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Reactor Containment Bldg Ilrt,Unit 2 - Fourth Periodic Summary Rept
	ML20128F678
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Issue date:	11/30/1992
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LO REACTOR CONTAINMENT BUILDING INTEGRATED LEAKAGE RATE TEST 4

UNIT 2~- FOURTH PERIODIC t

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TABLE OF CONTENTS 1.0 Introduction Page 1

2.0 Summary Page 2

3.0 Methodology Page 3

3.1 Leakage Rate Calculations Page 3

3.2 Test Measurements Page 3

4.0 Test Procedure Page 5

4.1 Initial Conditions Page 5

4.2 Pressurization Page 6

4.3 Stabilization Page 6

4.4 Type A Test Page 6

4.5 Verification Page 6

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5.0 Results C Analysis Page 8

5.1 Total Time Results Page 8

5.2 Verification Results Page 9-5.3 Mass: Point Results Page.10

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6.0 References Page 11 Tables and Figures Appendix I ILRT Computer Program Description Appendix II Type B and C Local Leakage Rate Test Results Appendix III Instrument Calibration Summary Appendix IV Test Data i

l EST OF TABLES

-Table Title 1

Dry-bulb and Dew Point Temperature Sensor Locations.

2 Temperature Stabilization 3

Data Summary 4

Total Time Leakage Rate Report 5

Total Time Leakage Rate Report - Verification 6

Mass Point Leakage Rate Report 7

Mass Point Leakage Rate Report - Verification LIST OF FIGURES Figure Title 1

Temperature During Stabilization 2

Air Mass - Type A Test 3

Mean Temperature - Type A Test 4

Total Pressure - Type A Tent S

Vapor Pressure - Type A Test 6-Total Time ILRT Leakage Rate Plot 7

Air Mass - Verification 8'

Total Time Verification Leakage Rate Plot O

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110l-INTRODUCTION

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The Fourth Periodic,:: Integrated Leakage : Rate Test (ILRT) a t'- } Georgia.: Power Company's Edwin;:I.-Hatch Nuclear Plant ( HNP)- _) Unit-2;was performed.on' November-6-7,-1992.:The-;ILRT was - = - - _ performed as' required by.'10CFR50fAppendix 1 (

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-1)iand the Hatch:FSAR (Reference;4) to demonstrate that: leakage-Lthrough_the! containment--boundary at design basis-accident-pressure _does not exceed the-HNP Technical.5pecification -(Refcrence _2); limit. The test was performed:in accordance;with- -procedure 42SV-TET-003-2S Revision:2 ' Reference 3).-Tho'- followingidocumentation is rotained at^the: site along withithe-Official. Tost Copy of the procedure: o_ systems status-!(lineup) o event log

o. instrumentation' validation (calibrati.

2, ISG, etc.)- o local-leak rate tests o integrated leakage rate data. zi o verification :lcakage rates' .A summary of general plant _information as related:to'the Integrated Leak Rate-Test is provided in Appendix!IV. l:: a.: L i:- l; L ~ l 0 l: h3 M. ?O( sb L L page 1 of'll 4 (.'

en 1 J2 ; O J S_UMMARY : LTheJ ourth. Periodic Integrated Leakage' Rate. Test for the;HNP F s9

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> ' Unit 2-containment was successfully' completed at?9 45 p'm.n (all times EST) on' November 6, 1992. The.' duration-of the-test-was 8 hours. The verification test.was completed on. November 7,7 1992.LThe~results of the test-follow:- Leakage Rate (weight t / day) Total Time Analysis-95% Upper Confidence Limit-(UCL) Total Acceptance Time Leakage Rate Limit (0.75 La) 0.8839 0.9000-Extrapolated Total Time- . Acceptance Calculated Leakage Rate Limit (0.75 La)- < 0.8609 0.9000-Mean of Measured Acceptance. Limit. Leakage-Rates -(La - max allowable leakage rate) 0.8858 1.'2000 -[)'\\ .N_ Leakage penalties are added to the above:95 percent UCLitotal time leakage rate to account for penetrations in nonstandard alignment and for water inventory change. Total penalties amounted to;a-leakage of 0.0019: Weight percent / day.-.This: results in'a final as-left leakage rate of 0.8858 weight percent / day. To determine the'as-found leakage rate, thel 0.4499 Weight percent / day minimum pathway. improvement'made during the'. local: leakage rate testing program is added:tolthe 0.88581weightL percent / day final as-left UCL. This results in a Efinal as-found leakage rate.of.1.3357 weight' percent / day which:is-greater'than the: acceptance limit of 1.2000 weight" percent / day. Section--III.A.6 of Reference 1 states!"If-any periodic-Type A l -test fails-to meet the applicable acceptance--criterla11n III. A. 5 ' (b) ', the test; schedule applicable'to subsequent TypeLA' -tests will be reviewed and approved by the' Commission." ~ q Additional requirements' are appl'icable: if two. consecutive' ?"u periodicEType A.testsifail. The 1989 Hatch as-found leakage; i rate was lessethan the acceptance limitiand therefore-requirements'for two consecutive-test failures are not-- applicable. t gr% 1 \\s,) H page 2 of 11 j a

1e, 3.0 METHODOLOGY-r 3.1 Leakage Rate Calculations k2 Test. methods and procedures are specified in ANSI N45.4-1972 (Reference 6) and'in BN-TOP-1~(Reference 7).-ANSI N45.4;is cited in 10CFR50. Appendix J,.and BN-TOP-1 is an alternative method of determining primary containment leakage rates which is acceptable to the USNRC. Reference 7 describes the total time test which is used-for Type A_ tests _of a duration less than 24 hours. Since the-Type A test described in this report was less than 24_ hours, the total time calculations were used to determine leakage rate. Reference 1 allows leakage rate calculations to be performed: using the mass point method defined in: ANSI /ANS 56.8-1987 (Reference 5). The Type A test must have a duration of at least 24 hours to use this methodology per Reference 1. Mass-point results are provided in this report for information-only. Data from the instrumented containment is reduced by direct application of the ideal gas law, PV = w RT, to calculate air mass at-each data point. The change in air mass provides information to develop the-leakage rate. _The total time data-analysis technique is based on the= premise /"T that the leakage rate varies linearly with time. A measured (c) leakage rate is calculated as the initial-air mass-minus current air pass divided by current time minus initialJtime..A-9 straight line is then fitted to the measured rate versus' time data. The calculated leakage rate is defined as-the ordinate of this line at the end of-the test. The total time test has three acceptance-criteria. First,.the end-of-test leakage rate UCL must be less than-the acceptance-leakage rate:-(0.75 La).ESecond,Jthe~ calculated leakage rate extrapelated to a 24-hour test duration.must be~less than the acceptance leakage rate (0.75 La). Third,.the.mean of the measured leakage rates over-the final 5 hours of test must'be less than the maximum allowable 11eakage rate (La). 3.2 Test Measurements Fourteen dry-bulb and seven dew point. temperature.. sensors -located-inside containment were used to collect information-for leakage rate calculations. Ten dry-bulb and'five dew point sensors were in the drywell. Fouredry-bulb and two: dew point! sensors were in the torus proper. These were located at approximately equally spaced elevations.: Sensor locations.and volume fractions (Table :1) were established by considering temperature distributions in past tests and the containment-f free volume. -(( page 3 of 11 5

~ .. ~ --J =! Dry-bulbLtemperaturesswere me'asured.using 100 Ohm platinum p1 resistance temperature detectors;(RTDs).EDew-point- ' 'i ^J(-); temperaturesLwero-measured using optical 1 chilled mirroridew^ V- -point hygrometerd.(These devices luseEa direct-measuring l sensor: automatically--held at the dew pointJtempurature;byLan-optical: system. This technique.is a primary 1 measurement.of the watsra . vapor-content of the air. The mirror temperature 1 represents-- the true dew point temperature and.is measured by an imbedded: . precision-platinum resistance thermometer.- Absolute' pressure was measured using.a vibrating _ cylinder I element sensor connected through tubing to a_ containment ~ ? penetration. The' change in. pressure during an ILRT;is'.quite' = small' relative to absolute pressure. The pressure device-usedL t has.an. accuracy of +/- 0.015% RDG, +/- 0.002% Full Scale and a= 7 repeatability of +/- 0.001% Full Scale.- A data logger was-used to collect data atLfifteen-minuto- _. intervals. Information from the RTDs, dew point sensors,fand; pressure indicators was transferred from the dataJ1ogger?to the ILRT computer for analysis. The-data; system. generated.a printed tape: record.of each data set transmitted to-tho' computer. The ILRT_ computer was an IBM PC compatible._Afcompiled Basic. 7 program as described in Appendix I-was run on-the-computer. /i 'The imposod leakage rate _for the verification test?was Q-measured-using--a float type flowmeter.- All instrumentation was_ calibrated prior to.the'ILRT. ' Instrumentation characteristics and calibration!information is, summarized in. Appendix III. Calibration-documents-areLincludedi with theLofficialttest copy of.the-procedure.; ?! s a L() ~ page:4 cf 11 s y a. u - n.

l [ 4.0 TEST PROCEDURE 4.1 Initial Conditions .,s'l Y ~' A general _ inspection of_the accessible interior and_ exterior surfaces of the containment building was performed-prior to the ILRT4 No repairs or adjustments were made to the containment after initiation of the inspection so.that the building could be tested as close as practical to the "as is" condition. All Type B and C local leak rate tests (Appendix II) were completed prior to the inspection. The-inspection uncovered no evidence of structural deterioration which would affect the containment structural integrity or leak-tightness. Plant systems were aligned for the ILRT as specified in the plant procedure. Isolation valves, except those in systems required to maintain the plant in a safe condition and those systems used to conduct the ILRT, were set in post-LOCA positions specified in the FSAR. Any valves deviating from FSAR positions are listed and justified in the ILRT procedure. For those systems or penetrations that were in service or isolated during the test a penalty addition must be made to the Type A test results. The penalty addition is the sum of the minimum pathway leakages _for those penetrations determined to be in a position other than normal post-LOCA position. Penalties were added for the following nonstandard alignments: penetrations X-14, X-22, X-42, X-51C, X-23,24, X-47,48 and X-(~ 69. ()T Piping was vented and drained to expose valve seats per post-LOCA scenarios. All sources of gas at pressures above containment test pressure were isolated or vented to prevent leakage into the containment during the ILRT. A temperature / dew point survey was performed to confirm the placement locations of the sensors. An in-situ test on the sensors was performed to demonstrate the proper functioning of the sensors and the data collection system. RTD in-situ-tests were done using an ice bath (32 degrees F) and verifying that temperature recording at the data system. Dew point in-situ tests were done using a calibrated dew point instrument (spare dew cell) to measure dew point temperature at each sensor and comparing the results with the recorded data system dew point temperature. The survey showed that all instruments were operating within the required degree of accuracy. The official test copy of the procedure documents the completion of the prerequisites for the test-including all exceptions to specified conditions. i U page 5 of 11 l

+ a -4.2 Pressurization x 7(~N LThe containment wasjpressurized using, oil free comnrescors (J! discharging through an-after cooler / moisture sepa ,or and. refrigerated' air: dryer. Four 1200.SCFM-compressors we o used-. Start;of pressurization occurred at 2:45 a.m. on~Novem.er-6, 1992. Pressurization was terminated when_ containment. pressure-reached 58 psig at-9:15'a.m. on November 6. This' allowed a 0.5= psi margin ~for_ pressure drop to ensure the gage pressure would= be at or.above the 57.5 psig minimum pressure required for the~ test. 4.3 Stabilization Upon reaching ILRT tust pressure the containment was allowed to stabilize. Make-up to the reactor, vessel.was' permitted early during stabilization tol decrease the possibility-of: having to make-up during the Type A test. A. torus water leak was detected coming from the-bonnet of relief valve 2E11-F0258-during the stabilization period. The bonnet was tightened to: ~ reduce bonnet leak prior'to_the start off the TypefAl test. Containment conditions were recorded at fifteen minute intervals. Stabilization criteria was met at 1:45'p.m._on November 6-(see Table 2).. Actual. change rates and: maximum'- allowableichange rates are listed below: Rate Actual Maximum Allowable [I. ~ \\~-)- temperature is less than 1.0 (-0.046<1.0)~ Rate of change of average dT1 = -0.046 1.0 degree. degree F/ hour averaged over the ?ast 2 hours Rate of change of temperature-d(dT) =10.031-0.5 degrees changes.less~than 0.5 degrees. . ( 0.' 0 31< 0. 5 ) ; F/ hour / hour averaged over the last 2 hours Rate'of change of temperature. dT1.= -0.029 . lh5 degrees ? . averaged over_the.last hour _

dT4.= -0.140

- (0.111<0;5) -does not-deviate by more than 'O.S degrees F/hoursfrom the dT1 - dT4 = average rate of. change over. 0.111 the last 4 hours Containment 1 temperature stabilization data is'shown' 1 graphically in Figure 1. 4.4 Type A' Test, Upon meeting stabilization criteria,;the start.of the Type lA-test was declared..The-Type A test _was started at-1.45~plm. on-November 6. Containment conditions were-recorded at. fifteen 4-page-6 of 11 -w s 4

~~ minuto: intervals. Tho test was_successfully concludedMat 9:45 .p.m.Jon November-6. Results of the: test arefrecorded in-: ~ ? w; - section15.1.'of this report. 4~.5 Verification-N/ 3 Following completion of the_ Type-A test a.-11.0 SCFM verification leak-was: imposed, whichTis between-the limits of i 0.75 La and_1.25 La'specified in Reference.7. Containment: atmospheric conditions-were allowed to' stabilize;-for-1: hour. Make-up to the reactor vessel was permitted-during stabilization to decrease the possibilityeof having to make-up': during the verification test. The verification test:was then started at 11:00 p.m. on November 6 and-successfully completed t 0-a.m. on November 7. Results of the-test are recorded a ', in section 5.2. Table 3 provides a summary of data collectedLduring;the: stabilization, the Type A test, and the verification as discussed in sections-4.3,-4.4, and 4.5. r page 7 of~11 f ._.s.26,

O ~ ] qq q [ 43 s ~ 5.0jRESULTS AND ANALYSIS S < pg(-( 5.1 TotalTTime Results n ~ $(. /- Tho-end-of-test" leakage: rate was within the: acceptance-U criteria-stated in Reference 2 and---3. The ond-of-testfleakage rate 1 values and acceptance limits are-. listed <below._- ~ Leakage Rate (weight.% / day) Total Time Analysis = 95% Upper Confidence Limit (UCL) Total Acceptarico l Time Leakage Rate Limit ( 0,7 5 - La ) 0 T 0.8839 0.9000' Extrapolated Total Time. Acceptance Calculated Leakage Rate Limit (0.75 LalE ~ e < 0.8609 -0.9000-o Mean of Measured Acceptance Limit Leakage Rates (La=-Lmax: allowable ~ leakageirate)~ 0.8858 1.2000-Penalty' additions and corrections must be applied to accounti for nonstandard alignment of valves and waterilevel-changes.- t Penalty additions are the sum of the minimumLpathwayyloakages' determined for those penetrationsLwhich-were?not--in a normal 1 post-LOCA position. A summary of thesefpenetrations and,theiri contribution to the. penalty additioniareJpresented;below:. J Penetration Description ~ As-left: leakago (SCCM)- X Reactor-Water'Cleanupl 0.0' X-22 Drywell-Pneumatics_ 0.0? X StandbyiLiquid Control'

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.X-51C' Drywell#Pneumatics. 20.'O X-23,24 Reactor Building. Closed Cooling: f150. 0; .X-47j48JDrywell Chilled Water- .350.0 X-69 Drywell'to TorusfDP System-0.0' ~ Total leakagof(SCCM) 500.0 Total-leakage-(weight 1 percent / day) 0.0019f y. page.8 of 11 ~ a w v u~

m .m Reactor and. suppression pool watorLlevols wero'rocorded at hourly--intervals:during the. course ofLthe; test and'aumpsLwere pumped'down.following: completion of depressurization to s ?"~'i provide the-data needed for calculated _ leakage rate ~ f(_ ji

adjustments. Water volume loss in the. reactor and torus was.in excess of the water volume l increase in theldrywelll sumps._Thus any correction for change in.waterLlevels.had.a non-1 L

conservative-effect on the final leakage results and nos adjustment to calculated leakage rate was made. The HNP-Technical Specifications specify.a maximum allowable leakage rate of 1.200 weight percent / day. To allow a margin for deterioration of the leakage boundary:the as-left-leakage l rate must be less than 75% of the maximum allowable' rate; The 95 percent UCL leakage rate, penalty addition, final as-left leakage rate and acceptance limit are listed below: ? 95% UCL Leakage Rate 0.8839 weight percent / day Penalty Addition 0.0019 weight percent / day. Final As-Left Leakage Rate 0.8858 weight percent / day Acceptance Limit (0.75 La) 0.9000 weight percent / day. Table 4 lists air mass and leakage rates.(measured, calculated, and UCL). The _ extrapolated rate 'is determined by. extrapolating the final 21 calculated leakage rates out to'24-hours. These final 21 points show a: falling trend. The 7 -q extrapolated rate is less than 0.8609 weight: percent / day'which 7 3 ) is less than 0.9000 weight percent / day. The.mean of the '-( measured rates is 0.8858 weight percent / day which is'less than-1.2000 weight percent / day. Figures 2 through 6 present a graphic demonstration-of the. data collected during the Type A test. The air: mass plot (Figure 2) shows lines;whose slopes. represent 11eakage rates, A; r least' squares fit line is plotted :through theiactual test' data which must-lie above-a line-representing--the acceptance 111mit. As seen in the graph the actual' leakage rate'wasiless than the allowable rate. The temperature. plot-(Figure-3) shows'the weighted average dry-bulb temperature of the containment ~ air mass. The total temperature change was 0.3681 degrees-F over the 8 hour ~ test. period. The pressure: plot (Figure 4) shows_the containment total-pressure'and a total 1 change of 0.1571_ psi. The vapor pressure _ plot-(Figure 5) shows a total change in; _ vapor pressure of essentially.0.0 psi.-Figure:6Lshows a plot-of total time-leakage-rate data from Table 4. The leakage rate-- UCL must be belowla line representing.the acceptance limit.-As seen from the graph the UCL.is below the allowable limit. 5.2 Verification Results The verification test-introduced an additional leak ofE11.0' SCFM (1.2027-weight percent / day). Verification test results are listed in Table 5 and graphed in Figures.7 and 8. The - page 9 of 11

g-y-s =results of-:the' verification-'are acceptable-ifitheLleakage rate: 7.s F calculated af ter.- imposition.of: the ' additionali leak f alls-within.the711mitsiof Laml- + Lo +/- 0. 2 5; La, where : Lam-is:.- the'.- - O( 'previously calculated: leakage rate, Lo Lis tlua imposed leakage,- and Lasissthe: maximum--allowable: leakage rate.LTheLfinal! results-and-acceptance' limits are. listed %elow: ~ Upper Limit Rate

2. 3 636 : weight: percent / day Total-Time Calculated Rato 2.1120fweight percent /dayt Lower' Limit Rate' 1.7636 weight percent / day 5.3 Mass' Point Results Masc. point results are included for informationLpurposes/in -

Tables 6 and 7. The mass point calculated rate.is.the: slope ofL F the line' fitted to'the air mass / time data by the_ method of-least squares. The calculated mass point leakage rate is 0.8616 weight percent / day. The. mass point UCL is 0.8688. weight. percent / day. Details on the mass point' method are found in' Reference-5. i L a P ll l L. -page 10 of 11 ~ i 5 -,3 ,e n..

~ b.. ~ g;p v - V6.'O LREFERENCES - -1. .Codelof! Federal'Regulytions,, Title 10;_Part'50,-Appendix J, g) Reactor Containment Leakage Testingfor WateriCooled' Power _ " M;; P -Reactors. 2. E.I. Hatch Nucle'ar Plant, Unit-2, Technical;: Specifications': 3 / 4 ~. 6.1 3. Hatch Nuclear-Plant, Surveillance Procedure 42SV-TET-003-2S-- Revision 2,. Containment Integrated Leak-Rate Test: 4. Hatch Nuclear Plant, Unit-2, Final Safety. Analysis-Report.1 ( Section~._3. 8. 2 )

5. ANSI /ANS 56.8-1987, Containment System Leakage Testing-'

Requirements.. 4

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

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1 TABLE 1 -DRY-BULB AND DEW POINT TE!!PERATURE SENSOR LOCATIONS DRY-BULB SENSORS-Sensor Elevation Azimuth Distance From-Volume $mber (feet) (degreesl Ctr of Ctmt (ft) Fractions 1 118.5 180 18 0.059 2 125 0 16 0.044 3 130 90 23 0.049 4 136 250 26 0.052 5 141 17 18 0.076 6 148.5 32G 21 0.075 7 159 135 70 0.076 8 176.5 303 16 0.042 9 194.5 45 14 0.052 10 210 230 13 0.029 11 103.5 2 64 0.112 12 106.S 92 64 0.111 13 110 180 64 0.112 14 112.5 268 64 0.111 1.000 DEW POINT SENSORS-1 121 160 18 0.103 2 132.5 90 23 0.101 3 14.5 17 22 0.151 4 169 300 16 0.118 ~ 5 201.5 227 13 -0.081 6 108 140 64 0.223 7 108 320 64 0.223 1.000 O

p-m-. TABLE 2. TEMPERATURE STABILIZATION REPORT -)._ ,7 - ( ) ;. ~ 5 tart Time ** 915 1106-

~= stabilization critarion satisfied ANSI -

--- BN-TOPa*1 --- data elapsed temperature dT1 dT4 dT1-dT4-dT-or d(dT) > set time, hr T, deg F avg dT avg dT avg avg = .(1 hr) (4 hr) (2.hr) (2 hr). 1 0.00 87.155 2 0.25 86.721 3 0.50 86.495 4 0.75 86.367 5 1.00 86.278 -0.877 6 1.25 86.212 -0.509 7 1.50 86.157 -0.338 8 1.75 86.121 -0.245 9 2.00 86.085 -0.193 --0.535* 0.795-10 2.25 86.057 -0.155 -0.332* 0.396* 11 2.50 86.025 -0.132 40.235* 0.193* 12 2.75 86.006 -0.115 -0.180*

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13 3.00 85.985

-0.100 -0.146* 0.090* 14 3.25 85.973 -0.0C4 -0.120* 0.086* 15 3.50 85.963 -0.063 -0.097*- 0.051* 16. 3.75 85.955 .~0.051 -0.-0E3* 0.056* 4.00 85.947 -0.038 -0.302 0.264* -0.069* 0.039*. . O. 17 r 18 4.25 85.937 -0.035 -0.196 0.160* -0.060* 0.046*. sl19 4.50 85.934 -0.029 -0.140 0.111* -0.046*' 'O.031* f Y O

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LTABLE 3L

(STABILIZATIO!1) m DATA.

SUMMARY

REPORT-data time' Aate. temperature pressure-ivapor -dry air:- set: ~ deg F. psia ~ pressure-l -mass-psia lbm 1 915. 1106 87.1551-72.3287 0.4943. 98360.'06 2 930 1106 86.7213 72.2678 0.4924 98357.21. 3 945 1106 86.4953 72.2362 0.4923 98354.76 4-2000 1106 86.3666 --72.2141 0.-4926 98347.30 5 1015 1106 86.2781 72,19hb 0.4926 -98337.65 6 1030 1106 86.2121 72.1793 0.4929 98326.92-7 1045 1106 86.1570 72.1655 0,4931 98317.58 8- ~1100 1106 86.1215 72.--1527 0.4932-98306.37 9 1115 1106 86.0853 72.1403 0.4932 98295.85 10 1130 1106 86.0574 72.1285 0.4930 98284.98 11' 1145 1106 86.0254 72.1169 'O 4930 98274.77 12-1200 -1106 86.0062 -72.1058 0.4930 -98263.04 13 1215 1106 85.9851 72.0955 ' 0 ~ 4 9 2 9_ 98252.86-44

230 1106 85.9729 72.0856 LO.4928

.98241.58-15 1245 1106 85.9629 72.0760 0.4926 98230.4'2 16 1300 1106 85.9549 72.0818 -0.4927 98239.70-17 1315 1106 85.9467 72.0773 0.4927 ~98235.05

18. 1330 1106 85.9375 72.0687 0.4927-98224.88 19 1345 1106 85.9337 72.0611 0;4927 98215.08; l

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s,- p c TABLE 3 }(TYPEAITEST)- I -DATAr

SUMMARY

cREPORT' data time date temperature

pressure, vapor-

- dryzairJ set deg: F7 psia Jpressure- -mass-psia

1bm1 1-1345 1106.

85.9337 72.0611 0.4927-

98215.08 2-1400- 1106 85.9363 72.0540.

0.4926 98205.03: 3 1415 1106 85.9338 72.0470 0.4926- -98195.97: 4 1430 1106 85.9320 -72.0403. 0.4925-98187.17' 5 1445-1106 85.9412 '72.0340 0.4923 98177.09 6 1500 1106 85.9414 72.0279 -0.4924 98168.60 7 1515 -1106 85.9513 72.0220 0.4926 98158.50-8 1530 1106 85.9555 72.0161 0.4926-98149.64-9 1545 1106 85.9673 7 2. 010 4 -~ 0.4928 98139.45 10 1600 1106 85.9783 72.00491 0.4926 98130.08-11 1615 1106 85.9863- -71.9996 0.4926 98121.39--- 12 -1630 1106 85.9967 71.9942 0.4928 98111.87 13 1645 1106 85.9995 71.9891 0.4928 98104.39r 14 1700 1106 86.0163 71.9841 0.4929 98094;38 15 1715 1106 86.0303 71.9796 0.4929 98085.69-16 1730 1106 86.0376 71.9745 0.4928: 198077.55 1 17 1745 1106 86.0626 71.9699-O'.4928- -98066.65-1800 1106 ~86.0732 71.9655-0.4929 98058;64 19 -1815-1106 86.0912 71.9608 0'.-4928: 98049.-121 ~20-1830' 1106 86.0995 71.9565 0.4927 -98041.. )- 21 1845 1106 86.1172 71.9524 .0.4928 -98032.85: 22 1900 1106 86.1339 71.9479 -0.4927 98023.80-23 1915-1106 86.1525 71.9437 0.4926 198014.83 24-1930 1106 86.1655 71.9397 0.4928 '98006.73? 25 1945 1106 86.1841-. -71.9356 0.4931-97997.371 26 2000 1106

86.1948

-71.9314' O.4928 -97990.11L 27 2015 -1106 86.2094 71.9273 0.4926 97982.12-28 2030 1106: '86.2246 -71.9233 0.4928' 97973.65 d .29 2045-1106 86.2418-71'.9193 -0.4927 197965.20- '30 2100 -1106-86.2570 71.9154 'O.4925L 97957.49 2115 1106 -86.2674 -71.9115 'O.4924, 97950.32 -32 2130 1106 86.2827 71.9079; 0.4926 97942.39-33 12145 -1106 86.3018

71.9040-0.4927 97933.47 i

-p 1. c 4 e TABLE 1H (VERIFICATION)^ . 7g

DATA'

SUMMARY

-REPORT- ~ dataL--time'-ldate temperature _, pressure vapor = dryfair ~ ' set-- 'deg F psia-pressure- - mass J psia: - lbm~ 5 -230'0' 1106-86.3601-71.8678 'O.4931 L97872.91 6 2315 1106 ' 86.3802 71.8537-0.4930 E97850.05~ 7' 2330 1106' 86.3854: 71.8395' O.493'2 97829.39 -2345-1106 86.3999 .71.8257-10.4932-97807.85; 8 9' O 1107 86.4171 71.8116-0.4933-97785.'30' 10 ' 15 - 1107 86.4318 71.7979 0.4934 97763.81 11 30- 1107: 86.4456 71.7840 0.4936 97741.88 12' 45 1107 86.4608 71.7702 0.4938-97720.06 113 100 1107 86.4752 71.7565 'O.4938- '97698.71 14 115 1107; - 86.4924 71.7427-0.4940- .97676.37-15-130 1107 86.5004-71.7290 0.4941 97656.09 -16 145 1107 86.5122 71.7154 0.4943- '97635.01-17 200- 1107 86.5308 71.7016_ 0.4943 - 97612.82-18 215 1107 86.5461-71.6880 0.4945 '97591.13-19 230 1107 86.5612 71.6745 0.49471 97569.641 20-245 - 1107 - 86.5761= 71.6608 0.4947-97548.27 21-300 1107 . 86.5884' 71.6469 - 0.4948._ _97526.89~ O 7

5. f 1

J a --d, .-,r,. ,*,cr -rw-r-w m.9-- (t -sY y

+ .~. m 1 i t TABLE l4 %( TOTAL: TIME LEAKAGE-RATEiREPORT-data time-date: _ elapsed' dry a'ir measured leakage _ scl - s e t._ time mass! rate ratez , rate (hrs) (1bm) (%/ day) (%/ day) -(%/ day). 1 1345 1106 0.00-98215.08

0.0000 0.0000 0'.0000L 2

1400 1106 0.25 98205.03 C.9627-- 0.9827 0.98271 H 3 1415 1106 0.50 98195.97 0.9342 0.9342 -0.9342 4 1430 1106 0.75 98187.17- -0.9094 0.9054 0.9994 - i I 5 1445 1106 1.00 98177.09 0.9283-0.9104 1.0311 6 1500 1106 1.25 98168.60 0.9087 0.9019 0.9817:_ 7-1515 1106 1.50 98158.50 0.9217' O.9050. 'O.9777-- 8 1530 1106 1.75 98149.64 0.9138 0.9035 0.9661' .9 1545 1106 2.00 98139.45 0.9240 0.9072-0.9669 10 1600 1106 2.25 98130.08 0.9232 0.9096-0.9653. 11 1615 1106 2.50 98121.39 0.9158 0.9088 0.95981 12 1630 1106 2.75 98111.87 0.9171 0.9088_ 0.9563-13 1645 1106 3.00 98104.39 0.9016 0.9044 0.9484 14 1700 1106 3.25 98094.38 0.9075 0.9027--. 'O.9441-15 1715 1106 3.50 98085.69 0.9034 0.9005 0.9395-16 1730 1106 3.75 98077.55 0.8962 'O.8971 'O.9340. 17 1745 -1106 4.00 98066.65 0.9068 0.8968 0.9327 18 1G00 1106 4.25 98058.64 0.8995: 0.8952_- 0.9296 19 1815 1106 4.50 98049.12 0.9012 0.8942-0.9275-- 20 1830 1106 4.75 98041.76 0.8916= 0.8916 0.9236 O 21 1845-1106 5.00 98032.85 0.8906 0.8893: .0.9202 'i 22 1900 1106 5.25 98023.80 0.8903 0.8873 0.'9173 23 1915 1106 5.50 98014.83 0.8897 0.8856 0.9147l 24 1930 -1106 5.75 -98006.73 0.8834 0.8835

0.9117 25 1945 1106 6.00 97997.37 0.8867 0.8819 0.9095 26 2000 1106 6.25 97990.11-0.8796 0.8796-049063.

27 2015 1106 6.50 97982.12 0.8758-- -0.8770 0.9030: 1 28' 2030.1106-6.75 97973.65' O.8740-0.8745- 'O 8999' - 2045 -1106-7.00 97965.20 0.8723 -0.8721 0.89701 -_3 0 2100 1106 7.25 97957.49 0.8682 0.8695 0.8938 31 2115 1106 7.50 97950.32 0.8626 'O.8665 -0.8904 32-2130 1106 7.75 97942.39- -0.8598. 0.8635 0.8870 33 2145 1106 8.00 -97933.47 0.8602-0.8609 0.8839 Allowable leakage rate, La = -1.2000_%/ day 10.9000 %/ day' 75% La- = Total time leakage rate 0.8609L%/ day: = Total time UCL 0.8859 %/ days = 4 'l O v i

3.. TABLE 5 , TOTAL. TIME' LEAKAGE RATE REPORT- ~ VERIFICATION. I b- ' data time "date elapsed. -dry. air measured . leakage set time ~ mass -rate rata = (hrs) 1(1bm) (%/ day) f(%/ day) 5 2300 1106 0.00 97872.91 ~ 0.0000:- 0.0000 6 2315-1106 0.25 97850.05 2.2425 2.2425 7 2330 1106 0-50 97829.39 -2.1345 2.1345 8 2345 1106. H0.75 97807.85 2.1274 2.1106 9 -0 1107 1.00 ~ 97785.30 '2.1484-2.1198 10 -15 1107 1.25 97763.81-2.1402. 2..'1205 i 11 30 1107 1.50 97741.88-2.1421-2.1227 12 45 1107 1.75 97720.06- .2.1417-2.124b. 13 100 1307' 2.00 97698.71- -2.1358 - 2.1235 14 115 1107 2.25 97676.37 2.1420 12.1255' 15 130 1107 2.50 97656.09 2.1267-2.1218-16 145 1107-2.75-97635.01 2.1213-2.1177 l 17 200 1107. 3.00-97612.82 2.1259 2.1162 18 215 1107' 3.25 97591.13 2.1261 2.1152 -19 230 1107 3.50 97569.64 2.1247 = 2.114 3 ! 20 245 1107 3.75 -97548.27-2.1229 12.1132-21 300 1107 ~4. 00. 97526.89 2.12121 2.1120 Upper limit'on leakage rate:= -2.3636"%/dny O 2 11201%/ day-Total time' leakage rate = Lower limit on leakage rate =- 1.7636 %/ day i-i l t n D. ' (_) L l. jl l

r. ~.. 4 l TABLE 6T MASS POINT LEAKAGE-RATE REPORT' data itime dato.olapsed dry air -leakage ucl-o set time' mass -rate-rato I 1bm)' (%/ day). - ( % /. day) (hrs) ( 1 1 1345 1106 0.00-98215.08 0.0000 0.0000' 2 1400 1106-0.25 98205.03 0.9827' O.9827 j 3 1415 1106 0.50 98195.97 -0.9342. 1.1739-4 1430- 1106 0.75 98187.17-0.9070 0.9661 5 1445 1106 1.00 98177.09 0.9172 0.9477 6 1500- 1106 1.25 98168.60 0.9077 0.9292 7 1515 1106 1.50 98158.50 0.9128 0.9283 8 -1530 1106 1.75 98149.64 0.9110-0.9224-9 1545 1106 2.00 98139.45 0.9159 0.9259 t 10 1600 1106 2.25 98130.08-0.9183 0.9267L 11 1615 1106 2.50 98121.39 0.9166 0.9235 12 1630 1106 2.75 98111.87' O.9160 0.9218 13 1645 .1106-3.00 98104.39 0.9097 0.9178 14 1700 1106 3.25 98094.38 0.9076 0.9149-15 1715 1106 3.50 98085.69-0.9048-0.9117 16 1730 1106 3.75 98077.55 0.9005 0.9079 17 1745 1106 4.00-98066.65 0.900J O'.9073 18 1800 2106 4.25 98058.64- -0.8990- 9050 19-1815 1106 4.50 98049.12= 0.8981 0.9036 20 '1830 1106 4.75 98041.76 0.8950 0.9008 O-21 1845 1106 5.00 98032.85 0.8923-0.8982-22 1900 1106 5.25 98023.80 0.8903 0.8960 23 1915 1106 5.50 98014.83 0.8885 0.8940~ 24 1930 1106 5.75 98006.73 0.8862 0.8917-25-1945 1106-6.00 97997.37 0.8847. 0.8900-26 2000 1106 6.25 97990.11 0.8820 0.8875 27-2015 1106 '6.50 97982.12 0.8791 0.8850 28-2030 1106 6.75 97973.65 0.8763: 0.8824 29 2045 1106 7.00 97965.20 0.8738 0.8800 30 2100 1106 7.25 97957.49 0.8709-0.8774 31 - 2115 1106-7.50 97950.32 0.8676- -0.8744 32 2130 1106 7.75 97942.39' O.8643-0.8715 33 2145 1106 8.00 97933.47 'O.8616 0.8688 Allowable leakage rate, La = 1.2000(%/ day 1 0.9000E%/dayL 75% La- = Mass point leakage rate. 0.8616 %/ day = 0.8688-%/ day; Mass point UCL = L a

g

n x,; , p. --m, .. j [ ;;,y M i ^ ~ aa b eTABLE.7; - ^ "i -MASS POINT LEAKAGE l RATE REPORTJ; i ser II J(::% >;? 1 VERIFICATION / data time -date ~ ' elapsed- ' dry air; ileakage set-ttime ' mass -rate- ~(hrs) ~ (lbm) .(%/ day) -5 2300 1106 0.00 97872.911 00001 6' 2315 1106 0.25

97850.05-2.2425-

-72330 1106-0.50 .97829.39<- 2.1345: 8 2345 1106 0.75~ '97807.85-7:.1173~ lr 9 0.1107 1.00 97785.30-2.1327: 10 .15 1107 1.25. 97763.81 2.1335. 11 30 1107 1.50. 97741.88- --2.1357-12 45 1107 1.75 97720.061 2.13701 13 100 '1107 2.00 97698.71' 2.1347-14 115-1107 2.25 97676.37; 2.1367 15 130 1107 2.50 197656.09 2.1310 1 16 145. 1107- '2.75 97635.01 ~2.1253- '17 200- 1107

3.'00

-97612.82 2.1236-- 18~ 215' 1107-3.25 97591.13 2.1226 19 230 1107 3.50 97569.64 2.1216 20 '245-1107. 3.75 97548.27 2.1203 21 300=.1107 4.00 97526.89 2.1190- ~ _7 Upper limit <ni leakage rate ( ~2.3643'%/ day d l/~h_ Mass-point leakage rate '2.1190 %/dayf = d%/ Lower limit on-Eleakage rate _=- 1.7643f / day __ h I = W o

- u. 6 ~ ~ g ,.1 O O O. y 1 HATCH UNIT 21992 ILRT TEMPERATURE.DURING STABILIZATION 87.2 ~ .W E ~ D . r u. 4 T cn Wq. a_ - I W H 85.9 ' s n i - e i e i e n i n . 9: 15 ' am 1:-45 11/06/92: TIME' 11/06/om: 92 (HOURS) FIGURE i. g p-( im=<>- 4 g g yr., ( 'ey 7 9 y 4 e 'pr#'-g

p p'

g 3py'[ y s+- y,.h -y 'g-- y g v-g

y 2 m9 p/ 6 5 . dI 0 4/ N

1 9 1 w

r ~,' T -5 I s M I. T ~ 1 T E' R O C L N P A m L \\ T S P I T S E. ' A A S R N .s A 2 E TA s m IT T a FA A L' 9

s C

S 5 9 A E4 i 7 AJL o 2 1E UC . E )R GR u S E P SH M R T 2Y SE s T U U I O G T A t c T (H

q. _

EI LL ~ T- ) ~ 'n INS T S UA M H R CI A T A H 2 m9 t p/ 6 50 4/ I - 0 .l{

1 011 5

0 2 9 8 7 9 n-9 J. ~, L D$X cs< C

.l ii1; l il !l ~ 2 m9 g p/ a 6 ~ 50 ~ 4/

1 r 91 m

i i e T s TS i E RT I IA 2E i P 9 Y 9T e 1 3. E )R S E M R U U 2E I O n G .R T (H I g TU F. i ITNA R UE i P H M e E CT T i N AA HE M s 2 ' s m9 p/ 6 50 4/

1 4

911 68 5 ~u.n = 3 - 8 e . g WC3.I4aWa_1Wl. l 4

cy O

O O HATCH UNIT 21992 ILRT TOTAL PRESSURE - TYPE A TEST 72.1 i ui T D 'Ei in - ~ in m IJLI S - 4 - E~ O_ - s '71.9 i i 'n' i-i i i i i i i i-n 1: 45 pmL 9-45 pm 111/06/92-TIME 11/06/92-- FIGURE 4 ~-..

~ O O O I 1" HATCH. UNIT 21992 ILRT VAPORLPRESSURE 'iYPE A TEST O.494 1 I' ) 1 i l g.- E- ~ Dcn f @g ~ y. .c ~ em. i-, 2 c- -Q a ~' 1 0.491 1: 45-9: 45 pa - 11/06/pm; 92- ' TIME 11/06/92 i L (HOURS)! l' ~ -j FIGUE 5 ,, s. .--.~.,_w,,_....,,.-

i it!l I 2 O m9 p/ 5 5 0 XE 4/

2 9

1 i T M -.-x.' E S u e a. A h. ~ E ~ L E N i IT L T AT i O R T L E ~. I T -~. A 2R 9 i E 9 GT 1 AS 6 E )S E K E MR R U U 2AT I O G R A T (H I O T F T I E E P NMIY L n. , 0 CU 0 f U TT E ~ i. M ~ I 0 T ~ L = L HA T A T I i T M O I T CO L r. E TT C r N A A T P E H C C i A a \\- L \\s\\ 5 7 i lr/ 0 !lll 2 m9 r p/ 6 50 4/ ~ L

1 0

011 1 8 p<Qa ~ #E 0 1 O UF<C WEmb ' job ~ l\\i! Ijll\\lll\\l{l\\lf lill

g m, +

p ni

'+ .s h$ EN m cn i ,I~~ Ooc Ih,n l N e i i< j t l I f / I t; I l 5 l l ~ / l q H / Al/ $g "x / 1 l ~ Nh / i Cn 4 i f Ch M Bl / h / 3 Hb / lNx 8 uJ m t g / y tr Nf ,I' US D ~ / BW / l HE G Hl $3 / l l' i H i fm Cf) l l l D %' ~ J t l W << t i ~ C) ! l lll I H ~ 4X il 1I ll' ~ ll / Em / CLcn ~ O& Co n t y i U n i n L S O cn y N N CD CD (U9I) .O SSVH BIV

-r-8 '[k O( ,j ON-oo ~- ..N' tr) w t wi 1 ) ^ d I D l x b N j l ~ az i. E-Ho N-Qp d _m a 1 u @-( l b' i s - m, e I .3 g uJ co - w. N .E@' tr - H o~ D. m H .g' a i H $ t >,-.. k I . u. 'li l '- 'i .H o.h t M ;g g i q $- l;!i E-*4- .i. 1l l M o 1 a (m.- - c. Es gj '~ .j -N 1 Oot l O o, il _ i: l. i- .;h l g" -4 . g3 i M, L ~ (AV0/%'7M) 1 ) i.(]l 31VU 3HIl GV101 j n 8 t ?? l t 1

APPENDIX I ILRT COMPUTER PROGRAM DESCRIPTION The ILRT computer program used in this test was a program purchased by Southern Company Services (SCS) from BCP Technical Services. The program is a modified version of the BCP standard ILRT program prepared for specific use at HNP. Complete verification of the HNP version has been performed and documented. The program source code was included in the purchase of the software should there be the need to review the routines used to calculate the various ILRT parameters. The BCP ILRT program is written in Microsoft QuickBASIC, Version 4.5, for IBM Personal Computers and Compatibles. Upon starting the program the user is prompted for the l following predata: Number of temperature sensors Number of dew point sensors i Number of pressure sensors Containment free air volume Allowable leakage rate, La Sensor volume fractions gg Once the test is started the following data is received from () the data acquisition system during the test: Time and date Containment-atmosphere dry-bulb temperatures j Containment atmosphere pressure Containment atmosphere dew point temperatures Program options provide c: 1.culation of the following reports: DATA

SUMMARY

REPORT. Displays data set number, time, date, temperature, pressure, vapor pressure _and dry air mass'forfall data sets. DATA SET REPORT.JDisplays data set number, time,.date, sensor ~ data (raw data and calibrated values),-weighted average. . temperature, pressure and vapor. pressure, and volume and dry air-mass. MASS. POINT LEAKAGE RATE REPORT. (ANS'/ANS 56.8 - 1987). Displays data set number, time, date, elapsed. time, dry air' mass, mass point leakage rate and UCL for all data sets. TOTAL TIME LEAKAGE RATE REPORT._(BN-TOP-1,:rev.1 ).: Displays 1 - data set number, time, date,-elapsed time, _ dry air mass, total = time measured leakage rate, leakage rate (calculated) and UCL for all-data ~ sets. TREND REPORT. Displays data set ~ number, time, date, elapsed time, total time measured leakage' rate, leakage-rate (calculated) and UCL,_and mass-point leakage rate'and UCL for- = all data sets. -[]' - DATA; REJECTION REPORT. (ANSI /ANS. 56.8 - 1987). Displays' data-A i set _ number,; time,. air mass, linear least square fit _(air ~ mass),_ residual from'least square fit, standard error of: residual and standardized residual for all data 1 sets.- -TEMPERATURE STABILlZATION REPORT. (ANSI /ANS 56.81-1987 and BN. y y y .--4 .e..

TOP-1,'rcv. 1). Dicplayo otort timo and dato, dcta act itumb r, olcp cd_timo, temptraturo, I hour and'4' hour averago rctoo.of temperature change and difference (ANSI critoria), and 2 hour average rate of temperature chango and.2 hour _avorago change (Y in rato of temperaturo chango, i.e., second derivativoj (BN- _q s,l-TOP-1 critoria) for-all data sota. The following plots.aro availablo: AIR MASS. Plots the air mass, regression lino and 75% La lino. LEAK RATES. Plots the mans point and total tino leakage rato, t UCLs and 75% La lino. TEMPERATURE. Plots the weighted average temperaturo, temperature for-one'sonsor, or temperature for all consors. PRESSURE. Plots the weighted averago pressure, prossuro ler one consor, or pressure for all sensoro. DEW POINT / VAPOR PRESSURE. Plots the weighted averago vapor pressure, dew point temperature for one sensor, or dow point temperaturo for all sonsors. In addition the program allows for manual _ data entry, data correction, data sot insortion, and deletion of a data set from calculations. O e O.. C 6 y w m g w .n' g.- ~

I -i APPENDIX II f O TYPE B AND'C LOCAL _ LEAKAGE RATE TEST RESULTS l Results for Type B and C local leakage rate tosts porformod' betwoon tho completion of the 1989 ILRT and the start of the_ 1992 ILRT are presentud heroin. Tables includo data.for all tests except those which are performed betwoon tho initial (as-found) test at the start of the outtgo and tho. final (as-left). rotest at the end of the outago..other testa performed.during-the outage are considered to bo diagnostic. Tables are arranged as follows: -s o 1992-Type D tost results including-minimum pathway improvements o 1992 Type C tests including minimum pathway loakage improvements (Type C, Type B and total) o 1991 Type B test results [q I o 1991 Type C test results o Personnel air lock test results () o Results of testa performed betwoon outages r i f t 6 O x a:. =...:... ,.z... .=.a...c...

.-. = ;,,. -,

w.- a,

.a,.

TYPE B TEST _RESULTS 1992-REFUELING' ( INITIAL TEST -RETEST ]

IMPROVE-PENETRATION IDENTIFIERS DATE/ LEAKAGE DATE/ LEAKAGE MENTS ACCM ACCM ACCM 1A EQUIPMENT HATCH A 9-18-92 0 11-14-92 0

IB EQUIPMENT HATCH B 9-18-92 0 11-9-92 20 2 AIRLOCK INNER SEAL 9-16-92 0 11-18-92 0 .i 2 AIRLOCK OUTER SEAL 9-16-92 0 11-18-92 0 2 AIRLOCK INNERSPACE 10-31-92 1175 11-13-92.2000 5 4 HEAD ACCESS HATCH 9-16-92. 0 11-4-92 0 5A INNER BELLO'.iS 9-28-92 0 5A OUTER BELLOWS 9-28-92 0 SB INNER BELLOW 3 9-28-92 0 5B OUTER BELLOWS 9-28-92 0 5C INNER BELLOWS 9-28-92 0 SC OUTER BELLOWS 9-28-92 0 r 5D INNER BELLOWS 9-28-92 0 50 OUTER BELLOWS 9-28-92 0 i SE INNER BELLOWS 9-28-92 0 SE OUTER BELLOWS 9-28-92 0 [ 5F INNER BELLOWS 9-28-92 0 SF OUTER BELLOWS 9-28-92 0 1 5G INNER BELLOWS-9-28-92 0 .5G OUTER BELLOWS-- 9-28-92 0 G\\ SH INNERLBELLOWS 9-28-92 0 SH OUTER BELLOW 3 9-28-92 0_ 6 CRD HATCH 9-19-92 0 11-12-92 0 q 7A INNER BELLOWS 9-30-92. 20' 7A OUTER BELLOWS 9-30 0 ~ 7B INNER BELLOWS 9-30-92 0. 7B-OUTER BELLOWS 9-30-92 0-7C INNER BELLOWS 9-23-92 0 7C= OUTER BELLOWS 9-23*'92 0 7D INNER BELLOWS 9-23-92 0 7D OUTER BELLOWS 9-23-92 0= 8 BELLOWS-10-15-92 3020- -9A INNER BELLOWS 9-29 0 9A~ OUTER BELLOWS 9-29-92 10 9B INNER BELLOWS 9-23-92 0 I 9B OUTER-BELLOWS 9-23-92 100 3 10' INNER BELLOWS 9-30-92 50 10 OUTER 1 BELLOWS 9-30-92 250 11 INNER-BELLOWS-9-23-92 -0 .11 OUTER BELLOWS 9-23-921 975 12; INNER BELLOWS 10-14 0 12LOUTER BELLOWS 10-14-92 -140-13A INNER BELLOWS-9-29-92 0 -13A OUTER' BELLOWS 9-29-92 13B INNER. BELLOWS f~s 9-30-92 - 130 1 O r

13B OUTER BELLOWS 9a30-92 0 14 INNER BELLOWS 11-1-92 0 .3 14 OUTER BELLOWS 11-1-92 0 lM~N 16A INNER-BELLOWS 10-11-92 0 ((,) 16A-OUTER BELLOWS 10-11-92 0 16B INNER BELLOWS 10-11-92 0 16B OUTER ~ BELLOWS 10-11-92 0 =17 INNER BELLOWS

10-11-92 1400 10-14-92 0

~7 OUTER. BELLOWS 10-11-92 0 10-14-92 0 25 2T48-F103'A TEST 9-26-92 0 11-2-92 20 25 2T48-F103 B TEST 9-26-92 0~11-2-92 0 j 25 2T48-F103 C TEST 9-26-92 0 11-2-92 0 l 25 2T48-F103 D TEST 9-26-92 0 11-2-9? O 25 2T48-F307 A TEST 9-29-92 0 11-2-92 0.. 25 2T48-F307 B TEST 9-29-92 0 11-2-92= 0 25 2T48-F307 C TEST 9-29-92 0 11-2 0 25 2T48-F307 D TEST 9-29-92 .0 31-2-92 0 25 2T48-F308 A' TEST 9-29-92 0:11-2-92 0 25 2T48-F308 B TEST 9-29-92 0'11-2-92 CF 25 2T48-F308 C TEST 9-29-92 0 11-2-92 0 25 2T48-F308 D TEST 9-29-92 0 11-2-92 0 26 2T48-F319 A TEST 9-25 0 11-2-92 .503 26 2T48-F319 B TEST 9-25-92 0 11-2-92 10 26 2T48-F319 C TEST 9-25-92 0 11-2-92 -0 26 2T48-F319 D TEST 9-25-92 0.11-2 0 26 2T48-F320 A TEST 9-25-92 0 11-2-92 .0 26 2T48-F320 B TEST .9-25-92 0 11-2-92 'O, 26 2T48-F320 C TEST 9-25-92 0 11-2 O' l 26 2T48-F320 D TEST-9-25-92 0 12-2-92 O' l 35A O-RINGS 10-5-92 -0 35B O-RINGS 10-5-92 0-35C-O-RINGS 10-5-92. 0 35D O-RINGS 10-5 0 35E'O-RINGS 10-5-92 0 42 INNER BELLOWS 9-28-92 1259< 42 OUTER BELLOWS 9-28-92 0-

j 43 0-RINGS 9-16-92, O!

82 DRYWELL HEAD 9-16-92: 10H11-4-92 O ~5 83A'O-RINGS '10-12-92 0 838 O-RINGS 10-12-92 10 83C'O-RINGS 10-12 0 83D 0-RINGS '10-12-92 0 .83E 0-RINGS' 10-12 0 83F.0-RINGS '10-12-92 0.

83G O-RINGS 10-12-92 0

- 8 3 H -:0-RINGS 10-12-9 '10~ 100A ELECTRICAL 9-15-92' 0 '1008-ELECTRICAL 9-15-92 .0 100D ELECTRICAL-9-14-92 15 100E L ELECTRICAL-. 9-14-92 0 i '101A' ELECTRICAL 9-15 0-101BLELECTRICALr 9-15 0 J 101C.' ELECTRICAL - 9-15-92 0 ~ 1101D; ELECTRICAL 9-14 0 L ..;._...a,... - m

101E ELECTRICAL 9-14-92 0 101F ELECTRICAL 9-14-92 0 102A ELECTRICAL 9-15-92 0 /~'. 103A ELECTRICAL 9-14-92 0 (_) 104A ELECTRICAL 9-14-92 0 104B ELECTRICAL 9-15-92 0 104C ELECTRICAL 9-15-92 0 104F ELECTRICAL 9-15-92 0 104G ELECTRICAL 9-15-92 0 104H ELECTRICAL 9-15-92 0 105A ELECTRICAL 9-14-92 0 105C ELECTRICAL 9-14-92 0 106A ELECTRICAL 9-14-92 0 200A TORUS HATCH A 9-16-92 0 10-30-92 0 200B TORUS HATCH B 9-16-92 0 11-15-92 0 202 ELECTRICAL 9-16-92 0 205 2T48-F309 A TEST 9-24-92 0 11-2-92 0 205 2T48-F309 B TEST 9-24-92 0 11-2-92 0 205 2T48-F309 C TEST 9-24-92 0 11-2-92 0 205 2T48-F309 D TEST 9-24-92 0 11-2-92 0-205 2T48-F310 A TEST 9-26-92 0 11-2-92 0 205 2T48-F310 B TEST 9-26-92 4s 11-2-92 50 205 2T48-F310 C TEST 9-26-92 0 11-2-92 0 205 2T48-F310 D TEST 9-26-92 0 11-2-92 0 205 2T48-F311 A TEST 9-26-92 0 11-12-92 0 205 2T48-F311 B TEST 9-26-92 0 11-12-92 20 205 2T48-F311 C TEST 9-26-92 0 11-12-92 0 205 2T40-F311 D TEST 9-26-92 0 11-12-92 0 r~s 205 2T43-F324 A TEST 9-24-92 0 11-2-92 0 (')' 205 2T48-F324 B TEST 9-24-92 0 11-2-92 0 205 2T48-F324 C TEST 9-24-92 0 11-2-92 0 205 2T40=F324 D TEST 9-24-92 0 11-2-92 0 218B O-RINGS 9-17-92 0 220 2T48-F318 A TEST 9-2B-92 0 11-2-92 0 220 2T48-F318 B TEST 9-25-92 35 11-2-92 81 220 2T48-F318 C TEST 9-25-92 0 11-2-92 0 220 2T48-F318 D TEST 9-25-92 0 11-2-92 0 220 2T48-F326 A-TEST 9-25-92 0 11-2-92 0 220 2T48-F326 B TEST 9-25-92 0 11-2-92 0 220 2T48-F326 C TEST 9-25-92 0 11-2-92 0 220 2T48-F326 D TEST 9-25-92 0 11-2-92 0 222A O-RINGS 10-9-92 0 223A SPARE 9-30-92 0 223B SPARE 9-30-92 0 228A ELECTRICAL 9-16-92 0 228B O-RINGS 10-14-92 0 228C ELECTRICAL 9-16-92 0 236 TORUS HATCH C 9-16-92 0 TOTAL HINIMUM PATHWAY IMPROVEMENTS -- TYPE B TESTS 5 ACCM

test connection determined to be leaking on penetration 17 in 10-11-92 (s) test

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

TYPE C TEST RESULTS 1992 REFUELING INITIAL TEST RETEST IMPROVE-PENETRATION LDENTIFIEPS DATE/ LEAKAGE DATE/ LEAKAGE MENTS ACCM(u.n.) _,ACCM(u.n.) (ACCM) 3 2P33-F002 9-28-92 25 11-1-92 24 1 3 2P33-F010 10-29-92 28 7A 2B21-F022A/028A, 9-18-92 10.1 2E32-F001B SCFH 78 2B21-F022B/028B, 9-18-92 0 2E32-F001F SCFH 7C 2B21-F022C/028C 9-18-92 24.4 10-2-92 0 2E32-F001K SCFH 7D 2B21-F0220/028D 9-18-92 5 2E32-F001P SCFH 8 2B21-F016/019 9-19-92 3020 10-24-92 0 1510 9A** 2B21-F010A 9-21-92 52 9A** 2B21-F077A 9-20-92 32 9B** 2B21-F010B 10-6-92 <200 11-2-92 (10 190 9B** 2B21-F077B 10-3-92 >10000 10-27-92 40 10 2E51-F007/008 9-22-92 101 10-27-92 <20 40 31 2E41-F002/003 9-22-92 0 10-27-92 0 12 2E11-F008 10-4-92 0 13A 2E11-F015A 9-22-92 401 13B 2E11-F015B 10-8-92 0 10-25-92 302 0 13B 2E11-F050B 10-5-92 >10000 10-30-92 88 14 2G31-F001 10-6-92 25 10-27-92 0 10 14 2G31-F004 10-2 10 10-27-92 20 15 2T49-F002B 10-12-92 60 15&222B 2T49-CLOSED SYSTEM 10-17-92 18061 11-12-92 503 16A 2E21-F005A 9-21-92 0 16B 2E21-F005B 10-9-92 0 17 2E11-F022/023 10-8-92 0 18 2G11-F019 9-24-92 10 10-2-92 0 10 18 2G11-F020 9-24-92 906 10-2-92 25 19 2G11-FG03 10-9-92 221 10-28 0 19 2 G '.1-F 0 0 4 10-9-92 >30000 10-27-92 <20 221 21 2T51-F513 10-28-92 28 21 2P51-F514 10-29-92 <20 22 2P70-F004 9-30-92 0 10-22-92 0 22 2P70-F005 9-30-92 0 10-22-92 0 23&24 2P42-F051/052 9-29-92 30 25-2T48-F103/307/308/ 9-24-92 3750 11-10-92 <20 1865 D006 25&205 2T48-F104/118A/110B 10-11-92 0 26 2T48-F319/320 9-25-92 50 10-29-92 0 20 26 2T48-F340 9-25-92 <20 26 2T48-F341 9-25-92 <20 27C 2B31-F013A 9-27-92 0 27C 2B31-F017A 9-25-92 0

2 28 2P33-F004 9-28-92 -(20 28 2P33-F012 9-27-92 0 . 32A 2E11-F041D 10-6 <20 l( 32C 2E11-F041B 10-6-92 0 34C - 2T23-F004-10-10-92 0 34C 2T23-F005 10-9-92 42 34D 2T48-F363A 10-8-92 55' 35A 2C51-J004D 10-5-92 2114 10-10-92 0 2114 35B 2C51-J004A 10-5-92 0 35C 2C51-J004C 10-5-92 20 35D 2C51-J004B 10-5-92 ' 20 35E 2C51-F3012 10-1-92 0' 35E 2C51-F3017 10-12-92 -<20 39A 2E11-F036A 9-21 201 39B 2E11-F016B-10-8-92 31 10-31-92 50 41 2B31-F019 10-5-92' 40 10-27-92' 0: 14 0. ~ 41 2B31-F020 10-5-92 453J10-27-92 -. 2 3 - 42 2C41-F006 10-4-92 0 42 2C41-F007 10-4-92 100 10-13-92 0 44 2T48-F321 10-8-92 20' 44 2T48-F322 10-9-92 0 45D 2B21-F111 9-23-92 0 450 2B21-F112 9-23-90 302 10-13-92: 0 46 2P21-F032 10-10-92 0' 46 2P21-F034 10-11-92 0. 47&48 2P54-F045/047-9-24-92 91 10-17-92 70 CLOSED' SYSTEM - 51C 2P70-F066 10-5-92 0 10-20 0 51C 2P70-F067-10-5-92 0 10-20-92 0 0 51D 2T48-F363B-10-8-92 40. L 54A 2E11-F041C 9-22-92 0 54C 2E11-F041A. 9-21-92 0-55-2G11-F852 10-21 0 55 - 2G11-F8 53, 9-26-92 0 57C~ 2B31-F013B 9-27-92 0 57C 2B31-F017B_

9-25-92 0

60A 2P33-F003 9-27-92 0 60A 2P33-F011-9-27 'O 60B 2D11-F050 10-1 0 60B 2D11-F052 10-1-92 10- '61A 2T49-F002A 10-10 40 11-3-92 '0 : 40 61A&221A - 2T49 CLOSED' SYSTEM 10-16-92: 201:11-11 2375-62 2D11-F051. 10-1 0 62-2011-F053 10-1-92 .0-63-2P70-F002 10-3-92 '0-2P70-F002 30-92: 0-63 64 2P33-F005 9-28-92 0 264 12P33-F013 9-26-92 0. 67-2T48-F334B-9-25 <20 67 2T48-F335B 9-29 0: 69 '2T48-F209-10-5-92 100 11-4-92' 0 1100 h 69 2T48-F210 10-5 554-10-28 121-l 80-2T48-F334A-9-25-92 <20. H 80-2T48-F335A 9-29-92: CL p O: u p; m 7 v w- .yvww--.i-,.e Q n .w v --er+v -vi=-<w-9 ry uwy + y"- -+.---c44--w-s-e*ygam+t- =p"-e-g g, gp

? . 81 2T48-F113 10-8-92 =0 l 81 2T48-F114 10-9-92 0-I 205 2T48-F309/324,D006 24-92 60.11-10-92 <20, 20 2T48-F310/328A 9-25-92 7551 10-21-92 <20-20' O 205 205 s2T48-F311/328B 9-25-92 1158 11-4-92 - 1800 205 2T48-F364B 10-7-92 <20 l 206A 2T48-F361B 10-8-92 81 10-21-92 0 81 i 206C 2E41-F121 9-23-92 0 206C 2E41-F122 9-23 0 I 206C 2T48-F361A 10-8-92 0 l 210A&211A 2E11-F028A 9-21-92 50 i 210B&211B 2E11-F028B 10-0-92 1032 217A 2P33-F006 9-29-92 131 10-30-92' O 25 217A 2P33-F014 9-28-92 25 217B 2P33-F007 9-30-92 0 217B 2P33-F015 9-28-92 0 217C 2D11-F058 20-1-92 0 217C 2D11-F065 10-5 0 -0. 5 220 2T48-F318/326 9-24-92 10 10-29-92 220-2T48-F338 9-25-92 20 220 2T48-F339 9-25-92 10 a 220 2T48-F364A 10-16-92 0-221A 2T49-F004A 10-13 831 10-29-92 35 -166 221B 2E41-F104 9-22-92 <10-221B 2E41-F111 9-24-92 0 10-14-92 0 221C 2E51-F104 9-22-92 <10 221C 2E51-F105 9-24-92 0 222B 2T49-F004B 10-12-92 >30000 10-31-92 <20 18041L ss 225A 2T48-F342G 10-15-92 -0 11-4-92 <20 225A 2T48-F323G AIR CYL 10-15-92 0-10-20-92. O' 225B 2T48-F342H 10-15-92 0 11-4-92 0: i 225B 2T48-F323H' AIR CYL 10-15-92

0 10-22-92 0

225C 2T48-F342I 10-15-92 0 11-4 0 - 225C 2T48-F323I AIR CYL 10-15-92. 0 225D 2T48-F342J 10-15 0 11-4-92 0: 225D 2T48-F323J AIR CYL 10-15-92 0 -225E 2T48-F342K 10-15-92. -O'11-4 _.0 225E 2T48-F323K AIR CYL 10-15-922 0 10-20-92 0: 225F 2T48-F342L 15-92 0 13-4-9? Of l 225F-2T48-F323L AIR CYL 10-15-92' O 10-20-92' 0 225G 2T48-F342A 10-14-92 9 10-30-92 0 225G 2T48-F323A' AIR CYL 14-92 0-225H 2T48-F342B

10-15 30 10-30-92 0

a 225H 2T48-F323B AIR CYL1 ~ 10-14 O. 225J 2T48-F342C 10-15-92 ~ 0 10-30 0: 225J -2T40-F323C AIR CYL' 10-15-92 0- ' 225K 2T48-F342D 10-16-92' '0110-30-925 CL 225K-2T48-F323D AIR CYL 110-15-92' - 9565.10-20-92 0-225L. 2T48-F342 E 10-15-92 OJ10-30-921 0 225L 2T48-F323E" AIR CYL-10-15-92 0110-20-92 JO 225M 2T48-F342F 10-15-92' OJ10-30-92 O! L -22SM 2T48-F323F-. AIR.CYL '10-15-92 0 p - 230' 2T48-F325' 10-8-92 <10 230 2T48-F327 10-10-92 0 s v..._m,-, m -y r,_ ..w__.- 'y,, q-u

231 2T48-F332A 9-24-92 40 231 2T48-F33A 9-30-92 0 233 2T48-F211 10-22-92 50 11-4-92 20 20 (,,') 233' 2T48-F212 10-21-92 40 11-3-92 100 k^ 235A 2T48-F3328 9-24-92 0 235A 2T48-F333B 9-29-92 0 235B 2T48-F115 10-9-92 0 235B 2T48-F116 10-10-92 35 TOTAL PENETRATION ~ IMPROVEMENTS -- TYPE C TESTS 24539

- Water Tests

SUMMARY

! Total Penotration Improvements -~ Typo B Tests 5 ACCM' Total Penetration Improvements -- Type C Tests 24539 ACCM-Total Penetration Improvements -- Typo B&C Testa 24544 ACCM For a containment froo air volume of 277,400 cubic feet, penetcation improvements of 24544 ACCM represents ((24544 ACCM / 28317 ce**3/ft**3) / 277400 ft**3)

60 min
24 hr
100% = 0.4499%/ day

\\ 9 L ~ b

TYPE B TEST RESULTS 1991 REFUELING (' y INITIAL TEST RETEST J J PENETRATION IDENTIFIERS DATE/ LEAKAGE DATE/ LEAKAGE ACCM ACCM 1A EQUIPMENT HATCH A 3-22-91 0 5-20-91 0 1B EQUIPMENT HATCH B 3-22-91 0 5-14-91 20 2 AIRLOCK INNER SEAL 3-19-91 0 6-1-91 0 2 AIRLOCK OUTER SEAL 3-19-91 0 6-1-91 0 2 AIRLOCK INNERSPACE 5-10-91 2190 5-14-91 140 r 4 ilEAD ACCESS IIATCl! 3-20-91 0 5-18-91 0-SA INNER BELLOWS 4-3-91 0 SA OUTER BELLOWS 4-3-91 0 SB INNER BELLOWS 4-3-91 0 5B OUTER BELLOWS 4-3-91 0 SC INNER BELLOWS 4-9-91 0 SC OUTER BELLOWS 4-9-91 0 5D INNER BELLOWS 4-9-91 0 SD OUTER BELLOWS 4-9-91 0 SE INNER BELLOWS 4-9-91 0 SE OUTER BELLOWS 4-9-91 0 SF INNER BELLOWS 4-9-91 0 SF OUTER BELLOWS 4-9-91 0 SG INNER BELLOWS 4-9-91 0 SG OUTER BELLOWS 4-9-91 0 M; 5H INNER BELLOWS 4-9-91 0 511 OUTER BELLOWS 4-9-91 0 6 CRD liATCil 3-20-91 20 5-11-91 0 7A INNER BELLOWS 4-17-91 0 7A OUTER BELLOWS 4-17-91 0 7B INNER BELLOWS 4-17-91 0 7B OUTER BELLOWS 4-17-91 0 7C INNER BELLOWS 4-17-91 0 7C OUTER BELLOWS 4-17-91 0 7D INNER BELLOWS 4-17-91 0 7D OUTER BELLOWS 4-17-91 0 8 BELLOWS 3-27-91 3986 9A INNER BELLOWS 3-25-91 20 9A OUTER BELLOWS 3-25-91 20 98 INNER BELLOWS 4-17-91 0 9B OUTER BELLOWS 4-17-91 75 10 INNER BELLOWS 4-17-91 60 10 OUTER BELLOWS 4-17-91 275 111 INNER BELLOWS 3-23-91 11 a 11 OUTER BELLOWS 3-23-9? 1104 12 INNER BELLOWS 3-23-!4 0 12 OUTER BELLOWS 3-23-91 145 13A INNER BELLOWS 4-9-91 0 13A OUTER BELLOWS 4-9-91 0 13B INNER BELLOWS 4-9-91 0 - es l T - L_) l

a + 13B OUTER BELLOWSL 4-9-91 '0i 1 114 INNER BELLOWS -'4-17-91: 0 14 OUTER BELLOWS 17-91 0-1 ( 16A'INNEREDELLOWS-. 11-91 0 i ( 16A OUTER BELLOWS 4-11-91 20 -16B INNER BELLOWS 4-17-91' -0 l 16B OUTER BELLOWS 4-17-91 0 -l 17 INNER BELLOWS > 4-4-91 0 y 17 OUTER-BELLOWS 4-9-91 0 25 2T48-F103 A TEST-3-31-91 120 4-15-91 0 25 2T48-F103 B TEST 3-31-91 0 4-15-91 0. 25'2T48-F103 C TEST 3-31-91 0 4-15-s1 0 j 25 2T48-F103 D TEST 31-91 0 4-35-91 10 25 2T48-F307 A TEST 3-31-91< O'5-13-91 0 25 2T48-F307:B TEST 3-31-91 0 5-13-91: 01 25 2T48-F307 C TEST 3-31-91 0~5-13 0 T 25 2T40-F307 D TEST 3-31-91 0 5-13 0 i 25 2T48-F308 A TEST 3*31-91 0 5-13-91 -2 0 - 25 2T48-F308 B TEST 3-31-91' 0-5-13-91 0: 25 2T48-F308 C TEST 3-31-91 0 5-13-911 0 1 25 2T48-F308 D TEST 3-31-91 0:5-13-91 -O-26 2T48-F319 A TEST 3-30-91 0.5-9-91' 0 '26 2T48-F319 B TEST 30-91 0 5-9-91 0: 26 2T48-F319 C TEST 3-30-91 0 5-9-91. .0 26 2T48-F319 D TEST 3-30-91 0 5-9-911 Of 26 2T48-F320 A TEST 3-31-91= 0 5-9-91 0 26 2T40-F320 B TEST 3-31-91 Oc5-9-91 0 4 26 2T48-F320 C TEST 3-31-91 0'5-9 0 26 2T48-F320 D TEST 3-31-91 0-5-9-91 -0: 0 35A'O-RINGS 3-20 0 35B-0-RINGS 3-28-91 0 l 35C O-RINGS-3-28-91 0 '35D O-RINGS 3-28-91' 0 35E O-RINGS 3-28-91 0 42' INNER BELLOWS 3-25-91 12 5P' 42 OUTER: BELLOWS 3-25-91 0-43.0-RINGS 3-20 20 132 -DRYWELL' HEAD-3-20-91' O 5-18 0- '83A O-RINGS' 4-16-91 0' ] -83B 0-RINGS-4-16-91' O

83C 0-RINGS 4-16.20 3

83D 0-RINGS 4-16-91 0 83E O-RINGS 4-16-91 'O '83F 0-RINGS 4-16 =0 4 83G O-RINGS 4-16-91' 0-03H 0-RINGS 4-16-91~ -0: 100A1 ELECTRICAL 3-20-93 0~ g 100BLELECTRICAL' 3-19-91' 0-100D ELECTRICAL-3-19-91 10- ^* '100ELELECTRICALL 3-19-91 20 t -101A' ELECTRICAL 3-19-91 0-101BsELECTRICAli 3-19-91 0-

101C' ELECTRICAL l

_3-19-91 'O _101D, ELECTRICAL 3-20-91 0 t- .-,-E'- M-4 .g., [ E .,y

37 f 2101F, ' ELECTRIC AL 3-20-91 0 1 'Q? >iO1F ELECTRICAL . 3-20-91 0 [d:c e(h 003A ELECTRICAL' 3-19-91 0-l '4: 102A ELECTFICAL, 3-20-91' 0 s a,Jyd; 104A ELECTRICAL 3-20-91 0 1040 ELECTRICAL 3-20-91 0 i 104C ELECTRICAL 3-20-91 20 104F ELECTRICAL 3-19-91 0 104G LLECTRICAL 3-19-91' O

f 104H ELECTRICAL 3-19-91 0

1 105A EuECTRICAL 3-19-91 0 .i 3 105C ELECTSIchL 3-19-91 20 196A ELECTRidAL 3-19-91 0-17 200A TORUS'HATCl! A 3-21-91 20 5-16-91: 0 200D TCSUS HATCH B 3-20 0 5-10-91 0 4 2t? CuECTRICAL-. 3-20-91 0 i ~ s 20$ 274.VY309 A TEST 4-1-91 .0 5-12-91 .0 '. a 205 2T40'f309 8 TEST 4-1 91-0 5-12-91 0= 4 205 2T48-F309 C TEST 4eir91 0 $~12-91: 0 205 2T48-F309 D TEST. 4-1-91 0:5-12-91 0" 205 2T48-F310 A TEST 3-30-91 0'5-11 0 205 2T48-F330 B TEST 3-30-91 25,5-11-91~ O' 205 2T48-F310 C TEST 3-30-91 0~5-11-91 0 4 205.2T48-F310 D TEST 3-30-91 0 5-11 0 205 2T48-F311 A' TEST 3-30-91 'O 5-11-91 '0-if 205-2T48-F311 B TEST 3-30-91 0 5-11-91 0 j 205 2T48-F311 C TEDT 3-30-91 0 5-11-91 ,0: 1; ~ 205 2T48-F311 D TEST 3-30-91 015-11-91-- 0 '205 2T48-F324 A TEST 4-1-91 0?5-12-91" 0 y

-y -

205'2T48-F324 B TEST 4-1-91 0 5-12-91 50 -i .205-2T48-F324 C. TEST 4 91-- .0'5-12-91 0 205n2T48-F324 D TEST 4-1-91~ 0 5-12-911 -0 1 218D O*NINGS-3-21.0-1 - 220 2T48-F318 A TEST 3-31-91 0 5-12-91

0-a 220 2T48-F318 B TEST 3-31-91 0 0-12-91

.7 0 J j 220 2T48-F318'c TEST 3-31-91' -045-12-91.- 0, y J220 2T48-F318 D TEST 31-91s 0 5-12-91 CL 1 -220 2T48-F326 A TEST 3-31-911 0 5-12 0 3 220 2T48-F326 B-TEST 3-31 0 5-12-911 0 -l 220 2T48-F326 C TEST 3-31-91' O 5-12-91' 10 '220.2T48-F326 D TEST 3-31-91 0.5-12-91L 0 223AESPARE 4-9-91 0 223B' SPARE. 4-9-91 0.. 4 '228A FLECTRICAL. 20-91J -0= _[ 228B O-RINGS- = 6-4-91

0

-228C ELECTRICAL ' 3-20-91 0 4 3-20-91' O 5-10-91 0'- "23C. TORUS: HATCH C O 1

~

1

-c0 2

~ A 1 yl -. L r 2 e 9 w m a 'n,-, ,+ ~ w wa e,Na v ew-w.

i i TYPE C TEST RESULTS 1991 REF'1EL1!iG (~ INITIAL TEST RETEST U} PENETRATION IDENTIFIERS DATE/ LEAKAGE DATE/ LEAKAGE ACCM(u.n.),_ ACCM(u.n.) 3 2P33-F002 5-5-91 <20 3 2P33-F010 5-5-91 24 7A 2B21-F022A/028A, 3-22-91 0 2E32-F001B SCFH 7B 2B21-F022B/028B, 3-23-91 262 4-18-91 0 2E32-F001F SCFH SCFH 7C 2B21-F022C/028C 3-22-91 8.1 2E32-F001K SCFH 70 2B21-F022D/028D 3-22-91 0 2E32-F001P SCFH 8 2B21-F016/019 3-25-91 0 5-2-91 0-9A 2B21-F010A 3-27-91 >10000 4-7-91 62 9A 2B21-F077A 3-26-91 42 9D 2B21-F010B 4-8-91 42 9B 2B21-F077B 4-6-91 10 10 2E51-F007/008 3-31-91 3010 5-10-91 <20 11 2E41-F002/003 3-29-91 0 12 2E11-F008 4-11-91 302 4-20-91 0 13A 2E11-F015A 3-25-91 579 4-19-91 1108 13B 2E11-F015B 4-14-91 1110 5-5-91 252' 14 2G31-F001 4-13-91 <20 14 2G31-F004 4-3-91 0 '5-25-91 0 15 2T49-F002B 4-7-91 26 15&222B 2T49-CLOSED SYSTEM 4-22-91 1762 5-8-91 151 16A 2E21-F005A 3-31 0 16B 2E21-F005B 4-3-91 0 17 2E11-F022/023 4-12 0 18 2G11-F019 4-23-91 0 5-15-91 48 18 2G11-F020 4-24-91 0 5-22-91 0 19 2G11-F003 4-1-91 0 19 2G11-F004 4-2-91 0 21 2P51-F513 4-28-91 30 21 2P51-F514 4-29-91 22 22 2P70-F076K 5-6-91 0 22 2B21-F013L ACTUATOR, 5-6-91 0.5 F036L 22 2P70-F004 4-8-91 0 22 2P70-F005 4-30-91 <20. 23&24 2P42-F051/052 4-6-91 3222 4-13 0 25-2T48-F103/307/308/. 4-1-91 1575 5-12-91 -20 D006 25&205 2T48-F104/118A/118B 4-18-91 0 26 2T48-F319/320 3-30-91 0 5-9 1<20 26 2T48-F340 4-19-91 0 26 2T48-F341 4-18-91 0 .,m

5 l i 27C 2B31-F013A 4-7-91 0 { 4 27C. L2831-F017A 4 4-91 0. 28 2P33-F004 4-10-91 23 I N s-) 2P33-F012 4-24-91 0 -28 32A 2E11-F041D 4*10-91 0 I 32C 2E11-F041B 4-10-91 30 i 34C 2T23-F004 4-3-91 0 t 34C 2T23-F005 4-5-91 <20 + 340 2T48-F363A 4-18-91 40 35A 2C51-J004D 3-28-91. 20 35B 2C51-J004A 3-28-91 0 j 35C 2C51-J004C 3-27-91 <20 l 35D 2C51-J004D 3-28-91 0 35E 2C51-F3012 3-30 0 j 35E 2C51-F3017 4-2-91 <20 a 39A 2E11-F016A 3-25-91 125 4-17-91 76 39B 2E11-F016B 4-14-91 2011 41 2B31-F019 4-3-91 0 41 2831-F020 4-16-91 0 4-28-91 ~0-42 2C41-F006. 4-2-91 0 42 2C41-F007 4-4-91 0 f 44 2T48-F321 4-14-91 0 44 2T48-F322 4-12-91 0 45D 2B21-F111 3-26-91 0 45D 2B21-F112 3-27-91 0 46 2P21-F032 4-24-91 0 46 2P21-F034 4-23-91 0 4' 47&48 2P64-F045/047 3-26-91 76 jg" CLOSED' SYSTEM. 51C 2P70-F066 4-8-91 0' 51C 2P70-F067 5-2-91 0 51D. 2T48-F363B 4-21-91 0 54A 2E11-F041C 3-26 0 54C 2E11-F041A

3-26-91 ~

30 55 2G11-F8521 20-91 0-55 2G11-F853; 4-26-91 0' ' 57C-2831-F013B 4-8-91 0 57C 2B31-F017B 4-4-91' 0 4 60A 2P33-F003 4-10-91 25 60A 2P33-F011 4-27-911 'O ~ - 60B 2D11-F050 4-4-91 0 60B 2D11-F052 4-6-91 0 61A-2T49-F002A 4-8 '3 0.

i 61A&221A 2T49 CLOSED-SYSTEM 4-23-91 352.

. 62 2D11-F051-4-10-91 <20' 62-2011-F053' 4-9 O. 63; 2P70-F002: 4-17-91. 0 =. 63- -2P70-F003 4-3-91 CL 64-2P33-F005 4-7-91' CF 2P33~F013 4-10-91-- 0 sp . 6,4 67 2T48-F334B 4-12-91 (F

f 67-

,2T48-F335B 4-18 =0 2T48-F209 4-12-91 403 5-3 25-69 2T48-F210 4-16 302 5-4-913 '65 l . ~. u x... e ' I y ..n.. ~ '

80 2T48-F334A 4-14-91 0 r 80 2T48-F335A 4-16-91 0 l 81 2T48-F113 4-16-91 0 1 (]jt ( - 81 2T48-F114 4-12-91 0 .I 205 -2T48-F309/324,D006 4-1-91 120 5-20-91 ,) 205 2T48-F310/328A 3-30-91 25 5-11-91' 40 205 2T48-F311/328B 3-30-91 90 5-11-91 101 205 -2T48-F364B 4-21-91 20 206A 2T48-f361B 4-18-91 0 206C 2E41-F121 3-27-91 0 206C 2E41-F122 3-28-91 0 l 206C 2T48-F361A 4-17-91 0 210A&211A 2 E11-F02 PT. 3-24-91 1.5 4-17 0 -i 210B&211B 2E11-F028B 4-10-91' 956 5-1-91 ~201 217h 2P33-F006 4-11-91 0 217A 2P33-F014 4-27-91 60 5-13-91 28-217B 2P33-F007 4-28-91 <20 217B 2P33-F015 4-30-91 0 217C 2D11-F058 4-3-91 0 217C 2Dil-F065-4-11-91 O 220 2T48-F318/326 3-31-91 1284 _ 5-12 221 220 2T48-F338 4-18-91 <20 220 2T48-F339 4-19-91 25 220 2T48-F364A 4-19-91 40 221A 2T49-F004A 4-16-91 232 4-20-91 96 221B 2E41-F104 3-26-91 0 221B 2E41-F111 3-31-91 0 221C 2 F.51-F104 3-26-91 0 221C 2E51-F105 3-29-91 0 _5-16-91 -25 a O 222B 2T49-F004B 4-15-91 0 225A 2T48-F342G 4-1-91 0 225A 2T48-F323G AIR CYL 4-1-91 0 4 225B 2T48-F342H-4-2-91 0 225B 2T48-F323H AIR CYL 4-2-91 0 a 225C 2T48-F342I 4-1-91 20 225C 2T48-F323I AIR CYL 4-1-91 1200 4-16-11 0 225D 2T48-F342J' 4-1-91' 0= 225D 2T48-F323J AIR CYL 4-1-91 20 4-16-91 -0 225E 2T48-F342K-4-1-91 0 I '225E -2T48-F323K AIR CYL 4-1-91 0 225F 2T48-F342L: 4-1-91 0 225F 2T48-F323L AIR CYL 4-1-91 0 225G 2T39-F342A_ 4-1-91_ 0 .225G 2T48-F323A-AIR CYL 4-1-91 136 4'-16-91 0-1225H 2T48-F342B-4-1-91 0-225H 2T48-F323B AIR CYL 4-1-91 <20 225J 2T48-F342C 4-1-91 0 225J 2T48-F323C 4-1-91 0 2T48-F342D; AIR.CYL 225K 4-1 0 l 225K 2T48-F323D AIR CYL. 4-1-91 0 225L .2T48-F342E. 4-1-91 0 [ -225L 2T48-F323E AIR CYL 4~1-91 0. ~ 225M 2T48-F342F 4-1-91 0 -225M 2T48-F323F AIR CYL-4-1-91 0 (/ =. =

t s 230 2T48-F325-, 4-19-91' O 230

2T48-F327-L4-20 0 231 2T48-F332A'

.4-13 25 - 231 2T48-F33A 4-18-91' O 233 2T48-F211-4-17-91 45 233 2T48-F212 4-21-91 0 235A .2T48-F332B 4-16-91 <20 235A -2T48-F333B 3-27-91 0 - 235B 2T48-F115 4-14-91 0 l ~ 235B 2T48-F116 4-19-91 40 i 'f a .6. i

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b PERSolillEL AIR LOCK -TYPE B TEST RESULTS BETWEEli 1989/1992 ILRTO-DATE Ill!1ER DOOR SEAL OUTER DOOR SEAL IfillERSPACE ACCM ACCM ACCM J ~ 3-19-91 0 0 5-10-91 2190 5-14-91 .140 5-27-91 0 0 5-30-91 0 0 6-1-91 0 0 11-11-91 10 2100 1-26-92 1400-1-28-92 0 3 1-29-92 0 0 7-21-92 1300-9-16-92 0 0 10-31-92~ 1175 11-5-92 18 -20 i 11-13-92 2000 11-18-92 0 0 MISCELLA!1EOUS TYr: B RESULTS PERFORMED BETWEEN OUTAGES-PEllETRATION IDENTIFIER DATE LEAKAGE ( ACCM)_ 1A EQUIPMENT IIATCl! A 1-26-92 0 a h , ~ ~. ~,-' '

1 1 ] 1 () APPEllDIX'III IllSTRUl4EliT CALIBRATIOli sui. MARY j i i Paramotor/ Instrument = Data l I Prossure/ Rango! O - 100. psia-Volumotrico Model PPM-1000 Accuracy: +/-0.015% RDG. Proc 1sion Prossuro Caugo +/-0.002% F.S. Ropeatability! +/-0.001% F.S. Resolution: 0.001% F.S. Cal. Datet 9-18-92 Dry-bulb Tomparaturo/ Rangot-O to +150;dogroes F 100 OllM Platinum Resistanco Accuracy +/-0.1 degroes F Temperaturo Detectors Sensitivityt 0.01 degroes.F Repeatabilityt;0.01 degroos F Cal.-Datet 9-14-92 Dow point Temperature / Rango -40 to +140 degroes F f ~ EG&G Dowtrak llumidity. Accuracy -+/-1 degrees F- ~ Transmitter Cal. Date 8-24-92 I i Flow / Rangot10Ito 10 scfm-s/ Brooks Rotamotor Accuracyt +/-1.0%-FS. t Model 1110 Cal. Dato 9-14-92 a I l t f L

APPEllDIX IV TEST DATA Raw data for pressurizacion, etabilization, the Type A Test and the Verification Tent are prosented in this appendix. O O

I 1992 !!!1P Unit 2 Propsuritation l f DATA

SUMMARY

REPORT G data timo dato' tomparature- -pressuro -vapor dry air i sat dog F pain pressure mass paia lbm i 1 245 1106-82.3616 14.5345 0.4626 19438.53 l 2 300 1106 85.7648 14.5404 0.4751 '19308.20 3 325 1106 '85.7601 14.5236 0.4725 -19288.83 4 330 1106 85.6794 14.5327 0.4735 19302.86 5 345 1106 84.0136 14.5999_ 0.4679 19462.26 6 400 1106 83.6678 23.9572 0.4659 32372.19 7-415 1106 85.8424 26.6737 0.4759 35957.91 8 430 1106 86.4770 30.2604 0.4788 40829.42 9 445 1106 86.5389 33.3899 0.4784 4 5115.~ 21 1 10 500 1106 86.3947 35.7991 0.4789 -48429.88 11 515 1106 86.4985 38.2168 0.4800 51733.62, -12 530 1106 86.6422 40.6374 0.4800 55036.40 l 13 545 1100 86.7690 43.0688 0.4820 58353.62-14 600 1106 86.8830 45.4946 0.4827 61663.66 15 615 1106 87.0716 48.0236 0.4840- .65104.06 16 630 1106_ 87.3130 50.8034 0.4858 68878.06' l 17 645 1106 87.4495 53.5567 -0.4875 72626.48 18 700 - 1106 87.5508-56.2632 0.4890 76314.25 19 715 1106 87.6452 58.9165 0.4904 79928.92 20 730- 1106 87.7269 61.5202 0.4916 83476.81 21 745 1106 87.8198 64.0691 0.4900 86946.56 22 800 1106 87.6088 65.9194 0.4933 89511.13 O 23 815 1106 87.5070 67.SO97 0.4945 91702.30. 24 830 1106 87.5064 69.0715 0.4951 93838.65 - i -25 845 1106 87.5105 70.6090 0.49611 95940.44 26 '900 1106 87.3339 71.6175 0.4955'

97352.75 27 91S - 1106 87.1551 72.3287 0.4943' 98360.06 r

9 { JO l 'l L-; +w - - -, -,...n,---,,.,'w~ ~- ,,. - - -,,,. -, - _.,. -,.. ~.,., -,,, -, n. - < l,, l e-.~,. , J n:n

_m } 1992 HNP Un'it:::2-Pressurization-data set 1-time =i 245 date = 1106 sensor raw data value 78.480 deg.'FL ~ temperature i ( .78.480 ) =. --79.190 deg.yF; temperature 2 - -( .79.190 ) =. 79.740 dog.-:F temperature 3 ( 79.740 ) = 79.290!deg. F-temperature-4 ( 79.290 ) = 79.180 deg.-F temperature. 5 ; 79.180-) = -80.160 deg. F temperature 6 ( 80.160 ) = temperature 7 ( 81.410-) 81.410.deg.!F = 86.590 dog. F' temperature 8 ( 86.590.) = 97.550 deg. F: temperature 9 ( 97.550 ). ~ = 92.090 deg.;F temperature 10 (. 92.090 ) = 82.100 deg.JF-temperatuJe 11 ( 82.100 ) = 82.190 deg. F temperature 12 ( 82.190-) = temperature 13 ( 81.960 ) 81.960 deg.-F = 82.180 deg.-F temperature 14 -( 82.180 ) = i dewpoint =1 ( 72.420 ) 72.420 deg.=F, 0.3940 psia- = dewpoint 2 ( 73.320 ) 73.320 dog.:F,- 0.40611psla: o r = dewpoint 3 (. 73.240 ) .73.240 deg._F ,1 0.4050 psia = dewpoint 4 ( 74.430-) 74.430 deg.iF, 0.4215 psia = dowpoint -5 -( 75.310 ) 75.310 dog. F, 0.4341-psia = 81.180 deg. F, 0.2267 psia dewpoint 6 ( 81.180 ) = 81.180 deg.-F, 0.5267 = psia f-dewpoint 7 (- 81.180 ) = 14.5345 psia pressure 1 ( 14.5345 ) =- '14. 55 641 psia - pressure 2 ( -14.5564 ) = weighted averages, volume and air mass 82.36164 deg.=F-temperature = 14.53450 psia. pressure = vapor pressure = 0.46258fpsia; 277400'cu. ft. -volume = ' dry air mass 19438.53 lbm = ~~& l l-L. l- [ L

=1992.HNP Unit'j2 Pressurization -data-set.

2 time =

300 date = 1106 sensor -raw data value temperature =1 ( 80.970 ) 80.970 dog. F =- 81.540 deg. F temperature 2 ( 81.540 ) = _81.940 deg. F-temperature 3.( 81.940-) = 82.040-Qeg. F temperature 4 ( -82.040 ) =- -temperature 5 -( _83.040 ) 83.040 deg. F = 82.780 deg. F-tooperature 6 ( 82.780') = 84.930:deg. F temperature 7 ( 84.930 ) = 88.760 deg.'F-temperature 8 (- 88.760:) = 100.040'deg. F temperature 9 ( 100.040-) = temperature 10 ( 95.330 ) 95.330 dog. F = temperature._11 ( 85.010 ) 85.010 deg. F = 84.140_deg =F temperature 12 ( 84,140 ) = 87.640;deg.1F temperature 13 (- 87.640 ). = temperature 14 (- 88.050 ) 88.050 deg. F. =- -73.730 deg.- F,, 0.4118 psia'- dewpoint 1 ( 73.730.) =- dewpoint 2 (_ 74.830 )- 74.830_deg. F,-0.4272 psias = dewpoint 3 ( 74.470 ) 74.470 deg. F, 0.4221 psia = dawpoint' 4 ( 76.660 ) -76.660.deg.-F.,-0.4540;psiac = dewpoint 5 ( 77.700 ) 77.700 deg. F,.0.4699 psia. = dewpoint 6 ( 79.430 ) 79.430 deg.- F, 0.4975-psia- /-s = gl dewpoint 7 ( 82.650_) = 82.650 deg.;.F;_,:.0 5524: psia 14.8404 psia: ~ pressure 1 ( 14.5404 ) = _14.5697 psia-pressure 2-( 14.5697 ) = weighted-averages,: volume and air mass: 8 5. 7 6 4 8 21 deg.- ' F - temperature- = 14.54040;psias -pressure = vaporfpressure = 0.47507, psia m volume 277400 cu. ft. = dry-air mass-- 19308.'20 lbm =

\\

,_I 1 h

.-u 1992 HHP. Unit 2 Pressurization -data set ~ .3 Tr^N l ,d, _ time = /315-date = 1106 s -sensor raw data value 3 temperatu're-1 ( '80.820 ) 80.820.deg. F = -temperature: 2_( 81.820-) 81.820'deg. F = -81.890 deg. F-temperature: ~3 ( 81.890 ) = 81.990 deg.:F temperature J4 (- 81.990_)- = 82.830 deg.; F temperature 5 - -- ( - 82.830:) = temperature. 6~( 82.'890 ) 82.890 deg. F- = temperature 7. ( 85.160 ). _85.160 deg. F. ~ = 89.210.deg. F temperature 8 ( 89.210 ) = 100.720 deg.-F-temperature 9 '( 100.720 ) = 95.660 ) 95.660 deg. F-temperature 10 ( ~84.900 ) = 84,900 deg. F temperature 11-( = _8 3. 78 0 deg.: F temperature 12 ( 83.780-)' = 87.630 deg.~F -temperature 13 ( 87.630 ) = temperature'14 ( 87.840 )' -=. 87.840 deg. F 73.970 deg. F, 0.4151 psia? dewpoint 1 ( 73.970 ) = 75.320 deg. F.,

0. 4 3 4 3.--' psia dowpoint 2

( 75.320 ) ~ = 7 4. 8 2 0, d e g.: F,_ :-0. 4 271L psia-dewpoint 3~ ( 74.~820 ) = dowpoint 4 '( 77.500 )~ 77.500 deg. F,LO.4668 psiac ~ = 78.300;deg._F', 0.4793? psia-dewpoint 5 ( .78.300 ) = .78.870-deg. F=, 0~4884 psia-g ~ dewpoint 6 ( 78.870 ) = 81.470 deg. F, 0.5317 psia dewpoint' 7 ( 81.470-) = ~14.5236l psia pressure 1 ( 14.5236.)_ = 14 ~.~ 5 63 2 i psia _ pressure 2 ( 14.5632.)_ = weighted averages, volume and air mass 85.76012'deg.-F-temperature = 14.52360-psia-pressure = vapor. pressure a. 10.47250spsia: l 277400 cu. ft. volume = dry air mass-19288.83Elbm- = e l

1992-HNP Unit:2!Proscurization 1 -data set- '4-

f~'U time =

330- -date = 1106 t \\ \\_s ' sensor -raw data -value ' temperature-1 ( 80;630 ) 80.630'deg. F = ~81.650'deg. F -temperature 2 ( 81.650 ) =~ 81.710 deg. F temperature 3 ( -81.710 ) = 81.700 deg. F-temperature 4 ( 81.700 ). = m temperature 5 ( 82.600-) 82.600 deg. F 3 = 82.750 deg.1F temperature 6 ( 82.750-) = 85.130 dog._F temperature 7 (' -85 130 ) = 89.590 deg. F temperature 8 ( 89.590 ) = 101.060 deg.-F temperature 9 ( 101.060 ) = 95.850_deg. F ' temperature 10 ( 95.850 ) = temperature 11 ( 84.670 ) -84.670 deg -F = 84.150 deg. F temperature-12 ( 84.150 ) = 87.420'deg. F temperature 13 ( 87.420 ) = 87.490 deg. F temperature 14 ( 87.490'.) = 74.060 deg. P, 0.4163 psia dewpoint 1 (- 74.060 ). = 75.350 deg..F,-0.4347--pnia dewpoint-2 -(. 75.350 ) = 74.940 deg .F,-- 0.4288 pria' dewpoint-3 -( 74.940 ) = 77.860 deg. F, 0.4724. psia dowpoint 4 ( 77.860 ) = 78.300 deg. F,-O.'4793-psia dewpoint 5 (! 78.300 ) = 79.280 deg. F., 0.4950 psia dewpoint 6 (' 79.280 ) = 81.050.deg.- F,.0.5245 psia dewpoint 7 -(- 81.050 ) .A = j 3 14.5327 psia: pressure 1 ( 14.5327 ) = 3 pressure 2 .( .14.5655 ) = 14.5655 psia weighted averages,. volume and air mass '85.67936'deg. F ~ temperature = -14.53270 psia pressure- = vapor pressure = 0.47346;psial 277400 cu. ft.. l volume = dry' air mass 19302.86?lbm = l-l l~ l-bs J

1992 HNP Unit:2iPressurization-data set: 'S-e time = -345 .date = 1106 sensor. raw; data _value ^ temperature 1 ( 79.120.) 79.120 deg. F" = temperature 2 ( 80.280 ) 80.2801deg F = 80.'280 deg. F temperature _ 3 ( 80.280 ) = temperature-- 4 ( 80.230 ) 80.2301deg._F = temperature 5 ( _80.650-) 80.650 dog.-F = temperature 6 ( 81.670 ) 81'.670 deg. F = 83.420_.deg. F-temperature 7 ( 83.420 ) = temperature 8 ( 89.350 ) 89.350_-dog. F = 100.260 deg. F temperature 9 ( 100.260 ) = temperature 10 ( _94.'750 ) 94.750 deg. F- = temperature 11 (' 83.150 ) B3.150 deg.~F = temperature 12 (- 83.480 )- 83.480 deg. F = 84.230 deg.~F= l temperature 13 ( _84.230 ) = 84,560 deg.-F temperature 14 ( 84.560 ) = dowpoint= 1 ( 73.530 ) 73.530 deg. ,-0.4090-psia = dewpoint _ ( 74.650-) 74.650 deg.~F-0.~4246 psia 2 a' -dewpoint: 3 _( 74.530-) 74.530Ldeg.. F_, 0.4229_ psia: = -dowpoint 4 ( 77.300 ) 77.300 dog. FE, 0.4638_ psia- = dowpoint 5 ( 77.270 ) 77.270 deg. F: 0.4633-paia1 = dowpoint 6 ( 79.430-) 79.430-deg. F-,i 0.4975 psia ~ (p) dewpoint 7 (- 80.740 ) = _80.740-deg'.-F, 0.5192 psia = 1*,.5999 psia 4 Lpressure 1 ( 14.5999-). = 114.63441 psia. pressure 2 ( 14.6344-) = weighted averages,. volume.and--air mass- -84.01363 deg. F temperature = 14.59990 psia-pressure = vaportpressure = 0.46785, psia volume -277400 cu. ft.: =- dry-air mass 19462.26 lbm- =

1992 HNP Unit 2 Pressurization data set 6 time = 400 date = 1106 sensor raw data value 78.810 deg. F temperature 1 ( 78.810 ) = 80.060 deg. F temperature 2 ( 8s.060 ) = 80.090 deg. F temperature 3 ( 80.090 ) = 79.960 deg. F temperature 4 ( 79.960 ) = 80.300 deg. F temperature 5 ( 80.300 ) = 81.480 deg. F temperature 6 ( 81.480 ) = 83.160 deg. F temperature 7 ( 83.160 ) = 89.490 deg. F temperature 8 ( 89.490 ) = 100.270 deg. F temperature 9 ( 100.270 ) = 94.920 deg. F temperature 10 ( 94.920 ) = 82.870 deg. F temperature 11 ( 82.870 ) = 83.080 deg. F temperature 12 ( 83 080 ) = 83.460 deg. F temperature 13 ( 83.460 ) = 83,810 deg. F temperature 14 ( 83.810 ) = 73.210 deg. F 0.4046 psia dewpoint 1 ( 73.210 ) = 74.280 deg. F 0.4194 psia dewpoint 2 ( 74.280 ) = 74.400 deg. F 0.4211 psia dowpoint 3 ( 74.400 ) = 76.780 dog. F 0.4559 psia dewpoint 4 ( 76.780 ) = 76.880 deg. F 0.4574 psia dowpoint 5 ( 76.880 ) = 79.630 deg. F 0.5007 psia dewpoint 6 ( 79.630 ) = O 80.730 deg. F 0.5191 psia dowpoint 7 ( 80.730 ) = 23.9577 psia pressure 1 ( 23.9572 ) = 14.6395 psia pressure 2 ( 14.6395 ) = weighted averages, volume and air mass 83.66777 deg. F temperature = 23.95720 psia pressure = vapor pressure = 0.46587 psia 277400 cu. ft, volume = 32372.19 lbm dry air mass = O

1992-HNP Unit 2 Pressurization. data ~ set' ? Yt " { I A. f time = -415-Jdate = 1106 sensor ' raw: data value-80.490 deg. F temperature' 1 (- 80.490 ) = 81.890 dog. F-temperature-2 ( __81.890-) = 81.970 deg. F temperature 3- ( 81.970 ) = 81.980_deg. F-temperature 4 (. 81.980 ) = 82.840-dog. F temperature 5 ( 82.840-) = 83.040Tdeg.-F temperature 6 (- 83.040 ) = 85.690 deg. F-temperature 7 ( 85.690 ) = 90;700_deg. F temperature 8 ( 90.700 ) = 102.060 dog.-F-temperature 9 ( 102.060 ) = 97.120 deg. F temperature.10 ( 97.120 )- = 84.820 dog. F temperature-11 ( 84.820 ) = = - 83.J70 dog. F= temperature 12 ( 83.870 )

87. 04 0: deg. F temperature 13

(- 87.040 ) = temperature 14 ( 87.240') 85.240 deg. FE = 73.880 deg. F,_0.4138 psia dowpoint 1 ( -73.880-) = '75.120 deg. FJ, 0.4314, psia-dowpoint 2 ( 75.120 ) = 75.110 deg.- F, 0.4312-psia-dowpoint 3 -( 75.110.) = 77.540 deg. F_-, 0.4675 psia-dewpoint 4 _( 77.540-) = 77.960-deg. F, 0.4740 psia-dewpoint S-(- 77.960 ) = 79.570'deg.'F', 0.4997 psia f', dowpoint 6 ( 79.570 ) = 81.740 deg..F,_0.5364 psia A ~dowpoint 7 (- 81.740 ) = 26.6737 psia pressure 1 ( 26.6737.) = = 26.6714 psia. pressure 2 ( -26.6714 )~ weighted averages, volume and air _ mass _ 85.84237[deg. F-temperature- = pressure- -26;67370Lpsia- = l vapor pressure = 0.'47592 psia 277400 cu.-ft. volume = dry air mass 35957-.91Elbm = r l '. i -- %). L L

1992 HNP Unit 2 Pressurizationi data set-8

, y j(_)S time =' 430'

'date:=~1106 sensor raw data - value i 80.740 deg.: F temperature -1 ( -80.740 ) = 82.340-deg. F temperature 2 ( - 82.340 ) = = ' 82.300 deg..F -temperature 3 ( 82.300 ) 82.400;deg. F temperature 4'(- 82.400 ) = 83.360-deg. F1 temperature 5-( 83.360 ) = B3.590-deg. F. temperature 6 ( 83.590 ) = 86.350ldeg. F-temperature 7 ( 86.350~) = 91.600.-deg. F temperature 8 ( 91.600 ) = 102.860 deg.;F. temperature 9 ( 102.860 ) = 98.020 deg. F temperature 10 (- 98.020;) = 85.260:deg. F temperature 11 (- 85.260 ) = S4.160-deg. F temperature 12 ( 84.160 ) = 88.160 deg. F temperature 13 ( 88.160 ) = 88.310 deg. F temperature 14 (- 88.310 ). = 74.380 deg.1F1,:0.4208Lpsia1 dewpoint 1 -(- 74.380') = 75.820 deg. F, 0.4415 psia = dewpoint 2 (= 75.820 ) = 75.480.deg. F 0~.4366 psia' 'dowpoint 3 ( 75.480 }- = 78.600-deg.-F., 0.4841' psia dewpoint 4-( 78.600 ) = 78.760?deg. F;,3 0.'4866; psia: dewpoint 5 (- 78.760 ) = 79.290 deg. IE, _ 0. 4952 : psia dewpoint 6 ( 79.290 ) = + . f 3): dewpoint. 7 ( 81'310 ) 81.310-deg. F, 9.5289 psia (- = s 30.2604-psia pressure 1 ( 30.2604 ) =- -30.2596(psia-pressure 2. ( 30,2596 ) = weighted averages, volume and air mass L86. 477 04. deg. c Fl .temperaturez =- 30.26040;psla1 -pressure =- 0.478791 psia-vapor pressurl =- 277400-cu.-ft.' volume = dry air-mass -40829.42?lbm = w +, v

e '.1992-HNP Unit 2 Pressurization data set 9 '- yg \\f time = 445-date = 1106 ~ sensor raw data value ~ 80.620 dog. F- .t temperature 1 ( 80.620 ) = 82.300-deg. F temperature-2 ( _82i300 ) = 82.280 deg. F . temperature 3- ( 82.280 ) = 82.370 deg. S temperature 4 ( 82.370 ) = 83.260-deg.,F-temperature 5 ( 83.260 ). = 83.630 deg. F temperature _6 ( 83.630 ) = 86.550 deg. F temperature 7 ( 86.550 ) = 92.160 deg.:F temperature 8 ( 92.160 ) = 103.210 deg. F temperature-9 ( 103.210 ) = 98.480 deg. F temperature 10 ( 98.480-)- = 85.170'deg. F a temperature 11 ( 85.170 ) ,= temperature 12 ( 84.480 ) 84.480 dog..F. = temperature:13 ( 88.090 ) 88.090 deg.-F =- 88.220 deg. F-temperature 14 ( 88.220 ) = 74.540-deg. F, 0.4231_ psia dowpoint 1 .( 74.540 ) = 76.110 deg. F-,.0.4458' psia-dowpoint-2 ( 76.110 ) = 75.570 deg. F, 0.4379 psiaf dewpoint 3 ( 75.570 ) = 79.160 dog. F', 0.4931Lpsia? dewpoint 4 ( 79.160 ) = 78.980 deg. F,-.0.4902 psia-dewpoint 5-( 78.980 ) = 79.150 deg.LF, 0.4929 psia-dewpoint 6 ( 79.150 ) = 80.770.deg. F_- 0.5197 psial dowpoint 7 ( 80.770 ) = y 33.3899: psia-= 1 -( -33.3899 ) _'cressure = 33.3887-psia pressure 2 ( 33.3887 )' = ueighted_ averages, volume and air mass 86.53893fdeg. F temperature =- 33.38990Lpsia pressure =- vapor pressure = 0.47843-psla~ volume-277400 cu. ft. = dry air mass 45115.21 lbm- =

u 1992-HNP= Unit 12 Pressurization 4 data set - 10 p. [s_f-time = 500 date = 1106: sensor raw data value 80.680 deg. P-temperature 1-(- 80.680 ) = temperature 2 (- 82.160 ) 82.160-deg. F = 82.170'deg.~F temperature 3 ( 82.170 ) = 82.190 deg. F temperhture 4 ( 82.190 ) = temperature -5 ( 83.060 ) 83.060 deg..F = 83.560.deg.. F temperature 6 ( 83.560 ) = 86.420 deg. F-temperature 7( 86.420 ) = 92.610 deg. F temperature 8 ( 92.610 ) = 103.330 dog. F temperature 9 ( 103.330 ). = 98.450 deg.-F-temperature 10 ( 98.450.) ~ .84.930 deg..F = temperature 11 ( 84.930 ) = 84.760 deg. F-temperature 12 ( 84.760 ) o= 87.420 deg. F temperature 13 ( 87.420 -) = B7.770 dog; F temperature 14 ( 87 770 ) = 174.540 deg.'F,-0.4231' psia-dowpoint 1 ( 74.540-) = 76.020 deg. F,-0.4445: psia dewbuint 2 ( 76.020 ) = 75.500 deg. F,-0.4369 psia dewpoint 3 (- 75.500L) = -79.340.deg. P, 0.4960 psia' dewpoint 4 ( 79.340 ) = 78.870 deg. F, 0.4884' psia dewpoint' 5' ( 78.870 ) = 79.410 deg. F, 0.4971 psia f g. dowpoint 6 ( 79.410 ) = '80.670 deg.:F,'O.5180 psia (,) dewpoint-7 ( 80.670 ) = . pressure. 1-( 35.7991.) 35.7991 psia! = 35.8008 psia-pressure - 2 ( 35.8008: ) -= weighted' averages, volume-and air mass 86.39471Ldeg -F temperatura = 35.79910 psia; pressure- = _ vapor pressure = 0.47891 psia 277400 cu.- ft. volume = dry air mass =. 48429.88;1bm

j:

DL) w g

/ i 1992 HNP Unit.2) Pressurization. ~ data' set z 11 \\_si ' time = 515 date =-1106~ sensor raw data. value l 80.680 deg. F temperature 1 ( 80.680 ) = 82.200 dog. F. temperature 2-( -82.200 ) = 82.210.deg. F temperature 3 (- 82.-210 ) = 82.230 deg. F temperature-4 (. 82.230-) = 83.100 deg.'.P temperature 5( 83.100 ) = 83.740'deg. F temperature 6- ( 83.740-) = B6.650 deg. F-temperature 7 ( 86.650 ) = 93.030 deg. F temperature 8 ( 93.030 ) = 103.570 deg. F temperature' 9L( 103.570 ) = 98.810:deg. F temperature 10 (- 98.810 ) = 84.970 deg. F temperature-11-( 84.970 ) = 84.910 deg. F' temperature-12 ( 84.910 ) = 87.430 deg. F temperature 13 ( 87.430-) v = '87.780-deg. F temperature 14 (.87 780 ) = 74.610-deg. F.,- 0.4241 psia-dewpoint 1 ( 74.610 ) = 76.160 deg. F~, 0.44661 psia dewpoint 2 -( - 7 6 =.16 0 - ) =- 75.550 deg. F', 0.4376 psia. dewpoint 3 ( -75.5501) -= 79.440 deg. F., 0.4976Epsia-dewpoint 4 ( 79.440-) = 78.940 deg.-F., 0.'4895(psia-dewpoint' 5 ( 78.940 ) = 79.550 deg. F, 0.4994' psia f-- dewpoint 6 (- 79.550 ) = 80.640-deg. F,'-0.5175 psia, ( dewpoint 7 ( 80.640 ) = 38.2168 psia. pressure-1 ( 38.2168 ). = 38.2170 psia-pressure ~ 2 ( 38.2170 ) -= weighted-averages,-volume and airimass 86.49845 deg. F temperature ~ = 38.21680 psia pressure = vapor pressure = 0.48001fpsia 277400 cu. ft.. volume = dry air mass '51733.62 lbm = R I ~ )

4 -1992XHNPLUnit' 2LPressurization' data set-12" time = -530 ~ date = 1106 sensori raw 1 data value -80.830 deg..F- ~ temperaturn -1 ( '80.830 ) = 82.290 deg. FL temperature 2 ( 82.290 ) = -82.280 dog. F temperature 3 ( 82.280 ) = 82.300;deg F temperature 4 (- 82.300.) = 83.180 deg.-F temperature: 5 ( -83.180 ) = 83.890_deg. F temperature 6 ( 83.890 ) =. 86.870xdeg.-F temperature 7- ( 86.870 ) = 93.500_deg.:F temperature 8 ( 93.500 ) = 103.780 deg. F temperature 9 ( 103.780 ) = 99.160 deg. F temperature 10-( 99.160 }- = 85.070_deg.;F temperature 11 ( 85.070 ) = 85.120 deg. F temperature 12 ( 85.120 ) = 87.500 deg. F temperature.13 ( 87.500 ) = 87.840 deg. F temperature 14 ( 87.840 ) = 74.660 deg. F., 0.4248Epsia dewpoint. 1 ( 74.660 ) = 76.240 deg..F', 0.4478Lpsia: dewpoint 2 ( 76.240 ) = '75. 600 deg.1 Fi,-. _0. 4 3 8 3 psi'a -dewpoint 3 ( 75.600 ) = 79.560.deg.-_F, 0.4996_ psia dewpoint 4 ( 79.560-) = 78.9501deg. F,10.4897~ psia ~ dewpoint-5 (- 78.950 ) = -79.600-deg. F=, 0.5002 psia? dewpoint-6 (' 79.600 ) = O 80.660'deg. F, 0.5179 psia dewpoint 7. ( 80.660 ) = 40'6374 psia pressure 1 ( 40.6374 )' =- '40.6427-psia. pressure 2 ( 40.6427 ) = weighted averages, volume and. air-mass

n 86.642201deg.-F

~ temperature =- 40.63740 psia-pressure = vapor-pressure = 0.48082 psia 2774001cu.:ft, E volume = dry air masn' 55036.'45 lbm = I W

1992 HNP Unit 2 Pressurization dater act 13 time = 545 date = 1106 sensor raw data value 80.880 deg. F temperature 1 ( 80.880 ) = 82.330 dog. F temperature 2 ( 82.330 ) = 82.360 deg. F temperature 3 ( 82.360 ) = 82.390 deg. F temperature 4 ( 82.390 ) = 83.250 deg. F temperature 5 ( 83.250 ) = 84.080 dog. F temperature 6 ( 84.080 ) = 87.110 deg..F temperature 7 ( 87.110 ) = 94.000 deg. F temperature 8 ( 94.000 ) = 104.080 deg. F temperature 9 ( 104.080 ) = 99.550 deg. F temperature 10 ( 99.550 ) =- = 85.100 deg. F temperature 11 ( 85.100 ) = 85.240 deg. F temperature 12 ( 85.240 ) = 87.530 deg. F temperature 13 ( 87.530 ) = 87.910 deg. F temperature 14 ( 87.910 ) = 74.750 deg. F 0.42 dewpoint 1 ( 74.750 ) = 76.370 deg. F 0.4497 psia dewpoint 2 ( 76.370 ) = 75.700 deg. F 0.4398 psia dewpoint 3 ( 75.700 ) a 79.700 deg. F 0.5019 psia dewpoint 4 ( 79.700 ) = 79.060 deg. F, 0.4915 psia dewpoint 5-( 79.060 ) = 79.640 deg. F, 0.5009 psia dewpoint 6 ( 79.640 ) = () dewpoint 7 ( -80.680 ) 80.680 deg. F, 0.5182 psia = 43.0688 psia pressure 1 ( 43.0668 ) = 43.0716 psia pressure 2 ( 43.0716 ) = weighted averages, volume and air mass 86.76904 deg. F temperature = 43.06880 psia pressure = vapor pressure = 0.48200 psia 277400 cu. ft. volume = 58353.62 lbm dry air mass =

1992 HNP Unit 2 Pressurization-data set 14 b \\_) time = 600 date = 1106 i i sensor raw data value 80.850 deg.-F temperature 1 ( 80.850 ) = 82.390 deg. F temperature 2 ( 82.390 ) = 82.440 deg. F temperature 3 ( 82.440 ) = 82.480 deg. F temperature 4 ( 82.480 ) = 83.310 deg. F temperature 5 ( 83.310 ) = 84.230 deg. F temperature 6 ( 84.230 ) = 87.360 deg. F temperature 7 ( 87.360 ) = 94.500 deg. F temperature 8 ( 94.500 ) = 104.350-deg. F ~ temperature 9 ( 104.350 ) = 99.940 deq-F temperature 10 ( 99.940 ) = 85.130-deg. F temperature 11 ( 85.130 ) = 85.340 deg. F temperature 12 ( B5.340 ) = 87.560 deg. F temperature 13 ( 87.560 ) = 87.960 deg. F temperature 14 ( 87.960 ) = 74.820 dog. F 0.4271 psia dewpoint 1 ( 74.820 ) = 76.460 deg. F 0.4510 psia dewpoint 2 ( 76.460 ) = 75.790 deg. F, 0.4411-psia dewpoint 3 ( 75.790 ) = 79.830 deg. F 0.5040 psia dewpoint 4 ( 79.830 ) = 79.140 dog. F, 0.4928 psia dowpoint 5 ( 79.140 ) = 79.610 deg. F, 0.5004 poia dewpoint 6 ( 79.610 ) = 80.690 deg. F, 0.51841 psia ~ ( dewpoint 7 ( 80.690 ) = 45.4946 psia pressure 1 ( 45.4946 ) = 45.4990 psia pressure-2 ( 45.4990 ) = weighted averages, volume and air mass 86.88303 deg. F_ temperature = 45.49460 psia pressure = vapor pressure = 0.48273 psia 277400 cu. ft, volume = 61663.66 lbm-dry air mass =-

1992lHNP Unit 2 Pressurization;- . dar.a' set 15:_ _p-4 time '= 1615? 'date-= 1106 . sensor raw': data. .value 81;040 deg.- F~ temperature .1 - ( 81.040 ) =- 32.510 deg.fF: -temperature 2-(. 82.510 ) = 82.5701deg.-F temperature 3 ( 82.570 ) = 82.660 deg.uF temperature 4 -( 82.660 ) -= 83.450 deg.-F temperature 5'( 83.450 )

== 84.490(deg. F temperature 6 ( 84.490 ) = temperature 7 ( 87.730 ) 87.730 deg. F__ = 94.970 deg._F temperature 8 ( 94.970 ). = 104.650-deg. F f temperature 9f( 104.650 ) = temperature-lo ( 100.450 )_ 100.450fdeg._F = '85.250Ldeg. F temperature 11 (- 85.2501). = 85.420_deg. F' temperature 12 ( 85.'420 ) = 87.650 deg.:F temperature 13 ( 87.650-) = temperature 14 ('188','100 )' 88.100 deg.fF = 74.920~deg. F, 0.4285 psia: dewpoint 1 ( .74.920 )f = 76.530 deg.-F.,'O.4521-psia. dewpoint _2 "( 76.530 ) = 75.960 deg. FJ, 0.4436.-psia dewpoint 3 ( 75.960-) = 79.980 deg.-F, 0.5065-psia-dewpoint" 4 ( 79.980 ) = 79.250 deg. F, 0.4945 psia dewpointL 5' (_ 79.250.) =- 79.590 deg.'F':,-0.5001' psia ~ dewpoint .6 ( '79.590 ) =- O 80.760.deg 'F, 0.5196' psia dewpoint 7' ( 80.760') = 4810236 psia J . pressure 1 -( 48.0236c) = 48.0261l psia _ pressure 2-( 48.0261 ) = weighted averages, volume and air. mass -87.071592deg.LF! temperature- =: 48.02360: psia' pressure = vapor pressure = f0.48398 psiac 2774 00 - cu.-- f t. - volume =- dry air mass 65104.06 lbm =~ m ^ $_ 1 h F f i

1492 HNP-Unit 2 Pressurization 'datatset 16. ?,Q -j 3(_) ~ time = 630 date = 1106- - sensor raw data value. temperature 1-( 181.100 ) 81.100 deg. F. = -82.680~deg. F temperature 2 ( 82.680 ) = 82.750 deg._F ~ temperature ~ 3( 82;750 ) = 82.910 deg..F temperature 4( 82.910 ) = 83.630 deg. F temperature 5 (- 83.630 ) = 84.800 deg. F- . temperature 6 (- 84.800 ) = 8 8. 1 2 0._.d e g.- F temperature ( 88.120 )- =- temperature 8' ( 95.570.) .95.570=deg. F- = 105.060-Ldeg. F temperature 9 ( 105.060 ) = 100.820 deg.1F_ ' temperature 10 ( 100.820 ) = 85.310 deg. F temperature-11 (. 85.310.) = 85.560 deg. F temperature 12~( 85.560 ) = 87.930 dog. F-temperature 13 ( 87.930 ) = 88.380.deg. F-temperature 14 ( 88.380 ) = 75.160 deg. F, - 0. 4319 psia - dewpoint 1 ( 75.160 ) = 76.700-deg.1F:,:0.4546 psia-dewpoint: 2 ( 76.700-) = 76.170 deg. F,c0.4467 psia. -dewpoint 3 ( 76.170 ) = 80.200-deg._F, 0.5102Lpsia? dewpoint '4 ( 80.200 ) = 79.'430 deg.DF,f0.4975 psia, dewpointJ 5 _( 79.430 ~) = f-dewpo' int-!6 ( 79.640 )- 79.640'deg. F, O'.5009-psia:

== 80.720 deg.iFm, 'O. 518 9 " ps ia - dewpoint 7 (~ 80.720 ) = pressurs- 'l-( 50.8034 ) 50.8034 psia = 50.8084 psia. pressure 2 ( 50.8084 ), = weighted averages,_ volume-and air mass '87.31295'deg._F temperature =- pressure =: _50.80340 psia vapor pressure = 0.48577' psia: 277400:cu; ft. volume = dry air mass 68878.06 lbm = o i L L L l: l l1 w,

'1992-HNP Unit 2 Pressurization -data' set 17 L,"%] tine = 645 date = 1106 sensor raw data value l 80.9 80 : deg. -. F-temperature =1-( 80.980 ) = temperature 2 ( 82.780 ) 82.780,deg. F- = temperature: 3- ( 82.860 ) 82.860 deg. F- = temperature

4. (

83.020 ) 83.020 deg. F = 83.760-.deg. F temperature ~ 5 (- 83.760 ) = temperature-6 ( 85.050-) 85.050.deg. F = 88.380 deg. F temperaturc 7 ( 88.380 ) = -temperature 8_( 96.070') 96.070:deg.~F: = temperature 9 ('105.270 ) 105.270_deg. F. = 101.280:deg. F temperature 10 ( 101.280-) = temperatura 11 ( _85.330.) 85.330 deg. F = 85.670 deg.f F temperature 12 ( 85.670 ) = 88.000 deg. F temperature 13 ( 88.000-) = =' 88.490 deg. F~ temperature.14 ; 88.490 ) 75.310-deg. F, 0.43411 psia. dowpoint 1 ( 75.310 ) =. dewpoint 2 ( 76.840-) 76.840 deg. F, 0'.4568 psia = 76.380 deg. F, 0.4498: psia. -dowpoint 3 ( 76.380-) = 80.420 deg. F', 0.5138 psia; dowpoint 4 ( 80.420-) = dewpoint 5 (;~79.600 ) 79.600_deg. F,.0.5002 psia' = 79.640 deg. F, 0.5009Jpsia -(i dewpoint 6-(- 79.640 ) = () dowpoint '7 ( 80.760 ) 80 760 deg. F., 0.5196 psia: = 53.5567 psia pressure 1 -( 53.5567 ) = 53.5590 psia pressure 2 ( 53.5590 ) = weighted averages, volume and air-mass' 8 7_. 4 4 9 5 3 L deg. - F-temperature = 53.55670: psia pressure 4 vapor pressure = ~0.48749 psia' volume 277400 cu.-ft. = dry air mass' 72626.48 lbm- = b

1992 HNP Unit 2 Pressurization data set 18 time = 700 date = 1106 sensor raw data value 81.030 deg. F temperature 1 ( 81.030 ) = 82.830 deg. F temperature 2 ( B2.830 ) = 82.910 deg. F temperature 3 ( 82.910 ) = 83.130 dog. F teloperature 4 ( 83.130 ) = 83.870 deg. F temperature 5 ( 83.870 ) = 85.190 deg. F temperature 6 ( 85.190 ) = 88.590 deg. F temperature 7 ( 88.590 ) = 96.490 deg. F temperature 8 ( 96.490 ) = 105.490 dog. F temperature 9 ( 105.490 ) = 101.610 deg. F temperature 10 ( 101.610 ) = 85.320 deg. F temperature 11 ( 85.320 ) = 85.740 deg. F temperature 12 ( 85.740 ) = 88.020 deg. F temperature 13 ( 88.020 ) = 88.540 deg. F temperature 14 ( 88.540 ) = 75.450 deg. F 0.4361 psia dewpoint 1 ( 75.450 ) = 76.970 deg. F 0.4587 psia dowpoint 2 ( 76.970 ) = 76.630 deg. F, 0.4536 psia dowpoint 3 ( 76.630 ) = 80.610 deg. F 0.5170 paia-dewpoint 4 ( 80.610 ) = 79.690 deg. F 0.5017 psia dewpoint 5 ( 79.690 ) = 79.640 dog. F 0.5009 psia dowpoint 6 ( 79.640 ) = O 80.760 dog. F 0.5196 psia dewpoint 7 ( 80.760 ) = 56.2632 psia pressure 1 ( 56.2632 ) = 56.2675 psia pressure 2 ( 56.2675 ) = weighted averages, volume and air mass 87.55076 deg. F temperature = 56.26320 psia pressure = vapor pressure = 0.48896 psia 277400 cu. ft. volume = 76314.25 lbm dry air mass = O

1992 HNP Unit 2-Proscuritation= b d'ta_ set'=19 i a .. fy A_) (time"=?:715 'date-==1106 ~ sensor raw data: value-81.040-dag.nF .. temperature 1 - {- 81.040 ) = temperature-2 ( 82.900 ) 82.900 deg.-F' =- temperature -3 ( -82.970 ) 82.970 deg. F = temperature 4 ( 83.-260 ) 83.'260 deg.1F: y = 83;960:deg; F. temperature _ 5 ( 83.960 ) =- temperature 6'( 85.350 ) 85.350fdeg.;F = temperature 7 ( 88.820 ) 88.820 deg. F = temperature 8 ( 96.900 ) 96.900 deg. F-; = 105.750 dog. F-temperature 9 ( 105.750 ) = 102.020Ldeg..F temperature 10 ( 102.020 ) = a temperature 11 ( 85.290 ) 85.290Edeg. F = temperature 12 ( 85.810') 85'.810 deg.'F. = 87.980-deg. F temperature 13 ( 87.980-) = 88.560 deg. F temperature 14 ( 88.560 ) = dewpoint 1 -( 7 5,.,9 0_ ) 75.590 deg.<F,"O.4382; psia; = dewpoint 2 ( 77.070 ) 77.070 deg.;F,-0.4603Lpsia- = dewpoint 3 ( 76.830.) 76.830 deg.'F, O'.4566-. psia = dewpoint 4 ( 80.790 ) 80.790 dog.-.F1, 0.5201l psia: = dowpoint 5 ( 79.820 ) 79.820-deg. F, 0.5039 psia = I dowpoint 7 (. 80.820 ) 79.600 deg.JF., 0.5002--psia dewpoint 6 (' 79.600 ) = 80.820 deg.'F, 0.5206: psia: = 58'9165LpsiaL . pressure 1 (_ 58.9165 )- = 58.9150 psia" 4 . pressure 2 ( 58.9150 ) = weighted averages, volume and air mass 87.64523 dag.--.F temperature = -58. 91650 -: psia-pressure- = vapor pressure = 0.49039 psia" volume-277400 cu. f t'. = dry air mass 79928.92;1bm = s 'IhJ q e o

J 1992 HNP Unit--2 Pressurization .+ -data-set-20- -, T[' S .date ='1106 Jg_f} timOL=1730; sensor raw data value 1 81.120 deg' Fc temperature 1 g 81.120')~ = 8 2. 9 4 0_ deg. -- F temperature '2 ( B2.940-) = 83.030 dog..F temperature-3-(. 83.030 ) = 83.340 deg...F temperature 4 ( D3.340.)_ = 84.000 dog. F, temperature 5 -( 84.000 ) = -85.503 dog..F temperature G ( 85.500 ) = 89.030 deg. F temperature 7 ( 89.030 ) = 97.310-deg.LF torperature 8-( 97.310 ) = 105.370 deg. F temperature-9 ( 105.970 ) = 302.300 deg. F. temperature 10 ( 102.300-) = 85.260:deg. F temperature 11 ( 85.260 ) = 85.870 deg. F temperature 12 ( 85.870 ) = 97.970 deg. F temperature 13 ( 87.970 ) = 88.550 deg. F ---- temperature 14-( 88.550_) = 75.730-dag. F, 0.4402: psia dowpoint 1 ( 75.730 )- = 77.150 deg.'T, 0.4615 psia dewpoint 2' ( 77.150-) =. 77.000 deg. F, 0.4592 psia-dewpoint 3 ( -77.000_) = 80.960 deg. F_, 0.b230-psia-dowpoint 4 ( 80.960 )_ = 79.900-dog._F, 0.5052.paia dowpoint-5_ -( -79.900 ) = 79.600 deg..FL,.0.5002Jpsia-dowpoint 6 ( 79.600 ) = 80.820 dog. F,.0.5206 psia. d () dewpoint 7 ( 80.820 ) = 61.5202 psia: pressure 1 ( 61.5202-) = 61.5214-psia-pressure 2 ( 61=. 5214 -) = weighted-averages, volume and air mass l

87.72691 deg:. F 1

temperature = 61.52020 psia: pressure = vapor pressure = 0.49156. psia = j 277400 cu.:ft. volume ' = 83476;81-lba dry air mass = I c.

k l

1992 !!NP Unit 2 Pressurization data set 21 .,,m . time a 745 dato i 1106 sensor raw data value 81.190 deg. F temperature 1 ( 81.190 ) = 83.000 deg. F temperature -2 ( 83.000 ) = 83.060 dog. F temocrature -3 ( 83.060 ) = 83.460 dog. F temperature 4 ( 83.460 ) = 84.060 deg. F temperature 5 ( 84.060 ) = 85.630 dog. F temperature 6 ( 85.630 ) = 89.230 deg. F temperature 7 ( 89.230 ) = 97.850 dog. F temperature 8 ( 97.850 ) = 106.190 dog. F temperature 9 ( 106.190 ) = temperature 10 ( 102.620 ) 102.620 deg. F = 85.270 dog. F temperature 11 ( 85.270 ) = 85.900 dog. F temperature 12 ( 85.900 ) = 87.950 dog. F temperature 13 ( 87.950 ) = 88.580 deg. F temperature 14 ( 88.580 ) = 75.820 dog. F 0.4415 psia devpoint 1 ( 75.820 ) = 77.240 dog. F 0.4629 psia dewpoint 2 ( 77.240 ) = 77.160 deg. F 0.4616 psia dewpoint 3 ( 77.160 ) = 81.120 deg. F 0.5257 psia dowpoint 4 ( 81.120 ) = 80.020 deg. F., 0.5072 psia dewpoint 5 ( 80.020 ) = 79.590 deg. F 0.5001 psia dewpoint 6 ( 79.590 ) = 73 80.910 deg. F, 0.5221 psia V dewpoint 7 ( 80.910 ) = 64.0691 psia pressuro 1 ( 64.0691 ) = 64.0760 psia pressure 2 ( 64.0760 ) = weighted averages, volume and air mass 87.81984 dog. F temperature = 64.06910 psit pressuro = vapor pressure = 0.49299 psia 277400 cu. Eft. volume = 86946.56 lbm dry air mass =

g-i 1992-HNP Unit 2jPressurization1 data set-22' d time =- 800 date ='1106 sensor Lravgdata- -value temperature 1 ( 80.9501) 80.950 deg. F = temperature 2 ( 82.780 ) 82.780-deg. F = temperature 3 ( 82.880 ) 82.880-deg. F = temperature 4 ( 83.210 ) 83.210 deg. F1 = '83.840 deg. F temperature 5 -( 83.840 ) = 85.560 deg. F temperature 6 ( 85.560 ). = temperature 7 ( 89.020 ) 89.020 deg.-F = temperature 8 (.98.000 ) .98.000 deg.'F. = temperature 9 ( 106.140 ) 106.140'deg. F = temperature'10 ( 102.560 ) -102.560 deg. F = temperature 11-( 85.070 ) 85.070 deg. F = temperature 12 ( 85.880 ) 85.860'deg. F = temperature 13 ( 87.460 ) 87.460-deg. F = 88.130 deg. F temperature 14 ( 88.130 ) = dewpoint 1 ( 75.850 ) 75.850-deg. F., 0.4420 paia = dewpoint 2 ( 77.170 ) 77.170 deg. F1,_ 0.4618epsia = dewpoint 3 (' 77.190 ) 77.190.'deg. F, 0.~4621 psia; = dewpoint 4 '( 81.190') 81.190.deg. F 0.5269 psia'- = dewpoint 5 (' 79.970_) 79.970 deg.~F', 0.5063 psia = -~g dewpoint' ' 6 _( 79.620 ) .79.620 deg._F 0.5006 psia' = f _ ( j dewpoint 7 ( 80.940 ) 80.940 deg. F, 0.5226tpsia = 65.9194 psia pressure 1 ( 65.9194 ) = 65.9242 psia-pressure 2 (- .65.9242 ) = . weighted averages, volume-and air mass -87.60876 dog.tF temperature.

== 65.91940 psia pressure = vapor-pressure = c0.49330 psia: volume

277400 cu. - f t.

= dry-air mass 89511.13'lbm =- 4 h w

d 1992 HNp-Unit 2'Prescurization data. set? [23 7y-: Xf

time ='- 815 date = 1106 sensor 4 raw data-

-value 80.940 deg. F: temperature 1 ( 80.940 ) i = temperature 2 ( 82.690 ) 82.690 deg.1F = 82.770 deg.-F temperature 3 (- 82.770 ) = 83.110 dog. F temperature 4- ( 83.110 ) = -83.750 deg. P temperature 5.( d3.750 ) = 85.570_deg. P temperature 6 ( 15.570 ) = 89.080l dog. F-temperature-7- ( 'J9. 08 0 ) = _ 98.160-deg.-F-temperature 8 (- 3 G.160 ) = ~ temperature' 9-( 106.170_) 106.170 deg. F = ~102.720 deg. F temperature 10 ( 102.720 ) = 85.020:deg. F temperature 11 ( 85.020 ) =- 85.740 dog.-F temperature 12 ( 85.740 ) =- 87.160 deg._F temperature 13 ( 87.160-) = 87.740 deg. F temperature 14_( -87.740 ) = 75.780 dog..F,-0.4410 psia-dewpoint 1 (- 75.780 ) = 76.990 deg.-F-,-0;4590_ psia-dewpoint 2 ( :76.990-) = + 77.220-deg. F, 0.4625 psia' dewpoint 3 ( 77.220 ) = 81.160 deg. F', 0.5264: psia dowpoint 4 (- 81.160 )- = 79.870 deg. F, 0.5047' psia-dewpoint 5 ( 79.870 ). = ~ s 79.850 deg.-F_,--0.5043-psia l gr dewpoint 6 '( 79.850 ) = 81.160 deg. FL, 0.5264: psia dowpoint 7 ( 81.160 ) = 67~.5097 psia-pressure 1 ( 67.5097 ) = 67.5111 psia 3 pressure 2 -( 67.511*. ) = -weighted averages, volume and air mass 87.50698 deg.- F: [ I temperature = - 67. 5 09 7 0--psia-pressure' = vapor pressure = 0.494477 psia- -277400 cu.Hft. volume = dry air mass 91702.30 lbm = 9 f f ) ! a Lu. I h

I 19921HNP Unit:2: Pressurization s; ' data set 24

jg..

kuI time =- 830 date =-1106-sensor raw data value-e 81.000 deg. F temperature 1 ( 81.000 ) = 82.670 deg. F temperature 2'( 82.670 ) = 82.750 deg. F temperature 3 ( 82.750 ) = 83.090 deg. F temperature 4 ( 83.090 ) = 83.760_deg. F temperature _ 5 ( 83.760 ) = 85.650:deg. F temperature 6( 85.650 ) = 89.170 deg. F temperature 7 ( 89.170 ) = 98.370 deg, F temperature 8 ( 98.370 ) = 106.350 dog. F-temperature 9 ( 106.350 ) = 102.890 deg..F j temperature 10 ( 102.890 ) = 85.010 deg. F temperature 11 ( 85.010 ) = 85.720 deg. F temperature 12 ( 85.720 ) = 87.010 deg. F temperature 13 ( 87.010 ) = 87.580 deg. F temperature 14 ( 87.580 ) = 75.760 deg. F, 0.4407' psia dewpoint 1 ( 75.760 ) = 76.900 dog. F 0.4577 psia dewpoint 2 ( 76.900 ) = 77.270 deg. F,. 0.4633 psia: dowpoint 3 ( 77.270 }- = 81.130 deg. F, 0.5259 psia dewpoint 4 -( 81.130 ) = 79.900-deg. F 0.5052~ psia dewpoint 5 ( 79.900 ) = 79.890 deg. F, 0.5050 psia .r'g dowpoint 6 ( 79.890 ) = 81.310-deg. F, 0;5289 psia [_) _dowpoint 7 ( 81.310 ) = 69.0715 psia pressure 1 ( 69.0715 ) = 69.0774 psiaL pressure 2 ( 69.0774 ) = weighted averages, volume and air mass: temperat'ure 87.50643 deg. F =- 69.07150 psia pressure- = vapor pressure = 0.49512. psia-277400 cu. ft.-- volume = 93838.65 lbm dry air mass = + N 3 j- -u w a

h\\ 1992:HNP Unit _2' Pressurization 1 - data = set: 25-time = 8452 date'=-1106-sensor - raw data-value temperature 1-( 80.950 ) 80.950;deg._F = temperature 2'( 82.670 ) 82.670 dog. F = temperature _3 ( 82.740 ) 82.740 deg. F = 83.090_deg. F temperature 4 ( 83.090 ) =- 83.790 deg. F-temperature 5( 83.790 ) = temperature 6 ( 85.630 ) 185.630 dog. F = temperature, 7 ( 89.290 ) 89.290ldeg.:F-- = 98.600_deg. F temperature 8 ( 98.600 ) = temperature 9_( 106.510 ) 106.510_deg. F = . temperature 10-( 103.150 ) 103 ' 150 deg.: F- = temperature 11 ( 84.990 ) 84,990 dog.-F = 85.680-deg. F temperature 12 ( 85.680 ) = 86.910 deg.LF - temperature 13 ( 86.910 ) =- 87.490 deg. F temperature 14 (_ 87.490 ) = 75.750 deg. 0.4405 psia-dewpoint 1 .( 75.750 ) = 76.820 deg..F, 0.4565 psia-dewpoint 2 ( 76.820-) = 77.390 deg. F,:0.4652 psia' dewpoint 3 ( 77.390 ) = 81.140 deg.-F~, 0.5260 psia ' dewpoint 4 ( 81.140 ) = 79.940 deg._F, 0.5058 psia dewpoint 5 ( 79.940 ) = 79.990:deg. F,_ 0.5067:psiaf g-dewpoint 6 ( -. 79.990 ) = (g dowpoint 7-( 81.420 ) 81.420 deg. F., 0.5308 psia = f 70.6090 psia. pressure 1 ( 70.6090-) = 70.6099. psia pressure 2 ( .70.6099 ) = weighted averages,. volume and air _ mass-87.51054;deg. F. temperature = ~70.60900 psia _ pressure = vapor pressure = 0.49612fpsia-volume ~277400 cu. ft~. = dry air mass 95940.44Elbm. =- Y Y.I e -n--

1992 HNP Unit 2 Pressurization' t 3 -q data.._ set-26-. UN-[ time =- 900' 'date = 1106 sensor -raw data value 81.100!deg. F temperature 1 ( 81.100 ) = 82.440 deg. F-temperature 2 ( 82.440 ) = 82.530Edeg.-F temperature 3 ( 82.530 ) = 82.860 deg. F temperature 4 ( 82.860 ) = 83.640 deg. F temperature 5 ( 83.640 ) = 85.450-deg.-F temperature 6 ( 85.450 ) = 89.350 deg. F temperature 7 ( 89.350 ) = 98.740 deg. F.- temperature E ( 98.740 ) = 106.440 deg. F temperature 9 ( 106.440 ) = temperature 10 ( 103.070 ) 103.070 deg. F = 84.790 deg. F temperature 11 ( 84.790 ) = 85.510 deg. F temperature 12 ( 85.510 ) = 86.510 dog. F temperature 13 ( 86.510 ) = 87.070 deg. F temperature-14 ( 87.070 ) = 75.680 deg. FE, 0.4395 psia dewpoint 1 ( 75.680 ) =. 76.710-deg. F 0.4548 psia dewpoint 2 ( 76.710 ) = 7 77.430 deg. F., 0.4658. psia a dewpoint 3 ( 77.430 ) = 81.050 deg. F,'O.5245. psia dowpoint 4 ( 81.050-) = 79.850 deg.'F,,0.5043 psia dewpoint 5 ( 79.850 ) = 80.060 deg. F, 0.5078Tpsia" dewpoint 6 ( 80.060 ) = .\\ dewpoint .7 ( 81.310 ) 81.310'deg. F ',- 0.5289 : psia = - s 71.6175 psia pressure 1 ( 71.6175 ) = 71.6216 psia pressure 2 ( 71.6216 ) = .eighted averages, volume and air. mass ~ 87.33391 deg. F temperature = 71.61750-psia pressure = vapor pressure = 0.49548 psia 277400:cu. ft'.' volume = dry air mass 97352.75:lbm = ..3 l c r " t '; {; p 9

s 1992 HNP Unit 2 Pressurization data set 27 time = 915 date = 1106 sensor raw data value 81.060 deg. F temperature 1 ( 31.060 ) = 82.250 deg. F temperature 2 ( 82.250 ) = 82.350 deg. F temperature 3 ( 82.350 ) = 82.670 deg. F temperature 4 ( 82.670 ) = 83.550 deg. F temperature 5 ( 83.550 ) = 85.380 deg. F-temperature 6 ( 85.380 ) = 89.380.deg. F temperature 7 ( 89.380 ) = 98.920 deg. F temperature 8 ( 98.920 ) = 106.460 deg.-F temperature 9 ( 106.460 ) = 103.110 deg. F temperature 10 ( 103.110 ) = 84.620 deg. F temperature 11 ( 84.620 ) = 85.270 deg. F temperature 12 ( 85.270 ) = 86.070 deg. F temperature 13 ( 80.070 ) = 86.580 deg. F temperature 14 ( 86.580 ) = 75.580 deg. F, 0.4380 psia dewpoint 1 ( 75.580 ) = 75,580.deg. F 0.4528 psia dewpoint 2 ( 76.580 ) = 77.370 deg. F, 0.4648 psia dewpoint 3 ( 77.370 ) = 80.910 deg. F 0.5221 psia dewpoint -4 ( 80.910 ) = 79.770 deg. F 0.5030 psia dewpoint 5 ( 79.770 ) = 80.010 deg. F, 0.5070 psia-O dewpoint 6 ( 80.010 ) = 81.270 dag. F 0.5283 psia dewpoint 7 ( 81.270 ) = 72.3287. psia pressure 1 ( 72.3287 ) = 72.3317 psia pressure 2 ( 72.3317 ) = weighted averages, volume and air mass 87.15509 deg. F temperature = 72.32870 psia pressure = vapor pressure = 0.49426 psia 277400 cu. ft. volume = dry air mass 98360.06 lbm = O ._____._ ___.__ _ _.___ _ ______ M

1992 HNP Unit-~25Stabilisation-- i 1 DATA

SUMMARY

REPORT hn-i \\ f: ? data time date; temperature pressure . vapor dry air --set - deg.F_. _ psia pressure- -mass-psia lbm 1 915 1106-87.1551 72.3287 0.4943 98360.06-t 1 2 930-~1106 86.7213 72.2678 0.4924 98357.21=l-s 945 1106-86.4953 7 2 ~. 2 3 62 0.4923 - 98354.76 i 4 1000 -1106 86.3666

72.2141 0.4926-

- 98347.30-5 1015 1106- '86.2781 72.1955 'O.4926 - 98337.65 6 1030 1106-86.2121 '72.1793 0.4929 98326.921 -7 1045 - 1106 86.1570 7 2. ltiS 5 0.4931' -98317,58 -- 8 1100 1106 86.1215 72.1527. 0.4932 98306.'37. 9 1115-1106 86.0853 72.1403~ -O'.4932 98295.85-0 10 1130 -1106 86.0574 72.1285 0.4930 98284.98-98274.77-11 1345-1106-86.0254 72.1169 0.4930' ~12 1200 1106 86,0062 72.1058 0.4930' _ 98263.04 13 121b -1106 '85'.9851 72.0955 -0.4929-98252.86 14 1230 .1106 85.9729' 72.0056 0.4928 98241.58 15.-1245 -1106 85.9629 72.0760' O.4926 98230.42 16-1300 1106= 85.9549-72.0818 0.4927-98239;70-17- :.1315 1106 85.9467 72.0773 0.4927 98235.05' 18 1330- 1106-85.9375 72.06e7 0 4927 ' 98224'.88-

19 1345 1106-85.9337 72.0611-0.4927 98215.08-O x

N + ^ M q'4[ m, ~ w . O + b? d-o w

199211NP Unit 2 Stabilization data not 1 timo = 915 date = 1106 sensor raw data valuu 81.060 dog. F temperaturo 1 ( 81.060 ) = 82.250 deg. F temperaturo 2 ( 82.250 ) = 82.350 dog. F temperaturo 3 ( 82.350 ) = 82.670 dog. F temperature 4 ( 82.670 ) = 83.550 dog. F temperature 5 ( 83.550 ) = 85.380 deg. F temperaturo 6 ( 85.380 ) = 89.380 dog. F temporar.ure 7 ( 89.380 ) = 98.920 dog. F temperature 8 ( 98.920 ) = 106.460 dog. F temperaturo 9 ( 106.460 ) i 103.110 dog. F temperature 10 ( 101.110 ) = 84.620 dog. F temperature 11 ( 84.620 ) = 85.270 deg. F temperaturo 12 ( 85.270 ) = 86.070 deg. F temperature 13 ( 86.070 ) = 86.580 dog. F temperature 14 ( 86.580 ) = 75.580 dog. F, 0.4380 psia dowpoint 1 ( 75.580 ) = 76.580 deg. F, 0.4528 paia dowpoint 2 ( 76.580 ) = 77.370 dog. F, 0.4648 psia dowpoint 3 ( 77.370 ) = 80.910 dog. F, 0.5221 paia dowpoint 4 ( 80.910 ) = 79.770 dog. F, 0.5030 psia dowpnint 5 ( 79.770 ) = $3.ul0 dog. F, 0.5070 psia dowpoint 6 ( 80.010 ) O =

81. ;'7 0 dog. F, 0.5283 paia dowpoint 7

( 81.270 ) = pressure 1 ( 72.3287 1 72.3287 paia 72.3317 psir. pressuro 2 ( 72.3317 ) = weighted averancs, volume and air muss 87.1S509 deg. F temperature = 72.32870 paia pressuro = vapor pressuro = 0.49426 pain 277400 cu. ft. volume = 98360.06 lbm dry air mass = O

1992 HHP Unit 2 Stabilization I l data set 2 s timo = 930 dato = 1106 [ sensor raw data valuo 80.670 dog. F temperature 1 ( 80.670 ) = 81.810 dog. F i temperaturo 2 ( 81.810 ) = 81.970 dog. F temperature 3 ( 81.970 ) = 3' 82.280 dog. F teetporature 4 ( 82.280 ) = 83.200. dog.-F temperature 5 ( -83.200 ) = temperatura 6 ( 85.070 ) 85.070 dog. F = 89.200 dog. F temperaturc 7 ( 89.200 i = 98.960 dog. F temperaturo 8 ( 98.960 ) = 106.260. dog. F temperaturo' 9 ( 106.260 ) = 102.940, dog. F temperature 10 ( 102.940 ) = 84.220 dog. F temperaturo 11 ( 84.220 ) = 84.790 dog. F temperature 12 (- 84.790 ) = temporatura 13 ( 85.330 ) 85.330 dog. F = 85.730 dog.'F 3 to.aporaturo 14 ( 85.730 ) = 75.480 dog. F, 0.4366 pain I dowpoint 1 ( 75.480 ) = 76.460 dog. F, 0.4510 psia dowpoint 2 ( 76.460 ) = 77.230 dog. F, 0.46271 psia dowpoint-3 ( 77.230 ) = 80.660 dog. F, 0.5179 psia dowpoint 4 ( 80.660 ) = 79.580 dog. F,-_0.4999 psia dowpoint 5 ( 79.580.) = 80.090 dog. F-,-0.5083 paia-dowpoint~ 6 -( 80.090 ) O = 81.080 dog.--F,l0.5250 psia dowpoint 7 ( 81.080 ) = 'I 72.-2678. psia pressure 1 ( 72.2678 ) = 72.2708-psia-t pressuro 2 ( 72.2708 ) = weighted averages, volumo and air mass l 86.72133 deg. F-temperature = 72.26780 psia. pressuro =- vapor pressuro = .0.49242 psia' 277400 cu. ft.- volume =- 98357.21-lbmi dry air mass = f .riNi ? ';. , u.. - -,..,__.;,.c,, +, _

I 1992 HNP Unit 2 Stabilization-data set - 3 timo = 945 date = 1106 sensor raw data valuo 80.560. dog. F temperature 1 ( 80.560 ) = temperaturo 2 ( 81.600 ) 81.680 dog. F = 81.770 dog. F temperaturo 3-( 81.770 ) = 82.100 deg._F temperatura 4 ( 82.100 ) = 83.130 deg. F j temperaturo - 5 ( 83.130 ) = temperature 6 ( 85.040 ) 85.040 deg. F = 89.250 deg. F temperature 7 ( 89.250 ) = 99.020 dog. F, ~ temperature 8 ( 99.020 ) = 106.290 deg. F temperaturo 9 -( 106.290-) = 103.020 deg. F temperature 10 ( 103.020 ) = 83.910 dog. F temperature-11 ( 83.910 ) = '3 temperature 12 ( 84.410 ) - = 84.410-dog. F ~ 84.810 deg. F temperature 13 ( 84.810 ) = 85.170 dog. F temperature 14 (.85.170 ) = 75.350 dog. F, 0.4347 paia dowpoint 1 ( 75.350 ) = 76.300 deg. F, 0.4498 psia dowpoint 2 ( 76.380 ) = 77.110 dog. F, 0.4609 psia: dowpoint 3 ( 77.110-) = 80.460 dog.lF, 0.5145 psia. dowpoint - 4 ( 80.460 ) = 79.490 deg. F, 0.4984 psia dowpoint 5 ( 79.490') = 80.120 dog. F ,3 0.5088, psia dowpoint 6 (. 80.120 ) a-

81. 310 dog.: F_,

0.5289 psia. dewpoint 7 ( 81.310 ) = 72.2362 psia-pressure 1 ( 72.2362 ) = 72.2393-psia y pressure 2 ( 72.2393 )- = weighted averagos, volume and air mass 86.49529 dog. F temperature 72.23620, psia = pressure = vapor pressuro = 0.49231 psia volume - = 277400 cu. ft. dry air mass - = 98354.76 \\bm' i ? .. f 4 O ~ 4-g yp y ,g q'l-i+v-r qq -~'{-g-k'" s-- ga =- up" +w r v qr --yy -r 3 --p-re-yw"- er w y- -g-ggr----,-tw-p'P-5P(#'y t M $'pe-r

l 1992 !!!1P ' Unit 2 Stabilization data set 4 timo = 1000 dato = 1106 sensor ' raw data valuo 80.490 dog. F [ temperaturo 1 ( 80.490 ) = 81.580 dog. F temperature 2 ( 81.580 ) = i 81.660 dog. F temperaturo 3 ( 81.660 ) = temperaturo 4 ( 81.990 ) 81.990 dog. F_ = temperature 5 ( 83.060 ) 83.060 dog. F. = 84,990 dog. F temperature 6 ( 84.990 ) = 89.340 dog. F temperature 7 ( 89.340 ) = 99.140. dog.;F temperaturo 8 ( 99.140 ) = 106.360 dog.-F temperaturo 9 ( 106.360 ) = 103.150 dog. F temperature 10 ( 103.150 ) = 83.730 dog. F temperature 11 ( 83.730 ) = 84.180 dog. F temperature 12 ( 84.180 ) 84.470 deg. F temperature 13 ( 84.470 ) = 84.850 dog. F temperaturo 14 ( 84.850 ) = 75.310 dog. F,-0.4341 psia dowpoint 1 ( 75.310 ) = 76.390 dog. F, 0.4500 psia dowpoint 2 ( 76.390 ) = 77.030 dog. F, 0.- 4 5 9 6. p s i a - dowpoint 3 ( 77.030 ) + = 80.320 dog. F, 0.5122' psia j dowpoint 4 ( 80.320 ) = 79.430 dog. F, 0.4975 psia dowpoint 5' ( 79.430 ) = 80.170-dog. F, 0.5097 psia. dowpoint 6 ( 80.170 )- = 81.480 dog. F., 0.5319 psia dowpoint 7 ( 81.480 ) = 72.2141 paia pressure 1 ( 72.2141 ) = 72.2167 psia pressuro 2 ( 72.2167-) = weighted averagos, volume and air mass i 86.36658 dog. F temperaturo =. 72.21410 paia -prosaure = vapor pressure = 0.49256 psia 277400~cu. ft. volume = dry air mass 98347.30 lbm = n e w -t'r

- 9 7

--wp- "'pp y- -7 -w t tv +ry

i 1992 HNP Unit 2 Stabilization l-data set 5 c time = 1015 date = 1106 l sensor raw data valuo i 80.420 deg.-F temperature <1 ( 80.420 ) = temperature 2 ( 81.500 ) 81.500-dog. F = 81.550 dog. F- -temperature 4 (~ 81.550-) temperature 3 ( = 81.910. dog. F (I 81.910 ) = 83.030 dog.-F temperature 5 _( 83.030 ) 85.030-dog.:P I temperature 6-( 85.030 ) = 89.450 dog. F temperature 7 ( 89.450-) = temperature 8 ( 99.240~)

99. 24 0 dog. -- F '

= 106.420 dog..F temperature-9 (-106.420 ) =' 103.280 deg.. F' temperature 10 (.103.280 ) = l' .tomperature 11 ( 83.570 ) 83.570 deg.-F = tamperature 12 ( 84.010 ) 84.010 dog. F- = 84.230 deg. F-temperature.13 ( 84.230 ) = temperatura 14 (' 84.600 ) 84.600 deg. F. y = 75.290 deg. F, 0.4338 psia dowpoint 1 ( 75.290 ) = 76.350 dog. F, 0.4494 psia dowpoint 2 ( 76.350_) = 76.970 deg. F, 0.4587 psia-dowpoint 3 ( 76.970 ) = 80.210. dog. F,_0.5103: psia dowpoint 4 ( 80.210 ) = 79.400 dog. F, 0.4970 paia dowpoint 5-(L 79.400 ) = 80.240 dog. F, 0.5108 psiaL dowpoint - 6 ( 8 0.' 2 4 0 - ) ~ O = 81.550 deg.;F, 0.5331 psia-dowpoint 7 ( 81.550 ) = pressuro l' (' _72.1955 ) 72.1955 psia = 72.1974 psiaL pressure-

d

(- 72.1974 )- = weighted averages, volume and air massL 86.278141deg. F: temperature = 72.'19550 psia pressure = - vapor: pressure = 0.49261 psia 277400 cu. ft, volume = dry air mass. 98337.65 lbm = O 7

i t '1992 IINp Unit 2. Stabilization data sot 6 i timo = 1030 dato = 1106 sonsor raw data valuo l 80.380 dog. F temperature 1 ( 80.380 ) = 81.440 dog.-F temporaturo 2 ( 81.440 ) = 81.490 dog. F-temperature 3-( 81.490 ) = 81.850 dog. F temperature 4 ( -- 81.850 ) = 83.020' dog. F l temperature 5 ( 83.020 ) = 85.020 dog. F temperaturo '6 ( 85.020 ) = 89.540 dog. F .tomporature 7..(_~89.540 ) = 99.430 dog.-F temperaturo 8 ( 99.430 ) = 106.530 dog.-F-temperaturo 9 ( 106.530 ) = 103.380 dog._F temperaturo-10 ( 103.380 ) = 83.440 dog. F temperature 11 ( 83.440 ) = 83.850 dog. F: temperature 12.(- 83.850 ) = temperature 13 ( 84.040 ) ~ 84.040 dog. F = B4.390 dog. F temperature'14 ( 84.390 ) = 75.310_ dog. F, 0.4341 psia dowpoint 1 -( 75.310') = 76.400 dog. F, 0.4501 psia dowpoint 2 ( 76.400 ) = 76.960 deg. F, 0.4586 psia dowpoint 3 _( 76.960-) = _80.140._ dog. F., 0.5092 psia dewpoint 4 (- 80.140 ) = 79.410 dog. F, 0.4971 paia dowpoint-5 ( 79.410 ) = 80.290 dog. F, 0.5117 psia-O- dowpoint-6 ( 80.290 ) =- 81.590 dog. F.,-0.5338 psia dowpoint 7 ( 81.590 ) = 72.1793 psia-pressure 1 ( 72.1793 ) = 72.1807, psia j pressure 2 ( 72.1807-) = weighted averages, volume and air mass. 86.21208 dog. F temperature. =- 72.17930 psia pressure a. vapor pressure'= . 0.=49290 paia 277400 cu. ft'. volume = dry air mass' '98326.92 lbm = t i O 4 N'i 3 y,- w- .w r t'" -We +m'a 4-- - - = -~-e ---r-+ ev =E#*ww 'M 4-- f 5

) '1992 IINP Unit 2 Stabilization data set 7 -f 5 timo = 1045 date = 1106 i - sensor raw data value 80.320 dog. F I - tomporatura 1 ( 80.320 ) = temperature 2 ( 81.360 ) 81.360 dog. F = 81.410 dog. F [ temperaturo 3 ( 81.410 ) = temperature 4 ( 81.790 ) 81.790 dog. F = temperaturo 5 ( 83.000 ) 83.000 dog. F = 85.030 deg. F temperaturo 6 ( 85.030 ) = temperaturo 7 ( 89.660 ) 89.660 dog. F ( = temperaturo 8 ( 99.620 ) 99.620 dog.. F: = -106.630 dog. F j temperaturo 9 ( 106.630 ) = temperature 10~( 103.530 ) -103.530 dog. F = temperature'11 ( 83.330~) 83.330 dog. F- ~ ' = + 83.710 dog. F temperature 12 ( 83.710 ) = temperaturo 13 ( 83.QGO ) 83.860 dog. F = 84.220 dog. F temperature 14 (' 84.220 ) a 75.310 dog. F, 0.4341. psia-j doupoint 1 ( 75.310 ) = 76.400. dog.-F, 0.4501 psia dowpoint 2 ( 76.400 ) t = 76.940 deg. F1, 0.4583 psia dowpoint 3 ( 76.940 ) = 80.110 dog.'F, 0.5087 psia-dowpoint 4 (- 80.110 ) ~ = 79.440-dog.-F., 0.4976 psia dowpoint 5 ( 79.440 )- = 80.320 dog. F, 0.5122-psia dowpoint 6 '( 80.320 ) O = 81.640' dog. F:,-0.5346' psia dowpoint 7 ( 81.640 ) =~ 72.1655 paia-pressure 1 ( 72.1655 ) = 72.1667 psia L _ pressaro ~2 ( 72.1667-) = weighted averages, volume and air mass 86.15698 dog.' F temperature = 72.16550 psia pressuro= = vapor _ pressure = 0.49314;p3ia volumo 277400ocu. ft. = dry air mass 98317.58 lbm = l l P L. a U (- u L w e. n y .M. ..._,,_.,,44.m_,._.b_ ,,,,,__m,4-_ , r r r e' v +- v' -

1992 lillP Unit 2 Stabilization data set 8 timo = 1100 date = 1106 sensor raw data value 80.280 dog. F temperature 1 ( 80.280 ) = 81.320 dog. F temperature 2 ( B1.320 ) = 81.360 dog. F temperaturo 3 ( 81.360 ) = B1.740 dog. F temperature 4 ( 81.740 ) = 83.000 dog. F temperature 5 ( 83.000 ) = 85.050 dog. F temperaturo 6 ( 85.050 ) = 89.800 dog. F temperaturc 7 ( 89.800 ) = 99.760 dog. F temperature 8 ( 99.760 ) = 106.780 dog. F temperaturo 9 ( 106.780 ) = 103.730 dog. F temperature 10 ( 103.730 ) = 83.230 deg. F temperature 11 ( 83.230 ) = 83.590 dog. F temperature 12 ( 83.590 ) = 83.710 deg. F temperature 13 ( 83.710 ) = 84.070 dog. F temperature 14 ( 84.070 ) = 75.310 dog. F 0.4341 psia dowpoint 1 ( 75.310 ) = 76.430 don. F, 0.4506 psia dowpoint 2 ( 76.430 ) = 76.940 dog. F, 0.4583 psia dowpoint 3 ( 76.940 ) = 80.070 dog. F, 0.5080 psia dowpoint 4 ( 80.070 ) = 79.440 dog. F, 0.4976 psia dowpoint 5 ( 79.440 ) = 80.330 dog. F, 0.5123 psia dowpoint 6 ( 80.330 ) O = 81.650 dog. F, 0.5348 psia dowpoint 7 ( 81.650 ) = 72.1527 psia pressure 1 ( 72.1527 ) = 72.1540 psia pressure 2 ( 72.1540 ) = weighted averages, volume and air mass 86.12146 dog. F temperaturo = 72.15270 psia pressuro = vapor pressuro = 0.49319 psia 277400 cu. ft. volumo = 98306.37 lbm dry air mass = O

t 1992 HNP Unit 2 Stabilization I data set 9

i m

+ / timo = 1115 date = 1106 m-sensor raw data valuo 1 80.250 dog.-F. temperaturo-1 ( 80.250 ) = temperature 2 ( 81.250 ) 81.250 dog. F = 81.300 deg. F temperature 3 (- 81.300 ) = temperature 4 ( 81.710 ) 81.710 dog. F = temperature 5 ( 83.010 ) -83.010 dog. F = temperature 6 ( 85.070 ) 85.070 deg.oF = temperature 7 ( 89.950 ) 89.950- dog. : P = temperature 8-(.-99.920 ) 99.920 dog. F = temperaturo 9 ( 106.910 ) 106.910 dog. F = 103.790 dog. F temperature 10 ( 103.790 ) = temperature 11 ( 83.130 ) 83.130' dog. F = 83.480 dog. F temperaturo 12 ( 83.480 ) = . F temperature 13 ( 83.580-) 83.580 dog. = 83.910 dog. F temperature 14 ( 83.910 ) = 75.330 dog. F, 0.4344 psia ' dewpoint-1 ( 75.330 ) = 76.430 dog.. F, 0.4506 psia dowpoint 2 -( 76.430 ) = 76.940l dog.- F, 0.4583 psia-dowpoint 3 (- 76.940 ) = dowpoint 4 ( 80.060 ) 80.060 dog. F, 0.5078 psia = 79.'470 dog. F, 0.4981-: psia dewpoint 5 ( 79.470 ) = dowpoint 6 ( 80.310 )- 80.310 dog. F, 0.5120 psia: = ( dowpoint 7 ( 81.660 ) 81.660 dog. F, 0.5350 psia = + 72.1403 psia' pressure 1 ( 72.1403 ) = 72.1416 psia pressure 2 ( 72.1416-) = weighted averages, volume and-air mass- + 86.08526 deg. F y .tomperaturo = 72.14030 psia pressure = vapor pressuro = 0.49320 psia volumo 277400 cu. ft, = dry air mass '98295.85'1bm = 4 t t

11

. i. -

- ~.: .,,..

.. : y.. a. u

i i 1992 HNP Unit 2 Stabilization l c data set 10 N-time = 1130 date = 1106 sensor-raw data value i i 5 80.210 dog. F temperature 1 ( 80.210 ) = 81.190 dog..F i temperature 2 ( 81.190 ) = 81.240 dog. F temperature .3 ( 81.240 ) = 81.660 deg. F temperature 4 ( 81.660 ) = 83.010 dog. F temperature 5 ( 83.010 ) = 85.070 deg. F temperature li ( 85.070 ) = 90.080 dog. F temperature 7 ( 90.080 ) = 100.060.deg. F temperature 8 ( 100.060 ) = 107.080,deg. F temperature 9 ( 107.030 ) = 103.960 deg. F temperature 10 ( 103.960 ) = 83.050 deg. F 'i temperature 11 ( 83.050 ) = 83.390 deg. F temperature 12 ( 83.390 ) = 83.450 deg. F-temperature 13 ( 83.450 ) = 83.790 deg. F temperature 14-( 83.790 ) = 75.330 deg. F, 0.4344 psia dowpoit.t 1 ( 75.330 ) = 76.410 deg. F, 0.4503. psia dowpoint 2 -( 76.410 ) = 76.940 deg. F, 0.4583 psia dowpoint 3 ( 76.940 ) = 80.050 dog. F, 0.5077 psia dowpoint 4 ( '80.050 ) = 79.490 dog. F, 0.4984 psia 't dowpoint 5 ( 79.490 ) = 80.300 deg. F, 0.5118 psia l! O-dowpoint 6 ( 80.300 ) = dowpoint 7 ( 81.620 ) a' 81.620 deg. F, 0.5343 psia =- 72.1285 psia pressure - 1 ( 72.1285 ) = 72.1300 psia l pressure 2 ( 72.1300 ) = weighted averages,-volume and air mass 86.05742-deg. F' temperature = l pressure 72.12850 psia- = L vapor pressure = 0.49299. psia 277400 cu. ft. volume =- 98284.98-lbm . dry air mass = 4 a I l n. __.

I \\ 1992 If!!P Unit 2.~ Stabilization data-set 11 time = 1145 date = 1106 sensor raw data value 80.160 dog. F - I temperature 1 ( '80.160 ) = 81.160 dog. F-l temperature 2 ( 81.160 ) = temperature.

3. (

81.190 ) 81.190 deg. F = temperature 4 ( 81.630 ) 81.630 dog. F = temperature 5 ( 83.000 ) 83.000 deg. F i = temperature 6 ( 85.130 )_ 85.130 deg. F = temperature 7 ( 90.190.) 90.190 dog.lF = temperature 8 ( 100.150 ) 100.150-dog. F = temperature 9' ( 107.200 ) 107.200 deg. F. = -104i030-deg. F temperature.10 ( 104.030 ) = temperature 11 ( 82.970') =. 82.970-deg.~F temperature 12 ( 83.290 ) 83.290 deg. F = temperature 13 ( 83.340:) 83.340 dog.-F = temperature 14 ( 83.650 ) 83.650 deg. F = dowpoint 1 ( 75.350 ) 75.350 dog'.F., 0.4347 psia' = dowpoint 2 ( 76.410 ) 76.410 deg. F, 0.4503 psia- = dowpoint 3 ( 76.940 ) 76.940 deg. F, 0.4583-psia = 4 80.030 dog.. F, 0.5073; psia a - dowpoint 4 ( 80.030 ) = 79.530.deg. F, 0.4991. psia 1 dowpoint 5 (: 79.530 ) = dowpoint. 6 (. 80.300 ) 80.300 deg. F, 0.5118. psia O = 81.620 dog.--F, 0.5343_ psia ~ l dowpoint 7 ( 81.620 1) ~ = 72.1169 psia- . pressure 1 ( 72.1169 ) = 72.1185 psia pressure 2' ( 72.1185 ) = weighted averages, volume.and air mass- '86.02538 deg.-F 1 temperature- = = '72.11690 psia. pressure vapor pressure = '0~.49303' psia' t volume 277400 cu. ft.- = dry air mass-98274.77 lbm- = b h A i e 4 m..., .e.,_m

1992 HHP Unit 2 Stabilization - data set 12 time a 1200 date = 1106 sensor raw data valuo 80.140 dog. F temperature 1 ( 80.140 ) = 81.110 dog. F temperature 2 ( 81.110 ) = 81.160-dog. F temperaturo 3 ( 81.160 ) = 81.600 dog.-F temperature 4 ( 81.600 ) = 83.020 deg. F temperature 5 ( 83.020 ) = -85.160 dog.1r temperature 6 ( 85.160 ) = 90.320 dog.1F temperature 7 ( 90.320 ) = 100.230 dog. F-temperature 8 ( 100.230 ) = 107.320 dog. F temperaturo 9 ( 107.320 ) = 104.210_ dog. F temperature 10 ( 104.210 ) = 82.910 dog. F temperature 11 ( 82.910 ) = 53.190 dog. F temperature 12 ( 83.190 ) = 83.230 dog. F temperature 13 ( 83.230 ) = 83.550 dog. F temperatura 14 ( 83.550 ) = 75.350 dog. F, 0.4347 psia-dewpoint 1 ( 75.350 ) = 76.430 dog. F, 0.4506 psia dowpoint 2 (- 76.430 ) = 76.940-dog.-F, 0.4583 psia dowpoint 3 ( 76.940 ) = 80.030 deg. F, 0.5073 psia dowpoint 4 ( 80.030 ) = 79.540 dog. lr, 0.4993 psia - dowpoint 5 ( 79.540 ) = 80.290 dog. F, 0.5117 psia / dewpoint 6 ( 80.290 ) = 81.610 deg. F, 0.5341_ psia dowpoint 7 (- 81.0101) = 72.1058 psia. pressuro 1 (' 72.1058 ) = 72.1076 paia-pressure 2 ( 72.1076 )_ = weighted averages, volume and air mass 86.00619'deg..-F temperature = 72.10580 psia pressure = vapor. pressure = 0.49300 psia 277400-cu. ft.. volume = dry air mass 98263;04-lbm- = l l 'jD LJ l i 4 m x - re, m a w 4 e -, e-- ---,-,,+---v-- ,m- ~ e--

1992 IINP Unit 2 Stabilization data set 13 time = 1215 date = 1106 sensor raw data value 80.120 deg. F temperature 1 ( 80.120 ) = 81.070 deg. F temperature 2 ( 81.070 ) = 81.100 dog._F temperature 3 ( 81.100 ) = 81.570 deg. F temperature 4 ( 81.570 ) = 83.030 deg. F temperature 5 ( 83.030 ) = 85.190 deg. F temperature 6 ( 85.190 ) = 90.440 dog. F temperature 7 ( 90.440 ) = 100.440 dog. F temperature 8 ( 100.440 ) = 107.430 deg. F temperature 9 ( 107.430 ) = 104.320 dog. F temperature 10 ( 104.320 ) = 82.830 dog. F temperaturo 11 ( 82.830 ) = 83.090 deg. F temperature 12 ( 83.090 ) = 83.130 dog. F temperature 13 ( 83.130 ) = B3.440 deg. F temperature 14 ( 83.440 ) = 75.370 deg. F 0.4350 psia dowpoint 1 ( 75.370 ) = 76.400 deg. F 0.4501 psia dewpoint 2 ( 76.400 ) = 76.930_deg. F, 0.4581 paia dowpoint 3 ( 76.930 ) = 80.030 deg. F, 0.5073 psia dowpoint 4 ( 80.030 ) = 79.560 deg. F, 0.4996 psia dowpoint S ( 79.560 ) = 80.270 deg. F 0.5113 psia dowpoint 6 ( 80.270 ) O dowpoint 7 ( 81.600 ) = 81.600 dog. F 0.5340 psia = 72.0955 psia pressure 1 ( 72.0955 ) = 72.0976 psia pressure 2 ( 72.0976 ) = weighted averagus, volume _and air mass 85.98515 deg. F temperature = 72.09550 psia pressure = vapor pressure = 0.49287 psia 277400 cu. ft. volume = dry air mass 98252.86 lbm = O

.~. _ - ~ _ _ _ _._.m.____ i t i 1992 HNP-Unit 2 Stabilization - j ~ data set 14 time = 1230-date = 1106 i sensor raw data value 80.100 deg. F temperature 1 ( 80.100 ) = temperature 2 ( 81.050 ) 81.050 dog. F = 81.070 deg. F temperature 3 ( 81.070 ) = temperature 4 ( 81.544 ) 81.540 deg. F = temperature 5 ( 83.040 ) 83.040 dog. F = 85.250 dog. F temperature - 6 ( 85.230 ). = temperature 7 (- 90.b70 ) 90.570 dog. F = temperature 8 ( 100.580 ) 100.580 deg. F = temperature 9 ( 107.470 ) 107.470 deg. F- = 104.470 dog. F temperature 10 ( 104.470 ) = temperature 11 ( 82.770 ) 82.770 deg. F = t temperature 12 ( 83.020 ) 83.020 deg. F = temperature 13 ( 83.050 ) 83.050 dog.-F [ = temperature 14 ( 83.340 ) 83.340 deg. F = 75.350 dog. F, 0.4347 psia dowpoint 1 ( 75.350--) = dowpoint 2 ( 76.450 ) 76.450 dog. F, 0.4509 psia = 76.950 deg. F, 0.4584 psia dowpoint 3 ( 76.950 ) = 80.010 deg. F,-0.5070 paia,- dowpoint 4 ( 80.010 ) = 79.580 deg. F, 0.49991 psia dowpoint 5 ( 79.580 ) = O 80.260 deg. F, 0.5112 psia dowpoint 6 ( 80.260 ) = 81.570 deg. F, 0.5334 psia dowpoint 7 ( 81.570 ) = 72.0856 psia -pressure 1 ( 72.0856 ) = 72.0879 psia-pressure 2 ( 72.0879 ) = t weighted averages, volume and air-mass. =85.97295 deg. F' J temperature = 72.08560 psia pressure = vapor pressure.= 0.49280-psia-277400 cu. ft.. volume = dry air mass 98241.58Llbm = h ~ t, 1LN ~ ,+,, ~-.

t , f t '1992 HNP Unit 2' Stabilization' i data set 15 tino = 1245-date = 1106 j sensor raw data valuo 1 temperature 1 ( 80.000 ) 80.080 dog. F = temperature 2 ( 81.020 ) 81.020 dog. F = =temperaturo 3 ( 81.040.) 81.040 dog. F = temperature 4 ( 81.520 ) 81.520 dog. F j = temperature-5 ( 83.040 ) 83.040 deg. F ~ = 85.29C dog..F temperature. 6 ( 85.290 ) = 90.680 dog. F temperature 7 ( 90.680 ) = 100.710 dog. F l .tomporature 8 ( 100.710 ) = temperature 9 ( 107.630 ) 107.630 dog. F L = 104.620 dog. F temperature 10 ( 104.620 ) = temperaturo 11 ( 82.710 ) 82.710 dog. F- = temperature 12 ( 82.950 ) 82.950 deg. F = 82.960 dog. F tamparature 13 ( 82.960 ) = 83.250 dog. P j temperature 14 ( 83.250 ) = 75.390 dog. F, 0.4353 psia [ dowpoint 1 (- 75.390 ) ~ = dowpoint 2 ( 76.430 ) 76.430 dog. F, 0.4506 psia = dowpoint 3 ( 76.970 ) 76.970-deg. F, 0.4587 psia = dowpoint 4 ( 80.010 ) 80.010-dog. F,--0.5070 psia = dowpoint 5 ( 79.580 ) 79.580 dog. F, 0.4999 psia, = 80.220 dog. F', 0.5105 psia dovpoint 6 ( 80.220 ) a 81.550-dog. F,; 0.5331 psia T dowpoint 7 ( 81.550 ) = 72.0760 psia-pressure 1 ( 72.0760 ) 72.0786 psia - r pressuro 2 ( -72.0786 ) = weighted averages, volume'and air mass j 85.96287 deg. F f temperaturo = 72.07600 psia pressure = vapor pressure = 0.49265 psia' volume 277400 cu. ft.- =- dry air mass. 98230.42.lbm' = [ t 'Ol ~ g 7. m.. .,_..m. . _,.., _ _ _ _ _ _.., _., ~, _ _... _,m-- .-,m

1992 It!1P Unit 2 Stabilization data set 16 timo = 1300 date = 1106 sencor raw data value temperature 1 ( 80.060 ) 80.060 dog. F = 80.980 dog. F temperaturo 2 ( 80.900 ) = 83.020 dog. F temperaturo 3 ( 81.020 ) = temperature 4 ( 81.500 ) 81.500 dog. F = 83.070 dog. F temperature 5 ( 83.070 ) = temperature 6 ( 85.350 ) 85.350 dog. F = temperaturo 7 ( 90.750 ) 90.750 dog. F = temperature 8 ( 100.770 ) 100.770 dog. F = temperaturo 9 ( 107.740 ) 107.740 dog.-F = temperaturo 10 ( 104.620 ) 104.620 dog. F = temperature 11 ( 82.690 ) 82.690 dog. F = 82.890 dog. F temperature 12 ( 82.890 ) = 82.900 dog. F temperature 13 ( 82.900 ) = temperature 14 ( 83.180 ) 83.180 dog. F = 75.390~ dog. F, 0.4353 puia dowpoint 1 ( 75.390 ) = 76.430 deg. F, 0.4506 psia dowpoint 2 ( 76.430 ) = 76.990 dog. F, 0.4590 paia dowpoint 3 ( 76.990 ) = dowpoint 4 ( 80.010 ) 80.010_ dog. F, 0.5070-psia = dowpoint 5 ( 79.620 ) 79.620 dog. F, 0.5006' psia 1 = . s - dowpoint 6 ( 80.220 ) 80.220_ dog. F, 0.5105 psia ) = 81.550 dog. F., 0.5331-psia dowpoint 7 ( 81.550 ) = 72.0818 psia prosauro 1 ( 72.0818 ) = 72.0844 psia pressure 2 ( 72.0844 ) m weighted'avorages, volume and air mass 85.'95486 dog.LF temperaturo = 72.08100 psia pressure - = vapor pressuro =- .0.49275 psia 277400 cu. ft, voluma =- dry air mass-98239.70 lbm = 1' O p b l b '3

1992 ll!!P Unit 2 Stabilization data set 17 time = 1315 dato = 1106 consor raw data value temperature 1 ( 80.020 ) 80.020 dog. F = 80.940 dog. F temperaturo 2 ( 80.940 ) = 80.980 dog. F temperaturo 3 ( 80.980 ) = B1.480 dog. F temperature 4 ( 81.480 ) = 83.090 dog. F temperature 5 ( 83.090 ) = 85.390 dog. F temperature 6 ( 85.390 ) = temperaturo 7 ( 90.880 ) 90.880 dog. F = 100.890 dog. F temperaturo 8 ( 100.090 ) = temperaturo 9 ( 107.830 ) 107.830 dog. F = temperature 10 ( 104.790 ) 104.790 dog. F = 82.640 dog. F temperaturo 11 ( 82.640 ) = temperature 12 ( 82.830 ) 82.830 dog. F = 82.820 dog. F temperaturo 13 ( 82.820 ) = 83.100 dog. F temperaturo 14 ( 83.100 ) = 75.390 dog. F, 0.4353 psia dewpoint 1 ( 75.390 ) = 76.450 ddg. P, 0.4509 psia dowpoint 2 ( 76.450 ) = 76.980 dog. F, 0.4589 psia dowpoint 3 ( 76.980 ) = 80.010 dog. F, 0.5070 psia dewpoint 4 ( 80.010 ) = 79.610 dog. F 0.5004 paia dowpoint 5 ( 79.610 ) = 80.230 dog. F, 0.5107 psia O dowpoint 6 ( 80.230 ) = 81.530 dog. F, 0.5327 paia dowpoint 7 ( 81.530 ) = 72.0773 psia pressuro 1 ( 72.0773 ) = 72.0802 psia pressuro 2 ( 72.0802 ) = weighted averages, volume and air mass 85.94669 dog. F temperaturo n 72.07730 psia pressurc = vapor pressuro = 0.49270 psia 277400 cu. ft, volume = dry air mass 98235.05 lbt a A i 4 l

f i 1992 HHP Unit'2 Stabilization l data 000 18 O timo = 1330 date = 1106 .[ noncor raw data value 80.010 dog. F temperature 1 ( 80.010 ) = temperature 2 ( 80.930 ) 80.930 dog. F = 80.960 dog. F temperature 3 ( 80.960 ) = 81.470 dog. F t - temperature 4 ( 81.470-) = 83.100 dog. F temperature.5 ( 83.100 ) = 85.430 dog..F t temperaturo 6 ( 85.430 ) = temperaturo 7 ( 91.010 ) 91.010 dog. F = 100.990 dog. F-t temperature 8 ( 100.990 ) = 4 107.920 dog. F. temperature: 9 ( 107.920 ) = 104.820-dog. F temperature 10 ( 104.820 ) = 82.580 dog. F temperature 11 ( 82 580 ) = 82.770. dog. F temperature 12 ( 82.770 ) u 82.760' dog. F r temperature 13 ( 82.760 ) = 83.010 deg. F i temperature 14 ( 83.010 ) a o 75.420 day. F,L0.4357' psia-d dowpoint 1 ( 75.420 ) = 76.460 dog. F., 0.4510' psia dowpoint 2 ( 76.460 ) = 77.000 dog. F,.0.4592; psia dowpoint 3 ( 77.000-) = 80.010 deg.-F, 0.50701 psia dowpoint 4 (- 80.010 ) = 79.610 dog.-F., 0.5004'poia dowpoint 5 ( 79.610 ) = O 80.230_ dog.-F_,-0.5107 psia-dowpoint '6 ( 80.230 ) = 81.510' dog. F_, 0.5324 psia-dowpoint-7 ( 81.510 ) = 1 72.0687 psia pressure-1 (. 72.0687 ) e = 72.0713 psia pressure 2 ( - 72.0713 ) = weighted averagas, volume and air-masa - temperature . 85.93746-.deg. F = 72.06870 psia . pressuro = vapor'pressuro =- 0.49273 psin: 277400 cu. ft. I volumo = dry air mass-98224.88'lbm a = J .t k q 1 . f' h O I w l

.,m m,,e c

3 w, m ,m. g. ,.-y.,, _ _,,,,,,,,.,,,,. g. y... y +-

I 1992 H!l? Unit 2 Stabilisation [ i data _ set 19 i ' I 1345 date = 1106 timo a 4 sonsor raw data valuo temperaturo 1 ( 79.990 ) 79.990 dog. F = temperaturo 2 ( 80.900 ) 80.900 dog. F i = 80.920' dog. F l temperature 3 ( 80.920 ) = temperature' 4 ( 81.450 ) 81.450 dog. F - r = 83.140 dog. F. 4 temperature 5 ( 83.140 ) = temperaturo 6 ( 85.470 ) 85.470 dog. F = temperaturo 7 ( 91.120 ) 91.120 dog. F 101.110 dog. F_ = temperature 8 ( 101.110 ) ~ = temperaturo 9 ( 108.000 ) 108.000 dog. F = 104.990 dog. F i temperature 10-( 104.990 ) = temperature 11 ( 82.530 )_ 82.530 dog. F-l = 82.720 dog. F temperature 12 ( 82.720 ) = 82.690 dog. F temperature 13 ( 82.690 ) = 82.940 dog. f-temperature 14 (- 82.940 ) = 75.420 dog. F, 0.4357 psia-dowpoint 1. ( 75.420 ) = 76.460 dog. F, 0.4510-psia dowpoint 2 '( 76.460L) = 77.000 dog. F,.-0.4592 psia l dowpoint 3 ( 77.000 ) = 80.020 dog. IE, 0.5072 psia dowpoint 4 ( -80.020 ) = 79.6401 dog.: F, 0.5009-psia ~ dowpoint 5 ( 79.640 ) = 80.230 dog.<F,_0.5107 psia-O dowpoint 6 ( 80.230 ) = 81.500 dog. F, 0.5322 pala j dowpoint 7 ( 81.500 ) = pressure 1-( 72.0611 ). = 72.0611: psia I 72,0630 paia-pressure 2 ( 72.0638 ) = weighted averagos, volume and air mass 85.93373fdog.'F temperaturo = 72.06110: psia .prossuro = vapor pressuro = 0.49275: psia 277400'cu. ft. . volume = dry air masu- _98215.08 lbm = - r L ? 1 () ~

1992 HNP Unit 2 Typo'A Tcat 7s'. DATA SURMARY REFORT data time data temperature pressure vapor dry air = sot dog F paia propuuro mass pain Ibm 1 1345 1106 85.9337 72.0611' O.4927 90215.08 2 1400 1106 85.9363 72.0540 0.4926 '98205.03 3 1415 1106 85.9338 72.0470 0.4926. 98195.97 4 1430 1106 85.9320 72.0403 -0.4925 98107.17 5 1445 1106 85.9412 72.0340-0.4923-98177.09 6 1500 1106 85.9414 72.0279 0.4924 98168.60~ 7 1515 1106 85.9513 72.0220 .0 4926 98158.50-8 1530 1106 85.9555 72.0161 0.4926

98149.64 9-1545 1106 85.9673 72.0104-0.4928-98139.45~

10 1600 1106 85.9783 72,0049 0.4926 98130.08 11 1615 1106 85.9863 71.9996 0.4926 98121.39: 12 1630 1106 85.9967 71.9942 0.4928 98111.87 13 1645 1106 85.9995 71.9891 0.4928 98104.39 14 1700 1106 86.0163 71.9841 0.4929-98094.38 15 1715 1106 86.0303 71.9796 0.4929' - 98085.69-16 1730 1106 86.0376 71.9745-0.4928 98077~.55 17 1745 1106 86.0626-71.9699 ~0.4928 98066.65 18 1800 1106 86.0732 71.9655 0.4929 ' 98058.64 19 1815 1106- -86.0912 71.9608 0.4928. 98049.12-20 1830~ 1106 86.0995 71.9565 0.4927" 98041.76 O 21 1845 1106-86.1172 71.9524 0.4928 "98032.85 22 1900 1106 86.1339 71.9479 'O.4927 98023.80:- 23 1915 1106 86.1525 71.9437 ~0.4926 98014.83l 24 1930 1106 86.1655-71.9397 -0.4928 198006;73 25 1945 1106 86.1841 71.9356 0.4931 97997.37' 26 2000- 1106 86.1948 71.9314-0.4928 97990.11i 27 2015-1106 86.2094 71.9273 -0.4926: ,97982.12' 28 2030 1106 -S6.2246 '71.9233. 0.4928- -97973.65 29 2045 1106 '86.2418 71.9193 c0.4927: l97965.20: 4 30 2100 1106-86.2570 -71.9154 0/4925 197 9 57 '~ 4 9 31 2115 1106 86.2674 71.9115: 0.4924 '97950.32' 32 2130- '1106-86.2827 -71.9079-0.4926 97942.39 33 2145 1106 86.3018 71.9040- -0.4927 ~ 9793 3.~47 P g

. w .' :, v:a 1992 IWp' Unit 2 Type A Tont t data-set 1 g ( tine'= 1345 dato'= 1106 ^[ E t sensor . raw data value -j 79.990 dog. F .f temperaturo -1 ( 79.990 ) = 80.900 deg. F temperature 2 ( 80.900 ) = x 80.920 dog. P 1 temperature 3 ( 80.920 ) = 81.450 dog..F i temperature 4 ( 81.450 ) a 83.140 dog. P temperature 5_( 83.140 ) = 85.470Ldog. FL temperature 6 ( 85.470 ) = 91.120 dog. F j temperature 7 ( 91.120 ) = 101.110 dog. F - tomparaturo 8 ( 101.110 ) = 108.000 dog. F temperature 9 ( 108.000 ) = 1 104.990 dog. F temperature 10'( 104.990 ) = 82.530 dog. F temperaturo 11 ( 82.530-) = 82.720 dog. F temperature 12 ( 82,720 ) = 82.690 dog. F I temperaturo 13 ( 82.690-) = 82.940 dog. F-l temperature 14 ( 82.940')- = t ~ 75.420 dog. F,

0. 4 3 57 ; psia.'

j dowpoint 1 ( 75.420 ) = 76.460 dog. F., 0.4510? psia dowpoint 2 ( 76.460 ) = 77.000 dog.1F, 0.4592 psia- ~ dowpoint 3 ( 77.000 ) = 80.020 dog. F',~0.5072' psia'- dowpoint 4 (- 80.020 ) = 79.640-dog. F, O'.5009 psia dewpoint-5' ( '79.640 ) = 80.230 dog. P, 0.5107 paia, i dowpoint 6 ( 80.230 ) = ,\\ dowpoint 7 (' 81.500 ) 81.500 deg. F, 0.5322 psia 1 = 72.0611 pain- -pressure, 1-( 72.0611 ) = 72.0638 psia q pressura 2. ( 72.0638 ) = weighted averages, volume and air mans; j 85.93373 dog. F temperaturo a pressuro 72.06110 psia- = vapor prosauro;= 0.49275; psia volumo .=- 277400;cu. ft. -dry air mass-98215.08'lbm = h 7 b !{ zr a 1 < t u, r, L 2w., .vw., ,.,.,.n...e n -me,,m..+, ,,-..s,--vme ie,4,r, - na n n.,n,w- -a-- -s .~ r ~ <. s n-w

1992 !!NP Unit 2 Type A Test data set 2 j time = 1400 date = 1106 r sensor raw data valuo i 79.970 dog. F temperaturo 1 -( 79.970 ) = 80.880 dog. F temperaturo 2 ( -80.880 ) t = temperaturo' 3 ( 80.910 ) 80.910 dog. F = 81.430 dog. F temperaturo' 4 ( 81.430 ) = 83.170 dog.- F t temperature 5 ( 83.170 ) = temperaturo 6 ( 85.530 ) 85.530 dog. F 3 = 91.240 dog. F-f temperature 7 ( 91.240 ) = temperaturo 8 ( 101.230 ) 101.230 dog. F = 108.100 dog. F temperaturo 9 ( 108.100 ) = 105.030 dog. F temperaturo 10 ( 105.030 ) = temperature 11 ( 82.500 ) 82.500 dog. F = 82.660 dog. F temperatilre 12 ( 82.660 ) = 82.640 dog. F temperature 13 ( 82.640 ) = temperature 14 ( 82.890 ) 82.890 dog. F = 75.430 dog. F, 0.4359 psia j dowpoint 1 ( 75.430 ) = 76.470 dog. F, 0.4512 psia- ~ dewpoint 2 (- 76.470 ) = dowpoint 3 (- 77.000 ) 77.000 dog. F, 0.4592-pala = dowpoint 4 ( 80.010 ) 80.010 dog. F, 0.5070 psia i = 79.640 dog. F, 0.5000ipsia, dowpoint 5 ( 79.640 ) = 80.220 dog.- F,=0.5105 psia j dowpoint. 6 ( 80.220 ) = 82.480 dog. F, 0.5319 paia N-dewpoint 7 ( 81.480 )- =- _72.0540-psia pressuro 1 ( 72.0540 ) = 72.0567 psia pressure 2 ( 72.0567 ) = weighted averagos, volume and air mass 85.93ti28 deg. F temperaturo = + 72.05400 paia pressure -= vapor pressuro = 0.49265 psia-volumo 277400 cu.-ft. = dry air mass 98205.03-lbm- =- L) .=~' .. ~ o w---

b 1992 H!lp Unit 2 Type A Test f p_ data set 3 + \\,] ' - 1 = timo = 1415 data = 1206 i oensor raw data valuo temperaturo 1 ( 79.960 ) 79.960 dog. F = temperature 2 ( 80.860 ) 80.860 dog. F = temperaturo 3 ( 80.880 ) 80.880 dog. F = temperaturo 4 ( 81.420 )- 81.420 deg. F = temperaturo 5 ( 83.180 ) 83.180 dog. F = temperaturo 6 ( 85.620 ) 85.620 dog. F j = 91.330 dog._F temperature 7 ( 91.330 ) = temperaturo 8 ( 101.350 ) 101.350 deg. F = temperature 9 ( 108.180 ) 108.180 dog. F = - temperature 10 ( 105.100 ) 105.100 dog. F = temperature 11 ( 82.430 ) -82.430 deg. F_ = temperature 12 ( 82.630 ) 82.630-deg. F = temperaturo 13 ( 82.580 )' 82.580 dog. F = temperature 14 ( 82.830-) 82.830 deg. F T = dowpoint - 1 ( 75.440 ) 75.440 dog. F, 0.4360; psia = dcwpoint' 2 ( 76.460 ) 76.460 dog. F, 0.4510 psia._ = dowpoint 3 ( 77.010 ) 77.010 dog. F,- 0.4593 paia i = dowpoint 4 ( 80.010 ) 80.010 deg. F,_0.5070 psia = dowpoint 5 ( 79.620 )

79. 620 deg.: F,-0.5006' psia

= O- = - 80.220 deg.'F-, 0.5105 psia dowpoint 6 ( 80.220 ) 81.460-dog.- F:,LO.5315 paia dewpoint 7 ( 81.460 ) = 172.0470' psia pressure 1 ( 72.0470 ) = -72.0496 psia pressure. 2 ( 72.0496 ) = weighted averages, vo)ume-andrair mass 95.93384 deg.'F temperaturo a pressuro 72.04700Lpsia = vapor pressure = 10.49257 psia volume ~ 277400 cu.'ft. = dry air nass 98195.97fibm = e 't _ L l M er sw-q y v--g =+W F "=55' E lrr -W f=- TI-*w'? PT

'rw+-

1 y D' 1

I '? 1992 IINP Unit 2 Typo A Test j data set 4 time = 1430 date = 110$ sensor raw data valuo 79.940 dog. F temperaturo 1 ( 79.940 ) = 80.830 dog. F temperatura 2 ( 80.830 ) = 80.860-dog. F temperature 3 ( 80.860 ) = 81.410 dog. F temperaturo 4 ( 81.410 ) = 83.230 dog. F temperaturo 5 (- 83.230 ) = 85.640' dog.-F temperaturo 6 ( 85.640 ) = 91.440 dog. F -temperaturo. 7 ( 91.440 ) = -101.400' dog. F. temperature 8 ( 101.400 ) = 108.250 dog. F temperaturo 9 ( 108.250.) = 105.160 dog.-F temperature 10-( 105.160 ) = 82.400 dog. F temperature 11 ( 82.400-) = 82.590' dog. F temperature 12 ( 82.590 ) - = 82.530 dog.-F temperature 13 ( 82.530 ) = 82.780 dog.;F temperature 14-(- 82.700 ) = 75;440 dog. F, 0 4360 psia dowpoir 1 ( 75.440.) = 76.470_ dog. F, 0.4812-psia dowpoint 2 ( 76.470 ) = 77.010 deg. F_, 0.4593 psia dowpoint 3 (.77.010_) = 80.000 dog. F., 0.50681 psia dowpoint 4 ( 80.000 ) a-79.640-dog.:F_e 0.5009/ psia dowpoint 5 ( '79.640 ) =- O 80.200 dogt F, 0.5102, psia-dowpoint ;6 ( 80.200 ) = 81.460 dog. F y 0.5315; psia dowpoint 7 ( 81.460 ) = 72.0403 psia-pressure 1 (. 72.0403 ) = 72.0430 psiat pressure 2-( 72.0430 ) = weighted averages, volumo.and air naus 85.93204 Edeg.jF temperature- = pressure 72.04030 paia = vapor pressure =- 0.492511 psia 277400 cu. ft. volume. = 98187.17. Ibm dry. air-mass a-i O f y i

i 1992 llNP Unit 2 Typo A Test. .h data act 5 '~ time = 1445 date = 1106 soncor raw data value 79.'930. dog. F f temperature 1 ( 79.930 ) = temperature 2 ( 80.820 ) 80.820. dog. F = 80.830 dog. F temperature 3 ( 80.830 ) = 81.410 dog. F temperature 4 ( 81.410 ) = 83.250 dog. F temperature 5( 83.250 ) = 85.710' dog. F temperaturo 6 ( 85.710 ) = 91.540 dog. F temperature-7 ( 91.540 ) = 101.490 dog. F temperaturo-8 ( 101.490 ) = temperature 9 ( 108.320 ) 108.320 dog. F. = 105.350 dog. F temperature 10 ( 105.350 ) = 82.380 dog. F temperature 11 ( 82.380 ) = temperature 12 ( 82 560.) 82.560 dog. F = 82.500 dog..F temperature 13 ( 82.500 ) = 82.720 dog. F temperaturo 14 ( 82.720 ) = 75.440. dog. F, 0.4360Lpsia dowpoint 1 ( 75.440 ) = 76.480Ldog.=F, 0.4513_ psia-dowpoint 2 ( 76.480 ) = 77.020 dog. F, 0.4595 psia dowpoint-3 ( 77.020 ) = 80.010Ldeg.'F, 0.5070 psiac dewpoint 4 ( 80.010 ) = 79.640 dog. F-, 0.50094psiaL dowpoint 5 ( 79.640 ) = dowpoint 6 ( 80.150.) 80.150 dog.JF, 0.5093 psia' = 81.450: dog. F-,.0.5314l psia-dowpoint 7 ( 81.450 ) = 72.0340 psia pressure 1 ( 72.0340 ) = '72.0368' psia pressuro 2 ( 72.0368 ) = weighted averages,. volume and air mass-85.'94124Ldeg. F temperaturo = pressure 72.03400' psia = vapor pressuro = 0.~49235 psia- '277400 cu.-ft. voluma = dry air mass 98177.09.lba = O u I' 1 Y i w ^ M

1992 HNp Unit'2' Typo A Tout [ -data uot 6 '*~' timo =-1500 dato a 1106 aensor raw data valuo l temperaturo 1 ( 79.910 ) 79.910Ldog. F a temperatura 2 ( 80.800 ) 80.800 dog. F = tamparature 3 (- 80.810 ) 80.810 dog. F-1 = temperaturo 4 ( 81.400 ) 81.400 dog. F a temperature 5 ( 83.270 ) 83.270 dog..F l = temporaturo 6 ( 85.760') 85.760 dog. F = temperaturc 7 ( 91.640 ) 91.640 dog. F = temperature 8 ( 101.620-) 101.620 dog.=F- = temperaturo 9 ( 108.430 ) 108.430_ dog. P = 105.380 dog. F' 'tomparature 10 ( 105.380 ). = temperature 11 ( 822340=)- 82.340 dog. F = temperature 12 ( 82.520 ) 82.520_ dog. F = 02.440 dog. F tampurature 13 ( 82.440 ) = 82.670 dog. 7 temperature 14 ( 82.670 ) = dowpoint 1 (- 75.460 ) 75.460 dog. F, 0.4363 psia = dowpoint 2- -( 76.490 ) -76.490 dog. F, 0.4515. psia = 77.030 dog. F', 0.4596-paia dowpoint 3 ( 77.030 ) = 1 80.000 dog._F, 0.5068 psia dowpoint 4 (- 80.000-)- = 79.660 dog. F., 0.5012 psia l dowpoint-5 ( 79.660 ) = O 80.160 dog. F,.0.5095 psia dewpoint-6 ( '80.160 ) = e 81.'440 dog. F', 0.5312 psia-dewpoint 7 ( 81.440 ) i 72.0279 psia -prosauro -1 ( 72.0279 ) = 72.0305 psia prosauro. 2 ( 72.0305-). = .t weighted averagon, volume and. air mass-85.941411 dog.-F temperature- '= 72.02790 psias pressuro = vapor pressuro =

0.49242. psia

Volumo =. '271400 cu. ft.- dry air mass .98168.60 lbm= = a y i I ~

1992 !!!1p Unit 2 Typo A Test i data set-7 time = 1515 date = 1106 sensor raw datn value 79.900 dog. F temperature 1 ( 79.900 ) = temperaturo 2 ( 80.790 ) 80.790 deg. F = temperature 3 ( 80.790 ) 00.790 dog. F. = 81.400 dog. F temperaturo 4 ( 81 400 ) = 83.310 dog. F temperature 5 ( 83.310 ) a 85.820 dog. F temperaturo 6 ( 85.820 ) = 91.760 dog. F temperatura 7 ( 91.760 ) = 101.720 dog. F temperaturo-8 ( 101.720 ) = 108.530 dog. F temperature 9 ( 108.530 ) = 105.430 dog. F temperaturo 10 ( 105.430 ) = temperature 11 ( 82.320 ) 82.320l dog. F = 82.480 dog. F temperature 12 ( 82.480 ) = 82.410 dog. F temperatura 13 ( 82.410 ) = 82.620 dog. F temperature 14-( 82.620 ) = 75.470_ dog. F, 0.4364 paia dowpoint 1 ( 75.470 ) =- 76.480 dog. F, 0.4513 psia dowpoint 2 ( 76.480 ) = 1 77.030 dog. F, 0.4596 paia dowpoint 3 ( 77.030 ) =- 80.000 dog. F, 0.5068 psia dowpoint 4 ( 80.000 ) = 79.670 dog. F, 0.5014-psia-dowpoint 5 ( 79.670 ) = O 80.210. dog. F, 0.5103'paia dowpoint 6 ( 80.210 ) = 81~.430 dog. F., 0.5310. psia dowpoint 7 ( 81.430 ) = 72.0220. psia-pressure 1 ( 72.0220') = 72.0248 psia-pressure 2 ( 72.0248 )- = weighted.averagos, volume and air mass 85.95132 dog. F temperature = pressuro 4 -72.02200' psia vapor prosauro = 0.49258Lpaia e 277400:cu.-ft. voluma = 98158.50-lbm-dry air mass = h i l-t. u p

1992 IINP Unit 2 Typo A Test s data set 8 O. timo = 1530 date = 1106 sensor raw data value 79.890 dog. F temperaturo 1 ( 19.890 ) = 80.770 dog. F temperature 2-( 80.770 ) = 80.770 dog. F temperature 3 ( 80.770 ) a 81.390 dog. F temperature 4 (- 81.390 ) = 83.340 dog. F temperature 5 ( 83.340 ) = 85.870 dog. F temperaturo 6 ( 85.870 ) = 91.840 dog. F temperaturo 7 ( 91.840 ) = 101.850 dog. F tsmporaturo 8 ( 101.850 ) 108.590 dog. F temperaturo 9 ( 108.590 ) = 105.540 dog. F temperature 10 ( 105.540 ) = 82.290 dog. F temperaturo 11 ( 82.290 ) = 82.440 dog. F temperature 12 ( 82.440 ) = 82.380 dog. F temperature 13 ( 82.380 ) = 82.570 dog. F temporkture 14 ( 82.570 ) = 75.500 dog. F, 0.4369 psia dowpoint 1 ( 75.500_) = 76.480 dog. F, 0.4513 psia-dowpoint 2 ( 76.480 ) = 77.030 dog. F, 0.4596 psia dowpoint 3 ( 77.030 ) = 80.000 dog. F, 0.5068 psia dowpoint 4 ( 80.000 ) = 79.670 dog. F, 0.5014 psia dowpoint 5 ( 79.670 ) = O .80.230 dog. F, 0.5107 psia dowpoint 6 ( 80.230 ) = 81.400 dog. F, 0.5305 psia dowpoint 7 (, 81.400 ) = 72.0161 psia pressuro-1 ( 72.0161 ) = 7L.0187 poia; prosauro 2-( 72.0187 ) = weighted averages,~ volume and. air mass 85.95552 dog._F temperature- = 72.01610 pula pressuro = vapor pressuro = 0.49258 psia 277400 cu.-ft. volume = dry air mass 98149.64 lbm O

. s. bl' j ;-:;. ,,f :, 4 } Ng 1l, N 1992.HNP Unitf2= Type A' Test ,yy a data set 9 j a R'f' ~ time =-.1545 dato a 1106 m' ~ i 7-selisor raw data .value 'i temperature 1 ( 79.880.)' 79.860"deg. F- = 80.760_deg. F temperature -2 ( 80.7G0-) = 80.750 deg. F i temperature 3 ( 80.750 ) =- 81.390 deg. F temperature 4 ( 81.390 ). = 83.360 6eg. F j temperature 5 1(: 83.360 )- = -85.940 deg. F temperature 61(. 85.940 ) = 91.960'deg. F temperature 7 (- 91.960 ) = 102.000 deg; F temperature 8 ( 102.000 ) = 108.640' der,. F ~ temperatuir 9 ( 108.640 ) = 105.700 deg. F temperature 10 ( 105.700 )- ,= 82.270 deg. F temperature 11 ( 82.270 ) = 82.400 deg. F-temperature 12 ( 82.400 )- = 82.350 deg. F ,j temperature 13 ( 82.350 ) = 82.520 deg. F temperature 14 ( 82.520 }- = 75.480.deg. F, 0.4366 psia dowpoint 1 ( 75.480 )- = 76.500 deg. F,-10.4516spsia; dowpoint 2 (' 76.500-)- = 77.040 deg. F,-0.4598 psia dowpoint 3 ( 77.040 ) = 80.000 deg. F-., 0.5068 psia dowpoint 4 ( 80.000-) = 79.670'deg. F', 0.5014 psia dewpoint 5 ( 79.670 ) = O 80.270 deg.JF, 0.5113' psia-dewpoint 6 ( 80.270 ) = 81.400 deg.'F,_-0.5305 psia? dewpoint 7 ( 81.400 ) = 72.0104 psia pressure 1 ( 72.0104 ) = 72.0129= psia prassure 2 ( 72.0129-) = weig s verages, volume and air mass 85.96735 deg. F. comperature = 72.01040 paia prossure =- vapor pressureL=. 0.49276 psia 277400 cu. Eft. volume = dry. air mass 98139.45 lbm = 5 N

'1992,HNP' Unit-2'TypeLALTest-data set 10 4 time = 1G00 date = 1106 sensor. raw' data value 79.870 deg. F Ltemperature 1 ( 74.870 )- = 80.770 deg.-F q temperature 2 n. 770-) = 80.740 deg. F-temperature 3 "J.740 ) = g 'l 81.390._deg. F temperature 4 ( 81.390 )_ = 83.400 deg..F temperature 5'( 83.400 ) = 86.000 deg. F i temperature 6 ( 86.000 ) = 92.050 deg. F-temperature 7- ( 92.050 ) ' 102.100 dog. F = temperature 8.( 102.100 ) = 108.730-deg.- F temperature 9 ( 108.730 ) = 105.760 deg. F temperature 10 ( 105.760 ) = 82.260 deg. F-i temperature-11 ( 82.260 ) = 82.370 deg. F temperature 12 ( .82.370 ) = 82.310 deg. F temperature 13 ( 82.310 ) = 82.480 deg.-F. temperature'14-( 82.480-) = n75.500 deg. F, 0.4369 psia dewpoint 1 ( 75,500 )-- =- 76.500 dog. F-, 0.4516 psia. 'dowpoint 2 (- 76.500 ) = 77.040 deg. F., 0.4598 psia dewpoint 3 ( 77.040 ) = 80.000 deg..F., 0.5068. psia. dewpoint 4 ( 80.000 ) -= 79.680 dog. F;,10.S016. psia-dewpoint 5 (' 79.680 ) a js,p dewpoint-6 ( 80.260 ) 80.260 deg.-F-, 0.5112 psia 1 = = ' 81.370 deg.1F, 0.5300 psia-dewpoint 7 ( 81.370 ). 72.0049 psia-pressure 1 (- 72.0049 ) = '72.0077 psia prescuro 2 ( 72.0077 ) = weighted averages, volume and' air mass 85.97834 deg. F temperature = 72.00490 psia- . pressure = vapor pressure = 0.49265-psia 277400'cu.-ft, volume =

98130.08 lbm' dryEair mass

= L). 1

1992:HNP' Unit [2 Type A Test ' i g ,rt Jdata set' 11 '( L time = 1615 date = 1106 sensor raw data value-79.880:deg. F temperature 1 ( 79.880 ) = temperature. '2 ( 80.740 ) 80.740 deg. F' = temperature 3-( 80.720 ) 80.720.deg. F r =- temperature 4-(- 81.380 ) 81.380 deg. F = 83.430-deg. F temperature 5 ( 83.430 )- = temperature 6 ( 86.070 ) 86.070 deg. F = temperature 7 ( 92.150 ) 92.1501deg 'F = 102.260 deg. P temperature 8 ( 102.260 ) = temperature 9 ( 108.790 ) 108.790 deg. F = 105.750 deg. F temperature-10 ( 105.750 ) = temperature 11 ( 82.240 ) 82.240 deg. F = temperature 12 ( 82.340 ) 82.340'deg. F = -temperature 13 ( 82.280 ) 82.280-deg. F =- temperature 14 ( 82.430 ) 82.430 deg.-F = 75.480 deg. F,_0.4366 psia dewpoint 1 (;.75.480 ) = dewpointL 2 ( 76.510 )_ 76.510 deg. F 0.4518 psia- = 77.060 deg. F 0.4601 psia dewpoint 3 ( 77.060 ) = 80.000 deg. F, 0.5068 psiaL dewpoint 4 ( 80.000 )' = 79.680 deg. F,-0.5016 psia dowpolat 5 ( 79.680 ) -= f dewpoint 6 -( 80.260 ) 80.260 deg. F, 0.5112_. psia = \\~ dowpoint 7 ( 81.360-) 81.360 deg. F,' 0.5298 psia- = 71.9996 psia pressure 1 ( 71.9996 ) = 72;0022 psia-pressure 2-( 72.0022 ) = i weighted averages, volume and air mass 85.98631 deg._F temperature = 71.99960 psia pressure =- vapor pressure = 0.49264-psia-volume 277400 cu. ft, = dry air mass- '98121.39 lbm =- s d V 1 L

i i 1992LHNp Unit 2. Type:.i Test-L(N

data set E12

-Q time = 1630 date ='1106 i 1 sensor raw data value i 79.860 deg.=F ~ temperature 1 (- 79.860 ) = 80.720 dog. FJ l temperature 2 ( 80.720 ) = 80.710-deg.-F -l temperature 3 ( 80.710=) = 81.390 deg. F temperature 4-( 81.390-) = 83.'450-deg. F' j temperature 5 -( 83.450 ) = 86.150'deg. F-i temperature 6 ( 86.150-) = 92.250 deg. F _. temperature 7 -( 92.250 ) = 102.380cdeg. F-temperature 8 ( 102.380 ) = 108.880-deg.-.Fz h temperature 9 ( 108.880-) = 105.860 deg. F tcmperature 10 ( 105.860 ) = 82.200;deg. F u temperature 11 ( 82.200 ) = .82.310 deg. F temperature 12 ( 82.310 ) = 82.250 deg. F f temperature 13 ( 82.250 ) = B2.390 deg. F temperature 14 ( 82.390 ) = 75.520 deg. F, 0.4372 paia dowpoint 1 ( 75.520 ) = 76.510 deg. F, 0.4518. psia dewpoint 2 ( -76.510-) = y dowpoint 3 ( 77.070') 77.070 dog. F, 0.4603 psia' = 80.000 deg. F, 0.5068 psia-dewpoint 4 ( 80.000 ) = 79.690 deg. F, 0.5017 psia-dowpoint -5 ( 79.690 ) = 1 ,O 80.?80 dog..F_,-0.5115spsia-dewpoint 6 ( 80.280,) = 81 360 deg.-F.,,.0.5298.: psia. dewpoint 7 ( 81.360 ) = 71.9942 psia-pressure-1 ( 71.9942 ) = _71.9966.psial pressure 2 ( 71.9966 ) = weighted averages, volume and air mass 85.99670:deg. F temperature = 71.99420 psia _ . pressure = vapor pressure = 0.49281[ psia volume .277400 cu. ft, = dry air mass 98111.87hlbm = 1 s t

m_. .. _. - ~ - s< 1992 HNP Unit.2-Type A Test' QN' data set: 13. $v-time ='1645 dato =:1106 sensor-raw data value 79.850 deg. F temperature' 1 ( 79.850 ) = temperature 2 (- 80.710 ) = - 80.710_deg._F' 80.690 dog. F: temperature 3 ( 80.690 ) = temperature 4 ( 81.390 ) 81.390_ dog. F_ = 83.490 deg. F temperature 5 ( 83.490 ) = 86.160fdeg. F-temperature 6'( 86.160 ) = 92.340 deg. F temperature 7 -( 92.340 ) = 102.490 deg. F-temperature-8.( 102.490 ) = 108.940;deg. F-temperature-9 ( 108.940-). = temperature 10 ( 105.890 ) 105.890-deg..F = 82.180 dog. F . temperature-11-( 82.180 ) = 82.270 deg. F temperature 12 ( -82.270 ) = temperature 13 ( 82.230 ) 82.230 deg. F -= -82.340 deg. F temperature 14 ( 82.~340 ) = 75.520 deg. F, 0.4372' psia-dewpoint 1 ( 75.520 )- = 76.500'deg..F,_0.4516 psia-dewpoint 2 ( 76.500 ) = dowpoint 3 ( 77.090.) 77.090 deg. F, 0.4606 psia = dowpoint-4 -( 80.010-) 80.010 deg. F..,_0.5070" psia- ~ = dowpoint -5 ( 79.700.) _79.700'deg. F, 0.5019l psia' = -O' 80.270'deg; F,_0.5113; psia? dowpoint 6 ( 80.270 )- = 81.350 deg. F,-0.5296 psia dowpoint 7 ( 81.350-) = 71.9891; psia' pressure 1; ( . pressure 2 ( .71.9891 ) = -71.9913; psia 71.9913:) = weighted. averages,_ volume'and air mass-85.99946 dag. F temperature = 71.98910_paia pressure _ = vapor-pressure = 0.49280 psia 277400 cu. ft. volume = dry air mass 98104.39'lbm = i i 5 + o F 1 m u e ~ w

I I' -1992 HNP; Unit-2 Type A Test: data 7 set 14 ~/ time = 1700 'date = 1106 sensor raw data -valus 79.840.deg.'F. temperature' 1( -79.840 ) = temperature. 2 ( 80.700 ) 80.700_deg. F = temperature 3 ( 80.690 ) 80.690 deg.--F = q temperature 4 ( 81.390 ) 81.390 deg. F = temperature 5 ( 83.500 ) 83.500 aeg..F = 86.230 deg.-F-1 temperature 6 ( 86.230 ) = 92.450 deg. F' temperature 7 ( 92.450-) = temperature-8--( 102.570-) 102.570 deg.;F l = temperature 9 ( 109.050 ) 109.050-_deg. F, = temperature 10 ( 105.930-) 105.930 deg.-F H = = - 82.170-deg. F l temperature 11 ( 82.170 ) 82.260 deg. F l -temperature 12 ( 82.260.) = 82.210 deg.,F temperature 13 ( 82.210 ) = temperature'14 ( 82.320 ) 82.320 deg. F = dewpoint 1-(- 75.550 ) 75.550'deg. F,. 0.4376 psia- ~ = dewpoint 2 ( 76.520 )-- -76.520_deg.-F;, 0.4519 psia i = dewpoint .3 ( 77.100 ) 77.100-deg. F, 0.4607 psia = L dewpoint 4 ( 80.000 ) 80.000.deg. F.,.0.5068 psia = dewpoint 5 ( 79.730 ) 79.730 deg.JF, 0.5024 psia- = O dowpoint .6 (- 80.260 ) 80.260 deg. F.,:0.5112 psia = dowpoint 7 ( '81.350 ) 81.350 deg. F, 0.5296 psia- = .71.9841' psia' pressure 1 ( 71.9841 ) = 71.9865spsia pressure: 2 (' 71.9865 ) = weighted averages, volume and air mass-86iO1635Ldeg.fF temperature ~ 1 = pressure- =L 71.98410 psia. vapor pressure = 0.49288: psia- ~ volume '277400~cu.:ft. = dry-air mass 98094.38 lbm = yv + y iUe 2 a

3 19921HNPIUnit.~2?TypefA Test

y^(

data-set 15:

s t~-

Ao/" time-=71715 date =11106

i

- sensor raw data' -value 79.820 deg. F-temperature

1. ( - 79.820 ).

= 8 0. 710.-- deg. F temperature -2 ( 80.710 ) = 80.670Tdeg.-F l temperature:L3 ( 80.670 ) = 81.390 deg. F. T temperature 4( 81.390 ) m 83.560 deg. F - temperature 5( 83.560-) = 86.270 deg. F + temperature 6 ( 86.270 ) = temperature 7_ ( 92.550.) 92.550 deg.-F = 102.690 deg.;F-temperature 8 ;( 102.690 ) = 109.100 deg..F. temperature 9 ( 109.100') = 106.030 deg. F temperature 10 ( 106.030 )_ = 82.160 deg. F temperature 11 ( 82.160 ) = B2.240 deg..F temperature 12 ( 82.240 ) = 82.180 deg. P temperature 13 ( 82.180 ) =' 82.290 deg. F temperature-14 (- 82.290 ) = 75.500 dog.: F,10.4380: psia dewpoint 1 ( 75.580 ) = 76.530 deg.EFc,EO.4521 psia dowpoint-2 ( 76.530.) = 77.100:deg. F, 0.4607 psia-dewpoint. 3 ( 77.100 ) = 80.000 dag. F, 0.5068l psia 4 dewpoint 4 ( 80.000 ). = 79.720Ldeg. F,.0.5022-psia' l f-, dewpoint 5 ( 79.720 ) = 80.270 deg. Ff, 0.51130 psia. ( dewpoint 6 ( 80.270 ) = 81.330 deg. F,,0.5293Lpsia dewpoint 7 ( 81.330 ) = 71.9796 psia L pressure 1 ( 71.97961) =- 71~.9815 psia pressure 2 ( 71,9815 ) -= weighted averages, volume and-air mass' 86.03030 deg. F temperature = -71.97960 psia pressure = vapor pressure = 0.492891 psia

277400 cu. ft..

volume = dry air mass-98085.69 lbm- = l-r r _.. l O ~5 a e

1992 HNP Unit 2 Type A Test data set 16 O time = 1730 date = 1106 sensor raw data value 79.820 deg. F temperature 1 ( 79.820 ) = 80.670 deg. F temperature 2 ( 80.670 ) = 80.650 deg. F temperature 3 ( 80.650 ) = 81.400 dog. F temperature 4 ( 81.400 ) = 83.590 deg. F temperature 5 ( 83.590 ) = 86.350 deg. F temperature 6 ( 86.350 ) = 92.630 deg. F tempfrature 7 ( 92.630 ) = 102.820 deg. F temperature 8 ( 102.820 ) = 109.150 deg. F temperature 9 ( 109.150 ) = 106.160 deg. F temperature 10 ( 106.160 ) = 82.130 deg. F temperature 11 ( 82.130 ) = 82.200 deg. F temperature 12 ( 82.200 ) = 82.140-deg. F temperature 13 ( 82.140 ) = 82.250 deg. F temperature 14 ( 82.250 ) = 75.570 deg. F, 0.4379 psia dewpoint 1 ( 75.570 ) = 76.530 deg. F 0.4521 psia dewpoint 2 ( 76.530 ) = 77.120 deg. F 0.4610 psia dowpoint 3 ( 77.120 ) = 80.020 deg. F 0.5072 psia dewpoint 4 ( 80.020 ) = 79.750 deg. F 0.5027 nsia dewpoint 5 ( 79.750 ) = O 80.240 deg. F 0.510' psia dowpoint 6 ( 80.240 ) = 81.300 dog. F 0.5288 psia dowpoint 7 ( 81.300 ) = 71.9745 psia pressure 1 ( 71.9745 ) = 71.9765 psia pressure 2 ( 71.9765 ) = weighted averages, volume and air mass 86.03755 deg. F temperature = 71.97450 psia pressure = vapor pressure = 0.49277 psia 277400 cu. ft, volume = 98077.55 lbm dry air mass = O

.a.. N t-1992;HNP Unit:2 Type-A' Test 1:}rs,{- data 1 set' 17- { l "' time = 1745 date = 1106 ~ censor raw data ovalue. n 79.810 deg.-F; ' temperature ~ 1 ( 79.810') = temperatare-

2. (

80.680 ) 80.680;deg. F .. J = _80.660 deg.-F temperature 3 (- 80.660 ) = 81.400 deg. F. temperature -4 ( 81.400 ) = temperature 5 ( 83.600-)- 83.600 deg._-F- = 86.400 deg. F' y temperature 6 ( 86.400 )- = 92.730 deg.,F. temperature 7 '(. 92.730 ) = temperature 8 ( 102.960 ) aJ _102.960_deg.L FE _s 109.240 deg.gF temperature 9 ( 109.240 ) = 106.270:deg.RF temperature 10 ( 106.270 ) = 82.130:deg. F temperature 11 ( 82.130 ) = 82.200 deg. F-temperature 12 ( 82,200 ) = 82.130 deg. F temperature 13 (- 82.130 ) = - 8 2 :. 2 5 0 d eg. -- F temperature-14 ( 82.250--) = '75.580 deg.-P, 0.l4380: psia dewpoint 1 ( -75.580 ) = dowpoint- -2 ( .76.530 ) _76.530fdeg. F, 0.4521 psia = dewpoint-3 ( - 7 7.13 0 -- ) ' 77.130 deg. F, 0.4612 psia = dewpoint .4 ( 80.000 ) 80.000Ldeg. F_,;0.5068 psia = '79.740 deg.fF,'0.5025 psia dewpoint-5- ( 79.740 ) = '80.260 deg.EF-,;0.5112 psia ~ .t dewpoint 6 ( 80.260 ) = \\ 81.300 deg. F', 0.5288; psia dowpoint 7 ( 81.300 ) ~ = pressure. 1 ( 71.9699 ).= 71.9699: psia 71.9716. psia-pressure 2 .( 171.9716 ) = weighted averages,; volume and air-mass. 86.06264 deg. F-temperature = 71.96990-psia pressure = vapor pressure =- 0.492831 psia volume 277400 cu. ft.- = dry air mass 98066.65?lbm1 = s i O 2

1992 HNP Unit:2 Type A. Test. --:,q ' data set 18 time = 1800 .date = 1106 sensor raw data value j 79.810 deg. F temperature 1 ( 79.810-) = 80.680 deg. F . temperature 2 ( B0.680-) = 80.650 deg. F temperature' 3 ( 80.650 ) = 81.410 deg. F l temperature-4 ( 81.410 ) = .83.640 deg. F temperature 5 ( 83.640 ); = temperature 6 ( 86.440 ) 86.440 deg. F = 92.820 deg. F temperature 7 ( 92.820 ) = 103.060-deg. F temperature 8 ( 103.060 ) = 109.330-deg. F temperature 9-( 109.330 ) = temperature 10 ('106.230 ) 106.230 dog._F = 82.110 deg..F temperature 11 ( 82.110 ) = -82.170 deg.-F temperature 12 ( 82.170-) = temperature 13 ( 82.110 ) 82.110 deg. F -= 82.230 deg=, F temperature 14.( 82.230-)- = dewpoint 1 ( 75.610 ) 75.610 deg. F, 0.4385 psia = dewpoint = 2 ( 76.540 ) 76.540Ldeg.-F, 0.4522: psia = 77.130 deg. F, 0.4612 psia dewpoint-3 ( 77.130 ) = 80.000 deg. F, 0.5068 psia dowpoint. 4-( 80.000 ) = 79.760 deg..F 0.5029l psia dewpoint 5 ( 79.760 ) = ~ C 80.280:deg.-.F,-0.5115 psia dewpoint 6 ( 80.280 ) = 1-dewpoint 7 ( 81.270 ) 81.270 dog. F, 0.5283 psia q = 71.9655' psia pressure .1 ( 71.9655 ) = 71.9672 psia pressure 2 ( 71.9672 ) = weighted averages, volume and air mass 86.07323 deg. F temperature = 71.96550 psia. pressure' = . vapor. pressure.= 0.49288; psia 277400-cu.-ft.. volume = dry air mass 98058.64 lbm =

I 1992-HNP Unit-2-Type A' Test-gy data set-'19 time = 1815 'date = 1106 i sensor raw data value i -79.810 deg. F-temperature 1 ( 79.810 ) = 80.670_deg.EF temperature 2 ( 80.670 ) = temperature 3 ( 80.620 )' 80.620-deg. F = 81.410 deg. F temperature 4 ( 81.410 ) = 83.700 deg._ F temperature 5( 83.700 ) = 86.520.deg. F temperature 6 (- 86.520 ) = 92.030 deg. F temperature 7: ( 92.930 ) = 103.180-deg. F temperature. 8 ( 103.180 ) = 109.340 deg. F temperature '9 ( 109.340 ) = 106.340 dog.-F temperature 10 ( 106.340 ) = 82.080.deg._F temperature Il ( 32.080 ) = -82.170 deg. F temperature 12 ( 82.170-) = 82.100 deg. F temperature 13 ( 82.100 ) = 82.200 deg. F temperature 14 (- 82.200 ) = 75.630 deg. F,.0.4389 psia? dowpoint 1~ ( 75.630 ) = 76.550 deg. F, 0.4524 psia -dewpoint 2 ( 76.550.) = 77.140 deg. F, 0.4613 psia dewpoint 3 ( -77.140 ) = 80.000 deg..F,.0.5068Lpsia dewpoint 4 ( 80.000 ) ~ = 79.740 deg. F, 0.5025-psia dewpoint 5 ( 79.740 ) = [~/) dewpoint 6 ( 80.260 ) 80.260 deg. F,_O.5112' psia = 81.250 deg. F, 0.5279 psia: \\- dewpoint 7 ( 81.250 ). = 71.9608 paia pressure 1 ( -71.9608:) =- 71.9627 psia-pressure 2 ( 71.9627 ) = weighted averages, volume and air mass 86.09118 deg. F temperature = 71.96080 psia pressure = vapor-pressure = 0.49277 psia-277400 cu.Lft, volume = dry air mass 98049.12 lbm =

-1992 HNP Unit 2 Type A Test ..fg. data set 20 time = 1830 date = 1106 sensor raw data value 79.780-deg.-F temperature-1 ( 79.780 ) = 80.660 deg. F temperature 2 ( 80.660 ) = 80.610 deg. F temperature 3 ( 80.610 ) = 81.410 deg. F-temperature-4 ( 81.410 ) = 83.720;deg.,F temperature 5 ( 83.720 ) = 86.560 deg. F temperature 6 ( 86.560 ) = 93.000 deg. F temperature .7 ( 93.000 ) = 103.340 deg.'F temperature 8 ( 103.340 ) = 109.420 deg. F temperature 9 ( 109.420 ) = 106.350 deg. F temperature 10 ( 106.350.) = temperature-11 ( 82.070 ) 82.070 deg. F = 82.140_deg. F temperature 12 ( 82.140 ) = 82.070 deg. F temperature 13 ( 82.070 ) = 82.180 deg. F temperature 14 ( 82.180 ) = 75.650 deg. F,-0.4391 psia dowpoint 1 ( 75.650 ) = 76.550 deg. F,_0.4524 psia dewpoint 2 ( 76.550 ) = 77.160 deg. F, 0.4616; psia-dewpoint 3 ( 77.160 ) = 80.000 deg. F, 0.5068 psia 1 dewpoint 4 ( 80.000 ) = 79.750 deg. F, 0.5027 psiai dewpoint 5 ( 79.750 ) = [j dowpoint 6 ( 80.230 ) 80.230 deg. F, 0.5107 psia 1 = k/ dewpoint 7 ( 81.250 ) 81.250 deg.-F~, 0.5279' psia- = 71.9565 psia pressure 1 ( 71.9565-) = -71.9583 psia. pressure 2-( 71.9583 ) =- weighted averages, volume and air mass 86.09946=deg. F temperature = .71.95650 psia-pressure = vapor pressure = 0.49275; psia ~ 277400 cu.- ft.- volume = dry air mass 98041.76 lbm = 1 . r '1 1 V. k -) +

a c-

l 1992 liNP Unit 2 Type A Test data set 21 O- -time = 1845 date =-1106 sensor raw data value-79.780 deg. F temperature 1 ( 79.780 ) = 80.670 deg. F temperature 2 ( 80.670 ) = 80.600 deg. F temperature 3 ( 80.600 ) = 81.420 deg. F temperature 4 ( 81.420 ) = 83.740 deg. F temperature 5 ( 83.740 ) = 86.610 deg. F temperature 6 ( 86.610 ) = 93.100 deg. F temperature 7 ( 93.100 ) = 103.420 deg. F temperature 8 ( 103.420 ) = 109.530 deg. F temperature 9 ( 109.530 ) = 106.420 dog. F temperature 10 ( 106.420 ) = 82.060 deg. E temperature 11 ( 82.060 ) = 82.120 deg. F temperature 12 ( 82.120 ) = 82.050 deg. F temperature 13 ( 82.050 ) = 82.170 deg. F temperature 14 ( B2.17 0 ) = 75.650 deg. F, 0.4391 psia dewpoint 1 ( 75.650 ) = 76.560 deg. F 0.4525 psia dewpoint 2 ( 76.560 ) = 77.160 deg. F 0.4616 psia dewpoint 3 ( 77.160 ) = 80.000 deg. F 0.5068 psia dewpoint 4 ( 80.000 ) = 79.740 deg. F, 0.5025 psia dewpoint 5 ( 79.740 ) = O 80.260 deg. F, 0.5112 psia dewpoint 6 ( 80.260 ) = 81.240 deg. F 0.5277 psia dewpoint 7 ( 81.240 ) = 71.9524 psia pressure 1 ( 71.9524 ) = 71.9540 psia pressure 2 ( 71.9540 ) = weighted averages, volume and air mass-86.11722 deg. F temperature = 71.95240 psia pressure = vapor pressure = 0.49282 psia 277400 cu. ft, volume = 98032.85 lbm dry air mass = O

-1 1992 IINP-Unit 2 Typo A Tost ~ s re ' data set 22 J L A= time = 1900 date = 1106 sensor . raw data value 79.810 deg. F temperature 1 ( 79.810 ) = 80.660 deg.oF temperature 2.( 80.660 ) = 80.590 deg. F temperature 3 ( 80.590 ) =. 81.430 deg. F temperature-4 ( 81.430 ) =- 83.790 deg. F temperature S( 83.790 ) = 86.680 deg. F temperature 6 (. 86.680 ). = 93.200 deg. F temperature 7 ( 93.200') = 103.540 deg. F temperature 8 ( 103.540 ) = 109.540 deg. F temperature 9 ( 109.540-) = 106.450 deg.-F temperature 10-( 106.450 ) = -82.040 deg. F. temperature.11 ( 82.040 ) = 82.110 dog. F temperature 12 ( 82.110 ) = 82.030 deg. F temperature 13 ( 82.030 ) = 82.150 deg. F temperature 14 ( 82.150 ) = 75.650 deg. F, 0.4391 psia dewpoint 1 ( 75.650 ) = 76.580 deg. F, 0.4528 psia dewpoint 2 ( 76.580 ) = 77.170 deg..F, 0.4618 psia dowpoint-3 ( 77.170 ) = 80.000 deg.-F, 0.5068. psia dewpoint 4 ( 80.000 ) = 79.780 deg. F,_0.5032 psia dewpoint 5 .( 79.780 ) = [~h dewpoint 6 ( 80.220 ) 80.220 deg. F','O 5105 psia = sl dewpoint 7 ( 81.230 ) 81.230 deg. F, 0.5276 psia = 71.9479 psia pressure. 1 ( 71.9479 ) = 71.9497 psia pressure 2 ( .71.9497 ) = weighted averages, volume-and-air mass 86.13385 deg.EF-temperature = 71.94790' psia pressure = vapor pressure = 0.49274' psia.. -277400 cu. ft. volume = dry air mass 98023.80 lbm = th ( )

.t 1992 HNP Unit-;2~. Type A' Test-data set 23 \\ -L time = 1915 date = 1106 + -sensor _ raw datL. value temperature 1- ( 79.810 ) -79.810 deg. F = 80.660 deg. F temperature - 2 ( f80.660') =- 80.590 deg. F temperature. 3 ( 80.590 ) = 81.430 deg. F temperature 4-( 81.430 ) = 83.820 deg. F temperature 5 ( 83.820 ) = 86.730_deg. F temperature-6-( 86.730 ) = -93.290 deg. F temperature 7 ( 93.290 ) = 103.650 deg. F temperature 8 ( 103.650 ) = 109.610Tdeg. F-temperature 9 ( 109.610 ) = 106.520 deg. F. temperature 10 ( 106.520 ) = 82 030 dog.-F temperature 11-( 82.030 ) = 82.100 deg.-F temperature 12 ( 82.100 ). = temperature 13 ( 82.020 ) 82.020 deg. F = 82.140 deg. F-temperature 14 ( B2.140 ) = 75.650 deg.-F_, 0.4391 psia-dowpoint. 1 ( 75.650 ) = 76.580_deg. F,_ 0.4528 psia -dewpoint 2 ( 76.580 ) = dewpoint 4 ( 80.020 ) ~ 77.160 deg. F,'O.4616 psia dewpoint 3_ ( 77.160 ) = 80.020 deg.- F, 0.5072. psia; = 79.770 deg.-F, 0.5030. psia dewpoint 5 ( 79.770 ) = _f'h - dewpoint 6 ( 80.190 ) 80.190 deg. F_, 0.5100 psia = \\_/ dowpoint 7 ( 81.230 ) 81.230'deg. F, 0.5276 psia- = 71.9437 psia pressure 1 ( 71.9437 ) = pressure 2 ( 71.94541) .. = 71.9454 psia weighted averages, volume and air mass. 86.15254 deg. F temperature = 71.94370 psia pressure = vapor pressure = 0.49263 psia-277400 cu. ft, Volume = dry air rTss. _98014.83.lbm = . ['T %.)

I 1992 HNP Unit 2 Type A Test data set 24 ^# time = 1930-date = 1106 1 sensor raw data value -l 79.780 deg. F temperature 1 ( 79.780 ) = '80.650 deg. F-temperature 2 ( 80.650 ) = temperature 3 ( 80.580 ) 80.580 deg. F = 81.450 deg. F temperature 4 ( 81.450 ) = 83.850 deg. F temperature 5 ( 83.850 ) = temperature 6 '( 86.790 ) 86.790 deg. F = 93.380 deg..F temperature 7 ( 93.380 ) = 103.740 deg. - F temperature S ( 103.740 ) = 109.680 deg. F' temperature 9 ( 109.680 ) = 106.530 deg. F temperature 10 ( 106.530 ) = 82.020 deg.-F i temperature 11 ( 82.020 ) = temperature 12 ( 82.080 ) 82.080 deg. F- = 82.000 deg. F temperature 13 ( 82.000 ) = 82.130 deg. F temperature 14 ( 82.130 ) =- 75.700 deg 'F 0.4398 psia devpoint 1 ( 75.700 ) = 76.580 deg. F, 0.4528 psia devpoint 2 ( 76.580 ) = 77.170-deg. - F, 0.4618 psia dewpoint 3 ( 77.170 ) a 80.020 deg. F, 0.5072 psia dewpoint 4 ( 80.020 ) = 79.790 deg. F, 0.5034 psia devpoint 5-( 79.790 ) = /"'N dewpoint 6 ( 80.220 ) 80.220 deg. F, 0.5105 psia = (j devpoint 7 ( 81.220 ) 81.220 deg. F 0.5274 psia = 71.9397 psia pressure 1 ( 71.9397 ) = 171.9408 psia pressure 2 ( 71.9408 ) = weighted averages, volume and airLmass 86.16553 deg. F temperature = 71.93970 psia-pressure = vapor pressure = 0.49283 psia-277400'cu. ft. volume. = dry-air mass 98006.73 lbm =- 1 e

1992 HNP Unit 2 Type A Test data set 25 ' \\ _)T - / time = 1945 date = 1106 s sensor raw data value 79.780 deg. F temperature 1 ( 79.780 ) = 80.640 dog. F temperature 2 ( 80.640 ) = 80.580 deg. F temperature 3 ( 80.580 ) = 81.450 deg. F temperature 4 ( 81.450 ) = 83.870 deg. F temperature 5( 83.870 ) = 86.830 deg. F temperature 6 ( 86.830 ) = 93.460 deg. F temperature 7 ( 93.460 ) = 103.850 deg. F temperature 8 ( 103.850 ) = 109.750 dog. F temperature 9 ( 109.750 ) = 106.690 deg. F temperature 10 ( 106.690 ) = 82.010 deg. F temperature 11 ( 82.010 ) = 82.070 deg. F temperature 12 ( 82.070 ) = 81.990 deg. F temperature 13 ( 81.990 ) = 82.120 deg. F temperature 14 ( 82.120 ) = 75.710 dog. F, 0.4399 psia dewpoint 1 ( 75.710 ) = 76.600 deg. F, 0.4531 psia dewpoint 2 ( 76.600 ) = 77.210 deg -F, 0.4624 psia dewpoint 3 ( 77.210 ) = 80.020 deg. F, 0.5072 psia dowpoint 4 ( 80.020 ) = 79.770 deg. F, 0.5030 psia dewpoint 5 ( 79.770 ) = 80.260 deg. F, 0.5112 psia. dewpoint 6 ( 80.260 ) O = 81.230 deg. F, 0.5276 psia dewpoint 7 ( 81.230 ) = 71.9356 psia pressure 1 ( 71.9356 ) = 71.9368 psia pressure 2 ( 71.9368 ) = weighted averages, volume and air mass 86.18412 deg. F temperature = 71.93560 psia pressure = vapor pressure = 0.49313 psia 277400 cu. ft. volume = 97997.37 lbm dry air mass = 4

.1992 HNP Unit 2 Type A~ Test data: set 26" b- ~ date-=-1106- \\h time = 2000 sensor raw data value: ~ 79.780 dog. F- -temperature 1 ( 79.780 ) = 80.650 deg.=F temperature 2 (._80.650 ) = 80.570.deg.'F- - temperature 3 ( 80.570 ) = temperature 4.( 81.470 ) 81.470'deg. F = temperature 5 ( 83.890 ) = 83.890 deg. F-t 86.880ldeg. F temperature. 6 ( 86.880 ) = 93.560-deg..F temperature 7 (' 93.560,)- = 103.930 deg.:P temperature 8 ( 103.930 ) = temperature 9 ( 109.720 ) 109.720 deg. F: = 106.710 deg..F temperature 10 ( 106.710 ) = temperature 11 ( 81.990 ) 81.990 deg. F = 82.060 deg F temperature 12 ( 82.060 ) = temperature 13 ( 81.980.) 81.980 deg. F = 82.110 deg. F temperature 14 (- 82.110 ) = '75'.710 deg.-P, 0.4399 psia-dewpoint 1 ( 75.710~) = 76.580 deg.;F, 0.4528 psiaL dowpoint 2 ( 76.580 ) = dewpoint 3 ( _77.220 ) 77.220 deg !F:, 0.4625; psia = 80.030.deg. F,-0.5073 psia dowpoint 4. ( -80.030 ) = 79.780_deg. F, 0.5032 psia - dowpoint 5 ( 79.780 ) = /' dowpoint 6 ( 80.200 ) 80.2001deg. F, 0.5102: psia = 81.200 deg. F:,-0.5271_ psia-dowpoint 7 ( 81.200 ) = 71.9314-psial pressure 1 ( 71.9314 ) = _71.9328 psia pressure 2 ( 71.9328.) = weighted averages, volume.and1 air' mass. 86.19479.deg. F temperature a 71.93140: psia;. s pressure. = vrper pressure = 0.49282: psia volums 2774001cu..ft. = dry air mass 97990.11 lbm- = ' lQ t e , + ~

-t-l 1992'HNP Unit 2-lTypoiA Toot ,;.4 data set '27 -t Ji P \\ /- time = 2015 date =L1106 sensor raw data value. 79.770Ldeg. F l temperature' 1L. ( 79.770 ) = 80.630 deg. FJ temperature-2-( 80.630-) = 80.560 deg. F 1 temperature 3' _( 80.560 ) = 81.470 deg._-F temperature = 4 ( 81.470 ) = ~ 83.930'deg. F-temperature 5 ( 83.930 ) = 86.950'deg. F: temperature 6 ( 86.950 )1 = a temperature 7_ ( 93.640 ) 93.640-deg.fF = e temperature 8 ( 104.000 ) 104.000 deg.-F- = temperature 9 ( 109.860~) 109.860 deg 'F = temperature;10 (_106.780 ) 105.780 deg F = temperature ~11 ( 81.970.) 81.970Ldeg. F = temperature 12 ( 82.030 )- 82'.030?deg. F = 81.960 deg. F temperature-13 ( 81.960 ) = 82.090 deg. F temperature 14 ( 82.090 ). = dowpoint_ 1 ( 75.700 ) 75.700 deg. F_, 0.4398. psia = 76.620 deg. F, 0.4534 paia 'dowpoint 2 ( 76.620-) = 77.220_deg. F,10.4625Lpsia . dewpoint 3 ( 77.220 ) = 80.0201deg. F, 0.5072Lpsiat dewpoint 4 ( 80.020-) = dewpoint 5 (' 79.790 ) 79.790'deg.;Ff,,0;50341 psia = [)( dowpoint 6 ( 80.'160 ) 80.160 deg.'FL,-0.5095? psia-- = ( dewpoint 7 ( 81.180 ) 81.180 deg. Fo, 'O.5267 psia- = 71.9273 psia' pressure 1 (- 71.9273 ) = 71.9286. psia: pressure 2 ( -71.9286 ) = weighted averages, volume and air mass 86.'20942 deg.-F -temperature = 71.92730' psia . pressure = vapor pressure = 'O.49263 psia-277400 cu.-ft, volume = dry air mass 97982.12 lbm = s / ( q) r W

7 _- 1992 HNF Unit:2 Typo A Toct -data set' 28- -u-0 U{s time =_2030 date = 1106-sensor -raw data value 79.780-dog. F-temperature 1 ( 79.780 ) = 80.650 dog. F temperature 2 ( 80.650 ) = 80.560_deg. F temperature 3 ( 80.560_) = Bl.490 deg. F temperature 4 ( 81.490 ) = 83.950 deg. F- . temperature 5 ( 83.950 ) = 87.000 deg. F temperature 6 ( 87.000 ) = 93.730 dog. F temperature

7. (

93.730 ) = 104.090 deg. F temperature 8_( 104.090 ) = '109.900;deg.'F temperature 9 ( 109.900 ) = temperature 10 ( 106.790 ) 106.7901deg. F = 81.970 deg. F temperature 11 ( 81.970_) = 82.020;deg. F temperature 12 ( 82.020 ) = 81.940 deg. F temperature'13 ( 81.940 ) = 82.070 deg. F temperature 14 ( 82.070_) = -75.710'deg. F, 0.4399 psia dewpoint 1 ( 75.710 ) = 76.610'deg. F', 0.4533 psia. dowpoint 2 ( -76.610c) = dewpoint 3 (- 77.230 ). 77.230 deg. F, 0.4627 psia = 80.040 deg. F, 0.5075 psia dewpoint 4 -(- 80.040 ) = 79'790-deg. F,.0.5034. psia-devpoint 5 ( 79.790-). = 80.170 dog. F_-, 0.5097. psia dewpoint 6 ( 80.170 ) O = 81.200 deg. F, 0.5271 psia. dewpoint 7 ( 81.200 ) = 71.9233 psia-pressure 1 ( 71.9233 ) = 71.9246 psia pressure 2 ( 71.9246 ) = weighted averages, volume and air mass B6.22462 deg.-F temperature. = 71.92329 psia-pressure = vapor pressure = 0.49281 psia volume ~= 277400 cu. ft, 97973.65 lbm-dry air mass. = ,m 9. 3

' 1992 HNP Unit 2 Ty}M A '.'est . data' set-29 .,)s-)' time =-2045-date-=:1106 sensor raw data _ value _79.760 deg..F temperature 1 ( 79.760 ) = 80.6SO deg. F temperature 2 ( 80.650 ) = 80.550 deg.,F temperature 3-( 80.550 ) = 81.500 deg.cF temperaturu 4 ( -81.500-) = 83.970 deg. F temperaturu 5 ( 83.970 ) = 87.040 deg. F temperature 6 ( '87.040 ) = 93.820 deg. F-temperature 7 (- 93.820 ) = 104.210 deg.--F temperature _ 8 ('104.210 ) = 110.010 deg. F temperature 9- ( 110.010 ) = 106.890 deg. F temperature 10 ( 106.890-) =. 81.950_deg. F -- temperature 11-( 81.950 }- = 82.010 deg. F temperature 12 (- 82.010 ) = 81.920 deg. F temperature 13 ( 81.920 ) = 82.060 deg. F temperature 14 ( 82.060 ) = dewpoint 1 ( 75.750 ) 75.750.deg. F, 0.4405. psia = 76.630 deg.JF, 0.4536 psia; dewpoint 2 ( 76.630 ) = _77.240 deg. F,-_0.4629-psia dewpoint 3 ( 77.240 ) = dewpoint 4 ( 80.040 ) _80.040 deg. F', 0.5075 psia = 79.790 deg. F, 0.5034 psia' dowpoint 5 ( 79.790 ) = 80'.140 deg.~F', 0.5092' psia- /~s dewpoint 6 ( 80.140.) = (,) dowpoint 7 ( 81.180 ) 81.180 deg. F,_0.5267 psia l = 71.9193-psia-pressure 1 ( 71.9193 ) = 71.9206 psia pressure 2 ( 71.9206 ) = weighted averages, volume and air mass BG.24179 dcg. F-temperature = 71.91930 psia pressure. = c vapor pressure =' 0.49273 psia l volume 2 7.7 4 0 0; c u., f t, = dry air mass 97965.20 lbm = L L-u l L

1992 HNP' Unit ~2 Type A. Toot data set 30-k) time = 2100 date = 1106 sensor raw data value temperature 1 ( 79.780 ) 79.780'deg. F = 80.640~deg. F temperature 2 ( 80.640 ) = 30.550.deg. F-temperature 3 ( 80.550 ) o = 81.510 deg. F temperature 4 ( 81.510 ) = 83.970 deg. F temperature 5 ( 83.970 ) = 87.110 deg._F temperature 6 ( 87.130 ) = 93.900 deg. F. temperature 7 ( 93.900 ) = 104.330 deg. F temperature 8 ( 104.330 ) = 110.050 deg. F temperature 9 ( 110.050 ) = 106.890 deg. F temperature 10 ( 106.890 ) = 81.940 deg. F temperature 11 ( 81.940 ) = 82.000_deg. F temperature 12 ( 82.000 ) = 81.910 deg. F temperature 13 ( 81.910 ) = 82.050 deg. F temperature 14'( 82.050 ) = 75.750 deg. F, 0.4405 psia dewpoint 1 ( 75.750 ) = 76.620 deg. F,-0.4534. psia dewpoint 2-( 76.620 ) = 77.230 deg. F, 0.4627-psia dewpoint 3 (' 77.230 ) = 80.030 deg. F, 0.5073_ psia-dewpoint 4 ( 80.030 ) = 79.820 deg. F., 0.5039 psia dewpoint 5 ( 79.820 ) = 80.070 deg. F, 0.50B0 psia dewpoint 6 ( 80.070 ) --O = 81.180 deg

lP_,

0.5267 psia dewpoint 7 ( 81.180 ) = 71.9154 psia-pressure 1 ( 71.9154 ) = 71.9165 psia pressure 2 ( 71.9165 ) = weighted averages, volume and air mass 86.25704.deg. F. temperature = 71.91540 psia pressure. = vapor pressure = 0.49246 psia 277400 cu. ft. volume' = dry air mass-97957.49 lbm = V

,m Y 1992 HNP: Unit 2 Typo A Tact 1 . data set = 31-l N/ time = 2115 date = 1106 sensor -raw-data -value temperature 1 ( 79.760 ) 79.760 dog. F- = temperature 2 ( 80.630 ) 80.630'deg.- F- = i temperature 3 ( 80.540 ) 80.540.deg. F = temperature-4.( 81.510 ) 81.510 deg. F j = temperature' 5 ( 84.000 ) 84.000;deg.=F = temperature 6 ( 87.160 ) 87.160 deg.'F = temperature 7 ( 93.980 ) 93.980_deg. F- = temperature 8 ( 104.430 ) 104.430 deg. F = temperature 9 ( 110.020 ) 110.020 deg. F = temperature 10.( 106.890 ) .106.890 deg. F = temperature 11 ( 81.930 ) 81.930 deg. F = temperature 12 ( 81.990 ) 81.990 deg. F = temperature 13 ( 81.910 ) 81.910 deg. F = temperature 14 ( 82.050 ) 82.050 deg..F = dowpoint 1 ( 75.770 ) 75.770 deg. F, 0.~4408 psia =- dowpoint 2 ( 76.650 ) 76.650 deg. F, 0.4539 psia = dewpoint 3 ( 77.250 ) 77.250 deg. F, 0.4630 psia = 80.040 deg. F, 0.5075 psia dewpoint 4 ( 80.040 ) = dewpoint 5. ( 79.840 ) - = 79.840 deg 5F,.0.5042 psia L -/*g .dowpoint 6 ( 80.060 ) 80.060 deg. F, 0.5078 psia = (,j/ dowpoint 7 ( 81.140 ) 81.140 deg. F, 0.5260Lpsia = 71.9115 psia pressure 1 ( 71.9115 ) = 71.9124 psia-pressure 2 ( 71.9124-) = weighted averages, volume and air mass 86.26745 deg. F temperature = 71.91151 psia pressurc = vapor pressure = _0.49243 psia 277400 cu. ft. volume = dry air mass -97950.32 lbm = /~N d l

1992 HNP Unit' 2 Typs 'A Tc::t' data set _ 32 k_/i titaa = 2130 date = 1106 . sensor raw data value 79.760'deg. F temperature 1 ( 79.760 ) =. temperature 2 ( 80.620 ) 80.620'deg. F = temperature 3 ( 80.540 ) 80.540.deg. F = temperature '4 ( 81.520 ) 81.520 deg. F = temperature 5 ( 84.010 ) 84.010:deg. F = temperature 7 (. 87.220 ) temperature 6 ( 87.220 dog.:F = 94.070 ) 94.070 deg. F = temperature 8 ( 104.540-) 104.540 deg. F = temperature 9 ( 110.080 ) 110.080 deg..F = temperature 10 ( 106.920-) 106.920 deg. F- = temperature 11 ( 81.920 ) 81.920 dog. F = temperacure-12 ( 81.980 ) 81.980 deg. F = temperature 13 ( 81.890 ) 81.890 deg. F = temperature 14 ( 82.040 ) 82.040 deg. F = dowpoint 1 ( 75.780 ) 75.780 deg. F, 0.4410. psia: = dewpoint 2 ( 76.650 ) 76.650 deg.-F=.,LO.4539_ psia = dowpoint. 3 ( 77.270 ) .77.270 deg. F, 0.4633; psia = dewpoint :4 ( 80.040 ) 80.040 deg. F, 0.5075 psia' = dowpoint 5 (' 79.820 ) 79.820 deg. F,f0.5039:. psia: = r'g . dewpoint 6 '( 80.110 ) 80.110 deg. F,.0.5087 psia = (,) dewpoint 7 ( 81.130 ) 81.130 deg..F,10.5259 psia' = .71.9079 psia' pressure 1 ( 71.9079 ) = pressure-2~ ( 71.9088 )- 71.9088 psia = weighted averages, volume and air mass temperature' 86.28265 deg..F = 71.90790. psia-pressure = vapor pressure = 10.49262 psia-volume 277400 cu.Lft. = dry air mass 97942.3911bm =

? 1992_HNP Unit 2.Typs A Tcet data-set 3 3 -- N_ tima = 2145 date =-1106 = sensor raw data value 79.750 deg. F temperature 1 ( 79.750 ) = 80.630 deg. F-tenperature 2 ( 80.630 ) = 80.520 deg. F temperatura -3 ( 80.520 ) = 81.530 deg.- F-temperature 4 ( 81.530 ) = -temperature 5 ( 84.050 ) 84.050 deg. F = 87.260 deg. F temperature 6 ( 87.260 ) = temperature 7 ( 94.130 ) 94.130.deg. F = temperature 8.( 104.610 ) 104.610 deg. F = temperature 9 ( 110.170-) 110.170 deg. F = temperature 10 ( 107.090 ) 107.090 deg. F = 81.910 deg. F temperature 11 ( 81.910 ) = temperature 12 ( 81.980 ) 81.980 deg. F = temperature 13 ( 81.880 ) 81.880'deg.-F = temperature 14 ( 82.030 ) 82.030 deg. F = dowpoint 1 ( 75.790-) 75.790 deg. F, 0.4411' psia = dewpoint 2 ( 76.670 ) 76.670 deg.'F 0.4542_ psia = dewpoint 3 ( 77.280 ) 77.280 deg. F 0.4635 psiaf = dewpoint 4 (' 80.040 ) 80.040 deg. F 0.5075 psia. = dewpoint 5 ( 79.840 ) 79.840 deg. F, 0.5042_ psia = r-dewpoint 6 ( 80.090 ) 80.090 deg. F,~0.5083fpsia- = .q)s. dewpoint 7 ( 81.150 ) 81.150 deg. F,'O.52621 psia = 71.9040 psia pressure 1 ( 71.SO40 ) = 71.9052 psia pressure 2 ( 71.9052 ) = weighted-averages, volume and air mass temperature 86.30185 deg..F = 71.90400_ psia pressure = vapor pressure = 0.49271 psia volume 277400 cu. ft, = dry air mass 97933.47 lbm =- I sO

a a

1992 Unit::2LVerification Stabilization- ~

DATA

SUMMARY

-REPORT. .1,,% -_ A.sb data tine-- date temperature-pressure -vapor dry air- -set deg - P' psia: pressure mass paia- -lbm: 1 2200 1106 .86.3155 71.8993 0.4928~ 97924.41~ 2 2215 1106 86.3387 71.9002 0.4927 97921.72-3' 2230 1106 86.3414 71.8965 0.4927 -97916.13' -4 2245 1106 86.3548- .71.8819 0.4927 97893.63 5 2300 1106 86.3601 =71.8678 0.4931-97872.91 C k ~ d 3

h ? 1992 Unit 2 Verification Stabilization? i data set 1 7 k_/ time =12200 date = 1106 sensor raw. data value. temperature 1 ( 79.750 ) 79.750fdeg. F = temperature 2 ( 80.620-) 80.620 dog.:P = 80.530Ldeg. F-temperature

3. ( _80.530 )

= 81.540_deg. F temperature 4-(- 81.540 ) = 84.080 deg.-F temperature 5( 84.080 ) = 87.320 deg. F temperature 6 ( 87,320-) = 94.230 deg.--F temperature 7 ( 94.230 ) = . temperature -8 ( 104.650-) 104.650 deg. F- = 110.210 deg, FL temperature 9 ( 110.210 ) a 107.070 deg.- F temperature 10 ( 107.070 ) = 81.300 deg. FL temperature 11 ( 81.900 ) = 81.970 deg.-F temperature 12-( F1,970 ) = temperature 13 ( 81.870 ) 81.870 deg. F = 82.020'deg._F temperature 14 ( 82.020 ) = dewpoint 1 ( 75.790 ) 75.790 deg.lF,- 0.4411-psia = 76.660_ dog. F, 0.4540 psia-dewpoint' 2 ( 76.660 )- ~ = 77.300 deg.-F,_0.4638 psia dowpoint 3 ( _77.300 ) + = 80.050;deg. F, 0;5077 psla-dewpoint 4 ( 80.050 ) = 79.860 deg. F, 0.5045 paia dewpoint 5 ( '79.860 ) = 80.110 deg.- F,'O.5087. psia fg' . dewpoint 6 ( 80.110 ) = 81.140 deg.EF,.0.5260-psia' ' (,) dewpoint 7 ( 81.140-) = 71.8993 psia pressure 1 ( 71.8993 ) = ~71.9005 psia pressure 2 ( 71.9005_) = weighted averages,-volume and_ air mass-86.31552 deg. F temperature = '71.89930 psia-pressure = vapor pressure = _0.492831 psia .-277400 cu. ft. volume = dry' air mass 97924.41'lbm = i: I l-. p. l l l I-I^ [f

_1992LUnit 2LVerification Stabilization data not-2 k/ - time = 2215-date = 1106 s sensor raw data value 79.770 dog. F. temperature 1 (. 79.770 ) = 80'.620 deg. F temperature 2 (- 80.620 ) = temperature 3 ( 80.530 ) =. 80.530_ dog. F-81.570 deg. F temperature 4 ( 81.570 ) = 84.120 deg. F temperature 5 ( 84.120 ) = 87.380 deg. F temperature 6 ( 87.380 ) = 94.310 deg. F temperature 7 ( 94.310 ) = 1'i4.730 deg. F temperature 8_( 104.730 ) = 110.270 deg. F temperature 9 ( 110.270 ) = 107.120 deg.'F temperature 10 ( 107.120 ) = 81.900 deg. F temperature 11 ( 81.900 ) = 81.960 deg. F temperature 12 ( 81.960 ) = 81.870 deg. F temperature 13 ( 81.870 ) = 82.020 deg. F temperature 14 (- 82.020 ) = 75.790 deg. F 0.4411 psia dowpoint 1 ( 75.790 ) = 76.640 deg. F, 0.4537 psia dewpoint 2 ( 76.640 ) = 77.310 deg~. F-, 0.4639 psia dewpoint 3 ( 77.310 ) = 80.060 deg. F, 0.5078 psia-dewpoint 4 ( 80.060 ) = _79.840 deg. F, 0.5042 psia dowpoint 5 ( 79.840 ) = 80.080 deg.!F, 0.5082 psia dewpoint-6 (_ 80.080 ) -Os = 81.130 deg. F, 0.5259 psia. dewpoint 7 ( 81.130 ) = 71.9002 psia pressure 1 ( 71.9002 ) = -71.9014 psia pressure 2 ( 71.9014 ) = '4 weighted averages,. volume and-air mass _86;33869 dog. F temperature = 71.90020' psia. pressure = -Vapor pressure = 0.49266 psia 277400'cu. ft. volume = dry air mass 97921.72 lbm = .e -l t. 5 i l L l i -i (,/ l.

I 1992 Unit 2 Verification Stabili2cti., ~ data set 3 time = 2230 date = 1106 sensor raw data value ~ 7G.750 dog.'F temperature 1 ( 79.750 ) = 80.640 dog. F temperaturo 2 ( 80.640 ). = 80.530. dog. F temperaturo 3 ( 80.530 ) =- 81.570 dog. F temperature 4 ( 81.570 ) = 84.120 dog. F temperature 5 ( 84.120 ) 87.420 dog. F temperature 6 ( 87.420 ) = 94.330 deg. F temperature 7 ( 94.330 ) = 104.820 dog. F temperaturo 8 ( 104.820 )- = 110.260 deg. F temperature 9 ( 110.260 ) = 107.070. dog. F temperature 10 ( 107.070 ) = 81.890 dog. F totsporature 11 ( B1.890 ) = '81.960 deg.-F temperature 12 ( 81.960 ) = 81.860 deg. F temperature 13 ( 81.860 ) o 82.010 dog. F temperaturo 14 ( 82.010 ) = 75.830 dog. F, 0.4417 psia dowpoint 1 ( 75.830 ) = 76.680 dog.-F, 0.4543-psia dowpoint 2 ( 76.680.) = 77.320 dog. F., 0.4641 psia-dowpoint 3 ( 77.320 ) = 80.050 dog. F,-0.5077 psia dowpoint 4 (- 80.050 ) = 79.880 deg.:F,.0.5048 psia. dowpoint 5 ( 79.880 ) = 80.040 dog. F,-0.Tu75 psia' dowpoint 6 ( 80.040 ) O = 81.130 dog.-F', 0.5259 psia-dowpoint 7 ( 81.130 ) = 71.8965 psia pressuro 1 ( 71.8965 ) = 71.8979 psia pressuro 2 ( 71.8979 ) = ~ weighted averagos, volume and air mass 86.34138 dog. F-temperature = 71.89651 psia pressuro = vapor pressure = 0.49269 psia 1277400 cu..ft. volume = dry air:masa 97916.13 lbm = 9-L N B41 sui--* e =mw g ,,wme +MWu+-t' e w'wi %= vi e vyg p

i 1992 Unit 2 Vorification Stabilization f data sot-4 timo = 2245 dato = 1106 aansor raw data value j 79.750 dog. F temperaturo 1 ( 79.750 ) = 80.600 dog. F temperature 2 ( 80.600 ) = temperaturo 3 ( '80.520 ) 80.520 dog. F = temperature 4 ( 81.570 ) 81.570 dog.-F = 84.140 dogs F temperaturo 5 ( 84.140 ) = 87.450 dog. F temperature 6 (- 87.450 ) = 94.430 dog. F l temperaturo 7 ( 94.430 ) = 104.880: dog. F temperaturo 8 ( 104.880 ) = temperaturo 9-( 110.350 ) 110.350 dog..P = temperature 10 (_107.200 ) 107.200 dog. F = temperaturo 11 ( 81.880 ) 81.880 dog._ F = temperature 12 ( 81.940 ) 81.940 dog. F = 81.840 dog. F temperature 13 ( 81.840 ) = - temperature 14 ( 82.000 ) 82.000 dog. F = 75.830 dog. F, 0.4417 psia dowpoint 1 ( 75.830 ) =- 76.660 dog.-F, 0.4540 pain dowpoint 2 ( - 76.660-) = 77.320 dog. F, 0.4641 psia dowpoint 3 ( 77.320.) = 80.040 dog. F,-0.5075 psia dowpoint 4 ( 80.040 ) = 79.870 dog. F, 0.5047 psia dowpoint 5 ( 79.870 ) = 80.080 dog. F,_0.5082 psia dewpoint 6 ( 80.080 ) O = dowpoint 7 ( 81.120 ) 81.120 dog. F,-0.5257 psia = 71.8819Lpsia pressure. 1 ( 71.8819 ) = 71.8835 psia pressure 2 ( 71.8835 ) = weighted averages, volume and air mass r d temperaturo 86.35477L eg. F. = 71.88190 pola-pressuro = vapor pressuro = 0.49274; psia 277400 cu.-ft. volume = dry air mass 97893.6311bm' = w s (:Jr t - s e +, .. ~ < y

1992 Unit 2 Verification Stabilization data set 5 tipo a 2300 date = 1106 consor raw data value 79.730 dog. F temporaturo 1 ( 79.730 ) = 80.610 dog. F temperaturo 2 ( 80.610 ) = 80.510 dog. F temperature 3 ( 80.510 ) = 81.590 dog. F temperaturo 4 ( 81.590 ) = 84.140 dog. F temperaturo 5 ( 84.140 ) = 87.490 dog. F temperaturo 6 ( 37.490 ) = 94.520 dog. F temperaturo 7 ( 94.520 ) = 104.950 dog. F temperature 8 ( 104.950 ) = 110.410 dog. F temperaturo 9 ( 110.410 ) = 107.110 dog. F temperaturo 10 ( 107.110 ) = 81.060 dog. F temperaturo 11 ( 81.860 ) = 81.930 dog. F temperature 12 ( 81.930 ) = 81.820 dog. F temperature 13 ( 81.820 ) = 81.980 dog. F temperaturo 14 ( 81.980 ) = 75.850 dog. F, 0.4420 paia dowpoint 1 ( 75.850 ) = 76.670 dog. F, 0.4542 psia dowpoint 2 ( 76.670 ) = 77.340 dog. F, 0.4644 psia deupoint 3 ( 77.340 ) = 80.050 dog. F, 0.5077 psia dowpoint 4 ( 80.050 ) = 79.860 dog. F, 0.5045 paia dowpoint 5 ( 79.860 ) = B0.160 dog. F 0.5095 psia dowpoint 6 ( 80.160 ) = O 81.100 deg. F, 0.5253 psia dowpoint 7 ( 81.100 ) = 71.8678 psia pressuro 1 ( 71.8678 ) = 71.8690 pain pressuro 2 ( 71.8690 ) = weighted averages, volume and air mass 86.36007 dog. F temperaturo = 71.86780 paia pressuro = vapor pressuro = 0.49306 psia 277400 cu. ft. volume = 97872.91 lbm dry air mass = O

1992 !!!1P Unit 2 Vorification DATA SUMf4ARY REPORT Od data timo dato temperaturo prosauro vapor dry air set dog F pela prosauro mass psia lbm 5 2300 1106 86.3601 71.8678 0.4931 97872.91 j 6 2315 1106 86.3802 71.8537 0.4930 - 97850.05 7 2330 1106 86.3854 71.8395 0.4932 97829.39 ) 8 2345 1106 86.3999 71.8257 0.4932 97807.85, .j 9 0 1107 86.4171 71.8116 0.4933 97785.30-10 15 1107 86.4318 71.7979 - 0.4934 97763.81-i 11 30 1107 86.4456 71.7840 0.4S36 97741.88 ) 12 45 1107 86.4608 71.7702 0.4938 97720.06 13 100 1107 86.4752 71.7565 - 0.4938 97698.71-14 115 1107 86.4924 71.7427 0.4940 97676.'37 15 130 1107 86.5004 71.7290 0.4941 97656'.09 16 145 1107 86.5122 71.7154 0.4943 97635.01~ 17 200 1107 86.5308 71.7016 0.4943 97612.82 ( 18 215 1107 86.5461 71.6880 0.494b 97591.13 19 230 1107 86.5612 71.6745 0.4947 97569.64 l 20 245 1107 86.5761 71.6608 0.4947 97548.27-21 300 1107 86.5884 71.6469 0.4948 97526.89= l l r i 1 1 i r e >++e-e -e y-. u -r, .n -<--e+ e c -.sa

1992 HNP Unit 2 Verification data set 5 - timo = 2300 dato = 1106 sensor raw data value 79.730 dog. F temperature 1 ( 79.730 ) = 80.610 dog. F temperature 2 ( 80.610 ) = 80.510 deg. F temporacure 3 ( 80.510 ) = 81.590 dog. F temperaturo 4 ( 81.590 ) = 84.140 dog. F i temperature 5 ( 84.140 ) = 87.490 dog. F ) temperaturo 6 ( 87.490 ) = 94.520 dog. F i temperature 7 ( 94.520 ) = 104.950 dng. F temperature 8 ( 104.950 ) = 110.410 dog. F l temperature 9 ( 110.410 ) = 107.110 deg. F I temperature 10 ( 107.110 ) = 81.860 dog. F R temperature 11 ( 81.860 ) = 81.930 dog. F 1 temperature 12 ( 81.930 ) = 81.820 dog. F temperaturo 13 ( 81.820 ) = 81.980 dog. F i temperature 14 ( 81.980 ) = .75.850 dog. F, 0.4420 psia dowpoint 1 ( 75.850 ) = i i 76.670 dog. F, 0.4542 psia' dowpoint 2 ( 76.670 ) = 77.340 dog. F, 0.4644 psia dowpoint 3 (' 77.340 ) = 80.050 dog. F, 0.5077 paia dewpoint 4 ( 80.050 ) = 79.860 deg.-F, 0.5045 paja dowpoint 5 ( 79.860 ) = 80.160 deg.'F, 0.5095 psia j/- dowpoint 6 ( 80.160 ) = 81.100 deg. F, 0;5253 psia-dowpoint 7 ( 81.100 ) = 71.8678 psia. pressuro 1 ( 71.8678 ) = 71.8690-psia-pressure 2 ( 71.8690 ) = weighted averages, volume and air mass 86.36007 deg. F; temperaturo = 71.86780 psia j pressuro = vapor prassuro = 0.49306' psia-277400 cu. ft. volume = dry air mass 97872.91 lbm = ) '4. l' 1 C' W DM8.-, P

1992 !!!ip Unit 2 Verification data set 6 time = 2315 date = 1106 nonsor raw data valuo 79,750 dog. F temperaturo 1 ( 79.750 ) = 80.630 dog. F temperaturo 2 ( 80.630 ) = 80.520 dog. F temperaturo 3 ( 80.520 ) = 81.610 dog. F temperature 4 ( 81.610 ) = 84.180 deig. F temperature 5 ( 84 180 ) = B7.550 dog. F temperaturo 6 ( 87.550 ) = 94.590 deg. F tosoperaturo 7 ( 94.590 ) = 104.960 dog. F temperaturo 8 ( 104.960 ) = 310.390 dog. F temperaturo 9 / 'O.190 ) = temperaturo 10 $b!,?SO ) 107.260 dog. F = 81.060 dog. F temperature 11 4: 3 30 ) = 81.930 dog. F temperature 12 ( 81.w30 ) = 81.820 dog. F temperature 13 ( 81.820 ) = 81.980 dog. F temperature 14 ( 81.980 ) = 75.870 dog. F 0.4423 pain dowpoint 1 ( 75.87') ) = 76.680 dog. F, 0.4543 psia dowpoint 2 ( 76.680 ) = 77.360 dog. F, 0.4647 psia dowpoint 3 ( 77.360 ) = 80.040 dog. F, 0.5075 paia dowpoint 4 ( 80.040 ) = 79.870 dog. F, 0.5047 psia dowpoint 5 ( 79.870 ) = 80.130 dog. F, 0.5090 psia dovpoint 6 ( 80.130 ) = O 81.090 dog. F 0.5252 paia dowpoint 7 ( 81.090 ) = 71.8537 psia prosauro 1 ( 71.8537 ) = 71.8552 pata prosaure 2 ( 71.8552 ) = weighted averagon, volume and air mass 86.38025 dog. F temperaturo = 71.85370 psia pronsuro = vapor pressuro = 0.49299 paia 277400 cu. ft. volume = 97850.05 lbm dry air mass = O

1992 I!!ip Unit 2 Verification data set 7 time = 2330 date = 1106 sonsor raw data value 79.750 dog. F temperaturo 1 ( 79.750 ) = 80.620 dog. F temperature 2 ( 80.620 ) = 80.500 dog. F temperature 3 ( 80.500 ) = 81.630 dog. F temperature 4 ( 81.630 ) = 84.200 dog. F temperature 5 ( 84.200 ) = B7.610 dog. F temperaturo 6 ( 87.610 ) = 94.600 dog. F temperaturo 7 ( 94.660 ) = 105.030 dog. F temperatura 8 ( 105.030 ) a 110.410 dog. F temperaturo 9 ( 110.410 ) = 107.230 dog. F temperature 10 ( 107.230 ) = 81.850 dog. F temperature 11 ( 81.850 ) = 81.900 dog. F temperaturo 12 ( 81.900 ) = 81.800 dog. F temperaturo 13 ( 81.800 ) = 81.960 deg. F temperature 14 ( 81.960 ) = 75.890 dog. F, 0.4426 puia dowpoint 1 ( 75.890 ) = 76.680 dog. F, 0.4543 psia dowpoint 2 ( 76.680 ) = 77.360 dog. F, 0.4647 psia dowpoint 3 ( 77.360 ) = 80.050 dog. F, 0.5077 psia dowpoint 4 ( 80.050 ) = 79.870 dog. F, 0.5047 psia dowpoint 5 ( 79.870 ) = 80.200 dog. F, 0.5102 psia dowpoint 6 ( 80.200 ) = O 81.060 dog. F, 0.5247 psia dowpoint 7 ( 81.060 ) = 71.8395 psia pressuro 1 ( 71.8395 ) = 71.8411 psia pressure. 2 ( 71.8411 ) = weighted averagos, volumo and air mass 86.38541 dog. F 'omporaturo = 71.83950 psia pressure = vapor pressuro = 0.49319 psia 277400 cu. ft, volume u dry air mass 97829.39 lbm = O

.._-_._.m. 1 1992 IINP Unit 2 Vorification data set 8 (~ (_, time = 2345 dato = 1106 sensor raw data value 79.730 dog. F temperature 1 ( 79.730 ) = 80.620 dog. F i temperaturo. 2 ( 80.620 ) = 80.520 deg. F temperature 3 ( 80.520 ) = 81.630 dog. F temperature 4 ( 81.630 ) = 84.230 dog. F-temperature 5 ( 84.230 ) = 87.650_deg. F-temperature 6 ( -87.650 ) = 94.730 deg. F temperature 7.( 94.730 ) = 105.090 deg. F temperature 8 ( 105.090 ) = 110.440 deg. F temperature 9 ( 110.440 ) = 107.270 deg. F temperature 10 ( 107.270 ) = 81.850 dog. F-tempGrature 11 ( 81.850 ). = 31.900 deg. F temperature 12 ( 81.900 ) = 81.790'deg. F temperaturo 13 ( 81.790 ) = temperature 14 ( 81.960 ) 81.960~ dog. F = 75.900 dog. F, 0.4427 psia dowpoint 1 ( 75.900 ) = 76.690 deg. FJ, 0.4545 psia' dowpoint 2 ( 76.690 ) = 77.?80 deg. F, 0.4650 psia dewpoint 3 (= - 77.380 ) = 80.060 deg. F,,0.5078 psia dewpoint 4 -( 80.060 ) 4 = ( dowpoint -5 ( 79.890 ) 79.890 dog. F, 0.5050 psia e a 80.160. dog. F,;0.5095 psia i dewpoint 6 ( 80.160 ) = 81.070 dog. F:, 0.5248 psia t dowpoint; 7' ( 81.070 ) = 71.8257 psia e pressure 1 ( 71.8257 ) = 71.8273 psia pressure 2-( 71.8273 ) a weighted averages, volume and air mass 86.39993-deg. F temperature = 71.82570 psia pressure = vapor pressuro =- 0.49320 psia L 277400 cu. ft. Volume = dry air mass 97807.85 lbm- = c ~ /- c..,_

L 1992 IINP Unit 2 Verification-( data sot 9 timo a O dato = 1107 sensor raw data value 79.760-dog..F torporature 1 ( 79.760 ) = 80.600 dog. F temperaturo 2 ( 80.600 ) = 80.500 dog. F tamparaturo 3 ( 80.500 ) = 81.650 dog. F j tamparature 4 ( 81.650 ) a 84.260 dog. F. temperaturo 5 ( 84.260 ) = 87.700 dog. F-temperaturo 6 ( 87.700 ) = 94.820:deg. F .tomparature 7 ( 94.820.) = 105.160 dog. F temperature 8 ( 105.160 ) = 110.510 dog. F-temperaturo 9 ( 110.510 ) = 107.350 deg. F temperaturo 10 ( 107.350 ) = 81.030 dog. F temperature 11 ( 81.830 ) = 81.890 dog. F temperature 12 ( 81.890 ) = 81.780 dog. F temperature 13 ( 81.780 ) = 81.950 dog. F temperaturo 14 ( 81.950 ) = 75.890 dog. F, 0.4426 psia dowpoint 1 ( 75.890 ) = 76.670 dog. F, 0.4542 psia dowpoint 2 ( 76.670 ) = 77.380 dog. F, 0.4650 psia dowpoint 3 ( 77.380 ) = 80.060 dog. F, 0.5078 psia dowpoint 4 ( 80.060 ) = 70.890 deg. F, 0.5050 psia < dowpoint 5 ( 79.890 ) = 80.180 dog. F, 0.5098' psia r-dewpoint 6 ( '80.180 ) = ( ]j dowpoint 7 ( 81.090 ). .81.090 deg. F,-0.5252 paia = 71.8116 psia pressuro 1 '( 71.811f,) = 71.8133 psia' pressuro 2 ( 71.81?3 ) = weighted averagos, volumo and air mass j 86.41708 dog. F temperature = 71.81160 psia pressure = vapor prosnuro.= 0.49331'pela - 277400 cu. -f t. - volume- => dry air mass 97785.30 lbm = l 9 r-l- L o

.m_.~-._ m .. _. - _ _. _.. - _ _ - ~ _ -. _ - 1992 !!NP Unit 2 Verification dataLset 10 time' =- 15 date = 1107 l sensor raw data valuo 79.750 dog. F j temperature 1 ( 79.750 ) = 80.600 dog. F temperaturo 2 ( 80.600 ) = 80.500 dog. F temperature 3 ( 80.500 ) = 81.650 dog. F temperature 4 ( 81.650 ) = 84.280 dog. F temperature. 5( 84.280 ) = 87.740_ dog. F ] temperature 6 ( 87.740 ) = -94.880 dog. F temperaturo 7 ( 94.880 ) -= 105.240 dog. F temperature 8 ( 105.240 ) = 110.570 dog._ F temperaturo-9 ( 110.570 ) = 107.380 dog. F temperature 10 ( 107.380 ) = 81.830 dog. F temperature 11 ( 81.830 ) = 81.890 dog. F tempotature 12 ( 81.890_) = 81.780 dog. F temperature 13 ( 81.700~) = 81.940 dog. F temperature 14 ( -81.940') = 75.910 dog..F., 0.4429 psia dowpoint 1 ( 75.920 ) = 76.690Ldeg. F, 0.4545 psia-dowpoint 2 ( 76.690 ) = 77.390 dog. F-, 0.4652 psia dowpoint 3 ( 77.390 ) = 80.060 deg. F, 0.5078 psia dowpoint 4 ( 80.060 ) w 79.890 dog. F, 0.5050 psia dowpoint 5 ( 79.890 ) = 80.170 dog. F., 0.5097_ psia dowpoint 6 ( 80.170 ) = 81.090. dog. F., 0.5252 pala' ( dewpoint 7 ( 83.090 ) = 71.7979-psia' pressure 1 ( '71.7979 ) = pressure 2 ( 71.7997 ): 71.7997 psia a weighted averages, volume and air _ mass 86.43179 deg. F temperature- = 71.79790 psia: ~ pressuro = . vapor pressura =- 0.493JS-poia 277400 cu. ft. voluma = dry air mass-97763.81 lbm = W. w w ur 1' ig.! W- N-V q P

1992 ll!1p Unit 2 Verification data sot 11 timo = 30 dato = 1107 consor raw data value 79.740 dog. F torporature 1 ( 79.740 ) = 80.590 dog. F temperature 2 ( 80.590 ) = 80.490 deg. F temperaturo 3 ( 80.490 ) = bl.670 dog. F temperature 4 ( 81.670 ) = 84.320 dog. F temperaturu 5 ( 84.320 ) = 87.790 dog. F temperaturo 6 ( B7.790 ) = 94.960 dog. F temperaturo 7 ( 94.960 ) = 105.340 dog. F temperaturo 8 ( 105.340 ) = 110.570 dog. F temperaturo 9 ( 110.570 ) = 107.400 dog. F temperature 10 ( 107.400 ) = 81.820 dog. F temporaturn 11 ( 81 820 ) = 81.880 dog. F temperaturo 12 ( B1.880 ) = 81.780 dog. F temperature 13 ( 81.780 ) = 81.930 dog. F temperature 14 ( 81.930 ) = 75.920 dog. F, 0.4430 psia dowpoint 1 ( 75.920 ) = 76.700 dog. F, 0.4546 psia dowpoint 2 ( 76.700 ) = 77.400 dog. F, 0.4653 psia dowpoint 3 ( 77.400 ) = 80.060 dog. F, 0.5078 psia dowpoint 4 ( 80.060 ) = 79.900 dog. F, 0.5052 psia dowpoint 5 ( 79.900 ) = 80.210 dog. F, 0.5103 psia dowpoint 6 ( 80.110 ) O = 81.110 dog. F, 0.5255 psia dowpoint 7 ( 81.110 ) = 71.7840 psia pressuro 1 ( 71.7840 ) = 71.7856 pain prosauro 2 ( 71.7856 ) = weighted averagos, volume and air mass 86.44563 deg. F temperaturo = 71.78400 psia pressure vapor prosauro = 0.49365 psia 277400 cu. ft. volumo = 97741.88 lbm dry air mass = O

__.u.m a

a,__________m

m. ._.._-_._.-.-___._____.-._m._.-__.._-.- !. c -1992 IINP Unit 2 Verification data set 12 time = 45 date = 1107 sensor raw data valuo 79.760 dog. F temperaturo 1 ( 79.760 ) = 80.630 dogs F { tamparature 2 ( 80.630 ) = 80.490 dog. F - temperature 3 ( 80.490 ) = 81.670 dog. F temperature 4 ( 81.670 ) = 84.330 dog. F r ~ temperature 5 ( 84.330 ) = 87.850. dog. F temperaturo 6 ( 87.850 ) = 95.020 dog. F temperaturo 7 ( 95.020 ) = 105.360 dog. P temperature 8 ( 105.360 ) = 110.610? dog. F temperaturo 9 ( 110.610 ) = 107.460 dog. F - tomparature 10 ( 107.460 ) = 81.820 dog. F temperature 31 ( 81.820 ) = 81.880 dog. F temperature 12 ( 81.880 ) = 81.760-dog. F tempnrature 13 ( 81.760 ) = 81.930-deg. F temperature 14 ( 81.930 ) = 75.920 dog. F, 0.4430 psia dowpoint 1 ( 75.920 ) = 76.710 dog. F, 0.4548 psia i dowpoint 2 ( 76.710 ) = 77.400 dog. F, 0.4653 psia dowpoint 3 ( 77.400 ) = 80.070. dog. F, 0.5080 psia 3 dowpoint 4 ( 80.070 ) = 79.920 dog. F, 0.5055 psia dowpoint 5 -( 79.920 ) = 80.260 dog. F, 0.5112 psia dowpoint 6 ( 80.260 ) O = dowpoint' 7 ( 81.080 ) =. 81.080 dog. F,.0.5250 psia 71.7702-psia pressure 1 ( 71.7702 ) = 71.7716 psia pressure 2 ( 71.7716 ). = weighted averagos, volume and_ air mass 86.46082 dog. F teuperature' = -71.77020 psia pressure vapor' pressure = 0.49378 psia volumo .= '277400 cu. ft. 97720.06: 1bmL dry air mass = 6 5 5 1 s r. < ,s s o.--.. .u ,+ -+s-

1992 HNP Unit 2 Verification data set 13 time = 100 date = 1107 sensor raw data value 79.750 dog. F temperature 1 ( 79.750 ) = 80.580 dog. F temperature 2 ( 80.580 ) = 80.500 dog. F temperature 3 ( 80.500 ) = 81.680 deg. F temperature 4 ( 81.680 ) = 84.370 dog. F temperature 5 ( 84.370 ) = 87.880 dog. F temperature 6 ( 87.880 ) = 95.100 dog. F temperature 7 ( 95.100 ) = 105.410 dog. F touperaturo 8 ( 105.410 ) = 110.720 dog. F temperaturo 9 ( 310.720 ) = 107.470 dog. F temperature 10 ( 107.470 ) = 81.810 deg. F temperature 11 ( 81.810 ) = 81.870 dog. F temperature 12 ( 81.870 ) = 81.760 dog. F temperature 13 ( 81.760 ) = 81.920 dog. F temperature 14 ( 81.920 ) = 75.940 dog. F, 0.4433 psia dowpoint 1 ( 75.940 ) = 76.710 deg. F 0.4548 psia dowpoint 2 ( 76.710 ) = 77.420 dog. F, 0.4656 psia dewpoint 3 ( 77.420 ) = 80.070 dog. F, 0.5080 psia dowpoint 4 ( S0.070 ) = 79.890 deg. F 0.5050 psia dowpoint 5 ( 79.890 ) = 00.240 dog. F, 0.5108 psia dowpoint 6 ( 80.240 ) = O dowpoint 7 ( 81.090 ) Bl.090 dog. F 0.5252 psia = 71.7565 psia pressure 1 ( 71.7565 ) = 71.7580 psia pressure 2 ( 71.7580 ) = weighted averages, volume and air mass e 86.47517 dog. F temperature = 71.75650 psia pressure = vapor pressure = 0.49378 psia 277400 cu. ft. volume = 97698.71 lbm dry air mass = O

9 1992 !!NP Unit 2 Verification data set 14 \\ . '~') %s/ ' time = 115 date = 1107 sensor raw data value j 79.740 deg. F temperature 1 ( 79.740 ) = temperature 2 ( 80.590 ) 80.590 deg. F = 80.500 dog. F temperature 3 ( RO.500 ) = 81.710 dog. lP temperature 4_ ( 81.710 ) = 84.390 dog. F temperature b ( 84.390 ) = 87.950 dog. F' temperature 6 ( 87.950 ) = 95.160 dog. F temperature 7 ( 95.160 ) = 105.510 dog. F. temperature 8 ( 105.510 ) = 110.730-deg. F temperature 9 ( 110.730 ) = 107.460 dog. F temperature 10 ( 107.460 ) = 81.020 deg. F temperature 11 ( 81.820 ) = 3 81.870 dog. F temperature 12 ( 81.870 ) = 81.760 deg. F temperature 13 ( 81.760 ) 1 = 81.910 deg. F tamperature 14 ( 81.910 ) = 75.950. dog. F, 0.4435 psia dowpoint 1 ( 75.950 ) = 76.710 dog. F, 0.4548 psia dewpoint 2 ( 75.710 ) = 77.430 deg. F, 0.4658: psia dewpoint 3 ( 77.430 ) = 80.070 deg. F, 0.5080-psia dowpoint 4 ( 80.070 ) = 79.910 deg. F, 0.5053'paia dowpoint 5 -( 79.910.) = 80.290 deg. F, 0.5117 psia g g dowpoint 6 ( 80.290 ) ew = 81.090 deg.;F,.0.5252 psia 3 j dowpoint 7 ( 81.090 ) = .f 71.7427 paia pressure 1 ( 71.7427 ) = 71.7441 psia pressure 2 ( 71.7441 ) = weighted averages, volume and air-mass 86.49236 deg. F temperature = 71.74270: psia pressure = vapor pressure =- 0.49403 psia-277400 cu. ft. volume =- 97676.37 lbm dry air mass =- i (' -(. N 4,...; t a,-

.~... _._ _. _.__._. 1992 HNP Unit 2 Varification ) data not 15 O \\ss/ timo = 130 date = 1107 sensor raw data value temperature 1 ( 79.740 ) 79.740 dog. F i = 80.620 dog. F temperature 2 ( 80.620 ) = 80.490 dog. F temperaturo 3 ( 80.490 ) = 81.710 dog. F temperaturs 4 ( 81.710 ) = 84.420 dog. - F i temperature 5 ( 84.420 ) = temperaturo 6 ( 87.980-) 87.980 dog. F = 95.240 dog. F temperature 7 ( 95.240 ) = 105.520 dog. F temperature 8 ( 105.520 ) = 110.720 deg. P temperaturo 9 ( 110.720 ) = temperature 10 ( 107.500-) 107.500 dog. F = 81.800 dog. F temperature 11 ( 81.800 ) = 81.860 dog. F-temperature 12 ( 81.860 ) = 81.750 dog. F temperature 13 ( 81.750 ) = temperature 14 ( 81.910 ) 81.910 dog. F = 75.960 dog. F, 0.4436 psia' dewpoint 1 ( 75.960 ) = dowpoint 2 ( 76.700-) 76.700 dog. F, 0.4546-psia = = 77.440 deg. F, 0.4659 psia-dowpoint 3 ( 77.440 ) = 80.060 dog. F, 0.5078 psia dowpoint 4 ( 80.060 ) = dowpoint-5 ( 79.910 ) 79.910 dog. F., 0.5053-phia = dowpoint 6 ( 80.300 ) 80.300 dog. F, 0.5118 psia O = 81.090 dog. F, 0.5252 psia dowpoint 7 ( 81.090 ) L = l 71.7290 psia pressuro 1 ( 71.7290 )

=

71.7303 psia pressura 2 ( 71.7303-) = weighted averagos, volume and air mass 86.50038 deg. F-temperature a 71.72900 psia-pressure = vapor pressure = 0.49407-psia volume -277400 cu.1ft. = dry air mass. 97656.09 lbm- = i i f V-v 1 I s- ,+r ..-..Uw .,+------r- - -,

1992 HilP Unit 2 Vorification data set 16 x-timo = 145 date = 1107 l sensor raw data valuu temperature 1 ( 79.740 ) 79.740 dog. F = temperaturo 2 ( 80.600 ) 80.600 dog. F = 80.490 dog. F temperature 3 ( 80.490 ) = 0 81.720 dog. F tomparature 4 ( 81.720 ) = 84.450 dog. F temperature 5 ( 84.450 ) = 88.030 dog. F temperaturo 6 ( 88.030 ) = 95.300 dog. F temperature 7 ( 95.300 ) = 105.560 dog. F tamporaturo 8 ( 105.560 ) = 110.700 dog. F temperaturo 9 ( 110.700 ) = .107.570 dog. F temperature 10 ( 107.570 ) = 81.000 dog. F temperature 11 ( 81.800 ) = 81.860 dog. F temperature 12 ( 81.860 ) = 81.750 dog. F temperature 13 ( 81.750 ) = 81.900 dog. F temperature 14 ( 81.900 ) = 75.980 dog. F, 0.4439 psia dowpoint 1 ( 75.980 ) = 76.750 dog. F, 0.4554 psia. dowpoint 2 ( 76.7S0-) = 77.450 deg. F, 0.4661 psia ~ dowpoint 3 ( 77.450 ) = 80.070 dog. F,.0.5080 psia dowpoint 4 ( 80.070 ) 79.920 dog. F, 0.5055 pala dowpoint 5 ( 79.920 ) = 80.310 dog. F:, 0.5120 psia / dowpoint 6 ( 80.310 ) = 81.100: dog. F, 0.5253 psia dowpoint 7 ( 81~.100 ) = .71.7154 psia prosauro 1 ( 71.7154 ) = 71.7166 psia pressuro 2 ( 71.7166 ) = weighted averages, volume and air mass 86.51217 dog. F temperature = .71.71539 paia i pressure- = vapor pressuro = 0.494311 psia 277400 cu.-ft. voluma = dry-air mass ' 97635.01 lbm = P 9 y ..= = - _=

4 1992 HNP Unit 2 Vorification data set 17 1 .) i timo a 200 date = 1107 s-sonsor raw data valuo 79 750 dog. F temperature 1 ( 79.750 ) = 80.590 dog. F temperaturo 2 ( 80.590 ) = 80.490 dog. F temperature 3 ( 80.490 ) = 81.750 dog. F temperature 4 ( 81.750 ) = 84.490 dog. F temperature 5 ( 84.490 ) = 80.070 dog. F temperaturo 6( 88.070 ) = temperaturo 7 ( 95.380 ) 95.380 dog. F t = 105.630 dog. F temperature 8 ( 105.630 ) t = 110.770 dog. F temperaturo 9 ( 110.770 ) = 107.510. dog. F temperature 10 ( 107.510 ) = 1-81.800 dog. F temperaturo 11 ( 81.800 ) = 81.860 dog. F temperatura 12 ( 81.860 ) - = 81.740 dog. F tamparature 13 ( 81.740 ) = 81.910 dog. F temperature 14 ( 81.910 ) = 76.000 dog. F, 0.4442 psia dowpoint 1 ( 76.000-) = 76.730 dog. F, 0.4551 psia dowpoint 2 ( 76.730 ) = 77.460 dog. F, 0.4662 psia dowpoint 3 ( 77.460 ) = 80.070 dog. F, 0.5080 psia dowpoint 4 ( 80.070-) = 79.930 dog. F, 0.5057 psia deVpoint 5 ( 79.930 ) = 80.310 dog. F, 0.5120 paia dowpoint 6 ( 80.310 ) O = 81.080 dog. F, 0.5250 psia dowpoint 7 ( 81.080 ) = 71.7016 psia pressure 1 ( 71.7016 ) = 71.7020 psia 1 pressura 2 ( 71.7029 ) = weighted averagos, volume and air mass i 86.53083 dog. F temperaturo = 71.70160 psia pressuro = vapor pressuro = 0.49427 psia 277400 cu. ft, volume = 97612.82 lba dry air mass = t I f O N F Y 4 W t' W

1992 HNp Unit 2 Verification-data ats 18 \\ ('~/ (- timo a 215 date = 1107 sonsor raw data value 79.740 dog. F temperaturo 1 ( 79.740 ) = 80.600 dog. F l temperaturo 2 ( 80.600 ) = 1 80.490 dog. F temperaturo 3 ( 80.490 ) = 81.750 dog. F j tempera *"re 4 ( 81.750 ) = 84.510 dog. F J 5 ( 84.510-) tempora'o = 88.130 dog. F tempora. e 6 ( 88.130 ) = 95.450 dog. F temperat are 7 ( 95.450 ) = 105.700 dog. F temperaturo 8 ( 105.700 ) = 110.790 dog. F j temperaturo 9 ( 110.790 ) = 107.630 deg. F temperaturo 10 ( 107.630 ) 1 = 81.790 deg. F temperature 11 ( 81.790 ) = el.050 dog. F j temperature 12 ( 81,850 ) = 81.740 deg. F temperature 13 ( 81.740 ) = 81.900 dog. F temperature 14 ( 81.900 ) = 76.020 dog. F, 0.4445 psia dowpoint-1 ( 76.020 ) = 76.730. dog.-F, 0.4551 pala' dowpoint 2 ( 76.730 ) = 77.470 dog. F, 0.4664 psia j dewpoint-3 ( 77.470 ) = 80.060 dog. F, 0.5078 psia l dowpoint 4 ( _80.060 ) = 79.940 dog. F, 0.5058 psia dowpoint 5 ( 79.940 ) = 80.350 dog..F, 0.5127 psia .dowpoint. 6 ( 80.350 5 = O 81.090 dog. F,. 0.5252 psia dowpoint 7 ( 81.090 ) = 71.6800 psia. pressuro 1 (- 71.6800 ) = 71.6895. psia pressure 2 ( 71.6895 ) = weighted averages, volume and air: mass 86.54613 deg. FL temperaturo = 71.68000 psia pressure = vapor pressuro = 0.49451 psia i volumo =. 277400 cu. ft. 97591~.13 lbm dry air mass = t-r

1992 HNP Unit 2 Vorification data set 19 timo = 230 date = 1107 sensor raw data value 79.750 dog. F temperature 1 ( 79.750 ) = 80.620 dog. F temperature 2 ( 80.620 ) = 80.490 dog. F temporaturo 3 ( 80.490 ) = 81.770 dog. F temperature 4 ( 81.770 ) = 84.530 dog. F temperature 5 ( -84.530 ) = 88.170 dog. F temperature 6 ( 88.170 ) = 95.510 dog. F temperaturo 7 ( 95.510 ) = 105.740 dog. F temperature 8 ( 105.740 ) = 110.830. dog. F temperaturo 9-( 110.030 ) = 107.660 dog. F temperature 10 ( 107.660 ) = 81.790 dog. F temperature 11 ( 81.790 ) = 81.850' dog. F temperature 12 ( 81.850 ) = 81.730 dog. F temperature 13 ( 81.730 ) = 81.900 dog..F temperature 14 ( 81.900 ) = 76.030 dog. F, 0.4446 psia dowpoint 1 ( 76.030 ) = 76.780 dog. F, 0.4559 psia dowpoint 2 ( 76.780 ) = 77.480 dog. F, 0.4665 paia-dowpoint 3 ( 77.480 ) = 80.070 dog. F, 0.5080 paia-dowpoint 4 ( 80.070 ) = 79.940 dog. F, 0.5058 psia. dowpoint 5 ( 79.940 ) = 80.370 dog. F, 0.5130 psia dowpoint 6 ( 80.370 ) O = 81.090 dog. F,- 0.5252 psia-dowpoint 7 ( 81.090 ) = 71.6745 psia prosaura 1 ( 71.6745 ) = 71.6759 psia. pressure 2 ( 71.6759 ) = weighted averages, volume and air mass 86.56123. dog. F temperaturo = 71.67451 pain' -pressuro = vapor prosauro = 0.49471. psia 277400 cu. ft. volume = dry air mass 97569.64 lbm. =

c s 1992 !!NP Unit 2 Vorification data set 20 lT \\m / timo =- 245 date = 1107 sonsor raw data valuo 79.750 dog. F temperature 1 ( 79.750 ) = 80.580 dog. F temperaturo 2 ( 80.500 ) = 80.490 dog. F temperature 3 ( 80.490 ) = 81.770 dog. F temperature 4 ( 81.770 ) = 84.580 dog. F temperaturo 5( 84.500 ) = 88.230 dog. F temperaturo 6 ( 88.230 ) = 95.570 dog. F temperaturo 7 ( 95.570 ) = 105.000 dog. F temperature 8 ( 105.800 ) = 110.910 deg. F temperaturo 9 ( 110.910 ) = temperaturo 10 ( 107.560 ) 107.560 dog. F = 82.790 dog. F temperature 11 ( 81.790 ) = 81.a'9 dog.-F temperature 12 ( 81.850 ) = 81.i.;0 dog. F temperaturo 13 ( 81.740 ) = temperature 14 ( 81.390 ) 81.890 dog. F = dowpoint 1 ( 76.010 ) 76.010 dog. F, 0.4443 psia = 76.770 dog. F, 0.4557 psia dowpoint 2 ( 76.770 ) = 77.480 dog. F, 0.4665 psia dowpoint 3 ( 77.480 ) = dowpoint 4 ( 80.070 ) .80.070 dog. F-, 0.5080 psia = 79.960 dog. F, 0.5062 psia dowpoint 5 ( 79.960 ) = dowpoint 6 ( 80.340 ) 80.340 dog. F, 0.5125 psia (^)% = 81.110 dog. F, 0.5255 psia (_ dowpoint 7 ( 81.110 ) = 71.6608 psia pressuro 1 ( 71.6608 ) = 71.6623 psia pressure 2 ( 71.6623 ) = weightod averagos, volumo-and air mass 86.57613 dog. F temperaturo = _71.66080, psia-pressure = vapor pressure = 0.49466 psia volume 277400 cu. ft._ = dry air mass 97548.27 lbm =

1992 IlllP Unit 2 Verification data set 21 time = 301 date = 1107 sensor raw data value 79.750 deg. F temperaturo 1 ( 79.750 ) = 80.590 deg. F temperature 2 ( 80.590 ) = 80.490 deg. F temperature 3 ( 80.490 ) = 81.790 deg. F temperature 4 ( 81.790 ) = 84.580 deg. F temperature 5 ( 84.580 ) = 88.270 dog. F temperature 6 ( 88.270 ) = 95.640 dog. F temperaturo 7 ( 95.640 ) = 105.850 dog. F temperature 8 ( 105.850 ) = 110.900 deg. F temperaturo 9 ( 110.900 ) = 107.630 dog. F temporature 10 ( 107.630 ) = 81.780 deg. F temporature 11 ( 81.780 ) = 81.850 dog. F temperature 12 ( 81.850 ) = 81.740 dog. F temperature 13 ( 81.740 ) = 81.890 dog. F temperature 14 ( 81.890 ) = 76.030 dog. F, 0.4446 pain dowpoint 1 ( 76.030 ) = 76.790 deg. F, 0.4560 poia dowpoint 2 ( 76.790 ) = 77.510 deg. F, 0.4670 psia dowpoint 3 ( 77.510 ) = 80.070 deg. F, 0.5000 paia dowpoint 4 ( 80.070 ) = 79.960 dog. F 0.5062 psia dewpoint 5 ( 79.960 ) = 80.350 deg. F, 0.5127 paia dowpoint 6 ( 80.350 ) O = 81.090 dog. F, 0.5252 paia dowpoint 7 ( 81.090 ) = 71.6469 psia prosaure 1 ( 71.6469 ) = 71.6485 psia pressure 2 ( 71.6485 ) = weighted averages, volume and air mass 86.58842 deg. F temperaturo = 71.64690 psia pressure = vapor pressure = 0.49475 pain 277400 cu. ft. volume = 97526.89 lbm dry air naGD = O _}}

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