ML20151N300
| ML20151N300 | |
| Person / Time | |
|---|---|
| Site: | Arkansas Nuclear  |
| Issue date: | 04/30/1988 |
| From: | BECHTEL GROUP, INC. |
| To: | |
| Shared Package | |
| ML20151N274 | List: |
| References | |
| NUDOCS 8808080172 | |
| Download: ML20151N300 (173) | |
Text
-
O Arkansas Power & Light Arkansas Nuclear One Unit 2 O
Primary Reactor Containment Integrated Leakage Rate Test Final Report April 1988 b
Bechtel Western Power Company O
pamla tiSlHe
t
(
AR-SAS me - uGar - -
ARKANSAS NUCLEAR ONE UNIT 2-l DOCKET NUMBER 50-368 i
l PRIMARY REACIOR CDNTAHEENT DTTEGRATED IEAKAGE RATE TEST APRIL 1988 I
9 O
Suhnitted to l
The United States Nuclear Regulatory Canission Pursuant To Facility Operating License Nuitber NPF-6 O
~-
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..,--,, _ _ _ n, _ _ -,,,---,-- _,g n e.m,,.+5
.--,n
_ m e rn,,n,-en,e,,n,n,we,,w~,y-.-w,,,e-
TABIE OF ODtTTEtTIS hv I.
n7rRowcrIoN................................................... 1 II.
TEST SYN 0PSIS..................................................
2 l
III.
TEST DATA
SUMMARY
.............................................. 3 IV.
ANALYSIS AND D7fERPRETATION.................................... 8 V.
REFERDICES.................................................... 10 i
i i
I APPBIDICES A.
Bechtel IIRT Computer Program Summary i
B.
IIRT Stabilization Summary Data Report i
C.
Summary Data Sheets D.
IIRT Calculations E.
IIRT Plot i
D Teqperature vs. Time Pressure vs. Time Vapor Pressure vs. Time Air Mass vs. Time Entire Test Period IIRT Period Verification Test Period Mass Point Isakage Rate vs. Time Total Time Leakage Rate vs. Time F.
Verification Flow 'Ibst Summary Data Report G.
Verification Flow Test Calculations Mass Point Analysis Total Time Analysis H.
Summary Data Sheets I.
Type B & C Test Results O
I.
IMROEUCTION j
A: successful Type A Containment Integrated Imakage Pate Test i
(ILRI) was conducted on the Arkansas Nuclear One, Unit 2 containment between April 21 and April 22, 1988. 'Ihe test was perfomed to demonstrate that the containment leakage under l
prescribed post-accident conditions does not exceed allowable l
leakage specifiert in the ANO Unit 2 FSAR and Technical Specifications.
Se test was performed under IIRT Procedure 1092.031, Revision 0.
We test was conducted in accordance with the n q.lirements of 10CFR50 Appendix J,
using the absolute method defined in ANSI t.5. 4-1972.
Leakage rates were calculated using the Mass Point Method of ANSI /ANS 56.8-1981 and the Total Time Method of EN 'IOP-1, 1972.
S e "as left" IIRT leakage rates and minimum pathway Type B and C leakage rates were used to calculate "as found" IIRT leakage rates.
Se "as left" and "as found" leakage rates calculated at the 95% upper con'idence limit (UCL) were less the 75% of the allowable leakage rate, i.e.,
less than.075%/ day.
All requirements of 10CFR50 Appendix J and the Arkansas Nuclear One, Unit 2 FSAR and Technical Specifications were satisfied.
A summary of events and test chronology are presented in Section II, Test Synopsis.
Plant information, technical data, 4
g*
test results, and measure: rent system infomation are presented in Section III, Test Data Summarf. Test results are compared to the acceptance criteria in Section IV, Analysis and Interpretation. ANO2
II.
TEST SY?OPSIS (O)
The containment was isolated by aligning systems in tne specified post-accident modes, except as noted in Section IV.
Containment pressurization started at 1829 on 4/20/88.
Containment fans were run during pressurization. Between 10 and 14 psig, a leak search was conducted on all penetraticns.
No significant leakage was observed.
At 0600 on 4/21, penetration 2P-40, fire water protection, was observed te be leaking. The leakage was quantified at 12,200 sccm (.007%/ day). Since the leakage was considerably less than
.75Ia the penetration was not blocked. No other significant leakage was observed during the test.
The containment fans were shut off at 1345 on 4/21 and test
- pressure, 54.3 psia, was reached at 1355 on 4/21.
The pressurization line was isolated and vented, and the stabilization period started at 1400 on 4/21.
During the first two hours of stabilization, the calculated air mass was increasing.
The problem was determined to be caused by insufficient air mixing in the upper part of the containment.
The containment recirculation fans were turned on at 1623 on 4/21 and left on for the duration of the test.
Terperature stabilization criteria were satisfied during the four and one-half hour period fram 1700 to 2130 on 4/21.
t 1
V A successful eight hour IIRT was performed from 2130 on 4/21 to 0530 on 4/22. The calculated leakage rate using the mass point method was.024%/ day with a UCL of.028%/ day. The calculated leakage rate using the total time method was.022%/ day with a UCL of.062%/ day.
The verification flow of 5.77 scfm (.1%/ day) was initiated at 0545 on 4/22.
Following a one hour stabilization period, a successful four hour verification test was performed frca 0645 to 1045 on 4/22.
The calculated leakage rates during the verification test were 0.134%/ day using the mass point method and 0.116%/ day using the total time method.
O, t NO2
III.
TFBP DATA SLM4ARY
()
(j A.
Plant Infonration Owner Arkansas Power & Light Plant Arkansas Nuclear One, Unit 2 I.ocation 6 miles NW of Russellville, Arkansas Containment type Prestressed, post-tensioned concrete 1ESS Supplier, Type CE, IWR Docket No.
50-368 License No.
NPF-6 4
B.
Technical Data
- 1. Containment Net Free Air Volume 1,780,000 cu. ft.
- 2. Design Pressure 54 psig
- 3. Design Temperature 288' F
- 4. Calculated Peak Accident Pressure, Pa 54 psig b
- 5. Peak Accident Temperature 411' F i
C.
Test Results - Type A 'Ibst
- 1. Test Method Absolute
- 2. Data Analysis Mass Point (per ANSI /ANS Techniques 56.8-1981)
'Ibtal Time (per BN 'IOP-1, 1972)
- 3. Test Pressure 54.3
- 4. Maximum Allowable i
I.eakage Rate, la 0.1%/ day
- 5. 75% of Ia 0.075%/ day
- 6. Integrated Isakage Rate Isakace Pate. %/ day Test Results Fran Regression At Upper Line (Iam) 95% Confi-dence Limit Mass Point Analysis 0.024 0.028
'Ibtal Time Analysis 0.022 0.062 l AIO2 l
.. ~ _
7.
Verification Time Inposed Leakage Rate 5.77 SCR4 (0.1%/ day) 8.
Verification Test Leakage Rate
(%/ day)
Results Mass Point Analysis:'
O.134 Tctal Time Analysis 0.116 9.
Verification Test Limits Test Limits (%/ day)
Mass Point Analysis Upper Limit (Io+IaWO.25La) 0.149 Imer Limit (Io+ Lam-0.25La) 0.099 Total Time Analysis LW Limit (Io&Iam+0.25Ia) 0.147 Imer Limit (Io+ Lam-0.25La) 0.097
- 10. 'Ihe report printouts and data plots for the Type A and Verification Test are provided in Appendices D through G.
D.
Test Results - Type B & C 'Ibsts Refer to Appendix I for summary of Iocal Leakage Pate Test results since the last IIRT was performed.
E.
Integrated Isakage Rate Measurement System 1.
Absolute Pressure (2 channels)
Range:
0-100,000 counts Measurement system error:
0.001 psia Sensor error:
0.005 psia Range:
0-100 psia Sensor Repeatability:
0.0005 psia Display Repeatability:
0.001 psia Texas Instruments Mcdel 145-02 Precision Pressure Instruments, Serial No. 2861 Bourdon Capsule Serial No. 6806 Calibration Cate:
2/3/88 Texas Instruments Model 145-02 Precision Pressure Instruments, Serial No. 2860 Bourden Capsule Serial No. 6806 Calibration Date:
2/3/88 ANO2
1
- 2. Drybulb Temperature (18)
Range:
(-190) - (+200)
- F
(
Measurement system Q]
error:
0.1* F Sensor error:
0.2' F Sensor Repeatability:
0.05' F Display Repeatability:
0.01' F Resistance Temperature Detectors - Imeds & Northrop
'Ihermohm lead,100-ohm copper Calibration Date: ITE - 022,023,024 - 3/30/88 ITE - 001,003,004;005,006,008,009, 010,012,013,014,015,016,018,019 - 3/8/88
- 3. Dewpoint Temperature (6 sensors)
Range:
0-100'F Measurement system error:
0.1* F Sensor error:
0.54' F i
Sensor Repeatability:
0.01* F Display Repeatability:
0.01' F Dewpoint Temperature Systems - EG & G 660 Calibration Date:
2/27/88-3/1/88
- 4. Verification Flow (1 channel) 1 Range:
1.0-24.0 scfm Accuracy:
1.0% F.S.
Calibration Date:
3/18/88 a
Flowmeter-Brooks Hi-accuracy full view retameter, Model 1110-08K2-B1A 5, Overall Instrumentation Selection Guideline (ISG)
Value (from ANSI /ANS 56.8-1981) based on IIRT instrumentation and an eight hour test duration is 0.011%/ day.
'Ihe ISG calculation uses the errors described above and a pressure of 68.6 psia, a despoint temperature cf 63*
F (0.01502 psia /*F from steam tables between 62 and 64' F) and an RID temperature of 533.6' R for a period of eight hours.
- 6. Dryhilb and Despoint Temperature Sensor Iocations and Volume Fractions - See Table 1.
F.
Inforration Retained at Plant
'Ihe following information is available for review at the facility:
- 1) A listing of all containment penetrations, including the total number of like penetrations, penetration O'
size and function.
- 2) A listing of normal operating irstrumentation used for the leakage rate test. -.
i l
3)
A system lineup (at time of test),
showing required valve positions and status of piping O
- systems, b
4)
A continuous, sequential log of events from initial survey of containment to restoration of all tested systems.
5)
Documentation of' instrumentation calibration arxi standards.
6)
Data to verify ternperature stabilization criteria as established by test procedure.
(Appendix A and Figures 1 and 2).
7)
'Ihe workirrJ copy of test procedure that includes signature sign-off of pra d steps.
8)
The procedure and all data that would verify completion of penetrations and valve testing (Type B and C tests), including as found leakage rates, corrective action taken, and final leakage rate.
9)
A listing of all test exceptions including changes in containment system boundaries instituted by licensee to conclude successful testing.
10)
Description of method of leak rate verification of instnment measuring system (superimposed leakage),
with calibration information on flowmeters along with calculations that were used to measure the verification leakage rate.
p.
- 11) The P & ID's of pertinent systems are readily d
available.
O ANO2
D BIE 1 mYBUIB AND DDEOINT TENPERATURE i
SDISOR LOCATIONS AND VOIIME FPACTIONS j
RADIAL VOIIME SDISOR EIIV.
AZINJIH DISTANCE FRACTION HID 1
505 170 40 0.073 2
505 30 20 0.072 3
505 210 20 0.072 4
505 350 40 0.073 5
435 45 40 0.065 6
475 135 40 0.065 7
455 0
0 0.066 8
435 225 40 0.065 9
475 315 40 0.065 10 390 90 20 0.049 11 390 200 30 0.037 1
12 390 340 30 0.037 13 385 270 40 0.043 14 410 270 40 0.053 15 370 10 50 0.042 16 370 210 50 0.042 17 355 45 35 0.038 18 355 270 40 0.043 1.000 DBETIL Os 1
480 0
55 0.167 2
505 120 55 0.166 3
465 225 55 0.166 j
4 425 225 30 0.166 1
5 390 260 40 0.168 6
345 270 40 0.167 1.000 O ANO2
IV.
ANALYSIS AND INTERPPETATION A.
IIRT Test Corrections O-During the IIRT four penetrations were not in post-IOCA alignment.
%e penetrations and minimum pathway "as left" j
leakage rates are given below:
Penetration System Isakage Rate 2P-33 SIT Drain Header 29.70 accm 2P-61A IIRT Pressure Sensing 0.17 accm 2P-61B IIRT Verification Flow' O.00 accm 2P-62 IIRT Pressurization 0.01 accm
'lbtal 29.88 accm 0.00008%/ day Water volume changes in the containment durirq the IIRT were negligible.
During the period frcm 2103 on 4/21 to 1117 on 4/22 the RCS level increased from 129" to 130".
During the period fram 2103 on 4/21 to 1200 on 4/22 the sump level increased fram 5.7% to 6.0%.
B.
"As Inft" Leakage Rate he "as left" leakage rates are equal to the leakage rates calculated during the IIRT plus the total of the "as left" C'
minimum pathway leakages from penetrations not in post-ICCA b) alignment during the IIRT.
We "as left" leakage rates are given below.
Isakage Rate, %/ day MASS PODir
'IUTAL TIME Isakage Rate UCL Isakage Rate UCL
{
IIRT 0.024 0.028 0.022 0.062 Corrections 0.000 0.000 0.000 0.000 "As Inft" IIRT 0.024 0.028 0.022 0.062 Since the "as left" Mass Point and 'Ibtal Time UCL's are less then.75Ia (0.075%/ day), the test results demonstrate that the leakage through the primary containment ard optems and cocponents penetrating. primary containment do not excead the allowable leakage rates specified in the MO Unit 2 FSAR and Technical Specifications.
)
C.
"As Fcond" Isakage Rates he "as fouM" leakage rates are equal to the "as left" leakage rates plus the total of the differences (but not negative) tetwen the "as fouM" ard "as left" minimum pathway leakages for all type C and type B penetrations. MO2
Penetrations with "as found" "as left" correction are:
p Penetration "as found" "as left" V
2P31 44.7 accm 2P40 55.3 accm 2P52 1,270.8 accm 2P62
- A.7 accm 2P69 117.3 acan 2C3 51.87 accm 1,554.67 0.004%/ day
'Ihe "as found" leakage rates are given belcw:
Isakage Rate, %/ day MASS FOINT
'IUPAL TIME Isakage Rate UCL Isakage Rate UCL IIRT 0.024 0.028 0.022 0.062 Corrections 0.004 0.004 0.004 0.004 "As Fourd" IIRT 0.028 0.032 0.026 0.066 Since the "as found" Mass Point and 'Ibtal Time UCL's are less then.75Ia (0.075%/ day), the test results demonstrate that the O'
leakage through the primary containment and systers and components penetrating pri::my containment do not exceed the allcwable leakage rates specified in the M O Unit 2 FSAR and Technical Specifications.
l I
I
-9 MD2
V.
Rt.r r2<tziCES FN 1.
Arkansas Nuclear One Unit 2 Procedure No.
1092.031,
()
"Integrated Isak Rate Test of Primary Containment (Type A Test)", Revision O.
2.
Code of Federal Regulation, Title 10, Part 50, Appendix J, "Primary Reactor Containment Isakage '1bsting for Water Cooled Power Reactors."
3.
ANSI /ANS 56.8-1981, "Containment Systan Isakage '!% sting Requirements."
4.
ANSI N45.4-1972, "I.eakage Rate TestirrJ of Containment Structures for Nuclear Reactors."
5.
Bechtel topical Report BN-40P-1, "Testing Criteria for Integrated I.eakage Rate Testing for Primary Containment Structures for Nuclear Power Plants, Revision 1, November 1972.
O MO2
__m_
a___.
h I
APPHIDIX A Bechtel IIRT Cccp2ter % %
l i
i l
l
~
APPDIDIX A a
NCN OF BEXIIIEL IIRP CDEUTER PROGRAM A. Prenam arti Rcoort Description 1.
Se Bechtel IIRP conputer program is used to determine the integrated leakage rate of a nuclear primary containment structure. The program is used to corpute leakage rate based en input values of time, free air volume, containment atmosphere total pressure, drybulb terperature, and dewpoint tegerature (water vapor pressure).
Irakage rate is conpited using the Absolute Method as defined in MISI/ MIS 56.8-1981, "Containment System I.eakage Testing Requirerents" and Bi 'IOP-1, Rev 1, "Testing Criteria for Integrated I.eakage Rate Testing of Primary Containment Structures for Nuclear Pcher Plants".
We program is designed to allow the user to evaluate containment leakage rate test results ac the jobsite during containment leakage testing.
Current leakage rate values may be obtained at any time during the testing period using one of two xcputational methods, yielding three different report printouts.
2.
In the first printout, the Tbtal Time Report, leakage rate is (d
corputed from initial values of free air volume, containment
'N atnosphe 7 drybulb tegerature and partial pressure of dry air, the latest values of the same parareters, and elapsed time. These individually conputed leakage rates are statistically averaged using lirx.ar regression by the method of least squares. The Tbtal Time Method is the corputational technique upon which the short duration test critoria of EN-TOP-1, Rev 1, "Testing Criteria for Integrated Irakage Rate Testing of Prinary Containment Structures for Nuclear 1
Power Plant," are based.
3.
We second printout is the Mass Point Report and is based on the Mass Point Analysis Technique described in NTSI/ MIS 56.8-1981, "Containment System Leakage Testing Requirements". The mass of dry i
air in the containment is ccepte.ed at each data point (time) using the Equation of State, fram corrent values of containment atnosphere i
dryhulb temperature and partial pressure of dry air.
Centained mass is "plotted" versus time and a regression line is fit to the data using the method of least squares.
Leakage rate is determined from the statistically derived slope and intercept of the regression line.
4.
The third printuit, the Trend Report, is a summary of leakage rate values based en Total Time and Mass Point computations presented as a function of nurber of data points and elapsed time (test duration).
The Trend Report provides all leakage rate values required for f
cozparisen to the acceptance criteria of Bi-IOP-1 for conduct of a short duration test.
A-1
\\
5.
S e program generates a predictor report based on "Suggested Criteria t(
for a Short Duration IIRI", Ted Brown and Iruis Estenssoro, Proceedinas of the First Workshco on Contalment Testina, January 18,'1982.
S e "predictor" is an estimate of the upper bound on the change in mass point calculated leakage rate wtiich will occur during the next four hours. W e estimate is based on the mass point calculated leakage rates and 95% UCIs during the previous four hours.
C.
S e program is written in a high level language and is designed for use on a micro-curputer with dimet data input from the data acquisition system.
Brief descriptiens of program use, for=ulae used for leakage rate corputations, and program logic are provided in the following paragraphs.
B. Explanation of Ptwtum 1.
S e Bechtel IIRI computer program is written, for use by experienced IIRT personnel, to detemine containment integrated leakage rates based c11 the Absolute Method described in ANSI /NIS 56.8-1981 and Pli 'IOP-1.
2.
Inforration loaded into the program prior to or at the start of the test:
d a.
Nurber of containn.ent atmosphere drybulb terperature sensors, dewpoint tegerature (water vapor pressure) sensors 4:nd pressure gages to be used in leakage rate computatiens for the specific test b.
Volume fractions assigned to each of the above sensors c.
Calibration data for above sensora d.
Test title e.
Maximum allowable leakage rate at test pressure 3.
Data received from the data acquisition system during the test, arxl used to compute leakage rates:
a.
Time and date b.
Containment at:csphere drybulb tegeratures c.
Containment at csphere pressure (s) d.
Containnent atmosphere denpoint tegeratures e.
Containment free air volume.
v 4.
After all data at a given time are received, a Sum:rary of Measured Data report (refer to "Progran Irgic," Paragraph D, "Data" cption command) is printed.
A-2
5.
If drybulb and dewpoint ter:perature sensors should fail during the test, the data frem the sensor (s) are not used. 'Ihe volume fractions i
I for the remainirq sensors are recaputed and reloaded into the progran for use in ensuing leakage rate caputations.
C. teakaae Rate Form 11ae 1.
Computations Using the 'Ibtal Time *Methed:
a.
Measured leakage rate frca data:
(1)
PV1 t = W RT1 1
(2)
PVi i = W ni i
2400 (W1-W) i
{3)
W att 1 Solving for W and Wi and substituting equations (1) and (2) into (3) yiel TPV 2400
[1 -
1ii\\
,)
Li
=
At i
(
TPVi11/
khere W,Wi = Weight of contained rass of dIf air at tires ti 1
t ard t, re W oively, lbm.
i T,Ti = Containment at::csphere drybulb to:q:erature at 1
i and t, respectively,
- R.
times t i
P,Pi = Partial pressure of the dry air 1
wnent of the i
containment atmosphere at times ti ard t,
i respectively, psia.
1 V,Vi = Containment free air volume at tires tiaM 1
t,respectivgly(constantorvariableduring i
the test), ft.
i l
t,tt = Time at 1st and ith data points respectively, hr.
i 2tt = Elapsed time fren ti to t, hr.
i R = Specific gas constant for air = 53.35 ft.lbf/1bm. *R.
Li = Measured leakage rate cct:puted during time f
interval t to t, wt.%/ day.
i y
A-3 l
To reduce truncation error, the carpater program uses the Os following equivalent for:nulation:
-2400 f aW )
i Li" I
ati (W1/
where Wi-W1 AWi W
N 1
1 aPiaVi ATi AVi api
+--+
P V
PV T
1 1
1i 1
=
aTi T1 api =Pi-P1 a vi = Vi-V1 ATi=Ti-T1 0
b.
Calculated leakage rate from regression analysis:
_L=a+ bat (5) g where L = Calculated leakage rate, wt.%/ day, as determined frcra the regression line.
a = (ILi - b I a t )/N (6) i N(IL at ) - (IL )(Iat )
i i
i i
b=
(7)
N(Iati ) - (I a t )2 2
i N = Nurber of data points.
N
- = "
i=1 c.
95% upper confidence limit on the calculated leakage rate:
UCL = a + b 'atg + S-A-4
O UCL = 95% upper confidence limit %t.%/ day, at elapsed time a t.
p For a tg < 24 1/2 i - b IL a t )/(N-2) J
- AIL S- = tsEIELi i
i
/
2 - (Sat )2/N)]l/2 (9a)
(1 + 1 + ( A tg - at) 2 ( S a ti i
N khere t = 1.95996 + 2.37226 + 2.82250 ;
s N-2 (N-2)d For atN 2 24 i - b S L at )/(N-2))W 2 - AIL S-
=t
((S Li i
i g
/
2 - (! t )2/N)]
1/2 (9b)
A t)2 ( Sati (1 + (ati-i N
1 1.6449(N-2)2 + 3.5283(N-2) + 0.85602
~/
where t
=
3 (N-2) 2 + 1.2209 (N-2) - 1.5162
_i = Calculated leakage rate corpated using equation (5) at j
L total elapsed time at, %/ day.
i Sati at
=
N 2.
Cci putation using the Mass Point Method:
a.
Centained mass of dry air from data:
Wi = 144 P Vii E
(10) 2, shere All syrbols as previously defined.
A-5
i b.
Calculated leakage rate frar regression analysis, W = a + b at f)
%/
E = -2400 b (11) a where calculated leakage rate, wt.%/ day, as determined frcm E
=
the regression line.
.(I Wi - b Iat )/N (12) i a
=
N(IW at ) - (IP.)(I At )
i i
i (13) b
=
N(Iati ) - (I at )#
d i
th ati= Ibtal elapsed time at time of i data point, hr.
th=ber of data points.
N
=
th contaM mass of dry air at i data point, ihn, Wi
=
as camputed from equation (10).
O I _
i=1 To reduce truncation error, the camputer program uses the following equivalent formulation:
b AWi
-S at )/N (14)
W 1 + (I a =
i 1
W W
1 1
aWi AWi at)-I Iati N (I i
W W
1 1
i (15) b W
=
N(Sati ) - (Iat )2 2
i where is as previously defined.
W1 c.
95% upper confidence limit.
-2400 p
UCL =
(b - S )
(16) 3 Q
a A-6
~ ~ + -
_.,__-y.,_,__,_m
(O where G
UCL = 95% upper confidence limit, wt %/ day.
SN1/2.
= t sb s (N Iat 2 - (Iat )2)1/2 (17) i i
1.6449 (N-2)2 + 3.5283 (N-2) + 0.85602
%here ts" (N-2)2 + 1.2209 (N-2) - 1.5162
~ S (Wi - (a + b at )]2 W i
N-2 I ( a W /W )2 _ g 3 ( 3 wig 1))2jn _
= W i 1 1
N-2
!( A W N )(Iat )/N]2 1/2
( S(AW /W ) a ti-i 1 i
i 1 O
(18)
I(a ti ) - (I a t )2/N 2
i d.
Predictor:
2 [(UCL-L) + 4 ( l Al + 2 S ) )
A 100 la khare UCL = 95% upper confidence limit of rass point calculated leakage rate at end of test.
L
= Pass point calculated leakage rate at'end of test, j
A
= 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, s
= Linear regression analysis standard deviation of slepe.
g Ia = Allcsable leakage rate.
In terrs of elapsed tire, a t and rgs point calculated leakage rate Imi calculated at the and of i time interval.
A-7
l j
. O Ini - B I att D
1 I
. (19)
A M
4 hr 4 hr
=
M I Inf ati-I bi I ati 4 hr 4 hr 4 hr (20)
B
=
M I a t,2
-I a t, 2' 1
1 4 hr 4 hr I
Ini - A I bi-B I b ati i
4 hr 4hr 4hr (21)
S
=
I at )2) g i - (4 hr (M-2] (M I at i
4 hr Ini mass point calculated leakage rate evaluated'using data
=
up to time a t.
i 4 hr = st=mation 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 Oc v
e
=
N-M&1 nteber 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.
M
=
~
1 Y
f I
i f
j i
A-8 i
i
,--,--=-.-n.
c-,-,n.,
,---,,me_,,,,-nn.y.,.
,,_v,.--,gy-wwn,-,~,,-,,,,
-,-mpm--e,,,--wn.w-r-e,--
,,v,
D. Fumaru Irnic
/^\\
(%/
1.
The Bechtel IIRT computer program logic flow is controlled by a set of user options. The user options and a brief description of their associated function are presented below.
OPTION cot?!AND FUNCTION After starting the program execution, the user either enters the name of the file containing previously entered data or initializes a nea data file.
DATA Enables user to enter raw data, khen the system requests values of time, volume, temperature, pressure and vapor pressure, the user enters the appropriate data. After completing the data entry, a summary is printed out. The user then verifies that the data were entered correctly.
If errors are detected, the user will then be given the opportunity to correct the errors. After the user verifies that the data were entered correctly, a Corrected Data Summary Report of time, data, average temperature, partial pressure of dry air, and water vapor pressure is printed.
TREND A Trend Report is printed.
TCfrAL A Total Time Report is printed.
!%SS A Mass Point Report is printed.
TEPM Enables user to sign-off temporarily or perranently. All data is saved on a file for restarting.
CORR Enables user to correct previously entered data, i
LIST A Su= mary Data Report is printed.
READ Enable the computer r.o receive the next set of data from the data acquisition system'directly.
PIUT Enables user to plot summary data, individual sensor data or air mass versus time.
DEIETE Enables user to delete a data point.
INSERT Enables user to reinstate a previously deleted data point.
VOIJPA Enable user to charge volume fractions.
A-9
)
i
A
(
OFFION CCMW D FUNCTION PRED A predictor report is printed.
TIME Enable the user to specify the time interval for a report or plot.--
VERF Enable the user to input irposed leakage rate and calculated IIRT leakage rates at start of.
verification test.
E. Canzter Reoort and Data Printout MASS POHTT REPORT The Mass Point Report presents leakage rate data (wt%/ day) as detemined by the Mass Point Method. The "Calculated Isakage Rate" is the value detemined from the regression analysis. The "Containment Air Mass" values are the masses of dry air in the containment (lbm). These air masses, detemined from the Equation of State, are used in the regression analysis.
TorAL TIME REPORT
(
The Total Time Report presents data leakage rate (wt%/ day) as determined by the Total Time Method. The "Calculated Isakage Rate" is the value detemined from the regression analysis. The 'Heasured Isakage Rates" are the leakage rate values detemined using Total Time calculations.
These values of leakage rate are used in the regression analysis.
TRHID REPORT The Trend Report presents leakage rates as detemined by the Mass Point and Total Time methods in percent of the initial contained mass of dry air per day (wt%/ day), versus elapsed time (hours) and nu:rber of data points.
FREDICIOR REFORT The prailctor reports prerants a predicted upper bound on the change in calculated rass point leakage rate over the next four hours.
SGHARY DATA REPDRr The Summary Data report presents the actual data used to calculate leakage rates by the various methods described in the Computer Program" section of this report. The seven columns are TIME, DrsTE, TDiP, FRESSURE, VFRS, VOILEE, and AIR 4 ASS and contain data defined as follows:
A-10 a
(V l.
TDIE:
Thne in 24-hour notation (hours and minutes).
2.
DATE:
Calendar date (month and day).
3.
TDiP:
Containment weighted-average drybulb temperature in absolute units, degrees Rankine ('R).
4.
FRESSURE:
Partial pressure of the dry air caponent of the containment atmosphere in absolute units (psia).
5.
VPRS:
Partial pressure of water vapor of the containment atmosphere in absolute units (psia).
6.
VOII24E:
Containment free air volume (cu. ft.).
7.
AIR 4 ASS:
Calculated dry air rass (1bm).
F. S= nary of Mared Data and Sin =aW of Corrected Data The Summary of Measured Data presents the individual containment atmosphere drybulb teq:eratures, dewpoint terperatures, absolute total pressure and free air volume measured at the time and dt.te.
1.
TH4P 1 through TD!P N are the drybulb temperatures, where N = No. of RrD's. The values in the right-hand column are terperatures (*F),
(V multiplied by 100, as read frcan the data acquisition system (DAS).
The values in the left-hand column are the corrected temperatures expressed in aosolute units (*R).
2.
PRES 1 thrtmgh PRES N are the total pressures, absolute, were N = No.
of pressure sensors. The right-hand value, in parentheses, is a number of counts as read from the DAS. This count value is converted to a value in psia by the caputer via the instrunent's calibration table, counts versus psia. The left-hard colurn is the absolute total pressure, psia.
3.
VPRS 1 through VPRS N are the deapoint temperatures (water vapor pressures), where N = No. of dewpoint sensors. The values in the right-hard column are temperatures ('F), multiplied by 100 as read frcm the DAS. The values in the left-hand column are the water vapor pressures (psia) from the steam tables for saturated steam corresponding to the dewpoint (saturation) temperatures in the center a
column.
The Summary of Corrected Data presented corrected temperature and pressure values and calculated air mass determined as follows:
1.
TC4PERATURE (*R) is the volume weighted average containment i
atmosphere drybulb terperature derived from TC{P 1 through TC4P N.
)
A-ll
kJ 2.
CORRECTED PRESSURE (psia) is the partial pressure of the dry air component of the containment atm sphere, absolute.
'Ihe volume weighted average containment atmosphere water vapor pressure is j
subtracted from the volume weighted average total pressure, yielding the partial pressure of the dry air.
3.
VAMR FRESSURE (psia) is,the volume knighted average containment atmosphere water vapor pressure, absolute, derived fram VPRS 1 through VPRS M.
4.
VOIlJME (cu. ft.) is the containment free air volume.
5.
CO7IADNENT AIR 1RSS (lbm) is the calculated mss of dry air in the containment.
'Ihe mass of dry air is calculated using the containment free air volume ard the above TEMPERAIURE and CORRECTED PRESSURE of the dry air.
G. LEAIGGE RATE CAILULATION VERIFICATION
'Ihe IIRT Camuter program leakage rate calculation is verified as follows:
1.
A hand verified IIRT data set is used to verify that the program
('\\,
calculates the correct mass point and total time leakage rates and UCL's V
for a given set of air masses.
Calculated leakage rates must agree within 0.001%/ day.
2.
After reaching test pressure, hand calculated weighted average ter:perature, pressure and vapor pressure and air mss for an actual data point are used to verify that the IIRT program calculates correct values for the parameters.
Calculated temperatures must agree within 0.001 degree R,
pressure ard vapor cressures within 0.001 psia and air mass within 1 lbm.
A-12 i
(-V 4
1 1
O APPDIDIX B IIRT Stabilization Summary Mta hpd O
O J
,,-_.-,.__._.,--.-.,,-_,,__._,____________,_,_-,.._,__.,-.__,__,_.,,,,,,m_,
()
ARKANSAS NUCLEAP. ONE UNIT 2
SUMMARY
DATA ALMAX
.100 VOLUME =
1780000.
=
VRATET =
.122 VRATEM =.124 TIME DATE TEMP PRESSURE VPRS VOLUME AIRMASS 1400 421 534.386 68.3848
.2943 1780000.0 614827.3-1417 421 534.341 68.3835
.2937 1780000.0 614866.2 1430 421 534.302 68.3803
.2944 1780000.0 614882.6 1445 421 534.247 68.3779
.2937 1780000.0 614924.8 1500 421 534.206 68.3741
.2955 1780000.0 614937.4 1515 421 534.168 68.3713
.2958 1780000.0 614956.5-1530 421 534.142 68.3720
.2937 1780000.0 614991.9
.1545 421 534.105 68.3705
.2931 1780000.0 615021.1 1600 421 534.055 68.3693
.2923 1780000.0 615068.5 1615 421 534.013 68.3724
.2877 1780000.0 615144.2 1630 421 533.840 68.3555
.2825 1780000.0 615192.4 1645 421 533.589 68.3272
.2873 1780000.0 615226.2 1700 421 533.465 68.3196
.2904 1780000.0 615300.3 1715 421 533.487 68.3195
.2899 1780000.0 615273.8 1730 421 533.496 68.3206
.2898 1780000.0 615273.9 1745 421 533.511 68.3221
.2893 1780000.0 615269.8 1800 421 533.536 66.3237
.2892 1780000.0 615256.3 l
1815 421 533.545 68.3252
.2892 1780000.0 615258.5 O-1830 421 533.572 68.3267
.2893 1780000.0 615241.2 1845 421 533.632 68.3288
.2886 1780000.0 615191.6 1900 421 533.590 68.3303
.2881 1780000.0 615253.7 1915 421 533.594 68.3319
.2880 1780000.0 615263.1 1930 421 533.621 68.3334
.2876 1780000.0 615245.5 1945 421 533.640 68.3346
.2879 1780000.0 615234.0 2000 421 533.642 68.3360
.2875 1780000.0 615243.9 i
2015 421 533.669 68.3366
.2874 1780000.0 615218.5 2030 421 533.674 68.3379
.2876 1780000.0 615224.4 2045 421 533.685 68.3384
.2876 1780000.0 615216.1 2100 421 533.693 68.3392
.1878 1780000.0 615214.8 2115 421 533.700 68.3411
.2874 1780000.0 615222.7 2130 421 533.710 68.3424
.2871 1780000.0 61f223.3 9
ARKANSAS NUCLEAR ONE UNIT 2 TEMPERATURE STABILIZATION FROM A STARTING TIME AND DATE OF:
1400 421 1988 TIME TEMP ANSI BN-TOP-1 (HOURS)
(*R)
AVE A T AVE A T DIFF AVE A T (4 HRS)
(1HR)
(2 HRS)
.00 534.386
.28 534.341
.50 534.302
.75 534.247 1.00 534.206 1.25 534.168 1.50 534.142
~
1.75 534.105 2.00 534.055
.166*
2.25 534.013
.167*
2.50 533.840
.231*
2.75 533.58e
.329*
3.00 533.469
.371*
3.25 533.407
.340*
3.50 533.496
.323*
O 3.75 533.511
.297*
s/
4.00 533.536
.212
.071
.283*
.259*
4.25 533.545
.201
.058
.258*
.234*
4.50 533.572
.182
.076
.258*
.134*
4.75 533.632
.154
.120
.274*
.021*
5.00 533.590
.154
.054
.208*
.062*
5.25 535.594
.143
.049
.192*
.053*
5.50 533.621
.130
.049
.179*
.0622 5.75 533.640
.116
.008
.125*
.064*
6.00 533.642
.103
.053
.156*
.053*
6.25 533.669 086
.075
.161*
.062*
6.50 533.674 041
.053
.095*
.051*
6.75 533.685
.024
.045
.021*
.027*
7.00 533.693
.057
.050
.006*
.052*
7.25 533.700
.053
.031
.022*
.053*
7.50 533.710
.054
.036
.018*
.045*
- INDICATES TEMPERATURE STABILIZATION HAS BEEN SATISFIED l
l
en
.v 4
d a
m 1
APPEDIX C i
IIRT Summary Enta Report J
l l
i l
i l
l i
(
ARKANSAS NUCLEAR ONE UNIT 2
SUMMARY
DATA ALMAX
.100 VOLUME =
1780000.
=
VRATET =
.122 VRATEM =.124 TIME DATE TEMP PRESSURE VPRS VOLUME AIRMASS 2130 421 533.710 68.3424
.2871 1780000.0 615223.3 2145 421 533.729 68.3447
.2868 1780000.0 615222.3 2200 421 533.738 68.3449
.2866 1780000.0 615213.9 2215 421 533.750 68.3451
.2869 1780000.0 615201.6 2230 421 533.760 68.3454
.2866 1780000.0 615193.3 2245 421 533.751 68.3463
.2862 1780000.0 615211.2 2300 421 533.767 68.3468
.2867 1780s M.0 615197.6 2315 421 533.777 68.3476
.2864 1780000.0 615193.4 2330 421 533.777 68.3486
.2859 1780000.0 615202.6 2345 421 533.788 68.3488
.2862 1780000.0 615190.8 0
422 533.795 68.3503
.2857 1780000.0 615197.3 15 422 533.809 68.3501
.2859 1780000.0 615179.1 30 422 533.807 68.3512
.2854 1780000.0 615190.3 45 422 533.806 68.3514
.2861 1780000.0 615194.1 100 422 533.818 68.3525
.2855 1780000.0 615190.1 4
115 422 533.832 68.3523
.2858 1780000.0 615171.7 130 422 533.834 68.3533
.2857 1780000.0 615179.4 145 422 533.843 68.3537
.2853 1780000.0 615172.4
(
200 422 533.850 68.3553
.2853 1780000.0 615177.4
's 215 422 533.851 68.3562
.2854 1780000.0 615185.1 230 422 533.867 68.3569
.2857 1780000.0 G15173.0 245 422 533.874 68.3571
.2854 1780000.0 615166.5 300 422 533.880 68.~3579
.2856 1780000.0 615167.2 315 422 533.888 68.3588
.2852 1780000.0 615165.8 330 422 533.881 68.3591
.2849 1780000.0 615176.4 345 422 533.878 68.3596
.2850 1780000.0 615184.1 400 422 533.895 68.3607
.2844 1780000.0 615175.1 415 422 533.903 68.3617
.2848 1780000.0 615175.1 430 422 533.914 68.3622
.2844 1780000.0 615165.8 445 422 533.929 68.3639
.2846 1780000.0 615164.6 500 422 533.925 68.3640
.2846 1780000.0 615170.6 515 422 533.930 68.3644
.2847 1780000.0 615167.1 530 422 533.940 68.3652
.2849 1780000.0 615164.3 O
a
-.aaa-a a.
as-1 w-m----
- - - - - -w-
.-e2 a,sm:
a,_ _
__-w_,
g a
m APPDIDIX D IIRT Calculations
}
i l
i I
i 4
i l
[
i ARKANSAS NUCLEAR ONE UNIT 2 LEAKAGE RATE (WEIGHT PERCENT / DAY)
MASS POINT ANALYSIS TIME AND DATE AT START OF TEST: 2130 421 1988 TEST DURATION:
8.00 HOURS i
TIME TEMP PRESSURE CTMT. AIR MASS-LOSS AVERAGE MASS (R)
(PSIA)
MASS (LBM)
(LBM)
LOSS (LBM/HR) 2130 533.710 68.3424 615223.3 2145 533.729 68.3447 615222.3 1.0 4.0 2200 533.738 68.3449 615213.9 8.4-18.8 2215 533.750 68.3451 615201.6 12.4 29.0 2230 533.760 68.3454 615193.3 8.3 30.1 2245 533.751 68.3463 615211.2
-18.0 9.7 l
2300 533.767 68.3468 615197.6 13.6 17.1 2315 533.777 68.3476 615193.4 4.2 17.1 2330 533.777 68.3486 615202.6
-9.2 10.4 2345 533.788 68.3488 615190.8 11.9 14.5 0
533.795 68.3503 615197.3
-6.6 10.4 15 533.809 68.3501 615179.1 18.2 16.1 30 533.807 68.3512 615190.3
-11.2 11.0 45 533.806 68.3514 615194.1
-3.9 9.0 100 533.818 68.3525 615190.1 4.0 9.5
()
115 533.832 68.3523 615171.7 18.4 13.8 j
130 533.834 68.3533 615179.4
-7.7 11.0 145 533.843 68.3537 615172.4 6.9 12.0 i
)l 200 533.850 68.3553 615177.4
-4.9 10.2 215 533.851 68.3562 615185.1
-7.7 8.1 230 533.867 68.3569 615173.0 12.0 10.1 245 533.874 68.3571 615166.5 6.5 10.8 300 533.880 68.3579 615167.2
.7 10.2 315 533.888 68.3568 615165.8 1.3 10.0 330- 533.881 68.3591 615176.4
-10.6 7.8 l
345 533.878 68.3596 615184.1
-7.7 6.3
]
400 533.895 68.3607 615175.1 9.0 7.4 415 533.903 68.3617 615175.1
.0 7.1 430 533.914 68.3622 615165.8 9.3 8.2 4
1 445 533.929 68.3639 615164.6 1.2 8.1 500 533.925 68.3640 615170.6
-6.0 7.0 515 533.930 68.3644 615167.1 3.5 7.3 530 533.940 68.3652 615164.3 2.8 7.4 FREE AIR VOLUME USED (CU. FT.)
=1780000.0 REGRESSION LINE INTERCEPT (LBM)
= 615209.8 S LOPE (LBM/HR)
-6.2
=
MAXIMUM ALLOWABLE LEt7 AGE RA?E
.100
=
75% OF MAXIMUM AL"
'E LEAV?CE RATP.
.075
=
THE UPPER 95% CON' iIMI'1
.028 4
=
)
THE CALCULATED 1
.024
=
i ARKANSAS NUCLEAR ONE UNIT 2 LEAKAGE RATE (WEIGHT PERCENT / DAY)
TOTAL TIME ANALYSIS TIME AND DATE AT START OF TEST: 2130 421 1988 TEST DURATION:
8.00 HOURS TIME TEMP PRESSURE MEASURED (R)
(PSIA)
LEAKAGE RATE 2130 533.710 68.3424 2145 533.729 68.3447
.016 2200 533.738 68.3449
.073 2215 533.750 68.3451
.113 2230 533.760 68.3454
.117 2245 533.751 68.'3463
.038 2300 533.767 68.3468
.067 2315 533.777 68.3476
.067 2330 533.777 68.3486
.040 2345 533.788 68.3488
.056 O
533.795 68.3503
.041 15 533.809 68.3501
.063 30 533.807 68.3512
.043 45 533.806 68.3514
.035 100 533.818 68.3525
.037 O
115 533.832 68.3523
.054 130 533.834 68.3533
.043 145 533.843 68.3537
.047 200 533.850 68.3553
.040 215 533.851 68.3562
.031 230 533.867 68.3569
.039 245 533.874 68.3571
.042 i
300 533.880 68.J579
.040 315 533.888 68.3588
.039 330 533.881 68.3591
.031 345 533.878 68.3596
.024 400 533.895 68.3607
.029 415 533.903 68.3617
.028 430 533.914 68.3622
.032 445 533.929 68.3639
.032 500 533.925 68.3640
.027 515 533.930 68.3644
.028 530 533.940 68.3652
.029 MEAN OF THE MEASURED LEAKAGE RATES
.045
=
MAXIMUM ALLOWABLE LEAKAGE RATE
.100
=
J 75% OF MAXIMUM ALLOWABLE LEAKAGE RATE
.075
=
THE UPPER 95% CONFIDENCE LIMIT
.062
=
THE CALCULATED LEAKAGE RATE
.022
=
0 1
1 i
()
ARKANSAS NUCLEAR ONE UNIT 2 TREND REPORT TIME AND DATE AT START OF TEST: 2130 421 1988 i
NO.
END TOTAL TIME ANALYSIS MASS POINT ANALYSIS PTS TIME MEAS. CALCULATED UCL CALCULATED UCL-2 2145
.016
.016 99.000
.016 99.000 3
2200
.073
.073 99.000
.073
.358 4
2215
.113
.116
.187
.115
.198 5
2230
.117
.132
.228
.126
.168 6
2245
.038
.089
.281
.071
.143 7
2300
.067
.082
.230
.067
.115 8
2315
.067
.077
.200
.065
.100 9
2330
.040
.063
.174
.050
.081 10 2345
.056
.060
.159
.050
.074
^
11 0
.041
.052
.142
.043
.064 12 15
.063
.054
.137
.048
.066 13 30
.043
.050
.127
.044
.060 14 45
.035
.044
.117
.038
.053 15 100
.037
.040
.109
.035
.048 16 115
.054
.042
.107
.039
.051 17 130
.043
.040
.102
.038
.049 18 145
.047
.040
.100
.039
.048 O
19 200
.040
.038
.095
.038
.046 3
20 215
.031
.035
.090
.034
.042 21 230
.039
.034
.088
.034
.041 22 245
.042
.034
.086
.035
.041 23 300
.040
.034
.084
.034
.041 24 315
.039
.033
.082
.034
.040 25 330
.031
.031
.079
.032
.038 26 345
.024
.029
.075
.029
.035 27 400
.029
.027
.072
.028
.033 28 415
.028
.026
.070
.027
.032 29 430
.032
.025
.068
.026
.031 30 445
.032
.025
.067
.026
.031 31 500
.027
.024
.065
.025
.030 32 515
.028
.023
.063
.025
.029 33 530
.029
.022
.062
.024
.028 i
I
ma m--
mano mmasauunme _ esp a mmnam=m m-, - -
1 sm--.weww.,,,,nn.m usw-,+.sn-,,,,,a e
eeue w--2 e u e m.-a 2 m-e a-ra2 aa.eaea m -m sw. a.-
s waa.assmns n-a 21 --an= a w =
s uw asa nsa l
e 1
APPENDIX E l
IIRT Plot Tenperature vs. Time Pressure vs. Time Vapor Pressure vs. Time Air Mass vs. Time Mass Point Isakage Rate vs. Time 1
Total Time Isakage Rate vs. Time i
i b
4 1
P, b
l 1
i t
f d
4 d
1 1
4 I
j l
diI-
O O
O ARKANSAS NUCLEAR ONE UNIT 2
TEMPERATURE DEGREES F (AUERAGE) 74.700~\\
'\\
l l
74.500
/
i
'4 RECIRCULATION
_7 FANS ON
/
74.300-l
., - /
1
/
74.100~
_7 j
./
i
_/
\\
./
73.900~
~
1 73.700 1
- 400 421 TIME HOUES 1945 422 l
j START TIME DATE END TIME DATE l
O O
O ARRANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 1
DEGREES F 80.000
'\\
s\\
1
~\\
j 78.000-1
\\.
.l 76.000 74.000" B
4 l
72.000-l i
70.000
- .400 421 TIME HOURS 1945 422 -
i i
START TIME DATE END TIME DATE l
l
\\
O O
O i
i AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 2
DEGREES F 80.000 4
\\
i
\\
78.000-~(
\\
76.000
,q i
~
j s.-
74.000" i
72.000" I
70.000 t
.400 421 TIME HOURS 1945 422 START TIME DATE END TIME DATE
O O
O AREANSAS NUCLEAR ONE UNIT 2
I TEMPERATURE SENSOR 3
DEGREES F
80.000 1
\\
78.000
\\.
i
\\
76.000 l
\\___
74.000-i l
72.000-i 70.000
.400 421 TIME HOUES 1945 422 l
START TIME DATE END TIME DATE l
j
O O
O AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 4 DEGREES F 80.000 l
g l
\\
s 78.000~~\\
i
\\
\\
76.000~
~
l b _ __._ ___m__
s_
74.000~
~
i i
~
72.000~
D 70.000
. 40El 421 TIME HOURS 1945 422 START TIME DATE END TIME DATE i
O O
O ARKANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 5
DEGREES F
i 80.000 1
78.000 76.000
~-
~
- 74. BOO" /
/
l l
72.000" B
70.000 i
- _400 421 TIME HOURS 1945 422 l
START TIME DATE END TIME DATE
O O
O AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 6
DEGREES F 80.800 78.000
\\
\\
76.000
(__
l 74.000" l
72.000" l
70.800 i
- _400 421 TIME HOUES 1945 422 i
START TIME DATE END TIME DATE i
O O
O AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 7
DEGREES F 80.800 78.000 j
76.000 j
l 74.000~.f ^
i 72.000-70.000
- 400 421 TIME HOURS 1945 422 4
l START TIME DATE END TIME DATE i
l l
l O
O O
AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 8
DEGREES F
80.000 78.000 l
76.000
~~~
74.000"[M - --
j 72.000" 70.000
.400 421 TIME HOUES 1945 422 l
START TIME DATE END TIME DATE 4
O O
O ARRANSA>
NUCLEAR ONE UNIT 2
TEMPERAluRE SENSOR 9
DEGREES F
80.000 78.000-
~
N, N
l 76.000-~\\,
~
74.000-
- 72. 000~
~
i 70.800 l
- _400 421 TIME HOUF:S 1945 422 START TIME DATE END TIME DATE
O O
O AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 10 DEGREES F 80.800 78.000
~
1 l
76.000~
L l
74.000"
,._7-1
./
f 72.800 70.000
- .400 421 TIME HOUFS 1945 422 START TIME DATE END TIME DATE I
O O
O AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 11 DEGREES F 80.800 1
l 78.000 i
l 76.200 i
r~
74.000" i
72.000~
~
70.800
.400 421 TIME HOUES 1945 422 START TIME DATE END TIME DATE j
I
l O
O O
ARRANSAS NUCLEAR ONE UNIT 2
l TEMPERATURE SENSOR 12 DEGREES F
80.000 78.000 l
76.000
__.s l
74.000"/~
i 72.000~
70.000
- _400 421 TIME HOURS 1945 422 i
START TIME DATE END TIME DATE 4
l
O O
O AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 13 DEGREES F
80.000 l
l 78.000 76.000:
~
74.000~
7 --
c
/
./
l 72.000~/
4 1
70.000 l
__400 421 TIME HOUES 1945 422 l
START TIME DATE END TIME DATE
O O
O I
AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 14 DEGREES F 80.800 1
78.000
~
76.000 i
74.000"
_c-f p/
72.000-70.000 i
- .400 421 TIME HOUES 1945 422 i
START TIME DATE END TIME DATE i
1
O O
O ARRANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 15 DEGREES F 80.000 78.000 l
l 76.000-
~
B l
74.000-l l
(_
l 72. 000~~/
70.000
.400 421 TIME HOUES 1945 422 START TIME DATE END TIME DATE
O O
O AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 16 DEGREES F
80.800 1
78.000~
~
i i
76.000 4
l 74.000"
~~
i 72.000"
/~
l l
70.800
~
__400 421 TIME HOUFS 1945 422 START TIME DATE END TIME DATE 4
i
O O
O l
AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 17 DEGREES F 78.000 76. 000~
~
l i
74.000" 72.000 j
\\
i 70.000", _ _
f 68.800
.400 421 TIME 11OUES 1945 422 START TIME DATE END TIME DATE I
I
O O
O AREANSAS NUCLEAR ONE UNIT 2
TEMPERATURE SENSOR 18 DEGREES F
78.000 l
76.000 l
74.000
~
l 72.000"
- - ^ ' " ~
, _ _ ~, ^
v e
ml
~~~~\\
70.000"f i
68.000
- _400 421 TIME HOUFS 1945 422 START TIME DATE END TIME DATE i
l
O O
O ARRANSAS NUCLEAR ONE UNIT 2
PRESSURE PSIA (DRY AIR) 68.400 68.380"\\
\\_,,,
RECIRCULTATION FANS ON s__
. r-68.360 c-i
.r' r
~
/
l 68.340"
/
/
/
l 68.320" 68.300
.400 421 TIME HOUES 1945 422 START TIME DATE END TIME DATE 1
AREANSAS NUCLEAR ONE UNIT 2
PRESSURE SENSOR 1 PSIA 68.680 68. 6 60~\\\\
N l
68.640 l
.7 68.620" J
/
.J l
/
l 68.600"
,/
l l
68.580
__400 421 TIME HOURS 1945 422 START TIME DATE END TIME DATE
O O
O ARRANSAS NUCLEAR ONE UNIT 2
PRESSURE SENSOR 2 PSIA 68.700
\\'Ns
\\-
68.680-S 68.660 j
1
. r-l 68.640"
/
j
\\/
l 68.620~
4 68.600
.400 421 TIME HOURS 1945 422
{
START TIME DATE END TIME DATE
O O
O ARRANSAS NUCLEAR ONE UNIT 2
UAPOR PRESSURE PSIA
.300 1
l
.295 %[
D
~
.290 1
v_,-s.
'W%% t_. _
.285" W '^-* vvX.e i
1
.280" l
.275
- .400 421 TIME HOURS 1945 422 i
START TIME DATE END TIME DATE
o o
o AREANSAS NUCLEAR ONE UNIT 2
UAPOR PRESSURE PSIA j
.300
.295 ~[
B i
i
.290
[~s I
I
~\\^- -x.
V"v\\
l
.285-
~\\
^*'vvs_,4 I
i l
.280~
l
.275 i
__400 421 TIME HOURS 1845 422 l
START TIME DATE END TIME DATE i
l l
O O
O AREANSAS NUCLEAR ONE UNIT 2
DEWPOINT TEMPERATURE SENSOR 1
DEG.
F 70.800 l
68.000 i
l 66.000 l
i 1
64.000-1 i
62.000-60.000
- 400 421 TIME HOURS 1945 422 START TIME DATE END TIME DATE i
O O
O l
AREANSAS NUCLEAR ONE UNIT 2
DEWPOINT TEMPERATURE SENSOR 2
DEG.
F 68.000s_ w 5
- 66. BOO
~
64.000
[N___
~
-^
-x -t_ __ s,w____ _,_____
_ g__,_
l-62.000-
~
l 60.000" i
58.000 l
- .400 421 T1ME HOUES 1945 422 START TIME DATE END TIME DATE i
O O
O AREANSAS NUCLEAR ONE UNIT 2
DEWPOINT TEMPERATURE SENSOR 3
DEG.
F 68.000 66.000
^
r'
-s-64.000~
-s 62.000" 60.000" 5
58.800
.400 421 TIME HOURS 1845 422 START TIME DATE END TIME DATE
O O
O
~
AREANSAS NUCLEAR ONE UNIT 2
DEWPOINT TEMPERATURE SENSOR 4 DEG.
F
)
68.000 4
s 66.000
~
64.000
~
- 62. BOO ~
i
/'
_~ -
60.000~
['
s u ___,
\\
'"T__,),
l 58.000
__400 421 TIME HOUES 1945 422 4
l START TIME DATE END TIME DATE 1
O O
O AREANSAS NUCLEAR ONE UNIT 2
DEWPOINT TEMPERATURE SENSOR 5
DEG.
F 68.000 1
66.000
~
1 64.000~
v s
-_-v_ -,__ - __ ^ - ^- -vv -
~
^ '-
i
- s. ___
l 62.000 i
l 60.000" l
l 58.800
. 400 421 TIME HOURS 1945 422 START TIME DATE END TIME DATE
\\
l
O O
O l:
AREANSAS NUCLEAR ONE UNIT 2
l DEWPOINT TEMPERATURE SENSOR 6
DEG.
F 68.000 66.200
~
e 64.000 i
v
__ m _ w-j
~~--
.r- %Q___f%<%
r.__._,
i 62.200
.e s.g 1
i 60.200-I 1
)
58.000
- 400 421 TIME HOUFlS 1945 422 START TIME DATE END TIME DATE l
O O
O ARKANSAS NUCLEAR ONE UNIT 2
AIRMASS LBM X 1000 615.30 s
%,9RECIRCULATIONFANSON
/ \\vi ^'t-I LRT f
615.20
~d ~
v 1.s q,
_ _\\
y 615.10 STABILIZATION b
615.00" l
<x
)
UERIFICATION 614.90" 614.80 I
__400 421 TIME HOURS 1945 422 START TIME DATE END TIME DATE
O O
O AREANSAS NUCLEAR ONE UNIT 2
AIRMASS LBM X 1000 AND REGRESSION LINE TEST DURATION
=
8 HOURS 615.22 N
._ \\
~ 5f ~f%,_[ b
~
l 615.19
~.__
%x
/
_/
)
__,./
~
- _, ~
615.16
~__
~
i j
l j
_-__~
l 615.12"
~-__
0.75 La
~.
_~ ~ ~,
j
-_~ ~ ~ -.
615.09" j
~-__'
l 615.96 t
i 2.1.2:0 421 TIME HOURS 52:0 422 l
START TIME DATE END TIME DATE 1
f I
O O
O 1
AREANSAS NUCLEAR ONE UNIT 2
AIRMASS LBM X 1000 AND REGRESSION LINE UERIFICATION TEST 4 HOURS 1
615.147
'\\
M Ei
\\,
615.11
- g l
-;--g
-d-LOWER
~~ -5:h
_~~~
~~~ -
LIMIT i
l 615.08
._ N
,i
)
1
)
615.05"
~
~
~~~
s.'
UPPER
~~.'N i
LI MI T ~~. N j
l 615.02-1 l
~ ~ -.
~~ -.s
~%_ _
614.99i
~~-.
645 422 TIME HOUFlS 1945 422 START TIME DATE END TIME DATE i
l
O O
O ARKANSAS NUCLEAR ONE UNIT 2
MASS POINT LEAEAGE RATE AND UCL X/ DAY
.300 i
~
.240 i
I
.180
)
~.
s
-1~8 i
i
'.~.
.120" l
l N
0.75 La l
(
'~-
(
g i
.060" N
95X UCL l
l RATE--
l
.000 c
212:0 421 TIME HOURS 52:0 422 START TIME DATE END TIME DATE
O O
O ARKANSAS NUCLEAR ONE UNIT 2
TOTAL TIME LEAKAGE RATE AND UCL X/ DAY
.300
~is e
.I i
.240
/
1:
/
8 i
~:
s I
.180
'\\..\\....
~
95% UCL j
/
..it.2 0~
~ ~ -
(
0.75 La
,l l
.060-
~
RATE
.000 2130 421 TIME HOURS 530 422 i
START TIME DATE END TIME DATE k
O O
O ARKANSAS NUCLEAR ONE UNIT 2
MASS POINT LEAKAGE RATE X/ DAY UERIFICATION TEST
.200 D
.160 UPPER LIMIT B
' ~~
.120 RATE LOWER LIMIT i
.040"
{
.000- 645 422 TIME HOUES 1845 422 i
l START TIME DATE END TIME DATE
+- -
O O
O AREANSAS NUCLEAR ONE UNIT 2
TOTAL TIME LEAEAGE RATE X/ DAY UERIFICATION TEST
.200
.160 UPPER LIMIT l
.120 RATE
~ ~ ~
LOWER LIMIT
.080
.,/
I
. 040~
~
l
.000 645 422 TIME HOURS 1945 422
]
START TIME DATE END TIME DATE
1 l
i APPDIDIX F Verification Flw Test Sunmn,/ Ibta Report 1
1 1
6 1
O-ARKANSAS NUCLEAR ONE UNIT 2
SUMMARY
DATA
.100 VOLUME =
1780000.
ALMAX
=
VRATET =
.122 VRATEM =.124 TIME DATE TEMP PRESSURE VPRS VOLUME AIRhiASS 545 422 533.944 68.3655
.2851 -1780000.0 615161.5 600 422 533.952 68.3651
.2855 1780000.0 615148.9 615 422 533.959 68.3655
.2850 1780000.0 615145.0 630 422 533.973 68.3658
.2848 1780000.0 615130.6 645 422 533.968 68.3655
.2851 1780000.0 615134.4 700 422 533.984 68.3653
.2852 1780000.0 615114.5 715 422 533.979 68.3659
.2847
-1780000.0 615125.5 730 422 533.987 68.3655
.2851 1780000.0 615112.1 745 422 533.996 68.3658
.2848 1780000.0 615104.8 800 422 533.999 68.3662
.2844 1780000.0 615104.9 815 422 534.005 68.3650
.2850 1780000.0 615087.1 830 422 534.014 68.3658
.2848 1780000.0 615084.6 845 422 534.020 68.3664
.2842 1780000.0 615082.4 900 422 534.027 68.3655
.2851 1780000.0 615066.6 915 422 534.041 68.3659
.2847 1780000.0 615053.9 930 422 534.053 68.3665
.2841 1780000.0 615044.9 945 422 534.050 68.3666
.2840 1780000.0 615049.1 1000 422 534.071 68.3663
,2843 1780000,0 615023.1 0
1015 422 534.080 68.3666
.2845 1780000.0 615015.8 1030 422 534.094 68.3664
.2847 1780000.0 614996.7 1045 422 534.099 68.3671
.2840 1780000.0 614997.1
($)
j
APPENDIX G Verification Flow 'Ibst Calculations Mass Point Analysis Total Time Analysis O
l O
_______.__4
ARKANSAS NUCLEAR ONE UNIT 2 LEAKAGE RATE (WEIGHT PERCENT / DAY)
MASS POINT ANALYSIS TIME AND DATE AT START OF TEST:
645 422 1988 TEST DURATION:
4.00 HOURS TIME TEMP PRESSURE CTMT. AIR MASS LOSS AVERAGE MASS (R)
(PSIA)
MASS (LBM)
(LBM)
LOSS (LBM/HR) 645 533.968 68.3655 615134.4 700 533.984 68.3653 615114.5 19.9 79.7 715 533.979 68.3659 615125.5
-11.0 17.9 730 533.987 68.3655 615112.1 13.3 29.7 745 533.996 68.3658 615104.8 7.3 29.6 800 533.999 68.3662 615104.9
.1 23.6 815 534.005 68.3650 615087.1 17.8 31.5 830 534.014 68.3658 615084.6 2.6 28.5 845 534.020 68.3664 615082.4 2.2 26.0 900 534.027 68.3655 615066.6 15.8 30.2 915 534.041
'68.3659 615053.9 12.7 32.2 930 534.053 68.3665 615044.9 9.0 32.5 945 534.050 68.3666 615049.1
-4.1 28.5 1000 534.071 68.3663 615023.1 26.0 34.3 1015 534.080 68.3666 615015.8 7.3 33.9
[~')
1030 534.094 68.3664 614996.7 19.1 36.7
'd 1045 534.099 68.3671 614997.1
.5 34.3 FREE AIR VOLUME USED (CU. FT.)
=1780000.0 REGRESSION LINE INTERCEPT (LBM)
= 615139.5 S LOPE (LBM/HR)
-34.5
=
VERIFICATION TEST LEAKAGE RATE UPPER LIMIT =
.149 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT =
.099 THE CALCULATED LEAKAGE RATE
.134
=
O
O ARKANSAS NUCLEAR ONE UNIT 2 LEAKAGE RATE (WEIGHT PERCENT / DAY)
TOTAL TIME ANALYSIS TIME AND DATE AT START OF TEST:
645 422 1988 TEST DURATION:
4.00 HOURS TIME TEMP PRESSURE MEASURED (R)
(PSIA)
LEAKAGE RATE 645 533.968 68.3655 700 533.984 68.3653
.311 715 533.979 68.3659
.070 730 533.987 68.3655
.116 745 533.996
.68.3658
.115 800 533.999 68.3662
.092 815 534.005 68.3650
.123 830 534.014 68.3658
.111 845 534.020 68.3664
.102 900 534.027 68.3655
.118 915 534.041 68.3659
.126 930 534.053-68.3665
.127 945 534.050 68.3666
.111 1000 534.071 68.3663
.134 1015 534.080 68.3666
. 132 0
1030 534.094 68.3664
.143 1045 534.099 68.3671
.134 MEAN OF THE MEASURED LEAKAGE RATES
.129
=
VERIFICATION TEST LEAKAGE RATE UPPER LIMIT =
.147 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT =
.097 THE CALCULATED LEAKAGE RATE
.116
=
i J
l APPDIDIX H Summary Data Sheets l
l l
l 1
i 1
()
GUMMARY OF MEASURED DATA AT 1400' 421 TEMP
'l = 539.2700
(
79.600 )
TEMP 2 = 539.1000
(
79.430 )
TEMP 3 = 538.8700
(
79.200 )
TEMP 4 = 539.0600
(
79.390 )
TEMP 5 = 532.7100
(
73.040 )
TEMP 6 = 537.3100
(
77.640 )
TEMP 7 = 533.3800~
(
73.710 )
TEMP 8 = 532.3200
(
72.650 )
TEMP 9 = 536.8300
(
77.160 )
TEMP 10 = 531.6200
(
71.950 )
TEMP 11 = 532.3500
(
72.680 )
TEMP 12 = 532.8300
(
73.160 )
TEMP 13 = 531.2000
(
71.530 )
TEMP 14 = 530.6000
(
70.930 )
TEMP 15 = 530.6300
(
70.960 )
TEMP 16 = 530.1400
(
70.470 )
TEMP 17 = 528.6100
(
68.340 )
TEMP 18 = 528.8500
(
69.180')
PRES 1=
68.6630
( 69171.0 )
PRES 2=
68.6954
( 67591.0 )
()
VPRS 1=
.3420
(
68.270 )
VPRS 2=
.3380
(
67.920 )
VPRS 3=
.2971
(
64.210 )
VPRS 4 =
.2415
(
58.360 )
VPRS 5=
.2771
(
62.220 )
VPRS 6=
.2703
(
61.520 )
SUMMARY
OF CORRECTED DATA TIME = 1400 DATE =
421 TEMPERATURE (DEGREES R.)
534.3857
=
CORRECTED PRESSURE (PSIA) 68.3848
=
VAPOR PRESSURE (PSIA)
.2943
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 614827.3
=
0
\\
\\
h
SUMMARY
OF MEASURED DATA AT 1417 421 TEMP 1 = 538.6100
(
78.940 )
TEMP 2 = 538.4500
(
78.780 )
TEMP 3 = 538.3100
(
78.640 )
TEMP 4 = 538.4500
(
78.780 )
TEMP 5 = 533.0400
(
73.370 )
TEMD 6 = 536.9300
(
77.260 )
TEMP 7 = 533.2400
(
73.570 )
TEMP 8 = 532.5900
(
72.920 )
TEMP 9 = 536.5600
(
76.890 )
l TEMP 10 = 532.1300
(
72.460 )
l TEMP 11 = 532.7700
(
73.100 )
TEMP 12 = 533.2100
(
73.540 )
TEMP 13 = 531.6600
(
71.990 )
l TEMP 14 = 531.0800
(
71.410 )
TEMP 15 = 530.9600
(
71.290 )
TEMP 16 = 530.4300
(
70.760 )
TEMP 17 = 528.8800
(
69.210 )
TEMP 18 = 529.1200
(
69.450 )
PRES 1=
68.6610
( 691.69.0 )
PRES 2=
68.6934
( 67S89.0 )
}
}
VPRS 1=
.3433
(
68.380 )
h VPRS 2=
.3355
(
67.710 )'
VPRS 3=
.2946
(
63.960 )
VPRS 4=
.2434
(
58.570 )
VPRS 5=
.2772
(
62.230 )
VPRS 6=
.2684
(
61.320 )
I f
SUMMARY
OF CORRECTED DATA l
TIME = 1417 DATE =
421 TEMPERATURE (DEGREES R.)
534.3410
=
CORRECTED PRESSURE (PSIA) 68.3835
=
VAPOR PRESSURE (PSIA)
.2937
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 614866.2 l
=
\\
IID l
l
()
SUMMARY
OF MEASURED DATA AT 1430 421 TEMP 1 = 538.1900
(
78.520 )
TEMP 2 = 538.0800
(
78.410 )
TEMP 3 = 537.9400
(
78.270 )
TEMP 4 = 538.0800
(
78.410 )
TEMP 5 = 533.2300
(
73.560 )
TEMP 6 = 536.6500
(
76.980 )
TEMP 7 = 533.2500
(
73.580 )
TEMP 8 = 532.7600
(
73.090 )
TEMP 9 = 536.3700
(
76.700 )
TEMP 10 = 532.3800
(
72.710 )
TEMP 11 = 532.9600
(
73.290 )
TEMP 12 = 533.4000
(
73.730 )
TEMP 13 = 531.8700
(
72.200 )
TEMP 14 = 531.3000
(
71.630 )
TEMP 15 = 531.2000
(
71.530 )
TEMP 16 = 530.6100
(
70.940 )
j TEMP 17 = 529.0100
(
69.340 )
1 TEMP 18 = 529.3200
(
69.650 )
PRES 1=
68.6590
( 69167.0 )
PRES 2=
68.6903
( 67586.0 )
/~N VPRS 1=
.3438
(
68.420 )
i (m)
VPRS 2=
3361
(
67.760 )
VPRS 3=
.2941
(
63.920 )
VPRS 4=
.2443
(
58.680 )
VPRS 5=
.2774
(
62.250 )
VPRS 6=
.2707
(
61.560 )
i
SUMMARY
OF CORRECTED DATA TIME = 1430 DATE =
421 TEMPERATURE (DEGREES R.)
534.3018
=
CORRECTED PRESSURE (PSIA) 68.3803
=
VAPOR PRESSURE (PSIA)
.2944 i
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 614882.6
=
0
h
SUMMARY
OF MEASURED DATA AT 1445 421 TEMP 1 = 537.7700
(
78.100 )
TEMP 2 = 537.6700
(
78.000 )
TEMP 3 = 537.5000
(
77.830 )
TEMP 4 = 537.6700
(
78.000 )
TEMP 5 = 533.4000
(
73.730 )
TEMP 6 = 536.3700
(
76.700 )
TEMP 7 = 533.3700
(
73.700 )
TEMP 8 = 532.9700
(
73.300 )
TEMP 9 = 536.1200
(
76.450 )
TEMP 10 = 532.6000
(
72.930 )
TEMP 11 = 533.1600
(
73.490 )
TEMP 12 = 533.5900
(
73.920 )
TEMP 13 = 532.0600
(
72.390 )
TEMP 14 = 531.4700
(
71.800 )
TEMP 15 = 531.3700
(
71.700 )
TEMP 16 = 530.8100
(
71.140 )
TEMP 17 = 529.1400
(
69.470 )
TEMP 18 = 529.4600
(
69.790 )
PRES 1=
68.6550
( 69163.0 )
PRES 2=
68.6883
( 67584.0 )
VPRS 1=
.3424
(
68.300 )
h VPRS 2=
.3368
(
67.820 )
VPRS 3=
.2952
(
64.020 )
VPRS 4
.2422
(
58.440 )
=
VPRS 5=
.2764
(
62.150 )
VPR3 6=
.2694
(
61.420 )
SUMMARY
OF CORRECTED DATA TIME = 1445 DATE =
421 TEMPERATURE (DEGREES R.)
534.2470
=
CORRECTED PRESSURE (PSIA) 68.3779
=
VAPOR PRESSURE (PSIA)
.2937
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 614924.8
=
9
,(O
,j
SUMMARY
OF MEASURED-DATA AT 1500- 421 I
TEMP 1 = 537.4100
(
77.740 )
TEMP 2 = 537.3600
(
77.690 ).
TEMP 3 = 537.1700
(
77.500.)
TEMP 4 = 537.3400
(
77.670 )
TEMP-5 = 533.5200
(-
73.850 )
TEMP 6 = 536'.1700
(
76.500:)
TEMP 7 = 533.4800
(
73.810-)
TEMP 8 = 533.0700
(
73.400,)
TEMP 9 = 535.9100
(
76.240 )
TEMP 10 = 532.7900
(
73.120 )
TEMP 11 = 533.3200
(
73.650,
TEMP 12 = 533.8000
(
74.130 );
TEMP 13 = 532.2300
(
72.560-)
TEMP 14 = 531~.6200
(.
71.950 )
TEMP 15 = 531.5400
(
71.870 )
TEMP 16 =~530.9700
(
71.300 )
TEMP 17 = 529.2500
(
69.580 )
TEMP 18 = 529.5600
(
69.890 )
4 PRES 1=
68.6530
( 69161.0 )
PRES 2=
68.6862
( 67582.0 )
l
( )-
VPRS 1=
.3413
(
68.210 )
VPRS 2=
.3347,(
67.640 )
l VPRS 3=
.3078
(
65.220 )
VPRS 4=
.2432
(
58.550 )
VPRS 5=
.2764
(
62.150 )
j VPRS 6=
.2699
(
61.480 )
SUMMARY
OF CORRECTED DATA TIME = 1500 DATE =
421 J
TEMPERATURE (DEGREES R.)
534.2061
=
CORRECTED PRESSURE (PSIA) 68.3741
=
VAPOR PRESSURE (PSIA)
.2955
=
i VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 614937.4
=
.i O
4 I
l
l h
SUMMARY
OF MEASURED DATA AT 1515 421 TEMP 1 = 537.1300
(
77.460 )
TEMP 2 = 537.0400
(
77.370 )
TEMP 3 = 536.9100
(
77.240 )
TEMP 4 = 537.1100
(
77.440 )
TEMP 5 = 533.6000
(
73.930 )
i TEMP 6 = 535.9200
(
76.250 )
TEMP 7 = 533.5500
(
73.880 )
TEMP 8 = 533.1700
(
73.500 )
TEMP 9 = 535.7500
(
76.080 )
TEMP 10 = 532.9500
(
i3.280 )
TEMP 11 = 533.4500
(
73.780 )
TEMP 12 = 533.8600
(
74.190 )
TEMP 13 = 532.3800
(
72.710 )
TEMP 14 = 531.8000
(
72.130 )
TEMP 15 = 531.6900
(
72.020 )
TEMP 16 = 531.1300
(
71.460 )
TEMP 17 = 529.3300
(
69.660 )
TEMP 18 = 529.6500
(
69.980 )
l PRES 1=
68.6511
( 69159.0 )
PRES 2=
68.6832
( 67579.0 )
VPRS 1=
.3415
(
68.220 )
h VPRS 2=
.3371
(
67.850 )
VPRS 3=
.3063
(
65.080 )
VPRS 4=
.2436
(
58.600 )
VPRS 5=
.2773
(
62.240 )
VPRS 6=
.2693
(
61.410 )
SUMMARY
OF CORRECTED DATA TIME = 1515 DATE =
421 TEMPERATURE (DEGREES R.)
534.1676
=
CORRECTED PRESSURE (PSIA) 68.3713
=
VAPOR PRESSURE (PSIA)
=
.2958 VOLUME (CU. FT. ) = 1780000.0 AIR MASS (LBM) 614956.5
=
9
()
SUMMARY
OF MEASURED' DATA AT 1530 421 TEMP 1 = 536.8800
(
77.210 )
TEMP 2 = 536.8600
(
77.190 )
TEMP 3 = 536.6800
(
77.010 )
TEMP 4 = 536.8800
(
77.210 )
TEMP 5 = 533.7000
(
74.030 )
TEMP 6 = 535.7800
(
76.110 )
TEMP 7 = 533.6500
(
73.980 )
TEMP 8 = 533.3000
(
73.630 )
TEMP 9 = 535.5700
(
75.900 )
TEMP 10 = 533.0700
(
73.400 )
TEMP 11 = 533.6200
(
73.950 )
TEMP 12 = 533.9400
(
74.270 )
TEMP 13 = 532.5000
(
72.830 )
TEMP 14 = 531.8900
(
72.220 )
TEMP 15 = 531.8100
(
72.140 )
TEMP 16 = 531.2200
(
71.550 )
TEMP 17 = 529.3800
(
69.710 )-
TEMP 18 = 529.7100
(
70.040 )
PRES 1=
68.6491
( 69157.0 )
PRES 2=
68.6822
( 67578.0 )
()
VPRS 1=
.3425
(
68.310 )
VPRS 2=
.3347
(
67.640 )
VPRS 3=
.2954
(
64.040 )
VPRS 4=
.2440
(
58.640 )
VPRS 5=
.2770
(
62.210 )
VPRS 6=
.2684
(
61.320 )
SUMMARY
OF CORRECTED DATA TIME = 1530 DATE =
421 TEMPERATURE (DEGREES R.)
534.1421
=
CORRECTED PRESSURE (PSIA) 68.3720
=
VAPOR PRESSURE (PSIA)
.2937
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 614991.9
=
O
h
SUMMARY
OF MEASURED DATA AT 1545 421 TEMP 1 = 536.6800
(
77.010 )
TEMP 2 = 536.6500
(
76.980 )
TEMP 3 = 536.4800
(
76.810 )
TEMP 4 = 536.7100
(
77.040 )
TEMP 5 = 533.7800
(
74.110 )
TEMP 6 = 535.5700
(
75.900 )
TEMP 7 = 533.7700
(
74.100 )
TEMP 8 = 533.3800
(
73.710 )
TEMP 9 = 535.3000
(
75.630 )
TEMP 10 = 533.1900
(
73.520 )
TEMP 11 = 533.7100
(
74.040 )
TEMP 12 = 533.9800
(
74.310 )
TEMP 13 = 532.5700
(
72.900 )
TEMP 14 = 532.0300
(
72.360 )
TEMP 15 = 531.8800
(
72.210 )
TEMP 16 = 531.3000
(
71.630 )
TEMP 17 = 529.4700
(
69.800 )
TEMP 18 = 529.7500
(
70.080 )
PRES 1=
68.6471
( 69155.0 )
PRES 2=
68.6801
( 67576.0 )
VPRS 1=
.3423
(
68.290 )
h VPRS 2=
.3339
(
67.570 )
VPRS 3
.2922
(
63.730 )
=
VPRS 4
.2437
(
58.610 )
=
VPRS 5=
.2766
(
62.170 )
VPRS 6=
.2700
(
61.490 )
SUMMARY
OF CORRECTED DATA i
TIME = 1545 DATE =
421 TEMPERATURE (DEGREES R.)
534.1053
=
CORRECTED PRESSURE (PSIA) 68.3705
=
VAPOR PRESSURE (PSIA)
.2931
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615021.1
=
0
I
SUMMARY
OF MEASURED DATA AT 1600 421 TEMP 1 = 536.5200'
(.
76.850 )
TEMP 2 = 536.4100
(
76.740-)
TEMP 3 = 536.3000
(
76.630 )
TEMP 4 = 536.5300
(
76.860 )
{
TEMP 5 = 533.8800
(
74.210 )
l TEMP 6 = 535.3000
(
75.630 )
TEMP 7 = 533.8000
(
74.130 )
TEMP 8 = 533.4500
(
73.780 )
TEMP 9 = 535.0100
(
75.340 )
TEMP 10 = 533.2600
(
73.590 )
TEMP 11 = 533.8000
(
74.130 )
TEMP 12 = 534.0900
(
74.420 )
TEMP 13 = 532.6500
(
72.980 )
TEMP 14 = 532.0800
(
72.410 )
TEMP 15 = 531.9800
(
72.310 )
TEMP 16 = 531.3800
(
71.710 )
TEMP 17 = 529.5100
(
69.840 )
TEMP 18 = 529.7900
(
70.120 )
PRES 1=
68.6451
( 69153.0 )
PRES 2=
68.6781
( 67574.0 )
()
VPRS 1=
.3385
(
67.970 )
VPRS 2=
.3361
(
67.760 )
VPRS 3=
.2914
(
63.650 )
VPRS 4=
.2438
(
58.620 )
VPRS 5=
.2776
(
62.270 )
VPRS 6=
.2667
(
61.140 )
SUMMARY
OF CORRECTED DATA TIME = 1600 DATE =
421 TEMPERATURE (DEGREES R.)
534.0545
=
CORRECTED PRESSURE (PSIA) 68.3693
=
VAPOR PRESSURE (PSIA)
.2923
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615068.5
=
O
h
SUMMARY
OF MEASURED DATA AT 1615 421 TEMP 1 = 536.3500
(
76.680 )
TEMP 2 = 536.2800
(
76.610 )
l TEMP 3 = 536.1400
(
76.470 )
TEMP 4 = 536.3900
(
76.720 )
l TEMP 5 = 533.9300
(
74.260 )
l TEMP 6 = 534.9500
(
75.280 )
TEMP 7 = 533.8900
(
74.220 )
TEMP 8 = 533.5400
(
73.870 )
TEMP 9 = 534.7300
(
75.060 )
TEMP 10 = 533.3500
(
73.680 )
TEMP 11 = 533.8500
(
74.180 )
TEMP 12 = 534.1400
(
74.470 )
l TEMP 13 = 532.7300
(
73.060 )
TEMP 14 = 532.1600
(
72.490 )
{
TEMP 15 = 532.0700
(
72.400 )
i TEMP 16 = 531.4700
(
71.800 )
i TEMP 17 = 529.5400
(
69.870 )
l TEMP 18 = 529.8700
(
70.200 )
{
l PRES 1=
G8.6431
( 69151.0 )
PRES 2=
68.6771
( 67573.0 )
VPRS 1=
.3107
(
65.490 )
h VPRS 2=
.3343
(
67.600 )
VPRS 3=
.2931
(
63.820 )
VPRS 4=
.2441
(
58.650 )
VPRS 5=
.2770
(
62.210 )
VPRS 6=
.2674
(
61.210 )
SUMMARY
OF CORRECTED DATA TIME = 1615 DATE =
421 TEMPERATURE (DEGREES R.)
=
534.0131 CORRECTED PRESSURE (PSIA) 68.3724
=
VAPOR PRESSURE (PSIA)
=
.2877 VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615144.2
=
9
, = >
SUMMARY
OF MEASURED DATA AT 1630 421 TEMP 1 = 536.2000
(
76.530 )
TEMP 2 = 535.1000
(
75.430 )
TEMP 3 = 535.8100
(
76.140 )
TEMP 4 = 536.0900
(
76.420 )
TEMP 5 = 533.9000
(
74.230 )
TEMP 6 = 534.4100
(
74.740 )_
TEMP 7 = 533.8700
(
74.200 )
TEMP 8 = 533.5100
(
73.840 )
TEMP 9 = 534.3800
(
74.710 )
TEMP 10 = 533.3800
(
73.710 )
TEMP 11 = 533.8800
(
74.210 )
TEMP 12 = 534.1900
(
74.520 )
TEMP 13 = 533.0900
(
73.420 )
TEMP 14 = 532.2700
(
72.600 )
TEMP 15 = 532.1700
(
72.500 )
TEMP 16 = 531.6500
(
71.980 )
TEMP 17 = 529.6000
(
69.930 )
TEMP 18 = 529.6700
(
70.000 )
i PRES 1=
68.6213
( 69129.0 )
PRES 2=
68.6547
( 67551.0 )
1
()
VPRS 1=
.2879
(
63.310 )
VPRS 2=
.306,3
(
65.080 )
VPRS 3=
.2907
(
63.580 )
i VPRS 4=
.2470
(
58.990 )
VPRS 5=
.2920
(
63.710 )
VPRS 6=
.2710
(
61.590 )
J J
l
SUMMARY
OF CORRECTED DATA TIME = 1630 DATE =
421 TEMPERATURE (DEGREES R. )
533.8397
=
CORRECTED PRESSURE (PSIA) 68.3555
=
VAPOR PRESSURE (PSIA)
.2825
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615192.4
=
I
()
h SUKHARY OF MEASURED DATA AT 1645 421 TEMP 1 = 535.3200
(
75.650 )
TEMP 2 = 535.4900
(
75.820 )
TEMP 1 = 534.4700
(
74.800 )
TEMP 4 = 534.5500
(
74.880 )
TEMP 5 = 533.9000
(
74.230 )
TEMP 6 = 533.3900
(
74.220 )
TEMP 7 = 533.6100
(
73.940 )
TEMP 8 = 533.4200
(
73.750 )
TEMP 9 = 534.0600
(
74.390 )
TEMP 10 = 533.5800
(
73.910 )
TEMP 11 = 534.0500
(
74.380 )
TEMP 12 = 534.2500
(
74.580 )
TEMP 13 = 533.4800
(
73.810 )
TEMP 14 = 532.5700
(
72.900 )
TEMP 15 = 532.5500
(
72.880 )
TEMP 16 = 531.9500
(
72.280 )
TEMP 17 = 529.6300
(
69.960 )
I TEMP 18 = 529.4700
(
69.800 )
PRES 1=
68.5975
( 69105.0 )
PRES 2 =
68.6314
( 67528.0 )
]
h VPRS 1=
.3021
(
64.680 )
VPRS 2=
.2893
(
63.450 )
VPRS 3=
.2948
(
63.980 )
VPRS 4=
.2536
(
59.720 )
VPRS 5=
.3001
(
64.490 )
VPRS 6=
.2835
(
62.870 )
l
SUMMARY
OF CORRECTED DATA l
TIME = 1645 DATE =
421 TEMPERATURE (DEGREES R.)
533.5890
=
CORRECTED PRESSURE (PSIA) 68.3272
=
VAPOR PRESSURE (PSIA)
.2873
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615226.2
=
SUMMARY
OF MEASURED DATA AT 1700 421 TEMP 1 = 534.6900
(
75.020 )
TEMP 2 = 534.6700
(
75.000 )
TEMP 3 = 533.9500
(
74.280 )
TEMP 4 = 534.1300
(
74.460 )
TEMP 5 = 533.9200
(
74.250 )
TEMP 6 = 533.8800
(
74.210 )
TEMP 7 = 533.7500
(
74.080 )
TEMP 8 = 533.4500
(
73.780 )
TEMP 9 = 534.0400
(
74.370 )
TEMP 10 = 533.6900
(
74.020 )
TEMP 11 = 534.1400
(
74.470 )
TEMP 12 = 534.3500
(
74.680 )
TEMP 13 = 533.5300
(
73.860 )
TEMP 14 = 532.6700
(
73.000 )
TEMP 15 = 532.6900
(
73.020 )
TEMP 16 = 532.1200
(
72.450 )
TEMP 17 = 529.6900
(
70.020 )
TEMP 18 = 529.5500
(
69.880 )
PRES 1=
68.5925
( 69100.0 )
PRES 2=
68.6273
( 67524.0 )
(
VPRS 1=
.3026
(
64.730 )
VPRS 2
.2957
(
64.070 )
=
VPRS 3=
.3022
(
64.690 )
VPRS 4=
.2603
(
60.460 )
VPRS 5=
.2964
(
64.140 )
VPRS 6=
.2849
(
63.010 )
I
SUMMARY
OF CORRECTED DATA TIME = 1700 DATE =
421 l
TEM ATURE (DEGREES R.)
533.4651
=
CORh.TED PRESSURE (PSIA) 68.3196
=
VAPOR PRESSURE (PSIA)
.2904
=
i VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615300.3
=
l 1
h
SUMMARY
OF MEASURED DATA AT 1715 421 TEMP 1 = 534.4900
(
74.820 )
TEMP 2 = 534.4900
(
74.820 )
TEMP 3 = 534.0300
(
74.360 )
TEMP 4 = 534.1900
(
74.520 )
TEMP 5 = 533.9400
(
74.270 )
TEMP 6 = 533.9300
(
74.260 )
TEMP 7 = 533.8600
(
74.190 )
TEMP 8 = 533.5000
(
73.830 )
TEMP 9 = 534.0700
(
74.400 )
TEMP 10 = 533.7100
(
74.040 )
TEMP 11 = 534.1400
(
74.470 )
TEMP 12 = 534.3300
(
74.660 )
TEMP 13 = 533.5400
(
73.870 )
TEMP 14 a 532.6900
(
73.020 )
TEMP 15 = 532.7300
(
73.060 )
TEMP 16 = 532.2100
(
72.540 )
TEMP 17 = 529.8300
(
70.160 )
TEMP 18 = 529.7900
(
70.120 )
PRES 1=
68.5925
( 69100.0 )
PRES 2
68.6263
( 67523.0 )
=
VPRS 1=
.3014
(
64.620 )
h VPRS 2
.2925
(
63.760 )
=
VPRS 3=
.3066
(
65.110 )
VPRS 4
.2578
(
60.180 )
=
VPRS 5=
.2965
(
64.150 )
VPRS 6=
.2847
(
62.990 )
SUMMARY
OF CORRECTED DATA TIME = 1715 DATE =
421 TEMPERATURE (DEGREES R.)
533.4874
=
CORRECTED PRESSURE (PSIA) 68.3195
=
VAPOR PRESSURE (PSIA)
.2899
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615273.8
=
9
(
SUMMARY
OF MEASURED DATA AT 1730 421 TEMP 1 = 534.4000
(
74.730 )
TEMP 2 = 534.3600
(
74.690 )
TEMP 3 = 534.0000
(
74.330 )
TEMP 4 = 534.2100
(
74.540 )
TEMP 5 = 533.9900
(
74.320 )
TEMP 6 = 533.9600
(
74.290 )
TEMP 7 = 533.8600
(
74.190 )
TEMP 8 = 533.5400
(
73.870 )
i TEMP 9 = 534.0700
(
74.400 )
l TEMP 10 = 533.7000
(
74.030 )
TEMP 11 = 534.1300
(
74.460 )
l TEMP 12.= 534.3300
(
74.660 )
{
TEMP 13 = 533.5700
(
73.900 )
TEMP 14 = 532.7900
(
73.120 )
1 TEMP 15 = 532.8000
(
73.130 )
1 TEMP 16 = 532.2900
(
72.620 )
TEMP 17 = 529.8900
(
70.220 )
TEMP 18 = 529.8600
(
70.190 )
PRES 1=
68.5935
( 69101.0 )
PRES 2=
68.6273
( 67524.0 )
l O
VPRS 1=
.3002
(
64.500 )
{
VPRS 2=
.2906
(
63.570 )
VPRS 3=
.3077
(
65.210 )
VPRS 4=
.2583
(
60.240 )
VPRS 5=
.2967
(
64.170 )
VPRS 6=
.2855
(
63.070 )
SUMMARY
OF CORRECTED DATA TIME = 1730 DATE =
421 i
1 TEMPERATURE (DEGREES R. )
533.4960
=
CORRECTED PRESSURE (PSIA) 68.3206 a
=
VAPOR PRESSURE (PSIA)
.2898
=
VOLUME (CU. FT. ) = 1780000.0 AIR MASS (LBM) 615273.9
=
O
h
SUMMARY
OF MEASURED DATA AT 1745 421 TEMP 1 = 534.3500
(
74.680 )
TEMP 2 = 534.2600
(
74.590 )
TEMP 3 = 533.9800
(
74.310 )
TEMP 4 = 534.1500
(
74.480 )
TEMP 5 = 533.9900
(
74.320 )
TEMP 6 = 534.0100
(
74.340 )
TEMP 7 = 533.8600
(
74.190 )
TEMP 8 = 533.5800
(
73.910 )
TEMP 9 = 534.0900
(
74.420 )
TEMP 10 = 533.8000
(
74.130 )
TEMP 11 = 534.2200
(
74.550 )
TEMP 12 = 534.3800
(
74.710 )
TEMP 13 = 533.6100
(
73.940 )
TEMP 14 = 532.7900
(
73.120 )
TEMP 15 = 532.8600
(
73.190 )
TEMP 16 = 532.3400
(
72.670 )
TEMP 17 = 529.9800
(
70.310 )
TEMP 18 = 529.9800
(
70.310 )
PRES 1=
68.5945
( 69102.0 )
PRES 2=
68.6283
( 67525.0 )
VPRS 1=
.2999
(
64.470 )
h VPRS 2=
.2910
(
63.610 )
VPRS 3
.3074
(
65.180 )
=
VPRS 4=
.2585
(
60.260 )
VPRS 5=
.2949
(
63.990 )
VPRS 6=
.2843
(
62.950 )
SUMMARY
OF CORRECTED DATA TIME = 1745 DATE =
421 TEMPERATURE (DEGREES R.)
533.5115
=
CORRECTED PRESSURE (PSIA) 68.3221
=
VAPOR PRESSURE (PSIA)
.2893
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615269.8
=
9
I'
SUMMARY
OF MEASURED DATA AT 1800 421 TEMP 1 = 534.3300
(
74.660 )
TEMP 2 = 534.2400
(
74.570 )
TEMP 3 = 534.0200
(
74.350 )
TEMP 4 <= 5 3 4.14 0 0
(
74.470 )
TEMP 5 = 534.0900
(
74.420 )
TEMP 6 = 534.0300
(
74.360 )
TEMP 7 = 533.8800
(
74.210 )
TEMP 8 = 533.5500
(
7J.880 )
TEMP 9 = 534.0700
(
74.400 )
TEMP 10 = 533.8400
(
74.170 )
TEMP 11 = 534.2400
(
74.570 )
i TEMP 12 = 534.3600
(
74.690 )
TEMP 13 = 533.6400
(
73.970 )
TEMP 14 = 532.9400
(
73.270 )
l TEMP 15 = 532.8800
(
73.210 )
TEMP 16 = 532.3500
(
72.680 )
TEMP 17 = 530.0800
(
70.410 )
TEMP 18 = 530.0500
(
70.380 )
PRES 1=
68.5955
( 69103.0 )
PRES 2=
68.6304
( 67527.0 )
()
VPRS 1=
.2990
(
64.390 )
VPRS 2=
.2,902
(
63.540 )
VPRS 3=
.3065
(
65.100 )
VPRS 4=
.2582
(
60.230 )
l VPRS 5=
.2952
(
64.020 )
VPRS 6=
.2860
(
63.120 )
SUMMARY
OF CORRECTED DATA TIME = 1800 DATE =
421 1
TEMPERATURE (DEGREES R.)
533.5358
{
=
CORRECTED PRESSURE (PSIA) 68.3237
=
a VAPOR PRESSURE (PSIA)
=
.2892 VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615256.3
=
i l
i
h
SUMMARY
OF MEASURED DATA AT 1815 421 TEMP 1 = 534.3200
(
74.650 )
TEMP 2 = 534.1500
(
74.480 )
TEMP 3 = 534.0100
(
74.340 )
TEMP 4 = 534.0700
(
74.400 )
TEMP 5 = 534.1100
(
74.440 )
TEMP 6 = 534.0500
(
74.380 )
TEMP 7 = 533.9200
(
74.250 )
TEMP 8 = 533.5900
(
73.920 )
TEMP 9 = 534.1000
(
74.430 )
TEMP 10 = 533.8600
(
74.190 )
TEMP 11 = 534.2200
(
74.550 )
TEMP 12 = 534.4100
(
74.740 )
TEMP 13 = 533.6700
(
74.000 )
TEMP 14 = 532.8500
(
73.180 )
TEMP 15 = 532.9400
(
73.270 )
TEMP 16 = 532.4500
(
72.780 )
TEMP 17 = 530.1600
(
70.490 )
TEMP 18 = 530.1500
(
70.480 )
PRES 1=
68.5975
( 69105.0 )
PRES 2=
68.6314
( 67528.0 )
VPRS 1=
.2991
(
64.400 )
h VPRS 2 =
.2908
(
63.590 )
VPRS 3=
.3061
(
65.060 )
VPRS 4=
.2590
(
60.310 )
VPRS 5=
.2953
(
64.030 )
VPRS 6=
.2852
(
63.040 )
SUMMARY
OF CORRECTED DATA TIME = 1815 DATE =
421 TEMPERATURE (DEGREES R.)
533.5453
=
CORRECTED PRESSURE (PSIA) 68.3252
=
VAPOR PRESSURE (PSIA)
.2892
=
VOLUME (CU.FT.) = 1780000,0 AIR MASS (LBM) 615258.5
=
9
f~(_)
i
)
SUMMARY
OF MEASURED DATA AT 1830 421 TEMP 1 = 534.2700
(
74.600 )
TEMP 2 = 534.1200
(
74.450 )
TEMP 3 = 534.0400
(
74.370 )
TEMP 4 = 534.0800
(
74.410 )
TEMP 5 = 534.1700
(
74.500 )
TEMP 6 = 534.0500
(
74.380 )
TEMP 7 = 533.9100
(
74.240 )
TEMP 8 = 533.6000
(
73.930 )
TEMP 9 = 534.1400
(
.470
)
TEMP 10 = 533.8900
(
74.220 )
TEMP 11 = 534.3000
(
74.630 )
TEMP 12 = 534.4500
(
74.780 )
TEMP 13 = 533.6900
(
74.020 )
TEMP 14 = 532.9400
(
73.270 )
TEMP 15 = 533.0100
(
73.340 )
TEMP 16 = S32.4900
(
7'.820 )
e TEMP 17 = 530.1800
(
70.510 ).
TEMP 18 = 530.2900
(
70.620 )
PRES 1=
68.5985
( 69106.0 )
PRES 2=
68.6334
( 67530.0 )
()
VPRS 1=
.3000
(
64.480 )
VPRS 2=
.2908
(
63.590 )
VPRS 3
.3060
(
65.050 )
=
VPRS 4=
.2572
(
60.120 )
VPRS 5=
.2963
(
64.130 )
VPRS 6=
.2854
(
63.060 )
SUMMARY
OF CORRECTED DAT.1 TIME = 1830 DATE =
421 i
TEMPERATURE (DEGREES R. )
533.5718
=
CORRECTED PRESSURE (PSIA) 68.3267
=
VAPOR PRESSURE (PSIA)
.2893
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615241.2
=
()
l l
l l
h
SUMMARY
OF MEASURED DATA AT 1845 421 TEMP 1 = 534.9800
(
75.310 )
TEMP 2 = 534.0800
(
74.410 )
TEMP 3 = 534.0400
(
74.370 )
TEMP 4 = 534.0800
(
74.410 )
TEMP 5 = 534.1600
(
74.490 )
TEMP 6 = 534.0100
(
74.340 )
TEMP 7 = 533.9200
(
74.250 )
TEMP 8 = 533.6500
(
73.980 )
TEMP 9 = 534.1700
(
74.500 )
TEMP 10 = 533.9100
(
74.240 )
TEMP 11 = 534.2900
(
74.620 )
TEMP 12 = 534.4400
(
74.770 )
TEMP 13 = 533.7100
(
74.040 )
TEMP 14 = 532.9600
(
73.390 )
TEMP 15 = 533.0300
(
73.360 )
TEMP 16 = 532.5000
(
72.830 )
TEMP 17 = 530.2400
(
70.570 )
TEMP 18 = 530.3500
(
70.680 )
PRES 1=
68.6005
( 69108.0 )
PRES 2=
68.6344
( 67531.0 )
VPRS 1=
.2996
(
64.450 )
h VPRS 2
.2898
(
63.500 )
=
VPRS 3
.3054
(
65.000 )
=
VPRS
/ =
.2582
(
60.230 )
VPRS 5=
.2930
(
63.810 )
VPRS 6=
.2856
(
63.030 )
SUMMARY
OF CORRECTED DATA TIME = 1845 DATE =
421 TEMPERATURE (DEGREES R.)
533.6316
=
CORRECTED PRESSURE (PSIA) 68.3288
=
VAPOR PRESSURE (PSIA)
.2886
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615191.6
=
1 lh
[
SUMMARY
'OF MEASURED DATA AT 1900 421 TEMP 1 = 534.2100
(
74.540 )
TEMP 2 = 534.0900
(
74.420 )
TEMP 3 = 534.0400
(
74.370 )
TEMP 4 = 534.1300
(
74.460 )
TEMP 5 = S34.1900
(
74.520.)
TEMP 6 = 534.0800
(
74.410 )
TEMP 7 = 533.9300
(
74.260 )
TEMP 8 = 533.6400
(
73.970 )
TEMP 9 = 534.1800
(
74.510 )
TEMP 10 = 533.8800
(
74.210 )
TEMP 11 = 534.3000
(
74.630 )
TEMP 12 = 534.5300
(
74.860 )
TEMP 13 = 533.7500
(
74.080 )
TEMP 14 = 532.9700
(
73.300 )
TEMP 15 = 533.0100
(
73.340 )
TEMP 16 = 532.5500
(
72.880 )
TEMP 17 = 530.3200
(
70.650 )
TEMP 18 = 530.2100
(
70.540 )
PRES 1=
68.6015
( 69109.0 )
PRES 2=
68.6354
( 67532.0 )
(]?)
VPRS
.2988
(
64.370 )
\\s)
VPRS 2 '
.2886
(
63.380 )
VPRE 3=
.3054
(
65.000 )
VPRt; 4=
.2574
(
60.140 )
VPRS 5=
.2938
~(
63.890 )
VPRS 6=
.2845
(
62.970 )
SUMMARY
OF CORRECTED DATA TIME = 1900 DATE =
421 i
l TEMPERATURE (DEGREES R.)
533.5897
=
CORRECTED PRESSURE (PSIA) 68.3303
=
VAPOR PRESSURE (PSIA)
.2881
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615253.7
=
O
h
SUMMARY
OF MEASURED DATA AT 1915 421 TEMP 1 = 534.2000
(
74.530 )
TEMP 2 = 534.0000
(
74.330 )
TEMP 3 = 534.0600
(
74.390 )
TEMP 4 = 534.1500
(
74.480 )
TEMP 5 = 534.1900
(
74.520 )
TEMP 6 = 534.0400
(
74.370 )
TEMP 7 = 533.9400
(
74.270 )
TEMP 8 = 533.6400
(
73.970 )
TEMP 9 = 534.1500
(
74.480 )
TEMP 10 = 533.8900
(
74.220 )
TEMP 11 = 534.2800
(
74.610 )
TEMP 12 = 534.4800
(
74.810 )
TEMP 13 = 533.7600
(
74.090 )
TEMP 14 = 532.9800
(
73.310 )
TEMP 15 = 533.0300
(
73.360 )
TEMP 16 = 532.5300
(
72.860 )
TEMP 17 = 530.3400
(
70.670 )
TEMP 18 = 530.5100
(
70.840 )
PRES 1=
68.6025
( 69110.0 )
PRES 2=
68.6375
( 67534.0 )
VPRS 1=
.2987
(
64.360 )
VPRS 2=
.2886
(
63.380 )
VPRS 3=
.3051
(
64.970 )
VPRS' 4
.2574
(
60.140 )
=
VPRS 5=
.2938
(
63.890 )
VPRS 6=
.2843
(
62.950 )
SUMMARY
OF CORRECTED DATA TIME = 1915 DATE =
421 TEMPERATURE (DEGREES R.)
533.5941
=
CORRECTED PRESSURE (PSIA) 68.3319
=
VAPOR PRESSURE (PSIA)
.2880
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615263.1
=
O
l l
1
(
SUMMARY
OF MEASURED DATA AT 1930 421 TEMP 1 = 534.1900
(
74.520 )
TEMP 2 = 533.9700
(
74.300 )
TEMP 3 = 534.0700
(
74.400 )
TEMP 4 = 534.1300
(
74.460 )
TEMP 5 = 534.2000
(
74.530 )-
TEMP 6 = 534.0900
(
74.420 )
TEMP 7 = 534.0100
(
.74.340 )
TEMP 8 = 533.6700
(
74.000 )
TEMP 9 = 534.1700
(
74.500 )
)
TEMP 10 = 533.9300
(
74.260 )
TEMP 11 = 534.3400
(
74.670 )
TEMP 12 = 534.5600
(
74.890 )
TEMP 13 = 533.8000
(
74.130 )
TEMP 14 = 532.9800
(
73.310 )
TEMP 15 = 533.1100
(
73.440 )
TEMP 16 = 532.5500
(
72.880 )
TEMP 17 = 530.4200
(
70.750 ).
TEMP 18 = 530.5700
(
70.900 )
PRES 1=
68.6035
( 69111.0 )
PRES 2=
68.6385
( 67535.0 )
e VPRS 1=
.2988
(
64.370 )
VPRS 2=
.2877
(
63.290 )
VPRS 3=
'.3048
(
64.940 )
VPRS 4=
.2564
(
60.030 )
VPRS 5=
.2938
(
G3.890 )
VPRS 6=
.2837
(
62.890 )
l
SUMMARY
OF CORRECTED DATA TIME = 1930 DATE =
421 j
TEMPERATURE (DEGREES R. )
533.6208
=
CORRECTED PRESSURE (PSIA) 68.3334
=
VAPOR PRESSURE (PSIA)
.2876
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM)
G15245.5
=
OCJ
h
SUMMARY
OF MEASURED DATA AT 1945 421 TEMP 1 = 534.2200
(
74.550 )
TEMP 2 = 534.0100
(
74.340 )
TEMP 3 = 534.0900
(
74.420 )
TEMP 4 = 534.1100
(
74.440 )
TEMP 5 = 534.2300
(
74.560 )
TEMP 6 = 534.1100
(
74.440 )
TEMP 7 = 533.9800
(
74.310 )
TEMP 8 = 533.7200
(
74.050 )
TEMP 9 = 534.1800
(
74.510 )
TEMP 10 = 533.9600
(
74.290 )
TEMP 11 = 534.3100
(
74.640 )
TEMP 12 = 534.5100
(
74.840 )
TEMP 13 = 533.8500
(
74.180 )
TEMP 14 = 533.0000
(
73.330 )
TEMP 15 = 533.0900
(
73.420 )
TEMP 16 = 532.5700
(
72.900 )
TEMP 17 = 530.4600
(
70.790 )
TEMP 18 = 530.7000
(
71.030 )
PRES 1=
68.6054
( 69113.0 )
PRES 2=
68.6395
( 67536.0 )
VPRS 1=
.2983
(
64.320 )
VPRS 2=
.2893
(
63.450 )
VPRS 3=
.3052
(
64.980 )
VPRS 4
.2568
(
60.080 )
=
VPRS 5=
.2930
(
63.810 )
VPRS 6=
.2845
(
62.970 )
SUMMARY
OF CORRECTED DATA TIME = 1945 DATE =
421 TEMPERATURE (DEGREES R.)
533.6399
=
CORRECTED PRESSURE (PSIA) 68.3346
=
VAPOR PRESSURE (PSIA)
.2879
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615234.0
=
i
(
SUMMARY
OF MEASURED DATA AT 2000- 421 TEMP 1 = 534.1900
(
74.520 )
TEMP 2 = 534.0500
(
74.300 )
TEMP 3 = 534.0700
(
74.400 )
TEMP 4 = 534.1000
(
74.430 )'
TEMP 5 = 534.2600
(
74.590 )
TEMP 6 = 534.0800
(
74.410 )
TEMP 7 = 533.9900
(
74.320 )
TEMP 8 = 533.7300
(
74.060 )
TEMP 9 = 534.2000
(
74.530 )
TEMP 10 = 533.9200
(
74.250 )
TEMP 11 = 534.3800
(
74.710 )
TEMP 12 = 534.5500
(
74.880 )
TEMP 13 = 533.8200
(
74.150 )
TEMP 14 = 532.9700
(
73.300 )
TEMP 15 = 533.0900
(
73.420 )
TEMP 16 = 532.6200
(
72.950 )
TEMP 17 = 530.4700
(
70.800 )
TEMP 18 = 530.6900
(
71.020 )
PRES 1=
68.6064
( 69114.0 )
PRES 2=
68.6405
( 67537.0 )
0%
VPRS 1=
.2984
(
64.330 )
VPRS 2=
.2873
(
63.250 )
VPRS 3 =
.3052
(
64.980 )
VPRS 4=
.2556
(
59.940 )-
VPRS 5=
.2941
(
63.920 )
VPRS 6=
.2842
(
62.940 )
SUMMARY
OF CORRECTED DATA TIME = 2000 DATE =
421 TEMPERATURE (DEGREES R.)
533.6422
=
CORRECTED PRESSURE (PSIA) 68.3360
=
VAPOR PRESSURE (PSIA)
.2875
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615243.9
=
0
h
SUMMARY
OF MEASURED DATA AT 2015 421 TEMP 1 = 534.2000
(
74.530 )'
TEMP 2 = 534.0400
(
74.370 )
TEMP 3 = 534.1000
(
74.430 )
TEMP 4 = 534.1700
(
74.500 )
TEMP S = 534.2700
(
74.600 )
TEMP 6 = 534.1300
(
74.460 )
TEMP 7 = 534.0300
(
74.360 )
TEMP 8 = 533.7000
(
74.030 )
TEMP 9 = 534.2100
(
74.540 )
TEMP 10 = 533.9800
(
74.310 )
TEMP 11 = 534.3300
(
74.660 )
TEMP 12 = 534.5600
(
74.890 )
TEMP 13 = 533.8300
(
74.160 )
TEMP 14 = 533.0500
(
73.380 )
TEMP 15 = 533.1700
(
73.500 )
TEMP 16 = 532.6200
(
72.950 )
TEMP 17 = 530.5200
(
70.850 )
TEMP 18 = 530.7600
(
71.090 )
PRES 1=
68.6064
( 69114.0 )
PRES 2=
68.6415
( 67538.0 )
VPRS 1=
.2987
(
64.360 )
VPRS 2=
.2886
(
63.380 )
VPRS 3
.3039
(
64.850 )
=
VPRS 4
.2556
(
59.940 )
=
VPRS 5=
.2930
(
63.810 )
VPRS 6=
.2844
(
62.960 )
SUMMARY
OF CORRECTED DATA TIME = 2015 DATE =
421 TEMPERATURE (DEGREES R. )
533.6691
=
CORRECTED PRESSURE (PSIA) 68.3366
=
VAPOR PRESSURE (P9TA)
.2874
=
VOLUME ( CI' f.) = 1780000.0
)
AIR MASS (LBM) 615218.5
=
l l
O 1
l
l
()
SUMMARY
OF MEASURED DATA AT 2030 421 TEMP 1 = 534.1500
(
74.520 )
TEMP 2 = 534.0200
(
74.350 )
TEMP 3 = 534.080L
(
74.410 )
TEMP 4 = 534.1100
(
74.440 )
TEMP 5 = 534.2100
(
74.540 )
TEMP 6 = 534.1400
(
74.470 )
TEMP 7 = 534.0000
(
74.330 )
TEMP 8 = 533.7300
(
74.060 )
TEMP 9 = 534.2500
(
74.580 )
s TEMP 10 = 533.9400
(
74.270 )
TEMP 11 = 534.4100
(
74.740 )
TEMP 12 = 534.5600
(
74.890 )
TEMP 13 = 533.8800
(
74.210 )
TEMP 14 = 533.1000
(
73.430 )
TEMP 15 = 533.1300
(
73.460 )
TEMP 16 = 532.6700
(
73.000 )
TEMP 17 = 530.5700
(
70.900 )
TEMP 18 = 530.8900
(
71.220 )
PRES 1=
68.6084
( 69116.0 )
PRES 2=
68.6426
( 67539.0 )
O VPRS 1=
.2983
(
64.320 )
VPRS 2=
.2878
(
63.300 )
VPRS 3=
.3042
(
64.880 )
VPRS 4
.2567
(
60.060 )
=
VPRS 5=
.2935
(
63.860 )
VPRS 6=
.2849
(
63.010 )
SUMMARY
OF CORRECTED DATA TIME = 2030 DATE =
421 TEMPERATURE (DEGREES R.)
533.6742
=
CORRECTED PRESSURE (PSIA) 68.3379
=
VAPOR PRESSURE (PSIA)
.2876
=
VOLUME (CU.FT.).= 1780000.0
{
AIR MASS (LBM) 615224.4
=
()
1 h
SUMMARY
OF MEASURED DATA AT 2045 421 TEMP 1 = 534.1900
(
74.520 )
TEMP 2 = 534.0100
(
74.340 )
TEMP 3 = 534.0700
(
74.400 )
TEMP 4 = 534.1200
(
74.450 )
TEMP 5 = 534.2500
(
74.580 )
TEMP 6 = 534.1300
(
74.460 )
TEMP 7 = 534.0000
(
74.330 )
TEMP 8 = 533.7600
(
74.090 )
TEMP 9 = 534.2500
(
74.580 )
TEMP 10 = 533.9700
(
74.300 )
TEMP 11 = 534.4100
(
74.740 )
TEMP 12 = 534.5700
(
74.900 )
TEMP 13 = 533.8800
(
74.210 )
TEMP 14 = 533.0600
(
73.390 )
TEMP 15 = 533.2200
(
73.550 )
TEMP 16 = 532.6800
(
73.010 )
TEMP 17 = 530.6000
(
70.930 )
TEMP 18 = 530.9500
(
71.280 )
PRES 1=
68.6094
( 69117.0 )
PRES 2=
68.6426
( 67539.0 )
VPRS 1=
.2979
(
64.280 )
VPRS 2=
.2887
(
63.390,)
VPRS 3
.3048
(
64.940 )
=
VPRS 4
.2565
(
60.040 )
=
VPRS 5=
.2939
(
63.900 )
VPRS 6=
.2837
(
62.890 )
SUMMARY
OF CORRECTED DATA TIME = 2045 DATE =
421 TEMPERATURE (DEGREES R.)
533.6850
=
CORRECTED PRESSURE (PSIA) 68.3384
=
VAPOR PRESSURE (PSIA)
.2876
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615216.1
=
O
(
SUMMARY
OF MEASURED DATA AT 2100 421 TEMP 1 = 534.1500
(
74.480 )
TEMP 2 = 534.0000
(
74.330 )
TEMP 3 = 534.0600
(
74.390 )
TEMP 4 = 534.1600
(
74.490 )
TEMP 5 = 534.2800
(
74.610 )
TEMP 6 = 534.1000
(
74.430 )
TEMP 7 = 534.0500
(
74.380 )
TEMP 8 = 533.7700
(
74.100 )
TEMP 9 = 534.2200
(
74.550 )
TEMP 10 = 534.0000
(
~74.330 )
TEMP 11 = 534.4400
(
74.770 )
TEMP 12 = 534.6200
(
74.950 )
TEMP 13 = 533.8900
(
74.220 )
TEMP 14 = 533.0800
(
73.410 )
TEMP 15 = 533.1700
(
73.500-)
TEMP 16 = 532.7000
(
73.030 )
TEMP 17 = 530.6300
(
70.960 )
TEMP 18 = 530.9800
(
71.310 )
PRES 1=
68.6104
( 69118.0 )
PRES 2=
68.6436
( 67540.0 )
i O
VPRS 1=
.2985
(
64.340 )
VPRS 2=
.2881
(
63.330 )
VPRS 3=
.3047
(
64.930 )
VPRS 4=
.2570
(
60.100 )
VPRS 5=
.2941
(
63.920 ).
1 VPRS 6=
.2841
(
62.930 )
I
SUMMARY
OF CORRECTED DATA TIME = 2100 DATE =
421 TEMPERATURE (DEGREES R.)
533.6927
=
CORRECTED PRESSURE (PSIA) 68.3392
=
VAPOR PRESSURE (PSIA)
.2878
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615214.8
=
(
i h
SUMMARY
OF MEASURED DATA AT 2115 421 1
TEMP 1 = 534.1900
(
74.520 )
TEMP 2 = 533.9700
(
74.300 )
TEMP 3 = 534.0600
(
74.390 )
TEMP 4 = 534.1400
(
74.470 )
TEMP 5 = 534.2700
(
74.600 )
TEMP 6 = 534.1200
(
74.450 )
TEMP 7= 534.0700
(
74.400 )
TEMP 8 = 533.7500
(
74.080 )
TERT 9=
534.2600
(
74.590 )
TEMP 10 = 534.0200
(
74.350 )
TEMP 11 = 534.3600
(
74.690 )
TEMP 12 = 534.6200
(
74.950 )
TEMP 13 = 533.9300
(
74.260 )
TEMP 14 = 533.0700
(
73.400 )
TEMP 15 = 533.2100
(
73.540 )
TEMP 16 = 532.7600
(
73.090 )
TEMP 17 = 530.6400
(
70.970 )
TEMP 18 = 531.0100
(
71.340 )
PRES 1=
68.6124
( 69120.0 )
PRES 2=
68.64<6
( 67541.0 )
VPRS 1=
.2980
(
64.290 )
VPRS 2
.2887
(
63.390 )
=
VPRS 3=
.3040
(
64.860 )
VPRS 4
.2555
(
59.930 )
=
VPRS 5=
.2932
(
63.830 )
VPRS 6=
.2850
(
63.020 )
SUMMARY
OF CORRECTED DATA TIME = 2115 DATE =
421 TEMPERATURE (DEGREES R.)
533.7004
=
CORRECTED PRESSURE (PSIA) 68.3411
=
VAPOR PRESSURE (PSIA)
.2874
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615222.7
=
l 1
(
SUMMARY
OF MEASURED DATA AT 2130 421 TEMP 1 = 534.1500
(
74.480 )
TEMP 2 = 533.9700
(
74.300 )
TEMP 3 = 534.0200
(
74.350 )
TEMP 4 = 534.1300
(
74.460 )
TEMP 5 = 534.2600
(
74.590 )
TEMP 6 = 534.1500
(
74.480 )
TEMP 7 = 534.0800
(
74.410 )
TEMP 8 = 533.8000
(
74.130 )
TEMP 9 = 534.2600
(
74.590 )
TEMP 10 = 534.0300
(
74.360 )
TEMP 11 = 534.4300
(
74.760 )
TEMP 12 = 534.6500
(
74.980 )
TEMP 13 = 533.9300
(
74.260 )
TEMP 14 = 533.1500
(
73.480 )
TEMP 15 = 533.2500
(
73.580 )
TEMP 16 = 532.7800
(
73.110 )
TEMP 17 = 530.6900
(
71.020 )
TEMP 18 = 530.9700
(
71.300 )
PRES 1=
68.6134
( 69121.0 )
PRES 2=
68.6456
( 67542.0 )
f>)
VPRS 1=
.2979
(
64.280 )
N-VPRS 2=
.2868
(
63.200 )
VPRS 3=
.3048
(
64.940 )
VPRS 4=
.2568
(
60.070 )
VPRS 5=
.2923
(
63.740 )
)
VPRS 6=
.2839
(
62.910 )
SUMMARY
OF CORRECTED DATA i
TIME = 2130 DATE =
421 TEMPERATURE (DEGREES R.)
533.7102
=
CORRECTED PRESSURE (PSIA) 68.3424
=
VAPOR PRESSURE (PSIA)
=
.2871 VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615223.3
=
/~T U
i h
SUMMARY
OF MEASURED DATA AT 2145 421 TEMP 1 = 534.1500
(
74.480 )
TEMP 2 = 533.9800
(
74.310 )
TEMP 3 = 534.0500
(
74.380 )
TEMP 4 = 534.1500
(
74.480 )
TEMP 5 = 534.3100
(
74.640 )
TEMP 6 = 534.1500
(
74.480 )
TEMP 7 = 534.0000
(
74.410 )
TEMP 8 = 533.8600
(
74.190 )
TEMP 9 = 534.2800
(
74.610 )
TEMP 10 = 534.0700
(
74.400 )
TEMP 11 = 534.4500
(
74.780 )
TEMP 12 = 534.6500
(
74.980 )
TEMP 13 = 533.9500
(
74.280 )
TEMP 14 = 533.1300
(
73.460 )
TEMP 15 = 533.2300
(
73.560 )
TEMP 16 = 532.7900
(
73.120 )
TEMP 17 = 530.7000
(
71.030 )
TEMP 18 = 531.0600
(
71.390 )
PRES 1=
68.6154
( 69123.0 )
PRES 2=
68.6476
( 67544.0 )
VPRS 1=
.2986
(
64.350 )
VPRS 2=
.2874
(
63.260 )
VPRS 3=
.3033
(
64.800 )
VPRS 4=
.2554
(
59.920 )
VPRS 5=
.2926
(
63.770 )
VPRS 6=
.2831
(
62.830 )
SUMMARY
OF CORRECTED DATA TIME = 2145 DATE =
421 TEMPERATURE (DEGREES R.)
533.7293
=
l CORRECTED PRESSURE (PSIA) 68.3447
=
VAPOR PRESSURE (PSIA)
=
.2868 VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615222.3
=
l
l
()
SUMMARY
OF MEASURED DATA AT 2200 421 TEMP 1 = 534.1500
(
74.480 )
TEMP 2 = 533.9600
(
74.290 )
TEMP 3 = 534.0600
(
74.390 )
TEMP 4 = 534.1800
(
74.510 )
TEMP 5 = 534.3100
(
74.640 )
TEMP 6 = 534.1400
(
74.470 )
TEMP 7 = 534.0900
(
74.420 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.2500
(
74.580 )
TEMP 10 = 534.0900
(
74.420 )
TEMP 11 = S34.4800
(
74.810 )
TEMP 12 = 534.6700
(
75.000 )
TEMP 13 = 533.9300
(
74.260 )
TEMP 14 = 533.1700
(
73.500 )
TEMP 15 = 533.2700
(
73.600 )
TEMP 16 = 532.8000
('
73.130 )
TEMP 17 = 530.7400
(
71.070 )
TEMP 18 = 531.0700
(
71.400 )
PRES 1=
68.6154
( 69123.0 )
PRES 2=
68.6476
( 67544.0 )
f' VPRS 1=
.2982
(
64.310 )
~
VPRS 2=
.2864
(
63.160 )
VPRS 3 =
.3040
(
64.860 )
VPRS 4=
.2561
(
60.000 )
VPRS 5=
.2926
(
63.770 )
VPRS 6=
.2824
(
62.760 )
SUMMARY
OF CORRECTED DATA TIME = 2200 DATE =
421 TEMPERATURE (DEGREES R. )
533.7376
=
CORRECTED PRESSURE (PSIA) 68.3449
=
VAPOR PRESSURE (PSIA)
=
.2866 VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615213.9
=
i
h
SUMMARY
OF MEASURED DATA AT 2215 421 TEMP 1 = 534.1400
(
74.470 )
TEMP 2 = 533.9700
(
74.300 )
TEMP 3 = 534.0800
(
74.410 )
TEMP 4 = 534.1300
(
74.460 )
TEMP 5 = 534.2700
(
74.600 )
TEMP 6 = 534.1800
(
74.510 )
TEMP 7 = 534.0800
(
74.410 )
TEMP 8 = 533.8400
(
74.170 )
TEMP 9 = 534.3000
(
74.630 )
TEMP 10 = 534.1300
(
74.460 )
TEMP 11 = 534.4600
(
74.790 )
TEMP 12 = 534.6800
(
75.010 )
TEMP 13 = 533.9400
(
74.270 )
TEMP 14 = 533.2200
(
73.550 )
TEMP 15 = 533.2700
(
73.600 )
TEMP 16 = 532.8500
(
73.180 )
TEMP 17 = 530.7600
(
71.090 )
TEMP 18 = 531.2300
(
71.560 )
PRES 1=
68.6154
( 69123.0 )
PRES 2=
68.6487
( 67545.0 )
VPRS 1=
.2978
(
64.270 )
VPRS 2=
.2871
(
63.230 )
VPRS 3=
.3037
(
64.84'O )
VPRS 4=
.2561
(
60.000 )
VPRS 5=
.2925
(
63.760 )
VPRS 6=
.2839
(
62.910 )
SUMMARY
OF CORRECTED DATA TIME = 2215 DATE =
421 TEMPERATURE (DEGREES R.)
533.7504
=
CORRECTED PRESSURE (PSIA) 68.3451
=
VAPOR PRESSURE (PSIA)
.2869
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615201.6
=
1
l
SUMMARY
OF MEASURED DATA AT 2230 421 TEMP 1 = 534.1400
(
74.470 )
TEMP 2 = 533.9600
(
74.290 )
TEMP 3 = 534.0800
(
74.410 )
TEMP 4 = 534.1600
(
74.490 )
TEMP 5 = 534.3300
(
74.660 )
TEMP 6 = 534.1900
(
74.520 )
TEMP 7 = 534.0700
(
74.400 )
TEMP S = 533.8700
(
74.200 )
TEMP 9 = 534.2700
(
74.600 )
TEMP 10 = 534.1100
(
74.440 )
TEMP 11 = 534.5100
(
74.840 )
TEMP 12 = 534.7200
(
75.050 )
TEMP 13 = 534.0000
(
74.330 )
TEMP 14 = 533.1700
(
73.500 )
TEMP 15 = 533.3100
(
73.640 )
TEMP 16 = 532.8800
(
73.210 )
TEMP 17 = 530.7900
(
71.120 )
TEMP 18 = 531.1800
(
71.510 )
PRES 1=
68.6154
( 69123.0 )
PRES 2=
68.6487
( 67545.0 )
()
VPRS 1=
.2975
(
64.240 )
VPRS 2=
.2880
(
63.320 )
VPRS 3
.3032
(
64.790 )
=
VPRS 4
.2552
(
59.900 )
=
VPRS S=
.2933
(
63.840 )
VPRS 6=
.2821
(
62.730 )
SUMMARY
OF CORRECTED DATA TIME = 2230 j
DATE =
421 o
i TEMPERATURE (DEGREES R.)
533.7599
=
CORRECTED PRESSURE (PSIA) 68.3454
=
VAPOR PRESSURE (PSIA)
.2866
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615193.3
=
0
h
SUMMARY
OF MEASURED DATA AT 2245 421 TEMP 1 = 534.1200
(
74.450 )
TEMP 2 = 533.9500
(
74.280 )
TEMP 3 = 534.0400
(
74.370 )
TEMP 4 = 534.1700
(
74.500 )
TEMP 5 = 534.3500
(
74.680 )
TEMP 6 = 534.1800
(
74.510 )
TEMP 7 = 534.0900
(
74.420 )
TEMP 8 = 533.8300
(
74.160 )
TEMP 9 = 534.2500
(
74.580 )
TEMP 10 = 534.1300
(
74.460 )
TEMP 11 = 534.4600
(
74.790 )
TEMP 12 = 534.7100
(
75.040 )
TEMP 13 = 533.9800
(
74.310 )
TEMP 14 = 533.1800
(
73.510 )
TEMP 15 = 533.2800
(
73.610 )
TEMP 16 = 532.8400
(
73.170 )
TEMP 17 = 530.8100
(
71.140 )
TEMP 18 = 531.2100
(
71.540 )
PRES 1=
68.6154
( 69123.0 )
PRES 2=
68.6497
( 67546.0 )
VPRS 1=
.2975
(
64.240 )
VPRS 2=
.2858
(
63.100 )
VPRS 3
.3040
(
64.860 )
=
VPRS 4
.2538
(
59.740 )
=
VPRS 5=
.2920
(
63.710 )
VPRS 6=
.2841
(
62.930 )
SUMMARY
OF CORRECTED DATA TIME = 2245 DATE =
421 TEMPERATURE (DEGREES R.)
533.7513
=
CORRECTED PRESSURE (PSIA) 68.3463
=
VAPOR PRESSURE (PSIA)
.2862
=
VOLUME (CU.FT.) =- 17 8 0 0 0 0. 0 AIR MASS (LBM) 615211.2
=
<()
SUMMARY
OF MEASURED DATA AT 2300 421 TEl!P 1 = 534.1000
(
74.430 )-
TEMP 2 = 533.9800
(
74.310 )
TEMP 3 = 534.0200
(
74.350 )
TEMP 4 = 534.1500
(
74.480 )
TEMP 5 = 534.3500
(
74.680 )
TEMP 6 = 534.1800
(
74.510 )
TEMP 7 = 534.1100
(
74.440 )
TEMP 8 = 533.8600
(
74.190 )
TEMP 9 = 534.2500
(
74.580 )
TEMP 10 = 534.1800
(
74.510 )
TEMP 11 = 534.5000
(
74.830 )
TEMP 12 = 534.7500
(
75.080 )
TEMP 13 = 534.0100
(
74.340 )
TEMP 14 = 533.1800
(
73.510 )
TEMP 15 = 533.3300
(
73.660 )
TEMP 16 = 532.9000
(
73.230 )
TEMP 17 = 530.8400
(
71.170 )
TEMP 18 = 531.2500
(
71.580 )
PRES 1=
68.6173
( 69125.0 )
PRES 2=
68.6497
( 67546.0 )
O, VPRS 1=
.2979
(
64.280 )
VPRS 2=
.2869
(
63.210 )
VPRS 3=
.3043
(
64.890 )
VPRS 4
.2554
(
59.920 )
=
VPRS 5=
.2932
(
63.830 )
VPRS 6=
.2827
(
62.790 )
SUMMARY
OF CORRECTED DATA TIME = 2300 DATE =
421 TEMPERATURE (DEGREES R.)
533.7665
=
CORRECTED PRESSURE (PSIA) 68.3468
=
VAPOR PRESSURE (PSIA)
.2867
=
VOLUME (CU.FT.) = 1780000,0 AIR MASS (LBM) 615197.6
=
0
SUMMARY
OF MEASURED DATA AT 2315 421 TEMP 1 = 534.1000
(
74.430 )
TEMP 2 = 533.9800
(
74.310 )
TEMP 3 = 534.0500
(
74.380 )
TEMP 4 = 534.1400
(
74.470 )
TEMP 5 = 534.3200
(
74.650 )
TEMP 6 = 534.1900
(
74.520 )
TEMP 7 = 534.0800
(
74.410 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.2400
(
74.570 )
TEMP 10 = 534.1600
(
74.490 )
TEMP 11 = 534.5600
(
74.890 )
TEMP 12 = 534.7100
(
75.040 )
TEMP 13 = 534.0000
(
74.330 )
TEMP 14 = 533.2800
(
73.610 )
TEMP 15 = 533.3600
(
73.690 )
i TEMP 16 = 532.9000
(
73.230 )
TEMP 17 = 530.9000
(
71.230 )
TEMP 18 = 531.3500
(
71.600 )
PRES 1=
68.6173
( 69125.0 )
PRES 2=
68.6507
( 67547.0 )
VPRS 1=
.2976
(
64.250 )
h VPRS 2=
.2872
(
63.240 )
VPRS 3=
.3035
(
64.820 )
VPRS 4
.2538
(
59.750 )
i
=
VPRS 5=
.2928
(
63.790 )
VPRS 6=
.2831
(
62.830 )
SUMMARY
OF CORRECTED DATA TIME = 2315 DATE =
421 TEMPERATURE (DEGREES R.)
533.7772
=
CORRECTED PRESSURE (PSIA) 68.3476
=
VAPOR PRESSURE (PSIA)
=
.2864 VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615193.4
=
9
1
~)
SUMMARY
OF MEASURED DATA AT 2330 421
(
TEMP 1 = 534.1300
(
74.460.)
TEMP 2 = 533.9800
(
74.310 )
TEMP 3 = 534.0200
(
74.350 )
TEMP 4 = 534.1400
(
74.470 )
TEMP 5 = 534.3100.
(
74.640 )
TEMP 6 = 534.1700
(
74.500 )
TEMP 7 = 534.0800
(
74.410 )
TEMP 8 = 533.8300
(
74.160 )
TEMP 9 = 534.2600
(
74.590 )
1 TEMP 10 = 534.1800
(
74.510 )
TEMP 11 = 534.5700
(
74.900 )
TEMP 12 = 534.7300
(
75.060 )
TEMP 13 = 534.0400
(
74.370 )
TEMP 14 = 533.2400
(
73.570 )
TEMP 15 = 533.3800
(
73.710 )
TEMP 16 = 532.9300
(
73.260 )
TEMP 17 = 530.8700
(
71.200 )
TEMP 18 = 531.3500
(
71.680 )
PRES 1=
68.6173
( 69125.0 )
PRES 2=
68.6517
( 67548.0 )
[\\
VPRS 1=
.2971
(
64.210 )
N-VPRS 2=
.2863
(
63.150 )
VPRS 3=
.3039
(
64.850 )
VPRS 4
.2537
(
59.730 )
=
VPRS 5=
.2918
(
63.690 )
VPRS 6=
.2827
(
62.790 )
SUMMARY
OF CORRECTED DATA TIME = 2330 DATE =
421 TEMPERATURE (DEGREES R.)
533.7766
=
CORRECTED PRESSURE (PSIA) 68.3486
=
7APOR PRESSURE (PSIA)
.2859
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615202.6
=
/~%
l t
1
SUMMARY
OF MEASURED DATA AT 2345 421 TEMP 1 = 534.1400
(
74.470 )
TEMP 2 = $33.9800
(
74.310 )
TEMP 3 = S34.0200
(
74.250 )
TEMP 4 = 534.1800
(
74.510 )
TEMP 5 = 534.2800
(
74.610 )
TEMP 6 = 534.1700
(
74.500 )
TEMP 7 = 534.1200
(
74.450 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.2400
(
74.570 )
TEMP 10 = 534.1700
(
74.500 )
TEMP 11 = 534.5800
(
74.910 )
TEMP 12 = 534.7700
(
75.100 )
TEMP 13 = 534.0400
(
74.370 )
TEMP 14 = 533.2500
(
73.580 )
TEMP 15 = 533.3800
(
73.710 )
TEMP 16 = 532.9900
(
73.320 )
TEMP 17 = 530.9400
(
71.270 )
TEMP 18 = 531.3300
(
71.660 )
PRES 1=
68.6183
( 69126.0 )
PRES 2=
68.6517
( 67548.0 )
VPRS 1=
.2976
(
64.250 )
VPRS 2=
.2869
(
63.210 )
VPRS 3=
.3037
(
64.'840 )
VPRS 4=
.2543
(
59.800 )
VPRS S=
.2915
(
63.660 )
VPRS 6=
.2832
(
62.840 )
SUMMARY
OF CORRECTED DATA TIME = 2345 DATE =
421 TEMPERATURE (DEGREES R.)
533.7884
=
CORRECTED PRESSURE (PSIA) 68.3488
=
VAPOR PRESSURE (PSIA)
.2862
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615190.8
=
9
l l
().
SUMMARY
OF MEASURED DATA AT 0
422 TEMP 1 = 534.1000
(
74.430 )
TEMP 2 = 533.9900
(
.74.320 )
j TEMP 3 = 534.0500
(
74.380 )
TEMP 4 = 534.1700
(
74.500 )
TEMP. 5 = 534.2900
(
74.620 )
TEMP 6 = 534.2100
(
74.540 )
i TEMP 7 = 534.1300
(
74.460 )
TEMP 8 = 533.8600
'(
74.190 )
TEMP 9 = 534.2400
(
74.570 )
TEMP 10 = 534.2000
(
74.530 )
TEMP 11 = 534.5900
(
74.920 )
i TEMP 12 = 534.7800
(
75,110')
TEMP 13 = 534.0100
(
74.340 )
TEMP 14 = 533.2800
(
73.610 )
TEMP 15 = 533.4300
(
73.760 )
TEMP 16 = 532.9500
('
73.280 )
TEMP 17 = 530.9800
(
71.310 )
TEMP 18 = 531.3100
(
71.640 )
PRES 1=
68.6193
( 69127.0 )
PRES 2=
6S.6527
( 67549.0 )
O*
VPRS 1=
.2969
(
64.190 )
VPRS 2=
.2860
(
63.120 )
VPRS 3 '
.3029
(
64.760 )
=
VPRS 4=
.2544
(
59.810 )
VPRS 5=
.2919
(
63.700 )
VPRS 6=
.2820
(
62.720 )
SUMMARY
OF CORRECTED DATA TIME =
0 DATE =
422 TEMPERATURE (DEGREES R.)
533.7946
=
CORRECTED PRESSURE (PSIA) 68.3503
=
VAPOR PRESSURE (PSIA)
.2857
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615197.3
=
0
h
SUMMARY
OF MEASURED DATA AT 15 422 TEMP 1 = 534.1100
(
74.440 )
TEMP 2 = 533.9900
(
74.320 )
TEMP 3 = 534.0700
(
74.400 )
TEMP 4 = 534.1600
(
74.490 )
TEMP 5 = 534.3000
(
74.630 )
TEMP 6 = 534.1800
(
74.510 )
TEMP 7 = 534.1200
(
74.450 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.2700
(
74.600 )
TEMP 10 = 534.2300
(
74.560 )
TEMP 11 = 534.5800
(
74.910 )
TEMP 12 = 534.7900
(
75.120 )
TEMP 13 = 534.0400
(
74.370 )
TEM? 14 = 533.3500
(
73.680 )
TEMP 15 = 533.4200
(
73.750 )
TEMP 16 = 532.9700
(
73.300 )
TEMP 17 = 530.9800
(
71.310 i TEMP 18 = 531.4300
(
71.760 )
PRES 1=
68.6193
( 69127.0 )
PRES 2=
68.6527
( 67549.0 )
VPRS 1=
.2976
(
6 4..?.5 0 )
VPRS 2=
.2868
(
63.200 )
VPRS 3
.3036
(
64.830 )
=
VPRS 4=
.2542
(
59.790 )
VPRS 5=
.2911
(
63.620 )
VPRS 6=
.2822
(
62.740 )
SUMMARY
OF CORRECTED DATA TIME =
15 DATE =
422 TEMPERATURE (DEGREES R.)
533.8086
=
CORRECTED PRESSURE (PSIA) 68.3501
=
VAPOR PRESSURE (PSIA)
.2859
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615179.1
=
0
l
,,()
SUMMARY
OF MEASURED DATA AT 30 422 TEMP 1 = 534.1300
(
74.460 )
TEMP 2 = 533.9800
(-
74.310 )
TEMP 3 = 534.0600
(
74.390 )
TEMP 4 = 534.2000
(
74.'530-)
TEMP 5 = 534.2600
(
74.590 )
TEMP 6 = 534.2200
(
74.550 )
TEMP 7 = 534.1400
(
74.470 )
TEMP 8 = 533.8500
(
74.180 )
TEMP 9 = 534.2800
(
74.610 )
TEMP 10 = 534.1900
(
74.520 )
TEMP 11 = 534.5600
(
74.890 )
TEMP 12 = 534.8200
(
75.150 )
TEMP 13 = 534.0700
(
74.400 )
TEMP 14 = 533.2900
(
73.620 )
TEMP 15 = 533.4300
(
73.760 )
TEMP 16 = 532.9900
(
73.320 )
TEMP 17 = 530.9900
(
71.320 )
TEMP 18 = 531.3600
(
71.690 )
i PRES 1=
68.6193
( 69127.0 )
PRES 2=
68.6537
( 67550.0 )
f~T VPRS 1=
.2977
(
64.260 )
\\-
VPRS 2=
.2846
(
62.980 )
VPRS 3=
.3029
(
64.760 )
VPRS 4=
.2532
(
59.680 )
VPRS 5=
.2911
(
63.620 )
VPRS 6=
.2826
(
62.780 )
1
SUMMARY
OF CORRECTED DATA
{
TIME =
30 1
DATE =
422 TEMPERATURE (DEGREES R.)
533.8074
=
CORRECTED PRESSURE (PSIA) 68.3512
=
VAPOR PRESSURE (PSIA)
.2854
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615190.3
=
l C:)
j i
i l
h
SUMMARY
OF MEASURED DATA AT 45 422 TEMP 1 = 534.0900
(
74.420 )
TEMP 2 = 534.0000
(
74.330 )
TEMP 3 = 534.0400
(
74.370 )
TEMP 4 = 534.1600
(
74.490 )
TEMP 5 = 534.3700
(
74.700 )
TEMP 6 = 534.1900
(
74.520 )
TEMP 7 = S34.1300
(
74.460 )
TEMP 8 = 5?3.8600
(
74.190 )
TEMP 9 = 534.2600
(
74.590 )
TEMP 10 = 534.2300
(
74.560 )
TEMP 11 = 534.5600
(
74.890 )
TEMP 12 = 534.8000
(
75.130 )
TEMP 13 = 534.0500
(
74.380 )
TEMP 14 = 533.3100
(
73.640 )
TEMP 15 = 533.4400
(
73.770 )
TEMP 16 = 533.0000
(
73.330 )
TEMP 17 = 531.0300
(
71.360 )
TEMP 18 = 531.2800
(
71.610 )
PRES 1=
68.6203
( 69128.0 )
PRES 2
68.6547
( 67551.0 )
=
VPRS 1=
.2977
(
64.260 )
VPRS 2
.2876
(
63.280 )
=
VPRS 3=
.3033
(
64.800 )
VPRS 4
.2541
(
59.780 )
=
VPRS 5=
.2916
(
63.670 )
VPRS 6=
.2824
(
62.760 )
SUMMARY
OF CORRECTED DATA TIME =
45 DATE =
422 l
TEMPERATURE (DEGREES R.)
533.8058
=
CORRECTED PRESSURE (PSIA) 68.3514
=
VAPOR PRESSURE (PSIA)
.2861
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615194.1
=
9
1
SUMMARY
OF MEASURED DATA AT 100 422 TEMP 1 = 534.0900
(
74.420 )
TEMP 2 = 534.0000
(
74.330 )
TEMP 3 = 534.0600
(
74.390 )
TEMP 4 = 534.1300
(
74.460 )
TEMP 5 = 534.3200
(
74.650 )
TEMP 6 = 534.2400
(
74.570 )
TEMP 7 = 534.1100
(
74.440 )
TEMP 8 = 533.8900
(
74.220 )
TEMP 9 = 534.2700
(
74.600 )
TEMP 10 = 534.1900
(
74.520 )
TEMP 11 = 534.6400
(
74.970 )
TEMP 12 = 534.7800
(
75.110 )
TEMP 13 = 534.0900
(
74.420 )
TEMP 14 = 533.3700
(
73.700 )
TEMP 15 = 533.4400
(
73.770 )
TEMP 16 = 533.0300
(
73.360 )
TEMP 17.= 531.0100
(
71.340 )
l TEMP 18 = 531.4200
(
71.750 )
PRES 1=
68.6203
( 69128.0 )
PRES 2=
68.6558
( 67552.0 )
l VPRS 1=
.2967
(
64.170 )
{
(
VPRS 2=
.2849
(
63.010 )
l VPRS 3
.3039
(
64.850 )
l
=
VPRS 4
.2529
(
59.650 )
=
VPRS 5=
.2925
(
63.760 )
VPRS 6=
.2821
(
62.730 )
l
SUMMARY
OF CORRECTED DATA TIME =
100 DATE =
422 i
TEMPERATURE (DEGREES R.)
533.8181
=
CORRECTED PRESSURE (PSIA) 68.3525
=
VAPOR PRESSURE (PSIA)
.2855
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615190.1
=
O f
r.,__.,.
ne
,e--,m.--,--g-
.+,...,,,.,w-.-,w, eyn,.,,
.-n-,------my--3,e-,-
SUMMARY
OF MEASURED DATA AT 115 422
. TEMP 1 = 534.1300
(
74.460 )
TEMP 2 = 533.9500
(
74.280 )
TEMP 3 = 534.0900
(
74.420 )
TEMP 4 = 534.1600
(
74.490 )
TEMP 5 = 534.3400
(
74.670 )
TEMP 6 = 534.2300
(
74.560 )
TEMP 7 = 534.1400
(
74.470 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.2900
(
74.620 )
TEMP 10 = 534.2500
(
74.580 )
TEMP 11 = 534.6000
(
74.930 )
TEMP 12 = 534.8100
(
75.140 )
TEMP 13 = 534.0700
(
74.400 )
TEMP 14 = 533.3600
(
73.690 )
TEMP 15 = 533.4600
(
73.790 )
TEMP 3 6 = 53 3. 04 00
(
73.370 )
TEMP 17 = 531.0300
(
71.360 )
TEMP 18 = 531.5300
(
71.860 )
PRES 1=
68.6203
( 69128.0 )
PRES 2=
68.6558
( 67552.0 )
VPRS 1=
.2971
(
64.210 )
VPRS 2=
.2872
(
63.240 )
VPRS 3
.3030
(
64.770 )
=
VPRS 4 =
.2536
(
59.720 )
VPRS 5=
.2910
(
63.610 )
VPRS 6=
.2825
(
62.770 )
SUMMARY
OF CORRECTED DATA TIME =
115 DATE =
422 TEMPERATURE (DEGREES R.)
533.8322
=
CORRECTED PRESSURE (PSIA) 68.3523
=
VAPOR PRESSURE (PSIA)
.2858
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615171.7
=
O
().
SUMMARY
OF MEASURED DATA AT 130 422 TEMP 1 = 534.1300
(
74.460 )
TEMP 2 = 533.9600
(
74.290 )
TEMP 3 = 534.0700
(
74.400 )
TEMP 4 = 534.1500
(
74.480 )
TEMP 5 = 534.3400
(
74.670 )
TEMP 6 = 534.2300
(
74.560 )
TEMP 7 = 534.1000
(
74.430 )
TEMP 8 = 533.8800
(
74.210 )
TEMP 9 = 534.2600
(
74.590 )
TEMP 10 = 534.3000
(
74.630 )
TEMP 11 = 554.6300
(
74.960 )
TEMP 12 = 534.8600
(
75.190 )
TEMP 13 = 534.0800
(
74.410 )
TEMP 14 = 533.3900
(
73.720 )
TEMP 15 = 533.4400
(
'3.770 )
TEMP 16 = 533.0900
(
73.420 )
TEMP 17 = 531.0900
(
71.420 )
TEMP 18 = 531.4300
(
71.760 )
PRES 1=
68.6213
( 69129.0 )
PRES 2=
68.6568
( 67553.0 )
O' VPRS 1=
.2967
(
64.170 )
VPRS 2=
.2872
(
63.240 )
VPRS 3=
.3036
(
64.830 )
VPRS 4=
.2532
(
59.680 )
VPRS 5=
.2917
(
63.680 )
j VPRS 6=
.2818
(
62.700 )
l
SUMMARY
OF CORRECTED DATA TIME =
130 DATE =
422 TEMPERATURE (DEGREES R.)
S33.8336
=
CORRECTED PRESSURE (PSIA) 68.3b33
=
VAPOR PRESSURE (PSIA)
.2857 l
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615179.4 i
=
O
h
SUMMARY
OF MEASURED DATA AT 145 422 TEMP 1 = 534.1100
(
74.4to )
TEMP 2 = 533.9800
(
74.310 )
TEMP 3 = 534.0900
(
74.420 )
TEMP 4 = 534.1400
(
74.470 )
TEMP 5 => 534. 3900
(
74.720 )
TEMP 6 = 534.2200
(
74.550 )
TEMP 7 = 534.1600
(
74.490 )
TEMP 8 = 533.8600
(
74.190 )
TEMP 9 = 534.3000
(
74.630 )
TEMP 10 = 534.2300
(
74.560 )
TEMP 11 = 534.6200
(
74.950 )
TEMP 12 = 534.8300
(
75.160 )
TEMP 13 = 534.1300
(
74.460 )
TEMP 14 = 533.3800
(
73.710 )
TEMP 15 = 533.4800
(
73.810 )
TEMP 16 = 533.0800
(
73.410 )
TEMP 17 = 531.1100
(
71.440 )
TEMP 18 = 531.4700
(
71.800 )
PRES 1=
68.6213
( 69129.0 )
PRES 2=
68.6566
( 67553.0 )
VPRS 1=
.2968
(
64.180 )
h VPRS 2=
.2856
(
63.080 )
VPRS 3
.3032
(
64.790 )
=
1 PRS 4
.2538
(
59.740 )
=
VPRS 5=
.2914
(
63.650 )
VPRS 6=
.2812
(
62.640 )
StiMMARY OF CORRECTED DATA TIME =
145 DATE =
422 TEMPERATURE (DEGREES R.)
533.8425
=
CORRECTED PRESSURE (PSIA) 68.3537
=
VAPOR PRESSURE (PSIA)
.2853
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615172.4
=
h
l l
(
SUMMARY
OF MEASURED DATA AT 200 422' TEMP 1 = 534.1200
(
74.450 )
i TEMP 2 = 534.0000
(
74.330 )
TEMP 3 =_534.0800
(
74.410 )
TEMP 4 = 534.1400
(
74.470 )
TEMP 5 = 534.3900
(
74.720 )
TEMP 6 = 534.2700
(
74.600 )
TEMP 7 = 534.1500
(
74.480 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.2800
(
74.610 )
TEMP 10 = 534.2400
(
74.570 )
TEMP 11 = 534.6500
(
74.980 )
TEMP 12 = 534.8400
(
75.170 )
TEMP 13 = 534.1100
(
74.440 )
TEMP 14 = 533.4200
(
73.750 )
TEMP 15 = 533.5000
(
73.830 )
TEMP 16 = 533.1000
(
73.430 )
TEMP 17 = 531.1000
(
71.430 )
TEMP 18 = 533.4700
(
71.800 )
PRES' 1=
68.6233
( 69131.0 )
PRES 2a 68.6378
( 67554.0 )
- O VPRS 1=
.2960
(
64.100 )
VPRS 2=
.2853
(
63.050 )
VPRS 3=
.3027
(
64.740 )
VPRS 4=
.2539
(
59.760 )
VPRS 5=
.2915
(
63.660 )
VPRS 6=
.2822
(
62.740 )
i
SUMMARY
OF CORRECTED DATA l
TIME =
200 DATE =
422 TEMPERATURE (DEGREES R.)
533.8505
=
CORRECTED PRESSURE (PSIA) 68.3553
=
VAPOR PRESSURE (PSIA)
.2853 i
=
VOLUME ( CU. FT. ) = 1780000.0 AIR MASS (LBM) 615177.4
=
l s
SUMMARY
OF MEASURED DATA AT 215 422 TEMP 1 = 534.1200
(
74.450 )
TEMP 2 = 533.9900
(
74.320 )
TEMP 3 = 534.0800
(
74.410 )
TEMP 4 = 534.1400
(
'/4.470 )
TEMP 5 = 534.4200
(
74.750 )
TEMP 6 = 534.2400
(
74.570 )
TEMP 7 = 534.1300
(
74.46G )
TEMP 8 = 533.8600
(
74.190 )
TEMP 9 = 534.2900
(
74.620 )
TEMP 10 = 534.2500
(
74.580 )
TEMP 11 = 534.6700
(
75.000 )
TEMP 12 = 534.8500
(
75.180 )
TEMP 13 = 534.1100
(
74.440 )
TEMP 14 = 533.3800
(
73.710 )
TEMP 15 = 533.4900
(
73.820 )
TEMP 16 = 533.1400
(
73.470 )
TEMP 17 = 531.1500
(
71.480 )
TEMP 18 = 531.4700
(
71.800 )
PRES 1=
68.6243
( 69132.0 )
PRES 2=
68.6588
( 67555.0 )
VPRS 1=
.2964
(
64.140 )
VPRS 2=
.2851
(
63.030 )
VPRS 3=
.3029
(
64.760 )
VPRS 4=
.2540
(
59.770 )
VPRS 5=
.2916
(
63.670')
VPRS 6=
.2820
(
62.720 )
SUMMARY
OF CORRECTED DATA TIME =
215 DATE =
422 TEMPERATURE (DEGREES R.)
533.8511
=
CORRECTED PRESSURE (PSIA) 68.3562
=
VAPOR PRESSURE (PSIA)
.2854
=
VOLUME ( CU. F".. ) = 1780000.0 AIR MASS (LBM) 615185.1
=
0
SUMMARY
OF MEASURED DATA AT 230 422 TEMP 1 = 534.1500
(
74.480 )
TEMP 2 = 533.9800
(
74.310 )
TEMP 3 = 534.0800
(
74.410 )
TEMP 4 = 534.1400
(
74.470 )
TEMP 5 = 534.4000
(
74.730 )
TEMP 6 = 534.2600
(
74.590 )
TEMP 7 = 534.1600
(
74.490 )
TEMP. 8 = 533.8900
(
74.220 )
TEMP 9 = 534.3000
(
74.630 )
TEMP 10 = 534.3200
(
74.650 )
TEMP 11 = 534.6600
(
74.990 )
TEMP 12 = 534.8200
(
75.150 )
TEMP 13 = 534.1400
(
74.470 )
TEMP 14 = 533.4100
(
73.740 )
TEMP 15 = 533.5300
(
73.860 )
TEMP 16 = 533.1300
(
73.460 )
TEMP 17 = 531.1400
(
71.470 )
TEMP 18 = 531.5700
(
71.900 )
PRES 1=
68.6253
( 69133.0 )
PRES 2=
68.6598
( 67556.0 )
[~)
VPRS 1=
.2964
(64-140 )
\\/
VPRS 2=
.2868
(
63.200 )
VPRS 3=
.3029
(
64.760 )
VPRS 4=
.2535
(
59.710 )
VPRS 5=
.2912
(
63.630 )
VPRS 6=
.2831
(
62.830 )
SUMMARY
OF CORRECTED DATA TIME =
230 DATE =
422 TEMPERATURE (DEGREES R.)
533.8670
=
CORRECTED PRESSURE (PSIA) 68.3569
=
VAPOR PRESSURE (PSIA)
.2857
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615173.0
=
()
l i
SUMMARY
OF MEASURED DATA AT 245 422 TEMP 1 = 534.1600
(
74.490 )
TEMP 2 = 534.0000
(
74.330 )
TEMP 3 = 534.1000
(
74.430 )
TEMP 4 = 534.1700
(
74.500 )
TEMP 5 = 534.4000
(
74.730 )
TEMP 6 = 534.2900
(
74.620 )
TEMP 7 ' 534.1300
(
74.460 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.2900
(
74.620 )
TEMP 10 = 534.2600
(
74.590 )
TEMP 11 = 534.6700
(
75.000 )
TEMP 12 = 534.8200
(
75.150 )
TEMP 13 = 534.1500
(
74.480 )
TRAP 14 = 533.4400
(
73.770 )
TEMP 15 = 533.5800
(
73.910 )
TEMP 16 = 533.1800
(
73.510 )
TEMP 17 = 531.1900
(
71.520 )
TEMP 18 = 531.5200
(
71.850 )
PRES 1=
68.6253
( 69133.0 )
PRES 2=
68.6598
( 67556.0 )
VPRS 1=
.2970
(
64.200 )
VPRS 2
.2862
(
63.140 )
=
VPRS 3
.3029
(
64.760 )
=
VPRS 4
.25?7
(
59.730 )
=
VPRS 5=
.2907
(
63.580 )
VPRS 6=
.2821
(
62.730 )
SUMMARY
OF CORRECTED DATA TIME =
245 DATE =
422 TEMPERATURE (DEGREES R.)
=
533.8743 CORRECTED PRESSURE (PSIA) 68.3571
=
VAPOR PRESSURE (PSIA)
=
.2854 VOLUME (CU.rT.) = 1780000.0 AIR MASS (LBM) 615166.5
=
O l
l
(
SUMMARY
OF MEASURED DATA AT 300 422 TEMP 1 = 534.1400
(
.74.470 )
TEMP 2 = 533.9600
(
74.290 )
TEMP 3 = 534.1000
(
74.430 )
TEMP 4 = 534.2100
(
74.540 )
TEMP 5 = 534.4100
(
74.740 )
TEMP 6 = 534.2700
(
74.600 )
TEMP 7 = 534.1600
(
74.490 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.2800
(
74.610 )
TEMP 10 = 534.3000
(
74.630 )
TEMP 11 = 534.7000
(
75.030 )
TEMP 12 = 534.8400
(
75.170 )
TEMP 13 = 534.1700
(
74.500 )
TEMP 14 = 533.4600
(
73.700 )
TEMP 15 = 533.5500
(
73.Sd0 )
TEMP 16 = 533.1700
(
73.500 )
TEMP 17 = 531.2000
(
71.530 )
TEMP 18 = 531.5700
(
71.900 )
PRES 1=
68.6263
( 69134.0 )
PRES 2=
68.6608
( 67557.0 )
n_-
VPRS 1=
.2961
(
64.110 )
s VPRS 2=
.2865
(
63.170 )
VPRS 3=
.3033
(
64.800 )
VPRS 4=
.2535
(
59.710 )
VPRS 5=
.2917
(
63.680 )
VPRS 6=
.2826
(
62.780 )
SUMMARY
OF CORRECTED DATA TIME =
300 DATE =
422 TEMPERATURE (DEGREES R.)
533.8801
=
CORRECTED PRESSURE (PSIA) 68.3579
=
VAPOR PRESSURE (PSIA)
.2856
=
VOLUME (Cd.FT.) = 1780000.0 AIR MASS (LBM) 615167.2
=
_=,
SUMMARY
OF MEASURED DATA AT 315 422 TEMP 1 = 534.1400
(
74.470 )
TEMP 2 = 533.9700
(
74.300 )
i TEMP 3 = 534.1200
(
74.450 )
)
TEMP 4 = 534.1900
(
74.520 )
TEMP 5 = 534.4100
(
74.740 )
TEMP 6 = 534.3000
(
74.630 )
TEMP 7 = 534.1500
(
74.480 )
TEMP 8 = 533.8900
(
74.220 )
TEMP 9 = 534.3100
(
74.640 )
TEMP 10 = 534.3000
(
74.630 )
TEMP 11 = 534.6700
(
75.000 )
TEMP 12 = 534.8800
(
75.210 )
TEMP 13 = 534.1500
(
74.480 )
TEMP 14 = 533.4800
(
73.810 )
TEMP 15 = 533.5400
(
73.870 )
TEMP 16 = 533.1800
(
73.510 )
TEMP 17 = 531.2200
(
71.550 )
TEMP 18 = 531.6100
(
71.940 )
PRES 1=
68.6263
( 69134.0 )
PRES 2=
68.6619
( 67558.0 )
VPRS 1=
.2966
(
64.160 )
VPRS 2=
.2860
(
63.120 )
VPRS 3
.3030
(
64.770 )
=
VPRS 4=
.2534
(
59.700 )
VPRS 5=
.2910
(
63.610 )
VPRS 6=
.2812
(
62.640 )
SU:D1ARY OF CORRECTED DATA TIME =
315 DATE =
422 TEMPERATURE (DEGREES R. )
533.8885
=
CORRECTED PRESSURE (PSIA) 68.3588
=
VAPOR PRESSURE (PSIA)
.2852
=
VOLUME ( CU. FT. ) = 1780000,0 AIR MASS (LBM) 615165.8
=
9
SUMMARY
OF MEASURED DATA AT 330 422 TEMP 1 = 534.1300
(
74.460 )
TEMP 2 = 534.0200
(
74.350 )
TEMP 3 = 534.0900
(
74.420 )
TEMP 4 = 534.1900
(
74.520 )
TEMP 5 = 534 3500
(
74.680 )
TEMP 6 = $34.2900
(
74.620 )
TEMP 7 = 534.1800
(
74.S10 )
TEMP 8 = 533.8700
(
74.200 )
TEMP 9 = 534.3200
(
74.650 )
TEMP 10 = 534.2700
(
74.600 )
TEMP 11 = 534.7000
(
75.030 )
TEMP 12 = 534.8300
(
75.160 )
TEMP 13 = 534.1900
(
74.520 )
TEMP 14 = 533.4600
(
73.790 )
TEMP 15 = 533.5500
(
73.880 )
TEMP 16 = 533.2100
(
73.540 )
TEMP 17 = 531.1900
(
71.520 )
TEMP 18 = 531.5300
(
71.860 )
PRES 1=
68.6263
( 69134.0 )
PRES 2=
68.6619
( 67558.0 )
(")/
VPRS 1=
.2961
(
64.110 )
N_
VPRS 2=
.2660
(
63.020 )
VPRS 3=
.3024
(
64.710 )
VPRS 4=
.2534
(
59.700 )
VPRS 5=
.2909
(
63.600 )
VPRS 6=
.2818
(
62.700 )
i
SUMMARY
OF CORRECTED DATA TIME =
330 I
DATE =
422 i
TEMPERATURE (DEGREES R.)
533.8815
=
CORRECTED PRESSURE (PSIA) 68.3591
=
VAPOR PRESSURE (PSIA)
.2849
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615176.4
=
l 1
SUMMARY
OF MEASURED DATA AT 345 422 TEMP J = 534.1400
(
74.470 )
TEMP 2 = 533.9800
(
74.310 )
TEMP 3 = 534.1000
(
74.430 )
TEMP 4 = 534.1800
(
74.510 )
)
TEMP 5 = 534.3300
(
74.660 )
1 TEMP 6 = 534.2800
(
74.610 )
TEMP 7 = 534.1500
(
74.480 )
TEMP 8 = 533.9000
(
74.230 )
TEMP 9 = 534.3000
(
74.630 )
TEMP 10 = 534.2900
(
74.620 )
TEMP 11 = 534.6700
(
75.000 )
i TEMP 12 = 534.9300
(
75.260 )
TEMP 13 = 534.1600
(
74.490 )
TEMP 14 = 533.4800
(
73.810 )
TEMP 15 = 533.6000
(
73.930 )
TEMP 16 = 533.1900
(
73.520 )
TEMP 17 = 531.2300
(
71.560 )
TEMP 18 = 531.4400
(
71.770 )
PRES 1=
68.6273
( 69135.0 )
PRES 2=
68.6619
( 67558.0 )
VPRS 1=
.2962
(
64.120 )
VPRS 2=
.2854
(
G3.060 )
VPRS 3=
.3024
(
64.710 )
VPRS 4
.2531
(
59.670 )
=
VPRS 5=
.2909
(
63.600 )
VPRS 6=
.2819
(
62.710 )
SUMMARY
OF CORRECTED DATA TIME =
345 DATE =
422 TEMPERATURE (DEGREES R.)
533.8783
=
CORRECTED PRESSURE (PSIA) 68.3596
=
VAPOR PRESSURE (PSIA)
.2850
=
VOLUME (CU.FT.) = 1780000 0 AIR MASS (LBM) 615184.1
=
0
(
SUMMARY
OF MEASURED DATA AT 400 422 TEMP 1 = 534.1700
(
74.500 )
TEMP 2 = 533.9900
(
74.320 )
TEMP 3 = 534.0900
(
74.420 )
TEMP 4 = 534.1800
(
74.510 )
TEMP 5 = 534.3800
(
74.710 )
TEMP 6 = 534.2900
(
74.620 )
TEMP 7 = 534.1600
(
74.490 )
TEMP 8 = 533.8900
(
74.220 )
TEMP 9 = 534.3000
(
74.630 )
TEMP 10 = 534.3300
(
74.660 )
TEMP 11 = 534.7100
(
75.040 )
TEMP 12 = 534.9200
(
75.250 )
TEMP 13 = 534.1800
(
74.510 )
TEMP 14 = 533.4800
(
73.810 )
TEMP 15 = 533.5600
(
73.890 )
TEMP 16 = 533.2300
(
73.560 )
TEMP 17 = 531.2200
(
71.550 )
TEMP 18 = 531.6000
(
71.930 )
PRES 1=
68.6273
( 69135.0 )
PRES 2=
68.6629
( 67559.0 )
O VPRS 1=
.2956
(
64.060 )
VPRS 2=
.2847
(
62.990 )
VPRS 3=
.3018
(
64.660 )
VPRS 4=
.2523
(
59.580 )
VPRS 5=-
.2920
(
63.710 )
VPRS 6=
.2797
(
62.490 )
I i
SUMMARY
OF CORRECTED DATA i
TIME =
400 DATE =
422 TEMPERATURE (DEGREES R.)
533.8948
=
CORRECTED PRESSURE (PSIA) 68.2607 l
=
VAPOR PRESSURE (PSIA)
.2844
=
VOLUME (CU.FT.) = 1780000.0 i
AIR MASS (LBM) 615175.1
=
SUMMARY
OF MEASURED DATA AT 415 422 TEMP 1 = 534.1500
(
74.480 )
TEMP 2 = 534.0200
(
74.350 )
TEMP 3 = 534.1000
(
74.430 )
TEMP 4 = 534.2000
(
74.530 )
TEMP 5 = 534.3500
(
74.680 )
TEMP 6 = 534.3100
(
74.640 )
TEMP 7 = 534.1700
(
74.500 )
TEMP 8 = 533.9200
(
74.250 )
TEMP 9 = 534.3100
(
74.640 )
TEMP 10 = 534.2900
(
74.620 )
TEMP 11 = 534.7100
(
75.040 )
TEMP 12 = 534.9000
(
75.230 )
TEMP 13 = 534.1800
(
74.510 )
TEMP 14 = 533.4800
(
73.810 )
TEMP 15 = 533.5700
(
73.900 )
TEMP 16 = 533.2600
(
73.590 )
TEMP 17 = 531.2600
(
71.590 )
TEMP 18 = 531.6500
(
71.980 )
PRES 1=
68.6292
( 69137.0 )
PRES 2=
68.6639
( 675').O )
VPRS 1=
.2959
(
64.090 )
VPRS 2=
.2844
(
62.960 )
VPRS 3=
.3021
(* 64.680 )
VPRS 4
.2527
(
59.620 )
=
VPRS 5=
.2915
(
63.660 )
VPRS 6=
.2824
(
62.760 )
SUMMARY
OF CORRECTED DATA TIME =
415 DATE =
422 i
TEMPERATURE (DEGREES R.)
533.9030
=
CORRECTED PRESSURE (PSIA) 68.3617
=
VAPOR PRESSURE (PSIA)
=
.2848 l
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615175.1
=
0
i O,.s
SUMMARY
OF MEASURED DATA AT 430 422 TEMP 1 = 534.1700
(
74.500 )
TEMP 2 = 534.0100
(
74.340 )
TEMP 3 = 534.1100
(
74.440 )
TEMP 4 = 534.1800
(
74.510 )
TEMP 5 = 534.4100
(
74.740 )
TEMP 6 = 534.3200
(
74.650 )
TEMP 7 = 534.1800
(
74.510 )
TEMP 8 = 533.8900
(
74.220 )
TEMP 9 = 534.3200
(
74.650 )
TEMP 10 = 534.3300
(
74.660 )
TEMP 11 = 534.7000
(
75.030 )
TEMP 12 = 534.8900
(
75.220 )
TEMP 13 = 534.2100
(
74.540 )
TEMP 14 = 533.4900
(
73.820 )
TEMP 15 = 533.6100
(
73.940 )
TEMP 16 = 533.2900
(
73.620 )
TEMP 17 = 531.2800
(
71.610 )
TEMP 18 = 531.6700
(
72,000 )
PRES 1=
68.6292
( 69137.0 )
PRES 2=
68.6639
( 67560.0 )
O-VPRS 1=
.2965
(
64.150 )
VPRS 2=
.2854
(
63.060 )
VPRS 3=
.3020
(
64.670.)
VPRS 4 =
.2524
(
59.590 )
VPRS 5=
.2902
(
63.540 )
VPRS 6=
.2797
(
62.490 )
1
SUMMARY
OF CORRECTED DATA TIME =
430 DATE =
422 TEMPERATURE (DEGREES R.)
533.9145
=
CORRECTED PRESSURE (PSIA) 68.3622
=
VAPOR PRESSURE (PSIA)
.2844
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615165.8
=
1 bG
SUMMARY
OF MEASURED DATA AT 445 422 TEMP 1 = 534.1800
(
74.510 )
TEMP 2 = 534.0200
(
74.350 )
j TEMP 3 = 534.1300
(
74.460 )
TEMP 4 = 534.2100
(
74.540 )
TEMP 5 = 534.4300
(
74.760 )
TEMP 6 = 534.3300
(
74.660 )
l TEMP 7 = 534.2100
(
74.540 )
TEMP 8 = 533.9200
(
74.250 )
TEMP 9 = 534.3300
(
74.660 )
TEMP 10 = 534.3000
(
74.630 )
TEMP 11 = 534.6900
(
75.020 )
TEMP 12 = 534.8700
(
75.200 )
TEMP 13 = 534.2200
(
74.550 )
TEMP 14 = 533.5600
(
73.890 )
TEMP 15 = 533.6400
(
73.970 )
TEMP 16 = 533.2700
(
73.600 )
TEMP 17 = 531.2900
(
71.620 )
TEMP 18 = 531.6900
(
72.020 )
PRES 1=
68.6312
( 69139.0 )
PRES 2=
68.6659
( 67562.0 )
VPRS 1=
.2961
(
64.110 )
VPRS 2=
.2857
(
63.090 )
VPRS 3=
.3021
(
64.680 )
VPRS 4=
.2523
(
59.580 )
VPRS 5=
.2909
(
63.600 )
VPRS 6=
.2807
(
62.590 )
SUMMARY
OF CORRECTED DATA TIME =
445 DATE =
422 TEMPERATURE (DEGREES R.)
533.9293
=
CORRECTED PRESSURE (PSIA) 68.3639
=
VAPOR PRESSURE (PSIA)
.2846
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615164.6
=
9
u l
l i
SUMMARY
OF MEASURED DATA AT 500 422
\\ss/
TEMP 1 = 534.1700
(
74.500 )
TEMP 2 = 534.0000
(
74.330 )
TEMP 3 = 534.1000
(
74.430 )
TEMP 4 = 534.1900
(
74.520 )
TEMP 5 = 534.3800
(
74.710 )
TEMP 6 = 534.3100
(
74.640 )
TEMP 7 = 534.1800
(
74.510 )
TEMP 8 = 533.9000
(
74.230 )
TEMP 9 = 534.3100
(
74.640 )
TEMP 10 = 534.3500
(
74.680 )
TEMP 11 = 534.7500
(
75.080 )
TEMP 12 = 534.9300
(
75.260 )
TEMP 13 = 534.2100
(
74.540 )
TEMP 14 = 533.5300
(
73.860 )
TEMP 15 = 533.6000
(
73.930 )
TEMP 16 = 533.2900
(
73.620 )
TEMP 17 = 531.3200
(
71.650 )
TEMP 18 = 531.8100
(
72.140 )
PRES 1=
68.6312
( 69139.0 )
PRES 2=
68.6659
( 67562.0 )
Os VPRS 1=
.2957
(
64.070 )
VPRS 2=
.2861
(
63.130 )
VPRS 3=
.3023
(
64.700 )
VPRS 4=
.2521
(
59.560 )
VPRS 5=
.2914
(
63.650 )
VPRS 6=
.2797
(
62.490 )
SUMMARY
OF CORRECTED DATA TIME =
500 1
DATE =
422 TEMPERATURE (DEGREES R.)
533.9247
=
CORRECTED PRESSURE (PSIA) 68.3640
=
VAPOR PRESSURE (PSIA)
.2846
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615170.6
=
i O(_)
)
L
.I
SUMMARY
OF MEASURED DATA AT 515 422 TEMP 1 = 534.2000
(- 74.530 )
TEMP 2 = 534.0200
(
74.350 )
TEMP 3 = 534.1300
(
74.460 )
TEMP 4 = 534.2000
(
74.530 )
TEMP 5 = 534.4100
(
74.740 )
TEMP 6 = 534.3200
(
74.650 )
TEMP 7 = 534.2200
(
74.550 )
TEMP 8 = 533.9200
(
74.250 )
TEMP 9 = 534.3000
(
74.630 )
TEMP 10 = 534.3500
(
74.680 )
TEMP 11 = 534.7500
(
75.080 )
TEMP 12 = 534.9600
(
75.290 )
TEMP 13 = 534.2100
(
74.540 )
TEMP 14 = 533.5700
(
73.900 )
TEMP 15 = 533.6600
(
73.990 )
TEMP 16 = 533.3000
(
73.630 )
TEMP 17 = 531.3000
(
71.630 )
TEMP 18 = 531.5300
(
71.860 )
PRES 1=
68.6312
( 69139.0 )
PRES 2=
68.6669
( 675G3.0 )
VPRS 1=
.2959
(
64.090 )
VPRS 2=
.2862
(
63.140 )
VPRS 3=
.3022
(
64.690 )
VPRS 4 =
.2520
(
59.550 )
VPRS 5=
.2917
(
63.680 )
VPRS 6=
.2802
(
62.540 )
SUMMARY
OF CORRECTED DATA TIME =
515 I
DATE =
422 TEMPERATURE (DEGREES R.)
533.9305
=
CORRECTED PRESSURE (PSIA)
=
68.3644 VAPOR PRESSURE (PSIA)
.2847
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615167.1
=
O I
()
SUMMA 9Y OF MEASURED DATA AT 530- 422 TEMP 1 = 534.1900
(
74.520 )
TEMP 2 = 534.0200
(
74.350 )
TEMP 3 = 534.1500
(
74.480 )
TEMP 4 = 534.1800
(
74.510 )
TEMP 5 = 534.3500
(
74.680 )
TEMP 6 = 534.3700
(
74.700 )
TEMP 7 = 534.2100
(
74.540 )
TEMP 8 = 533.9200
(
74.250 )
TEMP 9 = 534.3000
(
74.630 )
TEMP 10 = 534.3100
(
74.640 )
TEMP 11 = 534.7400
(
75.070 )
TEMP 12 = 534.9400
(
75.270 )
TEMP 13 = 534.2200
(
74.550 )
TEMP 14 = 533.5800
(
73.910 )
TEMP 15 = 533.6600
(
73.990 )
TEMP 16 = 533.3400
(
73.670 )
TEMP 17 = 531.3200
(
71.650 )
TEMP 18 = 531.7800
(
72.110 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6669
( 67563.0 )
(_])
/"
VPRS 1=
.2964
(
64.140 )
VPRS 2=
.2868
(
63.200 )
VPRS 3 =
.3018
(
64.660 )
VPRS 4
.2520
(
59.550 )
=
VPRS 5=
.2914
(
63.650 )
VPRS 6=
.2806
(
62.580 )
i
SUMMARY
OF CORRECTED DATA TIME =
530 DATE =
422 TEMPERATURE (DEGREES R.)
533.9395
=
CORRECTED PRESSURE (PSIA) 68.3652
=
VAPOR PRESSURE (PSIA)
.2849
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615164.3
=
O v
.., ---.~
SUMMARY
OF MEASURED DATA AT 545 422 TEMP 1 = 534.1900
(
74.520 )
TEMP 2 = 534.0500
(
74.380 )
TEMP 3 = 534.1200
(
74.450 )
TEMP 4 = 534.2200
(
74.550 )
TEMP 5 = 534.3800
(
74.710 )
TEMP 6 = 534.3300
(
74.660 )
TEMP 7 = 534.2200
(
74.550 )
TEMP 8 = 533.9300
(
74.260 )
TEMP 9 = 534.3200
(
74.650 )
TEMP 10 = 534.3300
(
74.660 )
TEMP 11 = 534.7200
(
75.050 )
TEMP 12 = 534.9900
(
75.320 )
TEMP 13 = 534.2200
(
74.550 )
TEMP 14 = 533.5900
(
73.920 )
TEMP 15 = 533.6600
(
73.990 )
TEMP 16 = 533.3200
(
73.650 )
TEMP 17 = 531.3500
(
71.680 )
TEMP 18 = 531.7100
(
72.040 )
PRES 1=
68.6332
( 69141.0 )
PRES 2
68.6680
( 67564.0 )
=
VPRS 1=
.2958
(
64.080 )
VPRS 2
.2862
(
63.140 )
=
VPRS 3
.3023
-(
64.700 )
=
VPRS 4
.2522
(
59.570 )
=
VPRS 5=
.2925
(
63.760 )
VPRS 6=
.2813
(
62.650 )
SUMMARY
OF CORRECTED DATA TIME =
545 DATE =
422 TEMPERATURE (DEGREES R.)
533.9443
=
CORRECTED PRESSURE (PSIA) 68.3655
=
VAPOR PRESSURE (PSIA)
.2851
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM)
S15161.5
=
Gl>
Os
SUMMARY
OF MEASURED DATA AT 600 422 TEMP 1 = 534.2000
(
74.530 )
TEMP 2 = 534.0600
(
74.390 )
TEMP 3 = 534.1300
(
74.460 )
TEMP 4 = 534.2200
(
74.550 )
TEMP 5 = 534.4200
(
74.750 )
TEMP 6 = 534.3600
(
74.690 )
TEMP 7 = 534.2100
(
74.540 )
TEMP 8 = 533.9500
(
74.280 )
TEMP 9 = 534.3100
(
74.640 )
TEMP 10 = 534.3000
(
74.630 )
TEMP 11 = 534.7600
(
75.090 )
TEMP 12 = 534.9400
(
75.270 )
TEMP 13 = 534.2400
(
74.570 )
TEMP 14 = 533.5800
(
73.910 )
TEMP 15 = 533.6500
(
73.980 )
TEMP 16 = 533.3500
(
73.680 )
TEMP 17 = 531.3700
(
71.700')
TEMP 18 = 531.7300
(
72.060 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
f)h VPRS 1=
.2958
(
64.080 )
\\,-
VPRS 2=
.2854
(
63.060 )
VPRS 3=
.3023
(
64.700 )
VPRS 4=
.2519
(
59.530 )
VPRS 5=
.2944
(
63.950 )
VPRS 6=
.2830
(
62.820 )
i
SUMMARY
OF CORRECTED DATA 4
TIME =
600 DATE =
422 TEMPERATURE (DEGREES R. )
533.9520
=
i CORRECTED PRESSURE (PSIA) 68.3651
=
VAPOR PRESSURE (PSIA)
.2855
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615148.9
=
i
SUMMARY
OF MEASURED DATA AT 615 422 TEMP 1 = 534.1700
(
74.500 )
TEMP 2 = 534.0500
(
74.380 )
TEMP 3 = 534.1500
(
74.480 )
TEMP 4 = 534.2200
(
74.550 )
TEMP 5 = 534.4000
(
74.730 )
TEMP 6 = 534.3400
(
74.670 )
TEMP 7 = 534.2100
(
74.540 )
TEMP 8 = 533.9400
(
74.270 )
TEMP 9 = 534.3300
(
74.660 )
TEMP 10 = 534.3500
(
74.680 )
TEMP 11 = 534.7500
(
75.080 )
TEMP 12 = 534.9400
(
75.270 )
TEMP 13 = 534.2600
(
74.590 )
TEMP 14 = 533.6000
(
73.930 )
TEMP 15 = 533.6800
(
74.010 )
TEMP 16 = 533.3600
(
73.690 )
TEMP 17 = 531.3800
(
71.710 )
TEMP 18 = 531.8300
(
72.160 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
VPRS 1=
.2957
(
64.070 )
VPRS 2=
.2848
(
63.000 )
VPRS 3=
.3026
(
64.730 )
VPRS 4=
.2519
(
59.540 )
VPRS 5=
.2926
(
63.770 )
VPRS 6=
.2825
(
62.770 )
SUMMARY
OF CORRECTED DATA TIME =
615 DATE =
422 TEMPERATURE (DEGREES R.)
533.9589
=
CORRECTED PRESSURE (PSIA) 68.3655
=
VAPOR PRESSURE (PSIA)
.2850
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615145.0
=
6
(
SUMMARY
OF MEASURED DATA AT 630 422 TEMP 1 = 534.1900
(
74.520 )
TEMP 2 = 534.0800
(
74.410 ).
TEMP 3 = 534.1500
(
74.480 )
TEMP 4 = 534.2500
(
74.580 )
TEMP 5 = 534.4500
(
74.780 )
TEMP 6 = 534.3400
(
74.670 )
TEMP 7 = 534.2400
(
74.570 )
TEMP 8 = 533.9400
(
74.270 )
TEMP 9 = 534.3200
(
74.650 )
TEMP 10 = 534.3500
(
74.680 )
TEMP 11 = 534.7400
(
75.070 )
TEMP 12 = 534.9000
(
75.230 )
TEMP 13 = 534.2800
(
74.610 )
TEMP 14 = 533.6200
(
73.950 )
TEMP 15 = 533.7200
(
74.050 )
TEMP 16 = 533.3800
(
73.710 )
TEMP 17 = 531.3900
(
71.720 )
TEMP 18 = 531.8500
(
72.180 )
PRES 1=
68.6332
( 69141.0 )
l PRES 2=
68.6680
( 67564.0 )
\\
VPRS 1=
.2962
(
64.120 )
VPRS 2=
.2857
(
63.090 )
VPRS 3=
.3017
(
64.650 )
VPRS 4=
.2518
(
59.520 )
VPRS 5=
.2926
(
63.770 )
VPRS 6=
.2808
(
62.600 )
l
SUMMARY
OF CORRECTED DATA TIME =
630 DATE =
422 TEMPERATURE (DEGREES R.)
533.9730 j
=
CORRECTED PRESSURE (PSIA) 68.3658
=
i VAPOR PRESSURE (PSIA)
.2848
)
=
VOLUME ( CU. FT. ) = 1780000.0 AIR MASS (LBM) 615130.6
=
(~3
\\
u/
l
SUMMARY
OF MEASURED DATA AT 645 422 TEMP 1 = 534.1900
.(
74.520 )
TEMP 2 = 534.0600
(
74.390 )
TEMP 3 = 534.1600
(
74.490 )
TEMP 4 = 534.2600
(
74.590 )
TEMP 5 = 534.4100
(
74.740 )
TEMP 6 = 534.3600
(
74.690 )
TEMP 7 = 534.2200
(
74.550 )
TEMP 8 = 533.9500
(
74.280 )
TEMP 9 = 534.3200
(
74.650 )
TEMP 10 = 534.3400
(
74.670 )
TEMP 11 = 534.7700
(
75.100 )
TEMP 12 = 534.9000
(
75.230 )
TEMP 13 = 534.2700
(
74.600 )
TEMP 14 = 533.6200
(
73.950 )
TEMP 15 = 533.7200
(
74.050 )
TEMP 16 = 533.3800
(
73.710 )
TEMP 17 = 531.4100
(
71.740 )
TEMP 18 = 531.7500
(
72.080 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
VPRS 1=
.2953
(
64.030 )
VPRS 2=
.2861
(
63.130 )
VPRS 3=
.3013
(
64.610 )
VPRS 4
.2523
(
59.580 )
=
VPRS 5=
.2939
(
63.900 )
VPRS 6=
.2814
(
62.660 )
SUMMARY
OF CORRECTED DATA TIME =
645 DATE =
422 TEMPERATURE (DEGREES R.)
S33.9678
=
CORRECTED PRESSURE (PSIA) 68.3655
=
VAPOR PRESSURE (PSIA)
.2851
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615134.4
=
O
SUMMARY
OF MEASURED DATA AT 700 422 TEMP 1 = 534.2100
(
74.540 )
TEMP 2 = 534.0800
(
74.410 )
TEMP 3 = 534.1600
(
74.490 )
TEMP 4 = 534.2300
(
74.560 )
TEMP 5 = 534.4200
(
74.750 )
TEMP 6 = 534.3900
(
74.720 )
TEMP 7 = 534.2400
(
74.570 )
TEMP 8 = 533.9500
(
74.280 )
TEMP 9 = 534.3300
(
74.660 )
TEMP 10 = 534.3500
(
74.680 )
TEMP 11 = 534.7800
(
75.110 )
TEMP 12 = 534.9800
(
75.310 )
TEMP 13 = 534.2800
(
74.610 )
TEMP 14 = G33.6300
(
73.960 )
TEMP 15 = 533.7200
(
74.050 )
TEMP 16 = 533.4000
(
73.730 )
TEMP 17 = 531.4100
(
71.740 )
TEMP 18 = 531.8700
(
72.200 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
O VPRS 1=
.2960
(
64.100 )
VPRS 2=
.2853
(
63.050 )
VPRS 3=
.3018
(
64.660 )
VPRS 4
.2514
(
59.480 )
=
VPRS 5=
.2937
(
63.880 )
VPRS 6=
.2830
(
62.820 )
SUMMARY
OF CORRECTED DATA TIME =
700 DATE =
422 TEMPERATURE (DEGREES R.)
533.9838
=
CORRECTED PRESSURE (PSIA) 68.3653
=
VAPOR PRESSURE (PSIA)
=
.2852 VOLUME (CU.FT.) = 1780000,0 AIR' MASS (LBM) 615114.5
=
i A
SUMMARY
OF MEASURED DATA AT 715 422 TEMP 1 = 534.2000
(
74.530 )
TEMP 2 = 534.0600
(
74.390 )
TEMP 3 = 534.1600
(
74.490 )
TEMP 4 = 534.1900
(
74.520 )
TEMP 5 = 534.4000
(
74.730 )
TEMP 6 = 534.4000
(
74.730 )
TEMP 7 = 534.2300
(
74.560 )
TEMP 8 = 533.9600
(
74.290 )
TEMP 9 = 534.3600
(
74.690 )
TEMP 10 = 534.3700
(
74.700 )
TEMP 11 = 534.7600
(
75.090 )
TEMP 12 = 534.9800
(
75.310 )
TEMP 13 = 534.2800
(
74.610 )
TEMP 14 = 533.6200
(
73.950 )
TEMP 15 = 533.7100
(
74.040 )
TEhP 16 = 533.4100
(
73.740 )
TEMP 17 = 531.4100
(
71.740 )
TEMP 18 = 531.8400
(
72.170 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
VPRS 1=
.2959
(
64.090 )
VPRS 2=
.2839
(
62.910 )
VPRS 3=
.3016- (
64.640 )
VPRS 4=
.2515
(
59.490 )
VPRS 5=
.2932
(
63.830 )
VPRS 6=
.2819
(
62.710 )
SUMMARY
OF CORRECTED DATA TIME =
715 DATE =
422 TEMPERATURE (DEGREES R.)
533.9785
=
CORRECTED PRESSURE (PSIA) 68.3659
=
VAPOR PRESSURE (PSIA)
=
.2847 VOLUME ( CU. FT. ) = 1780000.0 AIR MASS (LBM) 615125.5
=
9
()
SUMMARY
OF MEASURED DATA AT 730 422' TEMP 1 = $34.2000
(
74.530 )
TEMP 2 = 534.0600
(
74.390 )
TEMP 3 = 534.1700
(
74.500 )
TEMP 4 = 534.2300
(
74.560 )
TEMP 5 = 534.4300
(
74.760 )
TEMP 6 = 534.4000
(
74.730 )
TEMP 7 = 534.2500
(
74.580 )
TEMP 8 = 533.9800
(
74.310 )
TEMP 9 = 534.3500
(
74.680 )
TEMP 10 = 534.3900
(
74.720 )
TEMP 11 = 534.8000
(
75.130 )
TEMP 12 = 534.9600
(.
75.290 )
TEMP 13 = 534.2900
(
74.620 )
TEMP 14 = 533.6500
(
73.980 )
TZMP 15 = 533.7100
(
74.040 )
TEMP 16'= 533.3900
(
73.720 )
TEMP 17 = 531.4400
(
71.770 )
TEMP 18 = 531.7600
(
72.090 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
/~N VPRS 1=
.2954
(
64.040 )
(
VPRS 2=
.2856
(
63.030 )
VPRS 3=
.3025
(
64.720 )
VPRS 4=
.2514
(
59.480 )
VPRS 5=
.2941
(
63.920 )
VPRS 6=
.2816
(
62.680 )
SUMMARY
OF CORRECTED DATA TIME =
730 DATE =
422 TEMPERATURE (DEGREES R.)
533.9868
=
CORRECTED PRESSURE (PSIA) 68.3655
=
VAPOR PRESSURE (PSIA)
.2851
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615112.1
=
i i
n.
SUMMARY
OF MEASURED DATA AT 745 422 TEMP 1 = 534.2300
(
74.560 )
TEMP 2 = 534.0800
(
74.410 )
TEMP 3 = 534.1600
(
74.490 )
TEMP 4 = 534.2400
(
74.570 )
TEMP 5 = 534.4300
(
74.760 )
TEMP 6 = 534.3700
(
74.700 )
TEMP 7 = 534.2500
(
74.580 )
TEMP 8 = 533.9800
(
74.310 )
TEMP 9 = 534.3600
(
74.690 )
TEMP 10 = 534.3600
(
74.690 )
TEMP 11 = 534.7800
(
75.110 )
TEMP 12 = 534.9700
(
75.300 )
TEMP 13 = 534.3000
(
74.630 )
TEMP 14 = 533.6700
(
74.000 )
TEMP 15 = 533.7400
(
74.070 )
TEMP 16 = 533.4200
(
73.750 )
TEMP 17 = 531.4300
(
71.760 )
TEMP 18 = 531.8700
(
72.200 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
VPRS 1=
.2959
(
64.090 )
VPRS 2=
.2856
(
63.080 )
VPRS 3=
.3018
(
64.660 )
VPRS 4
.2516
(
59.500 )
=
VPRS 5=
.2926
(
63.770 )
VPRS 6=
.2812
(
62.640 )
SUMMARY
OF CORRECTED DATA TIME =
745 DATE =
422 TEMPERATURE (DEGREES R.)
533.9955
=
CORRECTED PRESSURE (PSIA) 68.3658
=
VAPOR PRESSURE (PSIA)
.2848
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (lam) 615104.8
=
O
(
SUMMARY
OF MEASURED DATA AT 800 422
{
TEMP 1 = 534.2200
(
74.550 )
TEMP 2 = 534.0800
(
74.410 )
TEMP 3 = 534.1800
(
74.510 )
TEMP 4 = 534.2300
(
74.560 )
TEMP 5 = 534.4500
(
74.780 )
TEMP 6 = 534.4100
(
74.740 )
TEMP 7 = 534.2400
(
74.570 )
TEMP 8 = 533.9800
(
74.310 )
TEMP 9 = 534.3800
(
74.710 )
TEMP 10 = 534.3700
(
74.700 )
TEMP 11 = 534.7600
(
75.090 )
TEMP 12 = 534.9600
(
75.290 )
TEMP 13 = 534.3000
(
74.630 )
TEMP 14 = 533.6800
(
74.010 )
TEMP 15 = 533.7500
(
74.080 )
TEMP 15 = 533.4200
(
73.750 )
TEMP 17 = 531.4500
(
71.780 )
TEMP 18 = 531.8100
(
72.140 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
i O
VPRS 1=
.2957
-(
64.070 )
VPRS 2=
.2836
(
62.880 )
V,?RS 3 =
.3021
(
64.680 )
VPRS 4=
.2515
(
59.490 )
VPRS 5=
.2923
(
63.740 )
.VPRS 6=
.2811
(
62.630 )
SUMMARY
OF CORRECTED DATA TIME =
800 DATE =
422 TEMPERATURE (DEGREES R.)
533.9987
=
CORRECTED PRESSURE (PSIA) 68.3662
=
VAPOR PRESSURE ' PSIA)
.2844
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615104.9
=
l 4
I i
i
SUMMARY
OF MEASURED DATA AT 815 422 TEMP 1 = 534.2100
(
74.540 )
TEMP 2 = 534.0800
(
74.410 )
TEMP 3 = 534.1700
(
74.500 )
TEMP 4 = 534.2400
(
74.570 )
TEMP 5 = 534.4600
(
74.790 )
TEMP 6 = 534.4000
(
74.730 )
TEMP 7 = 534.2300
(
74.560 )
TEMP 8 = 533.9800
(
74.310 )
TEMP 9 = 534.3600
(
74.690 )
TEMP 10 - 534.3700
(
74.700 )
TEMP 11 = 534.8000
(
75.130 )
i TEMP 12 = 534.9600
(
75.290 )
TEMP 13 = 534.3000
(
74.630 )
TEMP 14 = 533.7000
(
74.030 )
TEMP 15 = 533.7300
(
74.060 )
TEMP 16 = 533.4500
(
73.780 )
TEMP 17 = 531.4600
(
71.790 )
TEMP 18 = 531.9500
(
72.280 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6669
( 67563.0 )
VPRS 1=
.2962
(
64.120 )
VPRS 2=
.2850
(
63.020 )
VPRS 3=
.3018
(
64.660 )
VPRS 4
.2519
(
59.530 )
=
VPRS 5=
.2930
(
63.810 )
VPRS 6=
.2821
(
62.730 )
SUMMARY
OF CORRECTED DATA TIME =
815 DATE =
420 TEMPERATURE (DEGREES R.)
534.0052
=
CORRECTED PRESSURE (PSIA) 68.3650
=
VAPOR PRESSURE (PSIA)
.2850 n
VOLUME (CU.FT.)
1780000.0
=
AIR MASS (LBM) 615087.1
=
1
[T
SUMMARY
OF MEASURED DATA AT 830 422 l
\\ms/
TEMP 1 = 534.2400
(
74.570 )
TEMP 2 = 534.0900
(
74.420 )
H TEMP 3 = 534.1900
(
74.520 )
)
TEMP 4 = 534.2200
(
74.550 )
TEMP 5 = 534 4500
(
74.780 )
TEMP 6 = 534.3900
(
74.720 )
TEMP 7 = 534.2500
(
74.580 )
TEMP 8 = 533.9900
(
74.320 )
TEMP 9 = 534.3700
(
74.700 )
TEMP 10 = 534.4000
(
74.730 )
TEMP 11 = 534.7900
(
75.120 )
TEMP 12 = 535.0200
(
75.350 )
TEMP 13 = 534.3200
(
74.650 ).
TEMP 14 = 533.7100
(
74.040 )
TEMP 15 = 533.7600
(
74.090 )
TEMP 16 = 533.4600
(
73.790 )
TEMP 17 = 531.4800
(
71.810 )
TEMP 18 = 531.8800
(
72.210 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
k,'
/'
VPRS 1=
.2959
(
64.090 )
VPRS 2
.2849
(
63.010 )
=
m VPRS 3=
.3009
(
64.570 )
VPRS 4=
.2510
(
59.430 )
VPRS 5=
.2940
(
63.910 )
VPRS 6=
.2817
(
62.690 )
SUMMARY
OF CORRECTED DATA TIME =
830 DATE =
422 TEMPERATURE. DEGREES R.)
534.0135
=
CORRECTED PRESSURE (PSIA) 68.3058
=
VAPOR PRESSURE (PSIA)
=
.2848 VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615084.6
=
()
I
SUMMARY
OF MEASURED DATA AT 845 422 TEMP 1 = 534.2300
(
74.560 )
TEMP 2 = 534.1100
(
74.440 )
TEMP 3 = 534.1900
(
74.520 )
TEMP 4 = 534.2400
(
74.570 )
TEMP 5 = 534.4700
(
74.800 )
TEMP 6 = 534.4300
(
74.760 )
TEMP 7 = 534.2700
(
74.600 )
TEMP 8 = 533.9900
(
74.320 )
TEMP 9 = 534.3400
(
74.670 )
TEMP 10 = 534.4000
(
74.730 )
TEMP 11 = 534.8200
(
'75.150 )
TEMP 12 = 535.0000
(
75.330 )
TEMP 13 = 534.3400
(
74.670 )
TEMP 14 = 533.7100
(
74.040 )
TEMP 15 = 533.7800
(
74.110 )
TEMP 16 w 533.4900
(
73.820 )
TEMP 17 = 531.5000
(
71.830 )
TEMP 18 = 531.8000
(
72.130 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
VPRS 1=
.2953
(
64.030 )
VPRS 2
.2845
(
62.970 )
=
VPRS 3
.3020
(
64.670 )
=
VPRS 4
.2508
(
59.410 )
=
VPRS 5=
.2921
(
63.720 )
VPRS 6=
.2806
(
62.580 )
SUMMARY
OF CORRECTED DATA TIME '
845 DATE =
422 TEMPERATURE (DEGREES R.)
534.0197
=
CORRECTED PRESSURE (PSIA) 58.3664
=
VAPOR PRESSURE (PSIA)
.2842
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615082.4
=
O
(
SUMMARY
OF MEASURED DATA AT 900 422 TEMP 1w 534.2600
(
74.590 ).
TEMP 2 = 534.1000
(
74.430 )
TEMP 3 = 534.2100
(
74.540 )
TEMP 4 = 534.2500
(
74.580 )
TEMP 5 = 534.4500
(
74.780 )
TEMP 6 = 534.4100
(
74.740 )
TEMP 7 = 534.2500
(
74.580 )
TEMP 8 = 534.0100
(
74.340 )
TEMP 9 = 534.3600
(
74.690 )
TEMP 10 = 534.4200
(
74.750 )
TEMP 11 = 534.8200
(
75.150 )
TEMP 12 = 535.0000
(
75.330.)
TEMP 13 = 534.3200
(
74.650 )
TEMP 14 = 533.7100
(
74.040 )
TEMP 15 = 533.7800
(
74.110 )
TEMP 16 = 533.4700
(
73.800 )
TEMP 17 = 531.5200
(
71.850 )
TEMP 18 = 531.9100
(
72.240 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
O.
A VPRS 1=
.2954
(
64.040 )
VPRS 2
.2859
(
63.110 )
=
VPRS 3
.3024
(
64.'710 )
=
VPRS 4
.2512
(
59.460 )
=
VPRS 5=
.2940
(
63.910 )
VPRS 6=
.2813
(
62.650 )
SUMMARY
OF CORRECTED DATA TIME =
900 DATE =
422 TEMPERATURE (DEGREES R.)
534.0268
=
CORRECTED PRESSURE (PSIA) 68.3655
=
VAPOR PRESSURE (PSIA)
.2851
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615066.6
=
)
(
-~
SUMMARY
01 MEASURED DATA AT 915 422 TEMP 1 = 534.2600
(
74.590 )
TEMP 3 = 534.1100
(
74.440 )
TEMP 3 = 534.2200
(
74.550 )
TEMP 4 = 534.2700
(
74.600 )
TEMP 5 = 534.4700
(
74.800 )
TEMP 6 = 534.4400
(
74.770 )
TEMF 7 = 534.3000
(
74.630 )
TEMP 8 = 534.0000
(
74.330 )
TEMP 9 = 534.3900
(
74.720 )
TEMP 10 = 534.3800
(
74.710 )
TEMP 11 = 534.8100
(
75.140 )
TEMP 12 = 535.0300
(
75.360 )
TEMP 13 = 534.3400
(
74.670 )
TEMP 14 = 533.7000
(
74.030 )
TEMP 15 = 533.7900
(
74.120 )
TEMP 16 = 533.5100
(
73.840 )
TEMP 17 = 531.5300
(
71.860 )
TEMP 18 = 531.9500
(
72.280 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6680
( 67564.0 )
VPRS 1=
c2957
(
64.070 )
VPRS 2=
.2854
(
63.060 )
VPRS 3
.3016
(
64.640 )
=
VPRS 4=
.2508
(
59.410 )
VPRS 5=
.2929
(
63.800 )
VPRS 6=
.2815
(
62.670 )
SUMMARY
OF CORRECTED DATA TIME =
915 DATE =
422 TEMPERATURE (DEGREES R.)
534.0408
=
CORRECTED PRESSURE (PSIA) 68.3659
=
VAPOR PRESSURE (PSIA)
.2847
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615053.9
=
9 l
(_
SUMMARY
OF MEASURED DATA AT 930 422 TEMP 1 = 534.2500
(
74.580 )
TEMP 2 = 534.1300
(
74.460 )
TEMP 3 = 534.1900
(
74.520 )
TEMP 4 = 534.2900
(
74.620 )
TEMP 5 = 534.5800
(
74.910 )
TEMP 6 = 5'4.4200
(
74.750 )
TEMP 7 = 534.3000
(
74.630 )
TEMP 8 = 534.0200
(
74.350 )
TEMP 9 = 534.3700
(
74.700 )
TEMP 10 = 534.4400
(
74.770 )
TEMP 11 = 534.8300
(
75.160 )
TEMP 12 = 534.9900
(
75.320 )
TEMP 13 = 534.3600
(
74.690 )
TEMP 14 = 533.7300
(
74.060 )
TEMP 15 = 533.8000
(
74.130 )
TEMP 16 = 533.5300
(
73.860 )
TEMP 17 = 531.5400
(
71.870 )
TEMP 18 = 531.9500
(
72.280 )
PRES 1=
68.6332
( 69141.0 )
PRES 2
68.6680
( 67564.0 )
=
('g VPRS 1=
.2957'
(
64.070 )
(/
VPRS 2
.2846
(
62.980 )
=
VPRS 3=
.3013
(
64.610 )
VPRS 4
.2504
(
59.370 )
=
VPRS 5=
.2920
(
63.710 )
VPRS 6=
.2806
(
62.580 )
1
SUMMARY
OF CORRECTED DATA TIME =
930 DATE =
422 TEMP."RATURE (DEGREES R.)
534.0529
=
CORRECTED PRESSURE (PSIA) 68.3665
=
VAPOR PRESSURE (PSIA)
.2841
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615044.9
=
0
SUMMnRY OF MEASURED CATA AT 945 422 TEMP 1 = 534.2800
(
74.610 )
TEMP 2=
534.1200
(
74.450 )
TEMP 3 = 534.2300
(
74.560 )
TEMP 4 = 534.2800
(
74.610 )
TEMP 5 = 534.5000
(
74.830 )
TEMP 6 = 534.4400
(
74.770 )
TEMP 7 = 534.2800
(
74.610 )
TEMP 8 = 534.0200
(
74.350 )
TEMP 9 = 534.4100
(
74.740 )
TEMP 10 = 534.4000
(
74.730 )
TEMP 11 = 534.8400
(
75.170 )
TEMP 12 = 535.0000
(
75.330 )
TEMP 13 = 534.3500
(
74.680 )
TEMP 14 e 533.7200
(
74.050 )
TEMP 15 = 533.8300
(
74.160 )
TEMP 16 = 533.5200
(
73.850 )
TEMP 17 = 531.5400
(
71.870 )
TEMP 18 = 531.8900
(
72.220 )
PRES 1=
68.6332
( 69141.0 )
PRES 2
68.6680
( 67564.0 )
=
VPRS 1=
.2953
(
64.030 )
i VPRS 2=
.2840
(
62.920 )
VPRS 3
.3014
(
64.620 )
=
VPRS 4
.2508
(
59.410 )
=
VPRS 5=
.2929
(
63.800 )
VPRS 6=
.2796
(
62.480 )
SUMMARY
OF CORRECTED DATA TIME =
945 DATE =
422 TEMPERATURE (DEGREES R.)
534.0501
=
CORRECTED PRESSURE (PSIA) 68.3666
=
VAPOR PRESSURE (PSIA)
.2840
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615049.1
=
0
SUMMARY
OF MEASURED DATA AT 1000 422 TEMP 1 = 534.2700
(
74.600*)
TEMP 2 = 534.1400
(
74.470 )
TEMP 3 =-534.2500
(
74.580')
TEMP 4 = 534.3000
(
74.630 )
1 TEMP 5 = 534.5400
(
74.870 )
TEMP 6 = 534.4200
(
74.750 )
TEMP 7 = 534.3100
(
74.640 )
TEMP 8 = 534.0400
(
74.370 )
TEMP 9 = 534.4000
(
74.730 )'
TEMP 10 = 534.4400
(
74.770 )
TEMP 11 = 534.8200
(
75.150 )
TEMP 12 = 535.0800
(
75.410 )
TEMP 13 = 534.3700
(
74.700 )
TEMP 14 = 533.8000
(
74.130 )
TEMP 15 = 533.8100
(
74.140 )
TEMP 16 = 533.5400
(
73.870 )
TEMP'17 = 531.5700
(
71.900 )
TEMP 18 = 531.9500
(
72.280 )
PRES 1=
68.6332
( 69141.0 )
PREF e=
68.6680
( 67564.0 )
O.
VI..
1=
.2953
(
64.030 )
VPRS 2
.2854
(
63.060 )
=
VPRS 3
.3011
(
64.590 )
=
VPRS 4=
.2502
(
59.350 )
VPRS 5=
.2925
(
63.760 )
VPRS 6=
.2811
(
62.630 )
SUMMARY
OF CORRECTED DATA TIME = 1000 DATE =
422 TEMPERATURE (DEGREES R.)
=
534.0706 CORRECTED PRESSURE (PSIA) 68.3663
=
VAPOR PRESSURE (PSIA)
.2843
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615023.1
=
O l
t
SUMMARY
OF MEASURED DATA AT 1015 422 h
TEMP 1 = 534.2700
(
74.600 )
TEMP 2 = 534.1300
(
74.460 )
TEMP 3 = 534.2300
(
74.560 )
TEMP 4 = 534.3200
(
74.650 )
TEMP 5 = 534.5300
(
74.860 )
TEMP 6 = 334.4600
(
74.790 )
TEMP 7 = 534.3200
(
74.650 )
TEMP 8 = 534.0500
(
74.380 )
TEMP 9 = 534.4200
(
74.750 )
TEMP 10 = 534.4500
(
74.780 )
TEMP 11 = 534.8700
(
75.200 )
TEMP 12 = 535.0400
(
75.370 )
TEMP 13 = 534.3900
(
74.720 )
i TEMP 14 = 533.7600
(
74.090 )
TEMP 15 = 533.8100
(
74.140 )
TEMP 16 = 533.5400
(
73.870 )
TEMP 17 = 531.5900
(
71.920 )
TEMP 18 = 532.0600
(
72.390 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6690
( 67565.0 )
VPRS 1=
.2954
(
64.040 )
VPRS 2=
.2857
(
63.090 )
i VPRS 3
.3007
(
64.550 )
=
VPRS 4=
.2504
(
59.370 )
VPRS 5=
.2932
(
63.830 )
VPRS 6=
.2813
(
62.650 )
SUMMARY
OF CORRECTED DATA TIME = 1015 DATE =
422 TEMPERATURE (DEGREES R.)
534.0795
=
CORRECTED PRESSURE (PSIA) 68.3666
=
VAPOR PRESSURE (PSIA)
.2845
=
VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM) 615015.8
=
O
(
SUMMARY
OF MEASURED DATA AT 1030 422 TEMP 1 = 534.2700
(
74.600 )
TEMP 2 = 534.1500
(.
74.480 )
TEMP 3 = d34.2600
(
74.590 )
TEMP 4 = 534.3300
(
74.660 )
l TEMP 5 = 534.5600
(
74.'890 )
q TEMP 6 = 534.4800
(
74.810 )
TEMP 7 = 534.3300
(
74.660 )
TEMP 8 = 534.0600
(
74.390 )
TEMP 9 = 534.4300
(
74.760 )
TEMP 10 = 534.4400
(
74.770 )
)
TEMP 11 = 534.8500
(
75.180 )
TEMP 12 = 535.0600
(
75.390 )
TEMP 13 = 534.3900
(
74.720 )
TEMP 14 = 533.7800
(
74.110 )
TEMP 15 = 533.8400
(
74.170 )
TEMP 16 = 533.5500
(
73.880 )
TEMP 17 = 531.6100
(
71.940 )
TEMP 18 = 532.1100
(
72.440 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6690
( e7565.0 )
(% -)
VPRS 1=
.2963
(
64.130-)
VPRS 2=
.2855
(
63.070 )
VPRS 3=
.3008
(
64.560 )
VPRS 4
.2508
(
59.410 )
=
VPRS 5=
.2934
(
63.850 )
VPRS 6=
.2813
(
62.650 )
SUMMARY
OF CORRECTED DATA TIME = 1030 DATE =
422 TEMPERATURE (DEGREES R.)
534.0942
=
CORRECTED PRESSURE (PSIA)
=
68.3664 VAPOR PRESSURE (PSIA)
=
.2847 VOLUME (CU.FT.) = 1780000.0 AIR MASS (LBM)
=
614996.7 l
- --.... -., - -. ~... - -
i
SUMMARY
OF MEASURED DATA AT 1015 422 TEMP 1 = 534.2700
(
74.600 )
TEMP 2 = 534.1300
(
74.460 )
TEMP 3 = 534.2300
(
74.560 )
TEMP 4 = 534.3200
(
74.650 )
1 TEMP 5 = 534.5300
(
74.860 )
TEMP 6 = 534.4600
(
74.790 )
T"MP 7 = 534.3200
(
74.650 )
T. V 8 = 534.0500
(
74.380 )
T) 9 = 534.4200
(
74.750 )
TLhP 10 = 534.4500
(
74.780 )
TEMP 11 = 534.8700
(
75.200 )
)
TEMP 12 = 535.0400
(
75.370 )
TEMP 13 = 534.3900
(
74.720 )
TEMP 14 = 533.7600
(
74.090 )
TEMP 15 = 533.8100
(
74.140 )
TEMP 16 = 533.5400
(
73.870 )
TEMP 17 = 531.5900
(
71.920 )
TEMP 18 = 532.0600
(
72.390 )
PRES 1=
68.6332
( 69141.0 )
PRES 2=
68.6690
( 67565.0 )
VPRS 1=
.2954
(
64.040 )
VPRS 2=
.2857
(
63.090 )
VPRS 3=
.3007
(
64.550 )
VPRS 4=
.2504
(
59.370 )
VPRS 5=
.2932
(
63.830 )
VPRS 6=
.2813
(
62.650 )
SUMMARY
OF CORRECTED DATA TIME = 1015 DATE =
422 TEMPERATURE (DEGREES R.)
534.0795
=
CORRECTED PRESSURE (PSIA) 68.3666
=
VAPOR PRESSURE (PSIA)
=
.2845 VOLUME (CU.FT.) = 1780000,0 AIR MASS (LBM) 615015.8
=
i
A i
t APPHIDIX I l
Type B & C Test Results A
I
_. _ _ _.,. _....,. _ _ _ _. _. _. _ _,. _,. _.... ~.,, _,.,... _ _ _.,.... _.. _
Tvoe B & C Test Results (Refuelinct Outaae 6)
Isakage, acx2n Penetration Valve No.
As Found As Inft A
' Q 2P6 2SV-8231-2 22.60 39.00 2SV-8233-1 2P6 2SV-8273-1 18.40 18.40 2SV-8271-2 50.80 50.80 2P8 2SV-5843-2 69.30 69.30 2DV-5833-1 0.00 0.00 2P9 2CV-6207-2 9.66 9.66 2P14 2CV-4823-2 490.00 172.50 2CV-4821-2 12.20 12.20 2P18 2CV-4847-2 0.00 0.00 2CV-4846-1 8.30 2P19 2FP-34 0.00 0.00 2FP-35 2P31 2CV-2400-2 97.40 8.00 2CV-2401-1 2P37 2SV-5878-1 1.20 1.20 2SV-5871-2 0.00 0.00 2P39 2CV-4690-2 143.40 143.40 2P40 2CV-3200-2 106.20 50.90 2P41 2CV-6213-2 104.70 104.70 2P42 2 m-45 0.00 0.00 2m-44 2P43 2SA-68 0.00 0.00 2SA-69 149.60 149.60 2P46 2BA-216 183.50 183.50 C_)
2EA-217 24.80 24.80 2P48 2m-22 0.00 0.00 2m-23 2P51 2CV-3852-1 0.00 0.00 2P52 2CV-5236-1 2,223.10 952.38 2P58 2CV-8261-2 0.92 12.50 2CV-5259 2P58 2SV-8265-2 9.50 9.50 2SV-82-1 68.70 68.70 2P59 2CV-3851-1 1,862.00 181.35 2CV-3850-2 0.00 0.00 2P60 2CV-5255-1 0.00 0.00 2CV-5254-1 2P61 2IA-88 0.00 0.33 BLIND FIRE 2P61 2IA-89 0.00 0.00 BLHO FIRE 0.00 2P62 BLIND FLANGE 29.40 0.02 BLIND FIRE
- Values were tested sinultaneously.
O
Tvoe B & C Test Results (Refuelina Outace 6) l leakage, accm Penetration Valve No.
As Found As Left 2P68 2CV-2061-2 64.70 129.40 2CV-2060-1 2P69 2CV-2201-2 334.10 99.50 2CV-2202-1 2C3 FUEL TRANSFER 72.04 20.17 2C1 EQUIPMD7F HA'1DI 0.00 86.60 2C2 DMER SEAL 2.52 0.00 OUTER SEAL 0.00 0.00 BARREL 0.00 0.00 2C4 OUTER SEAL 0.00 0.00 DUER SEAL 0.00 0.00 2V1 0.00 0.00 2V2 0.00 0.00
- Valves were tested simultaneously All electrical penetrations had zero leakage.
'Ite total Type B & C "maxinn pathway as fourd" leakaae is 6,085.84 accm which is within the acceptance criteria of 21,002 accm (60% of. La).
NorE: Penetrations 2P66 ard 2P67 were Type "C" tested and are reported for infonnation only.
'Ihe results from the test are as follows:
2P66 2SV-5633-1 49.00 49.00 2SV-5633-2 549.30 193.90 2P67 2SV-5634-1 0.05 0.05 2SV-5634-2 0.00 0.00 lO 1
1
Tvoe B & C Test Results (Ref'uelim Outaae 6)
O
_ P_
PDEIRATION #
AS IEFT 2P6 74.77 2P8 9.01 2P9 0.00 2P14 3.74 2P18 0.00 2P19 9.42 2P31 72.70 2P37 52.26 2P39 0.00 2P40 20.78 2P41 23.60 2P42 0.00 2P43 56.90 2P46 76.65~
2P48 0.00 2P51 0.00 2P52 222.67 2P58 29.04 2P59 135.60 2P60 9.70 2P61 0.00 2P62 25.93 2P68 64.40
~
2P69 168.70 2V1.
0.00 2V2 0.00 2C1 17.54 2C2 0.00 2C3 0.00 2C4 0.00.
Note: All electrical penetrations had zero leakage.
i o s_4,e, l
?
[
.,.__.~_ _..
.. ~
Air Inck and Pume Valve LIRT Ihta 6-1-85 to 11-11-87 I.eakage, accm Penetration Valve As As
'N mmber Number Found Isft Date (J
s 2C4 Inner Seal 0
0 12/06/86 2C4 Outer Seal 0
0 12/06/86 2C4 Barrell 0
0 12/06/86 2C4 Inner Seal 0
0 12/30/86 2C4 Outer Seal 0
0 12/30/86 2C4 Inner Seal 0
0 08/11/86 2C4 Outer Seal 0
0 08/11/86 2C4 Inner Seal 6706.5 0
05/19/87 2C4 Outer Seal 0
0 05/19/87 2C4 Barrell 0
0 05/19/87 2C4 Inner Seal 0
0 12/30/86 2C4 Outer Seal 0
0 12/30/86 2C4 Inner Seal 0
0 05/25/87 2C4 Outer Seal 0
0 05/25/87 2C4 Inner Seal 0
0 05/27/87 2C4 Outer Seal O
O 05/27/87 2C4 Inner Seal 0
0 05/29/87 2C4 Outer Seal 0
0 05/29/87 (m) 2C4 Inner Seal 0
0 06/04/87 2C4 Outer Seal 0
0 06/04/87 2C4 Inner Seal 0
0 06/19/87 2C4 Outer Seal 0
0 06/19/87 2C4 Inner Seal 0
0 11/12/87 2C4 Outer Seal 0
0 11/12/87 2C4 Inner Seal 0
0 11/09/87 2C4 Outer Seal 0
0 11/09/87 2C4 Barrel 30154 0
11/10/87 2C4 Inner Seal 0
0 09/10/87 2C4 Outer Seal 0
0 09/10/87 2C4 Inner Seal 0
0 08/30/87 2C4 Outer Seal 0
0 08/30/87 2C4 Inner Seal 0
0 08/17/87 2C4 Outer Seal 0
0 08/17/87 2C4 Inner Seal 0
0 07/16/87 2C4 Outer Seal 0
0 07/16/87 2C4 Inner Seal 0
0 07/15/87
)
2C4 Outer Seal 0
0 07/15/87 2C4 Inner Seal 0
0 06/06/87 2C4 Outer Seal 0
0 06/06/87 2C4 Barrel 0
0 06/06/87
.~
Air Lock and Purue Valve LIRP Data 6-1-85 to 11-11-87 Isakage, accm Penetration Valve As As f
Number Ntunber Found Isft Ente 2C4 Inner Seal 0
0 04/04/87 2C4 Outer Seal 0
0 04/04/87 2C4 Inner Seal 0
0 04/24/87 2C4 Outer Seal 0
0 04/24/87 2C4 Inner Seal 0
0 05/01/86 2C4 Outer Seal 0
0 05/01/86 2C4 Inner Seal 0
0 11/12/87 2C4 Outer Seal 0
0 11/12/87 2C4 Inner Seal 0
0 09/20/85 2C4 Outer Seal 0
0 09/20/85 2C4 Inner Seal 0
0 09/20/85 2C4 Inner Seal 0
0 09/20/85 2C4 Inner Seal 0
0 09/21/85 2C4 Outer Seal 0
0 09/21/85 2C4 Inner Seal 0
0 09/25/85 2C4 Outer Seal 0
0 09/25/85 2C4 Inner Seal 0
0 10/09/85-2C4 Outer Seal 0
0 10/09/85 2C4 Irner Sea'.
0 0
09/27/85 2C4 Outer Seal 0
0 09/27/85 2C4 Inner Seal 0
0 07/09/85 2C4 Outer Seal 0
0 07/09/85 2C4 Barrel 0
0 07/09/85 2C4 Inner Seal 0
0 06/10/85 2C4 Outer Seal 0
0 06/10/85 2C4 Inner Seal 0
0 06/11/85 2C4 Outer Seal 0
0 06/11/85 2C4 Inner Seal 0
0 06/25/85 2C4 Outer Seal 0
0 06/25/85 2C4 Inner Seal 0
0 07/18/85 2C4 Outer Seal 0
0 07/18/85 2C4 Inner Seal 0
0 07/28/85 2C4 Outer Seal 0
0 07/28/85 2C4 Inner Seal 0
0 08/02/85 2C4 Outer Seal 0
0 08/02/85
Air Lock aM Pume Valve LIRT Data 6-1-85 to 11-11-87 Leakage, acan Penetration Valve As As Number Nurber Found Iaft Date 2C4 Inner Seal 0
0 08/05/85 2C4 Outer Seal 0
0 08/05/85 2C4 Inner Seal 0
0 08/14/85 2C4 Outer Seal 0
0 08/14/85 2C4 Inner Seal 0
0 08/16/85 2C4 Outer Seal 0
0 08/16/85 2C4 Inner Seal 0
0 09/19/85 2C4 Outer Seal 0
0 09/19/85 2V1 681.5 681.5 09/19/85 2V2 244.8 244.8 09/19/85 2C4 Inner Seal 0
0 09/13/86 2C4 Outer Seal 0
0 09/13/86 2C4 Irunar Seal 0
0 09/10/86 2C4 Outer Seal 0
0 09/10/86 2C4 Inner Seal 0
0 09/07/86 2C4 Outer Seal 0
0 09/07/86 2C4 Inner Seal 0
0 09/05/86 2C4 Outer Seal 0
0 09/05/86 2C4 Inner Seal 0
0 09/27/86 2C4 Outer Seal 0
0 09/27/86 2C4 Inner Seal 0
0 09/25/86 2C4 Outer Seal 0
0 09/25/86 2C4 Inner Seal 0
0 09/19/86 2C4
. Outer Seal 0
0 09/19/86 l
l 2V1 0
0 07/03/86 2V2 0
0 07/03/86 2C4 Inner Seal 0
0 03/17/87 2C4 Outer Seal 0
0 03/17/87 2C4 Inner Seal 0
0 06/09/87 2C4 Outer Seal 0
0 06/09/87 2C4 Barrel 0
0 06/09/87 2V1 457.3 457.3 12/13/85 i
2V2 486.5 486.5 12/13/85 l
2V1 340.8 340.8 10/01/85 2V2 489.7 489.7 10/01/85 2V1 0
0 11/07/86 2V2 443.0 0
11/07/86 f
2V1 0
0 05/22/87 2V2 553?.43 0
05/22/87 2V1 0
0 07/13/87 2V2 0
0 07/13/87
Air Icck and Pume Valve LIRT Data 6-1-85 to 11-11-87 Irakage, accm Penetration Valve As As O
~
~
~
2C4 Inner Seal 0
0 04/27/86 2C4 Outer Seal 0
0 04/27/86 2C2 Inner Seal 0
0 04/24/86 2C2 Outer Seal 0
0 04/24/86 2C2 Barrel 0
0 04/24/86 2C4 Inner Seal 0
0 04/23/86 2C4 Outer Seal 0
0 04/23/86 2C4 Inner Seal 0
0 03/23/86 2C4 Outer Seal 0
0 03/23/86 2C4 Inner Seal 0
0 02/12/86 2C4 Outer Seal 0
0 02/12/86 2C4 Inner Seal 0
0 12/28/85 2C4 Outer Seal 0
0 12/28/85 2C4 Inner Seal 0
0 03/07/86 2C4 Outer Seal 0
0 03/07/86 Or 2C4 Inner Seal 0
0 12/15/85 2C4 Outer Seal 0
0 12/15/85 2C4 Inner Seal 0
0 12/14/85 2C4 Outer Seal 0
0 12/14/85 2C4 Inner Seal 0
0 12/10/85 204 Outer Seal 0
0 12/10/85 2C4 Inner Seal 0
0 12/04/85 2C4 Outer Seal 0
0 12/04/85 2C4 Barrel 0
0 12/04/85 2C2 Inner Seal 56.8 56.8 11/20/85 2C2 Outer Seal 0
0 11/20/85 2C2 Barrel 0
0 11/20/85 2C4 Inner Seal 0
0 10/05/85 2C4 Outer Seal 3
0 10/05/85 2C4 Inner Seal 0
0 10/02/85 2C4 Outer Seal 0
0 10/02/85 2C4 Inner Seal 0
0 10/04/85 2C4 Outer Seal 0
0 10/04/85 O
2C4 w Seal 0
0 11/09/86 2C4 Outer Seal 0
0 11/09/86 l
%!bkL dks a;s
Air Irck ard Purue Valve IIRP Data 6-1-85 to'11-11-87 Isakage, acun Penetration Valve As As L 'O 2C2 Inner Seal 0
0 10/28/86' 2C2 Outer Seal 0-0 10/28/86 2C2 Barrel 0
0 10/28/86 2C4 Inner Seal 0
0 11/12/86 2C4 Outer Seal 0
0 11/12/86 O
1 a
l d
P O
I ISG CALCULATION
( ANSI /ANS 56.8 - 1981 )
============================================================
CALIBRATION DATA SENSOR DISPLAY
- OF SENSORS REPEATABILITY (E)
REPEATABILITY (r) l TEMPERATURE (T) 18 0.050 deg. F 0.010 deg. F PRESSURE (P) 2 0.0005 psia 0.001 psia j
VAPOR PRESS (PV) 6 0.100 deg. F 0.010 deg. F LENGTH OF TEST (t) 8.00 hrs PRESSURE (P) 68.60 psia TEMPERATURE (T) 533.6 deg. R VAPOR PRESS (PV) 0.01502 psi /deg. F (at 63 La 0.100 wt%/ day INSTRUMENT MEASUREMENT EPRORS 2
2 1/2 1/2 eT = [(UT)
+ (rT)
]
/[# of sensors]
eT =
0.01202 deg-F 2
2 1/2 1/2 cP = [(EP)
+ (rP)
)
/[# of sensors]
cP =
0.00079 psia 1
2 2
1/2 1/2 cPV = [ (EPV)
+ (rPV)
]
/[# of sensors]
i 0.00062 psia ePV
=
INSTRUMENT SELECTION GUIDE 2
2 2
1/2 ISG
= 2400/t[ 2 (eP/P)
+ 2 (ePv/P)
+ 2(eT/T)
]
0.011 wt%/ day i
=
. 2 5 La =
0.025 wt%/ day
==========a=================================================
I I
.. -. - _