ML20151Z624

From kanterella
Jump to navigation Jump to search
Primary Reactor Containment Integrated Leakage Rate Test
ML20151Z624
Person / Time
Site: Calvert Cliffs Constellation icon.png
Issue date: 05/31/1988
From:
BECHTEL GROUP, INC.
To:
Shared Package
ML20151Z623 List:
References
NUDOCS 8808300069
Download: ML20151Z624 (159)


Text

.- . - - , _ --

v;3 5

J b

i ll , il A

49 s

k , . ' . ,,

~ ;G j l,s ' -6

' .y J<

g '

f

,a; Yi' O

% ~

i w.+.)

5; lllhe:

e. g._

e 2 x0 'i __ , _ m , _;_ _, . .

kk: N . m gj;g i.

' 5

.} -l 2 .

4 m, mwwtma e%$w@@s%RfRMQ$m p

i

w.  : 4;.t fQQ a%p??QBKQ%)y+ @u?? ,

p id%,y#+ Eys@x J p? M M $ ,et , , , ?. e. y$p:

gd'!g:%

%e A

s;; ',j z k jyQ g M @ , m$ M, g s n.or .

wy;+y%4_:

.E%} si b. 'g4 w-m.

"%?

3. gg; s .; w,": w,, y

=L, 4

~ -

a.

~ , 4~m m -

. d;. .} JK '

.l

?

, w wr;

,_m.-._ x -

~

f,\;

-4 _ ___ _e E

w,y

tf +

a s ',V y 3, w , m . 4-

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

l

I

!I I

.I O -

l BALTDORE GAS AND E2CIRIC CMPANY i l

CALM GM N N PIANT l UNIT 1 l DOCITT NUMBER 50-317 l

PRIMARY REACICR CONTAINMENT INTEGRATED IZAIOGE FATE TEST REPORT i

O  !

MAY 1988 i

1 l

NN 3Y BEGIEL PWER CORBDPATION SAN FRANCISCO, CALIFORNIA O

_.,--.--_I

k l

l l

TABIE OF CONI'ENIS I. INIRXXXTICH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 4

II. TEST SYlCPSIS.................................................. 2 III. 'IEST DATA SLTHARY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 IV. ANAINSIS AND INTERPREIATICH. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 l V. REFERENCES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 r

APPD1 DICES A. Bechtel IIRT Caguter Pqtara Sunmary B. IIRT Stabilization C. IIRT Calculations

'Ibtal Time Analysis l Mass Point Analysis Trend Report Stu: mary Data ISG Calculation Graphs O Air Mass vs. Time

'Ibtal Time Imakage Rate vs. Time

  • Mass Point Imakage Rate vs. Time D. Verification Flow ' Dest Total Time Analysis Masc Point Analysis Su::rary Data  !

Graphs i Air Mass vs. Time l

'Ibtal Time Isakage Rate vs. Time  !

Mass Point Isakage Rate vs. Time E. Data Graphs Air Mass vs. Time Tenparature (average) vs. Time Prinssure (dzy air) vs. Time Vapor Pressure (average) vs. Time Tenparature Sensor 1s 1-18 vs. Time Pressure Sensors 1 and 2 vs. Time Dewpoint Tenperature Sensors 1-6 vs. Time F. Test Data G. Type B and C Isakage Rate '14st Results O

)

p  :-

i l

O -- l A Primary Containment Integrated Isakage Rate Test (IIRT) was === fully ocmpleted at the Calvert Cliffs Nuclear Power Plant, Unit 1, on 1 May 27, 1988. The test met the requirements set forth in 10CFR50, Appardix J.

Listed below is the sumary of the test results for both the Mass Point and  !

the 7btal Time data analysis techniques. The actual measured leakage (Lam) l and the 95% upper confidence limit (UCL), in units of weight percent per I day, are cccpared to the acceptance criteria.

l i

MASS PODTP TEST RESULT ACCEPTANCE CRITERIA )

IIRT Lam 0.022 0.150 IIRT UCL 0.026 0.150 Verification Test Lam 0.215 0.166 < Iam < 0.266 70IAL TIME IIRP Iam 0.012 0.150 '

IIRT UCL O Verification Nt Iam 0.080 0.230 0.150 0.156 < I.am < 0.256 The total leakage rate measured for the penetrations not in the post-IDCA lineup during the IIRT was .006%/ day, and is included in the above test l

results. The chronological sumary of events, sumary of plant technical data, and die '== ion of test results are included in portions of this report.

i i

4 i

I lo

I I. INTROCUCTICH mis report presents data, analysis, and conclusions pertaining to the  :

Calvert Cliffs Nuclear Power Plant Unit 1 Integrated I.makage Rate hat l (IIRI) performed in May 1988. The Integrated Isakage Rate Test (Type '

A) is performed periodically to duid-Lcate that the ocabined leakage through the reactor containment and those systems penetrating the ,

containment does not exceed the allowable leakage rate specified in the Plant %chnical Specification.

h sw-aful periodic Type A and supplemental verification test were performed according to the requirements of the Calvart Cliffs Nuclear Power Plent, Unit 1, Technical Specifications and 10CFR50, Appendix J. h Calvert Cliffs Type A test method is the Absolute Method described in ANSI N45.4-1972, "I.eakage Rate 7% sting of Containment Structures for Nuclear Reactors" and ANSI /ANS 56.8-1981, "Containment System Isakage Testing Requirements." The leakage rate was calculated using formlas frczn the above ANSI Standard and RT-TOP-1, Rev 1, "Testing Criteria for Integrated Isakage Rate Testing of Primary Containment Structures for Nuclear Power Plants." Type A and verification test durations were according to the criteria of 1 Bi-7CP-1.  ;

A 95% upper confidence limit was calculated for leakage rate data as required by Reference 6. This is to ensure a 95% probability that the Os calculated leakage rate value is within the acceptance limits. All calculations were done with Bechtel's IIRI cceputer program described in Appendix A. ,

The tecperature and pressure history and the containment air mass variations were plotted by cxzputer and are contained in Appendix E. l

)

1 I

i j

l 1

O cc-e ee 50-317 Page 1 l

l l

C II. TEST SYNOPSIS Valve line-ups were conducted on all systems to establish post-accident conditions except for shutdcun cooling aM three penetrations e u ry to conduct the IIRT. Inspection of the containment's a-cible interior and exterior surfaces was corducted prior to pressurization. No evidence of structural deterioration has noted which would have affected containment integrity or leak tightness. Containment pressurization cer:menced at 2:20 am, May 26, 1988.

Test pressure of 50.6 psig was reached at 9:20 m, May 26,1988. Se pressurization line was vented and the containment coolers aM fans were stopped in stages betwen 7:40 m and 9:20 p. We tenperature stabilization criteria were satisfied during the four hours frera 9:30 pn to 1:30 am.

Collection of data to determine the integrated leakage rate ccr:rwnced at 4:00 am, May 27, 1988 and was cct:pleted at 12:00 noon. Se verification ficw test was initiated at 12:00 prn, May 27, 1988. We verification flow test was cct:pleted satisfactorily and depressurization of the containment cctnmenced at 5:20 pn, May 27, 1988. After the containment was depressurized, a containment entry '

was rade. A deter:nination was rade that no measurable water level changes requirirq corrections to the measured leakage rate had i

occurred during the test. Summary of test phases is as folicws: i Test Fhase Tide . Duration Mr. D33 i

Pressurization 0220 - 2120 19.0 May 26 Stabilization 2130 -

0400 6.5 May 26-27 IIRT 0400 -

1200 8.0 May 27 Verification Stabilization 1200 -

1300 1,0 luy 27 Verification Test 1300 -

1700 4.0 May 27 1

1 a

!O CC-5/88 50-317 Page 2

_- ~ . - -_-

k III. TEF DATA

SUMMARY

A. Plant Infenstion Owner: Baltincts Gas & Electrio Ocmpany

, Plant: Calvert Cliffs Nuclear Power Plant Unit 1 Iccation:

Insby, Maryland Contalment Type: Post-tensioned concreta Date 'Mst Ctepleted: May 27, 1988 Docket No.: 50-317 B. Technical Data

1. Contalment Net Free Air Volume 2,000,000 cu. ft.
2. Design Pressure 50 psig
3. Design W ture 276' F
4. Calculated Peak Accident pressure Pa 50 psig
5. Containment IIRT Average Temperature Limits60-120' F

, C. Tvoe A Test Result

1. Test Method Absolute a
2. Leakage Rate Date Analysis -

Techniques Total Time per IN-TOP-1 and Mass Point per MISI/ANS 56.8-1981

3. Test Pressure 50.0 psig +1.0

-0.0

4. Maximm Allowable Isakage Rate, Ia, per 'Mchnical Specification 0.2%/ day
5. 75% of la 0.15%/ day 1

O CC-5/88 50-317 Page 3 I

D. Tvon A Test Results Integrated Isakage Rate From Regression At Upper 95%

Line, %/ day (Iam) Confidence Limit
a. Mass Point Analysis 0.016 0.020
b. 'Ibtal Time Analysis 0.006 0.074 E. Eerification %st  ;
1. Inposed flow rate (Li) 12.42 scfm (0.2%/ day)
2. Verification Test Results Imakace Rate. %/dav e
a. Mass Point Analysis (1) Upper Limit (Li + Iam + 0.25 Ia) 0.266 (2) Irwer Limit
(Li + Iam - 0.25 la) 0.166
b. Total Time Analysis t

(1) Upper Limit 0.256 l (2) Ioa'er Limit 0.156 1

F. Ret.crt Printouts l 'Iha Report Printouts of the Type A and Verification Test calculations are provided for the Mass Point and Total Time l

! analysis (Appendices C and D). Stabilization data is also )

j puided (Appendix B) . j i

G. Local Irakace Rate Test Results - Tvoes B and C Tests

1. LIRr Results 'Iha Type B and C leakage tests were corducted prior to the Type A test. 'Ihe total as left LIRr measurement for Unit 1 was 44,137.20 soczn. 'Ihis value i

converts to 0.026%/ day which is less than the technical specification limit of .12%/ day. l

2. Duriry the IIRT the following peret. rations were not in the

, post accident position. 'Ibe following is the local. leakage

] rate measurement for these penetrations.

i j CC-5/88 l 50-317 Page 4

I

! l

, i

I 1

4

- Penetrations Systems As Inft. scc 4 7A IIRT Instrumentation 41.2 7B IIRT Instrumentation 31.4 41 Shutdown Cooling Return 9536.0 ,

50 IIRT Pressurization 254.0 1 9862.6 socan ,

j

'IUIAL PINALTl = 9,862.6 SCCN = .00569%/ day = .006%/ day

3. Periodic Tvoe B and Tvon C Test Pellts Since 7 met IIRT l Cutage Data LIET (soczn) Acceptance Criteria Fall 1986 30,485.99 .6 I.a = 207,700 socm Spring, 1988 67,474.65 .

(As Found = vine pathway) -

1

4. 10CFR50, Appeniix J, paragraph V.B.3 requires that leakage test results frcan Types A, B and C tests that failed to meet

, the acceptance criteria of III.A.5(b), III.B.3 and III.C.3,  ;

respectively, shall be reported in a separate mnying i suntnary report that includes an analysis and interpretation  ;

j of the test data, the least-squares fit analysis and  ;

l interpretation of the test data, the instrumentation error '

l analysis, and the structural condition of the contalment or i i %wgits, if any, Wch contributed to the failure in i meeting the acceptance criteria. Since the testa meet the acceptance criteria no further analysis is sukunitted.

, Instruments used durirq local leakage rate testing are calibrated as follows: +/- 0.1% full scale for tenperature and pressure gauges. Field checks of flowmeters are

] performai prior to each test to check calibration.

i i

a s

l CC-5/88 50-317 Page 5 l

1

1 F

4 1

H. Intecrrated I.makaae Rate Maasurement Svstam The following instrument system was used  ;

N FTICH IRTA

1. Absolute Pressure i 2 Precision Pressure Gages Range: 0-100 psia Mansor Model 10100 Accuracy: 0.02% F.S. <

Sensitivity 0.001 psia Repeatability 0.001 psia Calibration Date: 04/19/88 I

1 Precision Pressure Gage Range 0-100 psia Volumatrica Model PIM-1000 Accuracy: 0.015% rendirg Sensitivity: 0.002 psie Repeatabilityr 0.001 psia Calibration Date: 05/03/88 l

2. Drvbtilh Temerature 18 Terrperature Sensors Range: 32-120'F Volumetrics 100 chm Accuracy: 0.20'F Platinum RID, part no. 0.01'T O VSID-347 Sensitivity Repeatability 0.03'F Calibration Date: 03/30/88
3. Dewooint Tamaraturs 6 Dowpoint Sensors Range: 40-100'F BMG Model 660 Chilled Accuracy: 0.54'T Mirror Hygrcesters Sensitivity: 0.10'F Repeatability: 0.10'F Calibration Date: 05/12/88
4. Flowmatars 1 Mass Flowmeter Range 0-20 scfm TSI Model 2013 Accuracy: 2% F.S.

Sensitivity: 1% F.S.

Repeatability: 0.04 scfm Calibration Date: 05/12/88

5. Overall Instrumentation Selection Guide (ISG) value (frca MISI/MtS 56.8-1981, Appendix G) hamad on IIRT instrumentation and eight hour mininum test duration = 0.005%/ day.

(Calculations A@endix C).

O CC-5/88 50-317 Page 6

l 1

1

/O 6. Drybulb and Dewpoint Temperature Sensor Volume Fractions are V listed in Table 1.

I. Infonia sgD_Petained at Plant te - 4 information is available for review at the Facility:

1. . af all conta -- d

<.nt penetrations, including the total x  ! like penetr'aons, penatration size and function.

2.  ; .s lincup (at time of test) .
3. A continuous, sequential log of events during the test.
4. Dccumentation of instrumentation calibration and standards.

i

5. B e working copy of test procedure that would include l signature sign-cff of procedural steps. '

1

6. he procedure aM all data frcan local leakage rate testing of penetrations and valves.

1

7. Se Quality Assurance audit plan that was used to monitor I IIRP.

1

^ 8. A listing of all test exceptions including changes in l containment system boundaries instituted by licensee to i conclude sum m ful testing.

9. Description of method of leak rate verification of instrument l measuring system (supertW leakage), with calibration I information on flowmeters along with calculations that were l

, used to measure the verification leakage rate.

t O

, CC-5/88 50-317 Page 7

1 l

)

IV. ANALYSJS_AND INTERPRETATION l

'Ihe Integrated Leakage Rate Test results at the upper 95% confidence  ;

limit are Iam = 0.020%/ day (Mass Point analysis) and 0.074%/ day (Total Time analysis). 'Ihe minimum pathway LIRT total improvements due to repairs prior to the IIRT are 0.010%/ day. 'Ihe local leakage rate total ,

for penetrations not in post-IOCA lineup is 0.006%/ day. 'Ihe sums of l IIRP upper 95% confidence level and penalty for penetrations not in ,

post-IDCA lineup, 0.026%/ day (2%ss Point Analysis) and 0.000%/da.y ('Ibtal l Time Analysis) satisfy the acceptance criterion. Similarly, the sums of '

the adjusted IIRT upper 95% confidence level Fad minima pathway irprovements, 0.036%/ day (Mass Point analysis) and 0.090%/ day (Total Time analysis) satisfy the acceptance criterion. 'Ihe acceptarm criterion is Iam < 0.75 Ia = 0.150%/ day, at Pa = 50 psig (-0 psi, +1 psi).

l O ll I

f O

CC-5/88 50-317 Page 2

TABIE 1 DRYBUIB AND DEWPOINP TD4PERATURE SENSOR IOCATIONS TE Elevation Azinuths Distance Volume No. Tag No. (ft) (degrees) Frcm Center Fractions 1 0-4E-5500 175 0 0 .081 2 0-TE-5501 160 180 33 .081 3 0-TE-5502 145 0 33 .081 4 0-TE-5503 130 90 48 .073 5 0-TE-5508 115 0 0 .073 6 0-TE-5511 50 230 50 .021 7 0-TE-5513 104 180 32 .073 8 0-TE-5504 104 0 30 .073 9 0-TE-5505 75 20 48 .058 10 0-TE-5506 65 0 0 .042 11 0-TE-5517 16 180 45 .044 12 0-TE-5507 50 140 44 .044 1 13 0-TE-5509 50 85 40 .022 14 0-TE-5510 50 320 50 .044 15 0-TE-5512 75 220 44 .058 0-TE-5514 O 16 17 18 0-4I-5515 0-TE-5516 16 16 16 80 270 0

50 48 25

.044

.044

.044

)

l DEWCEIlS TE Elevation Azinuths Distance Volume No. Tag No. (ft) (degrees) From Center Fractions 1 0-AE-5518 154 0 33 .231 2 0-AE-5519 119 180 33 .231 l 3 0-AE-5520 75 350 48 .231 4 0-AE-5521 50 320 40 .131 5 0-AE-5522 16 0 30 .088 1 6 0-AE-5523 16 180 45 .088 l

l O

CC-5/88 50-317 Page 9

1 I

l

v. --

.o

1. Calvert Cliffs, Unit 1, Plant Technical Specifications
2. Calvert Cliffs Procedures STP M-662-1, Integrated Isakage Rate

'Dast, Unit 1, Containment.

3) 10CFR50, Appendix J, "Reactor Containment Isakage Testing for )

Water Cooled Power Reactors." l

4) ANSI N45.4-1972, "Isakage Rate Testing of Containment Structures for Nuclear Reactors."
5) ANSI /ANS 56.8-1981, "Containment System Isakage Testing Requirements."
6) Bechtel 'Ibpical Report BN 'IOP-1, "Testing Criteria for Integrated Isakage Rate Testing of Primary Containment Structures for IAx: lear Power Plants." Rev. 1, February 1972.

l O

O CC-5/88 50-317 Page 10

O l

1

\

l APIYNDIX A MMIW % Fruge g 1

O l

O

APPENDIX A MSCRIPI'ICH OF BEnfIEL IIRI' COGUTER IBOGRAM A. Prwtam and Reoort Description

1. The Bechtel IIRT cceputer program is used to determine the integrated leakage rate of a nuclear primary containment structure. The program is used to canpute leakage rate based on irput values of time, free air volume, containment atrosphere total pressure, drybulb temperature, and de% point temperature (water vapor pressure) .

Isakage rate is cceputed using the Absolute Method as defined in ANSI /ANS 56.8-1981, "Containment System Isakage Testing Requirements" and Hi-TOP-1, Rev 1, "Testing Criteria for Integrated Isakage Rate Testing of Primary Containment Structures for Nuclear Power Plants".

'Ihe pro: cus is designed to allow the user to evaluate containment leakage rate test results at the jobsite during containment leakage testirg. Current leakage rate values may be obtained at any time durire the testing period using one of two computational methods, yielding three different report printouts.

2. In the first printcut, the Tbtal Time Report, leakage rate is ccmputed frcm initial values of free air volume, containment p atmosphere drybulb temperature and partial pressure of dry air, the g latest values of the same parameters, and elapsed time. These individually camputed leakage rates are statistically averaged using linear regression by the methcd of least squares. The Tbtal Time Methcd is the computational technique upon which the short duration test criteria of BN-TOP-1, Rev 1, "Testing Criteria for Integrated Isakage Rate Testing of Primary Containment Structures for Nuclear Power Plant," are based.
3. The second printout is the Mass Point Report and is based on the Mass Point Analysis Technique described in MISI/ MIS 56.8-1981, "Containment System Isakage Testing Requirements". The mass of dry air in the containment is cceputed at each data point (time) using the Equation of State, frcm current values of containment atmosphere drytulb tt:mperature ard partial pressure of dry air. Contained mass is "plotted" versus time ard a regression line is fit to the data using the rethcd of least squares. Isakage rate is determined from the statistically derived slepe and intercept of the regression line.
4. The third printout, the Trend Report, is a su=ary of leakage rate values based on Total Time and Mass Point computations presented as a function of nurber of data points and elapsed time (test duratic.n) .

The Trerd Report provides all leakage rate values required for ccuparison to the acceptance criteria of al-TOP-1 for corduct of a short duration test.

A-1

t l

S e program generates a predictor report based on "Suggested Criteria p)

(

5.

for a Short Duration'IIRr", Ted Brown and Louis Estenssore, Proceedincs of the First Workshoo on Containment Testirn, January 18, 1982. S e "predictor" is an estimate of the upper bound on the change in mass point calculated leakage rate which will occur during the next four hours. S e estimate is based on the mass point calculated leakage rates and 95% UCLs during the previous fcur hours.

6. Se prwaa is written in a high level language and is designed for use on a micro-ccanputer with direct data input frcm the data acquisition system. Brief descriptions of program use, fort:ulae used for leakage rate ccrrputations, and p % am logic are provided in the following paragraphs.

B. ExDlanation of Progra:n

1. Se Bechtel IIRT camputer program is written, for use by experienced IIRP personnel, to determine mntainment integrated leakage rates based on the Absolute Method described in MGI/MG 56.8-1981 ard l BN 'IOP-1.
2. Information loaded into the program prior to or at the start of the test:
a. lAmter of containment atmosphere drybulb te:rperature sensors, dewpoint temperature (water vapor pressure) sensors and pressure gages to be used in leakage rate camputations for the specific l test
b. Volume fractions assigned to each of the above sensors
c. Calibration data for above sensors 1 i
d. Test title l l
e. Maximum allowable leakage rate at test pressure
3. Data received frem the data acquisition system during the test, arxl i used to canp.Ite leakage rates:
a. Time and date
b. Containment atnosphere drybulb te % mtures .

l

]

c. Containment a'tmosphere pressure (s) I 1
d. Containnent atmosphere dapoint tegeratures i l
e. Conta3J: ment free air volume.

O 4. After all data at a given time are received, a Simicary of Measured l Data report (refer to "Program Irgic," paragraph D, "Cata" option l command) is printed. l A-2 i 1

__ , _ _ . . _ _ _ _ - - - - - ----*l

5. If drybulb aM dewpoint temperature sensors, should fail during the test, the data frcra the sensor (s) are not used. The volume fractions b for the remaining sensors are recomputed and reloaded into the program for use in ensuing leakage rate cmputations.

C. Taakaae Rate kornulae

1. Caputations Using the Total Time Method:
a. Measured leakage rate frtra data:

PY11"WEl 1 (1)

PVii=WEi i (2)  ;

2400 (Wy-W) i (3) at i Wy Solving for W and Wi and substituting equations (1) and (2) ,

into (3) yiel  : I 2400 TPV Li = [1 - 1ii\ (4) at i TPV

( i1i/

khere 1

W'Wi 1 = Weight of contained nass of dry air at times t i l ard t i, respectively, lhu.

T,Ti 1 = Containment atmosphere drybulb temperature at times t y and ti, respectively, 'R.

P,Pi 1 = Partial pressure of the dry air wwent of the I containment atmosphere at times ti and ti ,

respectively, psia.

V,Vi 1 = Containment free air volume at times ti and

,respectivgly(constantorvariableduring e test), ft t,ti i = Time at 1st and ith data points respectively, hr.

3ti = Flapsed time from ti to t i, hr.

R = Specific gas corstant for air = 53.35 ft.lbf/lbm. *R.

g Li = Measured leakage rate cmputed during tire Q interval t y to t ,i wt.%/ day.

A-3

6 To reduce truncation error, the caguter program uses the O following equivalent for::L11ation:

-2400 ( aWi3 ati (W1/

where aWi =

Wi-W1 N1 W1 api aVi APi aVi AT i

+ + -

P1 V1 PV1i T1

=

ATi T1 api =PiV a vi = Vi- 1 P1 ATi=Ti-T1 O b. Calculated leakage rate frm regression analysis:

_.L=a+ baty (5) l where )

L = Calculated leakage rate, wt.%/ day, as determined frm the regression line.

a = (ILi - b I a t i)/N (6) l l

N(IL iat i) - (IL i)(Iat i) j b= (7) j 2

N(Iati ) - (I a t )2 i I

N = 1Arber of data points.

N I= I i=1

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

UCL = a v b 2 tg + S-A-4

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

. c.

where O UCL = 95% up7er confidence limit wt.%/ day, Lc obpsed time a tg.

For atg < 24 S- =

ts[(1Li - AIL i - b IQ a t )/(N-2))1/2 i (1 + 1 + ( a tN - at)2/(Sati2 - (Iat )2/N)]1/2 i (9a)

N khere ts = 1.95996 + 2.37226 + 2.82250 ;

N-2 (N-2)d For atN 2 24 S- =t s [(3Li - AIL i - b I L ia t i)/(N-2) )@

/ (Iati2 - (It )2/N)) 1/2 (1

N

+ ( a ti - a t)2 i (9b) 1.6449(N-2)2 + 3.5283(N-2) + 0.85602 O *-*-

(N-2) 2 + 1.2209(N-2) - 1.5162 l

Li = Calcdlated leakage rate, ccmputed usirrJ equation (5) at total elapsed time a t ,i %/ day.

ai . Iati N

2. Coqxitation using the Pass Point Method:
a. Contained mass of dry air frcra data:

Wi = 144 P Vii Ei (10)

Were All syrbols as previously definal. i 1

O A-5 l

b. Calculated leakage rate frca regression analysis, W = a + b a t E= 2400 a (11) where E = Calculated leakage rate, wt.%/ day, as determined from the regression line.

a =

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

N( I W i a i t ) - ( I Wi) (I a'ci) d N(Iati ) - (I a t )i d ati= Total elapsed time at time of ith data point, hr.

N = 1Arrber of data points.

Wi =

contained mass of 4 air at ith data point, lbm, as ccrputed frca equation (10) .

I = I i=1

'Ib reduce tnincation error, the computer program uses the following equivalent formulation:

aW i b -

a = W1 1 + (I -

-Iat i)/N (14)

W1 W1 .

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

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

where is as previously defined.

W1

c. 95% upper ccnfidence li:11t.

-2400 UCL = (b - S3) (16)

C. a I A-6

where

. Vf") UCL = 95% upper confidence limit, wt.%/ day.

SN1/2

  • (N Iati2 - (I At i)2)1/2 (17) 1.6449 (N-2)2 + 3.5283 (N-2) + 0.85602 where t 3 =

(N-2) 2 + 1.2209 (N-2) - 1.5162 1/2

- I (Wi - (a + b ati)]2

. N-2 .

= W1 I (aWiW1)2 _ g 3(3 gig 1))2/N -

)1N-2 1/2

(!(aWi N1 ) ati- I( a Wi Nt ) (Iat i)/N]2' 2

(18)

I(a ti ) - (I a t )2/N i

d. Predictor:

100 (2 (UCIeL) + 4 (lBl + 2 Sg) ]

La where UCL = 95% upper confidenc: lirdt.of mass point calcilated leakage rate at end of test.

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

B = Value of linear regression analysis slepe of rass point calculated leakage rate vs. time for last 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> of test data. 1 i

Sg = Linear regression analysis standard deviatien of slepe.

La = Allowable leakage rate.

In terms of elapsed time, a t and ra rate Ini calculated at the end of igs time mint interval.

calculated leakage O

A-7

A " 1 M

I Ini - B 4I ati 4 hr hr ,

(19)

M I Imi a ti I a ta 4 hr 4 hrImi 4I hr

^

(20)

B =

2 M4 Ihrati -(I at i)2 4 hr I Imi - A 4hr I Imi - B I4hrImi a ti 4 hr (21)

S = (M)

A 2 (M-2] (M I ati - (I at i)2) 4 hr 4 hr Iai = mass point calculated leakage rate evaluated using data-up to time a t i.

4 hr = sumation over last 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> of test data.

N I = I O N-M+1 M = number of data points for last 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> of test.

l O -

A-8

)

1 1

'N D. Ptwram Imic (V 1. 'Ihe Bechtel IIRT co@ uter program logic flow is controlled by a set of user options. 'Ihe user options ard a brief description of their associated function are presented below.

OPTION COMMAND FUNCTION After starting the prearn execution, the user ,

either enters the name of the file containing i previously entered data or initializes a new data  !

file. l DATA Enables user to enter raw data. When the system requasts values of time, volume, tenperature, pressure and vapor pressure, the user enters the apprtpriate data. After ccepleting the data entry, )

a su m is printed out. 'Ihe user then verifies 1 that the data were entered correctly. If errors are detected, the user will then be given the opportunity to correct the errors. After the user verifies that the data were entered correctly, a l Corrected Data Sunnary Report of time, data, average  !

tenperature, partial pressure of dry air, and water i A vapor pressure is printed. l V TRDID A Trend Report is printed.

'IOrAL A Total Time Report is printed.

MASS A Mass Point Report is printed.

TEFM Enables user to sign-off tenporarily cr pemanently. All data is saved on a file for restarting.

CDRR Enables user to correct previously entered data. l LIST A Summary Data Report is printed.

READ Enable the cocputer to receive the next set of data from the data acquisition system directly.

PIDr Enables user to plot su:rary data, individual sensor data or air rass versus time.

DEIETE Enables user to delete a data point.

DISERT Enables user to reinstate a previously deleted data point.

s VOIB A Enable user to change volume fractions.

A-9

1 1

1 3 OPTION CC WAND FUNCTION

)

) i i

PRED A predictor report is printed.

TDE Enable the user to specify the time interval for a report or plot. I VERF Enable the user to input imposed leakage rate and calculated IIRr leakage rates at start of verification test.

E. Octouter Reoort and Data Printout MASS m n7r REMRr The Mass Point Report presents leakage rate data (wt%/ day) as determined by the Mass Point Method. The "Calculated I.cakage Rate" is the value determined from the regression analysis. The "Containment Air Mass" values are the ma= of dry air in the containment (lbm) . These air rasses, determined fztm the Equation of State, are used in the regression analysis.

TOTAL TDZ REPORT The Ibtal Time Report presents data leakage rate (wt%/ day) as determined by the Total Time Method. The "Calculated I.eakage Rate" is the value determined frtra the regression analysis. The "Measured Isakage Rates" are the leakage rate values determined using Total Time calculations.

These values of leakage rate are used in the regression analysis.

TRB O RE MRr The Trend Report presents leakage rates as determined by the Mass Point arrl Total Time methods in percent of the initial contained mass of dry air per day (wt%/ day), versus elapsed time (hours) and number of data points.

FREDICIOR REPORT The predictor reports presents a predicted upper bound on the change in calculated rass point leakage rate over the next four hcurs.

1 SLM4ARY DATA REPORr i

The Su:rary Data report presents the actual data used to calculate ,

leakage rates by the varicus methods described in the cmputer Prcgram" '

section of this report. The seven colu:ms are TIME, DATE, TE4P, I PRESSURE, VFRS, VOILHE, and AIRMASS ard contain data defined as follows:

l O ,

A-10 I

i 1

l f

m 1. TIME: Time in 24-hour notation (hours and minutes) .

2, DATE: Calendar date (month and day) . l

3. Tas: Containment weighted-average drybulb tenperature in absolute units, degrees Rankine (*R).
4. PRESSURE: Partial pressure of the dry eir ccznponent of the containment atmosphere in absolute units (psia). i
5. VPRS: Partial pressure of water vapor of the containment at::esphere in absolute units (psia) .
6. VOILEE: Containment free air volume (cu. ft.) .
7. AIPMASS: Calculated dry air mass (lhn) .

F. Snrenry of Measured Data ard Surcnary of Corrected Dsta )

Se Summary of Measured Data presents the individual containment atmosphere drybulb te::pe7tures, dewpoint temperatures, absolute total pressure and free air vo ume measured at the time and date.

1. TEMP 1 through TEMP N are the d.M temperatures, khere N = No. of RID's. Se values in the right-hand column are temperatures (*F), l

/ni multiplied by 100, as read frcxn the data acquisition system (DAS).

U me values in the left-hand column are the corrected terperatures expressed in absolute units (*R) .

2. PRES 1 through PRES N are the total pressures, absolute, were N = No.

of pressure sensors. n e right-hand value, in parentheses, is a -

number of counts as read frca the DAS. mis count value is converted  !

to a value in psia by the ccx:puter via the instrument's calibration  !

table, counts versus poia. S e left-hand column is the absolute total pressure, psia.

3. VPRS 1 through VFRS N are the de* point terperatures (water vapor pressures), khere N = No. of deapoint sensors. Se values in the right-hand column are te=peratures (*F), multiplied by 100 as read frce the DAS. We values in the left-hard colurn are the water vapor pressures (psia) frcm the steam tables for saturated steam corresponding to the deapoint (saturation) terperatures in the center column.
  • l 2 e Summary of Corrected Ceta presented corra M. terperature and '

pressure values and calculated air ress determined as follows:

1

1. TEGEPATURE ('R) is the volume weighted average containment '

atmosphere drytulb te:Terature derived from TEG 1 throug: TH@ N.

O A-11

1 l

l l

l l

2. CDRRECIED PRESSURE (psia) is the partial pressure of the dry air O corponent of the containment atmosphere, a weightedaveragecontainmentatmospherewa$1ute.

'Ihe volume ter vapor pressure is i

1 subtracted frcn the volume weighted average total pressure, yielding the partial pressure of the dry air. ' i

3. VAIOR PRESSURE (psia) is the volume weighted average containment atmosphere water vapor pressure, absolute, derived frca VPRS 1 through VPRS N.
4. VOIlEE (cu. ft.) is the containment free air volume.

l

5. CtTIAINMDTI AIR MASS (lbn) is the calculated mass of dry air in the  !

containment. 'Ihe mass of dry air is calculated using the containment i free air volume and the above TDEEPA'IURE and CDPim.;1w PRESSURE of '

the dry air. )

1 j

i l

O l

l 1

O A-12

g l

O APPHJDIX B IIRT Stabilization l

O 1

I 1

0

4 CALVERT CLIFFS - UNIT 1 ILRT TEMPERATURE STABILIZATION FROM A STARTING TIME AND DATE OF: 2130 526 1988 TIME TEMP ANSI BN-TOP-1 MS-021-5 (HOURS) (*R) AVEA T AVE A T DIFF AVE A T AVE f T (4 HRS) (1HR) (2 HRS) (2 HRS)

.00 539.565

.25 539.716

.50 539.925

.75 540.128 1.00 540.307 1.25 540.453 1.50 540.614 1.75 540.725 2.00 540.842 .639* .079 2.25 540.943 .613* .249 2.50 541.047 .561* .225 2.75 541.137 .505* .202 3.00 541.216 .455* .154*

3.25 541.289 .418* .202*

/~x 3.50 541.370 .378* .069*

(_) 3.75 4.00 541.439 541.513

.357* .110*

.487 .297 .191* .335* .061*

4.25 541.566 .462 .277 .185* .312* .117*

4.50 541.646 .430 .276 .154* .300* .023*

4.75 541.699 .393 .260 .132* .281* .059*

5.00 541.763 .364 .251 .114* .274* .019*

5.25 541.801 .337 .235 .102* .256* .101*

5.S0 541.869 .314 .222 .091* .249* .003*

5.75 541.918 .298 .219 .080* .239* .056*

6.00 541.962 .280 .199 .081* .225* .020*

6.25 542.024 .270 l

.223 .047* .229* .043* l 6.50 542.044 .249 .175 .074* .199* .076* l INDICATES TEMPERATURE STABILIZATION HAS BEEN SATISFIED )

I O

s_/ CALVERT CLIFFS - UNIT 1 ILRT

SUMMARY

DATA ALMAX = .200 VOLUME = 2000000.

VRATET = .206 VRATEM = .216 TIME DATE TEMP PRESSURE VPRS VOLUME AIRMASS 2130 526 539.565 64.9974 .3749 2000000.0 -650295.4 2145 526 539.716 65.0056 .3759 2000000.0 650194.6 2200 526 539.925 65.0229 .3751 2000000.0 650116.3 2215 526 540.128 65.0401 .3757 2000000.0 650043.6 2230 526 540.307 65.0559 .3776 2000000.0 649986.5 2245 526 540.453 65.0707 .3798 2000000.0 649958.2 2300 526 540.614 65.0854 .3816 2000000.0 649912.3 2315 526 540.725 65.0982 .3839 2000000.0 649905.2 2330 526 540.842 65.1094 .3866 2000000.0 649876.8 2345 526 540.943 65.1202 .3886 2000000.0 649863.7 0 527 541.047 65.1297 .3909 2000000.0 649833.9 15 527 541.137 65.1395 .3924 2000000.0 649823.2 30 527 541.216 65.1478 .3947 2000000.0 649810.4 45 527 541.289 65.1561 .3964 2000000.0 649806.6 100 527 541.370 65.1620 .3998 2000000.0 649768.0 115 527 541.439 65.1704 .4001 2000000.0 649768.8 130 527 541.513 65.1774 .4013 2000000.0 649749.9

(~T 145 527 541.566 65.1841 .4027 2000000.0 649752.8

(_) 200 215 527 527 541.646 65.1905 .4039 2000000.0 649720.5 541.699 65.1975 .4045 2000000.0 649726.2 230 527 541.763 65.2041 .4049 2000000.0 649715.1 245 527 541.801 65.2116 .4056 2000000.0 649745.6 300 527 541.869 65.2194 .4061 2000000.0 649742.2 315 527 541.918 65.2258 .4065 2000000.0 649746.4 330 527 541.962 65.2312 .4072 2000000.0 649746.6 345 527 542.024 65.2364 .4076 2000000.0 649725.3 400 527 542.044 65.2418 .4079 2000000.0 649755.2 O

APPDIDIX C IIRT Calculations and Graphs l

l

\

l i

l

I)

(_j CALVERT CLIFFS - UNIT 1 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

TOTAL TIME ANALYSIS TIME AND DATE AT START OF TEST: 400 527 1988 TEST DURATION: 8.00 HOURS TIME TEMP PRESSURE MEASURED (R) (PSIA) LEAKAGE RATE 400 542.044 65.2418 415 542.092 65.2466 .163 430 542.128 65.2520 .005 445 542.171 65.2563 .041 500 542.200 65.2615 .029 515 542.241 65.2657 .005 530 542.287 65.2699 .031 545 542.307 65.2743 .018 600 542.338 65.2701 .015 615 542.381 65.2823 .003 630 542.411 65.2861 .002 645 542.457 65.2901 .020 700 542.476 65.2934 .005 715 542.504 65.2973 .000 730 542.528

() 745 800 542.563 542.602 65.3008 65.3039 65.3076

.007

.005

.013 815 542.618 65.3110 .001 830 542.652 65.3140 .008 845 542.685 65.3177 .010 900 542.711 65.3207 .010 915 542.723 65.3237 .001 930 542.752 65.3268 .002 945 542.803 65.3299 .021 1000 542.813 65.3328 .009 1015 542.843 65.3354 .015 1030 542.863 65.3382 .012 1045 542.891 65.3414 .013 1100 542.923 65.3440 .019 1115 542.949 65.3466 .021 1130 542.969 65.3494 .018 1145 542.983 65.3526 .011 1200 543.007 65.3552 .012 MEAN OF THE MEASURED LEAKAGE RATES = .012 MAXIMUM ALLOWABLE LEAKAGE RATE = .200 75% OF MAXIMUM ALLOWABLE LEAKAGE RATE = .150 I THE UPPER 95% CONFIDENCE LIMIT = .074 THE CALCULATED LEAKAGE RATE = .006 i O

v j

)

l t

) CALVERT CLIFFS - UNIT 1 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

MASS POINT ANALYSIS TIME AND DATE AT START OF TEST: 400 527 1988 TEST DURATION: 8.00 HOURS TIME TEMP PRESSURE CTMT. AIR MASS LOSS AVERAGE MASS (R) (PSIA) MASS (LBM) (LBM) LOSS (LBM/HR) 400 542.044 65.2418 649755.2 I 415 542.092 65.2466 649744.1 11.1 44.2 430 542.128 65.2520 649755.9 -11.8 -1.4 445 542.171 65.2563 649746.9 9.0 11.0 500 542.200 65.2615 649763.0 -16.1 -7.8 515 542.241 65.2657 649756.8 6.2 -1.3 530 542.287 65.2699 649742.4 14.4 8.5 545 542.307 65.2743 649763.8 -21.3 -4.9 600 542.338 65.2781 649763.4 .3 -4.1 615 542.381 65.2823 649753.6 9.9 .7 630 542.411 65.2861 J49756.8 -3.2 .6 645 542.457 65.2901 c49740.4 16.4 5.4 700 542.476 65.2934 649750.8 -10.4 1.5 715 542.504 65.2973 649755.4 -4.7 .1 730 542.528 65.3008 649761.6 -6.2 -1.8 fi 745 542.563 65.3039 649750.4 11.1 1.3 s/ 800 542.602 65.3076 649741.1 9.3 3.5 815 542.'618 65.3110 649756.1 -15.1 .2 830 542.652 65.3140 649745.6 10.6 2.1 845 542.685 65.3177 649742.4 3.2 2.7 900 542.711 65.3207 649741.4 1.0 2.8 915 542.723 65.3237 649756.6 -15.2 .3 930 542.752 65.3268 649752.2 4.4 .5 945 542.803 65.3299 649722.3 29.8 5.7 1000 542.813 65.3328 649739.9 -17.6 2.5 I 1015 542.843 65.3354 649729.3 10.7 4.1 1030 542.863 65.3382 649733.3 -4.0 3.4 1045 i

542.891 65.3414 649731.9 1.5 3.5 l 1100 542.923 65.3440 649718.6 13.3 5.2 1115 542.949 65.3466 649713.6 5.0 5.7 1130 542.969 65.3494 649718.3 -4.6 4.9 1145 542.983 65.3526 649732.9 -14.7 2.9 1200 543.007 65.3552 649730.0 2.9 3.1 FREE AIR VOLUME USED (CU. FT.) =2000000.0 REGRESSION LINE INTERCEPT (LBM) = 649761.6 SLOPE (LBM/HR) = -4.3 MAXIMUM ALLOWABLE LEAKAGE RATE = .200 75% OF MAXIMUM ALLOWABLE LEAKAGE RATE = .150 THE UPPER 95% CONFIDENCE LIMIT = .020

/ THE CALCULATED LEAKAGE RATE = .016 l

l l

I. -

) CALVERT CLIFFS - UNIT 1 ILRT TREND REPORT TIME AND DATE AT START OF TEST: 400 527 1988 NO. END TOTAL TIME ANALYSIS MASS POINT ANALYSIS PTS TIME MEAS. CALCULATED UCL CALCULATED UCL 2 415 .163 .163 99.000 .163 99.000 3 430 .005 .005 99.000 .005 .827 4 445 .041 .005 .853 .019 .154 5 500 .029 .037 .278 .027 .061 6 515 .005 .039 .194 .024 .029 7 530 .031 .019 .195 .003 .050 8 545 .018 .030 .147 .012 .026 9 600 .015 .035 .120 .018 .011 10 615 .003 .030 .113 .013 .011 11 630 .002 .029 .104 .011 .008 12 645 .020 .020 .'109 .000 .019 13 700 .005 .018 .104 .001 .017 14 715 .000 .017 .097 .000 .014 15 730 .007 .019 .090 .003 .009 16 745 .005 .017 .087 .001 .010 17 800 .013 .013 .087 .003 .013 18 815 .001 .013 .083 .001 .011 0' 19 20 21 830 845

.008

.010

.011

.009

.082

.081

.003

.005

.011

.012 900 .010 .008 .080 .006 .013 22 915 .001 .008 .077 .005- .011 23 930 .002 .008 .075 .004 .010 24 945 .021 .005 .077 .008 .015 25 1000 .009 .004 .076 .008 .015 26 1015 .015 .002 .076 .010 .016 27 1030 .012 .001 .075 .011 .017 28 1045 .013 .000 .075 .012 .017 29 1100 .019 .002 .075 .014 .019 30 1115 .021 .004 .076 .015 .021 31 1130 .018 .005 .076 .016 .021 32 1145 .011 .006 .075 .016 .021 33 1200 .012 .006 .074 .016 .020 0

O r

CALVERT CLIFFS - UNIT 1 ILRT

SUMMARY

DATA ALMAX = .200 VOLUME = 2000000.

VRATET = .206 VRATEM = .216 TIME DATE TEMP PRESSURE VPRS VOLUME AIRMASS 400 527 542.044 65.2418 . 4079 2000000.0 649755.2 415 527 542.092 65.2466 .4086 2000000.0 649744.1 430 527 542.128 65.2520 .4087 2000000.0 649755.9 445 527 542.171 65.2563 .4095 2000000.0 649746.9 500 527 542.200 65.2615 .4094 2000000.0 649763.0 515 527 542.241 65.2657 .4099 2000000.0 649756.8 530 527 542.287 65.2699 .4104 2000000.0 649742.4 545 527 542.307 65.2743 .4106 2000000.0 649763.8 600 527 542.338 65.2781 .4112 2000000.0 649763.4 l 615 527 542.381 65.2823 .4114 2000000.0 649753.6 l 630 527 542.411 65.2861 .4120 2000000.0 649756.8 645 527 542.457 65.2901 .4120 2000000.0 649740.4 700 527 542.476 65.2934 .4126 2000000.0 649750.8 l 715 527 542.504 65.2973 .4129 2000000.0 649755.4 1 730 527 542.528 65.3008 .4130 2000000.0 649761.6 {

745 527 542.563 65.3039 .4135 2000000.0 649750.4 '

800 527 542.602 65.3076 .4136 2000000.0 649741.1 815 527 542.618 65.3110 .4139 2000000.0 649756.1

( 830 527 542.65'e 65.3140 .4144 2000000.0 649745.6 845 527 542.685 65.3177 .4144 2000000.0 649742.4 900 527 542.711 65.3207 .4147 2000000.0 649741.4 915 527 542.723 65.3237 .4152 2000000.0 649756.6 930 527 542.752 65.3268 .4152 2000000.0 649752.2 945 527 542.803 65.3299 .4155 2000000.0 649722.3 1000 527 542.813 65.3328 .4157 2000000.0 649739.9 1015 527 542.843 65.3354 .4162 2000000.0 649729.3 1030 527 542.863 65.3382 .4165 2000000.0 649733.3 1045 527 542.891 65.3414 .4165 2000000.0 649731.9 l 1100 527 542.923 65.3440 .4171 2000000.0 649718.6 l 1115 527 542.949 65.3466 .4174 2000000.0 649713.6 1130 527 542.969 65.3494 .4177 2000000.0 649718.3 l 1145 527 542.983 65.3526 .4175 2000000.0 649722.9 l 1200 527 543.007 65.3552 .4177 2000000.0 649730.0 '

O

ISG CALCULATION l

/ ( ANSI /ANS 56.8 - 1981 )

l

( ........................................................................

-l CALIBRATION DATA  !

SENSOR DISPLAY

  1. OF SENSORS SENSITIVITY (E) REPEATABILITY (r)

TEMPERATURE (T) 18 0.0100 deg. F 0.0100 deg. F PRESSURE (P) 1 0.0002 psia 0.0002 psia VAPOR PRESS (Pv) 6 0.1000 deg. F 0.0100 deg. F

........................................................................ l LENGTH OF TreT(t) 8.00 hrs PRESSURE (P) 65.24 psia TEMPERATURE (T) 542.8 deg. R VAPOR PRESS (Pv) 0.01394 psi /deg. F (at 74 deg. F) ,

La 0.200 wt%/ day i

l INSTRUMENT MEASUREMENT ERRORS 2 2 1/2 1/2 i eT . ((ET) + (rT) ) /(# of sensors]

eT . 0.00333 deg. F 2 2 1/2 1/2 eP . [(EP) + (rP) ) /[# of sensors]

eP = 0.00028 psia 2 2 1/2 1/2 ePy . ((EPv) + (rPv) ] /[# of sensors]

ePv = 0.00057 psia INSTRUMENT SELECTION GUIDE  !

2 2 2 1/2 1 ISG 2400/t( 2(eP/P) + 2(ePv/P) + 2(eT/T) ]

ISG . 0.005 wt%/ day

.25La . 0.050 wt%/ day l 1

l 0 0 0 CA LU ERT CLI FFS -

UNIT 1 I LRT AIRMASS LBM X 1000 AND REGRESSION LINE l

649.76  ::.g-y'y '-

g ~,_j -

73 _

l ...___

gr m- -

,~

649.70 ~ ~ -..

\ -

! .~ ~ .

\, ..

649.63

~.~..._

..~ ~

0.75 La >- .

~

649.57" ~...

l .

! ...-..~ ~

649.50" l 649.44 . , , , , , , .~-

l 400 527 TIME HOURS 1200 527 l START TIME DATE END TIME DATE 1 - - - - -

l o o o

! CA LU ERT CLI FFS -

UNIT 1 I LRT l TOTAL TIME LEAEAGE RATE AND UCL -

X/ DAY

.200  ;

i'

i. O.75 La

.150 ~.-

..~._~ -

~~ -

, gg. .

~~~ -

95X ICL t ~

.050-RATE -

.000" -

[\_ ___ .

/-

.050 ' ' ' '

400 527 TIME NOUFS 1500 527 .

START TIME DATE END TIME DATE

O O O

CA LU ERT CLI FFS -

UNIT 1 I LRT MASS POINT LEAEAGE RATE AND UCL -

X/ DAY

.200 -

. 0.75 La

, .150 i, i

l I

.100 j I

I i 's

.050" '  ?.

l .

V '5

., 95x UCL

-z-_

i j .

.000" --

j \__ _ _

l . 05 0 . _--

l 400 527 TIME HOURS 1200 527

! START TIME DATE END TIME DATE l

i

i-1 O

APPDMX D Verfication FlcM Test ard Graphs O

1 1

l l

O

- . - = .

() CALVERT CLIFFS - UNIT 1 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

TOTAL TIME ANALYSIS 1 TIME AND DATE AT START OF TEST: 1300 527 1988 TEST DURATION: 4.00 HOURS TIME TEMP PRESSURE MEASURED (R) (PSIA) LEA!'4GE RATE 1300 543.095 65.3593 1315 543.105 65.3603 .023 1330 543.131 65.3614 .166 1345 543.146 65.3625 .143 1400 543.173 65.3634 .194 1415 543.181 65.3642 .162 1430 543.207 65.3654 .180 1445 543.223 65.3658 .186 1500 543.251 65.3668 .206 1515 543.257 65.3675 .185 1530 543.286 65.3685 .202 1545 543.297 65.3691 .193 1600 543.320 65.3699 .213 1615 543.343 65.3705 .210 1630 543.356 65.3709 .209 O

1545 543.378 65.3722 .207 1700 543.386 65.3725 .200 MEAN OF THE MEASURED *LIAKAGE RATES = .180 4

VERIFICATION TEST LEAKAGE RATE UPPER LIMIT = -256 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT = .156 ,

THE CALCULATED LEAKAGE RATE = .230 ,

l 1

l

() I l

i 1

j i,

CALVERT CLIFFS - UNIT 1 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

MASS POINT ANALYSIS TIME AND DATE AT START OF TEST: 1300 527 1988 TEST DURATION: 4.00 HOURS TIME TEMP PRESSURE CTMT. AIR MASS LOSS AVERAGE MASS (R) (PSIA) MASS (LBM) (LBM) LOSS (LBM/HR) 1300 543.095 65.3593 649665.3 1315 543.105 65.3603 649663.7 1.6 6.3 1330 543.131 65.3614 649642.9 20.8 44.9 1345 543.146 65.3625 649636.3 6.5 38.6 140C 543.173 65.3634 649612.8 23.5 52.5 1415 543.181 65.3642 649610.4 2.3 43.9 1430 543.207 65.3654 649592.2 18.2 48.7 r 1445 543.223 65.3658 649577.1 15.2 50.4 1500 543.251 65.3668 649553.6 23.5 55.9 '

1515 543.257 65.3675 649552.5 1.1 50.1 1530 543.286 65.3685 649528.4 24.1 54.8 1545 543.297 65.3691 649521.4 7.0 52.3 1600 543.328 65.3699 649491.9 29.5 57.8 1615 543.343 65.3705 649480.8 A1 1 56.8 1630 543.356 65.3709 649467.5 13.3 56.5 O 1645 1700 543.378 543,386 65.3722 65.3725 649454.7 649448.6 12.8 6.1 56.2 54.2 FREE AIR VOLUME USED (CU. FT.) =2000000.0 REGRESSION LINE INTERCEPT (LBM) = 649675.2 SLOPE (LBM/HR) = -58.1  ;

VERIFICATION TEST LEAKAGE RATE UPPER LIMIT = .266 l VERIFICATION TEST LEAKAGE RATE LOWER LIMIT = .166 THE CALCULATED LEAKAGE RATE = .215 I l

1 l

l I

l I

1 I

i l

CALVERT CLIFFS - UNIT 1 ILRT

SUMMARY

DATA ALMAX = .200 VOLUME = 2000000.

VRATET = .206 VRATEM = .216 TIME DATE TEMP PRESSURE VPRS VOLUME AIRMASS 1200 527 543.007 65.3552 .4177 2000000.0 649730.0 1215 527 543.021 65.3565 .4182 2000000.0 649726.9 1230 527 543.056 65.3573 .4185 2000000.0 649693.0 1245 527 543.068 65.3582 .4188 2000000.0 649687.2 1300 527 543.095 65.3593 .4190 2000000.0 649665.3 1315 527 543.105 65.3603 .4191 2000000.0 649663.7 1330 527 543.131 65.3614 .4193 2000000.0 649642.9 1345 527 543.146 65.3625 .4193 2000000.0 649636.3 1400 527 543.173 65.3634 .4197 2000000.0 649612.8 1415 527 543.181 65.3642 .4201 2000000.0 649610.4 1430 527 543.207 65.3654 .4200 2000000.0 649592.2 1445 527 543.223 65.3658 .4207 2000000.0 649577.1 1500 527 543.251 65.3668 .4210 2000000.0 649553.6 1515 5 2'/ 543.257 65.3675 .4212 2000000.0 649552.5 1530 527 543.286 65.3685 .4211 2000000.0 649528.4 1545 527 543.297 65.3691 .4216 2000000.0 649521.4 1600 527 543.328 65.3699 .4215 2000000.0 649491.9 1615 527 543.343 649480.8

() 1630 527 1645 527 543.356 543.378 65.3705 65.3709 66.3722

.4218

.4222

.4219 2000000.0 2000000.0 2000000.0 649467.5 649454.7 1700 527 543.386 65.3725 .4224 2000000.0 649448.6 O

i O O O

CA LU ERT CLI FFS -

UNIT 1 I LRT i AIRMASS LBM X 1000 AND REGRESSION LINE i UERIFICATION TEST -

649.68 A h_

-d;_ __

~;tQ~%, .

649.62 .:' ss

'h_s.__~ _ LOWER

.__ 'g._ _-__ LIMIT 649.56_ -

\ _~

l ~

_. ____~~

i

~ ~1,~ __._g_

_~~

l 649.50-

~

~- ._~

~~__ t'%_

UPPER ,

LI MI T ~~ ._~_ '

~

\ ~~~

j 649.44- .

~ ~._-

! 649.39 . , , ~ ~ ~ -.

.300 527 TIME HOURS 1700 527 START TIME DATE END TIME DATE 1

1

o o o i CA LU ERT CLI FFS -

LINIT 1 I LRT TOTAL TIME LEAEAGE RATE -

X/ DAY UERIFICATION TEST

.300 UPPER LIMIT

.250

/

- ~~

l .200 RATE l

.150- LOWER LIMIT i

i .100-l .050 , , ,

i 1.3E!O 527 TIME HOLlES 1700 527 START TIME DATE END TIME DATE l

I

O O O

! CA LU ERT CLI FFS -

UNIT 1 I LRT i

MASS POINT LEAEAGE RATE -

X/ DAY UERIFICATION TEST j .300 I UPPER LIMIT

~

. 250~

l l

RATE _

_ _ , - s -

.200 p._ __

/

! LOWER LIMIT l .150"

.100"

.050 , , ,

i _ _2:00 527 TIME HOUES 1700 527  ;

START TIME DATE END TIME DATE

.-..---.-,--._.__.._,,a.

- .,_ _ . ,_ - _. .,___.-..-n_,. - _- - - -, -,---- - - - .- - - - . --

l l

I I

APPDEX E Data Graphs 4

i e

i O

r 1

1 1

4 1

i f

O O O CA LU ERT CLI FFS -

UNIT 1 I LRT AIRMASS LBM X 1000 650.40 D

l 650.20- l i

\

~

650.00~

', ILRT VERIFICATION 1 -

649.80

'T N__f-y - ^ r -' -

w _ ,

STABILIZATION 'L

\_

649.60

\ s._,

649.40 , , , , , , , ,,,,,,,,,,,,

2130 526 TIME HOUES 1700 527 START TIME DATE END TIME DATE

i O O O l

CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE DEGREES F ( AUERAGE) i

84.800 --

i 83. BOO _. 7 l

__ f

/

l i

82.000

/

/ '

l . /

l l

81.000" ,

80.000"

} ~

l .

79.000 , ,,,,,,,,,,,,,,,,,,

2130 526 TIME HOllES 1700 527 i

START TIME DATE END TIME DATE

0 0 0 CA LU ERT CLI FFS -

UNIT 1 I LRT PRESSURE PSIA (DRY AIR) 65.400 -

  • ==~

~

65.300 f'

_r'~

/

/

i 65.200

' ~

/

/

1 l

/

j 65.100" ,

l 65.000" 1

i 64.900 , , , , , , , ,,,,,,,,,,,,

! 2130 526 TIME HOURS 1700 527 ,

! START TIME DATE END TIME DATE i - . - - - - - - - - - - - - . - - - - - . - - - - _ - - - - - - - _ - -

CA LU ERT CLI FFS -

LINIT -1 I LRT

UAPOR PRESSURE PSIA l

.440

.420 _

/

" ~

.400

.380" _/ .

l .

.360"

! .340 , , , . , , , , , , , , , , , , , , ,

! 2130 SJ5 TIME HOllLS 1700 527

! START TIME DATE END TIME DATE i

o o 0 1 CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 1 DEGREES F

86.000 l

~

! 85.000~ -

1 _.

s w ''

l 84.000 r

r yr

~

83.000-t

!. ~

l 82.000- .

I 81.000 . . . . . . . . . . . . . . . . . . . ,

'EISO 526 TIME HOURS 1700 527

! START TIME DATE END TIME DATE

O O O CA LU ERT CLI FFS -

UNIT 1 I LRT '

TEMPERATURE SENSOR 2 DEGREES F 86.000

~

85.000~ ~

~ '

84.000- ~~

r-

- r' 83.000~

B

~

82.000~

B 81.000 , , , , , , , , , , , , , , , , , , ,

212:0 526 TIME HOURS 1700 527 START ~ TIME DATE END TIME DATE

'l

O O CA LU ERT CLI FFS UNIT 1 I LRT TEMPERATURE SENSOR 3 DEGREES F 86.000 I

85.000 ~~

_s-' ~ ~

g_

84.000

-~ / ,

./

83.000" '

/

82.000" l

81.000 , , , , , , , , , , , , , , , , , , ,

2130 526 TIME HOURS 1700 527 START TIME DATE END TIME DATE

~

O O O CA LU ERT CLI FFS -

llNIT .1. I LRT TEMPERATLIRE SENSOR 4 DEGREES F -

I 86.000 85.000 V-

/'*

~p-

,A A

84.000 -

/

83.000~

~

[

~

82.000-81.000 , , ,,,,,,,,,,,,,,,,,

2130 526 TIME HOllES 1700 527 .

START TIME DATE END TIME DATE

I O O O CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 5 DEGREES F 85.000 Ar ,

_ / --

f' 1

~

84.000~ _f f"

i g

~

l

83.000~ _ /- ,

r

/~

82.000" r

, [.r .

, i

~

81.000~

./

80.000 , , , , , , , , , , , , , , , , , ,

2130 526 TIME HOURS 1700 527 START TIME DATE END TIME DATE

.i

i

O O O CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 6 DEGREES F 84.500 _

~~

l _

l 83.500-

./_,

/

82.500

/

\ " /

i 81.500 l <

l 80.500"

~

! 79.500 , , , , , , , , , , , , , , , , , , ,

i 2180 526 TIME HOURS 1700 527 I START TIME DATE END TIME DATE J

i

I O O O -!

CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 7 DEGREES F l

85.800 -

\ , - r

! /~' ~

! 84.000 l -

r/

,/f 83.000~

~

f

/'

i

/

82.000

)

{ .,

l al.000" i  ?

i 80.000 . . . . ...............

l 2130 526 TIME HOllES 1700 527 i START TIME DATE END TIME DATE l

! O O O CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 8 DEGREES F

! 86.000 84.000~ "

~

~ _ -

82.000 _

/_ '

80. 000~ -/

/

78.000" 76.000 , , , , , , , , , , , , , , , , , , ,

2130 526 TIME HOURS 1700 527 .

START TIME DATE END TIME DATE

! O O O

CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 9 ~ DEGREES F

! 85.000 -

l

.~

i--r"~

84.000 e'~- .

l

, / /~

i 83.000' I,

1 82.000

/

l /

J 1

81.000" e

! 4 1

! 80.000 , , ,,,,,,,,,,,,,,,,,

! 2130 526 TIME HOURS 1700 527 i START TIME DATE END TIME DATE l

O O O CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 10 DEGREES F 83.700 _,--

~-

82.700

. /

~ /  :

/

81.700 80.700" 79.700~

l

~

78.700 , ,,,,,,,,,,,,,,,,,,

2130 526 TIME HOURS 1700 527 j START TIME DATE END TIME DATE l

4

! O O O

! CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 11 DEGREES F  :

! 86.000

~

! 84.000- '

) ~ -

i 82.000- ,7 i 1

p

~

80.000-  !

i ~

78.000~

! 76.000 , , , , , , , , ,,,,,,,,,,,

j 2130 526 TIME HOURS 1700 527 START . TIME DATE END TIME DATE I

1

\

I O O O l CA LU ERT CLI FFS -

UNIT 1 I LRT l TEMPERATURE SENSOR 12 DEGREES F 86.000 l -

l

" ' ~ ~

l 84. BOO -

i _

l .

_.E

/'

82.000

_r

/

l -

/

' 80.000 .

78.000" 76.000 , , , , , , , , ,,,,,,,,,,,

2130 526 TIME HOURS 1700 527 START TIME DATE END TIME DATE

}

________________.I

1 O -

O O CA LU ERT CLI FFS -

UNIT 1 I LRT

! TEMPERATURE SENSOR 13 DEGREES F

! 84.500 _-

s

) 83.500 _

,e i

/

~

/

82.500~ /

i .

81.500" 1

80.500" /

l 79.500 , , , , , , , , , , , , , , , , , , ,

2130 526 TIME HOURS 1700 527 j START TIME DATE END TIME DATE

O O O i CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 14 DEGREES F 85.500 s.j -_ -rf 84.500~

g[

! ./'

~

f-l 83.500- g

/

l 82.500-

~

/

I ~

81.500~

./

80.500, , , , , , , , , ,,,,,,,,,,,

! 2130 526 TIME HOURS 1700 527 l

START TIME DATE END TIME DATE

O O O' CA LU ERT CLI FFS -

UNIT 1 I LRT i

TEMPERATURE SENSOR 15 DEGREES F  ;

'I

! 81.000

{ 80.000 _

'~

l - __

i 79.000

_/

/- ,

/

/ ,

i /

l 78.000" I

'1 77.000'

? .

l

! 76.000 , , , , , , , , ,,,,,,,,,,,

! 212:0 526 TIME HOURS 1700 527 i

START TIME DATE END TIME DATE I

l O O O -

CA LU ERT CLI FFS -

UNIT 1 I LRT i

TEMPERATURE SENSOR 16 DEGREES F

~

80.000 ~-

1 79.000 i .

78.000-

~

f

/

77 . 000~

i .

~ '

l 76.000~ -

i x

! 75.000 , ,,,,

I 1700 52Y

! 2130 526 TIME Hold 3 START TI'ME DATE END TIME DATE i

1. _ _ _ _ _ _ _ _ __ _ __________________________-___-_-_______

O O O CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 17 DEGREES F

~~

80.000 --

_.-. /

79.000

~

y -

/

/

78.000

/

l 77.000" i

76.000" l

l 75.000 , , , , , , , , ,,,,,,,,,,,,

i 21':0 .526 TIME HOURS 1708 527 l START TIME DATE END TIME DATE

O O O CA LU ERT CLI FFS -

UNIT 1 I LRT TEMPERATURE SENSOR 18 DEGREES F

80.800

. _t-r~_

79.000 f

~

J' 78.000 f

/

77.000-

~

76.000-

) 75.000 , , , , , , , ,,,,,,,,,,,,

! 2130 526 TIME HOllRS 1700 527 i START TIME DATE END TIME DATE i

1

O O O CA LU ERT CLI FFS -

UNIT 1 ILRT PRESSURE SENSOR 1 PSIA 65.800 _ __

~~~

/

65.700

/

_ r"

/

/

65.600 B

65.500" 65.400"/

65.300 , , , , , , , , ,,,,,,,,,,,

2130 526 TIME HOURS 1700 527 START TIME DATE END TIME DATE

. _ _ _ _ _ _ - _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ ___ _ __ _ __ _ __= _ A

l o o o l CA LU ERT CLI FFS -

UNIT 1 I LRT PRESSURE SENSOR 2 PSIA (NOT USED) 65.800 i

65.700" --

l - _

L 65.600

/

_/

~

l 65.500

~ /

i I

l 4

65.400

! 65.300 /, , , , , , , ,,,,,,,,,,,,

l 212l0 526 TIME HOUFS 1700 527 l START TIME DATE END TIME DATE i

O O O CA LU ERT CLI FFS -

UNIT 1 I LR f

, DENPOINT TEMPERATURE SENSOR 1 DEG. F 1

75.800 74.000

~

  1. ^

l _. .r" -

. f" 73.000 l

72.000

'i

)

71. 000~(

! 70.000 , , , , , , , ,,,,,,,,,,,,

! 2130 526 TIME HOLIRS 1700 527

START TIME DATE END TIME DATE l

\ _ - _ _ _ - _ _ _ _ - _ _ _

O O O

CA LU ERT CLI FFS -

UNIT 1 I LRT I DEWPOINT TEMPERATURE SENSOR 2 DEG. F j 77.000

76.800 g r' l 75.200

' /

_/

74. BOO I .

73.000" i

i 72.000 d , ,,,,,,,,,,,,,,,,,,

i 2130 526 TIME HOURS 1700 527 j START TIME DATE END TIME DATE l

l 0 0 O l

CA LU ERT CLI FFS -

UNIT 1 I LRT DEWPOINT TEMPERATURE SENSOR 3 DEG. F l 75.800 l

~~

-,~-

74.000 ~~

73.000 -

72.200" i

/ ,

i 71.000" -

j 'l 70.000 , , , , , , , ,,,,,,,,,,,,

i 212:0 526 TIME HOURS 1700 527 l START TIME DATE END TIME DATE

\ - _____-________ ______ ___ _________ _ ___ __ ________ _ __ - _ - - - - _ _ - - _ _ - _ - _ _ _ _ _ _ _ _ - - . _ _ _ _ - _ _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

O O O l CA LU ERT CLI FFS -

UNIT 1 I LRT DEWPOINT TEMPERATURE SENSOR 4 DEG. F 74.000 l ^

,_,s. . - .

73.000 As^'

_ .w -#'

72.000-i

/

71.000~

l '

l

/

70.000~%.'

l l 69.000 , , , , , , , ,,,,,,,,,,,,

212:0 5'26 TIME HOURS 1700 527 i START TIME DATE END TIME DATE i

\ _____ _ ____ _ -_- __-__-_ ___-____ __ _ _- _- - _ _ ________ - ____ _ _ _ __--

! O O O CA LU ERT CLI FFS -

UNIT 1 I LRT i DEWPOINT TEMPERATURE SENSOR 5 DEG. F 75.800 74.000

_#~

__ f l

__f -

73.000

/

[

r f

I 72.000"

[

71.000"

' x_

70.000 , , , , , , ,,,,.,,,,,,,,

2130 526 TIME HOURS 1700 527

, START TI.ME DATE END TIME DATE l

i

i i

O O O CA LU ERT CLI FFS -

UNIT 1 I LRT DEWPOINT TEMPERATURE SENSOR 6 DEG. F 74.800 *__.

, _ ,_fv^ --

s-

, 73.000

/

l .

/

/

i

! 72.000 l

71.200"

'l

(

l l

70.000-i

! 69.000_, , , , , , , ,,,,,,,,,,,,

i 212:0 526 TIME HOI.lRS 1700 527 START TIME DATE END TIME DATE 1

I

O Test Data O

O

()

SUMMARY

OF MEASURED DATA AT 2130 526 TEMP 1 = 542.2670 ( 82.597 )

TEMP 2 = 542.6130 ( 82.943 )

TEMP 3 = 540.9230 ( 81.2L3 )

TEMP 4 = 541.3470 ( 81.677 )

TEMP 5 = 539.8540 ( 80.184 )

TEMP 6 = 539.2230 ( 79.553 )

TEMP 7 = 539.9830 ( 80.313 )

TEMP 8 = 538.3930 ( 78.723 )

TEMP 9 = 540.2160 ( 80.546 )

TEMP 10 = 538.4220 ( 78.752 )

TEMP 11 = 538.0070 ( 78.337 )

TEMP 12 = 538.5240 ( 78.854 )

TEMP 13 = 539.5780 ( 79.908 )

TEMP 14 = 540.5750 ( 80.905 )

TEMP 15 = 536.6120 ( 76.942 )

TEMP 16 = 536.7000 ( 77.030 )

TEMP 17 = 536.2760 ( 76.606 )

TEMP 18 = 536.3080 ( 76.638 )

PRES 1= 65.3723 (653723.0 )

PRES 2= 65.3102 ( 66455.0 )

f s

VPRS VPRS 1=

2=

.3750 ( 70.965 )

.3940 ( 72.424 )

VPRS 3= .3740 ( 70.886 )

VPRS 4= .3633 ( 70.033 )

VPRS 5= .3677 ( 70.387 )

VPRS 6= .3509 ( 69.017 )

SUMMARY

OF CORRECTED DATA TIME = 2130 DATE = 526

=

TEMPERATURE (DEGREES R.) 539.5645

=

CORRECTED PRESSURE (PSIA) 64.9974 VAPOR PRESSURE (PSIA) = .3749 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 650295.4 O

t

\

l l

l l

SUMMARY

OF MEASURED DATA AT 2145 526 TEMP 1 = 542.4410 ( 82.771 )

TEMP 2 = 542.7690 ( 83.099 )

TEMP 3 = 541.1620 ( 81.492 )

TEMP 4 = 541.4950 ( 81.825 )

TEMP 5 = 539.6010 ( 79.931 )

TEMP 6 = 539.4210 ( 79.751 )

TEMP 7 = 540.1930 ( 80.523 )

TEMP 8 = 538.7530 ( 79.083 )

TEMP 9 = 540.1170 ( 80.447 )

TEMP 10 = 538.8400 ( 79.170 )

TEMP 11 = 538.3800 ( 78.710 )

TEMP 12 = 538.9510 ( 79.281 )

TEMP 13 = 539.7770 ( 80.107 )

TEMP 14 = 540.4740 ( 80.804 )

TEMP 15 = 536.6730 ( 77.003 )

TEMP 16 = 536.8200 ( 77.150 )

TEMP 17 = 536.4400 ( 76.770 )

TEMP 18 = 536.4040 ( 76.734 )

PRES 1= 65.3815 (653815.0 )

PRES 2= 65.3180 ( 66463.0 )

VPRS 1= .3751 ( 70.968 )

VPRS 2= .3926 ( 72.319 )

VPRS 3 = .3740 ( 70.887 )

VPRS 4= .3638 ( 70.069 )

VPRS 5= .3662 ( 70.260 )

VPRS 6= .3672 ( 70.347 )

SUMMARY

OF CORRECTED DATA TIME = 2145 DATE = 526 TEMPERATURE (DEGREES R.) = 539.7158 CORRECTED PRESSURE (PSIA) = 65.0056 VAPOR PRESSURE (PSIA) = .3759 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 650194.6 l

9

()

SUMMARY

OF MEASURED DATA AT 2200

~

526 TEMP 1 = 542.6290 ( 82.959 ) j TEMP 2 = 542.8910 ( 83.221 ) l TEMP 3 = 541.3610 ( 81.691 )

TEMP 4 = 541.5890 ( 81.919 ) l TEMP 5 = 539.8060 ( 80.136 )

TEMP 6 = 539.6240 ( 79.954 )

TEMP 7 = 540.3500 ( 80.680 ) ,

TEMP 8 = 539.0370 ( 79.367 ) '

TEMP 9 = 540.3440 ( 80.674 ) i TEMP 10 = 539.1390 ( 79.469 ) l TEMP 11 = 538.7240 ( 79.054 )

TEMP 12 = 539.2500 ( 79.580 )

TEMP 13 = 539.9810 ( 80.311 )

TEMP 14 = 540.6570 ( 80.987 )

TEMP 15 = 536.9720 ( 77.302 )

TEMP 16 = 537.0550 ( 77.385 )

TEMP 17 = 536.6610 ( 76.991 )

TEMP 18 = 536.5370 ( 76.867 )

PRES 1= 65.3980 (653980.0 )

PRES 2= 65.3348 ( 66480.0 )

f~)

V VPRS 1= .3711 ( 70.657 )

VPRS 2= .3917 ( 72.250 )

VPRS 3= .3737- ( 70.861 )

VPRS 4= .3625 ( 69.969 )

VPRS 5= .3669 ( 70.321 )

VPRS 6= .3720 ( 70.729 )

l

SUMMARY

OF CORRECTED DATA TIME = 2200 l DATE = 526 I TEMPERATURE (DEGREES R.) = 539.9252 CORRECTED PRESSURE (PSIA) = 65.0229 VAPOR PRESSURE (PSIA) = .3751 VOLUME (CU.FT.) = 2000000.0 i AIR MASS (LBM) = 650116.3 .

l l

C:)

l 1

J

l

SUMMARY

OF MEASURED DATA AT 2215 526 9 ,

TEMP 1 = 542.7780 ( 83.108 )

TEMP 2 = 543.0120 ( 83.342 )

TEMP 3 = 541.4930 ( 81.823 )

TEMP 4 = 541.7740 ( 82.104 )

TEMP 5 = 539.9980 ( 80.328 )

TEMP 6 = 539.8450 ( 80.175 )

TEMP 7 = 540.5910 ( 80.921 )

TEMP 8 = 539.2940 ( 79.624 )

TEMP 9 = 540.5730 ( 80.903 )

TEMP 10 = 539.4490 ( 79.779 )

TEMP 11 = 538.9860 ( 79.316 )

TEMP 12 = 539.4620 ( 79.792 )

TEMP 13 = 540.1690 ( 80.499 )

TEMP 14 = 540.8390 ( 81.169 )

TEMP 15 = 537.2510 ( 77.581 )

TEMP 16 = 537.2330 ( 77.563 )

TEMP 17 = 536.8810 ( 77.211 )

TEMP 18 = 536.7290 ( 77.059 )

PRES 1= 65.4158 (654158.0 )

PRES 2= 65.3516 ( 66497.0 )

VPRS 1= .3722 ( 70.738 )

VPRS 2= .3914 ( 72.222 )

VPRS 3= .3742 ( 70.900 )

VPRS 4= .3632 ( 70.022 )

VPRS 5= .3685 ( 70.446 )

VPRS 6= .3742 ( 70.895 )

SUMMARY

OF CORRECTED DATA TIME = 2215 DATE = 526 TEMPERATURE (DEGREES R.) = 540.2277

=

CORRECTED PRESSURE (PSIA) 65.0401

=

VAPOR PRESSURE (PSIA) .3757 .

VOLUME (CU.FT.) = 2000000.0 l AIR MASS (LBM) = 650043.6 l O l 1 I

I

()

SUMMARY

OF MEASURED DATA AT 2230 526

)

TEMP 1 = 542.8970 ( 83.227 )

TEMP 2 = 543.1180 ( 83.448 )

TEMP 3 = 541.6470 ( 81.977 )

TEMP 4 = 541.9460 ( 82.276 ) l TEMP 5 = 540.2020 ( 80.532 )

TEMP 6 = 540.0570 ( 80.387 )  :

TEMP 7 = 540.8360 ( 81.166 ) '

TEMP 8 = 539.5070 ( 79.837 ) l TEMP 9 = 540.7530 ( 81.083 )

TEMP 10 = 539.6930 ( 80.023 )

TEMP 11 = 539.2410 ( 79.571 )

TEMP 12 = 539.6100 ( 79.940 ) l TEMP 13 = 540.3550 ( 80.685 ) )

TEMP 14 = 541.0690 ( 81.399 )

TEMP 15 = 537.4370 ( 77.767 )

TEMP 16 = 537.3610 ( 77.691 )

TEMP 17 = 537.0510 ( 77.381 )

TEMP 18 = 536.8730 ( 77.203 )

PRES 1= 65.4335 (654335.0 )

PRES 2= 65.3684 ( 66514.0 ) J

('x- VPRS VPRS 1=

2=

.3733

.3949

(

(

70.831 )

72.491 ) i VPRS 3= .3758 ( 71.025 ) l VPRS 4= .3637 ( 70.063 ) l VPRS 5= .3717 '( 70.703 ) .

VPRS 6= .3747 ( 70.939 )

i l

SUMMARY

OF CORRECTED DATA TIME = 2230 DATE = 526 l

=  !

TEMPERATURE (DEGREES R.) 540.3066 CORRECTED PRESSURE (PSIA) = 65.0559 VAPOR PRESSURE (PSIA) = .3776 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649986.5 l

O ,

I J

i l

1 l

l

SUMMARY

OF MEASURED DATA AT 2245 526 TEMP 1 = 542.9990 ( 83.329 )

TEMP 2 = 543.1520 ( 83.482 )

TEMP 3 = 541.7970 ( 82.127 )

TEMP 4 = 542.1130 ( 82.443 )

TEMP 5 = 540.4210 ( 80.751 )

TEMP 6 = 540.2440 ( 80.574 )

TEMP 7 = 540.9520 ( 81.282 )

TEMP 8 = 539.7080 ( 80.038 )

TEMP 9 = 540.8800 ( 81.210 )

TEMP 10 = 539.9400 ( 80.270 )

TEMP 11 = 539.4590 ( 79.789 )

TEMP 12 = 539.8360 ( 80.166 )

TEMP 13 = 540.5520 ( 80.882 )

TEMP 14 = 541.2630 ( 81.593 )

TEMP 15 = 537.5530 ( 77.883 )

TEMP 16 = 537.4160 ( 77.746 )

TEMP 17 = 537.1550 ( 77.485 )

TEMP 18 = 536.9710 ( 77.301 )

PRES 1= 65.4505 (654505.0 )

PRES 2= 65.3852 ( 66531.0 )

VPRS 1= .3759 ( 71.031 )

VPRS 2= .3983 ( 72.740 )

VPRS 3 = .3775 ( 71.160 )

VPRS 4 = .3647 ( 70.140 )

VPRS 5= .374S ( 70.919 )

VPRS 6= .3756 ( 71.005 )

SUMMARY

OF CORRECTED DATA TIME = 2245 DATE = 526 TEMPERATURE (DEGREES R.) = 540.4532 CORRECTED PRESSURE (PSIA) = 65.0707 l VAPOR PRESSURE (PSIA) = .3798 VOLUME (CU.FT.) = 2000000.0

. AIR MASS (LBM) = 649958.2 l 4

l

(  !

SUMMARY

OF MEASURED DATA AT 2300 526 TEMP 1 = 543.0660 ( 83.396 )

TEMP 2 = 543.2070 ( .83.537 )

TEMP 3 = 541.9160 ( 82.2s TEMP 4 = 542.2870 ( 82.617 ,

TEMP 5 = 540.6370 ( 80.967 )

TEMP 6 = 540.4300 ( 80.760 )

TEMP 7 = 541.2320 ( 81.562 )

TEMP 8 = 539.9050 ( 80.235 )

TEMP 9 = 541.1350 ( 81.465 )

TEMP 10 = 540.1490 ( 80.479 )  !

TEMP 11 = 539.6670 ( 79.997 )

TEMP 12 = 540.0620 ( 80.392 )

TEMP 13 = 540.6940 ( 81.024 ) ,

TEMP 14 = 541.4350 ( 81.765 ) '

TEMP 15 = 537.6800 ( 78.010 )

TEMP 16 = 537.5150 ( 77.845 )

TEMP 17 = 537.2440 ( 77.574 )

TEMP 18 = 537.0800 ( 77.410 )

PRES 1= 65.4670 (654670.0 )

PRES 2= 65.4010 ( 66547.0 )

O VPRS VPRS 1=

2=

.3777

.4010

(

(

71.171 )

72.941 )

VPRS 3= .3790 ( 71.272 )

VPRS 4= .3653 ( 70.190 )

VPRS 5= .3767 ( 71.095 )

VPRS 6= .3769 ( 71.109 )

SUMMARY

OF CORRECTED DATA TIME = 2300 DATE = 526 j

= 540.6138 TEMPERATURE (DEGREES R. )

CORRECTED PRESSURE (PSIA) = 65-0854 VAPOR PRESSURE (PSIA) = .3816 i VOLUME (CU.FT.) = 2000000.0 l AIR MASS (LBM) = 649912.3 l 1

O l

l

SUMMARY

OF MEASURED DATA AT 2315 526 TEMP 1 = 543.0470 ( 83.377 )

TEMP 2 = 543.1760 ( 83.506 )

TEMP 3 = 542.0270 ( 82.357 )

TEMP 4 = 542.3750 ( 82.705 )

TEMP 5 = 540.7590 ( 81.089 )

TEMP 6 = 540.5980 ( 80.928 )

TEMP 7 = 541.4250 ( 81.755 )

TEMP 8 = 540.0740 ( 80.404 )

TEMP 9 = 541.3280 ( 81.658 )

TEMP 10 = 540.3550 ( 80.685 )

TEMP 11 = 539.8580 ( 80.188 )

TEMP 12 = 540.1990 ( 80.529 )

TEMP 13 = 540.8680 ( 81.198 )

TEMP 14 = 541.5160 ( 81.846 )

TEMP 15 > 537.8360 ( 78.166 )

TEMP 16 = 537.6040 ( 77.934 )

TEMP 17 = 537.3380 ( 77.668 )

TEMP 18 = 537.1410 ( 77.471 )

PRES 1= 65.4821 (654821.0 )

PRES 2= 65.4158 ( 66562.0 )

VPRS 1= .3804 ( 71.386 )

VPRS 2= .4030 ( 73.092 )

VPRS 3= .3817 ( 71.484 )

VPRS 4= .3683 ( 70.428 )

VPRS 5= .3793 ( 71.296 )

VPRS 6= .3768 ( 71.106 )

SUMMARY

OF CORRECTED DATA TIME = 2315 DATE = 526

=

TEMPERATURE (DEGREES R.) 540.7255 CORRECTED PRESSURE (PSIA) = 65.0982 VAPOR PRESSURE (PSIA) = .3839 i VOLUME (CU.FT.) = 2000000,0 AIR MASS (LBM) = 649905.2 i

l kh l I

i

SUMMARY

OF MEASURED DATA AT 2330 526

}

TEMP 1 = 543.0880 ( 83.418 )

TEMP 2 = 543.1980 ( 83.528 )

TEMP 3 = 542.1630 ( 82.493 )

TEMP 4 = 542.5340 ( 82.864 )

TEMP 5 = 540.9210 ( 81.251 )

TEMP 6 = 540.7460 ( 81.076 ) ,

TEMP 7 = 541.4610 ( 81.791 ) j TEMP 8 = 540.2340 ( 80.564 ) l TEMP 9 = 541.4110 ( 81.741 ) <

TEMP 10 = 540.5500 ( 80.880 )

TEMP 11 = 540.0210 ( 80.351 )

TEMP 12 = 540.4620 ( 80.792 )

TEMP 13 = 540.9790 ( 81.309 )

TEMP 14 = 541.7500 ( 82.080 )

TEMP 15 = 537.9180 ( 78.248 )

TEMP 16 = 537.6940 ( 78.024 )

TEMP 17 = 537.4330 ( 77.763 )

TEMP 18 = 537.1960 ( 77.526 )

PRES 1= 65.4960 (654960.0 )

PRES 2= 65.4296 ( 66576.0 )

VPRS 1= .3828 ( 71.566 )

O.- VPRS 2= .4090 ( 73.533 )

VPRS 3= .3828 ( 71.565 )

VPRS 4 = .3698 ( 70.547 )

VPRS 5= .3814 ( 71.461 )

VPRS 6= .3785 ( 71.238 )

SUMMARY

OF CORRECTED DATA TIME = 2330 DATE = 526 TEMPERATURE (DEGREES R.) = 540.8422

=

CORRECTED PRESSURE (PSIA) 65.1094 VAPOR PRESSURE (PSIA) = .3866 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649876.8 O

SUMMARY

OF MEASURED DATA AT 2345 526 TEMP 1 = 543.0760 ( 83.406 )

TEMP 2 = 543.2080 ( 83.538 )

TEMP 3 = 542.2670 ( 82.597 )

TEMP 4 = 542.6380 ( 82.968 )

TEMP 5 = 541.0710 ( 81.401 )

TEMP 6 = 540.8840 ( 81.214 )

TEMP 7 = 541.6340 ( 81.964 )

TEMP 8 = 540.3720 ( 80.702 )

TEMP 9 = 541.5050 ( 81.835 )

TEMP 10 = 540.6620 ( 80.992 )

TEMP 11 = 540.1810 ( 80.511 )

TEMP 12 = 540.6050 ( 80.935 )

TEMP 13 = 541.1220 ( 81.452 )

TEMP 14 = 541.8980 ( 82.228 )

TEMP 15 = 537.9760 ( 78.306 )

TEMP 16 = 537.8340 ( 78.164 )

TEMP 17 = 537.5140 ( 77.844 )

TEMP 16 = 537.2380 ( 77.568 )

PRES 1= 65.5088 (655088.0 )

PRES 2 = 65.4415 ( 66588.0 )

VPRS 1= .3843 ( 71.687 )

VPRS 2= .4118 ( 73.736 )

VPRS 3= .3855 ( 71.778 )

VPRS 4 = .3710 ( 70.648 )

VPRS 5= .3833 ( 71.608 )

VPRS 6= .3787 ( 71.249 )

SUMMARY

OF CORRECTED DATA TIME = 2345 DATE = 526 TEMPERATURE (DEGREES R.) = 540.9427 CORRECTED PRESSURE (PSIA) = 65.1202

=

VAPOR PRESSURE (PSIA) .3886 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649863.7 hh

l l

SUMMARY

OF' MEASURED DATA AT 0 527 TEMP 1 = 543.1050 ( 83.435 ) ,

TEMP 2 = 543.2050 ( 83.535 ) l TEMP 3 = 542.3660 ( 82.696 )

TEMP 4 = 542.6930 ( 83.023 ) i TEMP 5 = 541.2110 (- 81.541 )

TEMP 6 = 541.0360 ( 81.366 )

TEMP 7 = 541.7540 ( 82.084 )

TEMP 8 = 540.5230 ( 80.853 )

TEMP 9 = 541.6670 ( 81.997 )

TEMP 10 = 540.8190 ( 81.149 )  !

TEMP 11 = 540.5340 ( 80.664 )

TEMP 12 = 540.7990 ( 81.129 )

TEMP 13 = 541.2490 ( 81.579 ) .

TEMP 14 = 542.0960 ( 82.426 ) l TEMP 15 = 538.0590 ( 78.389 )

TEMP 16 = 537.9120 ( 78.242 )

TEMP 17 = 537.5900 ( 77.920 )

TEMP 18 = 537.2910 ( 77.621 )

PRES 1= 65.5206 (655206.0 )

PRES 2= 65.4533 ( 66600.0 )

/~T VPRS 1= .3867 71.870 )

(-) VPRS 2= .4144

(

( 73.921 )

VPRS 3= .3876 ( 71.934 )

VPRS 4= .3743 ( 70.910 )

VPRS 5= .3845 ( 71.698 )

VPRS 6= .3801 ( 71.356 )

SUMMARY

OF CORRECTED DATA 11HE = 0 DATE = 527 TEMPERATURE (DEGREES R.) = 541.0467 CORRECTED PRESSURE (PSIA) = 65.1297 VAPOR PRESSURE (PSIA) = .3909 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649833.9 l

l

(

1 l

SUMMARY

OF MEASURED DATA AT 15 527 TEMP 1 = 543.1460 ( 83.476 )

TEMP 2 = 543.2240 ( 83.554 )

TEMP 3 = 542.4210 ( 82.751 )

TEMP 4 = 542.8360 ( 83.166 )

TEMP 5 = 541.3450 ( 81.675 )

TEMP 6 = 541.1350 ( 81.465 )

TEMP 7 = 541.9140 ( 82.244 )

TEMP 8 = 540.6560 ( 80.986 )

TEMP 9 = 541.7680 ( 82.098 )

TEMP 10 = 540.9360 ( 81.266 )

TEMP 11 = 540.4620 ( 80.792 )

TEMP 12 = 540.8980 ( 81.228 )

TEMP 13 = 541.3620 ( 81.692 )

TEMP 14 = 542.1510 ( 82.481 )

TEMP 15 = 538.1170 ( 78.447 )

TEMP 16 = 537.9470 ( 78.277 )

TEMP 17 = 537.6760 ( 78.006 )

TEMP 18 = 537.3610 ( 77.691 )

PRES 1= 65.5319 (655319.0 )

PRES 2= 65.4642 ( 66611.0 )

VPRS 1= .3890 ( 72.042 ) ,

VPRS 2= .4150 ( 73.965 ) I VPRS 3= .3896 ( 72.091 )

VPRS 4= .3750 ( 70.959 )

VPRS 5= .3855 ( 71.777 )

VPRS 6= .3820 ( 71.508 )

SUMMARY

OF CORRECTED DATA TIME = 15 DATE = 527

= 541.1371 TEMPERATURE (DEGREES R.) ,

= 65.1395 CORRECTED PRESSURE (PSIA) l

=

VAPOR PRESSURE (PSIA) .3924 '

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649823.2 9

SUMMARY

OF MEASURED DATA AT 30 527 TEMP 1 = 543.1090 ( 83.439 )

TEMP 2 = 543.2420 ( 83.572 )

TEMP 3 = 542.4910 ( 82.821 )

TEMP 4 = 542.8590 ( 83.189 )

TEMP 5 = 541.4430 (- 81.773 )

TEMP 6 = 541.2200 ( 81.550 )

TEMP 7 = 542.0060 ( 82.336 )

TEMP 8 = 540.7680 ( 81.098 )

TEMP 9 = 541.9210 ( 82.251 )

TEMP 10 = 541.0860 ( 81.416 ) ,

TEMP 11 = 540.5930 ( 80.923 ) l TEMP 12 = 541.0450 ( 81.375 ) l TEMP 13 = 541.4900 ( 81.820 ) l TEMP 14 a 542.2010 ( 82.611 )

TEMP 15 = 533.1710 ( 78.501 )

TEMP 16 = 538.0390 ( 78.369 ) l TEMP 17 = 537.7550 ( 78.065 ) (

TEMP 1B = 537.4280 ( 77.758 ) j PRES 1= 65.5425 (655425.0 )

PRES 2= 65.4741 ( 66621.0 )

O VPRS VPRS VPRS 1=

2=

3=

.3910

.4179

(

(

72.197 )

74.173 )

.3928 ( 72.334 )

VPRS 4 = .3777 ( 71.176 )

VPRS 5= .3869 ( 71.881 )

VPRS 6= .3818 ( 71.492 )

SUMMARY

OF CORRECTED DATA TIME = 30 DATE = 527 TEMPERATURE (DEGREES R.) = 541.2163 CORRECTED PRESSURE (PSIA) = 65.1478 VAPOR PRESSURE (PSIA) = .3947 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649810.4 O

SUMMARY

OF MEASURED DATA AT 45 527 TEMP 1 = 543.2010 ( 83.531 )

TEMP 2 = 543.2830 ( 83.613 )

TEMP 3 = 542.5220 ( 82.852 )

TEMP 4 =~542.9110 ( 83.241 )

TEMP 5 = 541.5070 ( 81.837 )

TEMP 6 = 541.3470 ( 81.677 )

TEMP 7 = 542.0790 ( 82.409 )

TEMP 8 = 540.8910 ( 81.221 )

TEMP 9 = 541.9940 ( 82.324 )

TEMP 10 = 541.1880 ( 81.518 )

TEMP 11 = 540.6980 ( 81.028 )

TEMP 12 = 541.1210 ( 81.451 )

TEMP 13 = 541.5760 ( 81.906 )

TEMP 14 = 542.3860 ( 82.716 )

TEMP 15 = 538.2370 ( 78.567 )

TEMP 16 = 538.0630 ( 78.393 )

TEMP 17 = 537.8250 ( 78.155 )

TEMP 18 = 537.4880 ( 77.818 )

PRES 1= 65.5525 (655525.0 )

PRES 2= 65.4830 ( 66630.0 )

VPRS 1= .3951 ( 72.503 )

VPRS 2= .4163 ( 74.057 )

VPRS 3= .3949 ( 72.489 )

VPRS 4= .3810 ( 71.432 )

VPRS 5= .3874 ( 71.920 )

VPRS 6= .3836 ( 71.629 )

SUMMARY

OF CORRECTED DATA TIME = 45 DATE = 527 TEMPERATURE (DEGREES R.) = 541.2886 CORRECTED PRESSURE (PSIA) = 65.1561 3 VAPOR PRESSURE (PSIA)

= .3964 VOLUME (CU.FT.) = 2000000.0 .

AIR MASS (LBM) = 649806.6 )

h l

I l

l 1

1 i

SUMMARY

OF MEASURED DATA AT 100 527 TEMP 1 = 543.2190 ( 83.549 )

TEMP  !! = 543.3370 ( 83.667 )

TEMP 3 = 542.5810 ( 82.911 )

TEMP 4 = 542.9840 ( 83.314 )

TEMP 5 = 541.6030 ( 81.933 )

TEMP 6 = 541.4250 ( 81.756 )

TEMP 7 = 542.2200 ( 82.550 )

TEMP 8 = 540.9760 ( 81.306 )

TEMP 9 = 542.0980 ( 82.428 )

TEMP 10 = 541.2750 ( 81.605 ) i TEMP 11 = 540.8080 ( 81.138 ) ,

TEMP 12 = 541.2830 ( 81.613 ) l TEMP 13 = 541.6840 ( 82.014 )

TEMP 14 = 542.5050 ( 82.835 )

TEMP 15 = 538.2980 ( 78.628 )

TEMP 16 = 538.0880 ( 78.418 )

TEMP 17 = 537.8880 ( 78.218 )

TEMP 18 = 537.5760 ( 77.906 )

PRES 1= 65.5618 (655618.0 )

PRES 2= 65.4918 ( 66639.0 )

O VPRS 7 PRS 1=

2=

3=

.4061

.4178

(

(

73.318 )

74.166 )

VPRS .3952 ( 72.514 )

YPRS 4= .3820 ( 71.507 )

V?RS 5= .3837 ( 72.023 )

V', ks 6= .3851 ( 71.749 )

SUMMARY

OF CORRECTED DATA TIME = 100 DATE = 527 l TEMPERATURE (DEGREES R.) = 541.3702 l CORRECTED PRESSURE (PSIA) = 65.1620 VAPOR PRESSURE (PSIA) = .3998 VOLUME (CU.FT.) = 2000000.0

, AIR MASS (LBM) = 649768.0

()

l i

SUMMARY

OF MEASURED DATA AT 115 527 TEMP 1 = 543.2370 ( 83.567 )

TEMP 2 = 543.3210 ( 83.651 )

TEMP 3 = 542.6770 ( 83.007 )

TEMP 4 = 543.0620 ( 83.392 )

TEMP 5 = 541.7300 ( 82.060 )

TEMP 6 = 541.5510 ( 81.881 )

TEMP 7 = 542.2680 ( 82.598 )

TEMP 8 = 541.0770 ( 81.407 )

TEMP 9 = 542.1810 ( 82.511 )

TEMP 10 = 541.3740 ( 81.704 )

TEMP 11 = 540.9350 ( 81.265 )

TEMP 12 = 541.3590 ( 81.689 )

TEMP 13 = 541.7800 ( 82.110 )

TEMP 14 = 542.5F10 ( 82.891 )

TEMP 15 = 538.3s?) ( 78.672 )

TEMP 16 = 538.1114 ( 78.443 )

TEMP 17 = 537.9430 ( 78.273 )

TEMP 18 = 537.6620 ( 77.992 )

PRES 1= 65.5705 (655705.0 )

PRES 2= 65.5007 ( 66648.0 )

VPRS 1= .4031 ( 73.097 )

VPRS 2= .4187 ( 74.229 )

VPRS 3 = .3973 ( 72.670 )

VPRS 4= .3842 ( 71.678 )

VPRS 5= .3804 ( 72.000 )

VPRS 6= .3861 ( 71.823 )

SUMMARY

OF CORRECTED DATA TIME = 115 DATE = 527

=

TEMPERATURE (DEGREES R.) 541.4390

=

CORRECTED PRESSURE (PSIA) 65.1704 VAPOR PRESSURE (PSIA) = .4001 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649768.8 lll i i

l l

)

7_..

ks

()

SUMMARY

OF MEASURED DATA AT 130 527

! TEMP 1 = 543.2430 ( 83.573 )

1 TEMP 2 = 543.3850 ( 83.715 )

TEMP 3 = 542.7320 ( 83.062 )

TEMP 4 = 543.0560 ( 83.386 )

TEMP 5 = 541.8760 ( 82.206 )

TEMP 6 = 541.6350 ( 81.965 )

TEMP 7 = 542.4030 ( 82.733 )

TEMP 8-= 541.1590 ( 81.489 )

TEMP 9 = 542.3100 ( 82.640 )

TEMP 10 = 541.4520 ( 81.782 )

TEMP 11 = 541.0360 ( 81.366 )

TEMP 12 = 541.4860 (- 81.816 )

TEMP 13 = 541.8500 ( 82.180 )

TEMP 14 = 542.6730 ( 83.003 )

TEMP 15 = 538.3740 ( 78.704 )

. TEMP 16 = 538.1740 ( 78.504 )

TEMP 17 = 537.9930 ( 78.323 )

TEMP 18 = 537.7030 ( 78.033 )

PRES 1= 65.5787 (655787.0 )

PRES 2= G5.5086 ( 66656.0 )

O VPRS VPRS 1=

2=

3=

.4047

.4189

(

(

73.217 )

74.243 )

VPRS .3989 ( 72.790 )

VPRS 4= .3853 ( 71.763 )

VPRS 5= .3901 ( 72.129 )

VPRS 6= .3874 ( 71.923 )

SUMMARY

OF CORRECTED DATA TIME = 130 DATE = 527 TEMPERATURE (DEGREES R.) = 541.5128

= 65.1774 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PS7A) = .4013 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649749.9 1

l 1

SUMMARY

OF MEASURED DATA AT 145 527 TEMP 1 = 543.2850 ( 83.615 i TEMP 2 = 543.3840 ( 83.714 ,

TEMP 3 = 542.7930 ( 83.123 )

TEMP 4 = 543.1240 ( 83.454 )

TEMP 5 = 541.9160 ( 82.246 )

TEMP 6 = 541.7110 ( 82.041 )

TEMP 7 = 542.3140 ( 82.644 )

TEMP 8 = 541.2600 ( 81.590 )

TEMP 9 = 542.3840 ( 82.714 )

TEMP 10 = 541.5600 ( 81.890 )

TEMP 11 = 541.1380 ( 81.463 )

TEMP 12 = 541.6180 ( 81.948 )

TEMP 13 = 541.9540 ( 82.284 )

TEMP 14 = 542.7800 ( 83.110 )

TEMP 15 = 538.4340 ( 78.764 )

TEMP 16 = 538.1910 ( 78.521 )

TEMP 17 = 538.0340 ( 78.364 )

TEMP 18 = 537.7530 ( 78.083 )

PRES 1= 65.5868 (655868.0 )

PRES 2= 65.5165 ( 66664.0 )

VPRS 1= .4072 ( 73.400 )

VPRS 2= .4195 ( 74.288 )

VPRS 3= .4014 ( 72.973 )

VPRS 4= .3854 ( 71.768 )

VPRS 5= .3904 ( 72.146 )

VPRS 6= .3887 ( 72.021 )

SUMMARY

OF CORRECTED DATA TIME = 145 DATE = 527 TEMPERATURE (DEGREES R.) = 541.5658 CORRECTED PRESSURE (PSIA) = 65.1841 VAPOR PRESSURE (PSIA) = .4027 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) >= 649752.8 9

I

SUMMARY

OF MEASURED DATA AT 200 527 TEMP 1 = 543.3910 ( 83.721 )

TEMP 2 = 543.4330 ( 83.763 )

TEMP 3 = 542.8380 ( 83.168 )

TEMP 4 = 543.2250 ( 83.555 )

TEMP 5 = 542.0230 ( 82.353 )

TEMP 6 = 541.8060 ( 82.136 )

TEMP 7 = 542.5100 ( 82.840 )

TEMP 8 = 541.3330 ( 81.663 )

TEMP 9 = 542.4820 ( 82.812 )

TEMP 10 = 541.6440 ( 81.974 )

TEMP 11 = 541.2250 ( 81.555 )

TEMP 12 = 541.6370 ( 81.967 )

TEMP 13 = 542.0300 ( 82.360 )

TEMP 14 = 542.8540 ( 83.184 )

TEMP 15 = 538.4670 ( 78.797 )

TEMP 16 = 538.2290 ( 78.559 )

TEMP 17 = 538.0800 ( 78.410 )

TEMP 18 = 537.8190 ( 78.149 )

PRES 1= 65.5944 (655944.0 )

PRES 2= 65.5244 ( 66672.0 )

VPRS 1= .4081 ( 73.463 )

O* VPRS 2= .4203 ( 74.346 )

VPRS 3= .4020 ( 73.014 )

VPRS 4= .3880 ( 71.968 )

VPRS 5= -3925 ( 72.311 )

VPRS 6= .3902 ( 72.132 )

l

SUMMARY

OF CORRECTED DATA 1 TIME = 200 DATE = 527 TEMPERATURE (DEGREES R. ) = 541.6461 l CORRECTED PRESSURE (PSIA) = 65.1905 l VAPOR PRESSURE (PSIA) = .4039 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649720.5 1

4 O

- - -,e

SUMMARY

OF MEASURED DATA AT 215 527 TEMP 1 = 543.3580 ( 83.688 )

TEMP 2 = 543.4570 ( 83.787 )

TEMP 3 = 542.9150 ( 83.245 )

TEMP 4 = 543.2820 ( 83.612 )

TEMP 5 = 542.0910 ( 82.421 )

TEMP 6 = 541.8810 ( 82.211 )

TEMP 7 = 542.5710 ( 82.901 )

TEMP 8 = 541.4060 ( 81.736 )

TEMP 9 = 542.6040 ( 82.934 )

TEMP 10 = 541.7040 ( 82.034 )

TEMP 11 = 541.3220 ( 81.652 )

TEMP 12 = 541.7660 ( 82.096 )

TEMP 13 = 542.1040 ( 82.434 )

TEMP 14 = 542.8350 ( 83.165 )

TEMP 15 = 538.5240 ( 78.854 )

TEMP 16 = 538.2510 ( 78.581 )

TEMP 17 = 538.1260 ( 78.456 )

TEMP 18 = 537.8360 ( 78.166 )

PkES 1= 65.6020 (656020. 0 )

PRES 2= 65.5313 ( 66679.0 )

VPRS 1= .4071 ( 73.391 )

VPRS 2= .4213 ( 74.411 )

VPRS 3= .4035 ( 73.130 )

VPRS 4= .3892 ( 72.058 )

VPRS 5= .3934 ( 72.375 )

VPRS 6= .3905 ( 72.157 )

SUMMARY

OF CORRECTED DATA TIME = 215 DATE = 527 TEMPERATURE (DEGREES R.) = 541.6995 CORRECTED PRESSURE (PSIA) = 65.1975 VAPOR PRESSURE (PSIA) = .4045 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649726.2 O

t

SUMMARY

OF MEASURED DATA AT 230 527 s

TEMP 1 = 543.3950 ( 83.725 )

TEMP 2 = 543.4800 ( 83.810 )

TEMP 3 = 542.9230 ( 83.253 )

TEMP 4 = 543.3090 ( 83.639 )  !

TEMP 5 = 542.2040 ( 02.534 )

TEMP 6 = 541.9680 ( 82.298 )  :

TEMP 7 = 542.6830 ( 83.013 ) l TEMP 8 = 541.4890 ( 81.819 ) l TEMP 9 = 542.6450 ( 82.975 )

TEMP 10 = 541.8030 ( 82.133 )

TEMP 11 = 541.4170 ( 81.747 )

TEMP 12 = 541.8430 ( 82.173 )

TEMP 13 = 542.1830 ( 82.513 )

TEMP 14 = 543.0050 ( 83.235 )

TEMP 15 = 538.5610 ( 78 /91 )

TEMP 16 = 538.2870 ( 78.617 )

TEMP 17 = 538.1v10 ( 78.491 ) l TEMP 18 = 537.9180 ( 78.248 )

, PRES 1= 65.6090 (656090.0 )  ;

PRES 2= 65.5392 ( 66687.0 ) l l

t VPRS 1= .4057 ( 73.292 ) l VPRS 2= .4219 ( 74.456 ) I VPRS 3= .4046 ( 73.205 ) l VPRS 4= .3906 ( 72.161 ) l VPRS 5= .3945 ( 72.460 ) '

VPRS 6= .3913 ( 72.215 )

'l l

SUMMARY

OF CORRECTED DATA i TIME = 230 DATE = 527 1

TEMPERATURE (DEGREES R.) = 541.7635 CORRECTED PRESSURE (PSIA) = 65.2041 VAPOR PRESSURE (PSIA) = .4049 VOLUME (CU.FT.) = 2000000,0 .I AIR MASS (LBM) = 649715.1 1 ,

l.

O I

I l

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

SUMMARY

OF MEASURED DATA AT 245 527 TEMP 1 = 543.3980 ( 83.728 )

TEMP 2 = 543.5070 ( 83.837 )

TEMP 3 = 542.9760 ( 83.306 )

TEMP 4 = 543.3300 ( 83.660 )

TEMP 5 = 542.2380 ( 82.568 )

TEMP 6 = 542.0170 ( 82.347 )

TEMP 7 = 542.6190 ( 82.949 )

TEMP 8 = 541.5630 ( 81.893 )

TEMP 9 = 542.7200 ( 83.050 )

TEMP 10 = 541.8810 ( 82.211 )

TEMP 11 = 541.4860 ( 81.816 )

TEMP 12 = 541.9370 ( 82.267 )

TEMP 13 = 542.2490 ( 82.579 )

TEMP 14 = 543.0120 ( 83.342 )

TEMP 15 = 538.6110 ( 78.941 )

TEMP 16 = 538.3240 ( 78.654 )

TEMP 17 = 538.2080 ( 78.538 )

TEMP 18 = 537.9650 ( 78.295 )

PRES 1= 65.6172 (656172.0 )

PRES 2 = 65.5462 ( 66694.0 )

VPRS 1= .4054 ( 73.271 )

VPRS 2 = .4228 ( 74.523 )

VPRS 3= .4053 ( 73.260 )

VPRS 4.= .3917 ( 72.247 )

VPRS 5= .3952 ( 72.509 )

VPRS 6= .3922 ( 72.282 )

t

SUMMARY

OF CORRECTED DATA TIME = 245 DATE = 527 TEMPERATURE (DEGREES R.) = 541.8011 CORRECTED PRESSURE (PSIA) = 65.2116 VAPOR PRESSURE (PSIA) = .4056 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649745.6 O

a 1

l

()

SUMMARY

OF MEASURED DATA AT- 300 327 TF'4P 1 = 543.4430 ( 83.773 )  !

TEMP 2 = 543.5230 ( 83.853 )  !

TEMP 3 = 543.0220 ( 83.352 ) f TEMP -4 = 543.3790 ( 83.709 ) l TEMP 5 = 542.'3750 ( 82.705 )  !

TEMP 6 = 542.0690 ( 82.399 )

TEMP 7 = 542.7450 ( 83.075 )

TEMP 8 = 541.6350 ( 81.965 )

TEMP 9 = 542.8020 (- 83.132 )

TEMP 10 = 541.9850 ( 82.315 )

TEMP-11 = 541.5500 ( 81.880 )

TEMP 12 = 542.0460 ( 82.376 ) >

TEMP 13 = 542.2990 ( 82.629 )

TEMP 14 = 543.1060 ( 83.436 )

TEMP 15 = 538.6580 ( -78.988 )

TEMP 16 = 538.3550 ( 78.685 )

TEMP 17 = 538.2400 ( 78.570 )

TEMP 18 = 538.0140 ( 75.344 )

PRES 1= 65.6255 (656255.0 )

PRES 2= 65.5540 ( 66702.0 ) j O VPRS VPRS 1=

2=

.4055

.4233

(

(

73.275 )

74.557 )

VPRS 3= .4062 ( 73.323 )

VPRS 4= .3913 ( 72.221 ) i VPRS 5= .3965 ( 72.610 )  !

VPRS 6= .3935 ( 72.387 ) l

SUMMARY

OF CORRECTED DATA TIME = 300 DATE = 527 TEMPERATURE (DEGREES R.) = 541.8686 CORRECTED PRESSURE (PSIA) = 65.2194

=

VAPOR PRESSURE (PSIA) .4061 l VOLUME (CU.FT.) = 20000'O.0 AIR MASS (LBM) = 649742.2 l

l

)

SUMMARY

OF MEASURED DATA AT 315 527 TEMP 1 = 543.4140 ( 83.744 )

TEMP 2 = 543.5530 ( 83.833 )

TEMP 3 = 543.0410 ( 83.371 )

TEMP 4 = 543.4780 ( 83.808 )

TEMP 5 = 542.4240 ( 82.754 )

TEMP 6 = 542.1620 ( 82.492 )

TEMP 7 = 542.8450 ( 83.175 )

TEMP 8 = 541.6890 ( 82.019 )

TEMP 9 = 542.8790 ( 83.209 )

TEMP 10 = 542.0640 ( 82.394 )

TEMP 11 = 541.6030 ( 81.933 )

TEMP 12 = 542.1430 ( 82.473 )

TEMP 13 = 542.3830 ( 82.713 )

TEMP 14 = 543.1380 ( 83.468 )

TEMP 15 = 538.6830 ( 79.013 )

TEMP 16 = 538.3900 ( 78.720 )

TEMP 17 = 538.2830 ( 78.613 )

TEMP 18 = 538.0420 ( 78.372 )

PRES 1= 65.6323 (656323.0 )

PRES 2= 65.5600 ( 66708.0 )

VPRS 1= .4048 ( 73.222 )

VPRS 2= .4241 ( 74.615 )

VPRS 3= .4068 ( 73.371 )

VPRS 4 = .3930 ( 72.345 )

VPRS 5= .3963 ( 72.590 )

VPRS 6= .3943 ( 72.447 )

SUMMARY

OF CORRECTED DATA TIME = 315 DATE = 527

=

TEMPERATURE (DEGREES R.) 541.9180 CORRECTED PRESSURE (PSIA) = 65.2258 VAPOR PRESSURE (PSIA) = .4065 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649746.4 9

4

SUMMARY

OF MEASURED DATA'AT 330 527 TEMP 1 = 543.5210 ( 83.851 )

TEMP 2 = 543.5290 ( 83.859 )

TEMP 3 = 543.0940 ( 83.424 )

TEMP 4 = 543.5140 ( 83.844 )

TEMP 5 = 542.4620 .( 82.792 )

TEMP 6 = 542.1980 ( 82.528 )

TEMP 7 = 542.8150 ( 83.145 )

TEMP 8 = 541.7510 ( 82.081 )

TEMP 9 = 542.9280 ( 83.258 )

TEMP 10 = 542.1080 ( 82.436 )

TEMP 11 = 541.6960 ( 82.026 )

TEMP 12 = 542.2750 ( 82.605 )

TEMP 13 = 542.4410 ( 82.771 )

TEMP 14 = 543.1960 ( 83.526 )

TEMP 15 = 538.7120 ( 79.042 )

TEMP 16 = 538.4320 ( 78.762 )

TEMP 17 = 538.3100 ( 78.640 )

TEMP 18 = 538.0830 ( 78.413 )

PRES 1= 65.6384 (656384.0 )

PRES 2= 65.5659 ( 66714.0 )

O VPRS VPRS VPRS 1=

2=

3=

.4052

.4251

.4074

(

(

73.255 )

74.679 )

73.414 '

(

VPRS 4= .3933 ( 72.367 ) - '

VPRS 5= .3981 ( 72.728 )

VPRS 6= .3952 ( 72.513 )

SUMMARY

OF CORRECTED DATA TIME = 330 DATE = 527 l

= 541.9624 TEMPERATURE (DEGREES R.)

= 65.2312 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .4072 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649746.6 O

SUMMARY

OF MEASURED DATA AT 345 527 TEMP 1 = 543.5560 ( 83.886 )

TEMP 2 = 543.5970 ( 83.927 )

TEMP 3 = 543.1430 ( 83.473 )

TEMP 4 = 543.6160 ( 83.946 )

TEMP 5 = 542.5060 ( 82.836 )

TEMP 6 = 542.2650 ( 82.595 )

TEMP 7 = 542.9810 ( 83.311 )

TEMP 8 = 541.8060 ( 82.136 )

TEMP 9 = 542.9460 ( 83.276 )

TEMP 10 = 542.1420 ( 82.472 )

TEMP 11 = 541.7440 ( 82.074 )

TEMP 12 = 542.3260 ( 82.656 )

TEMP 13 = 542.5060 ( 82.836 )

TEMP 14 = 543.3290 ( 83.659 )

TEMP 15 = 538.7440 ( 79.074 )

TEMP 16 = 538.4740 ( 78.804 )

TEMP 17 = 538.3510 ( 78.681 )

TEMP 18 = 538.1150 ( 78.445 )

PRES 1= 65.6440 (656440.0.)

PRES 2= 65.5708 ( 66719.0 )

VPRS 1= .4051 ( 73.245 )

VPRS 2= .4256 ( 74.714 )

VPRS 3= .4076 ( 73.431 )

VPRS 4 = .3940 ( 72.421 )

VPRS 5= .3987 ( 72.772 )

VPRS 6= .3957 ( 72.552 )

SUMMARY

OF CORRECTED DATA TIME = 345 DATE = 527 TEMPERATURE (CEGREES R.) = 542.0239 I CORRECTED PRESSURE (PSIA) = 65.2364 VAPOR PRESSURE (PSIA) = .4076 VOLUME (CU.FT.) = 2000000,0 AIR MASS (LBM) = 649725.3 i

I l

llI J

. _ . - =-

l I

l l

()

SUMMARY

OF MEASURED DATA AT 400 527 1

TEMP 1 = 543.5140 ( 83.844 ) i TEMP 2 = 543.6200 ( 83.950 ) l TEMP 3 = 543.2050 ( 83.535 )- l TEMP 4 = 543.4910 ( 83.821 )  ;

TEMP 5 = 542.5580 ( 82.888 ) i TEMP 6 = 542.3260 ( 82.656 ) i TEMP 7 = 542.9320 ( 83.262-) l TEMP 8 = 541.8790 ( 82.209 ) )

TEMP 9 = 543.0370 ( 83.367 )  ;

TEMP 10 = 542.1980 ( 82.528 ) '

TEMP 11 = 541.8180 ( 82.148 )  !

TEMP 12 = 542.3450 ( 82.675 ) 1 TEMP 13 = 542.5370 ( 82.867 )

TEMP 14 = 543.3240 ( 83.654 )

TEMP 15 = 538.7820 ( 79.112 )

l TEMP 16 = 538.4870 ( 78.817 ) l 78.715 )

TEMP 17 = 538.3850 (

TEMP 18 = 538.1670 ( 78.497 )

PRES 1= 65.6497 (656497.0 )

PRES 2= 65.5768 ( 66725.0 )  ;

l O VPRS VPRS VPRS 1=

2=

3=

.4056

.4254

(

(

73.280 )

74.705 )

.4076 ( 73.428 )  ;

VPRS 4= .3942 ( 72.439 )

VPRS 5= .3999 ( 72.863 ) i VPRS 6= .3967 ( 72.624 )

I SUMhARY OF CORRECTED DATA '

TIME = 4'00

, DATE = 527 TEMPERATURE (DEGREES R.) = 542.0439 CORRECTED PRESSURE (PSIA) = 65.2418

VAPOR PRESSURE (PSIA) = .4079 VOLUME (CU.FT.) = 2000000.0

. AIR MASS (LBM) = 649755.2 i \

i  !

^

i 1

l l

1

SUMMARY

OF MEASURED DATA AT 415 527 TEMP 1 = 543.5330 ( 83.863 )

TEMP 2 = 543.6300 ( 83.960 )

TEMP 3 = 543.2390 ( 83.569 )

TEMP 4 = 543.5240 ( 83.854 )

TEMP 5 = 542.6820 ( 83.012 )

TEMP 6 = 542.3710 ( 82.701 )

TEMP 7 = 543.0440 ( 83.374 )

l TEMP 8 = 541.9370 ( 82.267 )

TEMP 9 = 543.0180 ( 83.348 )

TEMP 10 = 542.2330 ( 82.563 )

TEMP 11 = 541.8700 ( 82.200 )

TEMP 12 = 542.4840 ( 82.814 )

TEMP 13 = 542.6060 ( 82.936 ) i TEMP 14 = 543.3520 ( 83.682 ) l TEMP 15 = 538.8120 ( 79.142 )  !

TEMP 16 = 538.5250 ( 78.855 ) l TEMP 17 = 538.4160 ( 78.746 ) )

TEMP 18 = 538.2170 ( 78.547 ) l PRES 1= 65.6552 (656552.0 ) )

PRES 2= 65.5817 ( 66730.0 )

VPRS 1= .4047 ( 73.213 )

VPRS 2= (

.4270 ( 74.813 )

VPRS 3= .4087 ( 73.509 )

VPRS 4 =. .3957 ( 72.549 )

l VPRS 5= .4001 ( 72.874 )

l VPRS 6= .3987 ( 72.773 )

(

SUMMARY

OF CORRECTED DATA TIME = 415 DATE = 527

=

TEMPERATURE (DEGREES R.) 542.0923

=

l CORRECTED PRESSURE (PSIA) 65.2466 VAPOR PRESSURE (PSIA) = .4086 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649744.1 i

l l

0

()

SUMMARY

OF MEASURED DATA AT 430 527 TEMP 1 = 543.5940 ( 83.924 )  ;

TEMP 2 = 543.6770 ( 84.007 )

TEMP 3 = 543.2630 ( 83.593 )

TE!IP 4 = 543.5490 ( 83.879 )

TEMP 5 = 542.6620 ( 82.992 )

TEMP 6 = 542.4320 ( 82.762 )

TEMP 7 = 543.0340 ( 83.364 )

TEMP 8 = 541.9910 ( 82.321 )

TEMP 9 = 543.0850 ( 83.415 )

TEMP 10 = 542.2960 ( 82.626 )

TEMP 11- = 541. 94 30 ( 82.273 )

TEMP 12 = 542.5110 ( 82.841 )

TEMP 13 = 542.6640 ( 82.994 )

TEMP 14 = 543.4220 ( 83.752 )

TEMP 15 = 538.8290 ( 79.159 )

TEMP 16 = 538.5510 ( 78.881 )

TEMP 17 = 538.4450 (. 78.775 )

TEMP 18 = 538.2520 ( 78.582 )

PRES 1= 65.6607 (656607.0 )

PRES 2= 65.5866 ( 66735.0 )

O VPRS VPRS VPRS 1=

2=

3=

.4049

.4271

(

(

73.234 )

74.823 )

.4086 ( 73.500 )

VPRS 4= .3948 ( 72.479 )

VPRS 5= .4010 ( 72.940 )

VPRS 6= .3987 ( 72.770 )

SUMMARY

OF CORRECTED DATA TIME = 430 DATE = 527 TEMPERATURE (DEGREES R.) = 542.1281 CORRECTED PRESSURE (PSIA) = 65.2520 VAPOR PRESSURE (PSIA) = .4087 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649755.9 O

SUMMARY

OF MEASURED DATA AT 445 527 TEMP 1 = 543.5850 ( 83.915 )

TEMP 2 = 543.6830 ( 84.013 )

TEMP 3 = 543.2890 ( 83.619 )

TEMP 4 = 543.6130 ( 83.943 )

TEMP 5 = 542.7290 ( 83.059 )

TEMP 6 = 542.4820 ( 82.812 )

TEMP 7 = 543.1080 ( 83.438 )

TEMP 8 = 542.0580 ( 82.388 )

TEMP 9 = 543.1980 ( 83.528 )

TEMP 10 = 542.3200 ( 82.650 )

TEMP 11 = 542.0030 ( 82.333 )

TEMP 12 = 542.5420 ( 82.872 )

TEMP 13 = 542.7050 ( 83.035 )

TEMP 14 = i43.4720 ( 83.802 )

TEMP 15 = 538.8600 ( 79.190 )

TEMP 16 = 538.5880 ( 78.918 )

TEMP 17 = 538.4750 ( 78.805 )

TEMP 18 = 538.2680 ( 78.598 )

PRES 1= 65.6658 (656658.0 )

PRES 2= 65.5916 ( 66740.0 )

VPRS 1= .4060 ( 73.309 )

VPRS 2a .4277 ( 74.862 )

VPRS 3= .4091 ( 73.538 )

VPRS 4= .3959 ( 72.564 )

VPRS 5= .4024 ( 73.043 )

VPRS 6= .3996 ( 72.837 )

SUMMARY

OF CORRECTED DATA TIME = 445 DATE = 527 TEMPERATURE (DEGREES R.) = 542.1710

=

CORRECTED PRESSURE (PSIA) 65.2563 VAPOR PRESSURE (PSIA) = .4095 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649746.9 i

5 t

()

SUMMARY

OF MEASURED DATA AT 500 527 TEMP 1 = 543.5720 ( 83.902 )

TEMP 2 = 543.7300 ( 84.060 )

TEMP 3 = 543.3290 ( 83.659 )

TEMP 4 = 543.5470 ( 83.877 )

TEMP 5 = 542.8710 ( 83.201 ) t TEMP 6 = 542.5370 ( 82.867 ) L TEMP 7 = 543.0940 ( 83.424 ) l TEMP 8 = 542.1280 ( 82.458 )  !

TEMP 9 = 543.1930 ( 83.523 )  !

TEMP 10 = 542.3450 ( 82.675 )

TEMP 11 = 542.0430 ( 82.373 )

TEMP 12 = 542.5930 ( 82.923 )

TEMP 13 = 542.7660 ( 83.096 )

TEMP 14 = 543.4850 ( 83.815 )

TEMP 15 = 538.8950 ( 79.225 )

TEMP 16 = 538.6230 ( 78.953 )  ;

TEMP 17 = 538.5090 ( 78.839 ) i TEMP 18 = 538.2900 ( 78.620 )

PRES 1= 65.6709 (656709.0 )

PRES 2= 65.5965 ( 66745.0 )

O VPRS VPRS VPRS 1=

2=

3=

.4052

.4277

.4091

(

(

73.251 )

74.868 )

( 73.536 )

VPRS 4= .3962 ( 72.586 ) l VPRS 5= .4023 ( 73.039 ) 1 VPRS 6= .4003 ( 72.895 ) '

i

SUMMARY

OF CORRECTED DATA i TIME = 500 DATE = 527

=

TEMPERATURE (DEGREES R.) 542.2004 CORRECTED PRESSURE (PSIA) = 65.2615 VAPOR PRESSURE (PSIA) = .4094 VOLUME (CU.FT.) = 2000000.0 j AIR MASS (LBM) = 649763.0 l

O 1

SUMMARY

OF MEASURED DATA AT 515 527 TEMP 1 = 543.6260 ( 83.956 )

TEMP 2 = 543.7210 ( 84.051 )

TEMP 3 = 543.3720 ( 83.702 )

TEMP 4 = 543.6360 ( 83.966 )

TEMP 5 = 542.8470 ( 83.177 )

TEMP 6 = 542.5950 ( 82.925 )

TEMP 7 = 543.1810 ( 83.511 )

TEMP 8 = 542.1680 ( 82.498 )

TEMP 9 = 543.2390 ( 83.569 )

TEMP 10 = 542.4150 ( 82.745 )

TEMP 11 = 542.0990 ( 82.429 )

TEMP 12 = 542.6580 ( 82.988 )

TEMP 13 = 542.8240 ( 83.154 )

TEMP 14 = 543.4890 ( 83.819 )

TEMP 15 = 538.9180 ( 79.248 )

TEMP 16 = 538.6510 ( 78.981 )

TEMP 17 = 538.5360 ( 78.866 )

TEMP 18 = 538.3360 ( 78.666 )

PRES 1= 65.6756 (656756.0 ).

PRES 2= 65.6005 ( 66749.0 )

VPRS 1= .4063 ( 73.333 )

VPRS 2= .4280 ( 74.887 )

VPRS 3= .4096 ( 73.573 )

VPRS 4= .3958 ( 72.555 )

VPRS 5= .4029 ( 73.085 )

VPRS 6= .4003 ( 72.895 )

SUMMARY

OF CORRECTED DATA TIME = 515 DATE = 527 TEMPERATURE (DEGREES R. ) = 542.2410 CORRECTED PRESSURE (PSIA) = 65.2657 VAPOR PRESSURE (PSIA) = .4099 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649756.8 O

1 l

l

SUMMARY

OF MEASURED DATA AT 530 527 TEMP 1 = 543.6300 ( 83.960 )

TEMP 2 = 543.7360 ( 84.066 )

TEMP 3 = 543.4250 ( 83.755 )

TEMP 4 = 543.7230 ( 84.053 )

TEMP 5 = 542.8830 ( 83.213 )

TEMP 6 = 542.6290 ( 82.959 )

TEMP 7 = 543.2560 ( 83.586 )

TEMP 8 = 542.2200 ( 82.550 )

TEMP 9 = 543.2980_ ( 83.628 )

TEMP 10 = 542.4330 ( 82.763 )

TEMP 11 = 542.1600 ( 82.490 )

TEMP 12 = 542.7630 ( 83.093 )

TEMP 13 = 542.8620 ( 83.192 ) .

TEMP 14 = 543.6020 ( 83.932 )

TEMP 15 = 538.9390 ( 79.269 )

TEMP 16 = 538.6540 ( 78.984 )

TEMP 17 = 538.5670 ( 78.897 )

TEMP 18 = 538.3710 ( 78.701 )

PRES 1= 65.6803 (656803.0 )

PRES 2= 65.6054 ( 66754.0 )

O VPRS VPRS VPRS 1=

2=

3=

.4068

.4285

.4095

(

(

(

73.368 )

74.917 )

73.564 )

VPRS 4= .3975 ( 72.680 )

VPRS 5= .4042 ( 73.176 )

VPRS 6= .4010 ( 72.946 )

SUMMARY

OF CORRECTED DATA TIME = 530 DATE = 527

= 542.2874 TEMPERATURE (DEGREES R.)

CORRECTED PRESSURE (PSIA) = 65.2699 VAPOR PRESSURE (PSIA) = .4104 VOLUMB (CU.FT.) = 2000000.0

, AIR MASS (LBM) = 649742.4 O

SUMMARY

OF MEASURED DATA AT 545 527 TEMP 1 = 543.6840 ( 84.014 )

TEMP 2 = 543.7410 ( 84.071 )

TEMP 3 = 543.4280 ( 83.758 )

TEMP 4 = 543.5900 ( 83.920 )

TEMP 5 = 543.0180 ( 83.348 )

TEMP 6 = 542.6640 ( 82.994 )

TEMP 7 = 543.2950 ( 83.625 )

TEMP 8 = 542.2640 ( 82.594 )

TEMP 9 = 543.2760 ( 83.606 )

TEMP 10 = 542.4810 ( 82.811 )

TEMP 11 = 542.2030 ( 82.533 )

TEMP 12 = 542.7660 ( 83.096 )

TEMP 13 = 542.9090 ( 83.239 )

TEMP 14 = 543.5460 ( 83.876 ).

TEMP 15 = 538.9690 ( 79.299 )

TEMP 16 = 538.7120 ( 79.042 )

TEMP 17 = 538.5900 ( 78.920 )

TEMP 18 = 538.3910 ( 78.721 )

PRES 1= 65.6849 (656849.0 )

PRES 2= 65.6093 ( 66758.0 )

VPRS 1= .4068 ( 73.367 )

VPRS 2= .4287 ( 74.932 )

VPRS 3= .4098 ( 73.588 )

VPRS 4 = .3969 ( 72.642 )

VPRS 5= .4043 ( 73.188 )

VPRS 6= .4015 ( 72.981 )

SUMMARY

OF CORRECTED DATA TIME = 545 DATE = 527 TEMPERATURE (DEGREES R.) = 542.3068

= 65.2743 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .4106 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649763.8 1

1

I 600

_( )

SUMMARY

OF MEASURED DATA AT 527 j TEMP 1 = 543.6890 ( 84.019 )

TEMP 2 = 543.7520 ( 84.082 ) l TEMP 3 = 543.4600 ( 83.790 )

TEMP 4 = 543.6400 ( 83.970 ) .

TEMP 5 = 542.9310 ( 83.261 )  ;

TEMP 6 = 542.7020 ( 83.032 )

TEMP 7 = 543.3260 ( 83.656 ) '

TEMP 8 = 542.3160 ( 82.646 )

TEMP 9 = 543.3880 ( 83.718 ) t TEMP 10 = 542.5220 ( 82.852-)

TEMP 11 = 542.2610 ( 82.591 )

TEMP 12 = 542.9150 ( 83.245 )  ;

TEMP 13 = 542.9320 ( 83.262 ) i TEMP 14 = 543.6100 ( 83.940 ) >

TEMP 15 = 538.9920 ( 79.322 ) i TEMP 16 = 538.7070 ( 79.037 )

TEMP 17 = 538.6120 ( 78.942 )

TEMP 18 = 538.4090 ( 78.739 )

PRES 1= 65.6893 (656893.0 )  :

PRES 2= 65.6143 ( 66763.0 )  :

f~\ VPRS 1= .4070 ( 73.385 )

2= l VPRS .4303 ( 75.044 )  ;

VPRS 3= .4102 ( 73.620 ) '

VPRS 4= .3972 ( 72.657 )

, VPRS 5= .4046 ( 73.208 ) E VPRS 6= .4021 ( 73.022 ) '

SUMMARY

OF CORRECTED DATA i TIME = 600 DATE = 527

= 542.3384 TEMPERATURE (DEGREES R.)

= 65.2781 CORRECTED PRESSURE (PSIA) .

=

VAPOR PRESSURE (PSIA) .4112 1 VOLUME ( CU . FT . ) = 2000000.0 l AIR MASS (LBM) = 649763.4 I O

SUMMARY

OF MEASURED DATA AT 515 527 TEMP 1 = 543.7360 ( 84.066 )

TEMP 2 = 543.8020 ( 84.132 )

TEMP 3 = 543.5030 ( 83.833 )

TEMP 4 = 543.7130 ( 84.043 )

TEMP 5 = 542.9760 ( 83.306 )

TEMP 6 = 542.7450 ( 83.075 )

TEMP 7 = 543.3930 ( 83.723 )

TEMP 8 = 542.3740 ( 82.704 )

TEMP 9 = 543.3690 ( 83.699 )

TEMP 10 = 542.5640 ( 82.894 )

TEMP 11 = 542.2960 ( 82.626 )

TEMP 12 = 542.8830 ( 83.213 )

TEMP 13 = 542.9890 ( 83.319 )

TEMP 14 = 543.6980 ( 84.028 )

TEMP 15 = 539.0260 ( 79.356 )

TEMP 16 = 538.7470 ( 79.077 )

TEMP 17 = 538.6460 ( 78.976 )

TEMP 18 = 538.4520 ( 78.782 )

PRES 1= 65.6937 (656937.0 )

PRES 2= 65.6182 ( 66767.0 )

VPRS 1= .4069 ( 73.376 )

VPRS 2= .4301 ( 75.033 )

VPRS 3= .4104 ( 73.631 )

VPRS 4= .3980 ( 72.721 )

VPRS 5= .4052 ( 73.251 )

VPRS 6= .4030 ( 73.094 )

SUMMARY

OF CORRECTED DATA TIME = 615 DATE = 027

= 542.3814 TEMPERATURE (DEGREES R.)

=

CORRECTED PRESSURE (PSIA) 65.2823

=

VAPOR PRESSURE (PSIA) .4114 VOLUME (CU.FT.) = 2000000.0 AIR HASS (LBM) = 649753.6 0

SUMMARY

OF MEASURED DATA AT 630 527 TEMP 1 = 543.7610 ( 84.091 ) i TEMP 2 = 543.8360 ( 84.166 )

TEMP 3 = 543.5170 ( 83.847 )

i TEMP 4 = 543.7560 ( 84.086 )

TEMP 5 = 543.0300 ( 83.360 )

1 TEMP 6 = 542.8150 ( 83.145 )

TEMP 7 = 543.3750 ( 83.705 )

TEMP 8 = 542.3980 ( 82.728 )

TEMP 9 = 543.4250 ( 83.755 )

TEMP 10 = 542.5680 ( 82.898 ) ,

TEMP 11 = 542.3420 ( 82.672 ) '

TEMP 12 = 543.0100 ( 83.340 )

TEMP 13 = 543.0310 ( 83.361 ) l TEMP 14 = 543.6650 ( 83.995 )

TEMP 15 = 539.0430 ( 79.373 )

TEMP 16 = 538.7710 ( 79.101 ) -

TEMP 17 = 538.6700 ( 79.000 ) .

TEMP 18 = 538.4720 ( 78.302 )

PRES 1= 65.6981 (656981.0 ) l PRES 2= 65.6222 ( 66771.0 )

l O VPRS VPRS 1=

2=

3=

.4078

.4309

(

(

73.442 )

75.088 )

l VPRS .4107 ( 73.651 ) 1 VPRS 4= .3981 ( 72.726 ) '

VPRS 5= .4060 ( 73.309 )

VPRS 6= .4032 ( 73.106 )

SUMMARY

OF CORRECTED DATA TIME = 630 DATE = 527 I TEMPERATURE (DEGREES R.) = 542.4107 CORRECTED PRESSURE (PSIA) = 65.2861 VAPOR PRESSURE (PSIA) = .4120 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649756.8 l

l l

l i

SUMMARY

OF MEASURED DATA AT 645 527 TEMP 1 = 543.7620 ( 84.092 )

TEMP 2 = 543.8420 ( 84.172 )

TEMP 3 = 543.5470 ( 83.877 )

TEMP 4 = 543.7760 ( 84.106 )

TEMP 5 = 543.1720 ( 83.502 )

TEMP 6 = 542.8310 ( 83.161 )

TEMP 7 = 543.4360 ( 83.766 )

TEMP 8 = 542.4620 ( 82.792 )

TEMP 9 = 543.5070 ( 83.837 )

TEMP 10 = 542.6190 ( 82.949 )

TEMP 11 = 542.4100 ( 82.740 )

TEMP 12 = 543.0620 ( 83.392 )

TEMP 13 = 543.0760 ( S3.406 )

TEMP 14 = 543.7350 ( 84.065 )

TEMP 15 = 539.0900 ( 79.420 )

TEMP 16 = 538.7970 ( 79.127 )

TEMP 17 = 538.6980 ( 79.028 )

TEMP 18 = 538.4860 ( 78.816 )

PRES 1= 65.7021 (657021.0 )

PRES 2= 65.6261 ( 66775.0 )

VPRS 1= .4074 ( 73.411 )

VPRS 2= .4312 ( 75.109 )

VPRS 3= .4109 ( 73.669 )

VPRS 4= .3975 ( 72.682 )

VPRS 5= .4074 ( 73.414 )

VPRS 6= .4033 ( 73.112 )

SUMMARY

OF CORRECTED DATA TIME = 645 DATE = 527 TEMPERATURE (DEGREES R.) = 542.4570

= 65.2901 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .4120 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649740.4 O

()

SUMMARY

OF MEASURED DATA AT 700 527 TEMP 1 = 543.7740 ( 84.104 )

TEMP 2 = 543.8390 ( 84.169 )

TEMP 3 = 543.5930 ( 83.923 )

TEMP 4 = 543.8170 ( 84.147 )

TEMP 5 = 543.1120 ( 83.442 )

TEMP 6 = 542.8710 ( 83.201 )

TEMP 7 = 543.4390 ( 83.769 )

TEMP 8 = 542.4990 ( 82.829 )

TEMP 9 = 543.4510 ( 83.781 )

TEMP 10 = 542.6590 ( 82.989 )

TEMP 11 = 542.4610 ( 82.791 )  ;

TEMP 12 = 543.1380 ( 83.468 ) '

TEMP 13 = 543.1090 ( 83.439 )

TEMP 14 = 543.8370 ( 84.167 )

TEMP 15 = 539.1020 ( 79.432 )

  • TEMP 16 = 538.7960 ( 79.126 )

TEMP 17 = 538.7220 ( 79,052 )

TEMP 18 = 538.5160 ( 78.846 ) l PRES 1= 65.7060 (657060.0 ) '

PRES 2= 65.6291 ( 66778.0 )

VPRS 1= .4080 ( 73.455 )

O- VPRS 2= .4320 ( 75.163 ) ,

VPRS 3= .4112 ( 73.692 )  ;

VPRS 4= .3985 ( 72.755 )  ;

VPRS 5= .4076 ( 73.428 )

VPRS 6= .4035 ( 73.129 ) i I

l

\

SUMMARY

OF CORRECTED DATA TIME = 700 DATE = 527

= 542.4761 TEMPERATURE (DEGREES R.)

=

CORRECTED PRESSURE (PSIA) 65.2934

=

VAPOR PRESSURE (PSIA) .4126 VOLUME (CU.FT.) = 2000000.0

=

A7R MASS (LBM) 649750.8 i

l

)

SUMMARY

OF MEASURED DATA AT 715 527 TEMP 1 = 543.8230 ( 84.153 )

TEMP 2 = 543.8690 ( 84.199 )

TEMP 3 = 543.5960 ( 83.926 )

TEMP 4 = 543.8320 ( 84.162 )

TEMP 5 = 543.1640 ( 83.494 )

TEMP 6 = 542.8990 ( 83.229 )

TEMP 7 = 543.5000 ( 83.830 )

TEMP 8 = 542.5220 ( 82.852 )

TEMP 9 = 543.5520 ( 83.882 )

TEMP 10 = 542.6790 ( 83.009 )

TEMP 11 = 542.4740 ( 82.804 )

TEMP 12 = 543.1180 ( 83.448 )

TEMP 13 = 543.1530 ( 83.483 )

TEMP 14 = 543.7870 ( 84.117 )

TEMP 15 = 539.1210 ( 79.451 )

~ TEMP 16 = 538.8260 ( 79.156 )

TEMP 17 = 538.7480 ( 79.078 )

TEMP 18 = 538.5480 ( 78.878 )

PRES 1= 65.7102 (657102.0 )

PRES 2= 65.6330 ( 66782.0 )

VPRS 1= .4090 ( 73.529 )

VPRS 2= .4312 ( 75.111 )

VPRS 3= .4117 ( 73.725 )

VPRS 4= .3985 ( 72.757 )

VPRS 5= .4081 ( 73.466 )

VPRS 6= .4046 ( 73.207 )

SUMMARY

OF CORRECTED DATA TIME = 715 DATE = 527 TEMPERATURE (DEGREES R.) = 542.5045

= 65.2973 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .4129 l VOLUME ( CU . FT . ) = 2000000.0 l AIR MASS (LBM) = 649755.4 '

I l

l

730 527

(

SUMMARY

OF MEASURED DATA AT TEMP 1 = 543.8260 ( 84.156 )  :

TEMP 2 = 543.8660 ( 84.196 )

TEMP 3 = 543.5990 ( 83.929 )

TEMP 4 = 543.8570 ( 84.187 )

TEMP 5 = 543.1900 ( 83.520 )

TEMP 6 = 542.9320 ( 83.262 )

TEMP 7 = 543.5320 ( 83.862 )

TEMP 8 = 542.5770 ( 82.907 ) l TEMP 9 = 543.5320 ( 83.862 )

TEMP 10 = 542.7200 ( 83.050 )

TEMP 11 = 542.5200 ( 82.850 )

TEMP 12 = 543.2220 ( 83.552 )

TEMP 13 = 543.1990 ( 83.529 )

TEMP 14 = 543.8370 ( 84.167 )

TEMP 15 = 539.1400 ( 79.470 )

TEMP 16 = 538.8400 ( 79.170 ) i TEMT i7 = 538.7630 ( 79.093 )

TEM: 18 = 538.5540 ( 78.884 )

l PRES 1= 65.7138 (657138.0 ) i PRES 2= 65.6370 ( 66786.0 ) l VPRS 1= .4082 ( 73.469 )

n\/ VPRS 2= .4319 ( 75.154 )

VPRS 3= .4117 ( 73.724 ) ~

VPRS 4= .3989 ( 72.789 )

VPRS 5= .4087 ( 73.507 )

VPRS 6= .4050 ( 73.240 ) l l

SUMMARY

OF CORRECTED DATA I TIME = 730 DATE = 527

= 542.5284 TEMPERATURE (DEGREES R.)

= 65.3008 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .4130 VOLUME (CU.FT.) = 2000000.0

=

AIR MASS (LBM) 649761.6 l

l l

1 l

i

SUMMARY

OF MEASURED DATA AT 745 527 TEMP 1 = 543.8540 ( 84.184 )

TEMP 2 = 543.8770 ( 84.207 )

TEMP 3 = 543.6590 ( 83.989 )

TEMP 4 = 543.9060 ( 84.236 )

TEMP 5 = 543.1890 ( 83.519 )

TEMP 6 = 543.0020 ( 83.332 )

TEMP 7 = 543.5520 ( 83.882 )

TEMP 8 = 542.6290 ( 82.959 )

TEMP 9 = 543.5970 ( 83.927 )

TEMP 10 = 542.7170 ( 83.047 )

TEMP 11 = 542.5800 ( 82.910 )

TEMP 12 = 543.2210 ( 83.551 )

TEMP 13 = 543.2100 ( 83.540 )

TEMP 14 = 543.9320 ( 84.262 )

TEMP 15 = 539.1720 ( 79.502 )

TEMP 16 = 538.8670 ( 79.197 )

TEMP 17 = 538.7940 ( 79.124 )

TEMP 16 = 538.5850 ( 78.915 )

PRES 1= 65.7174 (657174.0 )

PRES 2= 65.6400 ( 66789.0 )

VPRS 1= .4091 ( 73.541 )

VPRS 2= .4327 ( 75.213 )

VPRS 3= .4120 ( 73.747 )

VPRS 4 = .3991 ( 72.802 )

VPRS 5= .4089 ( 73.523 )

VPRS 6= .4050 ( 73.236 )

SUMMARY

OF CORRECTED DATA TIME = 745 DATE = 527

=

TEMPERATURE (DEGREES R.) 542.5632  ;

= 65.3039 CORRECTED PRESSURE (PSIA) l VAPOR PRESSURE (PSIA) = .4135 l VOLUME (CU.FT.) = 2000000.0 1 AIR MASS (LBM) = 649750.4 i

e

SUMMARY

OF MEASURED DATA AT 800 527

(

TEMP 1 = 543.8810 ( 84.211 )

TEMP 2 = 543.9040 ( 84.234 )

TEMP 3 = 543.6800 ( 84.010 )

TEMP 4 = 543.9360 ( 84.266 )

TEMP 5 = 543.3060 ( 83.636 )

TEMP 6 = 542.9920 ( 83.322 )

TEMP 7 = 543.5970 ( 83.927 )

TEMP 8 = 542.6710 ( 83.001 )

TEMP 9 = 543.6220 ( 83.952 )

TEMP 10 = 542.7810 ( 83.111 )

TEMP 11 = 542.6000 ( 82.930 )

TEMP 12 = 543.2420 ( 83.572 )

TEMP 13 = 543.2420 ( 83.572 )

TEMP 14 = 544.0400 ( 84.370 )

TEMP 15 = 539.1970 ( 79.527 )

TEMP 16 = 538.9040 ( 79.234 )

TEMP 17 = 538.8120 ( 79.142 )

TEMP 18 = 538.6080 ( 78.938 )

PRES 1= 65.7212 (657212.0 )

PRES 2= 65.6429 ( 66792.0 )

VPRS 1= .4083 ( 73.481 )

Os VPRS 2= .4325 ( 75.201 )

VPRS 3= .4126 ( 73.793 )

VPRS 4= .3994 ( 72.828 )

VPRS 5= .4089 ( 73.524 )

VPRS 6= .4056 ( 73.280 )

SUMMARY

OF CORRECTED DATA TIME = 800 DATE = 527

= 542.6024 TEMPERATURE (DEGREES R.)

CORRECTED PRESSURE (PSIA) = 65.3076

=

VAPOR PRESSURE (PSIA) .4136 VOLUME (CU.FT.) = 2000000.0 AIR MASS (ISM) = 649741.1 O

SUMMARY

OF MEASURED DATA AT 815 527 TEMP 1 = 543.8840 ( 84.214 )

TEMP 2 = 543.9440 ( 84.274 )

TEMP 3 = 543.7150 ( 84.045 )

TEMP 4 = 543.9330 ( 84.263 )

TEMP 5 = 543.2880 ( 83.618 )

TEMP 6 = 543.0280 ( 83.358 )

TEMP 7 = 543.6020 ( 83.932 )

TEMP 8 = 542.6740 ( 83.004 )

TEMP 9 = 543.6550 ( 83.985 )

TEMP 10 = 542.7730 ( 83.103 )

TEMP 11 = 542.6640 ( 82.994 )

TEMP 12 = 543.3060 ( 83.636 )

TEMP 13 = 543.2890 ( 83.61+ )

TEMP 14 = 543.9580 ( 84.288 )

TEMP 15 = 539.2290 ( 79.559 )

TEMP 16 = 538.9220 ( 79.252 )

TEMP 17 = 538.8380 ( 79.168 )

TEMP 18 = 538.6260 ( 78.956 )

PRES 1= 65.7249 (657249.0 )

PRES 2= 65.6479 ( 66797.0 )

VPRS 1= .4092 ( 73.544 )

VPRS 2= .4326 ( 75.209 )

VPRS 3= .4124 ( 73.776 )

VPRS 4= .4006 ( 72.917 )

VPRS 5= .4089 ( 73.523 )

VPRS 6= .4057 ( 73.292 )

SUMMARY

OF CORRECTED DATA TIME = 815 DATE = 527

=

TEMPERATURE (DEGREES n.) 542.6177

= 65.3110 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .4139 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649756.1 h!

l

1 l

SUMMARY

OF MEASURED DATA AT 830 527 1

TEMP 1 = 543.8950 ( 84.225 ) 1 TEMP 2 = 543.9580 ( 84.288 ) l TEMP 3 = 543.7840 ( 84.114 )

TEMP 4 = 543.8800 ( 84.210 )

TEMP 5 = 543.4220 ( 83.752 )  ;

TEMP 6 = 543.0770 ( 83.407 ) 1 TEMP 7 = 543.6540 ( 83.984 )

TEMP 8 = 542.7200 ( 83.050 )

TEMP 9 = 543.6480 ( 83.978 )

TEMP ?,0 = 542.8130 ( 83.143 )

TEMP 11 = 542.6940 ( 83.024 )

TEMP 12 = 543.3880 ( 83.718 )

TEMP 13 = 543.2970 ( 83.627 )

TEMP 14 = 543.9760 ( 84.306 ) i TEMP 15 = 539.2440 ( 79.574 ) l TEMP 16 = 538.9760 ( 79.306 ) l TEMP 17 = 538.8600 ( 79.190 ) l TEMP 18 = 538.6410 ( 78.971 ) l PRES 1= 65.7284 (657284.0 ) {

PRES 2= 65.6498 ( 66799.0 )

(~ VPRS 1= .4103 ( 73.626 )

\- VPRS 2= .4335 ( 75 270 ) '

VPRS 3= .4127 ( 73.800 )

VPRS 4= .3998 ( 72.857 ) ,

VPRS 5= .4093 ( 73.551 )

VPRS 6= .4061 ( 73.315 )

SUMMARY

OF CORRECTED DATA TIME = 830 DATE = 527

=

TEMPERATURE (DEGREES R.) 542.6516

= 65.3140 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .4144 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649745.6 1

Q 1 -

SUMMARY

OF MEASURED DATA AT 845 527 TEMP 1 = 543.8980 ( 84.228 )

TEMP 2 = 543.9640 ( 84.294 )

TEMP 3 = 543.7840 ( 84.114 )

TEMP 4 = 544.0000 ( 84.330 )

TEMP 5 = 543.4110 ( 83.741 )

TEMP 6 = 543.1270 ( 83.457 )

TEMP 7 = 543.7300 ( 84.060 )

TEMP 8 = 542.7780 ( 83.108 )

TEMP 9 = 543.7270 ( 84.057 )

TEMP 10 = 542.8480 ( 83.178 )

TEMP 11 = 542.7370 ( 83.067 )

TEMP 12 = 543.4070 ( 83.737 )

TEMP 13 = 543.3730 ( P3.703 )

TEMP 14 = 544.0110 ( 84.341 )

TEMP 15 = 539.2590 ( 79.589 )

TEMP 16 = 538.9650 ( 79.295 )

TEMP 17 = 538.8780 ( 79.208 )

TEMP 18 = 538.6580 ( 78.988 )

PRES 1= 65.7321 (657321.0 )

PRES 2= 65.6538 ( 66803.0 )

VPRS 1= .4094 ( 73.559 )

VPRS 2= .4342 ( 75.314 )

VPRS 3= .4130 ( 73.823 )

VPRS 4= .3991 ( 72.804 )

VPRS 5= .4098 ( 73.587 )

VPRS 6= .4066 ( 73.352 )

SUMMARY

OF CORRECIED DATA l TIMF = 845 DATE = 527 l

TEMPERATURE (DEGREES R.) = 542.6849 CORRECTED PRESSURE (PSIA) = 65.3177

=

VAPOR PRESSURE (PSIA) .4144 VOLUME (CU.FT.) = C00000.0 AIR MASS (LBM) = 649742.4 .

l 9

SUMMARY

OF MEASURED DATA AT 900 527 TEMP 1 = 543.9550 ( 84.285 )

TEMP 2 = 543.9850 ( 84.315 )

TEMP 3 = 543.8070 ( 84.137 )

TEMP 4 = 543.9910 ( 84.321 )

TEMP 5 = 543.4240 ( 83.754 )

  • TEMP 6 = 543.1500 ( 83.480 )

TEMP 7 = 543.7180 ( 84.048 )

TEMP 8 = 542.8210 ( 33.151 )

TEMP 9 = 543.7410 ( 84.071 )

TEMP 10 = 542.8590 ( 83.189 )

TEMP 11 = 542.7570 ( 83.087 )

TEMP 12 = 543.4310 ( 83.761 )

TEMP 13 = 543.3960 ( 83.726 )

TEMP 14 = 544.1300 ( 84.460 )

TEMP 15 = 539.?730 ( 79.603 )

TEMP 16 = 539.0050 ( 79.335 )

TEMP 17 = 538.9020 ( 79.232 )

TEMP 18 = 538.6980 ( 79.028 )

PRES 1= 65.7354- (657354.0 )

PRES 2= 65.6567 ( 66806.0 )

O VPRS VPRS VPRS 1=

2=

3=

094

.4346

.4132

(

(

73.558 '

75.344 73.832 ,

(

VPRS 4= .3999 ( 72.UC1 )

VPRS 5= .4099 ( 73.-4 7 )

VPRS 6= .4074 ( 73.416 )

SUMMARY

OF CORRECTED DATA TIME = 900 DATE = 527

=

TEMPERATURE (DEGREES R.) 542.7105 CORRECTED PRESSURE (ISIA) = 65.3207 VAPOR PRESSURE (PSIA) = .4147 VOLUME (CU.FT.) = 2000000.0 l AIR MASS (LBM) = 649741.4 J l

O l

m 1

l l

SUMMARY

OF MEASURED DATA AT 015 527 1

TEMP 1 = 543.9730 ( 84.303 )

TEMP 2 = 543.9850 ( 84.315 )

TEMP 3 = 543.8220 ( 84.152 )

TEMP 4 = 543.9530 ( 84.283 )

TEMP 5 = 543.4200 ( 83.750 )

TEMP 6 = 543.1790 ( 83.509 )

TEMP 7 = 543.7580 ( 84.088 )

TEMP 8 = 542.8450 ( 83.175 )

TEMP 9 = 543.7700 ( 84.100 )

TEMP 10 = 542.8530 ( 83.183 )

TEMP 11 = 542.7930 ( 83.123 )

TEMP 12 = 543.5290 ( 83.859 )

TEMP 13 = 543.4330 ( 83.763 )

TEMP 14 = 544.0580 ( 84.388 )

TEMP 15 = 539.2960 ( 79.626 )

TEMP 16 = 539.0200 ( 79.350 )

TEMP 17 = 538.9240 ( 79.254 )

TEMP 18 = 518.6930 ( 79.023 )

PRES 1= 65.7389 (657389.0 )

PRES 2= 65.6597 ( 66809.0 )

VPRS 1= .4106 ( 73.646 )

7 PRS  ?= .4347 ( 75.354 )

VPRS a .4129 ( 73.814 )

VPRS 4= .4007 ( 72.920 )

~ VPRS 5= .4105 ( 73.640 )

VPRS 6= .4078 ( 73.443 )

SUMMARY

OF CORRECTED DATA TIME = 915 DATE = 527 TEMPERATURE (DEGREES R.) = 542.7232 CORRECTED PRESSURE (PSIA) = 65.3237 VAPOR PRESSURE (PSIA) = .4152 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649756.6 O

I l

[

SUMMARY

OF MEASURED DATA AT 930 527 l

TEMP 1 = 543.9650 ( 84.315 ) 1 TEMP 2 = 543.9960 ( 84.326 )

TEMP 3 = 543.8110 ( 84.141 ) 1 TEMP 4 = 544.0640 ( 84.394 )  ;

TEMP 5 = 543.4190 ( 83.749 )

TEMP 6 = 543.1990 ( 83.529 )

TEMP 7 = 543.7910 ( 84,121 )

TEMP 8 = 542.8860 ( 83.216 )

TEMP 9 = 543.7550 ( 84.085 ) )

TEMP 10 = 542.8760 ( 83.206 )

TEMP 11 = 542.8270 ( 83.157 )  ;

TEMP 12 = 543.5320 ( 83.882 ) )

TEMP 13 = 543.4510 ( 83.781 )

TEMP 14 = 544.1650 ( 84.495 ) i TEMP 15 = 539.3270 ( 79.657 ) l j

TEMP 16 = 539.0550 ( 79.385 )

TEMP 17 = 538.9450 ( 79.275 ) l TEMP 18 = 538.7410 ( 79.071 )

PRES 1= 65.7420 (657420.0 )

PRES 2= 65.6627 ( 66812.0 )

VPRS 1= .4103 ( 73.625 )

Os VPRS 2= .4353 ( 75.389 )

VPRS 3= .4135 ( 73.858 )

VPRS 4= .3996 ( 72.839 )

VPRS 5= .4110 ( 73.678 )

VPRS 6= .4076 ( 73.428 )

SUMMARY

OF CORRECTED DATA TIME = 930 Di'E = 527 TEMPERATURE (DEGREES R.) = 542.7520

=

CORRECTED PRESSURE (PSIA) 65.3268 VAPOR PRESSURE (PSIA) = .4152 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649752.2 O

l

SUMMARY

OF MEASURED DATA AT 945 527 TEMP 1 = 544.0000 ( 84.330 )

TEMP 2 = 544.0290 ( 84.359 )

TEMP 3 = 543.8570 ( 84.187 )

TEMP 4 = 544.1190 ( 84.449 )

TEMP 5 = 543.5180 ( 83.848 )

TEMP 6 = 543.2560 ( 83.586 )

TEMP 7 = 543.9160 ( 84.246 )

TEMP 8 = 542.9180 ( 83.248 )

TEMP 9 = 543.8000 ( 84.130 )

TEMP 10 = 542.9600 ( 83.290 )

TEMP 11 = 542.8730 ( 83.203 )

TEMP 12 = 543.5750 ( 83.905 )

TEMP 13 = 543.4830 ( 83.813 )

TEMP 14 = 544.2810 ( 84.611 )

TEMP 15 = 533.3480 ( 79.678 )

TEMP 16 = 539.1020 ( 79.432 )

TEMP 17 = 538.9650 ( 79.295 )

TEMP 18 = 538.7440 ( 79.074 )

PRES 1= 65.7454 (657454.0 )

PRES 2= 65.6646 ( 66814.0 )

VPRS 1= .4103 ( 73.626 )

VPRS 2= .4362 ( 75.454 )

VPRS 3= .4138 ( 73.880 )

VPRS 4= .3999 ( 72.859 )

VPRS 5= .4105 ( 73.637 )

VPRS 6= .4077 ( 73.434 )

SUMMARY

OF CORRECTED DATA TIME = 945 DATE = 527 TEMPERATURE (DEGREES R.) = 542.8029 CORRECTED PRESSURE (PSIA) = 65.3299 VAPOR PRESSURE (PSIA) = .4155 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649722.3 O

1

SUMMARY

OF MEASURED DATA AT 1000 527 TEMP 1 = 543.9670 ( 84.297 )

TEMP 2 = 544.0420 ( 84.372 )

TEMP 3 = 543.8610 ( 84.191 )

TEMP 4 = 544.1J80 ( 84.458 )

TEMP 5 = 543.5150 ( 83.845 )

TEMP 6 = 543.2860 ( 83.616 )

TEMP 7 = 543.9150 ( 84.245 )

TEMP 8 = 542.9600 ( 83.290 )

TEMP 9 = 543.8450 ( 84.175 )

TEMP 10 = 542.9320 ( 83.262 )

TEMP 11 = 542.9150 ( 83.245 )

TEMP 12 = 543.6020 ( 83.932 )

TEMP 13 = 543.5210 ( 83.851 )

TEMP 14 = 544.2660 ( 84.596 )

TEMP 15 = 539.3630 ( 79.693 )

TEMP 16 = 539.0880 ( 79.418 )

TEMP 17 = 538.9880 ( 79.318 )

TEMP 18 = 538.7670 ( 79.097 )

PRES 1= 65.7485 (657485.0 )

PRES 2= 65.6686 ( 66818.0 )

VPRS 1= .4104 ( 73.631 )

% VPRS 2= .4364 ( 75.466 ) )

VPRS 3= .4141 ( 73.896 ) l VPRS 4= .4001 ( 72.877 ) l VPRS 5= .4111 ( 73.680 ) l VPRS 6= .4074 ( 73.417 ) l i

SUMMARY

OF CORRECTED DATA TIME = 1000 DATE = 527

= 542.8125 TEMPERATURE (DEGREES R.)

CORRECTED PRESSURE (PSIA) = 65.3328 '

=

VAPOR PRESSURE (PSIA) .4157 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649739.9

() l l

l l

1

SUMMARY

OF MEASURED DATA A'T 1015 527 TEMP 1 = 544.0280 ( 84.358 )

TEMP 2 = 544.0570 ( 84.387 )

TEMP 3 = 543.8720 ( 84.202 )

TEMP 4 = 544.1960 ( 84.526 )

TEMP 5 = 543.6050 ( 83.935 )

TEMP 6 = 543.3270 ( 83.657 )

TEMP 7 = 543.9500 ( 84.280 )

TEMP 8 = 542.9630 ( 83.293 )

TEMP 9 = 543.8520 ( 84.182 )

TEMP 10 = 542.9470 ( 83.277 )

TEMP 11 = 542.9380 ( 83.268 )

TEMP 12 = 543.6430 ( 83.973 )

TEMP 13 = 543.5360 ( 83.866 )

TEMP 14 = 544.2520 ( 84.582 )

TEMP 15 = 539.3860 ( 79.716 )

TEMP 16 = 539.1210 ( 79.451 )

TEMP 17 = 539.0110 ( 79.341 )

TEMP 18 = 538.7890 ( 79.119 )

PRES 1= 65.7516 (657516.0 )

PRES 2= 65.6716 ( 66821.0 )

VPRS 1= .4110 ( 73.677 )

VPRS 2= .4370 ( 75.511 )

VPRS 3= .4143 ( 73.916 )

VPRS 4 = .4007 ( 72.923 )

VPRS 5= .4116 ( 73.721 )

VPRS 6= .4074 ( 73.416 )

SUMMARY

OF CORRECTED DATA TIME = 1015 DATE = 527 TEMPERATURE (DEGREES R.) = 542.8431

= 65.3354 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .4162 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 6497.9.3 l k i

l l

()

SUMMARY

OF MEASURED ~ DATA AT 1030 527 I

TEMP 1 = 544.0660 ( 84.396 ) j TEMP 2 = 544.07L7 ( 84.405 )

TEMP 3 = 5 4 ', . 8 9 8 0

( 84.228 ) '

TEMP 4 = 5t4.0690 ( 84.399 )

TEMP 5 = 5 43.6080 ( 83.938 )

TEMP 6 = ! 43.3260 ( 83.656 )

TEMP 7 = 343.9850 ( 84.315 )

TEMP 8r 543.0410 ( 83.371 )

TEMP '9 = 543.9590 ( 84.239 )

TEMP 10 = 542.9610 ( 83.291 )

TEMP'11 = 542.9870 ( 83.317 )

TEMP 12 = 543.6840 ( 84.014 ) l TEMP 13 = 543.5670 ( 83.897 )

TEMP 14 = 544.3310 ( 84.661 )

TEMP 15 = 539.3950 ( 79.725 )

TEMP 16 = 539.1300 ( 79.460 ) l TEMP 17 = 539.0310 ( 79.361 ) l TEMP 18 = 538.8000 ( 79.130 ) 1 PRES 1= 65.7547 (657547.0 )

PRES 2= 65.6735 ( 66823.0 )

l VPRS 1= .4111 73.680 )

O'

(

VPRS 2= .4368 ( 75.497 )

VPRS 3= .4147 ( 73.939 )

VPRS 4= .4016 ( 72.985 )

VPRS 5= .4118 ( 73.736 )

VPRS 6= .4087 ( 73.510 )

SUMMARY

OF CORRECTED DATA TIME = 1030 DATE = 527

=

TEMPERATURE (DEGREES R.) 542.8632

=

CORRECTED PRESSURE (PSIA) 65.3382 VAPOR PRESSURE (PSIA) = .4165 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649733.3

()

l l

_~

SUMMARY

OF MEASURED DATA AT 1045 527 TEMP 1 = 544.0740 ( 84.404 )

TEMP 2 = 544.0890 ( 84.419 )

TEMP 3 = 543.9510 ( 84.281 )

TEMP 4 = 544.1820 ( 84.512 )

TEMP 5 = 543.6390 ( 83.969 )

TEMP 6 = 543.3500 ( 83.680 )

TEMP 7 = 543.9910 ( 84.321 )

TEMP 8 = 543.0470 ( 83.377 )

TEMP 9 = 543.9260 ( 84.'56 )

TEMP 10 = 542.9840 ( 83.314 ;

TEMP 11 = 542.9890 ( 83.319 j TEMP 12 = 543.7100 ( 84.040 )

TEMP 13 = 543.5970 ( 83.927 )

TEMP 14 = 544.3540 ( 8 4 . 6 P,4 )

TEMP 15 = 539.4210 ( 79.751 )

TEMP 16 = 539.1860 ( 79.516 )

TEMP 17 = 539.0380 ( 79.368 )

TEMP 18 = 538.8120 ( 79.142 )

PRES 1= 65.7579 (657579.0 )

PRES 2n 65.6765 ( 66826.0 )

VPRS 1= .4112 ( 73.687 )

VPRS 2= .4370 ( 75.512 )

VPRS 3 = .4147 ( 73.942 )

VPRS 4 = .4011 ( 72.947 )

VPRS 5= .4120 ( 73.750 )

VPRS 6= .4086 ( 73.503 )

SUMMARY

OF CORRECTED DATA l TIME = 1045 )

DATE = 527 l

= 542.8907 TEMPERATURE (DEGREES R.)

CORRECTED PRESSURE (PSIA) = 65.3414 VAPOR PRESSURE (PSIA) = .4165 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649731.9 j i

')

(

SUMMARY

OF MEASURED DATA AT 1100 527 TEMP 1 = 544.0890 ( 84.419 )

TEMP 2 = 544.1210 ( 84.451 )

TEMP 3 = 543.9610 ( 84.291 ) i TEME 4 = 544.2220 ( 84.552 ) l TEMP 5 = 543.6690 ( 83.999-)

TEMP 6 = 543.3780 ( 83.708 )

. TEMP 7 = 544.0550 ( 84.385 )

TEMP 8 = 543.0790 ( 83.409 )

TEMP 9 = 543.9850 ( 84.315 ) '

TEMP 10 = 543.0160 ( 83.346 )

TEMP 11 = 543.0330 ( 83.363 )

TEMP 12 = 543.7490 ( 84.079 )

TEMP 13 = 543.6370 ( 83.967 )

TEMP 14 = 544.4230 ( 84.753 ) l TEMP 15 = 539.4350 79.765 )

(

TEMP 16 = 539.1740 ( 79.504 )

TEMP 17 = 539.0600 ( 79.390 )

TEMP 18 = 338.8460 ( 79.176 )

PRES 1= 65.7611 (657611.0 )  ;

PRES 2= 65.6795 ( 66822.0 )

O VPRS VPR3 VPRS 1=

2=

.4115

.4386

(

(

73.709 )

75.618 )

3= .4153 ( 73.988 )

VPRS 4= .4015 ( 72.979 ) l VPRS 5= .4121 ( 73.754 )

VPRS 6= .4085 ( 73.495 )

SUMMARY

OF CORRECTED DATA TIME = 1100 DATE = 527 TEMPERATURE (DEGREES R.) = 542.9232

=

CORRECTED PRESSURE (PSIA) 65.3440 VAPOR PRESSURE (PSIA) = .4171 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649718.6 i

i C:) l

SUMMARY

OF MEASURED DATA AT 1115 527 l

l TEMP 1 = 544.1330 ( 84.463 )

TEMP 2 = 544.1820 ( 84.512 )

TEMP 3 = 5 4 4 . )13 0 ( 84.343 )

TEMP 4= 544.2730 ( 84.603 )

TEMP 5 = 543.7100 ( 84.040 )

TEMP 6 = 543.4100 ( 83.740 )

TEMP 7 = 544.0830 ( 84.413 )

TEMP 8 , 543.0950 ( E3.425 )

TEMP 9 = 543.9480 (84-378 )

TEMP 10 = 543.0130 ( 83.313 )

TEMP 11 = 543.0770 ( 83.407 )

TEMP 12 = 543.7470 ( 84.077 )

TEMP 13 = 543.6490 ( 83.979 )

TEMP 14 = 544.4260 ( 84.756 )

TEMP 15 = 539.4550 ( 79.785 )

TEMP 16 = 539.1600 ( 79.490 )

TEMP 17 = 639.0840 ( 79.414 )

TEMP 18 = 538.8640 ( 79.194 )

PRES 1= 65.7640 (657640.0 )

PRES 2= 65.6824 ( 66832.0 )

VPRS 1= .4121 ( 73.757 )

VPRS 2= .4386 ( 75.618 )

VPRS 3= .4152 ( 73.980 )

VPRS ~4 = .4025 ( 73.053 )

VPRS 5= .4119 ( 73.741 )

VPRS 6= .4093 ( 73.553 )

SUMMARY

OF CORRECTED DATA TIME = 1115 DATE = 527 TEMPERATURE (DEGREES R.) = 542.9489 CORRECTEC PRESSURE (PSIA) = 65.3466 VAPOR PRESSURE (PSIA) = .4174 VOLUME (CU.FT.) = 2000000.0 '

AIR MASS (LBM) = 649713.6 l

l llh l

1 i

i i

(~nj

SUMMARY

OF MEASURED DATA AT 1130 527 TEMP 1 = 544.1240 ( 84.'454 )

TEMP 2 = 544.1510 ( 84.481 )

TEMP 3 = 544.0550 ( 84.385 )

TEMP 4 = 544.2490 ( 84.579 )

TEMP 5 = 543.7390 ( 84.069 )-

TEMP 6 = 543.4570 ( 83.787 )

TEMP 7 = 544.0870 ( 84.417 )

TEMP 8 = 543.1580 ( 83.488 ).

TEMP 9 = 543.9550 ( 84.285 )

TEMP 10 = 543.0510 ( 83.381 )

TEMP 11 = 543.0990 ( 83.429 )

TEMP 12 = 543.8230 ( 84.153 )

TEMP 13 = 543.6830 ( 84.013 )

TEMP 14 = 544.4290 ( 84.759 ) '

TEMP 15 = 539.4840 ( 79.814 )

TEMP 16 = 539.2170 ( 79.547 )

TEMP 17 = 539.1040 ( 79.434 )

TEMP 18 = 538.8890 ( 79.219 )

PRES 1= 65.7671 (657671.0 )

PRES 2= 65.6844 ( 66834.0 )

1 O VPRS VPRS 1=

2=

.4120

.4394

(

(

73.748 )

75.671 )

VPRS 3= .4153 I 73.986 )

VPRS 4= .4020 ( 73.019 ) .

VPRS 5= .4128 ( 73.805 )

VPRS 6= .4101 ( 73.611 )

SUMMARY

OF CORRECTED OATA TIME = 1130 DATE = 527

=

TEMPERATURE (DEGREES R.) 542.9686

=

CORRECTED PRESSURE (PSIA) 65.3494 VAPOR PRESSURE (PSIA) = .4177 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649718.3 O

SUMMARY

OF MEhSURED DATA AT 1145 527 TEMP 1 = 544.1350 ( 84.465 )

TEMP 2 = 544.1510 ( 84.481 )

TEMP 3 = 544.0200 ( 84.350 )

TEMP 4 = 544.2220 ( 84.552 )

TEMP 5 = 543.7060 ( 84.036 )

TEMP 6 = 543.4980 -( 83.828 )

TEMP 7 = 544.1220 ( 84.452 )

TEMP 8 = 543.1960 ( 83.526 )

TEMP 9 = 544.0800 ( 84.410 )

TEMP 10 = 543.0660 ( 83.396 )

TEMP 11 = 543.1270 ( 83.457 )

TEMP 12 = 543.8770 ( 84.207 )

TEMP 13 = 543.7330 ( 84.C63 )

TEMP 14 = 544.4280 ( 84.758 )

TEMP 15 = 539.4990 ( 79.829 )

'2EMP 16 = 5 3 9 . 2 2 4 0 ( 79.554 )

TEMP 17 = 539.1170 ( 79.447 )

TEMP 18 = 538.8920 ( 79.222 )

PRES 1= 65.7701 (657701.0 )

PRES 2= 65.6874 ( 66837.0 )

VPRS 1= .4120 ( 73.747 )

VPRS 2= .4385 ( 75.613 )

VPRS 3= .4155 ( 74.002 )

VPRS 4 = .4015 ( 72.979 )

VPRS 5= .4137 ( 73.873 )

VPRS 6= .4094 ( 73.556 )

SUMMARY

OF CORRECTED DATA TIME = 1145 DATE = 527 l l

I TEMPERATURE (DEGREES R.) = 542.9830 CORRECTED PRESSURE (PSIA) = 65.3526 VAPOR PRESSURE (PSIA) = .4175 '

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649732.9 .

l O

I l

SUMMARY

OF MEASURED DATA AT 1200 527 TEMP 1 = 544.1790 ( 84.509 )

TEMP 2 = 544.1930 ( 84.523 )

TEMP 3 = 544.0660 ( 84.396 )

TEMP 4 = 544.2280 ( 84.558 )

TEMP 5 = 543.7350 ( 84.065 )

TEMP 6 = 543.4860 ( 83.816 )

TEMP 7 = 544.1320 ( 84.462 )

TEMP 8 = 543.2160 ( 83.546 )

TEMP 9 = 544.0930 ( 84.423 )

TEMP 10 = 543.1060 ( 83.436 )

TEMP 11 = 543.1500 ( 83.480 )

TEMP 12 = 543.8860 ( 84.216 )

TEMP 13 = 543.7360 ( S4.066 )

TEMP 14 = 544.4500 ( 84.780 )

TEMP 15 = 539.5160 ( 79.846 )

TEMP 16 = 539.2240 ( 79.554 )

TEMP 17 = 539.1420 ( 79.472 )

TEMP 18 = 538.9300 ( 79.260 )

PRES 1= 65.7729 (657729.0 )

PRES 2= 65.6903 ( 66840.0 )

VPRS 1= .4116 73.718 )

O' VPRS 2= .4395

(

( '! 5. 6 8 0 )

VPRS 3= .4157 ( 74.012 )

VPRS 4= .4019 ( 73.013 )

VPRS 5= .4128 ( 73.806 )

VPRS 6= .4104 ( 73.634 )

SUMMARY

OF CORRECTED DATA TIME = 1200 DATE = 527

=

TEMPERATURE (DEGREES R.) 543.0067 l

=

CORRECTED PRESSURE (PSIA) 65.3552 VAPOR PRESSURE (PSIA) = .4177 .

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649730.0 l O

l l

SUMMARY

OF MEASURED DATA AT 1215 527  ;

TEMP 1 = 544.1970 ( 84.527 ) l TEMP 2 = 544.2280 ( 84.558 )

TEMP 3 = 544.0690 ( 84.399 )

TEMP 4 = 544.2550 ( 84.585 )

TEMP 5 = 543.7640 ( 84.094 )

TEMP 6 = 543.5120 ( 83.842 )

TEMP 7 = 544.1240 ( 84.454 )

TEMF 8 = 543.1990 ( 83.529 )

TEMP 9 = 544.0660 ( 84.396 )

TEMP 10 = 543.1180 ( 83.448 )

TEMP 11 = 543.1930 ( 83.523 )

TEMP 12 = 543.8920 ( 84.222 )

TEMP 13 = 543.7790 ( 84.109 )

TEMP 14 = 544.5190 ( 84.849 )

TEMP 15 = 539.5310 ( 79.861 )

TEMP 16 = 539.2210 ( 79.551 )

TEMP 17 = 539.1530 ( 79.483 )

TEMP 18 = 538.9330 ( 79.263 )

PRES 1= 65.7747 (657747.0 )

PRES 2= 65.6923 ( 66842.0 )

VPRS 1= .4127 ( 73.797 )

VPRS 2= .4393 ( 75.669 )

VPRS 3= .4159 ( 74.031 )

VPRS 4 = .4027 ( 73.071 )

VPRS 5= .4130, ( 73.819 )

VPRS 6= .4109 ( 73.666 )

SUMMARY

OF CORRECTED DATA TIME = 1215 DATE = 527 1

TEMPERATURE (DEGREES R.) = 543.0206 i CORRECTED PRESSURE (PSIA) = 65.3565

=

VAPOR PRESSURE (PSIA) .4182 I VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649726.9 l llh l

1

l

/

SUMMARY

OF MEASURED DATA AT 1230 527 N

TEMP 1 = 544.2110 ( 84.541 )

TEMP 2 = 544.2720 ( 84.602 )

TEMP 3 = 544.0630 ( 84.393 )

TEMP 4 = 544.3220 ( 84.652 )

TEMP 5 = 543.8540 ( 84.184-)

TEMP 6 = 543.5550 ( 83.885 )

TEMP 7 = 544.2060 ( 84.536 )

TEMP 8 = 543.2270 ( 83.557 )

TEMP 9 = 544.1540 ( 84.484 )

TEMP 10 = 543.1180 ( 83.448 )

TEMP 11 = 543.1980 ( 83.528 )

TEMP 12 = 543.9180 ( 84.248 )

TEMP 13 = 543.7990 ( 84.129 )

TEMP 14 = 544.4730 ( 84.803 )

TEMP 15 = 539.5510 ( 79.881 )

TEMP 16 = 539.2690 ( 79.599 )

TEMP 17 = 539.1790 ( 79.509 )

TEMP 18 = 538.9570 ( 79.287 )

PRES 1= 65.7758 (657758.0 )

PRES 2= 65.6933 ( 66843.0 )

O VPRS VPRS 1=

2=

.4131

.4399

(

(

73.829 )

75.705 )

VPRS 3= .4161 ( 74.046 )

VPRS 4 = .4029 ( 73.083 )

VPRS 5= .4138 ( 73.875 )

VPRS 6= .4103 ( 73.623 )

SUMMARY

OF CORRECTED DATA TIME = 1230 DATE = 527 TEMPERATURE (DEGREES R.) = 543.0555 CORRECTED PRESSURE (PSIA) = 65.3573 VAPOR PRESSURE (PSIA) = .4185 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649693.0 l

O

SUMMARY

OF MEASURED DATA AT 1245 527 TEMP 1 = 544.2230 ( 84.553 ) )

TEMP 2 = 544.2610 ( 84.591 )

TEMP 3 = 544.0960 ( 84.426 )

TEMP 4 = 544.3760 ( 84.706 )

TEMP 5 = 543.8360 ( 84.166 )

TEMP 6 = 543.6010 ( 83.931 ) l 84.520 )

TEMP 7 = 544.1900 (

TEMP 8 = 543.2680 ( 83.598 )

TEMP 9 = 544.1150 ( 84.445 )

TEMP 10 = 543.1210 ( 83.451 ) l TEMP 11 = 543.2300 ( 83.560 ) '

TEMP 12 = 543.9420 ( 84.272 )

TEMP 13 = 543.8360 ( 84.166 ) ,

TEMP 14 = 544.4890 ( 84.819 ) l TEMP 15 = 539.5680 ( 79.898 ) l TEMP 16 = 539.2670 ( 79.597 ) )

TEMP 17 = 539.1910 ( 79.521 ) '

TEMP 18 = 538.9770 ( 79.307 )

PRES 1= 65.7770 (657770,0 )

PRES 2 = 65.6943 ( 66844.0 )

VPRS 1= .4135 ( 73.857 ) l VPRS 2= .4405 ( 75.750 ) '

VPRS 3= .4163 ( 74.054 )

VPRS 4'= .4027 ( 73.066 )

VPRS 5= .4141 ( 73.899 )

VPRS 6= .4108 ( 73.658 ) l

SUMMARY

OF CORRECTED DATA TIME = 1245 DATE = 527 TEMPERATURE (DEGREES R,) = 543.0678 CORRECTED PRESSURE (PSIA) = 65.3582 VAPOR PRESSURE (PSIA) = .4188 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649687.2 0

SUMMARY

OF MEASURED DATA AT 1300 $27 TEMP 1 = 544.2260 ( 84.556 ) ,

TEMP 2 = 544.2370 ( 84.567 )

TEMP 3 = 544.0860 ( 84.416 )

TEMP 4 = 544.4460 ( 84.776 )

TEMP 5 = 543.8580 ( 84.188 )

TEMP 6 = 543.6110 ( 83.941 )' '

TEMP 7 = 544.2750 ( 84.605 )

TEMP 3 = 543.2790 ( 83.609 )

TEMP 9 = 544.1880 ( 84.518 )

TEMP 10 = 543.1410 ( 83.471 )

TEMP 11 = 543.2540 ( 83.584 )

TEMP 12 = 543.9610 ( 84.291 )

TEMP 13 = 543.8310 ( 84.161.)

TEMP 14 = S44.5890 ( 84.919 )

TEMP 15 = 539.5840 ( 79.914 )

TEMP 16 = 539.3160 ( 79.646 )

TEMP 17 = 539.2090 ( 79.539 )

TEMP 18 = 538.9820 ( 79.312 )

PRES 1= 65.7783 (657783.0 )

PRES 2= 65.6953 ( 66845.0 )

O VPRS VPRS 1=

2=

.4134

.4417

(

(

73.852 )

75.833 )

VPRS 3= .4164 ( 74.064 )

VPRS 4= .4026 ( 73.060 )

VPRS 5= .4138 ( 73.881 )

VPRS 6= .4109 ( 73.666 )

SUMMARY

OF CORRECTED DATA TIME = 1300 DATE = 527 TEMPERATURE (DEGREES R.) = 543.0946 CORRECTED PRESSURE (PSIA) = 65.3593 VAPOR PRESSURE (PSIA) = .4190 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649665.3 O

SUMMARY

OF MEASdRED DATA AT 1315 527 TEMP 1 = 544.2410 ( 84.571 )

TEMP 2 = 544.2690 ( 84.599 )

TEMP 3 = 544.1360 ( 84.466 )

TEMP 4 = 544.3950 ( 84.725 )

TEMP 5 = 543.8750 ( 84.205 )

TEMP 6 = 543.6110 ( 83.941 )

TEMP 7 = 544.2150 ( 84.545 )

TEMP 8 = 543.3300 ( 83.660 )

TEMP 9 = 544.1910 ( 84.521 )

TEMP 10 = 543.1700 ( 83.500 )

TEMP 11 = 543.2820 ( 83.612 )

TEMP 12 = 543.9960 ( 84.326')

TEMP 13 = 543.8720 ( 84.202 )

TEMP 14 = 544.5270 ( 84.857 )

TEMP 15 = 539.6040 ( 79.934 )

TEMP 16 = 539.3280 ( 79.658 )

TEMP 17 = 539.2260 ( 79.556 )

TEMP 18 = 538.9950 ( 79.325 )

PRES 1= 65.7794 (657794.0 )

PRES 2= 65.6962 ( 66846.0 )

VPPS 1= .4136 ( 73.861 )

VPRS 2= .4405 ( 75.746 )

VPRS 3= .4168 ( 74.093 )

VPRS 4= .4032 ( 73.104 )

VPRS 5= .4150 ( 73.963 )

VPRS 6= .4114 ( 73.701 )

SUMMARY

OF CORRECTED DATA TIME = 1315 DATE = 527 TEMPERATURE (DEGREES R.) = 543.1047 CORRECTED PRESSURE (PSIA) = 65.3603 VAPOR PRESSURE (PSIA) = .4191 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649663.7 .

O

i i

()

SUMMARY

OF MEASURED DATA AT 1330 527 TEMP 1 = 544.2570 ( 84.587 )

TEMP 2 = 544.3150 ( 84.645 )

TEMP 3 = 544.1470 ( 84.477 )

TEMP 4 = 544.4780 ( 84.808 )

TEMP 5 = 543.9010 ( 84.231 )

TEMP 6 = 543.6520 ( 83.982 )

TEMP 7 = 544.2670 ( 84.597 )

TEMP 8 = 543.3460 ( 83.676 )

TEMP 9 = 544.1930 ( 84.523 )

TEMP 10 = 543.1700 ( 83.500 )

TEMP 11 = 543.3210 ( 83.651 ) ,

TEMP 12 = 544.0140 ( 84.344 ) l TEMP 13 = 543.9150 ( 84.245 ) l TEMP 14 = 544.5250 ( 84.855 )

TEMP 15 = 539.6180 ( 79,948 )

TEMP 16 = 539.3400 ( 79.670 )

TEMP 17 = 539.2430 ( 79.573 )

TEMP 18 = 539.0200 ( 79.350 )

PRES 1= 65.7807 (657807.0 )

PRES 2= 65.6962 ( 66846.0 )

O VPRS VPRS 1=

2=

.4131

.4413

(

(

73.828 )

75.804 )

, VPRS 3= .4169 ( 74.101 )

73.213 )

VPRS 4= .4047 (

VPRS 5= .4139 ( 73.883 )

VPRS 6= .4115 ( 73.709 )

l l

SUMMARY

OF CORRECTED DATA TIME = 1330 DATE = 527 TEMPERATURE (DEGREES R.) = 543.1310 CORRECTED PRESSURE (PSIA) = 65.3614 VAPOR PRESSURE (PSIA) = .4193 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649642.9 O

SUMMARY

OF MEASURED DATA AT 1345 527 TEMP 1 = 544.2690 ( 84.599 )

TEMP 2 = 544.3210 ( 84.651 )

TEMP 3 = 544.1540 ( 84.484 )

TEMP 4 = 544.3960 ( 84.726 )

TEMP 5 = 543.9060 ( 84.236 )

TEMP 6 = 543.6810 ( 84.011 )

TEMP 7 = 544.2980 ( 84.628 )

TEMP 8 = 543.3720 ( 83.702 )

TEMP 9 = 544.2400 ( 84.570 )

TEMP 10 = 543.1760 ( 83.506 )

TEMP 11 = 543.3370 ( 83.667 )

TEMP 12 = 544.0960 ( 84.426 )

TEMP 13 = 543.9300 ( 84.260 )

TEMP 14 = 544.5680 ( 84.898 )

TEMP 15 = 539.6320 ( 79.962 )

TEMP 16 = 539.3830 ( 79.713 )

TEMP 17 = 539.2580 ( 79.588 )

TEMP 18 = 539.0350 ( 79.365 )

PRES 1= 65.7818 (657818.0 )

PRES 2= 65.6982 ( 66848.0 )

VPRS 1= .4140 ( 73.889 )

VPRS 2= .4413 ( 75.805 )

VPRS 3= .4166 ( 74.081 )

VPRS 4 = .4037 ( 73.143 )

VPRS ~ 5= .4137 ( 73.872 )

VPRS 6= .4115 ( 73.709 )

SUMMARY

OF CORRECTED DATA TIME = 1345 DATE = 527 TEMPERATURE (DEGREES R.) = 543.1457 CORRECTED PRESSURE (PSIA) = 65.3625 VAPOR PRESSURE (PSIA) = .4193 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649636.3 O

i

()

SUMMARY

OF MEASURED DATA AT 1400 527 TEMP 1 = 544.3050 ( 84.635 )

TEMP 2 = 544.3130 ( 84.643 )

TEMP 3 = 544.1770 ( 84.507 )

TEMP ,

= 544.4900 ( 84.820 )

TEMI a = 543.9580 ( 84.288 )

TEMi 6 = 543.6950 ( 84.025 )

TEMP 7 = 544.3240 ( 84.654 )

TEMP 8 = 543.4110 ( 83.741 )

TEMP 9 = 544.2800 ( 84.610 )

TEMP 10 = 543.2160 ( 83.546 )

TEMP 11 = 543.3690 ( 83.699 )

TEMP 12 = 544.0740 ( 84.404 )

TEMP 13 = 543.9440 ( 84.274 )

TEMP 14 = 544.5770 ( 84.907 )

TEMP 15 = 539.6530 ( 79.983 )

TEMP 16 = 539.3680 ( 79.698 )

TEMP 17 = 539.2750 ( 79.605 )

TEMP 18 = 539.0490 ( 79.379 )

PRES 1= 65.7831 (657831.0 )

PRES 2= 65.6992 ( 66849.0 )

O VPRS VPRS VPRS 1=

2=

3=

.4138

.4418

(

(

73.878 )

75.836 )

VPRS

.4172 ( 74.121 )

4= .4044 ( 73.197 )

VPRS 5= .4151 ( 73.974 ) ,

VPRS 6= .4114 ( 73.704 )

SUMMARY

OF CORRECTED DATA TIME = 1400 DATE = 527

=

TEMPERATURE (DEGREES R.) 543.1727

=

CORRECTED PRESSURE (PSIA) 65.3634 VAPOR PRESSURE (PSIA) = .4197 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649612.8 O

SUMMARY

OF MEASURED DATA AT 1415 527 TEMP 1 = 544.3040 ( 84.634 )

TEMP 2 = 544.3330 ( 84.663 )

TEMP 3 = 544.2030 ( 84.533 )

TEMP 4 = 544.4410 ( 84.771 )

TEMP S = 543.9790 ( 84.309 )

TEMP 6 = 543.7120 ( 84.042 )

TEMP 7 = 544.3420 ( 84.672 )

TEMP 8 = 543.4100 ( 83.740 )

TEMP 9 = 544.2690 ( 84.599 )

TEMP 10 = 543.2020 ( 83.532 )

TEMP 11 = 543.4020 ( 83.732 )

TEMP 12 = 544.0840 ( 84.414 )

TEMP 13 = 543.9910 ( 84.321 )

TEMP 14 = 544.5920 ( 84.922 )

TEMP 15 = 539.6770 ( 80.007 )

TEMP 16 = 539.3650 ( 79.695 )

TEMP 17 = 539.2980 ( 79.628 )

TEMP 18 = 539.0670 ( 79.397 )

PRES 1= 65.7843 (657843.0 )

PRES 2= 65.7002 ( 66850.0 )

VPRS 1= .4145 ( 73.930 )

VPRS 2= .4429 ( 75.912 )

VPRS 3= .4179 ( 74.173 )

VPRS 4= ' .4034 ( 73.121 )

VPRS 5= .4147 ( 73.941 )

VPRS 6= .4113 ( 73.696 )

SUMMARY

OF CORRECTED DATA TIME = 1415 DATE = 527 TEMPERATURE (DEGRFES R.) = 543.1813 CORRECTED PRESSURE (PSIA) = 65.3642

=

VAPOR PRESSURE (PSIA) .4201 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649610.4 O

l

l I

I 1

l l

SUMMARY

OF MEASURED DATA AT 1430 527

(

1 TEMP 1 = 544.2990 ( 84.629 )  !

TEMP 2 = 544.3330 ( 84.663 )

TEMP 3 = 544.2220 ( 84.552 )

TEMP 4 = 544.4440 ( 84.774 )

TEMP 5 = 544.0740 ( 84.404 )

TEMP 6 = 543.7640 ( 84.094 ) l TEMP 7 = 544.3410 ( 84.671 )

TEMP 8 = 543.4770 ( 83.807 )

TEMP 9 = 544.2930 ( 84.623 )

TEMP 10 = 543.2200 ( 83.558 )  ;

TEMP 11 = 543.4170 ( 83.747 } l TEMP 12 = 544.1360 ( 84.466 )

TEMP 13 = 543.9940 ( 84.324 )

TEMP 14 = 544.6050 ( 84.935 )

TEMP 15 = 539.6870 ( 80.017 )

TEMP 16 = 539.4300 ( 79.760 )

TEMP 17 = 539.3080 ( 79.638 ) j TEMP 18 = 539.0930 ( 79.423 )

l PRES 1= 65.7854 (657854.0 ) l PRES ~2 = 65.7012 ( 66851.0 )

VPRS 1= .4149 ( 73.954 )

/ VPRS 2= .4415 ( 75.820 )

VPRS 3= .4175 ( 74.145 )

VPRS 4= .4043 ( 73.188 ) l VPRS 5= .4150 ( 73.967 ) l VPRS 6= .4121 ( 73.753 )

SUMMARY

OF CORRECTED DATA TIME = 1430 1 DATE = 527 TEMPERATURE (DEGREES R.) = 543.2065 CORRECTED PRESSURE (PSIA) = 65.3654 VAPOR PRESSURE (PSIA) = .4200 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649592.2 i

i l

c

l

SUMMARY

OF MEASURED DATA AT 1445 527 l

TEMP 1 = 544.3420 ( 84.672 )

TEMP 2 = 544.3670 ( 84.697 )

TEMP 3 = 544.2280 ( 84.558 )

TEMP 4 = 544.4820 ( 84.812 )

TEMP 5 = 544.1280 ( 84.458 ) l TEMP 6 = 543.7640 ( 84.094 )

TEMP 7 = 544.3380 ( 84.668 )

TEMP 8 = 543.4710 ( 83.801 )

TEMP 9 = 544.2980 ( 84.628 )

TEMP 10 = 543.2210 ( 83.551 )

TEMP 11 = 543.4280 ( 83.758 )

TEMP 12 = 544.1500 ( 84.480 )

TEMP 13 = 544.0460 ( 84.376 )

TEMP 14 = 544.5950 ( 84.925 )

TEMP 15 = 539.7100 ( 80.040 )

TEMP 16 = 539.4070 ( 79.737 )

TEMP 17 = 539.3340 ( 79.664 )

TEMP 18 = 539.1020 ( 79.432 )

PRES 1= 65.7865 (657865.0 )

PRES 2= 65.7022 ( 66852.0 )

VPRS 1= .4147 ( 73.941 )

VPRS 2= .4436 ( 75.962 )

VPRS. 3= .4183 ( 74.200 )

VPRS 4= .4040 ( 73.165 )

VPRS 5= .4167 ( 74.087 )

VPRS 6= .4112 ( 73.690 )

SUMMARY

OF CORRECTED DATA TIME = 1445 DATE = 527 TEMPERATURE (DEGREES R.) = 543.2230 ,

CORRECTED PRESSURE (PSIA) = 65.3658 l

=

VAPOR PRESSURE (PSIA) .4207 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649577.1 llh

I

()

SUMMARY

OF MEASURED DATA AT 1500 527 l

TEMP 1 = 544.3410 ( 84.671 )  !

TEMP 7 = 544.3770 ( 84.707 ) l TEMP . = 544.3070 ( 84.637 )

TEMP 4 = 544.4760 ( 84.806 )

TEMP 5 = 544.0920 ( 84.422 )

TEMP 6 = 543.7700 ( 84.100 )

TEMP 7 = 544.4500 ( 84.780 )

TEMP 8 = S43.4850 ( 83.815 )

TEMP 9 = 544.3090 ( 84.639 )

TEMP 10 = 543.2740 ( 83.604 )

TEMP 11 = 543.4690 ( 83.799 )

TEMP 12 = 544.1770 ( 84.507 )

TEMP 13 = 544.0320 ( 84.362 )

TEMP 14 = 544.6980 ( 85.028 )

TEMP 15 = 539.7250 ( 80.055 )

TEMP 16 = 539.4470 ( 79.777 )

TEMP 17 = 539.3490 ( 79.679 ) l TEMP 18 = 539.1330 ( 79.463 )  ;

i PRES 1= 65.7878 (657878.0 ) l PRES 2= 65.7032 ( 66853.0 ) '

/~' VPRS 1= .4152 ( 73.980 )

(m VPRS 2= .4437 ( 75.964 )

VPRS 3= .4182 ( 74.194 )

VPRS 4= .4047 ( 73.213 )

VPRS 5= .4160 ( 74.035 )  !

VPRS 6= .4128 ( 73.808 )

l

SUMMARY

OF CORRECTED DATA TIME = 1500 DATE = 527 TEMPERATURE (DEGREES R.) = 543.2511

= 65.3668 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .4210 ,

VOLUME (CU.FT.) = 2000000.0  !

AIR MASS (LBM) = 649553.6 l l

O

l

SUMMARY

OF MEASURED DATA AT 1515 527 i TEMP 1 = 544.3630 ( 84.693 )

TEMP 2 = 544.3940 ( 84.724 )

TEMP 3 = 544.2550 ( 84.585 )

TEMP 4 = 544.4960 ( 84.826 )

TEMP 5 = 544.1210 ( 84.451 )

TEMP 6 = 543.7970 ( 84.127 )

TEMP 7 = 544.4280 ( 84.758 )

TEMP 8 = 543.4950 ( 83.825 )

TEMP 9 = 544.3360 ( 84.666 )

TEMP 10 = 543.2560 ( 83.586 )

TEMP 11 = 543.4980 ( 83.828 )

TEMP 12 = 544.1940 ( 84.524 )

TEMP 13 = 544.0580 ( 84.388 )

TEMP 14 = 544.6630 ( 84.993 )

TEMP 15 = 539.7390 ( 80.069 )

TEMP 16 = 539.4590 ( 79.789 )

TEMP 17 = 539.3660 ( 79.696 )

TEMP 18 = 539.1360 ( 79.466 )

PRES 1= 65.7887 (657887.0 )

PRES 2= 65.7032 ( 66853.0 )

VPRS 1= .4161 ( 74.044 )

VPRS 2= .4434 ( 75.949 )

VPRS 3= .4187 ( 74.226 )

VPRS 4= .4053 ( 73.257 )

VPRS 5= .4158 ( ,74.021 )

VPRS 6= .4119 ( 73.744 )

SUMMARY

OF CORRECTED DATA TIME = 1515 DATE = 527 TEMPERATURE (DEGREES R.) = 543.2574 CORRECTED PRESSURE (PSIA) = 65.3675 VAPOR PRESSURE (PSIA) = .4212 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = S49552.5 O

l l

i

SUMMARY

OF MEASURED DATA AT 1530 527

-(

TEMP 1 = 544.3760 ( 84.706 )

TEMP 2 = 544.4210 ( 84.751 )

TEMP 3 = 544.3120 ( 84.642 )-

TEMP 4 = 544.4980 ( 84.828 )

TEMP 5 = 544.2500 ( 84.480 ) l TEMP 6 = 543.8420 ( 84.172 ) r TEMP 7 = 544.4490 ( 84.779 )

TEMP 8 = 543.5360 ( 83.866 )

TEMP 9 = 544.3510 ( 84.681 )

TEMP 10-= 543.2690 ( 83.599 )

TEMP 11 = 543 E140 ( 83.844 )

TEMP 12 = 544.2280 ( 84.558 )

TEMP 13 = 544.0860- ( 84.416 )

TEMP 14 = 544.7720 ( -85.102 )

TEMP 15 = 539.7660 ( 80.096 )

i TEMP 16 u 539.4610 ( 79,791 )

TEMP 17 = 539.3810 ( 79.711 )

TEMP 18 u 539.1620- ( 79.492 )

PRES 1= 65.7896 (657896.0 )

PRES 2= 65.7041 ( 66854.0 )

VPRS 1= .4151 ( 73.970 )

O. VPRS 2= .4441 ( 75.990 )

a VPRS 3= .4187 ( 74.232 )

VPRS 4= .4050 ( 73.237 )

VPRS 5= .4157 ( 74.017 )

VPRS 6= .4126 ( 73.793 )

i 1 1

SUMMARY

OF CORRECTED DATA TIME = 1530 l DATE = 527 TEMPERATURE (DEGREES R.) = 543.2355 COftRECTED PRESSURE (PSIA) = 65.3685 VAPOR PRESSURE (PSIA) = .4211 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649528.4 J

l

> i 2

j 4

SUMMARY

OF MEASURED DATA AT 1545 527 l

J TEMP 1 = 544.3680 ( 84.698 )

TEMP 2 = 544.4260 ( 84.756 )

TEMP 3 = 544.3300 ( 84.660 )

TEMP 4 = 544.6080 ( 84.938 )

TEMP 5 = 544.1150 ( 84.445 )

TEMP 6 = 543.8520 ( 84.182 )

TEMP 7 = 544.4400 ( 84.770 )

TEMP 8 = 543.5460 ( 83.876 )

TEMP 9 = 544.3770 ( 84.707 )

TEMP 10 = 543.2760 ( 83.606 )

TEMP 11 = 543.5360 ( 83.866 )

TEMP 12 = 544.2190 ( 84.549 )

TEMP 13 = 544.1090 ( 84.439 )

TEMP 14 = 544.7600 ( 85.090 )

TEMP 15 = 539.7770 ( 80.107 )

TEMP 16 = 539.4780 ( 79.808 )

TEMP 17 = 539.3890 ( 79.719 )

TEMP 18 = 539.1720 ( 79.502 )

PRES 1= 65.7907 (G57907.0 )

PRES 2= 65.7051 ( 66855.0 )

VPRS 1= .4170 ( 74.107 )

VPRS 2= .4441 ( 75.996 )

VPRS 3= .4185 ( 74.217 )

VPRS 4= .4046 ( 73.208 )

VPRS 5= .4159 ( 74.031 )

VPRS 6= .4132 ( 73.837 )

SUMMARY

OF CORRECTED DATA TIM 5 n 1545 LitTE = 527

= E43.2970 TEMPERATURE (DEGREES R.)

=

CORRECTED PRESSURE (PSIA) 65.3691 VAPOR PRESSURE (PSIA) = .4216 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649521.4 O

SUMMARY

OFMEASUREDDAk'AAT1600 527 TEMP 1 = 544.4030 ( 84.733 )

TEMP 2 = 544.4260 ( 84.756 )

TEMP 3 = 544.3740 ( 84.704 )

TEMP 4 = 544.5050 ( 84.835 )

TEMP 5 = 544.2720 ( 84.602 )

TEMP 6 = 543.8630 ( 84.193 )

TEMP 7 = 544.4860 ( 84.816 )

TEMP 8 = 543.5760 ( 83.906 )

TEMP 9 = 544.3970 ( 84.727 )

TEMP 10 = 543.3230 ( 83.653 )

TEMP 11 = 543.5700 ( 83.900 )

TEMP 12 = 544.2600 ( 84.590 )

TEMP 13 = 344.1180 ( 84.448 )

TEMP 14 - 44.8760 ( 85.206 )

TEMP 15 = 6.7900 ( 80.120 )

TEMP 16 = ' 9.4730 ( 79.803 )

TEMP 17 = J9.4180 ( 79.748 )

TEMP 18 = 539.1950 ( 79.525 )

PRES 1= 65.7914 (657914.0 )

PRES 2= 65.7051 ( 66855.0 )

C VPRS VPRS 1=

2=

.4153

.4447

(

(

73.986 )

76.031 )

VPRS 3= .4188 ( 74.238 )

VPRS 4= .4055 ( 73.272 ) .

VPRS 5= .4167 ( 74.084 )

VPRS 6= .4130 ( 7J.823 )

SUMMARY

OF CORRECTED DATA TIME = 1600 DATE = 527

=

TEMPERATURE (DEGREES R.) 543.3278

=

CORRECTED PRESSURE (PSIA) 65.3699 VAPOR PRESSURE (PSIA) = .4215 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649491.9 0

SUMMARY

OF MEASURED' DATA AT 1615 527 TEMP 1 = 544.4180 ( 84.748 )

TEMP 2 = 544.4260 ( 84.756 )

TEMP 3 = 544.3790 ( 84.709 )

TEMP 4 = 544.6260 ( 84.956 )

TEMP 5 = 544.1680 ( 84.498 )

TEMP 6 = 543.8870 ( 84.217 )

TEMP 7r 544.5510 ( 84.881 )

TEMP 8 = 543.6280 ( 83.958 )

TEMP 9 = 544.3890 ( 84.719 )

TEMP 10 = 543.3120 ( 83.642 )

TEMP 11 = 543.5930 ( 83.923 )

TEMP 12 = 544.2640 ( 84.594 )

TEMP 13 = 544.1480 ( 84.478 )

TEMP 14 = 544.8120 ( 85.142 )

TEMP 15 = 539.8190 ( 80.149 )

TEMP 16 = 539.5160 ( 79.846 )

TEMP 17 r. 539.4390 ( 79.769 )

TEMP 18 = 539.2030 ( 79.533 )

PRES 1= 65.7923 (657923.0 )

PRES 2= 65.7061 ( 66856.0 )

VPRS 1= .4155 ( 74.002 )

VPRS 2= .4447 ( 76.036 )

VPRS 3= .4193 ( 74.270 )

VPRS 4= .4058 ( 73.294 )

VPRS 5= .4173 ( 74.131 )

VPRS 6= .4127 ( 73.800 )

SUMMARY

OF CORRECTED DATA TIME = 1615 DATE = 527 TEMPERATURE (DEGREES R.) = 543.3425 CORRECTED PRESSURE (PSIA) = 65.3705

= .4218 VAPOR PRESSURE (PSIA)

VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649480.8 .

O I

l 9'MMARY OF MEASURED DATA AT 1630 527 TEMP 1 = 544.4170 ( 84.747 )

TEMP 2 = 544.4470 ( 84.777 )

TEMP 3 = 544.3360 ( 84.666 )

TEMP 4 = 544.6820 ( 85.012 )

TEMP 5 = 544.1940 ( 84.524 )

TEMP 6 = 543.9010 ( 84.231 )

TEMP 7 = 544.5510 ( 84.881 )

TEMP 8 = 543.6370 ( 83.967 )

TEMP 9 = 544.4400 ( 84.770 ) l TEMP 10 = 543.3240 ( 83.6'.4 )

TEMP 11 = 543.6160 ( 83.946 )

TEMP 12 = 544.3010 ( 84.631 )

TEMP 13 = 544.1480 ( 84.478 )  ;

TEMP 14 = 544.8180 ( 85.148 ) l TEMP 15 = 539.8330 ( 80.163 )

TEMP 16 = 539.5190 ( 79.849 )

TEMP 17 = 539,4530 ( 79.783 ) l TEMP 18 = 539.2230 ( 79.553 )

' l PRES 1= 65.7931 (657931.0 )  ;

PRES 2= ( 66858.0 )

65.7081 l l

O VPRS VPRS 1=

2=

.4169

.4460

(

(

74.102 )

76.124 )

l VPRS 3= .4190 ( 74.252 )

VPRS 4= .4052 ( 73.249 )

, VPRS 5= .4163 ( 74.057 )

VPRS 6= .4136 ( 73.860 )

SUMMARY

OF CORRECTED DATA TIME = 1630 I 1 DATE = 527 i

= 543.3564 TEMPERATURE (DEGREES R.) l

= 65.3709 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .4222 VOLUME (CU.FT.) = 2000000.0 AIR MASS (LBM) = 649467.5 l

O

SUMMARY

OF MEASURED DATA AT 1645 527 TEMP 1 = 544.4310 ( 84.761 )

TEMP 2 = 544.4520 ( 84.782 )

TEMP 3 = 544.3800 ( 84.710 )

TEMP 4 = 544.6590 ( 84.989 )

TEMP 5 = 544.2320 ( 84.562 )

TEMP 6 = 543.9390 ( 84.269 )

TEMP 7 = 544.5540 ( 84.884 )

TEMP 8 = 543.6810 ( 84.011 )

TEMP 9 = 544.4750 ( 84.805 )

TEMP 10 = 543.3430 ( 83.673 )

TEMP 11 = 543.6360 ( 83.966 )

TEMP 12 = 544.3310 ( 84.661 )

TEMP 13 = 544.1640 ( 84.494 )

TEMP 14 = 544.9040 ( 85.234 )

?EMP 15 = 539.8390 ( 80.169 )

' 'EMP 16 = 5 3 9 . 5 3 9 0

. ( 79.869 )

TEMP 17 = 539.4640 ( 79.794 )

TEMP 18 = 539.2290 ( 79.559 )

PRES 1= 65.7941 (657941.0 )

PRES 2= 65.7081 ( 66858.0 )

VPRS 1= .4157 ( 74.012 )

VPRS 2= .4452 ( 76.066 )

VPRS 3= .4192 ( 74.261 )

VPRS 4 = .4051 ( 73.248 )

VPRS 5= .4176 ( 74.147 )

VPRS 6= .4141 ( 73.901 )

SUMMARY

OF CORRECTED DATA TIME = 1645 DATE = 527 TEMPERATURE (DEGREES R.) = 543.3780

= 65.3722 CORRECTED PRESSURE (PSIA)

=

VAPOR PRESSURE (PSIA) .

.4219 i VOLUME (CU.FT.) = 2000000,0 i AIR MASS (LBM) = 649454.7 l l

l l

9 l

i I

i l

1

()

SUMMARY

OF MEASURED DATA AT 1700 527 TEMP 1 = 544.4370 ( 84.767 )

TEMP 2 = 544.4400 ( 84.770 )

TEMP 3 = 544.4170 ( 84.747 )

TEMP 4 = 544.6410 ( 84.971 )

TEMP 5 = 544.2050 ( 84.535 )

TEMP 6 = 543.9530 ( C4.283 )

TEMP 7 = 544.6090 ( 84.939 )

TEMP 8 = $43.6910 ( 84.021 )

TEMP 9 = 544.4700 ( 84.800 )

TEMP 10 = 543.3410 ( 83.671 )

TEMP 11 = 543.6860 ( 84.016 ) .

TEMP 12 = 544.3410 ( 84.671 ) i TEMP 13 = 544.2050 ( 84.535 )

TEMP 14 = 544.8590 ( 85.189 )

TEMP 15 = 539.8540 ( 80.184 )  ;

TEMP 16 = 539.5310 ( 79.861 ) ,

TEMP 17 = 539.4870 ( 79.817 )  ;

TEMP 18 = 539.2500 ( 79.580 ) '

l PRES 1= 65.7949 (657949.0 ,

1 PRES 2= 65.7091 ( 66859.0 ) '

/~) VPRS  : = .4163 ( 74.057 )

k/ VPRS 2= .4458 ( 76.107 )

VPRS 3= .4201 ( 74.327 )

VPRS 4 = .4053 ( 73.262 ) ,

VPRS 5= .4176 ( 74.147 )

VPRS 6= .4135 ( 73.857 )

1 i

SUMMARY

OF CORRECTFD DATA TIME = 1700 DATE = 527

=

TEMPERATURE (DEGREES P.) 543.3858

= 65.3725 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA) = .4224 I VOLUME (CU.FT.) = 2000000.0 l AIR MASS (LBM) = 649448.6 l

l l

O i

A

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

. l I 1 I

I APPD1 DIX G Type B & C Inakage Rate Test Fasults d

i l

1 A

l 4

! l 4

I i

Type B & C Isakage Rata Test Results Calvert Cliffs '~ 9t 1 Refueling Outages I. Spring, 1988 A. As Inft System Total Maximum Pathway Isakage 44,137.20 scan B. As Found System Ibtal Maximum Pathway Isakage 67,474.65 scan  ;

C. As Isft - As FouM Adjustments (Minimum Pathway Values)

Penetration As Found As Isft Differential ,

39.80 62.40 2A -

2B 286.00 35.40 250.6 7A 11.10 41.20 -

7B 5.67 31.40 -

8 290.00 318.00 -

13 3354.50 1750.17 1604.33 14 2417.30 958.58 1458.72 19A 463.00 223.00 240 20A 1589.00 1900.00 -

20B 661.00 173.40 487.6 23 1645.00 987.00 658 39 1575.00 26.10 1548.9 O 41 18595.80 9536.00 9509.8 O Fuel Transfer Tuba 273.00 6440.00 -

45A 19.14 41.80 -

50 15.70 254.00 - -

2WE3 34.51 2.20 12.31 i 2EP6 14.50 12.00 2.5 2WE9 14.65 1.70 12.95 67 38.60 29.90 8.7 S/G Marway 11-1 175.30 80.60 94.7 S/G Manvay 11-2 645.00 46.60 598.4 S/G Marway 12-1 225.00 31.50 193.5 l S/G Manway 12-2 98.10 376.00 -

32,456.67 23,358.95 16,681.01 1 l

As Found - As IAft = 16,681.01 secn = .0096%/ day  !

l 1

II. Fal.1, 1986 Total IlRT Leakage = 30,48".99 sccm CC-5/88 50-317 s