ML20046A220
ML20046A220 | |
Person / Time | |
---|---|
Site: | Summer |
Issue date: | 03/31/1993 |
From: | Skolds J SOUTH CAROLINA ELECTRIC & GAS CO. |
To: | NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM) |
References | |
RC-93-0195, RC-93-195, NUDOCS 9307270112 | |
Download: ML20046A220 (250) | |
Text
{{#Wiki_filter:. - South Carolina ElIctric & Gas Cornpzny rn ko a Jenkinsville, SC 29065 Nuclear Operations (803) 345 4040 SCE&G
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July 22, 1993 Refer to: RC-93-0195 Document Control Desk - U. S. Nuclear Regulatory Commission ' Washington, DC 20555 Gentlemen:
Subject:
VIRGIL C. SUMMER NUCLEAR STATION DOCKET NO. 50/395 OPERATING LICENSE NO. NPF-12 REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST t Pursuant to 10CFR50, Appendix J, Section V.B. South Carolina Electric & Gas Company herewith forwards the Third Periodic Reactor Containment Building Integrated Leakage Rate Test Final Report, which was conducted during the Virgil C. Summer Nuclear Station seventh refueling outage. Should you have any questions, please call at your convenience. Very truly ours J. L. Skolds JDG:smd , Attachment c: 0. W. Dixon (w/o attachment) - R.-R. Mahan (w/o attachment)
-R. J. White S. D. Ebneter NRC Resident Inspector J. B. Knotts Jr.
RTS (RFL 600) File (810.24) CFS l: T6-105 4q
]Jr D ' AO 00 95 P. .PCR -
f') 's V. SOUTH CAROLINA ELECTRIC & GAS COMPANY Virgil C. Summer Nuclear Generating Station Unit 1
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O : DOCKET NO. 50-395 March 12,1993 l l 1 l l GENERAL PHYSICS CORPORATION GP-R-643009 i 8 i
( m r A.) TABLE OF CONTENTS
- 1. S U M MA RY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . :1 -
II. TEST SYNOPSIS . . . . . . . . . . . . . . . . ........................... 3 A. Pressurization Phase ...................................... 4 B. Stabilization Phase ....................................... 5 C. Test Ph as e . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 III. TEST D ATA SUM MARY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . 7 A. Plant Information ........................................ 7 B. Te chni cal D at a . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 C. Test Results - Type A Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 , t~ D. Local Leakage Rate. Test Results - Type B and C Tests . . . . . . . . . . . . . . 8 E. Integrated Leak Rate Measurement System . . . . . . . . . . . . . . . . . . . . . . . 8 F. Inform ation Retained at Plant . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 IV. ANALYSIS AND INTERPRETATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 A. Summary of Type B and C Penalties . . . . . . . . . . . . . . . . . . . . . . . . . . 12 B. Volume Change Corrections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 C. I LRT Resu l ts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 V. RE FE REN CES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 i s J v k t
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( TABLE OF CONTENTS CONT'D ; APPENDICES APPENDIX A GENERAL PHYSICS ILRT COMPUTER PROGRAM DESCRIPTION I APPENDIX P STABILIZATION PHASE DATA APPENDIX C ILRT TEST DATA AND PLOTS APPENDIX D VERIFICATION TEST DATA AND PLOTS-APPENDIX E LOCAL LEAKAGE RATE TEST SUMMARIES APPENDIX F SENSOR LOCATIONS AND VOLUME FRACTIONS INSTRUMENTATION SELECTION GUIDE ii~
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station D
- 1.
SUMMARY
The Reactor Building Integrated Leakage Rate " Type A" Test is perfort; ed to demonstrate that leakage through the primary containment systems and components penetrating. primary reactor containment do not exceed the allowable leakage rates specified in the Plant Technical Specifications. This report presents data, analyses and conclusions pertaining to the V.C. Summer Nuclear Station (VCSNS), Unit 1, third periodic Integrated 12akage Rate Test (ILRT) performed in March 1993. Included in the report is a presentation of the Local Leakage Rate Test Results required by the U.S. Code of Federal Regulations,10CFR50, Appendix J, Section V.B.3. Highlights of activities and events which occurred prior to and during the ILRT are presented in Section II, Test Synopsis. 1 Section III, Test Data Summary, contains data and results necessary to demonstrate containment atmosphere stabilization, acceptable leakage rate, and successful verification test. Information in Section IV, Analysis and Interpretation, supplies the technical details associated with the ILRT computer program, instrumentation, and associated hardware used during the ILRT. ! O Section V, References, lists the documents used for the conduct of the ILRT. l A 24 hour ILRT was successfully performed at the beginning of the VCSNS seventh refueling outage from 22:45 on March 10th to 22:45 on March lith,' 1993. The results, including additions for penetrations not exposed to the test pressure of the ILRT were acceptable. The ILRT test results are summarized below, and discussed in detail in Section 4. Mass Point leakage rates were calculated as described in ANSI /ANS-56.8-1981, " Containment System Leakage Testing Requirements". Leakage rates using the Total Time Analysis technique as described in BN-TOP-1, " Testing Criteria For Integrated Leakage Rate Testing Of Primary Containment Structures For Nuclear Power Plants", were run concurrently for informational purposes. The ILRT was followed by a successful verification (imposed leakage) test designed to validate the testing methodology and to ensure that systematic errors associated with the instruments had not shifted. As a 24 hour ILRT had been performed, the Mass Point leakage results were required to fall within the upper and lower acceptance criteria leakage limits. The Total Time results were also within the limits, but are provided for information only. 1 e
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station . ,/3 I
SUMMARY
OF TEST RESULTS Test Result Acceptance Criteria (% wt/ day) ( % wt/dav) Total Time Calculated leakage: 0.1330 Total Time leakage at 95% UCL: 0.1376 75% La = 0.15 Verification Test Total Lower Limit = 0.2785 Time Composite Leakage: 0.3168 Upper Limit = 0.3785 Mass Point Measured Leakage: 0.1277 C\ V Mass Point Leakage at 95% UCL: 0.1298 . 75% La = 0.15 , l Verification Test Mass lower Limit = 0.2733 Point Composite leakage: 0.3194 Upper Limit = 0.3733 A chronological summary of events, a summary of plant technical data and a discussion of test results are included in subsequent portions of this report. O d 2
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station O 11. TEST SYNOPSIS The reactor containment building Integrated Leakage Rate Test (Type A) is performed to demonstrate that leakage through the primary reactor containment systems or components penetrating primary containment does not exceed the allowable leakage rate specified in the V.C. Summer Nuclear Station, Unit 1, Technical Specifications 3.6.1.2.a. The successful periodic Type A and supplemental verification tests were performed according to the requirements of the V.C. Summer Nuclear Station, Unit 1, Technical Specifications and 10CFR50, Appendix J. The Type A test method used is the absolute method described in ANSI N45.4-1972, " Leakage Rate Testing of Containment Stmetures for Nuclear Reactors." The leakage rate was calculated using the Total Time Analysis - Technique and formulas from the above ANSI standard, and the Mass Point Analysis Technique from ANSI standard 56.8-1987. The Total Time Analysis technique measures leakage rate based on the most recent data point and the data _ point taken at the start of the test. The overall calculated leakage rate is determined by applying linear regression , analysis to all measured leakage rate data at the end of the test period. The Mass Point technique calculates the containment air mass at each data point. The leakage rate is then determined by applying linear regression analysis to the measured air masses. Ninety-five percent confidence levels were calculated for leakage rate data to ensure a 95% probability that the calculated leakage rate value is within the acceptance limits. All . calculations were doae with the General Physics ILRT computer program described in. Appendix A. The temperature and pressure history, containment air mass and leakage rates were plotted by the computer program. These plots are in Appendices B through D for the Stabilization, ILRT and Verification phases of the test.- Pretest preparations included assembly of temporary piping in the pressurization line, ILRT measurement system installation and checkout, system valve alignments and a general area inspection of the accessible areas of the containment. A " Test Time Line" is presented to summarize the occurrence of various phases of the ILRT schedule sequence. : l l O 3 -
- Reactor Containment Building Final Report -
Integrated Leakage Rate Test V. C. Summer Nuclear Station
.g V
TEST TIME LINE PHASE INTERVAL DURATION A. PRESSURIZATION: From: 01:49 on 3/10/93 14.18 hours To: 16:00 on 3/10/93 B. STABILIZATION: From: 16:00 on 3/10/93 6.75 hours To: 22:45 on 3/10/93 C. HOLD TEST: From: 22:45 on 3/10/93 24.00 hours To: 22:45 on 3/11/93 D. VERIFICATION TEST: From: 23:00 on 3/11/93 4.00 hours To: 03.00 on 3/1233 O A. Pressurization Phase Pressurization of the containment commenced 0149 on March 10, 1993. At various intervals throughout the pressurization phase, walkdowns of the containment boundaries to inspect system and test boundaries for leakage were conducted. Inspections of the penetrations noted no major leakage from lineup vents. The Reactor Building Cooling Units (RBCU) fans were run during pressurization with amperage limits procedurally set. At 0500 hours and an average pressure of approximately 31 psia, the amperage limit was reached and the RBCUs were shut down. Pressurization continued until the test pressure of 54.55 psig was reached at approximately 1555 hours on March 10,1993. D O 4.
Reactor Containment Building Final Report l Integrated Leakage Rate Test V. C. Summer Nuclear Station B. Stabilization Phase ' I The first data point in the Stabilization Phase was received at 1600 hours on ) March 10th. Initial containment pressure was 69.000 psia,54.546 psig. ! Early indications of excessive leakage were attributed to containment instability, ingassing and void-space pressure equalization. Containment walkdowns were initiated as a precautionary measure, but again did not reveal significant leakages at any of the containment boundaries. As the containment atmosphere stabilized j and more time elapsed, a dowr. ward trend in the mass loss and leakage rates were .) note.d, confirming that the test leakage rate results would actually be much lower. I It should be noted that throughout this period, average containment temperature .l was dropping (a total of 1.2 degrees). The measurement of containment total ) pressur esponded to the changing conditions more rapidly than the drybulb temperature sensors. Many of the RTDs used to measure drybulb temperature were permanently mounted to the web of structural steel in the containment. It is quite possible that the temperature of the metal mass exacerbated the normal lag in the temperature / pressure sensing relationship. The temperature stabilization criteria of both ANSI /ANS 56.8 and the Bechtel Topical Report were easily met at four hours into the stabilization period, but due to the instability of the air mass, stabilization was not declared until 2245 on the 10th, and the ILRT started. C. Test Phase The ILRT was commenced at 2245 on March 10th when the differential mass swings had diminished to the point that it appeared the bulk of the ingassing and void-space pressure equalization within the containment had ceased. As in stabilization, a decreasing trend in the containment leakage rate was apparent, but the mass point leakage did not fall below the 75%La acceptance criteria limit until over thirteen hours had elapsed in the test phase. As the criteria could not be met for a short-duration test, a 24 hour ILRT was successfully performed. The ILRT was successfully completed at 2245 on March 11th. Test results, including required B & C additions were acceptable: 5
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station O FINAL ILRT RESULTS . MASS POINT LEAKAGE AT 95%UCL: 0.1298 %wt/ day l TOTAL B & C PENALTY ADDITIONS: 0.0073 VOLUME CHANGE CORRECTIONS: 0.0001 i TOTAL REPORTED LEAKAGE: 0.1372 %wt/ day A leak approximately equivalent to L3 (11.85 SCFM) was imposed on the l containment and a successful verification test run from 23:00 on March 11,1993 l to 03:00 on March 12,1993. l A description of the computer program used to calculate the leakage rates is given in Appendix A. Test summary data, leakage rate reports and plots are given in Appendices B through D. beal leakage rate test results are given in' Appendix - E. 6
t Reactor Containment Building - Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station I
-O ' - III. TEST DATA
SUMMARY
A. Plant Information . Licensee: South Carolina Electric and Gas Company , Plant: Virgil C. Summer Nuclear Station, Unit 1 , Location: Jenkinsville, South Carolina Containment Type: Reinforced, Post Tensioned Concrete Date Test Completed: March 12,1993 i Docket Number: 50-395 B. Technical Data Containment Net Free Volume 1,840,000 cubic' feet Design Pressure 57 psig Calculated Peak Accident 1 Pressure, Pa . 53.5 psig Containment ILRT Average , Temperature Limits 55-120 F : C. Test Results - Type A Test .; Test Method Absolute Data Analysis Techniques Total Time and Mass Point Test Pressure 51.3 psig +5.0, -0.0 Maximum Allowable Leakage . Rate, La 0.2%/ day . 75% of La 0.150%/ day ( )
-7.
l Reactor Containment Building Final Report ) Integrated Leakage Rate Test V. C. Summer Nuclear Station l fx
) Integrated Leakage Rate Test Results Leaknee Rate, % wt./ day From Regression At Upper 95%
Line (Lam) ConfKlenm levd Total Time Analysis 0.1330 0.1376 i Mass Point Analysis 0.1277 0.1298- ; l Verification Test Imposed 11.85 scfm i Leakage Rate, Lo%/ day 0.1956%/ day Verification Test Results Leakace Rate %/ day l From Regression Lower / Upper j Line (Lam) Limits l Total Time Analysis 0.3168 0.2785/0.3785 Mass Point Analysis 0.3194 0.2733/0.3733 'l i j Report Printouts h-) The Report Printouts of the Type A and Verification Test calculations are ; provided for the Total Time and Mass Point Analyses (Appendices C and D). j Stabilization data is also provided (Appendix B). l D. Local Leakage Rate Test Results - Type B and C Tests 1 A summary of the local leakage rate tests (Type B and C) results since the ILRT j in 1988 are included in Appendix E. E. Integrated Leak R.1 Measurement System The following instmment system was used: i i
- 1. Total Absolute Pressure Paroscientific Quartz Precision Pressure Gauges-No. of sensors used in calculation: 2 I.
8
~~ .. . . - - . . . -
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station m-Range: 0-100 psia (direct reading) Accuracy: 0.010% F.S. Sensitivity: 0.005 psi Repeatability: 0.001 Resolution: 0.0001 psi
- 2. Water Vapor Pressure i Phys-Chem Scientific Relative Humidity Sensors No. of sensors: 5 Calibrated range: 0 - 100 % R. H.
Accuracy:
- 1.8 F Sensitivity: 0.1 F O 3. Drybulb Temperature Pyco 100 ohm platinum Resistance Temperature Detectors No. of sensors: 24 Calibrated range: 60 - 120 F Accuracy:
- 0.5 F Sensitivity:
- 0.01 F
- 4. Data Acquisition System Fluke Model 2286A Drybulb Signal Conditioning / Readout
- 1) Repeatability:
- 0.054 F Resolution: 0.01 F O 2) '
9
Reactor Containment Building Final Report Integrated Leakage Rate Test ' V. C. Summer Nuclear Station
;j^{-
Humidity Signal Conditioning / Readout I
- 1) Repeatability: 0.04 F
- 2) Resolution: 0.01 F
- 5. Flow Brooks Model 110-10K381A .
No. of sensors: 2 (only 1 used) Calibrated range: 1.8 - 18.1 scfm Accuracy: 1% rdg. w/ curve Overall Instrumentation Selection Guide (ISG) Value, based on the ILRT ' instrumentation used and a 24 hour test duration = 0.0081%/ day. Drybulb and Dewpoint Temperature Sensor Locations and Volume Fractions are .l listed in Appendix F. ] l) F. Information Retained at Plant The following information is available for review at the Facility:
- 1. A listing of all containment penetrations,' including the total number of-penetrations, penetration size and function.
- 2. A listing of normally operating instrumentation used for the leakage.
rate test.
- 3. A system lineup, at time of test, showing required valve positions and status of piping systems.
4 A continuous, sequential log of events from initial survey of containment to restoration of all tested systems.
- 5. Documentation ofinstrumentation calibrations and standards, including an instrumentation selection guide analysis (Appendix F)._
- 6. The working copy of test procedure that includes signature sign-off A of procedural steps. ,
L) 10
I l Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuc! car Station \ 7. The procedure and all data that would verify completion of penetrations ) and valve testing (Type B & C tests).
- 8. Data Acquisition System printout tapes of Integrated Leakage Rate Test Raw Data.
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- 9. The Quality Assurance audit plan or checkout that was used to monitor ILRT with proper sign-offs. ;
- 10. The P&lDs of pertinent systems.
l O i 4 l
~1 i
u 0 l 1 11 l
Reactor Containment BuiLiing . Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station O IV. ANALYSIS AND INTERPRETATION The upper 95% confidence limit (UCL) Mass Point and Total Time leakage rates calculated during the ILRT were less than the test acceptance criteria of 0.75 aL (0.15 % wt./ day). Additions to the calculated leakage rates must be made to account for penetration paths not exposed to the ILRT pressure and for changes in the net free containment volume due to changes in containment water levels. These additions are discussed below. A. Summary of Type B and C Penalties Penetration paths not exposed to the ILRT pressure and the corresponding mit: mum pathway leakage rates are as follows: Penetration Test Data Penetration System Minimum Number Pathway I.ocal Leakage Rate
;, (secm)
( 102 RBCU B Cooling 64.3 Water Return 204 Component Cooling 7.2 to RCPs 222 High Head SI to RC Loops 25.0 226 RHR Loop C 0.0 227 RHR Injection 592.0 303 RB Spray Train B 780.0 304 RBCU A Cooling 227.4 Water Supply 305 RBCU A Cooling 819.0 Water Return 312 Component Cooling 464.0 Water to RCP Bearings l 316 RHR Loop A 0.0 322 RHR Injection 1999.0 12
Reactor Containment Building Final Report integrated Leakage Rate Test V. C. Summer Nuclear Station (~ V) Penetration Test Data Penetration System Minimum
- i. Number Pathway local Irakage Rate (secm) 325 low Head SI 0.0 to RCS Hot Legs 330 Component Cooling 1065.0 Water from RCP Bearings 401 RB Spray Train A 73.4 403 RBCU B Cooling 4810.0 Water Supply 412 High Head SI 916.0 to RCS Loops 415 High Head SI 2.6 to RCS loops 426 High Head SI 0.3 to RCS Imops 201 RB Leak Rate 0.0 Verification Test Line 210 RB Leak Rate 0.0 Pressure Sensing Line 211 RB Leak Rate 0.0 Blowdown Une 212 RB Leak Rate 0.0 .
Blowdown Line 216 RB Leak Rate 0.0 Pressurization Line 409 Charging to Regen 50.4 l Heat Exchanger 423 Reactor Coolant 1.7 . Drain Tank - 424 RB Sump Drain 4.7 Sum Total (Q 11,902 13
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station LLRT results based on the above equate to a Type B and C penalty addition of 0.0073 wt.% per day. B. Volume Change Corrections The following volumes were monitored for liquid level changes which would affect the containment net free volume: VOLUME LEVEL -VOLUME 3 MONITORED CHANGE CHANGE (ft ) Pressurizer 0 0 RB Sump + 0.2 ft - 11 The level decrease in the pressurizer and corresponding increase in containment net fre.e volume is conservatively neglected. Based on the RB Sump level , 3 ; increase, the containment net free volume decreased during the ILRT by 11 ft , This is equivalent to a leakage rate of 0.0001 wt% per day which will be added to the ILRT results. C. ILRT Results The ILRT leakage rate including the required additions is as follows: Mass Point Total Time Analysis Analysis (% wt./dav) (% wt./ day) 95 % UCL Leakage Rate 0.1298 0.1376-Type C Penalties 0.0073 0.0073 Volume Change 0.0001 0.0001 As Left 95 % UCL Leakage Rate _ 0.1372. 0.1450 The Mass Point and Total Time 95 % UCL leakage rates are less than the test acceptance criteria value of 0.75 La (0.15 % wt./ day). Thus, the results demonstrate that leakage through the primary reactor contaimnent and components l C penetrating the primary reactor containment do not exce'ed the allowable leakage l rate specified in the V. C. Summer Nuclear Station Technical Specifications. 1 14
Reactor Containment Building Final Report , Integrated Leakage Rate Test V. C. Summer Nuclear Station l V. REFERENCES L l A. Virgil C. Summer Nuclear Station Unit 1 Surveillance Test Procedure, STP-206.001, " Integrated Leak Rate Test". B. Virgil C. Summer Nuclear Station Unit 1 Technical Specifications. C. Virgil C. Summer Nuclear Station Unit 1 Updated Final Safety Analysis Report. ; D. Code of Federal Regulations, Title 10, Part 50, Appendix J, "Pr.r - Reactor Containment Leakage Testing for Water Cooled Power Reactors". E. ANSI N45.4-1972, "L.eakage-Rate Testing of Containment Structun . ! r riuclear , Reactors" F. ANSI /ANS-56.8-1981, " Containment System Leakage Testing Requirements". G. BN-TOP-1, Revision 1, " Testing Criteria For Integrated bakage Rate Testing Of Prirnary Containment Stmetures For Nuclear Power Plants". ; O u l i i O 15
Reactor Containment Building Final Report
~ Integrated Leakage Rate Test V. C. Summer Nuclear Station t-
% /- i j i i l 1 i 1 /^T V APPENDICES l (~ (
t-Reactor Containment Building Final Report bstegrated Leakage Rate Test V. C. Summer Nuclear Station sJ l J l i a l
)
Oi t u) APPENDIX A GENERAL PHYSICS ILRT COMPUTER PROGRAM DESCRIPTION l ;
.O t)
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station DESCRWTION OF GENERAL PHYSICS ILRT COMPUTER PROGRAM The following paragraphs describe the various features and attributes of the General Physics ILRT Computer Program and the process used to certify it for each application. REDUNDANCY The General Physic:, ILRT team was equipped with two fully operational IBM compatible microcomputers during the ILRT and for on site data reduction and analysis. The computer softwere and hardware interfaced directly with the ILRT Measurement System l Fluke Datalogger. Two computers were brought on site for 100% redundancy, as each :.3mputer and its software is capable of independently performing the ILRT. The General Physics ILRT Computer Software is also capable of accepting manual input of raw sensor data and performing all required sensor data conversions if the data logger should cease to function. Each computer was equipped with back-up disks in the unlikely event of a disk
" crash."
SECURITY The General Physics ILRT Computer Program is written in Basic. Basic is a high level programming language which combines programming ease with user oriented command s/ functions to create an easy to use and understand program. In order to increase speed of operation the program was then compiled into an executable command file. Compiling was accomplished using Microsoft's QuickBASIC Compiler. In addition to execution speed, this had the added benefit of raaking the program more secure as compiled programs cannot be edited or changed. The program requires a password to change modes of operation, start times, or enter the data editing routine to safe; ..ard the integrity of the raw data files. FEATURES ; 1 The program itself is designed to be a menu driven program consisting of five separate, i menu driven operating modes. These are ti. :
- 1. Pressurization Mode 4. Verification Mode
- 2. Stabilization Mode 5. Depressurization Mode l
- 3. Test Mode i
)
These modes also correspond to the phases of the ILRT. Menu driven means that the user is presented with a list of options that the program can perform and from which the user can choose. It allows for interactive information exchange between the user and the computer and prevents invalid information or user mistakes from crashing the program. O Program organization consists of a master menu which controls access to the seven U operating modes chained to the individual menus which control these modes. The data processing, information display capabilities and function of each mode is as follows:
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station
- 1. Pressurization Mode: All data reduction, graphic displays of average temperature, dewpoint, and corrected pressure.
- 2. Stabilization Mode: All data reduction, automatic comparison of data against ANSI 56.8 and BN-TOP-1 temperature stabilization criteria, notification when j criteria is met, graphic displays of average temperature, dewpoint, and corrected pressure.
- 3. Test Mode: All data reduction, calculation ofleakage rates using mass point, total time and point-to-point analysis techniques, display of trend report information required by BN-TOP-1, graphic display of average temperature, dewpoint, pressure and mass, as well as graphic display of mass point measured leakage,95% UCL; total time measured and calculated leakage and the total time leakage rate at the 95% UCL (as calculated by BN-TOP-1), including a superimposed acceptance criteria line).
- 4. Verification Test Mode: W!th input of imposed leakage in SCFM automatically calculates and displays on graph and trend report the acceptance criteria band, plus a'l graphics displays available in test mode.
- 5. Depressuri7ation Mode: All data and graphics capabilities of Pressurization Mode.
O in programs for BWR units, this mode also includes a Drywell to Suppression. Chamber Bypass Test routine. Other reduction and analysis capabilities of the General Physics ILRT computer program include:
- 1. Containment total pressure conversion from counts to psia (if required), and averaging.
- 2. Containment drybulb temperature weighted averaging and conversion to absolute units.
- 3. Containment dewpoint temperature weighted averaging (conversion from Foxboro dewcel element temperature to dewpoint temperature if required) and conversion to partial pressure of water vapor (psia).
- 4. Data storage ofILRT measurement system inputs for each data point.
1
- 5. Weight (mass) point calculations using the ideal gas law. -l l
- 6. Automated Data ' Acquisition and/or Manual Data Entry.
- 7. Sensor performance and deviation information for sensor failure criteria, graphic O' display of individual sensor performance for selected operating mode.
l Reactor Containment Building Final Repon l [ fr:' grated Leakage Rate Test V. C. Summer Nuclear Station l l m
- 8. Calculation of ISG formula at beginning of test; acceptance criteria based on number of sensors remaining and actual test duration.
- 9. Computer S ' m Error Functions automatically checks for error in incoming data, printer or dia irive faults. l The computer program used by General Physics has been previously certified for six tests !
at the San Onofre Nuclear Generating Station and over a dozen other ILRTs. The initial certification required verification of the program through hand calculations and an , independent review by Bechtel Power Corporation. After certification was completed, a calibration set of raw data was used to verify software of the program prior to usage. Additionally, once the computer was linked to the data acquisition system and a complete data stream was available, the input function of each mode of the program was verified by comparing the data acquisition system output to the computer piintout data point summary. I I l l l O i u O
- Reactor Containment Building Final Report .
Integrated Leakage Rate Test V. C. Summer Nuclear Station -
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' APPENDIX B STABILIZATION PHASE DATA O
- ~ . . . .
I TIME : 2245 A }ABLIZATION' CPTIONS MODE MODE
SUMMARY
=1 - MANUAL DATA ENTRY # OF DATA POINTS = 28 2 - PARAMATER GRAPHS MODE DURATION (IN HRS) = 6.75 3 - SENSOR PLOTS TOT TIME MEASURED LEAK = 0.2269-4 - SENSOR DIFFERENTIALS TOT TIME CALCULATED LEAK = 0.2691 5 ~ ANSI STABILIZATION CRITERIA TOT TIME 95% UCL = 0.3532 6'- BN-TOP-l' STAB. CRITERIA MASS PT LEAK = 0.2517 7 - ANSI CRITERIA PRINTOUT MASS PT 95% UCL = 0.2607 8 - BN-TOP-1 CRITERIA PRINTOUT 9 REPRINT CURRENT DATA POINT ,
P - PASS WORD MENU ' 0 - FLASH OFF ANSI TEMPERATURE STABLIZATION CRITERIA MET BN-TOP TEMPERATURE STABLIZATION CRITERIA M3T POINT
SUMMARY
- CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT
. 1 AVG TEMP: 76.888/ -0.031 AVG PRESS: 63.622/ -0.005 MASS: 655888.50/ -5.563 AVG DEW PRESS: 0.1683/+0.0001 '
TOTAL PRESS: 68.791/ -0.005 O
- O
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STABLE MODE O- V. C. Summer UNIT 1 Page 1 TEMPERATURE STABILIZATION UNIT 1 ANSI 56.8 BN-TOP-1 TIME TEMP 1 HR 4 HR 4HR-1HR BN1 BN2 0.00 78.021 0.0000 0.0000 0.0000 0.0000 0.0000 0.25 77.907 0.0000 0.0000 0.0000 0.0000 0.0000 0.50 77.800 0.0000 0.0000 0.0000 0.0000 0.0000 0.75 77.728 0.0000 0.0000 0.0000 0.0000 0.0000 1.00 77.647 0.4678 0.0000 -0.4678 0.0000 0.0000 1.25 77.592 0.3935 0.0000 -0.3935 0.0000 0.0000 1.50 77.548 0.3146 0.0000 -0.3146 0.0000 0.0000 1.75 77.484 0.3051 0.0000 -0.3051 0.0000 0.0000 2.00 77.429 0.2729 0.0000 -0.2729 -0.2963 0.0000 2.25 77.381 0.2630 0.0000 -0.2630 -0.2626 0.1349 2.50 77.341 0.2589 0.0000 -0.2589 -0.2294 0.1328 2.75 77.304 0.2239 0.0000 -0.2239 -0.2116 0.0711 3.00 77.273 0.1948 0.0000 -0.1948 -0.1871 0.0981 3.25 77.245 0.1707 0.0000 -0.1707 -0.1735 0.0544 3.50 77.230 0.1381 0.0000 -0.1381 -0.1588 0.0588 O 3.75 4.00 4.25 77.202 77.169 77.138 0.1279 0.1296 0.1333 0.0000 0.2663 0.2401
-0.1279 0.1367 0.1068 -0. 408 -0.1297 -0.1216 0.0722 0.0440-0.0325 4.50 77.113 0.1473 0.2147 0.0674 -0.1142 0.0299 4.75 77.077 0.1558 0.2032 0.0474 -0.1135 0.0027 5.00 77.045 0.1556 0.1882 0.0326 -0.1141 -0.0023 5.25 77.017 0.1509 0.1795 0.0286 -0.1137 0.0015 5.50 76.994 0.1486 0.1732 0.0246 -0.1184 -0.0186 5.75 76.976 0.1267 0.1586 0.0319 -0.1130 0.0215 6.00 76.959 0.1072 0.1468 0.0396 -0.1051 0.0314 6.25 76.939 0.0979 0.1382 0.0403 .-0.0995 0.0224 6.50 76.920 0.0926 0.1317 0.0390 -0.0965 0.0121 6.75 76.888 0.1099 0.1301 0.0201 -0.0946 0.0074 O
m __ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _
I 1 [' STABLE MODE l Page 1 __ i AVERAGE DATA VALUES
, =
DATE TIME RTD DEW PT. VAP PRESS DRY PRESS MASS , c _ _ _ i 68.811 656307.31 69 0.00 78.021 0.000 0.165 69 0.25 77.907 0.000 0.165 68.795 656292.25 69 0.50 77.800 0.000 0.165 68.782 656301.81 69 0.75 77.728 0.000 0.165 68.771 656281.00 69 1.00 77.647 0.000 0.165 68.760 656279.13 69 1.25 77.592 0.000 0.165 68.751 656261.63 , 69 1.50 77.548 0.000 0.165 68.742 656225.06 l 69 1.75 77.484 0.000 0.165 68.733 656221.13 69 2.00 77.429 0.000 0.165 68.724 656201.06 69 2.25 77.381 0.000 0.165 68.716 656185.31 69 2.50 77.341 0.000 0.165 68.709 656160.44 69 2.75 77.304 0.000 0.165 68.702 656143.06 69 3.00 77.273 0.000 0.166 68.696 656123.44 69 3.25 77.245 0.000 0.166 68.691 656104.63 69 3.50 77.230 0.000 0.166 68.685 656073.81 69 3.75 77.202 0.000 0.167 68.680 656058.88 69 4.00 77.169 0.000 0.167 68.674 656041.25 0.167 68.668 656018.75 O 69 69 69 4.25 4.50 4.75 77.138 77.113 77.077 0.000 0.000 0.000 0.167 0.167 68.662 68.656 655989.44 655975.75 69 5.00 77.045 0.000 0.167 68.650 655962.50 69 5.25 77.017 0.000 0.167 68.646 655953.88 69 5.50 76.994 0.000 0.168 68.642 655945.31 69 5.75 76.976 0.000 0.168 68.639 655938.63 69 6.00 76.959 0.000 0.168 68.635 655925.75 69 6.25 76.939 0.000 0.168 68.632 655914.88 69 6.50 76.920 0.000 0.168 68.627 655894.06 69 6.75 76.888 0.000 0.168 68.622 655888.50 l l i O I y- _ . -- . . . . --
i 3 STABLE MODE V. C. Summer UNIT 1 Page 1 LEAKAGE RATE
SUMMARY
UNIT 1 TOTAL TIME MASS / POINT DATE TIME TTLM LMCALC SL LAM L95 69 0.00 0.0000 0.0000 0.0000 0.0000 0.0000 69 0.25 0.2207 0.0000 0.0000 0.0000 0.0000 69 0.50 0.0403 0.0403 0.0000 0.0402 0.9300 69 0.75 0.1284 0.0836 1.1456 0.1009 0.2728 69 1.00 0.1031 0.0834 0.4931 0.0989 0.1784 ;
~ 0.1740 69 1.25 0.1337 0.1030 0.3831 0.1198 69 1.50 0.2006 0.1488 0.3946 0.1725 0.2432-69 1.75 0.1801 0.1657 0.3687 0.1846 0.2371 ;
69 2.00 0.1943 0.1819 0.3571 0.1972 0.2393 69 2.25 0.1983 0.1937 0.3487 0.2059 0.2401 69 2.50 0.2149 0.2073 0.3475 0.2174 0.2476 69 2.75 0.2184 0.2178 0.3462 0.2261 0.2524 69 3.00 0.2242 0.2269 0.3459 0.2326 0.2558 69 3.25 0.2280 0.2345 0.3459 0.2384 0.2588 69 3.50 0.2439 0.2442 0.3491 0.2474 0.2672 69 3.75 0.2423 0.2512 0.3507 0.2530 0.2710 O- 69 4.00 0.2432 0.2567 0.3519 0.2567 0.2730 69 4.25 0.2483 0.2620 0.3535 0.2606 0.2756 69 4.50 0.2584 0.2682 0.3561 0.2659 0.2803 69 4.75 0.2553 0.2726 0.3578 0.2691 0.2824 69 5.00 0.2522 0.2755 0.3588 0.2707 0.2828 69 5.25 0.2462 0.2767 0.3591 0.2699 0.2808 l 69 5.50 0.2407 0.2766 0.3589 0.2675 0.2777 69 5.75 0.2345 0.2755 0.3582 0.2643 0.2742 69 6.00 0.2326 0.2740 0.3572 0.2608 0.2705 69 6.25 0.2296 0.2722 0.3560 0.2572 0.2667 69 6.50 0.2325 0.2710 0.3547 0.2548 0.2640 69 6.75 0.2269 0.2691 0.3532 0.2517 0.2607-l l
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i lL' . 1 h . V. C. Summer'1 INTEGRATED LEAK RATE TEST TEST MODE : STABLE >
- DATA POINT-
SUMMARY
SHEET DATE : 64 TIME : l e.: 0 0
. Pressure Instruments in PSIA channel pressure channel pressure i l l' +68.9495 2 +68.9774 l L -
l l L- KTDs in degrees F ; channel temp. channel temp. channel temp. 1 +79.426 2 +79.577 3 +79.632 , l 4 +79.377 5 +71.463 6 +79.703 l 7 +79.979 8 +78.644 9 +78.209 10 +78.784 11 +80.597 12 +77.917 13 +79.002 14 +76.923 15 +75.389 la +76.462 17 +75.962 18 +77.178. 19 +76.603 20 +70'225 . 21 +71.049 22 +71.232 23 +72'.217 24 +71.438 Drvbulb temperature in degrees F , ['sg channel temp. channel temp. channel temp. 1 +79.632 2 +79.703 3 +78.644 ' 4 +76.603 5 -+70.225 Relative humidity' in percent l l channel %RH channel '%RH channel ORH ~
------- ----- ---_--- ----_ ----_-- ----_ j 1 +32.312 2 +34.703 3 +34.908 4 +35.835 5 +45.107 1 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - _ - - - _ - - - - - - - - - - - - - - - _ j l
l AVERAGE. TEMPERATURE = +78.021 DEG. F-AVERAGE PRESSURE = +69.000. PSIA' AVG VAPOR PRESSURE = +0.1648 PSIA MASS- = +656540.38 LBM l 1 1 i
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V. C, Summer. 1 t
~ INTEGRATED LEAK:. RATE TEST TEST MODE : STABLE o -DATA POINT
SUMMARY
SHEET DATE : 69 TIME : 16: 15' l i
# Pressure Instruments-in PSIA
__ ______-______________________________________________________ j channel channel pressure -pressure 1 +68.9330 2 +68.9612 ) RTDs in degrees F channel temp. channel temp. channel temp. i _____. l l' +79.224 2 +79.387 3 +79.453 '] 4 +79.212 5 +71.425 6 +79.547 1 7 +79.899 8 +78.574 9 +78.096-10 +78.705 11 +80.518 12 +77.792
'13 +78.920 14 +76.941 15 .+75.405 16 +76.469 37 +75.960 18 +77.205 19 +76.610 20 +70.232 21 +71.026 22 +71.232 23 +72.185 24 +71.450 Drybulb temperature in degrees F channel temp. channel temp. channel temp.
1 +79.453 2 +79.547 3 +78~574 . 4 +76.610 5 +70.232 i Relative humidity in percent. channel %RH channel %RH channel LRH H
)
______ _____ _____ _ ___. _ _____ .____ =; 1 +32.439 2 +34.'762 3 +34.960 I 4 +35.896 5 +45.308- .j 1' AVERAGE TEMPERATURE.= +77.907 .DEG. F : i AVERAGE- PRESSURE = + 68.984 PSIA ' AVG VAPOR PRESSURE = +0.1647 PSIA MASS = +656526.7S 'LBM- ' 1 l
'i ,
1 l a I
V. C. Summer 1
. INTEGRATED LEAK-RATE TEST TESi~ MODE : STABLE DATA POINT
SUMMARY
SHEET DATE : 69 TIME : 16:30 J Pressure Instruments in PSIA channel pressure channel pressure 1 +68.9201 2 +68.9484 RTDs in degrees F channel t e rt p . channel temp. channel temp. 1 +79.052 2 +79.215 3 +791301 4 +79.049 5 +71.425 6 +79.395 7 +79.714 8 +78.519 9 +77.987-10 +78.605 11 +80.387 12 +77.738 13 +78.846 14 +76.952 15 +75.405 16 +76.469 17 +75.969 18 +77.217 19 +76.621 20 +70.232 21 +71 017 22 +71.244 23 +72.185- 24 +71.470 Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +79.301 2 +79.395 3 +78.519 4 +76.621 5 +70.232 Relative humidity in percent channel %RH channel ?;RH . channel ?;RH 1 +32.569 2 +34.888 3 +35.010 4 +35.942 5 +45.100 AVERAGE TEMPERATURE = +77.800 DEG. F AVERAGE PRESSURE = +68:.971. PSIA AVG VAPOR PRESSURE = +0.1646' PSIA-MASS = +656536.88 LBM- . 4 M4 0
V.~C. Summer'1 - INTEGRATED LEAK RATE' TEST TEST MODE : STABLE f
' DATA POINT
SUMMARY
SHEET DATE : 69 j TIME : 16: 45 ! p^ j 3 s Pressure Instruments in PSIA- : channel pressure ciba nnel pressure j 1 +68.9087 2 +68.9372 q e RTDs in degrees F channel temp. channel temp. channel temp. 1 +78.932 2 +79.095. 3 +79.172 4 +78.940 5 +71.448 6 +79.297 7 +79.736 8 +78.454 9 +77.923 : 10 - +78.542 13 +80.321 12 +77.717 ' 13 +78.803 14 +76.898 15 +75.416 , 16 +76.338 17 +75.991 ~ 18 +77.205 19 +76.632 20 +70.264 21 +71.026 22 +71.266 23 +72.174 24 +71.504 :l l Drybulb temperature in degrees F _____ ..____________________________________________ _________ __ j channel temp, channel temp. channel temp. 1 _______ _____ _______ _____ _______ _____- q 1 +79.172 2 +79.297 3 '+78.454 .) 4 +76'.632 5 +79.264 ] Relative humidity in percent channel %RH channel %RH- channel. tRH 1 1 i 1 +32.695 2- +34.966 3 +35.073- 1 4 +35.985- 5- +45.'302 AVERAGE TEMPERATURE = +77.728 'DEG. F AVERAGE -PRESSURE' = +68.960 PSIA' AVG VAPOR PRESSURE - = +0.1647--PSIA
' MASS = +656517.00- LBM :1 i
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-V. C. Summer 1 INTEGRATED LEAK RATE TEST PST MODE : STABLE DATA POINT
SUMMARY
SHEET DATE : 69 TIME : 17:00 -t
' N' .
Pressure Instruments in PSIA channel pressure channel pressure 1 +68.8982 2 +68.9266 RTDs i n degrees F channel temp. channel temp. channel temp. 1 +78.827 2 +78.991 3 +79.068~ 4 +78.836 5 +71.420 6 +79.193 7 +79.512 8 +78.383 9 +77 862 10 +78.501 11 +80.282 12 +77.602 13 +78.741 14 +76.891 15 +75.420-16 +76.125 17 +75.996 18 +77.146 19 +76.614 20 +70.259 21 +71.038 22 +71.266 23 +72.163 24 +71.524 Orybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +79.068 2 +79.193 3 +78.383 4 +76.614 5 +70.259 Relative humidity in percent channel %RH channel %RH channel tRH 1 +32.822 2 +35.059 3 +35.153 4 +36.041 5 +45.204 AVERAGE TEMPERATURE = +77.647 DEG. F AVERAGE PRESSURE = +68.950 -PSIA AVG VAPOR PRESSURE =- ~+0.1646 PSIA-MASS = + 656514 . 69 : LBM __ m- . _
l l: I V.-C. Summer 1 L. .-INTEGRATED LEAK-RATE' TEST TEST MODE : STABLE '
' DATA. POINT
SUMMARY
SHEET DATE : '69 ' TIME- : 17:15 i
^ ' .f t \
Pressure Instruments in PSIA . l- 4 channel pressure channel pressure 1 +68.8894 2 +68.9179 j 1 RTDs in degrees F channel temp. channel temp. channel temo. -l 1 1 +78.737 2 +78.877 3 +78.975 4 478.745 5 +71.448' 6 +79.080 :
- l. 7 +79.616 8 +78.336 9 +77.781- l l 10 +78.499 11 +80.223 12 +77.554 -)
b 13 +78.705 14 +76.898 15 +75.439 16 +76.034 17 +76.003 18 +77.151 d 19 +76.610 20 +70.286 21 +71.049 ' 22 +71.287 23 +72.163 24 +71.536 l 4 i Drybulb temperature in degrees F , channel temp. channel temp. channel temp. . 1 +78.975 2 +79.080 3 +78.336' l-4 +76.610 'S +70.286 i Relative humidity in percent channel %RH channel %RH-- channel %RH- .. 1 +32 925 2 +35.137 3 '.+35.208 ) 4 +36.083 5 +45.456 l 1 AVERAGE TEMPERATURE =- +77.592 DEG.:F-AVERAGE PRESSURE = +68.941- PSIA' AVG VAPOR PRESSURE = +0.1648 PSIA-MASS = +656497.63 LBM l l-. %
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.]
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : STABLE-DATA POINT
SUMMARY
-SHEET DATE - 69
. TIME : 17:30 !
i' o Pressure Instruments in PSIA channel pressure channel pressure 1 +68.8802 2 +68.9086 . f a RTDs in de9 tees F channel temp. channel temp. channel temp. 1 +78.671 2 +78'.812 3 +78.911 4 +78.679 5 +71.425 6 +79.014 7 +79.367 8 +78.302 9 +77.792 10 +78.454 11 +80.203 12 +77.554 13 +78.682 14 +76.918 15 +75.448 16 +76.012 17 +76.023 18 +77.162 19 +76.598 20 +70.352 21 +71.060 l 22 +71.309 23 +72.153 24 +71.558 Drybulb temperature in degrees F j (- channel temp. channel temp. channel temp. 1 +78.911 2 +79.014 3 +78~.302 4 +76.598 5 +70.352 : Relative humidity in percent channe) %RH channel- %RH channel tRH 1 +33.033 2 +35.217 3 +35.254 4 +36.130 5 +45.'485
- - - - - - - - - - - - - - - - - - - - - _ - - - _ - - - - - _ - - - - - - - - - - - - _ - - - - - - - - - - - - - _ - - - - - - i .)
i 1 AVERAGE TEMPERATURE =- +77.548 DEG F :j AVERAGE. PRESSURE = +68.932. PSIA l AVG VAPOR PRESSURE = +0.1650 PSIA J MASS = +656460.63 LBM ') i
)
i l i s
t V. C.' Summer-1 .
. INTEGRATED LEAK RATE TEST TEST MODE : STABLE DATA POINT
SUMMARY
SHEET DATE- : 69 . . TIME : 17: 45 I r'- . - 5 N Pressure Instruments i n. PSIA . t channel ~ pressure channel- pressure ; ______ _______ _ _ __ ________ e 1 +68.8713 2 +68.8998 - RTDs in degrees F i channel temp. channel-channel temp. temp. 1 '+78.556 2 +78.741 3 . +78.816 4 +78.587 5 +71.429 6 +78.898 7 +79.229 8 +78-.252 9 +77.785 10 +78.415' 11 +80.153 12 +77.482- i 13 +78.633 14 +76.902 15 +75.443' - 16 +75.996 17 +76.027 18 +77.124 l 19 +76.591 20 +70.302 21 +71.060 22 +71.318 23 +72.163 24 .+71.57o q Drybulb temperature in degrees F .
,'. channel temp. channel temp. channel temp.
1 +78.816 2 +78.898 3 + 7 8 '. 2 5 2 l 4 +76.591 5 +70.302 Relative humidity in percent -)
}
channel %RH channel -%RH channel %RH l 1 +33.137 2 +35.289 3. +35.315 4 +36.167 5 +45.197 AVERAGE: TEMPERATURE = +77.484- DEG. F AVERAGE ~ PRESSURE = +68.923: PSIA AVG-VAPOR PRESSURE = +0.1648' PSIA MASS = +656457.19 LBM.' I p- a i R s
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a . V. C., summer 1 INTEGRATED LEAK RATE TEST TEST MODE : STABLE l
-DATA POINT
SUMMARY
SHEET DATE : 69
- TIME : 18:00 !
Pressure Instruments in PSIA c channel pressure channel pressure-
+68.8624 2 1 +68.8909 4 RTDs in degrees F channel temp. channel temp. cSannel- temp.
1 +78.458 2 +78.644 3 +78.'730 l 4 +78.521 5 +71.429. 6 +78.792 -! 7 +79.154 8 +78.209 9 :+77.710 10 +78.372 11 +80.131 12 +77.427 13 +78.590 14 +76.825 15 t i' S . 4 4 3 , 16 +75.996 17 +76.039 16 +77.135 ' 19 +76.591 20 +70.377 21-' +71.069 '! 22 +71.341 23 +72.174 24 +71.601 l V i j.- ! Drybulb temperature in degrees F ; E~ channel temp. channel temp. channel temp. , _______ _____ _______ _____ _______ _____ i 1 +78.730- 2 +78.792 3 +78.209 > . 4 +76.591 5 +70.377 i Relative humidity-in percent !~ channel %RH channel %RH channel tRH 1 +33.238 2 ' +35.364 3 +35.381 3 4 +36.201 5 +45.545 j- i a , AVERAGE TEMPERATURE =- +77.429 DEG. F Lj n- AVERAGE. PRESSURE = +68.914 PSIA. ;{ , AVG VAPOR PRESSURE = +0.1650 PSIA MASS = +656437.19' LBM j i l
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;V . C.~ Summer 1 -- ~
INTEGRATED' LEAK RATE TEST TEST MODE : STABLE < DATA POINT.
SUMMARY
SHEET DATE : 69 4 TIME : 18:15 ! I Pressure Instruments in PSIA l channel pressure channel . pressure , 1 +68.8549 2 +68.8833 RTDs in degrees F i channel temp. channel temp. channel- .temo. 1 +78 372 2 +78.590 3 +78.664 -
- - 4 +78'.423 5 +71.429 6 +78.726
- 7 +79.219 8 +78.166 9 + 7 7. 6'4 5 l . 10 +78.318 11 +80.076 12 +77.384 - l 13 +78.524 14 +76.902- 15 +75.452 16 +75.984 17 +76.027 18 +77.155' i' 19 +76.603 20 +70.357 21 +71.060- 1 22 +71.341 23 +72.153 24 +71.'613 Drybulb temperature in degrees F
- cnannel temp. channel temp. channel temp.
.g 1 +78.664 2 +78.726 3 +78.166
'i - 4 +76.603 5 +70.357 ;
; Relative humidity in percent
. channel %RH - channel %RH ch'nnel 3RH a l 1 +33.331 2 +35.428 +35.434 4 +36.243 5 +45.700 t AVERAGE TEMPERATURE = +77.381- DEG-. F~ AVERAGE PRESSURE =- +68.906 PSIA-AVG VAPOR-PRESSURE =- +0.1651 -PSIA
-MASS =.'+656421.00 LOM a- .. - . . . :=_-...:--. .-.=..x -. ..
t ( ' h ! V. ! C Summer. 1 INTEGRATED LEAK RATE TEST ~ TEST MODE : STABLE I DATA POINT
SUMMARY
SHEET DATE' : 64 : TIME
- 18:30 !
-0 - prensure Instruments in PSIA l
channel pressure channel'
' pressure' j ;
4 1 +68.8470 2 +68.8757 .. i , RIDS in degrees F channel temp. channel . temp. . channel temp. ; 2-1 1 +78.291 2, +78.519 3- +78:.605 3
- 4 +78.387 5 +71.436 6 +78.656--
?-- 7 +79.084 8 +78,118 9 +77.609 .; 10 +78.270 11 +80.060 12 +77.348 , , 13 +78 499 14' +76.832 15 :+75.448 - 16 +75.991 17 +76.046 18 +77.162- ' 19 ' +76.621- 20 +70.406 21 +71.076' 22 +71.368 23 +72.160 24 +71.651 1 Drybulb temperature in degrees F o channel temp. C ria nne l temp. channel temp.
+78.605 2 +78.656 3 !
1 +78.118-4 +76.621 5 +70.406 : Relative humidity in percent 4 _ _ _ _ _ _ _. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _- _ _ - ; [ channel %RH channel %RH channel- %RH 1 +33.410 2 +35.452 -3 +35.495 4 +36.261 5- +45.646 3 i' AVERAGE : TEMPERATURE = 1+77'.341 . DEG. F-AVERAGE PRESSURE- = .+68.899 PSIA AVG VAPOR; PRESSURE- = +0.1652 PSIA M ASS : -= +656397.50 LBM' i i. 9 i' t-r O ( ; m-. - . - . .. ~._ .- . . , - -
V. C. Sv.r,*n e r 1 INTEGRATED LEAK RATE TEST TEST' MODE': STABLE DATA. POINT
SUMMARY
SHEET DATE : 64 TIME : ' 10 : 45 ll\ Pressure Instruments in PSIA channel pressure- channel pressure 1 +68.8408 2 +68.8692 RTDs in degrees F channel temp. channel temp. channel temo. 1 +78.263 2' +78.469 3 +78 535 . 4 +78.315 5 +71.441 6 +78.606 7 +79.088 8 +78.080 9 +77'590- . 10 +78.252 11 +S0,022 12 +77.319 13 +78.438 14 +76.825 15 ~ +75.432 16 +75.984 17 +76.050 18 +77 155 19- +76.614 20 +70.420 21 +71'065 . 22 +71.391 23 +72.149 24 +71.662 vrybu'lb temperature in degrees F channel temp. channel temp. channel temp. 1 +78.535 2 +78.606 3 +78.080 4 +76.614 5 +70.420 Relative humidity in percent channel ?eRH channel ?RH 4 channel ?RH 4 1 +33.498 2 +35.536 3 +35.541-4 +36.297 5 +45.771 AVERAGE TEMPERATURE = + 77.304'. DEG. F AVERAGE- PRESSURE = .'+68.892 PSIA' AVG VAPOR PRESSURE = +0.1653 PSIA MASS = +656378'.81 LBM w
' ' ' ' ' . --_____________a _ . . - - - - - - - _ . _ _--
- a. ,
V, C. Summer..I , C TEST. MODE : STABLE
. INTEGRATED LEAK RATE. TEST l l DATA POINT
SUMMARY
SHEET DATE- : 69 TIME' : 19:00 f: A l- Pressure Instruments in PSIA channel pressure channel pressure , 4 1 1 +68.8348 2 +68.8636 ; 1 AfDs in degrees F
- channel temp. channel temp. channel temp.
1 +78.198 2 +78.404 3 +78.481 ; U 4 +78.272 5 +71.429 6 +78.552-d 7 +79.122 8 +78.034 9 +77.525 l 10 +78.209 11 +79.990 12. +77.264 13 +78.458 14 +76.837 15 +75.420 16 +75.996 17 +76.061 18 +77.178 19 +76.634 20 +70.474 21, +71.060'
- 22 +71.416 23 t72.142 24 + 7 1 .~6 9 9 ,
4 , e Drybulb temperature in degrees F
. channel temp, channel temp. channel. temp.
1 +78.481 2 +78.552 3 +78.034 l 4 +7.6.634 5 +70.474 Relative humidity in percent channel ?aRH channel ?eRH channel f;RH 4 1 +33.640 2 +35.585 3 +35.648 l 4 +36.346 5 +45.820 AVERAGE TEMPERATURE = +77.273 DEG . f-AVERAGE PRESSURE. = +68.887 -PSIA-AVG VAPOR PRESSURE = +0.1656~ PSIA MASS = +656361.00 LBM L j-E 4 a PP
.e s,-a . - + , . . - . . . e.., . . . , .,,w,..+.eiwew.w---.e.,-ee-4 y- r ,,e .nmmm.wr,v,eu -,e e e'.
- =- --- - - -- - -- -- - . - %yh; p . m.m---
N 2-'
~ Va'C. Summer 1 - TNTEGRATED LEAK RATE-TEST TEST' MODE : STABLE g UATA POINT
SUMMARY
. SHEET OATE : 69 TIME : 19:15 M 1 v Pressure Instruments-in PSIA' channel. pressure- channel. pressure 1 + 68.8295 2 +68.8584
' RTDs in degrees C channel temp. channel temp. channel t e m p =.
1 +78.143 2 +78.361 3 +78'.426 4 +78.229 5 +71.452 6 +78.509 7 +79.099 8 +78'014 . 9 +77.504-10 +78.198 11 +79.956 12 +77.255-13 +78.404 14 +76.848 15 +75.420 1A +76.016 17 +76.071 18 +77.189 19 +76.646 20 +70.474 21 +71.081 22 +71.427 23 +72.163 24 +71.710 nrybulo temperature in degrees F channel temp. c hannel tamp. channel temp. 1 +78.426 2 +78.50'-> -3 +78.014 4 +76.646 5 +70.474
. Relative humidity in percent channel 4RH channel %RH. channel -%RH 1 +33.766 2 +35.621 3 +35".744 4 +36.402 5 +45.942 AVERAGE TEMPERATURE = +77.245 DEG. F AVERAGE PRESSURE = +68.~881 PSIA AVG VAPOR PRESSURE = +0.1659 PSIA MASS = +656342.63 LBM p
l-II i
- l. -
p i
V.C. Summer 1 INTEGRATED LEAK RATE' TEST TEST MODE : STABLE DATA POINT
SUMMARY
SHEET- DATE : 69 TIME : 19: 30 Pressure' Instruments in P5I A channel pressure channel pressure 1 +68.8248 2 +68.8536-RTDs in degrees F channel temp. channel temp. channel temp. 1 +78.116 2 +78.334 3 , +78.388 4 +78.179 5 +71.488 6 +78.470 7 +79.310 8 +77.985 9 + 7 7..'4 7 5 10 +78.159 11 479.929 12 +77.237 13 +78.377 14 +76.809 15 +75.425 16 +76.032 17 +76'.086 18 +77.194 19
+76.650 20 +70.513 21 +71.092 22 +71.450 23 +72'.185 24 +71.742 Drybulb t.emperature in degrees F e channel temp. channel temp. channel temp.
(, _______ _____ _______ _____ _______ _ _ _ _ _ . 1 +78.388 2 +78.470 3 +77.985 4 +76.650 5 +70.513 4 Relative humidity in percent i ? channel %RH channel %RH channel tRH
'l 2
1 +33.889 +35.657 3- +35.848 4 +36.465 5 + / t . 981 :l AVERAGE TEMPEPATURE = +77.230 DEG. F-AVERAGE PRESSURE = +68.877. _. PSIA j AVG VAPOR PRESSURE = +0.1662- PSIA 'l MASS = +656311.44 LBM .l l
-- . . - - - . . - . - ~ ~ . . . - . ~ ~ - .-- -. - . _ - _ - ~ - . .
- 4. t V. C. Summer . 1
~
- a. t
- INTEGFATED. LEAK RATE TEST T E S T + .3. E ' ' - STADLE2 :,
DATA POINT
SUMMARY
SHEET- DATE : 6o-TIME : . 14:45 '
-Pressure ~ Instruments in PSIA channel pressure channel pressure !
4
-l 1 +68.8201 .2. +68.8485 :
RTDs in degrees F 1 channel temp. channel temp. channel : temp. ! 1 +78.046 2 +78.263 3 +78.340 , 4 +78.163 5 +71 506 6 +78.411 ' 7 +79.165 8 +77.971 9 +~77 .396 'l 10 +78.166 11 +79.956' 12. +77.189 ' 13 +78.404 14 +76.849 15 +75.443 ~ l e, +76.039 17 +76.104 18 +77.210 1 c: +76.668 20 +70.519 21 +71.119. 22 +71.474 23 +72.190 '24 - +71;766 1 Drybulb temperature in degrees F _ _______ ..., _______. ____________________________ __ ____ _____ i channel temp, channel temp. channel temp. { z
- - 1 +78.340- 2 +78.411- 3 +77.971 1
+76.668' i.
4 5. +70.519 :; Relative humidity in percent 'l channel %RH channel %RH channel *;RH l 1 +34.001 2 +35.818- 3 +35'.938 ! 4 +36.509 5 +46.004 i - a s i AVERAGE TEMPERATURE =- +77 202 DEG. F
- l AVERAGE PRESSURE = +68.871 PSIA AVG VAPOR PRESSURE =- +0.1665 PSIA MASS = +656294.56 LBM t -i a
p e 0 A a w,-M.a -..~-.r.,--,---...e-. ,s.-,,.,..~.s .--:.e..-,.---- .,. ,-en,..-,.A-m n,
. + _ , . . . . . - -. -.- ., . . . - . . . - . . . - . - -
f LV.~C. Summer'1 .
-1 INTEGRATED LEAK' RATE' TEST TEST MODE : STAGLE ;
l DATA POINT.
SUMMARY
SHEET. DATE : 69 'l TIME : 20:00 1
'i Pressure Instruments.in PSIA )
channel - pressure channel' pressure -j y
'l +68.8144 2 +68.8426 RTDs in degrees F [ . channel- temp. channel temp. channel temp. 1 1 +77.996 2 +78.225 3- t78.279-4 +78.102- 5 +71.531 6 +78.302 :
7 +79.061 8 +77.930 9 +77.389' > l 10 +78.148 11 +79.917 12 +77.171 l 13 t78.354 14 . +76.841 15- +75.436 l 16 +76.043 17 + 7 6'. 1 0 9 - 16 . +77.205 l
.19 +76.693 20 +70.556 21 +71.135' l 22 +71.504 23 +72.208 24 +71.796 1 'Drybulb temperature in degrees F channel temp. channel- temp. . channel temp.
1 +78.279 2- +78.382 3 +77.930 , 4 +76.693 5 +70.556 l
. Relative humidity in percent - ..---- -- ------- ---------.-------- . . ------------------------- I channel tRH channel ~ tRH channel %RH !
1 ' +34.115 2 +35.904 3 +36.019 .) 4 +36,556 5 +46.108 l AVERAGE TEMPERATURE = +77.169 DEG. F AVERAGE PRESSURE = +68.866 PSIA AVG VAPOR PRESSURE = +0.1668 PSIA MASS- =.+656275.94 LBM
'l -l .) -- f r,, - .,
. ~ .-V.;C. Summer-1 - INTEGRATED LEAK RATE TEST TEST MODE : STABLE ~I DATA POINT.
SUMMARY
SHEET DATE : 69'- > 4 TIME : 20:15 Prscsure Instruments in PSIA
~
channel pressure channel pressure ') 1 +68.8084 2 +68'.8362 j l
.RTDs in degrees F channel temp. channel temp. channel- temp. '
1 +77.937 2 +78.198 3 +78.241' , a +78.077 5 +71.506 6 +78.334 7 +78.936 8 +77.883 9 +77.330 ; 10 .+78.111 11 +79.893 12 +77.13c. .o 13 +78.318 14 +76.837 15 +75.452 i 16 +76.050 17 +76.104 18 +77.201 19 +76.689 20 +70.562 21 +71.139 j 22 +71.529 23 +72.212 24 +71.812 ; 1 J Drybulb temperature in degrees F ) l channel temp channel temp. channel temp. j) 1 +78.241 2 +78.334- 3 +7.7.883 1 4 +76.689 5 +70.562 Relative humidity in percent channel ?.R H channel !sRH channel ?RH-4 ,
-----_- ----_ ---_-__ _____ ------- 1 1 +34.185 2 +35.947 3.. +36.092 4 +36.609 5 +46.125 ----------------_- ------------_------_-------------------------- l l
AVERAGE TEMPERATURE = +77.138 DEG. F AVERAGE PRESSURE = +68.859 PSIA ] AVG VAPOR PRESSURE = +0.1669 PSIA i MASS = +656251.50 LBM I i i
- l l
I i 1 i k a I 1
- .j , .. I
. m -V. c.' Summer. 1 1
INii;6 RATED LEAK RATE TEST TEST MODE : STACLE DATA POINT
SUMMARY
_ SHEET 'DATE : 69 TIME - 20: 30 Pressure Instruments in PSIA channel pressure channel pressure 1 +68.8024 2 +68.8298 RTDs in degrees F channel temp. channel temp. channel temp. 1 +77.894 2 +78.134 3 +78.198 4 +78.031 5 +71.518 6 +78.291 7 +78.968 8 +77.862 9 +77.330 10 +78.089 11 +79.870 12 +77.081 13 +78.306 14 +76.825 15 +75.495 16 +76.050 17 +76.125 18 +77.210 19 +76.700 20 +70.574 21 +71.151. 22 +71.551 23 +72.201 24 +71.821-Drybulb temperature in degrees F channel temp. channel temp. channel temp. T _ . . _ _ _ _ _ _____ _______ _____ _______ ._____
- 1. +78.198 2 +78.291- 3 +77.862 3 4 +76.700 5 +70.574 R+1ative humidity in-percent channel %RH channel %RH channel- %RH 1 +34.262 2 +36.001 3 +36.142 4 +36.637 5 +46.169.
AVERAGE TEMPERATURE = +77.113 DEG. F AVERAGE PRESSURE = +68.853 PSIA AVG VAPOR PRESSURE = .40.1670 PSIA MASS =.+656220.25 LBM b. L2 _li___. _
. .~ ~. . .- - . _ . - _ . - . . - - . . . _ - ._,____ _--._.-.
. + .
'i ' V. t; summer 'i . 1' INTEGRATED LEAK RATE TEST TEST MODE : STABLE t
- -DATA. POINT
SUMMARY
SHEET-- DATE- : 69
- TIME : 20:45. .
k Pressure Instruments in PSIA channel pressure channel pressure 1 +60.7967 2 +68.8239 ; } . RTDs in degrees F !
'l' channel temp. channel temp. channel; temp.
j _---___ -____ ___--__ -_--_ --_-___ . - _ _ - _ . ; 1 +77.855 2 +78.105 3 +78.143- , 4 +77.973 5 +71.488- 6 +78.221 i 7 +78.929 8 +77.812 9 +77,291 10 +78.030 11 +7916'O 12 -+77.063 13 +78.268 14 +76.798 15 +75.500 16 +76.043 17 +76.141 18 +77.214. ; 19 +76.705 20 +70.556 21 +71.1'39 22 +71.563 23 +72.201 24 +71.843- ; s Drybulb temperature in degrees F , channel temp. channel temp. channel temp. 1 +78.148 2' +78.221 3' +77.812 4 +76.705- 5 +70.556
-t Relative humidity in percent -
4
. channel %RH channel .%RH channel %RH 1 +34.352 2 +36.059 3 +36.224 f 4 .+ 36.683 5 ~+46.224 9
i AVERAGE TEMPERATURE = +77.077 DEG..F , AVERAGE PRESSURE = +68.847 PSIA- - AVG VAPOR PRESSURE = +0.1672 PSIA s MASS = +656205.69 LBM -
+
3 4
) m ,
1 a -- - - - - _ _ , , _ . . . _ < . . - . . . . . . . , . - . , , , ,, - . . . . _ . , , , , , . . - _ , . . .y . . . , , , , _
, m . ' V...C.. Summer 1 . INTEGRATED' LEAK RATE TEST TEST MODE : $ TABLE' DAIA POINT
SUMMARY
SHEET. .DATE . 69' TIME : '21:00 Pressure Instruments in PSIA .. channel pressure channel pressure: i 1 +68.7912 2 +68.8185 i l ' RTDs in degrees F _________________________________________________________________ ) channel temp. channel temp. channel temp. l
,._____ _____ _______ .__ ____ __ .____ J 1 +77.808 2 +78.057 3 +78.100 l 1 4 +77.923 5 +71.506 6 +78 182 't 7 +78.861 8 +77.785. 9 +77.231 l 10 +78.003 11 +79.764 12 +77.015 -l
' 13 +78.263 14 +76.805 15 +75'.529 .j 16 +76.039 17 +76.136 18 - +77.221 'l 19 +76.712 20 +70.519 21 +71'.151 1 22 +71.583 23 +72.201 24 +71.843 l 5
) .j Drybulb temperature i'n degrees F. .8 l channel temp. channel temp. -channel . temp.
1 +78.100- 2 +78.182 3 +77.785 4 +76.712 5 +70.5191 , i Relative humidity in percent - _ . 1 channel %RH . channel tRH channel %RH - 1 +34.424 2 +36.146 3- +36.281 4 +36.722 5 +46.346-AVERAGE TEMPERATURE = '
+ 77-. 04 5 - DEG. F ~
1 AVERAGE PRESSURE = +68 841'
. PSIA <
l-l AVG VAPOR PRESSURE = +0.1673 PSIA. ~f ~ MASS = +656192.94 LBM t
. y i 't l 'l i 'l e .* s . -= ..-._....-.,...-4.- , - , . . . . , . . - , tw'r-- . ., y _ .e ,--.,,s.% y,-. ,,.7%_ _ _ .
- V. C. Summer 1 INTEGRATED LEAK RATE-TEST TEST-MODE:: . STABLE
' DATA-POINT
SUMMARY
. SHEET- DATE : 69 TIME- *
-21:15 'N Pressure Instruments in PSIA channel pressure channel- pressure 1- '+68.7872 2 +68.8140 RTDs in ueGrees F channel temp. channel temp. channel temp.
1 +77.765 2 +78.014 3 +78.068 4 +77.880 5 +71.484 6 +78.139 7 +78.839 8 +77.765 9 +77.178 10 +77.971 11 +79.772 12 +76.995~ 13 +78.220 14 +76.762 15 +75.572 16 +76.039 17 +76.148 18 +77.221 19 +76.700 20 +70.528 21 +71.151 22 +71.594 23 +72.'201 24 +71.866 Drybulb temperature in degrees'F
. - . channel temp. channel temp. channel temp.
i +78.068 2 +78.139 -3 +77.765 e +76.700 5 +70.528 Relative humidity in percent channel %RH channel- tRH channel- %RH 1 +34.511 2 +36.153 3 +36.354 4 +36.765 5 +46.339 AVERAGE TEMPERATURE = m
+77.017- DEG. F _j AVERAGE PRESSURE = +68.837 PSIA AVG VAPOR PRESSURE = +0.1674 PSIA l MASS = +656181.94 LBM l
. ~. . ., . . . .. , . .~ . - . . - . , .. .- ...,1' 7 i
V; C. Summer 1 LINTEGRATED LEAK RATE TEST TEST MODE : STABLE
-DAT A POINT
SUMMARY
' SHEET DATE : '69 'l TIME : 21:30 -1 p .1
;\j' -
Drassure Instruments in PSIA channel pressure channel pressure 1 +68.7835 2 +68.8103 RTDs in degrees F channel temp. channel temp. channel t e m p'. 1 +77.724 2 +77.985 3 +78.030 4 +77.830 5 + 71. 511- 6 +78.112 .! 7 +78.855 8 +77.735- 9 +77.117 l 10 +77.953 11 +79.734 12 +76.977 I 13 +78.213 14 +76.764 -15 +75.577-16 +76.043 17 +76.141 18 +77.248-19 +76.705- 20 +70.524 21 +71.162 ;i 22 +71.606 23 +72.212 24 + 71. 87 5 - 1 e ! Drvbulb temperature in degrees F channel temp. channel temp. channel temp, f; ( 1 +78.030 2 +78.112 3 +77.735 4 +76.705 5 +70.524 i Relative humidity in percent l channel tRH channel- ?eRH channel ?eRH- . _-----_ ----- ------- ----- ,------- ----- .j 1 +34.581 2 +36.262 3 +36.412 'I 4 +36.811 5 +46.468' 1 AVERAGE TEMPERATURE = +76.994 DEG. F ! AVERAGE PRESSURE = +68.833 PSIA- .! AVG VAPOR PRESSURE = +0.1676' PSIA MASS = +656173'38 . LBM , l
.I i
4 f I
'i e --3 ,
9 g -.9 , - g .y- y en -- .e
- - - - . _ - . - , . _ _ _ - . . - . - . _ - . - - - , - _ _ ~ . . . ~ . - - . ,
l V. C. SummerJ1:
~ INTEGRATED LEAK.-RATE TEST TEST l MODE : - STAGLE '
DATA-POINT.
SUMMARY
SHEET . DATE : 69 , TIME : 21: 45' I Pressure Instruments in PSIA channel . pressure' channel pressure ~
------- -------- - ------- -------- 1 1 +68.7807 2 +68.8073 RTDs in degrees F channel temp. channel temp. channel. ' temp.
1 +77.704' 2 +77.942 3 F77.985 4 +77.809 5 +71.522 6 +78.112 7 +78.800 8 ' +77.715 9 +77.140-10 +77.953 11 - +79.704 12 _476.933 13 +78.202 14 +76.755 15 +75.577 16 +76.043 17 +76.152 18 -+77.237 17 +76.716 20 +70.533 21 +71.171 22 +71.626 23 +72.221 24 +71.698 i F Dr. bulb temperature in' degrees F channel temp. channel temp. channel temp. j ------- ----- ------- ----- ------- -----.
- 1. +77.985 2 +78.112 3- +77.715 4 +76.716- 5 +70.533- '
Relative humidity in percent ( -.--------------------------------------------------------------- channel %RH channel tRH' channel' '
-eRH 4
I 1 +34.634 2- +
'36.275' 3 +36.463' I 4 +36.632 5 +46.461 - . . - - - - _ - - - - - - - - - - - - - - - - - - - _ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -j AVERAGE TEMPERATURE = +76.976 DEG. F l ' AVERAGE PRESSURE = +68.830 PSIA I AVG VAPOR PRESSURE = +0.1677 PSIA ;
MASS = v656165.69 LBM i l
- i a
i e w
,-m , _ , ,, . , , , s ,. , , - , n.ery w
3 V; C. Summer 1 !
' INTEGRATED LEAK RATE TEST TEST MODE : STABLE: -DATA POINT.
SUMMARY
SHEET ~DATE : -69 TIME - 22:00
., m ,
Pressure-Instruments in PSIA ; channel pressure channel pressure ; 1 +68.7774 2 +68.8040 ; RIDS in degrees F i j channel temp. channel . temp. channel temp. __ __ _-_ _ _ _ _ , . _ _____ _______ _____ .i 1 +77.681 2 +77.910 3 + 7 7. , 9 64 4 +77.775 5 +71.522 6 +78.089' ' 7 +78.637 8 +77.681 9 -+77'.128 10 +77.953 11 +79.711 12 +76 245 , 13 +78.182 14 +76.775 15 +75.586 16 +76.055 17 +76.184 18 +77.248 19 +76.739 20 +70.567 21 +71.194. i
- i 22 +71.660 23 +72.244 24 +71.918 ! 'I Drybulb temperature in degrees F ,
channel temp. channel temp. channel- -temp., ' n _______ _____ ___ ___ _____ ______ ___ _ 1 +77.964 2 +78.089 3 '+77.601 , 4 4
+76.739 5 +70.567 M lative.. humidity in percent
_ __________________ _________-____________________ ___._______ y channel %RH channel %RH . channel. tRH- i 1 +34.714 2 +36.365 3 +36.515 d 4 +36.875 5 -+46.513 ., q
)
AVERAGE TEMPERATURE = +76.959- DEG. F J AVERAGE PRESSURE = +68.827- PSIA j AVG VAPOR PRESSURE = +0.1680 PSIA MASS = +656152.81- LBM 1
'i il i
l a 4
% l i
I -r p . [. # . _ , , 9
V~.-C, Summer.1.
' INTEGRATED. LEAK RATE' TEST TEST MODE : STABL.E- 4 DATA' POINT'
SUMMARY
SHEET: DATE' : 69 ~ =
'7 TIME : 22:15 ,
Pressure Instruments in PSIA channel pressure channel pressure ' 1 +68.7738- 2 +68.8004: M D I: .in de9rees F channel temp. channel temp. channel temp. 1 +77.622 2 +77.883 3 +77.928 ! 4 +77.762 5 +71.549 6 +78.019 7 +78.644 8 +77.667 9 +77.092 10 +77.917 11 +79.707 12 +76.940 13 +78.166 14 . +76.762 15 +75.595 16 +76.050 17 +76.191 18 +77.244 19 +76.734 20 +70.574 21 +71.205' , 22 +71.680 23 +72.255 24' +71.941 arybulb temperature in degrees F i channel temo. channel temp, channel- temo. f) , 1 +77.928 2 +78.019' 3 -+77.667 4 +76.734- S +70.574 Relative humidity in percent channel ORH channel %RH. channel %RH' 1 +34.778 2 +36.400 3 +36.568 4 +36.916 5 +46.495
]
1 AVERAGE TEMPERATURE = +76-.939- DEG. F AVERAGE PRESSURE = +68.823 PSIA AVG VAPOR' PRESSURE = +0.1680 PSIA l MASS = +656141.94 LBM :l l
^ -i O 1 g ver- - -w- w m g ,4-v
., , . - . ~ .~.-..-n. - ~.,. .. . - . . . . - - . - . . . - - - . . . . - . . . . . - - ~ . - . - - - . - . _ . . - _ . . - . . . . - - . , -
-.V .C,-Summer ~1: . .
INTEGRATED LEAK RATE TEST. TEST. MODE :; STABLE DATA' POINT-
SUMMARY
SHEET DATE : 69 TIME - 22:30-
'pr6ssure Instruments in PSIA channel pressure channel pressure 1 +68 7694 2 +68.7959 ,
1 FTDs in degrees F channel temp. channel . temp. channel temp. 1 +77.590 2 +77.874 3 +77.894 4 +77.728 5 +71.538 6 +78.031 7 +78.513 8 +77.656 9 +77.058 10 +77.905 11 +79.695 12 +76.886. 13 +78.155 14 +76.793 15 +75.604 16 +76.071 17 +76.191 18 +77.255-19 +76.734 20 +70.617 21 +71.216 22 +71.692 23 +72.264 24 +71.952 Drybul:s temperature in degrees F channel temp. channel temo. channel temp. 1 +77.894~ 2 +78.031 3 +77'.656 4 +76.734 5 +70.617 Relative humidity in percent channel %RH channel %Rei channel .tRH ! 2-1 +34.847 2 +36.438 3 +36.635~ 4 +36.945 5 +46,563 i . -l AVERAGE TEMPERATURE = +76.920 DEG. F AVERAGE PRESSURE- =. +68.819' ' PSIA AVG VAPOR PRESSURE =. +0.1682 PSIA MASS ~= +656120.69 LBM , I 4 'l 'f.. JO e I
....---..._.-.-_~2--,.-_.. - ,. - . . , . , . . . .
v.C. Summer 1 IN1EGRATED LEAK RATE TEST TEST MODE : STABLE DATA POltJT
SUMMARY
SHEET DATE : 69 TIME : 22: 45 l e
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Pressure Instruments in PSIA channel pressure channel pressure 1 toB.7651 2 +68.7912 l hiDs 3n degrees F cnannel temp. channel temp. channel temp. 1 +77.568 2 +77.819 3 +77.862 , i 4 +77.662 5 +71.538 6 +77.987 1 7 +78.447 8 +77.622 9 +77.026 I i 10 +77.883 11 +79.641 12 +76.852
- 1. +7G.134 14 +76.762 15 +75.595 it +76.0%O 17 +76.191 18 +77.264 17 +76.734 20 +70.648 21 +71.225 22 +71.714 23 + 7 2 . 2 e,4 24 +71.972 l
Drybulb temperature in degrees F ) channel temp. channel temp. channel temp.
.r e\ _---_-_ _-_-_ -----__ _____ --_---_ __--- )
t'~'> 1 +77.862 2 +77.987 3 +77.622 4 +76.734 5 +70.648 4 i Relative humidity in percent channel %RH channel %RH channel tRH 1 +34.893 2 +36.521 3 +36.664 4 +36.974 5 +46.615 AVERAGE TEMPERATURE = +76.888 DEG. F AVERAGE PRESSURE = +68.814 PSIA AVG VAPOR PRESSURE = +0.1683 PSIA MASS = +656113.25 LBM 4. l' \ Qi
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- Reactor Containment Buildng ' Final Report ;
integrated Leakage Rate Test V. C. Swnmer Nuclear Station l
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l APPENDIX C V ILRT TEST DATA AND PLOTS l i I
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l L . TEST. MODE PLEASE SELECT.THE OPTION , JOU WISH TO USE: TEST DATA 2245 o /\ 1 k_d - MANUAL DATA ENTRY # OF DATA POINTS = 96 i
.2 MODE DURATION (IN HOURS) = 24.00 PARAMETER GRAPHS'
_3 - SENSOR PLOTS TOT TIME MEASURED LEAK = 0.1264 4 - TREND ANALYSIS TOT TIME CALCULATED LEAK : 0.1330 15 - REPRINT CURRENT DATA PT TOT TIME 95% UCL = 0.1376 6 - SENSOR DIFFERENTIALS MASS POINT LEhK = 0.1277 l MASS POINT 95% UCL = 0.1298 75% La = .15 . L P - PASS WORD MENU MASS = 655059.63 SELECTED OPTION: ) l POINT
SUMMARY
- CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT
. AVG TEMP: 75.798 / -0.006 AVG PRESS: 68.396 / -0.001 LMASS: 655059.63 / -5.938 AVG DEW PRESS: 0.1781 / +0.0001 i TOTAL PRESS: 68.574 / -0.001 O
I N~- l 1
TEST MODE
-V. C. SUMMER UNIT 1 Page 1 LEAKAGE RATE
SUMMARY
UNIT 1 TOTAL TIME MASS / POINT DATE TIME TTLM LMCALC SL LAM 'L95 69 0.00 0.0000 0.0000 0.0000 0.0000 0.0000 69 0.25 0.0849 0.0000 0.0000 0.0000 0'.0000 69 0.50 0.1695 0.1695 0.0000 0.1695 0.5854 69 0.75 0.1779 0.1906 0.4922 0.1866 0.2558 69 1.00 0.1414 0.1701 0.3867 0.1587 0.2080 70 1.25 0.0976 0.1337 0.3207 0.1171 0.1760 70 1.50 0.1111 0.1218 0.2649 0.1087 0.1493 70 1.75 0.1117 0.1152 0.2325 0.1052 0.1346 70 2.00 0.1312 0.1195 0.2217 0.1145 0.1390 70 2.25 0.1437 0.1271 0.2201 0.1266 .0.1496 70 2.50 0.1365 0.1306 0.2151 0.1312 0.1504 70 2.75 0.1472 0.1358 0.2141 0.1384 0.1557 70 3.00 0.1357 0.1363 0.2088 0.1378 0.1523 70 3.25 0.1415 0.1382 0.2061 0.1400 0.1525 70 3.50 0.1539 0.1429 0.2074 0.1459 0.1581 70 3.75 0.1442 0.1441 0.2052 0.1464 0.1570 70 4.00 0.1421 0.1446 -0.2028 0.1464 0.1558 0 70 70 70 4.25 4.55 4.75 0.1613 0.1644 0.1565 0.1492 0.1538 0.1554 0.2054 0.2082 0.2076 0.1519 0.1569 0.1584-0.1618 0.1671 0.1676 70 5.00 0.1597 0.1576 0.2080 0.1604 0.1690 70 5.27 0.1644 0.1604 0.2092 0.1629 0.1711 70 5.50 0.1606 0.1619 -0.2091 0.1640 0.1716 70 5.75 0.1558 0.1624 0.2083 0.1637 0.1706 70 6.00 0.1564 0.1629 0.2077 0.1637 0.1701 70 6.25 0.1586 0.1637 0.2073 0.1640 0.1699 70 6.50 0.1636 0.1651 0.2076 0.1654 0.1710 70 6.75 0.1638 0.1663 0.2078 0.1663 0.1715 70 7.02 0.1587 0.1667 0.2074 0.1660 0.1709 70 7.25 0.1628 0.1674 0.2072 0.1665 0.1711 70 7.50 0.1660 0.1685 0.2075 0.1676 0.1720 70 7.75 0.1697 0.1699 0.2081 0.1691 0.1734 70 8.00 0.1667 0.1708 0.2083 0.1698 0.1740 70 8.25 0.1613 0.1710 0.2079 0.1694 0.1734 70 -8.75 0.1590 0.1719 0.2087 0.1687 0.1724 70 9.00 0.1531 0.1708 0.2077 0.1670 0.1708 70 9.25 0.1548 0.1701 0.2067 0.1659 0.1697 70 9.50 0.1488 0.1687 0.2056 0.1639 0.1680
'70 9.75 0.1516 0.1678 0.2046 0.1626 0.1666 70' 10.00 0.1470 0.1666 0.2034 0.1607 0.1649 O
.. . . ~ - ._ .-- - - - . _ . . . -. . . _ . TEST MODE V. C. SUMMER UNIT 1 Page 2 ( LEAKAGE RATE
SUMMARY
TOTAL TIME UNIT 1 MASS / POINT , DATE TIME TTLM LMCALC SL LAM L95 70 10.25 0.1442 0.1651 0.2022 0.1587 0.1631 70 10.50 0.1459 0.1639 0.2010 0.1574 0.1618 70 10.75 0.1436 0.1627 0.1998 0.1555 0.1600 70 11.00 0.1468 0.1618 0.1988 0.1544 0.1588 70 11.25 0.1449 0.1608 0.1977. 0.1533 0.1576 70 11.50 0.1422 0.1597 0.1965 0.1518 0.1562 70 11.75 0.1431 0.1587 0.1955 0.1506 0.1549 70 12.00 0.1442 0.1579 0.1944 0.1498 0.1540 70 12.27 0.1452 0.1572 0.1936 0.1491 0.1532 ' 70 12.50 0.1414 0.1563 0.1925 0.1481 0 1522 70 12.75 0.1421 0.1555 0.1915 0.1474 0.1513 70 13.00 0.1405 0.1546 0.1905 0.1464 0.1503 70 13.25 0.1424 0.1539 0.1895 0.1457 0.1495 70 13.50 0.1426 0.1533 0.1887 0.1452 0.1489 70 13.75 0.1407 0.1526 0.1878 0.1445 0.1481 70 14.00 0.1392 0.1518 0.1868 0.1437 0.1473 70 14.25 0.1411 0.1512 0.1860 0.1432 0.1468 70 14.50 0.1374 0.1504 0.1850 0.1424 0.1459 70 14.75 0.1418 0.1499 0.1843 0.1420 0.1454 'O 70 70 70 15.00 15.25 15.50 0.1416 0.1383 0.1415 0.1494 0.1488 0.1484 0.1835 0.1827 0.1820 0.1418 0.1411 0.1408 0.1451 0.1443-0.1440 70 15.75 0.1384 0.1478 0.1812 0.1403 0.1434 70 16.00 0.1397 0.1473 0.1805 0.1398 0.1429 70 16.25 0.1413 0.1470 0.1799 0.1396 0.1425 70 16.50 0.1410 0.1467 0.1793 0.1394 0.1422 i 70 16.75 0.1402. 0.1463 0.1787 0.1391 0.1419 70 17.00 0.1373 0.1458 0.1780 0.1387 0.1414 70 17.25 0.1386 0.1453 0.1774 0.1384 0.1410 70 17.50 0.1366 0.1448 0.1766 0.1380 0.1406 70 17.75 0.1383 0.1444 0.1760 0.1377 0.1402 1 70 18.00 0.1363 0.1439 0.1754 0.1373 0.1398 70 18.25 0.1381 0.1436 0.1748 0.1370 0.1394 70 18.50 0.1386 0.1432 0.1742 0.1368 0.1392 ; 70 18.75 0.1358 0.1428 0.1736 0.1364 0.1388y 70 19.00 0.1361 0.1424 0.1730 0.1361 0.1384 70 19.25 0.1353 0.1419 0.1724 0.1357 0.1381 70 19.50 0.1333 0.1414 0.1717 0.1352 0.1375 1 70 19.75 0.1325 0.1409 0.1710 0.1346 0.1369 I 70 20.00 0.1332 0.1404 0.1704 0.1342 0.1365 I (2) ! I
TEST MODE V. C. SUMMER UNIT 1 Page 3 (). LEAKAGE RATE
SUMMARY
UNIT 1 TOTAL TIME MASS / POINT DATE TIME TTLM LMCALC SL LAM- L95 70 20.25 0.1326 0.1399 0.1697 0.1338 0.1361 70 20.50 0.1307 0.1394 0.1691 0.1332 0.1355 70 20.75 0.1318 0.1389 0.1684 0.1328 0.1351 70 21.00 0.1314 0.1384 0.1678 0.1324 0.1346 70 21.25 0.1337 0.1381 0.1673 0.1321 0.1343 70 21.50 0.1317 0.1376 0.1667 0.1319 0.1340 70 21.75 0.1309 0.1372 0.1661 0.1315 0.1336 70 22.00 0.1303 0.1367 0.1655 0.1311 0.1332 70 22.25 0.1300 0.1363 0.1649 0.1307. 0.1328 70 22.50 0.1278 0.1358 0.1642 0.1302 0.1324 70 22.75 0.1294 0.1353 0.1637 0.1298 0.1320 70 23.00 0.1294 0.1349 0.1631 0.1295 0.1316 70 23.25 0.1278 0.1344 0.1625 0.1290 0.2311 70 23.50 0.1262 0.1339 0.1619 0.1285 0.1307 70 23.75 0.1268 0.1334 0.1613 0.1280 0.1301 70 24.00 0.1264 0.1330 0.1376 0.1277 0.1298 O i i (. - l-O
1 , l I l N- TEST MODE j V. C. Summer UNIT 1 Page 1 l LEAKAGE RATE TREND
SUMMARY
UNIT 1 l I TOTAL TIME MASS POINT DATE TIME TTLM LMCALC CHANGE LAM CHANGE , I 69 0.25 0.0849 0.0000 0.0000 0.0000 0.0000 69 0.50 0.1695 0.1695 0.1695 0.1695 0.1695 69 0.75 0.1779 0.1906 0.0211 0.1866 0.0171 L 69 1.00 0.1414 0.1701 -0.0205 0.1587 -0.0280 l 69 1.25 0.0976 0.1337 -0.0364 0.1171 -0.0416 70 1.50 0.1111 0.1218 -0.0120 0.1087 -0.0084 70 1.75 0.1117 0.1152 -0.0065 0.1052 -0.0035 70 2.00 0.1312 0.1195 0.0042 0.1145 0.0092 70 2.25 0.1437 0.1271 0.0076 0.1266 0.0121 70 2.50 0.1385 0.1306 0.0035 0.1312 0.0046 70 2.75 0.1472 0.1358 0.0053 0.1384 0.0072 70 3.00 0.1357 0.1363 0.0005 0.1378 -0.0006 70 3.25 0.1415 0.1382 0.0019 0.1400 0.0022 70 3.50 0.1539 0.1429 0.0047 0.1459 0.0059 70 3.75 0.1442 0.1441 0.0013 0.1464 0.0005 70 4.00 0.1421 0.1446 0.0005 0.1464 0.0000 O 70 70 4.25 4.55 0.1613 0.1644 0.1492 0.1538 0.0045 0.0046 0.1519 0.1569 0.0055 0.0051 70 4.75 0.1565 0.1554 0.0016 0.1584 0.0014 70 5.00 0.1597 0.1576 0.0022 0.1604 0.0020 70 5.27 0.1644 0.1604 0.0028 0.1629 0.0025 70 5.50 0.1606 0.1619 0.0015 0.1640 0.0011 70 5.75 0.1558 0.1624 0.0005 0.1637 -0.0003 , 70 6.00 0.1564 0.1629 0.0005 0.1637 0.0000 i 70 6.25 0.1586 0.1637 0.0008 0.1640 0.0003 ! 70 6.50 0.1636 0.1651 0.0014 0.1654 0.0014 1 70 6.75 0.1638 0.1663 0.0012 0.1663 0.0009 ! 70 7.02 0.1587 0.1667 0.0004 0.1660 -0.0003 70 7.25 0.1628 0.1674 0.0007 0.1665 0.0005 70 7.50 0.1660 0.1685 0.0011 0.1676 0.0011 70 7.75 0.1697 0.1699 0.0014 0.1691 0.0015 70 8.00 0.1667 0.1708 0.0009 0.1698 0.0008 , 0.1694 70 8.25 0.1613 0.1710 0.0002 -0.0004 70 8.75 0.1590 0.1719 0.0009 0.1687 -0.0008 70 9.00 0.1531 0.1708 -0.0011 0.1670 -0.0017 70 9.25 0.1548 0.1701 -0.0008 0.1659 -0.0011 70 9.50 0.1488 0.1687 -0.0013 0.1639 -0.0019 l 70 9.75 0.1516 0.1678 -0.0009 0.1626 -0.0014 70 10.00 0.1470 0.1666 -0.0013 0.1607 -0.0019 l 70 10.25 0.1442 0.1651 -0.0015 0.1587 -0.0020 l j
^^
i TEST MODE V. C. Summer UNIT 1 Page 2 (-
\s-LEAKAGE RATE TREND
SUMMARY
UNIT 1 TOTAL TIME PMSS POINT ; DATE TIME TTLM LMCALC CHANGE LAM CHANGE 70 10.50 0.1459 0.1639 -0.0012 0.1574 -0.0013 i 70 10.75 0.1436 0.1627 -0.0013 0.1555 -0.0019 l 70 11.00 0.1468 0.1618 -0.0009 0.1544 -0.0011 70 11.25 0.1449 0.1608 -0.0010 0.1533 -0.0012 70 11.50 0.1422 0.1597 -0.0011 0.1518 -0.0014 , 1 70 11.75 0.1431 0.1587 -0.0010 0.1506 -0.0013 ' l 70 12.00 0.1442 0.1579 -0.0008 0.1498 -0.0008 l 70 12.27 0.1452 0.1572 -0.0007 0.1491 -0.0007 70 12.50 0.1414 0.1563 -0.0010 0.1481 -0.0010 l 70 12.75 0.1421 0.1555 -0.0008 0.1474 -0.0008 70 13.00 0.1405 0.1546 -0.0009 0.1464 -0.0010 70 13.25 0.1424 0.1539 -0.0007 0.1457 -0.0007~ 70 13.50 0.1426 0.1533 -0.0006 0.1452 -0.0005 70 13.75 0.1407 0.1526 -0.0007 0.1445 -0.0007 70 14.00 0.1392 0.1518 -0.0008 0.1437 -0.0007 70 14.25 0.1411 0.1512 -0.0006 0.1432 -0.0005 70 14.50 0.1374 0.1504 -0.0008 0.1424 -0.0008 70 14.75 0.1418 0.1499 -0.0005 0.1420 -0.0004
.O 70 70 15.00 15.25 0.1416 0.1383 0.1494 0.1488 -0.0005 -0.0006 0.1418 0.1411 -0.0003 -0.0007 70 15.50 0.1415 0.1484 -0.0004 0.1408 -0.0003 70 15.75 0.1384 0.1478 -0.0006 0.1403 -0.0005 70 16.00 0.1397 0.1473 -0.0005 0.1398 -0.0005 70 16.25 0.1413 0.1470 -0.0003 0.1396 -0.0002 70 16.50 0.1410 0.1467 -0.0003 0.1394 -0.0002 70 16.75 0.1402 0.1463 -0.0004 0.1391 -0.0003 )
70 17.00 0.1373 0.1458 -0.0005 0.1387 -0.0004 : 70 17.25 0.1386 0.1453 -0.0004 0.1384 -0.0003 I 70 17.50 0.1366 0.1448 -0.0005 0.1380 -0.0004 1 70 17.75 0.1383 0.1444 -0.0004 0.1377 -0.0003 I 70 18.00 0.1363 0.1439 -0.0005 0.1373 -0.0004 70 18.25 0.1381 0.1436 -0.0004 0.1370 -0.0003 70 18.50 0.1386 0.1432 -0.0003 0.1368 -0.0002 70 18.75 0.1358 0.1428 -0.0005 0.1364 -0.0004 70 19.00 0.1361 0.1424 -0.0004 0.1361 -0.0003 70 19.25 0.1353 0.1419 -0.0004 0.1357 -0.0003 70 19.50 0.1333 0.1414 -0.0005 0.1352 -0.0005 ) 70 19.75 0.1325 0.1409 -0.0005 0.1346 -0.0006 i 70 20.00 0.1332 0.1404 -0.0005 0.1342 -0.0004 70 20.25 0.1326 0.1399 -0.0005 0.1338 -0.0004 O
TEST MODE V. C. Summer UNIT 1 Page 3 O LEAKAGE RATE TREND
SUMMARY
UNIT 1 TOTAL TIME MASS POINT DATE TIME TTLM LMCALC CHANGE LAM CHANGE 70 20.50 0.1307 0.1394 -0.0006 0.1332. -0.0006 70 20.75 0.1318 0.1389 -0.0005 0.1328 -0.0004 70 21.00 0.1314 0.1384 -0.0005 0.1324 -0.0004 70 21.25 0.1337 0.1381 -0.0004 0.1321 -0.0003 70 21.50 0.1317 0.1376 -0.0004 0.1319 -0.0002 70 21.75 0.1309 0.1372 -0.0004 0.1315 -0.0004 70 22.00 0.1303 0.1367 -0. 005 0.1311 -0.0004 70 22.25 0.1300 0.1363 -0.0004 0.1307 -0.0004 70 22.50 0.1278 0.1358 -0.0005 0.1302 -0.0005 70 22.75 0.1294 0.1353 -0.0004 0.1298 -0.0004 70 23.00 0.1294 0.1349 -0.0004 0.1295 -0.0003 70 23.25 0.1278 0.1344 -0.0005 0.1290 -0.0005 70 23.50 0.1262 0.1339 -0.0005 0.1285 -0.0005 70 23.75 0.1268 0.1334 -0.0005 0.1280 -0.0005 70 24.00 0.1264 0.1330 -0.0005 0.1277 -0.0003 O O s
i i TEST MODE j O Page 1 AVERAGE DATA VALUES ! TIME RTD DEW PT. VAP PRESS DRY PRESS MASS DATE( l 69 0.00 76.888 0.000 0.168 68.622 655888.50 1 69 0.25 76.863 0.000 0.168 68.618 655882.63 i 69 0.50 76.845 0.000 0.168 68.614 655865.25 1 69 0.75 76.828 0.000 0.168 68.611 655852.00 69 1.00 76.808 0.000 0.168 68.608 655849.81 , 70 1.25 76.789 0.000 0.168 68.606 655855.13 I 70 1.50 76.779 0.000 0.169 68.604 655842.94 i 70 1.75 76.765 0.000 0.169 68.601 655835.06 70 2.00 76.755 0.000 0.169 68.598 655816.75 70 2.25 76.742 0.000 0.169 68.594 655800.13 1 70 2.50 76.723 0.000 0.169 68.591 655793.81 1 70 2.75 76.710 0.000 0.169 68.588 655777.81 70 3.00 76.687 0.000 0.169 68.585 655777.19 . 70 3.25 76.676 0.000 0.169 68.582 655762.81 l 70 3.50 76.670 0.000 0.170 68.579 655741.19 ) 70 3.75 76.646 0.000 0.170 68.576 655740.69 ' 70 4.00 76.627 0.000 0.170 68.573 655733.19 70 4.25 76.623 0.000 0.170 68.569 655701.13 O 70 70 4.55 4.75 76.603 76.576 0.000 0.000 0.170 0.170 68.564 68.561 655684.06 655685.38 - 70 5.00 76.556 0.000 0.170 68.557 655670.19 70 5.27 76.540 0.000 0.170 68.553 655651.81 ' 70 5.50 76.518 0.000 0.170 68.550- 655647.00 70 5.75 76.495 0.000 0.170 68.546 655643.69 70 6.00 76.478 0.000 0.170 68.543 655632.06 70 6.25 76.463 0.000 0.170 68.540 655617.50 70 6.50 76.451 0.000 0.170 68.536 655597.81 70 6.75 76.432 0.000 0.171 68.532 655586.38 70 7.02 76.405 0.000 0.171 68.529 655584.19 70 7.25 76.394 0.000 0.171 68.525 655565.94 70 7.50 76.381 0.000 0.171 68.522 655548.25 70 7.75 76.366 0.000 0.171 68.518 655529.13 70 8.00 76.344 0.000 0.172 68.515 655524.13 70 8.25 76.322 0.000 0.172 68.512 655524.88 ) 70 8.75 76.298 0.000 0.172 68.507 655508.25 l 70 9.00 76.283 0.000 0.172 68.505 655511.88 1 70 9.25 76.282 0.000 0.172 68.504 655497.19 l 70 9.50 76.265 0.000 0.172 68.502 655502.19 j 70 9.75 76.263 0.000 0.172 68.500 655484.50 70 10.00 76.245 0.000 0.172 68.498 655486.75 -; I ()
l TEST MODE Page 2 i AVERAGE DATA VALUES 1 DATE TIME RTD DEW PT. VAP PRESS DRY PRESS MASS 70 10.25 76.228 0.000 0.172 68.496 655484.56 i 70 10.50 76.224 0.000 0.172 68.494 655469.81 70 10.75 76.210 0.000 0.173 68.491 655466.56 70 11.00 76.210 0.000 0.173 68.489 655447.00 70 11.25 76.203 0.000 0.173 68.488 655442.94 . 70 11.50 76.190 0.000 0.173 68.486 655441.69 i 70 11.75 76.185 0.000 0.173 68.484 655428.81 ' 70 12.00 76.177 0.000 0.173 68.482 655415.63 70 12.27 76.165 0.000 0.173 68.479 655401.63 l 70 12.50 76.145 0.000 0.173 68.477 655405.44 ; 70 12.75 76.132 0.000 0.173 68.474 655393.25 70 13.00 76.117 0.000 0.174 68.471 655389.44 l 70 13.25 76.108 0.000 0.174 68.469 655372.94 70 13.50 76.101 0.000 0.174 68.467 655362.38 , 70 13.75 76.092 0.000 0.174 68.465 655359.88 68.464 655355.75 70 14.00 76.082 0.000 0.174 70 14.25 76.086 0.000 0.174 68.462 655338.75 70- 14.50 76.069 0.000 0.174 68.461 655343.94 + 70 14.75 76.080 0.000. O.175 68.459 655316.81 70 15.00 76.079 0.000 0.175 68.458 655307.94 ' 70 15.25 76.064 0.000 0.175 68.457 655311.88 O- 70 15.50 76.071 0.000 0.175 68.455 655289.06 70 15.75 76.055 0.000 0.175 68.453 655292.63 1 70 16.00 76.051 0.000 0.175 68.451 655277.50 ! 70 16.25 76.046 0.000 0.175 68.449 655261.00 1 70 16.50 76.033 0.000 0.175 68.446 655252.69 70 16.75 76.022 0.000 0.175 68.444 655246.56 : 70 17.00 76.004 0.000 0.175 68.443 655250.69 1 70 17.25 76.002 0.000 0.175 68.441 655235.06 i 70 17.50 75.988 0.000 0.176 68.439 655235.31 1 l 70 17.75 75.991 0.000 0.176 68.437 655217.63 l ! 70 18.00 75.976 0.000 0.176 68.436 655218.06 70 18.25 75.975 0.000 0.176 68.434 655199.94 70 18.50 75.966 0.000 0.176 68.431 655187.56 70 18.75 75.946 0.000 0.176 68.429 655192.88 70 19.00 75.943 0.000 0.176 68.428 655181.94 70 19.25 75.934 0.000 0.176 68.426 655176.63 70 19.50 75.923 0.000 0.176 68.425 655177.94 70 19.75 75.917 0.000 0.176 68.423 655173.50 70 20.00 75.916 0.000 0.176 68.422 655160.56 lO I : l i t i
TEST MODE Page 3 o - AVERAGE DATA VALUES DATE TIME RTD DEW PT. VAP PRESS DRY PRESS MASS I 70 20.25 75.912 0.000 0.176 68.421 655154.50 70 20.50 75.900 0.000 0.176 68.419 655156.19 70 20.75 75.899 0.000 0.177 68.418 655141.25 70 21.00 75.893 0 000 0.177 68.416 655134.56 70 21.25 75.901 0.000 0.177 68.415 655112.25 70 21.50 75.891 0.000 0.177 68.414 655114.38 70 21.75 75.881 0.000 0.177 68.412 655110.44 70 22.00 75.873 0.000 0.177 68.411 655104.81 ) 70 22.25 75.866 0.000 0.177 68.409 655098.19 l 70 22.50 75.850 0.000 0.177 68.407 655102.44 70 22.75 75.848 0.000 0.178 68.405 655083.88 70 23.00 75.838 0.000 0.178 68.403 655074.81 70 23.25 75.822 0.000 0.178 68.401 655076.31 70 23.50 75.807 0.000 0.178 68.399 655078'.13 1 70 23.75 75.804 0.000 0.178 68.398 655065.56 1 70 24.00 75.798 0.000 0.178 68.396 655059.63 i I J l L O es - - ,.
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V: C. Summer--1 - INTEGRATED LEAK. RATE TEST TEST MODE : TEST. g DATE : 69. 3 DATA POINT
SUMMARY
SHEET. ' TIME : 22: 45
.. r Pressure Instruments in PSIA channel pressure channel pressure ,
1 +68.7651 2 +68.7912 RTDs in degrees F channel temp. channel temp. channe'l temp. ; 1 +77.568 2 +77.819 3 +77.862 6 +77.987 I 4 +77.662 5 +71.538 7 +78.447 8 +77.622 9 +77.026 i 10 +77.883 11 +79.641 12 +76.852 i 1 13 +78.134 14 +76.762 15 +75.595 16 +76.050 17 +76.191 18. +77.264 i 19 +76.734 20 +70.648 21 +71.225' l 24 +71.972 'I 22 +71.714 23 +72.264 4 i i Drybulb temperature in degrees F 1 [' channel temp. channel temp. channel temp. j 1 +77.862 2 +77.987 3 +77.622 5 +70.648 : 4 +76.734 1
]
Relative humidity in percent channel %RH channel %RH channel tRH'
------- ----- l 1 +34.893- 2 +36.521 3 +36 664 4 +36.974 5 +46.615 AVERAGE TEMPERATURE = - + 7 6' . 8 8 8 DEG. F-AVERAGE PRESSURE = : + 68 .791 PSIA q AVG VAPOR PRESSURE. = +0.1683 PSIA '
MASS = ' + 655888.50 LBM I
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V. C. Summer 1- . . INTEGRATED LEAK RATE TEST TEST-MODE : TEST t DATA POINT
SUMMARY
SHEET DATE : 69 TIME : 23:00 { ! Pressure Instruments in PSIA ; channel pressure channel pressure ! 1 +68.7612 2 +68.7874 RTDs in degrees F channel temp. channel temp. channel. temp. : 1 +77.525 2 +77.774 3 .+ 77.828 4 +77.653 5 +71.538 6 +77.976 . 7 +78.306 8 +77 602 9 +77.015 10 +77.851 11 +79.621 12 +76.841 13 +78.111 14 +76.750 .15 +75.584 16- +76.050 17 +76.191 18 +77.264 l 19 476.712 20 +70.637 21 +71,221 22 +71.719 23 +72.271 24 +71.979 Drybulb temperature i n degrees F -( __ _ __ i ____ __ i - -- $ 1 +77.828 2 +77.976 3 +77.602 4 +76.712 5 +70.637 , Relative humidity in percent channel %RH ' channel %RH channel tRH 1 +34.928 2 +36.483- 3 +36.684 4 +37.001 5 +46.646 AVERAGE TEMPERATURE = +76.863 DEG. F AVERAGE . PRESSURE = . +68.787 PSIA ; AVG VAPOR PRESSURE = +0.1683. PSIA MASS ;*-+655882.63 LBM i r d4 , , , . y , - - , - - - , . - - -
--,y- .
V. C. Summer 1 INTEGRATED-LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 69 TIME : 23:15 Pressure Instruments in PSIA channel pressure channel pressure 1 +68.7571 2 +68.7833 RTDs in degrees F channel temp. channel temp. coantel temp. 1 +77.482 2 +77.731 3 +77.797 4 +77.610 5 +71.538 6 +77.913 7 +78.578 8 +77.559 9 +77.015 10 +77.819 11 +79.589 12 +76.798 13 +78.057 14 +76.750 15 +75.595 16 +76.027 17 +76.202 18 +77.244 19 +76.712 20 +70.648 21 +71.221 22 +71.742 23 +72.282 24 +71.991 Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +77.797 2 +77.913 3 +77.559 4 +76.712 5 +70.648 j Relative humidity in percent channel %RH channel %RH channel %RH 1 +34.962 2 +36.580 3 +36.715 'l 4 +37.018 5 +46.702 I i AVERAGE TEMPERATURE = +76.845 DEG. F l AVERAGE PRESSURE = +68.783 PSIA AVG VAPOR PRESSURE = +0.1683- PSIA MASS = +655865.25 LBM i I
' V i .I
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST-
. DATA' POINT
SUMMARY
SHEET DATE : 69 ; TIME : 23:30 l Pressure Instruments in PSIA channel pressure channel pressure 1 +68.7534 2 +68.7798 RTDs in degrees F i i channel temp. channel temp. Channel temp. 1 +77.488 2 +77.717 3 +77.760 4 +77.583 5 +71.567 6 +77.874 7 +78.399 8 +77.543- 9 +76.967 > i 10 +77.803 11 +79.593 12 +76.784 ; 13 +78.075 14 +76.746 15 +75.599 j l 16 +76.046 17 +76.218 18 +77.271 ! 19 +76.739 20 +70.624 21 +71.232 22 +71.753 23 +72.271 24 +72.002 Drybulb temperature in degrees F channel temp. channel temp. channel temp. g
.1 +77.760 2 +77.874 3 +77.543 1 4 +76.739 5 +70.624 Relative humidity in percent channel %RH channel- %RH channel _ ORH ,
_______ _____- _-_--__ .--__ _______ _____ j 1 +34.990 2 +36.638 3. :+36.733 4 +37.031 5 +46.752 AVERAGE TEMPERATURE = +76.828 DEG. F AVERAGE ~ PRESSURE = +68,779' ' PSIA ~
' AVG VAPOR PRESSURE = +0.1683 PSIA.
MASS. = +655852.00 LBM l
.1 M
i
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h ,' -V. C. Summer 1! [ INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 69 TIME - 23: 45- -' (' Pressure Instruments in PSIA channel pressure channel ~ pressure 1 +68.7506 2 +68.7773 RTDs in degrees F c ha'n ne l temp. channel temp. channel temp. 1 +77.461 2 +77.676 3 +77.731 4 +77.544 5 +71.561 6 +77.858 , 7 +78.524 8- +77.525 9 +76.918 10 +77.785 11 +79.555 12 +76.777 ! 13 +78.025 14 +76.728 15 +7S.604 16 v76.039 17 +76.213 18 +77.264 19 +76.723 20 +70.617 21 + 7 1 . 2 3 2.- 22 +71.773 23 +72.282 24 +72.013 , Drybulb: temperature in degrees F channel temp. channel temp. channel temp. f' g _______ _____ _______ _____ _______ _____ 1 +77.731 2 +77.858 3 +77.525 4 +76.723 5 +70.617
' Relative humidity in percent channel %RH channel ~ %RH- channel-- %RH 1 +35.042 2 +36.646 3 -+36.755 4 +37.057 5 +46'.760 i
__________________________________________________________________ 1
-1 -i l
AVERAGE TEMPERATURE = + 76.808 DEG. F J AVERAGE PRESSURE = +68.776' PSIA J AVG VAPOR PRESSURE = +0.1684 ' PSIA ; MASS = ' +655849.81' LBM l
~
- V. C. Summer l INTEGRATED LEAK RATE TECT TEST MODE : TEST' DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 00:00 > Pressure Instruments in PSIA channel pressure channel pressure 1 +68.7486 2 +68.7755 RTDs in degrees F channel temp. channel temp. channel temp. , 1 +77.407 2 +77.656 3 +77 699 4 .77.533
+ 5 +71.572 6 +77'.858 i 7 +78.349 8 +77.504 9 +76.929- I 10 +77.774 11 +79.555 12 +76.766 13 +78.014 14 +76.739 lb +75.595 16 +76.050 17 +76.213 18 +77.264 19 +76.734 -20 +70.617 21 +71.244 !
22 +71.773 23 +72.294 24 +72.022- . Drybulb temperature in degrees F
~
channel temp. channel temp. channel temp. -l _____-- __--- ------- --___ _______ _____ l 1 +77.699 2 +77.858 3 +77.504 4 +76.734 5 +70.617 D 1 Relative humidity in percent channel %RH channel %RH channel %RH 1 +35.082 2 +36.693 3- +36.787 4' +37.089 5 +46.760- 1 AVERAGE TEMPERATURE = +76.789 DEG' F . AVERAGE PRESSURE = +68.775 PSIA AVG VAPCR PRESSURE = +0.1684 PSIA MASS = +655855.13 'LBM-- ; I 1 f e -
- g -
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i V. C. Summer 1-INTEGRATED LEAK RATE TEST TEST-MODE : TEST > DATA POINT
SUMMARY
SHEET DATE : 70 . TIME : 00:15 l Pressure Instruments in PSIA channel pressure channel pressure. _; 1 +68.7461 2 +68.7732 1 J RTDs in degrees-F channel temp. channel temp, channel temp. ,
}
1 +77.384 2 +77.613 3 +77.676 l 4 +77.533 5 +71.604 6' +T7.824 'l 7 +78.404 8 +77.493 9 +76.918
-l i
10 +77.774 11 +79.E23 12 +76.755 13 +77.982 14 +76.739 15 +75.584 16 +76.050 17 +76.213 18 +77.287 'I 19 +76.723 20 +70.6?6 21 +71.266 J 22 +71.796 23 +/2.314 24 '+72.v45 Drybulb temperrture in degrees F
/' channel temp. channel temp. channel temp.
-t ------- ----- ------- ----- ------- ----- 1 +77.676 2 +77.824 3 +77.493 4 +76.723 5 +70.626-Relative humidity in percent channel S.R H channel %RH channel %RH 1 +35.127 2 +36.722 3 +36.823 4 +37.137 5 +46.891'- AVERAGE TEMPERATURE =' +76.779 _DEG'. F AVERAGE PRESSURE = +68.772 PSIA AVG VAPOR PRESSURE = +0.1686 PSIA R MASS = +655842.94 LBM. l .. ( F
, .-. . - .n:..,,,,n. - , - ,
r V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST. DATA POINT'5UMMARY SHEET DATE : 70 TIME : 00:30 0 Pressure Instruments in PSIA f channel pressure channel pressure f 1 +68.7435 2 +68.7709 RTDs in degrees F channel temp. channel temp. channel temp. 1 +77.380 2 +77.629 3 +77.663 4 +77.497 5 +71.622 6 +77.799 : 7 +78.096 8 +77.488 9 +76.902 10 +77.760 11 +79.550 12 +76.730 13 +78.010 14 +76.746 1S +75.599 li 16 +76.066 17 +76.218 18 +77.282 I 19 +76.730 20 +70.644 21 +71.282 22 +71.823 23 +72.332 24 +72.061 : Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +77.663 2 +77.799 3 +77.488 4 +76.730 5 +70.644 Relative humidity in percent channel %RH channel %RH channel %RH 1 +35.176 2 +36.749 3 +36.872. 4 +37.178 5- +46.941 AVERAGE TEMPERATURE = +76.76S DEG. F AVERAGE PRESSURE. = +68.7701 PSIA AVG VAPOR PRESSURE = +0.1687_ PSIA MASS = +655835.06 LBM 9 g
-- _. _ .. . ._ ._ _ m . . . _
i V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 '
. . TIME : 00: 45 r i Pressure Instruments in PSIA 'l .nannel pressure channel pressure l 1 +68.7403 2 +68.7679 l i
l RTDs in degrees F channel temp. channel temp. ~ channel temp. l _-- - . ----- ------- --- - ----_-- --- ) I
+77.362 +77.590 3 1 2 +77.633 4 +77.467 5- +71.615 6 +77.770 7 +78.220 8 +77.470 9 +76.906 10 +77.754 11 +79.523 12 . +76.723 l 13 +78 014 . 14 +76.771 15 +75.595 16 +76.061 17 +76.234 18 +77.298 19 +76.734 20 +70.671 21 +71.287 22 +71.850 23 +72.337 24 +72.076-Drybulb temperature in degrees F !
( channel temp. channel temp. channel temp. 1 +77.633 2 +77.770 3 +77.470 4 +76.734 5 +70.671 Relative humidity in percent channel %RH channel %RH channel 4RH 1 +35.226 2 +36.817 3 +36.908 4 +37.199 5 +46.930 J 1
~!
AVERAGE TEMPERATURE = +76.755 DEG. F I AVERAGE PRESSURE. = '+68.767 PSIA .! AVG VAPOR PRESSURE = +0.1688 PSIA MASS = +655816.75 LBM l (
- , . - ~ - - - . ._. .. .
u i V. C. Summer 1 , INTEGRATED LEAK RATE TEST TEST MODE : TEST . DATA POINT
SUMMARY
SHEET DATE- : 70 TIME : 01:00 [ Pressure Instruments in PSIA channel pressure channel pressure ' 1 +68.7370 2 +68.7647 i RTDs in degrees F i channel temp. channel temp. channel temp. 1 +77.330 2 +77.568 3 +77.613 4 +77.447 5 +71.635 6 +77.759 7 +78.232 8 +77.450 9 .+76.886 10 +77.742 11 +79.523 12 +76.689 ' 13 +77.971 14 +76.739 15 +75.595 16 +76.071 17 +76.234 18 +77.298 19 '76.743 20 +70.671 21 +71.314 ' 22 +71.877 23 +72.364 24 +72.106 Drybulb temperature in degrees F ["~' channel temp. channel temp. channel temp. j 1 +77.613 2 +77.759 3 +77.450 4 +76.743 5 +70.671 .i Relative humidity in percent channel *4RH channel *RH
. channel F.RH 1 +35.277 2 +36.919 3 +36.959 4 +37.245 5 +46.942 AVERAGE TEMPERATURE = '+76.742 ~
DEG. F -1 AVERAGE PRESSURE = +68.763 ' PSIA- I AVG VAPOR PRESSURE =' .+ 0.1690 PSIA. MASS = +655800.13- LBM i N
.+ , . .. , , , , . . , . . , _ _ ,
i V.-C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA' POINT.
SUMMARY
SHEET' DATE : 70 l TIME : 01:15 { /~5p ! (/ I Pressure Instruments in PSIA channel pressure channel pressure , 1 +68.7339 2 +68.7616 i
..l l
i RTDs in degrees F l channel temp. channel temp. channel temp. ' i i +77.307 2 +77.536 3 +77.590 4 +77.424 5 +71.615 6 +77.716 , 7 +78.295 8 +77.427 9 +76.820 10 +77.722 11 +79.480 12 +76.680 13 +77.948 14 +76.728 15 +75.595 , 17 18 16 +76.050 +76.234 +77.298 19 +76.734 20 +70.648 21 +71.314 22 +71.877 23 +72.364 24 +72.115 l Drybulb temperature in degrees F 1 D channel temp. channel temp. channel. temp. t,) ------- ----- ------- ----- ------- ----- 1 +77.590 2 +77.716 3 +77.427 l 4 +76.734 5 +70.648 Relative humidity i'n percent i channel %RH channel. %RH channel '%RH q 1 +35 320 2 +36.884 3 +36.997 ! 4 v37.268 5 +46.997 l
'i .I AVERAGE TEMPERATURE = +76.723 DEG. F-AVERAGE PRESSURE = +68.760 PSIA AVG VAPOR PRESSURE = +0.1690- PSIA MASS = +655793.81' L8M 1
I l
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1 1
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iv V. C. Summer ~1
-INTEGRATED LEAK RATE. TEST TEST MODE : TEST DATA POINT
SUMMARY
- SHEET DATE
- 70 TIME : 01:30 o
.k Pressure Instruments in PSIA channel pressure channel pressure 1 +68.7307 2 +68.7585 RTDs in degrees F channel temo. channel temp. channel . temp.
1 +77.282 2 +77.520 3 +77.575 4 +77.408 5 +71.653 6 +77.702 7 +78.118 8 +77.423 9 +76.847-10 +77.695 11 +79.476 12 +76.664 13 +77.901 14 +76.757 1S +75'590 . 16 +76.057 17 +76.252 18 +77.314 19 +76.750 20 +70.666 21 +71.341-22 +71.904 23 +72.391 24 +72.131 Drybulb temperature i n degrees F channel temp. channel temp. channel temp. 1 +77.575 2 +77.702 3 +77.423 1 4 +76.750 5 +70.666 Relative humidity in percent -d y
-_____________________-_-____-_______________________________-___ q channel %RH channel %RH channel- %RH d ---____ -____ _-_____ _____ -______. ----_ .i i
1 +35.360 2 +36.906 3- +37.022 i 4 +37.296 5 +47.094 i AVERAGE TEMPERATURE = +
.76.710' DEG. F AVERAGE PRESSURE = +68.757. PSIA AVG VAPOR PRESSURE =- +0.1692 PSIA' MASS = +655777'.81 LBM k
1 1 i Jr
-- +_ 4 , _ , . - . . . , . _ . - _ . . _ _ _ . _ . ,. ~
. ..- = . -
1 V. C. Summer-1 INTEGRATED LEAK RATE TEST 'TESTLMODE : TEST DATA POINT
SUMMARY
SHEET DATE - 70 ; - r TIME : 01:45 - ( I Pressure Instruments in PSIA channel pressure channel pressure . 1 +68.7279 2 +68.7555 ; RTDs in degrees F l channel temp. char . temp. channel temp. 1 +77.255 2 +77.493- 3 +77.547 4 +77.381 5 +71.647 6 +77.629 7 +78.143 8 +77.396 9 +76.766 10 +77.688 11 +79.457 12 +76.625 { 13 +77.894 14 +76.728. 15 +75.572 16 +76.050 17 +76.256 .18 +77.267 19 +76.743 20 +70.637 21 +71.341 ! 22 +71.914 23 +72.402 24 +72.142 i Drybulb temperature in degrees F ;
/ }
channel temp. channel temp. channel temp. ' 1 +77.547 2 +77.629 3 .+77.396 a 4 +76.743 5 +70.637 a 1 Relative humidity in percent j , channel %RH channel %RH channel' %RH 1 +35.426 2 +36.998 3 +37.078 4 +37.349 5 +47.041 i AVERAGE TEMPERATURE = +76.687 DEG.-F~ 'I 1 AVERAGE PRESSURE = +68.754 PSIA l AVG VAPOR PRESSURE' = +0.1692 PSIA 1 MASS = +655777.19 LBM i i i l
.l , _ .i
. . _ - . . . . . - . - - . - . .= - - . . . . V. C. Summer 1 INTEGRA(ED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 ' TIME : 02:00 Pressure Instruments in PSIA , channel pressure channel pressure 1 +68.7250 2 +68.7528 i l RTDs in degrees F ) channel temp. channel temp. channel temp. 1 +77.251 2 +77.488 3 +77.520 4 +77.345 5 +71.665 6 +77.602 7 +78.075 8 +77.391 9 +76.761 10 +77.672 11 +79.432 12 +76.621 13 +77.923 14 +76.712 15 +75.590 16 +76.066 17 +76.263 18 +77 282' 19 +76.761 20 +70.666 21- +71.352 l 22 +71.936 23 +72.402 24 +72.153 .! , Drybulb temperature in degrees F '! channel temp. channel temp. channel temp. i 1 +77.520 2 +77.602 3 +77.391 l 1 4 +76.761 5 +70.666 i i Relative humidity in percent channel %RH channel %RH channel' %RH 1 1 +35.489 2 +37.037- 3 +37.125-4 +37.369 5 +47.058 - AVERAGE TEMPERATURE = +76.676 DEG. F AVERAGE PRESSURE = +68'7S1 . PSIA AVG. VAPOR PRESSURE = +0.1694 . PSIA-MASS = +655762.81 LBM
-)
i
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST rE4 DATA POINT
SUMMARY
SHEET DATE : 70 ( I TIME : 02:15
% ./
Pressure Instruments in PSIA channel pressure channel pressure 1 +68.7221 2 +68.7500 RTDs in degrees F channel temp. channel temp. channel' temp. 1 +77.210 2 +77.461 3 +77.504 4 +77.316 5 +71.669 6 +77.598 > 7 +78.275 8' +77.373 9 +76.789 10 +77.645 11 +79.414 12 +76.614 13 +77.917 14 +76.728 15 +75.584 - 1 16 +76.061 17 +76.268 18 +77.307 ' 19 +76.766 20 +70.671 21 +71.364 22 +71.948 23 +72.411 24 +72.174 4 l Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +77.504 2 +77.598 3 +77.373 4 +76.766 5 +70.671 Relative humidity in percent channel %RH channel %RH channel %RH 1 +35.537 2 +37.112 3 +37.173 4 +37.408 5 +47.114 AVERAGE TEMPERATURE = +76.670 DEG. F AVERAGE PRESSURE- = +68.749 PSIA AVG. VAPOR PRESSURE = +0.1696 PSIA MASS = +655741.19 LBM
+ V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70
, ) TIME : 02:30 Pressure Instruments i n PSI A channel pressure channel pressure 1 +68.7192 2 +68.7471 ,
RTDs in degrees F channel temp. channel temp. channel temp. 1 +77.201 2 +77.450 3 +77.482 _ 4 +77.304 5 +71.690 6 +77.607 ! 7 +<7 7 . 917 8 +77.362 9 +76.734- i 10 +77.633 11 +79.403 12 +76.591' 13 +77.874 14 +76.707 15 +75.572 16 +76.061 17 +76.256 18 +77.319 19 +76.755 20 +70.660 21 +71.373 22 +71.979 23 +72.423 24 +72.185 Drybulb temperature in degrees F channel temp.
- channel temp. channel temp.
1 +77.482 2 +77.607 3 +77.362 , 4 +76.755 5 +70.660 Relative humidity in percent
----------------------------------------------------------------- a channel %RH channel %RH channel ~ tRH 1 +35.600 2 +37.077 3 +37.235-4 +37.440 5 +47.269 AVERAGE TEMPERATURE = ' + 7 6-'. 64 6 -DEG. F AVERAGE' PRESSURE. = .+68.746 PSIA-AVG VAPOR PRESSURE = +0.1698 PSIA MASS = +655740.69 LBM f
I
'w- ,. , .- . - , .
V '. C. Summer 1-INTEGRATED LEAK-RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 O TIME : 02: 45 1 l Pressure Instruments in PSIA channel pressure channel pressure l 1 +68.7161 2 +68.7439 , RTDs in degrees F channel temp. channel temp. channel temp. 1 +77.167 2 +77.416 3 +77.450 i 4 +77.295 5 +71.669 6 +77.575- l 7 +77.819 8 +77.330 9 +76.723 10 +77.633 11 +79.392 12 +76.571 13 +77.851 14 +76.707 15 +75.584 i l 16 +76.061 17 +76.268 18 +77.319 19 +76.755 20 +70.671 21 +71.373 22 +71.991 23 +72.423 24 +72.208 Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +77.450 2 +77.575 3 +77.330 4 +76.755 5 +70.671 Relative humidity in percent channel %RH channel %RH. channel %RH 1- +35.646 2 +37.159 3 +37.263 4- +37.487 5 +47.319 1 AVERAGE TEMPERATURE = +76.627 DEG. F ; AVERAGE PRESSURE = +68.742 PSIA ' AVG VAPOR PRESSURE = +0.1699 PSIA MASS = +655733.19 LBM
'i VI C.' Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70
.\
TIME : 03:00 n-i Pressure Instruments in PSIA channel pressure channel pressure , l 1 +68.7124 2 +68.7401 l i RTDs in degrees F _l channel temp. channel temp. channel temp. 1 +77.135 2 +77.396 3 ~+77.427 4 +77.284 5 +71.669 6 +77.532
/ +78.166 8 +77.319 9 +76.668 10 +77.602 11 +79.380 12 +76.560 1 13 +77.828 14 +76.673 15 +75.584- !
16 +76.071 17 +76.268 18 +77.330 'I 19 +76.766 20 +70.691 21 +71.384 22 +71.991 23. +72.423 24 +72.208 Drybulb temperature in. degrees F l T channel temp. channel temp. Channel temp. 1 +77.427 2 +77.532 3 +77.319' I 4 +76.766 5 +70.691 .
?
I Relative humidity in percent ' channel %RH channel %RH channel %RH _______ _____ _______ _____ _______ _____. l 1 +35.697 2 +37.160 3 +37.318 I 4 +37.519 5- +47.356 l l AVERAGE TEMPERATURE = +76.623 DEG. F-AVERAGE PRESSURE = +68.739 PSIA AVG' VAPOR PRESSURE = +0.1700 PSIA-- MASS -
= +655701.13 -LBM -l ~
p :!
-V.C. Summer i INTEGRATED LEAK RATE TEST TEST MODE : TEST
- w. DATA POINT
SUMMARY
SHEET DATE . 70 l
} TIME : 03:18 !
Pressure Instruments in PSIA channel pressure channel pressure 1 +68.7078 2. +68.7357 J RTDs in de9rees F l channel temp. channel temp. channel temp. 1 +77.112 2 +77.353 3 +77.407 ' 4 +77.250 5 +71.712 6 +77.498 7 +78.143 8 +77.298 9 +76.668 10 +77.568 11 +79.349 12 +76.560 13 +77.808 14 +76.696 15 +75.572 16 +76.039 17 +76.268 18 +77 330 19 +76.755 20 +70.637 21 +71.384 22 +72.013 23 +72.423 24 +72.217 Drybulb temperature in degrees F channel ~ temp. channel temp. channel temp. 1 +77.407 2 +77.498 3 +77.298 4 +76.755 5 +70.637-Relative humidity in percent channel ?eRH channel 5RH 4 channel *4R H 1 +35.770 2 +37.247 3 +37.373 4 +37.545 5 +46.780 AVERAGE TEMPERATURE = +76.603 'DEG,.F AVERAGE PRESSURE = ' +68.734 . PSIA-' AVG VAPOR PRESSURE = +0.1698 PSIA MASS = +655684.06 LBM j L-1.. j l
l-L < ! l L V. C. Summer 1 L 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST 1 s DATA POINT
SUMMARY
SHEET DATE : 70 l TIME : 03:30 l l 1 pressure Instruments in PSIA l
---------------------------------------------------------------- . j channel pressure channel pressure .
1 +68.7046 2 +68.7324 RTDs in degrees F
----------_-_---_-__--------------_-_--_-----_--_---------_------ y channel temp. channel temp, channel temp.
1 +77.092 2 +77.319 3 +77.384 > 4 +77.218 5 +71.701 6 +77.489 ;) 7 +77.960 8 +77.276 9 +76.657 l 10 +77.568 11 +79.328 12 +76.505 I 13 +77.774 14 +76.673 15 +75.550- ) 16- +76.027 17 +76.268 18 +77.319- j 19 +76.743 20 +70.626 21 +71.373 22 +72.022 23 +72.423 24 +72.228 l 1 Drybulb temperature in degrees F i (~ ----------------------------------------------------------------- l channel temp. channel temp. channel- temp. ' 1 +77.384 2 +77.489 3 +77.276 4 +76.743 5 +70.626 ) Relative humidity in percent channel %RH channel %RH channel %RH 1 +35.803 2 +37.272 3 +37.411. 4 +37.599 5 +46.706 AVERAGE TEMPERATURE = +76'.576 DEG. F-AVERAGE PRESSURE ~ = +68.731- PSIA. AVG VAPOR. PRESSURE =-. +0.1698 -PSIA MASS. = +655685.38- LBM i
.. j 1
l
~ -i r
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST
~ J DAT A POINT
SUMMARY
SHEET- DATE : 70 TIME : 03:45 . Pressure Instruments in PSIA ; channel pressure channel pressure , _______ -_______ _______ -_______ .i, 1 +68.7005 2 +68.7283 i t I RTDs in degrees F channel temp. channel . temp. channel teinp . ; 1 +77.058 2 +77.319 3 +77.362 i 4 +77.196 5 +71.701 6 + 7 7 .'4 23 7 +77.948 8 +77.264 9 +76.603 10 +77.536 11 +79.283 12 +76.494 , 13 +77.765 14 +76.642 15 +75.541 16 +76.016 17 +76.256- 18 +77.307 19 +76.743 20 +70.605 21 +71.373 22 +72.033 23 +72.411 24 +72.228 , e Drybulb temperature in degrees F ( __________-__________________ _______-_______-____-_____--_-_____. channel temp. channel temp. channel temp. I 1 +77.362 2 +77.423 3 +77.264 4 +76.743 5 +70.605 i Relative humidity in percent l channel %RH channel %RH channel %RH j 1 +35.853 2 +37.351 3 +37.447 4 +37.627- 5- +46.621 I AVERAGE TEMPERATURE = J+76.556' DEG. F- H AVERAGE PRESSURE = +68.727- PSIA - AVG VAPOR PRESSURE. = +0.1698 PSIA MASS .= '+655670.19 LBM 1 y I l i l
V. C. Summer 1 _ j INTEGRATED LEAK RATE TEST TEST MODE : TEST . DATA POINT
SUMMARY
SHEET DATE : 70 ' TIME : 04:01 > s P Pressure Instruments in PSIA . channel- pressure channel pressure 4 1 +68.6965 2 +68.7243 J f RTDs in degrees F : channel temp. channel temp. channel temp. ; 1 +77.049 2 +77.287 3 +77.330 l 4 +77.175 5 +71.701 6 +77.423 'i 7 +77.971 8 +77.244 9 .+ 76.591 10 +77.493 11 +79.274 12 +76.483 13 +77.742- 14 +76.619 15 +75.541 ., 16 +76.016 17 +76.245- 18 +77.298 -1 19 +76.743 20 +70.594 21 +71.357 1 22 +72.027 23 +72.407- 24 +72.221 , 1 Drybulb temperature in degrees F channel temp. channel temp. -channel temp. 1 +77.330 2 +77.423 3 +77.244 4 +76.743 5 +70.594 Relative humidity in percent i I channel %RH channel %RH channel tRH l 1 +35.909. 2 +37.439 3 +37.503 4 +37.669 5 +46.450 I AVERAGE TEMPERATURE = '+76.540 DEG. F AVERAGE- PRESSURE = +68.723 PSIA AVG VAPOR PRESSURE = +0.1699 PSIA MASS = +655651.81 LBM
- )
-- . =
V. C.~ Summer 1 INTEGRATED LEAK-PATE TEST TEST MODE : TEST
^
DATA POINT
SUMMARY
SHEET DATE : TO , TIME : 04: 15 Pressur+ Instruments in PSIA
.._ _____.___ ____________ _ _________ ____ ____ _____________ j channel pressure channel pressure -
1 ' +68.6934 2 +68.721) l i< 1 RTDs in degrees F ' channel temp. channel temp. channel temp. 1 +77.015 2 +77.264 3 +77,.307-a +77.132 5 +71.681 6 +77.455-7 +77.883 8 +77.210 9 +76.591 ; 10 +77.470 11 +79.251 12 +76.451 13 +77.731 14 +76.653 15 +75.541 lo +76,007 17 +76.234 .18 +77.276 19 +76.743 20 +70.583 21 +71.364 22 +72.045 23 +72.411 24 +72 ?l7 Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +77.307 2 +77.455 3 +77.210 4 +76.743 5 +70.583 J Relative humidity in percent , channel %RH channel %RH- channel tRH I 1 +35.961 2 +37.457 3- +37.555 4 +37.703 5- +46.492. AVERAGE TEMPERATURE = -+76.518 DEG. F i AVERAGE' PRESSURE = +68.720. . PSIA AVG VAPOR PRESSURE =- +0.1700 PSIA i MASS- = +655647.00- LBM ' (
.. ~ . - .= ~ , . .- - . . .-.
P V '. C, Summer 1. IljTEGRATED LEAK RATE TEST TEST MODE : TEST f DATA POINT
SUMMARY
SHEET DATE : 70 , TIME : 04: 30 Pressure Instruments in PSIA . channel pressure channel pressure , 1 +68.6902 2 +68.7178 , RTDs in degrees F channel temp. channel temp. channel temo. 2 1 +76.983 +77.221 3 +77.276 I 4 +77.110 5 +71.690 6 +77.401 1 7 +77.883 8 +77.167 9 +76.582
'. 0 +77.461 11 +79.229 12 +76.408 1J +77.710 14 +76.630 15- +75.529 !
16 +75.984 17 +76.222 18 +77.264 19 +76.743 20 +70.562 21 +71.364 22 +72.056 23 +72.402 24 +72.228 l Drybulb temperature in degrees F channel temp. channel temp. channe. temp. 1 +77.276 2 +77.401 3 +77.167 4 +76.743 5 +70.562 Relative humidity in percent channel tRH channel %RH channel ?.R9 1 +36.006 2 +37. 519 3 +37.615 4 +37.738- 5 +46.606 i
.i AVERAGE' TEMPERATURE = +76.495 DEG. F -)
AVERAGE -PRESSURE = +68.716 . PSIA AVG VAPOR PRESSURE =' '+0.1701 PSIA MASS = +655643.69 LBM i I l l I i
'l
_ _ . . . . . . . ~ . .- .- - -
sn,. . . . .. . , . - . . . - . . g.s ; 1 1
.V. C'. Summer 1 l INTEGRATED LEAK' RATE TEST TEST MODE:: ~ TEST .!
70 DATA POINT
SUMMARY
SHEET DATE : (' TIME : 04: 45 i i 1 Precsure Instruments in PSIA channel- pressure channel pressure o
+ .1 +68.6870 2 +68.7145 ~!
i RTDs in degrees F ;
. _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _:_ _ _ _ i channel temp. channel temp. channel temp. , -l 1 +76.949 2 +77 189 3 . +77.255 !
4 +77.089 5 -t71.690. 6 +77.358- I 7 +77.917 8 +77.167 9 t76.591, j 10 +77.450 11 +79.197 12 +76.40'8 j 13- t77.622- 14 +76.630 15 +75.529 3 16 +75.973 17 476.222 18 +77.264 19 +76'.755 20 . +70.562 21 +71.364 22- +72.065 23 +72.391 24 +72.228 Drybulb temperature in. degrees F channel temp. channel temp. channel temp. _ _ _ _ _ . . _ _____ _______ _ _ _ . _ _______ ._____. q 1 +77.255 2 ' +77.358' 3 +77.167 ' 4 +76.755 5 +70.562 Relative h'u midity in percent channel %RH channel- %RH channel- %RH 1 +36.062 2 +37.554. 3- +37.644 4 +37.777 5 +46.687 4 AVERAGE TEMPERATURE = +76.478 DEG. F AVERAGE. PRESSURE = +68.713 PSIA AVG VAPOR PRESSURE = +0.1702 PSIA MASS = +655632.06 LBM t
-_t o , , a - ,, -,n --
. _ _ . _ . . . _ . _ m i
i V. C. Summer l' LINTEGRATED LEAK RATE TEST TEST MODE : TEST ; DATA POINT
SUMMARY
-SHEET DATE : 70 "..J^} . TIME : 05:00 - Pressure Instruments in PSIA channel pressure channel. pressure 1 1 +68.6835 2 +68.7113 i RTDs i n degrees F channel temp. channel temp. channel temp. 1 +76.949 2 +77.178 3 +77.232 4- +77.078 5 +71.712 6 +77.303- l 7 +77.874 8 +77.155 9 .+76.517 l 10 +77.439 11 +79.197 12 +76.355 1 13 +77.633 14 +76.619 15 +75.518 ! 16 +75.973 17 +76.213 18 +77J264 1 19 +76.743 20 +70.562 21 +71 352 i 22 +72.065 23 +72.391 24 +72.228 i urybulb temperature i n degrees F i (-s ---------------------------------_--_---------__----_------------- channel temp. channel temp. channel -temp. 1 +77.232 2 +77.303 '3: +77.155 4 +76.743 5 +70.562 j
- 1
]
Relative humidity in percent 1
}
channel %RH channel %RH channel %RH- l 1 +36.107' 2 +37.581 3 -- +37.668 j 4 +37.809 5 +46.625 : l
---_-_---_-------____--_-_--___--_-__--_-----_--_-----_-_--_------ j .. l .
- RAGE TEMPERATURE = +76.463 DEG. F a i
4v'ERAGE- PRESSURE: = +68.710 PSIA :) AVG VAPOR PRESSURE = +0.1702- PSIA l MASS = +655617'.50 ~LBM ~ ;! 1
-1 .4 i
1 i
'l 1
y j y. - m L-- 9 . .y y =7A.-,, + + - - e
I h. V. C. Summer 1 .;
- INTEGRATED LEAK RATE TEST TEST. MODE : TEST DATA POINT.
SUMMARY
SHEET DATE : 70 [ f TIME : 05: 15 A i . Pressure Instruments in PSI A j channel pressure channel pressure
.1 +68.6800 2 +68.7078 l ,,
RTDs in degrees F channel temp. channel temp. c ha n n'el temp. i j 1 +76.940 2 +77.178 3 + '< 7 . 210 -) 4 +77.944 5 +71.701 6 +77.314-7 +77.894 8 +77.146 9 +76.483 '
.{
10 +77.416 11 +79.165 12 +76.385 i 13 +77.602 14 +76.587 15 +75.518 .1 16 +75.962 17 +76.202 18 +77~.244- ! i 19 20
~ +76.734 +70.551 21 +71'.364- a' l 22 +72.076 23 +72.402 24 +72.228 :1 o
- 1 Drybulb temperature in degrees F channel temp. channel '
temp. channel temp. 1 +77.210 2 +77.314 3 +77.14e 4 +76.734- 5 +70.551 Relative humidity in percent' channel %RH ' channel %RH channel' -%RH..
}
1 +36.163 '2 +37.638 3 +37.736 .I 4 +37.851 5 +46'.713 -! I i AVERAGE TEMPERATURE = +76.451' DEG. F i AVERAGE PRESSURE = +68.706> PS1A l AVG VAPOR PRESSURE a +0.1704 PSIA MASS =
+655597.81 .LBM :
l
.j 'I .
r
I
-V. C. Summer 1-INTEGRATED LEAK. RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE - 70 3 TIME : 05:30 1 1 Pressure Instruments in PSIA ~ 1 channel pressure channel pressure ; 1 +68.6766 2 +68.7044 i rk i RTDs in degrees F : channel temp. channel temp. channel temp. j 1 +76.906 2 +77.146 3 +77.201 4 +77.023 5 +71.669 6 +77.292 , 7 +77.808 8 +77.124 9 +76'.494 i 10 +77.396 11 +79.154 12 +76.354 ' l '3 +77.602 14 +76.599 15 . +75.541 , l e, +75.962 17 +76.191 18 +77.221 19 +76.743 20 +70.551 21 +71.345 22 +72.081 23 +72.384 24 +72.233 Drybulb temperature in degrees F channel temp. channel temp. channel temp. q 1 +77.201 2 +77.292 3 +77.124 ! 4 +76.743 5 +70.551 4 Relative humidity in percent. j a channel %RH channel %RH channel %RH
}
1 +36.199 2 +37.699. 3 +37.767 l 4 +37.883 5 +46.724 )
- - - - - - - - - - - - - - - - - - _ - - - _ - - _ - - - - - - - - - - - - - - - - - - - - - - - _ - - - - - - - - - - - - - - - l H i -1 AVERAGE TEMPERATURE = +76.432 DEG. F I AVERAGE PRESSURE = +68.703 PSIA AVG VAPOR PRESSURE = +0.1705 PSIA:
MASS' = +65S586.38 LBM i 1l
.I s -1 w - -
w- er
.n.--... -. . . . . - ..- - - . - _ - . . - , . - . - - _ . - , . ~ . . . _ _ _ . - - -
d q V.;C.= Summer'l If 4TEGRATED . LEAK' RATE TEST TEST-MODE - TEST I DATA POINT
SUMMARY
. SHEET DATE : 70 TIME : 05: 46 pressure Instruments in PSIA 4 , . channel pressure channel pressure j- 1 +68.6729 2 +68.7006 RTDs in degrees F channel temp. channel temp, channel- temp. 1 +76.879 2 +77.097 3 +77.160 'I 4 +76.985 5 i71.674 6 +77.253 7 +77.910 8 +77.085 9 +76.444 10 +77.357 11 +79.124 12 +76.315 13 +77.584 14 +76.558 15 +75.534 '- 16 +75.946 17 +76.172 18 +
.77.205 19 +76.705 20 +70.524 21 +71.352 21 +72.076 23 +72.391 24 +72.239 Dryoulb temperature in degrees F p _ ____________________________________________ _______________
g h channel temp. channel temp. channel jtemp'. 1 +77.160 2 +77.253 3 +77.065 4 - +76.705 5 +70.524 Relative humidity i n percent channel %RH channel %RH- channel %RH 1 +36.253 2 +37.753 3 +37. 832 4 +37.925 5 +46.787 AVERAGE TEMPERATURE = +76 405 .
. DEG. F
, AVERAGE PRESSURE = +68.699 ' PSIA l AVG. VAPOR PRESSURE = +0.1706 PSIA-MASS = +655584.19 LBM 4 l U i 1 i
. - , - , , . .,-wm. . . e + E - U-
,__._._._._.m...___-._.-.- . . . _ . _ - . - . . _ - _ _ - - ~.~.. .- . _ - .
s, t l 8 V.-C. Summer.1 ,
- . It4TEGRATED LEAK RATE TEST TEST MODE
- TEST
'l LDATA POINT
SUMMARY
SHEET DATE : 70 [ .. TIME : 06:00 Pressure Inctruments in PSIA "l 7 _______ ________ ________ ____________________________________ >
- l. channel pressure channel pressure -{
1 +68.6698 2 .+68.6975 ! 0 .j FTDs in degrees F l I channel temp. channel temp. channel tema. 1 +76.852 2 +77.092 3 +77.135 L 4 +76.969 5 +71.669 6 +77.240' 7 +77 894 . 8 +77.081 9 +76.440 10 +77.362 11 +79.111 12 +76.299 13 +77.559 14 +76.544 15 +75.550
- 16 +75.953 17 +76.168 18 +77.20]
6 19 +76.734 20 +70.528 21 +71'.341 2-22 +72.076 23 +72.391 24- +72.239' Drybulb temperature in degrees F l channel temp. channel temp. c ha n ne l .. ' temp. l: 1 +77.135 2 .77.240 .3 +77.081- ,
- 4 +76.734 5 +?O.528 Relative humidity in percent-channel- %RH channel %RH. channel tRHt 1 +36.314 2
- +37.795. 3 1 + 3 7.. 874 ;
4 +37.954 5 +46.873 . J- AVERAGE-TEMPERATURE =- +76.394 DEG. F' AVERAGE PRESSURE = +68.696. PSIA. AVG VAPOR PRESSURE- = +0.1708' PSIn MASS =.+655565.94 LBri O ) c, , b' 4 . , . . . , . ,.eL... . _ . , , , . . m.. . __
.-~,.. ,,1.- .. ' .i.,,.,,__,...,, . . . . _ , , . , _....-,.-..%,.~,..
.- . . . . . . ... . - . . ~ _
. 1/ . C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : . TEST- , DATA POINT
SUMMARY
SHEET DATE : 70 ; TIME : 06:15 Pressure Instruments in PSIA ' channel pressure channel . pressure 1 +68.6665 2 .+68.6945 ; RTDs'in degrees F channel temp. channel temp. channel temp. 1 +76.845 2 +77.074 3 +77.317 4 +76.951 5- +71.663 6 +77.222 7 +77.812 8 +77.063 9 +76.444 10 +77.334 11 +79.093 12 +76.304. ) 13 +77.552 14 +76.558 15 +75.522-l 16 +75.946 17 +76 172 18 +77.205 19 +76.716 TO +70.533 21 +71.352 22 +72.099 23 +72.402 24 +72.251 Drybulb temperature in degrees F channel temp, channel temp. channel ' temp. 1 . +77.117 2 +77.222 3 +77.063 J 4 +76.716 5 +70.533 Relative humidity in percent channel %RH channel %RH' channel .%RH. I 1 +36.416 2 +37.915 3 ' +37.964 4 .+ 38.010 5 +46'.907 AVERAGE TEMPERATURE = +76.381 DEG. FL AVERAGE PRF9SURE- = +68.693 PSIA AVG VAPOR PRESSURE = +0.1711 , PSIA MASS = +655548.25 LBM
- ' l
.N-
- (-
b V .- 'C. Summer >l INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 f l, 1 TIME : 06:30 t 6 f Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6629 2 +68.6908 ' RTDs in degrees F channel temp, channel temp. channel temp. 1 +76.809 2 +77.038 3 +77.092 4 +76.946 5 +71.669 6 +77.194 7 +77.874 8 +77.026 9 +76.408-10 +77.330 11 +79.077 12 +76.277 13 +77.525 14 +76.544 15 +75.541 16 +75.930 17 +76.159 18 +77.201 19 +76.723 20 +70.551 21 +71.352 22 +72.110 23 +72.391 24 +72.251 : Drybulb temperature in degrees F channel temp. channel temp. channel. - temp. 1 +77.092 2 +77.194 3 +77.026 4 +76.723 5 +70.551 !
.i Relative humidity in percent i
______--______________----------_------_-_-------____--_-__-----_ q chantiel %RH channel- %RH. channel %RH ! 1 q 1 +36.502 2 +38.006 3 +38.063 4 +38.061 5 +47.032 AVERAGE TEMPERATURE = +76~.366 DEG. F ' AVERAGE PRESSURE- = +68.689. PSIA AVG VAPOR PRESSURE = +0.1714 PSIA' MASS = +655529.13 LBM l[ h ,1
i P
~
V._C. Summer 1 , INTEGRATED LEAK RATE TEST TEST-MODE . TEST , DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 06: 45 - Pressure Instruments in PSI A a channel pressure channel pressure ; 1 +68.6599 +68.6877 l RTDs in degrees F
- channel temp. Channel temp. channel temp.
1 +76.777 2 +77.038 3 +77,081 4 +76.915 5 +71.647 6 +77.131 7 +77 722 8 +77.015 9 +76.385 10 +77.287 11 +79.056 12 +76.268 13 +77.525 14 +76.510 15 +75.541 j 16 +75.919 17 +76 148 18 +77.201 -i 19 +76.723 20 +70.562 21 +71.341 i 22 +72.120 23 +72.391 24 +72.251 ; Drybulb temperature in degrees F !
,1_ y (V
channel temp. channel temp. channel temp.
]
1 +77.081 2 +77.131- 3 +77.015 4 +76.723 5 +70.562 i Relative humidity in percent l e channel %RH channel %RH channel tRH 1 +36.580 2 +38.034 3- +38.146 4 +38.108 5 +47.112 AVERAGE TEMPERATURE = +76.344 DEG. F AVERAGE PRESSURE = +68.686 PSIA AVG VAPOR PRESSURE = +0.1716 PSIA MASS- = +655524.13 LBM I
. . . . , , . ~ . . - . ~ ... .. .- . -. - .. . .
V. C'. Summer 1 ' INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET: DATE : 70
TIME : 07:00 k.
Pressure' Instruments in PSIA ') channel pressure channel pressure-1 1 1 +68.6574 2 +68.6850 j RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.777 2 +76.995 3 +77.058 l 4 +76.883 5 +71.647 6 +77.108 7 +77.710 8 +77.004 9 +76.365 10 +77.264 11 +79.022 12 +76.234 13 - +77.470 14 +76.533 15 +75.507 16 +75.907 17 +76.125 18 +77'.146 19 +76.734 20 +70.551 21 +71.345' 22 +72.115 23 +72.373 24 +72.244 Drybulb temperature in degrees F q ----------------------------------------------------------------- (o channel temp. channel temp. -channel temp. 1 +77.058 2 +77.108 3 +77.004 4 +76.734 5 +70.551 ., l i Relative humidity in percent j ______-__----___--_-__-_--_------_--_--------___--__----_---._--_- 1 channel >. R H channel' tRH- channel %RH 1 +36.642 2 +38.114 3' +38.201 I l 4 +38.153 5 +47.068' 3 q l AVERAGE TEMPERATURE =. +76.322 -DEG. F AVERAGE PRESSURE =-
+68.684 PSIA AVG. VAPOR PRESSURE = +0.1717 PSIA MASS = +655524.88 LBM
. V. ~C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA-POINT
SUMMARY
SHEET DATE : 70 , TIME : 07:30
- / \
\_,1 .
Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6533 2 +68.6798 : i RTDs in degrees F channel temp. channel temp. channel ' temp. - 1 +76.716 2 +76.954 3 +77.020 4 +76.854 5 +71.651 6 +77.090 7 +77.747 8 +76.954 9 +76.336 10 +77.237 11 +79.006 12 +76.206 13 +77.486 14 +76.483 15 +75.511 16 +75.903 17 +76.129 18 +77.160 19 +76.716 20 +70.556 21 +71.334 22 +72.124 23 +72.384 24 . +72.244 Drybulb temperature in degrees F l
-l channel temp. channel temp. channel . temp. 1 1 +77.020 2 +77.090 3 +76.954 4 +76.716 5 +70.556 j l
Relative humidity in percent l l channel %RH channel %RH channel %RH 1 +36.707 2 +38.181 3 +38.273 4 +38.214 5 +47.212 l AVERAGE TEMPERATURE = +76.298 DEG. F AVERAGE PRESSURE = +68.679 F .I A AVG VAPOR PRESSURE = +0.1719 PSIA MASS = '+655508.25 LBM-l l v
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE - TEST-DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 07:45 ./ Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6516 2 +68.6782 RTDs in degrees F , channel temp, channel temp. channel temp. 1 +76.716 2 +76.933 3 +76.988 4 +76.822 5 +71.674 6 +77.081 7 +77.638 8 +76.954 9 +76.324 , 10 +77.248 11 +78.984 12 +76.195 13 +77.486 14 +76.506 15 +75.522 16 +75.892 17 +76.118 18 +77.160 19 +76.705 20 +70.556 21 +71.345 22 +72.124 23 +72.384 24 +72 244 Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +76.988 2 +77.081 3 +76.954 4 +76.705 5 +70.556 Relative humidity in percent channel %RH channel %RH channel %RH 1 +36.734 '2 +38.176 '3 +38.284 4 +38.233 5 +47.240 AVERAGE TEMPERATURE = +76.283 DEG'. F AVERAGE PRESSURE = +68.677 PSIA 4 AVG VAPOR PRESSURE = +0.1719 PSIA ! MASS = +655511.88 LBM l
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t r
!V . 7 C '. Summer 1, ~ . INTEGRATED LEAK RATE TEST TEST: MODE : TEST- vi DATA POINT
SUMMARY
9HEET DATE : 70 -l TIME : 08:00 . t
-i ~
pressure Instruments in PSIA ;
.j channel pressure channel pressure i 1 +68.6502 2 t68.6766 RTDs in degrees F '
channel temp. channel- temp. channel- temp. 1 1 +76.712 2 +76.949 3 +76.972' 4 +76.829 5 +71.681 6 +77.0771 . 7 +77.656 8 +76.949 9 +76.322 , 10 +77.244- 11 +78.979 12 +76.222- I 13 +77.450 14l +76.478 15 '+75.507 4 16 +75.898 17 +76.125 18 ' +77.146 ' 19 +76.712 20 +70.583 21 +71.352 22 +72.131 23 +72.391 24 972.239 1 l Drybulb temperature _ in _________ ____________________ degrees F _______ ________________________ .I
~ '
channel temp. channel temp. ' channel- temp. ;
+76.949- ~
1 +76.972 2 +77.077 3 1 4 +76.712 5 +70.583 > Relative humidity ' in percent I channel *RH. channel 1.RH channel "4 R H 1 +36.737 2 . +38.159 3 +38.308 4 +38.266 5 +47.317 AVERAGE TEMPERATURE = +76.282 DEG.'F AVERAGE PRESSURE = '+68.676 PSIA AVG VAPOR PRESSURE = +0.1719 PSIA MASS = +655497.19 LBM u l 1
J.h - .J, .mi. " + -
. 5 %,5 m. a. . -,..E 3 ..+h._aJ M ___Mi._ 4a s-. ae,., _ .-,a ad M -V. C.. Summer 1- - INTEGRATED-LEAK' RATE TEST TESTJMODE : TEST. - DATA-POINT'
SUMMARY
SHEET DATE : 70 TIME
... ,s
- 08:15 Pressure Instruments in PSIA channel pressure channel. pressure i 1 +68.6483 2 +68.6751 _;
RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.684 2 +76.911 3 +76.954 1 4 +76.799 5 +71.674 6 +77.047 7 +77.649 8 +76.945 9 +76'.304 : 10 +77.205 11 +78.984 12 +76.184 13 +77.432 14 +76.483 15 +75.511 ; 16 +75'.892 17 +76.118 18 +77 140 l 19 +76.716 20 +70.578 21 +71.364- : l 22 +72.142 23 +72.402 24 +72.251 l i l Drybulb temperature in degrees F l _________________________________________________________________ i i __ _ __ _I - _ . _ _ I
.1 1 +76.954 2 +77.047- -3 +76.945- i 4 +76.716 5 +70.578 l l
Relative-humidity in percent channel 4RH channel ~%RH channel %RH. 1 +36.774 2 +38.20S 3 +38.315 4 +38.288 5 +47.358 _i l H AVERAGE TEMPERATURE = +76.265 DEG..F i AVERAGE PRESSURE = +68.6/4= PSIA AVG VAPOR PRESSURE- = +0.1720 . PSIA' MASS =-+655502.19. LBM i k
t
-V.C. Summer'l ,
INTEGRATED LEAK RATE' TEST ' TEST MODE.: TEST: ! DATA POINT
SUMMARY
SHEET DATE : 70 ;
.. TIME : 08:30 f
A Pressure Instruments in PSIA l channel pressure channel. pressure l i 1 +68.6464 2 +68.6732 ' I i RTDs in degrees F channel temp. channel temp. channel temp. -;
.l 1 +76.668 2 +76.895 3 +76.949 i 4 +76.806 5 +71.712 6 +77.054 J 7 +77.613 8 +76.929 9 +76.354 1 10 +77.189 11 +78.959 12 +76.179 'I 13 +77.461 14 +76.490 15 +75.518 {
16 +75.898 17 +76.125 18 +77.146 i 19 +76.712 20 +70.583 21 +71.373 ) 22 +72.153 23 +72.411 24 +72.251 ; 1 Drybulb temperature in degrees F 'l
-[ channel temp. channel temp. channel temp.
t +1 1 +76.949 2 +77.054 3 +76.929- a 4 +76.712 5 +70.583 ! i Relative humidity in percent 1 q channel %RH channel %RH channel %RH -I
}
1 +36.810 2 +38.273 3 +38.346' l 4 +38.324 5 +47.323 AVERAGE TEMPERATURE = +76.263 DEG. F AVERAGE PRESSURE = +68.672 PSIA :l AVG VAPOR PRESSURE = + 0 '.1721 PSIA ) MASS = +655484.50 LBM l j I i i
.b T
i :2
[- V..C. Summer 1. INTEGRATED LEAK RATE TEST TEST MODE : TEST-DATA POINT
SUMMARY
SHEET DATE : 70-TIME : 08: 45
- f%
V Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6442 2 +68.6714 RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.646 2 +76.863 3 +76.929 4 +76.783 5 +71.690 6 +77.031 7 +77.559 8 +76.906 9 +76.299 10 . +77.210 11 +78.948 12 +76.159 13 +77.439 14 +76.501 15 +75.486 16 +75.887 17 +76.125 18 +77.135 19 +76.723 20 +70.594 21 +71.384 22 +72.174 23 +72.411 24- +72.271 Drybulb temperature in degrees F channel temp. channel- temp. channel. temp. 1 +76.929 2 +77.031 -3 +76.906' 4 +76.723 5 +70.594 Relative. humidity in percent channel %RH channel %RH channel. %RH 1 +36.837 2 +38.277 3 +38.379. 4 +38.340 5 '+47.362 AVERAGE TEMPERATURE +76.245 DEG'. F. AVERAGE PRESSURE u +68.670' PSIA AVG VAPOR PRESSURE = +0.1722 : PSIA MASS = +655486.75 LBM
._. _ . ___ . ._ ~ . . - _ . . _ . . . .. . . _ . ,m _ _
V l
' V . .C . Summer 'l- . ~
INTEGRATED. LEAK, RATE-TEST TEST MODE : -TEST i DATA POINT'
SUMMARY
SHEET DATE : 70' TIME : 09: 00-L Pressure Instruments in PSIA 2
-_-- ---------------------------------------- - -----_------- _-_ i channel pressure channel pressure .. l 1 +68.6420 2 +68.6691 !
1 RTDs in degrees F- 1 channel temp. channel temp. channel temp. i
------- ----- ------- --- . ------- ----- r 1 +76.646 2 +76.863 3 +76.918' i 4 +76.752 5 +71.701- 6 +77.000 !
7 +77.407 8 +76.918 9 +76.234 10 +77.189 11 +78.925 12 +76.159 , 13 +77.384 14 +76.478 ~ 15 +75.495 I 16 +75.876 17 +76.125 18 +77.135 .; 19 +76.712 20 +70.617 21 +71.395 ! 22 +72.174 23 +72.423 24 +72.271 ^> s t Drybulb temperature in degrees F
- channel temp. channel temp. channel . temp. d 1 +76.918 2 +77.000 3 +'7 6 .918 - ;
4 +76.712 5 +70.617 Relative humidity in' percent channel %RH channel %RH channel- %RH-S 1 +36.879 2 +38.312 3 +38.418. 4 +38.383 5 +47'387- . AVERAGE TEMPERATURE = +76.228 DEG. F l AVERAGE PRESSURE = +68.668 PSIA 1 AVG VAPOR PRESSURE = +0.1723- PSIA MASS = +655484.56 LBM
~i i
i t 1
[, - V. C.' Summer-1 - INTEGRATED LEAK RATE TEST TEST MODE : TEST
-DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 09:15 fr*g a- .
- (
,\_/- -
Pressure Instruments in PSIA channel pressure channel pressure l 1 +68.6401 2 +68.6671 i RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.634 2 +76.841 3 +76.895 l 4 +76.729 5 +71.701 6 +77.011 . 7 8 +76.886 9
+77.559 +76.222 10 +77.189 11 +78.936 12 +76.148 13 +77.396 14 +76.478 15 +75.486 l 16 +75.887 17 +76.116 18 +77.135 19 +76.712 20 +70.617 21 +71.413 22 +72.192 23 +72.430 24 +72.278 l
L Drybulb temperature.in degrees F 1 ____________________________-_________________-_----_____________ channel temp. channel- temp. channel. temp. ' O _______ 1
+76.895 2 +77.011 3 +76.886 -
4 +76.712 5 +70.617 : Relative humidity in percent __-______________________-___________________--_____--___________ y channel tRH channel %RH channel %RH l 1 +36.924 2 +38.437 3 +38.464 'l 4 +38.412 5 +47.440 i AVERAGE TEMPERATURE = +76.224 DEG. F AVERAGE PRESSURE =. +68.666 PSIA AVG VAPOR' PRESSURE = +0.1725 . PSIA MASS = +655469.81 LBM 4
'l i
l
- ., .,.:- . , . , ,i
. , . , -. .. . . - . _ . , _ . ~. __ _ _ _ - . - . . _ _ _ . 9 V. C. Summer 1- . INTEGRATED LEAK RATE TEST TEST MODE : TEST-DATA POINT
SUMMARY
SHEET DATE : 70 o
-TIME : 09:30 G' Pressure Instruments.in PSIA channel pressure channel pressure T
1 +68.6378 2 +68.6652 RTDs in degrees F channel . temp. channel temp. channel temp. 1 +76.582 2 +76.852 3 +76.886' ! 4 +76.709 5 +71.712 6 +76.925 l 7 +77.547 8 +76.875 9 +764213 i 10 +77.167 -11 +78.914 12 +76.136 13 +77.396 14 +76.456 15 +75.507 - 16 +75.887 17 +76.116 18 +77.124 19 +76.723 20 +70.626 21 +71.395 22 +72.185 23 +72.434 24 +72.282 L Drybulb temperature in degrees F _________________________________________________________________- i
~
es channel temp. channel- temp. channel temp. ( _____ _ _____ __,____ _____ _______ _____ 1 +76.886 2 +76.925 3 +76.875 4 +76'.723 5 +70.626 .j Relative humidity in percent 'l channel %RH channel %RH channel *eRH ; 1 +36.954 2 +38.434 3. +38.495 4 +38.445 5 +47.485 j AVERAGE TEMPERATURE = +76.210 DEG. F AVERAGE PRESSURE = +68.664 PSIA AVG VAPOR PRESSURE = +0.1725 PSIA MASS .= +655466.56 LBM
- t
. . . f f
a
e i V. C.. Summer 1 INTEGRATED LEAK RATE TEST- TEST MODE : TEST- 4 DATA-POINT.
SUMMARY
SHEET DATE : 70
- TIME : 09: 45
- L~O
'^
Pressure Instruments in PSI A channel pressure channel pressure 1 +68.6361 2- +68.6633 P RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.587 2 +76.793 3 +76.870 4 +76.715 5 +71.697 6 +76.952 7 +77.609 8 +76.859 9 +76.218 10 +77.185 11 +78.943 12 +76.143 13 +77.402 14 +76.474 15 +75.493 - 16 +75.905 17 +76.143 18 +77.151 19 +76.739 20 +70.644 21 +71.416 22 +72.196 23 +72.434 24 +72.282 ; Drybulb temperature in degrees F channel temp. channel temp. channel temp.
\ 1 +76.870 2 +76.952 3 . +76.859 4 +76.739 5 +70.644 Relative humidity in percent channel 1 %RH channel '%RH channel %RH 1 +37.003 2 +38.470 '3 +38.549 4 +38.476 S +47.528 AVERAGE TEMPERATURE = +76.210 DEG. F AVERAGE PRESSURE = +68.662 PSIA -
AVG VAPOR PRESSURE = +0.1727 PSIA MASS .
= +655447.00 LBM
(
~ V; C.' Summer 1-
-INTEGRATEDJLEAK RATE TEST TEST MODE : TEST DATA POINT-
SUMMARY
' SHEET DATE : 70 TIME : '10:00
-~ ,
Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6346 2 +68.6622 RTDs in degrees F . channel temp. channel temp. -channel- temp. 1 +76.582 2 +76.809 3 +76.863 4 +76.697 5 +71.724 6 +77.000~ ; 7 +77.516 8 +76.863 9 +76.213 10 +77.167 11 +78.905 12 +76.125 . 13 +77.373 14 +76.478 15 +75.486 16 +75.887 17 +76.136 18 +77.124 , 19 +76~.712 20 +70.637 21 +71.422 22 +72.203 23- +72.452 24 +72.301 e Drybulb temperature in degrees F , channel temp. channel temp. channel' temp. 1 +76.863 2 -+77.000 3 +76.863' 4 +76.712 5 +70.637 , Relative humidity in percent channel. %RH channel .%RH channel %RH 1 ^37.033 2 +38.'68 4 3 +38.556 4 +38.516 5 +47.592 AVERAGE TEMPERATURE = +76.203 DEG. F AVERAGE PRESSURE = +68.661- PSIA AVG VAPOR PRESSURE = +0.1728 PSIA-MASS = +655442;94 LBM i r.
'W L
V. C. Summer 1
'It4TEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 TIME - 10:15 g V Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6331 2 +68.6606 1 RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.571 2 +76.789 3 +76.852 4 +76.686 5 +71.733 6 +76.945 7 +77.407 8 +76.863 9 +76.179 10 +77.155 11 +78.914 12 t76.125 13 +77.353 14 +76.456 15 +75.486 16 +75.887 17 +76.125 18 477.135 19 +76.723 20 +70.660 21 +71.438 22 +72.217 23 +72.457 24 +72.314 1 Drybulb temperature in degrees F l\ channel temp. channel temp. channel temp. 1 (_/ _---_-_ ----_ _-----_ _____ ____-_- __-_- 1 +76.852 2 +76.945 3 +76.863 4 +76.723 5 +70.660 Relative humidity in cercent channel %RH channel %RH channel %RH 1 +37.082 2 +38.558 3 +38.595 4 +38.555 5 +47.600 AVERAGE TEMPERATURE = +76.190 DEG. F AVERAGE PRESSURE = +68.659 PSIA AVG VAPOR PRESSURE = +0.1730 PSIA MASS = +655441.69 LBM l
, .s / )
- (./
.. -. ..- - . . -- _ - - - _ _ ~
l k l'd 's i k-V. C.1 Summer 1 INTEGRATED LEAK ~ RATE TEST TEST MODE : -TEST-DATA POINT
SUMMARY
SHEET. DATE : 70 - TIME : 10 30 L f' 1 i j- Pressure Instruments in PSIA channel pressure channel- . pressure 1 +68.6312 2 +68.6587 t-l. l RTDs in degrees F channel temp. channel temp, channel temp. 1 +76.560 2 +76.755 3 +76.841 -! 4 +76.677 5 +71.744 6 +76-934 . 7 +77.470 8 +76.841 9 +76.202- ; l 10 +77.155 11 +78.914 12 +76.104 H 13 +77.341 14 +76.490 15- +75.475 16 +75.887 17 +76.136- 18 .+77.135 19 +76.700 20 +70.671 21 +71.450 22 +72.228 23 +72.466 24 +72.325-Drybulb temperature in degrees F , channel temp. channel temp. channel temp. !
] -- ----
1
+76.841 2 -+76.934 '3 +76.841' d l
4 +76.700' 5 +70.671' Relative humidity in percent ']
------- ------------------------------------------------- ------ i channel %RH channel %RH channel %RH 1 +37.124 2 +38.560 .3 +38.628 4 +38.586 5 +47.655 AVERAGE TEMPERATURE = +76.185 DEG. F l i
AVERAGE PRESSURE = +68.657. PSIA I AVG-VAPOR PRESSURE = +0.1731' PSIA MASS = +655428.81' LBM l
n ~
- v. C. Summer.1- 1 INTEGRATED LEAK: RATE TEST TEST _ MODE : TEST ,
DATA POINT
SUMMARY
SHEET DATE : 70 ! TIME : 10: 45-t L Pressure Instruments in PSIA channel pressure channel pressure' ' 1 +68.6288 2 +68.6566 , RTDs in. degrees F ; channel temp. channel temp. channel temp. 1 +76.544 2 +76.773- 3 +76.827 l 4 +76.661 5 +71.739 6 +76.886 7 +77.359 3 +76.827 9 _+ 76.197 , 10 +77.142 11 +78.920 12 +76.111 ! 13 +77.368 14 +7(>.485 15 +75.493 :} 16 +75.894 17 +76.132 18 +77.142 19 +76.739 20 +70.676 21 +71.454 22 +72.244 23 +72.470 24 +72.319 I i ____ __ __ ___ __ _ $ __$ ___________________________________ J (%^/'T "D*:"*! 1:*:: SD""*! !!::: SD*""*! ~1*::: 1 +76.827 2 +76.886 3 +76.827 ,, 4 +76.739 5 +70.676 l Relative humidity in percent channel ~ 4RH channel %RH channel %RH. :I 1 +37.144 2 +38.668 3 + 38.671 4 +38.610 5 '+ 47.674 j AVERAGE TEMPERATURE = +76.177 DEG. F AVERAGE PRESSURE = +68.655 PSIA AVG VAPOR PRESSURE = +0.1732 PSIA
= +655415.63 LBM MASS
'V.:C. Summer 1 d INTEGRATED: LEAK RATE TEST TEST MODE ~ T E S T-- '
DATA POINT
SUMMARY
SHEET - DATE. : .70 g TIME : 11:01 s Pressure' Instruments in. PSIA channel pressure channel pressure i i -_----- __------ --___-- -___---- l 1 +68.6260 2 +68.6536 l l RTDs in degrees F ) _________--___-_____----_--___---_________ _-__-_________________ -i i channel temp. channel temp. channel temp. -l 1 +76.533 2 +76.750~ 3 't76.816 4 +76.672 5 +71.773 6 +76.909 , 7 -+77.314 8 +76.827 9 + 7 6 .15 4. - l I 10 +77.108 11 +78.889 12 +76.077- i l 13 +77.305 14 +76.419 15 +75.459 : 16 +75.883 17 +76.132 18 +77.131 I 19 +76.718 20 +70.698 21 +71.470 ' i l 22 +72.251 .23 +72.477 24 +72;337 .i Drybulb temperature in degrees F i
; channel . temp. channel temp. channel ' temp.
_____ ---_-__ _-___ j i
+76.816 +76.909 3 +76'.827 1 2 -l 4 +76.718 5 +70.698 -)
Relative humidity in percent 'l 1 d channel %RH channel %RH channel *RH 1 +37.186 2 +38.633- 3 +38.706 4 -+38.648 5 +47.692 l' l' AVERAGE TEMPERATURE = +76.165 DEG. F AVERAGE PRESSURE = +68.652 PSIA AVG VAPOR PRESSURE' = +0.1733 PSIA l MASS = +655401.63 LBM 1 l l I .. t l c . - -
1 t V . - C '. S u m m e r ' l'- ., INTEGRATED LEAK RATE TEST TEST MODE.: TEST-DATA POINT.
SUMMARY
SHEET DATE : ~70 TIME : 11:15 EI p '
- \
Pressure Instruments.in PSIA l
._____________________________.______________________ _____________- v channel pressure channel pressure 1 +68.6237 2 +68.6516 l RTDs in degrees F #
channel temp. channel temp. channel temp. 1 1 +76.505 2 +76.734 3- t76.789 4 +76.643 5 +71.744. 6 +76.870 . 7 +77.244 8 +76.820 9 + 7 6 . 1'4 8 ' 10 +77.081 11 +78.839 12 +76.082 ') 13 +77.276 14 +76.424 15 t75.443 ; 16 475.876 17 '+76.125 18 +77.112 ! 19 +76.734 20 +70.703 21 ~ +71.481 22 +72.251 23 +72.477 24 +72.337 j Drybulb temperature in degrees F .;
?
channel . temp. channel! temp. channel t e m p ,. 1 +76.789 2 +76.870 13 ..+76.820 i i 4 +76.734 5 +70.703-Relative h'midity u in percent' channel %RH channel %RH channel TRH U 1 +37.243 2 +38.670 3 +38.736 j 4 +38.675 5 ' +47.727. l _________________________________________________________________ q i AVERAGE TEMPERATURE = +76.145 DEG. F-AVERAGE PRESSURE = +68.650 PSIA AVG VAPOR PRESSURE. = +0.1734 PSIA-MASS = +655405.44' LBM a a-.
t
- V.-C. SummerEl- l
-- INTEGRATED LEAK RATE TEST TEST MODE : T F.S T !
DATA POINT
SUMMARY
SHEET- DATE : 70 , TIME : 11:30 f . ( ' Pressure Instruments in PSIA channel pressure channel pressure- ;
------_ -------- ------- -----__- y 1 +68.6209 2 +68.6487 l 1
RIDS in degrees F channel temp, channel temp. channel. temp. : 1 +76.474 2 +76.712 3 +76.766 4 +76.623 5 +71.744 6 +76.859 - 7 +77.298 8 +76.798 9 +76.148 10 +77.081 11 +78.839 12 +76.050 13 +77.264 14 +76.424 15 +7C.432 l 16 +75.864 17 +76.125 18 .t77,124 19 +76.712 20 +70.703 21 +71'.461 ' 22 +72.251 23 +72.488 24 +72.348 r Drybulb temperature in-degrees F ! channel . temp. channel temp. channel temp. ( ------- ----- ------- ----- ------- ----- , 1 +76.766 2 +76.859 3 +76.798 4 +76.712 5 +70.703 . 4 Relative humidity in' percent channel %RH ' channel %RH channel %RH ] 1 +37.277 2 +38.7S9 3 +38.780-4 +38.714 5 +47.691 AVERAGE TEMPERATURE =- +76.132 DEG. F - AVERAGE PRESSURE = +68.647~ PSIA AVG VAPOR PRESSURE = +0.1735 PSIA MASS ~ = +65S393.25 LBM k 1
.: , y , -
- . .- . - - - . . - = .. ._ .
V. C.. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE - 70 TIME- : 11: 45-Pressure Instruments in PSIA channel pressure channel pressure ' _______ ___-____ _______ ________ r 1 +68.6188 2 +68.6464 .; RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.474 2 +76.700' 3 +76.755 4 +76.589 5 +71.744 6 +76.870 7 +77.155 8 +76.777 9 +76.136 10 +77.058 11 +78.816 12 +76.071 13 +77.255 14 +76.401 15 +75.420 16 +75.855 17 +76.125 18 +77.112. 19 +76~.712 20 +70.714 21 +71.470 22 +72.262 23 +72.477 24 +72.348 + Drybulb temperature in degrees F
- -. channel temp. channel temp. channel . temp.
1 +76.755 2 +76.870 -3 +76.777 4 +76.712 5 +70.714 Relative humidity in percent channel %RH channel SeRH channel feRH 1 +37.313 2 +38.'797 3 - +38'.819 .; 4 +38.742 5 +47.713-AVERAGE TEMPERATURE = +76.117 DEG. F AVERAGE PRESSURE = +68.645 PSIA AVG VAPOR PRESSURE. = '+0.1736 PSIA MASS . = +655389.44 LBM . r i, d 1' w w I r, e 4 er w m -
V. C. Summer ~1-f IN "! GRATED' LEAK RATE TEST TEST MODE : TEST L DATs POINT
SUMMARY
SHEET DATE : 70 TIME : 12:00 l , i s Pressure Instruments in PSIA , channel pressure channel pressure 1 +68.6160 2 +68.6438 , t RTDs in degrees F channel temp. channel temp. channel temp. . l 1 +76.458 2 +76.664 3 +76'.739 ! 4 +76.607 5 +71.762 6 - +76.866- f 7 +77.196 8 +76.773 9 +76.077-10 +77.065 11 +78.803 12 +76.034 13 +77.228 14 +76.408 15 +75.416-16 ' +75.871 17 +76.132 18 +77.076 19 +76.696 20 +70.710 21 +71.454 22 +72.276 23 +72.482 24 +72.'341= , Drybulb temperature in degrees F p channel temp. channel temp. channel temp. q _______ _____ _______ _____ _______ _____ 1 +76.739 2 +76.866 3 +76.773 4 +76.696 5 +70.710 Relative humidity i n percent ' ________________________-_________________,______________________ n channel %RH channel ' %RH channel ~ %RH i 1 +37.351 2 +38.861 3= . +38.843- - 4 +38.780- 5 + 4 7 .-743 . 1 a AVERAGE TEMPERATURE = +76.108 DEG. F , AVERAGE PRESSURE = +68.642. PSIA ..l. AVG VAPOR PRESSURE = +0.1737 PSIA. ., MASS = +6SS372.94 'LBM i O
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.:V . C. Summer 1 ' INTEGRATED LEAK RATE TEST TEST-MODE : TEST -
DATA POINT
SUMMARY
SHEET DATE : 70 ,, TIME : 12:15 D 0 Pressure Instruments in PSIA I channel pressure channel pressure- l 1 +68.6142 2 +68.6419 i RTDs in degrees F i channel temp. channel temp. channel temp. l 1 +76.428 2 +76.668 3 +76.723 4 +76.568 5 +71.755 6 +76.836 7 +77.189 8 +76.755 9 +76.104 i 10 +77.049 11 +78.796 12 +76.016 13 +77.264 14 +76.401 15 +75.398 16 +75.996 17 +76.116- 18 +77.135 19 +76.723 20 +70.725 21 +71 470 f 22 +72.282 23 +72.500 24. +72.348 Drybulb temperature in degrees F channel temp. channel temp. channel temp. i (. 1 +76.723 2 +76.836 3 +76.755 4 +76.723 5 +70.725 Relative humidity in percent ! channel %RH channel %RH channel %RH 1 +37.398 2 +38.901 .3 +38.896 , 4 +38.802 5 +47.785 l
]
i AVERAGE TEMPERATURE = . +76.101 .DEG. F ! AVERAGE PRESSURE' = +68.641 PSIA
' AVG VAPOR. PRESSURE .= '+0.1738 PSIA O MASS- = +655362.38' LBM 'l 1 ) .l b .. l -s ' 1 1
i V.C. Summer-1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT.
SUMMARY
SHEET DATE : 70 TIME : 12:30 N t Pressure Instruments in PSIA ___ ________ ______________________________________________ _____. r channel pressure channel pressure 1 +68.6128 2 +68.6406 FTDs in degrees F channel temp. channel temp. channel temp. - 1 +76.419 2 +76.634 3 +76.700. 4 +76.557 5 +71.767' 6 +76.773 7 +77.276 8 +76.734 9 :+76.071 ' 10 +77.026 11 +78.762 12 +75.996 13 +77.232 14 +76.413 15 +75.398 , 16 +76.071 17 +76.125 18 +77.178 19 +76.743 20 +70.746 21 +71.470 , 22 +72.305 23 +72.511 24 +72.368
- i Drybulb temperature in degrees F channel temp. channel. temp. channel temp. i 1
+76.700 2 +76.773 3 +76.734 4 +76 743 5 +70.746 - Relative humidity in percent channel %RH channel %RH channel- %RH 1 +37.444 2 +38.912 -3 +38.942-4 +38.829 5 +47.819 AVERAGE. TEMPERATURE = +76.092 .DEG.-F-AVERAGE PRESSURE = .+68.639 PSIA AVG VAPOR PRESSURE = -+0.1739 PSIA MASS = +655359.88 LBM f
y r, i e c - .,u.-. - ~ . .,u
V. C. Summer 1 INTEGRATED LEAK RATE TEST' TEST MODE : TEST DATA POINT-
SUMMARY
SHEET DATE : 70 TIME : 12: 45 - O Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6113 2 +68.6390 . RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.385 2 +76.634 3 +76.680. 4 +76.534 5 +71.778 6 +76.773 7 +77.189 8 +76.734 9 +76.071 'i 10 +77.015 11 +7E 6 2 12 +75.984 ; 13 +77.221 14 +76.413 15 +75.398 16 +76.093 17 - +76.136 16 +77.221 19 +76.766 20 +70.757 21. +71.470 22 +72.325 23 +72.543 24 +72.380 3 Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +76.680 2 +76.773 3 +76.734 4 +76.766 5 +70.757 . Relative humidity in percent < channel %RH channel %RH channel %RH - 1 +37 487 2 +38.958 3 +38.964 : 4 +38.861 5 . +47.833- '
-AVERAGE TEMPERATURE = -+76'.082 DEG. F .
AVERAGE- PRESSURE = +68.638 PSIA AVG VAPOR PRESSURE- = +0.1740 PSIA , MASS '= +655355.75 LBM '! p -);
-(
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'l H 'i
. . ~ . - . -- . .- ~ .. . i. ' V '. ' C . ~ Summer-1 '
INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70-TIME : 13:00
- ,4
'IN Pressure Instruments in PSIA ] l channel pressure channel pressure 1 +68.6100 2 +68.6381 RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.392 2 +76.621 3 +76.684: 'i 4 +76.530 5 +71.816 6 +76.778 1t 7 +77 151 8 +76.730 9 +76.066 10 +77.033 11 +78.769 12 +75.991- ! 13 +77.205 14 +76.451 15 +75.416 ! 16 +76.132 17 +76.143 18 +77.251 19 +76.761 20 +70.807 21 +71.470 ; 22 +72.337 23 +72.554 24 +72.391
]
i Drybulb temperature in degrees F f ' channel temp. channel temp. channel -temp. ( _______ _____ _______ _____ _______ _____ 1 +76.684 2 +76.778 3 +76.730 4 +76.761 5 +70.807 J Relative humidity in percent c ha nnel .%RH channel %RH channel %RH 1 +37.532 2 +39.003 3 +39.011' 4 +38.884 5 +47.882 '! l AVERAGE TEMPERATURE = +76.086 DEG. F l AVERAGE PRESSURE = +68.637' PSIA I AVG VAPOR PRESSURE '= +0'.1743 , PSIA-
'l MASS = +655338.75 LBM i .]
1 1 J l
.4
L I V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST : DATA POINT
SUMMARY
SHEET DATE : 70 I TIME : 13:15 D i . , Pressure. Instruments in PSIA channel pressure channel Pressure . I 1 +68.6086 2 +68.6366 -
't RTDs in degrees F ,
channel temp. channel temp, channel temp. 1 +76.385 2 +76.603- 3 +76.657 4 +76.491 5 +71.821 6 +76.762 .- 7 +77.101 8 +76.723 9 +76.050 , 10 +77.004 11 +78.741 12 +75.973 13 +77.210 14 +76.435 15 +75.389 16 +76.159 17 +76.148 18 +77.210 : 19 +76.777 20 +70.823 21 +71.481 22 +72.359 23 +72.563 24 +72.402 Drybulb temperature in degrees F s channel temp. channel temp. channel temp. l 1 +76.657 2 +76.762 3 +76.723 4 +76.777 5 +70.823 ;
.I Relative humidity in percent :
chanhel ?.RH channel 3.RH channel %RH ! 1 +37.578 2 +39.035- .3 +39.059 4 +38.910 5 +47.909-
. t AVERAGE TEMPERATURE = +76.069 DEG. F AVERAGE PRESSURE = +68.635 PSIA. . ;
AVG VAPOR PRESSURE = +0.1744 PSIA : MASS = +655343.94 LBM' i
.- ?
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- -- . n. -
V 'C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : . TEST DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 13:30 y e Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6073 2 +68.6352 RTDs in degrees F . channel temp. channel temp. channel ' temp. ' 1 +76.372 2 +76.610 3 +76.653 4 +76.521 5 +71.837 6 . +76.757 7 +77.196 8 +76.718 9 +76.046 10 +76.999 11 +78.748 12 +75.969 13 +77.185 14 +76.451 15 +75.405. 4 16 +76.218 17 +76.166 18 +77.271 19 +76.804 20 +70.838 21 +71.486 22 23
~ +72.373 +72.579 24 +72.427 Drybulb temperature in degrees F channel temp. channel temp. channe1~ temp. ) ------- ----- +76.653 2 +76.757 1 3 +76.718 !
4 +76.804 5 +70.838 Relative humidity in percent channel %RH channel %RH channel %RH 1 +37.608 2 +39.042 3 +39.101-4 +38.935 5 +47.9071 AVERAGE TEMPERATURE = +76.080 'DEG. F AVERAGE PRESSURE. = +68.634 _ PSIA AVG VAPOR PRESSURE ' = +0.1745 PSIA l MASS = +655316.81 LBM , i
I
~V. C. Summer 1-INTEGRATED LEAK RATE-TEST TEST MODE : TEST -
DATA. POINT
SUMMARY
SHEET DATE : 70 TIME : 13: 45 r Pressure Instruments in PSIA . channel prassure channe1 pressure 1 +68.6063 2 +68.6341 :
?
RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.354 2 +76.603 .3 +76.634' 4 +76.523 5 +71.853 6 +76.707 7 +77.330 8 +76.712 9 +76.039. 10 +76.995 11 +78.741 12 +75.962, 13 +77.167 14 +76.447 15 +75.409 16 +76.245 17 +76.159 18 +77.264 . . 19 +76.820 20 +70.834 21 +71.504 22 +72.402 23 +72.608 24 +72.434 i Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +76.634 2 +76.707 3 +76.712 4 +76.820 5 +70.834 . Relative humidity in percent channel %RH channel *4RH channel %RH : 1 +37.646 2 +39.091 3. +39.108 i 4 +38.956 5 +47.878 AVERAGE TEMPERATURE = +76.079 DEG. F AVERAGE PRESSURE = +68.633 PSIA. AVG VAPOR 1 PRESSURE = .+ 0.1745' PSIA MASS- -= +655307.94' LBM 0 V
.n s, - , . , , , -
VL. C . Summer.1 INTEGRATED LEAKLRATE TEST TEST MODE : TEST _ DATA POINT
SUMMARY
SHEET DATE : 70 - TIME : 14: 00 . Pressure Instruments in PSIA channel pressure channel pressure 1 '+68.6049 2 +68.6327 RTDs in degrees F channel temp. channel temp. channel temp 1 +76.342 2 +76.582 3 +76.603 4 +76.491' 5 +71.864 6 +76.696 7 +77.201 8 +76.700 9 +76.039-10 +76.983 11 +78.719 12 +75.962 13 +77.201 14 +76.467 15 +75.409 16 +76.277 17 +76.159 = 18 +77 276'. ; 19 +76.820 20 +70.854 21 +71.508 22 +72.407 23 +72.613 24- +72.450 Drybulb temperature in degrees F
'O V.
channel temp, channel temp. channel. temp. 1 +76.603 2 +76.696 3 '+76.700' 4 +76.820 5 +70~.854 Relative humidity in percent channel channel %RH channel' %RH %RH 1 t37.686 -2 +39.105 3 +39.150 4 +38.985 5 +47.962 AVERAGE TEMPERATURE = +76.064- DEG. F AVERAGE PRESSURE = +68.631 PSIA. > AVG VAPOR PRESSURE '
= +0.1746- PSIA MASS = +655311.88 LBM s
43
\/ . . C . Summer.1. i ' INTEGRATED LEAK ~ RATE' TEST TEST MODE : TEST .,
DATA POINT
SUMMARY
SHEET DATE : 70 '! TIME : 14:15 -
. ,C Pressure Instruments in PSIA channel pressure channel pressure 'l 1 +68.6037 2 +68.6315 P
RTDs in degrees F channel temp. channel' temp. channel temp. 1 +76.349 2 +76.555 3 +76.621 4 +76.475 5 +71.891 6 +76.768-7 +77.348 8 +76.684 9 +76.046 10 +76.990 11 +78.737 12 +75.960 13 +77.174 14 +76.451 15 +75.384 16 +76.295 17 +76.166 18 +77.271 19 +76.827 20 +70.882 21 +71.517 : 22 +72.416 23 +72.633 24' +72.461 I Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +76.621 2 +76.768 3 . +76.684 4 +76.827 5 +70.882 Relative humidity in percent , channel -%RH channel '4RH channel %RH ; 1 +37.712 2 +39.157 3 +39.199 j 4 +39.007 5' +47.981 AVERAGE TEMPERATURE = +76.071 DEG. F AVERAGE PRESSURE = +68 630 PSIA: AVG. VAPOR PRESSURE =. +0.1749' PSIA MASS = +655289.06~'LBM .- A
i V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE - TEST DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 14:30 ("\ d Pressure Instruments in PSIA channel pressure channel pressure 1 +68.6020 2 +68.6299 RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.311 2 +76.537 3 +76.591 4 +76.448 5 +71.907 6 +76.728 7 +77.276 8 +76.680 9 +76.039 10 +76.983 11 +78.719 12 +75.941 13 +77.167 14 +76.447 15 +75.389 16 +76.322 17 +76.159 18 +77.276 19 +76.832 20 +70.897 21 +71.536 22 +72.445 23 +72.651 24 +72.488 Drybulb temperature in degrees F channel temp. channel temp, channel temp. ll 1 +76.591 2 +76.728 3 +76.680 4 +76.832 5 +70.897 Relative humidity in percent channel %RH channel %RH channel %RH 1 +37.770 2 +39.181 3 +39.229 4 +39.030 5 +48.019 AVERAGE TEMPERATURE = +76.055 DEG. F AVERAGE PRESSURE = +68.628 PSIA AVG VAPOR PRESSURE = +0.1750 PSIA MASS = +655292.63 LBM 7__ l (
. - - . . - ~ . .._ 'V..C. Summer 1 sINTEGRATED LEAK RATE TEST TEST MODE : TEST' DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 14: 45 ( Pressure Instruments in PSIA i b channel pressure channel pressure 1 +68.6000 2 +68.6279 RTDs in degrees F . channel temp. Channel temp. channel -temp. , 1 +76.311 2 +76.528 3 +76.582 i 4 +76.448 5 +71.918 6 +76.728 7 +77.178 8 +76.668 9 +76.050 10 +76.972 11 +78.719 12 +75.953 13 +77.167 14 +76.447 15 +75.J98-16 +76.342 17 +76.168 18 +77.276 , 19 +76.841 20 +70.897 21 +71.536 22 +72.466 23 +72.651 24 +72.5G0 ~i r Drybulb temperature in degrees F channel temp. channel temp. channel temp.- 1 +76.582 2 +76.728 3. +76.668 4 +76.841 5 +70.897 Relative humidity in percent .; channel %RH channel %RH~ channel %RH 1 +37.788 2 +39.273- 3 .+ 39.259 2 4 +39.057 5 +47.926 j l j AVERAGE TEMPERATURE = +76.051. DEG. F AVERAGE PRESSURE =' +68.626 .PGIA AVG VAPOR PRESSURE = +0.1750' PSIA I MASS = +655277.50 LBM b i i
.I I
s 1 J 1
'V. C. S'ummer 1 -INTEGRATED LEAK' RATE. TEST- TEST MODE : -TEST ,
DAT A POINT
SUMMARY
SilEET D' ATE : 70
. ,~ ' TIME : 15:00 Piessure Instruments in PSIA channel pressure channel pressure 1 +68.5980 2 +68.6257 RTDs in degrees F channel temp. channel temp. channel temp.
- 1 +76.288 2 +76.528 3 +76.571-4 5
+76.416 +71.907 6 +76.707 7 +77.362 8 +76.668 9 T76.016 10 +76.972 11 +78.707 12 +75.930 13 + 7 7 .14 6 - 14 +76.467 15 +75.389' 16 +76.374 17 +76.179 18 +77.276 19 +76.832. 20 +70.920 21 +71.540-22 +72.470 23 +72.656 24 +72.504 Drybulb temperature in degrees F
_-_______________________________________________________________ l, channel temp, channel temp. channel- temp. ' 1 +76.571 2 +76.707 3 +76.668 I 4 +76.832 5 +70.920 .) Relative humidity in percent channel tRH channel %RH channel %RH-a 4 1 +37.849 2 +39.318 3 +39.290 1 4 +39.088 5 +47.969- ) AVERAGE TEMPERATURE = +76.046 DEG. F AVERAGE PRESSURE = +68.624 ~ PSIA AVG VAPOR PRESSURE =- +0.1752 PSIA' MASS- = +655261.00 -LBM i
'l l
l
t
- V. C'. Summer 1 INTEGRATED LEAK' RATE TEST ~ TEST MODE : TEST r DATA POINT
SUMMARY
SHEET / DATE : 70 I TIME : 15:15 Pressure Iristruments in PSIA channel pressure channel pressure 3 1 +68.5954 2 +68.6231 RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.268 2 +76.505 3 +76.560 4 +76.416 5 +71.887 6 +76.642 . 7 +77.298 8 +76.668 9 +76.016. ! 10 +76.949 11 +78.687 12 +75.919 13 +77.112 14 . +76 467 -15 +75.366' 16 +76.397 17 +76.159 18 +77.276 1 19 +76.820 20 +70.940 21 +71.S29 I 22 +72.470 23 +72.665 24 .+72.513 1 i Drybulb temperature in degrees F
--------------------------------------------------------_------_. .)
channel temp. channel temp. channel temp. .l l 1 +76.560 2 +76.642 .3 v76.668 l 4 +76.820 S +70.940 g! j Relative humidity in percent U channel %RH channel %RH channel %RH 1 +37.868 2 +39.387 3- +39.324 4 +39.113 5 +47.966 i
' AVERAGE TEMPERATURE ~=-%+2533669.'500 .DEG. F AVERAGE PRESSURE =- +0.000 PSIA AVG VAPOR' PRESSURE = +0.0268 -PSIA MASS = -0.05- LBM i
i
.j i
I l
V ~. C. Summer'1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 15:15 i Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5954 2 +68.6231 RTDs in degrees F . -. channel temp. channel temp. channel temp. . 1 +76.268 2 +76.505 3 +76.560 4 +76.416 5 +71.887 6 +76.642 7 +77.298 8 +76.668 9 +76.016 10 +76.949 11 +78.687 12 +75.919 13 +77.112 14 +76.467 15 +75.366 16 +76.397 17 +76.159 18 +77.276 19 +76.820 20 +70.940 21 +71.529 22 +72.470 23 +72.665 24 +72.513 l Drybulb temperature in degrees F '
'}
. ,_j channel temp. channel temp. channel temp. 1 +76.560 2 +76.642 3 +76.668 4 +76.820 5 +70.940 Relative humidity in percent j channel tRH channel ORH channel %RH I 1 +37.868 2 +39.387 3 .+39.324 4 +39.113 5 +47.966 AVERAGE TEMPERATURE =. +76.033 DEG. F AVERAGE PRESSURE = +68.622. PSIA AVG VAPOR PRESSURE = +O.1753 PSIA-MASS = +655252.69- LBM l 4
'V. C. Summer 1 . INTEGRATED LEAK RATE TEST TEST MODE : TEST j DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 15:30' '
'O Pressure Instruments in' PSIA i --_-_----_--_-_ --------------_----------------------------------
l 1 channel pressure channel pressure 1 +68.5934 2 +68.6212
- 1. 1 l
L RTDs in degrees F " channel temp. channel temp, channel. temp. 1 +76.252 2 v76 E . 3 +76.555 4 +76.378 5 +71.914 6 +76.614-7 +77.260 8 +76.641 9 +76.003 10 +76.924 11 +78.671 12 +75.883 13 +77.131 14 +76.442 15 +75.362 16 +76.415 17 +76.175 18 +77.294 19 +76.827 20 +70.958 21 +71.547-22 +72.500 23 +72.672 24 +72.531 Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +76.555 2 +76.614 3 +76.641 4 +76.827 5 +70.958 Relative. humidity in percent I i I channel %RH channel %RH channel %RH H d , 1 +37.892 2' +39.403 3 +39.352 L 4 +39.135 5 +47.969 AVERAGE TEMPERATURE-= +76,022 DEG. F
- j. AVERAGE PRESSURE' = +68.6201 PSIA AVG VAPOR PRESSURE = +0.1753 PSIA:
MASS = +655246.56 LBM I i j j 1 H i l
'I '
l L i l . .
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST
. DATA POINT'
SUMMARY
-SHEET DATE. : 70 TIME : 15:45 s Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5916 2 +68.6194 RTDs in degrees F ! channel temp. channel temp. channel temp. 1 +76.256 2 +76.462 3 +76.528 4 +76.394 5 +71.918 6 +76.587 7 +77.058 8 +76.614 9 +75.973 10 +76.929 11 +78.633 12 +75.864 13 +77.112 14 +76.424 15 +75.366 16 +76.440 17 +76.159 18 +77.287 19 +76.820 20 +70.963 21 +71.551 l 22 +72.493 23 +72.676 24 +72.525 Drybulb temperature in de9 tees F z channel temp. channel temp. channel temp. 1 +76.528 2 +76.587 3 +76.614 4 +76.820 5 +70.963-Relative humidity in percent channel %RH channel %RH channel '%RH 1 +37.931 2 +39.407 3 +39.392 4 +39.153 5 +47.991 AVERAGE TEMPERATURE = +76.004 DEG.-F AVERAGE PRESSURE = +58.618 PSIA AVG VAPOR PRESSURE = +0.1753 PSIA MASS = +655250.69 LBM l . - - .. . - _ _ _ _ _ _ _ _ _ _ _ - - - - - -
. .. - -- - - - = _ . . . .
I V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST l DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 16:00 r ( I Pressure instruments in PSIA channel pressure channel pressure ,
-1 +68.5897 2 +68.6176 j RTDs in degrees F l channel tenp. channel temp. channel temp.
1 +76.234 2 +76.440 3 +76.517 4 +76.362 5 +71.907 6 +76.610 7 +77.210 8 +76.614 9 +75.973 10 +76.918 11 +78.655 12 +75.864 13 +77.101 14 +76.424' 15 +75.355 16 +76.462 17 +76.168 18 +77.307 # 19 +76.820 20 +70.986 21 +71.547! 22 +72.511 23 +72.683 24 + 7 2 .- 54 3 . Drybulb temperature in degrees F channel temp. channel temp. channel- temp-. 1 +76.517 2 +76.610 3 +76.614 ! I 4 +76.820 5 +70.986 i Relative humidity in percent ') channel %RH channel %RH channel %RH 1 +37.961 2 +39.438 3- +39.420, , 4 +39.177 5 +48.021 l l AVERAGE TEMPERATURE = +76.002 DEG. F i l AVERAGE PRE 6SURE' = +68.616- PSIA AVG VAPOR PRESSURE = +0'.1755 PSIA MASS =-+6A5235.06' LBM
.-. . .. . .- = - - . - ~ . .
k V. C. Summer 1, INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : -70 1 TIME : 16: 15~ -
~
Pressure Instruments in PSIA i channel pressure channel pressure I 1 +68.5881 2 +68.6161 , i RTDs in degrees F i channel temp. channel temp. channel temp. 1 i l 1 +76.222 2 +76.440 3 +76.494 i 4 +76.351 5 +71.918 6 +76.599 7 +77.092 8 +76.603 9 +75.953 10 +76.906 11 +78.621 12 +75.855 13 +77.081 14 +76.435 15 +75.344 16 +76.474 .17 +76.168 18 +77.276 19 +76.832 20 +70.995 21 +71.547 22 +72.511 23 +72.694 24 +72.554 l
)
Drybulb temperature in degrees F
]' channel temp.
channel temp, channel'
; temp.
1 +76.494 2 +76.599 3 +76.603 4 +76.832 5 +70.995 Relative humidity in percent l 1 +38.005 2 +39.469' 3 +39.456 I 4 +39.215 5 +48.077 i
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - . . . - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - .i AVERAGE TEMPERATURE = +75.988 DEG. F-AVERAGE PRESSURE = +68.615 PSIA AVG VAPOR PRESSURE =- +0.1756 PSIA MASS = +655235.31' LBM 'i i \
d q- -+v -- - e - , , - - - - + ,
' V ~. C. Summer-1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 s TIME : 16: 30 Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5867 2 +68.6146 RTDs in degrees F channel temp. channel temp. channel temp. ; 1 +76.191 2 +76.440 3 +76.494 4 +76.351 5 +71.930 6 +76.599 7 +77.167 8 +76.591 9 +75.962 i 10 +76.906 11 +78.633 12 +75.844 13 +77.124 14 +76.447 15 +75.366 , 16 +76.494 17 +76.168 18 +77.264 19 +76.832 20 +70.995 21- +71.558 22 +72.520 23 +72.694 24 +72.563 4 5 Drybulb temperature in degrees F channel temp. channel temp. channel' temp. 1 +76.494 2 +76.599 3 +76.591 4 +76.832 5 +70.995 Relative humidity in percent j channel P.RH channel P.RH channel S.RH
\
1 +38.024 2 .+39.481 3 +39.487 ) 4 +39.227 5 +48.079 1 AVERAGE TEMPERATURE = +75.991 DEG. F? -1 AVERAGE PRESSURE- = +68.613 . PSIA i AVG VAPOR PRESSURE = +0.1756 PSIA l MASS = +655217.63- LBM-l 1
.j u 1 6
l 1 i V.C. Summer 1: . l INTEGRATED LEAK RATE TEST -TEST MODE : TEST l DATA POINT
SUMMARY
SHEET DATE : 70 I TIME : 16:45 l k Pressure Instruments in PSIA : _________________________________________________________________ j channel pressure channel pressure i _______ ________ _______ ________ t 1 +68.5850 2 +68.6129 I I RTDs in degrees F l channel temp. channel temp. channel temp.
~
1 +76.179 2 +76.408 3 +76.474 4 +76.339 5 +71.950 6 +76.610 7 +77.069 8 +76.591 9 +75.953 ! l 10 +76.895 11 +78.621 12 . +75.833 l 13 +77.058 14 +76.435 15 +75.355 16 +76.517 17 +76.159 18 +77.287 19 +76.820 20 +70.995 21 +71.558 22 +72.531 23 +72.706 24 +72.574 Drybulb temperature in degrees F channel temp. channel temp. channel temp. /~3, t 1 +76.474 2 +76.610 31 +76.591 4 +76.820 5 +70.995 i Relative humidity in percent channel %RH channel %RH' channel %RH 1 +38.067 2 +39.508 3 +39.518 4 +39.258 5 +48.148 _________________________________________________________________ r AVERAGE. TEMPERATURE-= .+ 75.976 DEG. F-AVERAGE PRESSURE = +68.611 PSIA '
' AVG VAPOR PRESSURE = +0.1758 PSIA-MASS = +655218.06' LBM : ) ? 'n F
3 I
, ~ -we, w-
V. C. Summer 1-INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 , TIME : 17:00 d Pressure Instruments in PSIA i channel pressure channel pressure
.i 1 +68.5830 2 +68.6110 [
RTDs in degrees F ' channel temp. channel temp. channel temp. ; 1 +76.179 2 +76.397 3 +76.474 4 +76.328 5 +71.973 6 +75.630-7 +77.081 8 +76.591 9 . +75.930 < i 10 +76.875 11 +78.610 12 +75.844 i 13 +77.058. 14 +76.447 15 +75.355 16 +76.537 17 +76.159 18 +77.298 19 +76.820 20 +71.006 21 +71.563-22 +72.536 23 +72.710 24 +72.568' ; Drybulb temperature in degrees F I channel temp. channel temp. channel temp. - 1 +76.474 2 +76.630 3 +76.591 4 +76.820 5 +71.006 Relative humidity in percent channel %RH channel %RH- channel %RH 1 +38.085 2 +39.562 3- +39.529- . 4 +39.276 5 -+48.146 _____.________________________.____________________________ _______ { AVERAGE = TEMPERATURE = +75.975' DEG. F AVERAGE PRESSURE .= '+68.609 PSIA AVG VAPOR PRESSURE =- +0.1759 PSIA MASS = +655199.94 LBM i ( i, e.
V. C . Summer'l , INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 i s-
. TIME : 17:15 Pressure Instruments in PSIA .
channel pressure channel pressure .; 1 +68.5808 2 +68.6086
- RTDs in degrees F channel temp. chennel temp. channel temp.
1 +76.148 2 +76.374 3 +76.451 4 +76.328 5 +71.973 6 '+76.576 l 7 +77.135 8 +76.582 9 +75.941 10 +76.875 11 +78.601 12 +75.844 > 13 +77.069 14 +76.413 15 +75.355 , 16 +76.537 17 +76.159 18 +77.287 19 +76.809 20 +71.029 21 +71 .567 ' 22 +72.543 23 +72.715 24 +72.586 . l i' Drybulb temperature in degrees F
--__-----_-_-----------_----------------------------------------_ l -1 channel temp. channel temp. channel temp. q
( . 1 +76.451 2 +76.576 3 +76.582 4 +76.809 -5 +71.029 1 Relative humidity in percent i channel %RH channel %RH channel %RH-1 +38.130 2 +39.618 3 +39.565: 4 +39.301 5 +48.172 AVERAGE TEMPERATURE =. +75'966 . DEG. F' I AVERAGE PRESSURE =- +68.607- PSIA l AVG VAPOR PRESSURE = +0'.1760 PSIA MASS = +655187.56' LBM [ * .
.1 y . , , - .. ._ ,a.. - .e.. s a ' '
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : . T E S T- , DATA POINT'
SUMMARY
SHEET DATE : 70 ; TIME : 17:30 t t (_ - Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5787 2 +68.6065 RTDs in degrees F channel temp. channel temp. channel temp. - 1 +76.136- 2 +76.365 3 +76.428 4 +76.285 5 +71.984 6 +76.522 7 +77.058 8 +76.560 9 +75.907 !! 10 +76.841 11 +78.590 12 +75.821 . 13 +77.058 14 +76.413 15 +75.334 ? 16 +76.537 17 +76.159 18 +77.264 . 19 +76.809 20 +71.040 21 +71.572 22 +72.547 23 +72.731 24 +72.590 , f Drybulb temperature-in degrees F ! channel temp. channel temp. channel temp. _______ _____ _______ _____ _______ _____ r 1 +76.428 2 +76.522 3 +76.560 > 4 +76.809 5 +71.040 ! Relative humidity in percent l channel %RH channel %RH channel- %RH ! 1 +38.157 2 +39.563 3 +39.603 4 +39.324 5 +48.158-6 AVERAGE TEMPERATURE = +75.946 DEG..F , AVERAGE PRESSURE = - +68.605 PSIA
' AVG VAPOR PRESSURE = +0.1759 PSIA MASS =-+655192.88 LBM.
4
l i 1 , V. C.-Summer 1-l INTEGRATED LEAK RATE TEST TEST MODE : TEST l DATA POINT
SUMMARY
SHEET DATE : 70
,_s TIME : 17:45
( i
\
l Pressure Instruments in PSIA channel pressure channel pressure , 1 +68.5771 2 +68.6051 RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.148 2 +76.365 3 +76.419 4 +76.285 5 +71.973 6 +76.565 , 7 +76.995 8 +76.548 9 +75.907 i 10 +76.052 11 +78.567 12 +75.801 13 +77.038 14 +76.401 15 +75.334 16 +76.528 17 +76.148 18 +77.264
'9 . +76.798 20 +71.040 21 +71.579 22 +72.554 23 +72.737 24 +72.597 >
Drybulb temperature in degrees F channel temp. channel temp. channel temp. ( _______ _____ ____-__ _____ _______ _____ 1 +76.419 2 +76.565- 3 +76.548 ; 4 +76.798 5 +71.040 l 1 i Relative humidity in percent I channel tRH channel %RH channel %RH 1 +38.100 2 +39.590 .3 +39.622' 4 +39.343 5 +48.181 i 1 AVERAGE TEMPERATURE = +75.943 DEG. F -3 AVERAGE PRESSURE = +68.604 PSIA ; AVG VAPOR PRESSURE = +0.1760 . PSIA l MASS = +655181.94 L8M i I
V.-C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : . TEST l DATA POINT
SUMMARY
SHEET DATE : 70 TIME- : 18:00 Pressure Instruments in PSIA channel pressure channel pressure . 1 +68.5757 2 +68.6035 i RTDs in degrees F ! channel temp. channel temp. channel temp. - 1 +76.125 2 +76.331 3 +76.419 4 +76.285 5 +71.984 6 +76.576 7 +76.852 8 +76.548 9 +75.930 10 +76.841 11 +78.567 12 +75.790 13 +77.038 14 +76.392 15 +75.344 , 16 +76.54C 17 +76.148 18 + 7 7 .'2 6 4 , 19 +76.809 20 +71.060 21 +71.579 22 +72.563 23 +72.737 24 +12.608 i Drybulb temperature in degrees F channel temp. channel temp. channel temp. ft -t _______ _____ _______ _ _ _ _ _ _ _______ _____- 1 +76.419 2 +76.576 3 +76.548 4 +76.809 5 +71.060 ! Relative humidity in percent I channel %RH channel %RH channel tRH ,
.j 1 +38.200 2 +39.630 3 +39.641^ j 4 +39.371 5 +48.236 a ?
I AVERAGE TEMPERATURE = +75.934 DEG. F -; AVERAGE- PRESSURE' = +68.602. PSIA ' AVG VAPOR PRESSURE- = +021761' PSIA MASS = +655176.63 LBM - i O- - 1
I V .. C. Summer 1
- INTEGRATED LEAK RATE TEST- TEST MODE : -TEST DATA POINT
SUMMARY
SHEET DATE : 70 l TIME : 18:15
- Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5744 2 +68.6023 RTDs in degrees F channel temp. channel temp. channel temp.
1 +76.116 2 +76.322 3 +76.397 4 +76.242 5 +71.993 6 +76.544 l 7 +76.995~ 8 +76.528' 9 +75.898 ! 10 +76.832 11 +78.567 12 +75.790 13 +76.983 14 +76.392 15- +75.334 > 16 +76.548 17- +76.136 - 18; +77.264-19 +76.798 20 +71.083 21 +71.583 , 22 +72.559 23 +72.742- 24 +72.602 ] Drybulb temperature in degrees F channel channel temp. O temp. channel temp. 1 +76.397 2 +76.544 3 +76.528 ; 4 +76.798 5 +71.093 Relative humidity in percent , channel %RH channel %RH channel -%RH , __-____ ___-_ _-_____ _____ ^ --_-___ .---__ l 1 +38.226 2 1+39.694 3 +39.661 4 +39.395 5 +48.279 _______-__-__________---____-____--______________________________ \ i l l AVERAGE TEMPERATURE = +75.923 DEG. F AVERAGE PRESSURE = +68.601 PSIA l AVG VAPOR PRESSURE = +0.1762 PSIA. I MASS = +655177.94 LBM- -r / i
..m._.
V. C. Summer 1 INTEGRATED LEA'K RATE TEST TEST MODE : TEST DATA' POINT
SUMMARY
SHEET DATE : 70 TIME : 18:30 Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5731 2 +68.6011 RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.093 2 +76 311 3 +76.374 4 +76.253 5 +72.004 6 +76.458 7 +77.058 8 +76.528 9 +75.876 10 +76.820 11 +78.546 12 +75.756 13 +76.995 14 +76.392 15 +75.334 16 +76.560 17 +76.136 18 +77.276 19 +76.798 20 +71.083 21 +71.613 22 +72.574 23 +72.760. 24 +72.629 Drybulb temperature in degrees F channel temp. channel temp. channel temp. 1 +76.374 2 +76.458 3 +76.528 4 +76.798 5 +71.083 Relative humidity in percent channel %RH channel %RH channel %RH 1 +38.253 2 +39.713 3 +39.683. 4 +39.423 5 +48.295 4 AVERAGE TEMPERATURE = +75.917 'DEG. F , AVERAGE PRESSURE' = +68.600 PSIA AVG. VAPOR PRESSURE = = +0.1762.- PSIA MASS = +655173.50 LBM n Y
. -. -, . . - . ._ ~ - _ -V.C. Summer 1 . INTEGRATED LEAK RATE TEST TEST MODE : TEST ,
DATA-POINT'
SUMMARY
SHEET DATE : 70 TIME' : 18:45 j
.Ls -
l Pressure Instruments in PSIA c ha n'ne l . pressure channel pressure 1 +68.5718 2 +68.5998 i [i RTDs in degrees F l channel temp, channel temp. channel temp. 1 +76.093 2 +76.331 3 +76.374 4 +76.242 5 +72.016 6 +76.501 8 +76.517 i 7 +77.004 9- +75.876 10 +76.809 11 +78.556 12 +75.756 13 +76.983 14 +76.358 15 +75.334 16 +76.548 17 +76.136 18 +77.244 .! 19 +76.798 20 +71.103 7' +71.633 22 +72.586. 23 +72.769 24 +72.640 4 i Orybulb temperature in degrees F ., channel temp, channel ~ temp. channel ..t e m p . J 1 +76.374 2 +76.501 3 +76.517 4 +76.798 5 +71.103 ; i Relative humidity in per' cent 1 channel %RH channel %RH channel %RH~ j 1 +38.276 2 +39.695 3. +39.716 i 4 +39.448 5 +48.334 AVERAGE TEMPERATURE = +75.916 .DEG. F AVERAGE PRESSURE = +68.598. PSIA. AVG' VAPOR PRESSURE = +0.1763 PSIA ; MASS = +655160.56 L8M ' d l q I
'I a
_ , - 4
+ q V .~. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST ' DATA. POINT
SUMMARY
SHEET DATE : 70 TIME . 19:00 - [ Y a i Pressure Instruments in PSIA channel pressure channel. pressure i 1 +68.5707 2 +68.5987 h RTDs in degrees F : _________________________________________________________________ i channel temp. channel temp. channel temp. 1 +76.093 2 +76.299 3 +76'.354 4 +76.242 5 +72.038 6 +76.512 l 7 +76.906 8 +76.517 9 +75'.887- ! 10 +76.820 11 +78.535 12 +75.778 ' 13 +77.026 14 +
.76.401 15 +75.344 16 +76.537- 17 +76.136 18 +77 221 19 +76 789 20 +71.115 21 +71.660 22 +72.602 23 +72.774- 24 +72.656 -
l a Drybulb temperature in degrees F ) [ channel temp. channel temp. channel temp.
-]
1 +76.354 2 +76.512 3- +76.517-4 +76.789 5 +71.115 , Relative humidity.in percent
. ___________________-____..________________________________________ J channel %RH channel' %RH. channel %RH H 1 +38.313 2 +39.761 3 +39 750 l 4 +39.477 5 +48.331 1 -l AVERAGE TEMPERATURE = +75.912 DEG. F j AVERAGE PRESSURE = +68.597 PSIA -AVG VAPOR PRESSURE ~ = +0.1764 PSIA MASS = +655154.50- LBM ?I 'i ~ 4 1
i i l I l I
i V. C.~ Summer l' II4TEGRATED LEAK RATE TEST TEST' MODE : TEST 'I DATA POINT
SUMMARY
SHEET 70 DATE : TIME : 19:15 ,
./
Pressure Instruments in PSIA , channel channel . pressure pressure 1 +68.5694 2 +68.5974 i RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.071 2 +76.277 .3 +76.342 4 '+76.219 5 +72.047 6 +76.413 7 +76.949 8 +76 517 9 +75'.876 10 +76.809 11 +78.524 12 +75.767 13 +76.972 14 +76.413 15 +75.334 16 +76.537- 17 +76.136 18 '+77.244 19 +76.777 20 +71.137 21 +71.699 22
+72.629 23 +72.792 24 +72.672 Drybulb temperature in degrees'F channel temp. channel temp. channel temp. -( _______ _____ . _______ _____ _______ _____
1 +76.342 2 +76.413 '3 +76.517 1 4 +76.777 5 +71.137 .l Relative humidity in pe.' cent i
-________________________________ _ ________ ________~__________ l channel %RH channel tRH channel tRH 1 +38.344 2 +39.790 :3 +39.773 4 +39.498 5 ~+ 48.344 ll AVERAGE TEMPERATURE = +75.900 DEG. F AVERAGE PRESSURE = +68.596 . PSIA AVG VAPOR PRESSURE = +0.1764- PSIA ,
MASS = +655156.19. LBM .) i a-x -
V. C. Summer 1
--INTEGRATED LEAK RATE-TEST TEST MODE ~ : TEST ' DATA POINT
SUMMARY
SHEET- DATE : 70 TIME : 19:30 Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5678 2 +68.5959 RTDs in degrees F l _________________________________________________________________ i channel temp. channel temp. channel temp. 1 +76.066 2 +76.263 3 +76.338-4 +76.206 5 +72.077 6 +76.463 7 +76.999 8 +76.512 9 +75.860 10 +76.793 11 +78.519 12 +75.742 13 +76.956 14 +76.408 15 +75.339 16 +76.533 17 +76.143 18 +77.251-19 +76.773 20 +71.164 21 +71.710 22 +72.660 23 +72.792 24 +72.694 Drybulb temperature in degrees F [" channel temp. channel temp. ' channel . temp. 1 +76.338 2 +76.463 3 +76.512 i 4 +76.773- 5 +71.164 Relative humidity in percent
} . channel channel %RH %RH channel %RH 1 'l +38.375 2 +39.864 3' +39.792 4 +39.528 5 +48.318 :
i 1 l
) -AVERAGE TEMPERATURE = +75.899 DEG. F )
AVERAGE PRESSURE = +68.594 PSIA H AVG VAPOR PRESSURE = +0.1766 PSIA MASS = +655141.25 LOM l~ : , l l 1
~l ]
V. C. Summer 1 INTEGRATED LE9:; RATE TEST TEST MODE : TEST j DATA POINT
SUMMARY
SHEET DATE : 70 j-s-TIME - 19:45
.6 pressure Instruments in PSIA channel pressure channel pressure ,
1 +68.5665 2 .+ 68.5946 i RTDs in degrees F ' channel temp. channel temp. channel temp. 1 +76.046 2 +76.252 3 +76.317 4 +76.194 5 +72.054 6 +76.497 7 +77.011 8 +76.501 9 +75.839 10 +76.793 11 +78.531 12 +75.742 ' 13 +76.956 14 +76.397 15 +75.339 16 +76.544 17 +76.132 18 +77.239 19 +76.784 20 +71.196 21 +71.719 22 +72.672 23 +72.803 24 +72.715 Drybulb temperature in degrees F
-%/( ) channel temp.
channel temp. channel temp. 1 +76.317 2 +76.497 3 +76.501 4 +76.784 5 +71.196 Relative humidity in percent channel %RH channel %RH channel %RH. 1 +38.419 2 +39.911 3 +39.817
- 4 +39.537 5 +48.342 AVERAGE TEMPERATURE = +75.893 DEG. F AVERAGE PRESSURE = +68.593 PSIA AVG VAPOR PRESSURE = +0.1767 PSIA MASS = +655134.56 LBM. .
~s 4
V . C '. Summer l'- INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 ~ TIME : 20:00 pressure Instruments in PSIA channel pressure channel pressure , 1 +68.5654 2 +68.5934 RTDs in degrees F -i channel temp. channel temp. channel temp. 1 +76.057 2 +76.263 3 +76.317 ' 4 +76.206 5 +72.077 6 +76.474 7 +77.033 8 . +76.501 9 +75.871 10 +76.793 11 +78.519 12 +75.708 13 +76.979 14 +76.408 15 +75.362 - 16 +76.567 17 +76.143 18 +77.260 i 19 +76.793 20 +71.230 21 +71.742 22 +72.683 23 +72.803 24 +72;737 i l Drybulb temperature in degrees F 4 channel temp. channel temp. channel- . temp. I
.]
1 +76.317 2 +76.474 3 +76.501. 1 4 +76.793 5 +71.230 l Relative humidity in percent channel %RH channel %RH channel- %RH 1 +38.446. ;2 . +39.867 3 .+39.844 4 +39.563 5 +48.363
'i AVERAGE TEMPERATURE = +75.901 DEG. F AVERAGE PRESSURE = +68.592 PSIA ..
AVG VAPOR PRESSURE = +0.1768. PSIA MASS = +655112.25 LBM l j
V C '. Summer.1 INTEGRATED' LEAK RATE TEST TEST MODE :' TEST- ! DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 20:15 0_ V Pressure Instruments in PSIA channel pressure channel- pressure 1 +68.5645 2 +68.5925 RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.057 -2 +76.240 3 .+76;306 4 +76.172 5 +72.088 6 +76.463 7 +76.990 8 +76.478 9 +75~.860 10 +76.793 11 +78.519 12 +75.719-13 +76.956 14 +76.442 15 +75.350 16 +76.567 17 +76.143 18 +77.271 19 +76.784 20 +71.241 21 +71.764 22 +72.694 23 +72.812 24 +72.760 Drybulb temperature in degrees F channel- temp. channel temp. channel temp. 1 +76.306 2 +76.463 -3 +76.478 4 .+76.784 5 +71.241 Relative humidity in percent
' r channel %RH channel %RH channel %RH !
1 +38.490 2 +39.932 3 +39.895 4 +39.594 5 +48.402 , AVERAGE TEMPERATURE = +75.891 DEG.. F. > AVERAGE PRESSURE =- +68.591 PSIA + AVG VAPOR PRESSURE = +0.1770 PSIA , MASS = +655114.38 LBM i 5 5 P i
.c 1
. .~ - -.
l V.~C.: Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70 s - TIME - 20:30 F l Pressure Instruments in PSIA )
- l channel pressure channel pressure
------- ----_--- ------ __------ 1 1 +68.5628 2 +68.5909 1
RTDs in degrees F channel temp. channel temp. channel temp. 1 +76.016 2 +76.222 3 +76.288 4 +76.176 5 +72.113 6 +76.'413 7 +76-.949 8 +76.474 9 +75.844 10 +76.766 11 +78.501 12 +75.724 13 +76.983 14 +76.467 15 +75~.344 16 +76.571 17 +76.093 18 +77.298 19 +76.777 20 +71.255 21 +71.764-22 +72.715 23 +72.823' 24 +72.769-orybulb temperature in degrees F 3 channel temp. channel temp. channel: temp. 1 +76.288 '2 +76'.413 3 +76.474 ,! 4 +76.777 5 +71.255 i Relative humidity in percent channel ?RH 4 channe1 -%RH channel feRH 1 +38.539 2 +40.039 3 +39.942 4 +39.618 S +48.423 AVERAGE TEMPERATURE = +75.881 DEG. F AVERAGE PRESSURE = +68.5891 ' PSIA AVG VAPOR PRESSURE =
+ 0 .17 71_. PSIA ;
MASS = +655110.44 LBM-1
?
4
'V.'C.' Summer 1 s INTEGRATED LEAK RATE TEST TEST MODE : TEST :
DATA POINT
SUMMARY
SHEET DATE : 70
. TIME : 20: 45 O.
..M-Pressure Instrun.ents 'in PSI A l channel pressure channel pressure , 1 +68.5615 2 +68.5895 -i i RTDs in degrees F channel temp. channel temp. channel temp. 1 +75.996 2 +76.202 3 +76.277 ; 4 +76.156 5 +72.113 6 +76.447 7 +76.995 8 +76.462 9 +75.821 10 +76.777 11 +78.481 12 +75.713. ' 13 +76.949 14 +76.501 15 +75.334 ' 16 +76.571 17 +76.071 18 +77.298 '
.' A 19 +76.777 20 +71.278 21 +71.766 22 +72.710 23 +72.839 24- +72.785 i
Drybulb temperature in degrees F
/'~ channel temp. channel temp. channel temp.
( ____ __ _____ _______ ____ _ ___ . _____ 1 +76.277 2 +76.447- 3 +76~.462 l l 4 +76.777 5 +71.278 i
'l Relative humidity in percent I
_________________________________________________________________ i channel %RH channel %RH . channel %RH 1 +38.587 2 +40.029- 3 +39.997. 4 +39.660 5 +48.506 AVERAGE TEMPERATURE = +75.873 DEG. F AVERAGE PRESSURE = +68.588 . PSIA -l AVG VAPOR PRESSURE = +0.1773 PSIA l MASS = +655104.81 LBM l
- l 2
,. .. - 1 i
'V~. - C..SummerL1 INTEGRATED-LEAK RATE TEST TEST MODE : TEST DATA. POINT
SUMMARY
SHEET- DATE : 70 TIME : 21:00 . f
-( ;
Pressure Instruments in PSIA channel pressure channel pressure _______ ________ _______ ________ .i 1 +68.5600 2 +68.5880 ' t RTDs in degrees F channel temp. channel temp. channel temp. 1 +75.996 2 +76.202. 3 +76.256 4 +76.145 5 +72.136 6 +76.404 7- +76.929 8 +76.462 9- +75.844 10 +76.766 11 +78.469 12 +75.701 1 13 +76.929 14 +76.490 15 +75.344 -l 16 +76.582 17 +76.050 18- +77.264 I 19 +76.789 20 +71.309 21 +71.785 22 +72.737 23 +72.866 24 +72.803 Drybulb temperature in degrees F
~
channel- temp. channel temp. . channel temp.
~
1 +76.256 2 +76.404 3 .+76.462 4 +76.789 5 +71.309 . Relative humidity.in percent y channel %RH channel %RH channel %RH 1 +38.625 2 +40.069 3 +40.019. ! 4 +39.686 5 +48.558 ' AVERAGE TEMPERATURE = +75.866 DEG. F
-AVERAGE PRESSURE = +68.586 PSIA AVG VAPOR PRESSURE = +0.1774- PSIA MASS = +655098.19 LBM
m . . . _- _ . ... _ .-_ V. C. Summer 1 l INTEGRATED' LEAK RATE TEST TEST MODE : TEST DATA' POINT _
SUMMARY
SHEET- DATE : 70 TIME : 21:15 [- ,
-Pressure Instruments in PSIA I
channel pressure channel pressure 1 +68.5584 2 +68.5864 t RTDs i n ' degrees F channel temp. channel temp. channel temp. 1 +75.973 2 +76.191 3 +76.245 4 +76.122 5 +72.156 6 +76.338 , 7 +76.875 8 +76.428 9 +75.810 10 +76.743 11 +78.469 12 +75.670 13 +76.906 14 +76.490 15 +75.344' 16 +76.591 17 +76.050 18 +77.244 , 19 +76.766 20 +71.321 21 +71.780 22 v72.753 23 +72.871 24 +72 . 81' r Drybulb temperature in degrees F ./ \ channel- temp. channel temp. channel temp. .( .---_- -_--- _-_____ _ - - - , . ------- --_-- 1 +76.245 2 +76.338 3' +76.428 4 +76.766 5 +71.321 ' Relative humidity in percent channel %RH channel %RH channel %RH-1 +38.657 2 +40.157: 3 +40.055 4 +39.719 5 +48.604 AVERAGE TEMPERATURE = +75.850- DEG-. F-AVERAGE -PRESSURE = +68.585 PSIA AVG VAPOR PRESSURE = +0.1775 PSIA I MASS = +655102.44 LBM I
=- ; \
j r i P
.. . _. . _ _ _ _ _ _~
V '. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE- : 70 TIME : 21:30 Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5564 2 +68.5844 RTDs in degrees F' channel temp. channel temp. channel temp. 1 +75.953 2 +76.179 3 +76.234 4 +76.111 5 +72.167 6 +76.404 7 +76.918 8 +76.440 9 +75.810 10 +76.712 11 +78.447 12 +75.692 13 +76.918 14 +76.490 15 +75.344 16 +76.591 17 +76.039 18 +77.221 19 +76.766 20 +71.343- 21 +71.81'2 22 +72.762 23 +72.882 24 +72.828' Drybulb temperature in' degrees F channel temp. channel temp. channel temp. 1 +76.234 2 +76.404 3 +76.440 4 +76.766 5 +71.343 Relative humidity in percent channel %RH channel %RH channel %RH 1 +38.700 2 .+40.146 -3 +40.087 4 +39.748 5 +48.588 AVERAGE TEMPERATURE = +75.848 DEG. F AVERAGE PRESSURE = +68.583 PSIA AVG VAPOR PRESSURE = +0.1777 PSIA-MASS = +655083.88 LBM r
- m. . . . . -- _ . ~ - - _ . - . _ . . . . . - . . . . . .
}
V. C.' Summer'l INTEGRATED LEAK RATE TEST TEST' MODE :' TEST ,,
- DATA' POINT
SUMMARY
-SHEET DATE : 70: TIME : 21:45 C Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5543 2 + 68' . 5824 RTDs in degrees F , channel temp. channel temp. channel . temp. . i 1 +75.953 2- +76.148 3 +76.222 4 +76.111 5 +72.179 6 +76.370 6 7 +76.863 8 +76.428 9 +75.801' 10 +76.723 11 +78.447' 12' +75.638~ ; 13 +76.895 14 +76.478 15 +75.344. - 16 +76.603 17 +76.027 18 .+77.210 19 +76.766 20 +71.364 21 - + 7 1 . 8 1 6' . 22 +72.781 23 +72.900 24- +72.046 i Drybulb temperature in degrees F ; channel . temp. channel temp. channel temp', 1 +76.222 2 +76~.370 3 -+76.428 : 4 +76.766 5 +71.364 Relative humidity in percent : channel' %RH channel %RH channel- '%RH 1 +38.725 2 +40.232 3 +40.118 4 +39.789 5 +48.603 i AVERAGE TEMPERATURE = +75.838' DEG. F-AVERAGE- PRESSURE = -+68.581 PSIA. AVG VAPOR PRESSURE = +0.1778 PSIA MASS ' =~+655074.81 LBM s. I
. 1-k 5 '.f.
V. C.' Summer 1-INTEGRATED LEAK RATE TEST TEST: MODE.: TEST DATA POINT
SUMMARY
SHEET DATE : 70-TIME : 22:00 t A
-~
Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5524 2 +68.5805-L RTDs in degrees F channel temp. channel temp. channel temp. 1 +75.919 2 +76.136 3 +76.213 4 +
.76.079 5 +72.179 6 +76.315 7- +76.820 8 +76.419 9 +7 5'. 767 '
10 +76.712 11 +78.426- 12 +75.658 13 +76.886 14 +76.456 15 +75.355: 16 +76.591 17 +76.027 18 +77.201 19 +76.743 20 +71.375 21 +71.812 22 +72.785 23 +72.905 24 +72.851 Drybulb temperature in-degrees F
- .- channel temp. channel temp. channel. . temp.
1 +76.213 2 +76.315 3 +76.419. 4 +76.743 5 +71.375 l Relative humidity in percent channel %RH channel %RH channel %RH 1 +38.779 2 +40.207 3 +40.160: 4 +39.816 5 +48.635 i AVERAGE TEMPERATURE =
+75.822. DEG. F AVERAGE PRESSURE = +68'.579 PSIA AVG VAPOR PRESSURE = +0.1778- PSIA -!
MASS --= +655076.31 LBM l
.)
I I
-1 -l
. ~ ~ . .. . . . - - _. - ..
4 V. C Summer l'-
- INTEGRATED LEAK' RATE TEST TEST MODE : TEST-DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 22il5 i Pressure Instruments in PSIA channel pressure channel pressure. 1 +68.5507 2 .+68.5789 - RTDs in degrees F channel ' temp. channel temp. channel . temp. ; 1 +75.892 2 +76.118 3 +76.184- , 4 t?6.061 5 +
'72.172 6 +76;309 7 +76.782 8 +76.390 9 +75.783.. .
H 10 +76.705 11 +78.420 12 +75.642 13 +76 879 . 14 +76.472 15- +75.339-16 +76.585 17 +76.012 18 +77.160' 19 +76.739 20 +71.379 21 +71,832. 22 +7.2.785 23 +72.914 24 +72.871 , -j
- l Drybulb temperature in degrees F I
=
channel temp. channel temp. channel temp. s 1 +76.184 2 +76.309 3 +76.390 j
~i 4 +76.739 5 +71.379 Pelative humidity in-percent channel %RH' channel %RH channel. tRH' 1 +38.807 2 +40.267 3 +40.212 4 +39.829 5 +48.658 AVERAGE TEMPERATURE = +75.807 DEG. F AVERAGE PRESSURE = +68.577. PSIA AVG VAPOR PRESSURE = +0.1779 PSIA 4 =I MASS =-+655078.13 .LBM-- * *t e
-V. C. Summer 1 , -INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE : 70-TIME : 22:30^ . d
.f~
s t, Pressure Instruments in PSIA channel pressure channel pressure :
- 1. +68.5492 2 +68.5773 l
RTDs in degrees F - m channel temp. channel temp. channel- temp. 1 +75.892 2 +76.109 3 +76.163-4 +76.052 5 +72.194 6 +76.299. 7 -+76.911 8 +76.390 9 +75.760-10 +76.684 11 +78.408 12 +75.642-H 1 13 +76.868 14 +76.483 15 +75.339 i I 16 +76.585 17 +76.000 18 +77.151 1 19 +76.739 20 +71.391 21 :+71.832 1 22 +72.785 23 +72.914 24 .+72.871 Drybulb temperature in degrees F l
s channel temp. channel temp, channel temp.
1 +76 163 2 +76.299 3' +76.390 ; 4 +76.739 5 +71.391 Relative humidity in percent channel %RH channel- %RH . channe 1 .%RH 1 +38.850 2 +40.307 3 L+40.235- u 4 +39.869 5 +48.730 l l AVERAGE TEMPERATURE = +75.804 DEG F ,) AVERAGE PRESSURE =' +68.576' PSIA l AVG VAPOR PRESSURE = +0.1780~ PSIA L MASS = +655065.56- LBM 9 S_/- :
V. C. Summer 1
. INTEGRATED LEAK RATE TEST TEST MODE . TEST DATA POINT
SUMMARY
SHEET DATE : 70 ; TIME- : 22: 45 Pr' essure Instruments in PSIA channel pressure channel pressure ' 1 +68.5479 2 +68.5760 RTDs in-degrees F channel temp. channel temp. channel temp. 1 +75.876 2 +76.104 3 +76.159 4 +76.036 5 +72.210 6 +76.315 7 +76.755 8 +76.397 9 +75.767 10 +76.700 11 +78.415 12 +75.627 13 +76.875 14 +76.456 15 +75.344 16 +76.591 17 +76.007 18 +77.155 - 19 +76.743 20 +71.407 21 +71.850 ; 22 +72.812 23 +72.932 24 +72.889 l 1 Drybulb temperature in degrees F channel temp. channel temp. channel temp. (')h. g _______ __--_ _--____ _____ _______ _____ g 1 +76.159 2 +76.315 3 +76.397 ,) 4 +76.743 5 +71.407 .l 1 l Relative humidity in percent ' channel %RH channel %RH channel %RH 1 +38.876 2 +40.347 3 .+40.269 4 +39.899 5 +48.741 I AVERAGE TEMPERATURE = +75.798 DEG. F l l AVERAGE PRESSURE = +68.574 PSIA ; AVG VAPOR PRESSURE = +0.1781 PSIA ) MASS = +655059.63 LBM i i O\ kJ
Reactor Containment Building . Final Report integrated Leakage Rate Test V. C. Summer Nuclear Station . ,Eg .L,)
\
T APPENDIX D VERIFICATION TEST DATA AND PLOTS
)
l l
,n-
I i
>~x R A ,yRIFICATION MODE TIME: 0300 OPTIONS: TEST
SUMMARY
1 - MANUAL DATA ENTRY # OF DATA POINTS = 17 2 - PARAMETER GRAPHS MODE DURATION (IN. HOURS) = 4.00 q 3 - SENSOR PLOTS TOT TIME MEASURED LEAK = 0.3199 l 4 - TREND ANALYSIS TOT TIME CALCULATED LEAK = 0.3168 I 5 - REPRINT CURRENT DATA PT MASS PT LEAK': 0.3194 6 - SENSOR DIFFERENTIALS IMPOSED LEAK = 0.1956 TOT TIME UPPER LIMIT = 0.3785 P. PASS WORD MENU TOT TIME LOWER. LIMIT = 0.2785 , MASS PT UPPER LIMIT = 0.3733 ! SELECTED OPTION = MASS PT LOWER LIMIT = 0.2733 ) TOT TIME VERIFICATION CRITERIA HAS BEEN MET MASS PT VERIFICATION CRITERIA HAS BEEN MET' POINT
SUMMARY
- CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG 7EMP: 75.638/ -0.006 AVG PRESS: 68.337 / -0.004 MASS: 654688.44/ -28.438 AVG DEW PRESS: 0.1799/ +0.0001 TOTAL PRESS: 68.517 / -0.004 D
() 0) \,
I i l VERF MODE V. C. Summer UNIT 1 Page 1 l LEAKAGE RATE
SUMMARY
UNIT 1 TOTAL TIME MASS / POINT DATE TIME TTLM LMCALC SL LAM L95 70 0.00 0.0000 0.0000 0.0000 0.0000 0.0000 70 0.25 0.3586 0.0000 0.0000 0.0000 0.0000 70 0.50 0.2097 0.2097 0.0000 0.2101 0.9409 70 0.75 0.2745 0.2389 1.0840 0.2535 0.3876 71 1.00 0.2962 'O.2664 0.6314 0.2831 0.3576 71 1.25 0.3043 0.2842 0.5250 0.2998 0.3482 71 1.50 0.2886 0.2854 0.4668 0.2961 0.3287 0.2957 0.2895 0.2980 71 1.75 0.4384 0.3216 71 2.00 0.2988 0.2934 0.4214 0.3005 0.3185 y 71 2.25 0.3004 0.2965 0.4098 0.3024 0.3167 71 2.50 0.2969 0.2974 0.3996 0.3019 0.3134 71 2.75 0.3075 0.3014 0.3952 0.3055 0.3159 71 3.00 0.3105 0.3051 0.3923 0.3096 0.3190 71 3.25 0.3107 0.3080 0.3895 0.3119 0.3202 71 0.3169 0.3117 0.3885 0.3153 0.3235 O 71 71 3.50 3.75 4.00 0.3134 0.3199 0.3137 0.3168 0.3865 0.3860 0.3169 0.3194 0.3241 0.3264 j
. . .. .~. . . - . . - --
O VERF MODE V. C. Summer UNIT 1 Page 1 LEAKAGE RATE TREND
SUMMARY
UNIT 1 , i TOTAL TIME MASS POINT DATE TIME TTLM LMCALC CHANGE LAM CHANGE 70 0.25 0.3586 0.0000 0.0000 0.0000 0.0000 l 70 0.50 0.2097 0.2097 0.2097 0.2101 0.2101 70 0.75 0.2745 0.2389 0.0292 0.2535 0.0435 70 1.00 0.2962 0.2664 0.0275 0.2831 0.0296 71 1.25 0.3043 0.2842 0.0178 0.2998 0.0167 71 1.50 0.2886 0.2854 0.0012 0.2961 -0.0037 1 71 1.75 0.2957 0.2895 0.0041 0.2980 0.0019 ' 71 2.00 0.2988 0.2934 0.0038 0.3005 0.0025 71 2.25 0.3004 0.2965 0.0031 0.3024 0.0019 ! 71 2.50 0.2969 0.2974 0.0009 0.3019 -0.0005 ; 71 2.75 0.3075 0.3014 0.0040 0.3055- 0.0036 ! 71 3.00 0.3105 0.3051 0.0038 0.3096 0.0041 l 71 3.25 0.3107 0.3080 0.0028- 0.3119 0.0023 1 71 3.50 0.3169 0.3117 0.0037 0.3153 0.0035 71 'O.3137 0.0020 0.3169 0.0016 O 71 3.75 4.00 0.3134 0.3199 0.3168 0.0030 0.3194 0.0025
.l i
l Page 1 i AVERAGE DATA VALUES DATE TIME RTD DEW PT. VAP PRESS DRY PRESS MASS 70 0.00 75.798 0.000 0.178 68.394 655037.69 70 0.25 75.789 0.000 0.178 68.390 655013.25 ! 70 0.50 75.769 0.000 0.176 68.387 655009.00 70 0.75 75.765 0.000 0.179 68.384 654981.50 71 1.00 75.757 0.000 0.179 68.380 654956.81 71 1.25 75.749 0.000 0.179 68.377 654933.88 # 71 1.50 75.736 0.000 0.179 68.374 654919.50 71 1.75 75.731 0.000 0.179 68.371 654896.38 71 2.00 75.722 0.000 0.179 68.367 654874.56 71 2.25 75.713 0.000 0.179 68.364 654853.19 71 2.50 75.702 0.000 0.179 68.361 654835.06 71 2.75 75.693 0.000 0.179 68.357 654806.81 71 3.00 75.680 0.000 0.180 68.352 654783.38 71 3.25 75.667 0.000 0.180 68.349 654762.13 , 71 3.50 75.659 0.000 0.180 68.345 654734.94 - 71 3.75 75.645 0.000 0.180 68.341' 654716.88 71 4.00 75.638 0.000 0.180 68.337 654688.44 i 1 l O 1
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V. C. Summer 1 ,
" INTEGRATED LEAK RATE TEST TEST-MODE : VERF DATA POINT
SUMMARY
SHEET DATE : 70 i TIME : 23:00 i Pressure Instruments in PSIA q channel pressure channel pressure l 1 +68.5458 2 +68.5738 i
.i i
RTDs in degrees F , channel temp. channel temp. channel. temp. j J 1 +75.898 2 +76.104 3 +76.148 4 +76.036 5 +72.210 6 +76.315 7 +76.832 8 +76.385 9 +75.735 10 +76.680 11 +78.415 12 +75.615 ) 13 +76.863 14 +76.490 15 +75.334 16 +76.591 17 +76.007 18 +77.146 . i 19 +76.723 20 +71.407 21 +71.643- .i 22 +72.828 23 +72.937 24 +72.894 i I f Drybulb temperature in degrees F j channel temp, channel temr. channel; temp. 1 +76.148 2 +76.315 3 +76.385 l I 4 +76.723 5 +71.407 Relative humidity in percent channel %RH channel %RH channel %RH 1 +38.901 2 +40.394 .3 +40.289 4 +39.931 5 +48.772 l AVERAGE TEMPERATURE = +75.798 DEG. F AVERAGE PRESSURE = +68.572 PSIA AVG VAPOR PRESSURE =- +0.1762 PSIA MASS = +655037.69 L8M i O i
' I,
4t. C. Summer'1 . INTEGRATED LEAK RATE TEST TEST MODE : VERF ; DATA POINT
SUMMARY
SHEET DATE. : 70 i TIME : 23:15 i s Pressure Instruments in PSIA i channel pressure channel pressure i 1 +68.5423 2 +68.5703 RTDs in degrees F ; l _________________________________________________________________ l channel temp. channel temp. channel temp. 1 1 +75.855 2 +76.082 3 +76.136 .; 4 +76.036 5 +72.210 6 +76.349 8 +76.374 9 7 +76.789 -+75.778 , 10 +76.657 11 +78.395 12 +75.627 13 +76.863 14 +76.456 15 +75.312 - l 16 +76.603 17 +75.984 18 +77.124 5 19 +76.723 20 +71.429 21 +71.861 1 22 +72.846 23 +72.943 24 +72.909 i 1 Drybulb temperature in degrees F ! O channel channel temp. temp. channel temp. 1 +76.136 2 +76.349 3 +76.374-4 +76.723 5 +71.429 Relative humidity in percent l channel tRH channel F.RH channel %RH 1 +38.949 2 +40.399 3 +40.3141 4 +39.960 5 +48.802
-l AVERAGE TEMPERATURE = +75.789 DEG. F l i
AVERAGE PRESSURE = +68.569- PSIA AVG VAPOR PRESSURE- = +0.1784' PSIA MASS = +655013.25 LBM LI 1 i l I i
)
. . . - . - - -- = - .-
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST. MODE : VERF DATA POINT
SUMMARY
SHEET DATE : 70 , TIME :-23:30 Pressure Instruments in PSIA channel pressure channel pressure-1 +68.5392 2 +68.5675 RTDs in degrees F channel temp. channel temp, channel temp. 1 +75.864 2 +76.050 3 +76.125 4 +76.004 5 +72.222 6 +76.272 7 +76.734 8 +76.365 9 +75.735 10 +76.646 11 +78.372 12 +75.572 13 +76.809- 14 +76.435 15 +75'.312 . i 16 +76.591 17 +75.973 18 +77.112. 19 +76.712 20 +71.429 21 +71.871 i 22 +72.846 23 +72.955 24 +72.921 !
'I Drybulb temperature in degrees F 1
channel temp, channel temp. channel temp. l 1 +76.125 2 +76.272 3 +76.365 4 +76.712 5 +71.429 .; Relative humidity in percent , channel %RH channel %RH channel %RH 1 +38.985 2 +40.453 3 +40.362 4 +39.991 5 +48.830
. AVERAGE TEMPERATURE = +75.769L DEG. E AVERAGE PRESSURE = +68.566 . PSIA AVG VAPOR PRESSURE = +0.1784 -PSIA.
MASS .= +655009.00' LBM'
, _ . . _ , y _.
V. C. Summer 1 INTEGRATED LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE : 70 TIME : 23: 45 Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5359 2 +68.5641 9TDs in degrees F channel temp. channel temp. channel temp. 1 +75.833 2 +76.050 3 +76.104 4 +76.004 5 +72.222 6 +76.284 7 +76.809 8 +76.342 9 +75,724 10 +76.634 11 +78.361 12 +75.561 13 +76.789 14 +76.424 15 +75.300 16 +76.603 17 +75.973 18 +77.112 19 +76.712 20 +71.461 2:1 +71.882 22 +72.857 23 +72.964 24 +72.932 Drybulb temperature in degrees F
'~' channel temp. channel tenp. channel temp.
1 +76.104 2 +76.284 -3 +76.342 4 +76.712 5 +71.461 Relative humidity in percent channel %RH channel %RH channel %RH 1 +39.035 2 +40.473 3 +40.400 a +40.019 5 +48.848: AVERAGE TEMPERATURE = . +75.765 DEG. F AVERAGE PRESSURE = +68.562 PSIA AVG VAPOR PRESSURE = +0.1786 PSIA MASS = +654981.50 LBM ; 4 b v - e
L-l
- , ,5 V. C'. Summer l'
' INTEGRATED LEAK RATE TEST TEST MODE : VERF ,
DATA POINT
SUMMARY
SHEET. DATE : '71 - TIME- : 00:00 Pressure Instruments in PSIA channel pressure channel pressure ; 1 +68.5325 2 +68.5605 ; RTDs in degrees F i channel temp. channel temp. ' channel temp. ; 1 +75.810 -2 +76.039 3 +76.093 4 +76.013 5 +72.233 6 +76.252
~7 +76.734 8 +76.342 9 +75.724 10 +76.634 11 +78.349 12 +75.572 13 +76.798 14 +76.424 15 -+75.323 16 +76.603 17 +75.962 18 +77.069 19 +76.689 20 +71.461 21 +71.875 22 +72.862 23 +72.959 24 . +72.937 Drybulb temperature in degrees F ..- channel temo. channel temp. channel temp.
- w ------- ----- ------- . -- ------- ------ .
1 +76.093 2 +76.252 3 +76.342 4 +76.689 5 +71.461 Relative humidity in percent channel %RH channel %RH channel %RH l 1 +39.083 2 +40.531 3 +40.436'
- 4. +40.041 5 +48.877 i
'i AVERAGE TEMPERATURE = +75.757 DEG. F AVERAGE PRESSURE = +68.-559 PSIA AVG. VAPOR. PRESSURE = '+ 0.1787 PSIA-MASS = '+654956.812 LBM A
X._.)
i V. C. Summer 1 : i It4TEGRATED LEAK RATE TEST TEST MODE : VERF , DATA POINT
SUMMARY
SHEET DATE : 71 TIME : 00:15 - (~ . ! Pressure Instruments in PSIA f channel pressure channel pressure _l 1 +68.5293 2 +68.5573 i RTDs in degrees F .i channel temp. channel temp. channel temp. 1 +75.805 2 +76.034 3 +76.100. 4 +75.966 5 +72.249 6 +76.193 , 7 +76.773 8 +76.349 9 +75'.676 ; 10 +76.621
- 11 +78.345 12 +75.568 13 +76.793 14 +76.431 15 +75.330' '
16 +76.587 17 +75.960 18 +77.065 19 +76.696 20 +71.479 21. +71.893 22 +72.878 23 +72.975 24 +72.955 Drybulb temperature in degrees F channel -temp. channel temp. channel temp. 1 +76.100 2 +76.193 3 +76.349 4 +76.696 5 +71.479 Relative humidity in percent channel %RH channel %RH channel %RH 1 +39.117 2 +40.553 3 +40.469 4 +40.086 5 -+48.927 i J AVERAGE TEMPERATURE = +75.749- DEG. F AVERAGE PRESSURE = +68.556 PSIA AVG VAPOR PRESSURE = +0'.1788. PSIA ' R MASS = +654933.88' LBM: 3 i I i i
;m
channel %RH channel %RH chadnel %RH ~ 1 +39.246 2 +40.667 3 +40.578 4 +40.182 5 +48.969 AVERAGE TEMPERATURE = +75.722 DEG. F AVERAGE PRESSURE. = .+68.547 PSIA AVG VAPOR PRESSURE = +0.1792 PSIA MASS = +654874.56 L8M
V. C. Summer 1 . l INTEGRATED LEAK RATE TEST TEST MODE : 'VERF
' DATA POINT
SUMMARY
SHEET DATE : 71 TIME : 01:15
-- . i i
Pressure Instruments in PSIA I I channel pressure channel pressure 1 +68.5169 2 +68.5446 . RTDs in degrees F channel temp. channel temp. channel . temp. 1 +75.756 2 +75.953 3. +76.039 4 +75.927 5 +72.276 6 +76.207 7 +76.680 8 +76,322 9 +75.670 10 +76.603 11 +78.318 12 +75.529 13 +76.743 14 +76.381 15 +75.300 ' 16 +76.591 17 +75.907 18 +76.995 19 +76.668 20 +71.515 21 +71.914 22 +72.921 23 +73.009 24 +72.986-F Drybulb temperature in degrees F l
' temp. !
channel temp. channel temp. channel r 1 +76.039 2 +76.207 3 +76.322 4 +76.668 5 +71.515
. Relative humidity in percent ----------------------------------------------------------------- 'l channel %RH channel' %RH channel %RH 1 +39.279 2- +40.754 3 +40.618 4 +40.207- 5 +49.043 ;
4
-AVERAGE TEMPERATURE = +75.713 DEG. F:
AVERAGE PRESSURE = +68.543- PSIA- , AVG-VAPOR-PRESSURE- = -+0.1793; PSIA , MASS = +654853.19 LBM , 9 k 3
- V' . : C . Summer'1. -
It4TEGRATED --LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE : 71 TIME : 01:30 b Pressure Instruments in PSIA channel pressure channel pressure 1 +68.5136 2 +68.5414 , i RTDs in degrees F channel tenip . channel temp. channel. temp. 1 +75.751 2. +75.957 3 +76.021 i 4 +75.909 5 +72.292 6 +76.168 7 +76.650 8 +76.315. 9 +75.642 10 +76.576 11 +78.291 12 +75.500 ' 13 +76.759 14 +76.397 15 +75.305 16 +76.576 17 +75.903 18 +76.977 19 +76.673 20 +71.531 21 +71.918 22 +72.914 23 +73.002 24 +72.980 Drybulb temperature in degrees F channel temp. channel temp. channel- temp. 1 +76.021 2 +76.168 3 -+76.315' _ 4 +76.673 5 +71.531 . Relative humidity in percent channel. %RH channel %RH channel' %RH 1 +39.327 2 +40.731 3 +40.631 4 +40.234 5 '+49.051. , AVERAGE-TEMPERATURE = +75.702 DEG.!F '
' AVERAGE PRESSURE = +68.540 PSIA AVG VAPOR PRESSURE- = '+ 0.1794 PSIA MASS =..+654835.06 LBM ,q l
t J
S P V. C. Summer-1 , INTEGRATED LEAK RATE TEST TEST MODE : VERF
' DATA POINT
SUMMARY
SHEET DATE : 71 i TIME : 01:45 .( . Pressure Instruments in PSIA . channel pressure channel pressure 1 +68.5098 2 +68.5373 RTDs in degrees F i Channel temp. channel temp. channel temp.
- 1. +75.717 2 +75.935 3 . +76.000 4 +75.889 5 +72.292 6 +76.213 7 +76.739 8 +76.292 9 +75.663 10 +76.564 11 +78.279 12 +75.491- i 13 +76.748 14 +76.374 15 +75.305 16 +76.576 17 +75.892 18 +76.988 19 +76.650 20 +71.531 21 +71.918 22 +72.925 23 +73.002 24 +73.002 Drybulb temperature in degrees F l channel temp. channel temo. channel temp. I y -_-____ _---- ---___- __--- -____-- .__---
1 +76.000 2 +76.211' 3 +76.292 4 +76.650 5 +71.531 i Relative humidity in percent _------___________________-______________-___________-___________ j channel ~ %RH channel %RH channel ORH~ I 1 +39.366 2 +40.776 3 +40.682 4 +40.273 5 +49.069 i i AVERAGE TEMPERATURE = +75.693 DEG. F. AVERAGE PRESSURE = +68.536 PSIA AVG VAPOR PRESSURE = +0.1795~ PSIA' MASS = +654806.81 LBM
.r----- a v ve2i . .. .+u
.V.:C. Summer'l INTEGRATED LEAK RATE TEST TEST. MODE': VERF DATA POINT
SUMMARY
SHEET- DATE. : 71 TIME : 02:00 , ( i Pressure Instruments in PSIA channel pressure channel pressare ; 1 +68.5058 2 +68.5334 RTDs in degrees F channel temp. channel temp. channel temp. 1 +75.724 2 +75.930 3 +75.996 4 +75.873 5 +72.287 6- +76.175' ! 7 +76.625 8 +76.288 9 +75.649 10 +76.548 11 +78.263 12 +75.452 13 +76.743 14 +76 347 15 +75.289 + 16 +76.57.1 17 +75.887 18 +76.940 , 19 +76.657 20 +71.538 21 +71.918 ! 22 +72.925 23 +73.011 24 +73.002 l Drybulb temperature in degrees F > channel temp. channel O channel temp. . temp. l 1 +75.996 2 +76.175 3 +76.288 4 +76.657 5 +71.538 Relative humidity in percent channel %RH channel %RH channel tRH- j 1 +39.395' 2 +40.839 3 +40.722 4 +40.295 5 +49.084-
] .] .i AVERAGE TEMPERATURE = +75.680' DEG. F .]
AVERAGE PRESSURE = +68.532- PSIA' AVG VAPOR' PRESSURE = +0.1796 PSIA l MASS = +654783.~38 L8M
)
V. C. Summer 1-INTEGRATED LEAK RATE TE5T TEST MODE : VERF DATE : 71 DATA POINT
SUMMARY
SHEET TIME : 02:15 , Pressure Instruments in PSI A channel pressure channel pressure ; 1 +68.5021 2 +68.5294 RTDs in degrees F channel temp. channel temp. channel temp. 1 +75.701 2 +75.919 3 +75.984 4 +75.862 5 +72.276 6 +76.175 7 +76.548 8 +76.268 9 +75.627 ' 10 +76.537 11 +78.252 12 +75.443 13 +76.734' 14 +76.326 15 +75.289 16 +76.560 17 +75.864 18 +76.929 19 +76.625 20 +71.538 21 +71.925 22 +72.955 23 +73.018 24 +73.018 Drybulb temperature in degrees F I channel temp. channel temp. channel temp. 1 +75.984 2 +76.175 3 +76.260 , 4 +76.625 5 +71.538 Relative humidity in percent channel %RH channel %RH channel %RH 1 +39.432 2 +40.839 3 +40.754 4 +40.336 5 .+49.073 AVERAGE TEMPERATURE = +75.667 DEG. F~ AVERAGE PRESSURE = +68.528 PSIAL AVG VAPOR PRESSURE = +0.1796- PSIA-MASS = +654762.13 LBM- \ .A
~
V. C,-Summer 1' INTEGRATED LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE : 71 TIME : 02:30 Pressure Instruments in PSIA channel pressure chhnnel pressure 1 +68.4982 2 +68.5258 RTDs in degrees F , channel temp. channel temp. channel -temp. 1 +75.681 2 +75.907 3 +75.973 4 +75.841 5 +72.276 6 +76.186 7 +76.646 8 +76.256 9 +75.604 10 +76.517 11 +78.241 12 +75.452 13 +76.712 14 +76.326 15 +75.289 16 +76.560 17 +75.864 18 +76.895 19 +76.634 20 +71.549 21 +71.909' 22 +72.937 23 +73.011 24 +73.011 Drybulb temperature i n degrees F channel temp. channel temp. channel temp. 1 +75.973 2 +76.186 3 +76.256 ) 4 +76.634 5 +71.549 ; 1 Relative humidity in percent I channel %RH channel %RH channel %RH 1 +39.458 2 +40.880 3 +40.782 4 +40.353 5 +49.096 AVERAGE TEMPERATURE =- +75.659 DEG. F AVERAGE PRESSURE = +68.524 PSIA AVG VAPOR PRESSURE = +0.1797 PSIA MASS = +654734.94 L8M I 4 I y es w
r V c. ' C . Summer l'-
-INTEGRATED LEAK' RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE' : 71 TIME : 02: 45 i ( Pressure Instruments in PSIA channel pressure channel pressure 1 +68.4945 2 +68.5220
?
RTDs in degrees F channel temp. channel temp. channel . temp. 1 +75.674 2 +75.892 3 +75.946 , 4 +75.834 5 +72.280 6 +76.114 ; 7 +76.673 8 +76.227 9 +75.583 10 +76.510 11 +78.213 12 +75.445 13 +76.684 14 +76.308 15 +75.262 16 +76.553 17 +75.837 18 +76.856 - 19 +76.619 20 +71.542 21 +71.914-22 +72.955 23 +73.018 24 +73.018 ! i Drybulb temperature in degrees F g channel temp. channel temp. channel temp. 1 +75.946 2 +76.114 3 +76.227 4 +76.619 5 +71.542
' Relative humidity in percent- ,
channel %RH -channel %RH channel S.R H 1 +39.486 2 +40.939 3- +40.827 4 +40.383 5 +49.137
.i AVERAGE' TEMPERATURE = +75.645 DEG. F- J AVERAGE PRESSURE = +68.521- PSIA j AVG VAPOR PRESSURE =- +0.1797^ . PSIA R MASS = +654716.88' LBM l .i m... _ , _ . . ~ . .
m V. C. Summer /1 : 11NTEGRATED LEAK RATE TEST . TEST MODE : VERF-DATA POINT
SUMMARY
SHEET: DATE : 71 : TIME : 03:00 g
.C f
_( ! Pressure Instruments in PSIA ; channel pressure channel pressure 1 +68.4909 2 +68.5183 RTDs in degrees F channel temp. channel temp. ' channel temp. 1 +75.658' 2 +75.876 3 . +75.941 4 +75.818 5 +72.287 6 +76.143 i 7 +76.700 8 +76.213 9 +75.572 10 +76.505 11- +78.209 12 +75.432
- 13. +76.657 14 +76.283 15 +75.280 16 +76.560 17 +75.833 18 +76.895 19 +76.614 20 -+71'.558 21 +71.918 22 +72.937. 23 +73.011 24 +73.011 Drybulb temperature in degrees F
'b I___ _$ _ _ __ .'. - $ _$ ." -
1 +75.941 2 +76.143 3 +76.'213 4 +76.614 5 +71.558 Relative humidity in percent channel %RH channel F.RH - channel *sRH a 1- +39.527 2 +40.922 3 +40.868 4 +40.407 5 +49.163 1 AVERAGE-TEMPERATURE = +75.638 DEG. ~F. -.i AVERAGE PRESSURE = +68.517 PSIA' AVG VAPOR PRESSURE = +0.1799 ' PSIA MASS ' = - +654688.44 LBM .;
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l 2 r '- " f 9 -- * "~ " ? *I- * +w-
l \ Reactor Containment Building Final Report l' integrated Leakage Rate Test V. C. Summer Nuclear Station I f- s l i 1 1 i i l l i i l
'l APPENDIX E LOCAL LEAKAGE RATE TEST SUMMARIES i
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0420 XVD-8033 (S) N/A 1.07 11/17/88 N/A 1.07 11-17-88 1.3 N/A 5/3/90 1.3 N/A- 5/3/90
.8 N/A 10/30/91 .8 N/A 10/30/91 0420 XVD-8047 (S) 0.3 N/A 11/17/88 0.3 N/A 11/17/88 N/A 2.5 5/3/90 N/A 2.5 5/3/90 N/A 1.2 10/30/91 N/A 1.2 10/30/91 0422 XVD-8028 (S) 1.19 N/A 10/30/88 1.19 N/A 10-30-88 6 N/A 5/30/90 6 N/A 5/3/90 1.6 N/A 10/5/91 1.6 N/A 10/5/91 0422 XVC-8046 (S) N/A 5.9 10/30/88 N/A 5.9 10/30/88 N/A 20.8 5/3/90 N/A 20.8 5/3/90 N/A 2.8 10/5/91 N/A 2.8 10/5/91 0318 XVR-8117 (S)(PS) N/A 13.09 12/2/88 N/A 13.09 12/2/88 N/A 65.2 5/1/90 N/A 65.2 5/1/90 i N/A 800 10/29/91 N/A 800 10/29/91 0318 PVT-8152(S) 7.95 N/A 12/2/88 N/A 7.95 12/2/88 65.2 N/A 5/1/90 65.2 N/A 5/1/90 812 N/A 10/29/91 812 812 10/29/91 l
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0318 PVT- N/A 36.67 12/2/88 N/A 36.67 12/2/88 8149A(S)(SP)(PS) N/A 515 5/1/90 N/A 515 5/1/90 N/A 704 10/29/91 N/A 704 10/29/91 0318 PVT-8149B(SP) N/A N/A 12/2/88 N/A N/A 12/2/88 N/A N/A 5/1/90 N/A N/A 5/1/90 N/A N/A 10/29/91 N/A N/A 10/29/91 0318 PVT-8149C(SP) N/A N/A 12/2/88 N/A N/A 12/2/88 N/A N/A 5/1/90 N/A N/A 5/1/90 N/A N/A 10/29/91 N/A N/A 10/29/91 0409 MVG-8107(S) 101.19 N/A 10/3/88 4.2 N/A 11-25-88 351 N/A 5/2/90 351 N/A 5/2/90 22.3 N/A 10/7/91 22.3 N/A 10/7/91 0409 XVC-8381(S) N/A 121.43 10/3/88 N/A 223.8 11-25-88 N/A 838 5/2/90 N/A 838 5/2/90 N/A 350 10/7/91 N/A 350 10/7/91 0410 MVT-8100(S) 406.67 N/A 10/2/88 90.47 N/A 12/3/88 434 N/A 5/2/90 434 N/A 5/2/90 1
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0410 MVT-8100(S) 750 N/A 10/31/91 N/A 750 10/31/91 0410 XVC-8103(SP) N/A N/A 10/2/88 N/A N/A 12/3/88 N/A 453 5/2/90 N/A 453 5/2/90 N/A 138,000 10/31/91 260 N/A 10/31/91 0410 MVT-8112(S)(SP) N'A 607.14 10/2/88 N/A 440.47 12/3/88 N/A N/A 5/2/90 N/A N/A 5/2/90 N/A N/A 10/31/91 N/A N/A 10/31/91 0317 PVT-8860(S) 1.14 N/A 11/11/88 1.14 N/A 11/11/88 16.2 N/A 3/26/90 16.2 N/A 3/26/90 5.7 N/A 10/11/91 5.7 N/A 10/11/91 0317 XVC-8861(S) N/A 93.57 11/11/88 N/A 93.57 11/11/88 N/A 267 3/36/90 N/A 267 3/26/90 N/A 22.7 10/11/91 N/A 22.7 10/11/91 0320 PVT-8880(S) 1190.47 N/A 11/6/88 66.67 N/A 11/16/88 8.1 N/A 4/16/90 8.1 N/A 4/16/90 65.5 N/A 10/29/91 65.5 N/A 10/29/91 0320 XVC-8947(S) N/A 1428.57 11/14/88 N/A 75 11/16/88 N/A 579 4/16/90 N/A 579 4/16/90
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNNIENT AS FOUND AS LEFT (IF API LICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0320 XVC-8947(S) N/A 555 10/29/91 N/A 555 10/29/91 0321 PVT-8871(S) N/A 44.04 12/6/88 N/A 44.04 12/6/88 N/A 1.1 4/14/90 N/A 1.1 4/14/90 N/A 3.1 10/29/91 N/A 3.1 10/29/91 0321 PVT-8961(S) 23.09 N/A 12/6/88 23.09 N/A 12/6/88 1.0 N/A 4h4/90 1.0 N/A 4/14/90 2.3 N/A 10/29/91 2.3 N/A 10/29/90 0329 MVG-8811 A(SV) 47.62 47.62 10/20/88 47.62 47.62 10/20/88 39.4 39.4 4/20/90 39.4 39.4 4/20/90 874 874 9/29/91 874 874 9/29/91 0425 MVG-8811B(SV) >4761.9 >4761.9 11/4/88 237.85 237.85 11/4/88 11.7 11.7 4/5/90 11.7 11.7 4/5/90 29.4 29. 10/28/91 29.4 29.4 10/28/91 0317 PVT-8860(S) 1.14 N/A 11/11/88 1.14 N/A 11/11/88 XVC-8861(S) N/A 93.57 11/11/88 N/A 93.57 11/11/88 0320 PVT-8880(S) .38 N/A 6/5/89 .38 N/A 6/5/89 0320 XVC-8947(S) N/A 1428.57 11/16/88 N/A 75 11/16/89 0321 PVT-8871(S) N/A 44.04 12/6/88 N/A 44.04 12/6/88
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1110/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0321 PVT-8961(S) 23.09 N/A 12/6/88 23.09 N/A 12/6/88 0329 MVG-8811 A(SV) 47.62 47.62 10/20/88 47.62 47.62 10/20/88 0425 MVG-8811B(SV) >4761.9 >4761.9 11/3/88 237.85 237.85 11/4/88 0418 XVD-7126(S) 0.23 N/A 12/3/88 0.23 N/A 12/3/88 N/A 7.6 4/4/90 N/A 7.6 4/4/90 N/A 5.1 10/18/91 N/A 5.1 10/18/91 0418 XVD-7150(S) N/A 0.23 12/3/88 N/A 0.23 12/3/88 4.1 N/A 4/4/90 4.1 N/A 4/4/90 3.2 N/A 10/18/91 3.2 N/A 10/18/91 0423 LCV-1003(S)(PS) N/A >11904.76 12/6/88 N/A 16.67 12/25/88 N/A >0.6La 4/25/90 N/A 86.2 5/5/90 110 N/A 11/3/91 110 N/A 11/3/91 0423 XVD-7135(PS) N/A 25.71 12/6/88 N/A 25.71 12/6/88 N/A 0 4/25/90 0 0 4/25/90 872 N/A 11/3/91 872 N/A 11/3/91 0423 XVD-7136(S) 1.9 N/A 12/6/88 1.9 N/A 12/6/88
.8 N/A 4/25/90 .8 N/A 4/25/90 N/A 1527 11/3/91 N/A 1527 11/3/91
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKA JE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0304 MVB-3106A(PS) 10.95 10.95 11/29/88 10.95 10.95 11/29/88 0 0 5/4SO O O 5/460 851 851 10/17/91 851 851 10/17/91 0304 MVB-3110A(PS) 89.28 89.28 11/30/88 89.28 89.28 11/30/88 72.1 72.1 5/5/90 72.1 72.1 5/5/90 722 722 10/17/91 722 722 10/17/91 0305 M VG-3103A(SV) 27.38 27.38 12/1/88 27.38 27.38 12/1/88 1083 1083 5/4/90 1083. 1083 5/4/90 1806 1806 10/17/91 1806 1806 10/17/91 0403 MVB-3106B(PS) 176.19 176.19 11/30/88 176.19 176.19 11/30/88 5430 5430 5/3/90 5430 5430 5/3/90 922 922 10/30/91 922 922 10/30/91 0403 MVB-3110B(PS) 180.95 180.95 11/25/88 180.95 180.95 11/25/88 4120 4120 5/3/90 4120 4120 5/3/90 4960 4960 10/30/91 4960 4960 10/30/91 0102 MVB-3103B(SV) 4.09 4.09 11/30/88 4.09 4.09 11/30/88 1049 1049 5/3/90 1049 1049 5/3/90 2130 2130 10/29/91 2130 2130 10/29/91
. . ~ . - . _ _ _ _ __ - _ _ _ _ - _ _ _ - _ _ _ _ _ _ - - - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ - _ _ _ _ _ _ _ _ _ - -
O O O PENETRATION VALVE (S) NO.(S) & h1EASURED LEAKAGE (CC/hilN) @ 47.1 f.10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINih1UM MAXIMUM DATE MINMUM MAXIMUM DATE 0310 XVT-2912(S) N/A 140.95 11/17/88 N/A 140.95 11/17/88 N/A 479 3/28/90 N/A 479 3/28/90 134.1 N/A 9/23/91 134.1 N/A 9/23/91 0310 XVT-2913(S) 96.67 N/A 11/17/88 96.67 N/A 11/17/33 154 N/A 3/28/90 154 N/A 3/28/90 N/A 1445 9/23/91 N/A 1445 9/23/91 0311 PVT-2660(S) 87.62 N/A 11/13/88 87.62 N/A 11/13/88 N/A 828 4/20/90 N/A 828 4/20/90 N/A 1734 11/2/91 N/A 1734 11/2/91 0311 XVC-2661(S) N/A 109.05 11/13/88 N/A 109.05 11/13/88 646 N/A 4/20/90 646 N/A 4/28/90 667 N/A 11/2/91 667 N/A 11/2/91 0319 PVT-2662A(S) N/A 392.85 11/17/88 N/A 200.71 11/20/88 N/A 962 4/3/90 N/A 962 4/3/90 N/A 3310 10/30/91 N/A 3310 10/30/91 0319 PVT-2662B(S) 3.57 N/A 11/17/88 3.57 N/A 11/17/88 3.8 N/A 4/3/90 3.8 N/A 4/3/90 7.4 N/A 10/30/91 7.4 N/A 10/30/91
O O O PENETRATION VALVE (S) NO.(.S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0324 XVT-2679(S) N/A 5.0 11/14/88 N/A 5.0 11/14/88 N/A 274 4/17/90 N/A 274 4/17/90 0 N/A 9/23/91 0 N/A 9/23/91 0324 XVT-2680(S) 1.67 N/A 11/14/88 1.67 N/A 11/14/88 272 N/A 4/17/90 272 N/A 4/17/90 N/A 218 9/23/91 N/A 218 9/23/91 0313 XVT-6587(S) 0.5 N/A 10/27/88 0.5 N/A 10/27/88 250 N/A 3/28/90 250 N/A 3/28/90 N/A 1316 10/31/91 N/A 1316 10/31/91 0313 XVC-6588(S) N/A 357.14 10/27/88 N/A 32.14 11/16/88. N/A 3530 3/28/90 N/A 3530 3/28/90 1171 N/A 10/31/91 1171 N/A 10/31/91 0204 MVG-9600(S) 11.88 N/A 10/8/88 N/A 59.28 11/13/88 4.5 N/A 4/22/90 4.5 N/A 4/22/90 115.3 N/A 10/24/91 115.3 N/A 10/24/91 l 0204 XVC-9602(S) N/A 54.76 10/8/88 53.09 N/A 11/13/88 N/A 108.2 4/7/90 N/A 108.2 4/7/90 N/A 284 10/24/91 N/A 284 10/24/91
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1110/0 PSIG , NUMBERS ALIGNMENT AS FOUND AS LEFT (IF Al PLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0312 MVG-9568(S) N/A >11904.76 10/8/88 N/A 147.85 11/28/88 N/A >0.6L3 4/7/90 406 N/A 4/30/99 N/A 776 10/24/91 N/A 776 10/24/01 0312 XVC-9570(S) 45.23 N/A 10/7/88 125.0 N/A 11/17/88 873 N/A 4/7/90 N/A 873 4/7/90 292 N/A 10/24/91 292 N/A 10/24/91 0330 XVC-9689(SP) N/A N/A 10/8/88 N/A N/A 10/8/88 28.1 N/A 4/21/90 28.1 N/A 4/21/90 N/A N/A 10/24/91 N/A N/A 10/24/91 0330 MVG-9605(S)(SP) N/A > 11904.76 10/8/88 294.04 N/A 12/2/88 N/A N/A 4/21/90 N/A N/A 4/21/90 958 N/A 10/24/91 958 N/A 10/24/91 0330 MVG-9606(S) 47.61 N/A 10/8/88 N/A 392.38 11/29/88 N/A 2480 4/21/90 N/A 2480 5/1/90 N/A 2480 10/24/91 N/A 2480 10/24/91 0303 MVG-3003B(S) 137.85 N/A 10/6/88 N/A 116.66 11/10/88 N/A 346 4/3/90 N/A 346 4/3/90 454 N/A 10/20/91 454 N/A 10/20/91
O- O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAX 1 MUM DATE 0303 XVC-3009B(S) N/A 211.90 10/6/88 104.76 N/A 11/10/88 289 N/A 4/3/90 289 N/A 4/3/90 N/A 4500 10/29/91 N/A 4500 10/20/91 0327 MVG-3004A(SV) >4761.9 >4761.9 10/27/88 40.47 40.47 10/29/88 259.5 259.5 ? 27/89 259.5 259.5 8/27/89 3050 3050 4/20/90 438 438 5/1/90 17,500 17,500 10/7/91 848 848 10/7/91 0328 MVG-3004B(SV) 183.09 183.09 11/9/88 183.09 183.09 11/9/88 1375 1375 4/3/90 1375 1375 4/3/90 3500 3500 10/13/91 3500 3500 10/13/91 0401 MVG-3003A(S) 29.28 N/A 10/6/88 15.47 N/A 11/11/88 30 N/A 4/21/90 30 N/A 4/2160 6.5 N/A 10/7/91 6.5 N/A 10/7/91 l 0401 XVC-3009A(S) N/A 209.52 10/6/88 N/A 110.71 11/11/88 N/A 354 4/21/90 N/A 354 4/21/90 N/A 625 10/7/91 N/A 625 10/7/91 0223 SVX-9364C(S) 78.57 N/A 11/25/88 78.57 N/A 11/25/88 4580 N/A 3/30/90 7.7 N/A 5/7/90
e O O O l ! ! PENETR ATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1110/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF AIPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0223 SVX-9364C(S) 8.4 N/A 10/17/91 8.4 N/A 10/17/91 0223 SVX-9365C(S) N/A 117.14 11/25/88 N/A 117.14 11/25/88 N/A 6470 3/30/90 N/A 9.4 5/7/90 N/A 887 10/17/91 N/A 887 10/17/91 0314 SVX-9364B(S) 17.85 N/A 11/12/88 17.85 N/A 11/12/88 N/A 155.6 3/29/90 N/A 155.6 3/29/90 1402 N/A 10/28/91 1402 N/A 10/28/91 0314 SVX-9365B(S) N/A 33.33 11/12/88 N/A 33.33 11/12/88 144 N/A 3/28/90 144 N/A 3/29/90 N/A 1960 10/28/91 N/A 1960 10/28/91 0323 SVX-9387(SV) 102.38 102.38 11/29/88 102.38 102.38 11/29/88 1650 1650 4/5/90- 1650 1650 4/5/90 42.6 42.6 10/28/91 42.6 42.6 10/28/91-0405 SVX-9356A(PS) N/A 29.76 11/14/88 29.76 N/A 11/29/88 N/A 523.8 5/30/89 N/A 185.7 6/6/89 N/A 2000 5/2/90 N/A 2000 5/2/90 N/A 293 10/28/91- N/A 293 10/28/91 0405 SVX-9356B(S)(PS) N/A 1428.57 11/14/88 0 N/A 11/29/88
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0405 SVX-9356B(S)(PS) N/A 4.8 5/30/89 4.8 N/A 6/6/89 N/A 6800 5/2/90 N/A 1133 5/2/90 N/A 83.1 10/28/91 N/A 83.1 10/28/91 0405 SVX-9357(S) 833.33 N/A 11/14/88 N/A 31.9 11/29/88 175 N/A 8/30/89 175 N/A 8/30/89 1320 N/A 5/2/90 1320 N/A 5/2/90 144.3 N/A 10/28/91 144.3 N/A 10/28/91 0407A PVA-9311 A(S) 5.95 N/A 11/29/88 5.95 N/A 11/29/88 10.4 N/A 4/5/90 10.4 N/A 4/5/90 11.1 N/A 10/9/91 11.1 N/A 10/9/91 0407A PVA-9311B(S) N/A 121.19 11/29/88 N/A 121.19 11/29/88 N/A 398 4/5/90 N/A 398 4/5/90 N/A 286 10/9/91 N/A 286 10/9/91 0407B PVA-9312A(S) N/A 21.66 1/29/88 N/A 21.66 11/29/88 N/A 102 4/5/90 N/A 102 4/5/90 N/A 255 10/20/91 N/A 255 10/20/91 0407B PVA-9312B(S) 17.61 N/A 11/29/88 17.61 N/A 11/29/88 66 N/A 4/5/90 66 N/A 4/5/90
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1110/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0407B PVA-9312B(S) 205 N/A 10/20/91 205 N/A 10/29/91 N/A 282 2/7/92 N/A 282 2/7/92 0417 SVX-9341(S) N/A 135.71 11/29/88 N/A 135.71 11/19/88 N/A 235 3/31/90 N/A 235 3/31/90 N/A 35.2 10/29/91 N/A 35.2 10/29/91 7.5 N/A 5/14/92 7.5 N/A 5/14/92 0417 SVX-9339(S) 0.61 N/A 11/29/88 0.61 N/A 11/29/88 6 N/A 3/31/90 5.4 N/A 3/31/90 24.0 N/A 10/29/91 34.3 N/A 11/5/91 0424 PVD-6242A(S) 0.23 N/A 12/3/88 0.23 N/A 12/3/88 N/A 1921 4/20/90 N/A 1921 4/20/90 N/A 845 10/8/91 N/A 845 10/8/91 N/A 4600 3/30/92 N/A 4600 3/30/92 0424 PVD-6242B(S) N/A 0.23 12/3/88 N/A 0.23 12/3/88 2 N/A 4/20/90 2 N/A 4/21/90 2.4 N/A 10/8/91 2.4 N/A 10/8/91 0103 PVB-6056(S) N/A 3892.85 11/24/88 35.23 N/A 11/25/88 1102 N/A 4/1/90 1102 N/A 4/1/90
O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0103 PVB-6056(S) N/A 7520 10/30/91 471 N/A 11/2/91 0103 PVB-6057(S) 39.28 N/A 11/24/88 N/A 39.28 11/24/88 N/A 4610 4/1/90 N/A 3110 4/22/90 1239 N/A 10/30/91 N/A 1239 10/30/91 0105A SVX-6051B(S) N/A 1.07 10/4/88 1.07 N/A 11/9/88 1.7 N/A 4/2/90 1.7 N/A 4/2/90 N/A 1.0 10/22/91 N/A 1.0 10/22/91 0105A SVX-6053B(S) 0.78 N/A 10/4/88 N/A 1.19 11/9/88 N/A _4 4/2/90 N/A 3.6 4/2/90
.8 N/A 10/22/91 .8 N/A 10/22/91 0105B SVX-6050B(S) 0.66 N/A 10/4/88 0.85 N/A 11/10/88 2 N/A 4/2/90 2 N/A 4/2/90 31.2 N/A 10/22/91 31.2 N/A 10/22/91 0105B SVX-6052B(S) N/A 1.5 10/4/88 N/A 2.0 11/10/88 N/A 152 4/2/90 N/A 152 4/2/90 N/A 31.6 10/22/91 N/A 31.6 10/22/91 0301A SVX-6501A(S)(PS) 0.26 N/A 10/3/88 1.61 N/A 11/11/88 1 N/A 4/2/90 1 N/A 4/2/90
O O O PENETRATION VALVE (S) NO.(F & MEASURED LEAKAGE (CC/ MIN) @ 47.1 f,10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LElT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0301A SVX-6501A(S)(PS) 3 N/A 10/22/91 3 N/A 10/22/91 0301A SVX-6051C(S)(PS) 0.95 N/A 10/3/88 1.23 N/A 11/11/88 1 N/A 4/2/90 1 1 4/2/90 N/A 15.9 10/22/91 N/A 15.9 14/22/91 0301A SVX-6053A(S) N/A 2.85 10/3/88 N/A 10.71 11-12-88 N/A 3 4/2/90 N/A 3 4/2/90 N/A 17.2 10/22/91 N/A 17.2 10/22/91 1 0301B SVX-6050A(S)(PS) 2.61 N/A 10/4/88 0.90 N/A 11/13/88 N/A 1 4/3/90 N/A 1 4/3/90 N/A 1.1 10/22/91 N/A 1.1 10/22/91 0301B SVX-6052A(S)(PS) N/A 2.38 10/4/88 N/A 1.9 11/13/88 N/A 1 4/3/90 N/A 1 4/3/90
.5 N/A 10/22/91 .5 N/A 10/22/91 0301B SVX-6054(S) N/A 6.19 10/4/88 N/A 1.19 11/13/88 1 N/A 4/3/90 1 N/A 4/3/90 .8 N/A 10/22/91 .8 N/A 10/23/91 0302 PVB-6066(S) 0.83 N/A 11/24/88 0.83 N/A 11/24/88 N/A 159 4/2/90 N/A 159 4/2/90
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0302 PVB-6056(S) 30 N/A 10/23/91 30 N/A 10/23/91 0302 PVB-6%7(S) N/A 5.02 11/24/88 N/A 5.02 11/24/88 132 N/A 4/2/90 132 N/A 4/2/90 N/A 87 10/23/91 N/A 87 10/23/91 0101 XVB-0002A(SS) 140.47 N/A 9/25/88 64.52 N/A 12/10/88 N/A 100 3/10/89 N/A 100 3/10/89 N/A 276.19 3/27/89 N/A 276.19 3/27/89 0.21 N/A 6/7/89 0.21 N/A 6/7/89 120.5 N/A 8/30/89 120.5 N/A 8/30/89 25.95 N/A 2/27/90 25.95 N/A 2/27/90 N/A 225 5/14/90 N/A 225 5/14/90 124 N/A 11/13/90 124 N/A 11/13/90 52.5 N/A 5/13/91 52.5 N/A 5/13/91 167 N/A 11/9/91 167 N/A 11/9/91 223.5 N/A 2/18/92 223.5 N/A 2/18/92 130.5 N/A 8/5/92 130.5 N/A 8/5/92 192 N/A 2/1/93 192 N/A 2/1/93 0101 XVB-0002B(SS) N/A 280.95 9/25/88 N/A 128.8 12/10/88 _ _ _ . - _ - . -___-__.-__-___m--_________-____.--__.--_______m.__-_m--_____.__.__-m.__---.--_-_-_____-__ _ _ - - _ _ _ _ _ _ _ _ _ - _ _ - - _ _ . _ - _ . _ _ _ _ _--__--a--_ _ -- _ t __-- _ . - -
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0101 XVB-0002B(SS) 50 N/A 3/10/89 50 N/A 3/10/89 138.09 N/A 3/27/89 138.09 N/A 3/27/89 N/A 0.42 6/7/89 N/A 0.42 6/7/89 N/A 241 8/30/89 N/A 241 8/30/89 N/A 51.9 2/27/90 N/A. 51.9 2/7/90 113 N/A 5/14/90 113 N/A 5/14/90 N/A. 248 11/13/90 N/A 248 11/13/90 N/A 105 5/13/91 N/A 105 5/13/91 N/A 334 11/9/91 N/A 334 11/9/91 N/A 447 2/18/92 N/A 447 2/18/92 N/A 261 8/5/92 N/A 261 8/5/92 N/A 385 2/1/93 N/A 385 2/1/93 0402 XVB-0001A(SS) 57.38 N/A 9/26/88 247.61 N/A 12/10/88 N/A 735.71 3/27/89 N/A 735.71 3/27/89 0.26 N/A 6/7/89 0.26 N/A 6/7/89 304.7 N/A 8/30/89 304.7 N/A- 8/30/89 738.1 N/A 11/30/89 738.1 N/A 11/30/89 292 N/A 5/14/90 292 N/A 5/14/90
O O O PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0402 XVB-0001A(SS) 155 N/A 8/13/90 155 N/A S/13/90 423.5 N/A 8/12/91 423.5 N/A 8/12/91 990 N/A 2/11/91 990 N/A 2/11/91 223 N/A 11/9/91 223 N/A 11/9/91 1305 N/A 5/4/92 1305 N/A 5/4/92 221.5 N/A 11/2/92 221.5 N/A 11/2/92 0402 XVB-0001B(SS) N/A 114.52 9/26/88 N/A 495.23 12/10/88 367.85 N/A 3/27/89 367.85 N/A 3/27/89 N/A 0.52 6/7/89 N/A 0.52 6/7/89 N/A 609.5 8/30/89 N/A 609.5 8/30/89 N/A 1476.2 11/30/89 N/A 1476.2 11/30/89 N/A 583 5/14/90 N/A 583 5/14/90 N/A 310 8/13/90 N/A 310 8/13/90' N/A 1980 2/11/91 N/A 1980 2/11/91 N/A 847 8/12/91 N/A 847 8/12/91 N/A 445 11/9/91 N/A 445 11/9/91 N/A 2610 5/4/92 N/A 2610 5/4/92 N/A 443 11/2/92 N/A 443 11/2/92
PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 i 10/0 PSIG NUMBERS l ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0404 XVG-6772(S) N/A 116.66 11/8/88 N/A 116,66 11/8/88 N/A 767 3/26/90 N/A 767 3/26/90 N/A 526 8/23/91 N/A 526 9/23/91 0404 XVG-6773(S) 33.33 N/A 11/7/88 33.33 N/A 11/7/88 6.7 N/A 3/26/90 6.7 N/A 3/26/90 2.6 N/A 9/23/91 2.6 N/A 9/23/91 0427 MVG-6797(S) N/A >1190.47 10/31/88 9.52 N/A 11/6/88 N/A 21,009 3/31/90 N/A 4,700 4/26/90 N/A 9038 10/29/91 559 N/A 11/2/91 0427 XVC-6799(S) 39.59 N/A 10/31/88 N/A 39.59 10/31/88 1239 N/A 3/30/90 1239 N/A 3/30/90 688 N/A 10/26/91 N/A 688 10/26/91 0231 XVD-8767(S) N/A 31.42 10/25/88 N/A 31.42 10/25/88 N/A 14 3/31/90 N/A 14 3/31/90 0 N/A 10/30/91 0 N/A 10/30/91 0231 XVD-8768(S) 30.95 N/A 10/25/88 30.95 N/A 10/25/88 11.5; N/A 3/31/90 11.5 N/A 3/31/90 N/A 2 10/30/91 N/A 2 10/30/91
O O O 10/0 PSIG PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 NUMBERS ALIGNMENT AS FOUND AS LEFI' (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0419 XVD-6671(SS) 47.61 N/A 10/28/88 47.61 N/A 10/28/88 3.6 N/A 4/16/90 3.6 N/A 4/ 6/90 , N/A 2.1 9/24/91 N/A 2.1 9/24/91 0419 XVD-6672(SS) N/A 95.23 10/28/88 N/A 95.23 10/28/88 N/A 7 4/16/90 N/A 7 4/16/90 1.1 N/A 9/24/91 1.1 N/A 9/24/91 0421 XVD-6698(SS) 52.61 N/A 10/28/88 52.61 N/A 10/28/88 3.7 N/A 4/15/90 3.7 N/A 4/15/90 N/A 6.9 9/24/91 N/A 6.9 9/24/0? 0421 XVD-6637(SS) N/A 105.23 10/28/88 N/A 105.23 10/28/88 N/A 7 4/15/90 N/A 7 4/15/90 3.4 N/A 9/24/91 3/4 N/A 9/24/91 0208 MVG-7501(S) >4761.9 N/A 11/8/88 73.8 N/A 11/21/88 25 N/A 4/26/90 25 N/A 4/26/90 2.7 N/A 10/22/90 2.7 2.7 10/27/91 , 0208 MVG-7502(S)(SP) N/A >4761.9 11/8/88 N/A 154.76 11/28/88 N/A 1366 4/24/90 N/A 1366 4/24/90 N/A 54$ 10/22/91 N/A 546 10/27/91
O O O PENETRATION VALVE (S) NO.(S) & h1EASURED LEAKAGE (CC/ MIN) @ 47.1110/0 PSIG NUMBERS ALIGNhiENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0208 XVC-7541(SP) N/A N/A 11/8/88 N/A N/A 11/28/88 N/A N/A 4/24/90 N/A N/A 4/24/90 N/A N/A 10/27/91 N/A N/A 10/27/91 0209 MVG-7504(S) N/A >4761.9 11/9/88 N/A 142.85 12/7/88 N/A 809 4/24/90 N/A 809 4/25/90 10.8 N/A 10/27/91 10.8 N/A 10/27/91 0209 MVG-7503(S)(SP) 136.9 N/A 11/21/88 136.9 N/A 11/21/88 594 N/A 4/25/90 594 N/A 4/25/90 N/A 2150 10/27/91 N/A 2150 1-/27/91 0209 XVC-7544(SP) N/A N/A 11/21/88 N/A N/A 11/21/88 N/A N/A 4/25/90 N/A N/A 4/25/90 N/A N/A 1/27/91 N/A N/A 10/27/91 0227 MVG-8888B(SV) 76.19 76.19 10/28/88 2.38 2.38 11/3/88 525 525 4/16/90 525 525 4/16/90 601 601 .10/23/91 601 601 10/23/91 0325 MVG-8889(SV) 17.42 17.42 10/16/88 7.42 7.42 10/31/88 11 11 4/24/90 11 11 4/24/90 2660 2660 10/13/91 2660 2660 10/13/91
PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE 0322 MVG-8888A(SV) 65 65 10/16/88 0 0 10/23/88
- 222 222 8/29/89 222 222 8/29/89 1901 1901 4/24/90 1901 1901 4/24/90 1393 1393 10/12/91 1393 1393 10/12/91 i
0226 XVG-8701B(SV) 2500 2500 10/22/91 2500 2500 10/22/91 Pers. Acc. N/A 5500 5500 12/5/88 5500 5500 12/5/88 Airlock 1100 1100 6/8/89 1100 1100 6/8/89 1175 1175 5/15/90 1175 1175 5/15/90 , 340 340 10/13/90 340 340 10/13/90 , 2450 2450 11/10/91 2450 2450 11/10/91 822 822 3/31/92 822 822 3/31/92 901 901 8/21/92 901 901 8/21/92 3380 3380 10/29/89 3380 3380 10/29/89 438 438 4/10/91 438 438 4/10/91 1196 1196 1/15/93 1196 1196 1/15/93 Escape Air- N/A 0 0 12/4/88 0 0 12/4/88 lock
rX t> PENETRATION VALVE (S) NO.(S) & MEASURED LEAKAGE (CC/ MIN) @ 47.1 10/0 PSIG NUMBERS ALIGNMENT AS FOUND AS LEFT (IF APPLICABLE) (1) MINIMUM MAXIMUM DATE MINMUM MAXIMUM DATE Escape Air- N/A .2 .2 6/8/89 .2 .2 6/8/89 lock l 1860 1860 10/29/89 1860 1860 10/29/89 1100 1100 5/10/90 1100 1100 5/10/90 0 0 10/18/90 0 0 10/18/90 819 819 12/10/92 819 819 12/10/92 470 470 7/29/92 470 470 7/29/92 30 30 1/31/92 30 30 1/31/92 311 311 11/9/91 311 311 11/9/91 340 340 4/9/91 340 340 4/9/91 Equip. Hatch N/A 200 200 12/4/88 200 200 12/4/88
.1 .1 5/12MO .1 .1 5/12/90 .7 .7 11/7/91 .7 .7 11/7/91 .
- - - - - - - - - - - - - - - - - _ - _ _ _-a - - - - - - - - - - , - - - - - . - - - _ - - - - - _ - - - - - - - - _ - - - - - - - -,-A e,,- M r w
O O O PENETRATION NOZZEL(S) MEASURED LEAKAGE (SCC / MIN)@ 47.1 10/0 PSIG NUMBERS NO.(S) AS FOUND AS LEFT MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0001 0504 0 0 11/28/88 0 0 11/28/88 0 0 4/6/90 0 0 4/6/90 0 0 9/26/91 0 0 9/26/91 0003 0601 0 0 11/28/88 0 0 11/28/88 0 0 4/6SO O O 4/6SO O O 9/26/91 0 0 9/26/91 0006 0710 0 0 11/28/88 0 0 11/29/88 0 0 4/6SO O O 4/6SO O O 9/25/91 0 0 9/25/91 0007 0501 0 0 11/29/88 0 0 11/29/88 , 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/26/91 0010 0726 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0011 0727 0 0 11/28/88 0 0 11/29/88 0 0 4/5/90 0 - 0 4/5/90 0 0 9/25/91 0 0 9/25/91
O O O PENETRATION NOZZEL(S) MEASURED LEAKAGE (SCC / MIN)@ 47.1i10/0 PSIG NUMBERS NO.(S) AS FOUND AS LEFT MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0014 0808 0 0 11/29/88 0 0 11/28/88 0 0 4/5/90 0 0 4/6/90 0 0 9/2561 0 0 9/26/91 0015 0805 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0016 0503 0 0 11/29/88 0 0 1/29/88 0 0 4/5/90 0 0 4/5/90 0 0 9/26/91 0 0 9/26/91 0017 0704 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 ;O O 9/25/91 0018 0722 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0019 0717 0 0 11/29/88 0 0 11/29/88 0 0 4/6/90 0 0 4/6/90 0 0 9/25/91 0 0 9/24/91 t l
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%/ J PENETRATION NOZZEL(S) MEASURED LEAKAGE (SCC / MIN)@ 47.1 10/0 PSIG NUMBERS NO.(S) AS FOUND AS LEFT MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0020 0809 0 0 11/28/88 0 0 11/28/88 0 0 4/6/90 0 0 4/6/90 0 0 9/25S1 0 0 9/25/91 0021 0810 0 0 11/28/88 0 0 11/28/88 0 0 4/6/90 0 0 4/6/90 0 0 9/25/91 0 0 9/25/91 0022 0815 0 0 11/28/88 9 0 11/28/88 0 0 4/6/90 0 0 4/6/90 0 0 9/25/91 0 0 9/25/91 0023 0700 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0024 0701 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0025 0707 0 0 11/28/88 0 0 11/28/88 0 _0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91
O O O PENETRATION NOZZEL(S) MEASURED LEAKAGE (SCC / MIN)@ 47.1110/0 PSIG NUMBERS NO.(S) AS FOUND AS LEFT MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0026 0708 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/2561 0 0 9/25/91 0028 0705 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0030 0723 0 0 11/29/88 0 0 11/29/88 0 0 4/5/90 0 0 4/5SO O O 9/25/91 0 0 9/25/91 0031 0712 0 0 11/29/88 0 0 11/29/88 0 0 4/6SO O O 4/6N0 0 0 9/24/91 0 0 9/24/91 0032 0714 0 0 11/29/88 0 0 11/29/88 0 0 4/6/90 0 0 4/6/90 0 0 9/24/91 0 0 9/24/91 0033 0725 0 0 11/29/88 0 0 11/29/88 0 0 4/6/90 0 0 4/6/90 0 0 9/24/91 0 0 9/24/91
PENETRATION NOZZEL(S) MEASURED LEAKAGE (SCC / MIN)@ 47.1110/0 PSIG NUMBERS NO.(S) AS FOUND AS LEFT MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0034 0812 0 0 11/30/88 0 0 11/30/88 0 0 4/6/90 0 0 4/6/90 0 0 9/26/91 0 0 9/26/91 0035 0800 0 0 11/28/88 0 0 11/28/88 0 0 4/6/90 0 0 4/6/90 0 0 9/24/91 0 0 9/24/91 l 0036 0715 0 0 11/29/88 0 0 11/29/88 0 0 4/6/90 0 0 4/5/90 0 0 9/25/91 0 0 9/24/91 0037 0711 0 0 11/29/88 0 0 11/29/88 0 0 4/6S0 0 0 4/6SO t 0 0 9/24/91 0 0 9/24/91 0039 0716 0 0 11/29/88 0 0 11/29/88 0 0 4/8SO O O 4/8B1 0 0 0/24/91 0 0 9/24/91 0040 0718 0 0 11/29/88. 0 0 11/29/88 0 0 4/6/90 0 0 4/6/90 0 0 9/24/91 0 0 9/24/91 ,
O O O-PENETRATION NOZZEL(S) MEASURED LEAKAGE (SCC / MIN)@ 47.1 10/0 PSIG NUMBERS NO.(S) AS FOUND AS LEFT MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0042 0607 0 0 11/30/88 0 0 11/30/88 0 0 4/6/90 0 0 4/6/90 0 0 9/25/91 0 0 9/25/91 0043 0605 0 0 11/26/88 0 0 11/26/88 0 0 4/23/90 0 0 4/23/90 0 0 9/25/91 0 0 9/25/91 0044 0606 0 0 11/30/88 0 0 11/30/88 0 0 4/23/90 0 0 4/23/90 0 0 10/18/91 0 0 10/18/91 0045 0721 0 0 10/26/88 0 0 10/26/88 0 0 4/17/90 0 0 4/17/90 F 0 0 9/25/91 0 0 9/25/91 0046 0814 0 0 11/30/88 0 0 11/30/88 0 0 4/27/90 0 0 4/27/90 0 0 9/25/91 0 0 9/25/91 0048 0604 0 0 11/30/88 0 0 11/30/88 0 0 .4/20/90 0 - 0 4/20/90 ! 0 0 10/18/91 0 0 10/18/91
O O O ' PENETRATION NOZZEyS) MEASURED LEAKAGE (SCC / MIN)@ 47.1 10/0 PSIG NUMBERS NO.(S) AS LEFT AS FOUND MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0051 0702 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0052 0502 0 0 11/29/88 0 0 11/29/88 0 0 4/20/90 0 0 4/20/90 0 0 9/26/91 0 0 9/26/91 0053 0802 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/26/91 0 0 9/26/91 0054 0706 0 0 1178/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0055 0728 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0056 0803 0 0 11/28/88 0 0 11/28/88 0 0 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91
[ l 4 l PENETRATION NOZZEL(S) MEASURED LEAKAGE (SCC / MIN)@ 47.1 10/0 PSIG NUMBERS NO.(S) AS FOUND AS LEFT l ! MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0057 0804 0 0 11/28/88 0 0 11/28/88 O O 4/5/90 0 0 4/5/90 0 0 9/25/91 0 0 9/25/91 0107 FH 0 0 11/16/88 0 0 11/28/88 0 0 5/4SO O O 5/4B0 0 0 10/31/91 0 0 10/31/91 0201 LR 0 0 9/19/88 0 0 10/18/88 0 0 4/6/90 0 0 4/6/90 0 0 9/27/91 0 0 9/27/91 0210 LR 0 0 9/19/88 0 0 10/18/88 0 0 4/660 0 0 4/6SO O O 9/27/91 0 0 9/27/91 0211 LR 0 0 9/19/88 0 0 10/18/88 0 0 4/6/90 0 0 4/6/90 0 0 9/27/91 0 0 9/27/91 0212. LR 0 0 9/19/88 0 0 10/18/88 0 0 4/6/90 0 0 4/6/90 0 0 9/27/91 0 0 9/27/91 __ __ __ m__. _ _ _ _ _ _ . _ _ _ _ _ _ __ _ _ . _ _____.__._____________.__m_._. _ _ _ _ _ _ _ _ _ -_ _ _ _ _ -__ m _ _ __ - 4-- -~ w ~ --w
O O O PENETRATION NOZZEL(S) MEASURED LEAKAGE (SCC / MIN)@ 47.1 10/0 PSIG NUMBERS NO.(S) AS LEFT AS FOUND MINIMUM MAXIMUM DATE MINIMUM MAXIMUM DATE 0216 LR 0 0 9/19/88 0 0 10/18/88 0 0 4/6/90 0 0 4/6/90 0 0 9/27/91 0 0 9/22/91 0329 SI O O 10/28/88 0 0 10/28/88
>0.613 >0.6La 4/5/90 0 0 4/25/90 1186 1186 10/7/91 1186 1186 10/7/91 0425 S1 0 0 11/11/88 0 0 11/11/88 >0.6La >0.6La 4/5/90 0 0 1/5/90 N/A 800 11/1/91 N/A 800 11/1/91 0327 SP 0 0 10/28/88 0 0 10/28/88 0 0 4/5/90 0 0 4/5/90 1186 250 10/7/91 1186 250 10/7/91 0328 SP 0 0 11/13/88 0 0 11/13/88 0 0 4/5/90 0 0 4/5/90 N/A 52 10/15/91 N/A 52 10/15/91 602 18 0 0 11/27/88 0 0 11/27/88 0 0 5/6/90 0 0 5/6/90 0 0 11/4/91 0 0 11/4/91
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Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station
;j%.d.
1 i l APPENDIX F
- I' i
L SENSOR LOCATIONS AND VOLUME FRACTIONS , INSTRUMENTATION SELECTION GUIDE - ! I l I
') ~
l i I I 4
..I .A .
m- nu SENSOR LOCATION U I
,v x, _ _ hes, _
s -e l
/ $si' O' ssr-o'
_ vs _ l ssr-o-l I 1 I i g., o,
~~
(O' ic n ec \ aer-s. If, gf ?f' n TE y J as w I, . ,1
) /
(h ' 43b' O. KE E) [
- h AE.,, AEBW
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75'n l I i anr-o-a U' l U. I I
Reactor Containment Building Final Report , Integrated Leakage Rate Test V. C. Swnmer Nuclear Station
- g e DRYBULB SENSOR LOCATIONS AND VOLUME FRACTIONS SENSOR ELEV. AZIMUTH VOLUME NUMBER (FEET) (DEGREES) FRACTIONS 7307A 569 248 0.1005 7307B 569 63 0.1005 7307C 533 17 0.1413 7307D 533 191 0.1413 7307E 412 293 0.0200 i 7307F 514 352 0.0345 7307G 514 166 0.0346 7307H 463 133 0.0345 73071 463 307 0.0346 7307J 463 40 0.0345 7307K 463 48 0.0346 7307L 463 193 0.0345 7307M 463 200 0.0345 7307N 436 290 0.0200 73070 436 302 0.0200 7307P 436 38 0.0200 73070 436 73 0.0200 7307R 436 160 0.0200 7307S 436 207 0.0200 7307T 412 298 0.0200 7307U 412 45 0.0200 7307V 412 68 0.0200 7307W 412 156 0.0200 I 7307X 412 200 0.0200 ,
- 1 O
I
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station Q v RELATIVE HUMIDITY SENSOR LOCATIONS AND VOLUME FRACTIONS SENSOR ELEV. AZIMUTH VOLUME NUMBER (FEET) (DEGREES) FRACTIONS 7306A 556 17 0.4837 7306B 514 352 0.1291 7306C 463 133 0.1291 7306D 463 '207 0.1291 7306E 412 298 0.1290 O o
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station
~^p / ~( ) INSTRUMENTATION SELECTION t UiDE Page 1 of 6 A. Instrument Specifications
- 1. Total, Absolute Pressure .
- a. Paroscientific Model 760-100A Precision Pressure Gages
- b. No. of sensors used in calculation: 2
- c. Range: 0-100 psia (direct reading)
I
- d. Accuracy: ! 0.010% F.S.
- e. Sensitivity: 0.005 psi
- f. Repeatability: ! 0.001 psi (.001% F.S.)
- g. Resolution: 0.0001 psi
- 2. Water Vapor Pressure
- a. Phys-Chem Scientific Relative Humidity Sensors
- b. No. of sensors: 5
- c. Calibrated range: 0 - 100 % R. H.
- d. Accuracy: 1.8'F
- e. Sensitivity: 0.1*F
- 3. Drybulb Temperature
- a. 100 ohm platinum RTDs
- b. No. of sensors: 24
- c. Calibrated range: 60 - 120*F
- d. Accuracy:- 0.5*F
- e. Sensitivity: 0.01*F (G_/
l
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station l-p k INSTRUMENTATION SELECTION GUIDE Page 2 of 6
- 4. Data Acquisition System
- a. Fluke Model 2286A ,
F
- b. Drybulb Signal Conditioning / Readout
- 1) Repeatability: 0.054*F
- 2) Resolution: 0.01*F
- c. Humidity Signal Cercitioning/ Readout
- 1) Repeatability: 0.04*F
- 2) Resolutica: 0.01*F B. Instrument and Measurement System Errors
. (3 V. Definitions
- a. e= the error associated with the measurement of change in a given parameter.
l
- b. E=. the error associated with the sen:.itivity of the sensor. l
~
- c. e= the error associated with the measurement system readout 'and i signal . conditioning (excludes sensor), including resolution and repeatability. Instrumentation errors (e.g., repeatability and resolution) are combined using a root-sum-square formula (per-ANSI /ANS 56.8-1987, Appendix G).
C. Instrument Errors l
- 1. Total Absolute Pressure i
- a. Sensitivity i i
E, =. 0.005 psia (per manufacturer spec.) l O i l
-)
i
l l Reactor Containment Building Final Report \ Integrated Leakage Rate Test V. C. Summer Nuclear Station \ INSTRUMENTATION SELECTION GUIDE 1 Page 3 of 6
- 1. Total Absolute Pressure (Cont'd)
- b. Resolution and Repeatability c, = [(0.0001): + (0.001)2)m 4
=
[1 x 104 + 1 x 10 ]m i 4
=
[1.01 x 10 ]" c, = 1.005 x 104 psia
- c. Measurement System Error e, = [(Ep): , (gp)2)m/[no. of sensors]" J 3
=
[(0.005)2 + (1.005 x 10 )2)m/(2)" 4 4
=
[2.5 x 10 + 1.01 x 10 ]"/1.414
= 4
[2.601 x 10 ]"/1.414 e, = 3.607 x 10 3 psia
- 2. Dry 5mlb Temperature
- a. Sensitivity Er = 0.01*F l
.I
- b. Resolution and Repeatability
.1 e=
r [(0.01)2 + (0.054)2)m d 3
'= [1 x 10 + 2.916 X 10 ]* l 3 ! =
[3.016 X 10 ]" - I e= r 0.055'F l O ; l
Reactor Containment Building Final Report Integrated Leakage Rate Ten V. C. Summer Nuclear Station INSTRUMENTATION SELECTION GUIDE Page 4 of 6
- 2. Drybulb Temperature (Cont'd)
- c. Measurement System Error e=
r [(Er)* + (tr)2]'# /(no. of sensors)'d
=
[(0.01)2 + (0.055)2]'#/ (24)'" d
=
[1 x 10 + 3.025 x 10-']'#/4.899
=
[3.125 x 10-8]v2/4.899 e= r 0.011*F
- 3. Water Vapor Pressure
- a. Sensitivity Er = 0.005'F
- b. Resolution and Repeatability cy = [(.01)2 + (0.001)']'"
4
=
[1 x 10""F + 1 X 10 ]'" d
= [1.01 x 10 ]'"
ey = 0.010*F
- c. At 60*F dewpoint, water vapor pressure change /*F is 0.00941 psia /*F(from -
the steam tables) O
Reactor Containment Building Final Report Integrated Leakage Rate Test V. C. Summer Nuclear Station INSTRUMENTATION SELECFION GUIDE Page 5 of 6
- 3. Water Vapor Pressure (Cont'd)
- d. Measurement System Error ,
ey = [(Ey)2, (e )2)m/(no. p of sensors)"
= [(.005)2 + (.010)2jm/(3)*
d
=
[2.5 x 10 5 + 1 x 10 ] m/1.732
=
[1.25 x 10"] */ .732
= ! 0.0065*F x 0.00941 psia /'F ey = 6.117 x 10-5 psia D. Instrumentation Selection Guide Formula (24 hr. Test)
O I 2400 ISG= t h 2 (b) P 2+2 ( #")2+2 P (O)' T 1 l 4 ISG= + 24 00 2 ( 3.60M04 ) 2 +2 ( A . 545x10 ) 2 +2 ( 0. 011 ) : 8h 68 68 535
l l Reactor Containment Building Final Report ! Integrated f.eakage Rate Test V. C. Summer Nuclear Station l l
/~
7 kJ INSTRUMENTATION SELECTION GUIDE Page 6 of 6 l 4 ISG = 100 [2(5.304 x 10-5)2 + 2(6.684 x 10 )2 + 2(2.056 x 10'5)2)w l
= 1100 [2(2.814 x 10-) + 2(4.467 x 10~") + 2(4.227 x 10 '$)" ) =
100[5.627 x 104 + 8.935 x 10~" + 8.455 x 10*]" ! I
= t 100 [6.562 x 10*]" =
100 [8.1 x 10-5) ISG at 24 hours = + 0.0081%/ day
,m.
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