ML20236S098
| ML20236S098 | |
| Person / Time | |
|---|---|
| Site: | Limerick  |
| Issue date: | 08/13/1987 |
| From: | GENERAL PHYSICS CORP. |
| To: | |
| Shared Package | |
| ML20236S077 | List: |
| References | |
| GP-R-312003, NUDOCS 8711240220 | |
| Download: ML20236S098 (156) | |
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~. }. .. LEAKAGE R; ATE TEST. FINAL REPORT
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. Submitted to f' ' , x- The United States Nuclear Regulatory Commission Docket Number 50-352 hiff.:
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' TABLE OF _ CONTENTS 1 1
1 1 L, ! I. - INTRODUCTION -
' ~
L . II. LTEST SYNOPSIS. L: ,
'III. TEST DATAL
SUMMARY
A. Plant Information J )
, . , ' B. ' Technical . Data - ,
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! C. 1 Type 'A Test Results -
D. - Low Pressure' Bypass . Test Results . E. ' . ' Type B and .C Test Results;
. F. Integrated Leakage Rate Measurement System
~ G. . Information Retained 'at Plant 4
IV.i . ANALYSIS AND INTERPRETATION- , y V.. :: REFERENCES 1 L VI.: APPENDICES - '
. .J A. . Stabilization
-. B. :: ILRT Summary Data i
, C. ILRT Calculations- {
Mass Point Analysis Total Time = Analysis
]
Trend Report
.;D. ILRT Plots -
, Tem perature . vs. Time q
. Pressure vs. Time l
Dewcell Temperature vs. Time LVapor Pressure' vs. Time Air Mass ys. Time
' Mass Point Leakage vs. Time Total Time Leakage vs. Time l E. . Failed Test Report - ,
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e : TABLE OF CONTENTS (CONT.) 'I 4 j F. Verification ' Test Summary Data )
- Summary Data j l
- Mass Point Analysis Calculations .
Total Time Analysis Calculations i .g - G. . cVerificati.on Test Plots t
- Mass. Point ' Leakage vs. -Time j f ,
Total Time: Leakage vs. Time j Air' Mass ~vs. Time i {
- II.- Instrument Selection-Guide Calculations 1 4
4 I. . Failed; Sensor' Plotsi . g .J. Low Pressure Bypass Test i K._
-Description of General Physics ILRT Computer Program L. , Local . Leakage Test Summaries m
t ii l j
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) % ' I.1 - INTRODUCTION Thei Reactor Containment . Building Integrated Leakage Rate " Type A" Test and the' Drywell Bypass Test are performed to demonstrate that leakage . through . the- ' primary reactor containment systems and i com ponents penetrating primary containment and drywell bypass l
leakage do not exceed ' the allowable leakage rates specified in the t Plant Technical Specifications. l The purpose of this report is to provide information pertinent to the activities related._ to the preparation, test performance, and reporting
.of- the Limerick Generating Station, Unit 1, Integrated Leakage Rate Test (ILRT) and the subsequent Low P' ressure Bypass Area Test.
The section of. this report entitled Test Synopsis "Section II" i presents the highlights of activities. and events which occurred prior to and during the ILRT. Test; Data Summary "Section III" contains data and results necessary to demonstrate containment atmosphere stabilization, acceptable leakage ~ rate, and successful verification test. In addition, plots provided in Appendices D, G and I supply a visual history of containment atmospheric conditions beginning with the 8-hour test period and ending with the verification test. Information in Section IV, Analysis and Interpretation, supplies some of the technical ' detail associated with the ILRT computer program and - its associated hardware as well as the instrumentation used during the ILRT. Section V lists the documents referenced for the conduct of the ILRT. 1
f i GP-R412003 GENERAL PHYSICS CORPORATION
- The successful periodic Type A and verification tests were performed according to the requirements of the Limerick Generating Station,
' Unit 't,: Technical Specifications and 10CFR50, Appendix J. The test method utilized is the- Absolute Method described in ANSI /ANS 56.8- )
1981, " Containment System Leakage Testing Requirements". Leakage rate was calculated using formulas from ANSI /ANS 56.8-1981 (Mass
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r, Point) and BN-TOP-1, Revision 1,1972, (Total Time) during the Type A and verification tests. Type A and verification test duration were l conducted.' according to the criteria of Limerick Generating Station, 1 Unit I, Plant Technical Specifications. The test results are reported in accordance with- the requirements of 10CRF50, Appendix J, Section V.D.3. i 4 2
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iWF y af subsSq..uentitofcomp_leting4 theEverification1 test Loni August 13, 1987, [A4Qg [LiinericlNGenersting KStation,-- 1 Unit 1,; site ' test ' andi -maintenance
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$63d Contairimenblealdge4was;identifiedithroughl the1 Type B ~~and .Cilocal;
$dhk TleAlingej,(ritej testingO programsRand f reduce'd' by1 repairs Itd - those
$ Met-lsysbr$siahdicontainment componentsf havingTexcessivecleakage.? 1The. i & w ii $n% b: p / y ? fmee-results(ofithe local leakagef rate tests are'given in A'ppendix'L.
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c : presents 7somei L.temsjthatWere essential highlightsb some -~of the to 'the successful-f, M egg ~s%f{atid[ timely %completionfofithef Type Astest." fThes x (hN [h $resenlediin!a[dhronolo'gicalforderland'are considere'd to
~ ' !W bNie'iduostS sign'ificantinctiviiies Jencountsred Tduring L test preparation ys W[" sanillexecutionb
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p? Q , ny; < > Ab { Pfei ressurination(Activities:
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- 3, Mtesting';; LTyhe AZ test procedu re . . review; final ILRT Performing.1 Type. B and QN " t l nsfrumentation[operabillity i
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checks; final'ILRT computer program u l 1 .modifications;:. containment. subvolume weighing factor E.y}* M , y1 calculation . check's; arid
' sensor- failure ' ; analysis; and. a bW. , containment area c temperature survey. . A few of these items I Tare!Idiscussedf : below. .to present pertinent Information that
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.y pllplp'm , ,16calileakagei rite testing at Limerick Generating Station, Unit
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,% ..1;1 began J several' Lweeks prior:- to the . start of the refueling
;ou tage.1 iThe a . results'. of this program are summarized in
.f ee( ., . , 1 , 'J ApperidixilMLocal Leakage Test Summaries".
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, LThef' ,' y'lT p, el Altesti procedur'el review ,was - conducted to ensure m'
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{ft . pg6 ' A? containment' area temperature survey;was ' conducted to verify- .
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ypropeh Lsensor? placem nt M as . required byl 1 ANSI- N45.4-1972 p}4 q , > L ffaragraphl7.4 andJANSI/ANS 56.8 paragraph 5.5.1. ,
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W .n FinalilLRTeinstrumentation operability checks.'were performed g< e
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i to l ens u re [t' hat i all, ins tru men tation J was ' opera tin g ' cor rectly. An RM:m s,-p lin fsitu3 check;f as? specified in ' ANSI /ANS 56.8-1981, Section
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- Two compressors" were running' 'at 85 psig. At 1948 hours
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y',m , m M %- : flooding' was discovered in the RCIC room due to a leaky RCIC 1steami exhaust : check valve. -The. leaky valve was isolated by 4 > 6M ' lcidingIthe Primary Containment Isolation Valve, .HV-49-IF060, 4u $ , ", : forf that' penetration :and the~ compressors wereL secured at 1957 g a: ; hours. The HPCI' steam exhaust- check valve was also isolated - / c' IbE) closing E the c Primaryl Containmen t Isolation Valve, IIV I
, 1F072ifor'that penetration at 2111 hours due to leakage.
w ll ' 4 Pressurization recom menced at 2300 hours at a rate of Compressor discharge valves were (ge w Approximately?5.2 psi /hr. (j ' manually. throttled to maintain back pressure and flowrate. a ' Aftercooler: cooling' water flow was- manually throttled to '! ,' o maintain compressor air discharge temperature at 750F. l m
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' JAtI00301 hours on1 August ll,1987, pressurization was . secured
[w ;' for; ail 0 psig. containment walkdown. Pressuri7ation- resumed at x ,0240ihoursjand, at:0700 hours, the HPCI steam exhaust check
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; valve 1 was ifond ..to' .be ' seated and was unisolated. At 0931 s -
hours the RCIC' steam exhaust check valve was unisolated.
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, ; At 0948L hours' ventilation} unit cooler tripping problems _ were s , identified. ' Investigation ~ showed that ..the unit- coolers . were-m w tripping ~ due! to increased current drain caused by the increased airi density at the ILRT. pressure. Post LOCA, the. atmosphere y ,
' wouldD notJbe)as dense due . to the presence of - steam and L Lwouldindtlposeta tripping' problem,' as reviewed by mechanical engineering. .
Ventilation was secured for the duration of the L, , ilLRT. : ; Containment-; test? press 6re was reached at 1030 hours u -arid,the com pressors's'ecured. C
, C.; f Containment Atmosphere'Stabili7ation AtL 1530, August 'll,1987, the stabili7ation criteria of' BN-TOP-1, Rev.;l,'were met and at: 1630 hours the stabilization criteria o 'of ANSI 56.8-1981, :section 5.3.1.6 were met. Stabilization data continued to be taken until 2000 hours, while HCU valve leak-age L problems. were investigated and reactor vessel level .was restored.-
f :Due to a. combined leakage of .26.4 gpm, the IICU vent paths v - , ;were isolated for the duration of the ILRT so that vessel level Ha could- .be -mainta'ined within administrative limits. Post ILRT stesting. revealed .that the method used to vent was inadequate to_ assure a full- differential pressure across the HCU check c valves, . preventing ' proper seating. Retesting of the HCU's
-under ILRT conditions and adequate. venting >ielded a total leak
, rate of 4.99 gpm which .is within the allowable limits of the
- Limerick offsite dose analysis.
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> f N D.i First Test Period (Test Failure)
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91eakage rateLanalysis _ began at 2015 on August 12, 1987. u , 1 gg '
.Byf 2200. hours lthe measured. mass point and total time leakage 1 rates had Lstabilized'atlapproximately 1.0% wt./ day.
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i y ' iln ves'tigation .. revealedL ' packing leaks on the following 1 Containment At'mosphere Control System. valves:
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. HV-57-104 HV-57-161
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, HV-57-1 14 - HV-57-162
.HV-57-123 HV-57-163
* ' HV-57-124- HV-57-164
, . HV-57-131
. l.eakagefNirough the above valves was arrested by tightening thel packing glands.- The valves were stroke timed and current
' readings- taken before and after adjustments were effected to assure' proper ' operation' This failure may have been attributed to plant modification 980 which replaced bearings on all the lpurgef and 1 vent valves. Local . leak rate testing did not reveal
' ~
1 M these leaks.. since the packings are not included in the test boundary as documented in NRC inspection report 50-352 open
' item 87-23-01.
, , PECO . is . addressing, this open item in conjunction with an analogous issue at Peach Bottom and will implement a l resolution- prior to res. tart following the second refuehng l
. ou tage.. , .
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'In iadd'tionf i to : repairing j those valves,Lthe IIPCI turbine exhausti vf V ' checkEvalve was again1 isolated; using the: primary containment 3
? O ', ' jisoldtion i valve LHV-55-IF072 ' L per. ;StationL : Procedure T-250,.
,7 Remote? ; Manual Primary Containment 1 Isolations. -The ,
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> penetrd. tion /was ' isolatedidue to .'s leakage past : the turbine - gland i
~ seals. . . Suchi. leakage . would not occur; during post - accident >
[C , Tco'n ditionsl.because:theLHPCI turbine is part of' an. ECCS s9 stem
'NW' 4 andf wouldi norm'allya be operating. Station procedure T-250.. , "L' '
iallows closure'of- the-, primary containment isolation valve if the
;HPCli system 1 'is; not1 operating under accident conditions.
LClosure?of E th'is IvalveNill1 be'. reflected in a future revision' to
' ,qg , i the. Ilmerick' ILRT surveillance ' test procedure.
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; Du'rin g - Lthel . stabilization and- the failed . test period mhtrumentation' was continuously. monito' red. Two dewcells malfunctioned ' 'an'd. fwere not used in tthe. leakage rate
!. , calculations. ' Their ; volume fractions were redistributed to s
adjacerilt ; ; sensors ' an'd ' the Instrument Selection Guide was g J t recalculated 1 Appendix ~ H).' . E. Second Test Period"(Successfdl Test)
. The ILRTawas restarted at 0500 on August 13, 1987. As the containment had been. at.. test pressure since 1030 on August 11,
,. 1987, another stabilization period was not imposed. Raw sensor idata{had! been recorded:and graphed since repressurization, and
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. containment conditioris were demonstrably stable. Printouts of s .'
,y 4 stabilization calculations performed on the four hours of data y
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prior to'the second ILRT, are included in Appendix A. r 7
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if ' gThelILRTA was'successfully completed ' at .1300 on August 13, G'
-1987.1::The maximum ' allowable leakage'. rate (La) for the primary.
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containment:is O'5% wt./ day: of ~ contained air mass at peak test: gm - pressu re. . The' ma's s . point'- and . total time analysis .were run 4 , > iconcurrentlyEon3 theiGeneral Physics ILRT Data. Management
- ' [ Computer: Program.c The'leakinge rate results follow:
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T. /Dalculated Leakage Rate 0.1272* 0.1164* P,3 1fromlregression line =
,_ 1
@m $ L95%LUpper Confidence- 10.1312* 0.1619* ' [ , fLimit J x ,', 1*- Doesinot; include penalties for nonstandard alignments and Lw'ater!!evel changes. i lAisuccessfuliverification flow test was conducted following the K ILRT. tith startediat.1400 hours on August 13, 1987, and was h fcomplIsted;;atl 11800 ; hours' on the same day. A leakage a ? equivalent L to LLa1(0.5% wt./ day) was . imposed on the existing 7
' measu redileakage. The results stabilized within the 25% La E ' acceptance, criteria and are summarized below:
Mass Point Total Time y < Analysis Analysis 4- _. .
. . Leakage Rate 0.6998 0.7026 3 1
i x, L i ' + Lam - 0.25 La . 0.4996 0.4886 I I I L i' +- La'm + 0.25 La 0.7496 0.7386 8 I 1' A _m___m_-_.c h
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]. . Subsequent to L the?ILRT and the verification test the drywell and : suppression pool were _ depressurized- to 4.1 psig, which co.rresponds to.: the approximate submergence of the downcomer
, 7- 1 ivents.n The drywell. was isolated from the suppression pool and
' f Wthen! the suppression pool .was depressurized. Drywell Bypass j NLeakageJ was' allowed to stabilize for 11 hour and at 0415 'on August -14,;:19872 the Low Pressure Bypass Test commenced.
.The test: was successfully ' completed at 0715 on 'the same day.
'The . maximum" acceptable' bypass area, as delineated by the LGS 4 ^~
JTechnical. Specifications is equivalent .to an orifice size of 0.005 L ft2.1The' calculated' bypass. area was 0.0000513 ft2, 4 III.- TEST DATA >
SUMMARY
2A. Plant Information Owner Philadelphia Electric Company Pla'n t Limerick Generating Station,
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. Unit 1 Location - Pottstown, Pennsylvania l Containment Type Mark II I' NSSS Supplier, Type General Electric, BWR i Date Test Completed August 13,1987 B.! ' Technical Data -
; 1.= Drywell .
w LNet Free Air Volume 248,390 cu. ft. Suppression Pool -
- Net Free Air Volume 148,961 cu. ft.
Based on level'at test 9 l s
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Design Pressure, P 55 psig w ' a f, ; 3. -.' : Design Temperature, T 3400F y d4.; ' Calculated. Peak ~ L 44' psig
- Accident Pressure, Pa w~ '
- 5. - Containment ILRT. 60-1200F e_
7 . Average Temperature J Limits-
> .6. - . Calculated Peak. .3300F
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- Acicident Temperature. -
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- l C. I. Test Resultd- Type A Testl (1.1 .LTest- Method; Absolute g: ' 12. - Data Analysis' Mass Point Technique (per ANSI /ANS 56.8-1981)
Total Time (per BN-TOP-1) h
- 3. . Tes't Pressure 46.0 psig
- 4. . Maxim um 4 Allowable 0.500 wt.7c/ day k Leakage Rate, La
; 5.c 75% of La 0.375 wt.9c/ day j'
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- 6.L fIntegrated Leakage Rate 0 ;s Test Results (wt.%/ day) vif Mass: Point Analysis:
- a. Calculated _ Leakage
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Rate, from regression-line, Lam 0.1272
- b. - Upper 95% Confidence Limit :
0.1312 l: Total-Time' Analysis: 4' >
- a. Calculated. Leakage Rate, from regression- 1 line, Lam - 0.1164
- b. - . Upper 95% Confidence 1 Limit 0.1619
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! 7. - Verification Test Imposed: 5.82 scfm i
Leakage Rate (Li) . (0.5 . w t.%/ day)
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.-8. - Verification Test Results 1 (wt.%/ day) l P
Mass Point Analysis 0.6998 ] Leakage Rate v, 1
- Total Time Analysis 0.7026 1 i
p ' Leakage Rate 11 l 1 4
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- 9. ... LVerificatiorr Test . Limits' jwt.%/ day) ,
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- s. . Mass PointiAnalysis-l a. ; Upper Limit ;0.7496
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. i +. Lam .+ 0.25 La):
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, 'b.i . LbwerTLimit ~ 0.4996' fy
' (Li . + Lam -_0.25 ' La) ;
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. , JTotal Time ~ Analysis :
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ar iUpper Limit- ' 0.7386
' (L 1'+ . La m i + O.25 La) ]
' b.
' Lower Limit. 0.4886.
- (Li +' Lam - 0.25 La)
- 10. _ LReport Printouts -
n The Report . Printouts of the Type A and verification test L-
; calculations 'are provided -for the Mass Point and Total
; Time Analysis (Appendices B through G). ~ Stabilization
- data is also provided.(Appendix A).
l DA ' Test Results - Low Pressure Drywell Bypass Area Test j b ! 1.- (Test Method' Absolu te 2.: ' Data Analysis Technique. Total Time per Procedure IP-59.2, Appendix N 12 , l
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Drywell' I8.5 psia , s s-Suppression Pool 14.9 psia i
, 4 5 4.:. Maximu'm1 Allowable 0.005 f t2
? Bypass' Area
' 5. -
Calculated Bypass Area .00005133 ft2 F ; 6.- / Report Printouts The Report Printouts of the Low- Pressure Drywell Bypass Area 3
' Test'are included in =
Appendix J. i 1 h EU LTest Results - Types B and C Tests 1
'A summary. of -local- leakage rate test results since the preoperational ILRT in 1984 are included in Appendix L i i
I f 5 ; F. !Jntegrated Leakage Rate Measurement System ;
- 1. Absol'ute Pressure (2 Sensors) l
, Range 0-100 r Accuracy 0.0. .o of reading 1 n
Repeatability - 0.001% F.S. / , Sensitivity 0.001 % F.S. j
? Resolution 0.001 psi l
, , Calibration Date , July 18.1987 Serial Number 82ST 13 l
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JAbsoliste pressure was_ measured .by two quartz manometer g ,' precision l pressure gauges.. n' 4, L2. Drybulb T.emperature (17 Sensors) ( , 4 Range 60-1200F n . Accuracy f : 0.l oF - ,, , ' Repeatability _ 0.019F Q ~ Sensitivity , 0.0loF LResolution 0.010F Calibration Date May 27,1987 Serial .Nu m bers 17350 17359 17365 17351 17360 17366 x 17352 17361- 17367 F 17353 17362 17368 r 17354 17363' 17369 17355 17364 i
.Dr~ybulb' temperature was measured- by seventeen platinum ;
; element; resistance temperature detectors.
- 3. Dewpoint Temperature (9 Sensors) l
~ 7 Range _ 40-1000F Accuracy 0.540F Repeatability' .
O.010F
. Sensitivity 0.l oF y Resolu tion- 0.010F l Calibration Date May - 27,1987 0 ' Serial Numbers 1783 1854 1872
, 1788 1860 1873 1847 1866 1875 14
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?-g 'il , 'De;wpoint temperature was' measured by .nine chilled ; mirror 'I i
', e hygrometers.
f -l' y' , 14.1 Verification Flow;(1LChannel:plus:1 Sparel { q;' fg Flow Meterland liidicators .; 1 k ' ;,;; )
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iRange: 1: to' 15 scfm at'44L psig- - of l ., ' T Accuracy ' .? 1% FS l
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,7J Repeatability 1 .25% FS !
' Calibration' . Date ? March '19,1987 1
- 4 FT-N004-01, FT-N004-02
+ g. " Serial Numbers c p
l- / I
- 4
? ^
!5.- f0verall Instrumentation' Selection Guide (ISG) Value from
- m. ,
...2 ANSI /ANS-56.8-1981: based on ILRT instrumentation and an eightLhourntest'.= 0.0'1196% wt./ day (see Appendix II for 4
Calculations). - ]t
, 1 f a
;l i
4 J
.. i L. '
q.- , I 15 I I l l 1
g ,;;y
,r . ?, ' , * - ,f f,i <
4 7g .p. y, 7 , , ljf h f IV - y J iGP R2312003.i E GENERAL PHYSICS CORPORATION
, .. w N
, 1 T.:: ', >
- 6. . i SensorLLocations and Volume Fractions
- q '
'; j ' '.
, DRYBULB (RTDS)-
~
m <
~ '
, -Distance 2
From Volume Volume ,K : Sedsort ' Elevation ~ ' Azim u th : Center Eractions Fractions D >"No." '(ft)- (denrees) (ft) '(Procedu re) (ILRT)
%>9u ,,
.fTE-0I5d .
.3331 .240' 17: 0.0220 0.0220 N , iTE-015 BlJ (317l :12 16' O.0240 0.0240 iTE-015C " ; 317.' ~ l 65. 16' 0.0250 0.0250 I TE-015D l 298.. ' O. - 20; 0.0460 0.0460-x (TE-015Ei e 13'0 11 ,
18l' .18 0.0460 0.0460 4TE-015FS
- J245 0 0- 0.0200 0.0200 TEf015G: l250 , -169 26 0.0870. 0.0870 j s :TE-015H:: c267. I65- 20 0.0870 0.0870 !
TEk0.151C 1265 340- 24 0.0870 0.0870 h MTE-015J 2 248 235 26 0.0880 0.0880
- ,TE20 15L! 245L 37 24. 0.0870. 0.0870 1: TE-016A .P 227- 145 At Catwalk 0.0630 0.0630 LTE416B :227 116: tat Catwalk 0.0640 0.0640 STE-016Cf ' 227L 168 ~ At Catwalk 0.0640 0.0640
<- TE-016D J 1227 239 At Catwalk 0.0640 0.0640
;TE-01. 6 E- 227- 305 At Catwalk 0.0630 0.0630
" LTE-016F; 227L 12 , At Catwalk 0.0630 0.0630
)
. l
/
y
+ .
1 l e r 16 ; I s i E * .l. -..u. - _ _ . _ _ _
p, cy ( , , i . , 4 L GP-R-312003 ' . GENERAL PHYSICS CORPORATION l DEWPOINT 3 L. . y'
- N Distance i
From Volu me Volume
,.g-Sensor ^ Elevation: Azimu th Center Fractions Fractions LNo.; (ft) (decrees) (ft) (ILRT)
'( (Procedu re) ,
? 11
-.' . /-M E- O l 5 A L 317. '12 16 0.0710 0.0710 sM E-015 8*- :245 37? 22 0.1520 0.0000. i
" ME-015C 2266J :167- 22- 0.1520 0.2275 iME-01SDL :265 340 22 0.1510 0.2275 a iME-015 E - :299 'I3 20 0.0460 0.0460 f >ME-015F L301: 181 18; 0.0470 0.0470
< TME2016A .227i 16 At Catwalk 0.1270 0.1905- 1 E ME-016 B* 1 -227 249: At Catwalk 0.1270 0.0000
, .:M E .016C ~
'227; -169 At Catwalk 0.1270 0.1905
*1 Malfunctioning sensor - not used for leakage rate calculations L .
's s - G. 'Information Retained at Plant g,
The following. 'information is available for review at the i
~ facility:
l.- L Access control procedures that- were established to limit ingress;to containment during testing. / ?
- 2. A. listing of ~ all containment penetrations, including the m total number of like penetrations, penetration size, and
]
p? function. , J b J t i L 17 i h ) I
. i l
l l
- 1:
M , Q U[ f GPiR-312003 GENERAL PHYSICS CORPORATION i i
- 3. A listing lof normal operating instrumentation used for the ~l
' +
leakage rate test.~
.. . a 4 4.- ' A isystem . lineup'.(at time of. test), showing required valve ! , positions' and. status 'of. piping systems.
5.. A. continuous, sequential log of events' from initial survey p
- of containment'to' restoration of all tested systems.
- 6. - Docu m en tation - of instrumentation calibrations and I i standards.
L q'
? 7. . Data to. verify teniperature stabili/ation criteria - as established' by test procedure.(Appendix A).
- 8. The working ~ copy of test ' procedu re that includes signature sign 'off of procedural steps.
9.. The: procedure - and all data that verifies completion of penetrations and valve testing (B&C-type tests), including ' as-foundl leak rates, corrective action taken, and final leak rate. :
- 10. Computer printouts of Integrated Leakage Rate Test Data l and automated data accumulation along with summary 1
.i description of computer program (Appendices B and K). q l
- 11. The Quality Assurance audit plant or checklist that was i 1
used to monitor ILRT with proper sign-offs. j l
\
l 18 j i I I I
- _ - - . 1
y - _ - - _ - - - - _ _ _ - - _ __ _ _ e ,, + l 7' 1 a <w m , j N , 1
e j, i 1
L GENERAL PIIYSICS. CORPORATION ) iGP-Ri312003L R ac ' . y . 1 ' q;}Gf s [
^~, i.12. "A' :listingL :off all test exceptions- including changes in f, *:
containmen t system boundaries ' .institu ted by licensee to l 0 . conclude successful testing. w"a y .
- 13. Description of sensor : malfunctions, repairs, and methods used to. : redistribute volume fractions to . operating -
[
- instru mentation.
,141 A' review of ? confidence' limits of test results with -i
, M lacconipanymg computer printouts' where applicable, j
; < q
- , 15.' Description of . method of leakage rate verification of l instrument measuring syi. tem -(superimposed leakage), with )
b - calibration information of' flowmeters along with ' l $ 'uf '
' calculations' that were used to measure the- verification "I T ' leakage. rate (Appendix F).
1 i e . i [ :16. : Plot presenting _ ILRT data obtained during the test
- (Appendix D).
s 17.L The.P& ids. of' pertinent systems. cv 1
'IV. ? ANALYSIS AND INTERPRETATION Several correc'tions' must be added to . the calculated results of the 4, Unit l .ILRT.
- u' '
3'
)
f'
' A. '- Type B&C'Penaltie's- ;
l E Several corrections must, be added for valves / penetrations which l were not in their normal post-accident condition: I 19
'/ .,
= - 1
r-e g.g p , e
=
c,. w y, s
'4; >l
,7 W. . &
&pi a < .
~ !
w - y, , ' ftS ' ,
.m .. ....
4 ' LGP-R2312003? ' ~ 1 ' GENERAL PHYSICS CORPORATION U( . 9 A7 : Pe'netration L Descriotiort_ . Leakage (SCCM) l a _ X-400 ; .. . ILRT. pressure sensor 40.05 dp 4 . _
,J 'X-227s ^ILRT. pressure sensor 10.8i Vg%
h< LX-53 Drywell Chilled Water 146.60 N <> .. . . q 4 i p LX-54% .Drywell Chilled Water 188.20 p ,
- c. -J L X-55 -- 'Drywell Chilled Water 90.40 evt. ,
&. :X ' Drywell Chilled W'ater - 5'78.20 ej y y .
' X-230 B -
LT-61 -135* 20.00 l L.
. X-29A' PI-41 -I R001 ** 20.00 t 1095.00 SCCM
, twhich equates to an addition of .003452 %wt./ day
{ . . . . cLT-61-135 L was isolated during the ILRT due to excessive l W Lleakage at the; transmitter. This transmitter was installed l during thel foutage under plant modification 185. The l transmitter; was subjected to leak testing following repairs and a leakage of:20 scem was assigt.ed.
** .PI-41-IR001, reactor vessel head seal, was found to be not ;
properly valved:in to assure ILRT pressure present at the l transmitter. Valves required to be open by the ILRT
' " 1
- procedure had not been positioned prior to containment
,4 . pressu rization. The penetration was leak tested and a leakage of 20 seem assigned.
20 3 ____b
7- g, ^,. ~ 2: zg l , m .,.
~ ;:n y pe
'. " Q' , . , I bYR . . l ~ , .
- 2. ~^.. , ?
f L , '"JGP-R-3.120031 GENERAL PHYSICS CORPORATION d4 -c..
- q-
!.y 4
- B.i LVolu'me' Change Corrections
((< r .
.s il.. ?R'eactor; Vessel-Le' vel !
a e > W .;; N t v Level at start of.' test
= 85" l
- l A < h. Level atend.'ofitest - = 78"
-7" Difference . =
3 A i
, : Free air volume increase' = 200.2 ft'3
~
y4 s (28.6' ft3 /in.)
? . Correction ' = 4.1497 %wt./ day bh;GP5312003I L GENERAL PHYSICS CORPORATION I . . i D , - 3. - HCULAce'umulator 'in- '0.0122 % 0.0122 %
leakage corrections-
'J' L(%wt./ day)
.c
- 4. : Corrections for . valves 0.003452 % -0.003452 %
e , not in Accident Positions . ;
., fr6m. Appendix'.N of ST- .i
' l-060-490-1. (%wt./ day) ~ I
;5i "As Left" leakage rate 0.146852 % 0.177552 % )
. :(%wt./ day) (Total of ]
11 1 itemsil- through 4) { E '"As Found" Evaluation :of the' Containment w Thei"As LFound" ILRT has ~ been considered a cfailure for this
. test due lto' an offscale local leak rate test. During the refuel v
. outage, D main . steam (penetration X-07D) failed local leak rate
]
- tes tin g. . '.Both the . inboard ' and ~ outboard main steam isolation 0- [ -valves: had. seat -leakage which' exceeded 150 SCM (offscale).
This' failure; was- reported in' licensee event report 87-18.
. Repairs were : executed and ~ leakage was restored to an ;
' acceptable amount prior to the ILRT.
l
- - 1 I
g , -LV. REFERENCES-A.' Limerick Generating Station, FSAR.- ) 1
- B. ' Limerick . Generating Station, Technical Specifications. )
23 4 {:' l . - r . .. t ,s .
w e GP-R 3120031 GENERAL PHYSICS' CORPORATION
' C. ' ?LimerickTGenerating Station, Procedure .ST-1-060-490-1, .Rev. I, Integrated Leakage Rate Test Surveillance. Procedure.
g , t' f b . , _
' ? D.( Code:. of Federalt. Regulations, . Title .10, Part 50, Appendix J,
~
PrimaryfReactor- Containment Leakage Testing for ' Water Cooled Power ' Reactors.
- g. .
E. :- - ANSI / INS L56.8-1981, Containment - System. Leakage Testing Req'uiremen ts.1 4 F. . Bechtbl - Topical ; Report . BN-TOP-1, Testing Criteria for j LIntegratedi . Leakage. Rate, L Testing of Primary Contain ment
. Structures for Nuclear? Power Plants, Revision 1,1972.
-c e G. Lime' rick': Generating 1 Station, ProcedureD T-250, .Rev. 7, Remote Manual Primary Containment Isolations.
H.' . LLicensee Event H Report, Limerick . Generating Station Unit I, e Docket 50-352, Report Number 87-018. e, s l.- t c- ! 4
+
1 [;' ; 24 % S
.r.->.,4' -
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(,:yMwy<w w@a e u,. >py ?
+ d, '.s,f L%i-e..,.:-
t e I:. m > e a.* w .v.. ;. ,, p yn ,. s ;. ,.,p.
;:M 'i-..,, :; y y' . , , -'
a, e;if n'[y. f .[N,h
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- 7 . Id l' l
(.3, :o r. .. ' ' (M,n.<,y;pp; sa .m. .s rD , r s-
...4.:..., .
s- ,
. GENERAL-PHYSICS CORPORATION f , %,. GP-R13120037 f
i -. , . < ~ ,
, f ', , #
'{?
, I
,43 ,':'("}^
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, '-;(ap' 4 .'. s . 5
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t , v.:, sk .? - 3 5 c.; , l j . n ; e; 5'Y nf jly,, ' ' g :. 3 i , w ,,'r +
, 4 w ..,
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t L f ,, , , y M -' ; (.,. .-v_.
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- p. r< ;e\ ^p m:s ,, ,
? APPENDIX ^
e e ) 4
?W n? , , . . .- STABILIZATION
SUMMARY
. DATA-
. j ..m t ,,
t 4
.,Jr.e
, ,qg g,
,,,,y *> r ,
, ' ..'f,F
..,3...
Q .I i y 1 f' '~I +'! gL 3 :.. I
- 7 . ' ' '$. " g
, A'p' r,.'1'r ' g f gj 1,, -
4
'- p g,q.,g-E i r',' $. t jy > 1y.
/
.i '
e ,
. . i _y -
,, i g ' . ) _',;.
. . . ._,[ >:
N i > . 'i 3 1.< b LI-r .s. ,-.s' N ' h ' ,.$
?_'
t -
? .s ,~' C N
?llg 7 r - - t ( e'. g.-%' y h. [c, t
}n', ^p .# I g h, ' t .,-,)
i . l ', 1
'4 i ' . j, ;I 4 .
k -?g-
.p r
,q 4...
4',' 1 . I 1
. 1,:/ v e
, I t-( "
y T 1 9 Ii y k I
$,..-.-' .?jl .'$., l*
's,{
e*'C'., [ , h , .; - a. ) c ', . .
.',.y't; e
.r a,-
7 :*g-3 7- r , t I . 3- f 1 1 r)r', '
. > 9'
'.' ,g
%. .c A-1 F
t I'-]. - r
)
i $
"f .[ -
hanJ6.E-lmA.l_.---- -- -a.--a.J, '
m- - n
, g.
, ;' M. s
, N: -{ __ n > -l v ' l;:(.. /;} sp >
>r
'BN-TOP-1 STABILIZATION CRITERIA
, iTIME. TEMP BN BN r $ dT dT2 c,; r20.'00' .87.7927 0.2762- 0.27'44
))i 19.75? .87.7318 0.2752- 0.2777
,, j i9. 50 87.6662 0.2779 0.2803' j 19.25 :87.5954: 0.2718' O.2775 ;
M l< & 19.00- 87.5224 0.2779 0.2772 l 18.75 87.4604L 0.2812 0.2823. ;
/ ;;- L 1 8,. 5 0 - '87.3762 'O.2528 0.2651
^
18L25' '87.-3096 0.2529- 0.2631 l 1 1iB . 0 0 87.2440 0.2280 0.2528 l
- 17c75 87.4763 0.2289. O.2478 17.50 207.1056- 'O.2225 0.2392
.17.25 87.0404J '. 0.2093 0.2299 s
i '1'7.00 >
'86.9679 0.2452 0.2334 j '16.75
, 86.8958- 0.2972 0.2478
' 1 6'. 5 0 - 86.8459 0.3524' O.2808- 1 1 116.25. 86.7834- 0.3982 0.3103
~ 16. 00- 86.7384- 0.4076 0.3400
.;15. 75 86.6808 0.4118 0.3619
'15.50 86.6273 0.4005 0.3807 15.25 86.5805' O.3869- 0.4010 1 15.00' -86.5011 0.3864 0.4090 14f75 86.4001 'O.4210 0.4200 J14.50' -86.2844. 0.5423 0.4606 t 14. 25 86.1628 'O.4848 0.4480 i 14.00 86.0584- 0.6926 0.5310 13.75 85.9569 0.0000 0.0000 13.501 85.8658 0.0000 0.0000
'13.25 85.7786 0.0000- 0.0000 13.00 '85.6831. 0.0000 0.0000 1 12.75 85.5600- 0.0000 0.0000 12.50 85.3633 0.0000- 0.0000 1 12.25 '85.2669 0.0000 0.0000
.12.^ 00 L 84.9963 0.0000 0.0000 e
i 1
---------------ACCEPTANCE CRITERIA--------------- $
1-l
- MINIMUN FOUR HOUR STABILIZATION
- BN-dT-( 1.0 DEGREES F
- BN-dT2 ( 0.5 DEGREES F 3 l
1 I wa_ _
y 77 m;- x- , ; L #A , 1 E + l
.? , <
'W ,_ i
\
t ' i. h I STABILIZATION ANSI 56.8- i n "
' TIME- . TEMP. 56.8 '56.8 . PRESS-- 56.8 11HR- 4 HR dp
<* F/HR
, F/HR PSI /HR
,r 4 7 U *? - "
/20.00f ' 87.79- ,0.27 0.07: 60.53 .0.0003
~
10.0016
. L19.75- :87;73: O.27 'O.07 60.53-gy NC 19;50 87.67 ,0.291 - O. 07 ' 60.53. 0.0010
, 19;25: 87.60" 0.29. 0.07 60.53- 0.0022 '4
- 19/001 87.52 0.28 0.07. 60.53 'O.0016
"., -18.75: -87.46 0.' 28 . O.07 60.53 C.0014 !
w,
, .18;50" '87.38 ' .O.27 0.07 60.53 0.0023 i a i j -118.25- 187.31 O.27 ;O.07 60.52 'O.0017
- n ', '
" 1 <8. 00 7 :87.24' O.28 0.07 60.52- 0.0008' l
[ f- l , ~ g; 17.75-17.504
- 87.18'
.87.'11L O.28 O.26-
-O.07 O.06 60.52.
60.52-O.0032 O.0019-W '
,* 17.25 t87.04' 'O.26' d.06 60.52- O.0018 e~' '
1'7.00 86.97. L O. 23 : 0.06 60.51 0.0018 I sq , 316.75, {86.90 0.21' O.05 60.51 0.0016 av ' l16.50 ?86.85 0.22 0.05' 60.51 0.0014 16.'25J 286.78 0.20 0.05 60.51 .0000-16.00 86.74' O.24 'O.06 60.51 0.0009 15.75' 86.68 .0.28' O.00 60.51 .0000 i 15.50~ -86.63 0.34 0.00 60.51 0.0015 o . 715.25. '86.58 0.42 0.00 60.51 0.0259 [' 11 5.00 ~ o86.50' O.44 0.00- 60.48 0.0268 h ,g 14.'75- 186.40 0.44 0.00 60.45 0.0291 - h, 14150 ~86.28 0.42 0.00 "60.42 0.0053
% 614.25 86.16_ 0.38 0.00 60.42 0.0066
.14;00 86.06- 0.38 0.00- 60.41 0.0060~
U. , '.13.75 ' 85.96 0.40 0.00 60.41 0.0049 (13.50- 85.87: 0.50 0.00 60.40 0.0011
.'13J25- 85.78' O.51 0.00 60.40 0.0026
'13.00 85.68 0.69 0. C' 60.40 0.0037 E :12.75- 85.56- 0.00- 0.00 EO.39 -0.0000 F .12.50- '85.36 -O.00 0.00 60.39 0.0000 12.25 85.27' O.00 0.00 60.38 0.0000
'12.00 85.00 ~ 0. 00 0.00 60.36 0.0000 t
1
---------------ACCEPTANCE' CRITERIA---------------
E '
- MINIMUN FOUR HOURS STABILIZATION
- ABS (FOUR HOUR AVG TEMP - ONE HOUR AVG TEMP)(=0.5
~
n ' *LCHANGEfpRESS. ONE HOUR / CHANGE TEMP DNE HOUR) =0. 014 i
qm=m- x >e , (,
;. , g';
r - 3 - - - r L s Y
+ . v,
~ ' '
pe ,ss;i;ye 4 *s4 's-
. I .
, in ' '
o
, '!_'- o 'l
- m
- l l!( , ,
, r
- 1 a:-
. i} ' '
', f f n
/ j- ,!l --
, r , ,
l,i j
' ; '.'i ,
3 ,&,*. i y;;. s _ : :. ' BN-TOP--1 STABILIZATION CRITERI A : TIME; TEMP
- BN -BN
- d. , " , , dT dT2 a< .
< 4~. 75 -' -92.3082- O.0926 0.0880' 4.50. 92.2817 C.0916 0.0860
'4.25 -92.2720 .O.1039 0.0970 i ' 4. 0 0 ' '92.2477 O.1006 0.0967 l
' 3.' 75 -- ,92.2226' ,0.1120 0.1008 e .3 -3.50 '92.1976' 'O.1077 0.1007.
@< V ;. 3. 25 .92.1S25. O.1085 O.1066
'3.00-
;92.1581: 'O.0996' 'O.1046 l C O.0808 0.0970
~
2.' 75 ~ 92.1322-
, '2.50: .92.1097 O.0000 C.0000
. , 2. 25 -- 92.0781- O.0000- -O.0000
> 2.00 ' 92.0543 0.0000 0.'0000 1.75- 92.0210 0.0000 0.0000 A .1.50 91.'9962 0.'0000 0.0000 m .1. 25 ' .91.9693 0.0000 C.0000
-1.00 91.9490 .0.0000 C.0000
-C. 75 : '91.9382. O.0000 0.0000
' ---------------ACCEPTANCE CRITERIA---------------
- MINIMUN FOUR HOUR STABILIZATION a- ,
*.BN-dT ( 1.0 DEGREES F
- BN-dT2 ( O.5 DEGREES F y
1( 5 # i
pv,s
;g -
y- - sc - ,
% di '^; >
j
~p.y_. _ . , o ,
- 6
- g. , t I de W: q ,
G i +L , h >V:o R;y,v , W- ,,
,C/P , ?? '
ki i: 3 %.l0:' TCt' . STABILIZATION ANSI 56.8 '
!,3 M "'
..., .'. TIME. sTEMP 56.8L :56.8 PRESS. 56.8 1' 1;HR' 4 HR dP L N F/HR F/HR PSI /HR 4
W 4.L751 592.31 O.09 O.02 60.62 0.0020 L4'.30 - '92.28- 'O.08 0.00 60.62 0.0013 4.25 92.27 0.09 0.00 '60.62- O.0035 4 . 0 0'- 92.25 [0.09 0.'00 60.61 0.0020 3.75' 92.22 0.09 .O.00 60.61 0.0021.
;.- g ,
s 3.50. 92.20- O.09 O.00 60.61 .0033
- 3.25', 192.18- 0.10- 0.00. 60.61 .0006 H, 13.00i 1 L92.16 O.10- O.00 60.61'- O.0023 2.75: 192.13 0.11 0.00 60.61- .0002 2-2.50 92.11 0.11 O.00 .60.61 0.0004
'2. 251 '92.08- 0.11 0.00 60.61 0.0029 1 c 2. 00 - .92.05 .O.11 0.00- 60.61 0.0010 1 1 .17 5 92.02 0.08' O.00 60.61 0.0008
; l'. 50 : .92.00 O.00. O.00 60.60. O.0000 p -!1. 2'5 - 91.97 0.00 0.'00 '60.60 0.0000 hp 1. 00 z- 391.95, 0.00 .O.00 60.60 0.0000
.O.75 91.94 0.00 0.00 60.60 0.0000 l
j
- ---------------ACCEPTANCE CRITERIA---------------
- MINIMUN FOUR HOURS STABILIZATION )
. : *: ABS (FOUR-HOUR AVG TEMP - ONE HOUR. AVG TEMP)(=0.5 j
- CHANGE PRESS. ONE HOUR / CHANGE TEMP DNE HOUR) =0. 014 l 4
1 w r L i.: l l. b ! _a u_ __ __
o pw, m '
, . [')[; ,
k :;GP-R-312003 - GENERAL PHYSICS CORPORATION ii
-9 h; .~
r
.1,..
APPENDIX B
- ILRT
SUMMARY
DATA k h. g. t i': t B-I
rmm7m - n ; 1 b 11 l' 1 1 , i i i L' l i s 0 AVG.' DATA VALUES UNIT # 1 i 4 1
.I
,DATE TIME' -T(I) P(I) DT(I) VP(I) M ASS ( I)
( b '225 '5.00 c92.33 60.62 .79.96 0.506 121081 192.'35 l Q - 2252 5.25: 60.62 79.99 0.507 121078 3 I- 92.37;
'225 5.50 60.62 80.04 0.508 121074 4 c r
'225- 5.75; 92.39 60.62 80.09 0.508 121074 l
'225 6.00 92.42 60.62 80.12 -0.509 121073 1 i 125 6.25' 92.44 60.62 80.16' O.509 121070 l 225' 6.50; 92.46 60.63 80.21 0.510 121069 l 225- 6.75' 92.47 '60.63 80.26 0.511 121068 !
225 '
'7.00 92.50 60.63 80.29 0.512 121065 I o-225-- 7.25 92.52 : 60.63 80.35 O.513 121064
- h. L225 '7.50 92.54 60.63 ,80.39 0.513 121061 E '225 17.75 92.56 60.63 80.43 0.514 121062 225 8.00 92.58 60.63 80.50 0.515 121058 225 L8.25 92.60 '60.64 80.53 0.516 121058 l225 8.50 92.61 60.64 80.57 0.516 121057
-'225' . 8. 75 : '92.62 60.64 80.63 C.517- 121057 225'E 9.00- 92.63 60.64 80.68. 0.518 121058 225: 9.25 92.66 60.64 80.70 0.518 121057 n 225' 9.50 92.68 60.64 80.79 0.520 121052 225. 9.75 92.71 60.64 80.80 0.520 121050
'225 10.00' 92.72 60.65 80.86 0.521 121049
' 225- : 10.25 92.73 60.65 80.92 0.522 121047
'225 110.50 92.75 60.65 80.99 0.524 121045 1
. 225 10.75 192. 77 60.65 81.05 0.524 121043
[ 225! 11.00' ,92.78 60.65 81.14' O.526 121042 l .225 11.25- -92.30. 60.65 81.18 0.527 121040 225: 11.50 92.82. 60.65 81.23 0.528 121037 225 11.75 92.85 60.65 81.26 0.528 121036
- 225 12.00 ?92.87- 60.65 81.34 0.529 121033 225 12.25 92.89 60.66 81.34 0.529 121033 I 225 12.50 92.91 60.66 81.46 0.531 121030 225 12.75 92.92 60.66 81.49 0.532 121029 225 13.00 92.94 60.66 81.54 0.533 121025 l
.micku _ }
i E.? e e
SUMMARY
OF MEASURED DATA l LIMERICK 1 I I
~DATE '225 TIME: 13:00 l I
l l TEMP RTD' # 1 = +122.040 DEG. F TEMP ~RTD # 2 = +130.000 DEG. F TEMP RTD # 3 = +129.370 DEG. F TEMP RTD #. 4 =i+114.410 DEG. F TEMP RTD # 5 = +117.870 DEG. F TEMP RTD # 6 = +88.508 DEG. F TEMP.RTD J# 7 = +89.305 DEG. F TEMP.RTD # 8 = +95.024 DEG. F TEMP.RTD # 9 = +88.185 DEG. F TEMP RTD # 10 = +92.193 DEG. F TEMP'RTD- # 11 = +87.065 DEG. F TEMP RTD # 12 = +84.367 DEG. F TEMP RTD # 13 = +83.323 DEG. F TEMP RTD # 14 = ' +83.918 DEG. F TEMP RTD # 15 = +84.487 DEG. F TEMP RTD # 16 = +84.497 DEG. F TEMP RTD # 17 = +84.196 DEG. F PRESS GAUGE # 1 = +60.253 PSI PRESS GAUGE # 2 = +62.069 PSI DEW. TEMP CELL # 1 = +78.213 DEG. F DEW TEMP CELL # 3 = +78.326 DEG. F DEW TEMP CELL # 4 = +78.443 DEG. F DEW TEMP CELL # 5 = +78.785 DEG. F DEW TEMP CELL # 6 = +96.875 DEG. F DEW TEMP CELL H 7 = +84.167 DEG. F DEW TEMP CELL # 9 = +84.584 DEG. F AVERAGE TEMPERATURE = +92.944 DEG. F AVERAGE PRESSURE = +61.191 PSIA AVERAGE DEW TEMP = 481.542 DEG. F AVERAGE. VAPOR PRESS = +0.533 PSIA
p . . q 4 1 4 l Ex n - E a 4 , T, l i 1
SUMMARY
OF MEASURED DATA 8 L J '
)
; LIMERICK 1 i-DATE: 225 TIME: 12:45
. TEMP RTD: .# 1 = +121.930 DEG. F
- TEMP RTD. # .2 = +130.020 DEG. F
. TEMP RTD- # 3 = +129.360 DEG. F
, LTEMP RTD #- 4 =l+114.360 DEG. F TEMP RTD #. 5 = +117.810 DEG. F TEMP RTD # 6 = +88.487 DEG. F F TEMP RTD # 7 = +89.282 DEG. F TEMP RTD # B = +94.989 DEG. F TEMP RTD #- 9 = +88.163 DEG. F
- . TEMP RTD # 10 = +92.146 DEG. F >
h I '
. TEMP RTD # 11- = +87.036 DEG. F l TEMP RTD #.12 = .+84.353 DEG. F -!
b TEMP RTD # 13 = +83.352 DEG. F TEMP'RTD # 14 = +83.911 DEG. F
' TEMP RTD # 15 = +84.472 DEG. F I TEMP RTD # 16- = +84.498 DEG. F p , . TEMP.RTD # 17 = +84.204 DEG. F PRESS GAUGE # 1 = +60.251 PSI I
i
' PRESS GAUGE # 2 = +62.068 PSI 4
i , DEW TEMP CELL # 1 = +78.184 DEG. F h DEW TEMP CELL # 3 = +78.306 DEG. F
' DEW-TEMP CELL # 4 = +78.338 DEG. F
DEW TEMP CELL # 5 = +78.767 DEG. F DEW-TEMP CELL # 6 +96.579 DEG. F
) =
I DEW' TEMP CELL # 7 = +84.121 DEG. F DEW TEMP' CELL # 9 = +84.591 DEG. F AVERAGE TEMPERATURE = +92.923 DEG. F AVERAGE PRESSURE = +61.189 PSIA AVERAGE DEW TEMP = +81.490 DEG. F AVERAGE. VAPOR PRESS = +0.532 PSIA l 1 l i
~ ~ = _
e + . i: 'q . _ 1
, \ i 1 .- /
N i 46 1 l p; >
SUMMARY
OF MEASURED DATA g < . j F ( ' n- ' L.IMERICK 1 o ' (r>> r. $ a:: < DATE:.225 TIME: 12:30 $ l 1 r p LTEMP RTD '# 'l = +121.900- DEG. F Ll $ TEMP'RTD # z2 = +129.920 DEG. F i B ' a TEMP'RTD #1 3 = +129.360 DEG. F
-1 , TEMP RTD # 4 =.+114.280 DEG. F
' TEMP RTD # 5 = +117.760 DEG. F a
, TEMP RTD # 6 = ' +88.470 DEG. F 1 TEMPERTD., 4 7 a +B9.251 DEG. F (
TEMP RTD- #- B' = +94.995 DEG. F ) TEMP RTD #. 9 =
+88.162 DEG. F !
, LTEMP:RTD L # ' 10 ' =. +92.141 DEG. F W LTEMP RTD # 11 = +87.010 DEG.'F
' TEMP RTD -#.12 = +B4.358 DEG. F q
' TEMP.RTD f# 13 = +83.334 'DEG. F P -
TEMP RTD. # 14 = +B3.905 DEG. F TEMP RTD DEG. F
~
~# 15 .= 484.483
[, TEMPLRTD # L16 = +B4.491 DEG. F ; TEMPLRTD; #117 = +84.216 DEG. F I l) I ?+~~ , .
. : PRESS' GAUGE.#.1 = +60.250 PSI PRESS. GAUGE # 2 = +62.066~ PSI DEW T'MP E CELL # 1 = +78.115 DEG. F g
' DEW' TEMP CELL # 3
-= +78.326 DEG. F DEW TEMP CELL # 4 = +78.350 DEG. F ] i DEW TEMP CELL # 5 = +78. 7G-/ DEG. F l
' DEW TEMP CELL # 6 = +96.127 DEG. F ]
DEW TEMP CELL # 7 = +B4.152 DEG. F j
. DEW. TEMP CELL # 9 = +B4.497 DEG. F I l
l D; /" ' AVERAGE TEMPERATURE = +92.908 DEG. F i
, AVERAGE PRESSURE = +61.188 PSIA l AVERAGE DEW TEMP = +81.456 DEG. F 1 AVERAGE VAPOR. PRESS = +0.531 PSIA 4
, l l
l 6 1 0 .
y a ., , ,, a ' ' fh? ::D. . t > , G V ,' < i kEj; j' d t .{ U L. ka w-a I P > 1 n (.- [
SUMMARY
OF-MEASURED DATA .
~l LIMERICK 1 )
i
.: , DATE: 225 TIME: 12:15 !
W i
;u TEMP'RTD # 1 =~+121.850- DEG. F p TEMP RTD # 2 -= +130.000 DEG. F t
; TEMP RTD #- 3 = +129.300 DEG. F
' TEMP RTD # 4 =.+114.250 DEG. F M'
/ TEMP RTD- # 5 = +117.720- DEG. F TEMPfRTD: # 6- = +88.443 DEG. F ETEMP.'RTD # 7. =- +89.242 DEG. F ,
' TEMP RTD # 8 = +94.944 DEG. F l TEMP RTD # 9
=' '+88.131 .- DE G . F
. . l TEMP RTD .# 10 = +92.115- DES. F
.. TEMP RTD7 # -- 11 ' -= +86.996 DEG. F
-TEMP'RTD # 12 = +84.341 DEG. F
' TEMP.RTD (L 13 = +83.340 DEG. F TEMP RTD' # 14 = +83.906 DEG. F h ' TEMP RTD- # 15 = +84.465 DEG. F TEMP RTD # 16' = +84.501 DEG. F TEMP RTD # 17 = +84.210 DEG. F L
I .. . [ , . PRESS GAUGE # 1 = +60.248 PSI i f FRESS GAUGE # 2 = +62.063 PSI DEW ~ TEMP CELL # 1 = +78.089 DEG. F LDEW TEMP CELL # 3 = +78.070 DEG. F DEW TEMP-CELL # 4 = +78.268 DEG. F U , DEW TEMP CELL # 5 = +78.660 DEG. F . DEW TEMP CELL ~# 6 = +95.466 DEG. F DEW TEMP' CELL # 7 = +84.085 DEG. F !
. DEW TEMP CELL'# 9 = +84.547 DEG. F AVERAGE TEMPERATURE = +92.891 DEG. F i AVERAGE PRESSURE = +61.185 PSIA En AVERAGE' DEW TEMP = +81.341 DEG. F
. AVERAGE. VAPOR PRESS = +0.529 PSIA t
l
~~~~ =:2 _. 1
m.py ,7- : w ,i , [?' ' a: il f.o n -
-il
- n
;/.
- o je
;,y s a
p
SUMMARY
-OF MEASURED DATA , h
' LIMERICK 1 DATE: 225 ' TIME: 12:00 i
6. LTEMP RTD. # 1 = +121.840 DEG.'F p 1 JTEMP RTD # 2 =.+130.000 DEG. F-
>TEMPLRTD # 3 = +129.250 DEG. F 4 iTEMP.RTD # 4 :=t+114.190 DEG. F TEMP RTD .# 5. = +117.670 DEG. F
< TEMP RTD- # '6- := +88.424 DEG. F
' TEMP RTD #' E7 = +
.89.207 DEG. F g .
. TEMP RTD H. 8 = .+94.899 .DEG. F
,~ TEMP 1RTD-~ # 9 = +88.125 DEG. F iTEMP RTD # 10 = +92.071- DEG. F
-TEMP RTD # 11- = +86.976 DEG. F TEMP RTD- . th 12. = +84.333 DEG. F F TEMP RTD . # .13 = +83.285 DEG. F
[' TEMP'RTD
#-14 = +83.920 DEG. F ;
E TEMP RTD' # 15 = +84.462 DEG. F i l~ TEMP RTD # 16 = +84.500 DEG. F LTEMP RTD- #117 = +84.191 DEG. F [ , PRESS GAUGE # l' = +60.245 PSI PRESS GAUGE ~# 2 = +62.061 PSI DEW TEMP CELL #' 1 = +78.024 DEG. F DEW TEMP-CELL # 3 = +78.212 DEG. F DEW TEMP CELL # 4 = +78.241 DEG. F DEW TEMP' CELL # 5 = +78.628 DEG. F DEW TEMP CELL # 6 = +94.737 DEG. F ! DEW TEMP CELL # 7 = +84.085 DEG. F
' DEW TEMP: CELL # 9 = +84.616 DEG. F i AVER GE TEMPERATURE = +92.866 DEG. F AVERAGE PRESSURE = +61.183 PSIA AVERAGE DEW TEMP = +81.340 DEG. F AVERAGE-VAPOR PRESS = +0.529 PSIA l'
b t :
pymn c- p .
- --- -- -- -- - ~ -
t / 2 k s a$ ,l . l *, , i 1 f j ,
SUMMARY
DF MEASURED' DATA 3 LIMERICK 1, 1 DATE 225 TIME: 11:45 1 TEMP RTD #.'1 = +121.820 DEG. F TEMP RTD # 2 = +129.830 DEG. F t , oTEMP RTD # 3 = +129.250 DEG. F
- ,P .
' TEMP RTD J# 4 '
=.+114.130 DEG. F '
[hh TEMP RTD #- 5 = +1'17.610 DEG. F W TEMP.RTD. # 6 = +88.400 DEG. F l![ TEMP RTD .#- '7 = +89.201 DEG. F MI TEMP RTD # 8 = +94.882 DEG. F TEMP.RTD- # .9 =- +88.087 DEG. F
, , TEMP RTD # 10 = +92.056 DEG. F TEMP RTD lt' 11
- = +86.961 DEG. F jQ g' TEMP RTD- #-12 = +84.336 DEG. F
' TEMP.RTD # 13 =- +83.288- DEG. F TEMP RTD. .# 14 = +83.898 DEG. F w < TEMP RTD1 ~# 15 = +84.480 DEG. F TEMP-RTD # 16 = +84.494 DEG. F TEMP RTD # 17 = . +84.190 DEG. F m
PRESS GAUGE # 1 = +60.243 PSI 1 PRESS GAUGE # 2 = +62.059 PSI DEW-TEMP CELL # 1 = +78.009 DEG. F DEW TEMP CELL # 3 = +78.131 DEG. F DEW TEMP CELL # 4 = +78.164 DEG. F DEW TEMP CELL # 5 = +78.564 DEG. F DEW TEMP CELL # 6 = +94.114 DEG. F DEW TEMP CELL ~# 7 = +84.176 DEG. F DEW TEMP CELL # 9 = +84.469 DEG. F i
. AVERAGE TEMPERATURE = +92.847 DEG. F 1 AVERAGE PRESSURE = +61.181 PSIA '
AVERAGE DEW TEMP = +81.260 DEG. F AVERAGE. VAPOR PRESS = +0.528 PSIA
- .' . . - ..._i___,_m,__. _ _ _ _ . _ _
SUMMARY
OF MEASURED DATA LIMERICK 1 DATE: 225 TIME: 11:30
. TEMP RTD' #
1 = +121.840 DEG. F TEMP RTD # 2 = +129.800 DEG. F TEMP RTD # 3 = +129.210 DEG. F TEMP RTD # 4 =t+114.090 DEG. F
' TEMP-RTD # 5 = +117.560 DEG. F TEMP RTD #- 6 = +88.375 DEG. F TEMP'RTD # 7 = +89.176 DEG. F
, 3 TEMP RTD # 8 = +94.822 DEG. F TEMP.RTD- # 9 = +88.063 DEG. F sTEMP RTD # 10 = +92.019 DEG. F TEMP RTD # 11 = +86.946 DEG. F TEMP RTD # 12 = +84.323 DEG. F TEMP RTD # 13 = +83.290 DEG. F TEMP RTD # 14 = +83.911 DEG. F TEMP RTD # 15 =. +84.454 DEG. F TEMP RTD # 16 = +84.474 DEG. F TEMP'RTD # 17 = +84.193 DEG. F PRESS GAUGE # 1 = +60.240 PSI PRESS GAUGE # 2 = +62.057 PSI DEW TEMP CELL # 1 = +77.937 DEG. F DEW TEMP CELL # 3 = +78.137 DEG. F DEW TEMP CELL # 4 = +78.115 DEG. F DEW TEMP CELL # 5 = +78.527 DEG. F DEW TEMP CELL # 6 = +93.821 DEG. F DEW TEMP CELL # 7 = +84.100 DEG. F DEW TEMP CELL # 9 = +84.536 DEG. F AVERAGE TEMPERATURE = +92.825 DEG. F AVERAGE PRESSURE = +61.178 PSIA AVERAGE DEW TEMP = +S1.228 DEG. F AVERAGE VAPOR PRESS = +0.528 PSIA
pp yrq -- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
.: ,v a fi , .,! )
;p, , 1
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. i u' ii
SUMMARY
OF' MEASURED DATA p w i, 4 LIMERICK'l ! h >
-l L.
., DATE:: 225 TIME: 11:15 j r:J TEMP'RTD. # 1 .= +121.750 DEG. F >
TEMP;RTD' #. 2
- ,i >. = +129.860- DEG. F. !
o K TEMP RTD~ # 3 = +129.180' DEG. F l TEMP'RTD # 4 = +114.020 DEG. F TEMP-RTD .# '5 = +117.500 DEG. F
/
TEMP RTD # 6 = .+88.356 DEG. F TEMPnRTD- # 7 = +89.144 DEG. F TEMP-RTD. # B = +94.812 DEG. F
' TEMP RTDJ
# 9 = +88.029 DEG. F TEMP.RTD. # 10 =i +91.981- DEG. F
$, ~ q -TEMP RTD # 11- = +86.917 DEG. F TEMP RTD # 12 = +84.339 DEG.zF-TEMP RTD # 13 =- +83.274 DEG. F TEMP RTD- # 14 = +83.897 DEG. F -, 1 TEMP'RTD- # 15- = +84.454 DEG. F yn <
, : TEMP RTD- #-16 = +84.483 DEG. F TCMP RTD # 17 = +84.169 DEG. F b> 'P R E S S ! G N U r,E # 4 1- = +60.238 PSI n
PRESS GAUGE n 4 '= +62.055 PSI p DEW-TEMP CELL'# 1 = +77.914 DEG. F
-DEW TEMP CELL-# 3 = +78.056 DEG. F DEW TEMP CELL #'4 = +78.076 DEG. F DEW TEMP CELL # 5 = +78.492 DEG. F
' DEW TEMP: CELL # 6 .
= +93.096 DEG. F l DEW TEMP CELL # 7 = +84.143 DEG. F '
DEW TEMP CELL # 9 = +84.587 DEG. F
- AVERAGE' TEMPERATURE = +92.803 DEG. F AVERAGE PRESSURE = +61.176 PSIA AVERAGE DEW TEMP = +81.181 DEG. F AVERAGE VAPOR PRESS = +0.527 PSIA ;
, 1
.' .2-
}
g._ ,c, es X
%u , s
-S )[ j 4
u e , e n r p
.I< , a .
SUMMARY
OF MEASURED DATA I
~.
~t' LIMER'ICK 1- .
l I P DATE: 225 TIME: 11:00 b 7 i TEMP PTD # -1 m +121.700- DEG. F f TEMP RTD '# 2 = +129.790 DEG. F i i; TEMP RTD. # 3 = +129.100 DEG. F TEMP RTD 4 =,+113.960 DEG. F : TEMP RTD # 5 =,+117.'460 DEG. F j DTEMP RTD =# 6 = +88.333 DEG. F j TEMP RTD # 7 = +89.129 DEG. F-TEMP RTD- # 8 = +94.757 DEG. F ; TEMP RTD~ # 9 = +88.018: DEG. F l TEMP RTD- .# 10 = +91.955 DEG. E l r TEMP RTD # 11 .= +86.895 DEG. F I
, TEMP RTDs # 12 = +84.327 DEG. F 1
. TEMP RTD # 13 - +83.291 'DEG. F {
- TEMP.RTD # 14 = +83.888 DEG. F l TEMP'RTD' .# 15- = &84.454 DEG. F 'l
[ TEMP RTD # 16
#'17
=
=
84.466
+84.188 DEG.
DEG. F F l
. TEMP'RTD n
D l
' PRESS GAUGE # l' = +60.236 PSI :
L PRESS-GAUGE # 2 = +62.053 PSI 4 DEW TEMP CELL # 1 = +77.858 DEG. F DEW TEMP CELL # 3 = +78.021 DEG. F j DEW TEMP CELL # 4 = +78.106 DEG. F l DEW TEMP CELL # 5 = +78.437 DEG. F
. DEW TEMP CELL # 6 = +92.453 DEG. F DEW TEMP CELL # 7 = +G4.143 DEG- F g DEW TEMP CELL # 9 = +B4.574 Dl s. F
- 1 c.
' AVERAGE TEMPERATURE = +92.782 DEG. F AVERAGE PRESSURE = +61.174 PSIA AVERAGE DEW' TEMP = +81.141 DEG. F AVERAGE VAPOR PRESS = +0.526 PSIA t
m_i_ m _ . . _ _ _ .
.yyn ,
- 9. , -
---- 9 Pi,A . 1 i' . st; ,
u. l g' , , e > i ' L. P ' E i n i m,
. S MMARY OF MEASURED DATA
. LIMERICK 1 DATE: 225 TIME: 10:45
, +
i V ' !: ) .
. TEMP.RTD # .1- = +121.710. DEG. F' :
. TEMP RTD. # 2 ' = +129.820 DEG. F l TEMP RTD # 3' = +129.130 DEG. F )
TEMP RTD .#- 4
= +113.920 DEG. F l TEMP'RTD # 5 = +117.410 DEG. F !
TEMP RTD # 6 = +88.313 DEG. F [" TEMP 1RTD # 7 = +89.103 DEG. F TEMP RTD. # 8 = +94.766 DEG. F TEMPERTD # 9 = +87.994 DEG. F pi, < iEMP RTD # 10 = +91.928 DEG. F Il TEMP RTL # 11 = +86.882 DEG. F
- TEMP RTD P TEMP RTD
# 12
# 13
=
=
+84.320-
+83.297 DEG.
DEG. F F TEMP RTD # 14 = +83.879 DEG. F : TEMP.RTD #~15 =- +84.448 DEG. F i
. TEMP RTD # 16 = +84.465 DEG. F 1 TEMP-RTD # 17 = +84.172 DEG. F PRESS GAUGE # 1 = +60.234 PSI i PRESS GAUGE # 2 = +62.051 PSI f
. DEW TEMP CELL # 1 = +77.818 DEG. F l DEW TEMP CELL # 3 = +77.970 DEG. F !
DEW. TEMP CELL # 4 = +77.938 DEG. F l' DEW TEMP CELL # 5
~
= +78.392 DEG. F (
DEW TEMP CELL # 6 = +91.964 DEG. F , DEW TEMP CELL # 7 = +84.101 DEG. F i DEW TEMP CELL # 9 = +84.536 DEG. F AVERAGE TEMPERATURE = +92.770 DEG. F ; AVERAGE PRESSURE = +61.172 PSIA AVERAGE DEW TEMP = +81.048 DEG. F
-AVERAGE VAPOR PRESS = +0.524 PSIA I L
y, . -- -
- 7 -
37
^
c s: W ' i <
;e '8 : .\
1 l h
SUMMARY
OF MEASURED DATA
. LIMERICK 1.
C' ,
'DATE: 225 TIME: 10:30 F
pu Ly: g, TEMPJRTD # 1 = +121.700 DEG. F R
' TEMP:RTDJ # 2: = +129.630 DEG. F
' TEMP RTD # 3 ='+129.070 DEG. F -
TEMP RTD # 4 =;+113.860 DEG. F p ' TEMP RTD # 5 = +117.350 DEG..F TEMP RTD #' 6 =- +88.299 .DEG. F' I, ' TEMP RTD # 7 = +89.079 DEG. F l 3'
'. TEMP RTD' # 8' = +94.722- DEG. F l y TEMP'RTD' .
# 9 = +87.999 DEG. F TEMPERTD- # 10' = +91.909. DEG. F
' TEMP RTD. .#.11 = +86.868 DEG. F l
. TEMP'RTD #:12- = +84.321 DEG. F I TEMP RTD # .13 = +83.305 DEG. F cTEMP RTD # 14- = +83.902 DEG. F TEMP.RTD- #'15 = +84.443 DEG. F j TEMP RTD. # 16 = +84.449 DEG. F '
- q, -TEMP RTD' #l17 = . +84.172 DEG. F ;
4 i < PRESS GAUGE # 1 = +60.232 PSI PRESS GAUGE # 2 = +62.048 PSI ; i DEW TEMP CELL # 1 = +77.729 DEG. F
' DEW TEMP CELL #'3 = +77.911 DEG. F
, DEW TEMP CELL # 4 = +77.938 DEG. F
. DEW TEMP ~ CELL # 5 = +78.356 DEG. F DEW TEMP CELL # 6 = +91.191 DEG. F !
[i . DEW TEMP CELL #'7 = +84.153 DEG. F DEW TEMP CELL # 9 = +B4.495 DEG. F AVERAGE TEMPERATURE = +92.750 DEG. F
' AVERAGE PRESSURE = +61.170 PSIA AVERAGE DEW TEMP = +80.992 DEG. F AVERAGE. VAPOR PRESS = +0.524 PSIA !
I' I L
't
, i av P 'l . _ _ _ _ _ _ . _ _ _ _ _ _ . _
.n. - - -- - _
f,,'" '! IJ v,
-4 k* . l a b '
u '
.~
i y, .\
SUMMARY
>OF MEASURED DATA !
LIMERIC$ l' DATE: 225 TIME: 10:15 i l' J; E , TEMP'RTD. # ; 11 - = +121.620 DEG. F
, . TEMP RTD- # 2- = +129.630 DEG. F !
U ' TEMP RTD #- 3 = +129.050 DEG. F 1 LTEMP RTD # 4 = +113.800 DEG. F l TEMP RTD' 5
# =.+117.310 DEG. F I 1 TEMP RTD # 6 = +88.275 DEG. F l
' TEMP RTD # 7 '= +89.061 DEG. F' H
'TEMPLRTD # 8 = +94.696 .DEG. F TEMP RTD # 9 = +87.976 DEG. F TEMP RTD # 10 .= +91.880 DEG. F .
, TEMP'RTD- '#.11 = .+86.843 DEG. F d [ TTEMP RTD. iTEMP RTD-
'# 12
# 13
=. +84.318
= +83.329 DEG.
DEG. F F 4 . TEMP RTD. # .14 = -+83.885 DEG. F
' TEMP RTD #.15 = +04.446 DEG. F i P Y '
JTEMP-RTD # 16 = +84.452 DEG. F ! e TEMP RTD # 17 =- +84.170 DEG. F ;l PRESS GAUGE # 1 = 1+60.230 PSI ,. PRESS GAUGE # ' -
+62.046 PSI b
DEW 1 TEMP CELL # 1 = +77.685 DEG. F ; DEW TEMP. CELL # 3 = +77.813 DEG. F
~ DEW' TEMP CELL # 4 = +77.851 DEG. F ,: 7 DEW TEMP CELL # 5 = +78.283 DEG. F l
,, ,- DEW-TEMP CELL-# 6 = +90.678 DEG. F DEW: TEMP CELL # 7 = +84.130 DEG. F - 1 DEW TEMP CELL # 9 = +84.545 DEG. F J , AVERAGE TEMPERATURE = +92.733 DEG. F 1 AVERAGE PRESSURE = +61.168 PSIA
. AVERAGE DEW TEMP = +80.925 DEG. F AVERAGE VAPOR PRESS = +0.522 PSIA V .Y m
_a___
r m w- 7 . M'
,.. 15 k, ,
~.iiL ,
i L l
SUMMARY
OF MEASURED DATA j LIMERICK 11
.DATE: 225 TIME: 10:00 e: !
TEMP RTD. # 1 = +121.610 DEG. F l p TEMP RTD # 2 = +129.510 DEG. F j TEMP RTD # 3- = +129.010' DEG. F
. TEMP RTD #- 4' = +113.750 DEG. F l 0 TEMP-RTD # 5. = +117.240 DEG. F i L fTEMP RTD # 6 = +
'88.250 DEG. F
-TEMP'RTD #. 7 =. ' +89.018 DEG. F TEMP RTD- # 8 = +94.676 DEG. F l
, oTEMP RTD' #: 9 = +87.939 DEG. F TEMP RTD # 10 m +91.972 DEG. F W TEMP RTD. # 11 = +86.824 DEG. F TEMP RTD # 12- = +84.323 DEG. F i N . TEMP RTD # 13- = +83.323 DEG. F K TEMP RTD # 14 = +83.857 DEG. F E
~ TEMP RTD # 15 = +84.445 DEG. F j TEMP"RTD # 16' = +84.474 DEG. F TEMP RTD # 17 = +84.172 DEG. F e -
h'
' PRESS GAUGE #"1 = +60.229 PSI i PSI , PRESS-GAUGE # 2 = +62.044 l 4
DEW TEMP CELL # 1 = +77.647 DEG. F DEW' TEMP CELL # 3 = +77.778 DEG. F DEW TEMP CELL # 4 = +77.844 DEG. F I DEW TEMP CELL # 5 = +78.233 DEG. F b DEW TEMP CELL # 6 = +90.232 DEG. F fDEW TEMP CELL # 7 = +84.013 DEG. F DEW TEMP CELL # 9 = +84.527 DEG. F AVERAGE TEMPERATURE = +92.720 DEG. F AVERAGE PRESSURE = +61.166 PSIA [ ' AVERAGE DEW TEMP = +80.863 DEG. F AVERAGE VAPOR PRESS = +0.521 PSIA , 2
..._m_ - _ __ __ _ _ _ _ __ _ _ _ _ _ _ _ _ .
lf >
'y , ,
pf, %; ,' Q nG'., --
/ , ,
j p , P. I P e J
SUMMARY
OF MEASURED DATA IIMERICK!1:- - P e , t DATE: 225 TIME: 09:45 un > l i TEMP RTD' # -1 = +121.560 DEG. F TEMP RTD # = +129.630 DEG. F i
< TEMP,RTD #' 3 5- +129.010 DEG. F JTEMP'RTD # 4 = +113.690 DEG. F , TEMP RTD, :# 5 = +117.180 DEG. F TEMP.RTD # 6 = +88.229 DEG. F TEMP 1RTD' # 7- = +89.022 DEG. F :
TEMP RTD #' 8 =
+94.639- DEG. F !
- w. -
TEMP.RTD- # 9L =. +87.904 DEG. F.
,u gTEMP~RTD # 10 = +91.954 DEG. F
, TEMP RTD # 11 = +86.804 DEG. F TEMPERTD- #'12-
= +84.295 DEG. F W. s TEMP RTD . #: 13 = +83.320 DEG. F I 2TEMPfRTD' # 14- = '+ 83.889 'DEG. F TEMP RTD #115 = +84.445 'DEG. F JTEMP RTD # 16 = ' +84.457 DEG. F TEMF RTD;
# 17 = +04.167 DEG. F i a, ,
's- ..
PRESS GAUGE #.1 = +60.227 PSI PRESS GAUGE # 2 = +62.042 PSI i DEW TEMP CELL # 1 = +77.619 DEG. F { DEW. TEMP CELL # 3 = +77.693 DEG. F ] DEW TEMP CELL # 4 = +77.719 DEG. F j DEWLTEMP~ CELL # 5 = +78.202 DEG. F DEW TEMP CELL # 6 = +89.788 DEG. F l DEW TEMP CELL # 7 = +84.100 DEG. F l DEWoTEMP CELL # 9 = +84.474 DEG. F l 1 AVERAGE. TEMPERATURE = +92.705 DEG. F AVERAGE PRESSURE = +61.164 PSIA AVERAGE DEW TEMP = +80.798 DEG. F
.-AVERAGE VAPDR PRESS = +0.520 PSIA 1
i _.2- L _-
- - = = ~ ;
7 - p5 ; . 3;, y;n
-- f c J- '
q
,f o -
i 1?"
SUMMARY
DF MEASURED DATA
+- LIMERICK.1- .
l-DATE: 225 TIME: 09:30 l e. i i TEMP'RTD # '1 = +121.530 DEG. F
. .l , '
'TEMPfRTD # 2 = +129.540 DEG. F i F TEMP-RTD tf 3 = +128.930 DEG. F l TEMP RTD. # 4- = +113.640' DEG. F TEMP RTD # '5 L=-+117.140 DEG. F TEMP,RTDJ # 6
=. +88.203 DEG. F TEMP RTD .# . 7. = +89.004 DEG. F LTEMP RTDJ # G = +94.596 DEG. F
. TEMP?RTD- # 9- = +87.887 DEG. F
, TEMP RTD # 10 = -+91.928 DEG. F
' TEMP RTD #111 = +86.781 DEG. F
' '# 1 TEMP RTD' # 12' = +84.291 DEG. F TEMP RTD. -#.13 = +83.293 DEG..F TEMP'RTD. # 14 = +83.860 DEG. F TEMP-RTD :# 15 = +84.425 DEG. F TEMP;RTD. M'16 = J+84.452 DEG. F
- TEMP RTD # 17 = ' +84.155 DEG. F PRESS GAUGE # 1 = +60.225 PSI PRESS' GAUGE # 2 = +62.040 PSI f DEW TEMP CELL # 2 = +77.545 DEG. F DEW TEMP CELL # 4 = +77.789 DEG. F '
DEW TEMP CELL # 5 = +77.681 DEG. F DEW TEMP CELL # 6 = +70.149 DEG. F h DEW ~ TEMP CELL # 7 = +89.540 DEG. F DEW TEMP CELL # 8 = +84.068 DEG. F p DEW TEMP CELL #~10 = +84.516 DEG. F m ' c AVERAGE TEMPERATURE = +0.000 DEG. F AVERAGE PRESSURE = +0.000 PSIA AVERAGE DEW TEMP. = +0.000 DEG. F AVERAGE VPR PRESS = +0.0000 PSIA l I. 1
7=vw grvm ; , - . 3 r ; n; > y*,, .a. ~ _r 0- i h)l g3 iS ' ' < j
- i wou ,
I c. sv: . Y r l yp -
SUMMARY
OF. MEASURED DATA
,4
- b.
2 LIMERICK 31 I f d T o DATE: 225 TIME: 09:15;
- ! i
>TEMPLRTD:
, O 1- = +121.530 DEG. F :
i I [TEMPiRTD' # 2 = +129,310 DEG. F } TEMP.RTD.
# 3, = 1128.900 DEG. F l
. TEMP'RTDl # 14 = +113.580 DEG. F- j TEMP.RTD # 5 = +117.080 DEG. F TEMP.RTD # 6 = +88.176 DEG. F LTEMP"RTD # 7 = +88.967 DEG. F DTEMP RTD' .#. 8 =i +94.586 DEG. F 7 TEMP RTD # '9 = +87.852 .DEG. F ;
#' , TEMP RTD :# 10 = +91.885 DEG. F i
, cTEMP.RTD: # 11 = +86.755 'DEG. F TEMP RTD # 12 = . +84.300. DEG. F
~ TEMP-RTD # 13 = +83.296 DEG. F TEMP RTD. .# 14 =. +83.882 DEG. F TEMP RTD # 15 = +84.426 DEG. F.
Oe ' TEMP.RTD # 16 = +84.442 DEG. F TEMP RTD # 17- = +84.150 , DEG. F ,
. PRESS GAUGE # 1 = +60.224 PSI
_ PRESS' GAUGE # 2- = +62.038 PSI l
' DEW' TEMP CE'_L.# 1 = +77.520 DEG. F 1
' DEW TEMP CELL # 3 = +77.610 DEG. F 3 DEW TEMP CELL # 4 = +77.597 DEG. F i DEW TEMP CELL #'5 = +78.093 DEG. F i~ ' DEW. TEMP CELL # 6 = +88.880 DEG. F DEW TEMP CELL # 7 = +84.034 DEG. F
, DEW : TEMP CELL # 9 = +84.538 DEG. F
'AVERAGdLTEMPERATURE = +92.659 DEG. F AVERAGE. PRESSURE = +61.161 FSIA AVERAGE. DEW TEMP = +80.696 DEG. F
' AVERAGE ~ VAPOR PRESS = +0.518 PSIA j I
i 4 1 1 I ____._A
pr y> h ,c - , p, - m, Gpemy(;4p Mifihb kg c
- gd w,
j Sg '9 4[;jb WQ WMg% >
/'
c- r- . .. ew w ggy g r tg " dry l: 4 c@' i . _ T ' R%Q 4 s cs
- ~
hh ,' N ? b . l{ x gia -,., gy:o-- n < 4; ,, mg ~xs., ,...s 1..r ,- <
, ,3 I
i%.~' *\ g. m \- _ lll.flj '
.e. [.
d i 9R J 4
+- , :
SUMMARY
OF'MEASORED: DATA o w# n Qu u
. g.:6.%wy.%' r.. , M , . . 3.l 8 w; 7'y (LIMERICD1 y%.nw<e:ig- @ (
~
M_ d* y 'J.O z
+
' , !. L DATE: 1225 -TIME: 09:00 jgpa; m Cll f .
l 48 ~. - r a aS 7:pm i m3 d' py , , l y F-.FS. s ,-
/TEMPIRTD -# 1 W +121.490 DEG. F l 1
.= '+129.410- "DEG. F'
~ +. TEMPfRTDr . ti . .2 !
3 , gg 1 TEMP.'RTD? L#>'3L = +128.890 *DEG. F' i
'T ,
911
%TEMB RTD: # 4 = +113.520 DEG. F tTEMPtRTD ~ # --- 5. =-+117.030' 'DEG..F .
t j@ q ' _ , ,;, TEMP)RTD.. :#if6
" LTEMP'RTD+ " #.S .- 7
= .+88.160 DEG.:F
~]
g.f 9 ~ N , ' 4=: +88.934. DEG..F ; %> ; TEMPI RTD: '#':8- 1 =, ;+94.512 DEG.
.c '
r F.- h i' , 4 1 JTEMPfRTDi #; '9
=h ' +8 7. 825
.DEG. F Mji
,7
& LTEMP RTD> f#110: =- +91.876' DEG. F i, 9 a. , . , TEMP: RTD1 .- # #11 ' =- '+86.735 DEG.cF i
's
?sC
- i;k ; TEMP RTD . ;#112,
=
w-L+84.298- DEG.;F-
'I."
C iTEMPTRTD! '#113L = +83. 261: -DEG. F3 (fg.,. , e'15b g .
.S T E M. P R T D ,#514 =. +83.877- DEG.~F-
,~ , ,
g(wp M ;gg l TEMP1 RTDl> J#g15 =-.+84.428' DEG. F ; V Q. Z.J ,pTEMPfRTDy . # p 16~- -=
~ l+84.449 DEG. F .j
_y, < , E T E M P ! R T D . ' # -. 1'7 . = ,+ 84.158 DEG. F j 1
$y ,
e
+..
DE5' < ,
; . 3, s
5PRESS GAUGE #:1 = +60.'221' PSI
-PSI 1
. PRESS: GAUGE:# 2. :=' +62.036 c:. .
A' ,q pg [t d
,-[
8 s', d ( i ,; l - s
,W DEW: TEMP CELL # 1 '=
'+77.496' DEG. F i
$:W '! DEW TEMP CELL 1# 3 = +77.565 DEG.:F
.=: +77.548 DEG. F DEW TEMP'. CELL #.4 I@
'DEWiTEMP CELL #-5 = ' +78.038 DEG. F g" '
;-DEW: TEMP: CELL # 6 = '+88.745 DEG. F M ^
JDEW TEMP' CELL # 7 = +84.094 DEG. F m-g- ~ ,
, DEW. TEMP CELL.# 9 = +84.559 DEG. F -l
<, T i ll '_ _
" YJ
- f. ;'
.. _3 g_.; x - ,7V ' '
' AVERAGE' TEMPERATURE,= +92.634 DEG. F W 4 , ; AVERAGE PRESSURE. = +61.158 PSIA
- AVERAGE, DEW TEMP = +80.680 DEG. F .l AVERAGE < VAPOR PRESS = +0.518 PSIA ;
,' 4 j
J h h ; , .. , mem [ y:. t ' 1 !..' y 2 4
'. 1 l i
; 1
]
-r 4th V 4,
, I
< Cm 1. s t . 1
SUMMARY
~OF MEASURED DATA ;
L
, LIMERICK,1 LDATE: 225L TIMES.08:45 4
4' TEMP RTD #- 1 = +121.520 DEG. F L , TEMP'RTD. ~# 2' = +129.310~ DEG. F
' TEMP RTD;
# 3 = +128.860 DEG. F TEMP 1RTD # 4 =1+113.480 DEG. F LTEMP RTD .# 5 = +116.970 DEG. F TEMP RTD= # 6 = ' +88.142 DEG..F
-TEMP'RTD #- 7' -= +88.929 DEG. F
_ TEMP RTD; M. 8
=. +94.480 DEG. F
-# 9 LTEMP RTD = +87.793 DEG. F TEMP RTD # 10 = +91.865 DEG. F
-TEMP RTD # 11 = +86.724 DEG. F
. TEMP RTD # 12 = +84.300 DEG. F
, > TEMP RTD. # 13 = +83.258 DEG. F TEMP RTD- # 14' '= +83.883 DEG. F' f
' TEMP RTD .#.15 = +84.416 DEG. F
. TEMP RTD # 16 .= +84.448 DEG. F j, 1 TEMP RTD # 17 = ' +84.166 DEG. F
,'1. .
.PRESSfGAUGE # 1 = +60.218 PSI PRESS GAUGE 1# 2 = ' +62.033 PSI
- ( .
4DEWiTEMP CELL # 1 = +77.397 DEG. F DEW TEMP CELL # 3 = +77.533 DEG. F DEW TEMP CELL # 4 = +77.548 DEG. F DEW TEMP CELL # 5 = +77.995 DEG. F
-DEW TEMP CELL # 6 = +88.183 DEG. F DEWDTEMP~ CELL # 7 = +84.054 DEG. F
' DEW-TEMP CELL # 9 = +84.562 DEG. F AVERAGE TEMPERATURE = +92.619 DEG. F AVERAGE PRESSURE = +61.155 PSIA AVERAGE DEW TEP1P = +80.630 DEG. F o ' AVERAGE VAPOR PRESS = +0.517 PSIA i
L I,
!_ i._. 21
=n ~ - -
377zn7m- ,
,m ' .]
- ?, u i nh 8
< i S:
SUMMARY
OF' MEASURED DATA L MERICK :1 i h DATE '225 TIME: 08:30 . h J'c TEMP RTD # L1 .=.+121.470 DEG. F I L' o; TEMP RTD #- 2 = +129.420 DEG. F TEMP RTD # -3 =-+128.810 DEG. F TEMP RTD' # '4 = +113.430- DEG. F 4 TEMP RTD # 5 = +116.920 DEG. F i g LTEMPLRTD -# 6 = '+ 88.131' DEG.-F { 4 TEMP!RTD # 7 = +
~88.917 DEG. F '
D3f: ' >
- TEMP RTD- .# 8 = ' . +94.459 -DEG. F q J
, , TEMP RTD' 4L 37 =- +87.806 DEG. F l TEMP.RTD 4.10 = +91.830 DEG. F
, , TEMPERTD~ #.11 = +86.708 DEG. F
. TEMP RTD #L12 = +84.297 DF.G . F x,.c. . TEMP RTD.- # 13 = +83.280 DEG. F
"' '=
h- TEMP RTD' #'14 +83.088 DEG. F l TEMPcRTD' # 15 = +84.431 DEG. F l
-TEMP RTD # 16' = +84.458 DEG. F -!
TEMPLRTD # 17 = +84.166 DEG. F ; PRESS GAUGE # 1- = +60.217 PSI ' PRESS' GAUGE # 2- = +62.031 PSI i i DEW TEMP CELL # 1 = +77.354 DEG. F
- q. DEW TEMP' CELL # 3
= +77.491 DEG. F
-DEW TEMP 1 CELL # 4 = +77.462 DEG. F
. DEW' TEMP CELL # 5 =- +77.970 DEG. F
, DEW' TEMP CELL # 6 = +87.786 CEG. F l DEW TEMP CELL # 7 = +84.108 DEG. F
' DEW TEMP CELL # 9 = +84.474 DEG. F 1
l AVERAGE TEMPERATURE = +92.611 DEG. F
, AVERAGE PRESSURE = . +61.154 PSIA 7 = +80.571 DEG. F AVERAGE DEW TEi1P AVERAGE VAPOR PRESS = +0.516 PSIA i
mnen=n-n -
*t l
v
SUMMARY
OF-MEASURED DATA ! l LIMERICK 1
'DATE: 225 TIME: 08:15 ,
,, I TEMP.RTD- # 1 = +121.470 DEG. F -
-TEMP RTD #- 2 = +129.370 DEG. F 4
. TEMP RTD' # 3 = +128.780 DEG. F ]
TEMP RTD # 4 =-+113.380 DEG. F 'l ' TEMP RTD # 5 = +116.880 DEG. F-TEMPERTD # .6 = +88.113 DEG. F J
-TEMP'RTD # 7 = +88.897 DEG. F TEMP RTD # 8 = +94.429 DEG. F TEMP'RTD 9
# =. +87.796 DEG. F TEMP RTD- #-10 =. +91'.812 DEG. F
'a 4
TEMP RTD # 11 +86.697 DEG. F TEMP RTD # 12 = +84.312 DEG. F TEMP RTD. # 13 = +83.274 DEG. F ' TEMP RTD M.14 = +83.879 DEG. F I
, TEtlP RTD 4.15 = ' +84.439 DEG. F TEMP RTD # 16 = +84.449 DEG. F l TEMP RTD # 17 = +84.159 DEG. F i PRESS GAUGE # 1 = +60.215 PSI PRESS GAUGE # 2 = +62.029 PSI
~D8W' TEMP CELL # 1 = +77.305 DEG. F DEW TEMP CELL # 3 = +77.352 DEG. F
' DEW TEMP CELL # 4 +77.487 DEG. F
=
DEW TEMP CELL # 5 = +77.900 DEG. F DEW TEMP CELL # 6 = +87.461 DEG. F i; DEW TEMP CELL # 7 = +84.118 DEG. F e DEW TEMP CELL # 9 = +84.494 DEG. F AVERfiGE TEMPERATURE = +92.596 DEG. F
. AVERAGE PRESSURE = +61.152 PSIA AVERAGE DEW TEMP = +B0.529 DEG. F AVERAGE VAPOR PRESS = +0.516 PSIA l
mpmq# x?. pm
+
Cw, 3v ~ .:+.m ? m' , ' 4, y' , m.- r %:..; .o 4
,u- *0 l- ",
3@WfE Nk w %' a T ,.i w' ,' . i , a -: ,
- c. w. ,
I f } k r ..h , j t-p p',. * , , ' e@ n *s t ' ' Wf .. gm' ...;
SUMMARY
OF. MEASURED: DATA ~a&w^ ',* 3 ff..l - -. i m,~ u,j;;~,
'3 l J ,J , IIMERICFb1?
ma .y .' & w., .,y 6 w %~: Qqr u a grf ; ,m j3' , . DATE: 225i '. TIME: O'8:00- _..m . gy 3}l .h7 ,' e, , [ ,,_ 1 ty3 ,
; q
*m W+ n&, '
w p- 4y.y'] m s i L- $. dry . [ ;. , "j'. , , 4
)BMP(RTD, (# . 31 ' = i+ 121;.'.4 60 -
DEG.'F V w01 9r ,, TEMP RTD ':'# . 21 = -+129. 370 ; DEG. F. 3P' g m-J J s T. E M. P.. R T.D ' #4 3-
= +129.750 ,
DEG. F f, - M # TEMP RTD T# :: ,4 : m +113.310~ ~DEG. F @ l.d.y ,iTEMP RTDP Cft F
< i- '5: = +1.16,820 DEG..F Ju W
. w, w ,
~
." , ~ . 'TE. MP ~. :: RTD) !# 6~ g +88.089~ DEG. F N$/ '
D
.TEMPiRTDL # 7-
<=
=
+88.888
+94.407 DEG. F DEG. F ,j
, o . TEMP?RTD'. :# 18' 4
%7 '
m - TEMP?RTD '#1 9: i +87.771 'DEG. F 'I A~M '
< 1 TEMPiRTD1 . #1 '10 ! -
'= L+91."787 DEG. F.
r , .. s.- m ea t lTEMPfRTD -# ' 11 ' := :+86.682 EDEG .F a .g.. 1 r'
, o 's gw s , ,
4. iTEMP'RTD" - #L12' *
= +84.314, DEG. F
'# 13-o .
s ' TEMP-RTD = '+83.294 DEG. F. s
%h:6 ; o OEG. F
.p~ M 1TEMPIRTDi # ' '14j = ' +83.860
=- +84 4TJ6 1 TEMP RTD' -DEG."F' 4
%. , 4 ~ , ,
' # .H 1,*5 --
< - m. '
'= +84.457 DEG..F-ap .. , , TEMP.cRTDs 14(16 l' & ,
NTEMP(RTD; - # ' 1 '7 ~ := +84~.156 DEG. F.
- %; , v g b
;yj "A i J9 ,
; PRESS; GAUGE # 't: = +60.213 PSI 1 v +
'r EP,RESS; GAUGE #D2 = +62.027 PSI
- q. '_- . ;p,_
; g <
,~
Qh , , ti Xq , .l DEW TEMP CELL # 2' =-- +77i223 DEG.'F
-DEW 3TEMPsCELL #"4J l 'n +77.429 DEG.-F .,
'+77. 371.
4 e
, , , , M, , '
',' DEW t T EMP1.CE. LL # ;5
= DEG. F 1 h.u
- g. .v.
.M .'
s DEWiTEMP!CELLE#s.6 = +77.867 OEG. F i j
.) + DEW? TEMP CELL # 7 =- +87.060 DEG. F l
, I TDEWoTEMP' CELL 14 8
= +84.ill DEG. F j i 4
? A DEWLTEMP CELL # 10 = +84.536 DEG. F m , ,. m - -
ggt -
- DEG. F
- + s AVERAGE' TEMPERATURE-= +0.000 l i
s-E AVERAGE PRESSURE = +0.000 PSIA . N ,
, . AVERAGE DEW ~7EMP = +0.000 DEG. F j
/AVERAGEJVPR PRESS = +0.U000 PS1A 1
; ~ l
$, '. 'i a ; a w y
, ,. -)
% 1R. e' ( s [ <c ' , - 'q; r f, . p' ;p " - s 7 ?'C
, . g r. s
'I . . y ,
j
?
C 'lY . .c,1 a ,,
~ ~ :)-(. , ' , j' 7
.!?
h ! ,5 I 9 L k /f 1 q ! , b 1 - _ - . .
I c6 : P i N I
)
1
-l l 'W l
l
SUMMARY
OF MEASURED DATA LN L - LIMERICK 1 k D 1 h I' 'DATE: 225 TIME: 07:45' i'
!J b.
i
- h. i P i V
TEMP RTD- # 1 = +121.410 DEG. F TEMP RTD -# 2 = +129.270 DEG. F
. TEMP RTD' # 3 = +128.700 DEG. F ic TEMP RTD # 4 = +113.260 DEG. F-L TEMP'RTD- # 5 = +116.770 DEG. F ;
-TEMP RTD- #- 6 = +88.072 DEG. F L . TEMP RTD '# 7 = +88.859 DEG. F I TEMP RTD #' 8 =t +94.407 DEG. F s
1 TEMPLRTD #. 9 = +87.747 DEG. F r TEMP RTD 4'10' = +91.729. DEG. F TEMP RTD # 11 = +86.654' DEG. F TEMP RTD # 12 = +84.309 DEG. F l 4 -TEMP RTD # 13 = +83.325 DEG. F TEMP RTDi #.14 = +83.871 DEG. F l-TEMPJRTD #.15 = +84.434 DEG. F I TEMP'RTD # 16 =- +84.437 DEG. F ; TEMP RTD # 17 = +84.162 DEG. F p-l . [ PRESS GAUGE #.1- = +60.212 PSI PRESS GAUGE #'2 = +62.025 PSI . I i p DEW TEMP CELL # 1- = +77.169 DEG. F DEW TEMP. CELL # 3 = +77.333 DEG. F 1 DEW TEMP CELL # 4 = +77.308 DEG. F q l'
, DEW TEMP CELL # 5 = +77.807 DEG. F DEW TEMP CELL # 6 = +86.846 DEG. F L . DEW TEMP CELL # 7 = +84.080 DEG. F DEW TEMP CELL # 9 = +84.460 DEG. F l
U i
. , AVERAGE TEMPERATURE = +92.561 DEG. F l
. AVERAGE PRESSURE = +61.148 PSIA 1 AVERAGE DEW TEMP = +00.428 DEG. F l F AVERAGE VAPOR PRESS = +0.514 PSIA !
)
l l i r'- LA . - - - - _ . _ - -
y 7, mw- .- W '
.a f ' 1 E< '
-s a
. )jb.
e n l l 3' , .
SUMMARY
,OF MEASURED DATA
. LIMERICK 1-l
>DATE: :225 TIME: 07:30. I l
l
- TEMP RTD- # 1: = +121.350 DEG. F TEMP RTD # 2 = +129.280 DEG.-F j TEMP RTD #: 3 = +128.660 DEG. F TEMP RTD #- 4 ' = +113.200 DEG. F j
-TEMP.RTD. .# D = +116.710 DEG. F TEMP RTD #. 6 = +88.047 DEG. F .
TEMP-RTD- #' 7 = +68.850 DEG. F ! s = TEMP: RTD # 8 =. +94.390 DEG. F f ' TEMP.RTD # 9 = ' +87.733 DEG. F TEMP RTD # 10 = : +91. 705 - DEG. F TEMP RTD- # 11 = +86.650 DEG. F 1 TEMP RTD '# 12 = +84.304 DEG. F 4
" TEMP RTD. '# 13 = +83.284 DEG. F
- i. TEMP 1RTD # 14' = +83.871 DEG. F TEMP RTD #-15 = +84.436 DEG. F i
? ' TEMP RTD # 16 = +84.449 DEG. F
'. TEMP RTD' # '17 = .+84.149 DEG. F PRESS GAUGE # 1 = +60.209 PSI PRESSLGAUGE # 2 = ' +62.022 PSI
. DEW TEMP CELL # 1 =- +77.131 DEG.-F j DEW. TEMP CELL # 3 = +77.320 DEG. F DEW TEMP CELL'# 4- = +77.323 DEG. F. ,
DEWETEMP CELL'# 5 = +77.739 DEG. F ! DEW TEMP CELL # 6 =- +86.415 DEG. F DEW TEMP CELL # 7 = +84.042 DEG. F DEW TEMP CELL # 9 = +84.436 DEG. F AVERAGE TEMPERATURE = +92.544 DEG. F AVERAGE PRESSURE = +61.145 PSIA
'il AVERAGE DEW TEMP +80.390 DEG. F
=
0 AVERAGE VAPOR-PRESS = +0.513 PSIA l l 1 i i i
)
1 o
n .g a - nn
.t # 1 ,^
i( 1 4 }' w '
~
- v. -
, i -
> i
~
SUMMARY
OF' MEASURED DATA. os 1 t 3 - LIMERICK l' , i
-DATE:'225 TIME: O'7:15 1 l
V I t 3 i' TEMP RTD # 1 = +121.330 'DEG. F
. TEMP RTD- # 21 = +129.220 DEG. F ,
# 3
' TEMP RTD = +128.640 DEG. F 4 % '
TEMP.RTD- # : 4- '= +113.140 DEG. F
. TEMP'RTD L# 5 = +116,650 DEG. F.
TEMP RTD' # 6 = +88.018 DEG. F l TEMP RTD #- 7: = +88.781 DEG. F i
-TEMP'RTD # .8 =, +94.343 DEG. F j E ; TEMP.RTD #~ 9 =, +87.712 DEG. F l s
' TEMP RTD # 10 = ' +91.665 DEG. F TEMP.'RTD -# 11 '=- +86.639 DEG. F-
-TEMP.PTD # 12 = +84.314 DEG. F l
. TEMP-RTD # 13 = +83.309 DEG. F r.
KTEMP~RTD # '1.4 .
= +83.866 'DEG. F
'9 , TEMPRTD-' # 15: .= +84.442 DEG. F LTEMP RTD- # 16 = +84.446 DEG. F TEMP RTD-. : # '.17 = +84.127 DEG. F PRESS' GAUGE.# 1 u +60.207 PSI' .
, FRESS GAUGE # 2 -= +62.020 PSI l DEW TEMP CELL # 1 = +77.064 DEG. F l c DEW TEMP-CELL # 3 = +77.307 DEG. F i
, DEW TEMP. CELL # 4' = +77.272 DEG. F DEW TEMP CELL'# 5 = +77.697 DEG. F j DEW TEMP CELL # 6
= +86.013 DEG. F 1
-DEW TEMP CELL # 7 = +84.042 DEG. F DEW TEMP CELL # 9 = +84.448 DEG. F AVERAGE TEMPERATURE = +92.519 DEG. F 16 AVERAGE PRESSURE = +61.143 PSIA AVERAGE DEW TEMP = +80.352 DEG. F AVERAGE VAPOR PRESS = +0.513 PSIA i
1 W_ _ . _ _ _ _ _ _ - -
~ . - . - - - - - .^ y- - --
c--------- - - - - - - - - - - - - - - W%g p% p%y ~ WT w.
'^m .
f,nW:' E -! . r Q:Mle tt *
% .9
,n<b P '
^~'m .
h fh%gd@~ p - .3 Y , < ' Y . +4 a ng; x;g, , . c,J";o;(f;a;g[ ii q >
~,
' l, 3 %g a
j ., ,
+ ,
+,- .
.) 5 40 .~ ' fb~(
e"r _ < '. - ,
}
t t np A m
, x,a
^
s%p: Q a. . , , ~ ,, ~ \ *, '
^~: :.j x y
4 ' . && I* [. , y
$ "ih 'f\ 5J ' , 'hp r s
F
.f ]'(- +
e :n s
.3 n $' hy, %;N. & 1
,f (_ qr[,
ff' w> m s.4 s m., , whyn W :e 1 g~ / ,, , < Q . s,> '
SUMMARY
cOF MEASURED-DATA'
~. J ,l "} .
.f l-. .J
- c. (.. _ ,
g .
)+ y g I,_ r ., *- - ;
y ' ,:K f, , Q L I M E R'*I C K111
-y -
;Q '
+,:.'
g 4,,q, ~yW-JM . . 4 wm
~
n,
! DATE: :225 o
*h
' TIME:.07:00 <'!
- 3. , s , ,
a <
>, e :. +e .
p u.
^
s p ., . a: n q, 'Q - G, ,, v
;Qy :p ; y _
vW , , , _ , - ETEMPIRTD!' # 110 = +121.240 DEG. F ' s%; q:
, 1 i;;
- i ) + TEMPcRTDC: ;#: -L2 :. : ~
= 1:+129. 220 L !
DEG. F n ' F' s < < JTEMP'RTDf J# 13 :: =1+128.610: 'DEG. F-eSg% . b ' ' ls 9 4
..,r 7 P
c..T E M P I R T D -
?}.# 1, -. 4 L
- 8
-= +113.090 DEG. F
" TEMP:RTDS} " # '^ 5 =f+116. 600 :
s,.y:,
'DEG. F a g %p_..go' " _ <
m' , 2 5; TEMP.RTDS "# ' 6 - =
+87.997 DEG.-F
- s. '
{, KTEMP.RTD ;#- 7 =,:+B8.790 DEG. F 4 i p, ,ub,
, XM, ; i'M q,'
" TEMP:RTD- '#' 8~
=3 +94.305' DEG.'F
+"
.s n s m ", . - ' TEMPfRTDi. :#' 9; = ~' +87.684' 'DEG.. F 'fx. a m-
- ~,
u a
'" tTEMP RTD. ; # .10' .-
= T+91.629. DEG. F
" >W .
, l TEMP.RTD #4li' .= ' +86.601? ' DEG. . F-ME '
i T E M P L R T D .- #N12' :=:L+84.315: DEG.'F' p , $$sM ..^"#
'TEMfDRTDf l#;13- !=c . +83.290 ~DEG. F-png.9 m~ ,
w q ;; u,TEMPTRTD. -..#:.14:.
; = -: +83. 874 ' DEG. F-m ,~" -, TEM.P.RTD. .# 11 5 <
='"+84.423 DEG. F gs ;c mq.
t
- Ay M w TEMP!RTDr ' # r16 -= +84.'436 DEG. F L.y.' J '
K.T E. M P 2. R. ,T D, # t :17.. ::= +84.147 DEG. F
>#2-
, , ,y a n' kI ,
is i ((f:.6 4 Yf , *!,. . , _
~
- g. g %, . s g7 4, ,- lPRESSIGAUGE7 #;11 - = +60.204 PSI 1W< i ( . . m ,,. . .m ;1 PRESS;GAUGEJ#52- =. +62.018 PSI 8,;:-y"..
>=
gg. e1 g' .. ig e - a - 1' 1 , d'i < f n' f
~ .
'+77.055' d m-C ' DEW TEMP. CELL #'1 = - DEG. F- 'I
@,d~i6.; P . -:DEWJTEMP; CELL'# 3 = -- -r77.153 DEG. F n . /g ' v' ,
- D E W 1 T E M P ,: C E L L '# - 4 ' - = +77.227 DEG. F -i
~ '
'y, '
DEWlTEMP CELL # 5 , = +77.676 DEG. F ' W ~ DEW 1 TEMP CELL'# 6' .= ..+85.711' DEG. F
%M e: -
,q.
DEW 4 TEMP. CELL # 7 = r84.021 DEG. F DEG. F
, DEW 1 TEMP' CELL # 9~ '= '+84.454
>n x, '
.I i 4
2 k' '
~ e. , f ,
AVERAGE: TEMPERATURE =' +92.499 DEG. F
.+ .^ , '. AVERAGE-PRESSURE = +61.141 PSIA q P AVERAGEfDEW TEMP = -+80.288 DEG. F 1 AVERAGE. VAPOR' PRESS = +0.512 PSIA h.ya,< ,
l ,( t-=t gj' .biN - 3 I'.! t + ( n, f- I k
- a
' I J ,
'p, ?. ? . .
ll .% Q ,,
.a c.
J* q . f 'j3 .a I w,. < b 7; 1. :- -
*I j e i,r i ig'. ,bI
*'T.'. &,, ,. ' ? I. ! +
y,, , _ , ._
, + c <
h '9P a #
'q ,.
y
,J .;
p~ ph: ', , m
SUMMARY
- OF MEASURED DATA
; [ ; LIMERICK'1 I~ - ,
[ b
.. cj DATE: 225 . TIME: 06:45 l cj
- f. .
- TEMP RTD # 1 = +121.240 DEG. F F
TEMP RTD- # -. 2 = +129.050 DEG. F TEMP RTD #. 3 = +128.580 DEG. F 3 TEMP RTD -# 4 = +113.030 DEG. F l
. TEMP'RTD # 5 = +116.540 DEG. F i TEMP RTD' # .6 = +87.971 DEG. F F
c ' TEMP ~RTD .#- 7 = .+88.751 DEG. F TEMP RTD # 8 =.' +94.262 DEG. F TEMP RTD # 9 = +87.629 DEG. F
. TEMP RTD # 10 = +91.613 DEG. F TEMP RTD' # 11 =- +86.587 DEG. F-if ' TEMP RTD # 12 = -+84.317 DEG. F
. TEMP RTD # 13 = +83.316 DEG. F
(' ETEMP RTD # 14 = +83.856 DEG. F 1 TEMP RTDL # 15 = +84.423 DEG. F [w TEMP-RTD # 16 = +84.446 DEG. F
~ TEMP RTD. # 17 = +84.132 DEG. F PRESS GAUGE # 1 = +60.202 PSI PRESS GAUGE # ' -
+62.016 PSI DEW TEMP CELL # 1 = +77.003 DEG. F f DEW TEMP CELL M 3 = +77.133 DEG. F J DEW TEMP CELL # 4 = +77.197 DEG. F
,. DEW. TEMP CELL # 5 = +77.601 DEG. F
-DEW TEMP CELL # 6 = +85.275 DEG. F DEW TEMP CELL # 7 = +84.079 DEG. F DEW-TEMP CELL # 9 = +84.439 DEG. F q I
AVERAGE' TEMPERATURE = +92.474 DEC. F { 3; , AVERAGE PRESSURE = +61.139 PSIA ) AVERAGE DEW TEMP = +80.258 DEG. F i AVERAGE VAPOR PRESS = +0.511 PSIA
)
1 t=___lan i___ _ _ _ _ _ _ . _ _ _ . . _ _ _ _ _ _ _ _ _ __.______________________J
l
'l
{ i t l
, V .
j 7
SUMMARY
OF MEASURED DATA f i 1 LIMERICK -1
- DATE: 225 TIME: 06:30 h
s
' TEMP RTD #' 1 = +121.230- DEG. F TEMP RTD '#- 2 = +129.150 DEG. F TEMP'RTD #. 3- = +128.550 DEG. F
- TEMP RTD' # 4. = +112.970 DEG. F TEMP ~RTD # 5 = +116.470 DEG. F
, TEMP'RTD .# . 6 = +87.951 DEG. F i TEMP RTD # '7 = +88.740 DEG. F k
-TEMP RTD # 8 = +94.212 DEG.'F i
-TEMP RTD # 9 = +87.634 DEG. F
. TEMP.RTD # 10 =\ +91.587 DEG. F TEMP RTD' # 11 = +86.558 DEG. F 1 TEMP RTD '# 12 =- +84.307 DEG. F
. TEMP.RTD # 13 = '+83.351 DEG. F TEMP RTD # 14 = +83.876 DEG. F TEMP RTD #.15 = +84.422 DEG. F TEMP RTD # 16' = . +84.448 DEG. F
' ' DEG. F TEMP RTD~ # 17 = +84.144 PRESS GAUGE # 1 = +60.201 PSI PRESS GAUGE # 2 = +62.014 PS7 DEW TEMP CELL # 1 = +76.937 DEG. F DEW TEMP CELL # 3
= +77.072 DEG. F 7 ~ DEW TEMP CELL # 4 = +77.119 DEG. F
-DEW TEMP CELL # 5 = +77.543 DEG. F DEW TEMP CELL # 6 = +85.203 DEG. F DEW TEMP CELL # 7 = +84.013 DEG. F
' DEW TEMP CELL # 9 = +84.452 DEG. F AVERAGE TEMPERATURE = +92.463 DEG. F AVERAGE PRESSURE = +61.137 PSIA
' AVERAGE DEW TEMP = +80.205 DEG. F AVERAGE VAPOR PRESS = +0.510 PSIA l
a=_ -_- --
pr, vy; :' 7 T~
.. (.. ,
?
, 4 - p .-
+ ': n ' f.9 ;: [d
' ew 3
( l% l 80, 4 J
SUMMARY
OF MEASURED DATA I 4 ' l
-- LIMERICK 1 d.
1'atu-, o. DATE: 225- TIME: 06:15
- y 's <
DEG. F
- TEMP RTD .# '1 = +121.~260 P TEMP RTD- #' 2 = +128.990 'DEG. F M
#c 3 = - +128. 550 - DEG. F J ~lEMP RTD 3
,. ' q q iTEMP RTD' #. 4' = +112.910 -DEG. F j TEMP;RTD # 5- = +116.420 DEG. F 1 LTEhc RTD :# 6 =- +87.925 DEG. F l
', (' ETEMP'RTD' #. 7 .= +88.699 DEG. F l
=.~+94.198' m
~ TEMP.RTDs .#8. DEG. F l x TEMP RfD #' 9 ~= +87.596 DEG. F
% .x < TEMP RTD #'10 = +91.542 DEG. F
' TEMP 7TD # 11 = +
'86.544 DEG. F
' J TEMP RTDL # 12 =- +84.320 DEG. F E ' '
' TEMP RTD # 13 = +83.352 DEG. F
' TEMP RTD' # 14 = +83.862 DEG. F 1 , ' TEMP RTD- # 15 = +84.428 DEG. F TEMP RTD' # 16- = +84.442 DEG. F
' (, . .
TEMP'RTD # 17 = +84.132 DEG. F l PRESS GAUGE # 1 = ' +60.198 PSI
-PRESS GAUGE # 2 = +62.011 PSI b
DEW TEMP. CELL.# 1 = +76.889 DEG. F
- DEW TEMP CELL # 3 = +77.111 DEG. F
..1" DEW: TEMP CELL # 4 =--+77.040 DEG. F i
*in DEW. TEMP CELL # 5 = +77.459 DEG. F l DEW TEMP CELL # 6 = +84.747 DEG. F DEW TEMP CELL # 7 = 484.059 DEG. F DEWfTEMP CELL # 9 = 84.362 DEG. F j j
I ' AVERAGE TEMPERATURE = +92.440 DEG. F
+61.134 PSIA i AVERAGE PRESSURE =
' AVERAGE DEW TEMP = +80.159 DEG. F f AVERAGE VAPOR PRESS = +0.509 PSIA {
l q l m l l l ri' _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ - - - _ . _ - - - ~
~ ~ ~~
{If5;S - l ; , - w > 7,da+6e 3 5
'n, n'y ~ :n, ;
j y , W
/fi , ,
[.: - . [, ' i p',
SUMMARY
'OF MEASURED DATA I
)
u% r
; LIMERICK 1' -
Q: , . . . DATE: 225 TIME: 06:00
> j !
a
!)
p, TEMP RTD # -. 1 ' .= +121.100- DEG. F 4
.u ' '
TEMP,RTD .# 2- = +129.010 .DEG. F : ( . TEMP RTD
; TEMP RTD
# TI = +128.490 -DEG. F f # 4 := +112.850 DEG. F E, sTEMP'RTD- # 5 = +116.360 DEG. F i or nTEMP RTD' #1 6 = +87.904- -DEG. F .;
[
. TEMP.RTD #' '7 = +88.690 DEG. F i TEMP RTD tt 8 a' +94.171 DEG. F i
-TEMP RTD # 9 =: +87.583 DEG. F-up ' +91.519.
-TEMP RTD #-10 <= .DEG. F )
1% , TEMP R1D # 11 =' +86.526' DEG. F : b y, ; TEMP RTD. # 12 = +84.306- DEG. F -1 i , ; TEMP 1RTD # 13 = +83.316 DEG. F ( y
~ TEMP.RTD. # 14' = +83.876 DEG. F 1 1 TEMP RTD' +84'.431
,' # 15 = DEG. F TEMP RTD # 16 = +84.442 DEG. F l C'
., TEMP!RTD '# 17 = +84.115 DEG. F 1 V:
p I p' PRESS' GAUGE # 1
= +60.198 PSI '
PRESS GAUGE #.2 = +62.009 PSI L' i DEW TEMP" CELL # 1 = +76.853 DEG. F .li DEW TEMP CELL # 3 = +76.974 DEG. F DEW TEMP CELL # 4 = +76.991 DEG. F DEW TEMP CELL.# 5-
= +77.412 DEG. F l DEW TEMP CELL # 6 = ' +84.552 DEG. F i DEW TEMP CELL #-7 = +84.043 DEG. F
- DEW TEMP CELL _# 9 = +84.466 DEG. F I.f ,
I;. 1 AVERAGE TEMPERATURE = +92.421- DEG. F ' AVERAGE PRESSURE = +61.133 PSIA AVERAGE DEW TEMP = +80.119 DEG. f' AVERAGE VAPOR PRESS = +0.509 PSIA l 1 l l o l I i kun-a-~2: ___.
&: t- > h^ s W, ,
.M Q)lp h ,' <
< n. ,
y y L
SUMMARY
OF' MEASURED DATA I
' L:t LIMERICK l' 3
DATE: 225 TIME: 05:45 ;, fi ' '
' TEMP RTD #. 1 ='+121.150 .DEG. F r , .
TEMP RTD # 2. = +128.950 .DEG. F to LTEMP RTD- # 3 = +128.430 DEG. F TEMP:RTD. 14 4 = +112.790 DEG. F-i,' < iTEMP RTD .3 :.s = +116.300- DEG. F TEMP RTD # 6 = +87.883- DEG. F . TEMP RTD #- 7 = +88.'661 DEG. F TEMP. RTD #. B. =-
.+94.084 DEG. F
. K ~ TEMP RTD-' .# 9 =, +87.559. DEG. F TEMP RTD #-10 = +91.487 DEG. F
- , 'O TEMP RTD' #'1.1 = +86.494 DEG. F E '
. TEMP RTD .# 12 = +84.312 DEG. F TEMP RTD # 13 =- +83.325- DEG. F iTEMP RTD- # 14 = +83.859 DEG. F '
-TEMP'RTO # 15- = +84.433 DEG. F F-- .. . TEMP RTD # '1 6 = ' +84.431 DEG. F TEMP RTD # 17 = +84,120 DEG. F C ,
, , PRESS GAUGE # 1 = +60.195 PSI j
', -PRESS GAUGE # 2 = +62.006 PSI i b i hi DEW TEMP CELL #:1 = +76.809 DEG. F DEW TEMP. CELL # 3 = +76.930 DEG. F
]
; DEW TEMP CELL # 4 = +76.921 DEG. F j P
DEW TEMP CELL # 5
= +77.400- DEG. F j DEW TEMP CELL # 6 = +84.211 DEG. F '
DEW TEMP CELL # 7 = +84.080 DEG. F , [ DEW TEMP CELL # 9 = +84.494 DEG. F j i P ! y AVERAGE TEMPERATURE = +92.393 DEG. F ) V AVERAGE i AESSURE = +61.130 PSIA l Q AVERAGE DEW TEMP = +80.086 DEG. F I AVERAGE VAPOR RRESS = +0.508 PSIA p. wmA : NLL L.- . a -
WQ ' h(l. w+ , y
.Io 1,
V ;
'>]..
~ ,
1
SUMMARY
OF F:EASURED DATA i k ? LIMERICK l'
~
'DATE: 225'
. TIME: 05:30 4
b TEMP RTD- # 1 = +121.100- DEG. F TEMP RTD #. 2; = +128.890 DEG. F
. TEMP RTD ' #
3 = +128.410 DEG. F g ' TEMP RTDr # . '. 4 = +112.730 DEG. F
.' TEMP RTD # SL = +116.240 DEG. F s
TEMPLRTD # 16 - = +87.858 DEG. F
, 'TEMPJRTD '# 7 =- +88.629 -DEG. F
' TEMP-RTD # 8 = +94.081 DEG. F.
p[#. ' TEMP RTD .# 95 m'. +87.538' DEG. F
. TEMP RTD # 10 = +91.461 DEG. F-
' TEMP RTD; '# 11 =- +86.471 DEG. F TEMP-RTD ~#'12 .= ' +84.306 'DEG. F
,. ' ' TEMP RTD # 13 = +83.328- DEG. F
' 73 . <
. TEMP RTD'
# 14 = +83.848 DEG. F
-TEMP RTD- 4 15 = +84.410 DEG. F TEMP RTD #116 =. +84.429 DEG. F
@ TEMP RTD #'17 = +84.133 DEG. F l I PRESS GAUGE #'1 = +60.191 PSI i FRESS GAUGE,# 2-
= .+62.004 PSI l l
I
; DEW TEMP CELL # 1
== +76.771 DEG. F j p, DEW TEMP CELL # 3 =- +76.921 DEG. F i
! LDEW TEMP CELL # 4 = +76.887 DEG. F ] ' h DEW TEMP CELL # 5 = +77.366 DEG. F l : DEW TEMP CELL # 6 = +84.079 DEG. F f N , . DEW TEMP CELL # 7 = +84.008 DEG. F ! DEW TEMP CELL # 9 = +84.454 DEG. F r L AVERAGE TEMPERATURE = +92.373 DEG. F AVERAGE PRESSURE = +61.127 PSIA
. AVERAGE DEW TEMP = +80.045 DEG. F AVERAGE. VAPOR P.RESS = +0.508 PSIA l:
1 1
. = _ - _ - _ _ - - - - _
y x i e x< '
, 1 l'
w
'li . i
;'gy 1
6 r o
SUMMARY
OF MEASURED DATA LIMERICK 1 i
'DATE:f225- TIME: 05:15 z a TEMP RTD # l' =~+121.040 DEG. F TEMP.RTD # 2 .= +129.890 DEG. F
. TEMP RTD # '3 = +128.370 DEG. F
; TEMP RTDi # 4' = +112.680 DEG. F TEMPERTD .# 5. =.+116'180. DEG. F
.. TEMP RTD' # 6' =- +B7.837 DEG. F 4
TEMP.RTD' #. 7 = +88.594- DEG. F fi II, TEMP RTD- # 8 = +94.047 DEG. F
# 9' ! TEMP RTD =. +87.525 DEG. F s
TEMP RTD # 10. = +91.415 DEG. F TEMP RTD #'11- ,= +86.459 DEG. F i TEMP RTD. # 12 = .+ 84.314 DEG. F
. TEMP RTD # 13 = +83.302 DEG. F k 1 TEMP RTD- # 14 = +83.850 DEG. F-TEMP RTD #.15 = +84.414 DEG. F TEMP RTD. # 16 = +84.436 DEG. F h TEMP RTD ~# 17 = +84.123 DEG. F PRESS GAUGE #'1 = +60.190 PSI
' PRESS GAUGE # 2 ' = +62.003 PSI DEW TEMP CELL # 1 = +76.715 DEG. F DEW TEMP CELL # 3 = +76.797 DEG. F L DEW TEMP CELL # 4 = +76.849 DEG. F DEW TEMP CELL # 5 = +77.288 DEG. F j
' DEW TEMP CELL # 6- = +83.689 DEG. F !
DEW TEMP CELL # 7 = +84.075 DEG. F DEW TEMP CELL # 9 = +84.449 DEG. F AVERAGE TEMPERATURE = +92.352 DEG. F VERAGE PRESSURE = +61.126 PSIA l AVERAGE DEW TEMP = +79.994 DEG. F j AVERAGE VAPOR P,RESS = +0.507 PSIA l' I ) Wwhmse._. m_ _
T.G"~ 4
- F d
' j '
}
@ 4 l
J I J i
SUMMARY
.0F MEASURED DATA i1 LIMERICK 1-D 2, 'DATE: 225' TIME: 05:00 h; TEMP'RTD # 1 = +121.010 DEG. F TEMP RTD. # '2 = +128.870 DEG. F 3 TEMP RTD .# 3 = +128.320 DEG. F- ; C TEMP:RTD. # 4 = +112.620 DEG. F ; K ' TEMP!RTD- # 5: = +116.100- DEG. F LTEMP'RTD' # 6 = +87.805 DEG. F [. f 1 TEMP RTD #1 7- = +88.589 'DEG. F TEMPtRTD # 8 = +94.017 DEG. F
.TEMPLRTD # 9 =\~+87.483 DEG. F TEMP RTD #L10 = c+91.383 DEG. F h TEMff RTD 4.11 := .+86.438 DEG. F l . TEMP RTD #.12 =- +84.312: DEG. F TEMP RTD # 13 = +83.282' DEG. F.
' TEMP RTD # 14 = +83.863. DEG. F TEMP RTD # 15 = '+ 84.402 DEG. F TEMP RTD # 16 = +84.426 DEG. F TEMP RTD- # 17 = +84.-112 DEG. F
, . PRESS GAUGE # 1 = +60.188 PSI
~ PRESS GAUGE # 2 +62.001 PSI
\ =
s [ DEW TEMP CELL # 1 = +76.635 DEG. F p DEW 1 TEMP CELL #.3 = +76.829 DEG. F f DEW. TEMP CELL # 4 = +76.785 DEG. F DEW TEMP CELL # 5- = +77.224 DEG. F DEW TEMP CELL # 6 = +83.348 DEG. F DEW TEMP CELL # 7 = +84.056 DEG. F DEW TEMP CELL # 9 = +84.468 DEG. F
- . AVERAGE TEMPERATURE = +92.328 DEG. F AVERAGE PRESSURE' = +61.124 PSIA AVERAGE DEW-TEMP = +79.962 DEG. F AVERAGE VAPOR PRESS = +0.506 PSIA l
L'
h 1' 'v::>. , GP-R-312003 GENERAL PHYSICS CORPORATION f l , l nt f' ' APPENDIX C [ ILRT CALCULATIONS i l'
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MASS POINT DATE- . TIME CALC. LEAK RATE 95A UCL. 225 5.00: 0.000 0.000 225 5.25' O.OOO 0.000 i- '225 5.50 0.256 0.665 225 5.75 O.179 0. 322 225 6.00 0.146 0.226 225 6.25 0.159 0.208 225' 6.50 0.150 0.184 225 '6.75 0.142 0.168 , 225 :7.00 0.142' O.161 ! 225 7.25 0.141 0.157 225 7.50 0.144 0.156
.225 7.75 0.137 0.150 225 8.00 0.138 0.149 225 8.25 0.136 0.146 .;
225 8.50 0.132 0.141 225: 8.75 0.128 0.137 225 9.00 0.121 0.132 225' 9.25 0.115 0.126 225 9.50 0.115 0.125 225' 9.75 0.116 0.125
$ 225 10.00 0.116 0.124 225 10.25 0.117 0.124 225- 10.50 0.118 0.125 225 10.75 0.119 0.125 225 11.00 0.120 0.125 225 '
11.25 0.120 0.126 225 11.50 0.122 0.127 I 225 .11.75 0.122 0.127 j 225 12.00 0.124 0.128 l 225 12.25 0.124 0.128 225 12.50 0.125 0.129 , 225 12.75 0.126 0.130 L ,225 13.00 0.127 0.131 L r-l r
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'225J e '7.00 0.151 'O.140 0.235
$' L225I '
- 7.25- 0.149! .O.138 0.223 ,
w*' i225 7.50 0.154 0.139 0.217 ; L225- 7.75: m 'O.132- 0.1321 0.204 f225. '.0. 148 Qw 8.' 00 : ,
.O.133~ 0.201 d 0 M 0.130
~225l . .- 8. 25 , ,0.'138 -
0.194 l A.. c 225 '? '8.50 20.132- O.127 0.188 i
;225 '
8.75) 0.127 0.123 0.181
*- >225' '
9.00 0.114' O.118 0.172
.225 m 9.25 .O.112' O.113 0.165 4 ,
'225 :9.50: .0.126- 0.111' O.162-225t 9.~ 751 (h128- 0.111 0.161
.225L 10.00: 0.127- 0.111 0.160 F L2251 10.25 0.128. 0.110 0.159 225: - 10.50' O.130' O.111 0.159 225:- 10.75; 0.128' O.111 0.159 1225' : 11.00- -0)129 0.111 0.158
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> :225; T 1'1. 25 10.130 0.159 W 225- 11.50 :0.133 0.112 0.159 1 o 225 11.75: 0.131 0.113 0.159 l
'2251 12.00. '0.134' O.114' O.160 J225: 12.'25 0.131 0.114 0.160
. I225 ~ 12.50 0.134 0.115 0.161
$ s225.. :12.75 0.133 0.115 0.161 % t [225; 13.00 0.137 0.116 0.162 L l lL h v c
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, ;225 .5.25 .0.1745- 'O.0000' O.0000- O.0000- .O.0000' s o, 225' :5.50 1 0.25721 4 0.'0000- 'O.0000 'O.2560 0.6650'
$ 'L225i '5E75 :0;1640 0.1933: O.8888- 'O.1794 0.3223
- h. \ L 225 J ' ?6;003: O.1461n O.1587-
- 0.'16141
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O.4264 0.'1459 0.2255 0.2076 1225) 16.25 0.1751 '0.3369 :0.1586 %" ; ~
, '225l l6.501 0.1532- + 10.1518 > 'O.2840 0.1497 0,1840 225:- .6.75; "O.1442:- . '
..0.1426 0.2508e 0.1421- .O.1684 l225? [7.00. ,30."1515 5
- L.O.'1403. 'O.2347. .0.1415 0.1615
,1 225. :7.25 '0.1485
- 0.'1380 0.2226 0.1411 0.1567
[^f (2'25 7.504 ,
;0.(1541 ,O.1386
- 0.2171- O.1436 0.1565 O.'1325' 0.-1324 O.2043 0.1368 0.1498
=
ja . - -225- 17.75?
'ib225i '8.00' JO.'1480 'O.'1'326 0.2008 -O.1383' O.1494 0.'1459
, ".C L225- f 8. 25 : 'J0.1384 <
0.,1303' l0.1944' O.1362 r, .225< ~8.505 )0.'1323- .0.i1270 'O.1876, O.1323 0.1414 P' W225~ '8; 751 LO.1269: " O.1233 0.'1807 0.'1283 0.1373
> 225 9;00i ;0;1143 O.1176> O.1723 0.1214 ;0.1320 t225' 9.25: ,/0.-1121i 0.1126 0.1649 0.1155 O.1264 . . , , '225[ ! 9. 50 J ' l0.1259 ~- O.1115' O.1625 O.1153 0.'1249 0 '
(225i ^9.75' - O.1277 i0.1110 0.'1611 0.1160 'O.1247 W '225 J10.00: ' O.1271' -0.1106~ ',0.1599- 'O.1164- O.1243 7 (2250E10.251, LO.'1281'- ;0.'1105 O.1592' O.1172 0.1244 l225 '10.50? -0.1299' 'O.1108 -O.1591- O.1182 O.1248 n 4 J225 W10<75L -O.1285- .0.'1108 0.1587- O.1188 0.1248-
' i225' 11.001 0.1292: 0.'i111. O.1585- O.1196 0.1252-
[ 0.1204 0.1856 L > 1225 - 11.25i iO.1304: O.1115- O.1586
~ :225. 11=.50 ,.0.1328- -O.1123 0.1593 0.1216 0.1266 L.* '225l-11."75..' O.13081 0.1128 .0.1594 0.1224 0.1271
$j 7225: 12.00 /O.'1343 0.1137- O.1602 0.1238 0.1283 '% c225' 12.25* .O.1308- EO.1140 ~ 0.1601 0.1840 C.1883 225 12.50: 0.1338 'O.'1148 0.'1606 O.1251 0.1293 225 12775- 0.'1330 0.1153 0.1609 0.1258- O.1297 "225;;13.00' O.'1373 0.1164 O.1619 0.1272 0.1312 tr - r :. i f (p!. E'
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.. CALCULATE lLEAE RATE
. MAX ALLOWED LEAR RATE bi;
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- " m GP-R-312003. GENERAL PHYSICS CORPORATION l 4
4 , 4 r, - i I APPENDIX E FAILED TEST REPORT o g 1-
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t l i a 1. l l 1 1 i l l l l r , 9 E-1 l l J 1 2 :x1-
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'DATE' TIME. MEAS. LEAK RATE CALC. LEAK RATE 95%UCL a ----------------------------_------__--____-----___-___________
> qf '2231 - 20.25- 0.000 0.000 0.000 1;i;- l- 22 3 20.50 -1.238 0.000 0.000 i.' 223 H20.75 0.968
~
0.000 0.000
"'M23-21.00 1.108 1.040 2.662
, < a r i3 21.25 1.029 1.013 1.616 h I 22b 21.50' 1.018 0.997 1.385 3
- ' 223. 21.75 i.027 0.995 1.297 "f; 223 22.00 1.039 1.000 1.259 l 1 1223' '22.25- 1.073- 1.019 1.256 223- .22.50^ 1.030- 1.015 1.226 ;
223 22.75 1.041 1.017 1.209 223- 23.00 .1.030 1.015 1'. 192
'223 23.'50 1.007 1.002 1.169 i 223. :23.75 1.023 1.003 1.159 224 24.00 0.992 0.995 1.141 i 224 24.25' 1.007 0.993 1.131 224 24.50 1.000 0.990 1.121 224 24.75 0.'981 0.983 1.109 224- 25.00 'O.969 0.976 1.09G 224l: 25.25' O.958 0.967 1.083 224L 25.'50 0.948 0.959 1.070 224 25.75 0.962 0.954 1.062 224- 26.00 0.969 0.951 1.056. F 224 26.25 0.961 0.947 1.050 224 126.50 0.960 0.944 1.044
'224' .26.75 0.971 0.943 1.041 224. 27.00 0.966 0.942 1.038 224 27.25 0.959 0.939 1.034 224- 27.50 0.961 0.938 1.030 224 27.75 .0. 954 0.935 1.026 224- 28.00 0.945 0.933 1.022 :
=224 28.25 0.947 0.930 1.018 !
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- 223? 21'. 50-t t1.013 1.094
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- 223 -
-22.00, 1.020 1.060
'- 1 i e!' , :^ 2231 22.25; .12043- 1.082- 1
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223I I22.50' -1.036' .1. 068 Q ', -[223 : '22.75' .1.036 1.062 ^< ' l 223[ l 23.' 00 '1.'032 1.054 o 'L23.501 ' 1 . 0 1'8 i 1.040
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- - l224 : '24.00 .l.0051 1.024 e, -gz, a .,
- e. e224' J24.25- :1.002 '1. 019 i
! .c, ",;.% , . [22% ...3 24.,50 0.'999 1'.014
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- 2243 224.'75~ O.990 1.006 g, 7224/l 25s00J >
0.'981 0.998 m g -:l2247 325.25 O.971 0.989 L.;
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- 224i J25.751 0.957 0.975 I
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, ::224 *26.'00 'O.955- O.972
'D'. : ,224 26.25L .O.952 0.968
'26.50' h L224D O.950 O.964 N J'l' 4224% L26f75. , .O.950-0.964
'224' '27.00 -O.950 0.962
,, 1 > s L224 27.25 O.948: 0.960 H O.948 0.958 s - 224S 2 7 . 5 0 .'
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R' REPORT . . !/ %. hod..RS U. < d # OFI DATA: MEA'SURED. ' CALCULATED' CHG IN CALC eiOFnTESTt ..'WPOINTS1 ELEAK: RATE LEAK-RATE LEAK RATE gy w . , , .,
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m:c 8 R00% ~ 32 < +0.9468 +0.9300 -0,0025 g.175" , (31' + 0'. 9 4 6 3 . +0.'9325 -0.0029 g 47. :50l 3 (30; a 0 ' +0. 9354 - ~0.0023- H
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t o9 5 4 2:' 9607i +0.9377.7 -0.0017 I V< 7/:251..
@ 7[50S,
[28i1 +0.9594 ;+0,9394 -0.0022 ~ 4 M S475.:, s , 127D ~+0.9663 l+0.9416 -0.0015
#Nj67 50 : -l26 : +0.9707- +0.9431: -0.0011 lL 56; 253 <1 !2 5X l+0;9603.: +0.9443- -0.0032 -l ,
MGiOO?
, ?2 41 :+0.9614" ~ + 0 . 9 4 7 4' -0.0036 Cd5475.:J. o .23- y+0.9695 +0.9510 -0.0028 y" fD150!L $ 22w r -+ 0 . 9 6 1 8 .. +0.9538' -0.0049 l e 5. 25 * ' > : +0.9485- +0.9586 -0.0086
,' '"21%,
Y lLS[coj 20 % :+0.9584: +0.9672 -0.0083
+ ,
D e g ;; ONDATA:l POINTJMEANELEAKAGE'="~. 9612258 c1],[::i - i {,[ r ,
;/. MASS 300INTLTRENDiREPORTz
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, L-10dRSi ~ # OF DATA- '. CALCULATED CHG IN' CALC
- CF ,:TES T . POINTS- LEAK RATE ~ LEAK RATE y'
8.00' 32 . +0.9402 -0.0024 7.751 .+ 0.9426- -0.0029
- 31, 9q (; '
(7.50i ' 30 +0.9454 -0.0021
- ;7.25 :29 +0.9475 -0.0009 7.E 00 ) 28- +0.9484- ~0.0016-6.75:1 4 27. +0.9500 -0.0003 -i y l j6150 '261 - +0.9502' +0.0004 6.25- 25 +0.94981 -0.0025 6!00- 124 - . +0.9523 -0.0030 V , -
- 5. 75 '. :23' +0.9552 -0.0016 i
'5.50 22 +0.9568 -0.0043 5.251 21 +0.9611 -0.0098-o5.00' 20: +0.9710 -0.0096 f 2 20JDATA POINT,MEAN LEAKAGE =~ .9691544 v
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CASS.: ANALYSIS GRAPH LEGEND l { 95X UCL LEAR RATE
+_._ z CALCULATE LEAX. RATE q MAX ALLOWED LEAR RATE !
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.1 GP-R-312003' GENERAL PIIYSICS CORPORATION l
f
' APPENDIX F
- VERIFICATION TEST
SUMMARY
DATA l :1 l-L l
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'd 7 TOTAL.Y!ME UNIT # 1
- DATEt TIME TTLM LMCALC SL LAM LP5
'225 14.00 0.0000 O.0000 0.0000 0.0000 0.0000 225: 14,25 C.6592. O.0000 v.0000 c.0000 0.00Co 225- 14.50 0.7507 0.0000 0.0000 0.7310 1.207o .
225- 14.75 0.6247 0.6609 ' 1.5210 0.6463 0.8:84 225 15.00 0.7054. O.6869 1.0244 o.6850 o.7889 225, -15.25 0.7170 ~0.7054 0.9220 0.7076 0.7751
~223 15.50 0.7275 0.7203 0.0843 0.7232 0.7718 225 15.75 0.7233 0.7266 0.8609 0.7281 0.7635 2 .
225 ..16.00 0.7330 0.7366 0.8519 0.7382 0.7671 a ' 225 16.25 0.6894 0.7243 0.9362 0.7192 0.7498 225 16.50 0.6906 0.7160 0.8212 0.7080 0.7352 225. 16.75 0.6809 0.7068 0.8070 0.6962 0.7215 225 17.00 0.6802 0.6998 0.7945 0.o889 0.7114 225 17.25 '0.6898 0.6972 0.7859 0.6875 0.7067 1225 17,50 0.6983 0.6973 0.7809 0.6900 0.7067 225 17.75 0.7024 0.6985 0.7776 0.a927 0.7076 225 18.00 0.7168 0.7026 0.7786 0.6998 0.7145 4 4 e f 4
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\
/
I AVG. 0ATA VALUES UNIT # 1 . l
~DAT2 TIME TtI) P ( I .? DT(I) VP(I) i% 53(.:)
225 14.00 95.01 60.66 81.80 0.5~7 117714 225 14.25 '93.03 60.66 81'.G8 0.539 117706 l- 225 .14.50 93.05 60.65 81.96 O.540 117696 225 14.75 73.06 60.65 82.02 0.541 117692 1225- 15.00 93.08 60.65 82.09 0.542 117680 225 15.25 o3,10 60.65 82.17 0.544- 117671. -
-223 15.50 93.13 60.64 32.23 O.545 117661 225- '15.75' 73.14 60.64 82.30 0.546 117652 225 16.00 93.16 .co.64 82.37 0.548 117642 225L 16.25 o3.17 .60.64 82.39 0.548 117658 225 16.50 93.18 60.63 82.52 0.550 117630 225 16.75. 93.19 60.63 82.54 0.551 117623 "
.225 17.00 93.20 60.63 82.63 0.552 ' 117614 225 . 17.25 93.22 60.63 62.7~ 0.554 117605 225 17.50 93.24 60.62 82.76 0.554 117595 2225- 17.75 93.26 .60.62 82.86 0.556 117585 225 18.00 93.28 60.62 82.96 0.558 117574 9
e +
' Mg e.
S ii M l
,e 4
a 5 ( o . 4 a
7, N ,s . TOTAL TIME VERIFICATION LEAKRATE .7026283 IMPOSED '_EAK RATE .4956646 l TEST' LEAK RATE .117932 La- .5 Lo+ Lam-0.25La= .4885966 Lo+ Lam +0.25La= .7385966 VERIFICATION'. CRITERIA'HAS BEEN MET
' MASS POINT VERIFICATION LEAKRATE .6999348 IMPOSED LEAK RATE .4956646
' TEST. LEAK RATE .1229224 La .5 h
l- Lo+ Lam-0.25La= .499587 ? Lo+ Lam +0.25La= .749587 l / VERIFICATION CRITERIA HAS BEEN MET l NIT ANY' KEY TO CONTINUE l
7, ,
'3, L ,
j dif ,; 4,[3 , zy . , ,
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y G 1 0 ';j;. , Qg- 'P ' ' "n i
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SUMMARY
.0F MEASURED DATA it.
"N '
LIMERICK l' DATE: 225 TIME.18i00 3
;L;; *
- b W ;.'
< s 3 . .
4~ l
. ' TEMP.RTD. .# : 1 = +122.490 DEG. F TEMPLRTD :# 2 = +130.660' DEG..F q n , .H TEMP RTD. # E3 =-+129.940 -
DEG. F. i
]' y. >
TEMP.RTD- # 4 ='+115.380 DEG. F !
- TEMP RTD- -# 5 = +119.820 DEG. F '
-TEMP RTD # 6 = +88.890 DEG. F TEMP RTD #- 7 = +89.692 'DEG. F 4
TEMP.RTD.' :# - 8 = +95.602 DEG. F
. TEMP RTD # 9 = +88.552 DEG. F j IL '
TEMP RTD # 10 = +92.680 DEG. F l
% . TEMP R.TD #=11 = '+87.399 DEG. F i v . TEMP RTD # 12 =- +84.417 DEG.'F l i '
TEMP RTD # l' -
+83.406 DEG. F i TEMP.RTD +83.932 DEG. F m',.,
w TEMP.RTD
#.14
#'15
=
= +84.507 DEG. F l 3 TEMP RTD- . #'.16 =L +84.527 DEG. F j
; ,7 . TEMP.RTD # 17' = +84.246 DEG. F ps , -[
s s PRESS GAUGE # 1 = ,+60.237 PSI PRESS GAUGE # 2- =. +62.054 PSI
.. .T g'> ~
-DEW TEMP CELL 1# 1 = +79.054 DEG. F 0
' DEW TEMP' CELL # 3 = +79.164- DEG. F ;
kD.,,ff;' DEW TEMP CELL # 4 = +79.293- DEG. F l DEW. TEMP CELL # 5 = +79.'608 DEG. F -) h DEW TEMP CELL # 6 = +116.510 DEG. F i DEW TEMP CELL # 7 = +84.223 DEG. F
-DEW TEMP CELL # 9 = +84.623 DEG. F f~:
i AVERAGE TEMPERATURE-= +93.283 DEG. F b AVERAGE PRESSURE = +61.175 PSIA h ~ AVERAGE DEW TEMP = +82.965 DEG. F l AVERAGE VPR PRESS = +0.5581 PSIA i j y C f +=t ; c,
- c. 3 z i
YY < !Y $$Iffas , M9h ^ >
l ahu i 1
.W:
J9
SUMMARY
lOF= MEASURED DATA q 4 ,m
-,. j VW t-a
- m. .
1
- fIMERICK 1:
- t'".
-y cDATE: 225 TIME: 17:45-di
' * . TEMP.;RTD .#'
X' '1 - = +122.390 DEG. F y' -TEMP.RTD # 2 = +130.610 DEG. F
, ' f. TEMP.RTD1 .
'#' -3 ' = +129.880 DEG. F !
? 1. '
TEMP:RTD" nD ~4 m'+115.340.- 'DEG. F , s NTEMP RTDL # 5- = +118.770 DEG. F RE < ' . . TEMP RTD; # :6 = :+88.865 DEG. F L
' TEMP RTD- # 7' =- '+89.654 DEG. F ji
...T E M P R T D ' #- 8 = -+95.576- DEG. .F I
- . j..< ,,
. TEMP ~RTD .# . 9 '= +88.542 DEP. F. 1 "i i DTEMP RTD' # 10 ' =. +92.652 DEG. F. .
4 iTEMP RTD th 111 '= +87.394 DEG. F
. g; , TEMP'RTD; -.M 12' ' =, +84.400 DEG.-F TEMP RTD-
'" .4 13. =: +83.378 DEG. F
'+B3.941
' TEMP RTD '# L14 ' =l DEG. F
.n TEMFf;RTD #?15' = ' +84.501 DEG. F 4 .^" V~,
' : TEMP 1RTD' #116 L= +84.516- DEG.-F /
# 1'7
- TEMPfRTD =' +B4.248 DEG. F
(* - PRESS GAUGE #'1 =- +60.239 PSI g PRESS GAUGE # 2 = +62.'055 PSI w., g, , DEW TEMPfCELL'#~1 = +78.987 DEG. F M' s DEW TEMP CELL # 3 = +79.042 DEG. F DEW TEMP CELL ~*F4 +
=. '79.223 DEG. F i DEW TEMP. CELL # 5 = . +79.594 DEG. F !
o DEW TEMP CELL # 6 = +115.340 'DEG. F DEW TEMP CELL # 7. = +84.220 DEG. F DEW TEMP CELL # 9 = +B4.603 DEG. F 09 ' AVERAGE' TEMPERATURE = "93.261 DEG. F AVERAGE. PRESSURE = +61 177 PSIA hVERAGE DEW TEMP = +82.856 DEG. F AVERAGE VPR PRESS = +0.5561 PSIA "d'.
.g.
,, t
,l * :; c ' . E. = m____ 4
~
ig > 'b= f 8 PU t I v ' en s
- :s J 4
n@fLW
SUMMARY
OF MEASURED DATA ( F , i b ' a
- ,. j k
~
" LIMERICK 1~ I
, -DATE: J225 TIME: 17:30
(": E
' TEMP RTD E 1 = +122.420 DEG.'F g., <
TEMP RTD' -# 2. = +130.520 DEG. F 6 . .. TEMP RTD # .3 = +129.860 'DEG. F TEMP RTD- # 4' = +115.290- DEG. F 1 TEMP RTD # 5' = +118.720' DEG. F TEMP RTD~
#. 6 = 488.847 DEG. F
. TEMP RTD # 7 =- +89.624' DEG. F TEMP RTD # 8 = +95.564 DES. F JTEMP:RTD" .#1 9 .= +88.517 DEG. F TEMP RTD- # 10 = +92.614 DEG. F
-# 11' 4 TEMP RTD = +87.359 DEG. F
- TEMP RTD- :# 12 :=* +84.393 DEG. F [
,lf, ' . .
TEMP'RTD # ' 13 = +83.396 DEG. F f' - TEMP RTD #-14 =. +83.929 DEG. F 0 TEMP RTD # 15 = +84.503 DEG. F TEMP RTD. # 16- = +84.515 DEG. F S x TEMP.RTD # 17 = +84.251 DEG. F (.,f
& PRESS' GAUGE #:1 = +60.240 PSI
[;l- , PRESS' GAUGE #-2 = '+62.056 PSI y ,, P DEW. TEMP CELL #.1
= +78.967 DEG. F
" DEW TEMP. CELL # 3 =- +79.000 DEG. F l4 ,
-DEW TEMPLCELL #'4 = .+79.184 DEG. F
!w <
DEW. TEMP. CELL # 5 >= +79.562 DEG. F
' ^'
- . DEW TEMP ~ CELL # 6 =:+113.960 DEG. F t DEW TEMP CELL # 7 = +84.191 DEG. F F DEW TEMP' CELL # 9 .= +84.582 DEG. F i
[ AVERAGE TEMPERATURE = +93.242 DEG. F AVERAGE PRESSURE = +61.178 PSIA. L AVERAGE DEW TEMP = +82.761 DEG. F h' n . AVERAGE VPR PRESS = +0.5544 PSIA i 11 i .[. h .1 0 . f.b E-i_mm _:_[ __ __ l
Y
,'[
'i
.( -1 i
SUMMARY
OF MEASURED DATA LIMERICK 1 DATE: 225 TIME: 17:15' l TEMP RTD # 1 = +122,370 DEG. F TEMP-RTD # 2 = +130.580 DEG. F TEMP RTD # 3 = +129.830 DEG. F TEMP RTD # 4 = +115.230 DEG. F TEMP RTD # 5 = +118.660 DEG. F
- TEMP RTD # 6 = +88.819 DEG. F TEMP RTD # 7 = +89.625 DEG. F TEMP RTD # 8 = +95.483 DEG. F
' TEMP RTD' # 9 = +88.491 DEG. F 4 TEMP RTD # 10 = +92.594 DEG. F TEMP RTD # 11- = +87.339 DEG. F TEMP RTD- # 12 = ' , +84.372 DEG. F TEMP RTD # 13 = ~ +83.383 DEG. F TEMP RTD # 14 = +83.935 DEG. F TEMP RTD # 15 = +64.497 DEG. F TEMP RTD # 16 = +84.510 DEG. F s ... TEMP RTD #.17 = +84.231 DEG. F PRESS' GAUGE # 1 = +60.242 PSI PRESS GAUGE # 2 = +62.058 PSI !
DEW TEMP 1 CELL # 1 = +78.894- DEG. F DEW TEMP CELL # 3 = +79.086 DEG. F DEW TEMP CELL # 4 = +79.057 DEG. F DEW TEMP CELL # 5 = +79.504 DEG. F DEW TEMP CELL # 6 = +113.020 DEG. F DEW TEMP CELL # 7 = +84.268 DEG. F DEW TEMP CELL # 9 =' +84.651 DEG. F AVERAGE TEMPERATURE = +93.219 DEG. F AVERAGE PRESSURE = +61.180 PSIA AVERAGE DEW TEMP = +82.727 DEG. - AVERAGE VPR PRESS = +0.5538 PSIA P-(
mgwe gy n
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' ',.7..
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'i
'<+ !q
SUMMARY
'OF' MEASURED' DATA y_ LIMERICK!.1-DATE: 225- : TIME: 17:00. j s
.. e if,.'r r '
ci;
, TEMP RTD- # 1- = +122.310 DEG.-F
': TEMP RTD # 2 .= +130.440 DEG. F 1: . TEMP RTD- # 3 = +129.800 DEG. F
,. L : TEMP 1RTD- .# 4- = +115.170 DEG. F
<TEMPJRTD- - #' =,+118.620 DEG. F TEMP.RTD- # 6 = +88.801 DEG. F
., TEMP RTD' # -7f = +89.582 DEG. F lj
-TEMP RTD: # 8 = +95.477 DEG. F i
> TEMP-RTD # l?. =- +88.485 DEG. F TEMP RTD # 10- '= +92.550 DEG. F 4 TEMP RTDL # 11 = +87.332 DEG. F
-TEMP.RTD- :#:12. :=, +84.378 DEG. F TEMP RTD: #.13 = ' +83.383 DEG. F
. TEMP'RTD #?14 = -+83.917 DEG. F 1 1 TEMP RTD-. -# 15 = +84.486 DEG. F
"~ -TEMP RTD- # 16 = +84.516 DEG. F TEMP RTD #'17 = +84.220 DEG. F 1 PRESS 1 GAUGE # 1 = +60.243 PSI PRESS GAUGE # 2 = +62.059 PSI DEW TEMP CELL # 1 =- +78.892 DEG. F ;
DEW, TEMP CELL #.3- = +78.987 DEO. F DEW TEMP CEL L # 4 = +79.064 DEG. F 1 DEW TEMP CELL #.5 = +79.484 DEG. F DEW TEMP CELL # 6- =.+111.960 DEG. F DEW TEMP CELL # 7 = +84.196 DEG. F DEW TEMP CELL # 9 = +84.590 DEG. F l AVERAGE TEMPERATURE = +93.198 DEG. F i AV.ERAGE PRESSURE = +61.181 PSIA AVERAGE DEW TEMP = 482.630 DEG. F
. AVERAGE'VPR PRESS- = +0.5521 PSIA .
I 4
)
i U I a i l
,_ __ 1
y;-z; m ;g wv
. <~
( p, O:" 4$~ W 90
;--w
SUMMARY
OF-MEASURED DATA
+
, LIMERICK l' sg -
;DATE:L225- ' TIME: 16:45 i
4 L' ' YTEMP RTD '# 1 = +122.290 DEG. F-
- TEMP RTD #' 2- = +130.470 DEG. F p '
' TEMP RTD
# 3 = +129.770 DEG. F b ,
TEMP RTD # 4 = +115.140 DEG. F 4 TEMP RTD # 5 = +118.570 DEG. F r TEMP RTD # 6 =- +88.784 :DEG. F TEMP RTD- # 7 = +89.584 DEG. F ! TEMPcRTD # 8 = :+95.455 DEG. F
+ , .TEMPnRTD- # =9 = +88.484 DEG. F TEMP.RTDr ~#~10 = +92.543 DEG. F ,
LTEMP'RTD1 #-11 = +87.303 DEG. F ; TEMP RTD- # f 12- = +84.384 DEG. F 2 TEMP RTD" . # ' 13 =- +83.407 DEG.'F TEMP-'RTD
~
# L14 =J +83.917 DEG. F 1 TEMP RTD #f15 = +84.495 DEG. F j TEMP RTD # 16 = +84.521 DEG. F l TEMP RTD' #'17 = +84.223 DEG. F PRESSLGAUGE # 1 = +60.245 PSI '!
PRESS GAUGE # 2 = +62.061 PSI 'j h,, DEW TEMP CELL # 1 = +78.868' DEG. F F ,
-DEW TEMP-CELL'# 3. =. +
'78.926 DEG. F h DEW-TEMP CELL #'4 = +78.993 DEG. F DEW TEMP CELL # 5 = +79.428 DEG. F i DEW' TEMP, CELL # 6 = +110.930 DEG. F i
~ DEW TEMP CELL'# 7 = +84.234 DEG. F DEW TEMP CELL #.9 = +84.535 DEG. F i
i
-AVERAGE TEMPERATURE = +93.191 DEG. F !
AVERAGE PRESStlRE = +61.183 PSIA l L , AVERAGE DEW TEMP = +82.544 DEG. F AVERAGE VPR PRESS = +0.5505 PSIA U h e o I 1 i !? 1 1
)
s I h.. . J
m ==7v
,= ,
7
', ?:b , '
l U 7;;. m 1
- a. $i:
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'g s
SUMMARY
OF MEASURED DATA ; ( LIMERICK 1 i i
'DATE: L 225.- TIME: 16:30
, . TEMP RTD. # 1 = +122.200 DEG. F.
li -TEMP'RTD #L 2 == +130.400 DEG..F og TEMP RTD. '# 3 =~+129.760, ,.DEG..F TEMP RTD' :#, .4 = +115.110 DEG. F TEMP RTD. # 5' = +11E.530 DEG. F W! LTEMP RTD' #' 6- = +88.775 DEG. F
.3-t
, TEMP RTD #7 = +89.564- .DEG. F TEMP;RTD .# .8 := +95.442 DEG. F ,
. TEMP RTD- # 9 = +88.'456 DEG. F l 9 ETEMPERTD J# 10 = +92.530: DEG. F TEMP'RTD- ># 11- .= +87.300 DEG. F DTEMPcRTD #'12 = +84.381 DEG. F ETEMP'RTD.
# 13' =. +83.395- DEG. F
. TEMP:RTD "#s 14 = +83.921' DEG. F
. TEMP RTD # 15 = . +84.503 DEG. F
. TEMP RTD '# 16' = +84.507 DEG. F TEMP RTD- # 17 =- +84.249 DEG. F PRESS. GAUGE # 1 = +60.247 ' PSI l PRESS.GAUGEJ# 2: = +62.063 PSI
.j . DEW' TEMP. CELL # 1 = '+ 78.759 DEG. F-DEW 1 TEMP CELL # 3 = +78.857 DEG. F DEW TEMP: CELL # 41 = +
'79.037 DEG. F DEW TEMP. CELL'# 5 = ' +79.393. DEG. F [
DEW' TEMP CELL # 6 = +110.990 DEG. F l DEW TEMP CELL # 7 = +84.120 DEG. F DEW TEMP CELL # 9 = +84.594 DEG. F . l A AVERAGE TEMPERATURE =+93.100 DEG. F AVERAGE PRESSURE = +61.185 PSIA AVERAGE DEW. TEMP. = +82.521 DEO. F
. AVERAGE VPR PRESS = +0.5501 PSIA i l
l i l l l
]
1 i
, -e j 1
Ou i ya 6 a:Eza:=- - :_ -
i
SUMMARY
OF' MEASURED DATA . LIMERICK 11 4 DATE: 225t TIME: 16:15 I i e TEMP RTD- if 1 = +122.280 DEG. F TEMP RTD # 2 = +130.340 DEG. F ) TEMP RTD # 3 = +129.730 DEG. F TEMP RTD- # 4 = +115.060 DEG. F l i TEMP.RTD # 5 = +118.500 DEG. F l TEMP RTD1 .# 6 = +88.763 DEG. F TEMP RTD # 7 = +89.'570 DEG. F { TEMP RTD # B = +95.401 DEG. F'
' TEMP RTD # 9 = +88.447 DEG. F 1
. TEMP RTD # 10 = +92.498 DEG. F TEMP RTD # 11 = +87.292 DEG. F
' TEMP RTD # 12 = +84.390 DEG. F TEMPJRTD # 13 = +83.406 DEG. F TEMP RTD- # 14 =, +83.929 DEG. F TEMP RTD # 15 = +84.510 DEG. F
- x. TEMP RTD # '16 = +84.516 DEG. F i TEMP RTD .# 17 = +84.249 DEG. F '
PRESS GAUGE'# 1 = +60.248 PSI ! PRESS GAUGE # 2 = +62.064 PSI DEW TEMP CELL-# 1 = +78.739 DEG. F DEW TEMP CELL # 3
= +78.746 DEG. F '. DEW TEMP CELL # 4 = +78.933 DEG. F DEW TEMP CELL # 5 = +79.362 DEG. F DEW TEMP CELL # 6 = +109.520 DEG. F DEW TEMP CELL # 7 = +84.185 DEG. F DEW TEMP CELL # 9 = +84.494 DEG. F j AVERAGE TEMPERATURE = +93.169 DEG. F AVERAGE PRESSURE = +61.186 PSIA AVERAGE DEW TEMP = +82.394 DEG. F AVERAGE.VPR PRESS = +0.5479 PSIA l
t i U _A_ 1
ar
+
Mi N'
SUMMARY
-DF MEASURED DATA
, 1 i
4
'N 1 LIMERICK!1 .
I DATE:'225 TIME: 16:00 y ,
\ .-
+ TEMP RTD' #. 1 = +122.280 DEG.. F-TEMP RTD #. 2 =.+130.440 DEG. F TEMP R1D- # 3- = +129.740 DEG. F
' TEMP RTD: #' '4 = +115.020 DEG. F TEMP'RTD # 5 = +118.450 DEG. F 10" ' TEMP RTD # '6 = +88.742 DEG. F F '
-#- 7 TEMP RTD = +89.549 ~' DEG . F TEMP'RTD # 8 = +95.378- DEG. F TEMP.RTD # MP = -+88.441 DEG. F TEMP RTD 4 10 = '+ 92.504 DEG. F TEMP RTD' # ' 1 1. - = +87.274 DEG. F
< TEMP RTD1 # 12- ~= +84.390 DEG. F TE'MP RTD # 13 = +83.432 DEG. F TEMPERTD # 14 =- +83.929 DEG. F !
TEMP?RTD # 15L = +84.524- DEG. F TEMP;RTD # 16 '= +84.515 DEG. F '% TEMP'RTD #.17 .= .+ 84.254- DEG. F PRESS GAUGE-#.1 = +60.249 PSI .
'FRESS GAUGE #12 = +62.065 PSI-DEW TEMP CELL # l' = +78.701 DEG. F
- DEW TEMP CELL #.3 = ' +78.790 DEG. F
' 1 DEW 1 TEMP CELL'# 4 = +78.952 DEG. F DEWLTEMP CELL # 5 = +79.298 DEG. F DEW TEMP. CELL # 6' = +108.130 DEG. F = DEW. TEMP CELL # 7 =- :84.259 DEG. F DEW TEMP CELL # 9 = +84.608 DEG. F j i I E AVERAGE TEMPERATURE = +93.165 DEG. F I
; AVERAGE PRESSURE = +s1.187 PSIA AVERAGE DEW TEMP = +82.373 DEG. F '
i AVERAGE VPR PRESS = +0.5475 PSIA g. l
)
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. - - .* 2
~ ~ ~
"~'%Qy@SQ+ Esm ;'k; , ;>'Gh61 w 35 % , 7
% 1, W ".
% 1
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= SUMMARVjoFcMEASURED: DATA p.gwa :
.. sa ,
y;M$g+g ,,' m ,
, q> a; km osgAr , > n -
a
.e . ,
., <u V..e v dr :a -d ' w y aLIMERICRf1: , a
' ' hV:h:! $f _ 's .. .. r e;Wj qR% ' ' H.$. ' fQ g y. ,
- DATE R225. '
~ T I M E : ^ 1 5 : 4 5 ..
+m < .u <. . u s s s '. u,
._F*- >'[
wnm' [ [
-.fg
," ;g 1 ?, + .. .
+q 3.:i ~
TEMP;RTD.. ;# L1. , . DEG.-F
= +122.230L m/ , N , ; e t .r. .
- i; E TEMP. .,RTD +.: i # 2, 2-. - =f+130;340; ' DEG.'F' W.QTEMP1RTD/ 4.T,,
M4 , s-. w+ f
= .+129.'700' DEG. F gy 4 ,
? oTEMP'RTDT '#' 4 ' =1+114.960'. :DEG' Fn pW. '
uTEMP: RTD : " # 1 :5', =i+118.400: -'DEG.'F - o f- (TEMPzRTD ;#'f6 = :+88.725 'DEG. F-M: u s
. L', 4
'..,J.TEMPHRTDa qu # '7., '=- +89.511 'DEG. F.
1 ny o( g t
- T E M P f R T D ?. ? # .:- :8-
=
' '. + 9 5. 3 5 9 DEG.'F)y- '!
QF ;, q>c/ ,hTEMPfRTDL i# .9~ . =? E + 8 8'. 4 1 5 ' DEG."Fu 'R
%w N< W TEMP':RTD. # . ~ 10 .
.=- J +92.471~ DEG. .F Q. l: TEMP? RTD i #Lill ' '= +87'.252.' ' DEG.'F
'=I~+84.394l .DEG.'F'
& @$ l [' 'pTEMP(RTD( {#J12: t 1
.JTEMP L RTD := ,+B3.439 ' DEG.?F -l yi ' _ , :#s 13]
tTEMP]RTD( '#s14; gu , =',1+83.937. - DEG. F; [j'4 p ,M& ' s m lTEMP RTD- Lui 15 = L+84.515i DEG. F-
's
&a '
- TEMP"RTD '#716 ' ='J+84.513% DEG. F'<
ITEMP"RTD- i# 17c dnm.L o y4
/'
= +84.234 s
-.DEG. F T-JY4 6 8
m . m . .. v. . , , :. Y ' PRESS GAUGEf#1. = '+60.251' PSI p:p@ # [Q '
- Edi
, ,1 Lx i PRESS?GAUGEL#'.2 6
,= .'+62.066 PSI +
~
i : . < gDEW[ TEMP CEL.Li#il' '= .+78.619 DEG. F i.".. % '. DEW TEMP CELLc'#'3 = +78.770 DEG. F . N " fDEW TEMP CELL 1# 4'- =~;+78.866' DEG. F y ' % ;; ( T (DEW:TEMPpCELL #1.5~
,=' :+79.257 'DEG.-F x
.? .,
' DEW TEMP! CELL.#L6- "=1+107.340' DEG. F
@(,m DEW TEMP CELLI # 7- .= -+8 4. '208 ; DEG. F
, Q 1 DEW
- TEMP: CELL # O. .=- . +84.619 DEG. F 3.' 9. . < ,
U'8 , ,, JAVERAGE: TEMPERATURE = +93.142 DEG. F 4 g ' AVERAGE . PRESSURE- =1 :+61.188 PSIA 33, , 7 AVERAGE DEW. TEMP- .= +82.296 DEG. F
'c .
1 > 1 AVERAGE VPR PRESS- = +0.5462 PSIA
- 3. . ,
t v e 3 'i z
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Q y 9 . .* ,t
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ym,gq . ~ , f'] -M Q p -w, "
- g. ,; .
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-ri. L
'M, H .SUMMARV OFl MEASURED DATA.
<g '
j
. LIMERICK 1 1 9%'
' jr i _3.
, DATE: .225 TIME: 15:30 h -. & s f
rP -TEMP RTD # 1- = +122.230 DEG. F
- TEMP RTD #. 2 =. +
'130.370- DEG. F
- TEMP RTD '# 3 = +129.680 DEG. F
' TEMP RTD
#' 4
- 1 -
= +114.910 DEG. F
' TEMP.RTD #: 5 =- +118.340 DEG. F ,
d ' S- N" '
^
TEMPJRTD .# 6 = . +B0.703 DEG. F M: 'TEMPJRTD #f ~7 = ' '+89.508 DEG. F h 1 -i' ' TEMP RTD :c# 8 .
= ' +95.350' DEG. F oTEMP RTD: 9 - = +80.382 DEG. F
'd' ,
ITEMP RTDL#N.#- 10- =. ' +92.439 DEG. F 1
.-TEt1P RTD: # 11 =l 487.243: DEG.-F t- ' TEMP RTD # 12 = +S4.388 DEG. F
>"1 TEMP 1RTD- -4.13 =. +83.435 DEG. F
" TEMP RTD; # ; 1'4 t- :1.J 46 ;; =. +B3.947 DEG. F pg 4: 8 . TEMP-RTD. '# 15- = +84.503 DEG. F-M '. TEMP: RT D . # 16 = +84.500 DEG. F
-TEMP RTD.' #'27 := ' +94.213 DEG. F
< - < 4
' PRESS GAUGE #'1 =. +60.252 PSI :
-PRESS. GAUGE # 2 = +62.068 PSI I G
DEW TEMP CELL #:1 = +78.614 DEG. F n; , DEW TEMP CELL # 3- := +78.698- DEG. F DEW' TEMP CELL- #'4 =- +78.030 DEG. F DEW TEMP CELL--~#15 '= ' +'79. 206 DEG. F I DEW, TEMP.' CELL!# 6 =- +106.470 DEG. F : M DEW TEMP CEL.L # 7' =- +84.236 DEG. F
, f; DEW TEMP CELL--# 9 = +84.594 DEG. F 1
f I ,L '
, .y ' AVERAGE TEMPERATURE = +93.126 DEG. F AVERAGE PRESSURE = +61.190 PSIA
- c. . AVERAGE. DEW' TEMP = +82.229 DEG. F --
. AVERAGE.VPR PRESS = +0.5450 PSIA u
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- .*LIMERICKc1 L ,
DATE: 225 TIME: 15:15 Q: y' '
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LT E M P R.T D '. #: .1 =.+122,160- -DEG. F 1 TEMP RTDl #' 2- .= +1T.290 DEG. F d 4 y :g ,
- .,o. sTEMP.MTD .# ~3 =~+229.650 DEG. F 4
- 4. , .' TEMP-RTD J 4 = +114.850 DEG..F W
TEMF'RTD. ;#. 'S = +118.310 DEG. F
' TEMP RTD #' '6 = +88.681- DEG. F TEMPtRTD i# '7 = +89.480 DEG. F ;
TEMP lRTD. -# 8 =- ~ +95;272- DEG. F TEMP RTD- :# 9 =. +88.391 DEG. F - ['hf_ ' " TEMP RTD.
! TEMP.RTDL
~# 10
# 11-
=
=
+92.398
+87.214 DEG. F DEG. F-2 . TEMPcRTD #. 12 =, +B4 387. DEG. F g' /y, TEMP-RTD #113 = +83.400 DEG. F TEMP RTD- #'14 =- +83.927 DEG F
< TEMP'RTD- # 15 .= +S4.495- DEG. F V ; i
. T E M P:. R T D # 16 = +84.495 DEG. F
' ..g
, iTEMPiRTD .# 17 =- +84~.236 DE6. F
~
,y, W r W PRESS; GAUGE #1 = +60.253 PSI y:. e , t PRESS GAUGE # 2 =- +62.069 F3I tu
';..f ' . ,
r4 ( ; 4. 5 y DEW TEMP. CELL.# 1
= ,+78.550 DEG. F
, : DEW TEMP CELL # 3 e t78.646' DEG. F H-
-DEW TEMPLCELL:# 4 = +78.814 DEG. F
[. DEW TEMP' CELL # 5 DEW TEMP CELL # 6
= '+79.~194
= +105.490 DEG. F DEG. F M L ,
DEW TEMP CELL #~7 = +84.283 DEG. F W; + DEW: TEMP CELL # 9 = +84.587 DEG. F I
.f &
I AVERAGE TEMPERATURE w +93.100 DEG. F -l .1 4
-AVERAGE PRESSURE = +61.191 PSIA '
AVERAGE DEW TEMP = +82.170 DEG. F i AVERAGE VPR PRESS = +0.5439 PRIA i ,jf 3.i y h l
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SUMMARY
?OF MEASURED DATA Ly o.
, 'lf *,, ; LIMERICK 1E i
>1 DATE 1225. ' TIME: 15:00
.o 4 ,
i, , +
."TEMPJRTD' # 1' = +122.140' DEG. F
, ' TEMP RTD # 21 = +130.210
- DEG. F i
TEMP RTD. tF 3
=-+129.600 DEG. F TEMP,RTD.. #- 4 = +114.800. -DEG., F TEMP RTD. .#' -5 = +118.250 DEG. F-T TEMPfRTD= #' '6' = .+88.664 DEG. F-g , -
; TEMP RTD, # 7 = +89.453 DEG. F TEMPfRTD- #1 8 = +95.271- .DEG. F
'3e , ) TEMP-~RTD; -# ~9 = :+88.360 DEG. F
, . : TEMP <RTD~ # 10: =- +92.384 DEG. F l
< TEMP RTD #L11 = +87.200 DEG. F
'... TEMP,RTD. -#512L = +84.372 DEG. F iTEMP RTD #,13 '=.
+83.418 'DEG..F t, t 7 TEMP,RTD: (# 14 =; +83.912 DEG. F f i
- TEMP RTD :#-15 = +84.491 DEG. F ;
TEMP RTD r# 16- '= +84.515 DEO. F 4 -, LTEMP,RTD '#:17 =' +84.225- DEG. F
,r , :
j /: p . .
*J'RESS: GAUGE # .,11 4
= +60.255 PSI
. PRESS GAUGEu# 2 = +62.'070 PSI
< ~
DEW.TEMPeCELL # 1 =- +78.486 DEG. F
+
! DEW TEMP > CELL #-3 = +78.666 DEG. F l DEW' TEMP:CELLt# 4 = +78.736 DEG. F I
- o ; DEW TEMP CELL'# 5 =' ' +79.129 DEG. F -t
= DEW TEMP CELL # 6 =.+104.660 DEG. F i
' DEW TEMP CELL #,.7- '= +84.228 .DEG. F DEW TEMP CELL:# 9 = +84.524 DEG. F AVERAGE TEMPERATURE = +93.083 DEG. F AVERAGE PRESSURE = +61.192 PSIA "i ' AVERAGE DEW TEMP = +82.088 DEG. F !
-AVERAGE VPR PRESS = +0.5425 PSIA i
4 l 1 4 i l 1 1 1 1 l l, , a h-u __-
mmy ;, GI 14 , , ,
SUMMARY
OF MEASURED DATA
}
, LIMERICfd 1 ,{
O DATE: 225. TIME: 14:45
" TEMP 1 RTD # l' = +122.080 DEG. F 1 TEMP RTD #. 2 = +130.120 DEG. F W
TEMP.RTD -# 3 = +129.540 DEG.'F
. LTEMP RTD .# 4 = +114.760 DEG. F
^ '
TEMP RTD # ~5 = +118.210- DEG. F -; 1
' TEMP RTD. # 6 = +88.644 DEG.:F l
- TEMP RTD #- '7 = .+89.447 DEG. F !
. TEMP.RTD #- 8 = +95.245 DEG. F e VL , TEMP RTD.- #~ 9l = +88.334 DEG. F-
,. .TEMPfRTD # 10' =- +92.347 DEG. F
> TEMP RTD
# 11' = +87.179 DEG. F l TEMP RTD .#.12 =- ' +84.370 DEG. F-TEMP.RTDi # 13 = +83.319 DEG. F a5 TEMP RTD; # 14 = +83.935 DEG. F L '
TEMP;RTD # 15 =',. +84.491 DEG. F LE TEMP RTD- #'16' = +84.503 DEG. F Hl
/ TEMP RTD #:17 = +84.205 DEG. F b '
PRESS GAUGE #:1 = +60.257 PSI L PRESS. GAUGE #12. -= +62.072 PSI
".. ' DEW TEMP CELL'# 1 = +78.501 DEG. F DEW TEMP CELLL# 3
= +78.544 DEG. F
. DEW TEMP CELL # 4 = +78.700' DEG. F DEW TEMP CELL # 5. +79.112
= DEG. F DEW TEMP CELL # 6 = +103.620' DEG. F DEW' TEMP CELL.# 7 = +8c.272 .DEG. F -l LDEW TEMP CELL-# 9 = +84.593 DEG. F AVERAGE TEMPERATURE = +93.057 DEG. F AVERAGE PRESSURE = +61.194 PSIA AVERAGE DEW TEMP = +82.025 DEG. F i AVERAGE VPR PRESS = +0.5414 PSIA I
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C t p . h-
SUMMARY
OF MEASURED DATA W.
+
w + LLIMERICK'1 -
,DATE: 225 TIME: 14:30:
TEMP 1RTD' # ?1 = +122.130 DEG. F l sn TEMP:RTD # 2 = +130.170 DEG. F i
' TEMP RTD- # ,3 - - = +129.540 DEG. F.
TEMP RTD' # 4 =. +114.710- DEG. F
/ TEMP RTD # 5 = +118.160- DEG. F TEMP'RTD. # 6 = +88.623 DEG. F TEMP RTD # 7 =- +89.421: DEG. F TEMP RTD' # 8 = +95.211 DEG. F
. TEMP RTD # = +88.327 DEG. F' 1EMP RTD. '# 13 = . +92.326 DEG. F JTEMP'RTD #'11 = +87.164 DEG. F TEMP.RTD #112. = +84.368 DEG. F l TEMP,RTD> .# 13. = +83.305 DEG. F c^ TEMP RTD. #'14 =- +83.943 DEG. F TEMP RTDL
- l15 =- +84.487 DEG. F
.#'16-TEMP!RTD = +84.512 DEG. F j
. TEMP:RTD. # 17 = +84.217 DEG. F i x
.PR'SS E GAUGE # 1 = +60.257 PSI p', PRESS GAUGE # 2 = +62.072 PSI i
- n DEW TEMP CELL--#'1 = +78.427 DEG. F }
f
' DEW TEMP CELL # 3 = +78.576 DEG. F
~g '
DEW TEMP CELL #.4 = +78.653 DEG. F _ DEW TEMP CELL-# 5 = +79.043 DEG. F DEWLTEMP CELL # 6 = +102.980 DEG. F l
' DEW: TEMP? CELL.# 7 = - +84.167 DEG. F DEW TEMP CELL #19 = +84.581 DEG. F l
, AVERAGE TEMPERATURE = +93.045 DEG. F
- AVERAGE PRESSURE = +61.194 PSIA I AVERAGE DEW TEMP = +81.960 DEG. F
' AVERAGE VPR PRESS = +0.5402 PSIA 1
\
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SUMMARY
OF MEASURED' DATA
. I "c
ri '
..7. . LIpCRICN 1'
,DATE L225. TIME: 14:15
.L TEMP PTD #: 1 = +122.110 DEG. F TEMPERTD- # 2 = +130.140 ;DEG. F g TEMPXRTD- # 13 = +129.500- -DEG. F TEMP:RTD #- 4 = +114.670 DEG. F D
"" -* -. TEMP RTD #. 5 = +118.110 DEG.~F
.#- ~6-LTEMP RTD =' +88.601' DEG. F (TEMP RTD. # 7' =- +89.401 .DEG. F sTEMP',RTD
# 8 =- +95.192 DEG. F b-m TEMP:: RTD ' # 9' = +88.291 DEG. F
. TEMP:RTD. # l' O = +92.323 DEG. F.
TEMP;RTD #:11 ' = +87.146 DEG. F i; H
-TEMP RTD- # 12- = .+84.365 DEG. F TEMF RTD. i# 13. = +83.311 DEG. F
.l -TEMP RTD- # 14 = -+83.924 DEG. F T, '
- TEMP RTD # 15 = +84.483 DEG. F TEMP RTD. # 16 = +84.492 DEG. F
. TEMP'.RTD~ #'17 '= :-+84.225 DEG. F s
PRESS GAUGE # 1 = ' +60.259 PSI
.: : PRESS : GAUGE # 2 ' = +62.074 PSI
- 3 :. 1: . DEW TEMP. CELL'# 1 = +78.393 DEG. F DEW TEMP CELL # 3 = +78.476 DEG. F DEW: TEMP CELL # 4 = +78.585 DEG. F DEW TEMP CELL # 5 = +79.002 DEG. F 3' DEW: TEMP CELL # 6 = +102.000 DEG. F
+
DEW TEMP CELL # 7 = +84.202 DEG. F DEW TEMP CELL.# 9 = +84.577 DEG. F il AVERAGE TEMPERATURE = +93.028 DEG. F
-AVERAGE. PRESSURE = +61.196' PSIA
' AVERAGE DEW TEMP = +81.878 DEG. F AVERAGE VPR PRESS = +0.5388 PSIA R i
'.n. t_A &A-
7 ., s A
; .7;-
] l l
SUMMARY
DF MEASURED DATA l 1
- t. <
,f LIMERICK 1 i '),.
DATE: 225 TIME: 14:00
-TEMP RTD # 1 = +122.070 DEG. F TEMP RTD # 2 = +130.090 DEG. F TEMP.RTD # 3 = +129.480 DEG. F TEMP RTD #- 4 = +114.620 DEG. F TEMP RTD # 5 = +118.050 DEG. F '
o TEMP RTD # 6 =- +88.589 DEG.'F
' TEMP RTD. # 7 = +89.392 DEG. F TEMP RTD #- 8 = +95.156 DEG. F TEMP-RTD # 9 = +88.290 DEG. F TEMP RTD- # 10 = +92.279 DEG. F TEMP RTD # 11 = +87.121 DEG. F TEMP'RTD # 12 = +84.372 DEG. F TEMP RTD- # 13 = +83.334 DEG. F
-TEMP RTD # 14 = +83.927 DEG. F TEMP RTD # 15 = +84.484 DEG. F TEMP PTD # 16 = +84.483 DEG. F TEMP FTD- # 17 = +84.231 DEG. F PRESS GAUGE # 1 = +60.259 PSI FRESS GAUGE # 2- = +62.076 PSI DEW TEMP CELL # 1 = +78.335 DEG. F DEW TENP CELL # 3 = +78.454 DEG. F DEW . TEMP CELL # 4 = +78.553 DEG. F
'EW TEMP CELL # 5 = +78.970 DEG. F bm 't TEMP CELL # 6 = +100.750 DEG. F DEW 'EMP CELL # 7 = +84.216 DEG. F DEW lu
- CELL # 9 = +84.536 DEG. F AVERAGE TEhr 'qTURE = +93.012 DEG. F
' AVERAGE PREb '9E = +61.197 PSIA AVERAGE DEW TEMP u +81.796 DEG. F AVERAGE VPR PRESS +0.5374 PSIA
a, O m~ \ W l
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l l
~
1
SUMMARY
OF MEASURED DATA l w
) 4.II
- LIMERICK-1.
y' DATE: (225 TIME: 13:30 w, - TEMP RTDy # 1 =:+122.'040 DEG. F l LTEMP. RTD.' l#; 2 = +130.020' DEG. F
, ! TEMP RTD~ # 3 = +129.410' DEG. F TEMP RTD # :4 1=1+114.510 DEG. F p.
^ 'g TEMP.RTD' # 5: ='+117.980 DEG. F
=
- TEMP RTD # 'li =- +88.554 DEG. F TEMP.RTD. # 7 = .+89.334 DEG. F
, : TEMP RTD #- B = +95.088 DEG. F TEt1P RTD1 # 9 =. +88.253 DEG. F l TEMP RTD # 10 = +92.239 DEG. F TEMP RTD: # 11 = +87.094 DEG. F
. TEMP RTD # 12L = +84.358 DEG. F T, , 't TEMP RTD. # 13 .=- +83.358 DEG.-F
- TEMP RTD' #.14 = +83.914 DEG. F
-TEMP RTD #115 = +84.500 DEG. F TEMP RTD # 16 = +84.501 DEG. F s
TEMP RTD- :- -# 17 = +84.213 DEG. F PRESSLGAUGE #'1' .= +60.257 PSI ; PRESS GAUGE # 2 = +62.073 PSI DEW TEMP CELL # 1 = +78.242 DEG. F i
. DEW TEMP CELL # 3
-= +78.436 DEG. F i
' DEW-TEMP: CELL # 4 = +78.414 DEG. F I DEW TEMP CELL # 5 = +78.857 DEG. F l DEW TEMP CELL # 6 = +98.776 DEG. F l DEW TEMP CELL # 7 = +84.240 DEG. F c f DEW TEMP' CELL # 9 = +84.541 DEG. F D LAVERAGE TEMPERATURE = '+92.980 DEG. F AVERAGE PRESSURE = +61.195 PSIA AVERAGE' DEW TEMP = +81.661 DEG. F
' AVERAGE VAPOR PRESS = +0.535 PSIA 1
\ m._ . . .____m._.__ . _ _____m_______w
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" I GP:$-312003' GENERAL PHYSICS CORPORATION i i i 1 l i APPENDIX G
~
l VERIFICATION TEST PLO13 o 4 t . ':,s. 4
)
O p i k.. J l
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O G-1
i l i i f%7889- s
^
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.". 3
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1
- LEGEND- ~ ,
= :L : j 1
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g Es. cese- , i , 1400/ 225 TIME 1800/ 225 i MASS ANALYSIS GRAPH LEGEND _ 95% UCL LEAK RATE CALCULATE LEAK RATE l MAX ALLOWED LEAK RATE 1
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.......... MEAS. LEAK RATE CALC. LEAX RATE UARIABLE=95x UCL LEAX RATE i HORIZ.= MAX ALLOW LEAR RATE 1
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APPENDIX H a x U' ' INSTRUMENT SELECTION' GUIDE CALCULATIONS-
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7qm: q my , GP-R-312003. LGENERAL PHYSICS CORPORATION , I i
-" i 'INSTRUMENTLSELECTIONl GUIDE'
. LIMERICK GENERATING STATION -l UNIT I
- TEST PARAMETERS:-
[, , I
- La . - = 70.5 ' %/ day
.P. = : : 61.104 psia
.c T = 1551.727 'deg R drybulb LTdp = ~ 80.119 deg F dewpoint
't
. = 8' hours
- INSTRUMENT PARAMETERS- '
[ ' Total ' Absolute Press: I _No. of sensors - 2 Range: 100 psig (Sensitivity error; 0.002% of full scale Display. repeatability error- 0.001% of full scale ep = . 0.001581 psia : y
/' Water, Vapor Press:
No. 'of- sensors 7 i Sensitivity error 0.1 deg F Meas system error 0.01 deg F , Vapor Pressure change 0.015 psia /deg F @ 80 F J Edp = 0.0015 psia dedp = 0.00015 psia edp = 0.00005698 psia
?
H . _-__m._ __.__ __ __
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,# fGP, R. O120031 - GENERAL- PIIYSICS CORPORATION. l - .a .
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e p. G,, 4 Tem peratu re :. gi o 1No..of sensors- 17 my i Sensitivity error 0.01, deg F -
/
Display repeatability error '0.01 deg F let =: 0.00343 : oR-
' ISG:
ISGn =. 0.01196% wt./ day
/ ,
Acceptance Criteria: <- :0.125% wt./ day i p'. [. t. zj s f
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4
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.1 1
- II-3 l i
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( ;GP R-312003- GENERAL PHYSICS CORPORATION i
)
1 APPENDIX I FAILED SENSOR PLOTS 1 ft i 2 f o I-l
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L GP-R-312003 GENERAL PHYSICS CORPORATION
- v. ,
APPENDIX J
'\
LOW PRESSURE BYPASS TEST l l I s J-l 1
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- $ THE' CALCULATED, ORIFICE: SIZE"IN SQUARE' INCHES IS - 7.392146E-03 m
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SUMMARY
OF MEASURED DATA U. e Sl,? . LIMERI'CK'1 s DATE: 226' TIME: 07:15 k L, s l
.TEUiP.RTD # 1 = +116.9'70 DEG. F TEMP'RTD # -2 = +128.490- DEG. F
+
+ TEMP RTD # 3 = +128.510 DEG. F TEMP RTD- -# 4 = +112.740 DEG. F
> . TEMP'RTD. # 5- = +116.010 DEG. F TEMP RTD # 6 =- +87.274 DEG. F
> . TEMP RTD- #' 7 = +88.'298 DEG. F
- TEMP RTD. # 8 = ' +94.480 DEG. F LTEMP RTD # 9- = +87.225 .DEG. F TEMP RTD: # 10 = +92.060 DEG. F
. TEMP RTD # - '1'i s = +S6.119 DEG. F
' TEMP RTD # '1 2 = ' +83.097 DEG. F o 1 TEMP RTD # '13 = '+82.574 .DEG. F I i-TEMPERTD- #' :4 = +82.872 DEG. F TEMP RTD #115' ,= +83.351 DEG. F LTEMP'RTD #'16 = +83.273 DEG. F TEMP RTD # '17 = +82.800 DEG. F PRESS GAUGE # 1 = +18.574 PSI PRESS GAUGE # 2 ~ = +15.027 PSI ;
E . l
' DEW TEMP CELL # 1 = +65.306 DEG. F L DEW TEMP CELL'# 3
-DEW TEMP CELL # 4
=
=
+65.884
+65.574 DEG.
DEG. F F l i
. DEW TEMP-CELL # 5 = +66.17D DEG. F
' DEW TEMP CELL # 6 = +68.922 DEG. F l DEW' TEMP CELL # 7 = +82.867 DEG. F
- DEW TEMP CELL # 9 = +83.326 DEG. F .
l 7 DRYWELL TEMPERATURE *= +97.302 DEG. F DRYWELL PRESSURE = +18.807 PSIA
-SUP_ POOL TEMP = +82.995 DEG. F SUP POOL PRESSURE = +14.849 PSIA i
yy m-4- >i
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,3 l up -
+c x - ,
SUMMARY
DF MEASURED DATA
-a s LIMERICK'1 f
- y.
i'~ 'DATE: 226 TIME: 07:00
'TEMPIRTD. .# 1 = +116.980 DEG. F
" TEMP RTD # 2 = +128.540 DEG. F TEMP.RTD- # 3: =.+128.540 DEG. F
, TEMPLRTD # 4 = +112.740 DEG. F TEMP ^RTD #5 = +116.010 DEG. F TEMP RTD ,# 6 =. +B7.229 DEG. F TEMP-RTD # 7 =7 +88.262 DEG. F
" TEMP RTD # B = :+94.525 DEG. F T E M F.' R T D. .#- 9 = +B7.182 DEG. F
? " TEMP RTD. # 10 =- +92.024 DEG. F !; TEMP RTD' # 11 = +B6.073 DEG. F h D' LTEMP RTD # 12 = +83.052 DEG. F-b . .c TEMP RTD # 13 = +B2.530 DEG. F JTEMP.RTD # 14 = +B2.811' DEG. F-TEMP RTD #'15 = +B3.290 DEG. F
- ' TEMP RTD. # 16 =- +B3.218 DEG. F TEMP RTD # 17 = +B2.740 DEG. F PRESS-GAUGE # 1 ~= +18.570 PSI PRESS GAUGE # 2 = +15.022 PSI DEW TEMP CELL #~1 = +64.991 DEG. F
~ DEW TEMP CELL # 3 = +65.664 DEG. F DEW TEMP CELL # 4 = +65.245 DEG. F DEW TEMP CELL # 5 = +65.E79 DEG. F
- DEW TEMP. CELL # 6 = +68.708 DEG. F DEW TEMP CELL # 7 = +B2.786 DEG. F DEW TEMP CELL # 9 = +B3.224 DEG. F DRYWELL TEMPERATURE = +97.288 DEG. F DRYWELL PRESSURE = +18.803 PSIA
.,n SUP PDDL TEMP = +B2.940 DEG. F SUP POOL: PRESSURE = +14.844 PSIA b' _ _ . _ _ . _ . . _ _
. , _ s-y- z .
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f, p 8
'9'.-
SUMMARY
OF MEASURED DATA i
]
s , 1 LIMERICK 1. t
'DATE: 226 TIME: 06:45
.. w 9:
' TEMP.RTD .# 11 = +117.000 DEG. F
., f TEMPERTD '#' 2 - = +128.540 DEG. F TEMP RTD: #- 3 = +128.520 DEG. F
- 3. ,
' TEMP RTD
#. 4 - = +112.740 DEG. F
. , : TEMP RTD #- 5 = +116.010 DEG. F
. TEMP'RTD "#~ 6 =- +87.188 DEG. F TEMP RTD # 7 =. +88.221 DEG. F TEMP RTD # 8 -= ' +94.470 DEG. F TEMP'RTD # 9 =. +87.152- DEG. F TEMP RTD # 10- = +91.986 DEG. F io .' T E M P. R T D #711 = +86.042 DEG. F
[, , f ' -TEMP-RTD # 12 =- +82.998 DEG. F p, TEMPERTD # 13 = +82.484 DEG. F L ' TEMP:RTD #.14 = +82.753 DEG. F' [
'TEMR RTD #-15 =. +83.233 DEG. F
- TEMP RTD . # 16 = +83.151 DEG. F TEMP RTD. # 17 = +82.685 DEG. F PRESS GAUGE # 1 =- +18.567 PSI PRESS GAUGE #-2' = +15.017 PSI DEW TEMP CELL #.1 = +64.674 DEG. F DEW TEMP CELL # 3 = +65.341 DEG. F DEW' TEMP CELL # 4 = +64.917 DEG. F DEW. TEMP CELL #-5 = +65.586 DEG. F DEW TEMP CELL # 6 = +68.458 DEG. F l U DEW TEMP CELL'# 7 = +82.754 DEG. F l DEW TEMP CELL # 9 = +83.207 DEG. F l f
'D3YWELL TEMPERATURE = +97.259 DEG. F ElYWELL PRESSURE = +18.800 PSIA SUP POOL TEMP '
= +82.884 DEG. F SUP. POOL PRESSURE = +14.839- PSIA i
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l',' S > t I j
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?
SUMMARY
OF MEASURED DATA LIMERICK 11: 1
-DATE: 226 TIMES 06:30 i
x ! s a TEMP.RTD- #' 1 = +117.050 DEG. F TEMP RTD # 2 = +128.470 DEG. F TEMP RTD #- 3 = +128.540 DEG. F TEMP RTD # 4. = +112.760 DEG. F TEMP 1RTD # 5: =,+.116.020 DEG. F TEMP RTD # 6 .=. +87.141: DEG. F TEMP.RTD- # 7 =' +88.174' DEG. F
, ; . TEMP RTD' #. 8 = +94.462 DEG. F
. TEMP RTD # 9 = +87.107 DEG. F g TEMP.RTD, ;# 10 = +91.935 DEG. F TEMP RTD # 11 = +85.990- DEG. F F TEMP RTD # 12 = +82.952 DEG. F TEMP RTD # ' 13 .= +82.397 DEG. F TEMP RTD # 14 = +82.675 DEG. F
! TEMP RTD # 15 = +83.163 DEG. F i
' TEMP.RTD #-16 = . +83.088 DEG. F TEMP'.RTD # ' l '7 = +82.621 DEG. F PRESS GAUGE # 1 = . +18.562 PSI PRESS GAUGE # 2 = +15.011 PSI DEW TEMP CELL # 1 = ' +64.422 DEG. F 4 DEW TEMP CELL # 3 = +65.133 DEG. F l DEW TEMP CELL # 4 = +64.642 DEG. F 1 DEW TEMP CELL # 5 = +65.321 DEG. F
. DEW TEMP CELL # 6 = +68.321 DEG. F ,
DEW TEMP CELL # 7. = +82.615 DED. F DEW. TEMP CELL # 9 = +83.192 DEG. F t DRYWELL TEMPERATURE = +97.231 DEG. F DRYWELL PRESSURE = +18.795 PSIA SUf9' POOL TEMP = +82.816 DEG. F SUP PDOL PRESSURE = +14.833 PSIA )
,, ~_ _ ,__ .
4 4 Q; R
%K
- i
]5 i 1
I f
SUMMARY
OF MEASURED DATA i
,, i l
"f:: , ,
.LI'MERICK'1 1
> :st DATE: 226 TIME: 06:15 b . i l TEMP'RTD. '# 1 = +117.050 DEG. F
. TEMP ~RTD .#- 2 = +128.440 DEG. F
- TEMP RTD #3 = +128.550 DEG. F TEMP RTD # 4 = +112.760 DEG. F
't TEMP RTD. # 5 = +116.020 DEG. F TEMP RTD' # 6 =. +87.095 DEG. F 'I
' TEMP RTD- # 7 = ' +88.133 DEG. F 7 TEMP RTD # 8 = +94.450 DEG. F TEMF? RTD # 9 = +87.066 DEG. F TEMP RTD #'10. = +91.886 DEG. F
.' TEMP RTD .' # 11 =- +85.945 DEG. F
' TEMP RTD" # 12 = +B2.882 DEG. F l P ' TEMP RTD: #'13 = +82.327 DEG. F ;
TEMP (RTD- #.14 = +82.611 DEG. F. j TEMP RTD .# 15 = +83.093 DEG. F TEMP RTD # 16 = +83.030 DEG. F ; TEMP RTD- ># 17 = ' +82.557 DEG. F l PRESS GAUGE #.1 = +18.558 PSI i
+. PRESS GAUGE #-2 = +15.005 PSI
.c DEW '-TEMP CELL # 1 = +64.'103 DEG. F DEW-TEMP CELL # 3 = +64.614 DEG. F DEW-TEMP CELL.#'4 = +64.363 DEG. F -,
DEW. TEMP CELL # 5 = +65.007 DEG. F
' DEW. TEMP CELL # 6 = +68.026 DEG. F DEW TEMP CELL # 7 = +82.611 DEG. F DEW TEMP. CELL # 9 = +83.079 DEG. F 1 DRYWELL TEMPERATURE = +97.202 DEG. F DRYWELL PRESSURE = +18.791 PSIA GUP-POOL TEMP = +B2.750 DEG. F SUP: POOL PRESSURE = +14.827 PSIA T
1.
6 H w
.. y ,
l-4
SUMMARY
OF MEASURED DATA LIMERICK.1 DATE: 226 TIME: 06:00 l; B;. TEMP RTD # 1 = +117.060 DEG. F >
-TEMP RTD # 2 = +128.410 DEG. F TEMP RTD # 3 = +128.510 DEG. F TEMP RTD- # 4 = +112.760 DEG. F TEMP RTD. # 5 = +116.020 DEG. F TEMP RTD # 6 =. +87.048 DEG. F TEMP RTD # 7 = ' +88.069 DEG. F TEMP:RTD # 8 = +94.375 DEG. F TEMP RTD # 9 = +87.023 DEG. F
-TEMP RTD # 10. = +91.845 DEG. F TEMP RTD # 11 = +85.919 DEG. F TEMP RTD # 12 = +82.811 DEG. F TEMP RTD # 13 = r82.223 DEG. F TEMP RTD #'14 = +82.516 DEG. F '
' TEMP RTD # 15 = +63.007 DEG. F TEMP RTD # 16 = +82.957 DEG. F TEMP RTD # 17 = +82.484 DEG. F FRESS GAUGE # 1 = +18.555 PSI PRESS GAUGE # 2 = +14.998 PSI e
DEW TEMP CELL # 1 = +63.754 DEG. F DEW TEMP CELL # 3 = +64.765 DEG. F DEW TEMP CELL # 4 = +64.105 DEG. F DEW TEMP CELL # 5 +64.659 DEG. F DEW TEMP CELL # 6 = +67.732 DEG. F DEW TEMP CELL il 7 = +52.528 DEG. F DEW TEMP CELL # 9 = +83.003 DEG. F : DRYWELL TEMPERATURE = +97.163 DEG. F DRYWELL PRESSURE = +18.788 PSIA SUP POOL TEMP = +82.667 DEG. F SUP POOL PRESSURE = +14.820 PSIA
)
1
SUMMARY
OF MEASURED DATA LIMERICK 1~ DATE: 226 TIME: 05:45
, -4 TEMP RTD # 1 = +117.120 DEG. F TEMP.RTD #- 2 = +128.410 DEG. F TEMP RTD ;# 3 = +125.410 DEG. F TEMP RTD # 4 = +112.770 DEG. F TEMP RTD # 5 = +116.040 DEG. F TEMP RTD # 6 =. +B7.005 DEG. F TEMP ~RTD # 7 = ' +88.024 DEG. F TEMP RTD # 8 = +94.349 DEG. F TEMP RTD # 9 = +86.976 DEG. F TEMP RTD # 10 = +91.793 DEG. F TEMP RTD # 11 = ' +85.882 DEG. F L TEMP RTD # 12 = +82.734 DEG. F
. TEMP RTD # 13 = +82.151 DEG. F TEMP RTD' # 14 = +82.431 DEG. F TEMP-RTD # 15 = +82.913 DEG. F TEMP RTD # 16 = +82.879 DEG. F TEMP RTD # 17 = +82.388 DEG. F PRESS GAUGE # 1 = +18.548 PSI PRESS GAUGE # 2 = +14.992 PSI DEW TEMP CELL # 1 = +63.453 DEG. F DEW TEMP CELL 43 = +63.996 DEG. F DEW TEMP CELL # 4 = +63.743 DEG. F DEW TEMP CELL # 5 = +64.323 DEG. F DEW TEMP CELL # 6 = +67.3/O DEG. F DEW TEMP CELL # 7 = +82.466 DEG. F DEW TEMP CELL # 9 = +83.036 DEG. F DRYWELL TEMPERATURE = +97.133 DEG. F DRYWELL PRESSURE = +18.781 PSIA EUP POOL TEMP = +82.583 DEG. F SUP POOL PRESSURE = +14.814 PSIA
SUMMARY
OF MEASURED DATA LIMERICK 1 DATE: 226 TIME: 05:30 TEMP RTD # 1 = +117.140 DEG. F TEMP RTD # 2 = +128.380 DEG. F TEMP RTD # 3 = +128.510 DEG. F TEMP RTD # 4 = +112.790 DEG. F TEMP RTD # 5 = +116.050 DER. F TEMP RTD # 6 = +86.952 DEd. F TEMP RTD # 7- = . - +87.960 DEG. F l TEMP RTD # 8 = +94.372 DEG. F l-TEMP RTD # 9 = +86.926 DEG. F TEMP RTD # 10 = +91.760 DEG. F TEMP RTD # 11 = +85.836 DEG. F TEMP RTD # 12 = +82.646 DEG. F TEMP RTD # 13 = +82.067 DEG. F TEMP RTD # 14 = +82.348 DEG. F TEMP RTD # 15 = +82.830 DEG. F TEMP RTD. # 16 = +82.794 DEG. F l TEMP RTD # 17 = +82.295 DEG. F 1 PRESS GAUGE # 1 = +18.543 PSI PRESS GAUGE # 2 = +14.984 PSI DEW TEMP-CELL # 1 = +63.113 DEG. F
. DEW TEMP CELL # 3 = +64.038 DEG. F DEW TEMP CELL # 4 = +63.386 DEG. F DEW TEMP CELL # S = +63.960 DEG. F DEW TEMP CELL # 6 = +67.138 DEG. F DEW TEMP CELL # ~7 = +82.339 DEG. F DEW TEMP CELL # 9 = +82.798 DEG. F DRYWELL TEMPERATURE = +97.113 DEG. F DRYWELL PRESSURE = +18.776 PSIA SUP POOL TEMP '
= +B2.497 DEG. F SUP POOL PRESSURE = +14.806 PSIA
}'
a
SUMMARY
OF MEASURED DATA LIMERICK 1 DATE: 226 TIME: 05:15 TEMP RTD # 1 = +117.150 DEG. F TEMP RTD # 2 = +128.410 DEG. F TEMP RTD #- 3 = +128.470 DEG. F TEMP RTD # 4 = +112.790 DEG. F TEMP RTD # 5 = +116.050 DEG. F TEMP RTD. # 6 = +86.897 DEG. F TEMP RTD # 7 =. +87.912 DEG. F '
- TEMP RTD # 8 =~ +94.361 DEG. F TEMP-RTD # 9 = +86.872 DEG. F TEMP RTD # 10 = +91.719 DEG. F TEMP RTD # 11 = +85.792 DEG. F -
TEMP'RTD # 12 = +82.551 DEG. F TEMP RTD # 13 = +81.950 DEG. F TEMP RTD # 14 = +82.197 DEG. F TEMP RTD- # 15 = +82.727 DEG. F TEMP RTD # 16 = +82.693 DEG. F TEMP RTD # 17 = +82.193 DEG. F PRESS GAUGE # 1 = +18.538 PSI I FRESS-GAUGE # 2 = +14.977 PSI DEW TEMP CELL # 1 = +62.718 DEG. F DEW TEMP CELL # 3 = +63.574 DEG. F DEW TEMP CELL # 4 = +63.047 DEG. F DEW TEMP CELL # 5 :- +63.652 DEG. F DEW TEMP CELL # 6 = +67.181 DEG. F DEW TEMP CELL # 7 = +82.222 DEG. F DEW TEMP CELL # 9 = +82.717 DEG. F u DRYWELL TEMPERATURE = +97.083 DEG. F DRYWELL PRESSURE = +18.771 PSIA - i SUP POOL TEMP '
= +82.386 DEG. F SUP POOL PRESSURE = +14.799 PSIA l
o
t
SUMMARY
OF MEASURED DATA i LIMERICK 1 DATE: 226 TIME: 05:00 TEMP RTD # 1 = +117.200 DEG. F TEMP RTD # 2 = +128.410 DEG. F TEMP RTD # 3 = +128.460 DEG. F TEMP RTD # 4 = +112.790 DEG. F TEMP RTD # 5 = +116.080 DEG. F TEMP RTD # 6 = +86.843 DEG. F TEMP RTD # 7 =-
+87.846 DEG. F TEMP RTD it B = +94.371 DEG. F TEMP RTD # 9 = +86.819 DEG. F TEMP RTD # 10 = +91.661 DEG. F TEMP RTD- # 11 = +85.745 DEG. F TEMP RTD # 12 = +82.472 DEG. F TEMP RTD # 13 = +81.845 DEG. F TEMP RTD # 14 = +82.081 DEG. F TEMP RTD # 15 = +82.592 DEG. F TEMP RTD # 16 = +82.598 DEG. F TEMP RTD # 17 = +82.072 DEG. F PRESS GAUGE # 1 = +18.532 PSI PRESS GAUGE # 2 = +14.968 PSI DEW TEMP CELL # 1 = +62.377 DEG. F DEW TEMP CELL # 3 = +62.820 DEG. F DEW TEMP CELL # 4 = +62.609 DEG. F DEW TEMP CELL # 5 = +63.302 DEG. F DEW TEMP CELL # 6 = +67.218 DEG. F DEW TEMP CELL # 7 = +82.043 DEG. F '
DEW TEMP CELL # 9 = +82.815 DEG. F L l-l DRYWELL TEMPERATURE = +97.055 DEG. F DRYWELL PRESSURE = +18.765 PSIA SUP POOL TEMP '
= +82.277 DEG. F SUP POOL PRESSURE = +14.790 PSIA
~
f 1 .
SUMMARY
OF MEASURED DATA LIMERICK 1 DATE: 226 TIME: 04:45 TEMP RTD # 1 = +117.260 DEG. F TEMP RTD # 2 = +128.320 DEG. F TEMP RTD # 3 = +128.520 DEG. F TEMP RTD d 4 = +112.800- DEG. F TEMP'FrfD # 5 = +116.080 DEG. F TEMP RTD # 6 = +86.775 DEG. F g TEMP RTD .# 7 =. +87.789 DEG. F
.8 1
TEMP RTD # = +94.285 DEG. F TEMP RTD # 9 = +86.763 DEG. F TEMP RTD # 10 = +91.632 DEG. F TEMP RTD # 11 = +85.690 DEG. F TEMP RTD # 12 =
+82 341 DEG. F i
TEMP RTD # 13 = +81.735 DEG. F TEMP RTD # 14 = +81.918 DEB. F TEMP RTD # 15 = +82.469 DEG. F TEMP RTD # 16 = +82.441 DEG. F TEMP RTD # 17 = +81.945 DEG. F PRESS GAUGE # 1 =- +18.527 PSI PRESS GAUGE # 2 = +14.959 PSI DEW TEMP CELL # 1 = +61.969 DEG. F DEW TEMP CELL # 3 = +62.478 DFG. F L DEW TEMP CELL # 4 = +62.286 DEG. F DEW TEMP CELL # 5 = +62.924 DEG. F DEW TEMP CELL # 6 = +67.254 DEG. F ! DEW TEMP' CELL # 7 = +81.936 DEG. F L DEW TEMP CELL # 9 = +82.600 DEG. F DRYWELL TEMPERATURE = +97.015 DEG. F DRYWELL PRESSURE = +18.760 PSIA SUP POOL TEMP = +82.142 DEG. F SUP POOL PRESSURE = +14.781 PSIA l I'
4 T; *
,s
SUMMARY
OF MEASURED DATA LIMERICK'1 DATE: 226 TIME: 04:30 i TEMP RTD # 1 = +117.270 DEG. F TEMP RTD # 2 = +128.350 DEG. F / TEMP RTD # = +128.400 DEG. F 3-TEMP RTD # 4 = +112.820 DEG. F
-TEMP RTD # '5 = +116.100 DEG. F
. TEMP RTD # 6 = +86.711 DEG. F TEMP RTD # 7 =. +87.725 DEG. F --
TEMP RTD # 8 = ' +94.238 DEG. F TEMP RTD # 9 = +86.698 DEG. F L TErP RTD- # 10 = +91.534 DEG. F TEMP RTD # 11 = +85.641 DEG. F
-TEMP RTD # 12 = +82.218 DEG. F TEMP RTD # 13 = +81.608 'DEG. F
' TEMP RTD. # 14 = +81.788 DEG. F TEMP'RTD- # 15 = +82.322 DEG. F
. TEMP RTD # 16 = +82.283 DEG. F TEMP RTD # 17 = +81.840 DEG. F PRESS GAUGE # 1 = +18.521 PSI PRESS GAUGE # 2 = +14.949 PSI DEW TEMP CELL # 1 = +61.611 DEG. F DEW TEMP CELL # 3 = +61.708 DEG. F >
DEW TEMP CELL # 4 = +61.959 DEG. F DEW TEMP CELL # 5 = +62.548 DEG. F ' DEW TEMP CELL # 6 = +67. 295 DEG. F DEW TEMP CELL # 7 = +81.739 DEG. F DEW TEMP CELL # 9 = +82.261 DEG. F DRYWELL TEMPERATURE = +96.967 DEG. F DRYWELL PRESSURE = +18.754 PSIA SUP PDOL TEMP '
= +82.010 DEG. F SUP POOL PRESSURE = +14.772 PSIA l
l l e
% e4 ' (
i;
SUMMARY
OF MEASURED DATA p- LIMERICK'.1 1-L DATE: 226 TIME: 04:15 i; I TEMP RTD- # 1 = +117.320 DEG. F
, TEMP RTD- # 2 = +128.370 DEG. F TEMP RTD # 3 = +128.410 DEG. F TEMP RTD # 4 = +112.820 DEG. F TEMP RTD #. 5 = +116.100 DEG. F TE?!P RTD # 6 = +86.645 DEG. F TEMP RTD # 7 = +87.661 DEG. F TEMP RTD # 8 =. +94.236 DEG. F TEMP RTD # 9 = ' +86.634 DEG. F TEMP RTD # 10 = +91.493 DEG. F TEMP RTD # 11 = +85.582 DEG. F TEMP RTD # 12 = +82.080 DEG. F TEMP RTD # 13 = +81.428 DEG. F TEMP RTD # 14 = +81.626 DEG. F TEMP RTD # 15 = +D2.151 DEG. F TEMP RTD # 16' = +82.077 DEG. F
. TEMP RTD # 17 = +81.686 DEG. F PRESS GAUGE # 1 =- +18.515 PSI PRESS GAUGE # 2 = +14.938 PSI DEW TEMP CELL # 1 = +61.187 DEG. F DEW TEMP CELL # 3 = t61.433 DEG. F DEW TEMP CELL # 4 = +61.554 DEG. F DEW TEMP CELL-# 5 = +62.150 DEG. F DEW TEMP CELL # 6 = +67.352 DEG. F
. DEW TEMP CELL # 7 = +81.620 DEG. F DEW TEMP CELL # 9 = +81.970 DEG. F DRYWELL TEMPERATURE = +96.936 DEG. F DRYWELL PRESSURE = +18.748 PSIA SUP POOL TEMP = +81.842 DEG. F SUP POOL PRESSURE = +14.761 PSIA
4 g ,. l .. GP-R-312003 GENERAL PHYSICS CORPOR.ATION 5 t APPENDIX K DESCRIPTION OE GENERAL PHYSICS ILRT COMPUTER PROGRAM s 4 K-1
. GPi R-312003 GENERAL PHYSICS CORPORATION-The General Physics ILRT Data Management Computer Program is written in IBM's BASICA. .BASICA is a nigh level programming language which combines' programming ease with user oriented command functions to create an easy to use and understand program. In order to increase speed ' of operation the program was then compiled into an execu table command file. Compiling was accomplished using the IBM Basic Compiler.
In addition to execution speed, this had the added benefit of making the
~
program more secure as compiled programs cannot be edited or changed. g The. program itself is designed to be a menu driven program consisting of seven separate, menu driven operating modes. These are the: .
- 1. Installation Mode
- 2. Pre-Test Mode .
- 3. Pressurization Mode
- 4. Stabilization Mode
- 5. Test Mode
- 6. Verification Mode 7.. Depressurization Mode 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 preveuts invalid information or user mistakes from crashing the program.
Program organization consists of a master menu which controls access to the 'seven 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: K-2 i
GP-R-312003 GENERAL PHYSICS CORPORATION
- 1. Installation Mode- Used to install the volume weighting factors for RTD's, dewcells, and pressure gauges; to install constants such as plant name, unit, volume, La value, number of sensors; to create and label the data files for modes 2 through 7 (above), to enter names of test directors, computer operators and date of file origination.
- 2. . Pre-Test Mode: ILRT measurement system bu rn-in, zero pressure testing, etc.
- 3. Pressu rization Mode: All data reduction, graphic displays of average temperature, dewpoint and corrected pressure.
. 4. Stabilization Mode: All data reduction, automatic comparison of data against ANSI 56.8 and BN-TOP-1 tem peratu re stabilization criteria, notification when criteria is met, graphic displays of average tem peratu re, dewpoin t and corrected pressu re.
- 5. Test Mode: All data reduction, calculation of leakage rates using mass poin t, total time and poin t-to-poin t analysis techniques, display of trend report information required by BN-TOP-1, graphic display of average tem peratu re, dewpoint, pressure and mass, as well as graphic display of mass poin t 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).
- 6. Verification Test Mods; With input of imposed leakage in SCFM automatically calculates and displays on graph and trend report the acceptance criteria band, plus all graphics displays available in test mode.
K-3 1
GP-R-312003 GENERAL PHYSICS CORPORATION LOther 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.
1
- 2. Containment drybulb tem perature weighted averaging and conversion to absolute units.
- 3. - Con tain men t dewpoint tem peratu re weighted averaging
.(con version from Foxboro dewcel element tem peratu re to dewpoint tem peratu re if required) and con version to partial pressure of water vapor (psia).
- 4. Data storage of ILRT measurement system inputs for each data poin t.
- 5. . Weight (mass) point calculations using the ideal gas law.
l 6. Automated Data Acquisition and/or Manual Data Entry. ,o S A 7. Sensor performance and deviation information for sensor failure criteria, graphic display of individual sensor performance for selected operating mode. , 4 ,, K-4 .
, N .
5 GP-R-312003 GENERAL PIIYSICS CORPORATION APPENDIX L l LOCA'L LEAKAGE TEST SUMMARIES 7 I 1 L-1 l l
.LLh7 EUMMARY- PNEUMATIC PEN NO.< TEST NO. DESCRIPTION TEST DATE LEAKAGE SCUM TOTAL AT ILRT
'JX-100A = E01 ELECTRICAL PENETRATION 85-01-08 22.35 +/- 4 86-04-08 2.10 +/- 4 87-04-07 15.20 +/- 4 15.20 +/- 4 J'X-100Bi E02 ELECTRICAL PENETRATION 85-06-23 7.00 +/- 4 86-04-09 8.50 +/- 4 87-04-07 10.82 +/- 4 10.82 +/- 4
' JX-100C E03 ELECTRICAL PENETRATION 85-01-04 1.23 +/- 4 86-04-15 2.70 +/- 4 87-04-08 3.96 +/- 4 3.96 +/- 4 JX-100D E04 ELECTRICAL PENETRATION 85-01-03 1.93 +/- 4 86-04-10 0.90 +/- 4 87-04-08 3.00 +/- 4 3.00 +/- 4
'JX-101A E05- ELECTRICAL PENETRATION 65-06-27 3.75 +/- 4 36-04-09 1.50 +/- 4 87-04-08 2.40 +/- 4 2.40 +/- 4
!; JX-101B E06 ELECTRICAL PENETRATION .85-06-21 3.50 +/- 4 86-04-10 7.40 +/- 4 87-04-07 9.50 +/- 4 9.50 +/- 4 JX-101C E07 ELECTRICAL PENETRATION 85-06-27 2.95 +/- 4 86-04-09 2.30 +/- 4 87-04-08 2.20 +/- 4 2.20 +/- 4 JX-101D E08 - ELECTRICAL PENETRATION 86-04-10 2.50 +/- 4 87-04-07 10.10 +/- 4 10.10 +/- 4 JX-103A E09 ELECTRICAL PEI4ETRATION 85-06-24 1.20 +/- 4 86-04-10 0.70 +/- 4 87-0A-09 1.70 +/- 4 1.70 +/- 4 1 JX-103B E10 ELECTRICAL PENETRATION 85-01-03 6.58 +/- 4 j' 86-04-15 0.50 +/- 4 l 87-04-10 3.72 +/- 4 3.72 +/- 4 JX-104A Eli ELECTRICAL PENETRATION 85-06-25 0.95 +/- 4 86-04-08 2.00 +/- 4 87-04-09 6.20 +/- 4 6.20 +/- 4 [ l
- j. JX-104B E12 ELECTRICAL PENETRATION 85-01-07 2.55 +/- 4 86-04-08 3.80 +/- 4 87-04-10 6.94 +/- 4 6.94 +/- 4
'JX-104C E13' ELECTRICAL PENETRATION 85-06-25 1.83 +/- 4 86-04-08 1.60 +/- 4 87-04-07 4.75 +/- 4 4.75 +/- 4
'JX-104D E14 ELECTRICAL PENETRATION 85-01-07 5.13 +/- 4 GS-04-08 . _- 3.60 +/- 4 Of'04-10 6.00 +/- 4 6.80 +/- 4
.JX-1054 E15 ELECTRICAL PENET ATION 85-01-08 10,88 +/- 4 L
t
+ .. b b =-______-__-- _
8 s PEN NO. TEST NO. ' DESCRIPTION TEST DATE LEAKAGE SCCM TOTAL AT ILRT JX-105A(CONT) 86-04-15 2.70 +/- 4 87-04-09 1.80 +/- 4 1.80 +/- 4
--JX-105B . E16 ELECTRICAL PENETRATION 85-01-07 5.53 +/- 4 86-04-09 0.30 +/- 4 87-04-07 5.30 +/- 4 5.30 +/- 4 l JX-105C E17 ELECTRICAL PENETRATION 85-06-25 4.30 +/- 4 '
86-04-09 1.10 +/- 4 I 87-04-08 2.75 +/- 4 2.75 +/- 4 JX-105D E18 ELECTRICAL PENETRATION 85-06-24 8.50 +/- 4 86-04-10 0.95 +/- 4 _ 87-04-09 2.10 +/- 4 2.10 +/- 4
'JX-105E E19 ELECTRICAL PENETRATION 85-06-25 1.01 +/- 4 {
86-04-08 0.00 +/- 4 1 87-04-09 6.70 +/- 4 6.70 +/- 4 i JX-106A E20 ELECTRICAL PENETRATION 85-01-04 2.90 +/- 4 86-04-09 2.10 +/- 4 ;
'87-04-08 1.63 +/- 4 1.63 +/- 4
( JX-106B E21 ELECTRICAL PENETRATION 85-06-21 3.03 +/- 4 86-04-10 2.00 +/- 4 87-04-08 0.50 +/- 4 0.50 +/- 4 e JX-106C E22 ELECTRICAL PENETRATION 85-06-21 1.15 +/- 4 86-04-10 0.70 +/- 4
. 87-04-08 1.90 +/- 4 1.90 +/- 4 .,
l JX-222 E23 ELECTRICAL PENETRATION 86-04-09 2.10 +/- 4 87-04-09 1.70 +/- 4 1.70 +/- 4 1 l JX-230A E24 ELECTRICAL PENETRATION 85-06-24 1.80 +/- 4 86-04-09 2.80 +/- 4 87-04-09 2.10 +/- 4 2.10 +/- 4 N/A BOB ~DRYwcLL HEAD 84-12-17 12.15 +/- 4 86-05-24 13.50 +/- 4 87-08-07 13.40 +/- 4 13.40 +/- 4 X-001 B04- EQUIP ACCESS DOOR 84-09-18 12.65 +/- 4 86-06-11 '+. 50 +/ - 4 87-07-31 4.30 +/- 22 4.30 +/- 22 X-002 B03 PERSONELL LOCK SEALS 85-01-18 559.75 +/- 22 ' ig, AND EQUIP ACCESS HATCHES 85-03-29 7631.90 +/- 202 85-04-01 7651.25 +/- 202 17' 85-05-24 FAIL 85-06-14 FAIL , 85-07-12 539.55 +/- 22 86-01-04 1223. 00 +/- 22 86-06-10 FAIL 86-06-14 1503.00 +/- 22 -, l 86-06-18 2.10 +/- 4 y
f PEN NO. TEST NO. DESCRIPTION TEST DATE LEAKAGE SCCM TOTAL AT ILRT
. X-002 CONT B03 CONT 86-12-20 1138.00 +/- 22 87-08-07 306.20 +/- 4 B07- 84-12-21 40.00 +/- 4 84-12-28 40.00 +/- 4 84-12-31 40.00 +/- 4 l 85-01-03 40.00 +/- 4 85-01-06 40.00 +/- 4 85-01-09 40.00 +/- 4 85-01-12 40.00 +/- 4 85-01-15 40.00 +/- 4 85-01-18 40.00 +/- 4 85-01-21 40.00 +/- 4 85-01-24 40.00 +/- 4 85-01-31 40.00 +/- 4 85-02-04 40.00 +/- 4 85-02-14 40,00 +/- 4 85-02-17 20.00 +/- 2 85-02-25 20.00 +/- 2 85-04-01 20.00 +/- 2 85-04-01 20.00 +/- 2
'85-04-11 20.00 +/- 2 85-08-06 20.00 +/- 2 85-08-09 20.00 +/- 2 I=
85-08-12 20.00 +/- 2 85-08-20 20.00 +/- 2 85-10-13 20.00 +/- 2 85-11-21 20.00 +/- 2
'w 85-11-24 20.00 +/- 2 85-11-25 20.00 +/- 2 86-01-07 20.00 +/- 2 86-01-19 20.00 +/- 2 86-06-15 83.00 +/- 2 86-06-18 78.10 +/- 2 86-07-12 43.20 +/- 2 86-07-13 22.10 +/- 2 86-12-30 150.00 +/- 2 87-01-29 150.00 +/- 2 87-01-31 150.00 +/- 2 87-08-07 66.40 +/- 4 B19 85-01-18 20.00 +/- 4 86-05-12 2.35 +/- 4 87-07-10 FAIL 87-07-14 5.20 +/- 4 377.80 +/- 6.93 X-003B 011 INST GAS SUPPLY 86-05-14 22.70 +/- 4 87-05-21 95.20 +/-
- 95.20 +/- 4
' X-003D .021 INST GAS SUPPLY 86-05-15 334.00 +/- 22 87-06-26 95.30 +/- 4 95.30 +/- 4
^ X-004' B05 HEAD ACCESS MANHOLD 84-12-07 2.35 +/- 4 85-03-26 5.30 +/- 4 86-05-29 ---.7.90 +/- 4 87-08-07 6.40 +/- 4 6.40 +/- 4 X-006 B06 CRD REMOVAL HATCH 85-02-12 12.75 +/- 4
t . P 4 s,
/
l PEN NO. TEST NO. DESCRIPTION TEST DATE LEAKAGE SCCM TOTAL AT ILRT X-006 CONT B06 CO.4T 85-03-20 15.08 +/- 4 85-03-29 15.88 +/- 4 , 85-08-05 0.82 +/- 4 86-06-02 11.20 +/- 4 87-08-08 25.20 +/- 4 35.20 +/- 4 X-007A 031 A MSIV 84-08-17 247.60 +/- 22 86-05-05 834.00 +/- 22 87-05-17 16000.00 +/- 202 87-07-02 3000.00 +/- 202 87-07-16 2270.10 +/- 202 2270.10 +/- 202 .
- X-007B 041 B MSIV 86-05-05 FAIL ___
86-05-21 128.00 +/- 22 , 87-05-17 FAIL 87-06-12 FAIL 87-06-14 FAIL 87-07-02 1402.20 +/- 22 1402.20 +/- 22 X-007C 051 C MSIV 86-05-05 FAIL
,86-05-21 547.00 +/- 22 87-05-17 FAIL
. 87-06-14 17200.00 +/- 202 87-06 3705.00 +/- 202 3705.00 +/- 202
'X-007D 061 D MSIV' 86-05-05 FAIL
, 86-05-23 3760.10 +/- 202 t.
87-05-17 FAIL I 87-06-20 450.00 +/- 22 87-07-02 1711.90 +/- 22 1711.90 +/- 22
~
X-008- 071- MAIN STEAM LINE DRAIN 86-05-26 26.00 +/- 4 87-08-08 41.80 +/- 4 41.80 +/- 4 1, l .; .X-009A 081 FEEDWATER 86-05-21 194.00 +/- 2 37-07-24 1677.50 +/- 20 082 86-05-16 294.40 +/- 20 87-07-27 627.90 +/- 20 083- 86-05-14 6370.00 +/- 200 084 86-05-14 3744.70 +/- 200 86-05-14 971.00 +/- 20 r 87-07-20 105000.00 +/- 200 87-08-04 14987.60 +/- 200 14987.60 +/- 200 085 ~ 86-06-05 5376.40 +/- 200 , X-009B 091 86-05-16 2830.00 +/- 200 86-05-15 092 8734.00 +/- 200 86-05-16 2774.00 +/- 200 . 86-05-16 5960.00 +/- 200 87-07-24 40382.00 +/- 200 87-08-04 76360.00 +/- 200 76360.00 +/- 200 093 86-06-07 8734.00 +/- 200 X-010 101 STEAM TO RCIC 85-02-15 5.75 +/- 4 86-05-08 18.10 +/- 4 86-06-04 44.40 +/- 4 o
P'EN NO. TEST NO. DESCRIPTION' TEST DATE LEAKAGE SCCM TOTAL AT ILRT
'X-010 CONT 101 CONT 86-06-15 6.10 +/- 4 87-07-09 8.90 +/- 4 8.90 +/- 4 X-011 110 STEAM TO HPCI 84-12-14 25.40 +/- 4 86-05-09 191.83 +/- 4 86-10-22 191.83 +/- 4 87-08-10 77.50 +/- 4 77.50 +/- 4
'X-012 121 SHUTDOWN COOLING SUPPLY 85-07-23 767.00 +/- 20 86-06-06 1301.00 +/- 20 87-06-15 96.50 +/- 2 96.50 +/- 2 X-013A. 131 A SHUTDOWN COOLING RETURN 84-12-13 885.25 +/- 20 4
G6-06-03 2108.00 +/- 200 87-06-22 28000.00 +/- 200 87-08-10 20.00 +/- 2 20.00 +/- 2
- c. 'X-013B 141' B SHUTDOWN COOLING RETURN 84-12-17 394.50 +/- 20 86-06-07 6.00 +/- 2 1
87-07-16 987.00 +/- 20 987.00 +/- 20 X-014 151 REACTOR WATER CLEANUP '86-05-21' 378.00 +/- 20
.; 87-07-07 498.25 +/- 20 498.25 +/- 20
'X-016A. 161 'A CORE SPRAY. DISCHARGE 85-07-26 44.30 +/- 2
/ 86-06-05 28.00 +/- 2 3-87-06-17 20.00 +/- 2 20.00 +/- 2
'X'016B 171 B' CORE SPRAY DISCHARGE 85-03-26 49.03 +/- 2 86-05-07 16.50 +/- 2 l -
87-07-23 7.30 +/- 2 7.30 +/- 2 X-017 181 HEAD SPRAY 84-12-13 30.50 +/- 4 86-06-01 172.20 +/- 4 87-08-02 196.70 +/- 4 196.70 +/- 4 X-021 191 ' SERVICE AIR 84-11-01 7.25 +/- 2 86-05-05 604.00 +/- 20 87-05-22 1013.00 +/- 20 1013.00 +/- 20 X-023 201 RECW 86-05-28 167.10 +/- 4 87-07-24 FAIL 87-07-27 236.00 +/- 22 236.00 +/- 22 X-024 211 RECW 86-05-28 39.50 +/- 2 87-07-24 44.20 +/- 2 44.20 +/- 2
.X-025 B09 CAC HV-57-121 O RINGS 86-04-17 0.90 +/- 4 87-07-07 77.30 +/- 6 87-07-28 6.10 +/- 6 B10 CAC HV-57-123 0 RINGS 86-04-17 0.60 +/- 4 86-06-15 0.70 +/- 4 87-07-07 ___24.00 +/- 6 87-07-28 64.54 +/- 6 B11 CAC HV-57-163 0 RINGS 86-04-17 1.20 +/- 4
- i. 86-06-12 20.00 +/- 4 l
l
, , +.
a .-
' PEN NO. . TEST NO. DESCRIPTION TEST DATE LEAKAGE SCCM TOTAL AT ILRT X-025 CONT Bil CONT 86-06-15 5.20 +/- 4 #
87-07-29 9.80 +/- 6 222 DRYWELL PURGE SUPPLY 86-05-06 10009.70 +/- 202 86-06-15 2189.00 +/- 202 87-05-19 22210.00 +/- 202 87-05-25 4361.00 +/- 202 87-07-12 135.27 +/- 4 215.71 +/- 11.1-X-025/201A 004 B POST LOCA RECOMBINER 84-12-21 200.00 +/- 8
- l. 84-12-29 95.85 +/- 8 86-05-22 FAIL 86-06-10 FAIL L 86-06-13 185.80 +/- 8 . .
86-06-15 444.00 +/- 26 . 87-08-05 45.00 +/- 8 45. 00 +/- 8
~
'X-026 B12 CAC HV-57-114 0 RINGS 86-04-20 2.50 +/- 4 87-07-29 6.02 +/- 6 B13 CAC HV-57-161 0 RINGS 86-04-20 0.90 +/- 4 87-07-29 2.64 +/- 6 231 DRYWELL PURGE EXH JS6-05-08 28962.00 +/- 202 86-06-11 14231.00 +/- 202 86-06-14 1415.00 +/- 22 87-05-19 27957.30 +/- 202 87-07-12 FAIL 87-07-15 32.80 +/- 4 .
232 DRYWELL PURGE EXH. 85-06-17 390.65 +/- 22 86-05-19 252.00 +/- 22 87-07-13 243.80 +/- 22 285.26 +/- 23.9_ X-026/202 003 A POST LOCA RECOMBINER 84-12-21 2425.00 +/- 44 84-12-29 683.70 +/- 44 SF ;-30 3175.60 +/- 224 5.~u/-20 99.80 +/- 8 99.80 +/- 8 X-027A 241 INST GAS SUPPLY 86-05-16 475.00 +/- 22 s 86-06-13 86.00 +/- 4 87-05-21 22.30 +/- 4 22.30 +/- 4 X-028A 261 RECIRC LOOP SAMPLE 86-05-14 246.00 +/- 22 87-05-18 500.30 +/- 22 500.30 +/- 22 262. DRYWELL H2/02 SAMPLE 86-05-13 17.87 +/- 6 l 87-05-11 25.10 +/- 6 87-08-05 38.80 +/- 6 23.80 +/- 6 {
'r?
X-028B- 271 DRYWELL H2/02 SAMPLE 86-05-08 47.10 +/- 4 h 87-05-11 100.50 +/- 4 87-08-05 104.30 +/- 4 104.30 +/- 4 X-035B- 281 INST GAS TO TIPS ' 86-05-23 660.00 +/- 24 ' 87-06-05 606.40 +/- 24 606.40 +/- F4 X-035C 291 TIP DRIVE 84-11-05 14.40 +/- 6 ') \ l 86-05-23 11.10 +/- 6 < 87-06-04 132.20 +/- 6 132.20 +/- 5 3
2, . . . , PEN NO. TEST.NO. DESCRIPTION TEST DATE LEAKAGE SCCM TOTAL AT ILRT X-035D 301 TIP DRIVE 84-11-05 7.05 +/- 6 86-05-23 34.10 +/- 6 87-06-04 74.82 +/- 6 74.82 +/- 6 X-035E 311 .TIP DRIVE 84-11-05 36.35 +/- 6 86-05-23 20.50 +/- 6 87-06-04 16.50 +/- 6 16.50 +/- 6
, X-035F- 321 ~TIP DRIVE 84-11-05 42.53 +/- G 86-05-23 10.90 +/- 6 87-06-04 79.22 +/- 6 79.22 +/- 6 X-035G- 331, TIP DRIVE 84-11-05 39.28 +/- 6 86-05-23 3064.20 +/- 204 87-07-27 2806.20 +/- 204 l' 87-08-03 130.80 +/- 6 l 87-08-22 35.60 +/- 6 35.60 +/- 6 X-028.ABCD)361 SCRAM DISCHARGE VOLUME 85-03-10 3779.00 +/- 200 85-06-10 1782.00 +/- 20
',86-05-23 1316.15 +/- 20 87-07-20 9331.30 +/- 200 87-07-30 FAIL FAIL X-039A 371 DRYWELL SPRAY 85-12-18 372.40 +/- 22 86-06-04 570.00 +/- 22 l 87-06-21 251.37 +/- 22 251.37 +/- 22
.X-039B~ 381 DRYWELL SPRAY 85-06-28 491.25 +/- 22 86-06-09 7377.00 +/- 202 87-06-26 5468.90 +/- 202 5463.90 +/- 202
^
-X-040F 391 INST GAS SUCTION 84-09-17 289.50 +/- 22 86-05-17 13.40 +/- 4 87-05-20 20.14 +/- 4 20.14 +/- 4 X-040G 401 ILRT DAS 85-06-27 6.30 +/- 8
% 86-04-18 12.22 +/- 8
- 87-05-06 40.05 +/- 8 40.05 +/- 8 X-040H 411 INST GAS SUPPLY 86-05-16 7.80 +/- 4 87-05-21 209.80 +/- 22 87-05-21 178.40 +/- 4 173.40 +/- 4 X-042/116 421 STANDBY LIQUID CONTROL 86-05-21 342.30 +/- 22 87-06-20 188.45 +/- 4 188.45 +/- 4 X-0428' 431 MAIN STEAM SAMPLE 85-03-21 2.48 +/- 2 86-05-06 651.00 +/- 20 86-06-12 4.20 +/- 2 87-07-17 954.30 +/- 20 954.30 +/- 20 X-044 441 RWCU ALTERNATE RETURN 85-08-05 -292. 80 + / - 22 86-05-29 70.50 +/- 4 70.50 +/- 4 X-045A 451 A RHR LPCI 86-06-03 66.45 +/- 2
a PEN NO. TEST NO. DESCRIPTION TEST DATE LEAKAGE SCCM TOTAL AT ILRT
- X-045A 451 CONT 87-06-23 0.50 +/- 2 0.50 +/- 2 X-045B '461 B'RHR LPCI 84-12-16 233.75 +/- 20 86-06-06 0.45 +/- 2 87-07-10 238.50 +/- 20 238.50 +/- 20 X-045C- 471 C RHR LPCI 86-05-31 5001.00 +/- 200 87-06-21 109.80 +/- 20 109.80 +/- 20 X-045D 481 -D RHR'LPCI 84-12-18 0.08 +/- 2 86-05-09 158.00 +/- 2 87-07-10 21.20 +/- 2 21.20 +/- 2 L . X-053 491 DWCW SUPPLY 86-05-27 6048.00 +/- 200 s.
L 87-07-15 FAIL 87-07-16 517.80 +/- 20 87-07-26 517.80 +/- 20 517.80 +r- 20
. ~ X-054 '501 DWCW RETURN 86-05-27 5393.00 +/- 204 If , 87-07-15 447.25 +/- 6
',87-07-26 447.25 +/- 6 447.25 +/- 6
; . X-055 511 DWCW SUPPLY 86-05-27 6743.00 +/- 200 87-07-28 6743.00 +/- 200 87-07-30 657.40 +/- 20 657.40 +/- 20 0
X-056 521 DWCW RETURN 86-05-27 1633.00 +/- 20
< 87-07-28 1633.00 +/- 20 87-07-30 1849.80 +/- 20 1849.80 +/- 20 -
X-061A 531 RECIRC PMP SEAL PURGE 86-05-19 28.70 +/- 2 87-05-18 2.20 +/- 2 2.20 +/- 2 - X-061B 532- RECIRC PMP SEAL PURGE 86-05-19 139.70 +/- 2 87-05-19 233.00 +/- 20 233.00 +/- 20 X-062/220 541 H2/02 SAMPLE RETURN 86-05-06 226.30 +/- 12 86-06-12 155.10 +/- 12 87-05-13 228.50 +/- 12 87-08-04 229.80 +/- 12 229.80 +/- 12 X-117B 561 DRYWELL RAD MONITORS 86-05-01 21.38 +/- 6 87-03-26 184.08 +/- 6 87-07-07 23.07 +/- 6 23.07 +/- 6 X-200A B01 SUPP POOL ACCESS HATCH 84-12-20 7.15 +/- 4 85-02-13 9.00 +/- 4 85-03-26 0.33 +/- 4 86-01-07 40.00 +/- 4 86-06-11 5.18 +/- 4 87-08-09 21.40 +/- 4 21.40 +/- 4
^
X-200B. B02 SUPP. POOL ACCESS HATCH 84-09-21 8.40 +/- 4 84-12-20 -- 8. 40 +/- 4 $ 84-12-21 40.00 +/- 4 i 86-06-08 1.10 +/- 4
- 87-08-08 26.10 +/- 4 36.10 +/- 4
s PEN NO. TEST NO. DESCRIPTION TEST DATE LEAKAGE SCCM TOTAL AT ILRT \ ' e X-201A B14 CAC HV-57-124 0-RINGS 86-04-17 0.70 +/- 4 87-07-29 2.88 +/- 6 B15 CAC HV-57-131 0-RINGS 86-04-17 1.10 +/- 4 87-07-29 2.20 +/- 6 B16 CAC HV-57-164 0-RINGS 86-04-17 1.70 +/- 4 87-07-29 2.08 +/- 6 571 SUPP 900L PURGE SUPPLY 84-12-19 1207.13 +/- 40 86-05-08 2528.00 +/- 220 87-05-19 2946.00 +/- 220 87-07-02. 2387.60 +/- 220 2394.75 +/-220.2: oX-201A/25 572 SUPP POOL PURGE SUPPLY 86-06-09 1701.00 +/- 22 87-05-19 2124.00 +/- 202 87-07-16 FAIL 87-07-28 2990.40 +/- 202 2990.40 +/- 202 X-202 B17 CAC HV-57-104 0-RINGS 86-04-20 1.50 +/- 4 87-07-29 8.15 +/- 6 B18 CAC HV-57-162 0-RINGS 86-04-20 0.60 +/- 4
' 7-07-29 6.90 +/- 6 581 SUPP POOL PURGE EXH 86-05-09 13.90 +/- 4 86-05-13 20.60 +/- 4 87-07-29 0.60 +/- 4 582 SUPP POOL PURGE EXH 85-05-07 6607.90 +/- 202 87-05-19 5230.00 +/- 202 87-07-12 183.50 +/- 22 199.15 +/-23.92 g.
X-203A 591 A RHR PUMP SUCTION 87-06-10 129.65 +/- 4 129.65 +/- 4 X-203D 601 B RHR PUMP SUCTION 87-06-16 39.10 +/- 4 39.10 +/- 4
'X-203C 611 C RHR PUMP SUCTION 87-06-15 8.43 +/- 4 S.43 +/- 4 X-203D 621 D RHR PUMP SUCTION 87-06-16 46.60 +/- 4 46.60 +/- 4 X-205A 651 SUPP POOL SPRAY 86-06-01 190.20 +/- 2 87-06-06 0.32 +/- 2 0.32 +/- 2 X-205B 661 SUPP POOL SPRAY 84-11-28 53.00 +/- 2 86-06-05 241.00 +/- 20 87-07-01 54.54 +/- 2 54.54 +/- 2 X-217 801 RCIC VACUUM PMP DISCHARGE 84-09-29 110.18 +/- 4 84-12-18 145.70 +/- 4 85-05-22 79.32 +/- 4 86-05-04 163.30 +/- 4 87-05-14 231.70 +/- 22 231.70 +/- 22 X-218 811 I/G TO VACUUM RELIEF VLVS 86-05-11 18.00 +/- 4 -
87-05-21 12.88 +/- 4 12.88 +/- 4 X-221A 831 SUPP POOL H2/02 SAMPLE 86-05-12 13.05 +/- 4 87-05-12 35.73 +/- 4 87-08-04 59.73 +/- 4 59.73 +/- 4 l
9 e PEN NO. TEST NO. DESCRIPTION TEST DATE LEAKAGE SCCM TOTAL AT ILRT X-2218 .841 SUPP POOL H2/02 SAMPLE 86-04-30 7.40 +/- 4 86-04-30 9.00 +/- 4 86-05-14 16.10 +/- 4 87-05-12 199.10 +/- 4 87-08-04 221.60 +/- 22 221460 +/- 22 X-225 851 RHR VACUUM RELIEF SUC. 86-05-19 FAIL 86-05-29 FAIL 86-05-30 17614.00 +/- 202 86-06-05 517.50 +/- 22 87-06-23 330.50 +/- 22 330.50 +/- C2 l- X-227 881 ILRT DAS 85-06-28 4.50 +/- 4 86-04-18 3.40 +/- 4 87-05-06 10.81 +/- 4 10.81 +/- 4 l X-228D 891 HPCI VACUUM RELIEF 85-12-15 82.73 +/- 4 l" 87-05-20 FAIL 87-07-16 106.65 +/- 4 106.85 +/- 4
.X-239 961 A RHR HT EXCH. SHELL VENT 84-11-18 74.23 +/- 14 _, _ _
,86-06-07 251.00 +/- 14 67-07-09 192.70 +/- 14 192.70 +/- 14 X-240 971 B RHR HT EXCH. SHELL VENT 84-10-16 15.75 +/- 14 86-06-01 5.60 +/- 14 87-07-01 95.44 +/- 14 981- RHR RCIC VENT TO SUPP POOL 87-07-17 17.65 +/- 4 113.09 +/- 14.5-X-241' 991. RCIC VACUUM RELIEF 86-05-04 121.10 +/- 4 e -
87-05-14 3260.90 +/- 202 l- - 87-07-02 811.50 +/- 22 811.50 +/- 22 TOTALS 126195.77 +/-1449, 4 u 4
/
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e
LLRT SUMHARY - HYDRAULIC @N .- '. TEST' DESCRIPTION TEST LEAKAGE TOTAL @. 'NO. DATE GPM AT ILRT '@l2 -121 RHR S/D CLG. SUPPLY 07/23/85 0.0 1 018 06/06/86 0.0 i .018 06/15/87 0.0 i .018 0.0 1 018
@l3A 131 A S/D CLG. RETURN 06/03/86 0.0162 1 018 06/22/87 0.0120 1 018 .0120 1 018 -
l@l3B 141' B S/D CLG. RETURN 06/07/86 0.1332 1 018 . . , , 07/16/87 0.78 i .018 .78 1 018
@l6A' 161' A C.S. PUMP DISCH. 07/26/85 0.002 1 018 06/05/86 0.088 i .018 4 06/17/87 0.601 t .018 .601 1 018 @l6B 171 B C.S. PUMP DISCH. 03/26/85 0.1746 1 018 05/07/86 0.000 1 018 i
07/23/87 0.156 1 018 .156 1 018
@45A 451 A RER LPCI 06/03/86 0.045 1 018 06/23/87 0.006 1 018 .006 1 018 ,
@45B- 461 B RHR LPCI 07/01/85 0.030 1 018 06/06/86 0.0396 1 018 07/10/87 0.000 1 018 0.0 1 018 @45C 471 C RER LPCI 06/02/86 0.894 1 018 06/21/87 0.2404 1 018 .2404 1 018 e 9 ,.
LLRT
SUMMARY
- HYDRAULIC 8N . TEST DESCRIPTION TEST LEAKAGE TOTAL D.- ' NO . DATE GPM AT ILRT
)4 5D. 481 D.RHR LPCI 07/02/85 0.490 1 018 05/09/86 0.0594 1 018 06/06/86 0.500 1 018 07/10/87 0.595 1 0275 .595 1 0275 l03A 591 RER PUMP A SUCT. 12/17/85 0.009 1 018 06/10/87 1.830 1 0275 1.83 1 0275 }03B '601 RHR PUMP B-SUCT. 12/22/85 0.090 1 018 06/17/87 4.500 1 0275 4.5 1 0275 l03C 611 RHR PUMP C SUCT. 07/16/85 1.500 i .018 04/23/86 1.570 1 018 06/15/87 0.0229 1 0275 .0229 1 0275 03D 621 RHR PUMP D SUCT. 07/23/85 1.700 1 018 04/29/86 1.650 1 018 06/27/87 1.925 i .0275 1.925 i .0275 !O4A- 631 RHR PUMP TEST-A. 07/19/85 0.330 1 018 06/02/86 0.180 1 018 06/24/87 0.460 1 0275 .46 1 0275 !O4B- 641 RER PUMP TEST-B 06/06/86 0.004 1 018 05/12/87 1.833 1 0275 1.833 1 0275 106A 671 A-C.S. PUMP SUCT. 12/18/85 0.002 1 018 04/13/87 0.000 + .0275 0.0 + .0275
.o
-LLRT
SUMMARY
- HYDRAULIC 8N . - TEST DESCRIPTION TEST LEAKAGE TOTAL D. .NO. DATE GPM AT ILRT 206B i681 B-C.S. PUMP SUCT. 12/16/85 .0.049 1 018 04/30/87 0.011 1 0275 .011 1 0275
= 206C i 691 C-C.S. PUMP SUCT. 04/14/86 0.009 1 018 04/20/87 0.167 1 018 .167 1 018 206D ;701 D-C.S. PUMP SUCT. 12/17/85 0.030 1 018 04/30/87 0.068 i .0275 .068 1 0275 }07A 711- C.S.. PUMP TEST-A 04/14/86 0.0024 1 018 04/13/87 0.000 1 018 0.0 1 018 l07B. 721 C.S. PUMP TEST-B 12/17/85 0.001 1 018 05/01/87 0.000 1 0275 0.0 1 0275 10 8 B - 731- C.S. PUMP MIN. RECIRC. 07/24/85 0.000 1 018 04/17/86 0.000 1 018 04/30/87 0.000 1 0275 0.0 1 0275 !09 741 HPCI PUMP-SUCT. 12/14/85 0.0243 1 018 05/09/86 0.1067 1 018 05/09/87 0.000 1 0275 0.0 1 0275 10; 751 HPCI TURBINE EXH. 12/14/85 0.009 1 018 05/08/87 1.040 1 0275 1.04 1 0275
- 12. 761 HPCI PUMP TEST 05/04/86 0.0018 i .018 .0018 1 018
'14 - 771 RCIC PUMP SUCT. 12/16/85 0.000 1 018 04/21/87 0.000'1 0275 0.0 1 0275
s LLRT
SUMMARY
- HYDRAULIC BN. TEST DESCRIPTION TEST LEAKAGE TOTAL E NO. DATE GPM AT ILRT 915 781 RCIC TURBINE EXH. 12/16/85 0.0072 1 018 04/21/87 0.0920 1 0275 .0920 1 0275 216 791 .RCIC MIN. FLOW 12/16/85 0.000 1 018 .
c. 04/21/87 0.000 1 0275 0.0 1 0275 9 $26A 861 RHR MIN. RECIRC.-A 07/19/85 0.000 1 018 05/18/86 0.000 1 018 04/14/87 0.000 1 018 0.0 1 018 926B2 '871 RHR MIN. RECRIC-B 06/28/85 0.0000 1 018 05/17/86 0.0054 1 018 04/22/87 0.0000 1 018 0.0 1 018 931A 901 DRYWELL SUMP DRAINS 09/27/84 0.000 + .018 05/20/86 0.000 1 0 9 05/22/87 0.000 1 018 0.0 1 018 931B 911 DRYWELL SUMP DRAINS 03/25/85 0.005 1 018 05/21/86 0.020 1 018 4 05/22/86 0.000 + .018 0.0 1 018 935 921 C.S. PUMP MIN. RECIRC 06/19/85 0.000 1 018 04/14/86 0.0024 1 018 04/20/87 0.000 1 018 0.0 1 018 i
J
' yt' s
LLRT
SUMMARY
- HYDRAULIC CN . - TEST DESCRIPTION TEST LEAKAGE TOTAL
- 3. NO. DATE GPM AT ILRT 936 931 HPCI PUMP MIN. RECIRC. 12/15/85 0.001 1 018 05/07/86 0.000 1 018-05/08/87 0.000 1 0275 0.0 1 0275 R37- 941 S. P. CLEAN-UP SUCT. 06/18/85 0.380 1 018 04/15/86 0.053 1 018 04/14/86 0.000 1. 0275 0.0 1 0275
( TOTAL LEAKAGE 14.3411 1 14 GPM l l l. _ _ _ _ . . . . . .}}