ML20045A963

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Reactor Containment Bldg Integrated Leakage Rate Test Rept for Apr 1993, Final Rept
ML20045A963
Person / Time
Site: Vogtle Southern Nuclear icon.png
Issue date: 04/30/1993
From:
GEORGIA POWER CO.
To:
Shared Package
ML20045A960 List:
References
NUDOCS 9306150397
Download: ML20045A963 (108)


Text

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O REACTOR CONTAINMENT BUILDING  !

INTEGRATED LEAKAGE RATE TEST l UNIT 1 - SECOND PERIODIC I

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i Vogtle Electric Generating Plant Georgia Power Company 4

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o Georgia Power the southern electric system 24 P PDR flg

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GEORGIA POWER COMPANY VOGTLE ELECTRIC GENERATING PLANT ;

i REACTOR CONTAINMENT BUILDING INTEGRATED LEAKAGE RATE TEST ,

UNIT 1 - SECOND PERIODIC APRIL 1993 FINAL REPORT i

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Prepared by ,

Southern Company Services, Inc.

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l TABLE OF CONTENTS i) 1.0 Introduction Page 1 2.0 Summary Page 2 3.0 Methodology Page 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 l 4.3 Stabilization Page 6 4.4 Type A Test Page 6 4.5 Verification Page 7 4.6 Depressurization Page 7  ;

5.0 Results and Analysis Page 8 5.1 Total Time Results Page 8.

5.2 Verification Results Page' 10 i

5.3 Mass Point Results Page 11 i 6.0 References Page 12 i

Tables and Figures ,l i*

i Appendix I Integrated Leak Rate Test (ILRT) Computer Program Description Appendix II Type B and C Local Leakage Rate Test Results (

Appendix III Instrument Calibration Summary Appendix IV General Information i Appendix V Test Data O i l

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LIST OF TABLES

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Table Title  !

1 Dry-Bulb and Dew Point Temperature Sensor Locations 2 Temperature Stabilization Report 3 Data Summary Report 4 Total Time Leakage Rate Report 5 Total Time Leakage Rate Report - Verification 6 Mass Point Leakage Rate Report  ;

7 Mass Point Leakage Rate Report - Verification LIST OF FIGURES Figure Title l 1 Temperature During Stabilization 2 Air Mass - Type A Test i 3 Mean Temperature - Type A Test l

t 4 Total Pressure - Type A Test 5 Vapor Pressure - Type A Test .

6 Total Time Leakage Rate - Type A' Test 7 Air Mass - Verification 8 Total Time - Verification f

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1.0 INTRODUCTION

The second periodic Integrated Leakage Rate Test (ILRT) at 1

.,g Georgia Power Company's Vogtle Electric Generating Plant '

() . (VEGP) Unit 1 was performed on March 19-20, 1993. The ILRT was.

performed as required by 10CFR50 Appendix J (reference 1) and the VEGP Unit 1 and Unit 2 Final Safety Analysis Report (FSAR)

  • Update (reference 4) to demonstrate that leakage through the containment boundary does not exceed the VEGP Technical '

Specifications (reference 2) limit. The test was performed in ,

accordance with Procedure VEGP 28329-1 Revision 3 (reference 3). The following documentation is retained at the site along with the official copy of the test procedure:

o systems status (lineup) o event log o instrumentation validation (calibrations, Instrument Selection Guide, etc.)

o temperature stabilization data  !

o local leakage rate tests  ;

o integrated leakage rate data o quality assurance o verification leakage rates A summary of general plant information as related to the i Integrated Leakage Rate Test is provided in appendix IV.

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SUMMARY

The second periodic Integrated Leakage Rate Test for the VEGP Unit 1 containment was successfully completed at 6:45 p.m.

(( (all times EST) on March 19, 1993. The duration of the test was 8.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br />. The verification test was completed on March 20, 1993.

The results of the test follow Leakage Rate (weight %/ day)

Total Time Analysis 95% Upper Confidence Limit (UCL) Total Acceptance Time Leakage Rate Limit (0.75 La) 0.1344 0.1500 Extrapolated Total Time Acceptance Calculated Leakage Rate Limit (0.75 La)

< 0.0500 0.1500 fs Mean of Acceptance

(' Measured Limit (La -

Leakage allowable Rates leakage rate) 0.0573 0.2000 Leakage penalties are added to the above 95-percent UCL total time leakage rate to account for penetrations in nonstandard alignment and for water inventory change. Total penalties ,

,f amounted to a leakage of 0.0005 weight percent / day. This results in a final as-left leakage rate of 0.1349 weight percent / day, which is less than the acceptance limit of 0.1500 weight percent / day.

To determine the as-found leakage rate, minimum pathway improvements made during the local leakage rate testing program previous to the Type A test are added to the sum of-the 0.1344 weight percent / day UCL and the 0.0005 weight percent / day penalties.-Since the minimum pathway improvements amounted to zero the final as-found leakage rate is 0.1349 weight percent / day which is less than the acceptance. '

limit of 0.2000 weight percent / day.

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3.0 METHODOLOGY 3.1 Leakage Rate Calculations '

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( Test methods and procedures are specified in ANSI 56.8-1981 (reference 5), ANSI N45.4-1972 (reference 6) and in Bechtel Topical Report BN-TOP-1 (reference 7). ANSI 56.8, ANSI N45.4, and BN-TOP-1 are cited in the VEGP FSAR Update. ANSI N45.4 is  ;

cited in 10CFR50 Appendix J. BN-TOP-1 is an alternative method acceptable to the USNRC.

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 as described in reference 7 were used to determine leakage rate.

Reference 1 allows leakage rate calculations to be performed using the mass point method defined in. ANSI /ANS 56.8-1981 ,

(reference 5). The Type A test 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 reference 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 change in air mass provides information to develop the leakage rate. '

The total time data analysis technique is based on the premise O. that the leakage rate varies linearly with time. A measured leakage rate is calculated as the initial air mass minus ,

current air mass divided by current time minus initial time. A i 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 less than the acceptance leakage rate (0.75 La). Second, the calculated  ;

leakage rate extrapolated to a 24-hour test duration must be ,

less than the acceptance leakage 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 Measurements Thirty dry-bulb and six dew point temperature sensors located inside containment were used to collect data for leakage rate i calculations. These were located 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 g 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. Sensor support points were created by ropes hung from spray rings,  ;

the polar crane and structural steel. The bearing of each sensor was advanced to the next support point from that of the sensor above it creating a downward spiral. Above the l refueling floor, the radius was set such that one-half of the i horizontal slice area was inside the spiral surface and the i other half outside. Below the refueling floor, sensors were  !

positioned about midway between the secondary shield wall and  :

the containment liner. One dry-bulb sensor was suspended in the refueling cavity. Sensors above the refueling floor were suspended from spray rings, the polar crane and structural steel. Those below the refueling floor were suspended from ,

grating, piping, and structural steel.

Dry-bulb temperatures were measured using 200-Ohm platinum resistance temperature detectors (RTDs). Dew point temperatures were measured using optical chilled mirror dew point hygrometers. These devices use a direct-measuring sensor i automatically held at the dew point temperature by an optical i system. This technique is a primary measurement of the water 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.

A data logger was used to collect data at 15-minute intervals.  ;

Information from the RTDs, dew point sensors, and pressure indicators was transferred from the data logger to the ILRT computer for analysis. The data system generated 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 e measured using a float type flowmeter.

Components of the data acquisition system were calibrated within 6 months of the ILRT. Instrumentation characteristics and calibration'information is summarized in appendix III.

Calibration documents are included with the official copy of the test procedure.

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4.0 TEST PROCEDURE

(~ 4.1 Initial Conditions A general inspection of the accessible interior and exterior surfaces of the containment building was performed prior to the ILRT. The inspection uncovered no evidence of structural '

deterioration which would affect the containment structural integrity or leak-tightness. 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. Since the Type A test was performed at the beginning of the outage, the Type B and C local leakage. rate i testing (LLRT) program was only partially completed prior to the inspection.

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 procedure.

For those systems or containment penetrations that were in service or isolated during the test, a penalty addition must be made to the Type A test results. The penalty addition is the sum of the minimum pathway leakages for those O penetrations. Penalties were added for the following nonstandard-alignments: penetrations 31', 68, 81, and 87. ,

Piping was vented and drained to expose valve seats per post- l 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.

An in-situ test on the sensors was performed to demonstrate the proper functioning of the sensors and the data collection system. Resistance temperature detector (RTD) in-situ tests were done using an ice bath (32 degrees F) 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 sensor 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 copy of the test procedure documents the completion of the prerequisites for the test, including all exceptions to specified conditions. ,

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4.2 Pressurization The containment was pressurized using oil free compressors

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discharging through an after cooler / moisture separator and refrigerated air dryer. A total compressor capacity of 18,600 SCFM was used. Compressor discharge to containment was routed through temporary piping to containment penetrations 68-and 87. Start of pressurization occurred at 7:43 p.m. on March 18, 1993. Pressurization was terminated when containment pressure reached test pressure (45.0 +1.0,-0 psig) at 4:48 a.m. on March 19, 1993. This allowed.a sufficient 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 intervals.

4.3 Stabilization Upon reaching ILRT test pressure, the containment atmospheric temperature was allowed to stabilize. Containment conditions were recorded at 15-minute intervals. Stabilization criteria were met at 9:30 a.m. on March 19, 1993. (See table 2.-)

Actual change rates and maximum allowable change rates are listed below:

Rate Actual Maximum Allowable Rate of change of average dT = -0.463 1.0 degree F temperature is less than / hour O 1.0 degree F/ hour averaged over the last 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />

(-0.463<1.0)

Rate of change of temperature d(dT) = 0.109 0.5 degrees F change is less than / hour / hour 0.5 degrees F/ hour / hour averaged (0.109<0.5) over the last 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> Rate of change of temperature dT1 = -0.396 0.5 degrees F averaged over the last hour dT4 = -0.776 / hour does not deviate by more than (0.380<0.5) 0.5 degrees F/ hour from the dT1 - dT4 =

rate of change of temperature 0.380 averaged over.the last 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> Containment temperature stabilization data is shown graphically in figure 1.

4.4 Type A Test The Type A test was started at 10:00 a.m. on March 19, 1993.

Containment conditions were recorded at 15-minute intervals.

The test was successfully concluded at 6:45 p.m. on March 19, 1993. Results of the test are recorded in section 5.1 of this report.

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4.5 Verification Following completion of the Type A test, a 15.00 SCFM

(g verification leak was imposed, which is between the limits of i,) 0.75 La and 1.25 La specified in reference 7. This flow was i determined using the flowmeter calibration point closest to La !

and was adjusted for test flow conditions. Containment atmospheric conditions were allowed to stabilize for 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

The verification test was then started at 8:00 p.m. on March ,

19, 1993, and successfully completed at 12:30 a.m. on March 20, 1992. Results of the test are recorded in section 5.2. i 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 4.5.

4.6 Depressurization P

Containment depressurization was started at 12:52 a.m. on March 20, 1993, at an average rate of no more than 10 psi per hour. Depressurization was completed at 7:21 a.m.

on March 20, 1993. Containment and other plant systems modified for the ILRT were restored following depressurization to support the outage schedule.

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t 5.0 RESULTS AND ANALYSIS 5.1 Total Time Results- i The end-of-test leakage rate was within the three acceptance criteria stated in references 2 and 3. The end-of-test leakage l rate values and acceptance limits are listed below.

Leakage Rate (weight %/ day)

Total Time Analysis i 95% UCL on Total Acceptance ,

Time Leakage Rate Limit (0.75 La)  !

l 0.1344 0.1500 Extrapolated Total Time Acceptance Calculated Leakage Rate Limit (0.75 La) j

< 0.0500 0.1500  ;

i Mean of Acceptance Measured Limit (La - max Leakage allowable i Rates leakage rate) ,

0.0573 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 j post-LOCA configuration. A summary of these penetrations and I' their contribution to the penalty additions are presented below. ,

Penetration Description Leakage Penalty - SCCM As-Found As-Left 31 ILRT Sensing Line 0 0 68 ILRT Pressurization Line 3.0 3.0  !

81 Instrument Air 978.5 978.5: ,

87 ILRT Pressurization Line 3. 0. 3.0 i Total leakage (SCCM) 984.5 984.5 Total leakage (weight percent / day) 0.0005 0.0005  !

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i The penalty addition associated with the instrument air'line is the result of a possible incorrect valve line-up on the header which could have resulted in a very small portion of

/'N the header being pressurized during the ILRT. .The leakage

\s,) recorded is a conservative calculation of the effect of this incorrect line-up. The calculation and its documentation are in the official test copy of the plant procedure.

A possible water inventory correction'to account for the slight increase in sump water level has been reviewed. The ,

review and its documentation are in the official test copy of the plant procedure. Since the overall water inventory correction review yielded a reduction in leakage rate, no adjustment was made.

The VEGP Technical Specifications specify a maximum allowable leakage rate of 0.2000 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.

The 95-percent UCL leakage rate, penalty addition, final as-left leakage rate, and acceptance limit are listed below: -

95% UCL Leakage Rate 0.1344 weight percent / day Penalty Addition 0.0005 weight percent / day Water Inventory Correction 0.0000 weight percent / day Final As-Left Leakage Rate 0.1349 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 leakage 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 0.0500 weight percent / day which is less than 0.1500 weight percent / day. The mean of the measured leakage rates is 0.0573 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 least 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 i mass. The total temperature change was 1.721 degrees F over the 8.75-hour test period. The pressure plot (figure 4) shows the containment total pressure and a total change of 0.206 psi. The vapor pressure plot (figure 5) shows a total change in vapor pressure of 0.004 psi. Figure 6 shows a. plot t

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of total time leakago rato data-from tablo 4. The leakage rate at 95-percent UCL must be below a line representing the acceptance limit. As seen from the graph, the 95-percent UCL

(~- is below the allowable limit. The as-found leakage rate is

( calculated by adding the 95-percent UCL, the penalties for nonstandard alignment, the adjustments for water level inventory, and the penetration minimum pathway improvements made during the local leakage rate testing program previous to the Type A test. The minimum pathway improvements and calculated as-found 95-percent UCL leakage rate are listed below.

Minimum Pathway Leakage Penetration As-Found As-Left 12A 16.9 SCCM 16.9 SCCM EH 7.0 SCCM 9.5 SCCM Sum 23.9 SCCM 26.4 SCCM Minimum pathway improvement = 23.9 - 26.4 = -2.5 SCCM

= insignificant weight percent / day 95% UCL Leakage Rate 0.1344 weight percent / day Penalty Addition 0.0005 weight percent / day Water Inventory Correction 0.0000 weight percent / day Minimum Pathway Improvement 0.0000 weight percent / day Final As-Found Leakage Rate

( 0.1349 weight percent / day Acceptance Limit (La) 0.2000 weight percent / day.

5.2 Verification Results The verification test introduced an additional leak of 15.00 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 Technical Specifications 4. 6.1. 2. c) , where Lam (0.0452 wt.%/ day) is the previously calculated leakage rate, Lo (0.1958 wt.%/ day) is the imposed leakage, and La (0.2000 wt.%/ day) is the allowable leakage rate. The final results and acceptance limits are listed below:

Upper Limit Leakage Rate 0.2910 weight percent / day Total Time Calculated Rate 0.2547 weight percent / day Lower Limit Leakage Rate 0.1910 weight percent / day O page 10 of 12

5.3 Mass ~ Point Results Mass point results ara included for information purposes in rx tables 6 and 7.'The mass point calculated leakage 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 0.0524 weight percent / day. The mass point UCL is 0.0562 weight percent / day < 0.1500 weight percent / day. Details on the mass point method are found in reference 5.

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6.0 REFERENCES

1. Code of Federal Regulations, Title 10, Part 50, Appendix J,

["] Reactor Containment Leakage Testing for Water' Cooled Power Af Reactors.

2. Vogtle Electric Generating Plant, Units 1 and 2, Technical Specifications.
3. Vogtle Electric Generating Plant, Procedure No. VEGP 28329-1 Revision 3, Containment Integrated Leak Rate Surveillance Test.
4. Vogtle Electric Generating Plant Units 1 and 2, Final Safety Analysis Report Update.
5. ANSI /ANS 56.8-1981, Containment System Leakage Testing Requirements.
6. ANSI N45.4-1972, Leakage Rate Testing of Containment Structures for Nuclear Reactors.
7. Bechtel Topical Report BN-TOP-1, Testing Criteria For Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants, Revision 1, 1972.

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O TABLES AND FIGURES

. NOTE: Units for leakage rates listed in the following tables are weight percent per day. This has_been abbreviated to "%/ day". i O l i

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TABLE 1 l DRY-BULB AND DEW POINT TEMPERATURE SENSOR LOCATIONS '

DRY-BULB SENSORS i

Sensor Elevation Azimuth Distance From Volume humber (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 f 5 351 135 24 0.038 "

6 343 225 24 0.039 7 336 315 24 0.037 ,

8 329 300 49 0.037  ;

9 322 120 49 0.038 l 10 315 275 49 0.038 .;

11 308 330 49 0.038 12 301 95 49 0.038- i 13 294 150 49 0.038 s 14 287 275 49 0.038 [

15 280 330 49 0.038 16 273 95 49 0 038 i 17 266 170 55 0.037 18 259 275 49 0.036 O 19 20 21 252 245 238 320 95 150 59 49 49 0.034 0.033 0.033 l

22 .231 275 49 0.033 23 224 330 59 0.036  !

24 202 270 12 0.017 I 25 216 180 58 0.022 26 208 285 56 0.029 27 200 0 59 0.029 28 192 90 63 0.029 29 184 195 60 0.029 j 30 176 310 62 0.035 '

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DEW POINT SENSORS  !

1 368 225 24 0.151  :

2 329 300 49 0.189 l 3 294 95 49 0.190 4 259 275 49 0.178  ;

5 227 330 59 0.119  :

6 196 195 59 0.173 1.0,00 r

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TABLE 2 TEMPERATURE STABILIZATION REPORT Start Time = 500 .319

  • = stabilization criterion satisfied

- ANSI - --- BN-TOP-1 ---

data elapsed temperature dT1 dT4 dT1-dT4 dT or d (dT) set time, hr T, deg F avg dT avg-dT avg avg (1 hr) (4 hr) (2 hr) (2 hr) 1 0.00 82.079 2 0.25 80.980 3 0.50 80.226 4 0.75 79.716 5 1.00 79.334 -2.746 6 1.25 79.029 -1.951 7 1.50 78.781 -1.445 8 1.75 78.576 -1.140 9 2.00 78.384 -0.950 -1.848 1.815 10 2.25 78.208 -0.821 -1.386 1.155 11 2.50 78.050 -0.731 -1.088 0.704 12 2.75 77.905 -0.671 -0.905* 0.477*

13 3.00 77.774 -0.610 -0.780* 0.346*

14 3.25 77.644 -0.564 -0.693*. 0.235*

15 3.50 77.519 -0.531 -0.631* 0.161*

16 3.75 77.421 -0.485 -0.578* 0.187*

i 17 4.00 77.311 -0.464 -1.192 0.729 -0.537* 0.132*

18 4.25 77.213 -0.431 -0.942 0.511 -0.498* 0.121*

19 4.50 77.123 -0.396 -0.776 0.380* -0.463* 0.109*

I }20 4.75 77.033 -0.388 -0.671 0.283* -0.436* 0.082*

\- / 21 5.00 76.937 -0.374 -0.599 0.225* -0.419* 0.069*

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i TABLE 3 -(STABILIZATION) I

.i DATA

SUMMARY

REPORT l data time date temperature pressure ~ vapor dry air  ;

07 set. deg F psia pressure mass f psia lbm }

1 500 319 82.0795 60.5875 0.3382 825494.34 l 2 515 319 80.9799 60.4747 0.3316 825715.59 3 530 319 80.2262 60.3998 0.3270 825902.08 [

4 545 319 79.7163 60.3458 0.3232 825991.82 ,

5 600 319 79.3337 60.3048 0.3231 826015.18 6 615 319 79.0293 60.2716 0.3259 825985.75 7 630 319 78.7811 60.2437 0.3264 825975.34 8 645 319 78.5762 60.2193 0.3255 825964.64 9 700 319 78.3840 60.1976 l

0.3252 825964.59 '

10 715 319 78.2078 60.1777 0.3239 825979.15  !

11 730 319 78.0498 60.1592 0.3238 825967.53 12 745 319 77.9055 60.1421 0.3227 825968.55 i 13 800 319 77.7743' 60.1257 0.3232 825936.50 14 815 319 77.6437 60.1109 0.3210 825962.98 j 15 830 319 77.5192 60.0965 0.3208 825958.65  !

16 845 319 77.4208 60.0835 0.3199 825943.18 f 17 900 319 77.3106 60.0708 0.3199 825936.38 18 915 319 77.2128 60.0585 0.3190 825929.09  !

19 930 319 77.1232 60.0472 0.3185 825917.70 20 945 319 77.0331 60.0359 0.3181 825906.24 21 1000 319 76.9368 60.0254 0.3179 825911.16 y I

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TABLE 3 (TYPE A TEST) q DATA.

SUMMARY

REPORT -

() data set time date temperature deg F pressure psia vapor pressure dry air mass. .;

psia lbm i 1 1000 319 76.9368 60.0254 0.3179 825911.16 i 2 1015 319 76.8590 60.0150 0.'3180 825885.71 i 3 1030 319 76.7754 60.0054 0.3166 825900.85 .;

4 1045 319 76.6896 59.9960 0.3166 825903.73  ;

5 1100 319 76.6137 59.9873 0.3160 825908.13- i 6 1115 319 76.5473 59.9787 0.3162 825888.56 j 7 1130 319 76.4774 59.9705 0.3160 825885.67 i 8 1145 319 76.4168 59.9623 0.3159 825866.46  ;

9 1200 339 76.3531 59.9546 0.3162 825853.28 10 1215 319 76.2823 59.9471- 0.3153 825871.75 11 1230 319 76.2211 59.9400 0.3153 825867.53 12 1245 319 76.1758 59.9330 0.3154 825839.03 13 1300 319 76.1205 59.9264 0.3153 825833.91; 5 14 1315 319 76.0632 59.9199 0.3152 825833.95 i 15 1330 319 76.0056 59.9139 0.3150 825842.17  !

16 1345 319 75.9502 59.9078 0.3148 825845.43 ,

17 1400 319 75.9006 59.9020 0.3148 825842.57 l 18 1415 319 75.8656 59.8964 0.3148- 825818.30 i 19 1430 319 75.8257 59.8912 0.3149 825805.81 '

20 1445 319 75.7751 59.8859 0.3146 825815.39  ;

21 1500 319 75.7434 59.8808 0.3146 825793.77' i 22 1515 319 75.6955 i O.-

23 1530 319 75.6592 59.8758 59.8708 0.3144 0.3144 825800.46 825787.56  !

24 25 1545 1600 319

.319 75.6115 75.5764 59.8663 59.8618 0.3148 0.3142 825792.33 825792.77

]i 26 1615 319 75.5413 59.8573 0.3144 825782.26 [

27 1630 319 75.5057 59.8533 0.3147 825777.16  ?

28 1645 319 75.4667 59.8491 0.3141 825787.42  ;

29 1700 319 75.4281 59.8450 0.3148. 825780.11  ;

30 1715 319 75.4005 59.8410 0.3142 825776.57

~

31 1730 319 75.3670 59.8373 0.3142 825777.09 ,

32 1745 319 75.3267 59.8335 0.3137 825792.29 1 33 1800 319 75.3128 59.8299 0.3139 825762.07- ~[

34 1815 319 75.2753 59.8261 0.3142 825761.87 35 1830 319 75.2522 59.8226 0.3148 825741.11  :

36 1845 319 75.2158 59.8192 0.3142 825759.01 r

i f

i t

TABLE 3 (VERIFICATION)

DATA

SUMMARY

REPORT

-~ r data time date tempera *:ure pressure i vapor dry air. '

set deg F psia pressure mass '

psia lbm 1 2000 319 75.0741 59.7961 0.3134 825667.55 2 2015 319 75.0505  !

59.7915 0.3136 825637.82 '

3 2030 319 75.0235 59.7871 0.3137 825616.64  !

4 2045 319 74.9962 59.7828 0.3139 825596.56 5 2100 319 74.9758 59.7783 1

2115 0.3133 825574.37 6 319 74.9532 59.7743 0.3138 825546.46  ;

7 2130 319 74.9385 59.7699 0.3138 825508.41 8 2145 319 74.9098 59.7658 {

0.3132 825504.39 9 2200 319 74.8911 59.7618 0.3132 825476.86 10 2215 319 74.8624 59.7577 0.3132 11 825464.91 2230 319 74.8415 59.7537 0.3134 825438.59 12 2245 319 74.8183 59.7494 0.3132 825416.85 '

13 2300 319 74.7969 59.7454 0.3136 825389.72 14 2315 319 74.7747 59.7417 0.3132 l

825377.30 15 2330 319 74.7632 59.7379 0.3134- 825340.03 -i 16 2345 319 74.7345 59.7338 0.3130 825332.85 17 0 320 74.7219 59.7300 0.3134 825294.38 l 18 15 320 74.7037 59.7264 0.3125 825284.24  ;

19 30 320 74.6861 59.7227 0.3129 825254.52  :

4 f

t 6

9 i

h TABLE-4 TOTAL TIME LEAKAGE RATE REPORT l

~

data time date elapsed dry air- measured leakage. ucl I

set time mass rate rate rate (hrs) (lbm) (%/ day) (%/ day) (%/ day). l 1 1000 319 0.00 825911.16 0.0000 0.0000 0 0000 l 2 1015 319 0.25 825885.71 0.2958 0.2958 0.2958 j 3 1030 319 0.50 825900.85 0.0599 0.0599 0.0599  ;

4 1045 319 0.75 825903.73 0.0288 -0.0053 0.8046 5 1100 319 1.00 825908.13 0.0088 -0.0355 0.3775 ,

6 1115 319 1.25 825888.56 0;0525 -0.0183' O.3431  !

7 1130 319 1.50 825885.67 0.0494 -0.0085 0.2981 i 8 1145 319 1.75 825866.46 0.0742 0.0104 0.2886 9 1200 319 2.00 825853.28 0.0841 0.0273 0.2816: ,

10 1215 319 2.25 825871.75 0.0509 0.0266 0.2537 ,

11 1230 319 2.50 825867.53 0.0507 0.0264 0.2333 12 1245 319 2.75 825839.03 0.0762 0.0348 0.2293 {

13 1300 319 3.00 825833.91 0.0748 0.0409 0.2239 14 1315 319 3.25 825833.95 0.0690 0.0441 0.2165 l 15 1330 319 3.50 825842.17 0.0573 0.0436 0.2064' '

16 1345 319 3.75 825845.43 0.0509 0.0419 0.1961-j l

17 1400 319 4.00 825842.57 0.0498 0.0403 0.1873 18 1415 319 4.25 825818.30 0.0635 0.0421 0.1833 -

19 1430 319 4.50 825805.81 0.0680 0.0446 0.1808 20 1445 319 4.75 825815.39 0.0586- 0.0449 0.1761 21 1500 319 5.00 825793.77 0.0682 0.0470 0.1742-O 22 23 24 1515 1530 1545 319 319 319 5.25 5.50 5.75 825800.46 825787.56 825792.33 0.0613 0.0653 0.0601 0.0476 0.0488 0.0490 0.1707 0.1684 0.1652 ,

25 1600 319 6.00 825792.77 0.0573 'O.0488 0.1618 26 1615 319 6.25 825782.26 0.0599 0.0491 0.1591  !

27 1630 319 6.50 825777.16 0.0599 0.0493 0.1566 28 1645 319 6.75 825787.42 0.0533 0.0486 0.1533 29 1700 319 7.00 825780.11 0.0544 0.0482 0.1505 30 1715 319 7.25 825776.57 0.0539 0.0478 0.1478 '

31 1730. 319 7.50 825777.09 0.0519 0.0471 0.1451 32 1745 319 7.75 825792.29 0.0446 0.0457 0.1416 33 1800 319 8.00 825762.07 0.0542 0.0456' O.1397 ,

34 1815 319 8.25 825761.87 0.0526 0.0453 0.1377 35 1830 319 8.50 825741.11 0.0581 0.0457 0.1365 36 1845 319 8.75 825759.01 0.0505 0.0452 0.1344 Allowable leakage rate, La = 0.2000 %/ day .

75% La .

= 0.1500 %/ day Total time leakage rate = 0.0452 %/ day  ;

Total time UCL = 0.1344 %/ day 1

l e

i J

TABLE 5 TOTAL TIME LEAKAGE RATE REPORT ,

i VERIFICATION data time date elapsed dry air measured leakage set time mass rate rate  ;

(hrs) (1bm) (%/ day) (%/ day) 1 2000 319 0.00 825667.55 0.0000 0.0000  !

2 2015 319 0.25 825637.82 0.3457 0.3457 3 2030 319 0.50 825616.64 0.2960 0.2960 ,

4 2045 319 0.75 825596.56 0.2751 0.2703 1 5 2100 319 1.00 825574.37 0.2709 0.2601  ;

6 2115 319 1.25 825546.46 0.2816 0.2632  ;

7 2130 319 1.50 825508.41 0.3084 0.2796 ,

8 2145 319 1.75 825504.39 0.2710 0.2720 '

9 2200 319 2.00 825476.86 .0.2771' O.2701 -;

10 2215 319 2.25 825464.91 0.2618 0.2633 11 2230 319 2.50 825438.59 0.2662 0.2604 -

12 2245 319 2.75 825416.85 0.2650 0.2580 13 2300 319 3.00 825389.72 0.2692 0.2577 14 2315 319 3.25 825377.30 0.2596 0.2550 '

15 2330 319 3.50 825340.03 0.2720 0.2562 16 2345 319 3.75 825332.85 0.2594' O.2542-  !

17 0 320 4.00 825294.38 0.2712 0.2554 s 18 15 320 4.25 825284.24 0.2622 0.2545 19 30 320 4.50 825254.52 0.2668 0.2547  ;

i O Upper limit on leakage rate =

Total time leakage rate =

0.2910 %/ day 0.2547 %/ day i

Lower limit on leakage rate = 0.1910 %/ day I

t 5

b I

l I

m

. = - _ . . - _ _ - .

i TABLE 6 j i

. MASS POINT LEAKAGE RATE REPORT i

data time date elapsed dry air leakage uc1 C_}/

set time mass. rate rate (hrs) (lbm) (%/ day) (%/ day) I 1 1000 319 0.00 825911.16 0.0000 0.0000 f 2 1015 319 0.25 825885.71 0.2958. 0.2958 '

3 1030 319 0.50 825900.85 0.0599 1.2252 4 1045 319 0.75 825903.73 0.0083 0.2078 i 5 1100 319 1.00 825908.13 -0.0139 0.0831 1 6 1115 319 1.25 825888.56 0.0142 0.0814  :

7 1130 319 1.50 825885.67 0.0264 0.0734 5 8 1145 319 1.75 825866.46 0.0478 0.0893 t 9 1200 319 2.00 825853.28 0.0649 0.1013 10 1215 319 2.25 825871.75 0.0583 0.0877 11 1230 319 2.50 825867.53 0.0543 0.0783 '

12 1245 319 2.75 825839.03 0.0626 '0.0842 13 1300 319 3.00 825833.91 0.0676 0.0864 14 1315 319 3.25 825833.95 0.0687 0.0848 '

15 1330 319 3.50 825842.17 0.0654 0.0796  ;

16 1345 319 3.75 825845.43 0.0609 0.0740 17 1400 319 4.00 825842.57 0.0572 0.0694 ,

18 1415 319 4.25 825818.30 0.0586 0.0694 l 19 1430 319 4.50 825805.81 0.0610 0.0709 l 20 1445 319 4.75 825815.39 0.0602 0.0692 21 1500 319 5.00 825793.77. 0.0621 0.0705 22 1515 319 5.25 825800.46 0.0619 0.0695 O 23 24 1530 1545 319 319 5.50 5.75 825787.56 825792.33 0.0627 0.0622 0.0696 0.0685

  • 25 1600 319 6.00 825792.77 0.0611 0.0670  ;

26 1615 319 6.25 825782.26 0.0608 0.0663  ;

27 1630 319 6.50 825777.16. 0.0605 0.0656 j 28 1645 319 6.75 825787.42 0.0590 0.0639 '

29 1700 319 7.00 825780.11 0.0579 0.0626 '

30 1715 319 7.25 825776.57 0.0570 0.0614 I 31 1730 319 7.50 825777.09 0 0558 0.0601 32 1745 319 7.75 825792.29 0.0535 0.0581 ,

33 1800 319 8.00 825762.07 0.0532 0.0576 34 1815 319 8.25 825761.87 0.0527 0.0568 35 1830 319 8.50 825741.11 0.0532 0.0571 36 1845 319 8.75 825759.01 0.0524 0.0562 -

Allowable leakage rate, La = 0.2000  %/ day 75% La = 0.1500  %/ day .

Mass point leakage rate = 0.0524  %/ day Mass point UCL = 0.0562  %/ day-O ,

l 1

TABLE 7-  !

MASS POINT LEAKAGE RATE REPORT ,

i I'[~

VERIFICATION .i Q,}

)

data time date elapsed dry air leakage i set time mass rate t (hrs) (1bm) (%/ day) [

1 2000 319 0.00 825667.55 0.0000- -!

2 2015 319 0.25 825637.82 0.3457  !

3 2030 319 0.50 825616.64- 0.2960 4 2045 319 0.75 '

825596.56 0.2722 5 2100 319. 1.00 825574.37 0.2647 ,

6 2115 319 1.25 825546.46 0.2710 LI 7 2130 319 1.50 825508.41 0.2917 [

8 2145 319 1.75 825504.39 0.2799 '!

9 2200 319 2.00 825476.86 0.2770 -i 10 2215 319 2.25 825464.91 0.2681 l 11 2230 319 2.50 825438.59 0.2649 12 2245 319 2.75 825416.85 0.2626 }

13 2300 319 3.00 825389.72 0.2630 14 2315 319 3.25 825377.30 0.2598-  !

15 2330 319 3.50 825340.03- 0.2621 I 16 2345 319 3.75 825332.85 0.2597 17 0 320 4.00 825294.38 0.~2617 -

18 15 320 4.25 825284.24 0.2606 t 19 30 320 4.50 825254.52 0.2611  :

() Upper' limit on leakage rate =

Mass point leakage rate =

0.2982 %/ day 0.2611 %/ day l Lower limit on leakage ~ rate = 0.1982 %/ day j

)

i b

I p

O O O V0GTLE UNIT 1 1993 ILRT

TEMPERATURE DURING STABILIZATION 82.i b

W C

D .

- p._

u -

4 cc en we -

a_ E

~

E W

F-b 76.9 i i i 5: 00 am 9: 30 am 03/19/93 '

TIME 03/19/93 FIGURE i w- - ,, - ,, .......w.4 ,v.,,-.- .-.,w~,, .-~..-eg, - - - ,. %, ,,,,.,,,..ww- - - , , ww--.,-

, . , , . , , .....,v.,w.v.,, ,,w,- , ..,<.e ..,,..,qwg g,,,, --y-., y.p... . - , , y,. 77,.--r..,,--,,, y ...py . , . . ,, , ,,r r e,w.w,

O O O V0GTLE UNIT 1 1993 ILRT AIR MASS - TYPE A TEST 826,000 us

/

/ % jk f 'ok

)

......~ ..... /

g , ....,,.**

@ - _k 9 4

$e 9 6s v^ -

.," o.D g3 3pd 4 .-

825,400 i i i i iie i i t iiiiiiiiiiiii 10: 00 am 6: 45 pm 03/19/93 . TIME 03/19/93 FIGURE 2

z O O Oi VOGTLE UNIT 1 1993 ILET MEAN TEMPERATURE - TYPE A TEST 77.0 r

e

~

tu '

C D -

WE

<t .

T cn -

ID y O_ -

Z -

LD l--

-75.2 i i i i i i i ii i i i i i i i i i  :- i i i-10: 00 am 6: 45. pm -

03/19/93 TIME: 03/19/93 4

FIGURE 3

o; O O V0GTLE UNIT 1993 ILRT '

1 TOTAL PRESSURE - TYPE A TEST 60.1 W .

^

m .5 i wm w&

CC 1

,b t a 59.8 -t i- i i i i i -

i i i i r i i i 't i i i- i i 'i 10:00 am 6: 45 pm..

03/19/93' TIME- 03/19/93 FIGURE 4

O .o o VOGTLE UNIT 1 1993 ILRT VAPOR PRESSURE - TYPE A TEST 0.319 W

E D~

m m

W-g w .m -

O_ o.-

m E

O CL N ~

N ~'

O.313 10:~00 am 6:45 03/19/93 TIME.- 03/19/pm93

. FIGURE 5 ,

t

. - . - . . . . _ - _ . - . . . - - . ....-. .-~ .,._,,,.. , ,..-.. ... ...._.-, ...._--.-,._. ....-_., _... .__, .. - . _ ,_, .. ,. . .. .--..~..-.._-,- _,.,-.. . ._._,

O O O VOGTLE UNIT 1 1993 ILRT TOTAL TIME LEAKAGE RATE TYPE A TEST 0.50 e e

i i

e i f 8 l i W ,!  !

H i

<r _

l TOTAL TIME 95% UCL E '

w -

\

CD \

<C  ! \,'

yp -.

<C <t  ! 's '

yo e -

._J D -

l,I

,,, .,'= ,'-

yE z.

Li I

H . . .

H -------- -.

y

_J  ! 0.75 La ACCEPTANCE LIMIT = 0.1500

<t O

W .

y TOTAL TIME LEAKAGE RATE

-0.05 i i i i iiiiiiiiiiiiiiiiiii 10: 00 am 6: 45 03/19/93 TIME 03/19/pm 93 FIGURE 6

dc v, , O, VOGTLE UNIT 1 1993 ILRT AIR MASS - VERIFICATION 825,700 s

- s s ,' N' s N LEAST EGLMES FIT N - LINE T1 HOUGH DATA g'N,

, s

- N  % LOWER LIMIT W ,N w -

ot

  • p

$g - r 2--

a EN,[N,' s s

M s g- N '%

H AIR MASS g'N, N 4 PLOT N, '%

_ 'N, 's '

'N, ...

%g

%g

- UPPER LIMIT N,N- ,

N,'

%g

' ' ' ' N

825,200 8: 00 pm 12:30 am 03/19/93 TIME . 03/20/93-FIGURE 7

Em 9 '* R OO

, mN i ..N e  : Nm

i -o e  :* -

t i  :*

1, .

e  : i

i o .

w a E+ 7 s I i a i tr  :

4 H Z E s

l o o

W ss 3

=

e.

co e N 8 w o

e o t, m k.

H aJ Ch r- '

i m

r i

4 w- l =  : s co

% a i B w w a :s i x cr a

i s O E+

H i

e l: -

+N rm -  : i 4  :

H  ! Y i EQ 4  : i A4  :

[+ 9 o  : i O8 i i O

~ i, i.

r e,  :.

. . em

/ l a

i

'R O CD O ,-e 8  : __

..N 8

t t Or CD tr)

, - o O O (AV0/% ' 4M) f)

31VB 3HIl lV101 I

L APPENDIX I ,

ILRT COMPUTER PROGRAM DESCRIPTION I

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 i and documented. The program source code was included in the purchase 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 data:

Number of temperature sensors Number of dew point 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 j the data acquisition system during the test: .

Time and date .

Containment atmosphere dry-bulb temperatures

[s]/ 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. .

DATA SET REPORT. Displays data set number, time, date, sensor data (raw data and calibrated values), weighted average ,

temperature, pressure and vapor pressure, and volume and dry air mass. '

MASS POINT LEAKAGE RATE REPORT. (ANSI /ANS 56.8 - 1981).

Displays data set number, time, date, elapsed 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 l time, total time measured leakage rate, leakage rate (calculated) and UCL, and mass point leakage rate and UCL for t

all data sets. '

DATA REJECTION REPORT. (ANSI /ANS 56.8 - 1981). Displays data set number, time, air mass, linear least square fit (air mass),. residual from least square fit, standard error of i l residual and standardized residual for all data sets.

TEMPERATURE STABILIZATION REPORT. (ANSI /ANS 56.8 - 1981 and BN-TOP-1, rev. 1). Displays start time and date, data set number, i elapsed time, temperature, 1-hour and 4-hour average rates of temperature change and difference (ANSI criteria), and 2-hour average rate of temperature change and 2-hour average change in rate of temperature change, i.e., second derivative, (BN-TOP-1 criteria) for all data sets. 1 The following plots are available: ,

AIR MASS. Plots 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.

TEMPERATURE. Plots the weighted average temperature, temperature for one sensor, or temperature for all sensors. t PRESSURE. Plots 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 sensor, 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.

O

i:

APPENDIX II

- g-] : TYPE B AND C LOCAL LEAKAGE RATE TEST RESULTS V

Results for Type B and C local leakage rate tests performed between the completion of the First. Periodic ILRT and the start of the 1993 ILRT are presented herein.

s t

O t

l l

\

O O O TYPE B AND C RESULTS REFUELING OUTAGE TESTS PAGE I of11 1R3 LEAKAGE -- SCCM 1R4 LEAKAGE - SCCM AS FOUND AS LEFT AS FOUND AS LEIT PEN DESCRIPTION EQUIPMENT DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE COMMENTS 5 ISI PEN -

BLIND FLANGE 09/16/91 6.1 11/08/91- 25.3 03/13/93 29.6 04/01/93 227 II A CilEMICAL I-1411-US031 08/20/91* 28.0 08/20/91* 28.0 01/26/93* 112.3 01/26/93* 112.3 ADDITION tilV-5280 08/20/91* 21.5 08/20/91* 21.5 01/26/93* 116.0 01/26/93* 116.0 12A CilEMICAL I-1411-U4029 09/23/91 81.8 09/23/91 81.3 01/28/93* > 20,000 03/14/93 91.3 NOTE 1 ADDITION lilV-5281 09/23/91 6.1 09/23/91 6.1 03/14/93 16.9 03/14/93 16.9 13A CNTMT RAD lilV-12976 09/22/91 25.3 09/22/91 2.5.3 03/25/93 19.2 03/25/93 19.2 MONITOR lilV-12975 09/22/91 782 09/2291 782 03/25/93 9.6 03/25/93 9.6 13B CNTMT RAD lilV-12978 09/22/91 6.1 09/22/91 6.1 03/25/93 6.0 03/25/93 6.0 MONITOR lilV-12977 09/22/91 6.1 09/22/91 6.1 03/25/93 6.0 03/25/93 6.0 15 DEMIN WATER l-1213-U6-051 09/16/91 345 09/16/91 345 03/14/93 9.4 03/22/93 6.0 TO CAVITY l-1213-U6-050 09/16/91 14.3 09/16/91 14.3 03/14/93 4.4 03/22N3 7.2 22 DEMIN WATER l-1418-U4-038 09/16/91 871 09/16/91 871 03/15/93 413 04/01/93 734 1-1418-U4005 09/16/91 197.1 09/16/91 197.1 03/15/93 109 M/01/93 116.5 23 BREATillNG AIR l-2401-U4-184 07/30/91* 285 07/30/91* 285 01/19/93* 172 04/19/93 190.3 1-2401-U4211 07/30/91* 4400 07/30/91* 4400 01/19/93* 97.0 04/19/93 104.5 24 IlOT LEG 1IIV-3548 09/24/91 27.8 11/11/91 24.5 03/22/93 15.3 04/17/93 11.3 SAMPLE filiV-35021 09/24/91 30.9 11/11/91 44.5 03/22/93 >20,000 04/17/93 6.0 NOTE 2 lillV-8220]

  • Performed just prior to refueling outage Brackets denote these valves are tested in parallel.

u ___ ____ _. _ . __. _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ . . _ _ _ _ _ - . _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __

--d

O O G TYPE B AND C RESULTS REFUELING OUTAGE TESTS PAGE 2 of 11 1R3 LEAKAGE -- SCCM IR4 LEAKAGE - SCCM AS FOUND AS LEIT AS FOUND AS LEFT PEN DESCRIPTION EQUIPMENT DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE COMMENTS 34 CNMT SPRAY l-1206-U6-016 09/20/91 85.2 10/11/91 -

710 03/16/93 975 03/27/93 26.0 -

1IIV-900iB 09/20/91 22.8 10/1I/91 380 03/I6/93 25.1 03/27/93 89.0 35 CNMT SPRAY l-1206-U6-015 09/20/91 28.0 10/16/91 1181 03/17/93 19,000 03/28/93 67.0 1ilV-900i A 09/20/91 39.8 10/16/91 172 03/I7/93 427 03/28/93 122 36 RilR EMERG l-1205-V4-002 09/18/91 43,000 11/09/91 878 03/24/93 3340 04/11/93 270 37 RIIR EMERG l-1205-V4-001 09/21/91 988 11/09/91 170 03/24/93 5.2 04/11/93 570 38 CNMT SPRAY l-1206-V4-001 09/17/91 712 11/09/91 62.0 03/24/93 14,440 04/11/93 745 I

39 CNMT SPRAY l-1206-V4-002 09/2I/9I 400 11/09/91 375 03/24/93 156.7 04/11/93 314 40 FIRE l-2301-U4-036 09/17/91 1940 09/17/91 1940 03/15/93 10.5 03/15/93 10.5 PROTECl"10N lliV-27901 09/17/91 440 09/17/91 440 03/15/93 1730 03/15/93 1730 41 ACCUM FILL lilV-8871 09/19/91 63.6 10/25/91 137.1 03/14/93 106.2 03/28/93 60.4

& TEST filIV-8964l 09/19/91 17,260 10/29/91 73.0 03/14/93 114.3 03/28/93 6.2 litiV-8988]

42 ACCUM N2 1-2402-U4-017 09/18/91 13.1 09/18/91 13.1 03/21/93 40.8 03/21/93 40.8 SUPPLY llIV 8880 09/18/91 32.2 09/18/91 32.2 03/21/93 115.8 03/21/93 115.8 48 LETDOWN llIV-8160 - - 10/06/91 696 03/18/93 425 03/18/93 425 NOTE 3 lilV-8152 09/22/91 1005 10/06/91 970 03/18/93 328 03/18/93 328

  • Performed just prior to refueling outage Brackets denote these valves are tested in parallel.

l t

n o J V U TYPE B AND C RESULTS REFUELING OUTAGE TESTS PAGE 3 of 11 1R3 LEAKAGE - SCCM 1R4 LEAKAGE - SCCM AS FOUND AS LEFT AS FOUND AS LEFT PEN DESCRilTION EQUIPMENT DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE COMMENTS 49 SEAL WATER flilV-8112 l 10/02/91 238 10/15/91 100.9 03/18/93 180.5 03/25/93 299 LEAK-OFF [1-1208-U4-021J liIV-8100 10/02/9I I54.1 10/I5/91 10.1 03/18/93 156.4 03/25/93 8.I 50 CilARGING l-1208-U6-032 10/11/91 125 10/19/91 115 03/18/93 394 04/01/93 365 IIIV-8105 10/11/91 7.2 10/19/91 6.4 03/18/93 23.0 04/01/93 8.8 55 ISI PEN BLIND FLANGE 09/16/91 35.8 10!!6/91 15.5 03/13/93 23.0 04/11/93 28.0 62 PRT VENT IIIV-8M7 08/27/9i* 6.0 08/27/91* 60 02/11/93* 6.0 02/II/93* 6.0 tilV-8033 08/27/91* 5.6 08/27/91* 5.6 02/11/93* 6.0 02/11/93* 6.0 63 PRT MAKE-UP l-1201-U6-112 09/24/91 15.5 10/05/91 6.1 04/04/93 50.3 04/04/93 50.3 tilV-8028 09/24/91 26.1 10/05/91 58.1 N/04/93 31.2 04/04/93 31.2 64A MISC LEAK DET BLIND FLANGE 09/22/91 6.0 09/22/91 6.0 03/14/93 3.0 03/14/93 3.0 64B MISC LEAK DET BLIND FLANGE 09/22/91 6.0 09/22/91 6.0 03/14/93 3.0 03/14/93 3.0 67A PRZR STEAM lilV-3513 09/22/91 35.8 10/17/91 7.2 03/22/93 6.2 03/22/93 6.2 SPACE SAMPLE lHV-3514 09/22/91 12.9 10/17/91 7.2 03/22/93 6.5 03/22/93 6.5 67B PRZR LIQUID llIV-3507 09/22/91 48.0 10/24/91 6.0 03/21/93 6.0 04/13/93 6.0 SPACE SAMPLE 111V-3508 09/22/91 6.1 10/24/91 42.1 03/21/93 43.4 04/13/93 8.2 68 ILRTTEST BLIND FLANGE 09/22/91 6.1 09/22/91 6.1 03/16/93 3.0 04/03/93 3.0

  • Performed just prior to refueling outage Brackets denote these valves are tested in parallel.

. ~ . _ _ . _ _ _ _ _. - - . _. _._ _ _ _ ~ . _ _ _ _ . _ .

O O O TYPE B AND C RESULTS REFUELING OUTAGE TESTS y PAGE 4 of 11 1R3 LEAKAGE - SCCM IR4 LEAKAGE - SCCM  ;)

AS FOUND AS LEFT AS FOUND AS LEFT PEN DESCRifrrlON EQUIPMENT DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE COMMENTS 69A CilEMICAL I-1411-04-043 09/10NI 38.0 09/10/91 38.0 01/28/93* 21.5 01/28/93*- 21.5 ADDITION lilV-5278 09/10/91 10.0 09/10/91 10.0 01/28/93* 12.0 01/28/93* -12.0 69B CllEMICAL I-1411-U4-044 08/21/91* 494 08/21/91- 494 01/26/93* 77.2 01/26/93* 77.2 ADDITION 111V-5279 08/21/91* 44.8 08/21/91 44.8 01/26/93* '117 01/26/93* 117

.70A C N M T il2 tilV-2790A 09/20/91 6.1 09/20/91 6.1 03/22/93 6.0 03/22/93 6.0 MONrf0R llIV-2790B 09/20/91 6.1 09/20/91 6.1 03/22/93 6.0 03/22/93 6.0 IIIV-279i A 09/20/9I 6.1 09/20/9I 6.1 03/22 S 3 12.6 03/22/93 12.6 70B CNMT 112 1-1513-U4-001 09/19/91 48.8 09/19/91 48.8 03/23/93 6.0 03/23/93 6.0 MONITOR ~ lilV-2793A 09/19/91 15.8 09/19/91 15.8 03/23/93 6.0 03/23/93 6.0 71A CNMT il2 tilV-2792A 09/20/91 78.4 09/20/91 78.4 03/23/93 6.0 03/23/93 6.0 MONITOR lilV-2792B 09/20/91 366 09/20/91 366 03/23/93 6.0 03/23/93. 6.0 1IIV-2791B 09/20/91_ -85.9 09/20/91 85.9 03/23 S 3 35.7 03/23/93 35.7 71B CNMTil2 1-1513-U4-002 09/19/91 6.1 :09/19/91 6.1 03/2383 15.2 03/23/93 15.21 MONITOR lilV-2793B 09/19/91 33.8 09/19/91 33.8 03/23/93 ' 10.3 03/23/93 10.3 72A' ACCUM SAMPLE IIIV-10950 09/18/91 2040 10/31/91 19.2 03/21/93 10.5 03/21/93 10.5 1 1204-04-159 09/18S1 45.6 10/31/91 184.2 03/2163 39.2 03/21/93 39.2 72B ACCUM SAMPLE 111V-10952 09/18/91 136. 10/31/91 36.8 03/21/93 1307 04/09/93 423 l-1204-U4-161 09/18/91 6.0 10/31/91 8.3 03/21/93 '280 04/09/93 31.6

  • Performed just prior to refueling outage

, , J . -- ..,..,.,.,-..---.c,mL._,.,-...L.-- ...m.- 1.--,--.-...,__- , - .L i .,.,. -...~ -..-..--....,._..-.....- ...- ._... _ . _ _... _ _ l- _,a

O O O TYPE B AND C RESULTS REFUELING OUTAGE TESTS PAGE 5 of 1I 1R3 LEAKAGE - SCCM 1R4 LEAKAGE - SCCM AS FOUND AS LEIT AS FOUND AS LEIT PEN DESCRIPTION EQUIPMENT DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE' COMMENTS

. 73 A ACCUM SAMPLE lilV-10951 09/18/91 920 10/3181 97.4 03/21/93 624 03/21/93 624 1-1204-U4-160 09/18/91 881 10/31/91 13.1 03/21/93 478 03/21/93 478 73B ACCUM SAMPLE IIIV-10953 09/18/91 15.6 10/31/91 177.1 03/29/93 1672 04/13/93 38.0 1-1204-U4-162 09/18/91 6.0 10/31/91 6.3 03/29 S 3 7.1 04/13/93 25.8 77 RCDT- lilV-7699 09/18/91 14.2 09/21/91 17.4 03/17/93 35.8 04/19/93 31.1 DISCllARGE lilV-7136 09/1881 73.0 09/21/91 37.2 03/17/93 33.7 04/19/93 38.8 78 CNMT SUMP 1IIV-0780 11/04/9i 1 I8.4 11/07/9I 674 03/20/93- 1131 04/04/93 480 DISCilARGE ilIV-0781 11/04/91 2790 11/07S 1 573 03/20/93 1223 04/04/93 765 79 RCDT VENT lilV-7126 08/01/91* 5.6 08/01/91* 5,6 03/04/93* 6.0 03/04/93* 6.0

& 112 SUPPLY lilV-7150 08/01/91* 5.6 08/01/91* 5.6 03/04/93* 6.0 03/04/93* 6.0 80 SERVICE AlR l-2401-U4-034 08/29/9i* >400,000 09/07/91* -1295 0I/21/93* 1290 04/09/93 650 NOTE 4 tilV-9385 09/06/9 t

  • 1832 09/07/91* 372 01/21/93* 1560 04/09/93 527 INSTRUMENT - 1-2420-U4-049 3210 81 10/07/91 10/10/91 1365 03/18/93 10780 04/04/93 1043 AIR liiV-9378 10/07/91 37.6 10/10/91 12.8 03/18/93 273 04/04/93 42.8 86A PASS GAS lilV-8211 08/07/91* 5.6 08/0~7/91* 5.6 02/04/93* 6.0 02/04/93* 6.0 RETURN lilV-8212 08/07/91* 21.6 08/07/91* 21.6. 02/04/93* 14.2 02/04/93* 14.2 86C POST ACCIDENT lilV-8209 09/25/91 75.0 09/25/91 75.0 03/22/93 20.6 03/22/93 20.6 SAMPLE IIIV-8208 09/25/91 $7.3 09/25/91 57.3 03/22/93 , 13.7 03/22N3 13.7
  • Performed just prior to refueling outage

O O O TYPE B AND C RESULTS REFUELING OUTAGE TESTS PAGE 6 of11 1R3 LEAKAGE - SCCM IR4 LEAKAGE - SCCM AS FOUND AS LEFT AS FOUND AS LEFT PEN DESCRIIrTION EQUIPMENT DATE LEAKAGE DATE LEAKAGE DATE LEAKAGE DATE' LEAKAGE COMMENTS

' 87 ILRTTEST BLIND FLANGE 09/22/91 6.1 09/22/91 6.1 03/16/93 3.0 04/03/93 3.0 89 FUEL TRANSFER BLIND FLANGE 09/22/91 6.1 10/31/91 136.3 03/14/93 7.3 04/17/93 4.2 CANAL 90- ISI PEN BLIND FLANGE - 09/16/91' 22.8 10/15/91 35.0 03/13/93 3.0 04/01/93 127.4 100 CNMT POST- IIIV-2624 A . 09/18/91 536 09/18M1 536 03/28M3 66.4 04/10/93 57.0 LOCA PURGE IIIV-2624B 09/18/91 765 09/18/91 765 03/28/93 170.2 04/10/93 32.1 1-1508-U4-012 09/18/91 704 09/18/91 704 03/28/93 63.1 04/10/93 60.3 EQUIP ilATCII - 09/15/91 2.2 11/09/91 22.0 03/13/93 7.0 04/20/93 6.0

  • Performed just prior to refueling outage l

i r.e-<< ----.~4 ,, . -*e,. w - ww - - - - - - vw-- ,wr.. we 4--m---- ee.- w --r -r,-+we ,U,-r-w.*---,, . .re-, . ,s ~,.,---# -<w

O O O TYPE B AND C RESULTS -- QUARTERLY SURVEILLANCE PAGE 7 of 11 -

PEN DESCRIPTION EOUIPMEffl' DATE LEAKAGE COMMENTS DATE LEAKAGE COMMENTS '

83 CNMT PURGE lHV-2626A 06/20/90 3900- 01/28S 2 565 IHV-2626B 06/20 S 0 25.8 01/28/92 11.1 IHV-2627A & B 06/20/90 134.4 01/28/92 520 83 CNMT PURGE IliV-2626A 09/11/90 410 04/2182 142 11IV-2626B 09/I1/90 84.6 04/21/92 47 tilV-2627A & B 09/11/90 1202 04/21/92 470 83 CNMT PURGE 1IIV-2626A' 12/18/90 2260 07/19/92 69.1 ,

lilV-2626B 12/18/90 35.0 07/19!92 446 IIIV-2627A & B - 12/18/90 297 07/19/92 517 83 CNMTPURGE IIIV-2626A 02/26/91 12070: 10/06/92 470 IHV-2626B ' 02/26/91 115.8 10/06/92 59 IliV-2627A & B 02/26/91 843 10/06/92 611 83 CNMT PURGB - 1HV-2626A ~ 02/27/91 850 NOTE 5 01/05/93 43.8 IIIV-2626B - - 01/05/93 22.3 1HV-2627A & B - - 0I/05/93 698 83 CNMT PURGE 1HV-2626A 05/21/91 316 03/18/93 6380 1HV-2626B 05/2I/91 86.6 03/I8/93 38.0 1IIV-2627A &. B 05/21/91 -794 03/18/93 345 83 . ' CNMT PURGE IHV-2626A - 08/13/91 230 04/19/93 201,000 IHV-2626B 08/13/91 6.0 04/19/93 42.5 1HV-2627A & B 08/13/91 122 04/19/93 461.5 83 CNMTIURGEi IHV-2626A 11/04/91 91.3 04/20/93 89.3' NOTE 6 111V-2626B : 11/04/91 16.1 - -

lHV-2627A & B 11/04/91 383 - -

. . , - _ _ . . .._.,,,.._.-_-~-___,._.,_._a-_,,.- -

. _ , , . .~..-....;m,- . . _ - _ . . - - - . , . , . . . . - _ - . . . . _ _ , _ ..- . ._- _

O O O TYPE B AND C RESULTS - QUARTERLY SURVEILLANCE PAGE B of 11 PEN DESCRIPTION EQUIPMENT DATE LEAKAGE COMMENTS DATE LEAKAGE COMMENTS 84 CNMT PURGE IIIV-2628A 06/20/90 36.4 11/07/91 65.7 NOTE 7 EXilAUST liiV-2628B 06/20/90 1012 - -

1HV-2629A & B 06/20/90 1061 - -

84 CNMT PURGE IIIV-2628A 09/12/90 862 01/29/92 1400 EXIIAUST liiV-2628B 09/12/90 57.0 01/29/92 57.4 1IIV-2629A & B 09/12/90 1181 01/29/92 1420 84 CNMT PURGE IHV-2628A 12/19/90 453 04/22/92 780 EXilAUST lilV-2628B 12/19/90 44.0 M/22/92 82.6 IHV-2629A & B 12/19/90 283 04/22/92 1370 84 CNMT PURGE IHV-2628A 02/27/9I 515 07/15/92 324 EXilAUST llIV-2628B 02/27/91 42.5 07/15/92 18.0 llIV-2629A & B 02/27/91 543 07/15/92 285 84 CNMT PURGE lilV-2628A 05/22/91 8150 10/07/92 227 EXHAUST llIV-2628B 05/22/91 134 10/07/92 23.8 1HV-2629A & B 05/22/91 455 10/07/92 608 84 CNMT PURGE IIIV-2628A 07/03/91 87.3 01/06/93 260 EXIIAUST llIV-2628B 07/03/91 121.8 01/06/93 282 IIIV-2629A & B 07/03/91 438 01/06/93 940 84 CNMT PURGE IIIV-2628A 08/14/91 275 -

03/18/93 50.6 EXIIAUST lilV-2628B 08/14/91 72.1 03/18/93 6.2 lHV-2629A & B 08/14/91 1320 03/18/93 436 84 i CNMTlURGE IIIV-2628A 11/02/91 6200 04/19/93 317 EX11AUST 11IV-2628B 11/02/91 135.3 N/19/93 56.2-1IIV-2629A & B 11/02/91 1770 04/19/93 74.7

. - - - . . , = . . - .- r e-% = - -- . . . - . w e,, . . - , , ,- 4.., ,- , - ,-., +

TYPE B AND C RESULTS -

PERSONNEL AND ESCAPE AIRLOCKS j PAGE 9 of1I PERSONNEL AIRLOCK ESCAPE AIRLOCK DATE- - LEAKAGE DATE LEAKAGE

.09/07/90 619 03/20/90 198 .

02/22/91 615.5 07/04/90 656 08/08/91 1263.6 12/20/90 1002 f 09/13/91 '448.1 06/05/91 83.1 11/0761 7736 10/29/91 838.1 12/12/91. 672 04/15/92 1666 11/13/92-- 2472.2. 09/29/92 775.4 -  ;

l 03/12/93 870 04/02/93 734 }

i 04/I8/93 762 04/20/93 II56 '

04/20/93 1946 i

1 i.

t' 4

6 e m _sE._ . . . . . , ..,....-2w..--.ew..-1....-+--r-.w. -. .,,.w. E. E. ..r w.a.w ww. c+v'e-~.,- .- r .m.,.=v,E..+ == ,w-.-e-.. r-

O O O TYPE B AND C RESULTS TESTS PERFORMED BETWEEN REFUELING OUTAGES PAGE 10 of II-AS FOUND AS LEFT TEN DESCRIPTION EQUIPMENT DATE LEAKAGE DATE LEAKAGE COMMENTS

. 24 IIOT LEG - tilV-3548 0I/27/91 24 3 01/27/91 24.3 . NOTE 8 SAMPLE filiV-35021 01/27/91 84.1 01/27/91 84.1 lillV-8220]

34 CNMT SPRAY l-1206-U6-016 10/04/90 84.1 10/04/90 84.1 NOTE 9 48 LETDOWN llIV-8tS2 09/27/90 345.2 09/27/90 345.2 NOTE 10 Brackets denote these valves are tested in parallel.

, ..~.#.~_,.- --.....~.ww.w-.w,--.---...,%d,-.--A

.%-~, .+-.w % ....,--w,-w4, .-,.w,.e .~.,.-r,,..-.4

- - - , , ....-4.:. - - . ,m..,,--.....%.-+-,---.-w - -,y--. , , -- .-- , ~ . . ,..m--. ..ms- , , . ~ ~ ,

r O O TYPE B AND C RESULTS NOTES PAGE 11 of 11 NOTEI When valve I-1411-U4-029 was tested on 01/28/93, the leakage exceeded the range of the leak rate monitor (LRM). The LRM had a maximum range of 20,000 secm. Valve lilV-5281 administratively held closed until valve 1-1411-U4-029 could be reworked and retested.

NOTE 2 When valves lilV-3502 and llIV-8220 were tested on 03/22/93, the leakage exceeded the range of the leak rate monitor. The LRM had a maximum range of 20,000 seem and the instrument accuracy was 200 secm; therefore, a leakage in excess of 20,200 seem was noted.

NOTE 3 As documented in Deficiency Card I-91-244, Operations had this valve adjusted (packing was loosened because it was felt that the valve was not going fully closed) prior to performing an "As Found" I.LRT. Although the "As Found* LLRT was invalidated on lilV-8160, an acceptable "As Found" was perfonned on -

1IIV-8152.

NOTE 4 When valve 1-2401-U4-034 was tested on 08/29/91, the leakage exceeded the range of the high range leak rate monitor (LRM). De high range LRM had a maximum range of 400,000 secm. Valve tilV-9385 administratively held closed until valve 1-2401-U4-034 could be reworked and retested.

NOTE 5 Only iIIV-2626A retested due to its high leakage rate found on 02/26/93. liigh leakage was due to test boundary leakage.

NOTE 6 Only t ilV-2626A retested due to its high leakage rate found on 03/18/93.

NOTE 7 Only iIIV-2628A retested due to its high leakage rate found on i 1/02/92, liigh leakage was due to test boundary leakage.

NOTE 8 Solenoid operated valve tilV-8220 was found leaking by. An LLRT was performed to ensure no degradation of containment integrity. The LLRT was acceptable. His valve was replaced in a later refueling outage.

NOTE 9 it was discovered that check valve l-1206-U6-016 had not been tested following its disassembly for an ISI Inspection due to a deficiency in the ISI program.

LER 19019 was issued for this event, a waiver was obtained from the NRC to retest the valve, and a successful LLRT was performed.

NOTE 10 Valve lilV-8152 was repacked after being found to have an excessive packing leakage. A LLRT was performed afler maintenance was complete.

APPENDIX III INSTRUMENT CALIBRATION

SUMMARY

Parameter / Instrument Data ,

s Pressure / Range: 0 - 100 psia ,

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: 1-15-93 Dry-Bulb 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: 2-3-93 i

Dew Point Temperature / Range: -40 to +140 degrees F EG&G Dewtrak Humidity Accuracy: +/-1 degrees F Transmitter Cal. Date: 1-14-93 Flow / Range: 0 to 13.4 scfm Brooks Rotameter Accuracy: +/-2.0% FS Model GT-1000 Cal. Date: 1-18-93 l

l l

0 i

1 l

j

m.

APPENDIX IV j f-~ GENERAL INFORMATION General Data Owner - Georgia Power Company ,

Plant Name - Vogtle Electric Generating Plant (VEGP) i Unit - 1 '

Outage Cycle - 4th refueling Containment Description - steel lined prestressed concrete ,

Containment free air volume - 2,750,000 cu.ft. r Date test was completed - March 19, 1993 '

Test Data Test Method - absolute Test Duration - 8.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> Data Analysis Technique - total time Test Pressure 45.0 (+1.0 psig, -0 psig)

Maximum Allowable Leakage Rate (La) 0.200 wt.%/ day Acceptance Limit (0.75La) 0.150 wt.%/ day Calculated Leakage Rate (Lam) 0.0452 wt.%/ day Calculated leakage rate at 95% upper confidence limit (UCL) 0.1344 wt.%/ day Final leakage rate - as-found (UCL + penalties) 0.1349 wt.%/ day O Final leakage rate - as-left (UCL + penalties) 0.1349 wt.%/ day Verification Test Upper limit rate 0.2910 wt.%/ day Lower limit rate 0.1910 wt.%/ day Total time calculated rate 0.2547 wt.%/ day Duration of Test Segments Pressurization 9.9 hours1.041667e-4 days <br />0.0025 hours <br />1.488095e-5 weeks <br />3.4245e-6 months <br /> Stabilization 5.2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 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 /> + 4.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> Depressurization 6.85 hours9.837963e-4 days <br />0.0236 hours <br />1.405423e-4 weeks <br />3.23425e-5 months <br /> Total 36.45 hours5.208333e-4 days <br />0.0125 hours <br />7.440476e-5 weeks <br />1.71225e-5 months <br /> O

't 5

APPENDIX V t TEST DATA O

Raw data for the Type A Test and the Verification Test'are i presented in this appendix. j 4

5

?

h i.

I L

b i

h

)

i i

5 J

I, :

e

'I I

O

-(

1993 VEGP Unit 1 Type A Test data set 1 time = 1000 date = 319 sensor raw data value temperature 1 ( 77.170 ) =

77.170 deg. F temperature 2 ( 77.010 ) =

77.010 deg. F temperature 3 ( 76.860 ) = 76.860 deg. F temperature 4 ( 77.320 ) =

77.320 deg. F. i temperature 5 ( 77.470 ) =

77 470 deg. F  :

temperature 6( 77.320 ) = 77.320 deg. F temperature 7 ( 77.060 ) =

77.060 deg. F temperature 8 ( 77.430 ) =

77.430 deg. F-temperature 9 ( 77.330 ) =

77.330 deg. F temperature 10 ( 77.770 ) =

77.770 deg. F ,

temperature 11 ( 77.480 ) =

77.480 deg. F temperature 12 ( 77.480 ) =

77.480 deg. F '

temperature 13 ( 77.280 ) = 77.280 deg. F temperature 14 ( 76.840 ) =

76.840 deg. F i temperature 15 ( 77.640 ) =

77.640 deg. F  !

temperature 16 ( 77.740 ) = 77.740 deg. F temperature 17 ( 77.710 ) = 77.710 deg. F temperature 18 ( 77.640 ) = 77.640 deg. F  !

temperature 19 ( 77.360 ) =

77.360 deg. F temperature 20 ( 77.680 ) = 77.680 deg. F l temperature 21 ( 77.430 ) =

77.430 deg. F s temperature 22 ( 76.850 ) = 76.850 deg. F temperature 23 ( 76.820 ) =

76.820 deg. F O. temperature 24 ( 77.050 ) = 77.050 deg. F temperature 25 ( 76.990 ) =

76.990 deg. F temperature 26 ( 76.190 ) = 76.190 deg. F temperature 27 ( 75.200 ) =

75.200 deg. F temperature 28 ( 74.800 ) = 74.800 deg. F temperature 29 ( 73.920 ) = 73.920 deg. F l temperature 30 ( 73.680 ) = 73.680 deg. F dewpoint 1 ( 65.600 ) = 65.600 deg. F, 0.3119 psia dewpoint 2 ( 66.210 ) =

66.210 deg. F , 0.3186' psia  !

dewpoint 3 ( 66.130 ) = 66.130 deg. F , 0.3177' psia dewpoint 4 ( 66.610 ) =

66.610 deg. F, 0.3230 psia '!

dewpoint 5 _ ( 66.280 ) = 66.280 deg. F , 0.3193 psia  !

dewpoint 6 '( 66.020 ) = 66.020 deg. F, 0.3165 psia pressure 1 ( 60.0254.) = 60.0254 psia f pressure 2 ( 60.0209 ) = 60.0209 psia '

i weighted' averages, volume and air mass ,

temperature = 76.93680 deg. F  :

pressure = 60.02540. psia j vapor pressure = 0.31792 psia Volume '

=

2750000 cu. ft.

dry air mass = 825911.16 lbm O5  :

t i

f i

1993 VEGP Unit 1 Type A Test data set 2 time = 1015 date = 319 sensor raw data value ,

temperature 1 ( 77.100 ) = 77.100 deg. F '

temperature 2 ( 76.920 ) = 76.920 deg. F ,

temperature 3 ( 76.730 ) = 76.730 deg. F  !

temperature 4 ( 77.220 ) = 77.220 deg. F [

temperature 5( 77.340 ) = 77.340 deg. F s temperature 6 ( 77.210 ) = 77.210 deg. F 't temperature 7 ( 76.930 ) = 76.930 deg. F g temperature 8 ( 77.360 ) = 77.360 deg. F .i temperature 9 ( 77.250 ) = 77.250 deg. F 'l temperature 10 ( 77.650 ) = 77.650 deg. F ,

temperature 11 ( 77.390 ) = 77.390 deg. F I temperature 12 ( 77.380 ) = 77.380 deg. F temperature 13 ( 77.180 ) = 77.180 deg. F temperature 14 ( 76.760 ) = 76.760 deg. F  ;

temperature 15 ( 77.560 ) = 77.560 deg. F i temperature 16 ( 77.600 ) = 77.600 deg. F temperature 17 ( 77.610 ) = 77.610 deg. F temperature 18 ( 77.670 ) = 77.670 deg. F temperature 19 ( 77.260 ) = 77.260 deg. F ,

temperature 20 ( 77.580 ) = 77.580 deg. F temperature 21 ( 77.310 ) = 77.310 deg. F i O temperature temperature 22 23

(

(

76.710 )

76.750 )

=

=

76.710 76.750 deg.

deg.

F F

l i

temperature 24 ( 77.000 ) = 77.000 deg. F temperature 25 ( 76.960 ) = 76.960 deg. F temperature 26 ( 76.180 ) = 76.180 deg. F E temperature 27 ( 75.200 ) = 75.200 deg. F  !

temperature 28 ( 74.800 ) = 74.800 deg. F l temperature 29 ( 73.970 ) = 73.970 deg. F  ;

temperature 30 ( 73.710 ) = 73.710 deg. F dewpoint 1 ( 65.670 ) = 65.670 deg. F , 0.3127 psia  !

dewpoint 2 ( 66.110 ) = 66.110 deg. F , 0.3175 psia dewpoint 3 ( 66.250 ) = 66.250 deg. F , 0.3190 psia .(

dewpoint 4 ( 66.590 ) = 66.590 deg. F, 0.3228 psia dewpoint 5 ( 66.280 ) = 66.280 deg. F, 0.3193 psia dewpoint 6 ( 66.010 ) = 66.010 deg. F , 0.3164 psia i pressure 1 ( 60.0150 ) = 60.0150 psia [

pressure 2 ( 60.0104 ) = 60.0104 psia '

weighted averages, volume and air mass  !

temperature = 76.85898 deg. F i pressure = 60.01500 psia l vapor pressure = 0.31802 psia  !

O volume dry air mass

=

=

2750000 825885.71 cu. ft.

lbm i

i

_____-__--_.______---_____.-_____U

1993 VEGP Unit 1 Type A Test data set 3 f

() time = 1030 date = 319 sensor raw data value temperature 1 ( 76.990 ) = 76.990 deg. F- i temperature 2 ( 76.820 ) =

76.820 deg. F temperature 3 ( 76.600 ) =

76.600 deg. F i temperature 4 ( 77.110 ) = 77.110 deg. F temperature 5 ( 77.260 ) = 77.260 deg. F temperature 6 ( 77.140 ) = 77.140 deg. F  !

temperature 7 ( 76.800 ) = 76.800 deg. F temperature 8 ( 77.270 ) = 77.270 deg. F temperature 9 ( 77.130 ) = 77.130 deg..F temperature 10 ( 77.510 ) = 77.510 deg. F temperature 11 ( 77.280 ) = 77.280 deg. F temperature 12 ( 77.260 ) = 77.260 deg. F i temperature 13 ( 77.090 ) = 77.090 deg. F-  !

temperature 14 ( 76.650 ) = 76.650 deg. F temperature 15-( 77.410 ) = 77.410 deg. F temperature 16 ( 77.510 ) = 77.510 deg. F i temperature 17 ( 77.540 ) = 77.540 deg. F .I temperature'18 ( 77.460 ) = 77.460 deg. F i temperature 19 ( 77.190 ) = 77.190 deg. F temperature 20 ( 77.500 ) = 77.500 deg. F temperature 21 ( 77.250 ) = 77.250 deg. F O

temperature 22 ( 76.630 ) = 76.630 deg. F  ;

temperature 23 ( 76.680 ) = 76.680 deg. F l temperature 24 ( 76.950 )

= 76.950 deg. F temperature 25 ( 76.930 ) = 76.930 deg. F temperature 26 ( 76.160 ) = 76.160 deg. F  ;

temperature 27 ( 75.200 ) = 75.200 deg. F temperature 28 ( 74.820 ) = 74.820 deg. F i temperature 29 ( 73.990 ) = 73.990 deg. F '

temperature 30'( 73.760 ) = 73.760 deg. F ,

dewpoint 1 ( 65.500 ) = 65.500 deg. F, 0.3108 psia  !

dewpoint 2 ( 66.060 ) = 66.060 deg. F, 0.3169 psia i dewpoint 3 ( 66.000') = 66.000 deg. F, 0.3163 psia dewpoint 4 ( 66.420 ) = 66.420 deg. F, 0.3209 psia .

dewpoint 5 ( 66.250 ) = 66.250 deg. F , 0.3190 psia -j dewpoint 6 65.950-)

( = 65.950 deg. F, 0.3157 psia 'j pressure 1 ( 60.0054 ) = 60.0054 psia pressure 2 ( 60.0009-) = 60.0009 psia weighted averages, volume.and air mass temperature = 76.77543 deg. F pressure = 60.00540 psia .

vapor pressure = ~0.31662' psia.  ;

volume O

= 2750000 cu. ft. .

dry air mass = 825900.85 lbm I

f

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

t 1993 VEGP Unit 1 Type A Test p data set 14 r

()

t time = 1045 date = 319 sensor raw data value temperature 1 ( 76.890 ) = 76.890 deg. F temperature 2 ( 76.720 ) = 76.720 deg. F temperature 3 ( 76.510 ) = 76.510 deg. F temperature 4 ( 77.000 ) = 77.000 deg. F i temperature 5 ( 77.120 ) =

77.120'deg. F [

temperature 6 ( 77.010 ) =

77.010 deg. F  ;

temperature 7 ( 76.750 ) =

76.750 deg. F temperature 8 ( 77.090 ) = 77.090 deg. F temperature 9 ( 77.040 ) = 77.040 deg. F .;

temperature 10 ( 77.460 ) = 77.460 deg. F temperature 11 ( 77.170 ) = 77.170 deg. F temperature 12 ( 77.160 ) =

77.160 deg. F temperature 13 ( 77.010 ) = 77.010 deg. P temperature 14 ( 76.550 ) = 76.550 deg. F temperature 15 ( 77.330 ) = 77.330 deg. F temperature 16 ( 77.400 ) = 77.400 deg. F temperature 17 ( 77.270 ) = 77.270 deg. F temperature 18 ( 77.230 ) = 77.230 deg. F temperature 19 ( 77.170 ) = 77.170 deg. F temperature 20 ( 77.400 ) = 77.400 deg. F temperature 21 ( 77.170 ) = 77.170 deg. F O temperature temperature temperature 22 23 24

(

(

(

76.600 )

76.620 )

76.920 )

=

=

=

76.600 deg.

76.620 deg.

76.920.deg.

F F

F temperature 25 ( 76.910 ) = 76.910 deg. F temperature 26 ( 76.130 ) = 76.130 deg. F temperature 27 ( 75.180 ) = 75.180 deg. F.

temperature 28 ( 74.820 ) = 74.820 deg. F temperature 29 ( 74.030 ) = 74.030 deg. F temperature 30 ( 73.790 ) = 73.790 deg. F dewpoint 1 ( 65.720 ) = 65.720 deg. F, 0.3132 psia dewpoint 2 ( 66.050 ) = 66.050 deg. F, 0.3168 psia dewpoint 3 ( 65.960 ) = 65.960 deg. F, 0.3158 psia dewpoint 4 (' 66.270 ) = 66.270 deg. F, 0.3192 psia dewpoint 5 ( 66.220 ) = 66.220 deg. F, 0.3187 psia dewpoint 6 ( 65.960 ) = 65.960 deg. F , 0.3158 psia pressure 1 ( 59.9960 ) = 59.9960 psia pressure 2 ( 59.9917 ) = 59.9917 psia weighted. averages, volume and air mass temperature = 76.68960 deg. F pressure = 59.99600 psia vapor pressure = 0.31656 psia volume 2750000 cu. ft.

O

=

dry air mass = 825903.73 lbm

1993 VEGP Unit 1 Type A Test '

s data set 5 time = 1100 date = 319 sensor raw data value  :

temperature 1 ( 76.800 ) =

76.800 deg. F I temperature 2 ( 76.620 ) = 76.620 deg. F j temperature 3 ( 76.410 ) = 76.410 deg. F '

temperature 4 ( 76.900 ) = 76.900 deg. F temperature 5 ( 77.040 ) = 77.040 deg. F temperature 6 ( 76.910 ) =

76.910 deg. F temperature 7 ( 76.630 ) = 76.630 deg. F temperature 8 ( 77.020 ) =

77.020 deg. F temperature 9 ( 76.930 ) = 76.930 deg. F .

temperature 10 ( 77.350 ) =

77.350 deg. F temperature 11 ( 77.080 ) =

77.080 deg. F temperature 12 ( 77.050 ) =

77.050 deg. F l temperature 13 ( 76.910 ) = 76.910 deg. F temperature 14 ( 76.460 ) = 76.460 deg. F  !

temperature 15 ( 77.230 ) = 77.230 deg. F temperature 16 ( 77.280 ) = 77.280 deg. F temperature 17 ( 77.240 ) = 77.240 deg. F temperature 18 ( 77.150 ) = 77.150 deg. F temperature 19 ( 77.020 ) = 77.020 deg. F ,

temperature 20 ( 77.360 ) = 77.360 deg. F f-s temperature 21 ( 77.070 ) = 77.070 deg. F temperature 22 ( 76.520 ) = 76.520 deg. F temperature 23 ( 76.550 ) l

76.550 deg. F temperature 24 ( 76.860 )

76.860 deg. F l temperature 25 ( 76.880 ) = 76.880 deg. F temperature 26 ( 76.130 ) = 76.130 deg. F temperature 27 ( 75.180 ) =

75.180 deg. F temperature 28 ( 74.820 ) = 74.820 deg. F temperature 29 ( 74.040 ) =

74.040 deg. F temperature 30 ( 73.820 ) = 73.820 deg. F  !

dewpoint 1 ( 65.450 ) = 65.450 deg. F , 0.3103 psia ,

dewpoint 2 ( 66.070 ) = 66.070 deg. F , 0.3170 psia '

dewpoint 3 ( 65.910 ) = 65.910 deg. F , 0.3153 psia dewpoint 4 ( 66.250 ) = 66.250 deg. F, 0.3190 psia '

dewpoint 5 ( 66.210 ) = 66.210 deg. F_, 0.3186 psia t dewpoint 6 ( 65.950 ) = 65.950 deg. F , 0.3157 psia

-pressure 1 ( 59.9873 ) = 59.9873 psia pressure 2 ( 59.9829 ) = 59.9829 psia weighted averages, volume and air mass I temperature = 76.61375 deg. F  !

pressure = 59.98730 psia vapor pressure = 0.31599-psia  !

O volume dry air mass

=

=

2750000 cu. ft.

825908.13 lbm I

G

'l 1993 VEGP Unit 1 Type A Test 'i data set 6 l

() time =.1115 date = 319 I

{

sensor raw data value l

temperature 1 ( 76.700 ) = 76.700 deg. F i temperature 2 ( 76.490-) = 76.490 deg. F i temperature 3 ( 76.340 ) =

76.340 deg. F l temperature 4 ( 76.820 ) = 76.820 deg. F- i temperature 5.( 76.950 ) =

76.950 deg. F  !

temperature 6 ( 76.840 ) =

76.840 deg. F l temperature 7 ( 76.530 )- =

76.530 deg. F

~

temperature 8 ( 76.890 ) =

76.890 deg. F temperature 9 ( 76.860 ) =

76.860 deg. F temperature 10 ( 77.230 ) =

77.230 deg. F' i temperature 11 ( 77.010 ) = 77.010 deg. F i temperature-12 ( 76.950 ) = 76.950 deg. F 4 temperature 13 ( 76.840 ) = 76.840 deg. F  !

temperature 14 ( 76.360 ) =

76.360 deg. F  !

temperature 15 ( 77.180 ) = 77.180 deg. F j temperature 16 ( 77.230 ) = 77.230 deg. F -j temperature 17 ( 77.070 ) = 77.070 deg. F l temperature 18 ( 77.190 ) =

77.190 deg. F .!

temperature 19 ( 76.980 ) = 76.980 deg. F. '

temperature 20 ( 77.240 ) = 77.240 deg. F temperature 21 ( 77.010 ) = 77.010 deg. F i

) temperature 22 ( 76.440 ) = 76.440 deg. F

-.C/ temperature 23 ( 76.490 ) = 76.490 deg. F j

temperature 24 ( 76.800 ) = 76.800 deg. F ,

temperature 25 ( 76.830 ) = 76.830 deg. F  !

temperature 26 ( 76.090 ) =

76.090 deg. F l temperature 27 ( 75.180 ) = 75.180 deg. F  :

temperature 28 ( 74.840 ) = 74.840 deg. F l temperature 29_( 74.080 ) = 74.080 deg. .F j temperature 30 ( 73.850 ) = 73.850 deg. F ,

dewpoint 1 ( 65.640 ) = 65.640 deg. F., 0.3123 psia j dewpoint 2 ( 66.020 ) = 66.020-deg. F, 0.3165 psia i dewpoint 3 ( 65.870 ) = 65.870'deg. F , 0.3148 psia i dewpoint 4 ( 66.320 ) = 66.320 deg. F, 0.3198 psia j dewpoint 5 ( 66.180-) = 66.180 deg. F , 0.3182 psia '

dewpointL 6 ( 65.940-) =- 65.940 deg. F , 0.3156 psia .i pressure 1 ( 59.9787 ) = -59.9787-psia pressure 2 ( 59.9743 ) = 59.9743 psia. i weighted averages, volume and_ air mass temperature = 76.54732 deg. F pressure = 59.97870 psia. .i vapor pressure = 0.31619 psia ,

f- volume =

2750000 cu. ft. t dry air mass =

825888.56 lbm l

l

=, - - - -- _ _. .- . . _ . _ _ _ _ _ _ - - -

1993 VEGP Unit 1 Type A Test data set 7

() time = 1130 date = 319 sensor raw data value -

1(

temperature 76.630 ) = 76.630 deg. F temperature l 2 ( 76.430 ) = 76.430 deg. F temperature 3( 76.250 ) = 76.250 deg. F i temperature 4 ( 76.720 ) = 76.720 deg. F temperature 5( 76.880 ) = 76.880 deg. F temperature 6 ( 76.750 ) = 76.750 deg. F temperature 7 ( 76.490 ) = 76.490 deg. F temperature 8 ( 76.790 ) = '76.790 deg. F '

temperature 9 ( 76.740 ) =

76.740 deg. F ,

temperature 10 ( 77.100 ) = 77.100 deg. F temperature 11 ( 76.880 ) =

76.880 deg. F temperature 12 ( 76.860-) = 76.860 deg. F temperature 13 ( 76.740 ) =

76.740 deg. F temperature 14 ( 76.290 ) = 76.290 deg. F ,

temperature 15 ( 77.060 ) = 77.060 deg. F '

temperature 16 ( 77.120 ) = 77.120 deg. F temperature 17 ( 77.150 ) = 77.150 deg. F .:

temperature 18 ( 76.980 ) = 76.980 deg. F temperature 19 ( 76.890 )

= 76.890 deg. F '

temperature 20 ( 77.160 ) =

77.160 deg. F temperature 21 ( 76.930 ) = 76.930 deg. F O temperature temperature temperature 22 23 24

(

(

(

76.400 )

76.430 )

76.790 )

=

=

=

76.400 76.430 76.790 deg.

deg.

deg.

F F

F i

temperature 25 ( 76.800 ) = 76.800 deg. F -

temperature 26 ( 76.070 ) = 76.070 deg. F temperature 27 ( 75.160 ) = 75.160 deg. F temperature 28 ( 74.840 ) = 74.840 deg. F temperature 29 ( 74.110 ) = 74.110 deg. F q temperature 30 ( 73.890 ) = 73.890 deg. F

-dewpoint 1 ( 65.480 ) = 65.480 deg. F', 0.3106 psia dewpoint 2 ( 66.160 ) = 66.160 deg. F, 0.3180 psia dewpoint 3 ( 65.910 ) = 65.910-deg. F , 0.3153 psia i dewpoint '

4 ( 66.210 ) = 66.210 deg. F, 0.3186 psia dewpoint 5 ( 66.130 ) = 66.130 deg. F , 0.3177 psia ,

dewpoint -6 ( 65.920 ) = 65.920 deg. F, 0.3154' psia

~

?

pressure 1 ( 59.9705 ) = 59.9705 psia pressure {

2 ( 59.9661 ) = 59.9661 psia weighted averages, volume and air mass  !

i temperature = 76.47738 deg. F pressure = 59.97050 psia ,

vapor pressure = 0.31598' psia volume O

=

2750000 cu. ft. '

dry air mass = 825885.67 lbm P

____.__.-____------------------------------A

I 1993 VEGP Unit 1 Type A Test data set 8

()

J time = 1145 date = 319 k sensor raw data value I temperature 1 ( 76.550 ) = 76.550 deg. F temperature 2 ( 76.340 ) = 76.340 deg. F ,

temperature 3 ( 76.200 ) = 76.200 deg. F ,

temperature 4 ( 76.640 ) = 76.640 deg. F <

temperature 5 ( 76.790 ) =

76.790 deg. F l temperature 6 ( 76.640 ) = 76.640 deg. F '

temperature 7 ( 76.370 ) = 76.370 deg. F temperature 76.740 )

8 ( = 76.740 deg. F temperature 9 ( 76.690 ) = 76.690 deg. F  ;

temperature 10 ( 77.040 ) = 77.040 deg. F temperature 11 ( 76.810 ) = 76.810 deg. F l temperature 12 ( 76.790 ) = 76.790 deg. F temperature 13 ( 76.660 ) = 76.660 deg. F temperature 14 ( 76.190 ) = 76.190 deg. F temperature 15 ( 77.000 ) =

77.000 deg. F '

temperature 16 ( 77.060 ) = 77.060 deg. F l temperature 17 ( 77.000 ) = 77.000 deg. F temperature 18 ( 76.930 ) = 76.930 deg. F

  • temperature 19 ( 76.840 ) = 76.840 deg. F temperature 20 ( 77.130 ) = 77.130 deg. F ,

temperature 21 ( 76.860 ) = 76.860 deg. F  ;

O temperature temperature temperature 22 23 24

(

(

(

76.370 )

76.380 )

76.720 )

=

=

=

76.370 76.380 76.720 deg.

deg.

deg.

F F

F

)

temperature 25 ( 76.760 ) = 76.760 deg. F 1 temperature 26 ( 76.050 ) = 76.050 deg. F temperature 27 ( 75.140 ) = 75.140 deg. F temperature 28 ( 74.840 ) = 74.840 deg. F .i temperature 29 ( 74.120 ) = 74.120 deg. F  ;

temperature 30 ( 73.910 ) = 73.910 deg. F '

dewpoint 1 ( 65.600 ) = 65.600 deg. F , 0.3119 psia-dewpoint 2 ( 66.040 ) = 66.040.deg. F, 0.3167 psia dewpoint 3 ( 65.880 ) = 65.880.deg. F, 0.3149 psia- i dewpoint 4 ( 66.220 ) = 66.220 deg. F , 0.3187 psia '

dewpoint 5 ( 66.150 ) = 66.150 deg. F, 0.3179 psia ,

dewpoint 6 ( 65.920 ) = 65.920 deg. F , 0.3154 psia  !

pressure 1 ( 59.9623 ) = 59.9623 psia pressure 2 ( '59.9581 ) = 59.9581 psia  ;

weighted averages, volume and air mass l temperature = 76.41676 deg. F pressure = 59.96230 psia vapor pressure = 0.31591' psia-volume O 2750000 cu. ft.

=

dry air miss = 825866.46 lbm  !

- = . _ - .a

i 1993 VEGp Unit 1 Type A Test data set 9

) time = 1200 date = 319 sensor raw data value temperature 1 ( 76.480 ) =

76.480 deg. F  ;

temperature 2 ( 76.290 ) = 76.290 deg. F temperature 3 ( 76.070 ) =

76.070 deg. F '

temperature 4 ( 76.570 ) = 76.570 deg. F -

temperature 5 ( 76.700 ) = 76.700 deg. F temperature 6 ( 76.590 ) =

76.590 deg. F  ;

temperature 7 ( 76.290 ) =

76.290 deg. F l temperature 8 ( 76.680 ) =

76.680 deg. F temperature 9 ( 76.580 ) =

76.580 deg. F  !

temperature 10 ( 77.010 ) =

77.010 deg. F temperature 11 ( 76.760 ) = 76.760 deg. F ,

temperature 12 ( 76.700 ) =

76.700 deg. F temperature 13 ( 76.560 ) = 76.560 deg. F  :

temperature 14 ( 76.080 ) =

76.080 deg. F i temperature 15 ( 76.900 ) = 76.900 deg. F '

temperature 16 ( 76.980 ) = 76.980 deg. F temperature 17 ( 76.890 ) = 76.890 deg. F temperature 18 ( 76.920 ) =

76.920 deg. F  ;

temperature 19 ( 76.730 ) = 76.730 deg. F l temperature 20 ( 77.080 ) = 77.080 deg. F  !

temperature 21 ( 76.790 ) = 76.790 deg. F i O, temperature temperature 22 23

(

(

76.260 )

76.320 )

=

=

76.260 76.320 deg.

deg.

F F

temperature 24 ( 76.700 ) = 76.700 deg. F temperature 25 ( 76.710 ) = 76.710 deg. F temperature 26 ( 76.030 ) =

76.030 deg. F  !

temperature 27 ( 75.140 ) = 75.140 deg. F l temperature 28 ( 74.840 ) = 74.840 deg. F i temperature 29 ( 74~140 )

. = 74.140 deg. F ,

temperature 30 ( 73.940 ) = 73.940 deg. F '

dewpoint 1 ( 65.640 ) = 65.640 deg. F , 0.3123 psia i dewpoint 2 ( 65.960 ) = 65.960 deg. F, 0.3158 psia (

dewpoint 3 ( 66.110 ) =

66.110 deg. F , 0.3175 psia ,

dewpoint 4 ( 66.240 ) = 66.240 deg. F, 0.3189 psia {

dewpoint 5 ( 66.100 ) =

66.100 deg. F , 0.3174 psia l dewpoint 6 ( 65.910 ) = 65.910 deg. F., 0.3153 psia pressure 1 ( 59.9546 ) = 59.9546 psia pressure 2 ( 59.9503 ) = 59.9503 psia l weighted averages, volume and air mass i temperature = 76.35313 deg. F ,

pressure = 59.95460 psia '

vapor pressure. = 0.31624 psia  ;

Os

(,)

volume =

2750000 cu. ft.

dry air mass = 825853.28 lbm

  • 1993 VEGP Unit 1 Type A Test j data set 10 i time = 1215 date = 319 j sensor raw data value -!

temperature 1 ( 76.410 ) = 76.410 deg. F temperature 2 ( 76.180 ) = 76.180 deg. F i temperature 3 ( '76.000 ) = 76.000 deg. F ,

temperature 4 ( 76.500 ) = 76.500 deg. F temperature 5 ( 76.640 ) = 76.640 deg. F >

temperature 6 ( 76.490 ) = 76.490 deg. F  ;

temperature 7 ( 76.250 ) = 76.250 deg. F  ;

temperature 8 ( 76.570 ) = 76.570 deg. F ~

temperature 9 ( 76.510 ) = 76.510 deg. F I temperature 10 ( 76.940 ) = 76.940 deg. F temperature 11 ( 76.690 ) = 76.690'deg. F temperature 12 ( 76.610 ) = 76.610 deg. F temperature 13 ( 76.490 ) = 76.490 deg. F temperature 14 ( 76.000 ) = 76.000 deg. F temperature 15 ( 76.780 ) = 76.780 deg. F .;

temperature 16 ( 76.870 ) = 76.870 deg. F temperature 17 ( 76.710 ) = 76.710 deg. F ~

temperature 18 ( 76.800 ) = 76.800 deg. F temperature 19 ( 76.670 ) = 76.670 deg. F temperature 20 ( 76.970 ) = 76.970 deg. F temperature 21 ( 76.700 ) = 76.700 deg. F O temperature temperature 22 ( 76.200 )

23 ( 76.260 )

=

=

76.200 deg.

76.260 deg.

F F

i temperature 24 ( 76.660 ) = 76.660 deg. F  ;

temperature 25 ( 76.680 ) = 76.680 deg. F temperature 26 ( 76.010 ) = 76.010 deg. F temperature 27 ( 75.130 ) = 75.130 deg. F -

temperature 28 ( 74.840 ) = 74.840 c.ag. F j temperature 29 ( 74.150 ) = 74.150'deg..F.

temperature 30 ( 73.980 ) = 73.980 deg. F dewpoint 1 ( 65.430 ) = 65.430 deg. F , 0.3101 psia i dewpoint 2 ( 66.000 ) = 66.000'deg. F, 0.3163 psia dewpoint 3 ( 65.860 ) = 65.860 deg. F, 0.3147 psia i dewpoint 4 ( 66,190 ) = 66.190 deg. F, 0.3184 psia dewpoint 5 ( 66.070 ) = 66.070 deg. F, 0.3170 psia .

dewpoint 6 ( 65.890 ) = 65.890 deg. F, 0.3151 psia pressure 1 ( 59.9471 ) = 59.9471 psia

-pressure 2 ( 59.9427') = 59.9427 psia j i

weighted averages, volume and air mass temperature = 76.28233 deg. F pressure = 59.94710 psia vapor pressure =~. 0.31529 psia volume =

O- dry air mass =

2750000 825871.75 cu. ft.

lbm l

l i

1993 VEGP Unit 1 Type A Test data set 11 t

() time = 1230 date = '319 i

sensor raw data value i

temperature 1 ( 76.310 ) = 76.310 deg. F

{

temperature 2 ( 76.130 ) = 76.130 deg. F '

temperature 3 ( 75.920 ) = 75.920 deg. F temperature 4 ( 76.410 ) = 76.410 deg. F temperature 5 ( 76.540 ) = 76.540 deg. F  !

temperature 6 ( 76.420 ) = 76.420 deg. F l temperature 7 ( 76.150 ) = 76.150 deg. F l temperature 8 ( 76.490 ) = 76.490 deg. F '

temperature 9 ( 76.420 ) = 76.420 deg. F  !

temperature 10 ( 76.830 ) = 76.830 deg. F ,

temperature 11 ( 76.610 ) = 76.610 deg. F ,

temperature 13 ( 76.520 ) = 76.520 deg. F temperature 13 ( 76.400 ) = 76.400 deg. F i temperature 14 ( 75.940 ) = 75.940 deg. F i temperature 15 ( 76.750 ) = 76.750 deg. F ,

temperature 16 ( 76.840 ) = 76.840 deg. F  !

temperature 17 ( 76.750 ) = 76.750 deg. F temperature 18 ( 76.670 ) = 76.670 deg. F '

temperature 19 ( 76.590 ) = 76.590 deg. F.  !

temperature 20 ( 76.940 ) = 76.940-deg. F .

temperature 21 ( 76.610 ) = 76.610 deg. F  !

D mperature 22 ( 76.080 ) = 76.080 deg. F  !

/ .amperature 23 ( 76.220 ) = 76.220 deg. F temperature 24 ( 76.590 ) = 76.590 deg. F  !

temperature 25 ( 76.650 ) = 76.650 deg. F temperature 26 ( 75.970 ) = 75.970 deg. F temperature 27 ( 75.110 ) = 75.110 deg. F t temperature 28 ( 74.840 ) = 74.840 deg. F ,

temperature 29 ( 74.190 ) = 74.190 deg. F '

temperature 30 ( 74.000 ) = 74.000 deg. F dewpoint 1 ( 65.420 ) = G5.420 deg. F , 0.3100 psia dewpoint 2 ( 65.920 ) = 65.920 deg. F , 0.3154 psia i dewpoint 3 ( 65.930 ) = 65.930 deg. F , 0.3155 psia dewpoint 4 ( 66.190 ) = 66.190 deg. F, 0.3184 psia dewpoint 5 ( 66.110 ) =

66.110 deg. F, 0.3175 psia dewpoint' 6 ( 65.890 ) = 65.890 deg. F, 0.3151 psia ;

pressure 1 ( 59.9400 ) = 59.9400 psla t pressure 2 ( 59.9357 ) = 59.9357 psia l t

weighted averages, volume and air mass temperature = 76.22103 deg. F pressure- = 59.94000 psia  !

vapor pressure = 0.31530 psia volume

=

2750000 cu. ft.

dry air mass = 825867.53 lbm P

?

I 1993 VEGP Unit 1 Type A Test

?

data set 12

()

time = 1245 date = 319 sensor raw data value temperature 1 ( 76.260 ) = 76.260 deg. F  ;

temperature 2 ( 76.050 ) = 76.050 deg. F temperature 3 ( 75.870 ) = 75.870 deg. F temperature 4 ( 76.360 ) = 76.360 deg. F  !

temperature 5( 76.450 ) = 76.450 deg. F I temperature 6 ( 76.320 ) = 76.320 deg. F temperature 7 ( 76.100 ) = 76.100 deg. F +

temperature 8 ( 76.430 ) = 76.430 deg. F temperature 9 ( 76.370 ) = 76.370 deg. F I temperature 10 ( 76.790 ) = 76.790 deg. F temperature 11 ( 76.520 ) = 76.520 deg. F [

temperature 12 ( 76.460 ) = 76.460 deg. F '

temperature 13 ( 76.320 ) = 76.320 deg. F i temperature 14 ( 75.880 ) = 75.880 deg. F temperature 15 ( 76.700 ) = 76.700 deg. F t temperature 16 ( 76.760 ) = 76.760 deg. F '

temperature 17 ( 76.660 ) = 76.660 deg. F temperature 18 ( 76.740 ) = 76.740 deg. F i temperature 19 ( 76.520 ) = 76.520 deg. F temperature 20 ( 76.870 ) = 76.870 deg. F  ;

temperature 21 ( 76.550 ) = 76.550 deg. F l temperature 22 ( 76.180 )

O 76.180 deg. F

=

.j temperature 23 ( 76.160 ) = 76.160 deg. F  ;

temperature 24 ( 76.560 ) = 76.560 deg. F  :

temperature 25 ( 76.600 ) = 76.600 deg. F i temperature 26 ( 75.940 ) = 75.940 deg.-F i temperature 27 ( 75.100 ) = 75.100 deg. F  ;

temperature 28 ( 74.830 ) = 74.830 deg. F temperature 29 ( 74.210 ) = 74.210 deg. F temperature 30 ( 74.020 ) = 74.020 deg. F I dewpoint 1 ( 65.640 ) = 65.640 deg. F , 0.3123 psia i dewpoint 2 ( 65.970 ) = 65.970 deg. F, 0.3159 psia  !

dewpoint 3 ( 65.820 ) = 65.820 deg. F , 0 3143 psia y dewpoint 4 ( 66.180 ) = 66.180 deg. F, 0.3182 psia t dewpoint 5 ( 66.050 ) = 66.050 deg. F, 0.3168 psia  :

dewpoint 6 ( 65.870 ) = 65.870 deg. F, 0.3148 psia pressure 1 ( 59.9330 ) = 59.9330 psia i pressure 2 ( 59.9286 ) = 59.9286 psia j weighted averages, volume and air mass temperature = 76.17578 deg. F l pressure = 59.93300 psia  !

. vapor pressure = 0.31540 psia  !

() volume 2750000 cu. ft.

=

dry air mass = 825839.03 lbm

{

I l

k

r 1993 VEGP Unit 1 Type A Test  ;

data set 13

() time = 1300 date = 319 sensor raw data value i temperature 1 ( 76.180 ) = 76.180 deg. F temperature 2 ( 75.970 ) = 75.970 deg. F i temperature 3 ( 75.800 ) = 75.800 deg. F temperature 4 ( 76.300 ) = 76.300 deg. F i temperature 5 ( 76.400 ) = 76.400 deg. F temperature 6 ( 76.270 ) = 76.270 deg. F ,

temperature 7 ( 75.950 ) = 75.950 deg. F  !

temperature 8 ( 76.410 ) = 76.410 deg. F  !

temperature 9 ( 76.290 ) = 76.290 deg. F .;

temperature 10 ( 76.730 ) = 76.730 deg. F temperature 11 ( 76.440 ) = 76.440 deg. F temperature 12 ( 76.410 )

= 76.410 deg. F l temperature 13 ( 76.270 ) = 76.270 deg. F ,

temperature 14 ( 75.800 ) = 75.800 deg. F <

temperature 15 ( 76.580 ) = 76.580 deg. F '

temperature 16 ( 76.690 ) = '76.690 deg. F

  • temperature 17 ( 76.600 ) = 76.600 deg. F >

temperature 18 ( 76.710 ) = 76.710 deg. F temperature 19 ( 76.450 ) = 76.450 deg. F 3 temperature 20 ( 76.850 ) = 76.850 deg. F temperature 21 ( 76.490 ) = 76.490 deg. F O temperature temperature 22 23 (

( 76.060 )

76.110 )

=

=

76.060 76.110 deg.

deg.

F F

temperature 24 ( 76.520 ) = 76.520 deg. F temperature 25 ( 76.580 ) = 76.580 deg. F temperature 26 ( 75.920 ) = 75.920 deg. F temperature 27 ( 75.080 ) = 75.080 deg. F temperature 28 ( 74.830 ) = 74.830 deg. F temperature 29 ( 74.240 ) = 74.240 deg. F .

temperature 30 ( 74.040 ) = 74.040 deg. F  ;

k dewpoint 1 ( 65.390 ) = 65.390 deg. F, 0.3096 psia dewpoint 2 ( 66.080 ) = 66.080 deg. F , 0.3171 psia dewpoint 3 ( 65.840 ) = 65.840 deg. F , 0.3145 psia dewpoint 4 ( 66.210 ) = 66.210 deg. F, 0.3186 psia r dewpoint 5 ( 66.040 ) = 66.040 deg. F, 0.3167 psia ,

dewpoint 6 ( 65.880 ) = 65.880 deg. F, 0.3149 psia pressure 1 ( 59.9264 ) = 59.9264 psia pressure 2 ( 59.9221 ) = 59.9221 psia' i weighted averages, volume and air mass ,

temperature = 76.12045 deg. F pressure fi

= 59.92640 psia vapor pressure = 0.31533 psia  ;

O volume = 2750000 cu. ft.  ;

dry air mass = 825833.91 lbm  !

t I

i

I l

l 1

I 1993 VEGp Unit 1 Type A Test n

14

_ data set 319 date =

time = 1315 value i

raw data sensor =

76.140 deg. F 76.140 ) 75.880 deg. F temperature 12 (( 75.880 ) == 75.720 deg. F temperature 3 ( 75.720 ) = 76.210 deg. F temperature 4 ( 76.210 ) = 76.320 deg. F temperature 5 ( 76.320 ) = 76.180 deg. F temperature 6 ( 76.180 ) = 75.930 deg. F temperature 7 ( 75.930 ) = 76.300 deg. F temperature 8 ( 76.300 ) = 76.220 deg. F 9 temperature 9 ( 76.220 ) = 76.580 deg. F temperature 76.580 ) = 76.420 deg. F temperature 10 ( 76.420 ) =

76.340 deg. F temperature 11 ( 76.340 ) ' 76.200 deg. F temperature 12 (( 76.200 ) = 75.750 deg. F temperature 13 ( 75.750 ) = 76.540 deg. F temperature 14 ( 76.540 ) = 76.620 deg. F temperature 15 ( 76.620 ) = 76.540 deg. F temperature 16 ( 76.540 ) = 76.540 deg. F temperature 17 76.540 ) = 76.460 deg. F temperature 18 (( 76.460 ) = 76.800 deg. F temperature 19 ( 76.800 ) = 76.440 deg. F O temperature 20( temperature76.440 76.020 )

temperature 22 (( 76.060 ) ==

) = 2176.020 deg.

76.060 deg. F 76.480 deg. F F

temperature 23 ( 76.480 ) = 76.540 deg. F temperature 24 ( 76.540 ) = 75.890 deg. F temperature 25 75.890 ) = 75.050 deg. F temperature 26 (( 75.050 ) 74.820 deg. F temperature 27 74.820 ) =

=

74.260 deg. F temperature 28 ( 74.260 ) = 74.070 deg. F temperature 29 ( 74.070 ) 0.3093 psia temperature 30 ( =

65.360 deg. F ,

0.3166 psia

( 65.360 ) 66.030 deg. F ,

0.3143 psia dewpoint 1 ( 66.030 )

=

65.820 deg. F ,

0.3195 psia dewpoint 2 ( 65.820 )

=

66.290 deg. F ,

0.3165 psia dewpoint 3 ( 66.290 )

=

66.020 deg. F ,

0.3145 psia dewpoint 4 ( 66.020 )

=

65.840 deg. F ,

dewpoint 5 ( 65.840 )

=

dewpoint 6 = 59.9199 psia

(

59.9199 ) = 59.9152 psia pressure 12 (

59.9152 )

pressure volume and air mass weighted averages, 76.06325 deg. F

=

temperature =

59.91990 psia pressure 0.31519 psia ft.

l ~)' vapor pressure = = 2750000 cu.

volume = 825833.95 lbm dry air mass

. . _ _ _ ~ ._.

1 l

1993 VEGP Unit 1 Type A Test ]

data set 15 i

() time = 1330 sensor date =

raw data 319 value i

temperature 1 ( 76.050 ) = 76.050 deg. F temperature 2( 75.840 ) = 75.840 deg. F ,

temperature 3( 75.650 ) = 75.650 deg. F temperature 4 ( 76.150 ) = 76.150 deg. F temperature 5 ( 76.250 ) = 76.250 deg. F temperature 6 ( 76.150 ) = 76.150 deg. F temperature 7 ( 75.880 ) = 75.880 deg. F  ;

temperature 8 ( 76.230 ) = 76.230 deg. F temperature 9 ( 76.170 ) = 76.170 deg. F ,

temperature 10 ( 76.580 ) = 76.580 deg. F  :

temperature 11 ( 76.340 ) = 76.340 deg. F temperature 12 ( 76.260 ) = 76.260 deg. F temperature 13 ( 76.140 ) = 76.140 deg. F temperature 14 ( 75.690 ) = 75.690 deg. F temperature 15 ( 76.500 ) = 76.500 deg. F temperature 16 ( 76.550 ) = 76.550 deg. F t temperature 17 ( 76.410 ) = 76.410 deg. F l temperature 18 ( 76.370 ) = 76.370 deg. F l temperature 19 ( 76.320 ) = 76.320 deg. F .,

temperature 20 ( 76.750 ) = 76.750 deg. F f temperature 21 ( 76.370 ) = 76.370 deg. F ,

temperature 22 ( 75.990 ) = 75.990 deg. F  !

O. temperature temperature 23 24

(

(

76.010 )

76.430 )

=

=

76.010 76.430 deg.

deg.

F F ':

j temperature 25 ( 76.500 ) = 76.500 deg. F temperature 26 ( 75.850 ) = 75.850 deg. F  ?

temperature 27 ( 75.030.) = 75.030 deg. F j temperature 28 ( 74.810 ) = 74.810 deg. F l temperature 29 ( 74.270 ) = 74.270 deg. F t temperature 30 ( 74.080 ) = 74.080 deg. F l dewpoint 1 ( 65.460 ) = 65.460 deg. F, 0.3104 psia ~l dewpoint 2 ( 65.950 ) = 65.950 deg. F , 0.3157 psia- +

dewpoint 3 ( 65.830 ) = 65.830 deg. F , 0.3144 psia dewpoint 4 ( 66.200 ) = 66.200 deg. F , 0.3185 psia  !

dewpoint 5 ( 66.050 ) = 66.050 deg. F , 0.3168 psia l dewpoint 6 ( 65.810 ) = 65.810 deg. F , 0.3142 psia j l

pressure 1 ( 59.9139 ) = 59.9139 psia pressure 2 ( 59.9092 ) = 59.9092 psia weighted averages, volume and air mass i l

temperature = 76.00557 deg. F pressure = 59.91390 psia vapor pressure = 0.31501 psia  !

volume = 2750000 cu. ft. l O. dry air mass = 825842.17 lbm j I

F r . , - - - ,- _ .

k h

1993 VEGP Unit 1 Type A Test data set 16 l

() time = 1345 date = 319 sensor raw data value ,

temperature 1 ( 76.020 ) = 76.020 deg. F i, temperature 2 ( 75.750 ) = 75.750 deg. F '

temperature 3 ( 75.600 ) =

75.600 deg. F temperature 4 ( 76.100 ) =

76.100 deg. F 3 temperature 5 ( 76.210 ) =

76.210 deg. F  !

temperature 6 ( 76.080 )- = 76.080_deg. F temperature 7 ( 75.770 ) = 75.770 deg. F temperature 8 ( 76.150 ) = 76.150 deg. F ,

temperature 9 ( 76.100 ) = 76.100 deg. F temperature 10 ( 76.520 ) = 76.520 deg. F temperature 11 ( 76.270 ) = 76.270 deg. F temperature 12 ( 76.210 ) = 76.210 deg. F temperature 13 ( 76.060 ) = 76.060 deg. F temperature 14 ( 75.630 ) =

75.630 deg. F >

temperature 15 ( 76.390 ) = 76.390 deg. F I temperature 16 ( 76.490 ) =

76.490 deg. F  !

temperature 17 ( 76.300 ) = 76.300 deg. F  !

temperature 18 ( 76.270 ) = 76.270 deg. F  !

temperature 19 ( 76.290 ) = 76.290 deg. F -'

temperature 20 ( 76.690 ) = 76.690 deg. F temperature 21 ( 76.320 ) = 76.320 deg. F O temperature temperature temperature 22 ( 75.930 )

23 ( 75.980 )

24 ( 76.410 )

=

=

=

75.930 deg.

75.980 deg.

76.410 deg.

F F

F j

f i

temperature 25 ( 76.470 ) = 76.470 deg. F temperature 26 ( 75.840 ) = 75.840 deg. F '

temperature 27 ( 75.000 ) = 75.000 deg. F i temperature 28 ( 74.800 ) = 74.800 c;eg. F temperature 29 ( 74.280 ) = 74.280 deg. F temperature 30 ( 74.110 ) = -74.110 deg. F '

r dewpoint 1 ( 65.380 ) = 65.380 deg. F , 0.3095 psia i dewpoint 2 ( 65.890 ) = 65.890 deg. F , 0.3151 psia {

dewpoint 3 ( 65.840 ) = 65.840 deg. F , 0.3145 psia l dewpoint 4 ( 66.250 ) = 66.250 deg. F , 0.3190 psia  ;

dewpoint 5 ( 66.050 ) = 66.050 deg. F ,-0.3168 psia j dewpoint 6 ( 65.790 ) = 65.790 deg. F, 0.3140 psia '

pressure 1 ( 59.9078 ) = 59.9078 psia j pressure 2 ( 59.9033 ) = 59.9033-psia i t

weighted averages, volume and air mass  !

4  !

temperature = 75.95019 deg. F '

pressure = 59.90780 psia vapor pressure = 0.31484 psia  !

volume = 2750000 cu. f t ..

dry air mass = 825845.43~lbm i

'l l

1993 VEGP Unit 1 Type A Test )

data set 17 j i

date = 319 O time = 1400 sensor raw data value {

temperature 1( 75.960 ) = 75.960 deg. F ,

temperature 2 ( 75.690 ) = 75.690 deg. F temperature 3 ( 75.530 ) = 75.530 deg. F temperature 4 ( 76.000 ) = 76.000 deg. F .

temperature 5 ( 76.110 ) = 76.110 deg. F .l temperature 6 ( 75.980 ) = 75.980 deg. F  !

75.740 deg. F l temperature 7 ( 75.740 ) =

temperature 8 ( 76.110 ) = 76.110 deg. F --

I temperature 9 ( 76.020 ) = 76.020 deg. F i

temperature 10 ( 76.430 ) = 76.430 deg. F temperature 11 ( 76.190 ) = 76.190 deg. F l 76.130 deg. F  :

temperature 12 ( 76.130 ) =

l temperature 13 ( 76.030 ) = 76.030 deg. F temperature 14 ( 75.530 ) = 75.530 deg. F l temperature 15 ( 76.310 ) = 76.310 deg. F temperature 16 ( 76.410 ) = 76.410 deg. F l temperature 17 ( 76.240 ) = 76.240 deg. F l temperature 18 ( 76.430 ) = 76.430 deg. F l temperature 19 ( 76.250 ) = 76.250 deg. F temperature 20 ( 76.630 ) = 76.630 deg. F '

temperature 21 ( 76.260 ) = 76.260 deg. F temperature 22 ( 75.880 ) = 75.880 deg. F  ;

75.940 deg. F j 75.940 )

=

temperature 23 (

temperature 24 ( 76.380 ) = 76.380 deg. F i temperature 25 ( 76.450 ) = 76.450 deg. F temperature 26 ( 75.790 ) = 75.790 deg. F l temperature 27 ( 74.980 ) = 74.980 deg. F'  !

temperature 28 ( 74.800 ) = 74.800 deg. F temperature 29 ( 74.280 ) = 74.280 deg. F temperature 30 ( 74.330 ) = 74.130 deg. F ,

i dewpoint 1 ( 65.320 ) = 65.320 deg. F , 0.3089 psia 65.960 deg. F 0.3158 psia -j dewpoint 2 ( 65.960 ) = ,

o dewpoint 3 ( 65.860 ) = 65.860 deg. F, 0.3147 psia dewpoint 4 ( 66.190 ) = 66.190 deg. F, 0.3184-psia i 66.000 deg. F , 0.3163 psia dewpoint 5 ( 66.000 ) =

dewpoint 6 65.800 ) = 65.800 deg. F, 0.3141 psia

(

pressure 1 ( 59.9020 ) = 59.9020 psia ,

pressure 2 ( 59.8977 ) = 59.8977 psia l weighted averages, volume and air mass .,

I temperature = 75.90060 deg. F {

= 59.90200 psia  :

pressure vapor pressure = 0.31476 psia volume = 2750000 cu. ft.

dry air mass = 825842.57 lbm  ;

() -

i

.+ , +e-. - - ~ _ _ _ _ . _ _ . . _ _ < _ _ _ . _ . _ _ . _ _ _ _ . _ _ _ _ _ _ - _.

i 1993 VEGP Unit 1 Type A Test data set 18 l

( time = 1415 date = 319 sensor raw data value  !

t temperature 1 ( 75.890 ) = 75.890 deg. F temperature 2( 75.670 ) =

75.670 deg. F temperature 3 ( 75.490 ) =

75.490 deg. F >

temperature 4 ( 75.940 ) = 75.940 deg. F -

temperature 5 ( 76.080 ) =

76.080 deg. F  :

temperature 6 ( 75.950 ) = 75.950 deg. F temperature 7 ( 75.670 ) =

75.670 deg. F ,

temperature 8 ( 76.040 ) =

76.040 deg. F temperature 9( 75.970 ) = 75.970 deg. F 7

temperature 10 ( 76.390 ) = 76.390 deg. F temperature 11 ( 76.150 ) =

76.150 deg. F temperature 12 ( 76.090 ) = 76.090 deg. F temperature 13 ( 75.960 ) = 75.960 deg. F [

temperature 14 ( 75.480 ) = 75.480 deg. F _i temperature 15 ( 76.310 ) = 76.310 deg. F temperature 16 ( 76.360 ) =

76.360 deg. F temperature 17 ( 76.260 ) =

76.260 deg. F  ;

temperature 18 ( 76.350 ) =

76.350 deg. F '

temperature 19 ( 76.230 ) = 76.230 deg. F j temperature 20 ( 76.610 ) = 76.610 deg. F  ;

temperature 21 ( 76.220 ) =

76.220 deg. F O temperature temperature temperature 22 23 24

(

(

( 75.840 )

75.890 )

76.340 )

=

=

=

75.840 75.890 76.340 deg.

deg.

deg.

F F

F -;

temperature 25 ( 76.410 ) =

76.410 deg. F i temperature 26 ( 75.790 ) = 75.790 deg. F [

temperature 27 ( 74.970 ) = 74.970 deg. F temperature 28 ( 74.780 ) = 74.780 deg. F  ;

temperature 29 ( 74.280 ) = 74.280 deg. F temperature 30 ( 74.160 ) = 74.160 deg. F dewpoint 1 ( 65.630 ) = 65.630 deg. F, 0.3122 psia  !

dewpoint 2 ( 65.820 ) = 65.820 deg. F , 0.3143 psia l dewpoint 3 ( 65.760 ) = 65.760 deg. F, 0.3136 psia 1 dewpoint 4 ( 66.240 ) = 66.240 deg. F, 0.3189 psia  !

dewpoint 5 ( 65.980 ) = 65.980 deg. F , 0.3160 psia  ;

dewpoint 6 ( 65.780 ) = 65.780 deg. F , 0.3139 psia- l i

pressure 1 ( 59.8964 ) = 59.8964 psia '

pressure 2 ( 59.8921 ) = 59.8921 psia-

. weighted averages, volume and air mass temperature = 75.86562 deg. F '

pressure = 59.89640 psia j vapor pressure = 0.31481 psia i volume = 2750000 cu. ft.

O dry air mass =

825818.30 lbm l l

1993 VEGP Unit 1 Type A Test data set 19

( time = 1430 date = 319 sensor raw data value temperature 1 ( 75.860 ) = 75.860 deg. F temperature 2 ( 75.580 ) = 75.580 deg. F  :

temperature 3 ( 75.440 ) = 75.440 deg. F temperature 4 ( 75.910 ) = 75.910 deg. F temperature 5 ( 76.030 ) = 76.030 deg. F temperature 6 ( 75.900 ) = 75.900 deg. F temperature 7 ( 75.600 ) = 75.600 deg. F temperature 8 ( 76.000 ) = 76.000 deg. F temperature 9 ( 75.920 ) = 75.920 deg. F temperature 10 ( 76.360 ) = 76.360 deg. F temperature 11 ( 76.110 ) = 76.110 deg. F temperature 12 ( 76.020 ) = 76.020 deg. F temperature 13 ( 75.910 ) = 75.910 deg. F '

temperature 14 ( 75.450 ) = 75.450 deg. F temperature 15 ( 76.240 ) = 76.240 deg. F temperature 16 ( 76.320 ) = 76.320 deg. F temperature 17 ( 76.220 ) = 76.220 deg. F temperature 18 ( 76.460 ) = 76.460 deg. F temperature 19 ( 76.130 ) = 76.130 deg. F temperature 20 ( 76.550 ) = 76.550 deg. F temperature 21 ( 76.180 ) = 76.180 deg. F t

temperature 22 ( 75.790 ) = 75.790 deg. F temperature 23 ( 75.850 ) = 75.850 deg. F temperature 24 ( 76.270 ) = 76.270 deg. F temperature 25 ( 76.370 ) = 76.370 deg. F temperature 26 ( 75.730 ) = 75.730 deg. F temperature 27 ( 74.940 ) = 74.940 deg. F temperature 28 ( 74.770 ) = 74.770 deg. F temperature 29 ( 74.280 ) = 74.280 deg. F temperature 30 ( 74.170 ) = 74.170 deg. F s dewpoint 1 ( 65.320 ) = 65.320 deg. F , 0.3089 psia dewpoint 2 ( 65.880 ) = 65.880 deg. F, 0.3149 psia dewpoint 3 ( 65.920 ) = 65.920 deg. F , 0.3154 psia dewpoint 4 ( 66.320 ) = 66.320 deg. F, 0.3198 psia dewpoint 5 ( 65.990 ) = 65.990 deg. F, 0.3162 psia dewpoint 6 ( 65.790 ) = 65.790 deg. F, 0.3140 psia pressure 1 ( 59.8912 ) = 59.8912 psia pressure 2 ( 59.8870 ) = 59.8870 psia l

weighted averages, volume and air mass temperature = 75.82573 deg. F pressure = 59.89120 psia vapor pressure = 0.31495 psia volume = 2750000 cu. ft.

dry air mass = 825805.81 lbm  !

1993 VEGP Unit 1 Type A Test data set 20 time = 1445 date = 319 sensor raw data value temperature 1 ( 75.800 ) = 75.800 deg. F temperature 2 ( 75.560 ) = 75.560 deg. F temperature 3 ( 75.370 ) = 75.370 deg. F temperature 4 ( 75.870 ) = 75.870 deg. F temperature 5 ( 75.960 ) = 75.960 deg. F temperature 6 ( 75.860 ) =

75.860 deg. F temperature 7 ( 75.520 ) = 75.520 deg. F temperature 8 ( 75.950 ) = 75.950 deg. F temperature 9 ( 75.880 ) =

75.880 deg. F temperature 10 ( 76.260 ) = 76.260 deg. F temperature 11 ( 76.050 ) = 76.050 deg. F temperature 12 ( 75.940 ) = 75.940 deg. F temperature 13 ( 75.850 ) = 75.850 deg. F temperature 14 ( 75.380 ) = 75.380 deg. F temperature 15 ( 76.160 ) = 76.160 deg. F temperature 16 ( 76.280 ) = 76.280 deg. F temperature 17 ( 76.150 ) =

76.150 deg. F temperature 18 ( 76.300 ) = 76.300 deg. F temperature 19 ( 76.130 ) = 76.130 deg. F temperature 20 ( 76.510 ) = 76.510 deg. F fN temperature 21 ( 76.130 ) = 76.130 deg. F

() temperature temperature 22 23

(

(

75.790 )

75.820 )

=

=

75.790 75.820 deg.

deg.

F F

temperature 24 ( 76.230 ) = 76.230 deg. F temperature 25 ( 76.330 ) = 76.330 deg. F temperature 26 ( 75.690 ) =

75.690 deg. F temperature 27 ( 74.910 ) = 74.910 deg. F temperature 28 ( 74.750 ) = 74.750 deg. F temperature 29 ( 74.270 ) = 74.270 deg. F temperature 30 ( 74.190 ) = 74.190 deg. F dewpoint 1 ( 65.360 ) = 65.360 deg. F , 0.3093 psia dewpoint 2 ( 65.860 ) =

65.860 deg. F, 0.3147 psia dewpoint 3 ( 65.770 ) = 65.770 deg. F , 0.3137 psia dewpoint 4 ( 66.270 ) = 66.270 deg. F, 0.3192 psia dewpoint 5 ( 66.040 ) = 66.040 deg. F , 0.3167 psia dewpoint 6 ( 65.770 ) = 65.770 deg. F , 0.3137 psia pressure 1 ( 59.8859 ) = 59.8859 psia pressure 2 ( 59.8817 ) = 59.8817 psia weighted averages, volume and air mass temperature = 75.77509 deg. F pressure = 59.88590 psia vapor pressure = 0.31459 psia

(

7 s\ volume = 2750000 cu. ft.

\- dry air mass = 825815.39 lbm

1993 VEGP Unit 1 Type A Test data set 21 (O

,j/ time = 1500 date = 319 sensor raw data value temperature 1 ( 75.750 ) = 75.750 deg. F temperature 2 ( 75.490 ) = 75.490 deg. F temperature 3 ( 75.330 ) = 75.330 deg. F temperature 4 ( 75.810 ) = 75.810 deg. F temperature 5 ( 75.920 ) = 75.920 deg. F temperature 6 ( 75.800 ) = 75.800 deg. F temperature 7 ( 75.480 ) = 75.480 deg. F temperature 8 ( 75.880 ) =

75.880 deg. F temperature 9 ( 75.820 ) = 75.820 deg. F temperature 10 ( 76.260 ) = 76.260 deg. F temperature 11 ( 76.000 ) = 76.000 deg. F temperature 12 ( 75.920 ) = 75.920 deg. F temperature 13 ( 75.810 ) = 75.810 deg. F temperature 14 ( 75.340 ) = 75.340 deg. F temperature 15 ( 76.150 ) = 76.150 deg. F temperature 16 ( 76.230 ) = 76.230 deg. F temperature 17 ( 76.130 ) =

76.130 deg. F temperature 18 ( 76.370 ) = 76.370 deg. F temperature 19 ( 76.080 ) = 76.080 deg. F temperature 20 ( 76.480 ) = 76.480 deg. F temperature 21 ( 76.100 ) = 76.100 deg. F O temperature temperature 22 23

(

(

75.680 ).

75.780 )

=

=

75.680 75.780 deg.

deg.

F F

temperature 24 ( 76.210 ) = 76.210 deg. F temperature 25 ( 76.310 ) = 76.310 deg. F temperature 26 ( 75.680 ) = 75.680 deg. F temperature 27 ( 74.920 ) = 74.920 deg. F temperature 28 ( 74.740 ) = 74.740 deg. F temperature 29 ( 74.260 ) = 74.260 deg. F temperature 30 ( 74.220 ) = 74.220 deg. F dewpoint 1 ( 65.430 )  := 65.430 deg. F, 0.3101. psia dewpoint 2 ( 65.970 ) = 65.970 deg. F, 0.3159 psia 65.730 )

~

dewpoint 3 (- = 65.730 deg. F , 0.3133 psia dewpoint 4 ( 66.170 ) = 66.170 deg. F, 0.3181 psia dewpoint- 5 ( 65.980 ) = _65.980 deg. F , 0.3160 psia dewpoint 6 ( .65'.770 ) = 65.770 deg. F, 0.3137 psia pressure' 1 ( 59.8808 )- = 59.88J8 psia-pressure 2 ( 59.8766 )- = .59.8766 psia weighted averages, volume and air mass temperature = 75.74340 deg. F pressure =- 59.88080 psia vapor pressure = 0.31457 psia

(~' volume = 2750000 cu. ft.

( dry air mass = 825793.77-lbm

1993 VEGP Unit 1 Type A Test data set 22 '

() time = 1515 date = 319  ;

sensor raw data value i temperature 1 ( 75.720 ) = 75.720 deg. F temperature 2 ( 75.470 ) = 75.470 deg. F temperature 3 ( 75.270 ) = 75.270 deg. F temperature 4 ( 75.730 ) = 75.730 deg. F '

temperature 5 ( 75.850 ) = 75.850 deg. F 75.740 )

temperature 6 ( = 75.740 deg. F ,

temperature 7 ( 75.420 ) = 75.420 deg. F temperature 8 ( 75.810 ) = 75.810 deg. F temperature 9 ( 75.740 ) =

75.740 deg. F temperature 10 ( 76.220 ) = 76.22- deg. F .;

temperature 11 ( 75.940 ) = 75.940 deg. F temperature 12 ( 75.890 ) = 75.890 deg. F .

temperature 13 ( 75.780 ) = 75.780 deg. F I temperature 14 ( 75.270 ) = 75.270 deg. F temperature 15 ( 76.090 ) = 76.090 deg. F  ;

temperature 16 ( 76.180 ) = 76.180 deg. F temperature 17 ( 76.020 ) = 76.020 deg. F ,

temperature 18 ( 76.300 ) = 76.300 deg. F  !

temperature 19 ( 76.060 ) = 76.060 deg. F -j temperature 20 ( 76.460 ) = 76.460 deg. F temperature 21 ( 76.070 ) = 76.070 deg. F O temperature temperature temperature 22 23 24

(

(

(

75.620 )

75.730 )

76.150 )

=

=

=

75.620 75.730 76.150 deg.

deg.

deg.

F F

F temperature 25 ( 76.290 ) = 76.290 deg. F .

temperature 26 ( 75.660 ) = 75.660 deg. F l temperature 27 ( 74.890 ) = 74.890 deg. F  :

temperature 28 ( 74.730 ) = 74.730 deg. F e temperature 29 ( 74.250 ) = 74.250 deg. F temperature 30 ( 74.220 ) = 74.220 deg. F dewpoint 1 ( 65.310 ) = 65.310 deg. F , 0.3088 psia '

dewpoint 2 ( 66.030 ) = 66.030_deg. F , 0.3166 psia dewpoint 3 (- 65.670 ) = 65.670 deg. F , 0.3127 psia ,

dewpoint 4 ( 66.210 ) = 66.210 deg. F, 0.3186 psia  ;

dewpoint 5 ( 65.940 ) = 65.940 deg. F , 0.3156 psia  ;

dewpoint 6 (- 65.780 ) = 65.780 deg. F , 0.3139 psia j i

pressure 59.8758 )

1 ( = 59.8758 psia i pressure 2 ( 59.8715 ) = 59.8715 psia weighted averages, volume and air mass i

temperature' = 75.69550 deg. F  ;

pressure = 59.87580 psia vapor pressure = 0.31442 psia i volume =

2750000 cu. ft. -

(, dry air mass = 825800.46 lbm ,

7

t 1993 VEGP Unit 1 Type A Test data set 23

-s .

( ,f time = 1530 date = 319 sensor raw data value I i

temperature 1( 75.650 ) =

75.650 deg. F ,

temperature 2 ( 75.420 ) = 75.420 deg. F .

temperature 3 ( 75.250 ) = 75.250 deg. F f temperature 4 ( 75.700 ) =

75.700 deg. F a temperature 5 ( 75.830 ) = 75.830 deg. F '

temperature 6 ( 75.700 ) = 75.700 deg. F temperature 7 ( 75.380 ) = 75.380 deg. F -!

temperature 8 ( 75.780 ) = 75.780 deg. F temperature 9 ( 75.720 ) =

75.720 deg. F temperature 10 ( 76.150 ) =

76.150 deg. F ,

temperature 11 ( 75.910 ) = 75.910 deg. F temperature 12 ( 75.810 ) = 75.810 deg. F temperature 13 ( 75.730 ) = 75.730 deg. F temperature 14 ( 75.240 ) = 75.240 deg. F temperature 15 ( 76.060 ) = 76.060 deg. F  :

temperature 16 ( 76.120 ) = 76.120-deg. F '

temperature 17 ( 75.950 ) =

75.950 deg. F .

temperature 18 ( 76.280 ) = 76.280 deg. F temperature 19 ( 76.010 ) =

76.010 deg. F l' temperature 20 ( 76.400 ) =

76.400 deg. F temperature 21 ( 76.020 ) = 76.020 deg. F  !

O temperature temperature 22 23

(

(

75.620 )

75.690 )

=

=

75.620 deg.

75.690 deg.

F F i temperature 24 ( 76.110 ) = 76.110 deg. F temperature 25 ( 76.250 ) = 76.250 deg. F temperature 26 ( 75.630 ) = 75.630 deg. F i temperature 27 ( 74.870 ) = 74.870 deg. F  ;

temperature 28 ( 74.720 ) = 74.720 deg. F temperature 29 ( 74.240 ) = 74.240 deg. F ,

temperature 30 ( 74.240 ) = 74.240 deg. F dewpoint 1 ( 65.450 ) = 65.450 deg._F , 0.3103 psia ,

dewpoint 2 ( 65.890 ) =

65.890 deg. F , 0.3151 psia l dewpoint 3 ( 65.730 ) = 65.730 deg. F , 0.3133 psia dewpoint 4 ( 66.190 ) = 66.190 deg. F , 0.3184 psia '

dewpoint 5 ( 66.010 ) = 66.010 deg. F , 0.3164 psia  ;

dewpoint 6 ( 65.700 ) = 65.700 deg. F, 0.3130 psia i pressure 1 ( 59.8708 ) = 59.8708 psia pressure 2 ( 59.8669 ) = 59.8669 psia i

weighted averages, volume and air mass temperature .= 75.65923 deg. F pressure = 59.87080 psia  ;

vapor pressure = 0.31439 psia

~

_Q

(_/

volume dry air mass

=

=

2750000 825787.56 cu. ft.

lbm 6

f I

1993 VEGP Unit 1 Type'A. Test data set 24

() time = 1545 date = 319 sensor raw data value temperature 1 ( 75.610 ) = .75.610 deg. F

-temperature 2'( 75.360 ) = 75.360 deg. F temperature 3 ( 75.200 ) = 75.200 deg. F ,

temperature 4 ( 75.640 ) =

75.640 deg. F ,

temperature 5 ( 75.760 ) =

75.760 deg. F i temperature 6 ( 75.650 ) = 75.650 deg. F [

temperature 7 '( 75.330 ) = 75.330 deg. F temperature 8 ( 75.730 ) =

75.730~deg. F  ;

temperature 9 ( 75.670 ) = 75.670 deg.-F temperature 10 ( 76.110 ) = 76.110 deg. F i temperature 11 ( 75.880 ) = 75.880 deg. F  ;

temperature 12 ( 75.840 ) = 75.840 deg. F  !

temperature 13 ( 75.700 ) = 75.700 deg. F temperature 14 ( 75.190 ) = 75.190 deg. F temperature 15 ( 76.030 ) = 76.030 deg. F temperature 16 ( 76.060 ) = 76.060 deg. F temperature 17 ( 75.860 ) = 75.860 deg. F {

temperature 18 ( 75.990 ) = 75.990 deg. F temperature 19 ( 75.960 ) = 75.960 deg. F ,

temperature 20.( 76.350 ) = 76.350 deg. F temperature 21 ( 75.990 ) = 75.990 deg. F O

temperature 22 ( 75.550 ) = 75.550 deg. F '

23 ( 75.670 )

temperature = 75.670 deg. F i temperature 24 ( 76.080 ) = 76.080 deg. F temperature 25 ( 76.220 ) = 76.220 deg. F temperature 26 ( 75.620 ) = 75.620 deg. F temperature 27 (' 74.850 ) = 74.850 deg. F l temperature 28 ( 74.710 ) = 74.710 deg. F '

temperature 29 ( 74.230 ) = 74.230 deg. F j temperature 30 ( 74.250 ) = 74.250 deg. F dewpoint 1 ( 65.360 ) = 65.360 deg. F, 0.3093 psia [

dewpoint 2 ( 65.930 ) = 65.930 deg. F, 0.3155 psia dewpoint 65.970 )

3 ( = 65.970 deg. F , 0.3159 psia dewpoint 4 ( 66.190 ) = 66.190 deg. F, 0.3184 psia  ;

dewpoint 5 ( 66.030 ) =

66.030 deg. F , 0.3166 psia '

dewpoint 6 ( 65.700 ) = 65.700 deg. F , 0.3130 psia  ;

pressure 1 ( 59.8663 ) = 59.8663 psia i pressure 2 ( 59.8622 ) = 59.8622 psia  ;

weighted averages, volume and air mass temperature = 75.61154 deg. F ,

pressure. = 59.86630 psia  !

vapor pressure = 0.31485 psia  ;

O volume dry air mass

=

=

2750000 825792.33 cu. ft.

lbm

?

1993 VEGP Unit 1 Type A Test data set 25 time = 1600 date = 319 sensor raw data value temperature 1 ( 75.560 ) = 75.560 deg. F temperature 2 ( 75.310 ) =

75.310 deg. F temperature 3 ( 75.160 ) = 75.160 deg. F temperature 4 ( 75.620 ) = 75.620 deg. F temperature 5 ( 75.740 ) = 75.740 deg. F temperature 6 ( 75.600 ) = 75.600 deg. F temperature. 7 ( 75.290 ) = 75.290 deg. F temperature 8 ( 75.700 ) = 75.700 deg. F temperature 9 ( 75.620 ) = 75.620 deg. F temperature 10 ( 76.060 ) = 76.060 deg. F temperature 11 ( 75.830 ) = 75.830 deg. F temperature 12 ( 75.750 ) = 75.750 deg. F temperature 13 ( 75.640 ) = 75.640 deg. F temperature 14 ( 75.140 ) = 75.140 deg. F temperature 15 ( 75.950 ) = 75.950 deg. F temperature 16 ( 76.060 ) = 76.060 deg. F temperature 17 ( 75.830 ) = 75.830 deg. F temperature 18 ( 76.020 ) = 76.020 deg. F temperature 19 ( 75.950 ) = 75.950 deg. F temperature 20 ( 76.310 ) = 76.310 deg. F temperature 21 ( 75.960 ) = 75.960 deg. F O temperature 22 (

temperature 23 (

75.500 )

75.640 )

=

=

75.500 75.640 deg.

deg.

F F

temperature 24 ( 76.030 ) = 76.030 deg. F temperature 25 ( '76.200 ) = 76.200 deg. F temperature 26 ( 75.590 ) = 75.590 deg. F temperature 27 ( 74.830 ) = 74.830 deg. F temperature 28 ( 74.670 ) = 74.670 deg. F temperature 29 ( 74.230 ) = 74.230 deg. F temperature 30 ( 74.250 )- = 74.250 deg. F dewpoint 1 ( 65.630 ) = 65.630 deg. F, 0.3122 psia dewpoint 2 ( 65.890 ) = 65.890 deg. F , 0.3151 psia dewpoint 3 ( 65.710 ) = 65.710 deg. F, 0.3131 psia dewpoint 4 ( 66.070 ) = 66.070 deg. F, 0.3170 psia dewpoint 5 ( 65.920 ) = 65.920 deg. F , 0.3154 psia dewpoint 6 ( 65.670 ) = 65.670 deg. F , 0.3127 psia pressure 1 ( 59.8618 ) = 59.8618 psia pressure 2 ( 59.8579 ) = 59.8579 psia weighted averages, volume and air mass temperature = 75.57638 deg. F pressure = 59.86180 psia vapor pressure = 0.31423 psia

,- volume = 2750000 cu. ft.

dry air mass = 825792.77 lbm

1993'VEGP Unit 1 Type A Test data set 26

()

i time = 1615 date = 319 sensor- raw data value temperature temperature 1 (

2 (

75.550 )

75.260 )

=

=

75.550 75.260 deg.

deg.

F F

l '

temperature 3 ( 75.090 ) = 75.090 deg. F temperature 4( 75.570 ) = 75.570 deg. F temperature 5 ( 75.700 ) =

75.700 deg. F temperature 6 ( 75.560 ) = 75.560 deg. F temperature 7 ( 75.260 ) =

75.260 deg. F temperature 8 ( 75.650 ) = 75.650 deg. F temperature 9 ( 75.590 ) =

75.590 deg. F temperature 10 ( 76.000 ) =

76.000 deg. F temperature 11 ( 75.760 ) =

75.760 deg. F j temperature 12 ( 75.670 ) = 75.670 deg. F i temperature 13 ( 75.600 ) = 75.600 deg. F temperature 14 ( 75.130 ) =

75.130 deg. F temperature 15 ( 75.880 ) =

75.880 deg. F temperature 16 ( 75.990 ) =

75.990 deg. F  :

temperature 17 ( 75.750 ) = 75.750 deg. F temperature 18 ( 76.100 ) =

76.100 deg. F  ;

temperature 19 ( 75.880 ) = 75.880 deg. F (

temperature 20 ( 76.290 ) =

76.290 deg. F temperature 21 ( 75.940 ) =

75.940 deg. F  ;

O temperature temperature temperature 22 23 24

(

(

( 75.500 )

75.600 )

76.030 )

=

=

=

75.500 75.600 76.030 deg.

deg.

deg.

F F

F t

temperature 25 ( 76.170 ) = 76.170 deg. F  !

temperature 26 ( 75.570 ) = 75.570 deg. F  ;

temperature 27 ( 74.800 ) = 74.800 deg. F  ;

temperature 28 ( 74.660 ) = 74.660 deg. F '

temperature 29 ( 74.210 ) = 74.210 deg. F '

temperature 30 ( 74.280 ) = 74.280 deg. F -

i dewpoint 1 ( 65.290 ) = 65.290 deg. F, 0.3086 psia (

dewpoint 2 ( 65.920 ) = 65.920 deg. F, 0.3154 psia  ;

dewpoint 3 ( 65.870 ) = 65.870 deg. F , 0.3148 psia dewpoint 4 ( 66.170 ) = 66.170 deg. F, 0.3181 psia dewpoint 5 ( 65.930 ) = 65.930 deg. F, 0.3155 psia  !

dewpoint 6 ( 65.730 ) = 65.730 deg. F , 0.3133 psia pressure 1 ( 59.8573 ) = 59.8573 psia f pressure 2 ( 59.8532 ) = 59.8532 psia t

weighted averages, volume and air mass temperature = 75.54128 deg. F pressure = 59.85730 psia l' vapor pressure = 0.31439 psia volume = 2750000 cu. ft.

O dry air mass = 825782.26 lbm V

t 1993 VEGP Unit =1 Type A Test '!

data set 27 k

() time = 1630 date =- 319 sensor raw data value I temperature 1 ( 75.500 ) = 75.500 deg. F i temperature 2 ( 75.220 ) = 75.220 deg. F i temperature- 3 ( 75.040 ) = 75.040 deg. F i temperature 4 ( 75.510 ) = 75.510 deg. F  ;

temperature 5 ( 75.630 ) = 75.630'deg.-F  !

temperature 6 ( 75.490 ) = 75.490 deg. F  ;

temperature 7 ( 75.210 ) = 75.210 deg. F j temperature 8 ( 75.610 ) = 75.610 deg. F  !

temperature 9 ( 75.520 ) = 75.520 deg. F 'I temperature 10 ( 75.960 ) = 75.960 deg. F  :

temperature 11 ( 75.760 ) = 75.760 deg. F temperature 12 ( 75.700 ) = 75.700 deg. F temperature 13 ( 75.590 ) = 75.590 deg. F j temperature 14 ( 75.050 ) = 75.050 deg. F f temperature 15 ( 75.870 ) = 75.870 deg. F .I temperature 16 ( 75.940 ) = 75.940 deg. F  !

temperature 17 ( 75 770-) = 75.770 deg. F  !

temperature 18 ( 76.070 ) = 76.070 deg. F  :(

temperature 19 ( 75.840 ) = 75.840-deg. F l temperature 20 ( 76.230 ) = 76.230 deg. F l temperature 21 ( 75.890 ) = 75.890 deg. F O temperature 22 (

temperature 23 (

75.430 )

75.550 )

=

=

75.430 deg. F 75.550 deg. F i temperature 24 ( 75.980 ) = 75.980 deg. F '

temperature 25 ( 76.130 ) = 76.130'deg. F  !

temperature 26 ( 75.550 ) = 75.550 deg. F i^

temperature 27 ( 74.780 ) = 74.780 deg. F temperature 28 ( 74.650 ) = 74.650 deg. F temperature 29 ( 74.220 )

74.220 deg. F temperature 30 ( 74.280 ) = 74.280 deg. F l-dewpoint 1 ( 65.380 )

65.380 deg. F, 0.3095 psia i dewpoint 2 ( 66.000 ) = 66.000 deg. F, 0.3163 psia }

dewpoint 3 ( 65.800 ) = 65.800 deg. F , 0.3141 psia  !

dewpoint. 4 ( 66.210 ) =

66.210 deg. F , 0.3186 psia  ;

dewpoint 5 ( 65.960 ) = 65.960 deg. F, 0.3158 psia i dewpoint 6 ( 65.750 ) = 65.750 deg. F, 0.3135 psia  !

pressure 1 ( 59.8533 ) = 59.8533 psia -

pressure 2 ( 59.8491 ) = 59.8491 psia '

weighted averages, volume and air mass .!

temperature = 75.50572 deg. F I pressure = 59.85330 psia ,

vapor pressure = 0.31471 psia O volume dry air mass

=

=

2750000 825777.16 cu. ft.

lbm i i

l i

1993 VEGP Unit 1 Type \ Test. (

i data set 28 1

() time = 1645 date = 319

)

sensor raw data value l

i temperature 1 ( 75.470 )' = 75.470 deg. F  !

temperature 2 ( 75.210 ) = 75.210 deg. F temperature 3 ( 75.030 ) = 75.030 deg. F ,

temperature 4 ( 75.490 ) = 75.490 deg. F 1 temperature 5 ( 75.620 ) = 75.620:deg. F i temperature 6( 75.430 ) = 75.430 deg. F temperature 7 ( 75.200 ) = 75.200 deg. F ,

temperature 8 ( 75.570 ) = 75.570 deg. F  !

temperature 9 ( 75 500 ) = 75.500 deg. F  !

temperature 10 ( 75.910 ) = 75.910 deg. F

  • temperature 11 ( 75.690 ) = 75.690 deg. F l temperature 12 ( 75.620 ) = 75.620 deg. F ,

temperature 13 ( 75.530 ) = 75.530 deg. F l temperature 14 ( 75.040 ) = 75.040 deg. F f temperature 15 ( 75.850 ) = 75.850 deg. F (

temperature 16 ( 75.890 ) = 75.890 deg. F )

temperature 17 ( 75.670 ) = 75.670 deg. F t temperature 18 ( 75.910 ) = 75.910 deg. F '

temperature 19 ( 75.760 ) = 75.760 deg. F  :

temperature 20 ( 76.180 ) = 76.180 deg._F i temperature 21 ( 75.850 ) =

-75.850 deg. F -i O temperature temperature temperature 22 (

23 (

24 (

75.420 )

75.530 )

75.950 )

=

=

=

75.420 deg. F 75.530 deg. F 75.950 deg. F l

i temperature 25 ( 76.120 ) = 76.120 deg. F temperature 26 ( 75.510 ) = 75.510'deg. F i temperature 27 ( 74.760 ) =- 74.760 deg. F i temperature 28 ( 74.640 ) =: 74.640 deg. F  !

temperature 29 ( 74.210 ) = 74.210 deg. F I temperature 30-( 74.290 ) = 74.290 deg. F i dewpoint 1 ( 65.320 ) = 65.320 deg. F, 0.3089 psia j dewpoint 2 { 65.940 ) = 65.940'deg. F, 0.3156 psia- 3 dewpoint 3 ( 65.730 ) = 65.730 deg. F, 0.3133 psia 4 dewpoint 4 ( 66.150 ) = 66.150 deg. F, 0.3179 psia j dewpoint 5 ( 65.900 ) = 65.900 deg. F, 0.3152 psia '

dewpoint 6 ( 65.730 ) = 65.730 deg. F, 0.3133 psia  ;

pressure 1 ( 59.8491 ) = 59.8491 psia i pressure 2 ( 59.8450 ) = 59.8450 psia j l

weighted averages, volume and air mass I temperature = 75.46671 deg. F

. pressure = 59.84910 psia vapor pressure = 0.31411 psia .

volume O 2750000 cu. ft.

= .

-dry air mass = 825787.42 lbm  ;

l.

1

l 1993 VEGP Unit 1 Type A Test .

data set 29 l time = 1700 date =- 319 sensor raw data. value temperature 1 ( 75.400 ) = 75.400 deg. F temperature 2 ( 75.140 ) = 75.140 deg. F ,

temperature 3 ( 74.990 ) = 74.990 deg. F temperature 4 ( 75.440 ) = 75.440 deg. F 4 temperature 5 ( 75.550 ) = 75.550 deg. F  ;

temperature 6 ( 75.430 ) = 75.430 deg. F  ;

, temperature 7 ( 75.120 ) = 75.120 deg. F temperature 8 ( 75.510 ) = 75.510 deg. F i temperature 9 ( 75.450 ) = 75.450 deg. F  !

temperature 10 ( 75.900 ) = 75.900 deg. F ,

temperature 11 ( 75.650 ) = 75.650 deg. F  ;

temperature 12 ( 75.570 ) = 75.570 deg. F  ;

temperature 13 ( 75.460 ) = 75.460 deg. F i temperature 14 ( 74.980 ) = 74.980 deg. F .t temperature 15 ( 75.790 ) = 75.790 deg. F ,

temperature 16 ( 75.890 ) = 75.890 deg. F temperature 17 ( 75.600 ) = 75.600 deg. F temperature 18 ( 75.080 ) = 75.880 deg. F l temperature 19 ( 75.730 ) = 75.730 deg. F '

temperature 20 ( 76.160 ) = 76.160 deg. F temperature 21 ( 75.830 ) = 75.830 deg. F '

temperature 22 ( 75.400 ) = 75.400 deg. F Os temperature 23 ( 75.490 ) = 75.490 deg. F temperature 24 ( 75.930 ) = 75.930 deg. F temperature 25 ( 7 t; . 08 0 ) = 76.080 deg. F temperature 26 ( 75.490 ) = 75.490 deg. F ,

temperature 27 ( '74.740 ) = 74.740 deg. F temperature 28 ( 74.610 ) = 74.610 deg. F ,

temperature 29 ( 74.200 ) = 74.200 deg.- F temperature 30 ( 74.290 ) = 74.290 deg. F ,

dewpoint 1 ( 65.590 ) = 65.590 deg. F , 0.3118' psia dewpoint 2 ( 65.990 ) = 65.990 deg. F, 0.3162 psia i dewpoint 3 ( 65.810 ) = 65.810 deg. F, 0.3142 psia z dewpoint 4 ( 66.160 ) = 66.160 deg. F , 0.3180 psia l' dewpoint 5 ( 65.970 ) = 65.970 deg. F, 0.3159 psia dewpoint 6 ( 65.680 ) = 65.680 deg. F., 0.3128 psia pressure 1 ( 59.8450 ) = 59.8450 psia  ;

pressure 2 ( 59.8408 ) = 59.8408 psia' weighted averages, volume and air mass i

temperature = 75.42810 deg. F 1 pressure = 59.84500 psia .

vapor pressure = 0.31484 psia '

volume = 2750000 cu. ft.

fO dry air mass- = 825780.11 lbm ,

9

P 1993 VEGP Unit 1 Type A Test.  !

data set 30 time = 1715 date = 319 sensor raw data value i i

temperature 1 ( 75.380 ) = 75.380 deg. F i temperature 2 ( 75.110 ) = 75.110 deg. F .!

temperature 3 ( 74.930 ) = 74.930 deg. F i temperature 4 ( 75.420 ) = 75.420 deg. F temperature 5 ( 75.520 ) = 75.520 deg. F ,

temperature 6 ( 75.400 ) = 75.400 deg. F  !

temperature 7 ( 75.090 ) = 75.090 deg. F i temperature 8 ( 75.490 ) = 75.490 deg. F  !

temperature 9 ( 75.410 ) = 75.410 deg. F i temperature 10 ( 75.850 ) = 75.850 deg. F t temperature 11 ( 75.650 ) = 75.650 deg. F i temperature 12 ( 75.510 ) = 75.510 deg. F -l temperature 13 ( 75.470 ) = 75.470 deg. F {

temperature 14 ( 74.970 ) = 74.970 deg. F  !

temperature 15 ( 75.800 ) = 75.800 deg. F temperature 16 ( 75.800 ) = 75.800 deg. F ,

temperature 17 ( 75.630 ) = 75.630 deg. F i temperature 18 (- 75.830 ) = 75.830 deg. F i temperature 19 ( 75.690') = 75.690 deg. F I temperature 20 ( 76.120 ) = 76.120 deg. F temperature 21 ( 75.800 ) = 75.800 deg. F O temperature temperature 22 23

(

(

75.330 )

75.440 )

=

=

75.330 75.440 deg.

deg.

F F l temperature 24 ( 75.910 ) = 75.910 deg. F  :

temperature 25 ( 76.090 ) = 76.090 deg. F i temperature 26 ( 75.450 ) = 75.450 deg. F i temperature 27 ( 74.720 ) = 74.720 deg. F ,

temperature 28 ( 74.590 ; = 74.590 deg. F temperature 29 ( 74.200 ) = 74.200 deg. F temperature 30 ( 74.290 ) = 74.290 deg. F i dewpoint 1 ( 65.490 ) = 65.490 deg. F, 0.3107 psia ,

dewpoint 2 ( 65.970 ) = 65.970 deg. F , 0.3159 psia dewpoint 3 ( 65.720 ) = 65.720 deg. F , 0.3132 psia i dewpoint 4 ( 66.010 ) = 66.010 deg. F , 0.3164 psia  :

dewpoint 5 ( 65.920 ) = 65.920 deg. F, 0.3154 psia }

dewpoint 6 ( 65.720 ) = 65.720 deg. F, 0.3132 psia i pressure 1 ( 59.8410 ) = 59.8410 psia }

pressure 2 ( 59.8369 ) = 59.8369 psia weighted averages, volume and air mass  !

h temperature = 75.40049 deg. F .

pressure = 59.84100 psia  !

vapor pressure = 0.31416 psia f O volume dry air mass

=

=

2750000 825776.57 cu. ft.

lbm i

i

1993 VEGP Unit 1 Type A Test data set 31

() time = 1730 date = 319 '[

sensor raw data value temperature 1 ( 75.330 ) = 75.330 deg. F I temperature 2 ( 75.070 ) = 75.070 deg. F temperature 3 ( 74.900-) = 74.900 deg. F '

temperature 4 ( 75.370 ) = 75.370 deg. F temperature 5 ( 75.490 ) = 75.490 deg. F  ;

temperature 6 ( 75.350 ) = 75.350 deg. F l temperature 7 ( 75.060 ) = 75.060 deg. F temperature 8( 75.460 ) = 75.460 deg. F l' temperature 9( 75.380 ) = 75.380 deg. F temperature 10 ( 75.800 ) = 75.800 deg. F temperature 11 ( 75.620 ) = 75.620 deg. F l temperature 12 ( 75.500 ) = 75.500 deg. F temperature 13 ( 75.380 ) 75.380 deg. F

~

=

temperature 14 ( 74.900 ) = 74.900 deg. F  :

temperature 15 ( 75.680 ) = 75.680 deg. F -'

temperature 16 ( 75.780 ) = 75.780 deg. F .i temperature 17 ( 75.550 ) = 75.550 deg. F temperature 18 ( 75.880 ) = 75.880 deg. F temperature 19 ( 75.650 ) = 75.650 deg..F .l temperature 20 ( 76.080 ) = 76.080 deg. F temperature 21 ( 75.770 ) = 75.770 deg. F .

temperature 22 ( 75.320 ) = 75.320 deg. F

.l temperature 23 ( 75.420 ) = 75.420 deg. F '

temperature 24 ( 75.850 ) = 75.850 deg. F  :

temperature 25 ( 76.070 ) = 76.070 deg. F temperature 26 ( 75.430 ) = 75.430 deg. F  !

temperature 27 ( 74.710 ) = 74.710 deg. F i temperature 28 ( 74.590 ) = 74.590 deg. F )

temperature 29 ( 74.200 ) = 74.200 deg. F temperature 30 ( 74.310 ) = 74.310 deg. F '

dewpoint 1 ( 65.310 ) =- 65.310 deg. F, 0.3088 psia '

dewpoint 2 ( 65.940 ) = 65.940 deg. F, 0.3156 psia  !

dewpoint 3 ( 65.780 ) = 65.780 deg. F , 0.3139 psia  ;

dewpoint 66.160 )

4 ( = 66.160 deg. F , 0.3180 psia dewpoint 5 ( 65.910 ) = 65.910 deg. F , 0.3153 psia ,

dewpoint 6 ( 65.690 ) = 65.690 deg. F, 0.3129 psia j pressure 1 ( 59.8373 ) = 59.8373 psia j pressure 2 ( 59.8331 ) = 59.8331 psia i weighted averages, volume and air mass  !

temperature = 75.36695 deg. F '

pressure = 59.83730 psia ,

vapor pressure = 0.31416 psia l volume = 2750000 cu. ft. I dry air mass = 825777.09 lbm l

i

5 1993'VEGP Unit 1 Type A Test  :!.

i data set 32 I

() time = 1745 date = 319 sensor raw data value f

h temperature 1 ( 75.320 ) = 75.320 deg. F  !

temperature 2 ( 75.050 ) =

75.050 deg. F temperature 3 ( 74.870 ) = 74.870 deg. F j temperature 4 ( 75.330 ) =

75.330 deg. F temperature 5 ( 75.440 ) = 75.440 deg. F ,

temperature 6 ( 75.310 ) = 75.310 deg. F

  • temperature 7 ( 75.010 ) = 75.010'deg. F
  • temperature 8 ( 75.410 ) = 75.410 deg. F i temperature 9 ( 75.320 ) = 75.320 deg. F temperature 10 ( 75.770 ) =

75.770 deg. F >

temperature 11 ( 75.570 ) =

75.570 deg. F -

temperature 12-( 75.490 ) = 75.490 deg. F temperature 13 ( 75.370 ) =

75.370 deg. F-  :

temperature 14-( 74.860 ) =

74.860 deg. F l temperature 15 ( 75.570 ) =

75.570 deg. F temperature 16 ( 75.740 ) =

75.740 deg. F temperature 17 ( 75.500 ) =

75.500 deg. F temperature 18 ( 75.740 ) =

75.740 deg. F temperature 19 ( 75.620 ) = 75.620 deg. F 76.050 )

temperature 20 ( = 76.050 deg. .F ,

temperature 21 ( 75.760 ) =

75.760 deg. F l temperature 22 ( 75.240 ) = 75.240 deg. F '

O- temperature 23 ( 75.380 ) = 75.380 deg. F 1

-temperature 24 ( 75.840 ) =

75.840 deg. F ,

temperature 25 ( 76.030 ) = 76.030 deg. F  ;

temperature 26 ( 75.390 ) = 75.390 deg. F {

temperature 27 ( 74.680 ) =

74.680 deg. F i temperature 28 ( 74.580 ) = 74.580 deg. F i temperature 29 ( 74.190 ) = 74.190 deg. F t temperature 30 ( 74.320 ) = 74.320 deg. F dewpoint 1 ( 65.290 ) = 65.290 deg. F , 0.3086 psia dewpoint 2 ( 65.970 ) = 65.970 deg. F, 0.3159 psia >

dewpoint 3 ( 65.690 ) = 65.690 deg. F , 0.3129 psia '

dewpoint 4 ( 66.080 ) = 66.080 deg. F, 0.3171 psia dewpoint 5 ( 65.900 ) = 65.900 deg. F , 0.3152 psia .

dewpoint 6 ( 65.640 ) = 65.640 deg. F , 0.3123 psia i

pressure 1 ( 59.8335 ) = 59.8335 psia  !

pressure 2 ( 59.8294 ) = 59.8294 psia l weighted averages, volume and air mass temperature 1

= 75.32673 deg. F pressure = 59.83350 psia  ;

vapor pressure = 0.31374 psia l volume = 2750000 cu. ft.

O. dry air mass = 825792.29 lbm i

1993 VEGP Unit 1 Type A Test data set 33 time = 1800 date = 319 1

sensor raw data value temperature 1 ( 75.260 ) = 75.260 deg. F '

temperature 2 ( 75.040 ) = 75.040 deg. F  !

temperature 3 ( 74.840 ) = 74.840 deg. F temperature 4( 75.320 ) = 75.320 deg. F ,

temperature 5 ( 75.400 ) = 75.400 deg. F ,

temperature 6 ( 75.310 ) = 75.310 deg. F temperature 7 ( 75.000 ) = 75.000 deg. F  :

temperature 8 ( 75.420 ) = 75.420 deg. F l temperature 9 ( 75.320 ) = 75.320 deg. F j temperature 10 ( 75.760 ) = 75.760 deg. F temperature 11 ( 75.530 ) = 75.530 deg. F t temperature 12 ( 75.510 ) = 75.510 deg. F temperature 13 ( 75.370 ) = 75.370 deg. F temperature 14 ( 74.860 ) = 74.860 deg. F ,

temperature 15 ( 75.580 ) = 75.580 deg. F '

temperature .16 ( 75.740 ) = 75.740 deg. F temperature 17 ( 75.480 ) = 75.480 deg. F '

temperature 18 ( 75.720 ) = 75.720 deg. F 75.600 )

temperature 19 ( = 75.600 deg. F temperature 20 ( 76.010 ) = 76.010 deg. F temperature 21 ( 75.730 ) = 75.730 deg. F l O temperature temperature temperature 22 23 24 (

(

(

75.240 )

75.350 )

75.810 )

=

=

=

75.240 75.350 75.810 deg.

deg.

deg.

F F

F temperature 25 ( 76.000 ) = 76.000 deg. F .

temperature 26 ( 75.360 ) = ,75.360 deg. F '

temperature 27 ( 74.660 ) = 74.660 deg. F temperature 28 ( 74.550 ) = 74.550 deg. F temperature 29 ( 74.180 ) = 74.180 deg. F temperature 30 ( 74.330 ) = 74.330 deg. F dewpoint 1 ( 65.300 ) = 65.300 deg. F , 0.3087 psia >

dewpoint 2 ( 65.960 ) = 65.960 deg. F , 0.3158 psia dewpoint 3 ( 65.710 ) = 65.710 deg. F , 0.3131 psia dewpoint 4 ( 66.080 ) = 66.080 deg. F , 0.3171 psia dewpoint 5 ( 65.880 ) = 65.880 deg. F , 0.3149 psia '

dewpoint 6 ( 65.700 ) = 65.700 deg. F, 0.3130 psia pressure 1 ( 59.8299 ) = 59.8299 psia pressure 2 ( 59.8261 ) = 59.8261 psia weighted averages, volume and air mass  ;

temperature = 75.31283 deg. F ,

pressure- = 59.82990 psia vapor pressure = 0.31386 psia volume O 2750000 cr. ft.

=

dry air mass = 825762.07 lbm I

I

+

1993 VEGP Unit 1 Type A Test data set- 34

) time = 1815 date = 319 sensor raw data value i

temperature 1( 75.220 ) = 75.220 deg. F }

2 ( 74.980 ) = 74.980 deg. F temperature temperature _ 3 (

74.790 ) = 74.790 deg. F ';

temperature 4 ( 75.250 ) = 75.250 deg. F temperature 5 ( 75.380 ) = 75.380 deg. F  :

temperature 6 ( 75.260 ) = 75.260 deg. F  !

temperature 7 ( 74.970 ) = 74.970 deg. F temperature 8 ( 75.350 ) =

75.350 deg. F  !

temperature 9 ( 75.270 ) = 75.270 deg. F l temperature 10 ( 75.710 ) = 75.710 deg. F i temperature 11 ( 75.480 ) = 75.480 deg. F temperature 12 ( 75.430 ) = 75.430 deg. F temperature 13 ( 75.300-) = 75.300 deg. F temperature 14 ( 74.800 ) = 74.800 deg. F temperature 15 ( 75.530 ) = 75.530 deg. F temperature 16 ( 75.690 ) = 75.690 deg. F temperature 17 ( 75.430 ) = 75.430 deg. F temperature 18 ( -75.830 ) = 75.830 deg. F l temperature 19 ( 75.550 ) = 75.550 deg. F  ;

temperature 20 ( 76.000 ) = 76.000 deg. F temperature 21 ( 75.690 ) = 75.690 deg. F '

temperature 22 ( 75.210 ) = 75.210 deg. F

\~/ temperature 23 ( 75.310 ) = 75.310 deg. F ,

temperature 24 ( 75.780 ) = 75.780 deg. F '

temperature 25 ( 75.960 ) = 75.960 deg. F ,

temperature 26 ( 75.340 ) = 75.340 deg. F .;

temperature 27.( 74.630 ) = 74.630 deg. F-

  • temperature 28 ( 74.540 ) = 74.540 deg. F temperature 29 ( 74.180 ) = 74.180 deg. F temperature 30 ( 74.320 ) = 74.320 deg. F 4 dewpoint 1 ( 65.460 ) = 65.460 deg. F , 0.3104 psia dewpoint 2 ( 65.950 ) = 65.950 deg. F, 0.3157 psia dewpoint 3 ( 65.770 ) = 65.770 deg. F, 0.3137 psia dewpoint 4 ( 66.000 ) = 66.000 deg. F, 0.3163 psia dewpoint 5 ( 65.990 ) = 65.990 deg. F , 0.3162 psia dewpoint 6 ( 65.720 ) = 65.720 deg. F, 0.3132 psia pressure 1 ( 59.8261 ) = 59.8261 psia pressure 2 ( 59.8223 ) = 59.8223 psia weighted averages, volume and air mass temperature = 75.27531 deg. F pressure = 59.82610 psia vapor pressure = 0.31425 psia .

O volume 2750000 cu.Rft.

=

dry air mass = 825761.87 lbm P

9

h 1993 VEGP Unit 1 Type-A Test data set 35 .

time = 1830 date = 319 sensor raw data value temperature 75.210 )

1 ( = 75.210 deg. F temperature 2 ( 74.960 ) = 74.960 deg. F temperature 3 ( 74.770 ) = 74.770 deg. F >

temperature 4 ( 75.240 ) = 75.240 deg. F temperature -5 ( 75.350 ) = 75.350 deg. F i temperature 6 ( 75.220 ) = 75.220 deg. F [

temperature 7 ( 74.910 ) = '74.910 deg. F i temperature 8 ( 75.340 ) = 75.340 deg. F l temperature 9 ( 75.230 ) = 75.230 deg. F temperature 10 ( 75.690 ) = 75.690 deg. F

  • temperature 11 ( 75.470 ) = 75.470 deg. F temperature 12 ( 75.390 ) = 75.390 deg. F ,

temperature 13 ( 75.320 ) = 75.320 deg. F  !

temperature 14 ( 74.780 ) = 74.780 deg. F temperature 15 ( 75.540 ) = 75.540 deg. F temperature 16 ( 75.670 ) = 75.670 deg. F i temperature 17 ( 75.400 ) = 75.400 deg. F  !

temperature 18 ( 75.670 ) " 75.670 deg. F ,

temperature 19 ( 75.520 ) = 75.520 deg. F 75.950 )

temperature 20 ( = 75.950 deg. F [

temperature 21 ( 75.660 ) = 75.660 deg. F O temperature temperature 22 (

23 (

75.220 )

75.300 )-

=

=

75.220 75.300 deg.

deg. F F

temperature 24 ( 75.780 ) = 75.780 deg. F  ;

temperature 25 ( 75.950 ) = 75.950 deg. F temperature 26 ( .75.320 ) = 75.320 deg. F '

temperature 27.( 74.630 ) = 74.630 deg. F temperature 28 ( 74.520 ) = 74.520 deg. F

~

temperature 29 ( 74.180 ) = 74.180 deg. F temperature 30 ( 74.330 ) = 74.330 deg. F dewpoint 1 ( 65.610 ) = 65.610 deg. F, 0.3120 psia {

dewpoint 2 ( 66.090 ) = 66.090 deg. F, 0.3172 psia l dewpoint 3 ( 65.760 ) = 65.760 deg. F, 0.3136 psia  ;

dewpoint 4 ( 66.060 ) = 66.060 deg. F, 0.3169 psia dewpoint 5 ( 65.930 ) = 65.930 deg. F, 0.3155 psia dewpoint 6 ( 65.730 ) = 65.730 deg. F , 0.3133 psia ,

pressure 1 ( 59.8226 ) = 59.8226 psia j pressure 2 ( 59.8189 ) = 59.8189 psia  ;

r weighted averages, volume and air mass -i temperature = 75.25217 deg. F '

pressure = 59.82260 psia vapor pressure = 0.31482 psia O volume dry air mass

=

=

2750000 cu. ft, 825741.11 lbm i w , ' ' -

A.-2 a 1--a-, -_L. ,6 ,* 4-a 1993 VEGP Unit 1 Type-A Test-data set 36

() time = 1845 date = 319 sensor raw data value -

i temperature 1 ( 75.180 ) = 75.180 deg. F' temperature 2 ( 74.920 ) =

74.920 deg. F temperature 3 ( 74.750 ) =

74.750 deg. F temperature 4 ( 75.180 ) =

75.180 deg. F '

temperature 5 ( 75.270 ) = 75.270 deg. F ,

temperature 6 ( 75.170 ) =

75.170 deg. F  !

temperature 7 ( 74.860 ) = 74.860 deg. F [

temperature 8 ( 75.280 ) = 75.280 deg. F  !

temperature 9( 75.190 ) = 75.190 deg. F temperature 10 ( 75.660 ) = 75.660 deg. F temperature 11 ( 75.450 ) =

75.450 deg. F temperature 12 ( 75.360 ) = 75.360 deg. F t temperature 13 ( 75.260 ) =

75.260 deg. F '

temperature 14 ( 74.720 ) = 74.720 deg. F  ;

temperature 15 ( 75.490 ) = 75.490 deg. F temperature 16 ( 75.610 ) = 75.610 deg. F  ;

temperature 17 ( 75.360 ) = 75.360 deg. F l temperature 18 ( 75.730 ) <

75.730 deg. F l temperature 19 ( 75.480 ) = 75.480 deg. F temperature 20 ( 75.910 ) = 75.910 deg. F _;

temperature 21 ( 75.650 ) = 75.650 deg. F '

O temperature temperature 22 23

(

(

75.170 )

75.250 )

=

=

75.170 75.250 deg.

deg.

F F

temperature 24 ( 75.700 ) = 75.700 deg. F 4 temperature 25 ( 75.920 ) = 75.920 deg. F '

temperature 26 ( 75.290 ) = 75.290 deg. F i temperature 27 ( 74.620 ) = 74.620 deg. F temperature 28 ( 74.500 ) = 74.500 deg. F ,

temperature 29 ( 74.180 ) = 74.180 deg. F temperature 30 ( 74.330 ) = 74.330 deg. F ,

dewpoint 1 ( 65.370 ) = 65.370 deg. F , 0.3094 psia  ;

dewpoint 2 ( 65.970 ) = 65.970 deg. F, 0.3159 psia i dewpoint 3 ( 65.790 ) =

63.790 deg. F , 0.3140 psia dewpoint 4 ( 66.100 ) = 66.100 deg. F, 0.3174 psia dewpoint 5 ( 65.860 ) = 65.860 deg. F, 0.3147 psia  ;

dewpoint 6 ( 65.700 ) = 65.700 deg. F , 0.3130 psia  ;

pressure 1 ( 59.8192 ) = 59.8192 psia  ;

pressure 2 ( 59.8153 ) = 59-.8153 psia weighted averages, volume and air mass -

temperature = 75.21581 deg. F l pressure = 59.81920 psia  ;

vapor pressure = 0.31417 psia '

volume = 2750000 cu. ft.  ;

O1 dry air mass = 825759.01 lbm i i

I

1993 VEGP Unit 1 Verification data set 1

.74 time = 2000 date = 319 u

sensor raw data value i temperature 1 ( 75.010 ) = 75.010 deg. F temperature 2 ( 74.770 ) = 74.770 deg. F temperature 3 ( 74.590 ) = 74.590 deg. F temperature 4 ( 75.060 ) = 75.060 deg. F ,

temperature 5 ( 75.140 ) = 75.140 deg. F temperature 6 ( 75.020 ) = 75.020 deg. F temperature 7 ( 74.730 ) = 74.730 deg. F temperature 8 ( 75.120 ) = 75.120 deg. F temperature 9 ( 75.030 ) = 75.030 deg. F .

temperature 10 ( 75.480 ) = 75.480 deg. F t temperature 11 ( 75.280 ) = 75.280 deg. F temperature 12 ( 75.220 ) = 75.220 deg. F ,

temperature 13 ( 75.120 ) = 75.120 deg. F  ;

temperature 14 ( 74.560 ) = 74.560 deg. F temperature 15 ( 75.380 ) = 75.380 deg. F '

temperature 16 ( 75.490 ) = 75.490 deg. F temperature 17 ( 75.180 ) = 75.180 deg. F ,

temperature 18 ( 75.360 ) = 75.360 deg. F temperature 19 ( 75.260 ) = 75.260 deg. F temperature 20 ( 75.800 ) = 75.800 deg. F temperature 21 ( 75.520 ) = 75.520 deg. F temperature 22 ( 75.010 ) = 75.010 deg. F i O temperature temperature temperature 23 ( 75.110 )

24 ( 75.590 )

25 ( 75.820 )

=

=

=

75.110 75.590 75.820 deg.

deg.

deg.

F F

F t

temperature 26 ( 75.170 ) = 75.170 deg. F temperature 27 ( 74.510 ) = 74.510 deg. F temperature 28 ( 74.440 ) = 74.440 deg. F temperature 29 ( 74.170 ) = 74.170 deg. F temperature 30 ( 74.320 ) = 74.320 deg. F dewpoint 1 ( 65.450 ) = 65.450 deg. F, 0.3103 psia dewpoint 2 ( 65.740 ) = 65.740 deg. F , 0.3134 psia dewpoint 3 ( 65.770 ) = 65.770 deg. F, 0.3137 psia dewpoint 4 ( 65.940 ) = 65.940 deg. F, 0.3156 psia  ;

dewpoint 5 ( 65.910 ) = 65.910 deg. F, 0.3153 psia '

dewpoint 6 ( 65.640 ) = 65.640 deg. F, 0.3123 psia pressure 1 ( 59.7961 ) = 59.7961 psia pressure 2 ( 59.7922 ) = 59.7922 psia i

weighted averages, volume and air mass temperature = 75.07413 deg. F pressure = 59.79610 psia vapor pressure = 0.31343 psia volume = 2750000 cu. ft.

dry air mass = 825667.55 lbm

1993 VEGP Unit 1 Verification  !

data set 2 t I time = 2015 date = 319 sensor raw data value temperature 1( 74.990 ) = 74.990 deg. F [

temperature 2 ( 74.750 ) = 74.750 deg. F '

temperature 3 ( 74.570 ) = 74.570 deg. F temperature 4 ( 75.040 ) = 75.040 deg. F  ;

temperature 5 ( 75.120 ) =

75.120 deg. F '

temperature 6 ( 74.990 ) = 74.990 deg. F temperature 7 ( 74.690 ) = 74.690 deg. F i temperature 8 ( 75.120 ) = 75.120 deg. F I temperature 9 ( 75.020 ) =

75.020 deg. F temperature 10 ( 75.460 ) = 75.460 deg. F temperature 11 ( 75.220 ) = 75.220 deg. F temperature 12 ( 75.170 ) = 75.170 deg. F j temperature 13 ( 75.080 ) = 75.080 deg. F t temperature 14 ( 74.530 ) = 74.530 deg. F temperature 15 ( 75.330 ) = 75.330 deg. F temperature 16 ( 75.450 ) = 75.450 deg. F temperature 17 ( 75.160 ) = 75.160 deg. F temperature 18 ( 75.390 ) = 75.390 deg. F temperature 19 ( 75.290 ) = 75.290 deg. F temperature 20 ( 75.720 ) = 75.720 deg. F temperature 21 ( 75.520 ) = 75.520 deg. F temperature 22 ( 75.000 ) = 75.000 deg. F N~ temperature 23 ( 75.090 ) = 75.090 deg. F '

temperature 24 { 75.570 ) = 75.570 deg. F temperature 25 ( 75.790 ) = 75.790 deg. F c temperature 26 ( 75.150 ) = 75.150 deg. F  ;

temperature 27 ( 74.490 ) = 74.490 deg. F  :

temperature 28 ( 74.410 ) = '4.410 deg. F-temperature 29 ( 74.140 ) = 74.140 deg. F temperature 30 ( 74.310 ) = 74.310 deg. F dewpoint 1 ( 65.460 ) = 65.460 deg. F, 0.3104 psia dewpoint 2 ( 65.760 ) = 65.760 deg. F, 0.3136 psia dewpoint 3 ( 65.740 ) = 65.740 deg. F, 0.3134 psia dewpoint 4 ( 66.030 ) = 66.030 deg. F, 0.3166 psia dewpoint 5 ( 65.910 ) = 65.910 deg. F, 0.3153 psia dewpoint 6 ( 65.640 ) = 65.640 deg. F, 0.3123 psia pressure 1 ( 59.7915 ) = 59.7915 psia pressure 2 ( 59.7878 ) = 59.7878 psia ,

weighted averages, volume and air mass temperature = 75.05048 deg. F pressure = 59.79150 psia i vapor pressure = 0.31360 psia O volume 2750000 cu. ft,

=

dry air mass = 825637.82 lbm

1993 VEGP Unit i Verification data set 3

() time = 2030 date = 319 sensor raw data value ,

t temperature 1 ( 74.950 ) = 74.950 deg. F [

temperature 2 ( 74.720 ) = 74.720 deg. F l temperature 3 ( 74.520 ) = 74.520 deg. F temperature 4 ( 74.990 ) = 74.990 deg. F  ;

temperature 75.090 )

5 ( = 75.090 deg. F j temperature 6 ( 75.010 ) = 75.010 deg. F l temperature 7 ( 74.700 ) = 74.700 deg. F i temperature 8 ( 75.050 ) = 75.050 deg. F  ;

temperature 9 ( 74.990 ) = 74.990 deg. F j temperature 10 ( 75.410 ) = 75.410'deg. F  ;

temperature 11 ( 75.220 ) = 75.220 deg. F j temperature 12 ( 75.140 ) = 75.140 deg. F l temperature 13 ( 75.030 ) = 75.030 deg. F ,

temperature 14 ( 74.520 ) = 74.520 deg. F  !

temperature 15 ( 75.300 ) = 75.300 deg. F temperature 16 ( 75.420 ) = 75.420 deg. F temperature 17 ( 75.140 ) = 75.140 deg. F -

temperature 18 ( 75.310 ) = 75.310 deg. F [

temperature 19 ( 75.210 ) = 75.210 deg. F 1 temperature 20 ( 75.740 ) = 75.740 deg. F i temperature 21 ( 75.480 ) = 75.480 deg. F O temperature temperature temperature 22 23 24

(

(

(

74.980 )

75.070 )

75.550 )

=

=

=

74.980 deg.

75.070 deg.

75.550 deg.

F F

F i

l i

temperature 25 ( 75.780 ) = 75.780 deg. F  ;

temperature 26 ( 75.150 ) = 75.150 deg. F  ;

temperature 27 ( 74.470 ) = 74.470 deg. F j temperature 28 ( 74.370 ) = 74.370 deg. F j temperature 29 ( 74.140 ) = 74.140 deg. F '

temperature 30 ( 74.310 ) = 74.310'deg. F i dewpoint 1 ( 65.330 ) =

65.330 deg. F , 0.3090 psia :

dewpoint 2 ( 65.900 ) = 65.900 deg. F , 0.3152 psia dewpoint 3 ( 65.660 ) = 65.660 deg. F, 0.3125 psia dewpoint 4 ( 66.170 ) = 66.170 deg. F , 0.3181 psia dewpoint 5 ( 65.820 ) = 65.820 deg. F, 0.3143 psia +

dewpoint 6 ( 65.670 ) = 65.670 deg. F, 0.3127 psia }

pressure 1 ( 59.7871 ) = 59.7871 psia i pressure 2 ( 59.7834 ) = 59.7834 psia weighted averages, volume and air mass temperature = 75.02353 deg. F [

pressure = 59.78710 psia i vapor pressure = 0.31372 psia O volume =

2750000 cu. ft.

dry air mass = 825616.64 lbm I

1993 VEGP Unit i Verification data set 4-time = 2045 date = 319 sensor raw data value temperature 1 ( 74.920 ) = 74.920 deg. F temperature 2 ( 74.700 ) = 74.700 deg. F temperature 3 ( 74.490 ) = 74.490 deg. F -

temperature 4 ( 74.970 ) = 74.970 deg. F temperature 5 ( 75.050 ) = 75.050 deg. F  ;

temperature 6 ( 74.940 ) = 74.940 deg. F '

temperature 7 ( 74.640 ) = 74.640 deg. F temperature 8 ( 75.050 ) = 75.050 deg. F temperature 9 ( 74.930 ) = 74.930 deg. F i temperature 10 ( 75.410 ) = 75.410 deg. F temperature 11 ( 75.180 ) = 75.180 deg. F temperature 12 ( 75.110 ) = 75.110 deg. F temperature 13 ( 75.030 ) = 75.030 deg. F temperature 14 ( 74.470 ) = 74.470 deg. F temperature 15 ( 75.290 ) = 75.290 deg. F temperature 16 ( 75.390 ) = 75.390 deg. F temperature 17 ( 75.110 ) = 75.110 deg. F temperature 18 ( 75.220 ) = 75.220 deg. F temperature 19 ( 75.230 ) = 75.230 deg. F temperature 20 ( 75.700 ) = 75.700 deg. F temperature 21 ( 75.460 ) = 75.460 deg. F O temperature temperature 22 23

(

(

74.970 )

75.040 )

=

=

74.970 75.040 deg.

deg.

F F

temperature 24 ( 75.520 ) = 75.520 deg. F temperature 25 ( 75.760 ) = 75.760 deg. F '

temperature 26 ( 75.100 ) = 75.100 deg. F  ;

temperature 27 ( 74.470 ) = 74.470 deg. F temperature 28 ( 74.360 ) = 74.360 deg. F temperature 29 ( 74.140 ) = 74.140 deg. F temperature 30 ( 74.310 ) = 74.310 deg. F dewpoint 1 ( 65.430 ) = 65.430 deg. F, 0.3101 psia dewpoint 2 ( 65.970 ) = 65.970 deg. F , 0.3159 psia dewpoint 3 ( 65.750 ) = 65.750 deg. F, 0.3135 psia ;

dewpoint 4 ( 66.020 ) = 66.020 deg. F , 0.3165 psia dewpoint 5 ( 65.880 ) = 65.880 deg. F, 0.3149 psia dewpoint 6 ( 65.620 ) = 65.620 deg. F, 0.3121 psia pressure 1 ( 59.7828 ) = 59.7828 psia pressure 2 ( 59.7789 ) = 59.7789 psia weighted averages, volume and air mass temperature = 74.99619 deg. F pressure = 59.78280 psia vapor pressure = 0.31391 psia  !

O volume dry air mass

=

=

2750000 825596.56 cu. ft.

lbn

1993 VEGP Unit i Verification data set 5

) time = 2100 date = 319 sensor raw data value temperature 1( 74.860 ) = 74.860 deg. F -

temperature 2( 74.660 ) = 74.660 deg. F temperature 3 ( 74.460 ) = 74.460 deg. F temperature 4 ( 74.950 ) = 74.950 deg. F temperature 5 ( 75.040 ) = 75.040 deg. F temperature 6 ( 74.910 ) = 74.910 deg. F temperature 7 ( 74.590 ) = 74.590 deg. F-temperature 8 ( 75.010 ) = 75.010 deg. F '

temperature 9 ( 74.900 ) = 74.900 deg. F '

temperature 10 ( 75.380 ) = 75.380 deg. F temperature 11 ( 75.160 ) = 75.160 deg. F temperature 12 ( 75.140 ) = 75.140 deg. F temperature 13 ( 75.000 ) = 75.000 deg. F temperature 14 ( 74.440 ) = 74.440 deg. F temperature 15 ( 75.220 ) = 75.220 deg. F temperature 16 ( 75.370 ) = 75.370 deg. F temperature 17 ( 75.060 ) = 75.060 deg. F temperature 18 ( 75.320 ) = 75.320 deg. F temperature 19 ( 75.180 ) = 75.180 deg. F temperature 20 ( 75.680 ) = 75.680 deg. F ,

temperature 21 ( 75.440 ) = 75.440 deg. F temperature 22 ( 74.950 )

O,' temperature 23 ( 75.020 )

=

=

74.950 75.020 deg.

deg.

F F

temperature 24 ( 75.510 ) = 75.510 deg. F temperature 25 ( 75.740 ) = 75.740 deg. F temperature 26 ( 75.090 ) = 75.090 deg. F temperature 27 ( 74.450 ) = 74.450 deg. F temperature 28 ( 74.360 ) = 74.360 deg. F temperature 29 ( 74.140 ) = 74.140 deg. F i temperature 30 ( 74.310 ) = 74.310 deg. F dewpoint 1 ( 65.410 ) = 65.410 deg. F , 0.3098 psia dewpoint 2 ( 65.720 ) = 65.720 deg. F , 0.3132 psia dewpoint 3 ( 65.710 ) = 65.710 deg. F, 0.3131 psia dewpoint 4 ( 66.010 ) = 66.010 deg. F , 0.3164 psia dewpoint 5 ( 65.870 ) = 65.870 deg. F , 0.3148 psia ;

dewpoint 6 ( 65.640 ) = 65.640 deg. F, 0.3123 psia pressure 1- ( 59.7783 ) = 59.7783 psia pressure 2 ( 59.7743 ) = 59.7743 psia weighted averages, volume and air mass temperature = 74.97576 deg. F ,

pressure = 59.77830 psia l vapor pressure = 0.31328 psia  ;

volume 2750000 cu. ft.

O

=

dry air mass = 825574.37 lbm h

1993 VEGP Unit 1 Verification data set 6

() time = 2115 date =- 319 -

sensor raw data value temperature 1 ( 74.860 ) = 74.860 deg. F temperature 2 ( 74.630 ) = 74.630 deg. F temperature 3 ( 74.460 ) =

74.460 deg. F temperature 4 ( 74.920 ) = 74.920 deg. F temperature 5 (- 75.010 ) =

75.010 deg. F temperature 6 ( 74.900 ) = 74.900 deg. F temperature 7 ( 74.580 ) =

74.580 deg. F

  • temperature 8 ( 75.000 ) =

75.000 deg. F temperature 9 ( 74.910 ) =

74.910 deg. F temperature 10 ( 75.380 ) =

75.380 deg. F temperature 11 ( 75.110 ) = 75.110 deg. F temperature 12 ( 75.090 ) =

75.090 deg. F temperature 13 ( 74.980 ) = 74.980 deg. F t temperature 14 ( 74.430 ) = 74.430 deg. F temperature 15 ( 75.250 ) = 75.250 deg. F temperature 16 ( 75.320 ) = 75.320 deg. F temperature 17 ( 75.060 ) =

75.060 deg. F temperature 18 ( 75.180 ) = 75.180 deg. F temperature 19 ( 75.150 ) = 75.150 deg. F '

temperature 20 ( 75.620 ) = 75.620 deg. F-temperature 21 ( 75.420 ) = 75.420 deg. F O temperature 22 (

temperature 23 (

74.950 )

74.980 )

=

=

74.950 74.980 deg.

deg.

F F

temperature 24 ( 75.480 ) = 75.480 deg. F temperature 25 ( 75.720 ) = 75.720 deg. F temperature 26 ( 75.070 ) = 75.070 deg. F temperature 27 ( 74.440 ) = 74.440 deg. F temperature 28 ( 74.320 ) = 74.320 deg. F temperature 29 ( 74.140 ) = 74.140 deg. F temperature 30 ( 74.310 ) = 74.310 deg. F dewpoint 1 ( 65.310 ) = 65.310 deg. F , 0.3088 psia dewpoint 2 ( 66.040 ) = 66.040 deg. F, 0.3167 psia .

dewpoint 3 ( 65.830 ) = 65.830 deg. F , 0.3144 psia dewpoint 4 ( 65.970 ) =

65.970 deg. F , 0.3159 psia dewpoint 5 ( 65.800 ) = 65.800 deg. F, 0.3141 psia dewpoint 6 ( 65.610 ) = 65.610 deg. F, 0.3120 psia pressure 1 ( 59.7743 ) = 59.7743 psia pressure 2 ( 59.7702 ) = 59.7702 psia weighted averages, volume and air mass temperature = 74.95316 deg. F pressure = 59.77430 psia vapor pressure = 0.31380 psia p)

\s ,

volume dry air mass

=

=

2750000 825546.46 cu. ft.

lbm

f 1993 VEGP Unit 1 Verification ,

data set 7

( -

time = 2130 date = 319 sensor raw data value '

temperature 1 ( 74.850 ) = 74.850 deg. F temperature 2( 74.610 ) = 74.610 deg. F temperature 3 ( 74.430 ) = 74.430 deg. F '

temperature 4 ( 74.880 ) = 74.880 deg. F temperature 5 ( 74.970 ) = 74.970 deg. F temperature 6 ( 74.890 ) =

74.890 deg. F temperature 7 ( 74.580 ) = 74.580 deg. F '

temperature 8 ( 75.000 ) = 75.000 deg. F temperature 9 ( 74.860 ) = 74.860 deg. F temperature 10 ( 75.310 ) = 75.310 deg. F temperature 11 ( 75.120 ) = 75.120 deg. F temperature 12 ( 75.080 ) = 75.080 deg. F temperature 13 ( 74.940 ) = 74.940 deg. F temperature 14 ( 74.410 ) = 74.410 deg. F temperature 15 ( 75.180 ) = 75.180 deg. F temperature 16 ( 75.330 ) = 75.330 deg. F "

temperature 17 ( 75.050 ) = 75.050 deg. F  !

temperature 18 ( 75.400 ) = 75.400 deg. F temperature 19 ( 75.110 ) = 75.110 deg. F >

temperature 20 ( 75.630 ) = 75.630 deg. F temperature 21 ( 75.410 ) = 75.410 deg. F O' temperature temperature 22 23

(

(

74.880 )

74.970 )

=

=

74.880 deg.

74.970 deg.

F F

temperature 24 ( 75.470 ) = 75.470 deg. F temperature 25 ( 75.700 ) = 75.700 deg. F temperature 26 ( 75.040 ) = 75.040 deg. F temperature 27 ( 74.400 ) = 74.400.deg. F temperature 28 ( 74.320 ) = 74.320 deg. F ,

temperature 29 ( 74.130 ) = 74.130 deg. F i temperature 30 ( 74.280 ) = 74.280 deg. F dewpoint 1 ( 65.330 ) = 65.330 deg. F , 0.3090 psia dewpoint 2 ( 65.950 ) =

65.950 deg. F ,-0.3157 psia dewpoint 3 ( 65.850 ) = 65.850 deg. F, 0.3146 psia dewpoint 4 ( 66.030 ) = 66.030 deg. F , 0.3166 psia dewpoint 5 ( 65.830 ) = 65.830 deg. F, 0.3144 psia ,

dewpoint 6 ( 65.570 ). = 65.570 deg. F, 0.3116 psia j pressure 1 ( 59.7699 ) = 59.7699 psia  ;

pressure 2 ( 59.7659 ) = 59.7659 psia i r

weighted averages, volume and air mass  !

temperature = 74.93854 deg. F pressure = 59.76990 psia i vapor pressure = 0.31377 psia O volume dry air mass

=

=

2750000 825508.41 cu. ft.

lbm i

i 1993 VEGP Unit 1 Verification i data set 8

[  !

time = 2145 date = 319 '

sensor raw data value temperature 1 ( 74.820 ) = 74.820 deg. F temperature 2 ( 74.580 ) = 74.580 deg. F ,

temperature 3 ( 74.400 ) = 74.400 deg. F temperature 4( 74.890 ) = 74.890 deg. F  :

temperature 5( 74.930 ) = 74.930 deg. F i temperature 6( 74.870 ) = 74.870 deg. F temperature 7 ( 74.560 ) = 74.560 deg. F temperature 8( 74.960 ) = 74.960 deg. F '

temperature 9 ( 74.860 ) = 74.860 deg. F temperature 10 ( 75.300 ) = 75.300 deg. F  ;

temperature 11 ( 75.090 ) = 75.090 deg. F i temperature 12 ( 75.020 ) = 75.020 deg. F 1 temperature 13 ( 74.950 ) = 74.950 deg. F  ;

temperature 14 ( 74.370 ) = 74.370 deg. F l temperature 15 ( 75.200 ) = 75.200 deg. F '

temperature 16 ( 75.290 ) = 75.290 deg. F ,

temperature 17 ( 75.010 ) = 75.010 deg. F l temperature 18 ( 75.160 ) = 75.160 deg. F l temperature 19 ( 75.130 ) = 75.130 deg. F temperature 20 ( 75.620 ) = 75.620 deg. F temperature 21 ( 75.370 ) = 75.370 deg. F O

temperature 22 ( 74.840 ) = 74.840 deg. F r temperature 23 ( 74.940 ) = 74.940 deg. F ,

temperature 24 ( 75.430 ) = 75.430 deg. F  :

temperature 25 ( 75.680 ) = 75.680 deg. F _l temperature 26 ( 75.020 ) = 75.020 deg. F i temperature 27 ( 74.380 ) = 74.380 deg. F temperature 28 ( 74.310 ) = 74.310 deg. F ,

temperature 29 ( 74.110 ) = 74.110 deg. F temperature 30 ( 74.280 ) = 74.280 deg. F dewpoint 1 ( 65.310 ) = 65.310 deg. F, 0.3088 psia j dewpoint 2 ( 65.710 ) = 65.710 deg. F , 0.3131 psia  ;

dewpoint 3 ( 65.710 ) = 65.710 deg. F , 0.3131 psia '

dewpoint 4 ( 66.070 ) = 66.070 deg. F , 0.3170 psia dewpoint 5 ( 65.900 ) =

65.900 deg. F , 0.3152 psia dewpoint 6 ( 65.590 ) = 65.590 deg. F, 0.3118 psia pressure 1 ( 59.7658 ) = 59.7658 psia pressure 59.7617 )

2 ( = 59.7617 psia weighted averages, volume and air mass temperature = 74.90977 deg. F I pressure = 59.76580 psia vapor pressure = 0.31316 psia O' volume dry air mass

=

=

2750000 825504.39 cu. ft.

lbm l h

t i

1993 VEGP Unit i Verification f

data set 9

() time = 2200 date = 319 sensor raw data value i temperature 1 ( 74.790 ) = 74.790 deg. F l temperature 2 ( 74.570 ) = 74.570 deg. F temperature 3 ( 74.400 ) = 74.400 deg. F temperature 4 ( 74.870 ) = 74.870 deg. F i temperature 5 ( 74.930 ) = 74.930 deg. F l temperature 6 ( 74.810 ) = 74.810 deg. F  !

temperature 7 ( 74.490 ) = 74.490 deg. F l temperature 8 ( 74.920 ) = 74.920 deg. F i temperature 9 ( 74.820 ) = 74.820 deg. F  !

temperature 10 ( 75.280 ) = 75.280 deg. F l temperature 11 ( 75.050 ) = 75.050 deg. F '

temperature 12 ( 75.020 ) = 75.020 deg. F  ;

temperature 13 ( 74.890 ) = 74.890 deg. F  ;

temperature 14 ( 74.350 ) = 74.350 deg. F i temperature 15 ( 75.160 ) = 75.160 deg. F temperature 16 ( 75.280 ) = 75.280 deg. F temperature 17 ( 74.990 ) = 74.990 deg. F temperature 18 ( 75.320 ) = 75.320 deg. F '

temperature 19 ( 75.110 ) = 75.110 deg. F i temperature 20 ( 75.570 ) = 75.570 deg. F '

temperature 21 ( 75.350 ) = 75.350 deg. F j O temperature temperature 22 23

(

(

74.830 )

74.920 )

=

=

74.830 74.920 deg. F deg. F '

temperature 24 ( 75.390 ) = 75.390 deg._F i' temperature 25 ( 75.660 ) = 75.660 deg. F temperature 26 ( 75.000 ) = 75.000 deg. F  !

temperature 27 ( 74.370 ) = 74.370 deg.-F temperature 28 ( 74.290 ) = 74.290 deg. F ,

temperature 29 ( 74.110 ) = 74.110 deg. F temperature 30 ( 74.270 ) = 74.270 deg. F dewpoint 1 ( 65.320 ) = 65.320 deg. F , 0.3089 psia dewpoint 2 ( 65.790 ) = 65.790 deg. F, 0.3140 psia ,

dewpoint 65.690 )

3 ( = 65.690 deg. F, 0.3129 psia dewpoint 4 ( 66.010 ) = 66.010 deg. F , 0.3164 psia dewpoint 5 ( 65.880 ) = 65.880 deg. F, 0.3149 psia dewpoint 6 ( 65.620 ) = 65.620 deg. F, 0.3121 psia pressure 1 ( 59.7618 ) = 59.7618 psia pressure 2 ( 59.7577 ) = 59.7577 psia  ;

weighted averages, volume and air mass ,

temperature = 74.89114 deg. F l pressure = 59.76180 psia vapor pressure = 0.31321 psia O volume 2750000 cu. ft.

=

dry air mass = 825476.86 lbm e

1993 VEGP Unit i Verification  !

data set 10

( time = 2215 date = 319 sensor raw data value

.)

temperature 74.790 )

= 74.790 deg. F 1 (

temperature 2 ( 74.560 ) = 74.560 deg. F temperature 3 ( 74.360 ) = 74.360 deg. F temperature 4 ( 74.810 ) = 74.810 deg. F temperature 5 ( 74.920 ) = 74.920 deg. F temperature 6 ( 74.830 ) = 74.830 deg. F temperature 7 ( 74.510 ) = 74.510 deg. F '

temperature 8 ( 74.880 ) = 74.880 deg. F temperature 9 ( 74.820 ) = 74.820 deg. F ,

temperature 10 ( 75.230 ) = 75.230 deg. F  ;

temperature 11 ( 75.000 ) = 75.000 deg. F temperature 12 ( 74.990 ) = 74.990 deg. F temperature 13 ( 74.880 ) = 74.880 deg. F '

temperature 14 ( 74.350 ) = 74.350 deg. F '

temperature 15 ( 75.120 ) = 75.120 deg. F 'i temperature 16 ( 75.250 ) = 75.250 deg. F temperature 17 ( 74.950 ) = 74.950 deg. F  ;

temperature 18 ( 75.040 ) = 75.040 deg. F temperature 19 ( 75.100 ) = 75.100 deg. F temperature 20 ( 75.570 ) = 75.570 deg. F temperature 21 ( 75.340 ) = 75.340 deg. F f~ temperature 22 ( 74.790 ) = 74.790 deg. F s temperature 23 ( 74.900 ) = 74.900 deg. F '

temperature 24 ( 75.390 ) = 75.390 deg. F temperature 25 ( 75.660 ) = 75.660 deg. F ,

temperature 26 ( 74.970 ) = 74.970 deg. F temperature 27 ( 74.'360 ) = 74.360 deg. F i temperature 28 ( 74.260 ) = 74.260 deg. F temperature 29 ( 74.110 ) = 74.110 deg. F~  !

temperature 30 ( 74.260 ) = 74.260 deg. F dewpoint 1 ( 65.400 ) = 65.400 deg. F, 0.3097 psia  !

dewpoint 2 ( 65.800 ) = 65.800 deg. F , 0.3141 psia i dewpoint 3 ( 65.660 ) = 65.660 deg. F, 0.3125 psia dewpoint 4 ( 66.000 ) =

66.000 deg. F , 0.3163 psia dewpoint. 5 ( 65.810 ) =

65.810 deg. F , 0.3142 psia dewpoint 6 ( 65.610 ) = 65.610 deg. F , 0.3120 psia pressure 1 ( 59.7577 ) = 59.7577 psia  !

pressure 2 ( 59.7537 ) = 59.7537 psia weighted averages, volume and air mass temperature = 74.86240 deg..F pressure = 59.75770 psia i vapor pressure = 0.31317 psia volume = 2750000 cu. ft.

O dry air mass = 825464.91 lbm

1993 VEGP Unit 1 Verification data set 11 I

) time = 2230 date = 319 sensor raw data value ,

temperature 1 ( 74.750 ) = 74.750 deg. F ,

temperature 2 ( 74.530 ) = 74.530 deg. F '

temperature 3 ( 74.340 ) = 74.340 deg. F temperature 4 ( 74.800 ) = 74.800 deg. F temperature 5 ( 74.900 ) = 74.900 deg. F temperature 6 ( 74.800 ) = 74.800 deg. F temperature 7 ( 74.460 ) = 74.460 deg. F  ;

temperature 8 ( 74.860 ) = 74.860 deg. F L temperature 9 ( 74.750 ) = 74.750 deg. F temperature 10 ( 75.230 ) = 75.230 deg. F temperature 11 ( 75.010 ) = 75.010 deg..F ,

temperature 12 ( 74.960 ) = 74.960 deg. F temperature 13 ( 74.860 ) = 74.860 deg. F >

temperature 14 ( 74.310 ) = 74.310 deg. F '

temperature 15 ( 75.090 ) = 75.090 deg. F i temperature 16 ( 75.210 ) = 75.210 deg. F  ;

temperature 17 ( 74.940 ) = 74.940 deg. F temperature 18 ( 75.160 ) = 75.160 deg. F '

temperature 19 ( 75.040 ) = 75.040 deg. F temperature 20 ( 75.520 ) = 75.520 deg. F temperature 21 ( 75.310 ) = 75.310 deg. F O temperature temperature 22 23

(

(

74.780 )

74.870 )

=

=

74.780 74.870 deg. F-deg. F temperature 24 ( 75.380 ) = 75.380 deg. F temperature 25 ( 75.620 ) = 75.620 deg. F temperature 26 ( 74.950 ) = 74.950 deg. F  ;

temperature 27 ( 74.320 ) = 74.320 deg. F temperature 28 ( 74.250 ) = 74.250 deg. F '

temperature 29 ( 74.100 ) = 74.100 deg. F .

temperature 30 ( 74.260 ) = 74.260 deg. F -t dewpoint 1 ( 65.500 ) = 65.500 deg. F, 0.3108 psia dewpoint 2 ( 65.860 ) = 65.860 deg. F, 0.3147 psia dewpoint 3 ( 65.660 ) = 65.660 deg. F, 0.3125 psia dewpoint 4 ( 65.970 ) = 65.970 deg. F, 0.3159 psia dewpoint 5 ( 65.860 ) =

65.860 deg. F , 0.3147 psia i dewpoint 6 ( 65.570 ) = 65.570 deg. F, 0.3116 psia '

pressure 1 ( 59.7537 ) = 59.7537 psia ,

pressure 2 ( 59.7496 ) = 59.7496 psia ,

weighted averages, volume and air mass temperature = 74.84150 deg. F pressure = 59.75370 psia  ;

vapor pressure = 0.31339 psia j

[ volume = 2750000 cu. ft. '

dry air mass = 825438.59-lbm 3

.i I

t y

1993 VEGP Unit'11 Verification-

-data set- 12 j

()

time = 2245 .date = 319 5

sensor raw data value l

temperature 1 (. 74.740 ) = 74.740 deg. F-

]

temperature 2 { 74.500 ) = 74.500 deg. F  :

temperature 3 ( 74.320 -) = 74.320 deg. F. j temperature 4 ( 74.760 ) = 74.760 deg. F  :

temperature 5 ( 74.840 ) = 74.840-deg. F temperature 6 ( 74.770 )

= 74.770 deg. F j temperature- 7 ( 74.420 ) = 74.420 deg. F .i temperature 8 ( 74.820 ) = 74.820 deg. F-l temperature 9 ( 74.760-) = 74.760 deg. F t temperature 10 ( 75.220 ) = 75.220 deg. F {

temperature 11 ( 74.970 )- = 74.970 deg. F j temperature 12 ( 74.920 ) = 74.920 deg. F l

temperature 13 ( 74.860 ) = 74.860 deg. F {

temperature 14 ( 74.280 ) = 74.280 deg. F  :;'

temperature 15 ( 75.090 ) = _ 75.090 deg. F temperature 16'( 75.200~) = 75.200 deg. F  !

temperature 17_( 74.920 ) = 74.920 deg. F. l temperature 18 ( 75.030-) = 75.030 deg. F 4 temperature 19 ( 75.010 ) = 75.010:deg. F 1 temperature 20 ( 75.510-) = 75.510_.deg.

_ F '['

temperature 21L( 75.280-) = .75.280 deg. F~

O temperature 22 (

temperature 123 (

74.800-)

74.850 )

=

=

74.800.deg. F 74.850 deg. F temperature 24 ( 75.330 ) = 75.330-deg. F ,

temperature 25-( 75.610 ) = 75.610 deg. F j temperature ~26 ( 74.950 ) = 174.950 deg. F  !

temperature 27 ( .74.320 ) = 74.320 deg. F  !

temperature 28 ( 74.230 ) = 74.230-deg. F. ,

temperature 29 ( 74.110 ) = E74.110 deg. F  !

temperature 30 ( 74.260 ) = 74.260 deg. F-  ;

I dewpoint 1 ( 65.520 ) = 65.520 deg. F ,.0.3110 psia'  ;

dewpoint 2 _( 65.770 ) = 65.770 deg. F, 0.3137 psia j dewpoint 3 ( 65.690 ) = 65.690_deg. F , 0.3129 psia  ;

dewpoint 4 '( 65.980 ) = 65.980 deg. F-, 0.3160 psia i dewpoint 5_ ( 65.770 ) = 65.770 deg. F , 0.3137 psia j dewpoint 6 ( 65.590 ) = 65.590 deg. F , 0.3118 psia pressure 1 ( 59.7494 ) = 59.7494 psia  !

pressure 2 ( 59.7455 ) = 59.7455 psia  ;!

weighted averages, volume and air. mass temperature = 74.81828 deg.-'F pressure- = 59.74940 psia  ;

vapor pressure = 0.31324 psia  :

volume O,

= 2750000 cu. ft.

dry air mass ~ = 825416.85 lbm l 1

3 t -

1

1993 VEGP Unit i Verification t

data set 13 O

E(_/ time = 2300 date = 319  :

sensor raw data value temperature 1( 74.720 ) = 74.720 deg. F i temperature 2( 74.470 ) = 74.470 deg. F temperature 3( 74.290 ) = 74.290 deg. F temperature 4 ( 74.750 ) = 74.750 deg. F  ;

temperature 5( 74.820 ) = 74.820 deg. F temperature 6( 74.700 ) = 74.700 deg. F temperature 7 ( 74.410 ) = 74.410 deg. F temperature 8 ( 74.830 ) = 74.830 deg. F temperature 9 ( 74.710 ) = 74.710 deg. F temperature 10 ( 75.170 ) = 75.170 deg. F temperature 11 ( 74.960 ) = 74.960 deg. F temperature 12 ( 74.910 ) = 74.910 deg. F temperature 13 ( 74.830 ) = 74.830 deg. F temperature 14 ( 74.260 ) = 74.260 deg. F temperature 15 ( 75.060 ) = 75.060 deg. F temperature 16 ( 75.150 ) = 75.150 deg. F ,

temperature 17 ( 74.880 ) = 74.880 deg. F temperature 18 ( 75.070 ) = 75.070 deg. F temperature 19 ( 75.030 ) = 75.030 deg. F temperature 20 ( 75.450 ) = 75.450 deg.-F temperature 21 ( 75.260 ) = 75.260 deg. F (p).

temperature 22 ( 74.780 ) = 74.780 deg. F i

temperature 23 ( 74.840 ) = 74.840 deg. F temperature 24 ( 75.320 ) = 75.320 deg. F temperature 25 ( 75.580 ) = 75.580 deg. F temperature 26 ( 74.930 ) = 74.930 deg. F temperature 27 ( 74.290 ) = 74.290 deg. F temperature 28 ( 74.220 ) = 74.220 deg. F temperature 29 ( 74.100 ) = 74.100 deg. F temperature 30 ( 74.260 ) = 74.260 deg. F dewpoint 1 ( 65.410 ) = 65.410 deg. F, 0.3098 psia dewpoint 2 ( 65.840 ) = 65.840 deg. F, 0.3145 psia dewpoint 3 ( 65.750 ) = 65.750 deg. F, 0.3135 psia dewpoint 4 ( 66.110 ) = 66.110 deg. F, 0.3175 psia dewpoint 5 ( 65.770 ) = 65.770 deg. F, 0.3137 psia dewpoint 6 ( 65.580 ) = 65.580 deg. F , 0.3117 psia pressure 1 ( 59.7454 ) = 59.7454 psia pressure 2 ( 59.7413 ) = 59.7413 psia weighted averages, volume and air mass temperature = 74.79694 deg. F pressure = 59.74540 psia e vapor pressure = 0.31356 psia i volume = 2750000 cu. f t '.

\-- dry air mass = 825389.72 lbm  !

i

1993 VEGP Unit i Verification data set 14 l time = 2315 date = 319 sensor raw data value temperature 1 ( 74.680 ) = 74.680 deg. F temperature 2 ( 74.450 ) = 74.450 deg. F temperature 3 ( 74.280 ) = 74.280 deg. F temperature 4 ( 74.740 ) = 74.740 deg. F -

temperature 5( 74.820 ) = 74.820 deg. F temperature 6 ( 74.710 ) = 74.710 deg. F temperature 7 ( 74.380 ) = 74.380 deg. F temperature 8 ( 74.800 ) = 74.800 deg. F temperature 9 ( 74.690 ) = 74.690 deg. F temperature 10 ( 75.140 ) = 75.140 deg. F temperature 11 ( 74.930 ) = 74.930 deg. F temperature 12 ( 74.860 ) = 74.860 deg. F temperature 13 ( 74.810 ) = 74.810 deg. F '

temperature 14 ( 74.240 ) = 74.240 deg. F temperature 15 ( 75.040 ) = 75.040 deg. F.

temperature 16 ( 75.130 ) = 75.130 deg. F temperature 17 ( 74.870 ) = 74.870 deg. F temperature 18 ( 74.990 ) = 74.990 deg. F temperature 19 ( 74.990 ) u 74.990 deg. F '

temperature 20 ( 75.440 ) = 75.440 deg. F s temperature 21 ( 75.260 ) = 75.260 deg. F temperature 22 ( 74.740 ) = 74.740 deg. F temperature 23 ( 74.810 ) = 74.810 deg. F temperature 24 ( 75.290 ) = 75.290 deg. F temperature 25 ( 75.570 ) = 75.570 deg. F temperature 26 ( 74.900 ) = 74.900 deg. F temperature 27 ( 74.280 ) = 74.280 deg. F temperature 28 ( 74.210 ) = 74.210 deg. F temperature 29 ( 74.090 ) = 74.090 deg. F '

temperature 30 ( 74.240 ) = 74.240 deg. F dewpoint 1 ( 65.310 ) = 65.310 deg. F , 0.3088 psia dewpoint 2 ( 65.810 ) = 65.810 deg. F , 0.3142 psia dewpoint 3 ( 65.660 ) = 65.660 deg. F, 0.3125 psia -

dewpoint 4 ( 66.040 ) = 66.040 deg. F, 0.3167 psia -

dewpoint 5 ( 65.850 ) = 65.850 deg. F, 0.3146 psia dewpoint 6 ( 65.640 ) = 65.640 deg. F, 0.3123 psia pressure 1 ( 59.7417 ) = 59.7417 psia pressure 2 ( 59.7376 ) = 59.7376 psia weighted averages, volume and air mass temperature = 74.77468 deg. F pressure = 59.74170 psia vapor pressure = 0.31323 psia

/,) volume = 2750000 cu. ft.

k/ dry air mass = 825377.30 lbm I

1993 VEGp Unit 1 Verification data set 15

() time = 2330 date = 319 e

sensor raw data value i

temperature 1 ( 74.670 ) = 74.670 deg. "

i temperature 2( 74.440 ) = 74.440 deg. F temperature 3 ( 74.240 ) = 74.240 deg. F temperature 4 ( 74.720 ) = 74.720 deg. F temperature 5 ( 74.800 ) = 74.800 deg. F j temperature 6 ( 74.690 ) = 74.690 deg. F

~

temperature 7 ( 74.360 ) = 74.360 deg. F temperature 8 ( 74.820 ) = 74.820'deg. F temperature 9 ( 74.680 ) = 74.680 deg. F temperature 10 ( 75.130 ) = 75.130 deg. F '

temperature 11 ( 74.900 ) = 74.900.deg. F  !

temperature 12 ( 74.870 ) = 74.870 deg. F  :

temperature 13 ( 74.780 ) = 74.780 deg. F '

temperature 14 ( 74.230 ) = 74.230 deg. F temperature 15 ( 75.040 ) = 75.040 deg. F temperature 16 ( 75.120 ) = 75.120 deg. F '

temperature 17 ( 74.840 ) = 74.840 deg. F  !

temperature 18 ( 75.130 ) = 75.130 deg. F  !

temperature 19 ( 74.960 ) = 74.960 deg. F temperature 20 ( 75.420 ) = 75.420 deg. F ,

temperature 21 ( 75.240 ) = 75.240 deg. F l O temperature temperature temperature 22 23 24

(

(

(

74.660 )

74.800 )

75.290 )

=

=

=

74.660 deg.

74.800 deg.

75.290 deg.

F F

F  !

temperature 25 ( 75.560 ) = 75.560 deg. F temperature 26 ( 74.890 ) = 74.890 deg. F l temperature 27 ( 74.260 ) = 74.260 deg. F i temperature 28 ( 74.190 ) = 74.190 deg. F  :

temperature 29 ( 74.080 ) = 74.080 deg. F i temperature 30 ( 74.220 ) = 74.220 deg. F r

dewpoint 1 s' 65.430 ) = 65.430 deg. F , 0.3101 psia dewpoint 2 ( 65.850 ) = 65.850 deg. F , 0.3146 psia :

dewpoint 3 ( 65.670 ) = 65.670 deg. F , 0.3127 psia dewpoint 4 ( 66.090 ) = 66.090 deg. F , 0.3172 psia dewpoint 5 ( 65.770 ) = 65.770 deg. F, 0.3137 psia dewpoint 6 ( 65.570 ) = 65.570 deg. F , 0.3116 psia '

pressure 1 ( 59.7379 ) = 59.7379 psia pressure 2 ( 59.7336 ) = 59.7336 psia weighted averages, volume and air mass temperature = 74.76320 deg. F  ;

pressure = 59.73790 psia ~

vapor pressure = 0.31339 psia volume = 2750000 cu. ft, O dry air mass = 825340.03 lbm  ;

f i

1993 VEGP Unit i Verification data set 16

() time = 2345 date = 319 sensor raw data value  ;

temperature 1( 74.660 ) = 74.660 deg. F temperature 2 ( 74.390 ) = 74.390 deg. F temperature 3 ( 74.220 ) = 74.220 deg. F temperature 4 ( 74.670 ) = 74.670 deg. F temperature 5 ( 74.730 ) = 74.730 deg. F temperature 6( 74.680 ) = 74.680 deg. F temperature 7 ( 74.340 ) = 74.340 deg. F +

temperature 8 ( 74.770 ) = 74.770 deg. F  :

temperature 9 ( 74.660 ) = 74.660 deg. F "

temperature 10 ( 75.120 ) = 75.120 deg. F temperature 11 ( 74.880 ) = 74.880 deg. F temperature 12 ( 74.830 ) = 74.830 deg. F .

temperature 13 ( 74.750 ) = 74.750 deg. F temperature 14 ( 74.200 ) = 74.200 deg. F temperature 15 ( 75.000 ) = 75.000 deg. F '

temperature 16 ( 75.100 ) = 75.100 deg. F temperature 17 ( 74.810 ) = 74.810 deg. F temperature 18 ( 74.990 ) = 74.990 deg. F 74.940 )

temperature 19 ( = 74.940 deg. F '

temperature 20 ( 75.430 ) = 75.430 deg. F temperature 21 ( 75.210 ) = 75.210 deg. F f temperature 22 ( 74.670 ) = 74.670 deg. F j temperature 23 ( 74.790 ) >= 74.790 deg. F temperature 24 ( 75.250 ) = 75.250 deg. F temperature 25 ( 75.550 ) = 75.550 deg. F temperature 26 ( 74.860 ) = 74.860 deg. F temperature 27 ( 74.240 ) = 74.240 deg. F temperature 28 ( 74.180 ) = 74.180 deg. F temperature 29 ( 74.070 ) = 74.070 deg. F temperature 30 ( 74.200 ) = 74.200 deg. F ,

dewpoint 1 ( 65.310 ) = 65.310 deg. F , 0.3088 psia dewpoint 2 ( 65.700 ) = 65.700 deg. F , 0.3130 psia dewpoint 3 ( 65.820 ) = 65.820 deg. F, 0.3143 psia '

dewpoint 4 ( 66.000 ) = 66.000 deg. F, 0.3163 psia dewpoint 5 ( 65.770 ) = 65.770 deg. F, 0.3137 psia  ;

dewpoint 6 ( 65.560 ) = 65.560 deg. F, 0.3115 psia i pressure I

1 ( 59.7338 ) = 59.7338 psia pressure 2 ( 59.7296 ) = 59.7296 psia weighted averages, volume and air mass temperature = 74.73446 deg. F l pressure = 59.73380 psia vapor pressure = 0.31301 psia volume =

2750000 cu. ft.

O' dry air mass = 825332.85 lba  ;

1993 VEGP Unit i Verification data set 17 q_j time = 0 date = 320 sensor raw data value temperature 1 ( 74.630 ) = 74.630 deg. F temperature 2 ( 74.410 ) = 74.410 deg. F temperature 3( 74.210 l = 74.210 deg. F temperature 4 ( 74.670 ) = 74.670 deg. F temperature 5 ( 74.750 ) = 74.750 deg. F temperature 6 ( 74.640 ) = 74.640 deg. F temperature 7 ( 74.310 ) = 74.310 deg. F temperature 8 ( 74.740 ) = 74.740 deg. F temperature 9 ( 74.630 ) = 74.630 deg. F temperature 10 ( 75.090 ) = 75.090 deg. F temperature 11 ( 74.860 ) = 74.860 deg. F temperature 12 ( 74.850 ) = 74.850 deg. F temperature 13 ( 74.750 ) = 74.750 deg. F temperature 14 ( 74.190 ) = 74.190 deg. F temperature 15 ( 74.970 ) = 74.970 deg. F temperature 16 ( 75.110 ) = 75.110 deg. F temperature 17 ( 74.810 ) = 74.810 deg. F temperature 18 ( 74.980 ) = 74.980 deg. F temperature 19 ( 74.950 ) = 74.950 deg. F temperature 20 ( 75.370 ) = 75.370 deg. F

-- temperature 21 ( 75.200 ) = 75.200 deg. F g' temperature 22 ( 74.690 ) = 74.690 deg. F temperature 23 ( 74.750 ) = 74.750 deg. F temperature 24 ( 75.240 ) = 75.240 deg. F temperature 25 ( 75.530 ) = 75.530 deg. F temperature 26 ( 74.840 ) = 74.840 deg. F temperature 27 ( 74.230 ) = 74.230 deg. F temperature 28 ( 74.140 ) = 74.140 deg. F temperature 29 ( 74.070 ) = 74.070 deg. F temperature 30 ( 74.200 ) = 74.200 deg. F dewpoint 1 ( 65.290 ) = 65.290 deg. F, 0.3086 psia dewpoint 2 ( 65.840-) = 65.840 deg. F, 0.3145 psia dewpoint 3 ( 65.850 ) = 65.850 deg..F, 0.3146 psia dewpoint 4 ( 66.000 ) = 66.000 deg. F , 0.3163 psia dewpoint 5 ( 65.790 ) = 65.790 deg. F, 0.3140 psia dewpoint 6 ( 65.570 ) = 65.570 deg. F , 0.3116 psia pressure 1 ( 59.7300 ) = 59.7300 psia pressure 2 ( 59.7258 ) = 59.7258 psia weighted averages, volume and air mass temperature =

74.72193 deg. F pressure = 59.73000 psia vapor pressure = 0.31337 psia volume = 2750000 cu. ft.

- C~. dry air mass = 825294.38 lbm

1993 VEGP Unit i Verification data set 18 time = 15 date = 320 i

sensor raw data value temperature 1 ( 74.610 ) = 74.610 deg. F ,

temperature 2 ( 74.360 ) = 74.360 deg. F temperature 3 ( 74.180 ) = 74.180 deg. F temperature. 4 ( 74.650 ) = 74.650 deg. F ',

temperature 5 ( 74.710 ) = 74.710 deg. F I temperature 6 ( 74.640 ) = 74.640 deg. F l temperature 7 ( 74.300 ) = 74.300 deg. F

~

temperature 8 ( 74.760 ) = 74.760 deg. F  ;

temperature 9 ( 74.620 ) = 74.620 deg. F temperature 10 ( 75.050 ) = 75.050 dog. F ,

temperature 11 ( 74.840 ) = 74.840 deg. F

  • temperature 12 ( 74.830 ) = 74.830 deg. F ,

temperature 13 ( 74.710 ) = 74.710 deg. F '

temperature 14 ( 74.180 ) = 74.180 deg. F temperature 15 ( 74.960 ) = 74.960 deg. F '

temperature 16 ( 75.050 ) = 75.050 deg. F temperature 17 ( 74.790 ) = 74.790 deg. F  !

temperature 18 ( 75.010 ) = 75.010 deg. F I temperature 19 ( 74.910 ) = 74.910 deg. F temperature 20 ( 75.380 ) = 75.380 deg. F  ;

temperature 21 ( 75.190 ) = 75.190 deg. F t

( temperature 22 ( 74.630 ) = 74.630 deg. F {

temperature 23 ( 74.730 ) = 74.730 deg. F  !

temperature 24 ( 75.240 ) = 75.240 deg. F temperature 25 ( 75.520 ) = 75.520 deg. F temperature 26 ( 74.830 ) = 74.830 deg. F temperature 27 ( 74.210 ) = 74.210 deg. F temperature 28 ( 74.130 ) = 74.130 deg. F  :

temperature 29 ( 74.060 ) = 74.060 deg. F l

temperature 30 ( 74.190 ) = 74.190 deg. F dewpoint 1 ( 65.250 ) = 65.250 deg. F , 0.3081 psia i dewpoint 2 ( 65.740 ) = 65.740 deg. F, 0.3134 psia dewpoint 3 ( 65.620 ) = 65.620 deg. F , 0.3121 psia dewpoint 4 ( 65.940 ) = 65.940 deg.' F , 0.3156 psia ,

dewpoint 5 ( 65.820 ) = 65.820 deg. F , 0.3143 psia  ;

dewpoint 6 ( 65.560 ) = 65.560 deg. F , 0.3115 psia >

pressure 1 ( 59.7264 ) = 59.7264 psia pressure 2 ( 59.7222 ) = 59.7222 psia l weighted averages, volume and air mass I temperature = 74.70370 deg. F  ;

pressure = 59.72640 psia  !

vapor pressure = 0.31253 psia i volume = 2750000 cu. ft.  !

[\ dry air mass = 825284.24 lbm

  • l

l 1993 VEGP Unit i Verification ,

data set 19 l.

O time = 30 date = 320 i sensor raw data value temperature 1 ( 74.600 ) = 74.600 deg. F temperature 2( 74.360 ) = 74.360 deg. F i temperature 3 ( 74.170 ) = 74.170 deg. F i temperature 4 ( 74.640 ) = 74.640 deg. F  ;

temperature 74.690 )

5 ( = 74.690 deg. F temperature 6 ( 74.620 ) = 74.620 deg. F temperature 7 ( 74.300 ) = 74.300 deg. F temperature 8 ( 74.740 ) = 74.740 deg. F .

temperature 9 ( 74.630 ) = 74.630 deg. F '

temperature 10 ( 75.020 ) = 75.020 deg. F  !

temperature 11 ( 74.840 ) = 74.840 deg. F temperature 12 ( 74.790 ) = 74.790 deg. F '

temperature 13 ( 74.720 ) = 74.720 deg. F temperature 14 ( 74.150 )- = 74.150 deg. F temperature 15 ( 74.950 ) = 74.950 deg. F temperature 16 ( 75.040 ) = 75.040 deg. F i temperature 17 ( 74.790 ) = 74.790 deg. F temperature 18 ( 74.950 ) = 74.950 deg. F temperature 19 ( 74.840 ) = 74.840 deg. F  ;

temperature 20 ( 75.370 ) = 75.370 deg. F '

temperature 21 ( 75.170 ) = 75.170 deg. F O. temperature temperature 22 23

(

(

74.580 )

74.720 )

=

=

74.580 74.720 deg.

deg.

F F

temperature 24 ( 75.210 ) = 75.210 deg. F  ;

temperature 25 ( 75.500 ) = 75.500 deg. F temperature 26 ( 74.800 )- = 74.800 deg. F temperature 27 ( 74.210 ) = 74.210 deg. F ,

temperature 28 ( 74.110 ) = 74.110 deg. F  ;

temperature 29 ( 74.060 ) = 74.060 deg. F  ;

temperature 30 ( 74.170 ) = 74.170 deg. F i

dewpoint 1 ( 65.360 ) = 65.360 deg. F, 0.3093 psia j dewpoint 2 ( 65.820 ) = 65.820 deg. F , 0.3143 psia' '

dewpoint 3 ( 65.630 ) = 65.630 deg. F , 0.3122 psia dewpoint 4 ( 65.950 ) = 65.950 deg. F, 0.3157 psia dewpoint 5 ( 65.830 ) = 65.830 deg. F , 0.3144' psia dewpoint 6 ( 65.560 ) = 65.560 deg. F , 0.3115 psia  ;

pressure 1 ( 59.7227 ) = 59.7227 psia pressure -2 ( 59.7185 ) = 59.7185 psia  !

weighted averages, volume and air mass temperature = 74.68610 deg. F pressure = 59.72270 psia vapor pressure = 0.31292 psia O- volume dry air mass

=

=

2750000 825254.52 cu. ft.

lbm k

_ _ . _ _ . . _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ . _ _