Text

Primary Reactor Containment Integrated Leakage Rate Test Rept
	ML20065B055
Person / Time
Site:	Hatch
Issue date:	05/31/1982
From:	; BECHTEL GROUP, INC.
To:	;
Shared Package
ML20065B054	List: ML20065B055; PM-82-868, Forwards Primary Reactor Containment Integrated Leakage Rate Test Rept, Per 10CFR50,App J,Section VB Requirements;
References
	NUDOCS 8209140233
	Download: ML20065B055 (141)
	v • d • e

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O GEORGIA POWER COMPANY EDWIN. I HATCH NUCLEAR PLANT UNIT 2 PRIMARY REACTOR CONTAINMENT INTEGRATED LEAKAGE RATE TEST REPORT O

MAY 1982 BECHTEL JOB NO. 6511-041 i

i PREPARED BY

! BECHTEL POWER CORPORATION l

SAN FRANCISCO, CA O

8209140233 820901 PDR ADOCK 05000366 P PDR

l l

TABLE OF CONTENTS Title h

1. INTRODUCTION 1

2.

SUMMARY

2 Test Data Summary Table 2

3. DISCUSSION 5

4. TEST SEQUENCE 5

5. INSTRUMENTATION AND DATA AQUISITION 6 Sensor Locations and Volume Fractions Table 8

6. TEST METHODS 9 O APPENDICES A. Description of Bechtel ILRT Computer Program B. Pressurization and Stabilization Sunnary Data C. ILRT Trend Report D. ILRT Summary Data; Mass Point, Total Time E. ILRT Plots, Airmass, Temperature, Pressure, Vapor Pressure F. Verification Flow Summary and Data G. Bypass Test Summary and Data H. ISG Calculations J. LLRT Report O

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ILRT REPORT FOR E. I. HATCH PLANT UNIT 2

1. INTRODUCTION l

The reactor containment building Integrated Leakage Rate Test (Type A) is performed to demonstrate that leakage through the primary reactor containment and penetrations does not exceed allowable leakage rate values as specified in the Plant Technical Specifications.

This report describes the first periodic Integrated Leakage Rate Test at plant E. I. Hatch, Unit 2, per 10CFR50, Appendix J requirements.

The preoperational ILRT was successfully completed on May 19, 1978.

Containment pressurization was initiated on May 2, 1982, at 11:20 a.m.

ILRT duration was 10.75 hours8.680556e-4 days 0.0208 hours 1.240079e-4 weeks 2.85375e-5 months , followed by a verification test, and a Drywell to Wetwell Bypass Area Test which were completed at 8:15 a.m.

on May 4. Depressurization to atmospheric pressure was completed at 11:00 a.m. on May 4.

Prior to the test, a surveillance of reactor containment penetrations and isolation valves was performed to meet the requirements of Appendix J to 10CFR50, Sections III D.2 and III D.3. In addition, a general containment ir.spection was performed on the accessible surfaces in accordance with Section V of 10CFR50, Appendix J, before pressurization

[^'g The following documents contain the test requirements and acceptance

( criteria for this ILRT:

1. E. I. Hatch Unit 2 Technical Specifications

2. ANSI N45.4 - 1972, Leakage Rate Testing of Containment Structures for Nuclear Reactors.

3. Appendix J to 10CFR Part 50, " Reactor Containment Leakage Testing for Water Cooled Power Reactors".

4. U.S. Nuclear Regulatory Commission Regulatory Guide 1.68, " Pre-operational and Initial Startup Test Program for Water Cooled Power Reactors".

5. Bechtel Topical Report BN-TOP-1, " Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants".

6. ANSI /ANS 56.8-1981 - Containment System Leakage Testing Requirements.

7. E. I. Hatch Nuclear Plant Procedure HNP-2-10031, " Primary Reactor Containment Integrated Leakage Rate Test".

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2.

SUMMARY

The containment building integrated leakage rate test (Type A) was suc-l cessfully completed niecting all acceptance criteria set forth in the governing documents. The test results are reported in accordance with the requirements of 10CFR50, Appendix J, Section V.B.3.

The calculated leakage rates were 0.704% per day using the Mass Point Analysis technique and 0.696% per day using the Total Time Analysis technique.

The 95% upper confidence limits were 0.722% per day for Mass Point and 0.789% per day for Total Time Analysis techniques. The acceptance '

criteria of 75% of La is 0.90% per day.

Following completion of the ILRT, a successful verification test was performed. The Mass Point calculated leakage rate was 1.350% per day with a lower limit of 1.304% per day and upper limit of 1.904% per day.

The Total Time calculated leakage rate was 1.359% per day with a lower limit of 1.296% per day and upper limit of 1.896% per day.

Upon completion of the verification test, the containment was depres-surized to 1.7 psig and a successful Drywell to Wetwell Bypass Area Test was performed in accordance with Appendix N of the Test Procedure.

The test duration was four hours. The calculated equivalent bypass area was 0.054 square inch, or 7% of the allowable one inch diameter orifice size of 0.785 square inch.

Pressurization started on May 2, 1982, at 11:20. Test pressure was reached at 19:03 on the same day. The four hour stabilization period was followed by 4.5 hours5.787037e-5 days 0.00139 hours 8.267196e-6 weeks 1.9025e-6 months of various perturbations caused by fans being stopped and chillers tripping off. Temperature and pressure were rising and two drywell ventings were required to keep pressure within test range. The air mass stabilized at 3:30 a.m. on May 3. This was followed by a 10.75 hour8.680556e-4 days 0.0208 hours 1.240079e-4 weeks 2.85375e-5 months leakage rate test, completed at 14:15 on May 3.

A verification flow was initiated and the five hour verification test was completed at 20:30 on May 3.

At 21:00 the Drywell depressurization to 1.7 psig for the bypass test was initiated. The Drywell to Wetwell Bypass Test started at 4:15 a.m.

on May 4 after 2.5 hours5.787037e-5 days 0.00139 hours 8.267196e-6 weeks 1.9025e-6 months of stabilization. The four hour bypass test was completed at 8:15 a.m. on May 4. Subsequently the drywell was depressurized to atmospheric pressure.

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i Test Data Summary Table

O A. Plant Information l Owner Georgia Power Company 1 Plant Edwin I. Hatch Nuclear Plant Unit 2 Location Baxley, Georgia j Containment Type Mark I, BWR Date Test Compliced May 4, 1982 j B. Technical Data 1

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l. Containment Net Free Air Volume (Min) 256,066 cu. ft.

Volume as tested

228,486 cu. ft.

2. Design Pressure 56 psig

3. Design Temperature 340 1 4. Calculated Peak Accident l Pressure, Pa 57.5 psig

5. Containment ILRT Average Temperature Limits 50-120*F 4

() C. Test Results - Type A Test l 1. Test Method Absolute i

l 2. Data Analysis Techniques Leakage Rate (Total-Time per BN-TOP-1) and Mass l Point (per ANS 56.8-1981) i

). 3. Test Pressure 57.5 psig + 1.0 l

-0

4. Maximum Allowable Leakage l 1.2%/ day

Rate, La a

! 5. 75% of La 0.9%/ day

Leakage Rate, %/ day

6. Integrated Leakage Rate l From Regression At Upper 95%

l Line (Lam) Confidence Limit

a. Total Time Analysis 0.696 0.789 l

b. Mass Point Analysis 0.704 0.722

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As tested condition is due to torus water level 35" above normal.

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l' A .y Test Data Summary Table (Cont'd) ..

7. Verification Test Imposed 7.1 scfm Leakage Rate, Li.%/ day 0.9%/ day

8. Verification Test Results LesNage Rate,%/ day

a. Total Time Analysis 1.359 1.350

b. Mass Point Analysis ;

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9. Verification Test Limits Test Limit,%/ day

a. Total Time Analysis -

(1) Upper Limit (Li + Lam + 0.25 La) 'l.896 (2) Lower Limit (Li + Lam - 0.25 La) 1.296 ..

b. Mass Point Analysis m (1) Upper Limit (Li + Lam + 0.25 La) 1.904 <

(2) Lower Limit (Li + Lam - 0.25 La) 1.304 D. Test Results - Bypass Area Test

1. Calculated Equivalent Bypass Area 0.054 in.2

2. Allowable Equivalent Bypass Area 0.785 in.2 s_j/ 3. Rate of Drywell-to-Wetwell Differential '

Pressure Decay -

Time Drywell Pressure Wetwell Pressure Pres's ure 0800 16.363 psia 15.002 psia 1.36 0815 16.362 psia 15.019 psia 1.34-i

a. Calculated Rate 0.039 in H 20/ min.

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for 15 minutes l

b. Allowable Rate (Technical Specification) 0.25;in H 20/ min.

l fo'r'10 minutes

! 4.6.4.1) l Reports and Summary Data for the Drywell-to-Wetwell Bypass Area Test are l found under Tab " Appendix G".

E. LLRT Adjustments and Other Penrit

ts: None F. ILRT Results LLRT, Subtotal of Type C Tusts: 6404 acem; 0.142%/ day Subtotal of Type B Tests: 3006 acem; 0.067%/ day

() TOTAL ILRT Leakage: 0.051%/ day < .6 La = .72%/ day DH-149 4 L. . _ - - - . _ _ _ _ . - - _ _ _ . - - _ _ _ _ - - - - . . ___. _ ___. _ _

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,. 3. DISCUSSION-A few exceptions were made to the original procedure. The torus water d

level was recorded 35 inches above the 150 inch level, which is the i_ basis for the torus free air volume calculation.. Air volume adjustments increased the drywell volume fractions and decreased the torus volume fractions. At the end of the stabilization period the contaf.nment i

chillers tripped out causing an air temperature increase in the contain-ment. All fans were turned off to reduce additional heat sources. 'As l the pressure was increasing, the containment had to be vented twice in j order to stay below the 58.0 psig maximum test pressure. Following an l additional stabilization period, the maximum pressure limit was raised i to 58.5 psig.

The containment was visually inspected per Appendix J requirements for cracks, corrosion, and general deterioration. No damage was found.

All valves were.s lined up in post LOCA condition in accordance with the l ILRT Proce' dure, Appendix'B, except as noted below.

(_^ The containment cooling and ventilation fans were not used during the j , leak test period. . Fans and chillers were in operation through the

pressurization and initial stabilization period, however, all fans were

{ turned,off et the beginning of the stabilization period after the

chillers tripped and remained off for the remainder of the test.

The only containment penetration in service during the ILRT was the

{ RHR system -loop A, lined up for reactor cooling. The chillers and

reactor cleanup were not in operation.

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Deviations from the standard lineup were:

I 1. Core spray suction was lined up with the condensate storage tank because of the high torus water level which made the torus inoper-j able by Technical Specification standards.

l 2. Condensate transfer system lineup was changed as affected by the i RHR lineup, however this had no influence on the ILRT.

1 i

The pressurization system consisted of two rented Ingersoll-Rand, oil-

free, electric motor driven rotary compressors, 1800 cfm capacity each, l with a refrigerated air dryer and moisture separator. The pressuriza-j tion rate was 11.5 psi /hr. Containment depressurization was through

! the standby gas treatment system.

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TEST SEQUENCE i

Containment pressurization started on May 2,1982, at 11:20 a.m. with both compressors running. At 12:30 the compressors stopped due to loss of outside power. Pressurization was resumed at 14:35. Test pressure

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l i _ _ was reached at 19:03. At the end of the four hour stabilization period i

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, p the chillers tripped out causing an air temperature increase. Subse-( quently the pressure exceeded the 58.0 psig maximum and the containment i

\v) had to be vented at 00:25, and again at about 03:00 on May 3. After the perturbations from venting stabilized, a consistent set of ILRT data was Further venting was prevented by revising the maximum allow-4

-collected.

able test pressure to 58.5 psig. A 5 hr. verification test followed at a 7.1 scfm imposed leakage. The containment was depressurized to 2.0 I psig and the vaccum breakers closed between the torus and drywell. The torus was depressurized to atmospheric pressure and the drywell to 1.7 psig. At this pressure a 4 hour4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months bypass test was conducted. The bypass test was completed and final depressurization started at 08:15 on May 4, 1982.

The Test Phases were as follows:

Test Phase Time Duration Date Pressurization 11:30 - 19:00 7.5 hr May 2 Stabilization 19:00 - 03:00 8 May 2-3 ILRT 03:30 - 14:15 10.75 May 3 Verificatic:: 15:30 - 20:30 5 May 3 Depressurization to 1.7 psig 21:00 - 01:45 4.75 May 3-4 Stabilization 01:45 - 04:15 2.5 May 4 Bypass test 04:15 - 08:15 4 May 4 Depressurization to Atmosphere 08:15 - N/A May 4 O

5. INSTRUMENTATION AND DATA AQUISITION The following instrument system was used:

No. Required Description Data A. Absolute Pressure 2 Precision Pressure Gauge Range: 0-100 psia Mensor Model 10100-0u1 Accuracy: 1 0.02% F.S.

Sensitivity: .001 psia Repeatability: .0005% F.S.

Calibration Date: 4/15/82 B. Drybulb Temperature 14 Temperature sensors , Range: 0-150 *F Rosemount 100 ohm, Accuracy: 1 0.10 *F Platinum Model 78-65-17 Sensitivity: 0.01 *F Repeatability: 0.003 *F Calibration Date: 4/14/82

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C. Dewpoint Temperature 6 Dewpoint Detecters, Calibrated Range: 40-100 'F EG G, Model 660-52 Accuracy: 1 54 'F Sensitivity: 0.10 *F Repeatability: 0.05 "F Calibration Date: 4/16/82 D. Flow Meters 2 Mass Flowmeter, Range: 0-10 scfm Model 500-9 Accuracy: 1 1% F.S.

Sensitivity: 1% F.S.

Repeatability: 0.0 scfm Calibration Date: 4/16/82 O

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l DRYBULB AND DEWPOINT TEMPERATURE SEN90P LOCATIONS O

U TE Elevation Azimuth Distance Volume Fractions No. Tag No. (Ft) (Degress) From Center ILRT Bypass Test RTD - DRYWELL 1 125067 120 345 28 . 056 .088 2 125068 120 165 28 .056 .088 3 127899 130 90 28 .024 .036 4 125075 134 205 24 .111 .173 5 125071 134 345 20 .111 .173 6 125081 154 35 24 .054 .084 7 127901 154 270 20 .054 .084 8 127902 195 115 13 .087 .137 9 127913 195 295 13 .087 .137 RTD - TORUS 10 125039 108 250 65 .072 .200 11 125046 108 25 65 .072 .200 12 125092 108 90 65 .072 .200 13 125069 108 170 65 .072 .200 14 125070 108 315 65 .072 .200

() DEWCELL - DRYWELL ME No.

I 7* 748 120 330 28 .124 .195 2 1016 134 165 24 .114 .180 1 3 1001 154 345 24 .109 .180

! 4 1036 134 330 20 .114 .170 5 659 195 40 13 .179 .275

! DEWCELL - TORUS 6 108 135 65 .360 1.000 l

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Faulty Deweell No. I was replaced with spare No. 7 i DH-149 8 l

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k i The overall Instrumentation Selection Guide (ISG) value was calculated j (see Appendix H) in accordance'with ANSI /ANS 56.8-1981 based on above 1

instrumentation and on an eight hour minimum test duration. The calcu-lated ISG = .0054 < .25 La. There was no instrument failure, therefore post ILRT ISG calculation was not required. l l The ILRT data collection system, consisting of drybulb and dewpoint tem-i perature sensors and precision pressure gages, was connected to a Volu-

metrics, Model No. 14632, No. 1, Data Aquisition System (DAS). Pressure ,

j Gages were installed in the DAS panel and connected to the drywell and 1 4 torus through flexible hoses. The dewcells were connected to the DAS i through signal conditioning boards. The DAS panel was provided with an automatic scanner and the measured data were printed on paper tape.

l The data were processed and the leakage rate calculated by'a minicom-j puter, Model Digital 1103 via direct data input from the DAS panel through an RS232 circuit board. Built in electronic mass flow meters

provided the imposed leakage for the verification flow.

1 j During the stablization and test period, data were recorded every 15

! minutes. During other test periods, data were recorded at 30 minute intervals.

) 6. TEST METHOD i

i The containment leakage rate testing method applied is the Absolute Method as described in ANSI /ANS 56.8-1981.- this is a direct application

of the ideal gas law, PV=WRT. Two Data Analysis Techniques were used

l 1. The Mass Point Analysis Technique k

This technique calculates the containment air mass at each time in-terval. A straight line least squares analysis is used, and the slope of the regression line represents the rate of change of air

mass with respect to time, which is the leakage rate.

l l 2. The Total Time Analysis Technique

) This technique calculates leakage rate based on the most recent j data point and the data point taken at the start of the test. The overall leakage rate is determined by applying linear regression j analysis to the leakage rates at each time point.

A 95% upper confidence level was calculated for leak rate data as re-l quired by ANSI /ANS 58.6-1981. This is to assure a 95% probability that

! the calculated leak rate value is within the acceptance limits. All i calculations were done with Bechtel's ILRT computer program described 4 in Appendix A. -

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! The temperature and pressure history and the containment air mass variations were plotted by the computer program. These plots are in l

l Appendix E.

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O O O TYPICAL ILRT DATA ACQUISITION SYSTEM CONTAINMENT PENETRATION I

I MANUAL !

l SCAN l g

CONTROLLER l

BUFFER l l

TD !

l l _ hgGNAL . MANUAL - -

MANUAL 14 RTO,S

[

C SCANNER DISPLAY l e______-_,

E : : . THERMAL MASS 6 DEWPOINT / DEWPOINT / AUTO FLOW METER SYSTEM "

SENSORS 3

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, l / CONTROLLER [ g 0-15 SCFM

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" 1 l

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, I l PRECISION l PRESSURE -

DIGITAL _

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INPUT DATALOGGER l TRANSMITTER g l 1 1

" l THERMAL MASS l g l

- FLOW METER j l PRECISION O-15 SCFM PRESSURE l l

4 l TRANSMITTER l

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4 1 I I

I l i l imt I LEAK VERIFICATION l, CA8INET CABINET l_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ al _ _ _ _ _ _ _ _ _ J

BECHTEL ILRT COMPUTER PROGRAM l

s_,) A. Program and Report Description

1. The Bechtel ILRT computer program is used to determine the inte-grated leakage rate of a nuclear primary containment structure.

The program is used to compute leakage rate based on input values of time, free air volume containment atmosphere total pressure, drybulb temperature, and dewpoint temperature (water vapor pressure).

Leakage rate is computer using the Absolute Method as defined in ANSI /ANS 56.8-1981, " Containment System Leakage Testing Requirements" and BN-TOP-1, Rev 1, " Testing Criteria for Integrated Leakage Rate ,

Tes ting of Primary Containment Structures for Nuclear Power Plants".

l The program is designed to allow the user to evaluate containment l

leakage rate test results at the jobsite during containment leakage l testing. Current leakage rate values may be obtained at any time !

during the testing period using one of two computational methods, yielding three different report printouts.

2. In the first printout, the Total Time Report, leakage rate is com-puted from initial values of free air volume, containment atmosphere drybulb temperature and partial pressure of dry air, the latest values of the same parameters, and elapsed time. These individually computed leakage rates are statistically averaged using linear re-gression by the method of least squares. The Total-Time Method is the computational technique upon which the short duration test

[-,s criteria of BN-TOP-1, Rev 1, " Testing Criteria for Integrated

\s, Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plant," are based.

3. The second printout is the Mass Point Report and is based on the Mass-Point Analysis Technique described in ANSI /ANS 56.8-1981,

" Containment System Leakage Testing Requirements." The mass of dry air in the containment is computed at each data point (time) using the Equation of State, from current values of containment atmosphere drybulb temperature and partial pressure of dry air. Contained 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 printout, the Trend Report, is a summary of leakage rate values based on Total time and Mass Point computations presented as a fuction of number of data points and elapsed time (test dura-t io n) . The Trend Report provides all leakage rate values required for comparision to the acceptance criteria of BN-TOP-1 for conduct of a short duration test.

5. The program is written in a high level language and is designed for use on a mini-computer with direct data input from the data acquisition system, or on a mainframe via a remote data terminal.

Brief descriptions of program use, formulae used for leakage rate

, computations, and program logic are provided in the following

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paragraphs.

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[~'} B. Explanation of Program

'%.)

1. The Bechtel ILRT computer program is written, for use by experi-enced ILRT personnel, to determine containment integrated leakage rates based on the Absolute Method described in ANSI /ANS 56.8-1981 and BN-TOP-1. -. -.

2. Information loaded into the program prior to the start of the test:

a. Number of containment atmosphere drybulb temperature sensors and dewpoint temperature (water vapor pressure) sensors to be used in leakage rate computations for the specific test

b. Volume fractions assigned to each of the above sensors i

c. Calibration data for above sensor, if required

d. Calibration data for pressure sensor.

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3. Information entered into the program at the start of the test:

a. Test title

b. Current test pressure and peak test pressure

c. Maximum allowable leakage rate at peak test pressure

' \ ') d. If the test is a verification test:

(1) Imposed leakage rate (2) Leakage rates determined using the two computational l

methods described in Paragraph A above during the ILRT.

4. Data received from the data acquistion system during the test, and used to compute leakage rates:

a. Time and date

b. Containment atmosphere drybulb temperatures

c. Containment atmosphere pressure

d. Containment atmosphere dewpoint temperatures

5. After all data at a given time are received , a Summary of Measured Data report (refer to " Program Logic," Paragraph D, " Data" option command) is printed on the data terminal. Tha date, containment atmosphere weighted average drybulb temperature, partial pressure of the dry air and water vapor pressure are stored on a data file.

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s 6. If drybulb and dewpoint temperature sensors should fail during the test, the data from the sensor (s) are not used. The volume frac-tions for the remaining sensors are recomputed and reloaded into the program for use in ensuing leakage rate computations.

C. Leakage Rate Formulae

1. Computation using the Total Time Method: ,

a. Measured leakage rate, from data:

PV1 i = W1RT1 (1)

PVi i = WiRTi (2) 2400 (W1-W) 1 Li = (3)

Ati W1 Solving for W1 and Wi and substituting equations (1) and (2) into (3) yields:

Li = 2400/Ati (1-T1i P /T i1P ) (4) where:

W,Wi 1 = Weight of contained mass of dry air at times ti and ti respectively, Ibm.

T,Ti 1 = Containment atmosphere drybulb temperature at times

-ti and ti respectively, *R.

P,Pi 1 = Partial pressure of the dry air component of the con- -

tainment atmosphere at times ti and ti respectively, psia.

l Vi = Containment free air volume (constant or variable

' during the test), ft3, ti, ti = Time at 1st and i th data points respectively, hours.

Att = Elapsed time from ti to ti, hours.

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

Li = Measured leakage rate computed during time interval ti to ti, %/ day.

a DH-103 A-3

b. Calculated leakage rate from regression analysis:

L = a + batN (5) where:

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

ILi(Eatg2 ) - Iat f(ELgAtg )

a= (6) 2 N(EAtg ) - (IAt i)2 N(ILiati ) - EL i(Eati) b= (7) 2 N(Eatg ) - (Eati)2 N = Number of data points N

E=E i=1

c. Calculated leakage rate at the 95% confidence level.

L95 = a + batN+S (8) where:

L95 = Calculated leakage rate at the 95% confidence level, %/ day, at elapsed time AtN' For AtN < 24 S_ =t 0 025;N-2 [E(L / (N-2)]l/2 x [1 + 1 + (AtN -E ) IE(Oti - E ) ]Il g 1-5 )2 (9a)

L N where, t0 025;N-2 = 1.95996 + 2.37226 + 2.82250 ;

N-2 (N-2)Z For AtN 1 24 S_ = t0 025;N-2 [E(L i - 5 )2 /

1 (N-2)]l/2 x [1_ +(AtN - E} /E(Ati - E ) ]1/ (9b)

L N 1.6449(N-2)2 + 3.5283(N-2) + 0.85602 where, t0 025;N-2 =

(N-2)2 + 1.2209(N-2) - 1.5162 I=l Calculated leakage rate computed using equation (5) at total elapsed time Ati, %/ day.

EOt i N

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2. Computation using the Mass Point Method

a. Contained mass of dry air from data: ,

Wi = 144 PgVi RTi (10) where:

All symbols as previously defined.

b. Calculated leakage rate from regression analysis:

b E = -2400 - (11) a where:

I = Calculated leakage rate, %/ day, as determined from the regression line.

EW i -bEAti a = (12)

N I((W i - IWi /N) (Att - E)]

Z(Att - 5) 2 th data point, hours Att = Total elapsed time at time of i N = Number of data points th data point, lbm, as W1 = Contained mass of dry air at i computed from equation (10).

N E=E i=1 E = Iat i/N

c. Calculated leakage rate at the 95% confidence level.

-24uo E95 = (b + Sb ) (14) a where:

E95 = Calculated leakage rate at the 95% confidence level, %/ day.

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4 r(wi- 1T-)2 i 1/2 sb"C0 025;N-2 (15)

(N-2)t(Atg - E)2 l

J l 1.6449(N-2)2 + 3.5283 (N-2)2 + 0.85602 i where, t0 025;N-2 =

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

l Ii f= Contained mass of dry air, Iba, computed at the ith (16) i data point from the regression equation

= a + bAtt i

i All other symbols are previously defined.

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t i

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D. Program Logic

1. A flow chart of Ecchtel ILRT computer program usage is presented in Figure 1, following. The various user options and a brief descrip-tion of their associated function are presented below:

OPTION COMMAND FUNCTION DATA Enables operator to enter raw data. When 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. Af ter 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 Terminal will print out a Trend Report.

TOTAL Terminal will print out a Total Time Report.

MASS Terminal will print out a Mass Point Report.

O TERM Enables operator to sign-off temporarily or permanently.

SAVE Enables operator to store the Data Summary on a file.

PREV Enables operator to call up an old, previously stored, file.

CORR Enables operator to correct data stored on a file.

LIST When used with a given file name, the printer will print out a list of the Summary Data stored on the file.

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

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O BECHTEL CONTAINMENT INTEGRATED LEAKAGE RATE TEST COMPUTER PROGRAM FLOW CHART

( SIGN ON ) i

~ t I

\ ENTER BASIC / _ -

NO / ENTER PREVIOUS \

glNFORMATION / \ VALUES FROM FILES /

,YES r

,, N ENTERS

SUMMARY

D ATA - : DATA STORED ON :

t (OPTIONS)" SELECTED FILES

<rPREV u '

<FCORR ; SU MARY DATA :

v (ERROR 7)

[ YES STORES

SUMMARY

T ENTER / NO

' ^

o SELEC D ILE k CORRECTIONS / m t _

SUMMARY

OF <H-TREND :lTRENO REPORT!

~

MEASURED DATA

" erTOTAL ; TOTAL-TIME :

REPORT (ERR 0R1)

NO

" ar MASS : MASS POINT REPORT CORRECTED "

SUMMARY

O ATA PRINTOUT

<r LIST a PRINT OUT OF

SUMMARY

DATA

<FTERM

( SIGN OFF ) ,

O k = >

e A-8 ~

E. COMPUTER REPORT AND DATA PRINTOUT pd MASS POINT REPORT The Mass Point Report presents leakage rate data (wt%/ day) as deter-mined by the Mass Point Method described in the " Computer Program" section of this report. The " Calculated Leakage Rate" is the value determined from the regression analysis. The " Containment Air Mass" values are the masses of dry air in the containment (lba). These values, determined from the Equation of State, are used in the regression analysis.

TOTAL TIME REPORT The Total Time Report presents data leakage rate (wt%/ day) as deter-mined by the Total Time Method. The " Calculated Leakage Rate" is the value determined from the regression analysis. The " Measured Leakage Rates" are the leakage rate values determined using Total Time calcu-lations used in the above regression analysis.

TREND REPORT The Trend Report presents leakage rates (as determined by the Mass Point and Total Time methods described in the " Computer Program" section of this report) in percent of the initial contained mass of Os dry air per day (wt%/ day), elapsed time (hours), and number of data points.

SUMMARY

DATA REPORT 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 five column headings are TIME, DATE, TEMP, PRESSURE, and VPRS, and contain data defined as follows:

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

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

3. TEMP: Containment weighted-average drybulb temperature in absolute units, degrees Rankine (*R).

4. PRESSURE: Partial pressure of the dry air component of the con-tainment atmosphere in absolute units (psia).

5. VPRS: Partial pressure of water vapor of the containment atmosphere in absolute units (psia).

O

\~.)

DH-103 A-9

F.

SUMMARY

OF MEASURED DATA AND

SUMMARY

OF CORRECTED DATA p

'\ <) The Summary of Measured Data presents the individual containment atmosphere drybulb temperatures, dewpoint temperatures, and absolute total pressure measured at the time and date as indicated and is used to determine the temperature and pressure described in above.

1. TEMP 1 through TEMP N are the drybulb temperatures, where N = No. of RID's. The values in the right-hand column are temperatures (*F), multiplied by 100, as read from the data acquisition system (DAS). The values in the left-hand column are the corrected temperatures expressed in absolute units

(*R).

2. PRES 1 is the total pressure, absolute. The right-hand value, in parentheses, is a number in counts as read from the DAS.

This count value is converted to a value in psia by the com-puter via the instrument's calibration table, counts versus psia. The lef t-hand column is the absolute total pressure, psia.

3. VPRS 1 through VPRS n are the dewpoint temperatures (water vapor pressures), where n = No. of dewpoint sensors. The values in the right-hand column are temperatures (*F), multi-plied by 100 as read from 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 column.

The Summary of Corrected Data presents corrected temperature and pressure values and calculated air mass determined as follows:

1. TEMPERATURE (*F) is the volume weighted average containment atmosphere drybulb temperature derived f rom TEMP 1 through TEMP N.

2. CORRECTED PRESSURE (psia) is the partial pressure of the dry air component of the containment atmosphere, absolute. The volume weighted average containment atmosphere water vapor pressure is subtracted from PRES 1, total pressure, yiciding the partial pressure of the dry air.

3. VAPOR PRESSURE (psia) is the volume weighted average contain-ment atmosphere water vapor pressure, absolute derived f rom VPRS 1 through VPRS n.

4. CONTAINMENT AIR MASS (lbm) is the calculated mass of dry air in the containment. The mass of dry air is calculated using the containment free air volume and the above TEMPERATURE and CORRRECTED PRESSURE of the dry air.

O>

\_-

DH-103 A-10

TABLE B PRESSURIZATION AND STABILIZATION DATA TEST.OO1 ..

HATCH UNIT 2 ILRT ALMAX = 1.200 VOL = 228486.00 VRATET = 0.000 VRATEM = 0.000 VRATEP = 0.000 TIl1E DATE TEMP PRESSURE VPR5 VOLUME 1100 502 547.71735 14.459339 0.44287539 229307.

1130 502 548.42651 15.427382 0.43596259 229307.

1200 502 546.96399 18.403946 0.33654901 229307.

1230 502 545.72003 22.792912 0.33683079 229307.

1300 502 544.26331 22.730215 0.33066311 229307.

1400 502 543.09332 22.695572 0.32139331 229307.

1430 502 542.65393 22.677931 0.31807700 229307.

1500 502 544.35486 28.153757 0.34244490 229307.

1530 502 544.25385 34.002525 0.35386461 229186.

. 1600 502 544.13831 39.804733 0.36193511 228486.

1630 502 544.01526 45.605942 0.37401891 228486.

1700 502 543.95642 51.394924 0.38010299 22848c.

1800 502 543.74469 62.882561 0.39114559 228486.

1930 502 543.64429 68.636627 0.39886019 228486.

1846 502 543.55847 71.822182 0.40600589 228486. '

1903 502 542.48248 72.137146 0.40409961 228486.

1915 502 541.95819 72.030785 0.39617220 228486.

1930 502 541.47192 71.965202 0.39218280 228486. !

1945 502 541.12103 71.916214 0.38849589 228486.

2000 502 540.83911 71.873306 0.38469931 228486.

2015 502 540.57977 71.832298 0.38197219 228486.

2000 502 540.52258 72.219879 0.38099781 223486.

2045 502 540.23309 72.175156 0.37900731 228486.

2100 502 540.01398 72.140884 0.37651211 228486.

2115 502 539.81384 72.108971 0.37463400 228486.

2130 502 539.63232 72.078590 0.37321019 228486.

2145 502 539.46851 72.050423 0.'37155879 . 228486.

2200 502 539.31647 72.028183 0.36994919 228486.

2215 502 539.21460 72.070366 O'.36950359 228486.

2230 502 539.07117 72.062515 0.36741659 228406.

2245 502 538.89380 72.036385 0.36572549 228486.

2300 502 538.77081 72.012291 0.36497030 228486.

2315 502 538.63965 71.988556 0.36385739 228486.

2330 502 538.53088 71.969498 0.36303771 228486.

2345 502 538.44958 71.951454 0.36319930 228486.

. O 503 540.58063 72.214996 0.40177920 228486. '

15 503 542.00580 72.341408 0.42742589 228486.

30 503 542.67517 72.208992 0.44157159 228486.

45 503 543.27063 72.282509 0.45253891 228486. !

100 503 544.07806 72.290253 0.45770860 228486.

115 503 544.60602 72.310699 0.45614380 228486.

130 503 544.87622 9 145 503 200 503 215 503 545.07660 545.28473 545.45026 72.322525 72.335915 72.348167 72.359879 0.45525321 0.45373581 0.45345730 0.45367521 228486.

228486.

228486. i 230 503 545.63574 72.370636 u.45384711 228486.

245 503 545.77954 72.381027 0.46439190 228486. !

300 503 545.92609 72.390541 0.45482111 228486. ____

r_____________._. _ _ _ _ _ . __ _ .___ . _ __ _ . _ ___ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . . _ _ _ _ _ . _ _ _ _ . _

f I

I r

i i

i TABLE B (CONT'D)

PRESSURIZATION AND STABILIZATION DATA (CONT'D) !

i I

300 503 545.924209 72.390541 0.45482111 228486. ;

315 503 545.89404 72.169464 0.45427051 228486.

300 503 546.12152 72.193130 0.45545331 228486. '

345 503 546.24988 72.203964 0.45654660 228486.

400 503 546.38446 72.211227 0.45722711 228486. .

415 503 546.50043 72.219299 0.45809990 228486. l 430 503 546.61273 72.224503 0.45886070 228486.

t 445 503 546.70148 72.231148 0.45917800 228486. ;

500 503 546.79956 72.237091 O.46017921 229496. l 515 503 546.89209 72.242599 0.46063709 228486.

530 503 546.99573 72.248093 0.46111241 228485.

i 4

5'! S 503 517.09215 72.252647- O.46152201 2."S486. - -

l 600 503 547.16370 72.256508 0.46262860 228486.

i 615 503 547.23853 72.262131 0.46297511 228486. !

! 630 503 547.32056 72.265434 0.46364659 228486. !

645 503 547.37012 72.270103 0.46394089 228486. i 700 503 547.46710 72.273514 0.46451089 228486. !

r 715 503 547.51385 72.277626 0.46536711 228486. '

730 503 547.60999 72.281334 O.46563989 228486.

745 503 547.67487 72.284157 0.46679050 228486.

503 547.74707 72.287987 0.46693715 228486.

@ 800 .

i t

k i

G l h

I I L._____.m.-__-......--___..____....--._. --

I I

l HATCH UNIT 2 ILRr l l

TREND REPORT !

LEAKASE RATES (WEIGHT PERCENT / DAY) l

{

. l l TIME AND DATE AT START OF TEST: 330 0503 ELAPSED TIME: 10.75 HOURS <

NO. DATA ELAPSED TOTAL-TIME ANALYSIS' MASS-POINT ANALYSIS i I

POINTS TIME MEAN CHLCULATED CALCULATED 95%-UCL 10 2.25 1.014 1.026 0.996 1.034 11 2.50 1.012 1.015 0.987 1.019 12 2.75 1.006 0.994 0.966 1.000 13 3.00 1.001 0.981 0.954 0.986 14 3.25 0.994 0.935 0.927 0.966 l 15 3.50 0.989 0.943 0.917 0.952 l l !a 3.75 0.981 0.922 0.806 0.933 17 4.00 0.976 0.911 0.883 0.921 18 4.25 0.971 0.900 0.880 0.910 19 4.50 0.966 0.889 0.872 0.900 20 4.75 0.961 0.877 0.861 0.889 21 5.00 0.956 0.867- 0.853 0.879 22 5.25 0.952 0.859 0.847 0.871 23 5.50 0.947 0.850 0.839 0.863 24 5.75 0.943 0.841 0.832 0.855 l 25 6.00 0.938 0.832 0.824 0.846 l 26 6.25 0.933 0.822 0.814 0.837 l 9 27 28 6.50 6.75 0.929 0.924 0.814 0.805 0.808 0.799 0.830 0.821 l

29 7.00 0.920 0.796 0.791 0.813 30 7.25 0.916 0.788 0.785 0.806 31 7.50 0.911 0.780 0.778 0.799 32 7.75 0.907 0.772 0.771 -0.792 i 33 8.00 0.903 0.765 0.764 0.785 l 34 8.25 0.899 0.758 0.758 0.778 35 8.50 0.895 0.751 0.752 0.772 36 8.75 0.891 0.743 0.745 0.765 37 9.00 0.887 0.737 0.739 0.759 38 9.25 0.884 0.731 0.734 0.753 39 9.50 0.880 0.725 0.729 0.748 40 9.75 0.877 0.719 0.723 0.742 41 10.00 0.873 0.713 0.719 0.737 42 10.25 0.870 0.707 0.714 0.732 43 10.50 0.866 0.702 0.709 0.727 44 10.75 0.863 0.696 0.704 0.722 l

I i

I l

1 0 I

l 4

4e-w

m m.______ _ _ . _ _ _ _ _ . - ___ _

LEM AGE RATE (WEIGHT PERCENT / DAY)

MA2S-POINT ANALYSIS TIME AND DATE AT START OF TEST: 330 0503 ELAPGED TIME: 10.75 HOURS G. 71ME TT MP PRESOURE (PSIA)

CTMT. AIR MASS LOSS TOT.fWG. MAES MASS (LBM) (LEM) LOSS (LBM/HR)

(R) 330 546.122 72.1931 81526.

345 b46.250 72.2040 81519. 6.9 27.7 400 546.384 72.2112 81507. 11.9 37.6 413 546.500 72.2193 81499. 8. 2 - 36.0

-430 546.613 72.2243 81488. 10.9 37.9 i

445 546.701 72.2311 81482. 5.7 34.9 l 81474. 7.9 34.3 :

l 500 546.800 72.2371 i i 515 546.892 72.2426 81467. 7.6 33.8 i

530 546.996 72.2481 81457, 9.2 34.2 j '

545 547.082 72.2526 81450. 7.7 33.8 600 547.164 72.25c5 81442. 7.8 33.5 ;

615 547.239 72.2621 81437. 4.8 32.2 s

630 547.321 72.2654 81429. 8.5 32.4 6 645 547.370 72.2701 81426. 2.1 30.5 !

700 547.467 72.2735 81416. 10.6 31.4 715 547.514 72.2776 81414. 2.3 29.9 l

730 547.610 72.2813 81403. 10.1 30.6 !

745 547.675 72.2842 81397. 6.5 30.3

[ 30.0 l

800 547.747 72.2880 81391. 6.4 815 547.801 72.2914 81386. 4.1 29.3

}

830 547.8'70 72.2938 81379. 7.6 29.4 l l 7.0 29.3 ;

[ 845 547.945 72.2974 81372.

900 548.004 72.3003 81367. 5.0 28.9

/

915 540.062 72.3031 81361. 6.0 28.7 930 548.118 72.3063 81356. 4.7 28.3 ,

L 945 548.173 72.3102 81332. 3.8 27.7 i

1000 548.238 72.3117 81344. 7.9 27.9 1015 548.283 72.3144 81341. 3.6 27.4 1030 548.336 72.3172 81336. 4.7 27.1 1045 548.397 72.3193 81329. 6.8 27.1 1100 548.449 72.3220 81325. 4.6 26.8 1115 548.500 72.3246 81320. 4.6 26.5 1130 548.5ba /2.3270 81314. 5.5 26.4 ;

it45 548.600 72.3282 81309. 5.3 26.2 -

1200 548.651 72.3311 81305. 4.2 26.0 1215 548.692 72.3337 81302. 3.1 25.6 [

1230 548.749 72.3349 81295. 7.1 25.7 [

1245 548.794 72.3361 81289. 5.4 25.6 [

1300 548.838 72.3380 81285. 4.3 25.3 i

1315 548.880 72.3393 81280. 4.8 25 '

72.3408 81275. 5.3 25,1 1330 548.927 1345 540.971 72.3435 81271. 3.5 24.8 1400 549.007 72.3443 81267. 4.4 24.e !

1415 549.U61 72.3462 81261. 5.G 24.6 L FFEE A11< VOLUME USED (MILLIDH3 OF CU. FT.) = C.228 RFt;RESSIDM LINE 9 INTEhLEPT (LOM)

GLGPF ( L BM e H.1)

=

81507.

-23.0 I

M4XINUFt ALLONADLE LEAKAGE RATE = 1.200 t 73 *. OF MAXIMUit ALLOWABLE LEANAGE RATE 0.900 ;

THE UFPER 955. EONFIDENCE LIMIT = 0.722 l THE CALCULATED LEALAGE RATE = 0.704 ;

y t f I t HATCH UNIT 2 ILRT l LEAKAGE RATE (WEIGHT PERCENT / DAY)

TOTAL-TIME ANALYSIS G TIME AND DATE AT START OF TES1: JJO 0303 ELAPSED TIME: 10.'75 HOURS TIME TEMP. FRESSURE MEASURED (R) (PSIA) LEAKAGE EATE 330 546.122 72.1931 345 546.250 -72.2040 0.815 f 400 546.384 72.2112 1.107 415 546.500 72.2193 1.059 [

430 546.613 72.2245 1.115 445 546.701 72.2311 1.027 ;

500 546.800 72.2371 1.011 515 546.E92 72.2426 0.994 I 530 546.996 72.2481 1.006 545 547.082 72.2526 0.995 600 547.164 72.2565 0.987 615 547.239 72.2621 0.949 630 547.321 72.2654 0.953 [

645 547.370 72.2701 0.899 700 547.467 72.2735 0.924 l l 715 547.514 72.2776 0.880 730 547.61'O 72.2813 0.900 {

745 547.675 72.2842 0.892 800 547.747 72.2880 0.884 O 815 830 547.801 547.870 72.2914 72.2938 0.863 0.865 I

845 547.945 72.2974 0.863 900 548.004 72.3008 0.850 915 548.062 72.3031 0.844 930 548.118 72.3063 0.832 i

945 548.173 72.3102 0.817 100'O 548.238 72.3117 0.821 1015 548.283 72.3144 0.807 l 1030 548.336 72.3172 0.798 1045 548.397 72.3193 0.798 1100 548.449 72.3220 0.789 l 1115 548.500 72.3246 0.781 l 1130 548.555 72.3270 0.777 1145 548.600 72.3282 0.772 1200 548.651 72.3311 0.764 1215 548.692 72.3337 0.753 1230 548.749 72.3349 0.756 1245 548.794 72.3361 0.752 1300 548.838 72.3380 0.746 1315 548.880 72.3393 0.741 1330 548.927 72.3409 0.738 ,

1345 548.971 ~72.3435 0.730 1400 544.007 72.3443 0.725 l 1415 549.U61 72.3462 0.724 i

MEAN OF MEASURED LEt4KnGE RATES = 0.063 l l

d i MAXIMUM ALLOWADLE LEAKAGE 11 ATE = 1.200 !

l 75 7. OF MAXIMUM ALLOWABLE LEAKAGE RATE = 0.000 l l THE UPI'ER 957. CONFIDENCE LIMIT = 0.797 i k THE CALCULATED LEAKAGE RATE = 0.696 (

a l 1 _ _ _ _ . _ _ - . . - _ . . . . _ _

f..

ILET.DAT HATCH UNIT 2 ILR1 VCL ^ 2284a6.00

] kM4X = 1.209

[Q VfiATET = 0.000 TII:E DATE V P. A T E.M =- 0.000 1 Fil'.P PRES 5URE VRATEP = 0.000 VPRD VC:_UTE 330 503 546.12i52 72.193133 0.45545334 225456.

345 503 546.24998 72.203964 0.45654657 2284S6.

400 503 546.38446 72.211227 0.45722711 2284G6.

415 503 546.50043 72.217299 v.45EO9987 2284E6.

430 503 546.61273 72.224503 0.45886075 228486.

445 503 546.70148 72.231148 0.45917797 228486.

500 503 546.79956 72.237091 0.46017921 228486.

515 503 546.89209 72.242599 0.46063712 228486.

530 503 546.99573 72.248093 0.46111235 228486.

545 503 547.08215 72.252647 0.46152198 228486.

600 503 547.16370 72.256508 0.46262860 22a486.

615 503 547.23853 72.262131 0.46297505 228486.

630 503 547.32056 72.265434 0.46364659 22?486.

645 503 547.37012 72.270103 U.46394098 22E486.

700 503 547.46710 72.273514 0.46451089 228486.

715 503 547.51392 72.277626 0.46536711 228486.

730 503 547.60999 72.281334 0.46563998 228486.

745 503 547.67487 72.284157 0.46679050 228486.

800 503 547.74707 72.287987 0.46693718 228486.

815 503 547.80072 72.291412 0.46748662 228486.

330 503 547.87018 72.293785 0.46809441 22848'6.

845 503 547.94513 72.297447 0.46840504 228486.

900 503 548.00403 72.300797 0.46902969 228486.

915 503 548.06201 72.303146 0.46966258 228486.

/~h 22848c.

0.47052729

(_) 930 503 945 503 540.11755 548.17291 72.306259 72.310181 0.47057733 22848n.

1000 503 548.23779 72 511684 0.47205111 228486.

1015 503 548.28284 72.314407 0.47231576 228486.

1030 503 548.33624 72.317230 0.47247368 228486.

1045 503 548.39728 72.319267 0.47342062 228486.

1100 503 548.44885 72.322014 0.47365400 228486.

1115 505 548.50012 72.324646 0.47399554 228486.

1L30 503 548.55536 72.327049 0.47457597 228486.

1195 503 548.60022 72.328239 0.47538075 228486.

1200 503 548.65076 72.331131 0.47547323 228486.

1215 503 548.69165 72.333733 0.47584826 2284S6.

1230 503 548.74908 72.334946 0.47662181 228486.

1245 503 548.79407 72.336098 0.47745478 228486.

1300 503 548.83801 72.338036 0.4.7750655 228486.

1315 503 548.88013 72.339325 0.47820151 228486.

1330 503 548.92743 72.340820 0.47869778 228486.

1345 503 54Ps ?)244 72.343536 0.47896397 228486.

1400 503 549.00708 72.344330 0.48015821 228486.

1415 503 549.06067 72.346237 0.48023975 228486.

i s

A ). ,.

i._ /

1 1 .

J i

i t

j . L l SUMMA'RY OF MEASURED DATA AT 315 0503 .

. TEMP 1'= $40.45001 ( 8078.)

l TEMP 2= 540.66003 '( 8099.) -

TEMP 3= 541.85004 ( 8218.)

! TEMP 4= 543.10004 ( 8343.)

TEMP 5= 543.13000 ( 8346.)

j TEMP 6= 550.79004 .( 9112.)- -

i. TEMP 7= 550.94000 ( 9127.)

l TEMP 8= '564.29999 (10463.)

1 TEMP 9= 565.09003 (10542.) 3. '

i ~

TEMP 10 = 538.82001 ( 7915.)

l~ TEMP 11 = 539.12000 ('7945.)

l TEMP 12 = 539.13000 ( 7946.)

j TEt1P 13 = 538.6100G ( 7094.)

l TEMP 14 = 539.12000 ( 794G.)

1

PRES 1= 72.623734 0 727GO.)

i VPRS 1= 0.40904689 ( 7353.)

VPRS 2= Q.40733657 ( 7342.) ,

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

3. , v.. _w

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

VPRS 4= 0.40973341 ( 73S8.)

VPRS 5= 0.el7245121 ( 7736.) ,

VPRS 6= 0.49040999 '( 7900.)

CTMT. FREE AIR VOL. = 228406. .

SUMMARY

OF CORRECTED DATA

\

TIME =- 315

- DATE = 0503 TEMPERATURE (DEGREES R.) = 545.89404 CORRECTED PRESEURE (PSIA)

= 72.169464 VAPOR PRESSURE (PSIA) = 0.45427054 CTMT. AIR MASS (LBM) = 81533.

O e

9

IliMP 2= U40.0/900 ( U120.)

'l l MP 7 .,

542.10'>94 ( D24.: .. i lEMP 4 = G4.'.~3OO2 ( f C.66. )

TEMP 5= 543.38000 ( 8371.)

TEMP 6 = L51.17004 ( 9100.>

TEMP 7= L51.29004 ( 9162.)

TEMP 8- = 564.75000 (1.0S08.)

TEMP 9= 565.54999 ( 10D!i3. ) .

IEMP to = 53.8.37000 ( 7920.)

lEMP 11 = S3'? . 22OO 3 ( 7955.)

ICt1P 12 x J39.20001 ( 79:/?. . )

TEMP 13 = G33.SnOv! ( 7S99.)

lEMP 14 = 539.19000 ( 1932.)

PHES 1 = /2.640592 ( 72005.)

VPRS 1 = 0.41000798 ( 7360.)

VFRS 2 =- O.40918422 ( 7354.)

VPRS 3= 0.45274431 .( 7657.)

VPRS 4 = 0.41033104 ( 7366.)

VPRS U= 0.47337636 ( 7792.)

VPRS 6= 0.49179721 ( 7908.)

CTMT. FREE AIR VOL. = 2284R6.

SUMMARY

OF COTsRECTED DATA TIME = 330 DA1E = 0303 TEMPERATURE (DEOREES R.) = 546.12152 CORRECTED PRESSL!RE (PSIA) = 72.193130 VAPOR PRESSURE (PSIA > =. O.45ba5334 CTMT. AIR MASS (LBM) = G1526.

l l

i S

SUMMARY

OF MEASURED DATA AT 345 0503 TEMP 1 = 540.79999 ( 8113.)

( Q133.)

9

TEMP TEMP TEMP 2 m' 3=

4 -

541.00000 542.23999 543.46002

( O257.)

( G379.)

TEMP 5= 543.48999 ( B302.)

Th:1P 6 bbi.1100J. ( 917~./

TEl1P 7 = 551.53003 ( 9186.)

iEMP O= 565.090u3 (10542.>

TE!1P 9 = 565.83002 (10616.)

'lEMP 18.a

= b3d.HLevu ( 7921.)

TEMP 11 = 539.26001 ( 7959.)

539.22003 ( 7735.,

TEMP 12 =

TEMP 13 = 538.64001 ( 7897.)

TEMP 14 = 539.21002 (.7954.)

PRES 1 = 72.660507 ( 72817.)

VPRS 1 = 0.41316593 ( 7393.)

VPRS 2= 0.41033)84 ( 7366.)

VPRS 3= 0.45454314 ( 766Y.)

VPRS 4 = 0.41344047 ( 7305.)

VPRS 5= 0.47414741 ( 7797.)

VPRS 6= 0.49147049 ( 7906.)

CTMT. FREE AIR VOL. = 228486.

StJMMARY OF CORRECTED DATA TIME = 345 DATE = 0503 TEMPERATURE (DEGREES R.)

= 546.24988 CORRECTED PRESSURE (PSIA)

= .72.203964 VAPOR PliESSURE (PSIA)

= 0.45654657 CTMr. AIR MASS (LBM) = 81519.

4 O

fdfhMhRY OF MEASURE!) DATA AT 400 0G03 TEMP 1 -- 540.90002 ( 9123.)

TEMP 2 511.12000 ( Ol=!b.)

1EMP 3= 512.J0004 ( 8268.)

TEMP 4 --

G 4 3. L'/UO3 ( 8J.92.)

TEMP G == 543.59002 ( 0391.)

TLHP o bb l . 6 /'/9'/ ( 9201.)

i T i._ N P 7 S'3 ! . 7/ 09 ! ( c/ 20'/. )

TCHP H - M63.4190.3 ( 1 O'1/ 4. )

i El:P Y =

506.26v01 (10SL9.)

lEMP 10 = G33.09001 ( 7922.)

TEMP *! -

DJ9.27002 ( !960.)

IEMP 12 = 539.23004 ( 7956.)

TEMP 13 = 538.65002 ( 7898.)

TEMP 14 = 539.21002 ( 7954.)

PRES 1 = 72.668457 "( 72825.)

VPRS 1 = 0.41440156 ( 7392.)

VPRS 2u O.41206750 ( 7375.)

VPRS 3= 0.4564r?l80 ( 7682.)

VPRS 4 = 0.41302060 ( 7302.)

VPRS 5= 0.47603914 ( 7809.)

VPRS 6= 0.49114361 ( 7904.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME n 400 DATE = 0503 TEMPERATURE (DEGREES R.) = 546.38446 CORRECTED PRESSURE (PSIA) = 72.211227 VAPOR PRESSURE (PSIA) = 0.45722708 CTMT. AIR MASS (LEM) = 81507.

9

SUMMARY

OF 11EASURED DnTh AT 415 0503 TEMP 1 = 540.98999 ( 8132.)

ps TEMP 2= 541.1Y000 ( 8152.)

} TEMP 3= 542.45001 ( 8278.)

'- TEMP 4 = 543.67004 ( 8400.)

TEMP 5= 543.70001 ( 8403.)

TEMP 6= 551.91003 ( 9224.) .

TEMP 7= 551.98004 ( 9231.)

TEMP 8= 565.81000 (10614.)

TEMP 9= 566.57001 (10690.)

, TEMP 10 = 538.86005 ( 7919.)

TEMP 11 = 539.27002 ( 7960.)

TEMP 12 = 539.22003 ( 7955.)

TEt1P 13 = 538.66003 ( 7899.)

TEMP 14 = 539.19000 ( 7952.)

PRES 1 = 72.677399 ( 72034.)

VPRS 1 = 0.41634846 ( 7406.)

VPRS 2= 0.41261670 ( 7379.)

VPRS 3= 0.45799080 ( 7692.)

VPRS 4= 0.41508812 ( 7397.)

VPRS 5= 0.47699201 ( 7815.)

VPRS 6= 0.49114361 ( 7904.)

CTNT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA

.x 7

s._/ TIME = 415 DATE = 0503 e

TEMPERATURE (DEGREES R.) = 546.50043 CORRECTED PRESSURE (PSIA) = 72.219299 VAPOR PRESSURE (PSIA) = 0.45809987 CTMT. AIR MASS (LBM) = 81499.

'/ \ $

-] e t

f

Gi1MMARY OF flE65URED DA16 AT 430 0503 lEMP 1 =

Dell.06000 ( S139.)

TEMP 2= 541.29'/99 ( 8163.)

T Ef1P 3= 542.54004 ( R207.)

TEMP 4 = G43.73003 ( 0411.)

TEMP 5= 543.78005 ( 0411.)

TEMP 6= 552.12000 ( 9245.)

IEMP 7= 552.17999 ( 9251.)

TEMP G' 566. OfiOO2 (10641.)

TEMP 9= 566.97003 (10730.)

TEMP 10 = D30.87000 ( 7920.)

TEMP 11 = D39.25000 ( 7958.)

TEMP 12 = G39.22003 ( 7955.)

TEMP 13 = 538.65002 ( 7898.)

TEMP 14 = 539.19000 ( 7952.)

PRES 1 =

72.683365 ( 72840.)

VPRS 1 = 0.41705540 ( 7411.)

VPRS 2= 0.41606560 ( 7404.)

VPRS 3= 0.4D965260 ( 7703.)

VPRS 4= 0.41522545 ( 7398.)

VPRS 5= 0.47770594 ( 7820.)

VPRS 6= 0.49098018 ( 7903.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 430 DATE = 0503 TEMPERAluRE (DEGREES R.) = 546.61273 t

CORRECTED PRESSURE (PSIA) = 72.224503 VAPOR PRESSURE (PSIA) = 0.45S06073 CTMT. AIR MASS (LBM) = 81480.

~

9

SilMH(iRY OF MEAGURE.D D/iTA AT 415 0503 TEMP 1 = G41.16003 ( 8149.)

. TEMP 2a U41.37000 ( U170.)

/7 TEMP 3= G42.62000 (.0295.)

(,/ TEf1P 4' G43.U6000 ( 0419.) .

TEt1P 5= 543.09001 ( 8122.)

IliMP 6 = S32.3JOO2 ( Y266.)

TEMP 7= 352.30000 ( 9271.)

TEMP 8= 566.27002 (10660.)

TEMP 9= 567.23004 (10756.)

TEMP 10 = 338.84003 ( 7917.)

TEMP 11 a 539.23999 ( 7957.)

TEMP 12 = 539.20001 ( 7953.)

TEMP 13 = 538.66003 ( 7899.)

~ TEMP 14 = 539.1700~, 7950.)

PRES 1 =

72.690323 k72647.)

VPRS 1 = 0.41790375 ( 7417.)

VPRS 2= 0.41564143 ( 7401.)

VPRS 3' O.46003621 ( 7711.)

VPRS 4= 0.41663122 ( 7400.) *

, VFRS 5= 0.47058000 ( 792D.)

VPRS 6= 0.49043999 ( 7900.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA rN I ) TIME = 445 DATE = 0503 TEHFERATURE (DEGREES R.) = 546.70148 CORRECTED PRESSURE (PSIA) = 72.231148 VAPOR PRESSURE (PS I fi) = 0.45917797 CTMT. AIR MASS (LBM) = G1482.

~

,e 5

. - V

+ .s

.; ,1

, _ .m _ . :_ ;. & wor.---- --_.____:.e=== __ ==~.<-m+m - ~

9

~

GOO OGO3 SUMH(iRY OF Mk(diUkED Dril(i AT TEMP 1 = 541.22003 ( Ei153 )

TEMP 2o 541.46002 ( B179.)

TEMP 3= 542.71002 ( 0304.)

TEMP 4a 543.94000 ( G427.)

IEMP Ua 543.97003 ( 0430.)

TEMP 6 +- 552.54004 ( 9207.)

TEt1P 7= G52.G0002 ( 9291.)

TEMP O= 566.57001 (10690.)

TEMP 9= 567.51001 (10704.)

( 7917.)

lEMP 10 = 530.04003 TEMP 11 = 539.23004 ( 7956.)

( 7953.)

TEMP 12 = 539.20001 TEMP 13 = *S38.64001 ( 7897.)

TEMP 14 = 539.16003 ,

( 7949.)

FRES 1 = 72.697273 ( 72054.)

VPRS 1 = 0.42016622 ( 7433.)

VPRS 2= 0.41606560 ( 7404.)

3= 0.46242818 ( 7721.)

VPRS VPRS 4 = 0.81804519 ( 7418.)

VPRS 5= 0.48016/98 ( 7835.)

VPRS 6= 0.49065343 ( 7901.)

CTMT. FREE AIR VOL.

= 228406.

SUMMARY

OF CORRECTED DATA TIME = 500 DATE = 0G03 TEMPERATURE (DEGREES R.)

= 546.799C6 CORRECTED PRESSURE (PSIA)

= 72.237091 VAPOR PRESSURE (PSIA)

= 0.46017921

= G1474.

C1MT. AIR MASS (LDM)

O

Su!1 MARY OF 11EASUREO DA FA AT S15 0503 TEMP 1 = '541.32001 ( 8165.)

[~'; ' TEMP 2= 541.53003 ( G106.)

(m,/ TEMP 3= 542.70003 ( '0311.) ,

TEMP 4= 544.05005 ( G438.)

TEMP S= 544.00002 ( 0441.)

TEMP 6= 552.75000 ( 9300.)

TEMP 7= 552.77002 ( 9310.)

TEMP 8= 566.85004 (10710.)

TEMP 9= 567.76001 (10809.)

TEMP 10 = 538.01000 ( 7914.)

TEMP 11 = 539.21002 ( 7954.)

TEMP 12 = 539.17999 ( 7951.)

TEMP 13 = 538.58002 ( 7891.)

TEMP 14 = 539.14001 (,7947.)

PRES 1 = 72.703239 ( 72860.)

VPRS 1 = 0.42129743 ( 7441.) ,

VPRS 2= 0.41691396 ( 7410.)

VPRS 3= 0.46350759 ( 7728.)

VPRS 4= 0.41846937 ( 7421.)

VPRS 5= 0.40080319 ( 7839.)

VPRS 6= 0.49048999 ( 7900.)

CTMT. FREE AIR VOL. = 2284S6-

SUMMARY

OF CORRECTED DATA O' TIME = 515 DATE = 0503 TEMPERATURE (DEGREES R.) = 546.89209 CORRECTED PRESSURE (PSIA) = 72.242599 VAPOR PRESSURE (PSIA) = 0.46063712 CTMT. AIR MASS (LBM) = 81467.

[\ #

\

4

SUMMARY

'OF MEASURED DATA AT 530 0D03 TEMP 1 = 541.40002 ( C173.) '

TEMP 2= 541.6100G ( B194.)

TEMP 3= 542.86005 ( 9319.)

TEMP 4 = 544.16003 ( 8449.)

TEMP 5= 544.17004 ( 5450.)

TEMP 6= 552.95001 ( 7328.)

TEMP 7= 552.97003 ( 9330.)

TEMP 8= 567.10004 (10743.)

TEMP 9= 568.08002 (10841.)

TEMP 10 = 538.82001 ( 7915.)

TEMP 11 = 539.19000 ( 7952.)

TEMP 12 = 539.16003 ( 7949.)

TEMP 13 = 538.61005 ( 7894.)

TEMP 14 = 539.13000 ( 7946.)

PRES 1= 72.709206 ( 72866.)

VPRS 1 = 0.42143875 ( 7442.)

VPRS 2= 0.41818663 ( 7419.)

VPRS 3= 0.46474123 ( 7736.)

VPRS 4= 0.41903499 ( 7425.)

i VPRS 5= 0.48143840 ( 7843.)

VPRS 6= 0.49048999 ( 7900.)

CTNT. FREE AIR VOL. = 228486.

8

SUMMARY

OF CORRECTED DATA i

( TIME = 330

' DATE = 0503 l TEMPERATURE (DEGREES R.) = 546.99573 CCRRECTED PRESSURE (PSIA) = 72.248093 VAPOR PRESSURE (PSIA) = 0.46111235 CTMT. AIR MASS (LBM) = 81457.

1 O

l e ww *-

A r_

M MM W ee *

SUMMARY

OF MEASURED DATA AT 545 0003

' 541.46002 ( 8179.)

TEMP 1 =

I TEMP 2= 541.65002 ( 8190.)

' {' TEMP 3= 542.96002 ( S329.)

l

1EMP 4= 544.23799 ( 8457.)

! TEMP 5= 544.28003 ( 8461.)

TEMP 6= 553.13000 ( 9346.)

TEMP 7= 553.16003 ( 9349.)

TEMP 8= .567.33002 (10766.)

TEMP 9= 568.33002 (10866.)

TEMP 10 = 538.81000 ( 7914.) l TE,MP 11 = 539.20001 ( 7953.)

TFIMP 12 = 539.14001 ( 7947.)

TEMP 13 = 535.59003 ( 7892.)

TEMP 14 = 539.11005 ( 7944.)

PRES 1= 72.714172 ( 72871.)

VPRS 1 = 0.42214581 ( 7447.)

VPRS 2= 0.41917643 ( 7426.)

VPRS 3= 0.46597484 ( 7744.)

VPRS 4= 0.42044896 ( 7435.)

VPRS 5= 0.48223245 ( 7S48.)

VPRS 6= 0.48985478 ( 7896.)

CTMT. FREE AIR VOL. = 228486.

I

SU'1 MARY OF CORRECTED DATA 4 ,

TIME = 545 DATE = 0503 TEMPERATURE (DEGREES R.) = 547.08215 CORRECTED PRESSURE (PSIA) = 72.252647 VAPOR PRESSURE (PSIA) = 0.46152198 CTMT. AIR MASS (LBM) = 81450.

I

?,

e

- - , - - - w- , ., , , - - , - - - - --

O

SUMMARY

OF MEASURED DATA AT 600 0503 TEMP 1 = 541.54004 ( 8187.)

TEMP 2= 541.73004 ( 8206.)

TEMP 3= 543.05005 ( 8338.)

TEMP 4= 544.32001 ( 8465.)

TEMP 5= 544.36005 ( 8469.)

TEMP 6= 553.33002 ( 9366.)

TEMP 7= 553.33002 ( 9366.)

TEMP 8= 567.54999 (10788.)

TEMP 9= 568.56000 (10089.)

TEMP 10 = 538.78003 ( 7911.)

TEMP 11 = 539.17004 ( 7950.)

TEMP 12 = 539.14001 ( 7947.)

TEMP 13 = 538.56000 ( 7889.)

TEMP 14 = 539.11005 ( 7944.)

PRES 1 = 72.719139 ( 72876.)

u - - - . ..

7 - - . , . .-

r, - - -

y-

.r e d[Ezo/d ( /4x_,) --

VPRS 3= 0.467'36253 ( 7753.)

VPRS 4= 0.42115602 ( 7440.) "

VPRS 5= 0.48366159 ( 7857.)

VPRS 6= 0.49033129 ( 7899,)

CTMT. FREE AIR VOL. = 228486.

SUt! MARY OF CORRECTED DATA TIME = 600 DATE = 0503 l TEMPERATURE (DEGREES R.) =

547.16370 l CORRECTED PRESSURE (PSIA) = 72.256508 VAPOR PRESSURE' (PSIA) = 0.46262060 CTMT. AIR MASS (LBM)

~

= 81442.

O b

4 A* '~

O

SUMMARY

OF MEASURED DATA AT 615 0503 ,

541.62000 ( 8195.)

) TEMP 1 =

( 8215.)

TEMP 2= 541.02001 TEMP 3= 543.13000 ( 8346.)

TEMP 4= 544.41003 ( G474.)

TEMP 5= 544.44000 ( 8477.)

TEMP 6= 553.47003 ( 9380.)

TEMP 7= 553.50000 ( 9383.)

TEMP 8= 567.73004 (10806.)

TEMP 9= 568.79004 (10912.)

TEMP 10 = 538.76001 ( 7909.)

TEMP 11 = 539.15002 ( 7948.)

TEMP 12 = 539.11005 ( 7944.)

TEMP 13 = 538.54999 ( 7888.)

TEMP 14 = 539.08002 ( 7941.)

PRES 1 = 72.725105 ( 72882.)

VPRS 1 = 0.42398396 ( 7460.)

VPRS 2= 0.42143875 ( 7442.)

VPRS 3= 0.46875045 ( 7762.)

VPRS 4= 0.42228723 ( 7448.)

VPRS 5= 0.48445565 ( 7862.)

VPRS 6= 0.49001360 ( 7897.)

' CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 615 DATE = 0503 TEMPERATURE (DEGREES R.)

= 547.23853 CORRECTED PRESSURE (PSIA)

= 72.262131 VAPOR PRESSURE (PSIA) = 0.46297505 CTMT. AIR MASS (LBM) = B1437.

tl O

v

-~m.

SUMMARY

OF MEASURED DATA AT 630 0503 TEMP 1 = 541.67004 ( 8200.)

TEMP 2= 541.89001 ( S222.)

TEMP 3= 543.21002 ( 8354.)

TEMP 4= 544.47003 ( 84G0.)

TEMP 5= 544.51001 ( 84G4.)

TEMP 6= 553.67004 ( 9400.)

TEMP 7= 553.67004 ( 9400.)

TEMP 8= 568.00000 (10833.)

TEMP 9= 568.96002 (10929.)

TEMP 10 = 538.76001 ( 7909.)

TEMP 11 = 539.16003 ( 7949.)

TEMP 12 = 539.10004 ( 7943.)

TEMP 13 = 538.57001 ( 7890.)

TEMP 14 = 539.07001 ( 7940.)

PRES 1 = 72.729080 ( 72886.)

VPRS 1 = 0.42638776 ( 7477.)

VPRS 2= 0.42285275 ( 7452.)

VPRS 3= 0.46982983 ( 7769.)

VPRS 4= 0.42412540 ( 7461.)

VPRS 5= 0.48509085 ( 7866.)

VPRS 6= 0.48937839 ( 7893.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 630 DATE = 0503 ,

TEMPERATURE (DEGREES R.) = 547.32056 CORRECTED PRESSURE (PSIA) = 72.265434 VAPOR PRESSURE (PSIA) = 0.46364656 CTMT. AIR MASS (LBM) = 81429.

41>

, x

SUMMARY

OF MEASURED DA1A AT 645 0503

( )

541.71002 ( 8204.)

TEMP 1 =

TEMP 2= 541.91003 ( G224.)

TEMP 3= 543.26001 ( 8359.)

TEMP 4= 544.52002 ( 84GS.)

TEMP 5= 544.56000 ( 8489.)

TEMP 6= 553.80005 ( 9413.)

TEMP 7 =. 553.84003 ( 9417.)

TEMP 8= 568.06000 (10839.)

TEMP 9= 569.17004 (10950.)

TEMP 10 = 538.73004 ( 7906.)

TEMP 11 = 539.13000 ( 7946.)

TEMP 12 = 539.09003 ( 7942.)

TEMP 13 = 538.56000 ( 7889.)

TEMP 14 = 539.07001 ( 7940.)

PRES 1 = 72.734047 ( 72891.)

VPRS 1 = 0.42667061 ( 7479.)

VPRS 2= 0.42228723 ( 7448.)

VPRS 3= 0.47121757 ( 7778.)

VPRS 4= 0.42539796 ( 7470.)

VPRS 5= 0.48620245 ( 7873.)

VPRS 6= 0.48890200 ( 7890.)

l CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 645 DATE = 0503 TEMPERATURE (DEGREES R.) = 547.37012 CORRECTED PRESSURE (PSIA) = 72.270103 VAPOR PRESSURE (PSIA) = 0.46394095 CTMT. AIR MASS (LBM) = 81426.

7- s. >

w.,

___ w -_.-e-

SUMMARY

OF MEASURED DATA AT 700 0503 TEMP 1 = 541.80005 ( S213.)

TEMP 2= 542.02002 ( O235.)

TEMP 3= 543.37000 ( 8370.)

TEMP 4= 544.65002 ( 8498.)

TEMP 5= 544.67004 ( 8500.)

TEMP 6= 554.01001 ( 9434.)

TEMP 7= 554.02002 ( 9435.)

TEMP 8= 568.29999 (10863.)

TEMP 9= 569.37000 (10970.)

TEMP 10 = 538.75000 ( 7908.)

TEMP 11 = 539.14001 ( 7947.)

TEMP 12 = 539.07001 ( 7940.)

TEMP 13 = 538.53003 ( 7886.)

TEMP 14 = 539.04999 ( 7938.)

PRES 1 = 72.738022 ( 72895.)

VPRS 1 = 0.42780185 ( 7487.)

$ VPRS 2= 0.42412540 ( 7461.)

VPRS 3= 0.47245121 ( 7786.)

VPRS 4= 0.42539796 ( 7470.)

VPRS 5= 0.48636129 ( 7874.)

VPRS 6= 0.48906085 ( 7891.)

CTMT. FREE I.IR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 700

.DATE = 0503 TEMPERATURE (DEGREES R.) = 547.46710 CORRECTED PRESSURE (PSIA) = 72.273514 VAPOR PRESSURE (PSIA) = 0.46451089 CTMT. AIR MASS (LBM) = 81416.

i (Il m - - - - m. _

i -

I k.

O

SUMMARY

OF MEASURED DATA AT 715 0503 TEMP 1 = 541.82001 ( 8215.)

TEMP 2= 542.01001 ( 8234.)

TEMP 3= 543.44000 ( 8377.)

TEMP 4= 544.67999 ( 8501.)

. TEMP 5= 544.71002 ( 8504.)

TEMP 6= 554.12000 ( 9445.)

TEMP 7= 554.14001 ( 9447.)-

TEMP 8 =- 568.42999 (10876.)

TEMP 9= 569.57001 (10990.)

. TEMP 10 = 538.72003 ( 7905.)

TEMP 11 = 539.12000 ( 7945.)

TEMP 12.= 539.04999 ( 7938.)

TEMP 13 = 538.54004 ( 7887.)

TEMP 14 = 539.04999 ( 7938.)

PRES 1 =

72.742996 ( 72900.)

VPRS 1 = 0.42836744 ( 7491.) -

VPRS 2= 0.42511520 ( 7468.)

VPRS 3= 0.47353062 *( 7793.)

VPRS 4= 0.42652917 ( 7478.)

VPF.S 5= 0.48842564 ( 7887.)

VPRS 6= 0.48921958 ( 7892.)

CTNT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 715 DATE = 0503 TEMPERATURE (DEGREES R.) = 547.51385 -

CORRECTED PRESSURE (PSIA) = 72.277626 VAPOR PRESSURE (PSIA) = 0.46536711 CTMT. AIR MASS (LBM) = 81414.

6 0

O

SUMMARY

OF MEASURED DATA AT 730 0503 TEMP 1 = 541.92999 ( 8226.)

TEMP 2= 542.14001 ( 8247.)

i TEMP 3= 543.56000 ( 8389.)

TEMP 4= 544.81000 ( 8514.)

l TEMP 5= 544.81000 ( 8514.)

l TEMP 6= 554.28003 ( 9461.)

TEMP 7= 554.35004 ( 9468.)

TEMP 8= 568.64001 (10897.)

TEMP 5= 569.77002 (11010.)

TEMP 10 = 538.73004 ( 7906.)

l TEMP 11 = 539.11005 ( 7944.)

TEMP 12 = 539.04004 ( 7937.)

TEMP 13 = 538.53003 ( 7886.)

TEMP 14 = 539.04999 ( 7938.)

PRES 1 = 72.746971 ( 72904.)

VPRS 1 = 0.42964000 ( 7500.)

VPRS 2= 0.42610499 ( 7475.)

VPRS 3= 0.47508639 ( 7803.)

VPRS 4= 0.42681202 ( 7480.)

VPRS 5= 0.48794913 ( 7884.)

VPRS 6= 0.48890200 ( 7890.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 730 DATE = 0503 TEMPERATURE (D$GREES R.) = 547.60999 CORRECTED PRESSURE (PSIA) = 72.281334 VAPOR PRESSURE (PSIA) = 0.46563995 CTMT. AIR MASS (LBM) = 81403.

~,

- O

l

, ;O

SUMMARY

OF MEASURED DATA AT 745 0503 TEMP 1 = 541.98999 ( 8232.)

,! TEMP 2= 542.20001 ( 8253.)

TEMP 3= 543.63000 ( 8396.)

TEMP 4= 544.89001 ( 8522.)

TEMP 5= 544.89001 ( 8522.)

l TEMP 6= 554.46002 ( 9479.)

! TEMP- 7= 554.50000 ( 9483.)

TEMP 8= 568.81000 (10914.)

TEMP 9= -569.89001 (11022.)

TEMP 10 = S38.73004 ( 7906.)

TEMP 11 = 539.10004 ( 7943.)

TEMP 12 = 539.03003 ( 7936.)

TEMP 13 = 538.51001 ( 7884.)

TEMP 14 = 539.03003 ( 7936.)

PRES 1 = 72.750946 ( 72908.)

VPRS 1 = 0.43109599 ( 7510.)

VPRS 2= 0.42723623 ( 7483.)

VPRS 3= 0.47651565 ( 7812.)

VPRS 4= 0.42907438 ( 7496.)

VPRS 5= 0.48937839 .( 78'/3. )

VPRS 6= 0.48937839 ( 7893.)

G[~N CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 745 DATE = 0503 TEMPERATURE (DEGREES R.) = 547.67487 CORRECTED PRESSURE (PSIA) = 72.284157 VAPOR PRESSURE (PSIA) = 0.46679050 ,

CTMT. AIR MASS (LBM) = 81397.

l I

4 i

!O i

"---'--m. . .~ . . . . _ ,

l l

lL l

8

SUMMARY

OF MEASURED DATA AT 800 0503 l TEMP 1 = 542.03003 ( 8236.)

TEMP 2= 542.26001 ( 8259.)

TEMP 3= 543.67999

( 8401.)

TEMP 4= 544.97003 ( 8530.)

TEMP 5= 544.96002 ( 8529.)

TEMP 6= 554.58002 ( 9491.)

TEMP 7= 554.66003 ( 9499.)

TEMP 8= 568.96002 (10929.)

TEMP 9= 570.11005 (11044.)

TEMP 10 = 538.76001 ( 7909.)

TEMP 11 = 539.10004 ( 7943.)

TEMP 12 = 539.02002 ( 7935.)

TEMP 13 = 538.51001 ( 7884.)

TEMP 14 = 539.03003 ( 7936.)

PRES 1 = 72.754921 ( 72912.)

VPRS 1 = 0.43226081 ( 7518.)

VPRS 2= 0.42794317 ( 7488.)

VPRS 3= 0.47794479 ( 7821.)

' V P.~< S 4= 0.42978564 ( 7501.)

I VPRS 5= 0.49017245 ( 7898.)

l VPRS 6= 0.48810798 ( 7885.)

CTl1T. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA .

TIME = 800 DATE = 0503 TEMPERATURE (DEGREES R.) = 547.74707 CORREUTED PRESSURE (PSIA) = 72.287987 VAPOR PRESSURE (PSIA) = 0.46693715 CTMT. AIR MASS (LBM) = 81391.

l l

- _ _ - _ - _ - - - - _ - - - - - - 1

/x

( )

SUMMARY

OF MEASURED DATA AT 815 0503 TEMP 1= 542.10004 ( 8243.)

TEMP 2= 542.32001 ( 8265.)

TEMP 3= 543.75000 ( 8408.)

TEMP 4 == 545.03003 ( 8536.)

TEMP 5= 545.01001 ( 8534.)

TEMP 6= 554.72003 ( 9505.)

TEMP 7= 554.81000 ( 9514.)

TEMP 8= 569.04999 (10938.)

TEMP 9= 570.23004 (11056.)

TEMP 10 = G39.75000 ( 7908.)

TEMP 11 = 539.09003 ( 7942.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.53003 ( 7886.)

TEMP 14 = 539.03003 ( 7936.)

PRES 1 = 72.758896 ( 72916.)

VPRS 1= 0.43167838 ( 7514.)

VPRS 2= 0.42808458 ( 7489.)

VPRS 3= 0.47873884 ( 7826.)

VPRS 4= 0.43007678 .( 7503.)

- VPRS 5= 0.49033129 ( 7899.)

l VPRS 6= 0.48937839 ( 7893.)

~.a )

CTMT. FREE AIR VOL. = 228486.

6

SUMMARY

OF CORRECTED DATA TIME = 815 DATE = 0503 TEMPERATURE (DEGREES R.)

= 547.80072 CORRECTED PRESSURE (PSIA)

= 72.291412 VAPOR PRESSURE (PSIA) = 0.46748662 CTMT. AIR MASS (LBM) = 81386.

4 O

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

SUMMARY

OF MEASURED DATA AT 830 0503 TEMP 1 = 542.17004 ( 8250.)

TEMP 2= 542.35004 ( 8268.)

TEMP 3= 543.82001 ( 8415.)

TEMP 4= 545.09003 ( 8542.) -

l TEMP 5.= 545.07001 ( 8540.)

TEMP 6= 554.85004 ( 9518.)

. TEMP 7= 554.97003 ( 9530.)

! TEMP 8= 569.270C? (10960.)

j TEMP 9= 570.35004 (11068.)

TEMP 10 = 538.78003 ( 7911.)

TEMP 11 = 539.10004 ( 7943.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.54004 ( 7887.) .

TEMP 14 = 539.03003 ( 7936.)

PRES 1 = 72.761879 ( 72919.)

VPRS 1 = 0.43327999 ( 7525.)

VPRS 2= 0.42964000 ( 7500.)

VPRS 3= 0.47969159 ( 7832.)

l VPRS 4= 0.43065920 ( 7507.)

VPRS 5= 0.49163377 ( 7907.) -

l VPRS 6= 0.48890200 ( 7890.) h l

CTMT. FREE AIR VOL. = 228486.

I

SUMMARY

OF CORRECTED DATA

~

TIME = 830

, DATE = 0503 l

TEMPERATURE (DEGREES R.) = 547.87018 l

CORRECTED PRESSURE (PSIA) = 72.293785 VAPOR PRESSURE (PSIA; = 0.46809441 CTMT. AIR MASS (LBM) = 81379.

lll

I

'I dl>

I l

(~ .

N.

SUMMARY

OF MEASURED DATA AT 845 0503 TEMP 1 = 542.20001 ( 8253.)

TEMP 2= 542.40002 ( 8273.)

TEMP 3= 543.88000 ( 8421.)

TEMP 4= 545.17004 ( 8550.)

TEMP 5= 545.16003 ( 8549.)

TEMP 6= 554.98999 ( 9532.)

TEMP 7= 555.12000 ( 9545.)

TEMP 8= 569.42004 (10975.)

TEMP 9= 770.58002 (11091.)

TEMP 10 = 538.79004 ( 7912.)

f 539.08002 ( 7941.)

i TEMP 11 =

I TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.57001 ( 7890.)

j TEMP 14 = 539.03003 ( 7936.)

f t

i PRES 1= 72.765854 ( 72923.)

VPRS 1 = 0.43386242 ( 7529.)

VPRS 2= 0.43007678 ( 7503.)

VPRS 3= 0.48080319 ( 7839.)

< VPRS 4= 0.43290885 .( 7573.)

fs ( 7910.)

> i VPRS 5= 0.49212396

'~' VPRS 6= 0.48810798 ( 7885.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 845 DATE = 0503 TEMPERATURE (DEGREES R.) = 547.94513 CORRECTED PRESSURE (PSIA) = 72.297447 VAPOR PRESSURE (PSIA) = 0.46840504 CTMT. AIR MASS (LBM) = 81372.

O .

SUMMARY

OF MEASURED DATA AT 900 0503 9

TEMP 1 = 542.25000 ( 8258.)

TEMP 2= 542.45001 ( 8278.)

TEf1P 3= 543.92999 ( 8426.)

TEMP 4= 545.23004 ( 8556.) .

TEMP 5= 545.23999 ( 8557.)

TEMP 6= 555.13000 ( 9546.)

TEMP 7= 555.26001 ( 9559.)

TEMP 8= 569.57001 (10990.)

TEMP 9= 570.71002 (11104.)

TEMP 10 = 538.76001 ( 7909.)

TEMP 11 = 539.07001 ( 7940.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.56000 ( 7889.)

TEMP 14 = 539.04004 ( 7937.)

PRES 1 = 72.769829 ( 72927.)

VPRS 1 = 0.43444481 ( 7533.)

VPRS 2= 0.43109599 ( 7510.)

VPRS 3= 0.48255000 ( 7850.)

VPPS 4= 0.43386242 ( 7529.)

VPRS 5= 0.49294102 ( 7915.)

VPRS 6= 0.48810798 ( 7885.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 900 DATE = 0503 i TEMPERATURE (DEGREES R.) = 548.00403 CORRELTED PRESSURE (PSIA) = 72.300797 l

VAPOR PRESSURE (PSIA) = 0.46902969 CTMT. AIR MASS (LBM) = 81367.

e I

l i

t

I v 915 0603 CUMMARY OF MEASURED DnFA AT TEMP 1 = 542.31000 ( S264.)

TEMP 2= 542.52002 ( G285.) -

TEMP 3= 544.02002 ( 8435.)

TEMP 4= 545.28003 ( 8561.)

TEMP 5 .= 545.32001 ( 8565.)

TEMP 6= 555.28003 ( 9561.)

TEMP 7= 555.39001 ( 9572.)

TEMP 8= 569.71002 (11004.)

TEMP 9= 570.78003 (11111.)

TEMP 10 = 538.78003 ( 7911.)

TEMP 11 = 539.07001 ( 7940.)

TEMP 12 = 538.98999 ( 7932.)

TEMP 13 = 538.57001- ( 7890.) .

TEMP 14 = 539.03003 ( 7936.)*

PRES 1 = 72.772912 ( 72930.)

l 1 = 0.43590081 ( 7543.)

VPRS l

' VPRS 2= 0.43153277 ( 7513.)

VPRS 3= 0.48382044 ( 7858.)

VPRS 4= 0.43313447 ( 7524.)

VPRS 5= 0.49392137 ( 7921.)

VPRS 6= 0.48858434 ( 7888.) -

CTNT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA' .

TIME = 915 DATE = 0503 TEMPERATURE (DEGREES R.)

= 548.06201 CORRECTED PRESSURE (PSIA)

= 72.303146 VAPOR PRESSURE (PSIA) = 0.46966252 l

CTNT. AIR MASS (LBM) = 81361.

i U

i

O

SUMMARY

OF MEASURED DATA AT 930 0503 TEMP 1 = 542.35004 ( 8268.)

TEMP 2= 542.54004 ( 8287.)

TEMP 3= 544.10004 ( 8443.)

TEMP 4= 545.34003 ( 8567.)

TEMP 5= 545.36005 ( 8569.)

TEMP 6= 555.39001 ( 9572.)

TEMP 7= 555.55005 ( 9588.)

TEMP 8= 569.81000 (11014.)

TEMP 9= 570.97003 (11130.)

TEMP 10 = 538.76001 ( 7909.)

TEMP 11 = 539.06000 ( 7939.)

TEMP 1Q = 539.00000 ( 7933.)

TEMP 13 = 538.58002 ( 7891.)

TEMP.14 = 539.03003 ( 7936.)

PRES 1 = 72.776787 ( 7.?934.)

VPRS 1 = 0.43648323 ( 7547.)

VPRS 2= 0.43313447 ( 7524.)

VPRS 3= 0.48477319 ( 7864.)

VPRS 4= 0.43604645 ( 7544.)

VPRS 5= 0.49457499 ( 7926.)

VPRS 6= 0.48874319 ( 7889.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 930 DATE = 0503 TEMPERATURE (DEGREES R.) = 548.11755 CORRECTED PRESSURE (PSIA) = 72.306259

- VAPOR PRESSURE (PSIA) = 0.47052729 CTMT. AIR MASS (LBM) = 81356.

O

.SLIMMARY OF i ?i~ASURED DATA AT 945 0503 TEMP 1 = 542.40002 ( O273.)

TEMP 2= 542.62000 ( 8295.)

TEMP 3= 544.15002 ( 8448.) ,

TEMP 4= 545.41003 ( 8574.)

TEMP 5= 545.45001 ( 8578.)

TEMP 6= 555.54004 ( 9D87.)

TEMP 7= 55.5.67004 ( 9600.)

TEMP 8= 569.92999 (11026.)

TEMP 9= 571.01001 (11134.)

TEMP 10 = 538.75000 ( 7908.)

+ TEMP 11 = 539.09003 ( 7942.)

TEMP 12 = 539.01001 ( 7934.)

TEMP 13 = 538.57001 ( 7890.)

TEMP 14 = 539.02002 ( 7935.)

PRES 1 = 72.780762 ( 72938.)

VPRS 1 = 0.43750241 ( 7554.)

VPRS 2. = 0.43371677 ( 7528.)

VPRS 3= 0.48598479 ( 7871.)

l 4= 0.43648323 ( 7547.)

l VPRS VPAS 5= 0.49473843 ( 7926.)

()

VPRS 6= 0.48779044 ( 7883.)

CTMT. FREE AIR VOL. = 228486.

j

SUMMARY

OF CORRECTED DATA

- TIME = 945 DATE = 0503 TEMPERATURE (DEGREES R.) = 548.17291 CORRECTED PRESSURE (PSIA) = 72.310181 VAPOR PRESSURE (PSIA) = 0.47Q57733 CTMT. AIR MASS (LBM) = 81352.

I

'n

)

O 1 .

O

SUMMARY

OF MEASURED DATA AT 1000 0503 TEMP 1 = 542.45001 ( 8278.)

TEf1P 2= 542.65002 ( 8298.)

TEMP 3= 544.22003 ( 8455.)

TEt1P 4= 545.48004 ( 8581.)

TEMP 5= 545.47003 ( C580.)

TEMP 6= 555.67999 ( 9601.)

TEMP 7= 555.81000 ( 9614.)

TEMP 8= 570.08002 (11041.)

TEMP 9= 571.27002 (11160.)

TEMP 10 = 538.75000 ( 7908.)

TEMP 11 = 539.04999 ( 7938.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.58002 ( 7891.) -

TEMP 14 = 539.03003 ( 7936.)

PRES 1 = 72.783737 ( 72941.)

VPRS 1 = 0.43895841 ( 7564.)

VPRS 2= 0.43546402 ( 7540.)

VPRS 3= 0.48667884 ( 7876.)

VPRS 4= 0.43823034 ( 7559.)

VPRE 5= 0.49669915 ( 7938.)

i VPRS 6= 0.48906085 ( 7891.)

i I CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1000 DATE = 0503 TEMPERATURE (DEGREES R.) = 548.23779 CORRECTED PRESSURE (PSIA) = 72.311684 VAPOR PRESSURE (PSIA) = 0.47205108 CTMT. AIR MASS (LBM) = 81344.

O

O SUMMAFtY OF MEASURED DATA AT 1015 0503 TEMP 1 = 542.48999 ( O202.)

TEMP 2= 542.72063 ( G305.)

TEMP 3= 544.28003 ( 8461.) e TEMP 4= 545.52002 ( 8585.)

TEMP 5= 545.53003 ( 8586.)

TEMP 6= 555.79004 ( 9612.)

TEMP 7= 555.94000 ( 9627.)

TEMP O= 570.19000 (11052.)

TEMP 9= 571.29004 (11162.) -

TEMP 10 = J38.73999 ( 7907.)

TEMP 11 = 539.08002 ( 7941.)

TEMP 12-= 539.00000 ('7933.)

TEMP 13 = 538.60004 ( 7893.)

TEMP 14 = 539.02002 ( 7935.)

PRES 1 = 72.786720 ( "2944.')

VPRS 1 = 0.43968645 ( 7569.)

VPRS 2= 0.43560967 ( 7541.)

VPRS 3= 0.48826680 ( 7886.)

VPRS 4= 0.43808484 ( 7558.)

/ VPRS 5= 0.49702600 ( 7940.)

VPRS 6= 0.48890200 ( 7890.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1015 DATE = 0503 TEMPERATURE (DEGREES-R.) = 548.28284 CORRECTED PRESSURE (PSIA) = 72.314407 VAPOR PRESSURE (PSIA) = 0.47231576 CTMT. AIR MASS (LBM) = 81341.

O

I

)

l l

SUMMnRi OF MEAGURED DATA AT 1030 0303 TEMP 1 = 542.53003 ( O286.)

TEt iP 2= 542.76Q01 ( 8309.)

i TEMP 3= 544.34v03 ( 8467.) ,

I TEMP 4= 545.59003 ( 8592.)

' TEMP 5= 545.60004 ( 8593.)

TEMP 6= 555.01003 ( 9624.)

TEMP 7= 556.07001 ( 9640.)

l TEMP O= 570.32001 (11065.)

TEMP 9= 571.38000 (11171.)

l TEMP 10 = 538.75000 ( 7903.)

l TEMP 11 = 539.06000 ( 7939.)

TEMP 12 = 538.98999 ( 7932.)

TEMP 13 = 538.60004 ( 7893.)

i TEMP 14 = 539.03003 ( 7936.)

PRES 1 = 72.789703 ( 72947.) ,

VPRS 1 = 0.43954000 ( 7568.)

VPRS 2=- 0.43677449 ( 7549.)

VPRS 3= 0.48937839 ( 7893.)

VPRS 4= 0.43939519 ( 7567.)

VPRS 5= 0.49735275 ( 7942.)

VPRS 6= 0.48810798 ( 7885.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1030 DATE = 0503 TEMPERATURE (DEGREES R.) = 548.33624 CORRECTED PRESSURE (PSIA) = 72.317230 VAPOR PRESSURE (PSIA) = 0.47247368 CTMT. AIR MASS (LBM) = 81336.

i 1 .

O w e e... . . .

l

SUMMARY

OF MEf.SURED DATA AT 1045 050~.

TEMP 1 =

542.57001 ( 8290.}

TEMP 2= 542.81000 ( 8314.)

TEMP 3= 544.40002 ( G473.) -

TEMP 4= 545.63000 ( 8596.)

TEMP 5= 545.66003 ( 8599.)

TEMP 6= 556.04004 ( 9637.)

TEMP 7= 556.20001 ( 9653.)

TEMP 8= 570.42004 (11075.)

TEMP 9= 571.61005 (11194.)

TEMP 10 = 538.73999 ( 7907.)

TEMP 11 = 539.09003 ( 7942.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.59003 ( 7892.)

TEMP 14 = 539.02002 ( 7935.) -

PRES 1 =

72.'792686 ( 72950.) '

VPRS 1 =

0.44187036 ( 7584.)

VPRS 2= 0.43764806 ( 7555.)

VPRS 3= 0.49017245 ( 7898.)

VPRS 4= 0.43997759 ( 7571.)

VPRS 5= 0.49866000 ( 7950.)

VPRS 6= 0.48858434 ( 7888.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1045 DATE = 0503 TEMPERATURE (DEGREES R.) =

548.39728 CORRECTED PRESSURE (PSIA) =

72.319267 VAPOR PRESSURE (PSIA) =

0.47342056 CTMT. AIR MASS (LBM) =

81329.

- , _ , , - . - , ,____,7 , , , , __ -

._ _ - - s me -

O SUMNAR/ OF MEASURED DATA AT 1100 0503 TEMP 1 = 542.61005 ( 8294.)

TEMP 2= 542.86005 ( 8319.)

TEMP 3= 544.46002 ( 8479.)

TEMP 4= 545.69000 ( 8602.)

TEMP 5= 545.70001 ( 8603.)

TEMP 6= 556.15002 ( 9649.) ,

TEMP 7= 556.33002 ( 9666.)

TEMP 8= 570.54999 (11088.)

TEMP 9a 571.73004 (11206.)

TEMP 10 = 538.75000 ( 7908.)

TEMP 11 = 539.06000 ( 7939.)

TEMP 12 = 530.98999 ( 7932.)

TEMP 13 = 538.61005 ( 7894.)

TEMP 14 = 539.02002 ( 7935.)

PRES 1 = 72.795670 ( 72953.)

VPRS 1 = 0.44143367 ( 7581.)

VPRS 2= 0.43750241 ( 7554.)

VPRS 3= 0.49163377 ( 7907.)

VPFS 4 = 0.43997759 ( 7571.)

VPRS 5= 0.49915016 ( 7953.)

VPRS 6= 0.48874319 ( 7889.) h 4

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1100 DATE = 0503 TEMPERATURE (DEGREES R.)

= 548.44885 CORRELTED PRESSURE (PSIA)

= 72.322014 VAPOR PRESSURE (PSIA)

= 0.47365400 i

CTMT. AIR MASS (LBM)

= 81325.

I

s

SUMMARY

OF MCASURED DATA AT 1115 0503 TEMP 1 = 542.67004 ( 8300.)

TEMP 2= 542.89001 ( 8322.)

TEMP 3= 544.51001 ( 8484.)

TEMP 4= 545.75000 ( 8608.)

TEMP 5 .= 545.78003 ( 8611.)

TEMP 6= 556.28003 ( 9661.)'

TEMP 7= 556.45001 ( 9678.) (

TEh' 8- 570.69000 (11102.)

TEMP 9= 571.79004 (11212.)

TEMP 10 = 538.75000 ( 7900.) \

TEMP 11 = 539.06000 ( 7939.)

TEMP 12 = 539.00000 ( 7933.)

-TEMP 13 = 538.59003 ( 7892.) .

TEMP 14 = 539.01001 ( 7934.)

PRES 1= 72.798645 ( 72956.)

VPRS 1 = 0.44201598 ( 7585.) ,

VPRS 2= 0.43891276 ( 7563.) ~

VPRS 3= 0.49294102 ( 7915.)

VPRS 4= 0.44026884 ( 7573.)

g VPRS 5= 0.49947703 ( 7955.)

VPRS 6= 0.48842564 ( 7887.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA ,

TIME = 1115 DATE = 0503 TEMPERATURE (DEGREES R.)'= 548.50012 CORRECTED PRESSURE (PSIA) = 72.324646 VAPOR PRESSURE (PSIA) = 0.47399551 CTNT. AIR MASS (LBM) = 81320.

l O

I I

s l

SUMMARY

OF MEASURED DATA fi. 1130 0503 TEMP 1 = 542.71002 ( 8304.)

TEMP 2= 542.94000 ( G327.)

TEMP 3= 544.57001 ( 8490.)

TEMP 4= 545.82001 ( 8615.)

TEMP 5= 545.82001 ( 8615.),

TEMP 6= 556.39001 ( 9672.)

TEMP 7= 556.59003 ( 9692.)

TEMP 8= 570.72003 (11105.)

TEMP 9= 572.00000 (11233.)

TEMP 10 = 538.75000 ( 7908.)

TEMP 11 = 539.07001 ( 7940.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.61005 ( 7894.)

i TEMP 14 = 539.01001 ( 7934.)

i PRES 1 = 72.801628 ( J2959.)

l VPRS 1 = 0.44216162 ( 7586.)

l VPRS 2= 0.44012323 ( 7572.)

VPRS 3= 0.49392137 ( 7921.)

l VPRS 4= 0.44216162 ( 7596.) '

l VPRS 5= 0.50062084 ( 7962.) .

2 VPRS 6= 0.48810798 ( 7885.)

CTMT. FREE AIR VOL. = 228486. ,

~ =.,

SUMMARY

OF CORRECTED DATA ,

TIME = 1130 ~

l -

DATE = 0503 -

TEMPERATURE (DEGREES R.) = 548.55536. l; CORRECTED PRESSURE (PSIA) = 7.~.327049 VAPOR PRESSURE (PSIA) = 0.47457597 ,, ,

. 4 .

~

CTMT. AIR MASS (LBM) = 81314.

g

)

, I

~

e

+

3 . -

r s .

. . - .s

/,

f g' <

/ e . <

% i r

SUMMARY

'CF MEf.SURED DATA-AT 1145 0503

- ' TEMP1 is . 542.73004 '(.8306.)

~"I-- ' TEMP 2u 543.00000 ( 8333.)

r- * ' TEOP 3m _544.61005 ( 8494.)

hTEMP 4= 545.88000 ( 8621.)

'q "j ' TEMP

, TEMP 5=

6= '

545.87000 556.51001

( 8620.).

( 9684.)

A .* : TEMP 7= 556.69000 ( 9702.)

.IEMP 8= 570.88000 (11121.)

,. TEMP 9= 572.00000 (11233.)

~$ TEMP 10 r- ,.539.08002 538.76001 ( 7909.)

- TEMP 11 = ( 7941.)

I TEMP 12 =2 539.00000 ~( 7933.)

- xTEMP 13 . == ' 538.60004 ( 7893.)

"IEMP'14'= l539.02002' ( 7935.)

h,

,- u -

,[ k ,

.- ~ PRE!S 1 = 72.803619 ('72961.)

-/ ..; > i VPRS 1 = -0.44318080 ( 7593.)

9 h ;' , , VPRS 2= 0.44114241 ( 7579.)

, , VPRS: 3= 0.49473843 ( 7926.)

'-)

'~

OPRS 4= 0.44303519 ( 7592.)

e b DV "

=

VPRS 5a 0.50111103 ( 7965.)

i I VPRS '6 = 0.48890200 -( 7890.)

i ; CTMT. FREE PIR,VOL. =. 228486.

SUMMARY

.0F CORRECTED DATA i

h .g ** j TIME = 1145

DATE = 0503 2{ ,

l,

&'A" M i TEMPERATURE .u (DEGREES R.) = 548.60022

y

! " CORRECTED PRES $URE (PSIA) = 72.328239 i

/ ,-

h VAPOR PRESSURE _(PSIA) = 0.47538075 t ,b ,-

i ..

(1 CTMT. AIR MASS (LBM)'= 81309.

.u :-

'b

$' y a

C v s y

1 4

s .,! '

%lw ,(

+ a.

, r

.w>

SUMMARY

OF MEASURED DATA AT 1200 0503 TEMP 1 = 542.78003 ( 8311.)

l~EMP 2= G43.03003 ( 133J:2. )

TEMP 3a b44.6P!79 ( B501.)

TEMP 4= 545.92999 ( 8626.)

TEMP 5= 545.95001 ( e628.)

TEMP 6= 556.62000 ( 9695.)

TEMP 7= 556.81000 ( 9714.)

TEMP 8= 570.98004 (11131.)

TEMP 9= 572.11005 (11244.)

TEMP 10 = 538.76001 ( 7909.)

TEMP 11 = 539.09003 ( 7942.)

TEMP 12 = 538.98999 ( 7932.)

TEMP 13 = 538.61005 ( 7894.)

TEMP 14 = 539.00000 ( 7933.)

PRES 1 = 72.806602 ( 72964.)

VPRS 1 = 0.44420001 ( 7600.)

VPRS 2= 0.44143367 ( 7581.)

VPRS 3= 0.49555546 ( 7931.)

VPRS 4= 0.44288966 ( 7591.)

VPRS 5= 0.50192791 ( 7970.)

VPRS 6= 0.48810798 ( 7885.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1200 DATE = 0503 ,

TEMPERATURE (DEOREES R.) = 548.65076 CORRECTED PRESSURE (PSIA)

= 72.331131 j

VAPOR PRESSURE (PSIA) = 0.47547320 I

CTMT. AIR MASS (LBM) = 81305.

'l O

4 1

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

SUMMARY

OF MEASURED DATA AT 1215 0503 TEMP 1 = 542.83002 ( 8316.)

O . TEt1P TEMP TEMP 4=

2=

3=

543.09003 544.72003 545.98999

( 3342.)

( E500.)

( 8632.)

, TEMP G= 545.98999 ( 8632.)

TEMP '6= 556.73999 ( 9707.)

TEMP 7= 556.94000 ( 9727.)

TEMP B= 571.04999 (11138.)

TEMP 9= 572.17004 (11250.)

TEMP 10'=' 538.73999' ( 7907.)

TEMP 11 = 539.09003 ( 7942.)

i TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.60004~ ( 7893.)

. TEMP 14 = 538 98999 ( 7932.)

4 PRES 1 = 72.809578 ( 72967.)

VPRS 1 = 0.44464970 ( 7603.)

VPRS 2= 0.44172484 ( 7583.) '

- VPRS 3= 0.49686256 ( 7939.)

VPRS 4= 0.44288966 ( 7591.)

VPRS 5= 0.50209133 ( 7971.)

VPRS 6= 0.48842564 ( 7887.)

CTMT. FREE AIR VOL. = 228486.

a

SUMMARY

OF CORRECTED DATA l %.

TIME = 1215 DATE = 0503 i TEMPERATURE (DEGREES R.) = 548.69165-CORRECTED PRESSURE (PSIA) = 72.333733 VAPOR PRESSURE (PSIA) = 0.47584826 CTMT. AIR MASS (LBM) = 81302.

.l i

l 4

s n

v 3

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

SUMMARY

OF MEASURED DATA AT 1230 0503 i

i TEMP 1 = 542.88000 ( 8321.)

TEMP 2 = 543.t3000 ( 8346.)

TEMP 3= 544.77002 ( 8510.)

TEMP 4= 546.06000 ( 8639.)

1 TEMP 5= 546.05005 ( 8638.)

TEMP 6= 556.85004 ( 9718.)

TEMP 7= 557.04004 ( 9737.)

TEMP 8= 571.20001 (11153.)

TEMP 9= 572.32001 (11265.)

TEMP 10 = 538.73999 ( 7907.)

TEMP 11 = 539.10004 ( 7943.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 12 = 538.58002 ( 7E91.)

TEMP 14 = 538.98999 ( 7932.)

PRES 1 = 72.811569 ( 72969.)

VPRS 1 = 0.44569898 ( 7610.)

VPRS 2= 0.44318080 ( 7593.)

VPRS 3= 0.49784294 ( 7945.)

VPRS 4= 0.44584891 ( 7611.)

VPRS 5= 0.50323516 ( 7978.)

VPRS 6= 0.48794913 ( 7884.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1230 DATE = 0503 TEMPERATURE (DEGREES R.) = 548.74908 CORRECTED PRESSURE (PSIA) = 72.334946 ,

VAPOR PRESSURE (PSIA) = 0.47662175 CTMT. AIR MASS (LBM) = 81295.

2 O

l

SUMMARY

OF MEASURED DATA AT 1245 0503 TEMP 1 = 542.91003 ( B324.)

/)

\, __ j TEMP TEMP 2=

3=

543.16003 M44.33002

( 8349.)

( 051 J>. }

TEMP 4 = 546.12000 ( 8645.)

TEMP 5= 546.10004 ( 8643.)

TEMP 6= 356.95001 ( 9728.)

TEi P 7= 557.16003 ( 9749.)

TEMP 8= 571.27002 (11160.)

TEMP 9= 572.46002 (11279.)

TEMP 10 = 538.73004 ( 7906.)

TEMP 11 = 539.09003 ( 7942.)

TEMP 12 = 538.98999 ( 7932.)

TEMP 13 = 538.56000 ( 7889.)

TEMP 14 = 539.01001 ( 7934.)

PRES 1 = 72.813553 ( 72971.)

VPRS 1 = 0.44629860 ( 7614.)

VPRS 2= 0.44449976 ( 7602.) '

VPRS 3= 0.49882340 ( 7951.)

VPRS 4= 0.44569898 ( 7610.)

VPRS 5= 0.50421554 ( 7984.)

VPRS 6= 0.48890200 ( 7890.)

CTMT. FREE AIR VOL. = 228486.

,e^3

SUMMARY

OF CORRECTED DATA

<j TIME = 1245 DATE = 0503 i

TEMPERATURE (DEGREES R.) = 548.79407 CORRECTED PRESSURE (PSIA) = 72.336098 VAPOR PRESSURE (PSIA) = 0.47745475 CTMT. AIR MASS (LBM) = 81289.

l j

g v

V.Av - Tv 7 -dr - -w ,w---

,- , . _ _ _ _ . _%-. -N,. ____ _ __ _ ggy.m

SUMMARY

OF MEASURED DATA AT 1300 0503 TEMP 1 = 542.95001 ( G328.)

TEMP 2= 543.22003 ( 8355.)

TEMP 3= 514.86005 ( 6519.)

TEMP 4 = 546.17004 ( 8650.)

TEMP 5= 546.12000 ( 8645.)

TEMP 6= 557.06000 ( 9739.)

TEMP 7= 557.27002 ( 9760.)

TEMP 8= 571.36005 (11169.)

TEMP 9= 572.56000 (11289.)

TEMP 10 = 538.73004 ( 7906.) ,

TEMP 11 = 539.10004 ( 7943.)

TEMP 12 = 538.98999 ( 7932.)

TEMP 13 = 538.50002 ( 7891.)

TEMP 14 = 539.00000 ( 7933.)

PRES 1 = 72.815544 ( 72973.)

VPRS 1 = 0.44629860 ( 7614.)

VPRS 2= 0.44539922 ( 7608.)

VPRS 3= 0.49980378 ( 7957.)

/ PRS 4= 0.44629860 ( 7614.)

VPRS 5= 0.50486916 ( 7988.)

VPRS 6= 0.48794913 ( 7884.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1300 DATE = 0503 TEMPERATURE (DEGREES R.) = 548.83801 CORRECTED PRESSURE (PSIA) = 72.338036 VAPOR PRESSURE (PSIA) = 0.47750649 CTMT. AIR MASS (LBM) = 81285.

O

SUMMARY

OF MEASURED DATA AT' 1315 0503 O ' TEMP 1= 542.98999~ ( 8332.)

\_) TEMP 2= 543.26001 ( 8359.)

TEMP 3= 544.91003 ( 8524.)

TEMP 4= 546.22003 ( 8655.)

. TEMP 5= 546.17999 ( 8651.)

TEMP 6= 557.17004 ( 9750.)

TEMP 7= 557.38000 ( 9771.)

TEMP 8= 571.46002 (11179.)

TEMP 9= 572.61005 (11294.)

TEMP 10 =. 538.73004 ( 7906.)

TEMP 11 = 539.07001 ( 7940.)

TEMP 12 = 538.98999 ( 7932.)

TEMP 13 = 538.60004 ( 7893.)

TEMP 14 = 539.00000 ( 7933.)

PRES 1= 72.817528 ( 72975.)

VPRS 1= 0.44914675 ( 7633.)

VPRS 2= 0.44659847 ( 7616.)

VPRS 3= 0.50078416 ( 7963.)

VPRS 4= 0.44539922 ( 7608.)

VPRS 5= 0.50503254 ( 7989.)

VPRS 6= 0.48842564 ( 7887.)

CTMT. FREE AIR VOL. = 229496.

/}

y j r

SUMMARY

OF CORRECTED DATA TIME = 1315 DATE = 0503 TEMPERATURE (DEGREES R.) = 548.88013 CORRECTED PRESSURE (PSIA) = 72.339325 VAPOR PRESSURE (PSIA) = 0.47820151

, CTMT. AIR MASS (LBM) = 81280.

().

l ~

t l

f

SUMMARY

OF MEASURED DATA AT 1330 0503

' TEMP 1 = 543.03003 ( 8336.)

TEMP 2= 543.30005 ( 8363.)

TEMP 3= 544.96002 ( G529.)

TEMP 4= 546.27002 ( 8660.)

TEMP 5= 546.23004 ( 8656.)

TEMP 6= 557.26001 ( 9759.)

TEMP 7= 557.48004 ( 9781.)

TEMP 8= 571.54999 (11188.)

I TEMP 9= 572.72003 (11305.)

TEMP 10 = 538.73004 ( 7906.)

TEMP 11 = 539.10004 ( 7943.)

s TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.59003 ( 7892.)

l, TEMP 14 = 539.01001 ( 7934.)

l PRES 1 = 72.819519 ( 72977.)

VPRS 1= 0.44929668 ( 7634.)

l ( 7610.)

6 VPRS 2= 0.44569898 VPRS 3= 0.50209135 ( 7971.)

VPRS 4 = 0.44719309 ( 7620.)

VPRS 5= 0.50601304 ( 7995.)

VPRS 6= 0.48858446 ( 7888.)

CTMT. FREE AIR VOL. = 228486.

l

SUMMARY

OF CORRECTED DATA TIME = 1330 DATE = 050' TEMPERATURE (DEGREES R.) = 548.92743 h

CORRECTED PRESSURE (PSIA) = 72.340820 VAPOR PRESSURE (PSIA) = 0.47869778 CTMT. AIR MASS (LBM) = 81275.

1 O

, . .- ~

1.

SUMMARY

OF MEASURED DATA AT 1345 0503 i

543.05005 ( 8338.)

s) . TEMP 1 =

543.33002 ( 8366.)

' TEMP 2u TEMP 3= 545.02002 ( 8535.)

TEMP 4= 546.33002 ( 8666.)

TEMP 5= 546.30005 ( 8663.)

TEMP 6 =- 557.36005 ( 9769.) '

TEMP 7= 557.58002 ( 9791.)

TEMP O= 571.66003 (11199.).

TEMP 9a 572.86005 (11319.)

TEMP 10 = 538.73004 ( 7906.)

TEMP 11 = 539.03003 ( 7936.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.57001 ( 7890.)

TEMP 14 = 539.00000 ( 7933.)

PRES 1 = 72.822502 ( 72980.) -

1 VPRS 1 = 0.44899681 ( 7632.)

VPRS 2= 0.44674829 ( 7617.)

VPRS 3= 0.50307173 ( 7977.)

VPRS 4= 0.44734791 ( 7621.)

VPRS 5= 0.50666666 ( 7999.)

VPRS 6= 0.48842564 ( 7887.)

CTMT. FREE AIR VOL. = 228486.

i s_

SUMMARY

OF CORRECTED DATA TIME = 1345 DATE = 0503 TEMPERATURE (DEGREES R.) = 548.97144 l ,

CORRECTED PRESSURE (PSIA) = 72.343536 VAPOR PRESSURE (PSIA) = 0.47896397 CTMT. AIR MASS (LBM) = 81271.

J i

l 4

4 t

i o

JO'-

\

ll

l

SUMMARY

OF MEASURED DATA AT' 1400 0503 TEMP 1 = 543.09003 ( 8342.) 1

- TEMP 2= $43.37000 ( 8370.)

TEMP 3= 545.06000 ( 8539.)

TEMP 4 = 546.38000

~

( 8671.)

TEMP 5= 546.34003 ( 8667.)

lEMP 6= 557.48999 ( 9782.)

TEMP 7= 557.69000 ( 9802.)

TEMP 8= 571.70001 (11203.)

TEMP 9= 572.87000 (11320.)

TEMP 10 = 538.73004 ( 7906.)

TEMP 11 = 539.07001 ( 7940.)

TEMP 12 = 539.00000 ( 7933.)

TEMP 13 = 538.58002 ( 7891.)

TEMP 14 = 538.98999 ( 7932.)

PRES 1 = 72.824486 ( 72982.)

l VPRS 1 = 0.44929656 ( 7634.)

VPRS 2= 0.44854712 ( 7629.)

VPRS 3= 0.50405222 ( 7983.)

VPRS 4= 0.44914675 ( 7633.)

VPRS 5= 0.50800669 ( 8007.)

VPRS 6= 0.48953724 ( 7894.)

I CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1400 DATE = 0503 TEMPERATURE (DEGREES R.) = 549.00708 9

l CORRECTED PRESSURE (PSIA) = 72.344330

! = 0.48015821 VAPOR PRESSURE (PSIA)

CTMT. AIR MASS (LBM) = 81267.

l l '

, t

SUMMARY

OF MEASURED DATA AT 1415 0503 TEMP 1 = 543.14001 ( 8347.)

TEMP 2= 543.41003 ( 8374.)

TEMP 3= 545.11005 ( 8544.)

TEMP 4 = 546.42999 ( 8676.)

TEMP 5= 546.40002 ( 8673.)

TEMP 6= 557.58002 ( 9791.)

TEMP 7= 557.79999 ( 9813.)

TEMP 8= 571.82001 (11215.)

TEMP 9= 573.03003 (11336.)

TEMP 10 = 538.72003 ( 7905.)

TEMP 11 = 539.07001 ( 7940.)

TEMP 12 = 538.98999 ( 7932.)

TEMP 13 = 538.60004 ( 7893.)

TEMP 14 = 578.98999 ( 7932.)

PRES 1 = 72.826477 ( 72984.)

VPRS 1 = 0.45064571 ( 7643.)

VPRS 2= 0.44764775 ( 7623.)

VPRS 3= 0.50503254 ( 7989.)

VPRS 4= 0.45004609 ( 7639.)

VPRS 5= 0.50084724 ( 8012.)

VPRS 6= 0.48858434 ( 7888.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DA'A T TIME = 1415 DATE = 0503 TEMPERATURE (DEGREES R.)

= 549.06067 CORRECTED PRESSURE (PSIA)

= 72. 346's J7 VAPOR PRESSURE (PSIA) = 0.48023975 CTMT. AIR MASS (LBM) = 81261.

6

1l l

'l)l' H>ot m4W m*tWH >M wCh c*fOH F-- rEO'

n

,u , 2C* n.,LCO=

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!iti ' 61!!t11Il.j1g tItttIl1I1 . !:1 ,I11 + ' i ffIIII1+li1IilI ,1tIliIiI1iI+

)

+

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+

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+

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+

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+

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+

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+

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+

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+

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+

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+

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i

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IIllililll ll' s

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(

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+

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i +

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+

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+

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6 Ni~

II lll l l f !' !I l I l' ,ll,'l' illIllll:llll1lil1

TABLE E-3 ILRT PRESSURE PLOT rl.200 /1.400 71.600 71.800 72.000 72.200 72.400 72.600 r_._.____._-___.+_~.__-____+-_---.---_+-____-___+--___-___+___------+----------+

+

_ +

-. +

._ +

_ +

300 - +

_ + s

+

600 -

_ +

_ +

+

700 - +

_ +

_ i-

- +

800 - +

_ +

+

900 - +

_ +

-. +

- +

1

- +

-- +

e -- +

- +

1100 - +

_ +

- +

1200 - +

- +

_ +

1300 - +

_ +

- +

- t 1400 - +

- +

l

TABLE E-4 ILRT VAPOR PRESSURE PLOT O.2000 O.2500 O.3000 0.3500 0.4000 v.4500 O.5000 O.5500 e_______+__.__.-___+_________+-___._._____+_.______-_4._________+______.____+

+

9- -

+

500 - +

+

600 - &

+

700 - +

+

~ +

+

800 - +

+

900 - +

+

~

+

IC N - +

+

1100 - +

+

1200 - +

+

1300 - +

+

1400 - +

+

lc t

l

/ ) HATCH UNIT 2 VERIFICATION j

LEAKAGE RATE (WEIGHT PERCENT / DAY)

MASS-POINT AHALYSIS TIME AND DATE AT START OF TEST: 1530 0503 ELAPSED TIME: 5.00 HOURS TEMP PRESSURE CTMT. AIR MASS LOSS TOT.AVO. MASS TIME LOSS.(LBM/HR)

(R) (PSIA) MASS (LBM) (LBM) 1530 549.259 72.3231 81206.

72.3181 81195. 10.8 43.0 1545 549.294 47.9 1600 549.343 72.3127 81182.

13.2 72.3070 81172. 9.8 45.0 1615 549.366 72.3070 81165. 6.7 40.5 1630 549.411 47.0 1645 549.450 72.2958 81147. 18.3 72.2894 81135. 12.0 47.2 1700 549.483 46.3 1715 549.510 72.2839 81125. 10.2 72.2777 81112. 12.5 46.8 1730 549.548 45.4 1745 549.563 72.2720 81104. 8.6 72.2664 81091. 12.3 45.8 1800 549.604 72.2602 81079. 12.4 46.1 1815 549.641 46.0 1830 549.669 72.2539 81068. 11.2 72.2477 81057. 10.9 45.8 1845 549.696 45.9 1900 549.729 72.2415 81045. 11.7 g3 10.6 45.7

( ! 1915 549.760 72.2363 81035.

'~ 72.2294 81023. 11.3 45.6 1930 549.784 45.8 1945 549.824 72.2239 81011. 12.0 72.2176 81000. 10.8 45.6 2000 549.849 549.870 72.2111 80990. 10.5 45.4 2015 549.907 72.2051 80978. 12.1 45.6 62030

= 0.228 FREE AIR VOLUME USED (MILLIONS OF CU. FT.)

REGRESSION LINE INTERCEPT (LBM)

= 81206.

SLOPE (LBM/HR)

= -45.7

~

1.904 VERIFICATION TEST LEAKAGE RATE UPPER LIMIT = 1.304 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT == 1.350 THE CALCULATED LEAKAGE RATE CONT. FREE AIR VOLUME AT TIME 2030

= 228486.

/~T k )

L.J

2 --

HATCH UNIT 2 VERIFICATION LEAKAGE RATE'(WEIGHT PERCENT / DAY)-

TOTAL-TIME ANALYSIS TIME AND DATE AT START OF TEST: 1530 0503 ELAPSED TIME: 5.00 HOURS TIME TEMP. PRESSURE MEASURED (R) (PSIA) LEAKAGE RATE 1530 549.259 72.3231 1545 549.294 72.3181 . 1.273 1600 549.343 72.3127 1.416 1615 549.366 72.3070 1.331 1630' 549.411 72.3070 1.196 1645 549.450 72.2958 1.390 1700 549.483 72.2894 1.396 1715 549.510 72.2839 1.369 1730 549.548 72.2777 1.382 1745 549.563 72.2720 1.342

-1800 549.604 72.2664 1.353 1815 549.641 72.2602 1.364 1830 549.669 72.2539 1.361 1845 549.696 72.2477 .1.355 1900 549.728' 72.2415 1.357

(

1915 549.760 72.2363 1.350

_C 1930 549.784 72.2294 1.349 1945 549.824 72.2239 1.353 2000 549.849 72.2176 1.349 2015 549.870 72.2111 1.343

. 2030 549.907 72.2051 1.347

= 1.349 MEAN OF MEASURED LEAKAGE RATES 1.896-VERIFICATION TEST LEAKAGE RATE UPPER LIMIT = 1.296

! VERIFICATION TEST LEAKAGE RATE LOWER LIMIT = = 1.359 THE CALCULATED LEAKAGE RATE w/

V1J ': /

VERF.DAT HATCH UNIT 2 VERIFICATION ALMAX = 1.200 VOL = 228486.00

,/~N VRATET = 1.596 VRATEM = 1.604 VRATEP = 0.900 VPRS VOLUME

\) TIME DATE 1430 503 TEMP 549.09088 PRESSURE 72.342827 0.48066470 2284S6.

1445 503 549.13684 72.338615 0.48090371 228486.

1500 503 549.18396 72.333138 0.48141104 228436.

1515 503 549.22253 72.329079 0.48150232 228486.

1530 503 549.25940 72.323067 0.48253500 228486.

1545 503 549.29413 72.318054 0.48257872 228486.

1600 503 549.34271 72.312698 0.48296803 228486.

1615 503 549.36609 72.307045 0.48364702 228486.

1630 503 549.41138 72.307030 0.48366541 228486.

1645 503 549.45038 72.295830 0.48393437 228486.

1700 503 549.48260 72.289352 0.48445386 228486.

1715 503 549.51019 72.283867 0.48496881 228486.

1730 503 549.54803 72.277718 0.48515290 228486.

1745 503 549.56317 72.272003 0.48490065 228486.

1800 503 549.60382 72.266418 0.48551816 228486.

1815 503 549.64111 72.260231 0.48573765 228486.

1830 503 549.66919 72.253906 0.48610336 228486.

1845 503 549.69568 72.247704 0.48634434 228486.

1900 503 549.72803 72.241508 0.48658341 228486.

1915 503 549.76001 72.236305 0.48681200 2284C 1930 503 549.78412 72.229431 0.48672915 228486.

1945 503 549.82379 72.223938 0.48725057 228486.

2000 503 549.84912 72.217636 0.48759496 228486.

2015 503 549.87012 72.211060 0.48820779 228486.

2030 503 549.90692 72.205086 0.48821190 228486.

(~})

( 2045 503 549.93091 72.199120 0.48822179 228486.

On

\ >

v

l SUM:h:RY tJi- HWisURED DAl6 is f 1t30 0307 TEMP 1 = G43.16003 ( 8369.}

TEMP 2= S43.45001 ( 83~'S.)

1EliP 3 - lad Ie M ( 0:5-1 / . >

TI NT' i - r,16.'!U:' ! ( 0:281.)

it f .- G .!.. u! ( s n 7 '.. . )

]!:3- <

.- , , , . . . i . X O.

IEM ' ,

E,7. / 0 6 :. ( " L ., ' . )

T. <l V .

' ( . .

1 emf - -

E; .< _ . 0 i s 5 ' (11338./

'IEMP 10 :- L;38.73004 ( 7906.)

TEMP 11 = 539.08002 ( 7941.)

TEMP 12 = 538.98999 ( 7932.)

TEMP 13 = 338.59003 ( 7892.)

1 rHf > 14 :-

, D39.00000 ( 7933.)

Pf E5 1 = 72.823494 ( 72981.)

VPRS 1 = 0.45154518 ( 7649.)

VPRS 2= 0.44764775 ( 7623.)

VPHU 3 0.E063 97"/ ( 7997.)

VPRS 4 = 0.45154518 ( 7649.>

VFRS 5= 0.50394724 ( 8012.)

VPRS 6= 0.48858434 ( 7888.)

CTNT. FREE AIR VOL. = 223436.

SUMMARY

OF CORRECTED DATA TIME = 1430 DATE = 0503 TEMPERATURE (DEGREES R.) = 549.09088 CORRECTED PRESSURE (PSIA) = 72.342827 VAPOR PRESSURE (PSIA) = 0.48066470 CTMT. AIR MASS (LBM) = 81253.

,_7

_m

. _ . e -- - .

SUMMARY

OF IIEAEURED DATA AT 1445 ObO3 TEMP 1 =

~

54.i.19000 ( 83S2.)

IEhP , S4'.quv04 ( lI'31.)

( ryv,r ;3. >

T Ei.i:

nan.7~ona 1 'ch- ! ' <! 6. : i.? : r" < ;b an. )

l i,,!a,,.>,.,. < 9: .j l :-! ! . , ,

?O E ';110. -

ILHF 6 - U1 .

. '. l ' ".i ! ( .

I ILHP S - b/2.30000 (i!.33./

TEMP 9 -- S73.17999 (11351.)

TEMP 10 == 638.72003 ( 7900.)

f 539.07001 ( 7940.)

l TEMP 11 =

539.99004 (- 7931.)

TEMP 12 =

l TEMP 1 ~. u S38.59003 ( 7F'72. )

i TEMP 14 = 530.98999 ( 7932.)

I f 'RES 1 = 72.019519 ( ?2977.)

l VPRS 1 = 0.45169502 ( 76SO.)

1 VPRS 2- = 0.44399631 ( ?o32.)

VPRS 3= 0.50699812 ( 8001.)

VPRS 4= 0.45094547 ( 7645.)

VPRS 5= 0.50931964 ( 3016.)

VFRS 6= 0.4Df142564 ( 7897.)

CTMT. FREE AIR VOL. = 228436.

SUMMARY

OF CORRECTED DATA 11ME = 1443 i

DATE = 0503 TEMPERATURE (DEGriEEG R.)

= 549.13694 CORRECTED FRESSURE (PSI A)

= 72.333615 VAPOR PRESSURE (PSIA)

= 0.40090369 CTMT. AIR MASS (LSM) = G1241.

i O

t I

l

SUMMARY

OF MEASURED DnIA AT 1500 0503 (p) TEMP 1 = 543.25000 ( '035G.)

( 0305.)

TEMP 2= 543.52002 TEMP 3= D15.26001 ( USD9.)

TEMP 4 = 316.S"003 ( 3692.}

TEMP S= S!6.b3003 ( 0o36.)

fEMP b ~ bb>'.1866u ( 3621.

TEMP 7 - %S8.(F&OO3 ( WM2.)

,r , e c a ., ..) ( .1Sj;.)

i g.,p a.

1EMP 9= S73.29004 (11362.)

TEMP 10 = 539.72003 ( 7905.)

TEMP 11 = 539.06000 ( 7939.)

TEMP 12 = 530.98999 ( 7932.)

TEMP 13 = 538.57001 ( 7890.)

TEMP 14 = S33.90004 ( 7731.>

FRES 1 = 72.31'1552 ( 72972.)

VPRS 1 = 0.45259449 ( 7656.)

VPRS 2= 0.41999681 ( 7632.1 VPRS 3= 0.508006e9 ( 0007.)

VPRS 4= 0.45139527 ( 7648.)

VPRS 5= 0.51019192 ( 8020.)

VPRS 6= 0.48874319 ( 78G9.)

CTMT. FREE AIR VOL. = 229406.

/D i

\v

SUMMARY

OF CORRECTED DATA TIME = 1500 DATE = 0503 TEMPERATURE (DEGREES R.)

= 549.18396 CORRECTED PRESSURE (PSIA)

= 72.333138 VAPOR PRES 5URE (PSIA) n O.4G101104 CTMT. AIR MASS (LBM) = 81228.

9 (3

v) e i.ii.. . .. i.

SUMM610/ OF MEASURED OAT /i AT 1515 0503

= 543.28003 ( 8361.>

TEMP 1 2= 543.56000 ( 83Bv.)

TEMP TEMP J ' 545.02001 ( OLoS.)

TEhP 4 - 54 6. n:.iOOO ( S696.)

iEMP S= Sih.b60~.iO ( 8:c:9. -

fEhP : --

.:9. 00' '00 ( i!C : .

= 355.22001 - 9ab5.)

fEMP '?

T El P :, - 37 2. i / Wi ( i 'lii .

9= 573.38000 (11371.)

IEMF TEt!P 10 := 538.71002 ( 7904.)

TEMP 11 = 539.04004 ( 7937.)

TEMP 12 = 538.98004 ( 7931.)

538.57001 (' 7990.)

TEMP 13 =

TEMP 14 = 538.90004 ( 7931.)

PRES 1 = 72.610377 ( 77965./

0.45124534 ( 7647.)

VPris 1 =

VPRS 2= 0.449E9316 ( 7633.)

VPRS 3= 0.50884724 ( 8012.1 4= 0.45214468 ( 7653.)

VPRS 5= 0.51103246 ( SO25.)

VPRS 6= 0.48826680 ( 7886.)

VPRS CTMT. FREE AIR VOL.

= 229496.

SUMMARY

OF CORRECTED DATA TIME = 1515 DATE = 0503

= 549.22253 TEMPERATURE (DEGREES R.)

= 72.329079 CORRECTED PRESSURE (PSIA)

VAPOR PRESSUF.E (PSIA)

= 0.48150232

= 81218.

CTMT. AIR MASS (LBM)

O

1530 0503

SUMMARY

OF MEASURED D6TA AT TEMP

= 543.33002 ( 8'366.) -

543.59002 ( 8391.)

1 TEt1P 2' TEMP 3= 545.36005 ( O'd69.)

TEMP 4 a 546.67999 (( atM';.3701.)

I EM) S= 546.62000 6' SS!3.07003 (

6f 0. -

TEMP TEMP

~7 x 559.11000 ( 9061.-

TEMP O -- 5'72.2W.v3 (1....

TEMP 9= 573.40002 (11.373.)

( 7904.)

TEMP 10 = 538.71002 ( 7939.)

TEMP 11 = 539.06000 ( ,7931.)

TEMP 12 = 538.98004 ( 7890.)

TEMP 13 = 538.57001 ( 7930.)

TEMP 14 = 538.97003 PRES 1 = 72.803603 ( 72963.)

VFRS 1 = 0.43379362 ( 7664.)

VF'~;S 2= 0.45064571 ( '7643.)

0.510023G9 ( 8019.!

VPRS 3=

0.45394352 ( 7665.)

VPRS 4 =

5= 0.51237732 ( 8033.)

VPRS ( 7887.)

VPRS 6= 0.48342564

= 228406.

CTMT. FREE AIR VOL.

SUMMARY

OF CORRECTED DATA TIME = 1530 DATE = 0503

= .549.25940 TEMPERATURE (DEGREES R.)

= 72.323067 CORRECTED PRESSURE (PSIA)

= 0.4G253500 VAPOR PRESSURE (PSIA)

= 81206.

CTMT. AIR MASS (LBM)

A

?'

f s t

. [

i 1545 0503

SUMMARY

OF MEAGURED DATA AT TEMP 1 = 543.30000 ( 8371.)

TEMP 2= 543.62000 ( 0395.)

TEMP

' ';45.40002 ( R573.)

4 = 546.72'.." 3 ( 9 N.O . '

1EMP ( 8h99.)

!EMP 5 - 5 % .65002 6= 55S.1700i '. 9E v!'. )

TEMP ( 9874.r 189 7 = 52.11007 572.3:2. " i ' 'i1Uho.>

FEtIP 8=

9= 573.50000 (11333.)

TEMP TEMP 10 = 538.70001

( 7903.)

TEMP 11 = 539.04004

( 7937.)

(.7931.)

TEMP 12 = 538.98004 ( 7899.)

TEMP 13 = 538.56000 ( 7930.)

TEMP 14 = 538.97003 PRES 1 = 72.800636 ( 72953.)

VPRS 1 =- O.45484290 ( 7671.)

2 = 0.45049575 ( 7642.)

VPRS ( 8026.)

VPRS 3= 0.51120061 0.45424327 ( 7667.)

VPRS 4 :=

5= 0.51204115 ( SO31.)

VPRS ( 7GS4.)

VPRS 6= 0.48794913 223486.

CTMT. FREE AIR VOL.

=

O

SUMMARY

OF CORRECTED DATA TIME = 1545 DATE = 0503

= 549.2(?413 TEMPERATURE (DEGREES R.)

= 72.318054 CORRECTED PRESSURE (PSIA)

= 0.43257372 VAPOR PRESSURE (PSIA)

= 81195.

CTMT. AIR MASS (LBM)

O

EUMMARY OF MEASURED DA TA AT 1600 0303 TEMP 1 = 5el3.40002 ( B373.)

(~' TEMP 2= 543.66003 ( 0399.)

TEMP 3= 545.46002 ( G579.)

TEMP 4 = 546.77002 ( 0710.)

FEMP S= 346.71002 ( 8704.)

FEMP 6 = 5G8.29004- ( 9S62.)

FEMP 7= 5SS.'JOO2 d ( 9085.)

IEMP O= 572.42004 (1127D.)

FEh? 'u 3 75. 6,NOO (j1376.)

TEMP 10 = 339.71002 ( 7904.)

TEMP 11 = 539.04004 ( 7937.)

TEMP 12 = 538.96002 ( 7929.)

TEMP 13 = 538.57001 .( 7890.)

TEMP 14 = 538.97003 ( 7930.)

PRES 1 = 72.795670 ( 72953.)

VPRS 1 = 0.45544252 ( 7675.)

VPRS 2= 0.45107540 ( 7646.)

VPRS 3= 0.51170492 ( 8029.)

VPRS 4= 0.45439321 ( 7668.)

VPRS 5= 0.51237732 ( 8033.)

VPRS 6= 0.48826650 ( 7386.)

CTMT. FREE AIR VOL. = 22G486.

,O SUl1 MARY OF CORRECTED DATA

%.,)

TIME = 1600 DATE = 0503 TEMPERATURE (DEGREES R.) = 549.34271 CORRECTED PRESSURE (PSIA) = 72.312698 VAPOR PRESSURE (PSIA) = 0.48296803 CTMT. AIR MASS (LBM) = 81182.

m

) -

SUMMARY

OF MEASURED DATA nr 1615 0503 TEMP 1 = 543.45001 ( 8379.}

TEMP 2= 543.69000 ( 0402.)

fliMP 3= 515.51001 ( 0534.)

TEMP 4 = 546.30005 ( B713.)

TEMF 5= G46.76001 ( 8709.)

TEHi' c c- 550.3?nOO ( 9370.}

TEMP 7 =- 550.60004 ( 9093.)

T EM' 3- 372.46002 ; 1 12 7') . )

TEMP 9 = 573.65002 (11348.)

TEMP 10 = 538.71002 ( 7904.)

TEMP 11 = B39.01001 ( 7934.)

TEMP 12 = 530.95001 ( 7928.)

TEMP 13 = 538.54004 ('7887.)

TEMP 14 == 538.97005 ( 7930.)

PRES 1 = 72.790695 ( 72948.)

VPRS 1 = 0.45529270 ( 7674.)

VPRS 2= 0.45154518 ( 7649.)

VPHS 3= 0.51237732 ( 8033.)

VPRS 4= 0.45559245 ( 7676.)

VPRS 5= 0.51321775 ( 8030.)

VPRS 6= 0.48906085 ( 7891.)

CTMT. FREE AIR VOL. = 220486.

SUMMARY

OF CORRECTED DATA TIME = 1615 DATE = 0503 TEMPERATURE (DEGREES R.) = 549.36609 1

l CORRECTED PRESSURE (PSIA) = 72.307045 VAPOR PRESSURE (PSIA) = 0.48364702 l CTMT. AIR MASS (LBM) = 81172.

i l

9

U

SUMMARY

OF MEASURED DATA AT 1630 0503 I l

[~h TEMP 1 = 543.40999 ( 8382.)'

\_) TEMP 2= 543.71002 ( 8404.) l

$45.55005 ( 0503.)

TEMP 3=

TEMP 4 = S46.94003 ( 8717.)

TEMP 5= 546.70003 ( G711.) l TEMP 6 = GUS.44900 '

,

77. i '

TEMP / = 553.70001 ( 9 +0:5. ) ..

. TE!!P O S'!2.51000 ( 1 : .00 . >

TEMP 9= 573.68000 (11421.) l' TEMP 10 = 538.67004 ( 7900.)

I TEMP 11 = 539.05005 ( 7938.)

TEMP 12 = 538.94000 ( 7927.)

TEMP 13 = 538.52002 ( 7885.)

TEMP 14 = 538.95001 ( 7928.)

PRES 1 = 72.790695 ( 72948.)

VPRS 1 = 0.45589221 ( 7678.)

( 7653.) h VPRS 2 = 0.43214463

( 8041.) l VPRS 3= 0.51372212 VPRS 4= 0.45514277 ( 7673.) H VPRS 5= 0.51422644 ( 8044.)

VPRS 6= 0.48794925 ( 7894.)

CTNT. FREE AIR VOL. = 228486.

[\

\ 3

SUMMARY

OF CORRECTED DATA TIME = 1630 DATE = 0503 TEMPERATURE (DEGREES R.) = 549.41138 CORRECTED PRESSURE (PSIA) = 72.307030 VAPOR PRESSURE (PSIA) = 0.48366541 CTMT. AIR MASS (LBM) = 81165.

6 N)

. . ,m- -

SUMMARY

OF MEASURED DATA AT 1645 0503

~ ~

' TEMP 1 =- S43.53003 ( 0306.)

TEMP 2= 513.73Y97 ( 0407.} ~

TEMP 3= S43.59003 -

0592.) '

TEMP 4 -- G 4 6. 900v.' ( 07 T. " . ) s TEMP 5" 5 ' 6. M OOT ( 0"17 )

~/ , ? ( ,N . )

! El . ' 6 = SSJ. ,

, . ;g g v. o , q, , < g,. . ,

g.

TEli! 3 = J/ 2. c ) N - '. 1 i 'a1./ '

'~

! E!!F P - 5 / 3 . ; ! v. .11 !: * > .

l EMI ' 10 = G 3 t3. 6 6 0 0 3 ( ~/ ? 7. . * .

TEMP 11 = 539.03003 ( '7936.) '

TEMP 12 u 530.94000 ( 7927.) 7 TEMP 13 = S33.G0000 ( 7003.)

TEMP 14 = 539.95001 ( 792G.)

PRES 1 = 72.779/62 ( 72937.)

VPRS 1 ' O.45619203 ( 7690.)

VPRS 2= 0. 452b94! 9 ( 7656.) -

VPRS 3= 0.5J439440 ( S045.)

4 n O. 45d 3425. ' ( ~/ 6 7 1 . ) ,

VPRS

VPRS S= 0.51405829 ( 8043.)

0.48842564 ( 7597.) .

'W VPRS 6=

CTMT. FREE AIR VOL.

= '229483.

SUMMARY

OF CGRRECTED DATA TIME = 1645 O

DATE = G503 TEMPERATURE (DEGREES R.)

= 549.45038 72.295830

=

CORRECTED PRESSURE (PSIA) -

VAPOR PRESSURE (PSIA)

= 0.48393437 CTMT. AIR MASS (LEM)

= 81147. >

/

F 3 ,- ,

1 84 4

w D

e 0

.s - .

.: . LC s - . . -

l

- / . l N EL DATA AT 1700 0503 '

,-~

SUMMARY

OF I1EA3U.

/ \ -

( G391.)

i v'

)

TEMP 1 = Li43. 5 BOO 2 y TEl@ 2 =- 543.'/8003 ( 841l.) i 3 == hei. 62000 - G595.) ,

f.'. IMP

TEhf' A = b46.91000 ( ED 2 7. )

- s72'.,

'J ! .MP 5 = M a. A ou'

(;596.)

T 6 = 'ub. a5GO2 '

/ +. . S iF ( M 21.

'~ ~

R M.

/_. 3 . ?'- c_nf -

9= 5.'2.73999 ( i 130 7. >

~

4 EHP

' ' ~~

TEMP 9= S75.YB999 (114'32.) i

. TEMP 10 = 53a.64001 ( 789'7.)

= 539.03003 ( 7936.)

TEMP 1.1 o

TEMP 12 = 538.94000 '( 7927.)

,V.'

1EMP 13 2 358.AGOO4 ( 7001.)

i s

TEMP 14 = 538.9299 ( 7906.)

4 n

.. f

' ... . PRES 1 = 72.173904 ( 72931.)

1 = 0.4'i649180 ( 7602.)

VPRS a 2e O.45364368 ( 7663.)

' VPRS r

w VPRS 3= 0.51506698 ( 8049.)

4= 0.45709142 ( 7686.)

- VFRS 5= 0.S1456255 ( 9046.)

" VPRS 6= 0.48926680 ( 7906.)

VPRS t '

j

\ V CTMT. FREE AIR VOL. = 228436.

i v !% o 3

SUMMARY

OF CORRECTED DATA

't FIME = 1700 7

UATE = 0503 e

ei TEMPERATURE (DEGREES R.)

= 549.48260 72.2G9352

=

CORRECTED PRESSURE (PSIA) w VAPOR PRESSURE (PSIA)

= 0.45445386

= 81135.

, CTMT. AIR MASS (LEM) a.

N #

h 9

/

o g ,-

}; v } ,

4 "c s e h d T

9

' ! 4 r-g,9 y.

GUMIMRY OF 11EAS!E<CD DA I A A t 1715 0303 TEMP 1 543.6100G ( 8394.)

(EMP 2 543.00005 ( G413.)

1EMP 3 , 54G.65002 ( 8G9G.)

'IEMP 4 e 546.90004 ( 8731./

IFMP :2 - G4h . 91007, 8, 8724.)

T E Mr' 6 - G 5 3 . 7 3'.>0 4 ( 9'/ 0 6 . )

IE P 7 DDJ.(t0004 ( '/931.)

TEMi' O - U 7 2. O F. 'Y.' (11316.)

ICMP '/ = b/4.vFr// t i l it J D . )

TEMP 10 = G30.63000 ( 7S96.)

TEMP 11 = 539.00000 ( 7933.)

TEMP 12 =- 530.92999 ( 7926.)

TEMP 13 = 538.45001 (.7878.)

TEMP 14 = S38.92004 ( 7925.)

PRES 1 = 72.763837 ( 72926.)

VPRS 1 = 0.45709142 ( 7686.)

VPRS 2= 0.45499283 ( 7672.)

VPRS 3- O.51573926 ( 005!.)

VPRS 4= 0.4G664173 ( 7633.)

VPRS 5= 0.51540309 ( 8051.)

VPRS 6= 0.48R58434 ( 7893.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1715 DATE = 0503 TEttPERATURE (DEGREES R.)

= 549.51019 CORRECTED PRESSURE (PSIA)

= 72.283067 VAPOR PRESSURE (PSIA) = 0.48496881 CTMT. AIR MASS (LDM) = 81125.

O

' []

I

SUMMARY

OF MEASURED DATA AT 1730 0503 TEMP 1 = 543.65002 ( 8398.)

9 TEMP TEMP 2=

3~

543.83002 545.67999

( 8416.)

( 8601.)

TEMP 4 u 547.02002 ( 8735.)

1EMP 5a

~

5 4 n . </ / OO" ( 0730.)

TEMP o - 500.83002 ( 991a.)

rifMP 7 - U39.06000 ( 9937.)

O- 512.90007 (l132".) , f' TEMP 1EMP ? a 574.17979 (11461.-)

TEMP 10 4 538.59003 ( 7892.) '

TEMP 11 = 539.00000 ( 7933.)

TEMP 12 = 538.92999 ( 7926.)

TEMP 13 = 538.42999 ( 7876.)

TEMP 14 ' 530.91003 ( 7924.)

PRES 1 = 72.762871 ( 72920.)

VPRS 1 = 0.45784098 ( 7691.) i VPRS 2= 0.45469296 ( 7670.) l VPRS 3= 0.51674783 ( 805?.) '

VPRS 4= 0.45799080 ( 7642.)

VPRS 5= 0.51590741 ( 8054.)

f VPRS 6= 0.48794913 ( 7834.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA .

TIME = 1730 DATE = 0503 TEMPERATURE (DEGREES R.)

= 549.54803 CORRECTED PREGSURE (PSIA)

= 72.277718 VAPOR PRESSURE (PSIA)

= 0.48515290

= 81112.

CTMT. AIR MASS (LDM)

O

bui1M6kY UF MEASURED DATA AT 1745 0503 lEMP ! u Gol3. 67'/99 ( B401.)

TEMP 2= 543.83000 ( 9421.)

TEMP 3= S45.72OO3 ( 8603.)

TEMP 4 = 547.05005 ( 8738.)

IEMP Ge 546.90799 ( 3732.)

FEhP o = 553. 94 < >O0 ( 9127.)

TEHi / = 539.1(,u03 ( Y'i49. )

I EM:'

l ill !P 'l -

5 7 4 . 1 -t o u t (11 '4 / . )

TE!E' 19 : u . L i v s . ', I*-~~')

TEMP 11 a 538.97003 ( 79.30.)

TEMP 1 '.' n 53G.91003 ( 7924.)

TEMP 13 = S39.41003 ( 7874.)

TEMP 14 = 538.08000 ( 7921.)

PiiES 1 =

72.756905 ( 72914.)

VPRS 1 = 0.45914070 ( 76'i3.)

VPRS 2x 0.45514252 ( 7675.)

VPRS 3= 0.51691590 ( 8060.)

VPRS 4 = 0 . 4 5 ;'G S O 9 0 ( 7 6'! 1. )

VPRS S 0.51540209 ( 8051.) 4 VPRS 6= 0.48710320 ( 7879.)

CTMT. FREE AIR VOL. = 228486.

SUNilARY OF CORREC TED DATA TIME = 1745 -

DATE = 0303 ,

TEMPERATURE (DEGREES R.) = 549.56317 ,

CORRECTED PRESSURE (PSIA) = 72.272003 VAPOR PRESSURE (PSIA) = 0.48490065 l k

CTMT. AIR MASS (LDM) =- 81104. '

i, I

e I

f 9 ,,

I t

f I

m

?>

1000 0303

SUMMARY

OF MEASURED DATA AT TEMP 1 = 543.75000 ( G400.)

2= 543.90002 ( 9423.)

~

TEMP 3= 545.75000 ( 860a.)

TEMP 4 = 547.09003 ( 8742.)

TEMT)

S= 547.04004 t 0737.}

TEMP 6= 559.01001 ( 9234.i TEMP 7= 559.2bOOu ( W50. /

TEMP G= M73.04*r?9 (1t1:3.)

TEMP -

9= 574.25000 (11458./

TEMP ( 7891.)

TEMP 10 = 538.58002 ( 7932.)

" TEMP 11 = 530.98999

( 7923.)

TEMP 12 = 538.90002 l 7869.)

TEMP 13 = 538.36003 ( 7922.)

TEMP 14 = 538.89001 PRES 1 = 72.751939 ( 72909.)

1 = 0.45844045 ( 7695.)

VFF.S ( 7630.)

VPRS 2= 0.45619205 3= 0.51758338 ( 8064.)

VPRS ( 7700.)

VPRS 4= 0.45919001 VPRS 5= 0.51657981 ( 8059.)

6= 0.48731405 ( 7800.)

VPRS

= 228486.

CTMT. FREE AIR VOL.

SUMMARY

OF CORRECTED DATA TIME = 1000 DATE = 0503

= 549.60382 TEMPERATURE (DEGREES R.)

= 72.266418 CORRECTED PRESSURE (PSIA)

= 0.48351916 VAFOR PRESSURE (PSIA)

= 81091.

CTNT. AIR MASS (LBM) 9

!O t

l, .

m -- - __ __ -.

I F

2015 0503 SUM!1f,RY (JF MEASURED DAT A AT 1 = 543.79004 ( 8412.) I TEMP 2= 543.94000 ( 8427.) '

TEMP ( G613.)

IEMP J. = G413.00003 4 e 547.10000 ( 9746.)

IEMP G 5 17 . v200.' ( 0711.)

IEMF -

'/'i 4 2 . )

T Ei'.! ' n := 35 9. U'.'00 '

= Sb i,' . 3:_ v01 ( ?Yh3.1 T Ei :P /

a 37'. 1000) ( ! ! .* 17. i T E Mr-9= S7'!.37000 '114/O.)

TEMP

( 7890.)

TEMP 10 = S39.57001 ( 7929.)

TEMP 11 = 530.96002 ( 7923.)

TEMP 12 = 538.90002 ( 7870.)

TEMP 13 = 538.37000 ( 7920.)

TEMP 14 = 538.G7000 PRES 1 = 72.745972 ( 72903.)

VPRS 1 = 0.45980693 ( 7704.)

2= 0.45544252 ( 767S.)

VPF:S 3= 0.51893313 ( 3072.)

VPRS 4= 0.45904019 ( 7699.)

VPRS 3= 0.51725221 ( 9062.)

VPRS 6= 0.48699638 ( 7878.)

VPRS CTf1T. FREE AIR VOL.

= 229486.

SUMMARY

OF CORRECTED DATA TIME = 1815 DATE = 0503

= 549.64111 TEMPERATURE (DEGREES R.)

= 72.260231 CORRECTED PRESSURE (PSIA)

VAPOR PRESSURE (PSIA)

= 0.48573765

= 81079.

CTMT. AIR MASS (LBM) 9

i i .

.I I

j

$ SUMMI)RY OF MEASURED DATA AT 1030 0503 TEMP 1 = 543.01000 ( 0414.) -

i TEMP 2= 513.97003 ( 8430.>

TEMP 3= b4S.83OO2 ( 0616.)

j IEiiP 4 = 547.17:??? ( 8751.>

TEMP 5a 54/.09003 ( 3742.)

4

' IEh e = 5H9.!6003 ( 0949.)

' TEMP 7= 359.41003 ( 9174./

1

EiiF S & 573.21002 (l1~54.)

TEMP 9= S74.44000 (11477.)

l 539.54004 ( 7887.)

TEMP 10 =

! ' TEMP 11 = 530.95001 ( 7928.)

! TEMP 12 = 538.90002 ( 7923.)

TEMP 13 =- 538.37000 (*7870.)

I TEMP 14 = 538.07000 ( 7920.)

'.I 72.740013 ( 72897.)

PRES 1 =

i

' VPRS 1 = 0.46073198 ( 7710.)

VPRS 2= 0.45694149 ( 7685.)

I VPRS 3= 0.51943749 ( 8075.)

VPRS 4= 0.45949835 ( 7702.)

j VPRS 5= 0.51742023 ( 8063.)

VPRS 6= 0.48683754 ( 7977.)

i CTMT. FREE AIR VOL. = 228406.

i I

J1

SUMMARY

OF CORRECTED DATA i TIME = 1830 DATE = 0503

( ,

+

TEMPERATURE (DEGREES R.)

= 549.66919

)

CORREC1ED PRESSURE (PSIA)

= 72.253906

)

i.

' VAPOR PRESSURE (PSIA)

= 0.48610336

CTMT. AIR MASS (LBM) =* 81068.

i 3

i lO i

i i

i

,. . ,, --- . -.- - e - - - - - - - - - - - - - - -

SUMMARY

OF MEASURED DATA AT 1845 0503 1EMP 1 = G43.HSOO4 ( 8418.)

TEMP .: u 543.98999 ( G432.)

!! IMP 3 .:

".i3.0n005 ( 8o19.)

TEMP el c: 547.21002 ( 075/l.

TEMF b= M 7.1500 ' t 8740.i lEMP 6a 559.27 M ' i W 40.)

! F.13 ' - D d ~, . 50 u 0 . ' t P ri .L . 1 TEllP 3= S73.25000 (11358.)

TEMP 9= 574.41003 (11474.)

TEMP 10 = 538.54999 ( 7883.)

TEMP 11 = S38.97003 (. 7930.)

TEMP 12 = 538.89001 ( 7922.)

TEMP 13 a 530.36005 ( 7869.)

TEMF 14 = 538.87000 t 7920.)

PRES 1 =

72.'734047 ( 72891.)

VPRS 1 = 0.46011523 ( 7706.)

VPRS 2= 0.45694149 ( 7635.)

VPRS 3= 0.52027804 ( 0080.)

VPRS 4 = 0.46042365 ( 7708.)

VPRS 5= 0.51809263 ( eos7.)

VPRS 6= 0.48633'754 ( 7577.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED D'ATA TIME = 1845 DATE = 0503 TEMPERATUR$ (DEGREES R.) = 549.69568 CORRECTED PRESSURE (PSIA) =

72.247704 VAPOR PRESSURE (PSIA) = 0.48634434 CTNT. AIR MASS (LBM) = 81057.

O

SUM 11(iRY OF MEASORED DAT A AT 1900 0503 TEMP 1 = 543.89001 ( D122.)

O TEMP 2= 544.01001 ( 8434.)

545.90002 ( 0620.)

'lEMP 3=

TEMP 4 = S47.23999 ( 8757.)

1EM? U-- 54/.20001 -

!D S .1 TEMP 6 - Ph? . 2 4 V 73 ( 9967.)

539.5.200.1 '7991 i ,

EMP ~/ a .

L72.36*.05 (!136?.>

~

IEMP O~

TEMP 9= 574.4600'z (11479.' ,

TEMP 10 = 538.53003 ( 7886.) '

TEMP 11 = 538.95001 ( 7929.> I l

TEMP 12 = 538.89001 ( 7922.) i TEMP 13 = 538.36005 (* 7869.) '

TEMP 14 = 538.37000 ( 7920.)

PRES 1 = 72.728088 ( 72385.)

VPRS 1 = 0.46073198 ( 7710.)

l VPRS 2= 0.45649190 ( 7682.)

l VPRS 3= 0.52061415 ( 8082.)

VPRS 4= 0.46150303 ( 7715.) ,

VPRS 5= 0.51775632 ( 806S.) .

VPRS 6= 0.48715520 ( 7879.) 1 i

7 CTMT. FREE AIR VOL.

= 228486.

I

SUMMARY

OF CORRECTED DATA TIME = 1900 .

r DATE = 0503 .

549.72803

=

TEMPERATURE (DEGREES R.) >

CORRECTED PRESSURE (PSIA)

= 72.241500 l VAPOR PRESSURE (PSIA)

= 0.48658341 CTM T. AIR MASS (LBM) = 81045.

I ;

i r

I

. t

! i i

1 b

i l

SUMMARY

OF M[~ASURED DATA AT 1915 0503 TEMP 1 = 543.92004 ( 8425.)

1EMP 2= 544.04104 ( 8437.)

TEMP 3= 545.96002 ( 8629.)

fliMP 4 = 547.20003 ( 876L.)

1 EiIF 5= 347.22CO3 ( 9755.)

I EliP 6 " 55?.<!2004 ( 9 4 ~/ 5. ?

IdEP /- 52 V . $7G ? (10001.)

TEMP G- 573.41000 s11371.>

j i Hp o 5 7 o . 60'. ' I ( ! I eF12. )

TEMP 10 2 538.b2OO2 ( 7035.>

TEMP 11 = 538.9500L ( 7928.)

TEMP 12 = G3ts . u /OOO ( 7920.)

TEMP 13 = 538.33002 ( 7866.)

TEMP 14 = 538.85004 ('7918.)

PRES 1 = 72.723114 ( 72800.)

VPRS 1 = 0.46119457 ( 7713.)

VPRS 2= 0.4579f030 ( 7692.)

VPRS 3= 0.52162272 ( 8058.)

VERS 4 = 0.43796106 ( 7705.)

VPRS 5= 0.51876503 ( 8071.)

VPRS 6= 0.48683754 ( 7877.)

CTMT. FREE AIR VOL. = 228486.

SUMMARY

OF CORRECTED DATA TIME = 1915 DA'IE = 0503 TEMPERATURE (DEGREES R.) = 549.76001 CORRECTED PRESSURE (PSIA) = 72.236305 VAPOR PRESSURE (PSIA) = 0.48681200 CTMT. AIR MASS (LDM) = 81035.

O

SUMMARY

OF MEASURED DATA AT 1930 0503

,s TEMP 1 = 543.94000 ( 8427.)

l (]

TEMP 2= 544.0S002 ( 0441.)

TEMP 3= 515.98004 ( 0631.)

TEMP 4 o 547.31000 ( G761.>

TEMP 5= S47.25000 ( G758.)

TEhP 6 a S59.54004 ( 9987.)

TEMP 7= 559.75000 (10000.)

TEMP G= S73.46002 (113/9.)

TEMP '? = 574.63000 (11496.)

TEMP 10 = 533.51001 ( 78S4.)

TEMP 11 = 538.92999 ( 7926.)

TEMP 12 = 530.87000 ,

( 7920.)

TEMP 13 = 538.32001 ( 7865.)

TEMP 14 = 538.84003 ( 7917.)

PRES 1 = 72.716164 ( 72873.)

VPRS 1 = 0.46211985 ( 7719.)

VPRS 2= 0.45769104 ( 7690.)

VPRS 3= 0.52229512 ( 8092.)

VPRS 4= 0.45965260 ( 7703.)

VPRS 5= 0.51859695 ( 8070.)

VPRS 6= 0.48636129 ( 7874.)

CTMT. FREE AIR VOL. = 22G486.

{v]

SUMMARY

OF CORRECTED DATA TIME = 1930 DATE = 0503 TEMPERATURE (DEGREES R.)

= 549.78412 CORRECTED PRESSURE (PSIA)

= 72.229431 VAPOR PRESSU3.E (PSIA) = 0.48672915 CTMT. AIR MASS (LDH) = 81023.

(J

---.s_.--c_ .-_m----- _ - -

- -_ __ _ ., d OUMMARY OF MEASURED DATA AT 1945 0503 TE!1P 1 = 544.00000 ( d433.)

TEMP 2= 544 11005 ( 3444.)

TEMP 3= 546.01001 ( D630.)

TCMF* 4 = 547.5/000 ( 0770.)

TEMP G= 5!7.T2OO! '. 0765.)

TEls ' 6 = 55'..'i'003 ( 9992.>

IEMP 7 - 539. L 4 00:.7 .1*.i7.)

T Ei1P 3= 573.52002 (11 05.)

TEi1P 9= 574.73999 (11507.)

TEMP 10 = 530.51001 ( 7604.)

TEMP 11 == 538.92999 ( 7926.)

TEMP 12 = 538.87000 ( 7920.)

TEMP 13 = 538.29004 ( 7262.)

TEMP 14 n 533.83002 ( 7916.)

FRES 1 = 72.711159 ( 72868.)

VFRS 1 = 0.46211935 ( 7719.)

VFRS 2= 0.438G9026 ( 7699.)

VPRS 3= 0.52313572 ( SO97.)

VPRS 4a 0.46119457 ( 7713.)

VPRS 5= 0.51893313 ( GO72.)

VPRS 6= 0.40651999 ( 7875.)

CTl1T. FREE AIR VOL. = 220486.

SUMMARY

OF CORRECTED DATA TIME = 1945 DATE = 0503 TEMPERATURE (DEGREES R.) = 549.92379 CORRECTED PRESSURE (PSIA) = 72.223938 VAPOR PRESSURE (PSIA) = 0.48725057 CTMT. AIR MASS (LDM) = 01011.

O

. _ - - .--n.....-. . , . , - - . _-_ -

r

SUMMARY

Ol' MEASURED DATA AT 2000 OSO3

/^\ ( b432.)

TEMP = 543.90999

' _)

1

( ( 8446.)

TE!1P 2= S44.13000 TEMP 3= 546.06u00 ( 8639.)

1EMP 4 = 547.38000 ( 8771.)

TEMP 5= 547.33002 ( B766.)

TEMP 6 = SS9.67999 (10001.1 TEMP 7= 559.92004 (1902S.)

TEMP G= 573.61005 (11394.>

TEMP 9= 574.79004 (11512.)

TEt1P 10 = 539.50000 ( 7883.)

TEMP 11 = 538.94000 ( 7927.)

TEMP 12 = 538.88000 (.7921.)

TEMP 13 = 530.28003 ( 7861.)

TEMP 14 = 538.83002 ( 7916.)

PRES 1 = 72.705231 ( 72862.)

VPRS 1 = 0.46211985 ( 7719.)

VPRS 2= 0.45965260 ( 7703.)

VPRS 3= 0.52330381 ( 8098.)

VPRS 4= 0.46073198 ( 7710.)

VPRS 5= 0.51960564 ( 8076.)

VPRS 6= 0.48699638 ( 7878.)

CTMT. FREE AIR VOL. = 228486.

O)

\_

SUMMARY

OF CORRECTED DATA TIME = 2000 DATE = 0503 TEMPERATURE (DEGREES R.) = 549.84912 CORRECTED PRESSURE (PSIA) = 72.217636 VAPOR PRESSURE (PSIA) = 0.48759496 CTMT. AIR MASS (LDM) = 81000.

t j r

'%/

Sut1 MARY OF MEASURED DATA AT 2015 0503 TEMP 1 = 544.01001 ( B434.)

TEllP 2= G44.16003 ( 8449.)

1EMP 3a 546.10004 ( 8643.)

' TEMP 4 = 547.42004 ( 8775.)

TEMP 5= 547.35001 ( 876R.)

TE!!P 6= 559.7608.1 (10009.)

TEMP 7 =2 5e0.03003 (10036.)

TEMP H - 573.63 OOC (11396.)

TEMP 9= 574.79004 ( 1 151'.-: . i TEMP 10 = S38.50000 ( 7883.)

TEMP 11 = 538.92004 ( 7925.)

TEMP 12 = 538.87000 ( 7920.)

TEMP 13 = .538.29004 ( 7862.)

TEMP 14 = 533.83002 ( 7916.)

PRES 1 = 72.699265 ( 72856.)

VPRS 1 = 0.46366182 ( 7729.)

VFRS 2= 0.46026939 ( 7707.)

VFRS 3= 0.52450454 ( 8103.)

VPRS 4= 0.46242818 ( 7721.)

VPRS 5 == 0.51943749 ( 8075.)

VPRS 6= 0.48715520 ( 787(? . )

CTMT. FREE AIR VOL. == 228486.

SUMMARY

OF CORRECTED DATA TIME = 2015 DATE = 0503 TEMPERATURE (DEGREES R.)

= 549.87012 CORRECTED PRESSURE (PSIA)

= 72.211060 VAPOR PRESSURE (PSIA)

= 0.48820779 CTMT. AIR MASS (LBM) = 80990.

O

SUMMARY

OF MEASURED DATA AT 2030 0503

[

s l TEMP 1 = 544.06000 ('8439.) '

TEMP 2= 544.17999 ( 8451.)

TEMP 3= 546.12000 ( B64D.)

TEMP 4= 547.47003 ( 8780.)

TEMP 5= 547.42004 ( 8775.)

TEMP 6= 559.84003 (1001'7.)

TEMP 7a 560.08002 (10041.)

TEMP 8= 573.73004 (11406.)

TEMP 9= 574.87000 (11520.)

TEMP 10 = 538.48999 ( 7882.)

TEMP 11 = 538.91003 ( 7924.)

TEMP 12 = 538.85004 ,

( 7918.)

TEMP 13 = *538.29004 ( 7862.)

TEMP 14 = 538.82001 ( 7915.)

PRES 1 = 72.693290 ( 72850.)

VPRS 1 = 0.46381605 ( 7730.)

VPRS 2= 0.46026939 ( 7707.)

VPRS 3= 0.52502322 ( 8103.)

VPRS 4= 0.46319923 ( 7726.)

VPRS 5= 0.52078229 ( 8093.)

VPRS 6= 0.48604360 ( 7872.)

CTMT. FREE AIR VOL. = 228486.

(~g

, I

~

SUMMARY

OF CORRECTED DATA TIME = 2030 DATE = 0503 TEMPERATURE (DEGREES R.)

= 549.90692 CORRECTED PRESSURE (PSIA)

= 72.205086 VAPOR PRESSURE (PSIA) = 0.48821190 CTMT. AIR MASS (LBM) = 80978.

t

/

q l

1

SUMMARY

OF MEASURED DATA AT 2045 0503 TEMP 1 = 544.04004 ( 8437.)

TEMP 2= 544.23004 ( 8456.) .

TEMP 3= 546.15002 ( 8648.)

TEMP 4= 547.50000 ( 8783.)

TEMP 5= 547.44000 ( 8777.) l TEMP 6= l 559.92?99 (10026.) 1 TEMP 7= 560.17999 (10051.)

TEMP O= 573.70003 (11411.)

TEMP 9, 574.92004 (11525.)

TEMP 10 = 538.48004 ( 7881.)

l TEMP 11 = 538.90002 ( 7923.)

TEMP 12 = 538.86005 ( 7919.)

TEMP 13 a 538.27002 ( 7860 )

TEMP 14 = 538.01000 ( 7914.)

PRES 1 =

72.687340 ( 72844.)

VPRS 1 =

0.46350759 ( 7728.)

VPRS 2= 0.45965260 ( 7703.)

VPRS 3= 0.52371481 ( 8112.)

VPRS 4 = 0.46289089 ( 7724.)

VPRS 5= 0.51994175 ( 8078.) .

VPRS 6 = 0.48667884 ( 7876.)

iI CTMT. FREE AIR VOL. = 228486.

e

SUMMARY

OF CORRECTED DATA l

TIME = 2045 DATE = 0503 '

, TEMPERATURE (DEGREdS R.) = 549.93091 !

CORRECTED PRESSURE (PSIA) = 72.199120 J VAPOR PRESSURE (PSIA) =

0.48822179 CTMT. AIR MASS (LDM) = 80968.

P i ;

I s'

6

.-. . . . n ,, n - - = u. -~ -. m A ..*~~ n. = = - - --- -

-y i

) HATCH 2 D?Y'.lELL BYRAFI APEA TEIT BYPARS AO A (IOUARE INCHES)

TOTAL-TIME ANALYSIT TIME AND DATE AT START OF TEST: 415 0504 -

ELAPIED TIME: 4.00 HOURS ,

TIMF DPYTMP DRYPRS DRYVAD TORTMP TDRPRS TORVAP APEA als 554.484 16.390 0.273 536.224 14.709 0.453 4 <n 554.417 16.399 0.291 536.740 14.743 0.459 0.05337 445 *.54.679 16.392 0.299 536.990 14.764 0.462 0.04764 e.n o 554.755 16.397 0.296 537.124 14.785 O.466 0.04756 515 554.706 16.339 0.302 537.226 14.803 0.469 0.04717

e. 9 0 594.A57 16.392 0.309 537.299 14.824 0 . 4 7.1 0.04901 54s 954.907 16.395 0.313 537.332 14.343 0.473 0.04977 Ann 554.947 16.394 0.318 537.462 14.362 0.473 0.05101 A15 5".4.975 16.360 0.322 537.520 14.876 0.474 0.05006 Aan 555.029 16.362 0.327 537.594 14.S?5 0.475 0.05106 445 555.065 16.363 0.331 537.640 14.913 0.475 0.05210 700 955.106 16.363 0.335 537.690 14.931 0.476 0.05273 715 555.159 16.364 0.339 537.732 14.950 0.476 0.05357 73n 555.192 16.364 0.343 537.768 14.966 0.476 0.05357 73 745 i 555.229 16.363 0.346 537.910 14.993 0.477 0.05335 t/ Ann 555.245 16.363 0.349 537.344 15.002 0.476 0.05435 A15 555.290 16.362 0.352 537.870 15.019 0.477 0.05511 TO?ll? FPEE RIP VOLUME (CU. FT.) = 82220.00 CDEFFICIENT OF DISCHARGE = 0'.60 MAN MEARURED BYPAST APEA (SQ. IN.) = 0.05172 I4E LD'.lER 95% CONCIDENCE LIMIT = 0.04748 THE ttPPER 95% CONCIDENCE LIMIT = 0.06036 T4: CALCULATED BYPRES APEA = 0.05417 M - ,. _

,,_ y_

'w -

>v

l ~UMM90Y 4 OF MEAIUoED DATA AT 415 0504 TEMo 1 = 542. 01 re / 3234.)

TEMD 2= 542.220 ( 9255.)

TEMD 3= 544.310 ( 3464.)

TEMD 4 = *4'..-00

. .' ::6 (i ?: . '.

TEMo 5= 546.110 <. 3644.)

TEMP 4 = *556.390 ( 9722.)

TEMP 7= 557.070 ( 9740.)

TEMP 3= 572.130 (11251.)

TEMP 9= 573.360 (11429.)

TEMP 10 = 535.970 ( 7630.)

TEMP 11 = 536.410 ( 7674.)

TEMP 12 = 536.350 ( 7663.)

TEMo 13 = 535.770 ( 7610.) -

TEMP 14 = 536.620 ( 7695.)

16.390 < 164 03. )

PRES 1 = .

PRES 2= 14.703 ( 14610.)

VPPS 1 = 0.263 ( 6068.>

VPRS 2= 0.256 ( 5994.)

VPRS 3= 0.239 ( 6344.)

VPPS 4 = 0.253 ( 5963.)

VPRS 5= 0.296 ( 6403.) '

VPRS 6= 0.453 ( 7659.)

SUMM9PY OF CORPECTED DATA

- TIME = 415 DATE = 0504 DRYWELL TORUS TEMPERATURE (DEGREES R.) 554.484 536.224 PRESSURE (PSIR) 16.390 14.703 VAPOP PDESSUDE (PSIA) 0.273 0.453

-~~ :--

~~~~"~~~~~ m O

_y____________.____..

.e

/

/ IUMMAPY OF MERIV0ED DATA AT 430 0504

./

TEMo 1 = 54?.130 <' 3 2 4.:. . .

TEMo 2= 542.330 .: 3272.s TEMO 3= '544.500 ( 3433.)

TEMD 4 = 545.330 ( 3 21.)

TEMP 5= 546.260 ( 3659.)

i TEMP 6= 556.930 ( 9731.)

TEMP 7= 557.150 ( 3743.) ,

TEMP 3= 572.290 (11262.)

TEMP 9= 574.060 (11439.)

' TEMP 10 = 536.350 ( 7663.) -

TEMP 11 = 537.120 ( 7745.)

. TEMD 12 = 536.390 ( 7722.)

TEMP 13 = 536.240 ( 7657.)

TEMP 14 =. 537.100 ( 7743.)

PDES 1 = 16.399 ( 16412.)

PRES 2= 14.743 ( 14645.>

VPRS 1 = 0.276 ( 6205.)

VPRS 2= 0.261 ( 6051.) '

VPRS 3= 0.297 ( 6420.) g VPRS 4= 0.259 ( 6033.)

VPPS 5= 0.302 ( 6463.)

VPPS 6= 0.453 ( 7691.)

SUMMARY

OF CDPRECTED DATR TIME = 430 DATE = 0504

' DRY'.lELL TORUS

,\

TEMoERATUoE (DEGREES P.) 554.617 536.740 PREGSilPE (PTIA) 16.399 14.743 k,

VAPOR PRESEURE (PSIA) 0.281 0.453

\ -- . - . - . - _ .

SUMMAOY OF MEALUPED DATA AT 445 0504 TEMP 1 = 542.170 ( 9250.)

TEMP 2= 542.500 ( 9233.3 TEMP 3= 544.590 e. 3492.>

TEMP 4 = 546.010 ( 8634.)

TEMo 5= 546.340 ( 3667.)

TEMP 6= 557.010 ( 9734.)

TEMP 7= 557.190 ( 3752.)

TEMP 9= 572.350 (11263.)

TEMP 9= 574.020 (11435.)

TEMP 10 = 536.560 ( 7699.) '

- TEMP 11 = 537.440 -( 7777.)

TEMP 12 = 537.190 ( 7752.)

TEMP 13 = 536.470 ( 7$30.)

537.240 TEMD 14 = ( 7757.)

PRES 1 = 16.392 ( 16405.)

PRES 2= 14.764 ( 14666.)

VPRS 1 = 0.239 ( 6335.)

VPRS 2= 0.266 ( 6109.)

VPRS 3= 0.305 ( 6495.) ,

VPPS 4 = 0.267 ( 6120.)

VPRS 5= 0.309 ( 6536.)

VPPS 6= 0.462 ( 7719.)

SUMMARY

OF.COPPECTED DATA TIME = 445 DATE = 0504 DRYWELL TORUS TEMPERATURE (DEGPEES R.) 554.678 536.930 PRESSURE (PSIA) 16.392 14.764 VAPOR PPESSURE (PSI A) 0.289 0.462 N S^ _- .

_ __ _ m.,. .. ._ .~.~,. 3: 9 O

V

w ~ --

.,aa..- w ',s

,s y SUMMAPY 3 MEA 5UPED DATA AT 500 0504 TEMP 1 = 542.230 ( S256.)

TEMP 2= 542.590 ( 32?2.)

TEMP 7 = 544.630 ( 3502.)

TEMP 4 = 546.110 s 9644.s TEMP 5= 546.430 ( 9676.)

TEMo 6= 557.050 ( 9733.)

TEMo 7= 557.250 ( 9753.)

TEMP R = 572.410 (11274.)

TEMo 9= 574.100 (11443.) .

TEMP 10 = 536.720 (. 7705.)

TEMP 11 = 537.630 ( 7796.) '

TEMD 12 = 537.340 ( 7767.)

TEMP 13 = 536.580 ( 7691.)

TEMP 14 = 537.350 ( 7768.)

PRES 1 = 16.397 ( 16410.)

PRES 2= 14.735 ( 14687.)

VPPS 1 = 0.294 ( 6339.)

VPRS 2= 0.272 ( 6171.)

VPRS 3= 0.313 ( 6568.)

VPPS 4 = 0.274 ( 6192.) .

VPRS 5= 0.317 ( 6607.)

VPRS 6= 0.466 ( 7744.)

O

SUMMARY

OF COPPECTED DATR TIME = 500 DATE = 0504 DRYWELL TORUS TEMPERATURE (DEGREES R.) 554.755 537.124 PRESSUPE (PSIA) 16.397 14.795 VAPOR PRESSUPE (PSIA) 0.296 0.466

~ . . . , __

^

. _ . , . ._wp hr- ,_~y, --N 1 0

., us. ...ww. .. aswo -., um ,.. **'***t_,.

,2 . % m 9. ..

IUMM90Y DC ME470?ED DATA AT 515 0504 T E*10 1 = 54?.290 ( 3262.)

TEMP 2= 542.650 < 32.M: . )

TEMP 3 =* 544.740 ( 3507.)

TEMP 4 = 546.210 < 3654.)

TEMP 5= 546.440 ( 3632.)

TEMP 6= 557.050 ( 9733.)

TEMP 7= 557.260 ( 9759.)

TEMP 3= 572.420 (11275.)

TEMP 9= 574.090 (11442.)

TEMP 10 = 536.320 ( 7715.) -

TEMP 11 = 537.730 . 7311.)

TEMP 12 = 537.410 ( 7774.)

TEMD 13 = 536.650

( 7693.) .

TEMP 14 = 537.470 ( 7780.)

PRES 1 = 16.338 ( 16401.)

PRES 2= 14.903 ( 14705.)

VPRS 1 = 0.296 ( 6413.)

VPRS 2= 0.278 ( 6233.) '

VPPS 3= 0.320 ( 6623.)

VPPS 4= 0.279 ( 6244.)

VPRS 5= 0.324 ( 6668.)

VPRS 6= 0.469 ( 7760.)

d j

SUMMARY

OF CDPRECTED DATA TIME = 515 I DATE = 0504 DRYtJELL TORUS f

! TEMPEPATU9E (DEGREES R.) 554.796 537.226 l

PRESSURE (PSIA) 16.333 14.803 l

VAPOR PRESSUPE (PSIA) 0.302 0.469

-

y -~ ~ ,**MMP'**********

. - m z- -

7, .- -- ,

_3 s

l l

l

, - - -+y-w w p yg-;y-+m ,,,--v.v+y--,y -

-m- -e, -w- h --

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

. a.

530 0504 !

IUMM40Y 3: MERIUoED DAT9 AT 1 = 542.350

. 3263..

TEMo < 3303.)

TEMo 2= 542.700 TEMo 3= 544.300 ( 3513.'.

TEMo 4 = 546.290 ( 3662.)

TEMo 5= 546.590 ( 3 6 L. 2. )

TEMP 6= 557.070 ( 9740.)

TEMP 7= 557.290 ( 9762.)

TEMP 3= 572.450 (11279.)

TEMP 9= 574.160 (11449.) '

( 7722.) ;

TEMo 10 = 536.330 ( 7323.)

TEMP 11 = 537.900 ( 7731.)

TEMP 12 = 537.430 ( 7706.)

TEMP 13 = 536.730 ( 7732.)

TEMP 14 = 537.490 PRES 1= 16.392 ( 16405.)

PRES 2= 14.324 ( 14725.>

VPPS 1= 0.302 ( 6462.)

0.285 ( 6299.)

VPRS 2=

VPPS 3= 0.326 ( 6637.)

VPRS 4= 0.286 ( 6314.)

VPPS 5= 0.330 ( 6724.)

6= 0.471 ( 7775.)

VPRE 9

1

SUMMARY

DF CORRECTED DATR i

TIME = 530 4

DATE = 0504 TORUS DRYkiELL 554.957 537.293 TEMPE9ATUPE (DEGREES P.)

16.392 14.324 POESSuoE (PSIA)

O.303 0.471 VAPOP PRESSURE (PSIA)

~ ~ ~V

- - - ~ . .

_:~,m ww-

,n.-..-. ;--.

9

IUMM40Y OF MEAiUPED DATA AT 545 0504 .

TEMo 1 = 542.410 < 3274.)

TEMo 2= 542.770 ( :310.)

TEMo 3= 544.360 . 3519.'.

TEMo 4= 346.360 ( 3669.s TEMP 5= 546.650 ( 36??.)

TEMP 6= 557.110 ( 9744.)

TEMP 7= 557.330 ( ??66.)

TEMP 8= 572.490 (11232.)

TEMP 9= 574.170 (11450.)

TEMP 10 = 536.970 ( 7730.)

TEMP 11 = 537.920 ( 7825.)

TEMP 12 = 537.600 ( 7793.)

TEMP 13 = 536.910 ( 7714.)

TEMP 14 = 537.610 ( 7794.) .

PRES 1 = 16.395 ( 16403.)

PRES 2= 14.343 ( 14744.)

VPRS 1 = 0.302 ( 6466.)

VPRS 2= 0.291 ( 6359.)

VPPS 3= 0.333 ( 6743.) -

VPRS 4= 0.292 < 6369.)

VPRS 5= 0.336 ( 6775.)

YPRS 6= 0.473 ( 7787.)

U

SUMMARY

OF CORRECTED DATR TIME = 545 e DATE = 0504 DRYWELL TORUS 554.907 537.332 l TEMPEPATURE (DEGREES R.)

5 16.395 14.843 j

PRESSURE (PSI A) 0.313 0.473 ;

i g VAPOR PRESSURE (PSIA) ;

. s

=..,,,

% T

- *m'****"'*******

f..

-~ . . m - W-

"" " ' ^ " "

p ,-

SUMS 1RPY OF MERIUOED DATA AT 600 0504 TEMo 1 = 542.470 t 3230.'s TEMP 2= 542.320 ( 3315.4 TEMD 3= 544.930 ( 9526.)

TEMP 4 = 546.420 ( 9675.)

TEMP 5= 546.730 ( 3706.)

TEMP 6= 557.110 ( 9744.) ,

TEMP 7= 557.360 ( 9769.)

TEMo 9= 572.490 (11232.) -

TEMP 9= 574.190 (11451.)

TEMP 10 = 537.040 ( 7737.)

TEMP 11 = 533.060 ( 7939.)

TEMP 12 = 537.690 ( 7801.)

TEMP 13 = 536.860 ( 7719.)

TEMP 14 = 537.670 ( 7800.)

PRES 1 = 16.399 ( 16411.)

PRES 2= 14.362 ( 14763.)

VPPS 1 = 0.306 ( 6503.)

VPPS 2= 0.296 ( 6412.) '

VPPS 3= 0.333 ( 6799.)

VPRS 4= 0.297 ( 6420.)

VPRS 5= 0.342 < 6927.)

VPPS 6= 0.473 ( 7791.)

O

SUMMARY

OF CDPRECTED DATA TIME = 600 DATE = 0504 DPYidELL TORUS 554.947 537.462 I

TEMPEPRTURE (DEGPEES P.)

14.862 PRESSUPE (PSIA) 16.398

\ ~

e

\ 0.313 0.473 VAPOP PPESSURE (PSIA) m "~~

-_- : ww e nwpo.ww; ~""

O i

. 2 <,a w ~~ + "n-& a .x.n w r~ n ~... ha u sto.~;,;. # ' &

IUMMAPY Ut- ME9? PED DATA AT 615 0504 f~'

TEMo 1 = ' 542.490 ( 9291.)

TEMo 2= 522.350 ( 3313.s TEMP 3= 544.970 ( 9530.)

TEMP 4 = 546.450 ( 9679.)

TEMP 5= 546.790 ( 9712.'s TEMP 6= 557.110 ( 9744.)

TEMD 7= 557.370 ( 9770.)

TEMP 9= 572.550 (11233.)

TEMP 9= 574.170 (11450.)

TEMD 10 = 537.120 ( 7745.)

TEMo 11 = 539.120 ( 7945.)

TEMP 12 = 537.770 ( 7910.)

TEMP 13 = 536.920 ( 7725.)

TEMP 14 = 537.670 ( 7900.)

PRES 1 = 16. 360 < 16373. )

PRES 2= 14.376 ( 14777.)

VPRS l'= 0.309 ( 6533.)

VPRS 2= 0.301 ( 6455.) -

VPPS 3= 0.342 ( 6929.)

VPRS 4 =- 0.302 ( 6462.)

VPPS 5= 0.347 ( 6965.)

VPRS 6= 0.474 ( 7799.)

SUMMARY

OF CORRECTED DHTR TIME = 615 DATE = 0504 DRYWELL TORUS TEMPEPRTURE (DEGREES R.) 554.975 537.520 PPESSURE (PSIR) 16.360 14.876 VAPOR PPESSURE (PSIR) 0.322 0.474 '

s...

t ' **Rbe . .e,

.~.

. , - - _ - ,_ _ _ _ ' . - _ _ , _ <wwo -e m-s _ .n '

f

.,,, B as. a~-*~..~. + u,+ s.u.n.s w .;., _.__,_ ,,,.

TUMM90Y DC '1ERIUPED D9TA AT 630 0504 TEMP 1 = 542.560 ( 3299.)

TEMo 2= 542.920 ( 3325.:'

TEMP 3= 545.040 ( 9537.)

TEMo 4 = 546.510 ( 8634.)

TEMP 5= 546.870 ( 3720.)

TEMo 6= 557.140 ( 9747.) -

TEMP 7= 557.400 ( 9773.)

TEMP 9= 572.560 (11299.) ~

TEMP 9= 574.220 (11455.)

TEMP 10 = 537.170 ( 7750.)

TEMo 11 = 533.190 ( 7952.)

TEMP 12 = 537.380 ( 7822.)

TEMP 13 = 536.970 ( 7730.)

TEMD 14 = 537.710 ( 7904.)

PRES 1 = 16.362 ( 16375.)

PRES 2= 14.895 ( 14796.)

VPR3 1 = 0.313 ( 6572.)

VPPS 2= 0.306 ( 6503.) ,

VPPS 3= 0.347 ( 6869.)

VPRS 4 = 0.306 ( 6502.)

VPPS 5= 0.351 ( 6904.)

VPPS 6= 0.475 ( 7805.)

O

SUMMARY

OF COPPECTED DATA .

TIME = 630 DATE = 0504 DRYWELL TORUS TEMPEPATUPE (DEGoEES P.) 555.029 537.594 '

PRESTUPE (PSIA) 16.362 14.395 j VAPDP PPESTURE (PSIA) 0.327 0.475 i

I

~~*'"~I~- _._

l

- , w ~ ~ ~ *~ m ~* *

~ -. . ,

~

)

. ., 7 .

IUMM90Y OF MEATUoED DATA AT 645 0504

' i.

TEMP 1 = 542.650 ( 9293.) jt

( TE*1P 2= 54?.970 < 3330.:' f TEMP 3= 545.090 ( 3542.>

M TEMP 4 = 546.530~ ( 3691.) _

TEMP 5= 546.910 ( 3724.)

TEMD 6= 557.170 ( 9750.>

TEMP 7= 557.420 ( 9775.)

TEMP 9= 572.610 (11294.) -

TEMP 9= 574.160 (11449.)

TEMP 10 = 537.220 < 7755.)

TEMP 11 = 533.250 < 7859.)

TEMP 12 = 537.940 ( 7327.)

TEMP 13 = 537.010 ( 7734.)

TEMP 14 = 537.730 ( 7811.)

n PRES 1 = 16.363 ( 16376.)

PRES 2= 14.913 ( 14914.) ,4 VPPS i= 0.317 ( 6607.)

V?RS 2 =- 0.310 ( 6544.)

VPPS 3= 0.352 ( 6903.)

VPRS 4= 0. Ff 0 ( 6543.)

VPPS 5= 0.356 ( 6944.)

VPRS 6= 0.475 ( 7803.)

- ' s

' i *

?

e .

SlJMMAPY OF CORRECTED DATA '

g'

)

TIME = 645 %f" DATE = 0504 j, ,

{,, ,

~

l DPYlELL TORUS,'i b TEMPEPATUOE (DEGREES P.) 555.065 537.640 .

l - i , .

\

PRESSUPE (PSIA)

,1 6.363 14.'913

' O.33,1 ,.O.475

' VAPOR PPESSURE (PSIA) '

\* ~

! t ,

i

,r ,

~% ,

l

. + - , .

,A . .lt A_

/

g W ,

')

f N

~

,_,.J,..~~~~~===:=~~~*-~**~~~~~~--.-

O SUMMAPY OF MEASURED DATA AT 700 0504 TEMD 1 = 542.700 ( 3303.)

TEMP 2= 543.010 ( S334.)

TEMP 3= 545.160 ( 9543.)

TEMP 4 = 546.620 ( 9695.)

TEMP 5= 546.960 ( 3729.)

TEMD 6= 557.130 ( 9751.)

TEMP 7= 557.430 ( 9776.)

TEMP 9= 572.610 (11294.)

TEMP 9= 574.260 (11459.)

TEMo 10 = 537.260 ( 7759.)

TEMP 11 = 538.300 ( 7963.)

TEMP 12 = 539.040 ( 7837.)

TEMP 13 = 537.050 ( 7733.)

TEMP 14 = 537.800 ( 7913.)

' PRES 1 .= 16.363 ( 16376.) -

PRES 2 =. 14.931 ( 14832.)

- VPPS 1 = 0.320 ( 6633.)

VPRS 2= 0.315 ( 6595.)

4 "VPDS 3= 0.356 ( 6940.)

VPRS 4= 0.315 ( 6599.)

' VPP3 5= 0.360 ( 6975.)

T 0.476 ( 7807.)

VPRS 6=

i SUMMROY OF CORRECTED DATA 1

1 T UE = 700 DATE = 0504 DRYWELL TORUS TEMPERATUPE (DEGREES P.) 555.106 537.699 1

PRESSURE (PSIA) 16.363 14.931 VADDP PPESSUPE (PSIA) 0.335 0.476 l

l *-

* *_ , _ 7 -- sagg .. _ _ , , ,, , , , , , , , ,,

i

. sY n 'se

, ,, p . f *'% ,,. .* **de* w . A *Qs* *

x .

(d IUMM: TOY 0 MERIURED DATA AT 715 0504 TEMP 1 = 542.750 ( 9303.)

TEMo 2= 543.060 ( 9339.)

TEMo 3= 545.220 ( B555.)

TEMP 4 = 546.690 ( 9702.)

TEMP 5= 547.060 ( 9739.)

TEMP 6= 557.190 ( 9752.)

TEMP 7= 557.470 ( 9780.)

TEMP 3= 572.630 (11296.)

TEMP 9= 574.300 (11463.)

TEMP 10 = 537.300 ( 7763.)

TEMP 11 = 539.340 ( 7867.)

TEMP 12 = 533.090 ( 7842.)

TEMP 13 = 537.070 ( 7740.)

TEMP 14 = 537.360 ( 7819.)

PRES 1= 16.364 ( 16377.)

PPES 2= 14.950 < 14850.)

VPRS 1 =. 0.323 ( 6663.)

VPRS 2= 0.319 ( 6623.)

VPRS 3= 0.359 ( 6970.)

VPRS 4 = 0.319 ( 6612.)

VPP3 5= 0.364 ( 7003.)

VPRS 6= 0.476 ( 7906.)

SUMMARY

OF CORRECTED DATA TIME = 715 DATE - 0504 DRYWELL . TORUS TEMPEPATUPE (DEGREES R.) 555.159 537.732 PPESTURE (PSIA) 16.364 14.950 VAPOP POESSUPE (DSIA) 0.333 0.476 9

'neR

.c-. ._ -. n _ ..._,_ .., ,_.

J

SUMMARY

OF MEAIURED DATA AT 730 0504 TEMD 1 = 542.790 ( 9312.)

TEMP 2= 543.100 ( 9343.)

I TEMD 3= 545.270 ( 3560.)

TEMP 4 = 546.730 ( 9706.)

TEMP 5= 547.120 ( 9745.) l TEMD 6= 557.200 ( 9753.) l TEMD 7= 557.490 ( 9791.) l TEMP 9= 572.670 (11300.)

TEMP 9= 574.300 (11463.)

TEMP 10 = 537.340 ( 7767.)

TEMP 11 = 539.390 ( 7872.)

TEMP 12 = 533.110 ( 7844.)

TEMP 13 = 537.120 ( 7745.)

TEMP 14 = 537.980 ( 7821.)

PRES 1 = 16.364 ( 16377.)

PRES 2= 14.966 ( 14866.)

VPRS 1 = 0.327 ( 6697.)

VPRS 2= 0.322 ( 6654.)

VPPS 3'= 0.363 ( 6997.)

VP?S 4= 0.322 ( 6646.)

VPRS 5= 0.369 ( 7037.)

VPRS 6= 0.476 ( 7810.)

1

SUMMARY

OF CORRECTED DATA TIME = 730 DATE = 0504 DRYWELL TORUS TEMPERATURE (DEGREES R.) 555.192 537.768 l

PRESSUPE (PSIA) 16.364 14.966 VAPOP PRESSURE (PSIA) 0.343 0.476

~-

- -- -A' O

e .~ r ,wW' ..wrewas.~ &~ u ww ...,,. . _ . . ,~ _~ .

"**"~

,, s. Aw onMaPY OF MEASURED DATA AT 745 0504

' 1 = 542.320 ( 9315.)

TEMo TEMP 2= 543.140 ( 3347.)

TEMo 3= 545.320 ( 8565.)

TEMP 4 = 546.730 ( 9711.)

TEMP 5= 547.150 ( 9748.)

TEMP 6= 557.220 ( 9755.) .

TEMP 7= 557.500 ( 9793.)

TEMP 9= 572.710 (11304.)

TEMP 9= 574.340 (11467.)

TEMP 10 = 537.330 ( 7771.)

TEMP 11 = 539.400 ( 7873.)

TEMP 12 = 533.190 ( 7851.)

TEMP 13 = 537.160 ( 7749.)

TEMP 14 = 537.930 ( 7826.)

PRES 1 = 16.363 ( 16376.)

PRES 2= 14.933 ( 14883.)

VPRS 1 = 0.330 ( 6723.)

VPRS 2= 0.326 ( 6697.' '

VPRS 3= 0.366 ( 7025.)

VPRS 4= 0.325 ( 6677.)

VPRS 5= 0.371 ( 7060.)

VPRS 6= 0.477 ( 7813.)

O

SUMMARY

OF CORRECTED DATA TIME = 745 DATE = 0504 f DRYWELL TORUS l MM'cc4TUoE (DEGREES R.) 555.228 537.810 I " ' E ^ " ' F

S I'D 16.363 14.983

~

+ Vappe everinog <pgIA) 0.346 0.'477

~. . "

W WW - *

'" M g

~~~T-. ~^, g[ ~ _gaperQ RWy p fw ,~-n.^ ^ Ws ' '

N A " " " #

i l

I

~ , w . :-:= = =- - ~ ~ ~~~ ~ r

.+.m.n w<.-. .,,p,.+ ~'

, . . . . . ,, .; p.m ~

S00 0504

_UMMARY OF MEAEUPED DATA AT T=Mo 1 = 542.370 ( 3320.) h TEMo 2= 543.170 ( 3350.)

TEMP 3= 545.360 ( 3569.)

TFMP 4 = 546.920 ( 9715.)

TFMP 5 = 547.220 ( 3755.)

TEMP 6= 557.230 ( 9756.)

TEMP 7= 557.520 ( 9785.)

TEMP 9= 572.700 (11303.)

TEMP 9= 574.250 (11459.)

TEMP 10 = 537.430 ( 7776.)

TEMP 11 = 539.410 ( 7374.)

TEMP 12 = 539.220 ( 7355.)

TEMP 13 = 537.170 ( 7750.)

TEMP 14 = 537.990 ( 7832.)

PRES 1 = 16.363 ( 16376.)

PRES ?= 15.002 ( 14902.)

VPPS 1 = 0.334 ( 6752.)

VPPS 2= 0.329 ( 6714.) ,

VPPS 3= 0.369 ( 7050.)

VPPS 4= 0.329 ( 6702.)

VPPS 5= 0.373 ( 7033.)

VPPS 6= 0.476 ( 7811.)

O

SUMMARY

OF CORRECTED DATR TIME = 900 DATE = 0504 i

l1 DRYblELL TOPUS

\\

l7 TrMer 4T9;E (DEGREES R.) 555.245 537.844 l t PSF ~'90E (P?tA) 16.363 15.002 l l l t

' t VAPD* POEEIURE <P!1R> 0.349 0.476 t '

\

l

~

~""~"~~~,,n.. __

9

~'* '

,,,n a w ~~~u 315 0504 IUMMAoY OF MEASURED DATA AT TEMP 1 = 542.920 ( 9325.)

TEMP 2= 54?.220 ( 9355.)

TEMo 3= 545.400 ( 3573.)

TEMo 4 = 546.960 ( 8719.)

TEMP =. = 547.270 ( 3760.)

TEMo 6= 557.260 ( 9759.)

TEMP 7= 557.530 ( 9786.)

TEMP 8= 572.730 (11306.)

TEMP 9= 574.340 (11467.)

TEMP 10 = 537.430 ( 7776.)

TEMP 11 = 539.450 ( 7878.)

TEMP 12 = 533.250 ( 7853.)

TEMP 13 = 537.210 ( 7754.)

TEMP 14 = 538.010 ( 7934.) .

PRES 1 = 16.362 ( 16375.)

PRES 2= 15.019 ( 14919.)

VPRS 1 = 0.336 ( 6770.)

VPRS 2= 0.332 ( 6740.)

VPRS 3= 0.372 ( 7070.) ,

VPRS 4 =. 0.331 ( 6731.)

VPRS 5= 0.377 ( 7107.)

VPRS 6= 0.477 ( 7815.)

(

SUMMARY

OF CORRECTED DATA TIME = 815 DATE = 0504 DRYWELL TORUS TEMoERATURE (DEGREES R.) 555.290 537.870

\ DOE 3~ t lRE (PSIA) 16.362 15.019 1

VAPOR PRESSUPE (PSI A) 0.352 0.477 I

g* - e n e e o**** *

'* hw _ - _ .

- c .

V

n ISC Calculations

(

V Reference ANSI /ANS 56.8-1981, Appendix G A. Test Parameters La = 1.2 %/ day leakage rate P = 72.3 psia containment pressure T = 548 *R drybulb, average temperature Tdp = 78 *F dewpoint temperature t = 10.75 Hr. test duration B. Instrument Parameters

1. Total Absolute Pressure No. of sensors: 1 Range: 0-100 psia Sensitivity error (Epy): .001 psia Repeatability (cP y): .0005 % of full scale (EP)2 + (cp)2 .000001 + .00000025 e p=+ = =+ .00118 No. of sensors 1

2. Water Vapor Pressure

\- '

No. of sensors: 6 Sensitivity error (Epy): + .10 *F Repeatability error (cpy): 1 05 *F Dewpoint temperature 78 *F Vapor pressure change @ 78 *F: .0094 psia /"F Epy = (.10) (.0094) = .00094 cpy = (.05) (.0094) = .00047 EPv2+cy2 p .0000008836 + .0000002209 e

py

=+ ,

= .000429 No of sensors 6

3. Temperature No. of sensors : 14 Sensitivity error (E T) : .01 *F Repeatability error (cT): .003 *F ET 2 + cT2 .0001 + .000009 eT = + =+ = .002790 No of sensors 14 v!

DH-158

c. Isc 2400 fep} 2 g*pvp+,[*T)

Isc = 2 _ +2 _ i t (P ) (P j (T j, 2400 f.002790)2

=+ 2 f.001118) 2 + 2 [.000429+2i )2'

=

- 10.75 h ( 72.3 ; ( 72.3 ) ( 548 4

(.00002430) = .00547 %/ day IsG = i i 10.75

.25 La - (.25) (1.2) = .30 > .00547 ( = .0045 La)

O O

DH-158

4

SUMMARY

OF LOCAL LEAKAGE RATE TESTING

, 1. General The major prerequisite to the containment integrated leakage rate test is the satisfactory completion of a series of local leakage rate-tests.

This involves subjecting potential leakage paths through the containment boundary, i.e., containment penetrations, to the same test conditions occurring during the integrated leakage rate test. Conducting Type B, Type C, and Special Isolation Valve Tests as defined in 10CFR Part 50, Appendix J, Article III, C. , permits discovery and elimination of leak-age paths through the containment without pressurizing the entire con-

. tainment structure (Type A test).

i

2. Acceptance Criteria A. The combined leakage rate of components subject to Type B and C tests (except for MSIV's) shall not exceed 0.60La.

B. The_ combined Type C leakage rate from Penetrations 8, 9A, 9B, 14,

18, 19, 55, and 234A shall not exceed .009 La.

l C. Main steam isolation valve leakage rate shall not exceed 11.5 scfh for any one valve.

! D. The personel air lock leakage rate shall not exceed 0.05 La (lock Barrel Test Total Leakage).

3. Test Pressures A. Test pressure for all Type B and C tests shall be 57.5 psig +3, -0, except as noted in Items below.

l B. Test pressure for Isolation Valves tested with water shall be at a pressure equal to the height of the highest opposing water column plus 63.3 psig (1.10Pa), +3.-0.

C. Main steam isolation valves are tested at 28 psig.

D. Double "0" ring door seals are tested at 10 psig.

E. Air lock barrel is tested at 57.5 psig.

t

4. Results A. Measured Leakage Rate of Type B and C Test.

3006 + 6424 = 9430 accm = .175 La

. Allowable Limit: (.6 La) l

! The sum of Type B and C leakage rate limited to .6 La i

DH-149 l

. A. Measured Leakage Rate of Type B and C Test (Cont'd).

() .6 La = (.6) (1.2%) (Containment Free Air Volume)/1 day =

= (.6) (.012) (228,486)/24 = 68.55 Ft 3/hr.=-

= 32,354 acem The required limits per Appendix J are satisfied, since 9430 acem < 32,354 acca.

B. Measured Leakage Rate of Special Penetrations The sum of Type C leakage rates of Penetrations 8, 9A, 9B, 14, 18, 19, 55, and 234A is as follows:

Penetration 8 : 0 9A: 175 9B: 45 14: 45 18: 20 19: 50 55: 20 234A: 60 TOTAL: 415 accm Allowable Limit: (.009 La)

.009 La = (.009) (.012) (228,486)/24 = 1.028 ft 3 /hr =

(}

= 485 acem The required limit is satisfied since 415 acem < 485 acem C. Measured Leakage Rate of Main Steam Isolation Valves Penetration 7A 0 Penetration 7B 3 scfh l

Penetration 7C 0 Penetration 7D -9.5 scfh Allowable Limit (11.5 scfh/ valve)

( The leakage rate of each valve is limited to 11.5 scfh.

I The required limits are satisfied.

D. Measured Leakage Rate of the Personnel Air Lock 1700 accm = 0.0378 %/ day = .032 La Allowable Limit: (0.05 La)

.05 La = (.05)(.012)(228,486)/24 = 5.71 ft3 /hr =

O~ ,-

i

= 2696 acem l

The required limit is satisfied since .032 La < .05 La.

j DH-149 i

p IO l Local Leakage Rate Testing l

Test Equipment r1 -

r--- -

P1 l

l A A , a '

,/ lm l

i V4 V7 V8 FR FR l l V

l Fig F12 "

j ,j VOLUME V6 Vg V10 0 -

Ident. Description A/S Air or nitrogen supply - used to pressurize test volume PR Preuure Regulator FI Dual Flowmeters - Brooks Rotameters, for air at 59.0 psig,70 F.

Scale i - Range 20-200 acc/ min Scale 2 - Range 200-2000 acc/ min PI Pressure Gage - Roylyn Precision Pressure Gauge.

Range 0-100 psia, Accuracy 0.25%

Optional Hi range flowmeter.

O

i TYPE B TEST O

Penetration Leakage Number System (accm @ 57.5 psig) ,

lA Equipment Hatch 0 IB Equipment Hatch 20 2 Personnel Lock ("0" rings 0 10 psig) 1700 4 Head Acess Hatch 0 SA/201A Vent Line 0 5B/201B Vent Line 0 SC/201C Vent Line 0 SD/201D Vent Line 0 SE/201E Vent Line 0 SF/201F Vent Line 0 SG/20lG Vent Line 0 5H/20lH Vent Line 0 6 CRD Removal Hatch 0 7A Main Steam Line 0 7B Main Steam Line 0 7C Main Steam Line 0 7D Main Steam Line 0 8 Condensate drain 376 9A Primary Feedwater 0 ,

9B Primary Feedwater 0 O 10 11 Steam to RCIC Turbine Steam to HPCI Turbine 0

200 12 RHR Shutdown Cooling Suction 125 13A RHR Return to Recirculation 0 13B RHR Return to Recirculation 0 14 RWCU Supply 0 16A Core Spray 0 17 RPV Head Spray 0 .A 25 Vent Purge Supply 0 26 Vent Purge Outlet 0 35A TIP Drives 0 35B TIP Drives 0 35C TIP Drives 0 35D TIP Drives 0 35E TIP N2 Purge 0 42 SBLC 80 43 Drywell Test and Fill 0 100A Electrical 0 100B Electrical 0 100E Electrical 0 100F Electrical 0 101A Electrical 0 101C Electrical 0 101D Electrical 0 101E Electrical 0 101F Electrical 0 DH-149

TYPE B TEST (CONT'D)

O >

Penetration Leakage Number System (acem @ 57.5 psig) 102A Electrical 0 103A Electrical 0 104A Electrical 0 104B Electrical 0 104C Electrical 0 104F Electrical 0 104G Electrical 0 104H Electrical 0 105A Electrical 0 105C Electrical 430 106A Electrical 0 200A Torus Access Hatch 0 200B Torus Access Hatch 0 202 Electrical 0 205 Vacuum Relief / Torus Purge 45 .

218B Construction Drain 0 220 Vent Purge Outlet 30 228A Electrical 0 228C Electrical 0 Drywell Head Flange 0

() 223A RPV Stabilizer Access Hatches (8)

Spare 0

0 223B Spare 0 236 Torus Access Hatch 0 SUBTOTAL OF TYPE B LEAKAGE: 3006 accm O

DH-149

TYPE C TEST Penetration Description Leakage, accm Leakage, acem Number System (Part of .6 La) (Not Part of .6 La) 3 H2 /02 sample (2P33) 0 7A Main Steam (2B21, 2E32) 0 7B Main Steam (2B21, 2E32) 335 7C Main Steam (2B21, 2E32) 0 7D Main Steam (2B21, 2E32) 896 8 Condensate Drain (2B21) 0 9A Primary Feedwater (2B21) 175*

9B Primary Feedwater (2B21) 9,003*

10 Steam to RCIC Turbine (2E51) 30 11 Steam to HPCI Turbine (2E41) 80 12 RHR Shutdown Cooling Suction 69 (2 Ell) 13A RHR Return to Recirculation 2,462 (2 Ell) 13B RHR Return to Recirculation 5,400 (2 Ell) 14 RWCU Supply (2G31) 45 15 H2 Recombiner System B Supply 230 (2T49) 16A Core Spray (2E21) 27,549 16B Core Spray (2E21) 5,059 17 RPV Headspray (2 Ell) 0 18 CRW Pump Discharge (2Gll) 20 19 DRW Pump Discharge (2Gil) 50 21 Service Air (2P51) 440 O

DH-149

TYPE C TEST (CONT'D)

Os Penetration Description Leakage, accm Leakage, acem Number System (Part of .6 La) (Not Part of .6 La) 22 Drywell Pneumatic Return 2,820 (2P270) 23 & 24 RBCCW Supply and Return 20*

(2P42) 25/205 Drywell/ torus normal N2 0 makeup (2T48) 25/205 Drywell/ torus purge supply 500 and inerting (2T48) 26 Drywell purge exhaust 38 (2T48) 26 Drywell purge exhaust (2T48) 0 27C RCP C001A seal purge from 0 CRD (2B31)

() 28 H2 /02 sample return (2P33) 0 32A Drywell pressure (2 Ell) '

20 32C Drywell pressure (2 Ell) 20 34C ILRT Verification flow (2T23) 0 34D Drywell pressure (2T48) 35 35A TIP Drive (2C51) 20 35B TIP Drive (2C51) 34 35C TIP Drive (2C51) 20 35D TIP Drive (2C51) ?C

{ 35E TIP nitrogen purge (2C51) 20 l 39A Containment Spray (2 Ell) 1,050 I

39B Containment Spray (2 Ell) 99 I 41 Recirculate Loop Sample (2B31) 20 42 Standby Liquid Control (C241) 0 j DH-149 i

k

TYPE C TEST (CONT'D)

Penetration Description Leakage, accm Leakage, accm Number System (Part of .6 La) (Not Part of .6 La) 44 Drywell N2 Makeup LOCA 0 (2T48) 46 Demineralized Water (2P21) 0 47 & 48 Chilled Water Supply and Return (2P64) 445*

51D Drywell pressure (2T48) 0 54A Drywell pressure (2 Ell) 0 54C Drywell pressure (2 Ell) 0 55 Chemical pump discharge 20 (2G11) 57C RCP C001B seal purge from 0 CRD (2B31) 60A H2 /02 sample (2P33) 18 60B FPM Sample return (2Dll) 0 61A H2 Recombine system A supply 335 (2T49) 62 FPM Sample (2Dil) 10 63 Drywell pneumatic system 28 suction (2P70) 64 H2 /02 sample return (2P33) 20 67 Drywell nitorgen vent LOCA 110 (2T48) 69 Drywell to torus dP system return to drywell (2T48) 260 76 Recirculate Pump fire protection (2T43) 80 Drywell nitrogen vent LOCA 90 (2T48) 81 Drywell N2 makeup LOCA (2T48) 20 DH-149

TYPE C TEST (CONT'D)

Penetration Description Leakage, accm Leakage, acem Number System (Part of .6 La) (Not Part of .6 La) 203 RCIC pump suction (2E51) 20*

204A RHR pump suction (2E11) 1,100*

204B RHR pump suction (2E11) 225*

204C RHR pump suction (2 Ell) 0*

204D RHR pump suction (2 Ell) 40*

205 Torus pressure (2T48) 30 205 Vaccum relief (2T48) 0 205 Vaccum relief (2T48) 0 206A Torus water level (2T48) 0 206C Torus water level (2T48) 0 C

(,) 206F Torus water level (2T48) 0*

206H Torus water level (2T48) 0*

207 HPCI pump suction (2E41) 1,700*

208A Core spray pump suction (2E21) 0*

j 210A RHR test line and torus spray 1,587 and (2E11 and 2E41) 211A 210B RHR test line and torus spray 818 l and (2E11 and 2E41)

211B

212 RCIC turbine exhaust (2E51) 200 t

i 213 RCIC turbine vacuum pump 20 discharge (2E51) 214 HPCI turbine exhaust (2E41) 160 l 215 HPCI turbine exhaust drain 0 (2E41) 217A H2 /02 sample (2P33) 38 DH-149 l

TYPE C TEST (CONT'D)

Penetration Description Leakage, acem Leakage, accm Number System (Part of .6 La) (Not Part of .6 La) 217B H2 /02 sample (2P33) 0 217C FPM sample (2D11) 30 218A Torus purification suction 40*

(2G51) 220 Torus pressure (2T48) 80 220 Torus purge exhaust (2T48) 35 220 Torus purge exhaust (2T48) 65 221A H2 Recombiner system A 30 return (2T49) 221B HPCI turbine exhaust vacuum 65 breaker (2E41) 221C RCIC turbine exhaust vacuum 0 breaker (2E51) 222B H2 recombiner system B 20 return (2T49) 224A RHR heat exchanger relief 0 (2 Ell) 224B RHR heat exchanger relief 257 (2 Ell) 225A-H Control air to vacuum 68 breakers (2T48) 2251-M Control air to vacuum 0 breakers (2T48) 226A Core spray test line (2E21) 0 226A Jockey pump minimum flow 0 (2E21) 226A RHR pump minimum flow (2 Ell) 70 226A RHR A heat exchanger discharge 20 to torus (2E11)

DH-149

(.

TYPE C TEST (CONT'D) <

Penetration Description Leakage, acem Leakage, accm Number System -(Part of .6 La) (Not Part of .6 La) 226B Core spray test line (2E21) 54 226B Jockey pump minimum flow'(2E21) 0 226B RHR pump minimum flow (2E11) 0 226B RHR heat exchanger discharge to O torus (2 Ell) 230 Torus N2 makeup LOCA (2T48) 0 231 Torus N2 vent LOCA (2T48) 30 233 Drywell to torus dP system 640 suction from torus (2T48) 234A Condensate pump suction 60*

from torus (2G51) 235A Torus N2 vent LOCA (2T48) 30 235B Torus N2 makeup LOCA (2T48) O SUBTOTAL OF TYPE C LEAKAGE PART OF .6 La 6,424 accm SUBTOTAL OF TYPE C LEAKAGE, NOT PART OF .6La TESTED WITH WATER 12,828 acem TEST WITH AIR 46,215 accm

Tested with water O

DH-149

PENETRATION INDEX Penetration Number System Drawing 1A Equipment Hatch CB&I 30 IB Equipment Hatch CB&I 30 2 Personnel Lock CB&I 100 3 H2/0 2Sample H-26048 4 Head Access Hatch CB&I 19 SA thru H Vent Line CB&I 15 6 CRD Removal Hatch CB&I 89 7A thru D Main Steam H-26000 8 Condensate Drain H-26000 9A and B Primary Feedwater H-26000 10 Steam to RCIC Turbine H-26023 11 Steam to HPCI Turbine H-26020 12 RHR Shutdown Cooling Suction H-26015 13A RHR Return to Recirculation H-26015 13B RHR Return to Recirculation H-26014 14 RWCU Supply H-26036 15 Post LOCA H3 Recombiner 'B' H-26068 Supply from Drywell 16A and B Core Spray H-26018 17 RPV Head Spray H-26014 18 CRW Pump Discharge H-26026 19 DRW Pump Discharge H-26026 20 Spare 21 Service Air H-26058 22 Drywell Pneumatic System H26066 Return 23 Closed Cooling Water Supply .

H-26055 24 Closed Cooling Water Return H-26055 25 Vent Purge Supply /ILRT Pres'n H-26084 26 Vent Purge Outlet H 26084 27A,B Recire. Line A Flow H-26003 27C Pump C001 A Seal Purge from CRD H-26003 28 H2/0 2Sample Return H-26048 29A,B Recire. Line B Flow H-26003 29C Spare 30A Recire. Line B Pressure H-26003 30B Pump B Discharge H-26003 30C Pump B Suction H 26003 30D Pump B Seal No. 2 H-26003 30E Pump B Seal No.1 H-26003 30F Spare 31A Recire. Line A Pressure H-26003 31B Pump A Discharge H 26003

Penetration Number System Drawing 31C Pump A Suction H-26003 31D Pump A Seal No. 2 H-26003 31E Pump A Seal No.1 H-26003 31F Spare 32A Drywell Pressure H-26014 32B Spare 32C Drywell Pressure H-26014 33A Main Steam A Flow H-26000 33B,C Main Steam B Flow H-26000 33D Main Steam A Flow H-26000 33E,F Main Steam C Flow H-26000 34A,B Main Steam D Flow H-26000 34C ILRT Verification Flow H-26057 34D Drywell Pressure /ILRT Drywell H-26084/26057 Pressure 34E,F Steam Line to RCIC Turbine H-26023 Inst.

35A thru D TIP Drives S-28757 35E TIP N,~ Purge S-28757 36 Spare , H-26006 37A thru D CRD Insert H-26006 38A thru D CRD Withdraw H-26006 39A Containment Spray H-26015 39B Containment Spray H-26014 40A-A Recire. Loop Instr. H-26003 40A-B Recire. Loop Instr. H-26003 40A-C Pres. Above Core Plate H-26001,26018 40A-D Pres. Below Core Plate H-26001 40A-E Recire. Loop Instr. H-26003 40A-F Recire. Loop Instr. H-26003 40B-A thru Jet Pump Instr. H 26001 40B-F 40C-A,B Recirc.' Loop Instr. H-26003 40C-C Pres. Above Core Plate H-26001 40C-D Pres. Below Core Plate H-26001 40C-E,F Recire. Loop Instr. H-26003 40D-A,B Steam Line to HPCI Turbine Inst. H-26020 40D-C thru Spare 40D-E 40D-F Cores Spray Diff. Pres. Inst. H-26018 41 Recire. Loop Sample H-26003 42 Standby Liquid Control H-26009 43 Drywell Test and Fill CB&I 89 44 N, Makeup Inlet LOCA H-26083

\ 45A thru F Jet Pump Inst. H-26001

l O

I Penetration Number System Drawing 46 Demineralized Water H-26047 47 Chilled Water Supply H-26081 48 Chilled Water Return H-26081 49A thru F Jet Pump Inst. H-26001 SOA thru F Jet Pump Inst. H-26001 SI A,B Steam Line to RCIC Turbine H-26023 Inst. ,

SIC Spare 51D Drywell Pressure H-26084 SIE,F Main Steam D Flow H-26000 52A Main Steam A Flow H-26000 52B,C Main Steam C Flow H-26000 52D Main Steam A Flow H-26000 52E,F Main Steam B Flow H-26000 53A thru F Power Test CB&l 91 54A,C Drywell Pressure H-26015 54B Spare 55 Chem. Pump Discharge H-26026 56A Spare (9

V 56B thru F RPV LevelInst. H-26001 57A,B Recire. Line B Flow H-26003 57C Pump C001B Seal Purge from CRD H-26003 58 Spare 59A Spare 59B thru E RPV Level Inst. H-26001 59F Spare 60A H2/0 2Sample H 26048 60B FPM Sample Return H-26016 61A Post LOCA H2 Recombiner H-26068 System A Supply from Drywell

~~

61B Spare 62 FPM Sample H-26016 63 Drywell Pneumatic System Suction H-26066 64 H2/0 2Sample Return H-26048 65 Spare 66A,B Recire. Line A Flow H-26003 66C Spare 67 N,~ Vent (LOCA) H-26084 68 Spare 69 Drywell/ Torus AP H-26079 70 Spare 71 Spare 72 Spare

(]

V 73 74 Post LOCA Radiation Monitor Welded Cap Post LOCA Radiation Monitor Welded Cap

!O Penetration Number System Drawing 75 Spare 76 Fire Protection H-21017 77 Spare 78A thru F Spare 79A Core Spray Diff. Pres. Inst. H 26018 79B thru D Spare 79E,F Steam Line to HPCI Turbine Inst. H-26020 80 N2Vent (LOCA) H-26084 81 N 2Makeup Inlet (LOCA) H-26083 100A,B,E,F Neutron Monitoring System 100C,D Spare 101 A thru F Recire. Pump Power 102A Indication and Control 102B Spare 103A Indication and Control /ILRT Drywell ME's 103B Spare 104 A,B,C,F, CRD Rod Position Indicator G,H 104D,E,I,J Spare O 105A,C 105B,D 600 Volt Power Spare

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106A Thermocouples/ILRT Drywell TE's 106B Spare 107 A,B Spare 108A,B Grounding Rod 200A,B Torus Access Hatch CB&I 222 201 A thru H Vent Line 202 Control & Indication /ILRT Torus TE's and ME's 203 RCIC Pump Suction H-26023 204A thru D RHR Pump Suction H-26014,15 205 Vacuum Relief / Torus Purge /ILRT H-26084 205 Torus Pressure H-26084 206A,C Torus Water Level H-26084 206F,H Torus Water Level H-26084 207 HPCI Pump Suction H-26020 208A,B Core Spray Pump Suction H-26018 209A thru D Torus Water Temp H-26084 210A RHR Test Line H-26015 210B RHR Test Line H-26014 211A Torus Spray H-26015 21IB Torus Spray H-26014 212 RCIC Turbine Exhaust H-26023 213 RCIC Turbine Vac. Pump Disch. H-26023

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Penetration Number System Drawing 214 HPCI Turbine Exhaust H-26020 215 HPCI Turbine Drain H-26020 216A thru D Torus Air Temp H-26084 217A H,/O, Sample

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H-26048 217B H /0 Sample 2 H-26048 217C FPhi Sample H-26016 217D Spare 218A Pump 2G51-C001 Suction from Torus H-26042 218B Construction Drain CB&I 226 220 Vent Purge Outlet H-26084 220 Pressure (ILRT and Torus) H-26084 221A Post LOCA H2Recombiner System A H-26063 Return to Torus 221B HPCI Turbine Exhaust Vac. Relief H-26020 221C RCIC Turbine Exhaust Vac. Relief H-26023 222A Spare i

222B Post LOCA H Recombiner System B H-26068 Return to Torus 206B,D,E,G Spare 223A,B

'{ x 224A Spare double O ring flange Relief Valve Discharge (RHR) H-26015 224B Relief Valve Discharge (RHR) H-26014 225A thru H Control Air to Vac. Breaker H-26084 Valves 225J thru hi Control Air to Vac. Breaker H-26084 Valves

226A,B Core Spray Test Lines H-26018 227A Spare 227B Spare 228A Low Voltage Power i 228B Spare 228C Low Voltage Power 229 Spare ~

230 N2hiakeup Inlet (LOCA) H-26083

, 231 N,~ Vent (LOCA) H-26084 232 Spare l 233 Drywell/ Torus dp H-26079 234A Condensate Pump Suction from H-26042 Torus 234B Spare l 235A N, Vent (LOCA) H-26084 l 235B N3 Stakeup Inlet (LOCA) H-26083 t

Drywell Head Flange RPV Stabilizer Access Hatches (8)

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ML20065B055

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