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Primary Reactor Containment Integrated Leakage Rate Test Final Rept
	ML20024H642
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Site:	Calvert Cliffs
Issue date:	01/31/1991
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O Italtimore Gas and Electric Company Calvert Clifs Nuclear Power Plant Unit 2 o

U Final Report i

Primary Reactor Containment Integrated I.eakage Rate Test Bechtel BechtelCorporation g

. lanuary 1991 I

Fb hk > 17 p PDR

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CALVERT CLIFFS NUCLEAR POWER PLANT BALTIMORE GAS AND ELECTRIC COMPANY LUSBY, MARYLAND DOCKET NUMBER 50-318 PERIODIC-

. PRIMARY REACTOR CONTAINMENT BUILDING INTEGRATED LEAKAGE RATE TEST UNIT 2 l

FINAL REPORT LO Bechtel Corporation January 1991 0

TABLE OF CONTENTS

1.0 INTRODUCTION

'l 2.0 TEST SYNOPSIS 2 3.0 TEST DATA-

SUMMARY

4 4.0 -ANALYSIS AND INTERPRETATION 7

5.0 REFERENCES

8 APPENDICES A Bechtel ILRT Computer Program Summary B ILRT. Stabilization Data C ILRT Calculations Mass Point Analysis Total Time Analysis Trend Report Summary Data-ISG Calculation Graphs Air Mass vs Time f) Mass Point Leakage Rate vs Time

'/ Total Time Leakage Rate vs Time -

D Verification Flow Test Mass Point Analysis Total Time Analysis Trend Report Summary Data Graphs Air Mass vs Time Mass-Point Leakage Rate .vs Time Total Time Leakage Rate vs Time E ILRT Graphs Air Mass vs Time i Temperature (average) vs Time Pressure (dry air) vc Time Vapor Pressure (average) vs Time

-Temperature. Sensors 1-18 vs Time Pressure Sensors 1 and 2 vs Time Dewpoint Temperature Sensors 1-6 vs Time L F Test Data G Type B and C Leakage Rate Test Results

() H Failed Local Leakage Rate Test Report l

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O EXECUTIVE

SUMMARY

A Primary Containment Building Integrated Leakage Rate Test (ILRT) was successfully completed at Calvert Cliffs Nuclear Power Plant - Unit 2 on January 16, 1991. The test was performed in accordance with site procedure STP-M-662-2. All acceptance criteria of the procedure were satisfied.

Listed below is the summary of the test results for mass point and total time data analysis. The actual measured leakage rate (Lam) and the 95% upper confidence limit (UCL) in units of weight percent per day are compared to the acceptance criteria.

Mass Poi 2; Test Results Aggeotance Criteria ILRT Lam 0.055 0.150 ILRT UCL 0.061 0.150 Verification Test Lam 0.254 0. 2 04 5 Lam 5 0. 3 04 Total Time Test Results Ag.cgptance Criteria ILRT Lam 0.036 0.150 ILRT UCL 0.118 0.150 Verification Test Lam 0.241 0.185 $ Lam s 0.285 The total correction included in the above tesults for measured local leakage rates of penetrations not in the post LOCA lineup and volume changes during the ILRT was 0.001 %/ day.

A chronological summary of events, summary of plant technical data, ,

and discussion of test resu)is are included in this report.

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1.0 INTRODUCTION

This report presents data, analysis, and conclusions pertaining to the Calvert Cliffs Nuclear Power Plant Unit 2, Integrated Leakage Rate Test (ILRT) performed in January 1991. The Integrated Leakage Rate Test. (Type A Test) is performed periodically to demonstrate that the combined leakage through the reactor containment building and those systems penetrating the containment does not exceed the allowable leakage rate specified in the Plant Technical Specifications.

The successful periodic Type A and supplemental verification tests were according to the requirements of the Calvert Cliffs Nuclear Power Plant (CCNPP) Unit 2 Technical Specifications and 10CFR50, Appendix J. The Calvert Cliffs ILRT is performed by the absolute method described in ANSI N45.4-1972, " Leakage Rate Testing of Containment Structures for Nuclear Reactors" and ANSI /ANS 56.8-1981,

" Containment System Leakage Testing Requirements." The leakage rate was calculated using formulas from the above ANSI Standards and BN-TOP-1, Revision 1, " Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants."

Type A and verification test durations were c.ccording to the criteria of BN-TOP-1.

The 95 percent upper confidence level was calculated for leakage rate data as required by BN-TOP-1. This is to ensure a 95 percent probability that the calculated Icakage rate value is within the acceptance limits. All calculations were done with Bechtel's ILRT computer program described in Appendix A.

The temperature and pressure history and the containment air mass variations are graphed by the computer program and are contained in Appendix E.

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i 2.0 TEST SYNOPSIS

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Valve lineups were conducted on all systems to establish post-accident conditions, except for shutdown cooling, domineralized water, nitrogen supply to the safety injection tanks, and three penetrations necessary to conduct the ILRT. The inspection of the containment accessible interior and exterior surfaces was conducted prior to pressurization. No evidence of structural noterioration was noted which would have affected containment integrity or leak tightness.

Containment pressurization started at 1745 on January 14, 1991.

During pressurization the containment ventilation fans were running.

At 10 psig and periodically thereafter, external penetration areas were checked for leakage. The containment ventilation fans were stopped before pressurization was completed. Test pressure (50.5 psig) was reached at 0642 on January 15. The pressurization line was isolated from containment and vented. The stabilization period started at 0645 on January 15.

The temperature stabilization criteria of References 5 and 6 were first satisfied during the four hour period from 0645 to 1045 on January 15. Temperature stabilization criteria continued to be satisfied for the duration of the test.

The ILRT test period began at 1400 on January 15. Test pressure was O 50.6 psig, Containment pressure and temperature were measured at 15 minute intervals using precision devices. Pressurizer level was measured. The ILRT measurement period was completed at 2300 on January 15, after 9 hours1.041667e-4 days 0.0025 hours 1.488095e-5 weeks 3.4245e-6 months of data had satisfied all leakage rate acceptance criteria.

The verification flow was initiated at 2310 on January 15 by continuously venting 12.38 SCFM of air from the containment through a flow meter, and allowing test conditions to stabilize for ene hour. The new leakage rate calculated using 4.5 hours5.787037e-5 days 0.00139 hours 8.267196e-6 weeks 1.9025e-6 months of data from 0015 to 0445 on January 16, satisfied the verification test acceptance criteria.

The containment was depressurized to atmospheric pressure. Systems were restored as required. A summary of the test phases follows:

Duration Test Phase Time hours Date Pressurization 1745-0645 13.00 January 14-15 Stabilization 0645-1400 7.25 January 15 I LRT 1400-2300 9.00 January 15 Verification Stabilization 2315-0015 1.00 January 15-16 Verification Test 0015-0445 4.50 January 16 2

During the test temperature sensor 4 exhibited large, rapid temperature changes inconsistent with the stable conditions indicated by all other sensors. Therefore sensor 4 was declared failed. Sensor 4 volume fraction was reassigned to the upper containment volume, sensors 1, 2, 3, 5 and 6, all above elevation 115 feet. The reassigned volume fractions, listed in Table 1, were used to calculate the containment during the entire test. Graphs of sensors are in Appendix E.

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3.0 TEST DATA

SUMMARY

A. Plant Information Owner: Daltimore Gas and Electric Company Plant: Calvert Cliffs Nuclear Power Plant Location: Lusby, Maryland Containment Type: Post-tensioned concrete Date Test Completed: January 16, 1991 Docket Number 50-318 B. Technical Data

1. Containment Net Free Air Volume 2,000,000 cu ft

2. Design Pressure 50 psig

3. Design Temperature 276 *F

4. Peak Accident Pressure, Pa 50 psig

5. Containment ILRT Average Teamperature Limits60-120 'F C. Test Results - Type A Test

1. Test Method Absolute

2. Data Analysis Technique Mass Point per ANSI /ANS 56.8-1981, and Total Time per BN-TOP-1

3. Test Pressure 50.0 psig (+1.0, -0.0)

4. Maximum Allowable Leakage Rate, La 0.200 %/ day

5. 75% of La 0.150 %/ day

6. Integrated Leakage Rate Test Results Leakage Rate UCL*

Mass Point Analysis 0.054%/ day 0.060%/ day E

Total Time Analysis 0.035%/ day 0.117%/ day '

UCL =95% Upper Confidence Level 4

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7. Imposed Verification Leakage Rate 0.200%/ day (12.38 SCFM)

) 8. Verification Test Results Leakage Rate Mass Point Analysis 0.254%/ day Total Time Analysis 0.241%/ day

9. Verification Test Limits Lower

Upper

Mass Point Analysis 0.204S/ day 0.304%/ day Total Time Analysis 0.1851/ day 0.285%/ day

Upper Limit = Lo + Lam + 0. 2 5La , Iower Limit = Lo + Lam - 0. 2 5La

10. Report Printouts The report printouts and data plots for the ILRT and verification test calculations are provided in Appendices B-F.

11. Containment Water Level Changes .

O Change Correction 0.000 %/ day Pressurizer Level decreased RCDT Level none 0.000 %/ day Quench Tank Level none 0.000 %/ day Containment Sump none 0.000 JZday Total 0.000 t/ day

12. Penetrations not in post-LOCA Alignment During ILRT Penetration System Leakage Rate 7A ILRT sensor connection 2 SCCM 7B IIRT sensor connection 2 SCCM 50 ILRT pressurization 53 SCCM 20A Nitrogen to S I tanks 354 SCCM 41 Shutdown cooling 239 SCOM 38 Demineralized Water 2 SCCH_

Total 652 SCCM 0.001 %/ day 4

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() E. Test Results - Type B and C LLRT maximum path leakage Outaae Date As Found As left _ _ _hpngptance Crjigr.La_

1987 70,334 SCCM 26,779 SCCM 0. 6 La = 2 07 , 7 00 S CCM 1989 1,007,385 SCCM 28,937 SCCM 0. 6 La = 2 07 ,7 00 SCCM Local leakage rate test results are provided in Appendix G.

The report of LLRT failure is provided in Appendix H.

F. Integrated Leakage Rate Measurement System Instrument Description Data (no. of sensors used during the test)

1. Absolute Mensor Quartz Ra..ge: 0-100 psia Proscure Pressure Gage Accuracy: 0.015% reading (2) Model 10100 Sensitivity: 0.001 psia Repeatability: 0.001 psia Calibration Date: 1-14-91

2. Drybulb 100 ohm Range: 60-120*F Temperature Platinum RTD Accuracy: 0.50 'F (18) Volumetrics Sensitivity: 0.01 'F Part VSTD-347 Repeatability: 0.01 'F

() Calibration Date: 1-14-93

3. Dewpoint EG&G Range: 32-120*F Temperature Model No. 660 Accuracy: 0.54 'F (6) Sen"itivity: 0.10 'F Rep.aatability: 0.01 'F Calibration Date: 1-14-91

4. Flow Meter Thermal Mass Range: 0-20 scfm (1) Accuracy: 1% full scale Sensitivity: 1% full scale Resolution: 0.01 sofm Calibration Date: 1-14-91 Drybulb and dewpoint temperature censor locations and volume fractions are provided in Table 1.

Instrument Selection Guide (ISG) calculated per ANSI /ANS 56.8, Appendix G, for the nine hour test is 0.007 %/ day. The calculation is provided in Appendix C of this report.

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4.0 ANALYSIS AND INTERPRETATION ;

The data rejection criterion from ANSI 56.8, reference 5, was used to identify outliers at the 5% rejection level. No data points were '

rejected.

Tha general guidelines to identify failed sensors are as follows.

Graphs of each individual sensor vs time are displayed during the test and printed later, see Appendix E. The trend of each consor should be similar to the other sensors in the same region of the containment. Deviations of sensor readings not exhibited by other sensors in the same region greater than twico the instrument accuracy may indicato a failed sensor. During the test, sensor 4 was declared failed. I 4.1 ILRT Test corrections During the ILRT, several ponetrations were not in post-LOCA alignment. A correction based on the Local Leakage Rate Test results for these' penetrations, 0.001 porcent por day, is added to the ILRT results. No correction for containment volume changes is needed.

The total leakage rate correction for penetrations not in post-LOCA alignment and containment free air volume changes is 0.001 percent per day, rounded to the nearest 0.001.

O 4.2 " Adjusted" Leakage Rate i

The calculated leakage rates during the ILRT were 0.054 %/ day (mass point) and.0.035 %/ day (total time). The calculated 95% upper confidence levels were 0.060 %/ day (mass point) and 0.117 t/ day (total time). Adding the total leakage rate corrections for penetrations not in post-LOCA alignment and containment water level changes yields the corrected leakage rates as follows:

Leakago Rates, %/ day Mass Point Total Time

. Leakage Rate UCL Leakago Rate- UCL Calculated 0.054 0.060 0.035 0.117 Corrections 0.001 0.001 0.001 0.001 Corrected 0.055- 0.061 0.036 0.118

'Since-the corrected 95% upper confidence levels for both mass point and total time are less than .75La (0.150%/ day), the test results demonstrate the leakage through the primary containment and systems and components penetrating primary containment do not exceed.the allowable leakage rates specified in the Calvert Cliffs Nuclear Power Plant FSAR and-Unit 2 Technical Specifications.

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5.0 REFERENCES

1. Calvert Cliffs Nuclear Power Plant, Technical Specifications.

2. Calvert Cliffs Nuclear Power Plant Procedure STP-M-662-2, Revision 4, Integrated Leakage Rate Test.

3. Code of Federal Regulations, Title 10, Part 50, Appendix J, Primary Reactor Containment Leakage Rate Testing for Water

Cooled Power Reactors.

4. ANSI /ANS 45.4-1972, Leakage Rate Testing of Containment Structuras for Water Cooled Power Reactors.

5. ANSI /ANS 56.8-1981, Containment System Leakage Testing Requirements. I l

6. Bechtel Topical Report DN-TOP-1, Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants, Revision 1, 1972.

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TABLE 1 DRYBULB AND DEWPOINT TEMPERATURE SENSOR LOCATIONS DRYBULB Sensor Elevation Azimuth Distance From Volume Volume No. (ft) (degrees) Center (ft) Fractions Fractions Original Reassigned OTE5500 1- 165 0 0 0.081 0.092

- 0TE5501 2 147 90 33 0.081 0.092-OTE5502 3 149 270 33 0.081 0.092 OTE5503 4* 120 0 45 0.072 0.000 OTE5504 5 115 0 0 0.073 0.092 OTE5505 6 125 90 40 0.072 0.092 OTE5506 7 104 180 30 0.073 0.073 OTE5508 8 75 210 40 0.064 0.064 OTE5511 9 50 270 45 0.021 0.021 OTE5509 10 65 0 0 0.042 0.042 OTE5507 11 75 150 45 0.064 0.064 OTE5510 12 50 90 40 0.022 0.022 OTE5512 13 50 210 50 0.043 0.043 OTE5513 14 50 110 45 0.043 0.043 l

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\ OTE5514 15

. 0TE5517 16 OTE5516 17 30 20 16 210 90 240 45 30 30 0.042 0.042 0.042 0.042 0.042 0.042 OTE5515 18 30 160 45 0.042 0.042 DEWPOINT Sensor Elevation Azimuth Distance From Volume Volume No. (ft) (degrees) Center (ft) Fractions Fractions original. Reassigned 0AE5518 1 119 60 55 0.220 0.220 OAE5520 2 119 250. 55 0.220 0.220 OAE5519 3 140 90 35 0.220 0.220 l

OAE5521 4 69 180 40 0.086 0.086 l_ 0AE5522 5 47 180 30 0.086 0.086 OAE5523 6 16 160 45 0.168 0.168

Failed sensor, not used for leakage rate calculations, i

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- _ N-ahaA44-_-Mpma,-ahm_JM .h.JmAap4._a.- , e %W A haa..g l

l AITDEX A Deditel URP Capater Psspam Sumary l

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APEDGX A j O ----

A. Ptwime ard Report Description

1. Se Bechtel IIRT ocrputer supam is used to determine the integrated leakage rate of a nuclear primry contalment structure. S e program is used to ccrpute leakage rate based cn input values of time, free air volume, containment atmosphere total pressura, drybulb terperature, and dowpoint tacperature (water vapor pressure) .

Leakage rate is ccrputed using the Absolute Method as defined in ANSI /ANS 56.8-1981, " Containment System Isakage Testing Requirements" and Bi 'IOP-1, Rev 1, "Testirg Criteria for Integrated Leakage Rate Testing of Prinary Centainment Structures for Nuclear Power Plants".

l We program is designed to allow the user to evaluate cxxitainment leakage rate test results at the jobsite during containment leakage i

testing.- current leakage rate values may be obtained at any time during the testing pericx1 using one of two ccmputaticnal methcds, yielding three different riport printouts.

2. In the first printout, the 'Ibtal Time Report, leakage rate is I ccmputed frun initial values of free air volume, contaiment I

atmosphere drybulb tenperaturn and partial pressure of dry air, the p

latest values of the same parameters, ard elapsed tine. S ese d individually ccrputed leakage rates are statistically averaged using l linear regression by the method of least squares. S e Total Time l Method is the ccmputational technique upcn which the short duration l test criteria of IN 'IOP-1, Rev 1, " Testing Criteria for Integrated l_ Isakage Rate % sting of Primary Otntairmient Structures for Nuclear Fower Plant," are haamd.

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3. Se secani printout is the Mass Point Report ard is based on the Mass Point Analysis Technique theribed in ANSI /ANS 56.8-1981, "Ocotainment Systen Leakage heting Requirements". Se mass of dry air in the containment is ocmputa$ at each data point (time) using the Equation of State, frun current values of containment atmosphere drybulb tenperature and partial pressure of dry air. Contained Inss is " plotted" versus time and a rtgressicn line is fit to the data using the inetbcd of least squares. Leakage rate is determined- ftun the statistically derived slope and' intercept of the regression line.

4. Se third printout, the Trerd Report, is a summary of leakage rate values based on Total Time ard Mass Point ccmputaticos presented 'as a function of number of data points ard elapsed time (test duration) .

he Trerd Report provides all leakage rate values required for canparison to the acceptance criteria of Rf 'IOP-1 for conduct of a short duration test.

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5. '1he program generates a predictor report Nami en " Suggested Criteria

'O d for a Short Duration IlRI", hi Brown and Ialis Estenssoro, Pr - Witis of the First Wgd; shop on Containment Testin2, Jarmary 18, 1982. 'Ibe " predictor" is an estimate of the upper bourd cn the change in mass point calculated leakage rate which will occur during the next four hours. '1he estimate is Mami on the mass point calculated leakage ratss arx195% UCIm during the previous four hours.

6. 'Ihe pwpam is written in a high level language and is designed for use en a miuv,u.yuter with direct data irput frun the chta acquisition system. Brief hiptions of swtam use, forr:ulae used for leakage rate corputaticns, and program logic are provided in the followiry paragraphs.

B. Explanatim of hcuu--

1. 'Ihe Dechtel IIRT ccr.puter program is written, _ for use by experienced IIRT personnel, to determine ocritainment integrated leakage rates based cm the Absolute Nethod hibed in ANSI /ANS 56.8-1981 and IN 'IOP-1.

2. Informaticn Irwiai irtto the program prior to or at the start of the test:

a. Number of containment atmosphere drybulb temperature sensors, Oi dewpoint temperature (water vapor pressure) sensors and pressure gages to be- used in leakr.ge rate ocrputaticris for the specific test

b. Volume fractions assigned to each of the above sensors

c. Calibration data for above sensors t d. Test title L e. Maxim 2m allowable leakage rate at test pressure

3. Ihta received frcan the data acquisiticn systan durirg the test, and

used to ccxrpute leakage rates

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a. Time and date

b. Ccritainment atmosphere drybulb tecperatures

! c. Containment atmosphere pressure (s) l- d. Containment atmosphere dewpoint teamratures

e. Containment free air volume.

4. After all data at a given timo are receivai, a Summary of Measured Data report (refer to "Ftwtaru logic," Paragraph D, " Data" option ccreard) is printed.

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5. If drybulb and dewpoint tarperature sensors should fail durity the O test, the data frun the sensor (s) are not' used. The volume fractions for the mmaining sensors are %+cted ard rel* into the program for use in ensuirg leakage rate ocmputations.

C. IsaW= Rate Forimilas l

1. Ccmputations Usiig the Tbtal Time Method:

a. Measured leakage rate frun data: 1 l

PV1i=WE1 y (1)

PVii"WMi i (2) 2400 (Wy-W) i J Li (3) att W1 l l Solving for W and Wi ard substituting equations (1) ard (2) 3 into (3) yields:

2400 TPV Li " 1- 1ii} (4) )

ti

( TPVigi) 1 where l W,Wi 1 = Weight of contained mass of dry air at times ti l l and ti , rWdvely, lin, j T,Ti 1 = centairnent a%.Em @alb temperaturn at '

l times t i and t i, respectively, 'R. !

l P,Pi t = Partial pmssure of the dry air ocmponent of the !

l containment at:nosphere at times ti and ti, 1 i

respectively, psia. ;

l V1 , vi = contairnant free air volume at tims ti and t respectivgly (oorntant or variable durity test), ft

)

t,ti i = Time at 1st and ith ddta points respectively, hr.

ati = Elapsed time frun t i to t i, hr. !

l R = Specific gas oorstant for air = 53.35 ft.ibf/1hn. *R.

Q = Measured leakage rate Cot *putrad durity tim .

interval t i to t , iwt.%/ day.

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l Tb rahace tnreation error, the caputer program uses the -

g following equivalent forta 11ation:

-2400 / AWi )

Li=

l l at i (W1) where aW- i Wi-W1 N1 W1 JP AV i A Pi aV i- ATi i+ + -

P 1

V1 PV 1i T1 aTi ,

T1 api =Pi P1 avi=Vi- V: 1 ATi=Ti-T1 0

-d b. . Calculated leakage rate frun regressimi analysis: "

I,=a+b.Atg (5) where i,= calculated leakage rate, wt.%/ day, as determined frun the regression line.

a -(ILi - b Iati )# (6) i b=

N(I.Li ati ) - (IQ)(Iat i)- (7) 2

- N(I a ti ) - (I a t t)2 N = Nunbar of data points.

N I=I

.i=11

c. 95% upper confidence limit on the calculated leakage rate:

UCL = a . + b A tg + S'-

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\ l-UCL = 95% uppet confiderre limit kt.%/ day, at elapsed titus at. g For atg < 24 S- =

tsI(ILi -AILi - b ILiat )/(N-2))W i

[1 + 1 + ( A tg - at)2 / (Ia ti 2 - (Iat )2fy))l/2 i (9a)

N khere t3 = 1.35996 + 2.37226 + 2.82250 ;

N-2 (N-2)d For a tg 2 24 S- =t g [(!L1 2 - AILi - b I Li a ti)/(N-2))W

[1 + (ati - at)2/ (Iati 2 - ( I ti) h) )

W (9b)

N l 1.6449(N-2)2 + 3.5283(N-2) + 0.85602 when ts"

- (N-2)2 + 1.2209(N-2) - 1.5162 5,i = calculated leakage rate espated usirq eq2aticn (5) at total elapsed tiras a t ,i%/ day.

at . Eati N

2. Canputation usirg the Mass Point Method:

a. _ Contained mass of dry air frun data:

Wi = 144 PgV i Rri (10) where All syrbols as previously defined.

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b. calo.iated leakage rate frun regression amlysis, W = a + b a t L = -2400 b a (11) shere i, = calculated leakage ratn, vt.t/ day, as detennined frm the regressico line.

a =

(IWi - b Iat i)/N (12)

N(IW iat i) - (IW i)(Eat i) b =

(13) d N(S ati ) - (I a t )i #

ati= Total elapsed time at tim of i D data point, hr.

N = NLunbar of data points.

Wi = contained mss of dry air at ith data point, iba, as caquted frun equaticn (10) .

N ,

, I = I ;

i=1

'Ib reduce truration erter, the ocmputer pIrnram uses the follcuirg equivalent form 11aticm r

AWi b -

a = W1 1 + (I -

- I at i)/li (14)

W1 W1 .

AW AWi i N (I at)-I i Iati W1 W1 b = Wi (15) 2

. N(Sati ) - (Iat i)2 -

where is as previously defined.

W1

c. 95% upper confidence liinit.

-2400 UCL = (b - Sb) (16)

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h UCL = 95% tuer ocnfidence limit, wt.%/ day.

3g1 /2

(NIat i2 - (I At i)2)1/2 gg7) 1.6449 (N-2)2 + 3.5283 (N-2) + 0.85602 khere ts" (N-2)2 + 1.2209 (N-2) - 1.5102

' I (W1 - (a + b a t t, ) - 1/2

. N-2 .

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= W1 _ I(aW iW i )2 . ( 3 ( 3 wijw1 3 )2g.

N-2 (I(aWI N1 ) ati- I(a Wi Ng)(Iati )#)2' V2 2

(18)

( A ti ) - (I a t i)l/N _

d. Predictor 100 (2 (UCL-L) + 4 - (l Bl + 2 SA) I La share UCL a 95% tgper confidence limit of mass point calculated leakage rate at ord of test.

L = Mass point calculated leakage rate at ard of test.

B = Value of lirsaar regression analysis slope of nass point calculated leakage rata vs. time for last 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of test data.

S A = Linear regression analysis stardard deviation of slepe.

La = Allcvable-leakage rate.

In terrs of elapsed time, a t ard go pint calculated leakage rate Ini calculated at the end of i tire interval.

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,...+,-...w,---.,+- ,,--.,e._,-,,_,.%.m..-_,-. .__,-.s,m.._w,, , - . .m,#.- ,-y._..n.--, ._m.,.#, ,._,.,.my,,,,.n.yg,-y.,,,,.y,,.,-.x --, -y_..y.,.y.--~.. ..mo ,

c , I M

4 hr Iai - B 4I ati (v) .

hr - (19)

M I 4 hr lai a ti-I4 hr IAi I 4 hr at i (20)

B =

2 M4& I ati -(I At t)2 4M I l

I 4 hr lui - A 4hr I ini - B I 4hr Dui a ti (21) sg -

(M) 2

$1 (M-2) (M I at I at i)2) 4 hr i - (4 hr 1

Int = mss point calculated lea)wJo rate evaluatoi usim data up to time a t i.

4 hr = surmtical cuer last 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of test data.

N I = I N-H+1 f

L/

M = nutixar of data points for last 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of test.

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1. The Bedital 11RF ocrqutar program Icgic flow is ocotrulled ty a set of user cptions. 'Ihe user cptions ard a brief descripticn of their ar.sociated furetien are presental below.

OPTICH EttM LufCKti After startim the program executico, the user either antars the rwns of the flie ocntainirg previously enterwl data or initialires a new &ta file.

PATA Dubles user to enter raw data. When the systaan requests values of time, volume, taperature, pressure and vapor prwssure, the user enten the alprtpriate hta. After empletim the data entry, a cumary is printed cut. The user than verifies that the data won antared correctly. If enuru are dotmeted, the user will than be given the ciportunity to correct the enurs. After the user verifies that the data were enterwi conwetly, a Cenu: tad Data Sumary Report of tian, data, average taperaturi, partial pressuru of dry air, and vatar

, vapor pressuru is printal.

TRIND A Trurd Report is printad.

TUrAL A Total Time Report is printal. l MASS A Kus Point Report is printed.

1UN Enables user to sign-off tmporarily or permansctly. All data is saved cn a file for ristarting.

OmR Dubles user to correct previcuely entered data.

LIST A Sumnry Data Report is printal.

READ Duble the carTutor to receive the twxt rat of data frin the data acquisition system directly.

PInf Dubles unc; to plot simmuy data, irdividual sarwor data or air m us versus time.

DETTE Dubles twer to delete a data point.

INSERT Dubles user to reinstate a ptwviously deleted data point.

YouTA Emble user to cturno voltro fractions.

A-9

,q OPTICH Q1 Gtt2@ IWCTICH IRED A predictor wport is printal.

TIME Duble the usar to spacity the time intcIval for a l Intrt or plot. j VERF Duble the user to itp2t imposed leakage rate ard calculated IUU loaFage rates at start of verification test.

I E. Qnuter 143nrt ard Data Printout VASS TODTT RDQT 1he Miss Point Pcport prtsents leakago rate data (wtt/ day) as determiral by the Mass Point Method. The "Calculatrd InaPage Pate" is the value determined frun the twaion analysis. 7ho "Cbntairment Air Mass" values are the msses of dry air in the containnent (lhn). These air mancos, detarminod frun the Equaticn of State, are used in the regression analysis.

TorAL TIME REPORT

,Q The Total Tire Poport presents data leakage rata (wtt/ day) as determinal V by the htal Tine Method. The "cala11ated Isakage Rate" is the value deterinbod frun the regression analysis. 7he "Measurat Isakage Ratos" are t loaPage rata values determined using 7btal Time calatlations.

These values of leakage rata are uud in the rayressicn analysis.

7?END i<uGCr The Treni Report prusents leakage rates as determined by the Mssa Point arvi htal Tire rethods in percent of the initial contained mas of dry air per day (wtt/ day), ventus elapsed tire (hcurs) ani ruter of data points.

IEDICIOR REKRP l

l The predictor reports prusents a prulicted uppcr bound cn the chango in calculatal msst point loakujo rate over the rmt fcur hours.

Sttt%RY IATA RDORT The sunury (bta trport ptrsents the actual data used to calculate IcaPage rates by the various rethods described in the Ctrputer Twryram" section of this report. The seven columns are TIME, IATE, TDiP, PRESSURE, VIRS, \Oll:ME, ard AIIt%SS and contain data defined as fo11cus:

l l

0 v

A-10 l

il

~

)

b

1. TIMES Time in 24-hour notation (hours and mirutes).

O 2. [ ATE Calerdar data (nonth ard day).

3. TIMP centainnent weighted-average drS t ulb tanperaturm in absolute units, daJrres Rankine (*R) .

4. TRIESURE: l'artial pressure of the dry air u yonent of the contalment atmosphere in absoluta units (psia).

5. VIPS: Partial pressure of water vapor of the contalment atrosthers in absolute units (psia) .

6. Not1NE: Ctotaiment free air volume (cu. ft.) .

7. AITMASS Calculated dry air unsa (1bm).

F. Summuary of Measured lhta ard F -W of Cuuunal Data ,

me Suninary of Haasured IMta presents the iniividual ocntainment '

atrosTh ers drybulb tanperatures, dewpoint taperatures, absolute total pressure and free air voluma measured at the time and date.

l 1. 'IDiP 1 through TfEP N am the dritulb tmperatures, where N = No. of l RID's. We values in the right-hard column are tmperatures (*F),

tmiltiplied by 100, as zwad frun the data acquisitico syntan (IRS).

O- 2e values in the left-hard culunn are the corrweted tmperatures expr*aaM in absoluta units-(*R).

2. IPES 1 thrurjh IEES N are the total pressures, absoluta, wem N = No.

of pressure sensors. We right-hard value, in parentheses, is a >

nunber of counts as read frun the IAS. 'Ihis ocunt value is ccawerted to a value in psia by the cceputar via the instrunent's calibration table, counts versus psia. %e left-hand column is the absolute total pressure, psia.

3. VFRS 1 through VIRS N are the dewpoint tapexatures (water vapor pressures), when N = No. of dowpoint sensors. W e values in the right-hand colunn arv tenperatures ('F), nultiplied by 100 as read frun the t%S. We values in the Inft-hard colun are the water va}rr pressures-(psia) frun the steam tables for satuntad steam conuspoiuirrJ to the dewpoint (saturation) tenperatures in the center colunn.

We Sumary of Corrected Enta presented corrected taTa ature and pressure values and calculated air nass determined as follcus

1. TEMPEIWIURE ('R) is the volunn weighted average contai.wnt atnocrhern drytulb taTerature derived frun TIMP 1 thror3h TIMP N.

O A-11

2. 00RRDC11D MESSURE (psia) is the partial pressure of the dry air W-it of the contaliment atmospherw absolute. 'Ihe volume weighted average contaiment atacerhere water vapor pressure is subtracted fzun the volume weighted average total presure, yieldirg the partial pressure of the dry air.

3. VAPCR IRESSURE (psia) is the volume w ighted average containment )

atnosphere water vapor pressure, absolute, derived frun VIRS 1 l thrus3h VIHS N. l

4. l VOI1ME (m. ft.) is the contalment free air volume. ,

5. CotTTADNENT AIR MASS (lbrn) is the calculated mass of dry air in the contaimant. '1he mass of dry air is calculated usirq the ocntalment free air volume and the ab:ne TDGERAWRE and 0%in.Tw PRESSURE of the dry air.

i n

O O

A-12

____ __ _ _ _ = _ = - _ .

A l

)

i i 1 1 4 :

.l \

1 L9 i

t I

i l i .

8 ll l

t i

, APPENDIX D d'

-g j- I ILRT Stabilization >

i

' )

J ,

i 1

P 4

?

8 4

t 1

,I I

e 1

?

i t

1 y

r i >

i

.i I

e I

1 i

i L

I h

L k

1

- i t

I 1

l' l.

l' -_ _ ___ _ ..-_ __ _ _ _ _ _ _ _ _ _ _ . _ . _ . . - _ _ _ . , _ _ _

4

' ~

CALVERT CLIFFS - UNIT 2 JANUARY 195, ILRT

( ],j -

TEMPETU.TURE STABILIZATION \

FROM A STARTING TIMP. AND DATE OF 1991 645\115 TIME TFMP ANS.! BN-TOP-1 (HOURS) ('R) AVE aT AVE \ T DIFF AVE AT \(tS-021-5 AVE 4T 2 (4 HRS) (111R) (2 HRS) ' 2 ilRS )

.00 522.935 \

.25 522.997 i

.50 523.057

.75 523.053 I' \

1.00 523.142 1.25 523.203 1.50 523.274 1.75 523.378 ,\ (p 2.00 523.457 .261* . 0c 2.25 523.543 .273* .05 ('

2.50 523.620 .281* .18.

2.75 523.719 .333* .02 A J.00 523.859 .359* .181 s 3.25 3.50 524.765 94.709

.781*

.717*

1.908j

.367 l , 3.75 524.687 .654* .230 kj .

4.00 524.688 .438 .829 .391v .615* .193 l

l (V\ 4.25 524.699 .425 .066 .491* .578* .151 h(d' 4.50 524.709 .413 .001 .412* .545* .202 4.75 524.794 .435 .107 .328* .538* .127 5.00 524.849 .427 .161 .266* .495* -1.944 ,

5.25 524.941 .434 .242 .193* .088* .337*

5.50 525.021 .437 .312 .;25* .156* .233* \;

5.75 525.067 .422 .273 .149* .;90* .103* 1 6.00 525.107 .412 .257 .105* 209* .066*

6.25 525.163 .405 .223 .182* .233* .106* l l

6.50 525.228 .402 .207 .195* .160* .045*

6.75 525.238 .380 .171 .209* . ;. 2 2 * .104* .h 7.00 525.284 .356 .178 .1786 .2186 .103* k

INDICATES TEMPERATURE STABILIZATION HAS Bl.'EN tlATISFIED oY n

s y u t_> \q Y

1 l

\

CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILRT

SUMMARY

DATA ALMAX a .200 VOLUME = 2000000.

VRATET = .235 VRATEM = .254 TIME DATE TEMP PRESSURE VPRS VOLUME AIRMASD 645 115 522.935 65.0676 .2047 2000000.0 671700.1 700 115 522.997 65.0594 .2068 2000000.0 671535.8 715 115 523.057 65.0564 .2091 2000000.0 671427.3 730 115 523.053 65.0614 .2006 2000000.0 671483.8 745 115 523.142 65.0699 .2004 2000000.0 671457.8 900 115 523.203 65.0804 .2005 2000000.0 671488.0 815 115 523.274 65.0926 .2088 2000000.0 671522.5 8;0 115 523.378 65.1028 .2092 2000000.0 671493.6 l 843 115 523.457 65.1143 .2091 2000000.0 671510.4 1 900 115 523.543 65.1253 .2091 2000000.0 671514.3 i 915 115 523.620 65.1360 .2093 2000000.0 671526.1 930 115 523.719 65.1446 .2095 2000000.0 671488.7 945 115 523.859 65.1522 .2103 2000000.0 671386.4 1000 .15 '524.765 65.0713 .2917 2000000.0 669395.4 1015 115 524.709 65.0722 .2902 2000000.0 669476.9 -

103C 115 524.687 65.0708 .2890 2000000.0 669489.5 1045 litt 524.688 65.0718 .2880 2000000.0 669497.0 1100 115 524.699 G5.0731 .2874 2000000.0 669498.0 1115 115 524.709 65.0743 .2871 2000000.0 669497.8 524.794 G5.1568 .2079 O 1130 115 1145 115 1200 - 115 524.849 524.941 65.1659 65.1745

.2099

.2106 2000000.0 2000000.0 2000000.0 670237.4 670260.4 670232.6 1215 135 025.021 65.1816 .2109 2000000.0 670202./

1230 115 515.067 65.1885 .2112 2000000.0 670214.

1245 115 525.107 65.1944 .2114 2000000.0 670225 0 1300 115 523.163 65.1998 .2116 2000000.0 670208 -

1315 115 525.228 65.2016 .2116 2000000.0 670143, 1330 115 525.238 65.1983 .2119 2000000.0 670097.6 1345 115 525.184 65.2033 .2121 2000000.0 670089.8 O

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

1 1

i 4

1 i

4 l

4 4

APPENDIX C i

ILRT Calculations 4

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g .-.

i 1

9 i !

4 1

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I I

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t l[

4

__me,....

CALVERT CLIFFS - UNIT 2 JANUARY 1991 IIRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

TOTAL TIME ANALYSIS TIME AND DATE AT START OF TEST: 1400 115 1991 TEST DURATION: 9.00 HOURS TIME TEMP PRESSURE MEASURED (R) (PSIA) LEAKAGE RATE 1400 525.320 65.2081 1415 525.375 65.2129 .291 1430 525.418 65.2172 .222 1445 525.445 65.2215 .101 1500 525.481 65.2249 .115 1515 525.518 65.2290 .105 1530 525.566 65.2331 .132 1545 525.603 65.2374 .120 1600 525.632 65.2412 .101 1615 525.664 65.2443 .104 1630 525.664 65.2473 .050 1645 525.701 65.2507 .062 1700 525.751 65.2537 .096 1715 525.764 65.2566 .074 1730 525.792 65.2614 .054 1745 525.816 65.2641 .054 l .

1800 525.849 65.2660 .071

! \ 1815 525.880 65.2693 .072 l

1830 525.906 65.2712 .079 l 1845 525.923 65.2749 .062 1900 525.944 65.2766 .065 1915 525.988 65.2795 .080 1930 525.995 65.2825 .062 1945 526.027 65.2848 .070 2000 526.023 65.2872 .050 2015 526.048 65.2898 .050 2030 526.088 65.2916 .060 2045 526.104 65.2932 .006 2100 526.123 65.2955 .064 2115 526.145 65.2972 .067 2130 526.180 65.2993 .075 2145 526.190 65.3016 .068 2200 526.208 65.3032 .069 i 2215 526.214 65.3046 .064 2230 526.227 65.3065 .061 2245 526.240 65.3085 .058 2300 526.237 65.3102 .048 l MEAN OF THE MEASURED LEAKAGE RATES = .085 MAXIMUM ALLOWABLE LEAKAGE RATE = .200 75% OF MAXIMUM ALLOWABLE LEAKAGE RATE = .150 THE UPPER 95% CONFIDENCE LIMIT = .117 0 THE CALCULATED LEAKAGE RATE = .035 l

l

CALVERT CLIFFS - U LIT 2 JANUARY 1991 ILRT LEAKAGE RATE (#EIGHT PERCENT / DAY)

MASS PCINT ANALYSIS TIME AND DATL AT 9TA(T or TEST 1400 115 1991 TEST DUFATION 9.00 HOURS TIME TEMP PRESSURE CTMT. AIR MASS LOSS AVERAGE MASS (R) (PSIA) MASS (LBM) (LBM) LOSS (LDM/HR) 1400 525.320 65.2001 670093.1 1415 525.375 65.2129 670072.8 20.3 81.1 1430 525.418 65.2172 670062.1 10.7 62.1 1445 525.445 65.2215 670072.1 -10.0 28.1 1500 525.481 65.2249 670061.1 11.0 32.0 1515 525.518 65.2290 670056.4 4.7 29.4 1530 525.566 65.2331 670037.6 18.8 37.0 1545 525.603 65.2374 670034.6 3.0 33.4 1600 525.632 65.2412 670036.5 -1.9 28.3 1615 525.664 65.2443 670027.6 89 29.1 1630 525.664 65.2473 670058.4 -30.7 13.9 1645 525.701 65.2507 670045.8 12.6 17.2 1700 525.751 65.2537 670012.9 32.8 26.7 1715 525.764 65.2566 670026.4 -13.5 20.5 1720 525.792 65.2614 670040.4 -14.0 15.1 1745 525.016 65.2641 670036.4 4.0 15.1 1800 525.849 65.2660 670014.3 22.1 19.7 1815 525.880 65.2693 670007.8 6.5 20.1 1830 525.906 65.2712 669994.4 13.5 21.9 1845 525.923 65.2749 670011.3 -16.9 17.2 i

1900 525.944 65.2766 670002.2 9.1 18.2

. 1915- 525.988 65.2795 669975.9 26.3 22.3 1930 525.995 65.2825 669997.5 -21.6 17.4 1945 526.027 65.2848 669980.4 17.1 19.6 2000 526.023 65.2872 670010.0 -29.6 13.9 2015 526.048 65.2898 670006.0 4.0 13.9 2030 526.088 65.2916 669972.9 33.1 18.5 2045 526.104 65.2932 669968.7 4.2 18.4 2100 526.123 65.2955 669967.7 1.0 17.9 2115 526.145 65.2972 669957.0 10.7 18.8 i 2130 526.180 65.2993 669935.3- 21.7 21.0

( 2145 526.190 65.3016 669945.2 -9.9 19.1 l_

2200 526.208 65.3032 669939.0 6.2 19.3 2215 526.214 65.3046 669944.6 -5.6 18.0 2230 526.227 65.3065 669949.1 -4.5 16.9 2245- 526,240 65.3085 669952.2 -3.0 16.1 l 2300 526.237 66.2102 669973.1 -20.9 13.3 t

L FREE- AIR VOLUME USED (CU. FT.) =2000000.0 REGRESSION LINE l INTERCEPT (LBM) = 670075.8 l

SLOPE (LBM/HR) = -15.1 MAXIMUM ALLOWABLE LEAKAGE RATE = .200 75% OF MAXIMUM ALLOWABLE LEAKAGE R,,TE = .150 THE UPPER 95% CONFIDENCE LIMIT = .060 THE CALCULATED LEAKAGE RATE = .054

l l

CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILRT O TREND REPORT TIME AND DATE AT START OF TEST: 1400 115 1991 No. END TOTAL TIME ANALYSIS MASS POINT ANALYSIS PTS TIME MEAS. CALCULATED UCL CALCULATED UCL

..................................................... )

2 1415 .291 .291 99.000 .291 99.000 l 3 1430 .222 .222 99.000 .222 .560 4 1445 .101 .109 .320 .106 .310 5 1500 .115 085 .294 .093 .189 6 1515 .105 .071 .250 .085 .143 7 1530. .132 .000 .266 .102 .146 8 1545 .120 .081 .249 .105 .136 !

9 1600 .101 .075 .225 .097 .122 10 1615 .104 .073 .212 .095 .114 11 1630 .050 .054 .179 .069 .100 12 1645 .062 .044 .160 .059 .087 13 1700 .096 .048 .164 .066 .090 14 1715 .074 .044 .157 .063 .084 15 1730 .054 .037 .144 .055 .075 16 1745 .054 .032 .135 .049 .067 17 1800 .071 .032 .133 .050 .067 18 1815 .072 .033 .133 .052 .067 19- 1830 .079 .035 .135 .056 .069 20 1845 O 21 22 1900 1915

.062

.065

.000

.033

.035

.131

.129

.132

.054

.057

.066

.064

.008 23 1930 .062 .034 .129 .056 .066 24 1945 .070 .035 .129 .057 .066 25 2000 .050 .033 .124 .053 .062 26 2015 .050 .031 .120 .0S0 .059 27 2030 .066 .031 .120 .051 .059 28 2045 .066 .032 .120. .052 .060 29 2100 .064 .032 .120 .053 .060 30 2115 .067 .033 .120 .054 .061 31 2130 .075 .035 .122 .056 .063 32 2145 .068 .036 .122 .057 .063 33 2200 .069 .037 .122 .058 .064 ,

34 2215 .064 .037 .122 .058 .064 35 2230 .061 .037 .121 .057 .063 36 2245 .058 .036 . /.19 .057 .062 37 2300 .048 .035 .117 .054 .060

CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILRT O

SUMMARY

DATA ALMAX = .200 VOLUME = 2000000.

VRATET = .235 VRATEM = .254 TIME DATE TEMP PRESSURE VPRS VOLUME AIRMASS 1400 115 525.320 65.2081 .2123 2000000.0 670093.1 1415 115 525.375 65.2129 .2124 2000000.0 670072.8 1430 115 525.418 65.2172 .2127 2000000.0 670062.1 1445 115 525.445 65.2215 .2129 2000000.0 670072.1 1500 115 525.481 65.2249 .2131 2000000.0 670061.1 1515 115 525.518 65.2290 .2132 2000000.0 670056.4 1530 115 525.566 65.2331 .2133 2000000.0 670037.6 1545 115 525.603 65.2374 .2134 2000000.0 670034.6 1600 115 525.632 65.2412 .2135 2000000.0 570036.5 1615 115 525.664 65.2443 .2139 2000000.0 670027.6 1630 115 525.664 65.2473 .2141 2000000.0 670058.4 1645 115 525.701 65c2507 .2142 200000).O 670045.8 1700 115 525.751 65.2537 .2143 2000000.0 670012.9 1715 115 525.764 65.2566 .2147 2000000.0 670026.4 1730 115 525.792 65.2614 .2147 2000000.0 670040.4 1745 115 525.816 65.2641 .2148 2000000.0 670036.4 1000 115 525.849 65.2660 .2150 2000000.0 670014.3 1815 115 525.800 65.2693 .2150 2000000.0 670007.0 1830 115 525.906 65.2712 .2153 2000000.0 669994.4

.2155 2000000.0 670011.3 O 1845 115 1900 115 1915 115 525.923 525.944 525.988 65.2749 65.2766 65.2795

.2155 2000000.0

.2158 2000000.0 670002.2 669975.9 1930 115 525.995 65.2825 .2158 2000000.0 669997.5 1945 115 526.027 65.2848 .2162 2000000.0 669980.4 2000 115 526.023 65.2872 .2161 2000000.0 670010.0 2015 115 526.048 65.2898 .2163 2000000.0 670006.0 2030 115 526.088 65.2916 .2165 2000000.0 669972.9 2045 115 526.104 65.2932 .2170 2000000.0 669968.7 2100 115 526.123 65.2955 .2166 2000000.0 6G9967.7 2115 115 526.145 65.2972 .2171 2000000.0 669957.0 2130 115 526.100 65.2993 .2169 2000000.0 669935.3 2145 115 526.190 65.3016 .2174 2000000.0 669945.2 2200 115 526.208 65.3032 .2173 2000000.0 669939.0 2215 115 526.214 65.3046 .2176 2000000.0 669944.6 2230 115 526.227 65.3065 .2176 2000000.0 669949.1 2245 115 526.240 65.3085 .2178 2000000.0 669952.2 2300 115 526.237 65.3102 .2179 2000000.0 669973.1 O

ISG CALCULATION

( ANSI /ANS 56.8 ) !

I CALIBRATION DATA '

SENSOR DISPLAY

OF SENSORS SENSITIVITY (E) REPEATABILITY (r)

TEMPERATURE (T) 17 0.010 deg. F 0.010 deg. F ,

PRESSURE (P) 2 0.001 psia 0.001 psia VAPOR PRESS (PV) 6 0.100 dog. F 0.010 deg. F ,

LENGTH OF TEST (t) 9.00 hra PRESSURE (P) 65.28 psia TEMPERATURE (T) 526.0 deg. R v

VAPOR PRESS (PV) 0.00779 pal /deg. F (at 55 deg. F)

La 0.200 wt%/ day l

l l

INSTRUMENT MEASUREMENT ERRORS 2_ 2 1/2 1/2 eT = ((ET) + ( rT) ) /(# of sensors) eT = 0.00343 deg. F 2 2 1/2 1/2

! eP = ((EP) + (rP) ) /(# of sensors) eP = 0.00100 psia i 2 2 1/2 1/2 e PV = ( (EPv) + (rPV) ) /[# of sensors) ePV = 0.00032 psia INSTRUMENT SELECTION GUIDE 2 2 2 1/2 ISG = 2400/t( 2(eP/P) + 2 (ePv/P) + 2(eT/T) )

l ISG = 'O.007 wt%/dsy l

. 2 5 La = 0.050 wt%/rlay

O O O i

CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILRT AIRMASS LBM, REGRESSIDH LINE AMD 0.75 La SLDPE '

START TIME 1400 DATE 115 END TIME 2300 DATE 115 670100.000 l

1 670000.000 --

i I~ !

669900.000 -- !

~

0.75 La i

i 669800.000 -- l

i

. I t

669700.000 -- !

i p

t

(,(d(100. 000 : : : : : : :

ELAPSED TIME = 9.00 HOURS t

, O O O CALUERT CLIFFS - UNIT Z JANUARY 1991 ILRT TOTAL TIME LEAKAGE RATE, UCL AND 0.75 La - 7./ DAY START TIME 1400 DATE 115 END TIME 2300 DATE 115 l .250 l

1 l

.200 --

1 0.75 La

.150

~

957. UCL m

.100 --

RATE

.050 --

~ x - --

i

.000 :

ELAPSED TIME = 9.00 HOURS

O O O r

4

, CALUERI CLIFFS - UMIT Z JANUARY 1991 ILRT e

.I MASS POIMI LEAKAGE. HATE, UCL AMD 6.75 La - x/ DAY !

I START TIME 1400 DATE 115 END TIME 2300 DATE 115 !

I j .

1 I ,

t I

s ;

.200 -- ;

i

\ !

i .150 \ 0.75 La ;

l I

.100 --

95x UCL i

W -

~

.050 -- :

RATE ;

i i

f i

.000 : : : : I l !

ELAPSED TIME = 9.00 HOURS 4

t

i i

i 3

5 r

1 l

i APPEllDIX D i i'

I

Verification Flow Test ,

I l :

i !

i j l.

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i G !

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1 f CALVERT CLIFFS ~ UNIT 2 JANUARY 1991 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

TOTAL TIME ANALYSIS TIME AND DATE AT START OF TESTt 15 116 1991 TEST DURATION: 4.50 HOURS TIME TEMP PRESSURE MEASURED (R) (PSIA) LEAKAGE RATE 15 526.352 65.3129 l 30 526.386 65.3142 .442

, 45 526.387 65.3148 .185 l 526.421 65.3148 .332 100 ;

115 526.401 65.3154 .134 i 130 526.441 65.3155 .249 145 526.466 65.3162 .266 200 526.492 65.3166 .288 215 526.509 65.3167 .291 230- 526.522 65.3176 .269 245 526.522 65.3179 .239 300 526.542 65.3187 .238 315 526.559 65.3196 .233 330 526.574 65.3203 .228 345 526.599 65.3203 .245 400 526.629 65.3208 .260 415 .255 0 430 445 526.638 526.676 526.685 65.3206 65.3219 65.3228

.270

.258 MEAN OF THE MEASURED LEAKAGE RATES = .260 VERIFICATION TEST LEAKAGE RATE UPPER LIMIT = .285 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT = .185 THE CALCULATED LEAKAGE RATE = .241 l

. _ _ . _ . _ _ - _ _ . _ _ . _ = _ _ _ _ _ _ . . _____ _ _ _._._ _ _ _ ...__._____ _. - __ _ _

CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILRT n LEAKAGE RATE (WEIGHT PERCENT / DAY)

MASS POINT ANALYSIS TIME AND DATE AT START OF TEST: 15 116 1991 TEST DURATION: 4.50 HOURS TIME TEMP PRESSURE CTMT. AIR MASS LOSS AVERAGE MASS (R) (PSIA) MASS (LBM) (LBM) LOSS (LBM/HR) 15 526.352 65.3129 669855.7 30 526.386 65.3142 669824.9 30.8 123.3 45 526.387 65.3148 669829.8 -4.9 51.8 100 526.421 65.3148 669786.3 43.6 92.6 115 526.401 65.3154 669818.3 ~32.0 37.4 130 526.441 65.3155 669769.0 49.3 69.4 145 526.466 65.3162 669744.4 24.6 74.2 200 526.492 65.3166 669715.1 29.3 80.3 215 526.509 65.3167 669693.1 22.0 81.3 230 526.522- 65.3176 669687.0 6.1 75.0 245 526.522 65.3179 669689.0 -2.0 66.7 300 526.542 65.3187 669672.9 16.1 66.5 315 526.559 65.3196 669660.2 12.7 65.2 330 526.574 65.3203 669648.6 11.7 63.7 345 526.599 65.3203 669616.5 32.1 68.3 400 526.629 65.3208 669583.1 33.3 72.7 415 526.638 65.3206 669571.1 12.1 71.2 O 430 445 526.676 526.685 65.3219 65.3228 660535.1 669532.0 35.9 3.1 75.4 71.9

)

l FREE AIR VOLUME USED (CU. FT.) =2000000.0 l REGRESSION LINE 1 INTERCEPT (LBM) = 669855.9 l SLOPE (LBM/HR) = -70.8 '

VERIFICATION TEST LEAKAGE RATE UPPER LIMIT = .304 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT = .204 THE CALCULATED LEAKAGE RATE = .254 O

i l

CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILRT O TREND REPORT TIME AND DATE AT START OF TESTt 15 116 1991 No. END TOTAL TIME ANALYSIS MASS POINT ANALYSIS PTS TIME HEAS. CALCULATED UCL CALCULATED UCL 3 30 .442 .442 99.000 .442 99.000 3 45 .185 .185 99.000 .185 1.451 4 100 .332 .265 1.856 .292 .557 5 115 .134 .157 .759 .163 .376 6 130 .249 .181 .629 .203 .340 7 145 .266- .204 .574 .234 .332 8 200 .288 .230 .551 .262 .339 9 215 .291 .247 .531 .279 .340 10 230 .269 .251 .503 .277 .325 11 245 .239 .243 .471 .262 .304 12 300 .238 .237 .446 .252 .288 13 315 .233 .232 .426 .244 .275 14 330 .228 .227 .408 .237 .264 15 345 .245 .227 .398 .237 .261 16 400 .260 .232 .395 .243 .265 17 415 .255 .234 .390 .246 .265 18 430 .270 .239 .390 .252 .270 19 445 .258 .241 .385 .254 .270 O

I L

O

CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILRT O

SUMMARY

DATA ALMAX = .200 VOLUME = 2000000.

VRATET = .235 VRATEM = .254 TIME DATE TEMP PRESSURE VPRS VOLUME AIRMASS 2315 115 526.255 -65.3121 .2182 2000000.0 669969.8 2330 115 526.279 65.3122 .2181 2000000.0 669940.7 2345 115 526.320 65.3122 .2181 2000000.0 669888.8 0 116 526.348 65.3123 .2183 2000000.0 669854.2 15 116 526.352 65.3129 .2184 2000000.0 669855.7 30 116 526.386 65.3142 .2186 2000000.0 669824.9 45 116 526.387 65.3148 .2187 2000000.0 669829.8 100 116 526.421 65.3148 .2187 2000000.0 669786.3

-115 116 526.401 65.3154 .2191 2000000.0 669818.3 130 116 526.441 65.3155 .2190 2000000.0 669769.0 145 116 526.466 65.3162 .2190 2000000.0 669744.4 200 116 526.492 65.3166 .2194 2000000.0 669715.1 215 116 526.509 65.3167 .2193 2000000.0 669693.1 230 116 526.522 65.3176 .2196 2000000.0 669687.0 245 116 526.522 65.3179 .2193 2000000.0- 669689.0 300 116 526.542 65.3187 .2197 2000000.0 669672.9 315 116 526.559 65.3196 .2198 2000000.0 669660.2 330 116 526.574 65.3203 .2201 2000000.0 669648.6 345 116 526.599 65.3203 .2201 2000000.0 669616.5 400 116 .2201 O 415 116 430 116 526.629 526.638 526.676 65.3208 65.3206 65.3219

.2202

.2205 2000000.0 2000000.0 2000000.0 669583.1 669571.1 669535.1 445 116 526.685 65.3228 .2206 2000000.0 669532.0 0

O O O CALVERT CLIFFS - UNIT Z JANUARY 1991 ILRT AIRMASS LBM, REGRESSION LINE AND UERIFICATION TEST LIMITS START TIME 15 DATE 116 END TIME 445 DATE 116 669900.000 669800.000 --

LOWER LIMIT 669700.000 -- _

UPPER LIMIT 669600.000 --

'N 669500.000 --

L 66H 00.000 = 4.50 HOURS ELAPSED IME

O O O I

CALVERT CLIITS - UNIT 2 JAMUARY 1991 ILRT TOTAL TIME LEAKAGE RATE AMD UERIFICATIUM TEST LIMITS - 7./ DAY !

START TIME 15 DATE 116 EMD TIME 145 DATE 116

.500

.400--

.300 -- UPPER LIMIT

\ _

RATE

. ZOO --

LOWER LIMIT

.100 - -

.000 . : : :

ELAPSED TIME = 4.50 HOURS

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'E 4 APPENDIX E l

i I

! Data craphs i

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O O O 4

i CALVERT CLIFFS - UNIT Z JANUARY 1991 ILET AVERAGE TEMPERATURE DEGREES F START TIME 645 DATE 115 END TIME 445 DATE 116 l

60.000 t

67.000 --

l l

66.000 -- "

l i -

65.000 -- I 1*

64.000 --

63.000 : : : : : : : :

ELAPSED TIME = 22.00 H6tRS

O O O CALVERT CLIFFS - UNIT 2 JAMUARY 1731 ILBT PRESSURE PSIA (DRY AIR)

. START _ TIME 645 DATE 115 END TIME 445 DATE 116 65.500 65.400 --

, 65.300 -- f 65.200 --

65.100 --

U 65.000 : : l l : l l : : : : : : : : : : : : : :

ELAPSED TIME = 22.00 HOURS

O O O CALVERT CLIFFS - UNIT Z JANUARY 1991 ILBT UAPOR PRESSURE PSIA START TIME 645 DATE 115 END TIME 445 DATE 116

.225

.220 --

. Z 15 --

INSTH.

.210 -- POWEB 0FF

.205 --

l l l l l l l l l l l l

: : ! ! ! : l

. ZOO ,

ELAPSED TIME = 22.00 HOUR

( U, ~~ O

-CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILBT DRYBULB TEMPERATURE SENSORS 1-18 DEGREES F START TIME 645 DATE 115 END TIME 445 DATE 116 i

76.000 l

4 (DECLARED FAILED) 10 ,

- [

60.000 -- , # 5

^

__ # 2 2 vZ

-r_ _

- ;n: .

- -- -r-- y-h

=e = -

64.000 -; E-1-3, 6-9, a 11-18 1

60.000 --

56.000 l : : : : : : : ;; : : : : : : : : :

ELAPSED TIME = 22.00 HOURS

0 0 0 CALVERT CLIFFS - UNIT 2 JANUARY 1991 ILRT PRESSURE SENSORS 1, 2 A AVERAGE. TOTAL' PRESSURE PSIA START TIME 645 DATE 115 END TIME 445 DATE 116 65.600

~ ~

-1 65.500 --

2

-65.400 --

65.300 --

65.200 --

65.100 : : : : : : : : : : : : : : : : : : : : :

ELAPSED TIME = 22.00 HOURS

O O O CALVERT CLIFFS - UNIT Z JANUARY 1991 ILRT DEWPOINT TEMPERATURE SENSORS 1-6 8 AUEHAGE DEGREES F

' START TIME 645 DeTE 115 END TIME 445 DATE 116 58.000 57.000 -- ,

i' 56.000 --

2 AUG 55.000 --

POWER OFF /

, 186 6 3

54.000 -

l

[

53.000 : : : : : : : : : : : : : : : : : : : : : :

' ELAPSED TIME = 22.00 HOURS

O APPE!1 DIX F Test Data O

O

- . - . . = . - .

.l q

O

SUMMARY

OF MEASURED DATA AT 645 115

. TEMP _ 1 = 526.2220 ( 66.552 )

TEMP 2 = 523.8390 (- 64.169 )

TEMP 3 = 524.8980 ( 65.228 )

TEMP 4 = 531.1040 ( 71.434 ,

TEMP' S = 516.0660 ( 56.396 )

TEMP 6 = 523.8430 ( 64.173 )

TEMP 7 = 523.4590 ( 63.789 )

TEMP 8 = 522.7710 ( 63.101 )

TEMP 9 = 522.9170 '( 63.247 )

TEMP 10 = 528.1240 ( 68.454 )

TEMP 11 = 522.8380 ( 63.168 )

TEMP 12 = 523.1890 ( 63.519 )

TEMP 13 = 523.3220 ( 63.652 )

TEMP 14 = 522.1120 ( 62.442 )

TEMP 15.= 522.1850 ( 62.515 )

TEMP 16 = 521.1980 ( 61.528 )

. TEMP 17 = 521.4860 ( 61.816 )

TEMP 18 = 521.0720 ( 61.402 )

-PRES 1= 65.2710 (132240.0 )

PRES 2= 65.2738 ( 66435.0 )

0

, VPRS

-VPRS VPRS 1=

2=

.3 =

.2032

.2080

.2003

(

53.590-)

54.228 )

53.204 )

VPRS 4= .2020 ( 53.437 )

VPRS 5= .2152 ( 55.163 )

VPRS 6= .2044 ( 53.753 )

SUMMARY

OF-CORRECTED DATA TIME = 645 DATE = 115 TEMPERATURE (DEGREES R.) = 522.9351 CORRECTED PRESSURE (PSIA) = 65.0676 VAPOR PRESSURE (PSIA) = .2047 i VOLUME (CU.FT.) = 2000000,0 AIR MASS (LBM) = 671700.1 i.

t i ~

SUKKARY OF MEASURED DATA AT 700 115

\ TEMP 1 = 525.4940 ( 65.824 )

TEMP 2 = 523.8630 ( 64.193 )

TEMP 3 = 524.4950 ( 64.825 )

TEMP 4 = 531.1620 ( 71.492 )

TEMP 5 = 516.1650 ( 56.495 )

1 TEMP 6 = 523.9780 ( 64.308 )

TEMP' 7 = 523.5350 ( 63.865 )

TEMP i = 522.8750 ( 63.205 )

i TZM? s = 523.0610 ( 63.391 )

TEMP .0 = 528.5750 ( 68.905 )

TEMP 11 = 523.1110 ( 63.441 )

TEMP 12 = 523.4590 ( 63.789 )

TEMP 13 = 523.5950 ( 63.925 )

TEMP 14 = 522.3830 ( 62.713 )

TEMP 15 = 522.4840 ( 62.814 )

TEMP 16 = 521.5350 ( 61.865 )

TEMP 17 = 521.8540 ( 62.184 )

TEMP 18 = 521.5230 ( 61.853 )

PRES 1= 65.2656 (132229.0 )

PRES 2= 65.2669 ( 66428.0 )

VPRS 1= .2067 ( 54.054 ) h VPRS 2= .2091 ( 54.370 )

VPRS 3= .2027 ( 53.521 )

VPRS 4= .2034 ( 53.617 )

VPRS 5= .2165 ( 55.326 )

VPRS 6= .2064 ( 54.016 )

SUMMARY

OF CORRECTED DATA TIME = 700 DATE = 115 TEMPERATURE (DEGREES R.) = 522.9969 CORRECTED PRESSURE (PSIA) = 65.0594

= .2068 VAPOR PRESSURE (PSIA)

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 671535.8 9

O

SUMMARY

OF MEASURED DATA AT 715 115 TEMP 1 = 524.8430 ( 65.173 )

TEMP 2 = 523.8280 ( 64.158 )

TEMP 3 = 524.2050 ( 64.535 )

TEMP 4 = 531.5950 ( 71.925 )

TEMP 5 = 516.2660 ( 56.596 )

TEMP 6 = 524.0650 ( 64.395 )

TEMP 7 = 523.6820 ( 64.012 )

TEMP 8 = 523.1080 ( 63.438 )

TEMP 9 = 523.2000 ( 63.530 )

TEMP 10 = 528.6590 ( 68.989 )

TEMP 11 = 523.3630 ( 63.693 )

TEMP 12 = 523.7370 ( 64.067 )

TEMP 13 = 524.0390 ( 64.369 )

TEMP 14 = 522.6270 ( 62.957 )

TEMP 15 = 522.7620 ( 63.092 )

TEMP 16 = 521.7790 ( 62.109 )

TEMP 17 = 522.1710 ( 62.501 )

TEMP 18 = 521.8480 ( 6?.178 )

PRES 1= 65.2641 (132226.0 )

PRES 2= 65.2669 ( 66428.0 )

VPRS 1= .2099 54.481 )

O VPRS VPRS 2=

3=

.2130

.2034

(

54.879 )

53.613 )

VPRS 4= .2043 ( 53.736 )

VPRS 5= .2179 ( 55.505 )

VPRS 6= .2085 ( 54.293 )

SUMMARY

OF CORRECTED DATA TIME = 715 DATE = 115 TEMPERATURE (DEGREES R.) = 523.0573 CORRECTED PRESSURE (PSIA) = 65.0564 VAPOR PRESSURE (PSIA) = .2091 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 671427.3

SUMMARY

OF MEASURED DATA AT 730 115 TEMP 1 = 524.4160 ( 64.746 )

TEMP 2 = 533.7780 ( 64.108 )

TEMP 3 = 524.0490 ( 64.379 )

TEMP 4 = 532.0710 ( 72.401 )

TE7fP 5 = 516.2140 ( 56.544 )

TLMP 6 = 524.0050 ( 64.335 )

' TEMP 7 = 523.6300 ( 63.960 )

TEMP 8 = 523.1290 ( 63.459 )

TEMP 9 = 523.2420 ( 63.572 )

TEMP 10 = 528.4100 ( 68.740 )

TEMP 11 = 523.5120 ( 63.842 )

TEMP 12 = 524.0510 ( 64.381 )

TEMP 13 = 524.2920 ( 64.622 )

TEMP 14 = 522.7330 ( 63.063 )

TEMP 15 = 523.0160 ( 63.346 )

TEMP 16 = 522.0320 ( 62.362 )

TEMP 17 = 522.4640 ( 62.794 )

TEMP 18 = 522.1100 ( 62.440 )

PRES 1= 65.2690 (132236.0 )

PRES 2= 65.2709 ( 66432.0 )

VPRS 1= .2072 ( 54.121 )

VPRS 2= .2110 ( 54.617 )

VPRS 3= .2047 ( 53.791 )

VPRS 4= .2049 ( 53.826 )

VPRS S= .2191 ( 55.661 )

VPRS 6= .2089 ( 54.344 )

SUMMARY

OF CORRECTED DATA TIME = 730 DATE = 115 TEMPERATURE (DEGREES R. ) = 523.0531 CORRECTED PRESSURE (PSIA) = 65.0614 l VAPOR PRESSURE (PSIA) = .2086 l VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 671483.8 O

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

4

SUMMARY

OF MEASURED DATA AT 745 115 TEMP 1 = 524.4600 (- 64.790 )

TEMP 2 = 523.8220: ( '64.152 )-

TEMP 3 = 524.0340 ( 64.364 )

TEMP 4 = 532.0010 ( 72.331 )

TEMP. 5 = 516.2170 ( 56.547 )

TEMP 6 = 523.9960_ ( 64.326 ) ;

TEMP 7 = 523.6600 ( 63.990 )

TEMP 8 = 523.1750- ( 63.505 ) '

TEMP 9 = 523.3090- (- 63.639 )

TEMP 10 = 528.6330 (. 68.963 )

TEMP 11 = 523.6730 ( 64.003 )

TEMP 12 = 524.2160 ( 64.546 )

TEMP 13 = 524.4930 ( 64.823 )

TEMP 14 = 522.8580 ( 63.188 )

TEMP 15 = 523.2070 ( 63.537 )

TEMP 16 = 522.2820 ( 62.612 )

TEMP 17 = 522.6940 ( 63.024 )

TEMP 18 = 522.3560 ( 62.686 )

PRES 1= 65.2779 (132254.0 )

PRES 2= 65.2787 ( 66440.0 )

VPRS 1= .2070 ( 54.098 )

s_/ VPRS 2= .2113 ( 54.657 )

VPRS 3= .2049 ( 53.816 )

VPRS 4= .2047 ( 53.788 )

VPRS 5-- .2182 ( 55.548 )

VPRS 6:=- .2082 ( _54.252-)

SUMMARY

OF CORRECTED DATA TIME = 745 DATE = 115 TEMPERATURE (DEGREES R.) = 523.1417 CORRECTED PRESSURE (PSIA) = 65.0699 VAPOR-PRESSURE;(PSIA) = .2084 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 671457.8

.O

SUMMARY

OF MEASURED DATA AT 800 115 O

TEMP 1 = 524.3440 ( 64.674 )

TEMP 2 = 523.8860 ( 64.216 ) ,

TEMP 3 = 524.0000 ( 64.410 )

TEMP 4 = 532.0220 ( 72.352 )

TEMP 5 = 516.2380 ( 56.568 )

TEMP 6 = 524.0660 ( 64.396 )

TEMP 7 = 523.7050 ( 64.035 )

TEMP 8 = 523.2470 ( 63.577 )

TEMP 9 = 523.4300 ( 63.760 ) i TEMP 10 = 528.3340 ( 68.664 ) I TEMP 11 = 523.7950 ( 64.125 )

TEMP 12 = 524.3030 ( 64.633 )

TEMP 13 = 524.6090 ( 64.939 )

TEMP 14 = 523.0190 ( 63.349 )

TEMP 15 = 523.4020 ( 63.732 )

TEMP 16 = 522.4670 ( 62.797 )

TEMP 17 = 522.9020 ( 63.232 )

TEMP 18 = 522.5800 ( 62.910 )

PRES 1= 65.2883 (132275.0 )

PRES 2= 65.2895 ( 66451.0 )

VPRS 1= .2076 ( 54.179 )

VPRS 2= .2106 ( 54.577 )

VPRS 3= .2049 ( 53.819 )

VPRS 4= .2049 ( 53.814 )

VPRS 5= .2180 ( 55.520 )

VPRS 6= .2083 ( 54.270 )

SUMMARY

OF CORRECTED DATA TIME = 800 DATE = 115 TEMPERATURE (DEGREES R.) = 523.2031 CORRECTED PRESSURE (PSIA) = 65.0804

= .2085 VAPOR PRESSURE (PSIA)

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 671488.0 0

SUMMARY

OF MEASURED DATA AT 815 115 TEMP 1 = 524.3900 ( 64.720 )

TEMP 2 = 523.8560 ( 64.186 )

TEMP 3 = 524.1550 ( 64.485 )

TEMP 4 = 532.1210 ( 72.451 )

TEMP 5 = 516.3060 ( 56.636 )

TEM 2 6 = 524.1070 ( 64.437 )

TEMP 7 = 523.7520 ( 64.082 )

TEMP 8 = 523.3260 ( 63.656 )

TEMP 9 = 523.4620 ( 63.792 )

TEMP 10 = 528.1540 ( 68.484 )

TEMP 11 = 523.9270 ( 64.257 )

TEMP 12 = 524.4060 ( 64.736 )

TEMP 13 = 524.7040 ( 65.034 )

TEMP 14 = 523.1350 ( 63.465 )

TEMP 15 = 523.5690 ( 63.899 )

TEMP 16 = 522.6940 ( 63.024 )

TEMP 17 = 523.0840 ( 63.414 )

TEMP 18 = 522.7460 ( 63.076 )

PRES 1= 65.3016 (132302.0 )

PRES 2= 65.3013 ( 66463.0 )

VPRS 1= .2082 ( 54.252 )

\ VPRS 2= .2116 ( 54.695 )

VPRS 3= .2051 ( 53.843 )

VPRS 4= .2050 ( 53.828 )

Vi (S 5= .2183 ( 55.554 )

VPRS 6= .2082 ( 54.254 )

SUMMARY

OF CORRECTED DATA TIME = 815 DATE = 115 TEMPERATURE (DEGREES R.) = 523.2741 CORRECTED PRESSURE (PSIA) = 65.0926 VAPOR PRESSURE (PSIA) = .2088 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 671522.5 O

SUMMARY

OF MEASURED DATA AT 830 115 O

TEMP 1 = 524.5010 ( 64.831 )

TEMP 2 = 523.9140 ( 64.244 )

TEMP 3 = 524.2140 ( 64.544 )

TEMP 4 = 532.1470 ( 72.477 )

TEMP 5 = 516.4000 ( 56.730 )

TEMP 6 = 524.1780 ( 64.508 )

TEMP 7 = 523.8180 ( 64.148 )

TEMP 8 = 523.4020 ( 63.732 )

TEMP 9 = 523.6020 ( 63.932 ) l TEMP 10 = 528.3830 ( 68.713 ) l TEMP 11 = 524.0450 ( 64.375 )

TEMP 12 = 524.4580 ( 64.788 ) l TEMP 13 = 524.8260 ( 65.156 ) 1 TEMP 14 = 523.2380 ( 63.568 ) I TEMP 15 = 523.7380 ( 64.068 ) l TEMP 16 = 522.8560 ( 63.186 )

TEMP 17 = 523.2290 ( 63.559 )

TEMP 18 = 522.9250 ( 63.255 )

1 PRES 1= 65.3120 (132323.0 )

PRES 2= 65.3121 ( 66474.0 )

VPRS 1= .2080 ( 54.235 )

VPRS 2= .2116 ( 54.598 )

VPRS 3= .2067 ( 54.C63 )

VPRS 4= .2052 ( 53.865 )

VPRS 5= .2182 ( 55.546 )

VPRS 6= .2085 ( 54.296 )

SUMMARY

OF CORRECTED DATA TIME = 830 DATE = 115 TEMPERATURE (DEGREES R.) = 523.3784 CORRECTED PRESSURE (PSIA) = 65.1028 VAPOR PRESSURE (PSIA) = .2092 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 671493.6 O

O

SUMMARY

OF MEASURED DATA AT 845 115 TEMP 1 = 524'.5060 ( 64.836 )

TEMP 2 = 523.9590 ( 64.289 )

TEMP 3 = 524.3090 (- 64.639 )

TEMP 4 = 532.2500 ( 72.580 )

TEMP 5 = 516.4550 ( 56.785 ) ,

TEMP- 6 = 524.2950 ( 64.625 )

TEMP 7 = 523.9060 ( 64.236 )

TEMP 8 = 523.5050 ( 63.835 )

TEMP 9 ='523.6790 ( 64.009 )

TEMP 10 = 528.456C ( 68.786 )

TEMP 11 = 524.1460 ( 64.476 )

TEMP 12 = 524.5850 ( 64.915 )

TEMP 13 = 524.7650 ( 65.095 ) ,

TEMP-14 = 523.2850 ( 63.615 )

TEMP 15 = 523.8750 ( 64.205 )

TEMP 16 = 523.0150 ( 63.345 )

TEMP 17

- = 523.3670 ( 63.697 )

TEMP 18 = 523.0530 ( 63.383 )

PRES- 1= 65.3228 (132345.0 )

PRES 2= 65.3238 ( 66486.0 )

VPRS 1= .2075 54.171 )

O' VPRS 2= .2117

(

( 54.716 )

VPRS 3= .2061 ( 53.976 )

VPRS 4 = .2056 ( 53.913 )

VPRS 5= .2188 (- 55.625 )

VPRS 6= .2084- ( 54,287 )

SUMMARY

OF CORRECTED DATA TIME = 845-DATE = 115-TEMPERATURE (DEGREES R.) = 523.4575 CORRECTED PRESSURE (PSIA) = 65.1143 ,

VAPOR PRESSURE (PSIA) = .2091 VOLUME . (CU . FT. ) = 2000000.0 AIR MASS (LBM) = 671510.4 O

SUMMARY

OF MEASURED DATA AT 900 115 O

TEMP 1 = 524.5300 ( 64.860 )

TEMP 2 = 524.0370 ( 64.367 )

TEMP 3 = 524.3500 ( 64.680 )

TEMP 4 = 532.5300 ( 72.860 )

TEMP 5 = 516.5100 ( 56.840 )

TEMP 6 = 524.3650 ( 64.695 )

TEMP 7 = 523.9950 ( 64.325 )

TEMP 8 = 523.5930 ( 63.923 )

TEMP 9 = 523.7700 ( 64.100 )

TEMP 10 = 528.4780 ( 68.808 )

TEMP 11 = 524.2370 ( 64.567 )

TEMP 12 = 524.7130 ( 65.043 )

TEMP 13 = 525.0660 ( 65.396 )

TEMP 14 = 523.3260 ( 63.656 )

TEMP 15 = 524.0190 ( 64.349 )

TEMP 16 = 523.1640 ( 63.494 )

TF.MP 17 = 523.4890 ( 63.819 )

TEMP 18 = 523.1780 ( 63.508 )

PRES 1= 65.3352 (132370.0 )

PRES 2= 65.3337 ( 66496.0 )

VPRS 1= .2081 ( 54.248 ) h VPRS 2= .2117 ( 54.719 )

VPRS 3= .2059 ( 53.949 )

VPRS 4= .2055 ( 53.894 )

VPRS 5= .2191 ( 55.656 )

VPRS 6= .2081 ( 54.245 )

SUMMARY

OF CORRECTED DATA TIME = 900 DATE = 115 TEMPERATURE (DEGREES R.) = 523.5432 CORRECTED PRESSURE (PSIA) = 65.1253 VAPOR PRESSURE (PSIA) = .2091 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 671514.3 O

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

i O =

SUMMAR't OF MEASURED DATA AT 915 115

. TEMP .1 ='524.6570 ( 64.987 )

TEMP- 2 = 524.0890 ( 64.419 )

TEMP 3 = 524.4830 ( 64.813 ) ,

TEMP 4 = 532.6660 ( 72.996 )

TEMP 5 = 516.5990 ( 56.929 )

TEMP 6 = 524.4420 ( 64.772')

TEMP 7 = 524.0250 ( 64.355 )

TEMP 8 = 523.6470 ( 63.977 )

TEMP 9 = 523.7600 ( 64.090 )

TEMP 10 = 528.4450 ( 68.775 )

TEMP 11 = 524.3350 ( 64.665 )

TEMP 12 = 524.7270 ( 65.057 )

TEMP 13 = 525.0170 ( 65.347 )

! TEMP 14 = 523.4480 ( 63.778 )

l TEMP 15 = 524.1440 ( 64.474 )

TEMP 16 = 523.2770 ( 63.607 )

TEMP 17 = 523.6120 ( 63.942-)

TEMP 18 = 523.2680 ( 63.598 )

PRES 1= 65.3450 (132390.0 )

PRES 2= 65.3454 ( 66508.0 )

t O VPRS VPRS 1=

2=

.2090

.2119

(

54.362 )

54.740 )

VPRS 3= .2052 ( 53.859 )

VPRS 4= .2053 ( C1.872 ) !

VPRS 5= .2190 ( 55.646 )

VPRS 6= .2086 ( 54.309 )

SUMMARY

-OF CORRECTED DATA TIME = 915 l- DATE = 115 l

TEMPERATURE (DEGREES R.) = 523.6198

CORRECTED _ PRESSURE (PSIA) = 65.1360 l VAPOR PRESSUREL(PSIA). = .2093 VOLUME-(CU.FT.) = 2000000.0 AIR MASS (LBM) = 671526.1 O

SUMMARY

OF MEASURED DATA AT 930 115 O

TEMP 1 = 524.7560 ( 65.086 )

TEMP 2 = 524.1730 ( 64.503 )

TEMP 3 = 524.6050 ( 64.935 )

TEMP 4 = 532.7090 ( 73.039 )

TEMP 5 = 516.6690 ( 56.999 )

TEMP 6 = 524.5030 ( 64.833 )

TEMP 7 = 524.1070 ( 64.437 )

TEMP 8 = 523.7490 ( 64.079 )

TEMP 9 = 523.8790 ( 64.209 )

TEMP 10 = 528.4360 ( 68.766 )

TEMP 11 = 524.4340 ( 64.764 )

TEMP 12 = 524.8640 ( 65.194 )

TEMP 13 = 525.2690 ( 65.599 )

TEMP 14 = 523.5780 ( 63.908 )

l TEMP 15 = 524.2580 ( 64.588 )

TEMP 16 = 523.3700 ( 63.700 )

TEMP 17 = 523.7270 ( 64.057 )

TEMP 18 = 523.3810 ( 63.711 )

PRES 1= 65.3529 (132406.0 )

PRES 2= 65.3552 ( 66518.0 )

VPRS 1= .2083 ( 54.274 ) h VPRS 2= .2117 ( 54.716 )

VPRS 3= .2067 ( 54.057 )

VPRS 4= .2059 ( 53.950 )

! VPRS 5= .2189 ( 55.629 )

VPRS 6= .2087 ( 54.322 )

SUMMARY

OF CORRECTED DATA l TIME = 930

) DATE = 115 TEMPERATURE (DEGREES R.) = 523.7186 CORRECTED PRESSURE (PSIA) = 65.1446 VAPOR PRESSURE (PSIA) = .2095 VOLUME (CU.FT.) = 2000000.0 l AIR MASS (LBM) = 671488.7 1

O l

l 1

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

O

SUMMARY

OF-MEASURED DATA AT 945 115 TEMP 1 = 524.8920 ( 65.222 )

TEMP _ 2 = 524.2550 ( 64.585 )

TEMP ? = 524.6890 ( 65.019 )

TEMP 4 = 532.1270 ( 72.457 ) '

TEMP -5 = 516.8610 ( 57.191-)

TEMP 6 = 524.6830 ( 65.013 )

TEMP 7 = 524.2680 ( 64.598 )

TEMP 8 = 523.8690 ( 64.199 )

TEMP -9 = 524.0600 (- 64.390 )-

. TEMP 10 = 528.9440 ( 69.274 )

TEMP 11 = 524.5090 (. 64.839 )

TEMP 12 = 524.9530 ( 65.283 )

12MP 13 = 525.3480 ( 65.678 )

TEMP 14 = 523.6660 ( 63.996 )

TEMP'15 = 524.3820 ( 64.712 )

TEMP 16 = 523.5210- ( 63.851 )

TEMP 17 = 523.8280 ( 64.158 )

TEMP 18 = 523.4830 ( 63.813 )

PRES 1=' 65.3628 (132426.0 ) >

PRES 2 =- 65.3621 ( 66525.0 )

VPRS 1= .2095 ( 54.431 )

[s~s/~h VPRS 2= .2126 ( 54.829 ;

VPRS 3= .2074 (- 54.150 )

'VPRS 4= .2064 ( 54.020-)

VPRS .5 = .2194 ( 55.697 )

VPRS 6= .2094 (. 54.412 )

SUMMARY

OF CORRECTED DATA TIME =- 945-DATE = 115 TEMPERATURE-(DEGREES R.) =- 523.8591

= 65.1522 CORRECTED PRESSURE-(PSIA)

VAPOR -PRESSURE- (PSIA) =~ .2103 VOLUME (CU.FT.) = 2000000,0 AIR MASS (LBM) = 671386.4' O

SUMMARY

OF MEASURED DATA AT 1000 115 O

TEMP 1 = 524.7890 ( 65.119 )

TEMP 2 = 524.2140 ( 64.544 )

TEMP 3 = 524.6510 ( 64.981 )

TEMP 4 = 530,1970 ( 70.527 )

TEMP S = 527.5360 ( 67.866 )

TEMP 6 = 524.4060 ( 64.736 )

TEMP 7 = 524.2310 ( 64.561 )

TEMP 8 = 523.7920 ( 64.122 )

TEMP 9 = 523.9750 ( 64.305 )

TEMP 10 = 528.9720 ( 69.302 )

TEMP 11 = 524.4490 ( 64.779 )

TEMP 12 = 524.9770 ( 65.307 )

TEMP 13 = 525.0260 ( 65.356 )

TEMP 14 = 523.5980 ( 63.928 )

TEMP 15 = 524.3120 ( 64.642 )

TEMP 16 = 523.5570 ( 63.887 )

TEMP 17 = 523.8740 ( 64.204 )

TEMP 18 = 523.3290 ( 63.659 )

PRES 1= 65.3628 (132426.0 )

PRES 2= 65.3631 ( 66526.0 )

VPRS 1= .2982 ( 64.308 )

VPRS 2= .2997 ( 64.460 )

VPRS 3= .3008 ( 64.561 )

VPRS 4= .2062 ( 53.987 )

VPRS 5= .3138 ( 65.777 )

VPRS 6= .2931 ( 63.821 )

SUMMARY

OF CORRECTED DATA TIME = 1000 DATE = 115 TEMPERATURE (DEGREES R.) = 524.7648 CORRECTED PRESSURE (PSIA) = 65.0713 VAPOR PRESSURE (PSIA) = .2917 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669395.4 0

O V

SUMMARY

OF MEASURED-DATA AT 1015 115 TEMP- 1 = 524.6920 ( 65.022 )

TEMP 2 = 524.1470 ( 64.477 )

TEMP 3 = 524.5940 ( 64.924 )

TEMP 4 = 529.8370 ( 70.167 )

TEMP 5;= 527.4640 ( 67.794 )

TEMP 6 = 524.3000 ( 64.630 )

TEMP 7 = 524.1460 ( 64.476 )

TEMP 8 = 523.7030 ( 64.033 )

TEMP 9 = 523.9350 ( 64.265 )

TEMP 10 = 528.8700 ( 69.200 )

TEMP 11 = 524.4170 ( 64.?47 )

TEMP 12 = 524.9270 ( 65.257')

TEMP 13 = 524.9990 ( 65.329 )

TEMP 14 = 523.6330 ( 63.963 )

TEMP 15 = 524.3270 ( 64.657 )

TEMP 16 = 523.5900 ( 63.920 )

TEMP 17 = 523.8820 ( 64.212 )

TEMP 18 = 523.2830 ( 63.613 )

PRES 1= 65.3628 (132426.0 )

' PRES 2= 65.3621 ( 66525.0 )

(~ VPRS l'=. .2965 ( 64.151 )

VPRS 2= .2982 ( 64.312 )

VPRS 3= .2990 ( 64.390 )

L VPRS 4= .2064 ( 54.020 )

VPRS- 5= .3116 ( 65.573 )

VPRS 6= .2921 -(' 63.719 )

SUMMARY

OF CORRECTED DATA

. TIME = 1015 DATE =. 115 TEMPERATURE-(DEGREES R.) = 524.7086' CORRECTED PRESSURE (PSIA) = 65.0722

-VAPOR PRESSURE (PSIA) = .2902 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM)'= 669476.9 l-I O

SUMMI.RY OF MEASURED DATA AT 1030 115 O

TEMP 1 = 524.6580 ( 64.988 )

TEMP 2 = 524.1260 ( 64.456 )

TEMP 3 = 524.5510 ( 64.881 )

TEMP 4 = 529.8450 ( 70.175 )

TEMP 5 = 527.3800 ( 67.710 )

TEMP 6 = 524.2570 ( 64.587 )

TEMP 7 = 524.1240 ( 64.454 )

TEMP 8 = 523.6890 ( 64.019 )

TEMP 9 = 523.9350 ( 64.265 )

TEMP 10 = 528.6910 ( 69.021 ) l TEMP 11 = 524.4190 ( 64.749 ) l TEMP 12 = 524.9420 ( 65.272 ) l TEMP 13 = 525.0500 ( 65.380 ) l l

TEMP 14 n 523.7240 ( 64.054 ) l l

l TEMP 15 = 524.3300 ( 64.660 ) l TEMP 16 = 523.6070 ( 63.937 ) '

l TEMP 17 = 523.8970 ( 64.227 )

TEMP 18 = 523.3140 ( 63.644 )

PRES 1= 65.3584 (132417.0 )

PRES 2= 65.3611 ( 66524.0 )

VPRS 1= .2951 ( 64.012 )

VPRS 2= .2967 ( 64.172 )

l VPRS 3= .2973 ( 64.221 )

54.031 )

VPRS 4= .2065 (

VPRS 5= .3100 ( 65.422 ) i VPRS 6= .2913 ( 63.642 )

SUMMARY

OF CORRECTED DATA TIME = 1030 DATE = 115 TEMPERATURE (DEGREES R.) = 524.6873 CORREC7ED PRESSURE (PSIA) = 65.0708

= .2890 l

VAPOR PRESSURE (PSIA)

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669489.5 I

SUMMARY

OF MEASURED DATA AT 1045 115 TEMP 1 = 524.6540 ( 64.984 )

TEMP 2 = 524.1230 ( 64.453 )

TEMP 3 = 524.5580 ( 64.288 )

TEMP 4 = 529.9590 ( 70.289 )

TEMP 5 = 527.3900 ( 67.720 )

TEMP 6 = 524.2290 ( 64.559 )

TEMP 7 = 524.1230 ( 64.453 )

TEMP 8 = 523.7020 ( 64.032 )

TEMP 9 = 523.9820 ( 64.312 )

TEMP 10 = 528.5650 ( 68.895 )

TEMP 11 = 524.4350 ( 64.765 )

TEMP 12 = 524.9480 ( 65.278 )

TEMP 13 = 525.0350 ( 65.365 )

TEMP 14 = 523.7340 ( 64.064 )

TEMP 15 = 524.3610 ( 64.691 )

TEMP 16 = 523.6540 ( 63.984 )

TEMP 17 = 523.9260 ( 64.256 )

TEMP 18 = 523.3340 ( 63.664 )

PRES 1= 65.3584 (132417.0 )

PRES 2= 65.3611 ( 66524.0 )

VPRS 1= .2940 ( 63.909 )

O- VPRS 2= .2955 ( 64.054 )

VPRS 3= .2959 ( 64.086 )

VPRS 4= .2070 ( 54.095 )

VPRS S= .3089 ( 65.327 )

VPRS 6= .2907 ( 63.589 )

SUMMARY

OF CORRECTED DATA TIME = 1045 DATE = 115 TEMPERATURE (DEGREES R.) = 524.6884 CORRECTED PRESSURE (PSIA) = 65.0718 VAPOR PRESSURE (PSIA) = .2880 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669497.8 O

SUMMARY

OF MEASURED DATA AT 1100 115 ITMP 1 = 524.6750 ( 65.005 )

i TEMP 2 = 524.1410 ( 64.471 )

TEMP 3 = 524.5930 ( 64.923 )

l TEMP 4 = 530.2380 ( 70.568 )

TEMP 5 = 527.4080 ( 67.738 )

TEMP 6 = 524.2220 ( 64.5E2 )

TEMP 7 = 524.1240 ( 64.454 )

TEMP 8 = 523.7080 ( 64.038 )

TEMP 9 = 523.9490 ( 64.279 )

TEMP 10 = 528.7000 ( 69.030 )

TEMP 11 = 524.4520 ( 64.782 )

TEMP 12 = 524.9500 ( 65.280 )

l TEMP 13 = 524.8550 ( 65.185 ) i TEMP 14 = 523.7640 64.094 )

(

TEMP 15 = 524.3640 ( 64.694 ) ;

TEMP 16 = 523.6800 ( 64.010 ) l l

TEMP 17 = 523.9460 ( 64.276 ) l TEMP 18 = 523.3440 ( 63.674 ) i i PRES 1= 65.3599 (132420.0 ) l PRES 2= 65.3611 ( 66524.0 )

VPRS VPRS 1=

2=

.2934

.2949

(

63.851 )

63.990 ) h!!

VPRS 3= .2948 ( 63.986 )

VPRS 4= .2073 ( 54.133 )

VPRS 5= .3082 ( 65.261 ) i l VPRS 6= .2905 ( 63.569 )

SUMMARY

OF CORRECTED DATA TIME = 1100 l DATE = 115 l

TEMPERATURE (DEGREES R.) = 524.6988 CORRECTED PRESSURE (PSIA) = 65.0731 l VAPOR PRESSURE (PSIA) = .2874 VOLUME (CU.FT.) = 2000000,0 l AIR MASS (LBM) = 665498.0 l

O 1

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

O

\J

SUMMARY

OF MEASURED DATA AT 1115 115 TEMP 1 = 524.6260 ( 64.956 ) I TEMP 2 = 524.1520- ( 64.482 )

TEMP 3 = 524.6030 ( 64.933 )-

TEMP 4 = 530.2350 ( 70.565 )

TEMP 5 = 527.4080 ( 67.738 ) -'

TEMP 6 = 524.2580 ( 64.588 )

TEMP 7 = 524.1590 ( 64.489 )

TEMP 8 = 523.7410 ( 64.071 )

TEMP 9 = 523.9460 ( 64.276 )

TEMP 10 = 528.5320 (- 68.862 )

TEMP 11 = 524.4660 ( 64.796 )

TEMP 12_= 525.0050 ( 65.335 )

TEMP 13 =.524.9450 ( 65.275 )

TEMP 14 = 523.7690 ( 64.099 )

TEMP 15 = 524.3900 ( 64.720 )

TEMP 16 = 523.7180 ( 64.048 ) l TEMP 17 = 523.9820 ( 64.312 )

TEMP'18 = 523.3870 ( 63.717 )

PRES 1= 65.3618 (132424.0 )

l PRES- 2 =~-65.3611 ( 66524.0 )

0'

, VPRS VPRS VPRS 1=

2=

3=

.2932

.2946

.2942

(

63.829 )

63.964 )

63.922 )

VPRS' 4 = .2073 ( 54.139 )

VPRS 5= .3080 ( 65.235 ).

VPRS 6= .2904 ( 63.559 )

SUMMARY

OF CORRECTED DATA-h TIME = 1115 DATE = 115 TEMPERATURE (DEGREES R.) = 524.7092 CORRECTED PRESSURE-(PSIA) = 65.0743

= .2871 VAPOR PRESSURE-(PSIA)

l. -VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669497.8 l_

h-l O

SUMMARY

OF MEASURED DATA AT 1130 115 O

TEMP 1 = 524.7010 ( 65.031 )

TEMP 2 = 524.24S0 ( 64.573 )

TEMP 3 = 524.6780 ( 65.008 )

TEMP 4 = 530.3060 ( 70.636 )

TEMP 5 = 527.4580 ( 67.788 )

TEMP 6 = 524.4900 ( 64.820 )

TEMP 7 = 524.2100 ( 64.540 j TEMP 8 = 523.7560 ( 64.086 )

TEMP 9 = 524.0050 ( 64.335 )

TEMP 10 = 528.8220 ( 69.152 )

TEMP 11 = 524.6220 ( 64.952 )

TEMP 12 = 525.0520 ( 65.382 )

TEMP 13 = 524.9950 ( 65.325 )

TEMP 14 = 523. '150 ( 64.045 )

TEMP 15 = 524.4080 ( 64.738 )

TEMP 16 = 523.7760 ( 64.106 )

TEMP 17 = 524.0140 ( 64.344 )

TEMP '_8 = 523.4670 ( 63.797 )

PRES 1= 65.3653 (132431.0 )

PRES 2= 65.3641 ( 66527.0 )

VPRS 1= .2085 ( 54.298 )

VPRS 2= .2098 ( 54.464 )

VPRS 3= .2062 ( 53.990 )

VPRS 4= .2074 ( 54.153 )

VPRS 5= .2137 ( 54.969 )

VPRS 6= .2042 ( 53.730 )

SUMMARY

OF CohRECTED DATA TIME = 1130 DATE = 115 TEMPERATURE (DEGREES R.) = 524.7942 CORRECTED PRESSURE (PSIA) = 65.1568 VAPOR PRESSURE (PSIA) = .2079 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670237.4 O

1 l

/"

N~)\

SUMMARY

OF MEASURED DATA AT 1145 115 TEMP 1 = 524.7510 ( 65.081 )

TEMP 2 = 524.2630 ( 64.593 )

TEMP 3 = 524.7150 ( 65.045 )

TEMP 4 = 530.4410 ( 70.771 )

TEMP 5 = 527.5760 ( 67.906 )

TEMP 6 = 524.6190 ( 64.949 )

TEMP 7 = 524.2830 ( 64.613 )

TEMP 8 = 523.8450 ( 64.175 )

TEMP 9 = 524.0460 ( 64.376 )

TEMP 10 = 528.4060 ( 68.736 )

TEMP 11 = 524.7480 ( 65.078 )

TEMP 12 = 525.1370 ( 65.467 )

TEMP 13 = 524.9470 ( 65.277 )

TEMP 14 = 523.7980 ( 64.128 )

TEMP 15 = 524.5150 ( 64.845 )

TEMP 16 = 523.8680 ( 64.198 )

TEMP 17 = 524.1120 ( 64.442 )

TEM 7 id = 523.5660 ( 63.896 )

PRES 1= 65.3766 (132454.0 )

PRES 2= 65.3749 ( 66538.0 )

' \

s VPRS 1= .2084 ( 54.281 )

VPRS 2= .2119 ( 54.742 )

VPRS 3= .2077 ( 54.188 )

VPRS 4= .2079 ( 54.220 )

VPRS 5= .2166 ( 55.345 )

VPRS 6= .2098 ( 54.463 )

SUMMARY

OF CORRECTED DATA TIME = 1145 DATE = 115 TEMPERATURE (DEGREES ..) = 524.8493 CORRECTED PRESSURE (PSIA) = 65.1659 VAPOR PRESSURE (PSIA) = .2099 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670260.4

SUMMARY

OF MEASURED DATA AT 1200 115 O

TEMP 1 = 524.8490 ( 65.179 )

TEMP 2 = 524.3300 ( 64.660 )

TEMP 3 = 524.8060 ( 65.136 )

TEMP 4 = 530.4980 ( 70.828 )

TEMP 5 = 527.6630 ( 67.993 )

TEMP G = 524.6840 ( 65.014 )

TEMP 7 = 524.3490 ( 64.679 )

TEMP 8 = 573.9180 ( 64.248 )

TEMP 9 = 524.1670 ( 64.497 )

TEMP 10 = 528.6350 ( 68.965 )

TEMP 11 = 524.8050 ( 65.135 )

TEMP 12 = 525.1910 ( 65.521 l TEMP 13 = 525.1800 ( 65.510 )

TEMP 14 = 523.8660 ( 64.196 )

TEMP 15 = 524.6230 ( 64.953 )

TEMP 16 = 523.9300 ( 64.260 )

TEMP 17 = 524.1910 ( 64.521 )

TEMP 18 = 523.6570 ( 63.987 )

PRES 1= 65.3865 (132474.0 )

PRES 2= 65.3837 ( 66547.0 )

VPRS 1= .2094 ( 54.412 ) h VPRS 2= .2129 ( 54.866 )

VPRS 3= .2081 ( 54.245 )

VPRS 4= .2080 ( 54.228 )

VPRS 5= .2179 ( 55.513 )

VPRS 6= .2103 ( 54.530 )

SUMMARY

OF CORRECTED DATA TIME = 1200 DATE = 115 TEMPERATURE (DEGREES R.) = 524.9406 CORRECTED PRESSURE (PSIA) = 65.1745

= .2106 VAPOR PRESSURE (PSIA)

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670232.5 0

i O

SUMMARY

OF MEASURED DATA AT 1215 115 TEMP 1 = 524.9450 ( 65.275 )

TEMP 2 = 524.4110 ( 64.741 )

TEMP 3 = 524.8810 ( 65.211 )

TEMP 4 = 530.5510 ( 70.881 )

TEMP 5 = 527.7480 ( 68.078 )

TEMP 6 = 524.7850 ( 65.115 )

TEMP 7 a 524.4190 ( 64.749 )

TEMP 8 = 524.0040 ( 64.334 )

TEMP 9 = 524.1870 ( 64.517 )

TEMP 10

528.7130 ( 69.043 )

TEMP 11 = 524.8570 ( 65.187 )

TEMP 12 = 525.2290 ( 65.559 )

TEMP 13 = 525.3420 ( 65.672 )

TEMP 14 = 523.9150 ( 64.245 )

TEMP 15 = 524.7240 ( 65.054 )

TEMP 16 = 524.0020 ( 64.332 )

TEMP 17 = 524.2630 ( 64.593 )

TEMP 18 = 523.7200 ( 64.050 )

PRES 1= 65.3934 (132488.0 )

PRES 2= 65.3916 ( 66555.0 )

O VPRS VPRS 1=

2=

.2102

.2131

.2081

(

54.513 )

54.895 )

VPRS 3= ( 54.246 )

VPRS 4= .2082 ( 54.255 )

VPRS 5= .2184 ( 55.572 )

VPRS 6= .2103 ( 54.530 )

SUMMARY

OF CORRECTED DATA TIME = 1215 DATE = 115 TEMPERATURE (DEGREES R.) = 525.0213 CORRECTED PRESSURE (PSIA) = 65.1816 VAPOR PRESSURE (PSIA) = .2109 VOLUME (CU.FT.) = 2000000.0 AIM MASS (LEM) = 670202.4 O

- - - - - - - - - - - - - _ _ - _ _-___m ___

SUMMARY

OF MEASURED DATA AT 1230 115 O

TEMP 1 = 524.9740 ( 65.304 )

TEMP 2 = 524.4690 ( 64.799 )

TEMP 3 = 524.9150 ( 65.245 )

TEMP 4 = 530.5770 ( 70.907 )

TEMP 5 = 527.8230 ( 68.153 )

TEMP 6 = 524.7910 ( 65.121 )

TEMP 7 = 524.4770 ( 64.807 )

TEMP 8 = 524.0600 ( 64.390 )

TEMP 9 = 524.2710 ( 64.601 )

TEMP 10 = 528.7510 ( 69.081 )

TEMP 11 = 524.9240 ( 65.254 )

TEMP 12 = 525.3360 ( 65.666 )

TEMP 13 = 525.2730 ( 65.603 )

TEMP 14 = 523.9780 ( 64.308 )

TEMP 15 = 524.7800 ( 65.110 )

TEMP 16 = 524.0490 ( 64.379 )

TEMP 17 = 524.3270 ( 64.657 )

TEMP 18 = 523.7850 ( 64.115 )

PRES 1= 65.4006 (132503.0 )

PRES 2= 65.3984 ( 66562.0 )

VPRS 1= .2102 ( 54.521 )

VPRS 2= .2132 ( 54.910 )

VPRS 3= .2004 ( 54.281 )

VPRS 4= .2083 ( 54.266 )

VPES 5= .2187 ( 55.606 )

VPRS 6= .2110 ( 54.618 )

SUMMARY

OF CORRECTED DATA TIME = 1230 DATE = 115 TEMPERATURE (DEGREES R.) = 525.0673 CORRECTED PRESSURE (PSIA) = 65.1885

= .2112 VAPOR PRESSURE (PSIA)

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670214.6 e

i i

SUMMARY

OF MEASURfD DATA AT 1245 115 i

-- t 65.361 )

TEMP 1 = 525.0310 (

TEMP 2 = 524.5240 ( 64.854 ) l TEMP 3 = 524.9850 ( 65.315 ) !

TEMP 4 = 530.5890 ( 70.919 ) -

TEMP 5 = 527.3560 ( 68.186 ) I TEMP 6 = $26.8750 ( 65.205 ) t TEMP 7 = 524.5300 ( 64.860 )

TEMP 8 = 52d.1100 ( 64.440 )- t TEMP 9 = 5*. 3090 ( 64.639 )

TEMP 10 = 5;d.4470 ( 68.777 ) t TEMP 11 = 525.0030 ( 65.333 ) !

TEMP 12 = 525.3170 ( 65.647 )

TEMP 13 = 525.2180 ( 65.548 )

TEMP 14 = 524.0800 ( 64.410 )

TEMP 15 = 524.8430 ( 65.173 )

TEMP 16 = 524.1260 ( 64.456 ) ,

TEMP 17 = 524.3840 ( 64.714 ) i TEMP 18 = 523.8270 ( 64.157 )

PRES 1= 65.4072 (132516.0 )

PRES 2= 65.4043 ( 66568.0 ) ,

.2105 1

O .VPRS VPRS VPRS 1=

2=

3=

.2135

.2091

(

54.556 )

54.943 )

54.379 )

.VPRS 4= .2087 ( 54.325 )

VPRS 5= .2106 ( 55.601 ) ,

VPRS 6= .2107 ( 54.588 ) !

1

SUMMARY

0F CORRECTED DATA .

TIME = 1245 !

DATE = 115 TEMPERATURE (DEGREES R.) = 525.1065 .,

CORRECTED P'AESSURE (PSIA) = 65.1944 VAPOR PRESSURE (PSIA) = .2114 i VOLUME (CU.FT.) = 2000000.0 i AIR MASS (LBM) = 670225.0 I

h

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

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

SUMMARY

OF MEASURED DATA AT 1300 115 O

TEMP 1 = 525.0670 ( 65.397 )

TEMP 2 = 524.5590 ( 64.889 )

TEMP 3 = 525.0400 ( 65.370 )

TEMP 4 = 530.5210 ( 70.851 )

TEMP 5 = 527.9040 ( 68.234 )

TEMP 6 = 524.9020 ( 65.232 )

TEMP 7 = 524.5910 ( 64.921 )

TEMP 8 = 524.1730 ( 64.503 )

TEMP 9 = 524.3590 ( 64.689 )

TEMP 10 = 528.6220 ( 68.952 )

TEMP 11 = 525.0340 ( 65.364 )

TEMP 12 = 525.4200 ( 65.750 )

TEMP 13 = 525.3540 ( 65.684 )

TEMP 14 = 524.1150 ( 64.445 )

TEMP 15 = 524.9040 ( 65.234 )

TEMP 16 = 524.1750 ( 64.505 )

TEMP 17 = 524.4480 ( 64.778 )

TEMP 18 = 523.8880 ( 64.218 )

PRES 1= 65.4127 (132527.0 )

PRES 2= 65.4102 ( 66574.0 )

VPRS 1= .2107 ( 54.580 )

VPRS 2= .2139 ( 55.001 )

VPRS 3= .2091 ( 54.371 )

VPRS 4= .2088 ( 54.330 )

VPRS 5= .2187 ( 55.607 )

VPRS 6= .2109 ( 54.615 )

SUMMARY

OF CORRECTED DATA TIME = 1300 DATE = 115 TEMPERATURD (DEGREES R.) = 525.1633

= 65.1998 CORRECTED PRESSURE (PSIA)

= .2116 VAPOR PRESSURE (PSIA)

VOLUME (CU. FT. ) = 2000000.0 AIR MASS (LBM) = 670200.9 O

SUKKARY OF MEASURED DATA AT 1315 115 TEMP 1 = 525.1200 ( 65.458 )

TEMP 2 = 524.6080 ( 64.938 )

TEMP 3 = 525.0890 ( 65.419 )

TEMP 4 = 530.6310 ( 70.961 )

TEMP 5 = 527.9600 ( 68.290 )

TEMP 6 = 524.9560 ( 65.286 )

TEMP 7 = 524.3990 ( 64.929 )

TEMP 8 = 524.1900 ( 64.520 )

TEMP 9 = 524.3940 ( 64.724 )

TEMP 10 = 529.1050 ( 69.435 )

TEMP 11 = 525.1010 ( 65.431 )

TEMP 12 = 525.4170 ( 65.747 )

TEMP 13 = 525.5140 ( 65.844 )

TEMP 14 = 524.1090 ( 64.439 )

TEMP 15 = 524.9270 ( 65.257 )

TEMP 16 = 524.2280 ( 64.558 )

TEMP 17 = 524.4980 ( 64.828 )

TEMP 18 = 523.9260 ( 64.256 )

PRES 1= 65.4142 (132530.0 )

PRES 2= 65.4122 ( 66576.0 )

O VPRS VPRS VPRS 1=

2=

3=

.2102

.2138

.2091

(

54.515 )

54.991 )

54.377 )

VPRS 4= .2088 ( 54.338 )

VPRS 5= .2190 ( 55.650 ) >

VPRS 6= .2112 ( 54.649 )

SUMMARY

OF CORRECTED DATA TIME = 1315 DATE = 115 TEMPERATURE (DEGREES R.) = 525.2285 CORRECTED PRESSURE (PSIA) = 65.2016 VAPOR PRESSURE (PSIA) = .2116 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670143.9 i

O l

l l

l

SUMMARY

OF MEASURED DATA AT 1330 115 TEMP 1 = 525.1250 ( 65.455 )

TEMP 2 = 524.6430 ( 64.973 ) i TEMP 3 = 525.1450 ( 65.475 ) ;

TEMP 4 = 530.6410 ( 70.971 ) l TEMP 5 = 527.9660 ( 68.296 ) !

TEMP 6a 525.0120 ( 65.342 ) l TEMP 7= 't.6490 ( 64.979 )

TEMP 8= '.2260 ( 64.556 )

TEMP 9= . .4480 ( 64.778 )

TEMP 10 = :7' 6500 ( 68.980 )

TEMP 11 = 526.1280 ( 65.458 )

TEMP 12 = 525.4270 ( 65.757 )

TEMP 13 = 525.3650 ( 65.695 )

TEMP 14 = 524.2550 ( 64.585 )

TEMP 15 = 524.9450 ( 65.275 )

TEMP 16 = 524.2650 ( 64.595 )

TEMP 17 = 524.5360 ( 64.866 )

TEMP 18 = 523.9730 ( 64.303 )

PRES 1= 65.4112 (132524.0 )

PRES 2= 65.4092 ( 66573.0 )

VPRS 1= .2114 ( 54.670 )

VPRS 2= .2143 ( 55.047 )

VPRS 3= .2088 ( 54.332 )

VPRS 4= .2088 ( 54.333 )

VPRS 5= .2200 ( 55.767 )

VPRS 6= .2113 ( 54.657 )

SUMMARY

OF CORRECTED DATA TIME = 1330 DATE = 115 TEMPERATURE (DEGREES R.) = 525.2380

= 65.1983 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .2119 VOLUPE (CU. FT. ) = 2000000.0 AIR MASS (LBM) = 670097.6 O

SUMMARY

OF MEASURED DATA AT 1345 115 TEMP 1 = 525.2090 ( 65.539 ) i TEMP 2 = 524.6770 ( 65.007 )

TEMP 3 = 525.1950 ( 65.525 )

TEMP 4 = 529.8250 ( 70.155 )

TEMP 5 = 528.0460 ( 68.376 ) l TEMP 6 = 525.0180 ( 65.348 ) i TEMP 7 = 524.7100 ( 65.040 )

TEMP 8 = 524.2910 ( 64.621 )

TEMP 9 = 524.5060 ( 64.836 )

TEMP 10 = 528.6800 ( 69.010 )

TEMP 11 = $25.1620 ( 65.492 )

TEMP 12 = 525.5080 ( 65.838 )

TEMP 13 = 525.3540 ( 65.684 )

TEMP 14 = 524.2420 ( 64.572 )

TEMP 15 = 524.9970 ( 65.327 ) .

TEMP 16 = 524.3290 ( 64.659 ) l TEMP 17 = 524.5850 ( 64.915 ) l TEMP 18 = 524.0230 ( 64.353 ) l PRES 1= 65.4166 (132535.0 )

PRES 2= 65.4141 ( 66578.0 ) l O VPRS VPRS VPRS 1=

2=

3=

.2110

.2148

.2092

(

54.628 )

55.110 )

54.391 )

VPRS 4= .2091 ( 54.377 )

VPRS 5= .2198 ( 55.751 )

VPRS 6= .2114 ( 54.673 )

SUMMARY

OF CORRECTE0 DATA TIME = 1345 DATE = 115 TEMPERATURE (DEGREES R.) = 525.2844

= 65.2033 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .2121 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670089.8

SUMMARY

CP MEASURED DATA AT 1400 115 O

TEMP 1 = 525.2060 ( 65.536 )

TEMP 2 = 524.7280 ( 65.058 )

TEMP 3 = 525.1830 ( 65.513 )

TEMP 4 = 529.8910 ( 70.221 )

TEMP 5 = 528.0640 ( 68.394 )

TEMP 6 = 525.0410 ( 65.371 )

TEMP 7 = 524.7180 ( 65.048 )

TEMP 8 = 524.2950 ( 64.625 )

TEMP 9 = 524.6160 ( 64.946 )

TEMP 10 = 528.9320 ( 69.262 )

TEMP 11 = 525.2090 ( 65.539 )

TEMP 12 = 525.5690 ( 65.899 )

TEMP 13 = 525.3680 ( 65.698 )

TEMP 14 = 524.3160 ( 64.646 )

TEMP 15 = 525.0240 ( 65.354 )

TEMP 16 = 524.3610 ( 64.691 )

TEMP 17 = 524.6350 ( 64.965 )

TEMP 18 = 524.0780 ( 64.408 )

PRES 1= 65.4216 (132545.0 )

PRES 2= 65.4190 ( 66583.0 )

VPRS 1= .2111 ( 54.637 )

VPRS 2= .2145 ( 55.076 )

VPRS 3= .2100 ( 54.490 )

VPRS 4= .2094 ( 54.417 )

VPRS 5= .2195 ( 55.714 )

VPRS 6= .2115 ( 54.689 )

SUMMARY

OF CORRECTED DATA TIME = 1400 DATE = 115 TEMPERATURE (DEGREES R.) = 525.3203 CORRECTED PRESSURE (PSIA) = 65.2081 VAPOR PRESSURE (PSIA) = .2123 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670093.1 1

- _ _ - - _ . - _ _ . _ - _ _ _ _ _ . _ _ - _ _ _ _ _ _ _ _ _ m.

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

l 1

l O

SUMMARY

OF MEASURED DATA AT 1415 115 TEMP 1 = 525.2730 ( 65.603 )

. TEMP 2 = 524.7760 ( 65.106 )

TEMP 3 = $25.2610 ( 65.591 )

TEMP 4 = 529.9260 ( 70.256 )

TEMP 5 = 528.0880 ( 68.418 ) i TEMP 6 = 525.0920 ( 65.422 )

TEMP 7 = 524.7770 ( 65.107 )

TEMP 8 = 524.3270 ( 64.657 )

TEMP 9 = 521.5850 ( 64.915 )

TEMP 10 = 529.2860 ( 69.616 )

TEMP 11 = 525.2660 ( 65.596 )

TEMP 12 = 525.6260 ( 65.956 )

TEMP 23 = 525.2900 ( 65.620 )

TEMP 14 = 524.3650 ( 64.695 )

TEMP 15 = 525.0350 ( 65.365 )

TEMP 16 = 524.3940 ( 64.724 )

TEMP 17 = 524.6740 ( 65.004-)

TEMP 18 = 524.1320 ( 64.462 )

PRES 1= 65.4265 (132555.0 ) -

PRES 2= 65.4239 ( 66588.0 )

() VPRS VPRS 1=

2=

.2113 (

.2151 (

54.666 )

55,152 )

VPRS 3= .2090- ( 54.368 )

VPRS 4= .2093 -( S4.403 )

VPRS 5= .2203 ( 55.815 )-

VPRS 6= .2119 ( 54.744 )

SUMMARY

OF CORRECTED DATA TIME = 1415 DATE = 115 TEMPERATURE (DEGREES R.) = 525.3749 CORRECTED PRESSURE (PSIA) = 65.2129 VAPOR-PRESSURE-(PSIA) =1 .2124 VOLUME (CU.FT.) = 2000000.0 l AIR MASS (LBM) = 670072.8 l'

O

SUMMARY

OF MEASURED DATA AT 1430 115 TEMP 1 = 525.3080 ( 65.638 )

l TEMP 2 = 524.7990 ( 65.129 )

i TEMP 3 = 525.2790 ( 65.609 )

TEMP 4 = 529.9700 ( 70.300 )

TEMP 5 = 528.1530 ( 68.483 )

TEMP G = 525.1540 ( 65.484 )

TEMP 7 = 524.8140 ( 65.144 )

TEMP 8 = 524.3910 ( 64.721 )

TEMP 9 = 524.6020 ( 64.932 )

TEMP 10 = 529.1860 ( 69.516 )

TEMP 11 = 525.3010 ( 65.631 )

TEMP 12 = 525.6550 ( 65.985 )

TEMP 13 = 525.4960 ( 65.826 )

TEMP 14 = 524.4480 ( 64.778 )

l TEMP 15 = 525.0900 ( 65.420 )

TEMP 16 = 524.4290 ( 64.759 )

l TEMP 17 = 524.7060 ( 65.036 )

TEMP 18 = 524.1650 ( 64.495 )

PRES 1= 65.4309 (132564.0 )

PRES 2= 65.4288 ( 66593.0 )

VPRS 1= .2119 ( 54.736 ) h VPRS 2= .2149 ( 55.131 )

VPRS 3= .2101 ( 54.509 )

VPRS 4= .2096 ( 54.444 )

l VPRS 5= .2201 ( 55.787 )

VPRS 6= .2119 ( 54.745 )

SUMMARY

OF CORRECTED DATA TIME = 1430 DATE = 115 TEMPERATURE (DEGREES R.) = 525.4183 CORRECTED PRESSURE (PSIA) = 65.2172 VAPOR PRESSURE (PSIA) = .2127 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670062.1 l

l

O

SUMMARY

OF MEASURED DATA AT 1445 115 TEMP 1 = 525.3490 ( 65.679 )

TEMP 2 = 524.8150 ( 65.145 )

TEMP 3 = 525.2990 ( 65.629 )

TEMP 4 = 530.0200 ( 70.350 )

TEMP 5 = 528.1720 ( 68.502 )

TEMP 6 = 525.1790 ( 65.509 )

TEMP 7 = 524.8520 ( 65.182 )

TEMP 8 = 524.4800 ( 64.810 )

TEMP 9 = 524.6860 ( 65.016 )

TEMP 10 = 528.9670 ( 69.297 )

TEMP 11 = 525.3430 ( 65.673 )

TEMP 12 a 525.6680 ( 65.998 )

TEMP 13 = 523.5130 ( 65.843 )

TEMP 14 = 524.4800 ( 64.810 )

TEMP 15 = 525.1420 ( 65.472 )

TEMP 16 = 524.4860 ( 64.816 )

TEMP 17 = 524.7540 ( 65.084 )

TEMP 18 = 524.2280 ( 64.558 )

PRES 1= 65.4359 (132574.0 )

PRES 2= 65.4328 ( 66597.0 )

O VPRS VPRS VPRS 1=

2=

3=

.2121

.2155

.2099

(

54.765 )

55.204 )

54.483 )

VPRS 4 = .2097 ( 54.458 )

VPRS 5= .2201 ( 55.790 )

VPRS 6= .2121 ( 54.771 )

SUMMARY

OF CORRECTED DATA TIME = 1445 DATE = 115 TEMPERATURE (DEGREES R.) = 525.4448 CORRECTED PRESSURE (PSIA) = 65.2215 VAPOR PRESSURE (PSIA) = .2129 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670072.1 0

l

SUMMARY

OF MEASURED DATA AT 1500 115 l

TEMP 1 = 525.3600 ( 65.690 ) l TEMP 2 = 524.8670 ( 65.197 )

TEMP 3 = $25.2840 ( 65.614 )

TEMP 4 = 530.0640 ( 70.394 )

TEMP 5 = 528.2140 ( 68.544 )

TEMP 6 = 525.1920 ( 65.522 )

TEMP 7 = 524.8720 ( 65.202 )

TEMP 8 = 524.4680 ( 64.798 )

TEMP 9 = 524.6610 ( 64.991 )

TEMP 10 = 529.2590 ( 69.589 )

TEMP 11 = 525.4150 ( 65.745 )

TEMP 12 = 525.6850 ( 66.015 )

TEMP 13 = 525.6240 ( 65.954 )

TEMP 14 = 524.5100 ( 64.840 )

TEMP 15 = 525.1510 ( 65.481 )

TEMP 16 = 524.5090 ( 64.839 )

TEMP 17 = 524.7930 ( 65.123 )

TEMP 18 = 524.2370 ( 64.567 )

PRES 1= 65.4403 (132583.0 )

PRES 2= 65.4357 ( 66600.0 )

VPRS 1= .2127 ( 54.847 )

VPRS 2= .2153 ( 55.183 )

VPRS 3= .2100 ( 54.498 )

VPRS 4= .2100 ( 54.498 )

VPRS 5= .2207 ( 55.854 )

VPRS 6= .2124 ( 54.811 )

SUMMARY

OF CORRECTED DATA TIME = 1500 DATE = 115 TEMPERATURE (DEGREES R.) = 525.4811 CORRECTED PRESSURE (PSIA) = 65.2249

=

VAPOR PRESSURE (PSIA) .2131 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670061.1 0

l O SUKdARY OF MEASURED DATA AT 1515 115 TEMP 1 = 525.4040 ( 65.734 )

TEMP 2 = 524.8900 ( 65.22b )

TEMP 3 = 525.3560 ( 65.686 )

TEMP 4 = 530.0840 ( 70.414 )

TEMP 5 = 528.1970 ( 68.527 )

TEMP 6 = 525.2640 ( 65.594 )

TEMP 7 = 524.9250 ( 65.255 )

TEMP 8 = 524.5120 ( 64.842 )

TEMP 9 = $24 7510 ( 65.081 )

TEMP 10 = 529.3840 ( 69.714 )

TEMP 11 = 525 3830 ( 65.713 )

TEMP 12 = 525.7460 ( 66.076 )

TEMP 13 = 525.5190 ( 65.849 )

TEMP 14 = 524.5470 ( 64.877 )

TEMP 15 = 525.2000 ( 65.538 )

TEMP 16 = 524.5670 ( 64.897 )

TEMP 17 = 524.8290 ( 65.159 )

TEMP 18 = 524.2950 ( 64.625 )

PRES 1= 55.4438 (132590.0 )

PRES 2= 65.4406 ( 66605.0 )

54.786 )

O VPRS VPRS VPRS 1=

2=

3=

.2123

.2158

.2105

(

55.241 )

54.563 )

VPRS 4= .2099 ( 54.486 )

VPRS 5= .2206 ( 55.845 )

VPRS 6= .2123 ( 54.791 )

SUMMARY

OF CORRECTED DATA TIM *: = 1515 DATE = 115 TEMPERATURE (DEGREES R.) = 525.5179 CORRECTED PRESSURE (PSIA) = 65.2290 VAPOR PRESSURE (PSIA) = .2132 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670056.4 O

SUMMARY

OF MEASURED DATA IT 1530 115 TEMP 1 = $25.4530 ( 65.783 )

TEMP 2 = 524.9570 ( 65.287 )

TEMP 3 = 525.4110 ( 65.741 )

TEMP 4 = 530.1870 ( 70.517 )

TEMP 5 = 528.3130 ( 68.643 )

TEMP 6 = 525.3430 ( 65.673 )

TEMP 7 = 524.9340 ( 55.264 )

TEMP 8 = 524.5040 ( 6ts.834 )

TEMP 9 = 524.7820 ( 65.112 )

TEMP 10 = 529.2970 ( 6c,.627 )

TEMP 11 = 525.4810 ( 65.811 )

TEMP 12 = 525.7400 ( 66.070 )

TEMP 13 = 525.5540 ( 65.884 )

TEMP 14 = 524.6380 ( 64.968 )

TEMP 15 = 525.2120 ( 65.542 )

TEMP 16 = 524.5940 ( 64.924 )

TEMP 17 = 524.8670 ( 65.197 )

TEMP 18 = 524.3520 ( 64.682 )

PRES 1= 65.4482 (132599.0 )

PRES 2= 65.4446 ( 66609.0 )

VPRS 1= .2127 ( 54.849 ) h VPRS 2= .2160 ( 55.264 )

VPRS 3= .2101 ( 54.507 )

VPRS 4= .2106 ( 54.570 )

VPRS 5= .2205 ( 55.833 )

VPRS 6= .2123 ( 54.789 )

SUMMARY

OF CORRECTED DATA TIME = 1530 DATE = 115 TEMPERATURE (DEGREES R.) = 525.5656

= 65.2331 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .2133 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670037.6 i

e

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

l l

SUMMARY

OF MEASURED DATA AT 1545 115 f TEMP 1 = 525.4750 ( 65.805 ) >

TEMP 2 = 524.9510 ( 65.281 ) !

TEMP 3 = 525.5050 ( 65.835 ) .

TEMP 4 = 530.2250 ( 70.555 ) i TEMP 5 = 528.3280 ( 68.658-) :

TEMP 6 = 525.3300 ( 65.660 ) l TEMP 7 = 524.9730 ( 65.303 ) '

TEMP 8 = 524.5730 ( 64.903 )

TEMP 9 =.524.8890 ( 65.219 ) 2 TEMP 10 = 529.3990 ( 69.729-) , 4 TEMP 11 = 525.4820 ( 65.812 )

TEMP 12 = 525.8120 ( 66.142 ) !

TEMP 13 = 525.8070 ( 66.137 )

TEMP-14 = 524.5480 ( 64.878 )

TEMP 15_= 525.2690 ( 65.599 )

TEMP-16 = 524.6050 ( 64.935 )-

TEMP 17 = 524.8990 ( 65.229 )

TEMP 18 = 524.3550 ( 64.685 )

l PRES 1= 65.4532 (132609.0 )

PRES 2= 65.4485 ( 66613.0 )

O VPRS VPRS 1=

2=

.2125

.2160

(

54.814 )

55.262 ) i VPRS 3= .2106 ( 54.574 ) F VPRS 4= .2107 ( 54.579 )

VPRS 5= .2207 ( 55.864 ) !

VPRS 6= .2126 ( 54.827 )

l l

SUMMARY

OF CORRECTED DATA '

L TIME = 1545 4#p DATE = 115 Nw/

TEMPERATURE (DEGREES R. ) = 525.6027 CORRECTED PRESSURE (PSIA) = 65.2374 VAPOR PRESSURE (PSIA) = .2134 VOLUME (CU. FT. ) = 2000000.0 AIR MASS (LBM) = 670034.6 (

l-(

1

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

SUMMARY

OF MEASURED DATA AT 1600 115 O

TEMP 1 = 525.5140 ( 65.844 )

TEMP 2 = 524.9920 ( 65.322 )

TEMP 3 = 525.5330 ( 65.863 )

TEMP 4 = 530.9140 ( 71.244 )

TEMP 5 = 528.3620 ( 68.692 )

TEMP 6 = 525.3140 ( 65.644 )

TEMP 7 = 525.0120 ( 65.342 )

TEMP 8 = 524.5910 ( 64.921 )

TEMP 9 = 524.8290 ( e5.159 )

TEMP 10 = 529.4830 ( 69.813 )

TEMP 11 = 525.4910 ( 65.821 )

TEMP 12 = 525.8210 ( 66.151 )

TEMP 13 = 525.8060 ( 66.136 )

TEMP 14 = 524.6020 ( 64.932 )

TEMP 15 = 525.3300 ( 65.660 )

TEMP 16 = 524.6340 ( 64.964 )

TEMP 17 = 524.9420 ( 65.272 )

TEMP 18 = 524.4160 ( 64.746 )

PRES 1= 65.4571 (132617.0 )

PRES 2= 65.4524 ( 66617.0 )

VPRS 1= .2127 ( 54.843 )

VPRS 2= .2158 ( 55.247 )

VPRS 3= .2110 ( 54.628 )

VPRS 4= .2105 ( 54.554 )

VPRS 5= .2217 ( 55.986 )

VPRS 6= .2123 ( 54.795 )

SUMMARY

OF CORRECTED DATA TIME = 1600 DATE = 115 TEMPERATURE (DEGREES R.) = 525.6318 CORRECTED PRESSURE (PSIA) = 65.2412 VAPOR PRESSURE (PSIA) = .2135 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670036.5 O

l

1 i

\

SUMMARY

OF met.r.URED DATA AT 1615 115 TEMP 1 = 525.5220 ( 65.852 )

TEMP 2 = 525.0530 ( 65.383 )

TEMP 3 = $25.5510 ( 65.881 )

TEMP 4 = 531.5490 ( 71.879 )

TEMP 5 = 528.3680 ( 68.698 )

TEMP 6 = 525.3780 ( 65.708 )

TEMP 7 = 525.0600 ( 65.390 )

TEMP 8 = 524.6200 ( 64.950 )

TEMP 9 = 524.9890 ( 65.319 )

TEMP 10 = 529.5700 ( 69.900 )

TEMP 11 = S25.5110 ( 65.841 )

TEMP 12 = 525.8240 ( 66.154 )

TEMP 13 = 525.8530 ( 66.183 )

TEMP 14 = 524.6160 ( 64.946 )

TEMP 15 = 525.2870 ( 65.617 )

TEMP 16 = 524.6720 ( 65.002 )

TEMP 17 = 524.9540 ( 65.284 )

TEMP 18 = 524.4320 ( 64.762 )

PRES 1= 65.4611 (132625.0 )

PRES 2= 65.4553 ( 66620.0 )

l VPRS 1= .2124 ( 54.808 )

i VPRS 2= .2166 ( 55.349 )

VPRS 3= .2115 ( 54.692 )

VPRS 4= .2110 ( 54.617 )

VPRS 5= .2220 ( 56.021 )

VPRS 6= .2128 ( 54.852 )

SUMMARY

OF CORRECTED DATA TIME = 1615 DATE = 115 TEMPERATURE (DEGREES R.) = 525.6635

= 65.2443 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .2139 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670027.6 0

l i

SUMMARY

OF MEASURED DATA AT 1630 115 TEMP 1 = 525.5600 ( 65.890 )

TEMP 2 = 520.0340 ( $5.364 )

TE.4P 3 = 525.5140 ( 65.844 )

TEMP 4 = $31.5020 ( 71.832 )

TEMP 5 = 528.3750 ( 60.705 )

TEMP 6 = 525.3910 ( 65.721 )

TEMP 7 = 525.0530 ( 65.383 )

TEMP 8 = 524.6600 ( 64.990 )

TEMP 9 = 524.8630 ( 65.193 )

TEMP 10 = 529.4020 ( 69.732 )

TEMP 11 = 525.5660 ( 65.896 )

TEMP 12 = 525.8940 ( 66.224 )

TEMP 13 = 525.6640 ( 65.994 )

TEMP 14 = 524.7070 ( 65.037 )

TEMP 15 = 525.3460 ( 65.676 )

TEMP 16 = 524.7040 ( 65.034 )

TEMP 17 = 525.0020 ( 65.332 )

TEMP 18 = 524 4550 ( 64.785 )

PRES 1= 65.4645 (132632.0 )

PRES 2= 65.4583 ( 66623.0 )

VPRS 1= .2131 ( 54.890 )

VPRS 2= .2167 ( 55.352 )

VPRS 3= .2117 ( 54 718 )

VPRS 4= .2111 ( 634 )

VPRS 5= .2223 ( 053 )

VPRS 6= .2125 ( B23 )

SUMMARY

OF CORRECTED DATA TIME = 1630 DATE = 115 TEMPERATURE (DEGREES R. ) = 525.6637 CORRECTED PRESSURE (PSIA) = 65.2473

= .2141 VAPOR PRESSURE (PSIA)

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670058.4 9

O

SUMMARY

OF MEASURED DATA AT 1645 115 TEMP 1 = 525 6350 ( 65.96b )

TEMP 2 = 525.0920 ( 65.422 )

TEMP 3 = 525.5750 ( 65.905 )

TEMP 4 = 531.5051 ( 71.035 )

TEMP 5 = 520.4000 ( 68.730 )

TEMP 6 = 525.4060 ( 65.736 )

TEMP 7 = 525.0730 ( 65.403 )

TEMP 8 = 524.6860 ( 65.016 )

TEMP 9 = 524.94'30 ( 65.275 )

TEMP 10 = 529.4160 ( 69.746 )

TEMP 11 = 525.6000 ( 65.930 )

TEMP 12 = 525.9170 ( 66.247 )

TEMP 13 = 525.7430 ( 66.073 )

TEMP 14 = 524.7240 ( 65.054 )

TEMP 15 = S25.3560 ( 65.686 )

TEMP 16 = 524.7190 ( 65.049 )

TEMP 17 = 525.0200 ( 65.358 )

TEMP 18 = 524.4870 ( 64.817 )

PRES 1= 65.4675 (132638.0 )

PRES 2= 65.4622 ( 66627.0 )

O VPRS VPRS 1=

2=

.2136

.2165

.2115

(

54.963 )

55.334 )

VPRS 3= ( 54.690 )

VPRS 4= .2111 ( 54.641 )

VPRS 5= .2211 ( 55.914 )

VPRS 6= .2131 ( 54.901 )

SUMMARY

OF CORRECTED DATA TIME = 1645 DATE = 115 TEMPERATURE (DEGREES R.) = 525.7009 CORRECTED PRESSURE (PSIA) = 65.2507 VAPOR PRESSURE (PSIA) = .2142 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670045.8 O

SUMMARY

OF MEASURED DATA AT 1700 115 O

TEMP 1 = 525.6590 ( 65.989 )

TEMP 2 = 525 1000 ( 65.439 )

TEMP 3 = $2$.6100 ( 65.948 )

TEMP 4 = 531.5350 ( 71.865 )

TEMP 5 = 528.4530 ( 68.783 )

TEMP 6 = 525.4810 ( 65.811 )

TEMP 7 = 525.1050 ( 65.435 )

TEMP 8 = S24.7270 ( 65.057 )

TEMP 9 = 524.8980 ( 65.228 )

TEMP 10 = 529.5360 ( 69.066 )

TEMP 11 = 525.6260 ( 65.956 )

TEMP 12 = 525.9110 ( 66.241 )

TEMP 13 = 525.9780 ( 66.300 )

TEMP 14 = 524.7930 ( 65.123 )

TEMP 15 = 525.4180 ( 65.748 )

TEMP 16 = 524.7710 ( 65.101 )

TEMP 17 = 525.0610 ( 65.391 )

TEMP 18 = 524.5070 ( 64.837 )

PRES 1= 65.4709 (132645.0 )

PRES 2= 65.4652 ( 66630.0 )

VPRS 1= .2132 ( 54.902 ) h VPRS 2= .2172 ( 55.413 )

VPRS 3= .2114 ( 54.679 )

VPRS 4= .2111 ( 54.634 )

VPRS 5= .2225 ( 56.079 )

VPRS 6= .2135 ( 54.951 )

SUMMARY

OF CORRECTED DATA TIME = 1700 DATE = 115 TEMPERATURE (DEGREES R.) = 525.7510

= 65.2537 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .2143 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670012.9 O

O

SUMMARY

OF MEASURED DATA AT 1715 115 TEMP 1 = 525.6330 ( 65.963 )

TEMP 2 = 525.1850 ( 65.515 )

TEMP 3 = 525.6500 ( 65.980 )

TEMP 4 = 531.5220 ( 71.852 )

TEMP 5 = 528.4760 ( 68.806 )

TEMP 6 = 525.5070 ( 65.837 )

TEMP 7 = 525.1680 ( 65.498 )

TEMP 8 = 524.7540 ( 65.084 )

TEMP 9 = 525.0760 ( 65.406 )

TEMP 10 = 529.2450 ( 69.575 )

TEMP 11 = 525.6520 ( 65.982 )

TEMP 12 = 525.9900 ( 66.320 )

TEMP 13 = 525.8410 ( 66.171 )

TEMP 14 = 524.7880 ( 65.118 )

TEMP 15 = 525.4640 ( 65.794 )

TEMP 16 = 524.7940 ( 65.124 )

TEMP 17 = 525.0860 ( 65.416 )

TEMP 18 = 524.5390 ( 64.869 )

PRES 1= 65.4744 (132652.0 )

PRES 2= 65.4681 ( 66633.0 )

O VPRS VPRS 1=

2=

.2137

.2173

(

54.972 )

55.433 )

VPRS 3= .2122 ( 54.776 )

VPRS 4= .2118 ( 54.721 )

VPRS 5= .2227 ( 56.106 )

VPRS 6= .2131 ( 54.895 )

SUMMARY

OF CORRECTED DATA TIME = 1715 DATE = 115 TEMPERATURE (DECREES R,) = 525.7635 CORRECTED PRESSURE (PSIA) = 65.2566 VAPOR PRESSURE (PSIA) = .2147 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670026.4 O

SUMMARY

OF MEASURED DATA AT 1730 115 9 l TEMP 1 = 525.6940 ( 66.024 )

TEMP 2 = 525.1430 ( 65.473 ) -

TEMP 3 = 325.6610 ( 65.991 )

TEMP 4 = 531.5320 ( 71.862 )

TEMP 5 = 528.5050 ( 68.335 )

TEMP 6 = 525.4990 ( 65.829 )

TEMP 7 = 525.1790 ( 65.509 )

TEMP 8 = 524.7360 ( 65.066 )

TEMP 9 = $25.1340 ( 65.464 ) i TEMP 10 = 529.5900 ( 69.920 ) 1 TEMP 11 = 525.6940 ( 66.024 )

TEMP 12 = $25.9780 ( 66.308 )

TEMP 13 = 525.8450 ( 66.175 )

TEMP 14 = 524.8020 ( 65.132 )

TEMP 15 = 52b.4?20 ( 65.602 )

TEMP 16 = 524.8220 ( 65.152 )

TEMP 17 = 525.1180 ( 65.448 )

TEMP 18 = 524.5870 ( 64.917 )

PRES 1= 65.4783 (132660.0 )

PRES 2= 65.4740 ( 66639.0 )

VPRS 1= .2139 ( 54.997 ) h VPRS 2= .2171 ( 55.400 )

VPRS 3= .2124 ( 54.811 )

VPRS 4= .2117 ( 54.713 )

VPRS 5= .2225 ( 56.085 )

VPRS 6= .2134 ( 54.931 )

SUMMARY

OF CORRECTED DATA TIME = 1730 DATE = 115 TEMPERATURE (DEGREES R.) = 525.7916 CORRECTED PRESSURE (PSIA) = 65.2614 VAPOR PRESSURE (PSIA) = .2147 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670040.4 l

O l

l

i i

SUMMARY

OF MEASURED DATA AT 1745 115 -

TEMP 1 = 525.7450 ( 66.075 )

TEMP 2 = 525.2080 ( 65.538 )

TEMP 3 = 525.6120 ( 65.942 ) .

TEMP 4 = 531.4620 ( -71.792 )

TEMP 5 = 528.5370 ( 68.867 )

TEMP 6 = 525.5130 ( 65.843 )

' TEMP 7 = 525.1860 ( 65.516 )

i TEMP 8 = 524.7880 ( 65.118 ) .

TEMP 9 = 525.1080 ( 65.438 ) t TEMP 10 = 529.5640 ( 69.894 )

TEMP:11 = 525.7080

( 66.038 )

TEMP 12 = 526.0380 (_ 66.368 )

TEMP 13 = 525.9220 ( 66.252 )

TEMP:14-= 524.8520 ( 65.182 )

TEMP 15 = 525.5100 ( 65.840 )

TEMP 16 = 524.8400 ( 65.170 ) i TEMP 17 = 525.1480 ( 65.478 ) .

TEMP 18 =-524.6030 ( 64.933-) ;

PRES 1= 65.4808 (132665.0 )

PRES 2= 65.4769 ( 66642.0 )

i VPRS 1= .2140 ( 55.014 )

i VPRS 2 =- .2174 ( 55.442 )

VPRS 3= .2117 ( 54.713 ) ,

, VPRS 4= .2118 ( 54.731 )

VPRS' 5= .2228 ( 56.115 )

VPRS 6= .2138 -(_ 54.980 )

SUMMARY

OF-CORRECTED DATA TIME = 1745 DATE = 115 TEMPERATURE'(DEGREES R.) = _525.8163 CORRECTED PRESSURE (PSIA) = 65.2641 VAPOR PRESSURE (PSIA) = .2148 VOLUME (CU.FT.) = 2000000.0 AIR RASS (LBM) = 670036.4

SUMMARY

OF MEASURED DATA AT 1800 115 TEMP 1 = 525.7430 ( 66.073 )

TEMP 2 = 525.2150 ( 65.545 )

TEMP 3 = 525.7020 ( 66.032 )

TEMP 4 = 531.5000 ( 71.830 )

TEMP 5 = 528.5390 ( 68.869 )

TEMP 6 = 525.5720 ( 65.902 )

TEMP 7 = 525.2400 ( 65.570 )

TEMP 8 = 524.8220 ( 65.152 )

TEMP 9 = 525.1560 ( 65.486 )

TEMP 10 = 529.4510 ( 69.781 )

TEMP 11 = 525.7540 ( 66.084 )

TEMP 12 = 526.0250 ( 66.355 )

TEMP 13 = 526.0360 ( 66.366 )

TEMP 14 = 524.9410 ( 65.271 )

TEMP 15 = 525.5200 ( 65.950 )

TEMP 16 = 524.8700 ( 65.200 )

TEMP 17 = 525.1740 ( 65.504 )

TEMP 18 = 524.6520 ( 64.982 )

PRES 1= 65.4833 (132670.0 )

PRES 2= 65.4789 ( 66644.0 )

VPRS 1= .2145 ( 55.072 )

VPRS 2= .2173 ( 55.427 )

VPRS 3= .2125 ( 54.821 )

VPRS 4= .2117 ( 54.719 )

VPRS 5= .2232 ( 56.166 )

VPRS 6= .2137 ( 54.978 )

SUMMARY

OF CORRECTED DATA TIME = 1800 DATE = 115 TEMPERATURE (DEGREES R.) = 525.8492 CORRECTED PRESSURE (PSIA) = 65.2660 VAPOR PRESSURE (PSIA) = .2150 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670014.3 0

O

SUMMARY

OF MEASURED DATA AT 1815 115 TEMP 1 = 525.7570 ( 66.087 )

TEMP 2 = 525.2690 ( 65.599 )

TEMP 3 = $25.7740 ( 66.104 )

TEMP 4 = 531.4930 ( 71.823 )

TEMP 5 = 528.5740 ( 68.904 )

TEMP 6 = 525.5690 ( 65.899 )

TEMP 7 = 525.2780 ( 65.608 )

TEMP 8 = 524.8230 ( 65.153 )

TEPP 9 = 525.0840 ( 65.414 )

TEMP 10 = 529.8040 ( 70.134 )

TEMP 11 = 525.8210 ( 66.151 )

TEMP 12 = 526.0740 ( 66.404 )

TEMP 13 = 525.8650 ( 66.195 )

TEMP 14 = 524.8730 ( 65.203 )

TEMP 15 = 525.5360 ( 65.866 )

TEMP 16 = 524.9010 ( 65.231 )

TEMP 17 = 525.2090 ( 65.539 )

TEMP 18 = 524.6660 ( 64.996 )

PRES 1= 65.4867 (132677.0 )

PRES 2= 65.4818 ( 66647.0 )

O VPRS VPRS VPRS 1=

2=

3=

.2140

.2175

.2125

(

55.015 )

55.458 )

54.814 )

VPRS 4= .2121 ( 54.762 )

VPRS 5= .2232 ( 56.164 )

VPRS 6= .2137 ( 54.978 )

SUMMARY

OF CORRECTED DATA TIME = 1815 DATE = 115 TEMPERATURE (DEGREES R.) = 525.8803 CORRECTED PRESSURE (PSIA) = 65.2693 VAPOR PRESSURE (PSIA) = .2150 VOLUME (CU.FT.) = 2000000,0 AIR MASS (LBM) = 670007.8 O

r

SUMMARY

OF MEASULTD DATA AT 1830 115 TEMP 1 = 525.7580 ( 66.088 )

TEMP 2 = 525.2910 ( 65.621 )

TEMP 3 = 525.7660 ( 66.096 )

TEMP 4 = 531.4150 ( 71.745 )

TEMP 5 = 528.6190 ( 68.949 )

TEMP 6 = 525.6)30 ( 65.943 )

TEMP 7 = 525.2910 ( 65.621 )

TEMP 8 = 524.8720 ( 65.202 )

TEMP 9 = 525.2520 ( 65.592 )

TEMP 10 = 529.7410 ( 70.071 )

TEMP 11 = 525.8040 ( 66.134 )

TEMP 12 = 526.0800 ( 66.410 )

TEMP 13 = 526.0010 ( 66.331 )

TEMP 14 = 524.8980 ( 65.P28 )

TEMP 15 = 525.5980 ( 65.9c8 )

TEMP 16 = 524.9400 ( 65 2L3 )

TEMP 17 = 525.2140 ( 65.554 )

TEMP 18 = 524.6900 ( 65.020 )

PRES 1= 65.4092 (132682.0 )

PRES 2= 65.4818 ( 66649.0 )

VPRS 1= .2142 ( 55.041 )

VPRS 2o .2179 ( 55.503 )

VPRS 3= .2129 ( 54.866 )

VPRS 4= .2122 ( 54.780 )

VPRS 5= .2233 ( 56.178 )

VPRS 6= .2143 ( 55.044 )

SUMMARY

OF CORRECTED DATA TIME = 1830 DATE = 115 TEMPERATURE (DEGREES R.) = 525.9061 CORRECTED PRESSURE (PSIA) = 65.2712 VAPOR PRESSURE (PSIA) = .2153 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669994.4 O

l

SUMMARY

OF MEASURED DATA AT 1845 115 TEMP 1 = 525.8010 ( 66.131 )

TEMP 2 = 525.2840 ( 65.614 )

TEMP 3 = 525.7430 ( 66.073 )

TEMP 4 = 531.0320 ( 71.362 )

TEMP 5 = $28.6240 ( 68.954 )

TEMP 6 = 525.6550 ( 65.985 )

TEMP 7 = 525.2930 ( 65.623 )

TEMi- 8= 524.8920 ( 65.222 )

TEMP 9 = 525.1430 ( 65.473 )

TEMP 10 = 529.7230 ( 70.053 )

TEMP 11 = 525.8260 ( 66.156 )

TEMP 12 = 526.1030 ( 66.433 )

TEMP 13 = 526.0620 ( 66.392 )

TEMP 14 = 525.0370 ( 65.367 )

TEMP 15 = 525.5890 ( 65.919 )

TEMP 16 = 524.9600 ( 65.290 )

TEMP 17 = 525.2580 ( 65.588 )

TEMP 18 = 524.7010 ( 65.031 )

PRES 1= 65.4931 (132690.0 )

PRES 2= 65.4877 ( 66653.0 )

O VPRS VPRS VPRS 1=

2=

3=

.2149

.2180

.2130

(

55.127 )

55.519 )

54.879 )

VPRd 4 = .2126 ( 54.826 )

VPRS 5= .2229 ( 56.135 )

VPRS 6= .2139 ( 55.001 )

SUMMARY

OF CORRECTED DATA TIME = 1845 DATE = 115 TEMPERATURE (DEGREES R.) = 525.9234 CORRECTED PRESSURE (PSIA) = 65.2749 VAPOR PRESSURE (PSIA) = .2155 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670011.3 0

SUMMAF.Y OF MEASURED DATA AT 1900 115 O

TEMP 1 = 525.8030 ( 66.133 )

TEMP 2 = 525.3430 ( 65.673 )

TEMP 3 = 525.7710 ( 66.101 )

TEMP 4 = 531.1220 ( 71.452 )

TEMP 5 = 528.6410 ( 68.971 )

TEMP 6 = 525.6760 ( 66.006 )

TEMP 7 = 525.3300 ( 65.660 )

TEMP 8 = 524.8760 ( 65.206 )

TEMP 9 = 525.2120 ( 65.542 )

TEMP 10 = 529.7150 ( 70.045 )

TEMP 11 = 525.8770 ( 66.207 )

TEMP 12 = 526.1020 ( 66.432 )

TEMP 13 = 526.0240 ( 66.354 )

TEMP 14 = 525.0350 ( 65.365 )

Ok TEMP 15 = 525.6300 ( 65.960 )

TEMP 16 = 524.9770 ( 65.307 )

TEMP 17 = 525.2840 ( 65.614 )

TEMP 18 = 524.7320 ( 65.062 )

si PRES 1= 65.4946 (132693.0 )

1 PRES 2= 65.4897 ( 66655.0 )

VPRS 1= .2142 ( 55.040 )

.- VPRS 2= .2181 ( 55.S37 )

VPRS 3= .2127 ( 54.844 )

VPRS 4= .2129 ( 54.863 )

VPRS 5= .2238 ( 56.242 )

VPRS 6= .2146 ( 55.082 )

SUMMARY

OF CORRECTED DATA TIME = 1900 DATE = 115 TEMPERATURE (DEGREES R.) = 525.9442 CORRECTED PRESSURE (PSIA) = 65.2766 VAPOR PRESSURE (PSIA) = .2155 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670002.2 O

O SUKKARY OF MEASURED DATA AT 1915 115 TEMP 1 = 525.8410 ( 66.171 )

TEMP 2 = 525.3310 ( 65.661 )

TEMP 3 = 525.8440 ( 66.174 )

TEMP 4 = 531.0640 ( 71.394 )

TEMP 5 = 5 2 8. ( 910 ( 69.021 )

TEMP 6 = 525.*(109 ( 66.044 )

TEMP 7 = 525.3450 ( 65.675 )

TEMP 8 = 524.9440 ( 63.274 )

TEMP 9 = 525.2400 ( 65.570 )

TEMP 10 = 529.9580 ( 70.288 )

TEMP 11 = 525.8850 ( 66.215 )

TEMP 12 = 526.1490 ( 66.479 )

TEMP 13 = 526.1400 ( 66.470 )

TEMP 14 = 525.0320 ( 65.362 )

TEMP 15 = 525.6520 ( 65.982 )

TEMP 16 = 525.0020 ( 65.332 )

TEMP 17 = 525.3100 ( 65.640 )

TEMP 18 = 524.7560 ( 65.086 )

PRES 1= 65.4981 (132700.0 )

PRES 2= 65.4926 ( 66658.0 )

O VPPS VPRS 1=

2=

.2149

.2184

(

55.122 )

55.572 )

VPRS 3= .2133 ( 54.916 )

VPRS 4 = .2129 ( 54.869 )

VPRS 5= .2233 ( 56.185 )

VPRS 6= .2147 ( 55.096 )

GUMMARY OF CORRECTED DATA TIME = 1915 DATE = 115 TEMPERATURE (DEGREES R.) = 525.9882 CORRECTED PRESSURE (PSIA) = 65.2795 VAPOR PRESSURE (PSIA) = .2158 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669975.9 0

SUMMARY

OF MEASURED DATA AT 1930 115 O

TEMP 1 = 525.8500 ( 66.180 )

TEMP 2 = 525.3860 ( 65.716 )

TEMP 3 = 525.8710 ( 66.201 )

TEMP 4 = 530.9950 ( 71.325 )

TEMP 5 = 528.7250 ( 69.055 )

TEMP 6 = 525.6990 ( 66.029 )

TEMP 7 = 525.3740 ( 65.704 )

TEMP 8 = 524.9730 ( 65.303 )

TEMP 9 = 525.2050 ( 65.535 )

TEMP 10 = 529.5790 ( 69.909 )

TEMP 11 = 525.9370 ( 66.267 )

TEMP 12 = 526.1770 ( 66.507 )

TEMP 13 = 526.1550 ( 66.485 )

TEMP 14 = 525.0460 ( 65.376 )

TEMP 15 = 525.6420 ( 65.972 )

TEMP 16 = 525.0350 ( 65.365 )

TEMP 17 = 525.3280 ( 65.658 )

TEMP 18 = 524.8080 ( 65.138 )

PRES 1= 65.5010 (132706.0 )

PRES 2= 65.4956 ( 66661.0 )

VPRS 1= .2149 ( 55.125 ) h VPRS 2= .2184 ( 55.572 )

VPRS 3= .2129 ( 54.875 )

VPRS 4= .2127 ( 54.844 )

VPRS 5= .2245 ( 56.327 )

VPRS 6= .2147 ( 55.101 )

SUMMARY

OF CORRECTED DATA TIME = 1930 DATE = 115 TEMPERATURE (DEGREES R.: = 525.9948 l CORRECTED PRESSURE (PSIL*, = 65.2825 l VAPOR PRESSURE (PSIA) = .2158 VOLUME (CU.FT.) = 2000000,0 i AIR MASS (LBM) = 669997.5 l

l l

l

O "

SUMMARY

OF MEASURED DATA AT 1945 115 TEMP 1 = 525.8680 (. 66.198 )

TEMP 65.721 )

2 = 525.3910 (

1 TEMP 3 = 525.9450 ( 66.275-)

TEMP 4 = 530.9360 ( 71.266 )

TEMP -5 = 528.7160 ( 69.046 )

TEMP 6 = 525.7720 ( 66.102 )

TEMP 7 = 525.42001 ( 65.750 )

TEN? 8 = 525.0140 -( 65.344-)

TEMP. 9 = 525.3220 '( 65.652 )

TEMP 10 e 529.6430 ( 69.973 )

TEMP 11 = 525.9340 ( 66.264 )

TEMP 12 = 526.2190 (- 66.549-)

TEMP 13 = 526.1980 _( 66.528 )

TEMP 14 = 525.0310 ( 65.361 )

TEMP 15 = 525.6960 ( 66.026 )

TEMP 16 = 525.0520 ( .65.382 )

TEMP 17 = 525.3490 ( 65.679 )

TEMP 18 = 524.8260 ( 65.156 )

PRES 1= 65.5035 (132711.0 )

PRES 2= 65.4985 ( 66664.0 )

O VPRS VPRS 1=

2=

.2153

.2183

(

(-

55.175 )

55.564 )

-VPRS 3= .2136 ( 54.965 )

VPRS 4 = .2134 (. 54.931 )

VPRS, 5= .2244 ( 56.315-)

VPRS 6-=- .2151 ( 55.152 )

SUMMARY

OF CORRECTED DATA TIME = 1945 DATE-= 115 TEMPERATURE (DEGREES R.)-= 526.0272 CORRECTED PRESSURE'(PSIA) = 65.2848 VAPOR PRESSURE (PSIA) = .2162 VOLUME - (CU. FT. ) = 2000000.0 AIR MASS (LBM) = 669980.4-

SUMMARY

OF MEASURED DATA AT 2000 115 O

l TEMP 1 = 525.8710 ( 66.201 )

TEMP 2 = 525.4440 ( 65.774 )

TEMP 3 = 525.9050 ( 66.235 )

TEMP 4 = 530.9460 ( 71.276 )

TEMP 5 = 528.7400 ( 69.070 )

TEMP 6 = 525.7480 ( 66.078 )

TEMP 7 = 525.4270 ( 65.757 )

TEMP 8 = 525.0290 ( 65.359 )

TEMP 9 = 525.2750 ( 65.605 )

TEMP 10 = 529.2630 ( 69.593 )

TEMP 11 = 525.9200 ( 66.250 )

TEMP 12 = 526.1930 ( 66.523 )

TEMP 13 = 526.2710 ( 66.601 )

l TEMP 14 = 525.1270 ( 65.457 )

! TEMP 15 = 525.7020 ( 66.032 )

TEMP 16 = 525.0860 ( 65.416 )

TEMP 17 = 525.3820 ( 65.712 )

TEMP 18 = 524.8430 ( 65.173 )

PRES 1= 65.5060 (132716.0 )

PRES 2= 65.5005 ( 66666.0 )

VPRS 1= .2155 ( 55.209 )

VPRS 2= .2186 ( 55.595 )

, VPRS 3= .2129 ( 54.872 )

l VPRS 4= .2134 ( 54.934 )

VPRS 5= .2239 ( 56.262 )

VPRS 6= .2150 ( 55.133 )

l

SUMMARY

OF CORRECTED DATA TIME = 2000 DATE = 115 TEMPERATURE (DEGREES R.) = 526.0228 CORRECTED PRESSURE (PSIA) = 65.2872

= .2161 l VAPOR PRESSURE (PSIA) 1 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 670010.0 l

O l

1

O

SUMMARY

OF MEASURED DATA AT 2015 115 o TEMP 1 = 525.9310 ( 66.261 )

TEMP 2 = 525.4180 -( 65.748 )-

TEMP 3 = 525.9420- ( 66.272 )

TEMP 4 = 530.8640 ( 71,194 )

TEMP 5 = $28.7580 ( 69.088 )

TEMP 6 = 525.7830 ( 66.113 )

TEMP 7 = 525.4320 ( 65.762 )

TEMP 8 = 525.0180 ( 65.348 )

TEMP 9 = 525.3510 ( 65.681 ) '

TEMP 10 = 529.5670 '( 69.897 )

TEMP 11 = 525.9690 ( 66.299 )

TEMP 12 = 526.2150 ( 66.545 )

TEMP 13 = 526.0940 ( 66.424 )

TEMP 14 = 525.1360 ( 65.466 )

TEMP-15 = 525.7310 ( 66.061 )

TEMP 16 = 525.0920 ( 65.422 )

TEMP 17 = 525.4000 (- 65.730 )

_ TEMP-18 = 524.8610 ( 65.191 )

PRES 1= 65.5089 (132722.0 )

PRES- 2 =- 65.5034 ( 66669.0 ) >

VPRS 1= .2157 ( 55.226 )

l O' VPRS- 2= .2186 ( 55.592 )

VPRS 3= .2137 ( 54.968 )

VPRS 4= .2132 ( 54.911-)

VPRS 5= .2238 ( 56.248 )

VPRS 6= .2155 ( 55.204 )

SUMMARY

OF CORRECTED DATA TIME = 2015 DATE = 115 TEMPERATURE (DEGREES R.) = 526.0476 CORRECTED' PRESSURE-(PSIA) = -65.2898 VAPOR PRESSURE (PSIA) = .2163 VOLUMEJ(CU.FT ) = 2000000.0 AIR MASS'(LBM) = 670006.0 h

L

SUMMARY

OF MEASURED DATA AT 2030 115 O

TEMP 1 = 525.9510 ( 66.281 )

TEMP 2 = 525.4470 ( 65.777 )

TEMP 3 = 525.9860 ( 66.316 )

TEMP 4 = 530.8620 ( 71.192 )

TEMP 5 = 528.8090 ( 69.139 )

TEMP 6 = 525.8120 ( 66.142 )

TEMP 7 = 525.4760 ( 65.806 )

TEMP 8 = 525.0310 ( 65.361 )

TEMP 9 = 525.2910 ( 66.621 )

TEMP 10 = 529.9130 ( 70.243 )

TEMP 11 = 525.9610 ( 66.291 )

TEMP 12 = 526.2670 ( 66.597 )

TEMP 13 = 526.1320 ( 66.462 )

TEMP 14 = 525.1530 ( 65.483 )

TEMP 15 = 525.7630 ( 66.093 )

TEMP 16 = 525.1130 ( 65.443 )

TEMP 17 = 525.4140 ( 65.744 )

TEMP 18 = 524.8960 ( 65.226 )

PRES 1= 65.5109 (132726.0 )

PRES 2= 65.5054 ( 66671.0 )

VPRS 1= .2158 ( 55.241 )

VPRS 2= .2189 ( 55.639 )

VPRS 3= .2140 ( 55.017 )

VPRS 4= .2132 ( 54.s07 )

VPRS 5= .2238 ( 56.247 )

VPRS 6= .2154 ( 55.188 )

SUMMARY

OF CORRECTED DATA TIME = 2030 DATE = 115 TEMPERATURE (DEGREES R.) = 526.0881 CORRECTED PRESSURE (PSIA) = 65.2916 VAPOR PRESSURE (PSIA) = .2165 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669972.9 O

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

i l

1 O

SUMMARY

OF MEASURED-DATA AT 2045 115 TEMP 1 = 525.9660 ( 66.296 )

TEMP. 2 = 525.4700 -( 65.800 )

. TEMP 3 = 525.9720 (. 66.302-)

TEMP- 4 = 530.8660 ( 71.196 )

TEMP ~ 5 = 528.7830 ( 69.113')

TEMP' 6 = 525.8260 ( 66.156 )

TEMP 7 = 525.5040 -( 65.834 )

TEMP. 8 = 525.0810 ( 65.411 )

TEMP- 9 = 525.3170 (- 65.647 )-

TEMP 10 = 529.7910 ( 70.121 )

TEMP 11 = 526.0480 ( 66.378 )

TEMP 12 = 526.2590 ( 66.589')

TEMP 13 = 526.2190 ( 66.549 )

TEMP 14 = 525.1570 ( 65.487 )

TEMP 15 = 525.8090 ( 66.139 )

TEMP 16 = 525.1250 ( 65.455 )

-TEMP 17 = 525.4470 ( 65.777 )

TEMP 18 =-524.9120 ( 65.242 )

PRES 1= 65.5129 (132730.0 )

PRES 2= 65.5074 ( 66673.0 )

55.297 )

!. VPRS l'= .2162 (

l

% - .VPRS 2= .2193 ( 55.690 )

l VPRS 3= .2148 ( 55.110 )

VPRS 4= .2136 ( 54.960 )

VPRS 5 = -. .2242 ( 56.294 )

VPRS 6= .2156- ( 55.215-)

SUMMARY

'OF CORRECTED DATA TIME = 2045 DATE = 115-TEMPERATURE (DEGREES'R.) = 526.1037 CORRECTED PRESSURE (PSIA) =- 65.2932 VAPOR. PRESSURE (PSIA) = .2170 VOLUME >(CU.FT.) = 2000000.0-AIR MASS (LBM) =. 669968.7 l

O

_ _ _= -r 4

SUMMARY

OP MEASURED DATA AT 2100 115 TEMP 1 = 525.9950 ( 66.325 )

TEMP 2 = 525.4870 ( 65.817 )

TEMP 3 = 525.9920 ( 66.322 )

TEMP 4 = 530.7600 ( 71.090 )

TEMP 5 = 528.7830 ( 69.113 )

TEMP 6 = 525.8440 ( 66.174 )

TEMP 7 = 525.5110 ( 65.841 )

TEMP 8 = 525.0310 ( 65.367 )

TEMP 9 = 525.3540 ( 65.684 )

TEMP 10 = 530.0190 ( 70.349 )

TEMP 11 = 526.0030 ( 66.333 )

TEMP 12 = 526.2880 ( 66.618 )

TEMP 13 = 526.1990 ( 66.529 )

TEMP 14 = 525.2340 ( 65.564 )

TEMP 15 = 525.8180 ( 66.148 )

TEMP 16 = 525.1540 ( 65.484 )

TEMP 17 = 525.4640 ( 65.794 )

TEMP 18 = 524.9390 ( 65.269 )

PRES 1= 65.5149 (132734.0 )

PRES 2= 65.5093 ( 66675.0 )

VPRS 1= .2155 ( 55.201 )

VPRS 2= .2193 ( 55.688 )

VPRS 3 = .2139 ( 55.004 )

VPRS 4 = .2138 ( 54.989 )

VPRS 5= .2247 ( 56.361 )

VPRS 6= .2153 ( 55.174 )

SUMMARY

OF CORRECTED DATA TIME = 2100 DATE = 115 TEMPERATURE (DEGREES R.) = 526.1230 CORRECTED PRESSURE (PSIA) = 65.2955 VAPOR PRESSURE (PSIA) = .2166 Vo1UME (CU.FT.) = 2000000.0 AIR MASS.(LBM) = 669967.7 O

l

. _ _ . _ , . . . . _ . ___m ._ .__ _ - . _ _ _ . _ _ _ .. _ . . . _ . . . _ _ . . _ . _. ..

1 a

SUMMARY

OF MEASURED DATA AT 2115 115 TEMP 1 = 526.0040 ( 66.334 )

-TEMP 2 = 525.5280 ( 65.858 )

TEMP 3 = 526.0290 ( 66.359 )

TEMP 4 = 530.7210 ( 71.051 )

TEMP 5 = 528.8330 ( 69.163 )

TEMP 6 = 525.8680 ( 66.198 )

TEMP _ 7 = 525.4990 ( 65.829 )

TEMP 8 = 525.0730 ( 65.403 )

TEMP._9 = 525.4110 ( 65.741 )-

TEMP 10 = 530.0520 ( -70.382 )

TEMP 11 = 526.0220 ( 66.352 )

TEMP 12 = 526.3340 ( 66.664 )

TEMP 13 = 526.1440 ( 66.474 )

TEMP 14 = 525.2270 ( 65.557 )

L TEMP 15 = 525.8440 -( 66.174 )

TEMP 16 = 525.1760 ( 65.506 )

TEMP 17 = 525.4900 ( 65.820 )

TEMP 18 = 524.9540 ( 65.284 )

PRES 1= 65.5173 (132739.0 )

PRES 2= 65.5113 ( 66677.0 )

() VPRS.

VPRS 1=

2=

.2164

.2194

(

55.319 )

55.700 )

L VPRS 3= .2144 ( 55.061 )

l VPRS 4= .2137 ( 54.978 )

VPRS_ 5= .2256 ( 56.463 )

VPRS 6= .2159 ( 55.259 )

SUMMARY

OF CORRECTED DATA TIME = 2115 DATE = 115 TEMPERATURE (DEGREES R.) = 526.1453 CORRECTED PRESSURE (PSIA) = 65.2972 VAPOR PRESSURE (PSIA)- = .2171' l VOLUME (CU.FT.) = 2000000.0 l- AIR MASS (LBM) = 669957.0 i

t LO

SUMMARY

OF MEASURED DATA AT 2130 115 O

TEMP 1 = 526.0220 ( 66.352 )

TEMP 2 = 525.5340 ( 65.864 )

TEMP 3 = 526.0730 ( 66.403 )

TEMP 4 = 530.6790 ( 71.009 )

TEMP 5 = 528,8940 ( 69.224 )

TEMP 6 = 525.8930 ( 56.223 )

TEMP 7 = 525.5450 ( 65.875 )

TEMP 8 = 525.0950 ( 65.425 )

TEMP 9 = 525.3420 ( 65.672 )

TEMP 10 = 530.1030 ( 70.433 )

TEMP 11 = 526.0770 ( 66.407 )

TEMP 12 = 526.3200 ( 66.650 )

TEMP 13 = 526.3310 ( 66.661 )

TEMP 14 = 525.2230 ( 65.553 )

TEMP 15 = 525.8670 ( 66.197 )

TEMP 16 = 525.2030 ( 65.533 )

TEMP 17 = 525.5020 ( 65.832 )

TEMP 18 = 524.9800 ( 65.310 )

PRES 1= 65.5193 (132743.0 )

PRES 2= 65.5132 ( 66679.0 )

VPRS 1= .2158 ( 55.236 ) h VPRS 2= .2195 ( 55.703 )

VPRS 3= .2145 ( 55.076 )

l VPRS 4= .2139 ( 55.003 )

l VPRS 5= .2249 ( 56.378 )

VPRS 6= .2158- ( 55.235 )

l

SUMMARY

OF CORRECTED DATA TIME = 2130 DATE = 115-TEMPERATURE (DEGREES R.) = 526.1796 l CORRECTED PRESSURE (PSIA) = 65.2993 VAPOR PRESSURE (PSIA) = .2169 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669935.3 l

O

l O

SUMMARY

OF MEASURED DATA AT 2145 115 TEMP 1 = 526.0290 ( 66.359 )

TEMP 2 = 525.5160 ( 65.846 )

TEMP 3 = 526.0860 ( 66.416 )

TEMP 4 = 530.6920 ( 71.022 )

TEMP 5 = 528.9000 ( 69.230 )

TEMP 6 = 525.9060 ( 66.236 )

TEMP 7 = 525.5830 ( 65.913 )

TEMP 8 = 525.1860 ( 65.516 )

TEMP 9 = 525.4790 ( 65.809 )

TEMP 10 = 529.8770 ( 70.207 )

TEMP 11 = 526.0910 ( 66.421 )

TEMP 12 = 526.4280 ( 66.758 )

TEMP 13 = 526.3280 ( 66.658 )

TEMP 14 = 525.2530 ( 65.583 )

TEMP 15 = 525.8440 ( 66.174 )

TEMP 16 = 525.2260 ( 65.556 )

TEMP 17 = 525.5300 ( 65.860 )

TEMP 18 = 525.0050 ( 65.335 )

PRES 1= 65.5218 (132748.0 )

PRES 2= 65.5162 ( 66682.0 )

VPRS 1= .2166 ( 55.340 )

O- VPRS 2= .2196 ( 55.722 )

VPRS 3= .2150 ( 55.142 )

VPRS 4 = .2144 ( 55.061 )

VPRS 5= .2255 ( 56.459 )

VPRS 6= .2158 ( 55.247 )

SUMMARY

OF CORRECTED DATA TIME = 2145 DATE = 115 TEMPERATURE (DEGREES R.) = 526.1902 CORRECTED PRESSURE (PSIA) = 65.3016 VAPOR PRESSURE (PSIA) = .2174 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669945.2 O

1 1

SU)CGRY OF MEASURED DATA AT 2200 115 O

TEMP 1 = 526.0610 ( 66.391 )

TEMP 2 = 525.5510 ( 65.881 )

TEMP 3 = 526.1200 ( 66.450 )

TEMP 4 = 530.6960 ( 71.026 )

TEMP 5 = 528.9170 ( 69.247 )

TEMP 6 = 525.9050 ( 66.235 )

TEMP 7 = 525.5840 ( 65.914 )

TEMP 8 = 525.1470 ( 65.477 )

TEMP 9 = 525.4850 ( 65.815 ) '

TEMP 10 = 529.9480 ( 70.278 )

TEMP 11 = 526.1110 ( 66.441 )

TEMP 12 = 526.3820 ( 66.712 ) l TEMP 13 = 526.3630 ( 66.693 ) i TEMP 14 = 525.2700 ( 65.600 )

TEMP 15 = 525.8940 ( 66.224 )

TEMP 16 = 525.2290 ( 65.559 )

TEMP 17 = 525.5480 ( 65.878 )

TEMP 18 = 525.0180 ( 65.348 )

PRES 1= 65.5237 (132752.0 )

PRES 2= 65.5172 ( 66683.0 ) i VPRS 1= .2163 ( 55.302 )

VPRS 2= .2196 ( 55.722 )

VPRS 3= .2148 ( 55.116 )

l VPRS 4= .2141 ( 55.026 )

56.475 )

VPRS 5= .2257 (

VPRS 6= .2160 ( 55.264 )

SUMMARY

OF CORREC7ED DATA TIME = 2290 DATE = 215 TEMPERATURE (DEGREEF R.) = 526.2078 CORRECTED PRESSURE (?SIA) = 65.3032 l VAPOR PRESSURE (PSIA) = .2173 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669939.0 i

O

SUMMARY

OF MEASURED DATA AT 2215 115 TEMP 1 = 526.0670 ( 66.397 )

TEMP 2 = 525.5810 ( 65.911 )

TEMP 3 = 526.1090 ( 66.439 )

TEMP 4 = 530.6290 ( 70.959 )

TEMP 5 = 528.8900 ( 69.220 )

TEMP G = 525.9540 ( 66.284 )

TEMP 7 = 525.6130 ( 65.943 )

TEMP 8 = 525.1650 ( 65.495 )

TEMP 9 = 525.5370 ( 65.867 )

TEMP 10 = 529.9520 ( 70.282 )

TEMP 11 = 526.1580 ( 66.488 )

TEMP 12 = 526.3920 ( 66.722 )

TEMP 13 = 526.2090 ( 66.539 )

TEMP 14 = 525.2470 ( 65.577 )

TEMP 15 = 525.8990 ( 66.229 )

TEMP 16 = 525.2440 ( 65.574 )

TEMP 17 = 525.5780 ( 65.908 )

TEMP 18 = 525.0170 ( 65.347 )

PRES 1= 65.5252 (132755.0 )

PRES 2= 65.5191 ( 66685.0 )

VPRS 1= .2169 ( 55.375 )

O- VPRS 2= .2199 ( 55.755 )

VPRS 3= .2153 ( 55.177 )

VPRS 4= .2147 ( 55.104 )

VPRS 5= .2251 ( 56.407 )

VPRS 6= .2164 ( 55.319 i

~

SUMMARY

OF CORRECTED DATA TIME = 2215 DATE = 115 TEMPERATURE (DEGREES R.) = 526.2142 CORRECTED PRESSURE (PSIA) = 65.3046 VAPOR PRESSURE (PSIA) = .2176 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669944.6 O

SUMMARY

OF MEASURED DATA AT 2230 115 G

TEMP 1 = 526.0830 ( 66.413 )

TEMP 2 = 525.6230 ( 65.953 )

TEMP 3 = 526.1230 ( 66.453 )

TEMP 4 = 530.6490 ( 70.979 )

TEMP 5 = 528.9520 ( 69.282 )

TEMP 6 = 525.9780 ( 66.308 )

TEMP 7 = 525.6130 ( 65.943 )

TEMP 8 = 525.1710 ( 65.501 )

TEMP 9 = 525.4520 ( 65.782 )

TEMP 10 = 529.5910 ( 70.021 )

TEMP 11 = 526.1550 ( 66.485 )

TEMP 12 = 526.4460 ( 66.778 )

TEMP 13 = 526.2990 ( 66.629 )

TE*!P 14 = 525.2780 ( 65.608 )

TEMP 15 = 525.9220 ( 66.252 )

TEMP 16 = 525.2670 ( 65.597 )

TEMP 17 = 525.5910 ( 65.921 )

TEMP 18 = 525.0520 ( 65.382 )

PRES 1= 65.5272 (132759.0 )

PRES 2= 65.5211 ( 66687.0 )

VPRS 1= .2163 ( 55.310 )

VPRS 2= .2202 ( 55.802 )

VPRS 3= .2155 ( 55.201 )

VPRS 4= .2146 ( 55.094 )

VPRS 5= .2258 ( 56.491 )

VPRS 6= .2161 ( 55.276 )

9

SUMMARY

OF CORRECTED DATA TIME = 2230 DATE = 115 TEMPERATURE (DEGREES R.) = 526.2266 CORRECTED PRESSURE (PSIA) = 65.3065 VAPOR PRESSURE (PSIA) = .2176 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669949.1 0

SUMMARY

OF MEASURED DATA AT 2245 115 TEMP 1 = 526.0850- ( 66.415 )

TEMP. 2 = 525.5750 ( 65.905 )

TEMP 3 = 526.1260 ( 66.456 )

-TEMP 4 = 530.5940 ( 70.924 )

TEMP 5 = 528.9640 ( 69.294 )

TEMP G = 525.9520 ( 66.282 )

TEMP 7.= 525.6100 ( 65.940 )

i TEMP 8 = 525.2010 ( 65.531 )

TEMP 9 = 525.4850 ( 65.815 ) !

TEMP 10 = 529.9560 ( 70.286-) l TEMP 11 = 526.1510 ( 66.481 )

TEMP 12 = 526.4250 ( 66.755 )

TEMP 13 = 526.3230 ( 66.653 ) i TEMP 14 = 525.3330 ( 65.663-) H TEMP 15 = 525.9290 ( 66.259 ) i TEMP 16 = 525.2980 ( 65.628 )

TEMP 17 = 525.6060 ( 65.936-)

TEMP 18 = 525.0690 ( 65.399 )

PRES 1= 65.5297 (132764.0 ) I PRES 2= 65.5231 ( 66689.0 ) l O VPRS VPRS VPRS 1=

2=

3=

.2170

.2201

.2155

(

55.394 )

55.789 )

55.207 )

l i

1 l

L VPRS 4= .2145 ( 55.072 )

VPRS 5= .2257 ( 56.475 )

VPRS 6= .2166 ( 55.343 ) l l

l

SUMMARY

OF CORRECTED DATA TIME =-2245 DATE = 115

-TEMPERATURE-(DEGREES R.) = 526.2405 1 CORRECTED PRESSURE (PSIA)-= 65.3085 l VAPOR PRESSURE (PSIA) = .2178 L VOLUME (CU.FT.) = 2000000.0 L AIR MASS (LOM) = 669952.2 l.

L l

I l

SU N Y OF MEASURED DATA AT 2300 115 TEMP 1 = 526.1120 ( 66.442 )

TEMP 2 = 525.6560 ( 65.986 )

TEMP 3 = 526.1430 ( 66.473 )

TEMP 4 = 530.6290 ( 70.959 )

TEMP S = 528.9510 ( 69.281 )

TEMP 6 = 525.9570 ( 66.287 )

TEMP 7 = 525.6330 ( 65.963 )

TEMP 8 = 525.2370 ( 65.567 )

TEMP 9 = 525.5550 ( 65.885 )

TEMP 10 = 529.3820 ( 69.712 )

TEMP 11 = 526.1690 ( 66.499 )

TEMP 12 = 526.4390 ( 66.769 )

TEMP 13 = 526.3410 ( 66.671 )

TEMP 14 = 525.3630 ( 65.693 )

TIMP 15 = 525.9370 ( 66.267 )

TEMP 16 = 525.3050 ( 65.635 )

TEMP 17 = 525.6130 ( 65.943 )

TEMP 18 = 525.0760 ( 65.406 )

PRES 1= 65.5312 (132767.0 )

PRES 2= 65.5250 ( 66691.0 )

VPRS 1= .2172 ( 55.423 )

VPRS 2= .2207 ( 55.857 )

VPRS 3= .2153 ( 55.178 )

VPRS 4= .2148 ( 55.110 )

56.463 )

l VPRS 5= .2256 (

VPRS 6= .2163 ( 55.300 )

SUMMARY

OF CORRECTED DATA TIME = 2300 DATE = 115 TEMPERATURE (DEGREES R.) = 526.2372 CORRECTED PRESSURE (PSIA) = 65.3102

= .2179 VAPOR PRESSURE (PSIA) i VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669973.1 O

SUMMARY

OF MEASURED DATA AT 2315 '115 TEMP 1 = 526.0990 ( 66.429 )

TEMP 2 = 525.6410 ( 65.971 )

TEMP 3 = 526.1610 ( 66.491 )

TEMP 4 = 530.9240 ( 71.254 )

TEMP 5 = 528.9630 ( 69.293 )

TEMP 6 = 525.9690 ( 66.299 )

TEMP 7 = 525.6360 ( 65.966 )

TEMP 8 = 525.2290 ( 65.559 )

TEMP 9 = 525.5710 ( 65.901 )

TEMP 10 = 529.5120 ( 69.842 )

TEMP 11 = 526.1860 ( 66.516 )

TEMP 12 = 526.5140 ( 66.844 ) .

TEMP.13 = 526.4660 ( 66.796 )

TEMP 14 =-525.3450 ( 65.675 )

TEMP 15 = 525.9660 ( 66.296 )

TEMP 16 = 525.3330 ( 65.663 )

TEMP 17 = 525.6380 ( 65.968 )

TEMP 18 = 525.0870 ( 65.417 )

-PRES 1= 65.5326. (132770.0 )

PRES 2= 65.5280 ( 66694.0 )

L L VPRS 1= .2179 ( 55.505 )

VPRS 2= .2205- ( 55.831 )

VPRS 3= .2157 ( 55.232 )

VPRS 4= .2149 ( 55.122 )

VPRS 5= -.2258

( 56.489 )

VPRS 6= .2167 ( 55.355 ).

SUMMARY

OF CORRECTED DATA TIME = 2315 DATE = 115

= '526.2553 TEMPERATURE-(DEGREES R.)

= 65.3121

,- CORRECTED PRESSURE (PSIA)

= .2182 l VAPOR PRESSURE (PSIA) l VOLUME'(CU.FT.) = 2000000.0 AIR MASS (LBM) = 669969.8 i

JO

SUMMARY

OF MEASURED DATA AT 2330 115 O

TEMP 1 = 526.1400 ( 66.470 )

TEMP 2 = 525.6560 ( 65.986 )

TEMP 3 = 526.1750 ( 66.505 )

TEMP 4 = 530.9620 ( 71.292 )

TEMP 5 = 528.9610 ( 69.291 )

TEMP 6 = 526.0070 ( 66.337 )

TEMP 7 = 525.6490 ( 65.979 )

TEMP 8 = 525.2820 ( 65.612 )

TEMP 9 = 525.4960 ( 65.826 )

TEMP 10 = 529.6660 ( 69.996 )

TEMP 11 = 526.1830 ( 66.513 )

TEMP 12 = 526.4560 ( 66.786 )

TEMP 13 = 526.5090 ( 66.839 )

TEMP 14 = 525.3690 ( 65.699 )

TEMP 15 = 525.9670 ( 66.297 )

TEMP 16 = 525.3360 ( 65.666 )

TEMP 17 = 525.6G50 ( 65.995 )

TEMP 18 = 525.1400 ( 65.470 )

PRES 1= 65.5326 (132770.0 )

PRES 2= 65.5280 ( 66694.0 )

VPRS 1= .2171 ( 55.400 )

VPRS 2= .2201 ( 55.789 )

VPRS 3= .2161 ( 55.275 )

VPRS 4= .2151 ( 55.148 )

VPRS 5= .2257 ( 56.483 )

VPRS 6= .2169 ( 55.378 )

SUMMARY

OF CORRECTED DATA TIME = 2330 DATE = 115 TEMPERATURE (DEGREE,0 R.) = 526.2793 CORRECTED PRESSURE (PSIA) = 65.3122

= .2181 VAPOR PRESSURE (PSIA)

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669940.7 O

1 l

I O

SUMMARY

OF MEASURED DATA AT 2345 115 TEMP 1 = 526.1670 ( 66.497 )

TEMP 2 = 525.7170 ( 66.047 )

TEMP 3 = 526.2440 ( 66.574 )

TEMP 4 = 530.9140 ( 71.244 )

TEMP 5 = 529.0380 ( 69.368 )

TEMP 6 = 526.0090 ( 66.339 )

TEMP 7 = 525.6990 ( 66.029 )

TEMP 8 = 525.2590 ( 65.589 )

TEMP 9 = 525.6270 ( 65.957 )

TEMP 10 = 529.9740 ( 70.304 )

TEMP 11 = 526.2100 ( 66.540 )

TEMP 12 = 526.5120 ( 66.842 )

TEMP 13 = 526.4680 ( 66.798 )

TEMP 14 = 525.3270 ( 65.657 )

TE!!P 15 = 526.0000 ( 66.330 )

TF.MP 16 = 525.3490 ( 65.679 )

TEMP 17 = 525.6740 ( 66.004 )

TE!!P 18 = 525.1310 ( 65.461 )

PRES 1= 65.5326 (132770.0 )

PRES 2= 65.5280 ( 66694.3 )

O VPRS VPRS VPRS 1=

2=

3=

.2169

.2207

.2155

(

55.387 )

55.862 )

55.209 )

VPRS 4= .2147 ( 55.098 )

VPRS 5= .2256 ( 56.469 )

VPRS 6= .2172 ( 55.413 )

SUMMARY

OF CORRECTED DATA TIME = 2345 DATE = 115 TEMPERATURE (DEGREES R.) = 526.3201 CORRECTED PRESSURE (PSIA) = 65.3122 VAPOR PRESSURE (PSIA) = .2181 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669888.8 O

SUMMARY

OF MEASURED DATA AT 0 116 O

TEMP 1 = 526.1950 ( 66.525 )

TEMP 2 = 525.7030 ( 66.033 )

TEMP 3 = 526.2670 ( 66.597 )

TEMP 4 = 530.8750 ( 71.205 )

TEMP 5 = 529.0760 ( 69.406 )

TEMP 6 = 526.0300 ( 66.360 )

TEMP 7 = 525.7050 ( 66.035 )

TEMP 8 = 525.299,0 ( 65.629 )

TEMP 9 = 525.5630 ( 65.893 )

TEMP 10 = 530.1670 ( 70.497 )

TEMP 11 = 526.2450 ( 66.575 )

TEMP 12 = 526.4970 ( 66.827 )

TEMP 13 = 526.4480 ( 66.778 )

TEMP 14 = 525.3920 ( 65.722 )

TEMP 15 = 526.0270 ( 66.357 )

TEMP 16 = 525.3720 ( 65.702 )

TEMP '7 = 525.6960 ( 66.026 )

TEMP 18 = 525.1790 ( 65.509 )

PRES 1= 65.5331 (132771.0 )

PRES 2= 65.5280 ( 66694.0 )

VPRS 1= .2177 ( 55.487 )

VPRS 2= .2204 ( 55.828 )

VPRS 3= .2154 ( 55.195 )

VPRS 4= .2152 ( 55.166 )

VPRS 5= .2262 ( 56.544 )

VPRS 6= .2173 ( 55.427 )

SUMMARY

OF CORRECTED DATA TIME = 0 DATE = 116 TEMPERATURE (DEGREES R.) = 526.3477

= 65.3123 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .2183 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669854.2 9

t l

O

SUMMARY

OF MEASURED DATA AT '55 116 TEMP 1 = 526.1950 ( 66.525 )

TEMP 2 = 525.6930 ( 66.023 )

TEMP 3 = 526.3310 ( 66.661 )

TEMP 4 = 530.9190 ( 71.249 )

TEMP 5 = 529.0160 ( 69.346 )

TEMP 6 = 526.0030 ( 66.333 )

TEMP 7 = 525.7050 ( 66.035 )

TEMP 8 = 525.3170 ( 65.647 )

TEMP 9 = 525.5680 ( 65.898 )

TEMP 10 = 530.1250 ( 70.455 )

TEMP 11 = 526.2570 ( 66.587 )

TEMP 12 = 526.5530 ( 66.883 )

TEMP 13 = 526.4740 ( 66.804 )

TEMP 14 = 525.4430 ( 65.773 )

TEMP 15 = 526.0480 ( 66.378 )

TEMP 16 = 525.3940 ( 65.724 )

TEMP 17 = 525.7110 ( 66.041 )

TEMP 18 = 525.1720 ( 65.502 )

PRES 1= 65.5346 (132774.0 )

PRES 2= 65.5280 ( 66694.0 )

O VPRS VPRS VPRS 1=

2=

3=

.2175

.2206

.2162

(

55.462 )

55.853 )

55.297 )

VPRS 4= .2153 ( 55.172 )

VPRS 5= .2259 ( 56.507 )

VPRS 6= .2169 ( 55.387 )

SUMMARY

OF CORRECTED DATA TIME = 15 DATE = 116 TEMPERATURE (DEGREES R.) = 526.3516 CORRECTED PRESSURE (PSIA) = 65.3129 VAPOR PRESSURE (PSIA) = .2184 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669855.7 O

SUMMARY

OF MEASURED DATA AT 30 116 O

TEMP 1 = 526.1610 ( 66.491 )

TEMP 2 = 525.7320 ( 66.062 )

TEMP 3 = 526.3110 i 66.641 )

TEMP 4 = 530.9200 ( 71.250 )

TEMP 5 = 529.0540 ( 69.384 )

TEMP 6 = 526.0880 ( 66.418 )

TEMP 7 = 525.7650 ( 66.095 )

TEMP 8 = 525.3570 ( 65.687 )

TEMP 9 = 525.6810 ( 66.011 )

TEMP 10 = 530.2510 ( 70.581 )

TEMP 11 = 526.2760 ( 66.606 )

TEMP 12 = 526.5700 ( 66.900 )

TEMP 13 = 526.5720 ( 66.902 )

TEMP 14 == 52 5. 4 690 ( 65.799 )

TEMP 15 = 526.0730 ( 66.403 )

TEMP 16 = 525.4090 ( 65.739 )

TEMP 17 = 525.7370 ( 66.067 )

TEMP 18 = 525.1820 ( 65.512 )

PRES 1= 65.5346 (132774.0 )

PRES 2= 65.5309 ( 66697.0 )

VPRS 1= .2180 ( 55.519 )

VPRS 2= .2210 ( 55.891 )

VPRS 3= .2158 ( 55.241 )

VPRS 4 = .2153 ( 55.177 )

VPRS 5= .2269 ( 56.626 )

VPRS 6= .2171 ( 55.412 )

SUMMARY

OF CORRECTED DATA TIME = 30 DATE = 116 TEMPERATURE (DEGREES R.) = 526.3862 CORRECTED PRESSURE (PSIA) = 65.3142 VAPOR PRESSURE (PSIA) = .2186 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669824.9 (Il

l

SUMMARY

OF MEASURED DATA AT 45 116 1 1

TEMP 1 = 525.2070 ( 66.537 )

TEMP 2 = 525.7540 ( 66.084 )

TEMP 3 = 526.3000 ( 66.630 )

TEMP 4 = 530.9450 ( 71.275 )

TEMP 5 = 52P.0360 ( 69.366 )

TEMP 6 = 526.0850 ( 66.415 )

TEMP 7 = 525.7510 ( 66.081 )

TEMP 8 = 525.3170 ( 65.647 )

TEMP 9 = 525.6760 ( 66.006 )

TEMP 10 = 530.1870 ( 70.517 )

TEMP 11 = 526.3050 ( 66.635 )

TEMP 12 = 526.5750 ( 66.905 )

TEMP 13 = 526.5320 ( 66.862 )

TEMP _14 = 525.4650 ( 65.795 )

, TEMP 15 = 526.0910 ( 66.421 )

L TEMP 16 = 525.4290 ( 65.759 )

TEMP 17 = 525.7550 ( 66.085 )

TEMP 18 = 525.2110 ( 65.541 )

PRES 1= 65.5351 (132775.0 )

PRES 2= 65.5319 ( 66698.0 )

j VPRS 1= .2181 ( 55.531 )

VPRS 2= .2210 ( 55.897 )

VPRS 3= .2164 ( 55.319 )

VPRS 4= .2157 ( 55.227 )

VPRS 5= .2261 ( 56.521 )

VPRS 6= .2174 ( 55.450 )

SUMMARY

OF CORRECTED DATA TIME = 45 DATE = 116 TEMPERATURE (DEGREES R.) = 526.3868 CORRECTED PRESSURE (PSIA) = 65.3148 VAPOR PRESSURE (PSIA) = .2187 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669829.8

SUMMARY

OF MEASURED DATA AT 100 116 9

TEMP 1 = 526.2570 ( 66.587 )

TEMP 2 = 525.7890 ( 66.119 )

TEMP 3 = 526.3760 ( 66.706 )

TEMP 4 = 530.9660 ( 71.296 )

TEMP 5 = 529.0920 ( 69.422 )

TEMP 6 = 526.1350 ( 66.465 )

TEMP 7 = 525.7740 ( 66.104 )

TEMP 8 = 525.3660 ( 65.696 )

TEMP 9 = 525.7080 ( 66.038 )

TEMP 10 = 530.1210 ( 70.451 )

TEMP 11 = 526.3380 ( 66.668 )

TEMP 12 = 526.5820 ( 66.912 )

TEMP 13 = 526.6100 ( 66.940 )

TEMP 14 = 525.4530 ( 65.783 )

TEMP 15 = 526.0860 ( 66.416 )

TEMP 16 = 525.4440 ( 65.774 )

TEMP 17 = 525.7570 ( 66.087 )

TEMP 18 = 525.2500 ( 65.580 )

PRES 1= 65.5351 (132775.0 )

PRES 2= 65.5319 ( 66693.0 )

VPRS 1= .2173 ( 55.435 ) f VPRS 2= .2213 ( 55.929 )

VPRS 3= .2165 ( 55.328 )

VPRS 4= .2160 ( 55.267 )

VPRS 5= .2267 ( 56.604 )

VPRS 6= .2173 ( 55.430 )

SUMMARY

OF CORRECTED DATA TIME = 100 DATE c' 116 TEMPERATURE (DEGREES R.) = 526.4213 CORRECTED PRESSURE (PSIA) = 65.3148 VAPOR PRESSURE (PSIA) = .2187 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669786.3 4

I O

SUMMARY

OF MEASURED DATA AT 115 116 TEMP 1 = 526.2530 ( 66.583 )

TEMP 2 = 525.8030 ( 66.133 )

TEMP 3 = 526.3060 ( 66.636 )

TEMP 4 = 530.9720 ( 71.302 )

TEMP 5 = 529.0960 ( 69.426 )

TEMP 6 = 526.1110 ( 66.441 )

TEMP 7 = 525.7900 ( 66.120 )

TEMP 8 = 525.3570 ( 65.687 )

TEMP 9 = 525.6520 ( 65.982 )

TEMP 10 = 529.7810 ( 70.111 )

TEMP 11 = 526.3350 ( 66.665 )

TEMP 12 = 526.6020 ( 66.932 )

TEMP 13 = 526.5460 ( 66.876 )

TEMP 14 = 525.4930 ( 65.823 )

TEMP 15 = 526.1110 ( 66.441 )

TEMP 16 = 525.4640 ( 65.794 )

TEMP 17 = 525.7800 ( 66.110 )

TEMP 18 = 525.2440 ( 65.574 )

PRES 1= 65.5361 (132777.0 )

PRES 2 = 65.5329 ( 66699.0 )

55.574 )

O VPRS VPRS VPRS 1=

2 3

=

.2184

.2213

.2170

(

55.934 )

55.390 )

VPRS 4 = .2156 ( 55.221 )

VPRS 5= .2266 ( 56.584 )

VPRS 6= .2178 ( 55.497 )

SU"d4ARY OF CORRECTED DATA TIME = 115 DATE = 116 TEMPERATURE (DEGREES R.) = 526.4009 CORRECTED-PRESSURE (PSIA) = 65.3154 VAPOR PRESSURE (PSIA) = .2191 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669818.3 O

l 1

SUMMARY

OF MEASURED DATA AT 130 116 9

TEMP 1 = 526.2700 ( 66.600 )

TEMP 2 = 525.8160 ( 66.146 )

TEMP 3 = 526.3080 ( 66.638 )

TEMP 4 = 530.9600 ( 71.290 )

TEMP 5 = 529.1340 ( 69.464 )

TEMP 6 = 526.1510 ( 66.481 )

TEMP 7 = 525.8190 ( 66.149 )

TEMP 8 = 525.3660 ( 65.696 )

TEMP 9 = 525.6670 ( 65.997 )

TEMP lo = 530.2280 ( 70.558 )

TEMP 11 = 526.3470 66.677 )

l. TEMP TEMP TEMP TEMP 12 13 14 15

=

526.6460 526.5670 525.5070 526.1310

(

66.976 )

66.897 )

65.837 )

66.461 )

TEMP 16 = 525.4840 ( 65.814 )

TEMP 17 = 525.8130 ( 66.143 )

TEMP 18 = 525.2790 ( 65.609 )

PRES 1= 65.5361 (132777.0 )

PRES 2= 65.5329 ( 66699.0 )

VPRS 1= .2185 ( 55.589 )

VPRS 2= .2209 ( 55.880 )

VPRS 3= .2165 ( 55.325 )

VPRS 4= .2156 ( 55.210 )

VPRS 5= .2274 ( 56.687 )

VPRS 6= .2178 ( 55.496 )

SUMMARY

OF CORRECTED DATA TIME = 130 DATE = 116 TEMPERATURE (DEGREES R.) = 526.4406 CORRECTED PRESSURE (PSIA) = 65.3155 VAPOR PRESSURE (PSIA) = .2190 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669769.0 0

I O

SUMMARY

OF MEASURED DATA AT 145 116 TEMP 1 = 526.2830 ( 66.613 )

TEMP 2 = 525.8260 ( 66.156 )

TEMP 3 = 526.3810 ( 66.711 )

TEMP 4 = 530.9940 ( 71.324 )

TEMP 5 = 529.1750 ( 69.505 )

TEMP 6 = 526.1460 ( 66.476 )

TEMP 7 = 525.8500 ( 66.180 )

TEMP 8 = 525.3970 ( 65.727 )

TEMP 9 = 525.7390 ( 66.069 )

TEMP 10 = 530.2060 ( 70.536 )

TEMP 11 = 526.4020 ( 66.732 )

TEMP 12 = 526.6570 ( 66.987 )

TEMP 13 = 526.5840 ( 66.914 )

TEMP 14 = 525.5260 ( 65.856 )

TEMP 15 = 526.1610 ( 66.491 )

TEMP 16 = 525.5010 ( 65.831 )

TEMP 17 = 525.8180 ( 66.148 )

TEMP 18 = 525.2980 ( 65.628 )

PRES 1= 65.5376 (132780.0 )

PRES 2= 65.5329 ( 66699.0 )

55.551 )

O VPRS VPRS VPRS 1=

2=

3=

.2182

.2217

.2164

(

55.986 )

55.314 )

VPRS 4= .2161 ( 55.281 )

VPRS 5= .2268 ( 56.617 )

VPRS 6= .2172 ( 55.413 )

SUMMARY

OF CORRECTED DATA TIME = 145 DATE = 116 TEMPERATURE (DEGREES R.) = 526.4658 CORRECTED PRESSURE (PSIA) = 65.3162 VAPOR PRESSURE (PSIA) = .2190 VO LUME ( CU . FT . ) = 2000000,0 AIR MASS (LEM) = 669744.4 O

1

SUMMARY

OF MEASURED DATA AT 200 116 9

TEMP 1 = 526.2730 ( 66.603 )

TEMP 2 = 523.8270 ( 66.157 )

TEMP 3 = 526.3920 ( 66.722 )

TEMP 4 = 531.0200 ( 71.350 )

TEMP 5 = 529.1840 ( 69.314 )

TEMP 6 = 526.2120 ( 66.542 )

TEMP 7 = 525.0610 ( 66.191 )

TEMP 8 = 525.4290 ( 65.759 )

TEMP 9 = 525.7630 ( 66.093 )

TEMP 10 = 530.3300 ( 70.660 )

TEMP 11 = 526.3920 ( 66.702 )

TEMP 12 = 526.6450 ( 66.975 )

TEMP 13 = 526.8010 ( 67.131 )

TEMP 14 = 525.5590 ( 65.889 )

TEMP 15 = 526.1580 ( 66.488 )

TEMP 16 = 525.5250 ( 65.855 )

TEMP 17 = 525.8360 ( 66.166 )

TEMP 18 = 525.2950 ( 65.625 )

PRES 1= 65.5381 (132781.0 )

PRES 2= 65.5339 ( 66700.0 )

VPRS 1= .2188 ( 55.624 )

VPRS 2= .2219 ( 56.010 )

VPRS 3= .2166 ( 55.346 )

VPRS 4= .2162 ( 55.296 )

VPRS 5= .2269 ( 56.629 )

VPRS 6= .2181 ( 55.534 )

SUMMARY

OF CORRECTED DATA TIME = 200 DATE = 11G TEMPERATURE (DEGREES R.) = 526.4916 CORRECTED PRESSURE (PSIA) = 65.3166 VAPOR PRESSURE (PSIA) = .2194 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669715.1 0

O

SUMMARY

OF MEASURED DATA AT 215 116 TEMP 1 = 526.3370 ( 66.667 )

TEMP 2 = 525.8640 ( 66.194 )

TEMP 3 = 526.4360 ( 66.766 )

TEMP 4 = 531.0180 ( 71.348 )

TEMP 5 = 529.1860 ( 69.516 )

TEMP 6 = 526.2020 ( 66.532 )

TEMP 7 = 525.8650 ( 66.195 )

TEMP 8 = 525.5040 ( 65.834 )

TEMP 9 = 525.7390 ( 66.069 )

TEMP 10 = 530.3830 ( 70.713 )

TEMP 11 = 526.4310 ( 66.761 ) !

TEMP 12 = 526.7040 ( 67.034 ) l TEMP 13 = 526.6040 ( 66.934 )

TEMP 14 = 525.5130 ( 65.843 )

TEMP 15 = 526.1900 ( 66.520 )

TEMP 16 = 525.5230 ( 65.853 ) .

TEMP 17 = 525.8560 ( 66.186 )

TEMP 18 = 525.3340 ( 65.664 )

PRES 1= 65.5381 (132781.0 )

PRES 2= 65.5339 ( 66700.0 )

VPRS 1= .2183 55.557 )

O' VPRS 2= .2219

(

( 56.004 )

VPRS 3= .2170 ( 55.394 )

VPRS 4= .2163 ( 55.302 )

VPRS 5= .2269 ( 56.625 )

VPRS 6a .2180 ( 55.516 )

SUMMARY

OF CORRECTED DATA TIME = 215 DATE a 116

= 526.5094 TEMPERATURE (DEGREES R.)

CORRECTED PRESSURE (PSIA) = 65.3167

=

VAPOR PRESSURE (PSIA) .2193 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 659693.1 O

i ,

230 116 9

SUMMARY

OF MEASURED DATA AT TEMP 1 = 526.3210 ( 66.651 )

TEMP 2 = 525.8680 ( 66.198 )

TEMP 3 = 526.4340 ( 66 764 )

TEMP 4 = 531.0610 ( 71.391 )

TEMP 5 = 529.1960 ( 69.526 )

TEMP 6 = 526.1980 ( 66.528 )

TEMP 7 = 525.8880 ( 66.218 )

TEMP 8 = 525.4410 ( 65.771 )

TEMP 9 = 525.8190 ( 66.149 )

TEMP 10 = 530.3160 ( 70.646 )

TEMP 11 = 526.3950 ( 66.725 )

TEMP 12 = 526.7240 ( 67.054 )

TEMP 13 = 526.8040 ( 67.134 )

TEMP 14 = 525.6610 ( 65.991 )

TEMP 15 = 526.2150 ( 66.545 )

TEMP 16 = 525.5520 ( 65.882 )

TEMP 17 = 525.8800 ( 66.210 )

TEMP 18 = 525.3490 ( 65.679 )

PRES 1= 65.5395 (132784.0 )

PRES 2= 65.5348 ( 66701.0 )

VPRS 1= .2183 ( 55.561 ) h VPRS 2= .2217 ( 55.989 )

VPRS 3= .2178 ( 55.497 )

VPRS 4= .2162 ( 55.296 )

VPRS 5= .2275 ( 56.695 )

VPRS 6= .2182 ( 55.546 )

SUMMARY

OF CORRECTED DATA TIME = 230 DATE = 116 TEMPERATURE (DEGREES R.) = 526.5222 CORRECTED PRESEURE (PSIA) = 65.3176 VAPOR PRESSURE (PSIA) = .2196 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669687.0 9

()

SUMMARY

OF MEASURED DATA AT 245 116 :

TEMP 1 = 526.3610 ( 66.691 )

TEMP 2 = 525.9220 ( 66.252 )

TEMP 3 = 526.3860 ( 66.716 )

TEMP 4 = 531.0490 ( 71.379 )

TEMP 5 = 529.2470 ( 69.577 )

TEMP 6 = 526.2700 ( 66.600 )

TEMP 7 = $25.9170 ( 66.247 )

TEMP 8 = 525.4900 ( 65.820 )

TEMP 9 = 525.7540 ( 66.084 )

TEMP 10 = 529.9160 ( 70.246 )

TEMP 11 = 526.4250 ( 66.755 )

TEMP 12 = 526.6970 ( 67.027 )

TEMP 13 = 526.6540 ( 66.984')

TEMP 14 = 525.6120 ( 65.942 ) :

TEMP 35 = 526.2280 ( 66.5P8 )

TEMP 16 = 525.5750 ( 65.905 )

TEMP 17 = 525.9160 ( 66.246 )

TEMP 18 = 525.3920 ( 65.722 )

PRES 1= 65.5395 (132784.0 )

PRES 2= 65.5340 ( 66701.0 )

\

VPRS 1= .2186 ( 55.590 )

l VPRS 2= .2217 ( 55.981 )

VPRS 3= .2169 ( 55.387 )

VPRS 4= .2160 ( 55.265 )

VPRS 5= .2273 ( 56.675 )

VPRS 6= .2180 ( 55.523 )

SUMMARY

OF CORRECTED DATA TIME = 245 DATE = 116 TEMPERATURE (DEGREES R.) = 526.5223 CORRECTED PRESSURE (PSIA) = 6'4.3179

! VAPOR PRESSURE (PSIA) = .2193 I

VOLUME (CU. FT. ) = 2000000.0 AIR MASS (LBM) = 669689.0 0

SUMMARY

OF MEASURED DATA AT 300 116 O

TEMP 1 = 526.3750 ( 66.705 )

TEMP 2 = 525.9380 ( 66.268 )

TEMP 3 = 526.4150 ( 66.745 )

TEMP 4 = 531.0650 ( 71.395 )

TEMP 5 = 529.2540 ( 69.584 )

TEMP 6 = 526.2830 ( 66.613 )

TEMP 7 = 525.9220 ( 66.252 )

TEMP 8 = 525.5110 ( 65.841 )

TEMP 9 = 525.7630 ( 66.093 )

TEMP 10 = 529.9130 ( 70.243 )

TEMP 11 = 526.4450 ( 66.775 )

TEMP 12 = 526.7440 ( 67.074 )

TEMP 13 = 526.7290 ( 67.059 )

TEMF 14 = 525.6810 ( 66.011 )

TEMP 15 = 526.2390 ( 66.569 )

TEMP 16 = 525.5910 ( 65.921 )

TEMP 17 = 525.9170 ( 66.247 )

TEMP 18 = 525.4070 ( 65.737 )

PRES 1= 65.5400 (132785.0 )

PRES 2= 65.5368 ( 66703.0 )

VPRS 1= .2189 ( 55.629 ) h VPRS 2= .2221 ( 56.031 )

VPRS 3= .2176 ( 55.464 )

VPRS 4= .2165 ( 55.334 )

VPRS 5= .2274 ( 56.687 )

VPRS 6= .2183 ( 55.560 )

SUMMARY

OF CORRECTED DATA TIME = 300 DATE = 116 TEMPERATURE (DEGREES R.) = 526.5417 CORRECTED PRESSURE (PSIA) = 65.3187 VAPOR PRESSURE (PSIA) = .2197 VOLUME (CU. FT. ) = 2000000.0 AIR MASS (LEM) = 669672.9 i

O 1

l

O

SUMMARY

OF MEASURED DATA AT 315 116 TEMP 1 = 526.3860 ( 66.716 )

TEMP 2 = 525.9370 ( 66.267 )

TEMP 3 = 526.4830 ( 66.013 )

TEMP 4 = 531.0960 ( 71.426 )

TEMP 5 = 529.2590 ( 69.589 )

TEMP 6 = 526.2890 ( 66.619 )

TEMP 7 = 525.9060 ( 66.236 )

TEMP 8 = 525.5630 ( 65.893 )

TEMP 9 = 525.8640 ( 66.194 )

TEMP 10 = 529.9650 ( 70.295 )

TEMP 11 = 526.4940 ( 66.824 )

TEMP 12 = 526.7550 ( 67.085 )

TEMP 13 = 526.7120 ( 67.042 )

TEMP 14 = 525.6500 ( 65.980 )

TEMP 15 = 526.2500 ( 66.580 )

TEMP 16 = 525.6120 ( 65.942 )

TEMP 17 = 525.9350 ( 66.265 )

TEMP 18 = 525.3860 ( 65.716 )

PRES 1= 65.5420 (132789.0 )

PRES 2= 65.5368 ( 66703.0 )

O VPRS VPRS 1=

2=

.2189

.2223

.2172

(

55.635 )

56.063 )

VPRS 3= ( $5.423 )

VPRS 4= .2169 ( 55.377 )

VPRS 5= .2283 ( 56.796 )

VPRS 6= .2182 ( 55.551 )

SUMMARY

OF CORRECTED DATA TIME = 315 DATE = 116 TEMPERATURE (DEGREES R.) = 526.5590 CORRECTED PRESSURE (PSIA) = 65.3196 VAPOR PRESSURE (PSIA) = .2198 VOLUME (CU. FT. ) = 2000000.0 AIR MASS (LBM) = 669660.2 O

l l

SUMMARY

OF MEASURED DATA AT 330 116 9

TEMP 1 = 526.3950 ( 66.720 )

TEMP 2 = 525.9660 ( 66.296 )

TEMP 3 = 526.4680 ( 6C.798 )

TEMP 4 = 530.9390 ( 71.269 )

TEMP 5 = 529.3150 ( 69.645 )

TEMP 6 = 526.2760 ( 66.606 )

TEMP 7 = 525.9490 ( 66.279 )

TEMP 8 = 525.5360 ( 65.866 )

TEMP 9u 525.9310 ( 66.261 )

TEMP 10 = 529.8940 ( 70.224 )

TEMP 11 = 526.5460 ( 66.876 )

TEMP 12 = 526.7320 ( 67.112 )

TEMP 13 = 526.6330 ( 66.963 )

TEMP 14 = 525.7220 ( 66.052 )

TEMP 15 = 526.2910 ( 66.621 )

TEMP 16 = 525.6440 ( 65.974 )

TEMP 17 = 525.9480 ( 66.278 )

TEMP 18 = 525.4270 ( 65.757 )

PRES 1= 65.5430 (132791.0 )

PRES 2= 65.5378 ( 66704.0 )

VPRS 1= .2192 ( 55.673 ) h VPRS 2= .2227 ( 56.109 )

VPRS 3= .2175 ( 55.456 )

VPRS 4= .2168 ( 55.369 )

VPRS 5= .2283 ( 56.793 )

VPRS 6= .2188 ( 55.619 )

SUMMARY

OF CORRECTED DATA TIME = 330 DATE = 116 TEMPERATURE (DEGREES R.) = 526.5738 CORRECTED PRESSURE (PSIA) = 65.3203 VAPOR PRESSURE (PSIA) = .2201 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669648.6 9

m

O

SUMMARY

OF MEASURED DATA AT 345 116 TEMP 1 = 526.3890 ( 66.719 )

TEMP 2 = 525.9670 ( 66.297 )

TEMP 3 = 526.4180 ( 66.748 )

TEMP 4 = 530.7180 ( 71.048 )

TEMP 5 = 529.2890 ( 69.619 )

TEMP 6 = 526.3290 ( 66.659 )

TEMP 7 = 525.9930 ( 66.323 )

TEMP 8 = 525.5800 ( 65.910 )

l TEMP 9 = 526.0060 ( 66.336 )

L TEMP 10 = 530.1970 ( 70.527 )

TEMP 11 = 576.5240 ( 66.854 )

TEMP 12 = 526.8230 ( 67.153 )

TEMP 13 = 526.7840 ( 67.114 )

TEMP 14 = 525.6850 ( 66.015 )

TEMP 15 = 526.3030 ( 66.633 )

TEMP 16 = 525.6550 ( 65.985 )

TEMP 17 = 525.9810 ( 66.311 )

TEMP 18 = 525.4520 ( 65.782 )

PRES 1= 65.5430 (132791.0 )

PRES 2= 65.5378 ( 66704.0 )

('

VPRS VPRS 1=

2=

.2190

.2224

(

55.650 )

56.071 )

VPRS 3= .2177 ( 55.484 )

VPRS 4= .2170 ( 55.392 )

l VPRS 5= .2279 ( 56.744 )

VPRS 6= .2190 ( 55.641 )

SUMMARY

OF CORRECTED DATA TIME = 345 DATE = 116 l

TEMPERATURE (DEGREES R. ) ' 526.5994 CORRECTED PRESSURE (PSIA) = 65.3203 VAPOR PRESSURE (PSIA) = .2201 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669616.5 m

b

SUMMARY

OF MEASURED DATA AT 400 116 O

TEMP 1 = 526.4220 ( 66.752 )

TEMP 2 = 525.9810 ( 66.311 )

TEMP 3 = 526.4540 ( 66.784 )

TEMP 4 = 530.6290 ( 70.959 )

TEMP 5 = 529.3140 ( 69.644 )

TEMP 6 = 526.3380 ( 66.668 )

TEMP 7 = 526.0160 ( 66.346 )

TEMP 8 = 525.6030 ( 65.933 )

TEMP 9 = 525.9520 ( 66.282 )

TEMP 10 = 530.4060 ( 70.736 )

TEMP 11 = 526.6070 ( 66.937 )

TEMP 12 = 526.8360 ( 67.166 ) l TEMP 13 = 526.8130 ( 67.143 ) l TEMP 14 = 525.6580 ( 65.988 ) j TEMP 15 = 526.3170 ( 66.647 ) l TEMP 16 = 525.6650 ( 65.995 )

TEMP 17 = 525.9950 ( 66.325 )

TEMP 18 = 525.4730 ( 65.803 )

PRES 1= 65.5440 (132793.0 )

PRES 2= 65.5378 ( 66704.0 )

VPRS 1= .2197 ( 55.732 )

VPRS 2= .2223 ( 56.053 )

h VPRS 3= .2176 ( 55.465 )

VPRS 4= .2169 ( 55.380 )

VPRS 5= .2282 ( 56.787 )

VPRS 6= .2187 ( 55.612 )

SUMMARY

OF CORRECTED DATA TIME = 400 DATE = 116 TEMPERATURE (DEGREES R.) = 526.6290 CORRECTED PRESSURE (PSIA) = 65.3208

= .2201 VAPOR PRESSURE (PSIA)

VOIUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669583.1 0

O

SUMMARY

OF MEASURED DATA AT 415 116 TEMP 1 = 526.4730 ( 66.803 )

TEMP 2 = 525.9900 ( 66.320 )

TEMP 3 = 526.5290 ( 66.859 )

TEMP 4 = 530.5850 ( 70.915 )

TEMP 5 = 529.3060 ( 69.636 )

TEMP 6 = 526.3320 ( 66.662 )

TEMP 7 = 526.0350 ( 66.365 )

TEMP 8 = 525.5940 .( 65.924 ) 1 TEMP 9 = 526.0040 ( 66.334 )

TEMP 10 = 530.2060 ( 70.536 )

TEMP 11 = 526.5870 ( 66.917 )

TEMP 12 = 526.8560 ( 67.186 ) '

TEMP 13 = 526.7910 ( 67.121 )

TEMP 14 = 525.7290 ( 66.059 )

TEMP 15 = 526.3320 ( 66.662 )

TEMP 16 = 525.6930 ( 66.023 )

TEMP 17 = 526.0160 ( 66.346 )

TEMP 18 = 525.4730 ( 65.803 )

PRES 1= 65.5440 (132793.0 )

PRES 2= 65.5378 ( 66704.0 )

I VPRS 1= .2194 ( 55.696 )

VPRS 2= 56.103-)

l .2227 (

l VPRS 3= .2174 ( 55.445 )

VPRS 4= .2175 ( 55.461 )

VPRS- 5= .2282 ( 56.785 )

VPRS 6= .2191 ( 55.665 )

SUMMARY

OF CORRECTED DATA TIME = 415 DATE = 116 TEMPERATURE (DEGREES R.) = 526.6376

= 65.3206 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .2202 VOLUME (CU.FT. ) = 2000000.0 AIR MASS (LBM) = 669571.1

(:)

SUMMARY

OF MEASURED DATA AT 430 116 O

TEMP 1 = 526.4760 ( 66.806 )

TEMP 2 = 526.0380 ( 66.368 )

TEMP 3 = 526.5560 ( 66.886 )

TEMP 4 = 530.5760 ( 70.906 )

TEMP 5 = 529.3730 ( 69.703 )

TEMP 6 = 526.3730 ( 66.703 )

TEMP 7 = 526.0480 ( 66.378 )

TEMP 8 = 525.6260 ( 65.956 )

TEMP 9 = 525.9600 ( 66.290 )

TEMP 10 = 530.4320 ( 70.762 )

TEMP 11 = 526.5850 ( 66.915 )

TEMP 12 = 526.8940 ( 67.224 )

TEMP 13 = 526.8170 ( 67.147 )

TEMP 14 = 525.7810 ( 66.111 )

TEMP 15 = 526.3890 ( 66.719 )

TEMP 16 = 525.7110 ( 66.041 )

TEMP 17 = 526.0330 ( 66.363 )

TEMP 18 = 525.5100 ( 65.840 )

PRES 1= 65.5450 (132795.0 )

PRES 2= 65.5397 ( 66706.0 )

VPRS 1= .2197 ( 55.729 ) h VPRS 2= .2226 ( 56.092 )

VPRS 3= .2186 ( 55.598 )

VPRS 4 = .2171 ( 55.410 )

VPRS S= .2284 ( 56.807 )

VPRS 6= .2189 ( 55.632 )

SUMMARY

OF CORRECTED DATA TIME = 430 DATE = 116 CRATURE (DEGREES R.) = 526.6758 CTED PRESSURE (PSIA) = 65.3219 VAPOR PRESSURE (PSIA) = .2205 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669535.1 0

I C

b

SUMMARY

OF KEASURED DATA AT 445 116 l l

TEMP 1 = 526.4890 ( 66.819 )

TEMP 2 - 526.0670 ( 66.397 )

TEMP 3 = 526.5660 ( 66.896 )

TEMP 4 = 530.5860 ( 70.916 )

TEMP 5 = 529.3760 ( 69.706 )

TEMP 6 = 526.3840 ( 66.714 )

TEMP 7 = 526.0770 ( 66.407 )

TEMP 8 = 525.6710 ( 66.001 )

TEMP 9 = 526.0440 ( 66.374 )

TEMP 10 = 530.3910 ( 70.721 )

TEMP 11 = 526.6020 ( 66.932 )

TEMP 12 = 526.9030 ( 67.233 )

TEMP 13 = 526.7730 ( 67.103 )

TEMP 14 = 525.7420 ( 66.072 )

TEMP 15 = 526.3600 ( 66.690 )

TEMP 16 = 525.7290 ( 66.059 )

TEMP 17 = 526.0500 ( 66.380 )

TEMP 18 = 525.5230 ( 65.853 )

PRES 1- 65.5460 (132797.0 )

PRES 2= 65.5407 ( 66707.0 )

(~) VPRS 1= .2196 ( 55.723 )

() VPRS 2= .2230 ( 56.141 ) :

VPRS 3= .2184 ( 55.575 )

VPRS 4= .2173 ( 55.435 )

VPRS 5= .2282 ( 56.779 )

VPRS 6= .2193 ( 55.679 )

SUMMARY

OF CORRECTED DATA TIME = 445 DATE = 116 TEMPERATURE (DEGREES R.) = 526.6854 CORRECTED PRESSURE (PSIA) = 65.3228

=

VAPOR PRESSURE (PSIA) .2206 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 669532.0

(

APPENDIX G i Type B and C Leakage Rate Test Results

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APPENDIX G Type B and C Leakage Rate Test Results A. APPENDIX DESCRIPTION ne following tables list as found and as.left LLRT results for each penetration. Rese results are from the Unit 21987 and 1989 Refueling Outages (although some tests were performed in 1990 and 1991). All results are in secm. i B. EXPLANAT")N OF PENETRATION 50 LLRT ESTIMATE Note t:<at for penetration 50, the 1989 as found test was not performed. This error was

+

reported in LER 89-08 (attached). The test value shown in this report is equal to the highest as f.und leakage recorded for snetration 50 on Unit 2 since 1982.' This value is censervative because the penetration is closed by two flanges which are pushed out during an LLRT, but are in compression during an accident.

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19871.1.ItT MAXIMUM PATilWAY 1.EAKAGE l't:Nlit itATION AS.l'Ot!NI) AS l.lil'I' 1A 1,540 1,102 0 1 11 13M 138 1C 11 11 1D 27 27 2A 11,620 240 2 11 5,(KKI 1.73M 7A 8 8 7 11 5 5 8 241 241 9 1.331 1,331 10 1,299 1,299 21 1 46 63 21 2 97 48 2 ' "' 2" O 22-2 47 40 13 17,016 6,806 14 917 1,250 15 30M 52 16 58 SS 18 52 52 19A 5,5(K) 74 1911 28 28 20A 918 807 2011 257 257 20C 1,740 176 23 102 102 0 24 20 20 37 101 101 38 10 10

l'ENiilRATION AS l'OUNI) AS l.EIT 39 444 444 l O 41 5,719 238 42 45 407 I 44 326 326 I i

47A 28 28 4711 30 30 47C 69 69 47D 24 24 48A 2520 63 4Sil 2,760 1,026 49A 24 24 4 911 12 12 49C 14 14

'O 5311 433 433 54W 183 183 SSE 227 228 SSW 1&S 18S 56E 8 8 56W 9 9

5) 4 4 60 5 5 61 208 208 62 152 152 64 240 240 67 11 90

~

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69 2,312 2,312 70,334 26,779

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

1989 LLitT MAXIMUh11'ATilWAY LEAKAGE l'ENETilATION A S I'O U N I) AS.I.1:lT 1A 11 24 O 1 11 165 216 1C 3RN 20 1D 80 2 2A 7,550 550 2 11 91,190 1,077 7A 3 2 7 11 3 2 l

H 227 1,820 9 382,320 4,030 10 90,624 1,640 21 1 4 96 21-2 2 18 G 22 1 4 154 V

22 2 2 9S 13 243 486 14 46,345 417 15 49 234 16 35 20 18 569 20 19A 377 1,354 1911 2,0MO 3 20A 1,064 824 20B 384 53 l 20C 779 355 23 93 19 l 24 344 16 37 13,030 20 38 44 2 l

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39 1,077 164 41 1.430 477 -

2 ,

i i 42 1,421 20 ,

44 229,392 4,720 47A 60 20 '

. i i 4711 65 20

! 47C 83 20 47D $8 20

! 48A 419 54 ;

481) 1,440 193 49A 60 20 i i 49I1 73 20

, 49C $8 20 ;

O 53fi 371 148

54W 112 162 551I 162 225 -

55W 2M 273

$611 22 21 56W 4 18 l

t 59 23 50 60 W 6

. s 61 29 886 i

62 596 1,310 I

M i18,944 20

! 67 7 5 O u .w, u"> '

as 69 1,850 2,774 l

1,007,385 28,937 ,

listimated Wlve

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C. EUMhtARY OF hfINIh1Uh1 PATilWAY lh1PROVEhfENTS FOR TIIE 1989 REFUI' LING OUTAGE C.I Definitions . The following definitions are used to be consistent with Cabert Chirs

Instructions.

'As.Found* 12akage The leakage rate determined during the ILRT before any repairs or adjustments are performed.

'As.left' Leakage . The leakage rate determined during the ILRT after any repairs or adjustments are performed. As.left and as.found results are the same if no repairs or adjustments are performed during the test.

"End of Cycle

Ixakage . The leakage rate determined by adding minimum pathway leakage improvements to the "as.found' test results. This leakage rate is a rough estimate of what leakage might have been if an ILRT was performed immediately after shutdown. This calculation is described in Information Notice 85 71. We are reporting this value without using it as a test limit.

C.2 RESULTS The 95% UCL test results (in wt %) are shown below:

Test Hesult As.1xft .118 As.Found .118 End of Cycle .206 The table on the following page summarizes 1.ocal I.eak Rate Improvements that have occurred because of repairs or adjustments performed during the 1989 Unit 2 Refueling Outage. These results are minimum pathway leakage results. When totaled the improvements equal 152.512 seem or .088 wt %/ day.

Most of the improvements can be attributed to repairing 0.PH.387. An evaluat!on is being performed to determine if preventive measures should be taken to prevent recurrence of high minimum pathway leakage for 0.PH 387.

i 1

CALCULATION OF hilN PATH LEAKAGE IMPROVEhiENTS 1991 ;

MIN PATil LEAKAGE

-I PEN BEFORE AITER MAINT IMPROVEMENTS O 2A 3620 313 3307 7A 2 1 1 7B 2 1 1

9 til 2860 0 i 10 159 1520 0 l

13 122 243 0 1

14 23.173 104 23,069 20A 956 354 602 20B 119 20 99 20C 222 22 200 24 344 16 328 37 5 20 0 42 1421 20 1401 l

'44 1442 874 568 50 80 27 53 l 64 118,944 20 118,924 67 7 20 0 68 5549 1850 3699 69 925 1387 0

S/G Manway 21 1 4 96 0 S/G Manway 21 2 2 18 0 S/G Manway 22 1 4 154 0 l S/G Manway 22 2 2 98 0 l

l 2ZEB4 53 262 2 260 152,512 SCCM f

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On March 27. 1989, while Calvert Cliffs Ur?.c 2 was operating in MODE 5 (0 percent power, < 200 degrees Fahrenheit), the Contaitunent Integrated Leak Rate Test (1LRT) ptessurization penetration flanges were removed without first performing a Local Leak Rate Test (LLRT). Therefore the requirement to perform a LOT on this Type B penetration every 24 months was not met. The causi of the event was that the maintenance package did not explicitly require a LLRT as a prerequisite to maintenance.

A review of this penetration's post maintenance history as well as its most recent As Left LLRT showed that although the ability to obtain the data was lost. the penetration would most likely have performed its intended safety function. This event was determined not to be reportable but is being submitted as a voluntary report under The Other category.

Corrective Actions taken or planned include: (1) Training to applicable mechanical supervision, craf t. and planners, (2) Maintenance planners have been provided a condensed list of Type B and C LLRT penetrations. (3) An additional field will be added to the planners worksheet. (4) The specific requirement to perform a LMT prior to the maintenance vill be added to mechanical maintenance work packages for Type B and C penetrations.

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EVENT StMmY On March 27, 1989, while Calvert Cliffs Unit 2 was operating in MODE $ (0 percent power, less than 200 degrees Fahrenheit), the Containment (E115 bH)

Integrated Leak Rate Test (ILRT) Penetration rianges (EIIS bH.PST) for containment penetration (EIIS bH. PEN) number 50 were removed prior to performing a Local Leak Rate Test (LLRT). This test is required by our Surveillance Test Procedure (STP)

M 571 2 (Loc al Le ak Ra te Te s t) .

The purpose of STP M 571 2 is to ensure that the leakage through Type B and C penetrations, in an accident condition, remains within the requirements of Technical Specification 3.6.1.2 (Containment Leakage). This specification requires o combined leakege rate of less than or equal to 207,600 standard cubic centimeters per minute (seem) for all penetrations and valves subject to Type B and C tests.

The values of the LLRT prior to maintenance are factored into the ILRT to determine total measured containment leakage.

Penetration 50 is categorized as a Type 8 penetration since it is a flange penetration vith a flexatallic gasket seal. Since no local leak rate was taken prior to the flanges disassembly, the surveillance requirement to perform a Type B test at intervals no greater than 24 months was not mec for this penetration. The

{ )eventwasdiscoveredonthesamedate (March 27, 1989) when the technicians, who vere going to perform the LLRT, arrived at the worksite and noted the flange in the disassembled state.

DMCRIPTION OF THE IIRT PRISStmIZATION FIANCE The ILRT Prassurization Tiange is a 6 inch nominal diameter flange used for two purposes. First, during maintenance outages, the flange is used to supply air inside containment for various maintenance uses (e.g., pneumatic tools, etc.),

This is done by removing the blank flanges, cc.nnecting a valved flange onto the containment side penetration and installing a spool piece (EIIS bH.RSP) between the flanges outside containment, The second purpose is to use the penetration as the location for admitting air to pressurize the containment for the IGT (see Figure 1). The flanges use a 6 inch, 150 PSI Flexatallic Casket.

CAUSE OF THE EVENT The maintenance on Penetration 50 was anticipated. As such, the maintenance planning schedule showed the LLRT planned for March 27, 1989 and the removal of the flanges planned the next day (March 28, 1989). Contrary to the schedule, on March 27, 1989, the Mechanical Maintenance Supervisor, with appropriate authorization from the tagging authority, directed removal of the penetration flanges in preparation for plant air hook up to the containment. The maintenance package did not specify that a LLRT had to be perforned prior to removing the flanges. Also, the planning schedule was not reviewed prior to authorization by the Mechanical Maintenance Supervisor.

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The maintenance work schedule is used as a maintenance outage planning aid.

No specific procedure requires work to be performed in the exact order of the schedule. Therefore, the cause of the event was that the pisnned maintenance package did not require a LGT as a prerequisite to maintenance.

Local Leak Rate Tests are performed by the Electrical and Control (E6C)

Maintenance Shop, whereas the physical work on valve or flanged penetrations is performed by the Mechanical Maintenance Shop. Since the Lu T data must be gathered prior to any maintenance, this pre maintenance requirement must be stated in the cechanical maintenance work package. The maintenanca planner is conscientious, knowledgeable, and aware that containment penstrations require LLRTs prior to caintenance. Review of other similar penetration maintenance packages prepared by the planner showed that the LLRTs were listed as a prerequisite. Failure to include the LMT in the maintenance package was personnel error, however, no specific process is in place which focuses mechanical maintenance planners to consider the need for a LLRT or require LLRTs as a prerequisite to penetration maintenance. Therefore, the root cause of the event is the limited planning tools available to the mechanical maintenance planners.

ASSESSMENT OF THE SAFETY CONSEOUENCES I I Both Integrated and Local leak Rate Testing of the containment are the methods of ensuring the containnent boundary wi21 function as assumed in the accident analyt.es (ie., the total containment leakage volume vill not exceed 346.000 seem at the peak accident pressure).

This penetratt oa's leakage history was reviewed. The "As found* 1eakage rates (prior to maintenance) and *As Lef t' leakage rates (following maintenance) are listed below in seem:

Net Chane_e Outare As left Outare As Found Between Outates Fall 1982 250,0 Spring 1984 128.9 121.1 i Spring 1984 86.3 Fall 1985 15.3 . 71.0 I

Fall 1985 239.0 Spring 1987 159.0 . 80.0 Spring 1987 18.2 Spring 1989 Missed 7 The above data shows that this penetration has a history of loV leakage. It also shows that during the period between the As Lef t and As Found LLRTs, no degradation in leakage occurred. In addition, the penetration is a passive component. Following use, the blank flanges are replaced with a new flexatallic gasket and the penetration typically is not used until the next outage. Therefore, based on previous history as well as the Spring 1987 As Lef t data, this penetration would have been expected to perform its intended safety function.

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em e . oc a.- am. .mri 611LSSKENT OF REPORTAELLlU The event occurred during MODE 5. If the penetration was conservatively casumed to have failed at the time the capability to perform an As Found LLRT das lost, the associated LIMITING CONDITIONS and ACTION statements for the Technical Specifications were met. Therefore, this event was not reportable under any of the applicable 10 CPR $0.73 criteria. However, the potential generic issues related to this event are recognized. Therefore, this Voluntary Report is being submitted under the category of Other.

COPAECTIVE ACTIONS The following corrective actions have been taken or are planned:

1) Training on this incident vill be given to applicable mechanical craft, supervision, and planners. This training vill stress the requirements of LLRTs, the importance of the containment as a vital boundary, as well as all associated tests und maintenance.

2) The mechanical maintenance planners have been instructed to include a specific requirement in the rechanical maintenance package for a LLRT I I prior to applicable maintenance.

3) The mechanical maintensnee planners have been provided a list of Type B and C penetrations.

4) An additional field vill be added to the planners worksheet to assist in scoping maintenance for any LLRT requirements. In addition, we vill assess adding the same field to the computerized Nuclear Maintenance System (NMS).

5) A review vill be made of other typical planned maintenance activities to determine if other prerequisites, similar to the LLRT for this event, must be considered during the planning period. These vill then be assessed as to whether they should be added to the NMS and pl nners worksheet.

There have been no previous similar Licensee Event Reports. The contact for this event is L. S. Larragoite (301) 260 4983.

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APPENDIX II

( Failed Local Leakage Rate Test Report l

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APPENDIX II FAILED LOCAL LEAKAGE RATE TEST REPORT

'O nis separate accompanying report is prepared to satisfy the requirements of 10 CFR 50, Appendix J, Section V.B.3. The as found manmum pathway combined leakage for all penetrations subject to Type B and C tests exceeded 0.6 La (207,700 secm), the allowable limit specified in Section 111.( 3 for the test performed during the 1989 Outage, ne combined as found muimum pathway localleakage rate was 1,007,385 sccm, approximately five times the allowable limit. De combinec leakage rate criteria failure was caused by execssive leakage at several penetrations listed in the following table.

11NLg FUNCrlON VAINE # AS FOUNil ASlILT CAUSE 2B RC Cl;ARGING CVC-184 91,190 192 leakage through alternate paths, CVC 184 itself did not leak significantly 9 CNTMT SPRAY SI340 382,320 4,030 Boron build up on valve seat 10 CNTMT SPRAY SI 330 90,624 1,520 Unknown 14 CNTMTPURGE CV 1412/1413 46,345 416.77 Aging valve seats i p 44 FIRE SYSTEM FP 145B 229,392 36 Debris on valve seat G

64 CNTMT HdATING Pil 387 118,944 20 Check valve seat stuck open (burrs on bushing)

Valves at many other penetrations had maintenance performed or repairs because individual valve leakage rates were above administrative guidelines, llowever, these are not listed here because they were not significant contributors to the failure.

The as left combined local leakage rate after repairs was 28,937 secm.

_- - ___

ML20024H642

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