.620.dec. F
\- temperature 23-( 80.600_) = 80.600 deg..F
' temperature 24 ( 78.970 ) = 78.970 deg.'F ,
temperature-25l( 80.300 ) = 80.300 dag.-F temperature 26 (-.79.630 ) .= 79.630-deg. F-temperature 127 ( -79.550-) = 79.550 deg. F temperature 28 ( 78.430 ) = -78.430 deg. F temperature 29-( .77.990-): = 77.990ideg. F-temperature 30 (; 75.760 ) = -75.760 deg.: F dewpoint 1- ( 81.760 ). =- 181.760 deg. F ,-0.5367 psia 3 dewpoint 2 ( 80.230l). = 80.230 deg.:P ,- 0.51071 psia dewpoint -3 ( 78.640-)) = -78.640 deg. F:,_0.4847 psia-dewpoint :4 :( 73.630')l = -73.630,deg._F;, 0.4104; psia-dewpoint- 5 ( 72.9202) o=- 72.920 deg.-F , 0.4007 psia dewpoint-_6- (E'72.860 ) = 72.860 deg.-F_-,10.3999-psia.
_60.0000. psia pressure 1 ( -60.0000 ): =
pressure '2- ( 60.01043). - 60.0104 psia weighted averages, volume and air-massL temperature ~ =- 83.11382[deg. F pressure =- 60.00000 psia vapor: pressure = 'O.45957Jpsia S/~'\ volume- =' 2 7 5 0 0 0 0 c u . --.f t .
7(j dry air mass = 814227.69 lbm'
)
1992.VEGP Unit 2 Typ3 A TCct data set 11-4 (w time = 1630 date = '419 sensor raw data value temperature 1 ( 85.680 ) = 85.680'deg. F temperature 2- ( 85.050 ) = 85.050 deg. F temperature 3 ( B5.560 ) = 85.560 deg. F temperature 4 ( 85.480 ) = 85.480 deg. F temperature 5 ( 85.800 ) = 85.800 deg. F temperature 6 ( 85.680 ) = 85.680-deg. F temperature 7 ( 85.670 ) = 85.670 deg. F temperature 8 ( 86.510 ). = 86.510 deg. F temperature 9 ( 85.620 ) = 85.620 deg. F temperature 10 ( 85.380 ) = B5.380 deg. F.
temperature 11 (' 83.790 ) = 83.790 deg. F temperature 12 ( 85.470 ) = 85.470 deg. F temperature 13 ( 84.180 }- = 84.180 deg. F temperature 14 ( 84.750 ) = 84,750 deg. F temperature 15 ( 83.500 ) = 83.500 deg. F temperature 16 ( 83.410 ) = 83.410 deg. F temperature 17 ( 83.510 ) = 83.510 deg. F temperature 18 ( 83.320 ) = 83.320 deg. F temperature 19 ( 80.560 ) = 80.560 deg. F temp;rature 20'( 83.040 ) = 83.040 deg. F temperature 21 ( 81.630 ) = 81.630 deg. F 7s i temperature 22 (- 80.610 ) = 80.610 deg. F
- temperature 23 ( 80.580 ) = 80.580 deg.-F
'~/ temperature 24 ( 78.970 ) = 78.970 deg..F temperature 25 ( 80.290 ) = 80.290 deg. F ,
temperature 26 ( 79.610 ) = 79.610 deg. F temperature 27 ( 79.530 ) = 79.530 deg. F temperature 28 ( 78.430 ) =- 78.430 deg. F temperature 29 ( 77.980 ) = 77.980 deg. F temperature 30 ( 75.750 ) = 75.750 deg. F dewpoint 1 (' 81.730 ) = 81.730 deg. F , 0.5362 psia dewpoint 2 ( 80.170 ) = 80.170 deg. F , 0.5097 psia dewpoint 3 ( 78.740 ) = 78.740 deg. F , 0.4863 psia dewpoint 4 ( 73.570 ) = 73.570 deg. F , 0.4095 psia dewpoint- 5 ( 72.980 ) = 72.980.deg. F ,.0.4015 psia dewpoint 6. ( 72.920 ) = 72.920 deg. F , 0.4007 psia pressure 1 ( 59.9927 ) = 59.9927 psia pressure 2 ( 60.0030 ) = 60.0030 psia weighted averages, volume and air mass temperature =- 83.05324 deg. F pressure = 59.99270 psia
-vapor pressure = 0.45969 psia
. volume- = 2750000 cu. ft.
(~'} . dry air mass = 814217.01 lba LI
1992 VEGP Unit 2 Typi A Toot data set 12 -
() time = 1645 date = 419 sensor raw data value temperature' -1[(L 85.560 ) = 85.560 deg. F temperature. 2 ( 84.950L) = '84.950 deg.'F temperature _ 3 ( 85.490 ) = 85.490.deg. F-temperature- 4-( 85.400 ) = 85.400 deg. F temperature 5 (- 85.720:) =- .85.720fdag. F tenparature 6. ( .85.590-) = 85.590 dagi-F-temperature _7-( 85.590 ) = -8S.590 dag. F temperature 8 ( 86.430 ) = 86.430 deg. F tnaparature 9 (. 85.530 ) =- 85.530 deg._F-temperature 10 (-.85.280 ) = 85.J80 dag. F temperature 11 ( 83.690-) = 83.690 dog. F temperature 12 ( 85.360 ) = 65.360 deg. F.
temperature 13 (- 84.090') = 84.090 deg. F temperature 14 ( _ 84.650 ) =' 84.650-deg. F
-temperature 15L(. 83.410_) = 83.410 deg. F temperature 16 ( 83.3401)- =- _83.340fdeg. F .
temperature 17_(- 83.-410 ) .=- 83.410 dog.-F-- -
tempereture 18-( 83.2601)? = _83.260 deg. F temperatur; 19 ( .80.500 ) = .80.500 deg.:F:
temperaturc 20-(. 82.950 )' = 82.950 dag -F ;
temperature 21 ( 91.600 )- = 81.600 deg.-F temperature 22 ( 80.590 )- = -80.590 deg.-F
( temperature.23_( 80.560-) 'a 80.560 deg. F temperature 24-( 78.940') = 78.940:deg. F _
temperature 25 ( 80.280_.) = 80.280 deg.EF-temperature;26 ( 79.600-) = 79.600 deg.EF temperature 27 (- 79.530 ) . * ~ 79.530 dag..F
-temperature 28.( 78.420 ) = ;78.420'deg. F '
temperature 29 (_ 77.980') =- ;77.980:deg. F
,. temperature 30-( 75~.750 ) = 75;750 deg. F dewpoint- 1 ( >81.710 )' = 81.710 deg.OFL, 0.5359tpsia dewpoint. 2_ '( 80.130 ) = 80.13 0 Edeg. f F.:-L, : 0.5090 psia dewpoint 3 ( 78.580 ). = 78.580.deg. F ,_0.4838 psia dewpoint 4__ (- 7 3 . 6 8 01 )__ - = - j73.680(deg._F_-,10.4111 psia-dewpoint 5 -( 72.990 ) := 72.990 deg.rF , 0.4016apsia dewpoint 6 (, 73.020-)- = -73.020Ldeg.iF ,,'O.4020' psia pressure > 1 -(. 159;9857=-) = -59.9857. psia pressure-~2- (- 59.9959-): .=- 59.9959_pala-weighted averages,1volumeland? air. mass? I temperature- = 82.98775 deg.1-F-
. pressure- = 59.98570 psia vapor pressure l= 0.45955 psia volume =- 2750000'cu..ft.
A dry air mass = 814221.47 lbm i
1993 VEGP Unit 2 Typo A Tect data set- 13 A.
(_j) time = 1700 date = 419 sensor raw data value temperature 1 ( _85.480 ) = 86.480 deg. F temperature 2 ( -84.860 ) = 84.860 deg. F temperature 3 ( 85.410 ) = 85.410 deg. F temperature 4( 85.300-) = 85.300 deg. F temperature 5 ( 85.640-) = 85.540 deg F temperature 6 ( 80.530 ) = 85.530 deg. F temperature 7 ( 85.490 ) = 85.490 deg. F temperature 8 (- 86.330-)- = 86.330 deg. F temperature 9 ( 85.450 ) = 85.450 deg. F temperature 10 ( 85.170 ', a= 85.170 deg. F temperature 11-( 83.600 ) = 83.600 deg. F temperature 12 ( 85.310 ) = 85.310 deg. F temperature 13 ( 84.000 ) -
= 84.000 deg. F temperature-14 ( 84.560 ) = 84.560 deg. F s temperature 15 ( -83.320 ) = 83.320 deg. F temperature 16 ( 83.260 ) = 83.260 deg. F temperature 17 ( 83.340 ) = 83.340 deg. F temperat_re 18 ( 83.170=) = 83.170 deg. '
temperature 19;( 80.440 ) = 80.440 deg. F 4
temperature 20_(. 82.900-) =- 82.900 deg. F
(~- temperature 21 ( 81.590 ) = 81.590 deg. F
(' temperature 22 ( l80.580 ) = 80.580 deg. F temperature 23_(_ 80.560 ) = 80.560 deg. F temperature 24-( 78.940 ) = 78.940 deg..F ,
temperature 25 ( 80.280 ) = 80.280 deg. F temperature 26 ( 79.600 ) =. 79.600.deg. F temperature 27_( 79.520 ) = 79.520-deg. F temperature 28'-( 78.430 ) =. _78.430 deg.-F ,
temperature 29 ( 77.990 ) = 77.990 deg. F '
temperature 30 ( -75.760 ) = 75.760 deg. F-dewpoint -1 ( 81.660 ) = 81.660 deg. F , 0.5350 psia dewpoint 2 ( 80.000 ) = 80.000 deg. F., 0.5068 psia dewpoint 3 ( 78.660 ) = 78.660 deg. F , 0.4850 psia dewpoint 4 ( 73.700 ) = 73.700 deg. F , 0.4113 psia dewpoint. 5 .( 73.250 ) = 73.250 deg. F , 0.4052 psia dewpoint:-6 ( 73.110 ) = 73.110 deg. F , 0.4033 psia pressure -1 ( 59.9790 ) = 59.9790 psia . ;'
pressure 2 ( 59.9891 ). = 59.9891 psia; i
weighted averages, volume and air mass-temperature = 82.92955 deg. F pressure = -59.97900 psia vapor pressure = 0.45993 psia c~)
volume = 2750000 cu. ft.
-- dry air mass = 814211.94 lbm l
r -
,. . . . . . . ....:_. .......r . _ _. . . . . , , ,. . i. . _ , _ _ _ , . , _ ,____m i___,
1992 VEGP Unit 2 Typ3 A Toot-_ .
data set 14
(
(3 _) time = 1715 date = 419 sensor raw data value temperature 1 ( 85.410 ) = 85.410 deg. F temperature 2 ( ~84.790 ) = 84.790 deg. F temperature 3 ( 85.320 ) = 35.320 deg. F temperature 4-( 85.240 ) = 85.240 deg. F temperature 5 (_ 85.540 ) = 85.540 deg. F temperature 6 ( 85.450 ) = 85.450 deg.-F temperature 7 ( 85.410 ) = 85.410 deg. F temperature 8 ( 86.250 ) a -
86.250 deg. F temperature 9 ( 85.360 ) = 85.360 deg. F. ,
temperature 10.( 85.110 ) = 85.110 deg. F temperature 11 ( 83.530 ) = 83.530 deg. F temperature 12 ( -85.220 ) = 85.220 deg. F temperature 7- ( 83.890 ) = 83.890 deg. F-temperature 14-( 84.480 ) = 84.480 deg. F temperature 15 ( 83.260 ) = 83.260 deg. F-temperature 16 ( 83.180 ) = 83.180 deg. F temperature 17.( 83.270 ) = .83.270 deg. F temperature 18 ( 83.090 ) = 83.090 deg. F temperature 19 ( 80.380 ) =- 80.380 deg. F temperature 20 ( 82.87G ) = 32.870 deg. F
-temperature 21-( 81.550 ) = 81.550 deg. F 7-s 22 ( 80.580 ) ~
t
\~ /
1 temperature = 80.580 deg. F temperature 23 ( 80.550 ) = 80.550.deg. F .
temperature 24 ( 78.930-) = 78.930 deg. F ,
temperature 25 ( 80.270 ) = 80.270 deg. F
-temperature 26 ( 79.600 ) = 79.600 deg._F tcmperature 27~( 79.530-) = 79.530 deg. F temperature 28 ( 78.420 ) = -78.420 deg. F temperature 29 ( 78.000 ) = 78.000_deg. F
' temperature 30 ( 75.760 ) = 75.760 deg.-F dewpoint 11 ( 81.620 ) = 81.620 deg. F., 0.5343 psia dewpoint 2 ( -80.020 ) = 80.020 deg. F , 0.5072 psia dewpoint 3 (- 78.680.) = 78.680 deg. F , 0.4854 psia dewpoint 4_ ( 73.830 ) = 73.830 deg. F , 0.4131 psia dewpoint 5' ( _73.290:) = 73.290 deg. F , 0.4057-psia dewpoint 6 ( 73.180 ) = 73.180 deg.-F ,3 0.4042 psia
. pressure 1 ( 59.9724 ) = 59.9724 psia
. pressure 2 ( 59.9826-) = 59.9826 psia'
-weighted averages, volume and' air nass
. temperature ,=
82.87394 deg. F pressure = '59.97240 psia vapor pressure = 0.46050 psia
"N volume = 2750000 cu. ft.
's_sb dry air mass =. 814197.33 lbm
1992 VEGP Unit 2 Type A TGOt data set 15
() time = 1730 date = 419 sensor raw data value temperature 1 ( 85.320 ) = 85.320 deg..F temperature 2 ( 84=.720 ) = 84.720 deg. F temperature 3 ( 85.230 ) = 85.230 deg. F temperature. 4 ( 85.150 ) = 85.150 deg. F
, temperature 5 ( 85.470.) = 85.470 deg. F temperature 6 ( 85.360 ) = 85.360 deg. F temperature 7 ( 85.320 ) = 85.320 deg. F temperature 8 ( -86.160 ) = 86.160 deg. F temperature 9 ( '85.270 ) = 85.270 deg. F temperature 10 ( 85.030 ) = 85.030 deg. F temperature 11 ( 83.430 ) = S3.430 deg. F s temperature-12 ( 85.130 ) = 85.130-deg.'F temperature 13 ( 83.820 ) = 83.820'deg. F temperature 14 ( 84.400 ) = 84.400 deg. F temperature _15-(- 83.170 ) = 83.170 deg. F
- temperature 16 ( 83.100 ) = 83.100 deg. F temperature 17 ( 83.180 ) =- 83.180 deg. F temperature 18 ( 83.020 ) = 83.020'deg. F temperature 19 ( 80.320 ) = 80.320 deg. F temperature 20 ( 82.760 ) = '82.760 deg. F temperature 21 ( 81.500 ) = 81.500 deg. F-t temperature 22 ( 80.540-) = 80.540 deg. F-
[/
's- temperature 23 ( 80.520 ) = 80.520 deg.-F temperature 24 ( 78.910 ) = 78.910 deg.HF temperature 25 ( 80.250-) = 180.250.deg. F temperature 26 ( 79.570 ) =- 79.570 deg. F-temperature 27 ( 79.520 ) = 79.520 deg.-F temperature 28 ( 78.420-) = 78.420 deg. F temperature 29 ( 77.990-) = 77m990 deg. F temperature 30 ( 75.740-) = '75.740 deg. F-dewpoint 1 ( 81.580 ) =- 81.580 deg.- F , 0.5336 psia dewpoint 2 ( 79.980 )~ = 79.980 deg. F ,:0.5065 psia dewpoint 3- ( 78.630 ) = 78.630 deg. F , 0.4846 psia dewpoint 4 _. ( 73.720 ) = 73.720 deg. F , 0.4116 psia devpoint 5 (- 73.420-) =- 73.420 deg. F , 0.4075 psia dewpoint 6 ( -73.230 ) = 73.230 deg. F ,10.4049 psia
- pressure 1 (- -59.9664 ) ~= 59.9664 psia-pressure 2 _
( 59.9761-) = 59.9761 psia weighted averages, volume and. air mass temperature = 82.80711 deg. F pressure = 59.96640 psia vapor pressure = 0.46018 psia
(i volume = 2750000 cu. ft.
(_) dry air mass = 814219.96 lbm
1992 VEGP Unit 2 Typa A TGGt data set 16 c
(
v)
, time = 1745 date = 419 sensor raw data value temperature 1 ( 05.260 ) = 85.260 deg. F temperature 2 ( 84.650 ) = 84.650 deg. F temperature 3 ( 85.140 ) = 85.140 deg. F temperature 4 ( 85.070 ) = 85.070 deg. F temperature 5 ( 85.390 ) = 85.390 deg. F temperature 6 ( 85.290 ) = 85.290 deg. F temperature 7 ( 85.250 ) = 85.250 deg. F temperature 8 ( 86.090 ) = 86.090 deg. F temperature 9 ( 85.200 ) = 85.200 deg. F temperature 10 ( 84.9'9 ) = 84.940 dag. F temperature 11 ( 83.350 ) = 83.350 deg. F temperature 12 { 85.030 ) = 85.030 deg. F temperature 13 ( 83.750 ) = 83.750 deg. F temperature 14 ( 84.310 ) a 84.310 deg. F temperature 15 ( 83.090 ) = 83.090 deg. F temperature 16 ( 83.020 ) = 83.020 deg. F temperature 17 ( 83.110 ) = 83.110 deg. F temperature 18 ( 82.960 ) = 82.960 deg. F temperature 19 ( 80.260 ) = 80.260 deg. F temperature 20 ( 82.720 ) = 82.720 deg. F
,_s temperature 21 ( 81.480 ) = 81.480 deg. F
( ') temperature 22 ( 80.530 ) = 80.530 deg. F s/ temperature 23 ( 80.510 ) = 80.510 deg. F temperature 24 ( 78.890 ) = 78.890 deg. F temperature-25 ( 80.250 ) = 80.250 deg. F temperature 26 ( 79.570 ) = 79.570 deg. F temperature 27 ( 79.510 ) = 79.510 deg. F temperature 28 ( 78.410 ) = 78.410 deg. F temperature 29 ( 77.990 ) = 77.990 deg. F temperature 30 ( 75.740 ) = 75.740 deg. F dewpoint 1 ( 81.540 ) = 81~.540 deg. F ,-0.5329 psia dewpoint 2 ( 79.950 ) = 79.950 deg. F , 0.5060 psia dewpoint 3 ( 78.570 ) = 78.570 deg. F , 0.4836 psia dewpoint 4 ( 73.740 ) = 73.740 deg. F , 0.4119 psia dewpoint 5 ( 73.410 ) = -73.410 deg. F , 0.4074_ psia dewpoint 6 ( 73.280 ) = 73.280 deg. F , 0.4056 psia pressure 1 ( 59.9602-) = 59.9602 psia pressure 2' ( 59.9698 ) = 59.9698 psia weighted averages,. volume and air mass temperature = 82.75197 deg. F pressere = 59.96020 psia vapor pressure = 0.45995 psia
( 's volume = 2750000-cu. ft.
' _,/ dry air mass = 814221.03 lbm
E 1992 VEGP Unit 2 Typ3 A. Tost data set 17 r~s
() time = 1800 date = 419 senhor rhw data value temperature l' '( 85.180 ) " 85.180 deg. F temperature 2( 84.560 ) = 84.560 deg. F temperature 3 ( 85.080 ) = 85.080 deg. F temperature 4( 84.990 ) = 84.990 deg. F
- -temperature 5- ( 85.320 ) = 35.320 deg. F temperature 6( 85.240 ) = 85.240 deg.'F temperature 7-( 85.170 ) = 85.1.'O deg. F i temperature 8 ( 86.020 ) = 86.020 dag. F temperatura 9( 85.120 ) = 85.120 deg.-F-temperature 10 ( 84 890 ) = 84.890 deg. F temperature 21 ( 83.280 ) = 83.280 deg. F temperature 'a ( 84.960 ) = 84.960 deg. F tempnrature 13 ( 83.670 ) = 82.670 deg. F temperatur,14 ( 84.240-) = 84.240 deg. F
'. temperature 15 ( 83.030 ) a 83.030-deg. F temperature 16 ( 82.960 ) .= 82.960 6eg. F temperature 17 ( 83.040 ). = 83.040 deg. F
. temperature 18'( 82.880_) = 82.880Ldeg. F
, temperature 19 ( 80.210 ) = 80.210 deg. F temperature 20 ( 82.660 ) = 82.660 deg. F
,_x temperature 21.( 81.480.) = 81.480_deg. F
! i temperature 22 ( 80.520 ) = 80.520 deg. F
\/ temperature 23 ( 80.500 ) = 80.500 deg. F temperature 24 ( 78.880 ) = 78.880 deg. F '
temperature 25 ( 80.270 ) = 80.270 deg. F temperature 26 ( 79.560 ) = 79.560 deg. F temperature 27 ( 79.510 ) = .79.510 deg. F
' temperature 28 ( 78.410 ) =- 78.410 deg. F temperature 29.( 76.000 ) = 78.000 deg. F temperature 30 ( 75.740 ) = 75.740 deg. F dewpoint 1 ( 81.560 ) = 81.560 deg..F , 0.5333_ psia idewpoint- 2 ( 80.050 ) = 80.-050 deg. It , 0.5077-psia dewpoint 3 ( 78.490 ) = 78.490 deg. F ,-0.4823 psia dewpoint 4 ( 73.720 )' = -73.720 deg. F ,_0.4116 psia dewpoint- 5 ( 73.450 ) = 73.450 deg..F , 0.4079 psia dewpoint 6 .( 73.310-) = 73.310 deg. F , 0.4060 psia-pressure 1 ( 59.9542:) = _59.9542. psia pressure 2 ( -59.9640-) = 59.9640 psia-fweighted averages,' volume and air mass temperature = 82.70305[deg.-F pressure := 59.95420-psia vapor pressure = 0.46016-psia f~') volume = 2750000 cu. ft.
\_s/ dry air mass = 814209.47 lbm
1992 VEGP Unit 2 Typo A TGot data set 18 -
A, J time = 1815 date = 419 sensor raw data value temperature 1 ( 85.120 ) = 85.120 deg. F temperature 2 ( 84.500 ) = 84.500 deg. F temperature 3 ( 85.040 ) = 85.040 deg. F temperature 4 ( 84.920 ) = 84.920 deg. F temperature 5_( 85.260 ) = 85.260 deg. F temperature 6 ( 85.160 ) = 85.160 deg. F temperature 7 ( 85.090 ) = 85.090 deg. F temperature 8 ( 85.930 ) = 85.930 deg. F temperature 9 ( 85.050 ) = 85.050 deg. F temperature 10 ( 84.810 ) = 84.810 deg. F '
temperature 11 ( 83.210 ) = 83.210 deg. F temperature 12 ( 84.910 ) = 84.910 deg. F temperature 13 ( 83.590 ) = 83.590 deg. F temperature 14 ( 84.170 ) = 84.170 deg. F 1 temperature 15 ( 82.960 ) = 82.960 deg. F "
temperature 16 ( 82.880 ) = 82.880 deg. F temperature 17 ( 82.980 ) = 82.980 deg. F temperature 18 ( 82.810 ) =- 82.810 deg. F temperature 19 ( 80.180 ) = 80.180 deg. F temperature 20 ( 82.610 ) = 82.610 deg. F, temperatura 21 ( 81.440 ) = 81.440.deg. F f,)T temperature 22 ( 80.510') = 80.510 deg. F
\- temperature 23 ( 80.490 ) = 80.490 deg. F temperature 24 ( 78.870 ) = 78.870 deg. F ,
temperature 25 ( 80.250 ) = 80.250 deg. F temperature 26 ( 79.550 ) = 7 9 . 5 5 0 d e g .--- F -
temperature 27 ( 79.500 ) = 79.500 deg. F1 temperature 28 ( 78.410-) = 78.410 deg. F temperature 29 ( 77.990 ) = 77.990 -
deg. .
F temperature 30 ( 75.730 ) = 75.730 deg. F dewpoint 1 ( 81.520 ) = 81.520 dog. F , 0.5326 psia-dewpoint 2- ( 79.890 ) = 79.890 deg. F, 0.5050 psia
~
dewpoint 3 ( 78.550-) = 78.550 deg. F , 0.4833 psia dewpoint 4 ( -73.600 ) = 73.600 deg.-F., 0.4100 psia-dewpoint '5 ( 73.510 ; = 73.510 deg. F , 0.4087 psia dewpoint -6 (; 73.400')- = -73.400 deg. F ,-0.4072 psia pressure 1 (. 59.9484 ) = 59.9484 psia pressure- 2 .( 59.9581 )' = 59.9581 psia weighted averages, volume-and-air mass temperature = 82.65194 deg. F pressure = 59.94840 psia vapor pressure = 0.45975; psia-f; volume =- 2750000 cu. ft.
() dry air mass = 814212.37 lbm
1992 VEGy Unit 2 Typ3 A TCat < -t "II data set 19
.(
( ,) time = 1830 date = 419 sensor raw data value temperature 1 ( 85.060 ) = 85.060 deg. F temperature 2 ( 84.430 ) = 84.430 deg. F temperature- 3 ( 84.960 ) =- 84,960 deg. F temperature 4 ( 84.840 ) = 84.840 deg. F temperature' 5 ( 85.180 ) = 85.180 deg. F temperatura 6 ( 85.100 ) = 85.100_deg. F temperature 7 ( 85.020 ) = 85.020 deg. F temperature 8 ( 85.850 ) = 85.850 deg. F temperature 9 ( 84.990 ). = 84.990 deg. F temperature 10 ( 84.760 ) = 84.760 deg. F temperature 11 ( 83.150 ) = 83.150 deg. F temperature 12 ( 84.820 ) = 84.820 deg. F temperature 13 ( 83.520 ) = _83.520 deg. F temperature 14 ( 84.110-) = 84.110 deg. F temperature 15 (- 82.900 ) = 82.900 deg. F ,
temperature 16 ( 82.830 )
= 82.830 deg. F temperature 17 ( 82.920 ) = 82.920 deg.'F temperature 18 ( 82.760 ) =. 8 2 . ', 3 0 deg . F (
temperature 19 ( 80.120 ) = 80.120 deg. F temperature 20 ( 82.b50 ) = 82.550 deg. F s temperature 21 ( 81.420 ) = 81.420 deg. F
( ) temperature 22 ( 80.510 ) = 80.510 deg.-F
\J temperature 23 ( 80.470 ) = 80.470 deg.-7 temperature 24 ( 78.860 ) = 78.860 deg. F .
temperature 25 ( 80.240 ) = 80.240 deg. F temperature 26.( 79.550 ) = 79.550 deg. F temperature 27 ( 79.500 ) = 79.500 deg F temperature 28 ( 78.400 ) =: '78.400 deg. F temperature 29 ( 78.000-)_ = 78.000 dag. F 4 temperature 30 ( ?5.730 ) = 75.730 deg. F:
dewpoint 1 (- 81.470 ) = 81.470 deg. F=, 0.5317 psia dewpoint 2 ( 79.800 ) = 79.800 deg..F , 0.5035 psia
-dowpoint 3 ( 78.420 ) = 78.420 deg. F , 0.4812 psia dewpoint 4 (: 73.720 ). = 73.720 deg. F , 0.4116 psia dewpoint 5- (- 73.620') = 73.620 dag. F:,.0.4102 psia dewpoint 6 ( 73.440 ) =- 73.440 deg. F . 0.4078 psia pressure l' .( 59.9428 ) = 59.9428 poia pressure 2 ( 59.9524-) = 59.9524 pt weighted averages, volumeJand air mass temperature = 82.60378 deg. F pressure = 59.94280 psia
,_, vapor pressure = 0.45952 psia
,T i volume -= 2750000 cu. ft.
kJ dry air mass = 814211.23 lbm
I 1992 VEGP Unit 2 Typt 20t data set 20
) time = 1845 date = 419 sensor raw data value temperature 1( 84.990 ) = 84.990 deg. F temperature 2( 84.370 ) = 84.370 deg. F temperature 3( 84.890 ) = 84.890 deg. F temperature e ( 84.760 ) = 84.760 deg. F temperature 5( 85.100 ) = 85.100 deg. F temperature 6( 85.010 ) = 85.010 dag. F temperature 7( 84.950 ) = 84.950 deg. F temperature 8( 85.780 ) = 85.780 deg. F temperature 9( 84.900 ) = 84.900 deg. F temperature 10 ( 84.670 ) = 84.670 deg. F temperature 11 ( 83.080 ) = 83.080 dag. F temperature 12 ( 84.770 ) = 84.770 deg. F temperature 13 ( 83.440 ) = 83.440 deg. F temperature 14 ( 84.020 ) = 84.020 deg. F .
temperature 15 ( 82.820 ) = 82.820 deg. F temperature 16 ( 82.760 ) = 82.760 deg. F y- temperature 17 ( 82.850 ) = 82.850 deg. F temperature 18 ( 82.680 ) = 82.680 deg. F temperature 19 ( 80.060 ) = 80.060 deg. F temperature 20 ( 82.490 ) = 82.490 deg. F 7-s temperature 21 ( 81.380 ) = 81.380 dag. F
('l temperature 22 ( 80.490 ) = 80.490 deg. F temperature 23 ( 80.470 ) = 80.470 dag. F temperature 24 ( 78.850 ) = 78.850 deg. F ,
temperature 25 ( 80.240 ) = 80.240 deg. F temperature 26 ( 79.530 ) = 79.530 deg. F temperature 27 ( 79.500 ) = 79.500 deg. F temperature 28 ( 78.400 ) = 78.400 deg. F temperaturo 29 ( 77.990 ) = 77.990 deg. F l temperature 30 ( 75.730 ) = 75.730 deg. F dewpoint 1 ( 81.470 ) = 81.470 deg. F , 0.5317. psia dewpoint 1 ( 79.770 ) = 79.770 degt. F., 0.5030 psia dewpoint '3 ( 78.370 ) = 78.370 deg. F , 0.4804 psia dewpoint 4 ( 73.560 ) = 73.560 deg. F., 0.4094 psia dewpoint 5 ( 73.640 ) = 73.640 deg. F , 0.4105. psia-dewpoint 6 ( 73.490 ) = 73.490 deg. F , 0.4084 psia >
pressure 1 ( 59.9372 ) = 59.'9372' psia pressure 2 ( 59.9469.) =. 59.9469 psia.
weighted averages, volume an^ air mass temperature = 82.54795-deg. F pressure = 59.93720' psia
,_ vapor pressure = 0.45903 psia
-l\/)- volume dry air-mass.
=
=
2750000:cu. ft.
814225.03 lbm-
I 1992 VEGP Unit 2 Typo A TC0t !
data set 21 !
' (,-) time = 1900 date = 419 l sensor raw data value 1
temperature 1( 84.930 ) = 84.930 deg. F ,
temperature 2( 84.310 ) = 84.310 deg. F l temperature 3( 84.830 ) = 84.830 deg. F temperature 4( 84.710 ) = 84,710 deg. F temperature 5( 85.040 ) = 85.040 deg. F temperature G( 84.940 ) = 84.940 deg. F j
., temperature 7( 84.870 ) = 84.870 deg. F j temperature 8( 85.730 ) = PS.730 deg. F !
9( 84.830 ) '
temperature = 84.830 deg. F.
temperature 10 ( 84.600-) =- 84.600 deg. F temperature 11 ( 83.000 ) = 83.000 deg. F temperature 12 ( 84.710 ) = 84.710 deg. F temperature 13 ( 83.380 ) = 83.380 dag. P temperature 14 ( 83.960 ) = 83.960 deg, F temperature 1B ( d2.760 ) =- 82.760 dag. F temperature 16 ( 82.690 ) = 82.690 deg. F.
temperature 17 ( 82.780 )- = 82.780 deg. F temperature 18 ( 82.620 ) = 82.620 deg. F temperature 19 (' 80.010 ) = 80.010 deg. F temperature 20 ( 82.420 ) = 82.420 deg. F temperature 21 ( 81.360 ) = 81.360 deg. F
(T temperature 22 ( 80.480 ) = 80.480 deg. F
\-- temperature 23 ( 80.450 ) = 80.450 deg. F temperature 24 ( 78.830 ) = 78.830 deg. F temperature 25 ( 80.220 ) = 10.220 deg. F, temperature 26 ( 79.520 ) = .).520 deg, F temperature 27 ( 79.490 ) = 79.490 deg. r temperature 28 ( 78.410 ) = 78.410 deg. F terperature 29 ( 77.990 ) = 77.990 deg. F temperature 30 ( 75.730 ) , 75.730 deg. F derpoint 1 ( 81.420 ) = 81.420 deg. F , 0.5308 psia dewpoint 2 ( 79.770 ) = 79.770 deg. F , 0.5030 psia dewpoint 3 ( 78.430 ) = 78.430 deg. F., 0.4814 psia dewpoint 4 ( 73.730 ) = 73.730 deg. F , 0.4118 psia dewpoint 5 ( 73.740 ) = 73.740 deg. F , 0.4119. psia dewpoint 6 ( 73.530 ) = 73.530 deg. F , 0.4090' psia pressure 1 ( 59.9321 ) . = 59.9321. psia pressure 2 ( 59.9416 ); = 59.9416 psia weighted averages, volume and air mass.
temperature = 82.50003 deg. F pressure = 59.93210 psia vapor pressure = 0.45976
/N volume = 2750000' cu.
psiaft.
k ,[ dry air mass = 814217.22 lba
1992 VEGP Unit 2 Typo A Tcet data set 22 I) time = 1915 date = 419 sensor raw data value temperature 1 ( 84.880 ) = 84.880 deg. F temperature 2 ( 84.260 ) = 84.260 deg. F temperature 3 ( 84.760 ) = 84.760 dog. F temperature 4 ( 84.640 ) = 84.640 deg. F temperature 5 ( 84.990 ) = 84.990 deg. F temperature 6 ( 84.870 ) = 84.870 deg. F temperature 7 ( 84.820 ) = 84.820 deg. F temperature 8 ( 85.670 ) = 85.670 deg. F temperature 9 ( 84,770 ) = 84.770 deg. F temperature 10 ( 84.570 ) = 84.570 deg. F temperature 11 ( 82.950 ) = 82.950 deg. F temperature 12 ( 84.630 ) = 84.630 deg. F temperature 13 ( 83.320 ) = 83.320 deg. F temperature 14 ( B3.910 ) = 83.910 dcg. F temperature 15 ( 82.710 ) = 82.710 deg. F temperature 16 ( 82.640 ) = 82.640 deg. F temperatura 17 ( 82.720 ) = 82.720 deg. F temperature is ( 82.570 ) = 82.570 deg. F temperature 19 ( 79.960 ) = 79.960 deg. F temperature 20 ( 82.340 ) = 82.340 deg. F temperature 21 ( 81.340 ) = 81.340 deg. F O-
, temperature 22 ( 80.430 ) = 80.460 deg. F ,
temperature 23 ( 80.440 ) = 80.440 deg. F 6 temperature 24 ( 7d.820 ) = 78.820 deg.'F .
temperatuie 25 ( 80.230 ) n- 80.230 deg. F temperatu.e 26 ( 79.510 ) = 79.510 deg. F temperature 27 ( 79.490 ) = 79.490 deg. F temperature 28 ( 78.400 ) = _79.400 deg. F temperature 29 ( 77.990 ) = 77.990 deg. F temperature 30 ( 75.730 ) = 75.730 deg. F dowpoint 1 ( 81.410 ) = 81.410 dog. F ,~0.5307 psia dowpoint 2 ( 79.700 ) = 79.700 deg. F , 0.5019 psia dewpoint 3 ( 78.370 ) = 78.370 deg. F , 0.4804 psia dewpoint 4 ( 73.750 ) =- 73.750 deg. F , 0.4120 psia dewpoint 5 ( 73.910 ) = 73.910 deg. F , 0.4143. psia.
dewpoint 6 ( 73.550 ) = 73.550 deg. F , 0.4093 psia pressure 1 ( 59.9269 )' = 59.9269 psia pressure; 2- .(_ 59.9366-) = 59.9366 psia weighted' averages, volume and air mass temperature = 82.4 5741 deg. F-pressure = 59.92690 psia vapor l pressure = 0.45971 psia
[/)
A--
_ volume' dry air mass
=
=
2750000 cu.-ft.
814210.69 lbm
_ _ _ _ _ _ - - - - - - -. - d
. -. . ~ . - -- _ . = . . - - - . --
1992 VEGP Unit 2 Typ3 A Toot l data set 23 '
() time = 1930 date = 419 sensor raw data value temperature 1 ( 84.820 ) = 84.820 deg. F )
] temperature 2 ( 84.190 ) = 84.190 dog. F l 2
temperature 3 ( 84.690 ) = 84.690 deg. F !
temperature 4 ( 84.580 ) = 84.580 deg. F j temperature 5 ( 84.9'A ) = 84.910 deg. F !
temperature. 6 ( P4 510 ) = 84.810 deg. F {
temperature 7 ( L .740 ) = 84.740 dog. F l temperature 8 ( 85.580 ) = 85.580 deg. F i temperature 9 ( 84.690 ) = 84.690 deg. F- j l temperatura'10 ( 84.490 ) = 84.490 deg. F '
temperature 11 ( 82.890 ) = 82.890 dog. F temperature 12 ( 84.560 ) = 84.560 deg. F i
temperature 13 ( 83.240 ) = 83.240 deg. F temperature 14 ( 83.850 ) = 83.850 dag. F 82.660 )
temperature 15 ( = 82.660 deg. F temperature 16 ( 82.580 ) =- 82.580 deg. F temperature 17 ( 82.670 ) = 82.670 deg. F temperature 18 ( 82.520 ) = 82.520 deg. F temperature 19 ( 79.930 ) = 79.930 deg. F .
temperature 20 ( 82.300 ) = 82.300 deg. F p temperature 21 ( 81.320 ) =- 81.320 deg. F
'(J temperature 22 ( 80.460 ) = 80.460 deg. F 80.430 )
temperature 23 ( = 80.430 dog. F temperature 24 ( 78.810 ) = 78.810 deg. F temperature 25 ( 80.220 ) = 80.220 deg. F temperature 26 ( 79.500 ) = 79.500 deg. F temperature 27 ( 79.490 ) = 79.490.deg. F temperature 28 ( 78.400 ) = 78.400 deg. FL temperature 29 ( 78.000 ) = 78.000 deg. F temperatur? 30 ( 75.730 ) = 75.730 deg.: P dewpoint . ( 81.380 ) = 81.380 deg. F , 0.5302 psia dewpoint 2 ( 79.750 ) = 79.750 deg..F , 0.5027 psia dewpoint 3- ( 78.350-) = 78.350 deg. F , 0.4801' psia dewpoint 4 ( 73.620 ) = 73.620 deg. F , 0.4102 psia dewpoint 5 (- 73.870 ) = 73.870 deg. F , 0.4137 psia-
- dewpoint 6 ( 73.600 )- = 73.600 deg. F , 0.4100 psia-pressure 1- ( 59.9217 ) = 59.9217 psia pressure _ 2 (. 59.9313 ) = 59.9313. psia weighted averages, volume and. air mass temperature = 82.41044 deg. F.
pressure =. 59.92170 psia vapor pressure = 0.45946. psia t volume = 2750000 cu.-ft.
\ dry air mass- = 814213.46 lbm c.w y.
1992 VEGP Unit 2 Typa A TC0t data set 24 time = 1945 date = 419
, sensor raw data value temperature 1 ( 84.760 ) = 84.760 deg. F temperature 2 ( 84.140 ) = 84.140 dog. F temperature 3 ( 84.660 ) = 84.660 deg. F temperature 4 ( 84.530 ) = 84.530 deg. F temperature 5 ( 84.850 ) = 84.850 dag. F temperature 6 ( 84.750 ) = 84.750 dog. F temperature 7 ( 84.690 ) = 84.690 deg. F temperature 8 ( 85.520 ) = 85.520 deg. F temperature 9 ( 84.630 ) = 84.630 deg. F temperature 10 ( 84.450 ) = 84.450 deg. F temperature 11 ( 82.820 ) = 82.820 deg. F temperature 12 ( 84.500 ) = 84.500 deg. F temperature 13 ( 83.170 ) = 83.170 deg. F temperature 14 ( 83.780 ) = 83.780 dag. F temperature 15 ( 82.610 ) = 82.610 deg. F temperature 16 ( 82.530 ).. = 82.530 deg. F temperature 17 ( 82.610 ) = 82.610 deg. F temperature 18 ( 82.450 ) = 82.450 deg. F temperature 19 ( 79.870 ) = 79.870 deg. F temperature 20 ( 82.260 ) = 82.260 deg. F
("'s temperature 21 ( 81.300 ) = 81.300 deg. F
() temperature 22 ( B0.450 ) = 80.450 deg. F temperature 23 ( 80.420 ) = 80.420 deg. F temperature 24 ( 78.800 ) = 78.800 deg. F temperature 25 ( 80.200 ) = 80.200 deg. F.
temperature 26 ( 79.500 ) = 79.500 deg. F temperature 27 ( 79.470 ) = 79.470 deg. F temperature 28 ( 78.400 ) = 78.400 deg. F.
temperature 29 ( 78.000.) e 78.000 deg. F temperature 30 ( 75.710 ). = 75.710 deg. F dewpoint 1 ( 81.350 ) = 81.350 deg. F , 0.5296 paia dewpoint 2 ( 79.700 ) = 79.700 deg. F , 0.5019 psia dewpoint 3- ( 78.340 ) = 78.340 deg. F., 0.4800_ psia dewpoint 4 ( 73.660 ) = 73.660 deg.-F , 0.4108 psia-dewpoint 5 ( 73.990 ) = 73.990 deg. F , 0.4154-psia dewpoint 6 ( 73.650 ) = 73.650 deg. F , 0.4107 psia pressure 1 ( 59.9165 ) = 59.9165 psia pressure 2 ( 59.9262 ) = 59.9262 psia weighted averages, volume and air mass temperature = 82.36736 deg. F pressure = 59.91650 psia vapor pressure =- 0.45961 psia
(-~)-
volume dry ~ air: mass
=
=
2750000 814204.87 cu. ft.-
lba 1
Y. - _ _ _ _ _ _ _ ._
1992 VEGP Unit 2 Typ3 A Toct
- data set 25 time = 2000 date = 419 sensor raw data value temperature 1( 84.690 ) = 84.690 dog. F temperature 2( B4.090 ) = 84.090 deg. F temperature s 3( 84.590 ) = 84.590 deg. F temperature 4( 84.470 ) = 84.470 dag. F temperature 5( 84.790 ) = 84.790 deg. F temperature 6( 84.700 ) = 84.700 deg. F temperature 7( 84.610 ) = 84.610 deg. F temperature 8( 85.460_) = 85.460 dag. F temperature 9( 84.550 ) = 84.550 deg. F temperature 10 ( 84.370 ) = 84.370 deg. F temperature il ( 82.750 ) = 82.750 deg. F temperature 12 ( 84.420-) = 84.420 deg. F 6
temperature 13 ( 83.130 ) =- 83.130 deg. F .
temperature 14 ( B3.730-) = 83.730 deg. F k temperature 15 ( 82.550 ) = 82.550 deg. F V temperature 16 (. 82.470 ) =- 82.470 deg. F temperature 17 ( 82.550 ) = 82.550 deg. F temperature la ( 82.400 ) = 82.400 deg. F temperature 19 ( 79.P30 ) = 79.830 deg. F temperature 20 ( 37.220.) = 82.220 i3g. F
( N, temperature 21 ( 81.280 ) = 81.280 deg. F ny temperature 22 ( 80.440 ) = 80.440 deg. F temperature 23 ( 80.420 ) = 80.420 deg. F temperature 24 ( 78.800 ) = 78.800 deg. F ,
temperature 25 ( 80.210 ) = 80.210 deg. F temperature _26 ( 79.500-) = 79.500 deg. F tchperature 27 ( 79.480 ) = 79.480 deg. F temperature 28 ( 78.400 ) = 78.400 deg. F temperature 29 ( 78.010 ) = 78.010 deg. F temperature 30 ( 75.720 ) = 75.720 deg. F dewpoint 1 ( 81.360-) = 81.360 deg. F , 0.5298 psia dewpoint 2 ( 79.690 ) = 79.690 deg. F ,.0.5017 psia-dewpoint 3 ( 78.340 ) = 78.340 deg. F , 0 4809 psia.
dewpoint 4 ( 73.650 ) = 73.650 deg. F , 0.4107 psia dewpoint 5 ( 73.950 ) = 73.950 deg. F , 0.4148-psia dewpoint 6 ( 73.680 ) = .73.680-deg. F., 0.4111 psia pressure 1 ( 59.9114-) = -59.9114 psia pressure 2 ( 59.9211 ) =. 59.9211. psia weighted averages, volume and air mass temperature = 87.32464 deg. F pressure = 59.91140-psia 7,3 vapor pressure = 0.45959cpsia
_t\ j_ volume = 2750000 cu. ft.
dry air- mass: = 814199.54 lbm-l
1992 VEGP Unit 2 Typo A Tact data set 26 time = 2015 date = 419 ser.sor raw data value temperature 1( 84.640 ) = 84.640 deg. F temperature 2( 84.030 ) = 84.030 deg. F temperature 3( 84.540 ) = 84.540 deg. F temperature 4( 84.400 ) = 84.400 deg. F temperature 5( 84.720 ) = 84.720 deg. F temperature 6( 84.650 ) = 84.650 deg. F temperature 7( 84.550 ) = 84.550 deg. F temperature 8( 85.390 ) = 85.390 deg. F temperature 9( 84.480 ) = 84.480 dog. F temperature 10 ( 84.330 ) = 84.330 dog. F ,
temperature 11 ( 82.690 ) = 82.690 deg. F temperature 12 ( 84.341 ) = 84.340 deg. F temperature 13 ( 83.060 ) = 83.060 deg.-F temperature 14 ( 83.660 ) = 83.660 deg. F temperature 15 ( 82.480 ) = 82.480 deg. F temperature 16 ( 82.400 ) = 82.400 deg. F temperature 17 ( 82.500 ) = 82.500 deg. F temperature 18 ( 82.360 ) = 82.360 deg. F temperature 19 ( 79.790 ) = 79.790 deg. F temperature 20 ( 82.150 ) = 82.150 deg. F gs temperature 21 ( 81.250 ) = 81.250 deg. F g temperature 22 ( 80.430 ) = 80.450 deg. F temperature 23 ( 80.400 ) = 80.400'deg. F temperature 24 ( 78.790 ) = 78.790 deg. F-temperature 25 ( 80.200 ) = 80.200 deg. F temperature 26 ( 79.490 ) = 79.490 dog. F temperature 27 ( 79.470 ) = 79.470 deg. F temp 7rature 28 ( 78.390 ) = 78.390 deg. F temperature 29 ( 78.000 ) = 78.000 deg. F temperature 30 ( 75.710 ) = 75.710 deg. F dewpoint 1 ( 81.340') = 81.340 deg. F , 0.5295 psia dewpoint 2 ( 79.670 ) = 79.670 deg. F , 0.5014 paia dowpoint 3 ( 78.200-) = 78.200 deg. F, 0.4778 psia dewpoint 4 ( 73.690-) = 73.690 deg. F , 0.4112 psia dewpoint 5 ( 74.010 ) = 74.010 deg. F ,.0.4156 paia dewpoint 6 ( 73.700 ) = 73.700 deg. F ,'O.4113 psia pressure 1 ( 59.9066 ) = 59.9066 psia 3- pressure '2 ( '59.9162 ). =- 59.9162, psia weighted averages, volume and air mass temperature- = 82.27753-deg. F pressure = 59.90660; psia
. g~ - vapor pressure =. -0.45930 psia t volume. = 2750000 cu. ft.
\- dry air: mass = 814208.54_lbm-
1992 VEGP Unit 2 Typ3 A TC0t
, data set 27
\ time = 2030 date = 419 sensor raw data value temperature 1 ( 84.580 ) = 84.580 dog. F temperature 2 ( 83.980 ) = 83.980 deg. F temperature 3 ( 64.480 ) = 84.480 deg. F temperature 4 ( 84.360 ) = 84.360 deg. F temperature 5( 84.640 ) = 84.640 deg. F temperature 6 ( 84.570 ) = 84.570 deg. F temperature 7 ( 84.490 ) = 84.490 deg. F temperature 8 ( 85.340 ) = B5.340 deg. F temperature 9 ( 84.400 ) = 84.400 deg. F temperature 10 ( 84.240 ) = 84.240 dag. F temperature 11 ( 82.640 ) = 82.640 deg. F temperature 12 ( 84.250 ) = 84.250 deg. F temperature 13 ( 83.010 ) = 83.010 deg. F temperature 14 ( 83.580 ) = 83.580 deg. F temperature 15 ( 82.440 ) = 82.440 deg. F temperature 16 ( 82.350 ) = 82.350 deg. F temperature 17 ( 82.450 ) = 82.450 deg. F temperature 18 ( 82.310 ) = 82.310 deg. F temperature 19 ( 79.740 ) = 79.740 deg. F temperature 20 ( 82.070 ) = 82.070 dog. F
g temperature 21 ( 81.220 ) = 81.220 deg. F
) temperature 22 ( 80.420 )
temperature 23 ( 80.390 )
=
=
80.420 deg. F 80.390 deg. F temperature 24 ( 78.770 ) = 78.770 deg. F temperature 25 ( 80.150 ) = 80.150 deg. F temperature 26 ( 79.480 ) = 79.480 deg. F temperature 27 ( -79.450 ) = 79.450 deg. F temperature 28 ( 78.380 ) = 78.380 deg. F' temperature 29 ( 77.960 ) = 77.960 deg. F temperature 30 ( 75.690 ) = 75.690 deg. F dewpoint 1 ( B1.320 ) = 81.320 deg.EF , 0.5291 psia dewpoint 2 ( 79.630 ) = 79.630 deg. F_, 0.5007 psia dewpoint 3 ( 78.270 ) -- 78.270 deg. FL,.0.4789 psia-dewpoint 4 ( 73.700 ) = 73.700 deg.EF , 0.4113 psia
-dewpoint 5 ( 74.070 ) = 74.070 deg. F , 0.4165 psia-dewpoint 6 ( 73.730-) = 73.730 deg. F , 0.4118 psia pressure 1 ( 59.9008 ) = 59.9008 psia pressure 2 ( ;59.9103 ) =- 59.9103 psia weighted averages, volume and. air mass temperature = 82.22725 deg. F pressure = 59.90080 psia 73 vapor pressure = 'O.45953' psia g volume dry. air. mass'
= 2750000 cu.-ft.
= 814201.46 lbm i
1992 VEGp Unit 2 Typ3 A Tcat data set 28 time = 2045 date = 419 sensor raw data value temperature 1( 84.480 ) = 84.480 deg. F temperature 2( 83.890 ) = 83.890 deg. F temperature 3( 84.400 ) = 84.400 deg. F temperature 4( 84.280 ) = 64.280 deg. F temperature 5( 84.560 ) = 84.560 deg. F temperature 6( 84.510 ) = 84.510 deg. F temperature 7( 84.440 ) = 84.440 deg. F temperature 8( 85.270 ) = 85.270 deg. F temperature 9( 84.320 ) = 84.320 deg. F temperature 10 ( 84.170 ) = 84.170 deg. F temperature 11 ( 82.580 ) = 82.580 deg. F temperature 12 ( 84.210_) = 84.210 deg. F temperature 13 ( 82.920 ) = 82.920 den. F temperature 14 ( 83.530 ) a-G3.530 deg. F temperature 15 ( 82.380-) = 82.380 deg. F temperature 16 ( 82.290 ) = 82.290 deg. F temperature 17 ( 82.390 ) = 82.390 deg.-F tempersture 18 ( 82.250 ) = 82.250 deg. F temperature 19 ( 79.700 ) = 79.700 deg.-F temperature 20 ( 82.010 ) = 82.010 dag. F temperature 21 ( 81.170 ) = 81.170 deg. F
(~)T
(_ temperature 22 ( 80.390 ) = 80.390 deg. F temperature 23 ( 80.370 ) = 80.370 deg. F temperature 24 ( 78.770 ) = 78.770 deg. F _
temperature 25 ( 80.120 ) = 80.120 deg. F temperature 26 ( 79.460 ) = 79.460 deg. F temperature 27 ( 79.430 ) = 79.430 -
deg. F '
temperature 28 ( 78.360 ) = 78.560 deg. F temperature 29 ( 77.940 ) = -77.940 deg. F temperature 30 ( 75.670 ) = 75.670 deg. F dewpoint 1 ( 81.260 ) = 81.260 deg. F , 0.5281 psia dewpoint 2 ( -79.570-) = 79.570 deg. F , 0.4997 psia dowpoint 3 ( 78.330 ).. = 78.330 deg.-F , 0.4798 psia dewpoint 4 ( 73.640 )- = 73.640 deg. F ,-0.4105 psia
' dewpoint 5 ( 74.220 ) = 744220 deg. F', 0.4186 psia dewpoint 6 (- 73.740 ) = 73.740 deg. F , 0.4119 psia pressure l' ( 59.8948 ) -
59.8948 paia pressure 2 ( 59.9044 ) = 59.9044 psia
-weighted averages, volume and air mass temperature = 82.17364 deg. F pressure = 59.89480 psia r~ vapor pressure = 0.45950 psia
'( g) volume- = 2750000 cu. ft.
dry air mass = 814200.31 lbm
i 1992 VEGP Unit 2 Typ3 A TCOt i data set '29 O
(_) time = 2100 date = 419 l sensor raw data value ,
l temperature 1 ( 84.400 ) = 84.400 dog. F j temperature 2 ( 83.790 ) = 83.790 deg. F i temperature 3 (
~
84.290 ) = 84.290 deg. F temperature 4 ( 84.210 ) = 84.210 deg. F !
temperature 5 ( 84.480 ) = 84.480 deg. F l temperature 6 ( 84.430 ) = 84.430 deg. F temperattae 7 ( 84.360 ) = 84.360 deg. F temperature 8 ( 85.210 ) = 85.210~deg. F temperature 9 ( 84.260()
~
= 84.260 deg. F temperature 10'( 84.080 ) = 84.080 deg. F-temperature 11 ( 82.510 ) = 82.510 deg. F temperature 12 ( 84.110 ). = 84.110 deg. F temperature 13_( 82.880 ) = 82.880 deg. F temperature 1< ( -83.470 ) = 83.470 deg. F temperature-15 ( 82.330 ) = 82.330 deg. F temperature 16 ( 82.250 ) = 82.250 deg. F temperature 17 ( 83.340 ) = 82.340 deg. F temperature 18 ( 82.190 )- = 82.190 deg. F temperature 19 ( 79.650 ) =- 79.650 deg. F 4 temperature 20 ( 81.990 ) = 81.990 deg. F gs temperature 21 ( 81.150 ) = 81.150 deg. F i
\~#
l temperature-22 ( 80.380 ) = 80.380 deg. F I temperature _23 ( 80.350 ) = 80.350 deg. F temperature 24 (. 78.750 ) = 78.750 deg. P 4 temperature 25 ( 80.100 ) = 80.100 deg. F.
temperature 26 ( 79.460 ) = 79.460 deg.
~
F temper.ture 27 ( 79.430 ) =- -79.430 deg. F temperature 28 ( 78.350 )_ = 78.350'deg. FL temperature 29 ( 77.930') = 77.930 deg. F temperature 30 ( 75.660-) = 75.660 deg. F dewpoint 1 ( 81.250 ) = 81.250 deg. F , 0.5279' psia dewpoint 2 ( 79.600 ) = 79.600 deg. F , 3.5002 psia.
dewpoint 3 ( 78.300 ) =- 78.300 deg. F , 0.4793~ psia dewpoint '4 ( 73.720 ) = 73.720 deg. F , 0.4116 psia dowpoint 5 ( 74.260 ) = 74.260 deg. F ,.0.4191 psia dewpoint 6 ( ~73.790 )
= 73.790_deg. F , 0.4126 psia pressure 1 ( 59.8891 ) = 59.8891' psia pressure 2 ( 59.8988.) a- 59.8988_ psia weighted averages, volume and: air mass temperature = 82.12298 deg. F-pressure =- 59.88910 psia 73 vapor pressure = 0.45986 psiaL _
t' i volume = 2750000ocu. ft.
d dry air mass =
814193f.42 lbm
1992 VEGP Unit 3 Typo A Tuot data set 30 A
( ,) time = 2115 dato a 419 sensor raw data value tempurature 1 ( -84.330 ) = 84.330 deg. F temperature 2 ( S3.720 ) = 83.720 deg. F temperature 3 ( B4.200 ) = 84.200 deg. F temperature 4 ( 84.150 ) = 84.150 deg. F temperature 5 ( 84.420 ) = 84.420 deg. F temperature 6 ( 84.360 ) = 84.360 dog. F temperature 7 ( 84.280 ) = 84.280 deg. F temperature 8 ( 85.150 ) = 85.150 deg.-F temperature 9 ( 84.190 ) = 84.190 deg. F temperature 10 ( 84.000 ) = 84.000 dog. F temperature 11 ( 82.450 ) = 82.450 deg. F temperature 12 ( 84.060 ) = 84.060 deg. F temperature 13 ( 82.820 ) = 82.820 deg. F temperature 14 ( 83.410 ) = 83.410 deg. F temperature 15 ( 82.300 ) = 82.300 deg. F temperature 16 ( 82.190.) = 82.190 deg. F .
temperature 17 ( 82.290 ) = 82.290 deg. F temperature 18 ( 82.150 ) = 82.150 deg. F temperature 19 ( 79.610 ) = 79.610 deg. F temperature 20 ( 81.920 ) = 81.920 deg. F 7S temperature 21 ( 81.120 ) = 81.120 deg. F
( ) temperature 22 ( 80.350') = 80.350 deg. F temperature 23 ( _80.330 ) = 80.330 deg. F temperature 24 ( 78.740 ) = 78.740 deg. F ,
temperature 25 ( 80.000 ) = 80.080 deg. F temperature 26 ( 79.430 ) = 79.430 deg. F temperature 27 ( 79.410 ) = 79.410 deg. F temperature 28 (' 78.320 ) = 78.320Ldeg. F temperature-29 ( 77.930 ) = 77.930 deg. F temperature 30 ( 75.630 ) = 75.630 dog..F dowpoint 1 ( 81.240 ) -
81.240 deg. F , 0.5277 psia dewpoint 2 ( 79.580 ) = 79.580 deg. F , 0.4999 paia dewpoint 3 ( 78.280 ) = 78.280 deg. F , 0.4790 psia dewpoint 4 ( 73.470 ) = 73.470 dog. F , 0.4082 psia
, dewpoint -5 ( 74.280 }- = 74.280 deg. F , 0.4194 psia dewpoint 6 ( 73.850 ) = 73.850 deg. F , 0.4134 psia pressure l' ( 59.8836 )- = 59.8836 psia !
pressure 2. ( 59.8934 ) a 59.8934 psia weighted averages, volume and air mass temperature = 82.07309'deg. F pressure = 59.88360 psia vapor pressure = 0.45927. psia volume = 2750000 cu. ft.
7-s}
A-- dry air mass .= 814201.02 lbm-
. _ _ I
1992 VEGP Unit 2 'A'ypo A Toct data set 31
) time = 2130 date = 419 sensor raw data value temperature 1 ( 84.260 ) = 84.260 deg. F temperature 2 ( 83.650 ) = S3.650 deg. F temperature 3 ( 84.150 ) = 84.150 dag. F temperature 4 ( 84.080 ) = 84.080 deg. F temperature 5 ( .84.350 ) = 84.350 deg. F temperature 6 ( .84.290 ) = 84.290 dag. F temperature 7 ( 84.220 ) = 84.220 dag. F temperature 8 ( 85.090 ) = 85.090 dag. F temperature 9 ( 84.120 ) = 84,120 deg. F temperature 10 ( 83.960 ) = 83.960 deg._F temperature 11 ( 82.420-) =- 82.420 deg. F temperature 12 ( 83.990 ) = 83.990 dag. F' temperature 13 ( 82.760 ) = 82.760 deg. F temperature 14 (- 83.360 ) = 83.360 deg. F temperature 15 ( 82.240 )- = 82.240 deg. F temperature 16 ( 82.140 ) =- 82.140.deg. F temperature ^ 17 -( 82.240 ) = :82.240 deg. F temperature 18 ( 82.110 ) =- 82.110 deg.. F:
temperature 119 ( 79.580 ) = 79.580fdeg. F temperature 20 ( 81.890 )- = 81.890 deg. F-temperature 21 ( 81.090 ) = 81.090 dag. F temperature 22-(- 80.330 ) = 80.330 deg. F temperature 23 ( 80.300 )- =
80.300 deg. F~
temperature 24-(_ 78.740 ) = 78.740 deg. F temperature 25 ( -80.060 ) = 80.060 deg. F temperature 26 ( ~79.420 ) = 79.420 dag. F.
temperature 27 ( 79.390 ) = _79.390 deg. F temperature 28 ( 78.320 ) = 78.320 deg. F temperature 29 ( 77.920-) = 77.920 deg.l?
temperature 30 ( 75.630-)~ = 75.630-deg. F-dewpoint 1 ( 81.220-) = 81.220 deg.LF:, 0.5274 psia dawpoint 2 ( 79.580 )- = 79.580Ldeg;-Fn, 0.49991 psia
' dewpoint 3 ( 78.220.) := .78.220 dag. F , 0.4781_ psia dowpoint 4 (- :73.590 ) ' = 73.590 deg. F , 0.'4098 psia-dowpoint 5 ( 74.420:)~ = 74.420 deg. F ,_0.4214-psia dowpoint 6, (. 73.870-) = 73.870 deg.1F , 0.4137 psia pressure 1 _( 59.8784 )~ = -59.8784 psia pressure 2 ( 59.8883:) = 59.8883 psia weighted averages, volume and air; mass temperature = 82.03002.deg. F pressure- = 59~87840-psia cg-- vapor pressure =- 0.45962:paia volume- = 2750000 cu.1ft.
dryfairimass = 814189.79-lbm-
,i j
1992 VEGP Unit 2 Typ3 A Toct data set 32
\/ time = 2145 date = 419 sensor raw data valuo temperature 1 ( 84.200 ) = 84.200 dag. F temperature 2 ( 83.590 ) = 83.590 deg. F temperature 3 ( 84.080 ) = 84.080 deg. F temperature 4 ( 84.000 ) = 84.000 deg. F temperature 5 ( 84.290 ) = 84.290 deg. F temperature 6 ( 84.220 ) = 84.220 deg. F temperature 7 ( 84.160 ) = 84.160 deg. F temperature 8 ( 85.040 ) = 85.040 deg. F temperature 9 ( 84.050 ) = 84.050 deg. F temperaturn 10 ( 83.910 ) = 83.910 deg. F temperature 11-( 82.360 ) = 82.360 deg. F temperature 12 ( 83.910 ) = B3.910 deg. F temperature 13 ( 82.720 ) = 82.720 dog. F temperature 14 ( 83.310 ) = 83.310 deg. F temperature 15 ( 82.190 ) = B2.190 deg. F ,
temperature 16-( 82.090 ) = 82.090 deg. F '
temperature 17 ( 82.190 ) = 82.190 deg. F temperature 13 ( 83.050 ) = 82.050 deg. F .
temperature 19 ( 79.530 ) = 79.530 deg. F temperature 20 ( 81.840 ) = 81.840 deg. F .
(~ temperature 21 ( 81.070 ) = 81.070 deg. F (s,T/ temperature 22 ( 80.340 ) = 80.340 deg. F temperature 23-( 80.290 ) = 80.290 deg. F temperature 24 ( 78.730 ) = 78.730 deg. F temperature 25 ( 80.060 ) = 80.060 deg. F temperature 26 ( 79.410 ). = 79.410 deg. F temperature 27 ( 79.400 ) = 79.400 deg. F temperature 28 ( 78.330 ) = 78.330 deg. F temperature 29 ( 77.910 ) = 77.910 deg. F temperature 30 ( 75.620 ) = 75.620 deg. F dewpoint 1 ( 81.170 ) = 81.170 deg. F , 0.5265 psia dewpoint 2- ( 79.490 ) = 79.490 deg. F , 0.4984 psia dewpoint 3 ( 78.160 ) = 78.160 deg. F , 0.4771' psia dewpoint 4' ( 73.560 ) = 73.560 deg. F , 0.4094 psia dewpoint 5 ( 74.380-) = 74.380 deg. F., 0.4208 psia dewpoint 6 ( 73.920 ) = 73.920 deg. F', 0.4144 psia pressure 1 ( 59.8735 ) = 59.8735 psia pressure 2 ( 59.8834 ) = 59.8834-psia weighted averages, volume and air mass temperature = 81.98744'deg. F
. pressure = 59.87350 psia
,r w vapor pressure = 0.45901. psia i i volume = 2750000 cu. ft.
dry air mass = -814194.99 lbm 1
a
1992 VEGP Unit 2 Typ3 A TCOt data set 33
_ time = 2200 date = 419 sensor raw data value temperature 1 ( 84.120 ) = 84.120 deg. F temperature 2 ( 83.520 ) = 83.520 deg. F temperature 3 ( 84.010 ) = 84.010 deg. F temperature 4 ( 83.950 ) = 83.950 deg. F temperature 5 ( 84.230 ) = 84.230 deg. F temperature 6 ( 84.170 ) = 84.170 deg. F temperature 7 ( 84.080 ) = 84.080 deg. F temperature 8 ( 84.950 ) = 84.350 deg. F temperature 9 -( 83.990 ) = 83.990 deg. F temperature 10 ( 83.820 ) = 83.820 ceg. F temperature 11 ( 82.300 ) = 82.300 deg. F temperature 12 ( 83.850 ) = 83.850 deg. F temperature 13 ( 82.670 ) = 82.670 dag. F temperature 14 ( 83.250 ) = 83.250 deg. F temperature 15'( 82.140 ) = 82.140-deg. F temperature'16 ( 82.040 ) = 82.040 deg. F temperature 17 ( 82.140 ) = 82.140 deg. F temperature 18 ( 81.990 ) = 81.990 deg. F temperature 19 ( 79.480 ) = 79.480 deg. F temperature 20 ( 81.790-) = 81.790 dag. F
(' temperature 21 ( 81.040 ) = 81.040 deg. F
( temperature 22 ( 80.300 ) = 80.300 dag. F temperature 23 ( 80.270 ) = 80.270 deg. F temperature 24 ( 78.720 ) = 78.720 deg. F ,
temperature 25 ( 80.040 ) = 80.040 deg.-F temperature 26 ( 79.390-) = 79.390 deg. F temperature 27 (. 79.380 ) = -79.380 deg. F' temperature 28 ( 78.310 )- = 78.310 deg. F temperature 29 ( 77.890 ) = 77.890 deg. F temperature 30 ( 75.600 ) = 75.600 deg. F dewpoint 1 ( 81.170 ) = 81.170_deg. F , 0.5265 psia dewpoint 2 ( 79.490 ) = 79.490 deg. F , 0.4984-psia dewpoint 3 ( 78.150 ) = 78.150-deg. F , 0.4770 psia dewpoint 4 ( 73.700 ) = 73.700 deg. F , 0.4113 paia dewpoint 5 ( 74.440 ) = 74.440 deg. F ,-0.4217 psia-dewpoint 6 ( 73.930.) =. 73.930 deg. F , 0.4145 psia pr.tasure 1 (. 59.8689 ) = 59.8689 psia pressure 2 ( 59.8787-) = 59.8787 psia weighted averages, volume'and air mass temperature = 81.93732 deg. F pressure: = 59.86890 psia s vapor' pressure = 0.45945 psia volume
= 2750000 cu. ft.
dry air mass =- 814201.29-lbm
1992 VEGF Unit 2 Typo A Toot data set 34 time = 2215 date = 419 sensor raw data value temperature 1 ( 84.070 ) = 84.070 deg. F temperature 2 ( 83.460 ) = 83.460 deg. F temperature 3 ( 83.940 ) = 83.940 deg. F temperature 4 ( 83.880 ) = 83.880 deg. F temperature S ( 84.170 ) = 84.1' deg. F temperature 6 ( 84.110 ) = 84.1.5 deg. F temperature 7 ( 84.030 ) = 84.03u deg. F temperature 8 ( 84.900 ) = 84.900 deg. F temperatura 9 ( 83.910 ) = 83.910 deg. F temperature 10 ( 83.760 ) = 83.760 deg. F temperature 11 ( 82.260 ) = 82.260 deg. F temperature 12 ( 83 800 ) = 83.800 deg. F temperature 13 ( 82.610 ) = 82.610 deg. F temperature 14 ( 83.210 ) = 83.210 deg. F temperature 13 ( 82.080 ) = 82.080 deg. F temperature 16 ( 81.990 ) = 81.990 deg. F temperature 17 ( 82.100 ) = 82.100 deg. F temperature 18 ( 81.950 ) = 81.950 deg. F temperature 19 ( 79.440 ) = 79.440 deg. F temperature 20 ( 81.760 ) = 81.760 dag. F
(~T temperature 21 ( 81.030 ) = 81.030 deg. F
(_,/ temperature 22 ( 80.300 ) = 80.300 deg. F temperature 23 ( 80.270 ) = 80.270 dog. F temperature 24 ( 78.710 ) = 78.710 dege F' ,
temperature 25 ( B0.040 ) = 80.040 deg. F temperature 26 ( 79.390 ) = 79.390 deg. F
-temperature 27 ( 79.370 ) = 79.370 deg. F temperature 28 ( 78.310 ) = 78.310 deg. F temperature 29.( 77.900 ) = 77.900 deg. F temperature 30 ( 75.600 ) = 75.600 dog. F dewpoint 1 ( 81.150 ) = 81.150 deg. F , 0.5262 psia dewpoint 2 ( 79.420 ) = 79.420 deg. F., 0.4973 psia dewpoint 3 ( 78.130-) = 78.130 deg. F , 0.4767 psia dewpoint 4 ( 73.680 ) = 73.680 deg. F , 0.4111 psia dewpoint 5 ( 74.520 ) = 74.520 deg. F ,1 0.4228' psia dewpoint 6 ( 73.970 ) = 73.970 deg. F , 0.4151 psiaL pressure 1 ( 59.8643 ); = 59.8643 psia pressure 2 ( 59.8741 ) = 59.8741 paia weighted averages, volume and air mass temperaturo = 81.89922 deg. F pressure = 59.86430 psia 7s.i vapor pressure = 0.45930 paia i volume = 2750000 cu. ft.
\/ dry air mass = 814197.51 lbm
.1
1992 VEGP Unit 2 Typo A TOOT data set 35 i
(~
(,)/ time = 2230 date = 419 sensor raw data value temperature 1( 84.020 ) = 84.020 deg. F temperature 2( 83.410 ) = 83.410 deg. F temperature 3( 83.910 ) = 83.910 deg. F temperature 4( 83.830 ) = 83.830 deg. F temperature 5( 84.120 ) = 84.120 deg. F l temperature 6( 84.060 ) = 84.060 deg. F temperature 7( 83.970 ) = 83.970 deg. F temperature 8( 84.870 ) = 84.870 deg. F i temperature 9( 83.870 ) = 83.870 deg. F temperature 10 ( 83.700 ) = 83.700 deg. F temperature 11 ( 82.210 ) = 82.210 deg. F temperature 12 ( 83.740 ) = 83.740 deg. F temperature 13 ( 82.580 ) = 82.580 deg. F temperature 14 ( 83.170 ) = 83.170 deg. F ,
temperature 15 ( 82.050 ) = 82.050 deg. F .
temperature 16 ( 81.950 ) = 81.950 dog. F !
temperature 17 ( B2.070 ) = 82.070 deg. F temperature 18 ( 81.910 ) = 81.910 deg. F temperature 19 ( 79.390 ) = -79.390 deg. F temperature 20 ( 81.710 ) = 81.710 deg. F 81.000 )
~
temperature 21 ( = 81.000 deg. F (j's temperature 22 ( 80.290 ) = 80.290 deg. F temperature 23 ( 80.250 ) = 80.250 deg. F temperature 24 ( 78.690 ) = 78.690 deg. F temperature 25-( 80.020 ) = 80.020 deg. F temperature 26 ( 79.370 ) = 79.370 deg. F i temperature 27 ( 79.350 ) =- 79.350 deg. F temperature 28'( 78.300 ) = 78.300-deg. P temperature 29 ( 77.880 )
= 77.880 deg. F temperatura 30-( 75.600 ) = 75.600 deg. P dewpoint 1 ( 81.100 ) = 81.100 deg. F , 0.5253 psia :
dowpoint 2 ( 79.500 ) = 79. 00 deg. F, 0.4986 psia dewpoint 3 ( 78.110 ) = 78.110 deg. F , 0.4763 psia dewpoint 4 ( 73.700 ) = 73.700 deg. F , 0.4113 psia dewpoint 5 ( 74.530 ) = 74.530 deg. F , 0.4229 psia dowpoint 6 ( 73.980-) = 73.980 deg. F , 0.4152 paia pressure 1- ( 59.8597 ) = 59.8597 poia-pressure 2 ( 59.8694 ) = 59.8694 psia weighted averages, volume and air mass-temperature a' 81.86298 deg. F pressure = 59.85970 psia
<g vapor pressure = 0.45945 psia-( ) volume = 2750000 cu. ft.
\ dry air mass = 814186.92 lbm
1992 VEGP Unit 2 Typ3 A Toot data set 36
/]
Q time = 2245 date = 419 sensor raw data value temperature 1 ( 83.970 ) = 83.970 deg. F temperature 2 ( 83.370 ) = 83.370 deg. F temperature 3 ( 83.850 ) = 83.850 deg. F temperature 4 ( 83.790 ) = 83.790 deg. F temperature 5 ( 84.060 ) = 84.060 deg. F temperature 6 ( 84.000 ) = 84.000 deg. F temperature 7 ( 83.910 ) = 83.910 deg. F temperature 8 ( 84.790 ) = 84.790 deg. F temperature 9 ( 83.810 ) = 83.810 deg. F temperature 10 ( 83.680 ) = 83.680 deg. F temperature 11 ( 82.180 ) = 82.180 deg. F temperature 12 ( 83.660 ) = 83.660 deg. F temperature 13 ( 82.530 ) = 82.530 deg. F temperature 14 ( 83.120 ) = 83.120 deg. F temperature 15 ( 82.0?0 ) = 82.020 deg. F temperature 16 ( 81.910 ) = 81.910 deg. F temperature 17 ( 82.010 ) = 82.010-deg. F temperature 18 ( 81.880 ) = 81.800 deg. F temperature 19 ( 79.360 ) = 79.360 deg. F temperature 20 ( 81.660 ) = 81.660 dcg. F temperature 21 ( 80.980 ) = 80.980 deg., F
(, temperature 22 ( 80.280 ) = 80.280 dag. F temperature 23 ( 80.240 ) = 80.240 deg. F temperature 24 ( 78.680 ) = 78.680 deg. F .
temperature 25 ( 80.010 ) = 80.010 deg. F temperature 26 ( 79.360 ) = 79.360 deg. F temperature 27 ( 79.350 ) = 79.350 deg. F temperature 28 ( V8.300 ) = 78.300-deg. F temperature 29 ( 77.880 ) = -77.880 deg. F temperature 30 ( 75.580 ) = 75.580 deg. F dewpoint 1 ( 81.070 ) = 81.070 deg. F , 0.5248 psia dewpoint 2 ( 79.470 ) = -79.470.deg. F , 0.4981 psia dewpoint 3 ( 78.100 ) = 78.100 deg. F , 0.4762~ psia dewpoint 4 ( 73.720 ) = 73.720_deg. F , 0.4116 psia dewpoint 5 ( 74.550 ) = 74.550 deg. F , 0.4232 psia dewpoint 6 ( 73.980 ) =. 73.980 deg. F , 0.4152 psia pressure 1- ( 59.8553 ) = 59.8553 psia pressure 2 ( 59.8651 ) = -59.0651 psia
-weighted averages, volume and air-nass temperature -= 81.82546 dag.-F pressure = 59.85530 psia
.r's vapor pressure = 0.45933 psia tj s'
volume = 2750000 cu. ft.
dry air mass = 814184.63 lba
1992 VEGP Unit 2 V0rificStion data set 1 f"')
(m,/ time = 0 date = 420 ,
sensor raw data value temperature 1( 83.720 ) = 83.720 dog. F temperature 2( 83.100 ) = 83.100 deg. F l temperature 3( 83.590 ) = 83.590 deg. F temperature 4( 83.530 ) = 83.530 dag. F temperature 5( 83.780 ) = 83.780 deg. F temperature 6( 83.730 ) = 83.730 dag. F j temperature 7( 83.640 ) = 83.640 deg. F temperature 8( 84.540 ) = 84.540 deg; F temperature 9( 83.520 ) = 83.520 deg. F l temperature 10 ( 83.400 ) = 83.400 dog. F i temperature 11 ( 81.940 ) = 81.940 deg. F temperature 12 ( 83.420 ) = 83.420 deg. F l temperature 13 ( 82.290 ) = 82.290 deg. F l temperature 14 ( 82.890 ) = 82.890 deg. F q temperature 15 ( 81.800 ) = 81.800 deg. F- ;
temperature 16 ( 81.690 ) = 81.690 dag. F temperature 17 ( 81.800 ) = 81.800 dag. F temperature 18 ( 81.660 ) = 81.660 deg. F temperature 19 ( 79.180 ) a 79.180 dag. F temperature 20 ( 81.480 ) = 81.480 deg. F
(~N temperature 21 ( 80.880 ) = 80.880 deg. F
. ( ,) temperature 22 ( 80.210 ). = 80.210 deg. F temperature 23 ( 90.180-) = 80.180 deg. F' temperature 24 ( 76.660 ) = 78.660 deg. F ,
temperature 25 ( 79.970 ) = 79.970 deg. F-temperature 26 ( 79.330 ) = 79.330 deg.- F temperature 27 ( _ 79.330 ) = 79.330.deg. F.
temperature 28 ( 78.270 ) = 78.270 deg. F temperature 29 ( 77.880 ) = 77.880 deg. F temperature 30 ( 7. 560 ) = 75.560 deg. F dewpoint 1 ( 81.010 ) = 81.010 deg. F-, 0.5238 psia dewpoint 2 ( 79.380 ) = '79.380 deg. F ,-0.4966 psia dewpoint 3 ( 78.030 ) = 78.030 deg. .
F , 0.4751 psia dewpoint 4 ( 73.640 ) = 73.640 deg. F , 0.4105 psia dewpoint 5 ( 74.700 ) = 74.700 deg. F , 0.4254 psia drrpoint 6 ( 74.050 ) = -74.050 deg. F , 0.4162 psia proosure 1 ( 59.8289 ). = 59.8289 psia =
pressure 59.8387-) 59.8307 psia 2 =
(
weighted averages, volume and' air mass temperature = 81.64133 deg. F pressure = 59.82890 psia-f3 vapor pressure = 0.45892. psia
! i volume = 2750000 cu. ft.
\/ dry air mass = 814105.24 lbm
1992 VEGP Unit 2 Vorification data set 2
) time = 15 date = 420 sensor- raw data value temperature 1( 83.680 ) = 83.680 dag. F temperature 2( 33.050 ) = 83.050 dag. F temperature 3( 83.560 ) = 83.560 deg. F temperature 4( 83.490 ) = 83.490 deg. F temperature 5( 83.740 ) = 83.740 deg. F temperature 6( 83.680_) = 83.680-deg.-F temperature 7( 83.500 ) = 83.590.deg. F temperature 8( 84.480 ) = 84.480 dag. F-temperature 9_(- 83.460 ) = 83.460 deg. F temperature 110 ( 83.340_) = 83.340 deg. F-temperature-11~( -81.900 ) = 81.900'deg. F-temperature 12 ( 83.360 ) = 83.360 deg. F.
temperature 13 ( -82.240 )- = 82.240 deg. F temperature 14l(. 82.860 ); = 82.8601deg. F temperaturs_15 ( _81.770 ) = 81.770 deg. F temperature 16 ( 81.660.) = 81.660 deg. F .
temperature 17 ( 81.760-) = 81.760 deg. F tssperature 18 ( 81.620 ) = 81.620.deg. F temperature 19_-( . 79.150 ) = 79.150 deg. F' temperature 20-( 81.440 ) a' -81.440 dag. F-temperature 21 ( 80.860 ) = 80.860 deg. F O- temperature . 22 - (-- 80.200 )
temperature 23-( 80.170-)
=-
=-
80.20b deg. F 80.170--deg. F temperature 24_(- 70.640.) = 78.640 deg. F
' temperature 25-( 79.950 ) ' == -79.950 dag. F temperature 26 ( 79.3201) 79.320'dags -F.
temperature-27_( :79.320')_ = _79.320 deg._F temperature 28 (- 78.280 )- =- 78.280 deg.JF-temperature 29 :( 77.870 ) = 77.870.deg. F temperature 30r(' 75.550-)- =- 75.550 dag. F
-dewpoint -1 (- 81.010 )1 =: 81.010 deg.;Fx,-LO.5238 psia
-dowpoint .2- ( -79.320,)_ = . 7 9. 3 2 01 deg . :: FL, 0.4957 psia dewpoint 3: ( 77.9403) -= 77.540 deg.JF ,' 0.4737--psia dewpoint '4 ( 73.5801 ) = 73.580: deg.i F , 0.4097_ psia dowpoint- '5_ ( =74.690-)- = .74. 690':deg.? F :,10.4252 ; psia '
idewpoint- 6 .-( 74.080-) = .74.080 deg. F ,1. 7 -0_.4166.. psia-pressure'-1
(- 59.8238-): '= :59.8238 psial pressure 32 -(. 1 59.8336r) = , . 159.8336: psia weighted; averages, volumeLand airfmassi temperature? = -: 81.60735~deg. F pressure: =- 59.82380 ps:,a avapor pressure = :0.45838 psia O l volume:
jdry' air mass ~
4=-
=
'2750000 cu.4ft.
814093.8611ba f
s 2
+
1992 VEGP Unit 2 Vcrifienticn data set 3
/3 kl s tima = 30 date = 420 sensor raw data value temperature 1( 83.630 ) = 83.630 deg. F temperature 2( 83:010 ) = 83.010 deg. F temperature 3( 83.520 ) = 83.520 dog. F temperature 4( 83.430 ) = 83.430 deg. F temperature 5( 83.690 ) = 83.690 deg. F temperature 6( 83.640 ) = 83.640 deg. F temperature 7( D3.550,) = 83.550 dog. F temperature 8( 84.430 ) = B4.430 deg. F temperature 9( 83.400 ) = 83 400 dag. F temperature 10 ( 83.310 ) = 83.310 dag. F tenperature 11 ( 81.870 ) = 81.870 deg. F temperature 12 ( 83.300 ) = 83.300 deg. F temperature 13 ( 82.210 ) = 82.210 deg. F temperature 14 ( 82.820 ) = 82.820 deg. F mperature 15 ( 81.730 ) = 81.730 deg. F temperature 16 ( 81.620 ) = 81.620 dag. F temperature 17 ( 81.740 ) = 81.740 deg. F temperature 18 ( .81.590 ) = 81.590 dag. F temperature 19 ( 79.140 ) = 79.140 deg. F temperature 20 ( 81.410 ) = 81.410 deg. F
("N temperature 21 ( 80.830 ) = 80.830 deg. F
(_) temperature temperature 22 ( 80.190 )
23 ( 80.160 )
=
=
80.190 deg. F 80.160 deg. F temperature 24 ( 78.640 ) = 78.640 deg. F temperature 25 ( 79.940 ) = -79.940 deg. F temperature 26 ( 79.310 ) = 79.310 deg.-F.
temperature 27 ( 79.310 ) =- 79.310 deg. F-temperature 28 ( 78.280 ) = 78.280 deg. F temperature 29 ( 77.870 ) = 77.870 deg. F temperature 30-( 75.540 ) = 75.540 deg. F dewpoint 1 ( 80.930 ) = 80.930 deg. F , 0.5224 psia dewpoint 2 ( 79.290 ) = 79.290 deg. F , 0.4932 psia dewpoint 3 ( 77.910-): = 77.910 deg..FL, 0.4733 psia dewpoint 4 ( 73.700 ) = 73.700-deg.~F , 0.4113 psia dewpoint 5- ( 74.780 ) = 74.780 deg.'F., 0.4265 psia dewpoint 6 ( 74.100 ) ' = 74.100'deg. F ,.0.4169 psia pressure 1 ( 59.8187-) = .59.8187? psia pressure 2 ( 59.8286 ). = 59.8286 psia-weighted averages, volume and air mass temperature = 81.57660Ldeg. F' pressure = .59.81870 psia
,Asq vapor pressure.= 0.45848 psia
.?
'~'
d
- volume = 2750000!cu. ft.
dry. air mass := 814068.69 lbm i
__:2__-_-- . .
1992 VEGP Unit 2 Vorification data set 4
) time = 45 date = 420 sensor raw data value temperature 1 ( 83.600 ) = 83.600 deg. F temperature 2 ( 82.970 ) = 82.970 deg. F temperature 3 ( 83.480 ) = 83.480 deg. F temperature 4 ( 83.400 ) = 83.400 deg. F temperature 5( 83.650 ) = 83.650 deg. F temperature 6( 83.600 ) = 83.600 deg. F temperature 7 ( 83.510 ) = 83.510 deg. F temperature 8 ( 84.390 ) = 84.390 deg. F temperature 9 ( 83.360 ) = 83.360 deg. F temperature 10 ( 83.270 ) = 83.270 dag. F temperature 11 ( 81.830 ) = 81.830 deg. F temperature 12 ( 83.250 ) = 83.250 deg. F temperature 13 ( 82.160 ) = 82.160 deg. F temperature 14 ( 82.780 ) = 82.780 deg..F temperature 15 ( 81.710 )' = 81.710 deg. F temperature 16 ( 81.600 ) = 81.600 deg. F temperature 17 ( 81.700 ) = 81.700 deg. F temperature 18 ( 81.550 ) = 81.550 deg. F temperature 19 ( 79.100 ) = _79.100 deg. F temperature 20 ( 81.380 ) = 81.380 deg. F g-') temperature 21 ( 80.820 ) = 80.820 dag. F
(_,f temperature 22 ( 80.180 ) = 80.180 dag. F temperature 23 ( 80.160 ) =- 80.160 dag. F temperature 24 ( 78.630 ) = 78.630 deg. F ,
temperature 25 ( 79.950 ) = 79.950 deg. F temperature 26 ( 79.310 ) = 79.310 deg. F temperature 27 ( 79.310 )- = 79.310 deg. F temperature 28 ( 78.270 ) = 78.270 deg. F temperature 29 ( 77.880-) = 77.880 deg. F temperature 30 ( 75.550 ) = 75.550'deg. F dewpoint 1 ( 80.900 ) = 80.900 deg. F , 0.5219 psia dewpcint_ 2 ( 79.320 ) = 79.320.deg.. F , 0.4957 psia dewpoint 3 ( 77.940 ) = 77.940 deg. F', 0.4737 psia dewpoint 4 ( 73.550 ) = 73.550 deg. F , 0.4093 psia dewpoint 5 ( 74.810 ) =- 74.010 deg. F , 0.4269 paia dewpoint 6 ( 74.110 )- = 74.110 deg. F, 0.4170 psia.
pressure 1- ( 59.8137 ) = 59.8137lpria pressure 2 ( 59.8235 )- = 59.8235 psia weighted averages, volume-and air mass temperature = 81.54965 deg. F pressure = 59.81370 psia vapor pressure = 0.45829 psia h
.[A- l volume dryEair mass
=
=
2750000
.814043.27 cu. ft.
lba s
1992 VEGp Unit 2 Vorification data set 5 O time = 100 date = 420
\ ,)
sensor raw data value temperature 1 ( 83.550 )- = 83.550 deg. F temperature 2 ( 82.920 ) = 82.920 dog. F temperature 3 ( 83.440 ) = 83.440 deg. F h temperature 4 ( 83.350_) = 83.350 deg. F temperature 5 ( 83.600 ) = 83.600 dog. F_
temperature 6 ( 83.560 ) = 83.560 deg. F temperature 7 ( 83.440 ) -
83.440 deg. F temperature 8 ( 84.330 ) a 84.330 deg. F temperature 9 ( 83.310 ) _ = 83.310 deg. F temperature 10 ( 83.740') = 83.240 deg. F temperature 11 ( et.780 ) = 81.780 dog. F temperature 12 ( 83.210 ) = 83.210 deg. F temperature 13 ( 82.130 ) = 82.130 dag. F temperature 14 ( 82.740 ) = 82.740'deg. F temperature 15 ( B1.660 ) = 81.660 deg. F temperature 16 ( 81.560 ) = B1.560 deg. F temperature 17 ( -81.650 ) = 81.650 deg. F temperature 18 ( 81.520 ) = 81.520 deg. F temperature 19 ( 79.070 ) = 79.070 deg. F temperature 20 ( 81.360 ) = 81.360 deg. F temperature 21 ( 80.800 ) = 80.800 deg. F i temperature 22 ( 80.170 ) = 80.170 deg. F temperature 23 ( 80.160 ) = 80.160 deg. F temperature 24 ( 78.630 ) = 70.630 deg. F .
temperature 25 ( 79.940 ) = 79.940 deg. F temperature 26 ( 79.300 ) = 79.300 deg. F temperature 27 ( 79.310 )- = 79.310 deg. F:
temperature 28 ( 78.270 ) = 78.270-deg. F-temperature 29_( 77.870 ) = 77.870_deg. F temperature 30 ( 75.540 ) = 75.540 deg..F-dewpoint 1 ( 80.910 ) = 80.910 deg. F, 0.5221 psia dewpoint 2 ( 79.270 ) = 79.270 deg. F , 0.4949 psia dewpoint 3 ( 77.890 ) = 77.890 deg. F , 0.4729 psia dewpoint 4 ( 73.580 ) =
73.580 deg. F ,-0.4097 psia dewpoint 5 ( 74.790!) = 74.790 dog. F ,-0.4266 paio dewpoint 6 ( 74.110 ) = 74.110 deg.-F1 , 0.4170 psia-pressure 1 ( 59.8089 ) = 59.8089 psia:
pressure 2 ( 59.8185 )' =- 59.8185 psia weighted averages, volume and air mass temperature. e 81.51676 deg. FL pressure = 59.80890 psia
()
s --
vapor pressure =
volume dry air mass
=
=
0.45806 psia 2750000 cu. ft.-
814030.12 lbm i m _ _ . . . . _ . . . -.
..__.._______...._ __ _ _ _ _ _ _ _ _ o
1992 VEGP Unit 2 Vcrificatic' data set 6 time = 115 date = 420 sensor raw data value temperature 1 ( 83.500 ) = 83.500 deg. F temperature 2 ( 82.880 ) = 82.880 deg. F temperature 3 ( 83.400 ) = 83.400 deg. F temperature 4 ( 83.310 ) = 83.310 deg. F temperature 5 ( 83.550 ) = 83.550 deg. F temperature 6 ( 83.520 ) = 83.520 deg. F temperature 7 ( 83.420 ) = 83.420 deg. F temperature 8 ( 84.290 ) = 84.290 dag. F temperature 9 ( 83.260 ) = 83.260 deg. F temperature 10 ( 83.160 ) = 83.160 deg. F temperature 11 ( 81.740 ) = 81.740 deg. F temperature 12 ( 83.160 ) = 83.160 deg. F temperature 13 ( 82.090-) = 82.090 deg. F temperature 14 ( B2.690 ) = 82.690 deg. F temperature 15 ( 81.630 ) = 81.630 deg. F temperature 16 ( 81.510 ) = 81.510 deg. F temperature-17 ( 81.620 ) = 81.620 deg. F temperature 18 ( 81.490 ) = 81.490 deg. F temperature 19 ( _79.050 ) = 79.050 deg. F temperature 20 ( 81.310 ) = 81.310 deg. F r% temperature 21 ( 80.780 ) = 80.780 deg. F l temperature 22 ( 80.140 ) = 80.140 deg. F temperature 23 ( 80.140-) = 80.140 dog. F temperature 24 ( 78.620 ) = 78.620 dog. F temperature 25 ( 79.920 ) = 79.920 deg. F temperature 26 ( 79.280 ) = 79.280 deg. F temperature 27 ( _79.300 ) = 79.300 deg. F temperature 28 ( 78.270 ) = 78.270 deg. F temperature 29 ( 77.860 ) = 77.860 deg. F temperature 30 ( 75.530 ) = 75.530 deg. F h i
dewpoint 1 ( 80.860 ) = 80.860 deg. F ,:0.5213 psia d dewpoint 2 ( 79.270 ) = 79.270 deg. F , 0.4949 psia dewpoint 3 ( 77.890 ) = 77.890 deg. F , 0.4729 psia dewpoint 4 ( _73.660 ) = 73.660 deg. F , 0.4108 psia dewpoint 5 ( 74.750-) = 74.750_deg. F ,-0.42F" "sia devpoint 6 ( 74.120 }- = 174.120 deg. F , 0.41*.- psia pressure 1 ( 59.8043-) =: 59.8043_ psia pressure 2- ( 59.8139') = 59.8139 psia' weighted averages, volume and air mass- -
temperature = 81.48255~deg. F pressure = 59.80430 psia vapor-pressure = 0.45808-psia q')
g-volume dry air mass
=
=
2750000 cu. ft.-
814018.14 lbm
1992 VEGP Unit 2 Vcrificaticn data set 7
() time = 130 date = 420 censor raw data value 4
temperature 1 ( 83.470 ) = 83.470 deg. F temperature 2 ( 82.850 ) = 82.850 deg. F temperature 3 ( 83.350 ) = 83.350 deg. F temperature 4 ( 83.2.J ) = 83.260 deg. F temperature 5 ( 83.510 ) = 83.510 deg. F temperature 6 ( 83.470 ) = 83.470 deg. F temperature 7. ( 83.410 ) = 83.410 deg. F temperature 8 ( 84.240 ) = 84.240 deg. F temperature 9 ( 83.200 ) = 83.200 deg. F temperature 10 ( 83.130 ) = 83.130 deg.-F temperature 11 ( 81.700 ) = 81.700 deg. F temperature 12 ( 83.110 ) - 83.110 deg. F temperature 13 ( 82.060 ) = 82.060 deg. F ,
temperature 14 ( 82.660 ) =- 82.660 deg. F temperature 15 ( 81.590 ) = 81.590 deg. F temperature 16 ( 81.480 ) = 81.480 deg. F temperature 17 ( 81.580 ) = 81.580 deg. F temperature 18 ( 81.460 ) = 81.460 deg. F temperature 19 ( 79.030 ) = 79.030 deg. F temperature 20 ( 81.280 ) = 81.280 deg.=F g-s. temperature 21 ( 80.760 ) = 80.760-deg. F q j temperature 22 ( 80.130 ) = 80.130.deg. F temperature 23 ( 80.140 ) = 80.140 deg, F temperature 24 ( 78.620 ) = 78.620 deg. F temperature 25 ( 79.920 ) = 79.920 deg. F temperature 26 ( 79.280 ) = 79.280 dog. F temperature 27_( 79.290 ) = 79.290 deg. F temperature 28 ( 78.270 ) = 78.270 dog. F temperature 29 ( 77.860 )- = 77.860_deg. F-temperature 30 ( 75.520 ) = 75.520 deg. F dewpoint 1 ( 80.830 ) = 80.830.deg. F , 0.5207 psia dewpoint 2 ( 79.230.) = 79.230 deg. F , 0.4942' psia dewpoint 3 ( 77.920 ) = 77.920 deg. F , 0.4734 psia dewpoint 4 ( 73.640 ) = 73.640 deg. F , 0.4105 psia' dewpoint 5- ( 74.690 ) = 74.690 deg. F ,-0.4252' pain dewpoint 6 ( 74.130 ) =- 74.130 deg. F , 0.4173 psia pressure 1- ( 59.7995 ) = -59.7995 psia pressure 2 ( 59.8091 ) = 59.8091 psia weighted averages,-volume and-air mass temperature = 81.45444 deg. F-pressure = 59.79950 psia-
,, vapor pressure = 0.45785Lpsia-( volume = 2750000 cu.-ft.
dry air mass = 813997.85 lbm
,j l
-- - - - - - - - _ - - c -
1992 VEGP Unit 2 Vorification data set 8 O
(_,/ time = 145 date = 420 sensor tsw data value temperature 1( 83.430 ) = 83.430 deg. F temperature 2( 82.810 ) = 82.310 deg. F temperature 3( 83.300 ) = 83.100 deg. F temperature 4( 83.230 ) = 83.; 30 dag. F temperature 5( 83.450 ) = 83.4 50 dog. F temperature 6( 83.430 ) = 83.4to deg. F temperature 7( 83.310 ) = 83.3 LO dog. F temperature 8( 84.190 ) = 84.190 deg. F temperature 9( 83.160 ) = 83.1'O deg. F j temperature 10 ( 83.090 ) = 63.030 deg. F !
temperature 11 ( 61.660 ) = 81.660 dog. F l temperature 12 ( 83.080 ) = 83.000 dag. F temperaturn 13 ( 82.0*0 ) = S2.010 deg. F temperatute 14 ( 82.610 ) = 82.610 deg. F ;
temperature 15 ( 81.550 ) = 81.550 deg. F temperature 16 ( 81.450 ) = 81.450 dog. F i l
temperature 17 ( 81.550 ) = 81.550 deg. F temperature 18 ( 81.410 ) = 81.410 deg. F temperature 19 ( 79.010 ) = 79.010 deg. F temperature 20 ( 81.250 ) = 81.250 deg. F (x temperature 21 ( 80.760 ) = 80.760 deg. F
( ,) temperature 22 ( 80.130 ) = 80.130 deg. F temperature 23 ( 80.130 ) = 80.130 deg. F temperature 24 ( 78.G10 ) = 78.610 deg. F ,
temperature 25 ( _79.910 ) = 79.919 deg. F temperature 26 ( 79.200 ) = 79.280 deg. F temperature 27 ( 79.300 ) = 79.300 deg. F temperature 28 ( 78.260 ) = 78.260 deg. F temperature 29 ( 77.880 ) = 77.880 deg. F temperature 30 ( 75.530 ) = 75.530 deg. F devpoint 1 ( 80.850 ) = 80.850 deg. F, 0.5211 psia dewpoint 2 ( 79.170 ) = 79.170 dog. F, 0.4932 psia dewpoint 3 ( 77.880 ) = 77.880 deg. F , 0.4727 psia dewpoint 4 ( 73.580 ) = 73.580 deg. F , 0.4097 psia dewpoint 5 ( 74.810 ) = 74.810 deg. F , 0.4269 paia dewpoint 6 ( 74.180 ) = 74.180 deg. F , 0.4180 psia pressure 1 ( 59.7945 ) = 59.7945 psia pressure 2 ( 59.8046 ) = 59.8046 psia weighted averages, volume and air mass temperature = 81.42403 deg. F pressure = 59.79450' psia vapor pressure = 0.45777 psia volume = 2750000 cu. ft.
dry air mass = 813976.01 lbm
1992 VEGP Unit 2 VGrificOtion data b 9 :
( time = 200 date = 420 Lensor raw data value temperature 1( 83.380 ) = 83.380 deg. F temperature 2( 82.770 ) = 82.770 deg. F ,
temperature 3( 83.270 ) = 83.270 deg. F temperature 4( 83.180 ) = 83.180 deg. F temperature 5( 83.420 ) = 83.420 deg. F temperature 6( 83.390 ) = 83.390 deg. F temperature 7( 83.310 ) = 83.310 deg. F temperature 8( 84.160 ) = 84.160 deg. F temperature 9( 83.110 ) = 83.110 deg. F temperature 10 ( 83.030 ) = 83.030 deg. F temperature 11 ( 81.630 ) = 81.630 deg. F temperature 12 ( 83.040 ) = 83.040 deg. F temperature 13 ( 81.970-) = 81.970 deg. F temperature 14 ( 82.580 ) =- 82.580 deg. F temperature 15 ( 81.530 ) = 81.530 deg. F temperature 16 ( 81.410 ) = 81.410 deg.'F temperature 17 ( 81.510 ) = 81.510 deg. F temperature 18 ( 81.380 ) = 31.380 deg. F temperature 19 ( 78.990 ) = 78.990 deg. F temperature 20 ( 81.230 ) = 81.230 deg. F s temperature 21'( 80.730 ) = 80.730 deg. F temperature 22 ( 80.120 ) =. '80.120 deg. F temperature 23 ( 80.120 ) = 80.120 deg. F temperature 24 ( 78.600 ) = 76.600 deg. F ,
temperature 25 ( 79.910 ) = 79.910 deg.-F temperature 26 ( 76.270 ) = 79.270 deg. F-temperature 27 ( 79.290 ) = 79.290 deg- F temperature 28 ( '78.270 ) = 78.270-deg. F temperature 29 ( 77.870 ) = 77.870 deg. F temperature 30 ( 75.530-) = 75.530 deg. F-dewpoint 1 ( 80.820 ) = 80.820 deg. F , 0.5206 psia- 7 dewpoint 2 ( 79.180 ) = 79.180 deg. F ,.0.4934 psia dewpoiltt 3 ( 77.790 ) = 77.790 deg.~F , 0.4713 psia dewpoint 4 ( 73.600 ) = -73.600'deg. F , 0.4100. psia.
dewpoint 5 ( 74.760 ) = 74.760~deg.-F ,.0.4262. psia dewpoint 6 ( 74.180 ) =- 174.180 deg. F',..0.4180. psia ,
pressure 1 ( 59.7902 ) = 159.7902 psia.
pressure 2 ( 59.8001-) w 59.8001 psia weighted averages, volume and air mass temperature =. 81.39735' deg. F ,
pressure = 59.79020 psia vapor. pressure = 0.45742 psia volume = 2750000 cu. ft.
\ dryfair. mass. = 813961.94 lbm-
1992 VEGP Unit 2 Verification data set 10
()
r time = 215 date = 420 censor raw data va ue temperature 1 ( 83.340 ) = 83.340 deg. F temperature 2 ( 82.730 ) = 82.730 deg. F temperature 3 ( 83.240 ) = 83.240 deg. F temperature 4 ( 83.140 ) = 83.140 deg. F temperature 5 ( B3.380 ) = 83.380 deg. F temperature 6 ( 83.350 ) = 83.350 deg. F temperature 7 ( 83.240 ) = 83.240 deg. F temperature 8 ( 84.130 ) = 84.130 dog. F temperature 9 ( 83.060 ) = 83.060 deg. F temperature 10 ( 82.990 ) = 82.990 deg. F temperature'll ( 81.590 ) = 81.590 deg. F temperature 12 ( 82.990 ) = 82.990 deg. F temperature 13 ( 81.940 )- = 81.940 dag. F temperature 14 ( 82.540 ) = 82.540 deg. F temperature 15 ( 81.490 ) = 81.490 deg. F temperature 16 ( 81.380 ) = 81.380 deg. F temperature 17 ( 81.490 ) = 81.490 deg. F temperature 18 ( 81.360 ) = 81.360 deg. F temperature 19 ( 78.950 ) = 78.950 deg. F temperature 20 ( 81.200 ) = 81.200 deg. F temperature 21 ( 8 0. ? '.0 ) = 80.710 deg. F s/
temperature 22 ( 80.120 ) = 80.120 deg. F temperature 23 ( 80.120 ) = 80.120 deg. F temperature 24 ( 78.600 ) = 78.600 deg. F ,
temperature 25 ( 79.910 ) = 79.910 deg. F temperature 26 ( 79.270 ) = 79.270 deg. F temperature 27 ( 79.290 ) = 79.290 deg. F temperature 28 ( 78.270 ) = 78.270 deg. F temperature 29 ( 77.870 ) = 77.870 deg. F temperature 30 ( 75.510 )
- 75.510_deg. F dewpoint 1 ( 80.800 ) = 80.800 deg. F , 0.5202 psia dewpoint 2 ( 79.170 ) = 79.170 deg. F , 0.4932 psia dewpoint 3 ( 77.760 ) = 77.760 deg. F , 0.4709 psia dewpoint 4 ( 73.630') = 73.630 deg.-F , 0.4104 psia dewpoint 5 ( 74.860 ) = 74.860 dag. F , 10.4276 psia dewpoint 6 ( 74.180 ) = 74.180 deg. F , 0.4180' psia pressure 1 ( 59.7859 ) = 59.78SO psia pressure 2 ( 59.7954 ) = -59.7954-psia weighted averages, volume and air mass temperature' = 81.36905 deg.'F pressure = 59.78590 psia vapor pressure = 0.45750 psia
- [' volume = 2750000 cu. ft.
( .- dry. air mass' = .813944.55 lba
-mu.m+wm .
1992 VEGP Unit 2 VCrificction data set 11 time = 230 date = 420 sensor raw data value temperature 1( 83.310 ) = 83.310 dog. F temperature 2( 82.700 ) = 82.700 dag. F temperature 3( 83.210 ) = 83.210 deg. F temperature 4( 83.110 ) = 83.110 deg. F temperature 5( 83.330 ) = 83.330 deg. F temperature 6( 83.310 ) = 83.310 deg. F temperature 7( B3.180 ) = 83.180 deg. F tenserature 8 (- 84.070 ) = 84.070 deg. F temperature 9 ( 83.020 ) = 83.020 deg. F temperature 10 ( 82.960 ) = 82.960 deg. F tempers?ure 11 ( 81.560 ) = 81.560 deg. F temperature:12 ( 82.950 ) = 82.950 deg. F temperature 13 ( 81.890 ) = 81.890 deg. F temperature 14 ( 82.510 ) = 82.510 deg. F temperature 15 ( 81.450 ) .= 81.450 deg. F temperature 16 ( 81.350 ) = 81.350 deg. F temperature 17 ( 81.450 ) = 81.450 deg. F temperature 18 ( 81.330 ) = 81.330 deg. F temperature 19 ( 78.920 ) = 78.920 deg. /
temperature 20-( 81.160 ) = 81.160 deg.
- temperature 21 ( 80.680.) =
80.680 de( F C%g,) temperature 22 ( 80.100 ) = 80.100 deg. F temperature 23 ( '80.113 ) = 80.110 deg. F temperature 24-(_ 78.580 ) = 78.580 deg. F temperature 25 (- 79.890 ) = 79.890 dag. F temperature 26 ( 79.250 ) .= 79.250 deg. F' temperature 27 ( 79.280 ) = 79.280 deg. F temperature 28 ( 78.270 ) = <78.270 deg. .
temperature 29 ( 77.860 ) = 77.860. dog..F
-temperature 30 ( 75.510 ) = 75.510 deg. F dewpoint 1 ( 80.790 ) = 80.790 deg. F , 0.5201 psia dewpoint 2 ( 79.110 ) = 79.110 deg. F , 0.4923 psia dowpoint' 3 ( 77.850 ) = 77.850 deg..F , 0.4723 psia dewpoint 4 ( 73.650 ) = 73.650 deg. F:, 0.4107 psia dewpoint 5 ( 74.800 ) =- 74.800 deg. F ,,0.4268 psia dewpoint 6 ( 74.160 ) =- 74.160'deg. F ,-0.4177 psia =,
pressure 1 ( 59.7813.) = 59.7813 psia 1 pressure 2 ( 59.7909 ) = 59.7909 psia weighted averages, volume and air mass temperature = 181.33791 deg. F pressure = 59.78130 psia vapor pressure = 0.45745 psia i volume = 2750000 cu..ft.
7-s}
\- dry air mass' = 813928.88 lbm
1992 s EGP Unit 2 Verifiention data set 12 3,, ,
U time = 245 date = 420 sensor raw data value temperature 1 ( 83.260 ) = 83.260 deg. F temperature 2 ( 82.650 ) = 82.650 deg. F temperature 3 ( 83.170 i = 83.170 deg.lP temperature 4 ( 83.060 ; = 83.060 deg. F temperature 5 ( 83.290 ) = 83.290 deg. F temperature 6 ( 83.280 ) = 83.280 deg. F temperature 7 ( 83.180 ) = 83.180 dog. F temperature 8 ( 84.030 ) = 84.030 deg. F temperature 9 ( 82.980 ) = 82.980 deg. F temperature-10 ( 82.930 ) = 82.930 deg. F.
temperature 11 ( 81.530 J' = 81.530 deg. F temperature 12 ( 82.900 ) = 82.900 deg. "
temperature 13 (- 81.860 ) = 81.860 deg. F temperature 14 ( 82.480 ) = G2.480 deg. F temperature 15 ( 81.430 ) = 81.430 deg. F '
temperature 16 ( 81.320 ) = 81.320 deg. F temperature 17 ( 81.420 ) = 81.420 deg. F 4 temperature 18 ( 81.290 ) = 81.290 deg. F temperature 19 ( 78.900 ) = 78.900 deg. F temperature 20 ( 81.130 ) = 81.130 deg. F (g temperature 21 ( 80.680 ) = 80.680 deg. F
( ,) temperature 22 ( 80.100 ) = 80.100 deg. F temperature 23 ( 80.110 ) = 80.110 deg. F temperature 24 ( 78.600 ) = 78.600 deg.-F -
temperature 25 19.900 ) = 79.900 deg. F temperature 26 s 79.260 ) = 79.260.deg. F temperature 27 ( 79.270 ) = 79.270 deg. F.
temperature 28 ( 78.260 ) = 76.260 deg. F temperature 29 (- 77.870 ) = 77.870 deg.;F- .
temperature 30 ( 75.500 ) = 75.500 deg..F dewpoint 1 ( 80.760 ) = 80.7^0 deg. F , 0.5196 psia dewpoint 2 ( 79.130 ) = -79.1,1 deg. F , 0.4926 psia dewpoint- 3 _( 77.850 ) = 77.850 deg. F., 0.4723 psia.
dewpoint 4 ( 7.1.620 ) -- 73.620 deg. F ,'O.4102 psia dewpoint -5 ( 74.810 ) = 74.810 deg. F ,-0.4269 psia dewpoint 6 ( 74.170 )L = 74.170 6eg.lP_, 0.4179 psia pressure 1 ( 59.7770 ) = 59.7770 psia.
pressure 2 ( 59.7866.) - .=- 59.7866-' psia weighted averages, volume and air mass
-temperature = 81.31451_deg. F pressure =- 59.77700 psia vapor pressure = 0.45740 psia-E( volume
'-~ -)
= 2750000 cu. ft.
dry air mass = 813905.76 lbm
1992 VEGP Unit 2 Verification .
data set 13 n
time = 300 date = 420 sensor raw data value temperature 1( 83.230 ) = 83.230 deg-F temperature 2( 82.G30 ) = 82.630 deg. F 83.130 )
temperature ( = 83.130 deg. F imperature 83.020 ) = 83.020 deg. F temperature
- 83,260 ) = 83.260 deg. F temperature 6( 83.230 ) = 83.230 deg. F
-temperature 7 ( 83.130 ) = 83.130 deg. F l temperature 8 ( 83.990 ) = 83.990 deg. F '
temperature 9 (. 82.930 ). = 82.930 deg. F temperature 10 (. 82.890 ) = 82.890 deg. F temperature 13 - ( 81.500 ) = 81.500 deg. F temperature 12 ( 82.860 ) = 82.860 deg. F temperature 13 .( 81.830 ) = 81.830 deg. F temperature 14 (. 82.450 ) = 82.450 deg. F temperature-35 ( 81.410 ) = 81.410 deg. F temperature 16 ( 81.300 ) = 81.300 deg. F temperature 17 ( 81.390 ) = 81.390 deg.-F temperature 18-( 81.260 ) = 81.2601deg. F temperature 19 ( 78.880 ) = 78.880 deg. F temperature 20 ( 81.090 ) =- 81.090 deg. F g-s temperature 21-( 80.660 ) = 80.660 deg. F
( j temperature 22 ( 80.080 ) = 80.080 deg. F ;
80.100 )
temperature 23 ( = 80.100 deg. F temperature 24 ( 78.580 ) = 78.580 deg. F ,
temperature 25 ( 79.880 ) = 79.880 deg. F temperature 26 ( 79.240 ) = 79.240.deg. F temperature 27 ( 79.270 ) = 79.270 deg.-F temperature 28 ( 78.250 ) = 78.250 deg. F .
temperature 29 ( 77.860 ) = 77.860 deg. F temperature 30 ( 75.500 ) = 75.500 deg. F dewpoint 1 ( 80.700 ) = 80.700 deg. F , 0.5185 psia dewpoint 2 ( 79.130 ) = 79.130 deg.1F , 0.49261 psia dewpoint 3 ( 77.770 ) = 77.770 deg. F , 0.4710-psia dewpoint 4 ( 73.660 ) = 73.660-deg. F , 0.4108 psia dewpoint 5 ~( 74.840 ) = 74.840 deg. F, 0.4274 psia dewpoint 6 ( 74.180 ) = 74.180 deg. F', 0.4180 psia pressure 1 ( 59.7726-)' = 59.7726 psia pressure 2 ( 59.7821 ) = 59.7821 psia weighted averages, volume and air mass :
temperature = .81.28658 deg.-F' pressure' = 59.77260 psia-
, 7,., vapor pressure = 0.45719 psia
( ) volume = 2750000 cu. ft.
kJ dry air mass = 813890.35 lbm i
I l -1 l-1992-VEGP Unit 2LVGrification data set 14
.n I) time = 315 date = 420 sensor raw data value temperature 1 ( 83.200 ) = 83.200 deg. F.
temperature 2 ( 82.580 ) a 82.580 deg. F temperature 3 ( 83.100 ) = 83.100 deg. F temperature 4 ( 82.980 ) = 82.980 deg. F temperature 5 ( 83.220 ) = 83.220 deg. F temperature 6 ( 83,220 ) = 83.220 dag. F temperature 7 ( 83.110 ) = 83.110 deg. F temperature 8 ( 83.960 ) = 83.960 deg. F temperature 9 ( 82.910 ) = 82.910 deg. F temperature 10 ( 82.840 ) = 82.840 deg. F temperature 11 ( 81.470 ) = 81.470 deg. F temperature 12 ( 82.810 ) = 82.810 deg. F temperature 13 ( 81.800 ) = 81.800 deg. F temperature 14 ( 82.420 ) = 82.420 deg. F temperature 15-( 81.390 }- = 81.390 deg. F temperature 16 ( 81.270 )- = 81.270 deg. F temperature 17 ( 81.360 ) = 81.360 deg. F temperature 18 ( 81.240 ) = 81.240 deg. F temperature 19 ( 78.860 ) = 78.860 deg. F temperature 20 ( 81.070 ) = 81.070 deg. F
. temperature 21 ( 80.650 ) = 80.650 deg. F t temperature 22 ( 80.060 ) = 80.060 deg. F temperature 23 ( 80.040 ) = 80.040 deg. F temperature 24 ( 78.570 ) = 78.570 deg. F temperature 25 ( 79.880 ) = 79.880 deg. F temperature 26 ( 79.240 ) = 79.240 deg.-F temperature 27 ( 79.270-) = -79.270 deg. F.
temperature 28 ( 78.230 ) -
= 78.230 deg. F-temperature 29 ( -77.860 ) = 77.860 deg. F temperature 30 ( 75.490-) = 75.490 deg. F dewpoint 1 ( 80.720 ) = 80.720 deg. F- , 0.5189 psia dewpoint 2 ( 79.060 ) = 79.060 deg. F ,-0.4915 psia dewpoint 3 ( 77.660 ) -- 77.660 deg. F , 0.4693 psia dewpoint 4 ( 73.620_) = 73.~620'deg. F , 0.4102 psia dewpoint- 5 (' 74.880-) = L74.880 deg. F , 0.4279 psia dewpoint 6 ( 74.170 ) = 74.170 deg. F , 0.4179 psia pressure 1 ( -59.7680 ) = 59.7680 psia-pressure 2 ( 59.7773 -) = 59.7773 psia weighted averages, volume and air mass 4
temperature =- 81.26124Ldeg. F pressure = 59.76800-psia vapor pressure: = 0.45665-psia
() volume = 2750000 cu. ft.
(_) dry air mass- = 813872.82-lbm
-4 i
1992 VEGF Unit 2 Verificction-data set 15
.g)
(, time = 330 date = 420 sensor raw data value temperature 1( 83.170 ) = 83.170 deg. F ,
temperature 2( 82.550 ) = 82.550 deg. F temperature 3( 83.060 ) = 83.060_deg. F temperature 4( 82.970 ) = 82.970 deg. F temperature 5-( 83.180 ) = 83.180 deg. F temperature 6( 83.180 ) = 83.180 deg. F temperature 7 ( 83.070 ) = 83.070L deg. F temperature B( 83.950 ) = 83.950 deg. F temperature 9( 82.860 ) = -82.860 deg. F temperature 10 ( 82.810 ) = 82.810 deg. F' temperature 11 ( 81.440 ) = 81.440 deg. F temperature 12 ( 82.760 ) = 82.760 dog. F temperature 13 ( 81.780 ) = 81.780-deg. F temper:ature 14 ( 82.400 ) = 82.400 deg. F temperature 15 ( 81.350 ) = 81.350 deg. F temperature 16 ( 81.240 ) = 81.240 deg. F
~
temperature 17 ( 81.340 ) = 81.340 deg. F temperature 18 ( 81.210 ) = 81.210 deg. F .
temperature 19 ( 78.840 ) = 78.840 deg. F ,"
temperature 20 ( 81.06C ,
= 81.060 deg. F temperature 21 ( 80.630 ) = 80.630 deg. F 7-s temperature 22 ( 80.030 ) = 80.030 deg. F g
Nj temperature 23 ( 80.050 ) = 80.050 deg. F-temperature 24 ( 78.580 ) = 78.580 deg. F temperature 25 ( 79.880 ) = 79.880 deg. F temperature 26 ( . 79.240 ) = -79.240 deg. F temperature 27 ( 79.260 ) = 79.260 deg. F temperature 28 ( 78.250 ) = 78.250 deg. F temperature 29 ( 77.860 ) = _77.860 deg.;F temperature-30 ( 75.490 ) == 75.490 deg. F dewpoint 1 ( 80.710 ) = 80.710 deg._F , 0.5187 psia dewpoint -2 ( 79.050-) = 79.050 deg. F, 0.4913 psia dewpoint 3 -( 77.630 ) = 77.630 deg. Fz, _0.4689 psia dewpoint 4 ( 73.640 ). = 73.640 deg. F_, 0.L4105 psia dewpoint 5 74.860-)- = 74.860'deg. F , 0.4276 psin
(
dewpoint 6- ( 74.190 ) = 74.190 deg. F ,-0.4182 psia 59.7636 )
~
pressure 1 ( = 59.7636 psia pressure 2 ( 59.7727 ) = 59.7727 psia i weighted averages, volume and air mass ,
temperature = .81.23942 deg. F-pressure = 59 76360 psia-vapor pressure = 0.45657 psia f volume = '2750000 cu. ft.
3s )h dry air mass = 813846.36 lbm
- _ _ _ _ _ _ _ _ _ _ _ _ _ l
199? VEGP Unit 2 Verificction data set 16
(_/ time = 345 date = 420 sensor raw data value j temperature 1 ( 83.130 ) = 83.130 deg. F-temperature 2 ( 82.520 ) = 82.520 deg. F temperature 3 ( 83.020 )- = 83.020 deg. F temperature 4 ( 82.930 ) = 82.930 deg. F temperature 5 ( 83.160 ) = 83.160 deg. F temperature 6 ( 83.150 ) = 83.150 deg. F temperature 7 (. 83.050 ) = 83.050 deg.-F temperature 8 ( 83.920 ) = 83.920 deg. F temperaturo 9 ( 82.820 ) = 82.820 deg. F temperature 10 ( 82.750-) = 82.750 dog. F temperature 11 ( 81.410 ) = 81.410 deg. F.
temperature 12 (- 82.720 ) = 82.720 deg. F-temperature 13 ( 81.750 ) = 81.750 deg. F temperature 14 ( 82.370 ) = 82.370 deg. F tempedsture 15 ( 81.330 ) = 81.330 deg. F temperacure 16 ( 81.200 ) = 81.200 deg. F
~4 temperature 17 ( 81.320 ) = 81.320 deg. F temperature 18 ( 81.180 ) = 81.180 deg. F temperature 19 ( 78.820 ) = 78.820'deg. F temperature 20 ( 81.030 ) = 81.030 deg. F g3 temperature 21 ( 80.610 ) = 80.610-deg. F is
'j temperature 22 ( 80.000 ) = 80.000 deg. F temperature 23 ( 80.020 ) = 80.020 deg. F temperature 24 ( 78.560 ) = 78.560 deg.1F temperature 25 ( 79.860 ) = 79.860 deg. F temperature 26 ( 79.220 ) = 79.220 deg. F temperature 27 ( 79.250 )_ = 79.250 deg. F temperature 28 ( 78.240 ) = 78.240 deg.,F .
temperature 29-( 77.850 )_ = 77.850 deg. F temperature 30 ( 75.480 ) = 75.480 deg. F dewpoint 1 ( '80.740-) - = 80.740-deg. F , 0.5192 psia dewpoint 2- ( 79.100 ) = 79.100 deg.-F , 0.4921 psia dewpoint 3 ( 77.600 ): = 77.600 deg.~F , 0.4684 psia '
dewpoint 4- ( 73.640.) = -73.640 deg.-F , 0.4105 psia '
dewpoint 5 ( 74.820-) = -74.820 deg. F', 0.4271
. paia dewpoint. 6 f 74.170 ) ~= 74.170 deg. F , 0.4179 psia pressure 1 ( 59.7593 ) = 59.7593 psia pressure- 2 ( 59.7685 )- =- 59.7685 psia weighted averages, volume and-air mass temperature = 81.21155 deg. F pressure' -= 59.75930 psia vapor pressure = 0.45659 peia
['/
). volume dry air' mass
=
=-
2750000 813828.96 cu. ft.
lbm
_ _ _ _ _ _ J
1992 VEGP Unit 2-VGrification data set L 17 Q_'
\.s,/ time = 400 date a 420 sensor raw data value temperature 1 (- 83.110 ) = 83.110 deg. F temperature _ 2 ( 82.480 ) = 82.480 deg. F temperature 3 ( 83.000 ) = 83.000 deg.-F temperature 4 ( 82.900 ) = -82.900 deg. F temperature 5 ( 83.110 ) = 83.110;deg. F-temperature 6 ( 83.110-) = 83.110 deg. F-temperature 7 ( 83.010 ) = 83.010-deg. F-temperature 8 ( -83.880 ) = 83.880 deg. F temperature 9 ( 82.790 ) = 82.790 deg. F temperature 10 ( 82.720 ) = 82.720_deg. F temperature 11 ( 81.370.) = _81.370 deg. F temperature 12 (. 82.690 ) = 82.690 deg. F temperature 13_(- 81.710 ) = -81.710 deg. F temperature-34 ( 82.330 ) = 82.330'deg. F temperature li ( 81.300 ) = 81.300 deg- F ,
temperature 16 ( 81.180 ) = 81.180 deg. F '
temperature 17 ( 81.290-) = 81.290 deg. F temperature 18 (- 81.170 ) = 81.170 deg. F-temperature 19 ( 78.800 ) = 78.800 deg. F temperature 20 ( 81.010 ). = 81.010 deg. F~
gS temperature 21 ( 80.600 ) = 80.600'deg._F-( ) temperature 22 ( 79.980 ) = 79.980 deg. F temperature 23 ( 80.000 ) = 80.000 dog. F temperature 24 ( 78.560 ) = 78.560 deg. F -
temperature 25 ( 79.830 ) = 79.830 deg.lP temperature 26 ('.79.210 ) = _79.210 deg. F temperature 27 ( 79.240 ) = 79.240 deg.'F-temperature,28-( =78.240-)' = 78.240 deg. F-temperature!29.( 77.850 )_ = 77.850:deg. F temperature 30 ( 75.460 ) = 75.460 deg.- F dewpoint 1 ( 80.720 ) = 80.720 deg. F , 0.5189 psia dewpoint 2 ( 79.000 ) = 79.000 deg. F , 0.4905'psiu dewpoint: 3 ( 77.470 ) = 77.470 deg. F , 0.4664 psia dewpoint 1 4 ( --73.540 ) = 73.540 deg. F , 0.4091' psia _
dewpoint 5- ( 74.880 ) = 74.880 deg. F , 0.4279 psia dewpoint 6 ( 74.190 ) = 74.190 deg.fF:,l0.4182 psia pressure -1 ( -59.7546 ). = 59.7546 psia pressure 2 ( 59.7640 ) = 59.7640 psia-weighted averages,' volume and air mass temperature' = 81~.18564-deg. F pressure' = 59.75460 psia
, vapor pressure = 0.45576' psia
! volume = 2750000 cu. ft.
\-)' .
-dry air mass- = 813814.86-lbm-
-i'
- - _ ~~
1992 VEGP Unit 2 Vcrificction
.. data set 18 q
_) time = 415 date = 420 sensor raw data . value temperature 1 ( 83.070 ) = 83.070 deg. F temperature 2( 82.440-) e 82.440 deg. F temperature 3 ( 82.970.)- = 82.970 deg. F temperature 4 ( 82.850-) = 82.850 deg. F temperature 5 ( 83.080 ) = 83.080 deg. F temperature 6 ( 83.080 ) = 83.080 deg. F temperature 7- ( 82.980 ) = 82.980 deg. F temperature 8 ( 83.850 ) = 83.850 deg. F temperature 9 ( 82.740 ) = 82.740 deg. F-temperature-10 ( 82.680 ) = 82.680 deg. F temperature 11-( 81.350 ) = 81.350 deg. F temperature 12 ( 82.630 ) = 82.630 deg. F temperature 13 ( 81.690 ) = 81.690 deg. F temperature 14 (1 82.300 ) = 82.300 deg. F temperature 15 ( B1.270 ) = 81.270 deg. F temperature 16 ( 81.150 ) = 81.150 deg. F.
temperature 17 ( 81.270 ) = 81.270 deg. F temperature 18 ( 81.140 ) = 81.140_deg. F temperature 19 ( 78.760 ) = 78.760 deg. F temperature 20 ( 81.000 ) = 81.000 deg; F 7-sg temperature 21 ( -80.570 ) = 80.570 deg. F
( ,j temperature 22 ( 79.960 )
temperature 23 ( 79.990 )
=
=
79.960.deg. F 79.990-deg. F temperature 24 ( 78.560 ) = - 78.560 deg. F temperature 25 ( 79.830-) = 79.830 deg. F temperature 26-( 79.200-) = 79.200 deg. F temperature 27 ( 79.220 ) = 79.220 deg. F temperature 28-( 78.230_) = 78.230 deg. F temperature 29 ( 77.850 )- = -77.850 deg. F temperature 30 ( 75.460 ) = 75.460 deg. F dewpoint 1 ( 80.720 ) = 80.720 deg. F , 0.5189-psia dewpoint 2 ( 78.980 ) = 78.980-deg. F , 0.4902 psia-dewpoint 3 ( 77.560 ) -= 77.560_deg. F , 0.4678 psia dewpoint 4 ( 73.540 ) =- 73.540 deg. F , 0.4091 psia dewpoint 5 ( 74.760 ) = 74.760 deg. F , 0.4262 psia dewpoint 6 ( 74.190 ) = 74.190 deg.-F', 0.4182 psia pressure 1 ( 59.7506-) = -59.7506 psia pressure 2 ( _59.7599-) = 59.7599 psia-weighted averages, volume and air mass ,
temperature = 81.15923 deg. .F pressure = 59.75060 psia-vapor pressure = 0.45576 psia
\ volume
[M
% dry air mass
=
=
2750000 cu. ft.
813799.70 lbm i -
1992 VEGP Unit 2 VGrificOtion data set 39 T'g .
( ,/ time = 430 date = 420 sensor raw data value temperature 1( 83.040 ) = 83.040 deg. F temperature 2( 82.410 ) = 82.410 deg. F temperature 3( 82.910 ) = 82.910 deg. F temperature 4( 82.820 ) = 82.820 deg. F
- temperature 5( 83.030 ) = 83.030 deg. F temperature 6( 83.050 ) = 83.050 deg. F temperature 7( 82.930 ) = 82.930 deg. F temperature 8( 83.800 ) = 83.800 deg. F temperature 9( 82.700 ) = 82.700 deg. F temperature 10 ( 82.660 ) = 82.660 deg. F temperature-11 ( 81.310 ) = 81.310 dag. F temperature 12 ( 82.590 ) = 82.590 deg. F temperature 13 ( 81.650 ) = 81.650 deg. F temperature 14 ( 82.270 ) = 82.270 deg. F temperature 15 ( 81.240 ) = 81.240 deg. F temperature 16 ( 81.120-) = 81.120 deg. F .
temperature 17 ( 81.220 ) = 81.220 deg. F i temperature 18 ( 81.100 ) = 81.100 deg. F temperature 19 ( 78.740 ) = 78.740 deg. F temperature 20 ( 80.960 ) = 80.960 deg. F temperature 21 ( 80.560 ) = 80.560 deg. F
('/s) temperature 22 ( 79.950 ) = 79.950 deg. F temperature 23 ( 79.970 ) = 79.970 deg. F temperature 24 ( 78.560 ) = 78.560-deg. F .
temperature 25 ( 79.030 ) = 79.830 deg. F temperature 26 ( 79.200 ) = 79.200 deg. F temperature 27 ( 79.230 ) = 79.230 deg. F temperature 28 ( 78.230 ) = 78.230 deg. F temperature 29 ( 77.850 )- = 77.850 deg. F temperature 30.( 75.470 ) = 75.470 deg. F dewpoint 1 ( 80.640 ) = 80.640'deg. F , 0.5175 psia I dewpoint 2 ( 79.000 ) = 79.000 deg. F , 0.4905. psia dewpoint 3 ( 77.460 ) .= 77.460 deg. F , 0.4662 psia dewpoint 4 ( 73.570 ) = 73.570 deg. F , 0.4095 psia dewpoint 5- ( 74.720 ) = 74.720 deg. F , 0.4256 psia 74.220 )
dewpoint 6 ( = 74.220 deg. F , 0.4186 psia pressure 1 ( 59.7460 ) = 59.7460 psia pressure 2 ( 59.7554 ) = 59.7554 psia weighted averages, volume and. air mass temperature = 81.13181 deg. F pressure = 59.74600 psia' 7_s j '
vapor pressure = 0.45540 psia t volume = 2750000 cu. ft.
\-) dry air mass = 813782.72 lbm i 1
l l
m._.__---u_.-~___- . _ _ _ _ _ _ _ _