Reactor Containment Bldg Integrated Leak Rate Test (910912- 1116)

ML20092H227
Person / Time
Site:	Braidwood
Issue date:	01/17/1992
From:	COMMONWEALTH EDISON CO.
To:
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NUDOCS 9202210065
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Text

i 1 REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST (SEPTEMBER 12 TO NOVEMBER 16 1901)

BRAIDWOOD UNIT TWO JANUARY 17, 1992 9202210065 920214 PDR- ADOCK 05000457 P PDR

January 17, 1992 UNIT 2 ILRT PINAL REPORT TABLE OF CGtTENTS EASR 1.0 ABSTRACT 1 2.0 TEST PREPARATIONS 3 2.1 Type A Test Procedure 3 2.2 Pre-Test Containment Structural Examination 3 2.3 Type A Test Instrumentation 3 2.4 Type A Test Data Processing 4 2.5 Type A Test Subvolume Determination 4 2.6 Pre-Test Containment Temperature Survey 4 2.7 ILRT Plant Equipment Lineup 5 2.8 Type A Test pressurization 5 3.0 TEST HETilOD 10 3.1 Statistical Analysis Technique 10 3.2 Supplemental Verification Test 10 3.3 Instrument Error Analysis 10 4.0 SEQUENCE OF EVENTS 12 4.1 Pretest Preparations 12 4.2 Containment Pressurization 12 4.3 Temperature Stabilization 13 4.4 Statistical Leakage Rate Test / Induced Leakage Test 13 4.5 Depressurization and Post-Test Activities 14 5.0 ILRT DATA 15 i 5.1 Temperature Stabilization Phase Data 15 l 5.2 Hensured Leak Rate Phase Data 15 5.3 Induced Leakage Phase Data 15 6.0 TYPE A TEST CORRECTIONS 31 7.0 INTERPRETATION OF TEST RESULTS 32 7.1 Heasured Leak Rate Test Results 32 7.1.1 Observed Leakage from the Equipment and Emergency Hatch Airlock Shaft Seal 34 7.1.2 Observed Leakage from 28 Steam Generator 7.2 Supplemental Verification Test Results 35 7.3 Comparison to Previous Test Results 35 7.3.1 Pre-Operational Measured Leak Rate Test Cesults (1987 ILRT) 35 7.3.2 Pre-Operational Supplemental Verification Test Results (1987 ILRT) 36

8.0 REFERENCES

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Jcnuary 17, 1992 UNIT 2 ILRT FINAL REPORT TABLF. OF CCMTENTS Eage Appendix A - Instrumentation Specifics 38 Appendix B - Statistical Analysis Methods 40 Appendix C - Temperature Stabilization Data 42 Appendix D - Measured Leak Rate Test Data 45 Appendix :: - Induced Leakage Test Data 50 Appendix F - Type A Test Corrections 55 Appendix G - Historical Local Leak Rate Data 56

{

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January 17, 1992

! UNIT 2 ILRT PINAL REPORT

! LIST OF FIGURES l

MUMDER IIILE 14GE 2.5.1 Containment Building Sensor Placement and 6 Subvolume Identification (Elevation View) 2.5.2 Containment Building Sensor Placement and 7 Subvolume Identification for Elevations 398.5 .

to 426 (Plan View) 2.5.3 Containment Building Sensor Placement and 8 Subvolume Identification for Elevations 377 to 398.5 (Plan View) 5.1.1 Average Subvolume Temperature, Stabilization 16 5.1.2 Average Sebvolume Dewcell Temperature, 17 Stabilization 5.2.1 Mass Plot Leak Rate Statistical Test 18 5.2.2 Containment Dry Air Mass-Statistical Test 19 5.2.3 Containment Dry Air Pressure-Statistical Test 20 5.2.4 Containment Air Temperature-Statistical Test 21 5.2.5 Containment Dewcoll Temperatute-Statistical Test 22 5.2.6 Containment Vapor Pressure-Statistical Test 23 5.2.7 BN-TOP-1 Leak Rates-Statistical Test (Info Only) 24 5.3.1 Mass Plot Leat Rates-Verification Test 25 5.3.2 Containment Dry Air Mass-Verification Test 26 l 5.3.3 Containment Dry Air Pressure-Verification Test 27 5.3.4 Containment Air Temperature-Verification Test 28 5.3.5 Containment Dewcell Temperature-Verification Test 29 5.3.0 Containment vapor Pressure-Verification Test 30 1

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

• t Jcnurty 17, 1992 UNIT 2 ILRT FINAL REPORT LIST OF TABLES NUMEEE IIILE EAGE 2.6-1 Temperature Survey Data 9 C.1 Summary of Temperatures 43 C.2 Summary of Dewcell Temperatures 44 D.] Summary of Mass Plot Leak * ',tes 46 D.2 Suramary of Pressures 47 D3 Sumcary of Temperatures 48 D.4 Summary of Deweell Temperatures 49 E.1 Summary of Mass Plot Leak Rates 51 E.2 Summary of Pressures 52 E.3 Summary of Temperatures 53 E.4 Summary of Dewcell Temperatures 54 F.1 Type A Test Corrections 55 G.1 Historical Local Leak Rate Data 56 i

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a s January 17, 1992 UNIT 2 ILRT FINAL REPORT 1.0 ABSTRACT This report describes the first Type A containment leakage rate test conducted after the initiation of commercial service for the Braidwood Nuclear Power Station Unit 2 containment building. This report is prepared pursuant to the requiremente of 10 CFR 50 Appendix J,Section V.B.3. The test was conducted through the performance of.Braidwood Procedure 2BwvS 6.1.2.a-1,

" Unit 2 Primary Containment Type A Integrated ?**kage Rate Test (ILRT)"

between September 12 and November 16, 1991. ;o 1 Leakage Rate Testing required to determine final values of containm, ., leakage were performed between September 23 through November 16, 1992. Also included in this report is a summary analysis of all periodic Type B and Type C Local Leakage Rate Tests (LLRT) that were performed since the pre-operational Type A ILRT performed on September 6 to September 11, 1987.

The Type A test was performed at the beginning of the refueling outage to test the containment in an "As Found" condition without any repairs or adj u s tme nts .

The test was performed in accordance with 10 CFR 50 Appendix J, and_the Braidwood Station Technical Specifications. The test method that was used was the Mass Plot Method.

During pressurization an unknown source of leakage was observed which was above the test acceptance criteria. The source of the leakage was attributed to the 2B Steam Generator The leakage was blocked and the "As Found" ILRT test for the containment was subsequently declared a failure. This failure is attributed to a leak in one of the 2B Steam Generator's manway covers. During the restoration of the ILRT, the 2B upper manway cover was found to have its seating surf ace damaged by steam cuts. The manway cover was repaired and leaktightness was verified.

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Jcnuary 17, 1992 UNIT 2 ILRT FINAL REPORT Using the Mass Plot Method the total primary containment leak rate was calculated to be less than the allowable leak rate of 0.075 wt%/ day (0.75La).

The leakage rate was calculated to be 0.0527 wt %/ day at a test pressure greater than 44.4 psig (Pa). The associated 95% Upper Confidence Limit (UCL) j was 0.05359 wt %/ day.

The supplemental . aed leakage test result was measured at 0.1471 wt

%/ day. This value compur. vith the sum of the measured leak rate phase ,

result 0.0527 vt %/ day and the induced leak of 7.66 scfm (0.09928 wt %/ day).

The composite leak rate of 0.1471 wt %/ day lies within the a110wable tolerance band of 0.15198 wt %/ day r 0.025 wt %/ day.

After the ILRT, during the unit's refueling outage, LLRTs were performed. The results from these tests are added to the final ILRT total as the corrective leak rate. These are added for the systems that were not properly challenged during the ILRT. The "As Found"_minpath leakage for all corrections was 8.63 scfh or 0.0018 wt %/ day. Adding this leakage to the ILRT 95% UCL yields a total of 0.0554 wt %/ day which is lesc than the 0.075 wt

%/ day acceptance criteria.

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' t Janutty 17, 1992 UNIT 2 ILRT FINAL REPORT 2.0 TEST PREPARATICM 2.1 TYPE A TEST PROCEDURE The ILRT was performed in accordance with Braidwood Procedure -

2DwvS 6.1.2.a-1, Revision O. Temporary Procedure Change 6002 was written, approved and incorporated into the test. Changes incorporated included those to evaluate the leakage observed f rom 2B Steam Generator and minor changes which corrected, added or deleted steps to ensure proper execution of the test.

The Computer code used for calculations during the ILRT was the CECO Generic ILRT Computer Code, Software Product IDI GN01405-0.0.

2.2 PRE-TEST CONTAINMENT STRUCTURAL EXAMINATION Prior to the containment pressurization, a visual examination of all accessible interior and exterior surfaces was performed. This inspection was accomplished by the performance of DwVS 6.1.6.3-1, " Visual Inspection of the Containment Surfaces prior to the Type A Leak Test". The results of this inspection were compared to the findings of the Preoperational Structural Integrity Test. No degradation of the containment structure or ayparent changes occurred in the visual appearance of the interior and extorlor surf aces of the containment structure since the previous inspect' e:. was noted.

2.3 TYPE A TEST INSTRUMENTATION Twenty-five thermistors (THM's), ten dewcells (DEW's), and two absol"ta pressure gauges connected to the Volumetrics Dual Multiplexor Scanner and sata Acquisition System (DAS) were the main instrumentation used in the ILET.

Additional instrumentation used included ambient pressure and temperature gauges, ar.d a flowmeter used to measure the induced leakage during the supplemental verification test. All instrumentation used was calibrated using standards traceable to the National Bureau of Standards (NBS).

Appendix A contains specifications for the test instrumentation including values for accuracy, repeatability, sensitivity and resolution for the TEM's, deweells and pressure sensors. The quality and quantity of sensors chosen were such that the Instrument Selection Guide (ISG as defined in ANSI 56.8-1981) would be less than 0.25La assuming failure of several THM's or dewcells and one pressure sensor.

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January ~~ 17,'1992 UNIT 2 ILRT FINAL REPORT 2.4 TYPE A TEST DATA PROCESSING Containment parameters were acquired by the DAS in 10 minute intervals.

This included time, date, THM temperatures, dewcell temperatures, and absolute pressure sensor readings. The data was sent electronically to the Prime Computer through a RS232 serial port. The Prime Computer was loaded with the ILRT computer code, which stored the incoming raw data into a permanent file from which it drew one data set at a time to compute the leakage rate. The data transfer and calculations were monitored by plant personnel from a Prime Computer User Terminal. Date collection occurred every 10 minutes for the duration of the test. Leakage cates, pressures, temperatures and ca)rulation summaries were plotted in both tabular and graphic forms at regular intervals. This facilitated the identification and real time analysis of trends as they developed.

2.5 TYPE A TEST SUDVOLUME DETERMINATION The containment has been divided into 9 discrete subvolumes. Subvolume demarcation, size and weighting factors are indicated on Figures 2.5.1.

through 2.5.3. The subvolume partitioning scheme was changed from the Pre-Operations ILRT, which had only 5 subvolumes. This added to the test's accuracy by better monitoring the thermal stratification in the containment.

Figures 2.5.1 through 2.5.3 also show sensor placement in each of the subvolumes. In addition to the THM's and dewcells, the Multiplexor Scanner was located inside containment. The two Precision Pressure Monitors, the flowmeter for the induced-leakage test and the DAS were located outside containment inside the auxiliary building.

l 2.6 PRE-TEST CONTAINMENT TEMPERATURE SURVEY l

A temperature survey of.the containment was performed prior to the pressurization of the containment. Each subvolume was surveyed in at least ~

one location with a maximum of three temperatures taken per subvolume.

Subvolumes three, five, six, seven and eight showed a differential in readings from 0.2 to 2.5 'F. This was determined by onsite NRC inspectors as abnormally high. The temperature survey was determined to be acceptable as long as; 1) when the next ILRT is performed, additional readings are taken per subvolume (if area is accessible), 2) these readings are within a to be determined acceptance band, and 3) the values are compared against ILRT

-instrumentation for consistency.

It should be noted that the Unit 1-ILRT temperature. survey performed in February of 1991 is considered an existing valid temperature survey for the Braidwood type of containment. Although it was valid to use the Unit I survey for the Unit 2 test, it was considered prudent to perform the additional'-

non-required temperature survey for the Unit 2 test.

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J'enuary 17, 1992 UNIT 2 ILRT TINAL REPORT 2.7 ILRT PLANT EQUIPMENT LINCUP The valve and equipment lineups were__ detailed and_ specific, i.e.

component by component with individual signoffs. This ensured containment integrity conditions as close as possible to those which would exist after a design basis Loss of Coolant Accident (LOCA). It also assured penetrations were properly drained and vented. .

2.8 TYPE A TEST PRESSURIZATION

-To pressurize containment to full test pressure, a system of 10 diesel-driven, oil free compressors were used. The compressors were located outside on the northeast side of the containment building. Pressurization was accomplished through a six inch header which penetrates containment at penetration P-4 Once containment was pressurized, the pressurization header was isolated. A LLRT was performed on this penetration prior to the ILRT and the "As Found" leakage rate was included in the Type A Test Corrections (See Section 6).

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Jcnunty 1 1992 UNIT 2 ILRT TINAL REPORT I

g y _S W

- s2 volume el N l.l V 417800 cek: feet 3 4 15.124%

J i l l

I i 55528t' l

g 1

g l I ~34 rotww M 470388.47 c2e feet 5 6 174247%

&  ;  ; i s24.724'

\ l l ~32 volume 83 g l 464802.53 cut *: Feet 1 4 0 9 16.82257%

i i  ! J NN i l 32 volume . 94 l l 451546.87 c e feet 5 16.343%

j i I M3' i Sevolume 45

i 1 462582.93 cut *: reet 6 -

16.742%

n <w y , a . . -

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i 2.5.1 Containment Building Sensor Placement and Subvolume Identification (Elevation View) 6 292(020792)

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JC2uary 17, 1992

UNIT 2 ILRT TINAL REPORT R38 1a @D10 L na l h l 2

SUBVDLUME - 7 R38

(

e l o L SUBVDLUME 6 s6> O =1r=

R24 0 o citt Subwol m e 6: 154.561.28 ft 3. $.5H%

$mbvol me 1: 123.668.16 ft 3. 4.4145-2.5.2 Containment Building Sens e Placement and Subvolume-Identification for Elevat ;ns 398.5 to 426 (Plan View) 7 292(020792)

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'Jc:cary 17, 1992 LINIT 2 ILRT r!NAL REPORT l \

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1 7 R34 l 37 ,

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38,_3] .

l l R 24 SUBVOLUME 8 massa

$dvo3ee et 120.845.12 ft3. 4.374%

$dvolme 9: 96.688.24 ft'. 3 5'.

l- 2.5.3 Containment. Building Sensor Placement and Subvolume Identification for Elevations'377 to 398.5'(Plan View)

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. . i Jenucry 17,-1992-UNIT 2 ILRT TINAL REPORT i Table 2.6-1 Temperature Survey Data j SUBVOLUME OBSERVED ETMBER_- IEMITRA21tRtd i

1 91.6 91.4 2 91.5 91.4 3 90.9 92.0 4 90.1 91.5 5 87.3 88.3 89.3 6 84.1 - 85.3 86.6 7 85.7 86.4 87.1 8 87.0 86.0 85.2 9 83.6 B3.4 83.2 l

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• a Jcnucry 17, 1992 UNIT 2 ILRT TINAL REPORT 3.0 TEST ME"nIOD l

3.1 STATISTICAL ANALYSIS TECHNIQUE l

l The absolute method of leak rate determination was used, The absolt'e l l method uses the ideal g3s laws to ce1culate the measured leak rate. The i l Anputs to the measured leak rate calculation include subvolume weighted containment temperature and vapor pressure, and total absolute air pressuse.

Calculational methods used the perfect gas law and equations of state for a I

twenty-four hour test period. A least squares regression line for the measured total time leak rates versus time since the start of the test is l calculated after each new data set is scanned.

Associated with the statistically averaged leak rate was the upper confidence limit.

3.2 SUPPLEMENTAL VERITICATION TEST The supplemental verification test superimposes a known leak of approximately the same magnitude as La (7.72 SCFM or 0.1 wt %/ day as defined in the Technical Specifications). The degree of detectability of the composite leak rate (containment calculated leak rate plus the superimposed, induced leak rate) provides the basis for determining the certainty associated with the measured leak rate phase of the test. As the Mass Plot Method was the official test method used, the induced leak rate test was performed in a period of time until the statistical leak rate was both stable and within the acceptable band. The acceptance criterion for the test is that the statistically averaged composite leak rate be within 1 0.25La of the sum of the statistically averaged ILRT leak rate and the flowmeter induced leak rate. The requirements are not to use the upper confidence limit to evaluate the acceptability of the induced leakage phase of the ILRT.

l

( 1.3 INSTRUMENT ERROR ANALYSIS An instrument error analysis was performed prior to the test and at the end of the measured leak rate and induced leak rate phases of the test. The '

^~alysis was performed in accordance with the definition of the Instrument belection Guide (ISG) referenced in ANSI /ANS-56.8-1987. The inputs to the calculation include sensor sensitivity, repeatability and resolution for the pressure sensors, TRM's and dewcells. A mathematical formula employed to determine the ISG can be found in Appendix B.

The ISG was calculated prior to the start of the test using the existing instrumentation configuration and expected values for containment parameters.

( Based on an anticipated 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> duration test, the maximum expected value for the ISG was 0.0022 wt%/ day. The calculated ISG was 0.00289 wt%/ day at the end of the measured leak rate test, and 0.00257 wt%/ day at the end of the induced leak rate test. These are all within the acceptance criterion of 0.25La specified in ANSI / ANS-56. 8-1987.

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Jcnuary 17, 1992 UNIT 2 ILRT TINAL REPORT The ISG is used only to demonstrate the system's ability to measure the required parameters to calculate the containment leak rate. The ISG is not based on a statistical analysis of the leak rate calculations, and does not affect these calculations. The computed ISG is not added to the value of the calculated leak rate.

One sensor (Dew 82, DAS Channel 442) was deleted from all calculations prior to the test due to erratic response characteristics. The locking out of the sensor did not cause the ISG to rise above the all'owable value. The .

remaining eight dew cell sensors sufficiently modeled the containment for calculation of a volume weighted dew temperature.

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January 17, 1992 UNIT 2 ILRT PINAL REPORT 4.0 SEGINCE OF EVmTS The following narrative describec the sequence of events associated with the ILRT.

4.1 PRETEST PREPARATION D21.12L91 1600 Commenced 2BwVS 6.1.2.a-1, initiated sequence of events log.

Activities include verifying prerequisites and hanging out-of-services associated with data sheets for Section F.1.0.

D9Libl31 1730 Satisfactorily completed IBwVS 6.1.6.3-1, "Visua) inspection of the containment surfaces prior to the Type A Leak Test". No apparent changes have occurred in the visual appearance of tae interior and exterior surfaces of the containment structure.

4.2 CONTAINMENT PRESSURIZATION DEL 19/_11 0500 Valve lineups completed, all pre-pressurization checks complete.

Commenced pressurization of containment.

1400 Upper seal for innec personnel emergency hatch door operating mechanism leaking excessively. The leakage was blocked and the pathway will be considered an ILRT penalty.

1623 Upper and lower seal for inner equipment hatch door operating mechanism leaking excessively. The leakage was blocked and the pathway will be considered an ILRT penalty.

1630 Inspection of appropriate penetrations produced observed leakage from the following system vent paths:

1) 2PS-133 (medium)

2) 2pS9355B, packing leak

3) 2SA032, packing leak

4) 2RYB025, packing leak

5) 2RY8035, packing leak

6) 2RE9170, packing leak

7) 2PS9356B, packing leak

8) 2MS023B (slight)

9) 2SI-056 (small)

10) Emergency hatch door seal, upper seal

11) Equipment hatch door seal, upper and lower seal 12 292(020792)

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)

1

January 17, 1992' UNIT 2 ILRT r!NAL REPORT 1700 Containment pressurisation complete, following are observed .

conditions:

DAS $1 Pressure = 61.014 psia, DAS 12 Pressure = 61.013 psia, Ambient pressure = 14.6 pala.

Resultant Containment pressure information P 3 .46.414 psig P2 .46.413 psig 4.3 TEMPERATURE STABILIZATION D2419/91 1719 Commenced start of temperature stabilisation period with data set

1. 145.

09L20Lol 0800 Significant leak rate calculated using the computer program. Suspect leakage through 2B Steam Generator manway.

1225 Temporary procedure change approved to close the vent on 2B Steam Generator and pressurize the steam generator to slightly less than containment pressure.

1239 Commenced to pressurize 2B Steam Generator main steam piping void up to the Main Steam Isolation Valve with air, 1438 2B Steam Generator piping volume pressurized.

1725 Instrument channel 442 locked out due to erratic readings.

~

2345 Commenced to hourly log air pressure in 2B Steam Generator using a precision pressure monitor.

l 4.4 STATISTICAL LEAKAGE RATE TEST / INDUCED LEAKAGE TEST 01L21/91 0315 Commenced utatistical leak rate test.

0319 Initial data set for statistical leak rate test collected. Initial data set is #349.

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Jenuary 17, 1992 UNIT 2 ILRT FINAL REPORT 09422491 0459 Completed statistical leak rate test with data set 4503.

0519 Commenced induced leak rate stabilization period with data set 1505.

0619 Completed induced leak rate stabilization period with data set 4511.

0809 Completed induced leak rate test with data set 8522.

4.5 DEPRESSURIZATION AND POST-TEST ACTIVITIES 0.2222191 1030 Commenced depressurization of the containment.

D9L23L91 0300 Containment depressurized, inner door opened to facilitate post test-containment inspection.

0400 Post test inspection satisfactory. No major observable damage to-equipment or containment structure has occurred, no abnormal conditions exist. Minor damage to; 1) RCDT level indicator, 2) RCDT Pressure indicator, 3) 2TI-SX 111, 114, 116 and 119 shattered. 2B Steam Generator inspected (which is pressurized with air) and leakage can be heard near the large manway cover. ILRT instrumentation visually inspected, no abnormal conditions noted. Restoration of system valve lineups and local leak rate testing commencing.

1200 Major leak identified on 2B Steam Generator secondary manway, dwg.

IPG-2C-2RC01BB. Work request written to repair, lit.llLR1 1300 Post maintenance leak check of 2B Steam Generator manway.which leaked during the ILRT complete. No observable leakage.

11/15./91 1500 Completed IBwvS 6.1. 2. a-1, 14 292(020792)

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January 17, 1992 UNIT 2 ILRT TINAL REPORT 5.0 ILRT DATA The following report sections present computer data for the three main sections of the ILRT.

5.1 TEMPERATURE STABILIZATION PHASE DATA The temperature stabilization phase demonstrated proper temperature stability prior to the beginning of the test. The. thermal parameters are graphically shown in F.igures 5.1.1 and 5.1.2. A swwmary of the computer data can be found in Appendix C.

5.2 MEASURED LEAK RATE PHASE DATA Graphic results of the measured leak rate test are found in Figures 5.2.1 through 5.2.7. A summary of the computed data using the Mass Plot Method can be found in Appendix D.

5.3 INDUCED LEAKAGE PHASE DATA The calculated leak rate and target value leak rates associated with the induced leakage test are shown in Figure 5.3.1. Containment conditions during this phase of the test are shown in rigures 5.3.2 through 5.3.6. A summary of the Induced Leakage Phase data of the ILRT can be found in Appendix E.

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. . JaIutry 17, 1992 UNIT 2 ILRT FINAL ItEPORT

• w AVE SUBVOLUME RTD TEMPERATURES VS TIME -

SV 1

~

$V 4 SV 7 Normp,11 Tyt SV 2 SV 5 SV 8 SV 3 ,

SV 9 36.60  :  ;

j,6go 7

l ~ _

94.60 -

-:j4,06 gg,oo . -

- - ~ - - - - -

0 90.00 *

s9,Q,.0D

-w

s 88.00 -

.- ;f6.DD 66.00 j 'r_ _

d;66. 4 0 64.00 -

-;f,4,00 0.00 1.30 6.60 8.40 11.20 14.M 18.40 HOURS SOFTWARE ID NUMBER: GNO1405.Grp 5.1.1 Average subvolume Temperature, Stabilization-16 292(020792)

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Jcaucry 17, 1992 UNIT 2 ILRT. FINAL REPORT AVE SUBVOLUME DEWCELL TEMPERATURES VS TIME SV 1 SV 4 SV 7 Normel Test SV 2 sv 5 SV 8 SV 3 SV 9 72.00 l -  ;  ;  ;

72.00 71.29 -

/_vA -

71.29 3

W '

70.57 - '

" 70.57

% + ~ ^

_A W , V MRR , #'

69.86 -

"69J8 60,14 -

es.14 68.43 "

65.43 67.71 "

67.71 67,00 l 0  ; . .  ;

47.00 0.00 1.80 6.60 8.40 11.M 14.00 .1 &.40 ~ 19.00 HOURS

_._ . e ncTwa o r ,in All i kA Al"D. ChlO1 DOM O.O i.

1 5.1. 2 - Average:Subvolume Deweell Temperature, Stabilization.

17

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Jesutry 17, 1992 UNIT 2 ILRT T3HAL REPOR7 G-MASS PLOT LEAKRATES V5 TIME cALcutAitD ttAt RAlt Nornial lost 95 % UPPER CONnDENCE UWIT Almwed Leck Rate

^ '

Q.16% O.10N icL57 e t'.15' C,0714 'O.0714

$ C.Qt71 0.0571

[

FJ r

,. m C.Q429 'O.047I c.Q286 " C.02 8 4 l

0.0145 C.014; c.o v.0 .

O.0003 0.33 4.1 J ' 13 1i 73 15 53 19 33 23.13 2Lw3 sf /

<f gh tANRS 0p$^4 ,89 o 2 Q6 SOFTWAPE ID tlUMBER: GNO1405-0.0 5.2.1 Hass Plot Leak Rate Statistical Test 18 292(020792).

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Jcnuary 17,-.1992 UNIT 2 ILRT FINAL REPORT CONTAINMENT DRY AIR MASS.VS TIME Normel Tott

:  :  ; 603.60 motso  :

t ses.so -

S01.50 sos.40 - -

- sos.40 -

b sos.30 "803.30 -b E E A E sos.20 sos.to 603.10 603.10 a

603.00 " sos.co 602.90 -  : . 602,30 0.00 3.8o 7.60 11,40 15.20 ' 19.00 tL40 28.80 HOURS SOFTWARE - 10 NUMBER: GNO1405-0.0 5.2.2 Containment Dry-Air Mass-Statistical Test 19 292(020792)

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Jcauery 17', 1992 UNIT 2 ILR7 FINAL REPORT CONTAINMENT DRY AIR PRESSURE VS TIME' Normal Test -

59.5000  :  ;  ;  :  :  ;

69.5000 t

69.4500 -

' 69.4500

$9.4000 --

~

69.4000 i

60.3500 "

$9.3500 g ,

C

$9.3000 "

$9.3D00.

59.2500 -

59.2500

$9.2000 -

S9.2000 59.1500 l  ;

St.t500 0.00 3.ao 7.se t t.ac t s.go - is.co atoo . tLeo -

HOURS SOFTWARE ID NUMBER: GNO1405-0.0 l'

5.2.3 -Containment Dry Air Pressure-Statistical Test-20 292(020792)

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Jcnu ry 17, 1992 i

UNIT 2 ILRT TINAL REPORT 1

t l 1 l

l CONTAINMENT AIR TEMPERATURE VS TIME Normel Test t

4 i

l 1 st.50 s2.50

-- $1.00 32.00 81.50 c1.50 -

- o t.co ". ,

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- " 90.00 69.50

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l i

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l 5.2.4 Containment Air Temperature-Statistical Test 21 >

292(020792)

ZD79G

UNIT 2 ILRT FINAL REPORT -

CONTAINMENT DEWCELL TEMPERATURE VS TIME Normel Teet s240  :  :  :  ;  ;  : st.50 37,33 - "

S7.8g -

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- yg3 y - w us e.m -

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= HOURS . . -

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5.2.5 Containment Dewcell Temperature-Statistical Test-22 292(020792) -

.ZD79G

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J;n ery 17, 1992 UNIT 2 ILRT FINAL ptPORT I

i CONTAINMENT VAPOR PRESSURE VS TIME Normel Test 4

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GOFTWARE ID NUMBER: GNO1405-0.0 l

l 5.'2 . 6 Contaireent Vapor Pressure-Statistical- Test 23 292(020792)

.ZD790 l

JCauary l'o 1992 .t I

1 UNIT 2 ILRT f!NAL REPORT j i

,e -  !

3 t

i BN-TOP-1 LEAKRATES VS TIME No m ol h et CALCULATED L[AK RAfg 95 % UPPCM CONMDENCC LlWR Allowed Leot Rate

s. 6.44 f

0.46 0 30  !

0.36 4

0.20 [

0.20 e

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b 5.2.7 BN. TOP.1 Leak Rates. Statistical. Test (Information Only) 1 24  !

292(020792)  ;

ZD790 -! >

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J nu:ry 17, 1992 tfH17 2 ILR7 T!NAL REPORT MASS PLOT LEAKRATES V5 TIME CALCULAftD LIM RAlt V+ rifle 411eh idet UPPCR AND LOWER l>0VNDS Torget Lee Hote 4160s e.tsDs 6.1600 'Q.96D9 C1600

'O.14D0 C.t 2D0 E' 01100 $

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5.3.1 Hass Plot 1,eak Rates. Verification Test l

25 292(020792)

ZD790

Jontery 17. 1992 UH1T 2 1LRT TINAL REPORT CONTAINMENT - DRY AIR MASS VS TIME Normel 1 >6t 60s.ots;  :  :  : -:  : 603.00e 7 601.0494 - -

6 3.6490 602.Het - -

602.D64e B n2.64.. -- -

6 2. 44. E E E A E se2.ates - -

602.tMt 602.8409 -

602,9490 so2.7 es - -

602.7H8 602.7499  : .

602.7490 0.00 0.40 0.M t.no 1Je t.oo a.4o r.so ICURS SOF 1 WARE ID NUMBER: GNO1405-0.0

5. 3 '. 2 Containment Dry Air Mass Verification Test 26 292(020792)

ZD79G

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

, Jc:utry 17, 1992 UNIT 2 ILRT r1NAL strom7 CONTAINMENT DRY AIR PRESSURE VS TIME .

i Normel Teet u.tsse 6satto M.2te6 69.2360 M .tt u -

M.212 60.2100

- $0.2100' i l

69.2050

• 69.2DM

$9.2000

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$.3.3 Containment Dry Alr Pressure-Verification-Test l

27 292(020792)

ZD790

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

Jc::uery 17, 1992 -

i UNIT 2 3LRT r!NAL REPORT I; 4

I i

r 1

1 i

CONTAINMENT AIR TEMPERATURE VS TIME i Normel Teet .

t0.4560  ; '

l l l 90.4600 P

f 90.4M6 -

96.4600 I

00.3500 -

80.3500 00.3000 - "

90.3000

• • I I

W  ;

i 06.2500 -

90J500

~~.s 00.2000

- )

00JD00 90.1500 -

80.1500 [

80.1000 0 0.00 0.40 0A0 1.20 $0*tD00 t40 2.00 2,40 3.00.

HOURS SOFTWARE ID = t4 UMBER: G NO 1405-0.0 4

t r

9 l

5.3.4 Containment Air Temperature-Verification Test

'y 28 i

~292(020792) t0190

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J0:very-17, 1992 .

w!T 2 1t27 r!NAL atroa7 l

OONTAINMENT DEWCELL TEMPERATURE VS TIME .

Normel Test  !

j

,u.

l L

s?.es -

"s7J4 i as.rt -

~ 63.21 - l 78.57 "

75J7

".e .

e W

73.03 "

73A3 68.29 "

69.29 64.64 *

$414 60.00 -:  : '

o.00 o.4a o.so 4cl)s 1.20 1.so ' 2.00 2.40 a.co HOURS SOFTWARE - ID - NU MB ER: GNO1405-0.0 <

5. 3'. 5 Containment Dewee13 Temperature-Verification Test' l; 29 l 292(020792)

'ZD790-

, = .

Jcnuary 17, 1992  !

L UNIT 2 ILRT FINAL REPORT  ;

e i, . .  !

1 i

t,.;UN I AINM LN 1 VAPOR PRESSURE VS TIME i Normel Teet  !

I 3Jg26 . ,  : 0 6.M 90 i t

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ussa  :  :  :  : c.nsa <

o.00 0.40 0.60 1.20 tJD ~ t.00 - 2.40_ '.40  ;

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l:

l SOFTWARE ID NUMBER: GNO1405-0.0- s 1

't

?

5.3.6 Containment vapor Pressure-Verification Test-i 1

30 ,

292(020792) -

ZD790- .

>-e-, 9 ,,n-.,-my , w-em....,,,:-,,ni- ,..we,-- v- e ,p.,-,-yw<y,w,--.cy ye m e mww.= y- ec,--. va,,>, g # w .- e.-ve y-- -w- v , eg r- -

Jcnuary 17, 1992 l

UNIT 2 ILRT T!HAL REPORT l 6.0 TYPE A TEST CORRECT!(MS  !

During the Type A Test, there were penetrations that were not properly challenged by f ull containment pressure. These penetrations (P-4, I-3) are in uso during the performance of the ILRT. Local leak rate tests were performed prior to the ILRT for each leakage path. The minpath leak rate was then calculated for each of these penetrations and added to the ILRT Test 95% UCL.

The total leakage to be added to the "As round" ILRT result is 8.63 SCrH os 0.0018 wt %/ day. When added to the 95% UCL (0.05359 wt 4/ day), the final composite leakage rate is 0.0554 wt s/ day. This Itakage is acceptable beleg 3cas than 0.75La. Appendix r provides leak rate carrection data in tabular format.

31 292(020792)

ZD79G

Jtnu ry 17, 1992 UNIT 2 ILRT FlHAL REPORT 7.0 INTERPRETATI(M OF TEST RESULTS 7.1 MEASURED LEAT, RATE TEST RESULTS This test is consldered an "As found" f ailure due to the leaking 2B Steam Generatot manway cover. The manway cover presented a leakage path that was rot able to be quantitled but caused a leakage rate from containment above the acceptance limit for the ILRT. This leakage was observed during the temperature stabilisation period. Once the steam generator's leak pathway was blocked, conditions in the containment appeared to stabilise and the statistical leak rate test commenced. The test occurred over a twenty-four hour period and an acceptable "As Left" leak rate was observed and measured by the ILRT Instrumentation.

The "As Left" statistically averaged leak rate (95% UCL) after corrections was 0.0$54 wt %/ day.

Containment dry air temperature and dowcell temperature trended downward throughout the tent. This is indicative of a stable containment with no major heat sources as the reactor coolant was kept constant throughout the test.

Measured tank and containment sump levels were not significantly changed from pre-test to post test levels.

One instrument, (Deweell 12, DAS channel 42) was locked out for the duration of the test.

32 292(020792)

ZD79G

Jcnucry 17, 1992 tfMIT 2 ILRT TINAL rep 0RT 7.1.1 Wsetvtd_ Leakage._IInm the lgu11ntat_11attitand EmaIgency_.llaLsh Airlagl.lhalL31A1 Prior to the performance of the statistical leak rate test, during the temperature stabilization period, leakage was observed from the Equipment Hatch airlock shaft seal and the Emergency Hatch alrlock shaft seal. The leakage was evident, as during the test the hatch is aligned with the interior door closed and the esterior door open to facilitate inspection of the seals.

The leakage was blocked and the stabillsation period was continued. The ,

pathway was then considered as an isolated pathway for the ILRT.

The airlocks had been "As round" tested following the start of the f That test showed refueling outage, prior to performance of the Type A test.

the leakage to be small. The Type B test results indicate that under Post. ,

LOCA conditions, any leakage past the Anner door would be stopped by the outer door. Thus, the minimum pathway leakage calculations of this pathway is not affected by the leak or the isolation of the leak from the inner door. Thus, no penalty !s 11gu1134 to be added to the ILRT results as a result of this ,

pathway isolation though it was added as a result of CECO's conservative approach to ILRT t.esting.

i l

l l

l 33 l 292(020792) l ZD790

Jcnuary 17, 1992 UH1T 2 ILRT T1HAL REPORT 7.1.2 Obs e r v e d_L e ak ag e__Ir om_2A_S t e am.S em an tarlent_Line__2Hb 22311 prior to the performance of the statistical leak rate test, during the temperature stabillsation period, leakage was observed to be coming from valve 2HS-023D. This valve was the vent line established to vent the 2D Steam Generator. The leakage was evaluated as " slight" and was observed eleven and one half hours into the pressurisation phase. The observed leakage from 2HS-023D was one of eleven minor leaks identitled prior to pressurimation.

Upon pressurisation, the ILRT computer code showed a significant leak. The slight nmount of air observed from 2HS-023B was not Anillally considered to be the source of the high containment leak rate. Activities were initiated to identify addJtional leak pathways but no significant leak paths were located.

Tourteen hours af ter the containment reached test pressuse, it was decided that the high leak rate f rom containment was due to an unknown leakage path

associated with the 2B Steam Generator. A temporary procedure change was developed which would pressurite the main steam piping volume at the top of t he 2D Steam Generator up to the Main Stemn Isolation Valve. The main steam piping volume was then pressurised with air to a prassure slightly less than the containment. This arrangement would effectively block the leakage path f rom containment into the steam generator. Conditions inside the containment appeared to stab 111

e and the leakage rate then appeared to decrosse. Logging of the pressure inside the main steam piping commenced using a precision prosaure monitor. Makeup air was required to be valved into the presnurisation rig due to apparant air leakage past the Main Steam Isolation Valve. Makeup air to the pres _elsation rig was then maintained during the test. Periodic logging of the pressure inside the main steam piping verifled the containment pressure remained greater than the steam generator pressure.

Once conditions inside the containment appeared to stabillwe the statistical leak rate test commenced and continued to conclusion. personnel entered the containment upon depressurization and attempted to identify the source of containment leakage. Leakage from one of the top secondary manways on the 2D Stemn Generator was observed and ef forts to repair the manway were initiated.

Repairs were completed and the steam generator was available for leak testing on November 13, 1991. The steam generater was again pressurlsed in a manner consistent with that during the l'.RT. No leakage was observed on the repaired

manway. The ILRT leak path was considered fined and the ILRT procedure was l closed out.

The leakage f rom the 2D Steam Generator was f rom manway 24A, one of two secondary manways at-the top of the steam generator. The manway seating surface was steam cut for approximately three anches of its outside

- c i rc um f e rence . This provided a le.-k path f rom containment into the stenm generator and out of the 2HS-023D valve. This pathway provided the high leak rate above acceptance criteria observed prior to the start of the statistical leak rate test.

l l 34 292(020792).

ZD790

l Jcautry 17, 1992 UNIT 2 ILRT T1HAL REPORT  ;

7.2 SUPPLEMENTAL VERITICATIQ1 TEST RESULTS The supplemental / verification test was performed following the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> mass plot leak rate test. The starting data set was number 505 at 0519 on 9/22/91. After a sixty minute stabillsation period, the Induced leak rate test commenced and was completed at 0809 with data ret 522. The statistically averaged composite leak rate was verified to be stable and within 40.25La of the sum of the statistically averaged measured leak rate and the average flowneter induced leak rate. No abnormal containment response or significant events occurred during this test.

7.3 COMPARISQi TO PREVIOUS TE3T RESULTS This was the second ILRT performed at Draldwood Unit 2. The previous test was the pre-operational ILRT performed on 09/06/87 to 09/11/87.

7.3.1 P1 e.DrelationaLHeaaursd_ Leak _. Rate _letot_Resulta_L19111._1LRU The statistically averaged containment leakage rate (Lam - weight percent per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />) during the 1907 test was 0.0435%/dmy after 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and 112 data sets. The 95% upper confidence limit of the containment leakage rate, L ucl3 -

was 0.0490%/ day. With no Reactor Containment ran Coolers producing heat, the containment building cooled during the test resulting in a downward trend of the containment average pressure and temperature plots. The plot of containment leakage was well below the allowable limit and at the termination of the test was still decreasing.

The total local leakage rate addition as a result of LLRT's performed subsequent to the ILRT was 0.035 SCTH or 0.00046%/ day. The overall integrated Leak Rate was 0.0435%/ day (3.36 SCTM) whleh is less than the acceptance criterla of 0.75La (0.075%/ day) or 5.79 SCfN.

I 1

35 292(020792)

ED70G

Jcnuary 17, 1992  ;

UNIT 2 ILRT FINAL REPORT  ;

7.3.2 I>re-OpnAlinnLEurplemental Verification TesLAtsulLgSta6 ILRT) i The statistically averaged composite leakage rate (Lc) during the 1987 test was 0.1576%/ day after 4.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> and 25 data sets. This was within 0.25 of La of the swn of the statistically averaged full pressure leakage rate and the average flowmeter Induced leakage rate.

I i

i 5

't b

L 5

6 r

t i

e 4

?

36 292(020792)' ,

-ZD79G m.,r -..--.- - - - - . n . . , , - ,=n-,. .,.n ,-,v, , _ -,, e,. , . - , .. , , , .. -., - - - ,-y .. - , ?,.,,-~ , m.e-- .--m - ,-~,--,,-er.,-- , .-,-r-.. . . . , - - , .

January 17, 1992 ini!T 2 ILRT FINAL REPORT 8.0 REFERFJtCES 8.1 December 7, 1987, Letter from S. C. Hunsader to T. C. Hurley transmitting Commonwealth Edison Company Report entitled " Reactor Containment Dullding Integrated Leakage Rate Test, Braldwood Huclear Station Ualt Two Preoperational Test, September 6 - September 11, 1987."

37 292(020792)

ZD79G

Jcnuary 17, 1992 till!T 2 ILRT T1tf AL REPORT Anend1LA lllSTRUtiEllIAIlotLSTICiflCAlloilS Data Acquisition. System _YalumetricLA-lDD A/D Conversion: Dual slope integration 16 BIT A/D 202 sample per second converslon factor Displays 5+ Digit, Polarity, Decirnal &

Legend.

Sampling Rate: 10 channels /second Common Mode Rejection: DC-140 db, 1000 olen unbalance AC -140 db at 50-60 he llormal Mode Rejection: 80-db Input Impedances 1000 enegaohms/ volt Ambient Temp Range: 32-125 deg. T Zero Offsets Recalibrate before each reading automatically rull Scale Temp Cornpensation A 5 PPM /C or 0.005%/C Accuincy: 1 0.005% r.S., 1 0.0-05% of reading at 25 deg C with 4 10% AC Power variation Time Accuracy: 1 1 minute /24 hours Tirne Resolution I second DILJ)ulb_IcepcLatur e Humber of sensons: 25 Type of sensors Therrnistor, Glass encapsulated YS1 Hodel 46043 Configuration 3 wire Accuracy: 55-135 deg r .to.25 dog r Repeatability .t0.01 deg T Resolution 0.1 dog F 38 292(020792)

ZD79G l

l

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

JC2uary 17, 1992 t

UNIT 2 ILRT T!NAL REPORT i

DRE_EQinLTempetALur.s Number of sensors: 10 Type of sensort Lithium Chloride .

Configuration: 5 wire  :

Range: 40 - 100 deg r dew temperature f Accuracy: A1.5 deg F Repeatability: A0.5 deg r ,

Resolution 0.1 deg r i Ercianr2 Humber of sensors: 2 Type of sensor: Precision Pressure Monitor (Solid State Electronic)

Hanufacturer Volumetrics, Inc. ,

Range: 0 - 100 psia Accuracy: 10.02% of reading '

10.005 psig Repeatability: 10.001 psia sensitivity: 10.001 psia Resolution: 0.0001 psia ERIlliCAlinILfinE ly&lta Number of sensors: 1 Type of sensor: Rotometer Range 0 - 10 SCFM Accuracy: 1 1% r.S.

i Corrections: Corrected for temperature and discharge pressure liardware Metering valve l

6 l

39 292(020792) >

ZD79G I

_ ._ ___ ___._ _ _ _ _ _ _ . _ _ _ . _ _ _ _ . . ________.___.m._.._ _ _. . . _ _.. _.._._ --_

Jcnusty 17, 1992 UNIT 2 ILRT r!HAL REPORT Anandix_lL:_SIATIETifAL AliALYSIS._MEI110DS lolaL21me_CalsatlaLLoss This method calculates the rate of change with respect to time of dry 3

air mass using the Total Time Method.

Initially, a reference time (t r ) is chosen. For every data set the rato of change of dry air mass between t y and the most recent time, tg la calculated using the two point method shown below. ,

2100 . [

Hg (tg-t,) (1 - Hg/Mr I Then the least squares fit and 95% UCL af the total time leak rates I are calculated as shown below lH g[(tg) -

[t[H g g tg j n.

H[(tg)

([t! g (H[tM gy -

[t[H) g g A.

H[(t) g

([tf g L = li + At

7. _

1.6559 (N-1) + 3.52a3 + 0.85602/(N-2)

(N-1) + 1,2209 -

1.5162/ (H-2)

Note N la the number of data sets minus one.

1 (t - [(t ) g

/ N) h r . _.

, P I

H [(t) g

([t) g

/ H o= -

[(H) g - B[H -

A[Mgg t UCL = L + To i

40 292(020792)-

ZD79G

'P' *

• lty -e--Me-- y p.y ----g- = +5-9.ma -+-w.'-....e-m m -w __.a. ,s.7,-,q. #9., wq ,- .4 g4 - , - g.,, #A, , ..

. - - . - . . . - - . . ~ - . _ - - . - . . - - _ _ = - - . . - . - . _ . - - - . . - - . . . - - . - - .

]

Jcnu:ry 17, 1992 UNIT 2 1hRT l'INAL RSPORT Calnulatigui_InstrmenLSeiertion GuideJEQ1 ISC = 2400 2 (ep/p)2 +

2(or /T)2 + 2(ed'P)'

t N Hr Nd p

wheres t is the test time in hours p is test pressure, pela ,

j T is the volume velghed average enmt. temp. 'R ,

Np is the number of pressute transmitters H,. As the number of RTDs 14d is the number of dewcells ep is the combined pressure transmitters' error, psia [

e is the combined RTDs' error, 'R r

ed is the combined deweells' error, 'R e

p

- (Sp)2 , (pp p , pgp)2 where: Sp la the sensitivity of a pressure transmitter RPp is the repentability of a pressure transmitter RSp is the resolution of a pressure transmitter e

r

• (8r )

• IEE r 4 RSr )

where Sr is the sensitivity of an RTD RPr is the repeatability of an RTD RSr is the resolution of an RTD ed * *E v Td I"d) +

(RPd

• RSd )

where Sd is the sensitivity of a dewcell-t RPd is the repeatability of a deweell i

RSd is the resolution of a deweell P

-V Td = change _11Lyncot.rr.sts.sste

+T y change in saturation temperature The above ratio is from ASME steam tables and evaluated at the containment's saturation temperature at that time.

41 292(020792) 2D19G

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

Jcnuary 17, 1992 l Uti!T 2 ILRT r!NAL REPORT Appendim C TEt(EERATURE E.IABILIZATION DATA The following tables present the data for the temperature stabilisation phase of the ILRT. The temperature stabilisation pha J la defined as data  !

collected from data set.s 233 to 348 'nclusive. The following data is included  !

I IABLE IIILE C.1 Guinmary of Temperatures C.2 Sunnary of Dewcell Temperatures

+

s I

l e

i e

f f

P

?

l

-t

+

[

, i 1

F

[

42 -!

292(020792)

ZD790 ,

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. . Jccu;ry 17, 1992 UNIT 2 ILRT FINAL REPORT Table Cel SUHHARL0r 2EMPIRAWRES 60ftWApt PROLVC1 10 hum 9th e 6h4146b 0.t

......................... ;pppany tagtg ce tgytgaatpagt .......................e FRA10W00t uhlt 14:49 f4 WCD. 29 JAh 1993 i

DATA sti AVthAbt DATA timt ft>P. AVCR46t bVDv0LUPI itMPtmATURtt. (Ott 7) blit DAY HH >> 66 (Otb f) 41 et 43 64 46 46 17 40 09 733 f6) 97:69: 46 94.3 96.6 96.6 9b.7 96.4 94.7 92.1 97.7 66.0 tb.9 034 ?63 06:99: Ab 94.3 95.t 96.6 96.6 96.4 94.7 90.1 97.7 ft.? Bb.9 736 PC's DBc19: 44 94.3 9L.4 9b.6 96.6 90.4 94.7 9;.1 92.7 tt.7 th.9

)( 263 99679

46 64.3 fi . t 96.6 96.6 96.3 94.6 92.1 97.7 ft.7 25.9 007 it3 ft:39:45 94.! 9 .b 90.b 95.0 96.3 94.6 90 1 90.7 f6.7 84.L

)" 163 90: 49: 46 94.1 9t.s 96.b tb.b 96.3 94.6 92.1 92.7 # 1. . P tt.$

719 ?t3 99:59:46 94.7 9L.4 96.4 9t.4 96.A 94.0 92.1 92.7 ft.7 tb.6 249 762 epiepeat 94.s tb.) Db.4 96.4 96.2 94.6 92.1 92.7 81.7 Bb.9 043  ?$3 99 19:46 94.1 96.3 96.4 96.4 96.2 94.6 97 1 97.7 8t.7 06.8 to? 063 teert:40 94.1 96.3 94.3 94.4 $b.? 94.0 92.1 9 .7 ft.7 Bl.6 04? F63 09:39:44 94.1 9t.3 96.4 96.3 9t.1 94.( $F.1 92.7 40.7 B6.0 244 ?63 99:49i46 94.1 96.0 96.3 96.3 96.1 94.6 92.1 9?.7- et.7 86.6 244 763 49 69: 46 94.3 9t t 96.3 96.3 96.1 94.6 92.1 97.7 90.7 Bb,8 F46 763 19199:44 94.t 95.? 96.F 96.3 96.1 94.5 92.1 97.7 eb.? tb.$

247 263 19s19 46 94.0 9t.1 96.7 94.? 94.0 94.6 97.1 92 7 06.7 tb.6 Fat 263 19:29: 4b 94.t 44 1 96.7 96.2 96.t 94.0 92.1 92.7 eb.? tt.C 249 263 les39:46 94.t eb.) 96.1 96,7 96.4 94.6 97.1 92.7 i: t . ? Bb.$

Pbt 263 10:49 46 93.8 9t.9 96.1 94 ! 96.9 94.6 90.1 90.7 6t.7 00.0 261 563 19 69:46 93.5 $ 5. 9 eb.1 9t.1 94.9 94.4 90.1 90.7 tt.? Ft.$

2bi F63  !!:69:45 S:.t vt.t t.t ,1 9t,1 94.9 94.4 90.1 62.7 ft.7 pt.t 763 263 lis19:41 91.4 *b.t it.t 9t.1 94.9 94.4 92.1 97.7 t1. 7 tb.t 7t4 2(' 11:09: 46 90.t **

.9 St.t 9t.t  %#.9 94.4 tp.1 m;.7 r;

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?be 253 10:19: 44 9:.t ed., 64.0 to.9 ed.7 94,3 90.3 9p,7 ti l. . f M. . t Oct 003 10:09:46 *?.' 44.' *4.9 94.F 94.7 to.? t;.) 0;.7 ft.7 't.*

?ti 203 122)9:46 9, 14

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• 9f. ti.. 97.7 M.7 f1.4 E.t I(3 17:198th 9; * ' *

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.T Toi 763 13 : 0

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• f 4

43 292(020792)

ZD790-l q

e . J u2ry 17, 1992 UNIT I ILkT FINAL REPORT Table C.1 Wt9%W Of TDiPIEAHIRES

( Co nt. ' d )

$0ffWah! th00Uti 10 NUW0tti Cheletb-t.9 27t 763 3bitt: 46 90.4 94.3 94.4 94.4 94.1

??9 263 IS:39 45 to.3 97.1 92.6 94.6 ft.h tJ.4 94.3 94.4 94.4 94.3 9?.1

st 763 16: 49:45 63.4 94.t 92.6 (4.6 $t.t '

94.3 94.4 94.3 94.3 94 9 97.3 92.7 45.6 003 ft) 16:69: 46 93.4 94.3 94.3 94 3 94.r 94.0 $g.1 97.7 BL.6 tt.t ft.t 292 263 16s99: 46 93,4 94 7 94.3 94 3 94.7 94.0 92.1 92.7 $6.6 293 263 16:19:45 05.6 93.) 94.7 94.3 94.3 94.2 94.0 9f.1 97.7 84.6 (4.6 294 763 14:29:44 93.3 94.0 94.3 94 3 94.2 94.6 97.1 92 6 tl.6 29t 263 16 39444 St.t 63.3 98.7 94.7 94.3 94.F 33.9 92.1 90.6 ft.6 tt.t 766 26) 16: 49:46 93.3 94.1 94.7 64 t 94.3 93.9 92.1 90.6 66.6 t%.?

Ett it) 16:49:46 91.3 94 1 94.F 94.P 94.1 93.9 92.1 92.6 6L.5 280 763 17st9:46 93.1 Ob.t 94.1 94.2 94 7 94.1 93.9. 92.1 92.5 04.6 269 263 17:19: 40 $3.7 Ct.t 94.1 94.1 94.1 94.1 93.9 97.1 92.6 BL.6 CL.!

299 F63 17:2944% 91.7 94.1 94.2 94.1 94.1 93,9 92.1 098 263 37: 39:46 93.F 9t.7 04.6 St t 94.0 94.1 94 1 94.t. 93.0 92.3 92.7 64.6 86.7 292 263 17649 sob 93.? 94.9 94 1 94.1 94.0 93.9 92.1 92.7 093 263  !?s6gsob 97.2 84.6 66.0 94.t 94.1 94.3 94.0 93.0 9?.1 $0.7 60.6 St.7

98 263 1056414%

094 Pf3 11all;*t

$3.) 91.9 94.t 94.0 94.t 93,3 92.3 90.7 04.6 CL.7 90.J 92.9 98.0 94.9 9a.t $3.0 9;.. 9;.7 Db.6

t6 063 lat?9

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. 10.f 8b.6 13 . ?

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93.1 93.5 93.9 93.9 93.9 93.2 9P.3 9?.7

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93.t 93.9 93.9 93.7 92.3 97.7 Pt.6 363 243 19:39 tab '*

• ( 9:.8 19.9 93.9 93.9 93.6 97 1 85.7 Sta 063 19: 4te:46 93.e 43.t 93.8 97.7 60.6 tb.7 3Pt 263 19tt& tat

• 93.f 93.9 63.6 97.1 9t.7 PL.6 06.7

.t 93.7 93.9 93.8 93.9 93.6 97.1 92.7 306 063 20:09:4b 90.9 93.7 9;.0 bb.6 BL 7 93.9 93.7 93.6 90.1 92.7 9b.C 307 763 ?#t39 4% f; 9 93.7 93.6 93.t 93.7 04.7

?tt 763 70s?9:46 t!.9 93.7 93.6 9;.3 97.7 Pt.6 tb.*

93.7 93.P 93.7 93.6 92.1 b2.7 3 t ** (? Ots?9:44 10.' 9?.6 t.3.7 93,7 tb.6 B4.7 312 i&3 ?tt8tist 9 ; ,1 t;.6

1. 's . ? 93.t 92.1 97.7 BL 6 04.7 93.1 g3,7 93,7 93.g gg,3 93,7 gg.t 31; ?t3 ?#4bt: 41 5;

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313 ?(; 21.!*.

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3).t 9 ' , t_ 9;,* 9 ,g 416 76; 13:4t> 40 '. . l!.t '. ast  !),( m .$ , 4 9?.e 1*.7 90.7 00,(

ft.6 70,7 f t. , 7

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319 Ot* ?? 19,45 9;.' t?.*

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??? ?f! 00: 4Biet tt 9 f;.3 **.? 91.4 $4.9 83.0 v2.9 57.7 tt.t tt.'

3;* tb3 21 s t 9 : 4 b 5;

• A' ; 86.f tt.'

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• fa.. tt.t 90.t 233 268 tes19: 41 9;,t 13. *;.; 91.1 ';.. ft.) 9?.e  !;.7 Ct.t

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. . 93.0 13.1 90.t 92.* 0t,1 :1.7 c?.i 99.. S. 0 14 . ; 93.0 $t.. 91.4 90.7 ;t.0 336 264 t4:09: 4b 90.5 93.3  ??.0 93.? 93.; 90.2 9?.7

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!..f t'.i 43 a 292(020792)

D79G

I

, , J0:uary 17, 1992 '

trit!T 2 ILRT T!alAL REPORT i

Table C.1 . i gutmAn or TrMf1EAE1RES l (Cont'd) l 50h WAaf P8(tVtf Its hve 9t t e ti t. f 3 8 t $ - 9 . 9 33t 164 01 P9t44 92.4 93 1 93.7 93.1 93.2 93.t 97.9 92.6 90.( tb.7 239 768 91:39:a6 Dr.4 93.3 93.P 93.F 93.4 93.9 97.9 92.7 St.6 04.7 349 P64 01s49:ab 92.4 93.9 93.1 93.1 93.1 93.9 91.9 92.6 ft.6 E6.7 343 764 01:69: 45 97.4 93,e 93.1 93.1 93.1 93 9 93.9 97.6 tt.6 ft.7 3a7 26a 02:09:a6 9F.4 93.0 93.3 93.1 93.1 93 9 91.9 9F 6 Pb.6 94.?

343 764 t?s19tal 92.4 93.9 93.1 93.1 93.0 93.0 91 9 67.6 fea ;64 t?st9s45 (6.6 tb.7 97.4 93.t 93.1 93.3 93.t 92 9 91.9 97.6 0L.0 M.?

Sob 244 tis?9:46 91.3 e?.e 93.3 93.1 9i.e 97.9 91.9 90.6 ft.f IL.?

3a6 ?04 (0: 49:45 90.3 97.9 93.9 93.9 93.t 97.9 91.9 9?.( t,1. 6 It.7 1a7 ?$4 etshe:46 90.3 90.9 93.0 %3.t 93 0 9?.9 91.9 92.6 96.6 3at r64 93st9:4b 9;.3 tt.7

%;.9 93.9 93.9 93.t 91.9 91.9 St.6 6t.C tt.7 hD 8 et tsynt CHAhhtts ARE 40 tit 0 Out Det CHAhNCL a 40 !$ tot 6tt, cut i80p OtN 1 l

1 l

l 43 b 292(020792)

ZD790

. JOOuory 17, 1992 i

UNIT 2 ILRT r!HAL ltEPORT 7ABLE C.2 SUMMARLOT_DIMCILL_IDifIPATUITS 50F1wAnt P&c0Vt1 ID huret&s 6ht1486 8.6 .

l

....................... $ppmaRy taptt et etw ttatthAtypts .......................

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to ?( 3 ft

0& i41 t#.9 /P.! '6.4 69.6 78.9 71.7 66.3 ft.t 7f.' 6t.*s 73* ;63 f t t 79:4L ft.t ih.( iS.( 79.0 79 9 71.1 69.4 70.9 76.7 (9.3 730 263 ft: 49:44 (9,t (v.' t9.a 59.7 70 3 71.? 6t.a 79. g 69 79.9 (9.*

739 763 $bs&$s46 10.t to.f (S.0 69.0 76.1 71.2 6 (i . 3 9 16.7 06.3 Set 203 99t99: 46 7t.t (l.. C 's . 4 &$.9 69.9 71.7 66.4 79.9 79.7 69.3 243 263 99:19eab 79.9 09.7 68.6 69.8 7w.1 71.? 69.4 70.0 79.7 69.3 247  ?$3 99 ?9:40 ft.t 60.t #9.4 49.9 ft.1 71.3 0t.4 70.0 70.7 St.4 243 763 et$36:45 65.9 69.0 #9.4 69.7 79.9 71.? 60.4 79.9 70.6 69.4 744 263 99:49s44 69.9 69.6 ft.t 69.( 69.9 71.? 6 (. 4 70.9 70.6 69.4

?46 263 99:69: 4b 19.t 69.7 (9.6 09.0 70.9 71.2 62.? 76.0 70.6 69.4 T46 F63 19st9: 46 79.4 69.9 49.0 69.7 79.0 71.3 60.4 69.9 79.6 69.4 247 Pt3 10:19: 46 *t.$ 69.4 69.6 69.) 76.0 71.2 68.3 70.0 79.6 69.4 24C ?63 89 fit:46 79.9 (9.7 69.b 09.0 69.9 73.3 St.6 79.9 PD.6 49.6

?49 ?63 16 39:a5 76.0 6 9 . f. 69.6 69.9 79.8 71.2 (f.6 76.0 ft.t 69.t 768 063 19: 49:44 ?t.t (5.7 (9.6 (9.0 70.6 71.; t".4 ft.1 79.4 69 4

?ti 003 IS 49: 4b ('.$ th.( 69.t 69.0 69.8 73.0 60.a 70.0 ft.t 69.4 Tt? ?6) 11:09:41 '..r i'.( 09.1 09.t 9t t 7;.0 40.4 ft.0 ff.t 66.t I '. 3 ?( 3 13t19s41 ('.5 (4.1 (6.4 69.7 77.9  ?.. 08.4 79.0 79.1 69.$

Ota F&3 las?tiet (0.9 (9,7 is.a (9.t 7t.p 71.. 66.5 ft.1 79.t 69.6 Ott :(3 % ) : 3 9 s t. (6.* ,t ( <*

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247 263 11:09:4b 66.9 ( .t tv.6 (9.6 ft.$ 71.1 ti,5 Fe,$ 70.4 6P.L 766 263 12:09:4b (9.4 (1.6 (4.4 49.7 79.9 71.0 (9.6 79.3 79.4 69 6 759 263 17:19:44 e' ' ('.* l'.a (4.( 't.t 71.F (t.S 79.1 70.4 69.6 l

=

tit 203 17:26:41 (t.. e%.t (4.i (v.s 't.9 71.; (t.o 7t,3 te.; (s.( j ff; ?6) 10:39:46 (4.9 tt.t (1.5 (S.' 't.t ?1,1 (5.4 7$.9 ti.. 69.( i 76? ?63 32446 tab (9t #s.* &* 4 4 (f.t it.f 71 1 (t.4 70.4 7 t . *. t9.6 763 2(7 1016944b (L.i t 5.6 (' 4 f '. . ' 79,t '1.3 ft.5 ft.) 7t., 61.1

(. 4 753 33

$ttab (t.' ' * **,* (5.f ($,1 71.; 66.6 79.1 't.! Ot.t l(5 003 11: 19:4b ti. .t t' 1 (t., 7t,$ ?1.? 8T.t 79.1 76.3 ('.t

?60 243 1347taab (t.s 39.* it . + *$ ' t t .9 *),2 (t.4 79 1 74. (p 0 007 263 17:39:40 (6.6 (f.t (9.4 (9.7 78.1 ?1.P tt.6 79.1 ft.1 69.6

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244 49( 11844891 94'4 94'9 94'1 94'4 d4'4 41*t 94'1 de't de'l 94*d ]

!de 49( T1tt4891 94'4 94'. 94*t 94*d 44'4 41*4 94'1 44'4 44'2 94'4 i 444 2$( 11194891 94'4 94'9 94't 94'd 94'4 4t'2 '94'1 40*t 44'4 94'd*

441 498 11816891 94'4 94'9 94*p 94'9 94'4 di'4 94'1 44'l 44*2 94'd 242 498 89844891 94'4 94'9 94'p 94'd d4'4 41'l 94't de'l 44't 94'4 6 4

248 298 t1114891 94'4 94'1 94't 94'd 44'4 d1'4 94't 44'l de'C 94'4 .

449 498 19844891 94'4 94'9 94't 94*d 94'4 di'4 94'1 de'l 44'l 94'4 441 29( 81It4tsi 94'4 94*1 94'1 94'4 de'4 tt*6 94'9 44't 44*( 94'4 j 249 298 89:t4891 94'4 94'd 94** 94'd 94'4 dt" 94'9 de't de't 94'4 4 44d 41( tts14891 94'4 94*$ 94*t 94'd 44'4 4t'2 94't 44't 44't 04'4 244 498 idteetti 94'4 94'9 '94*p 94'd d4'4 41'4 99'1 de't 44'l 94'd 444 298 f41t4891 94'4 14'1 94*t 14'9 de'4 df'4 94't de't 44*f 94'4 '

244 29$ ti824: 91 94'4 94'd 94't 94'd 44'4 di'8 94'1 44 2 44't 94'4  ;

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842 498 14824891 14'4 94'9 94'1 94'4 94'd dI't 94*9 44't 444 94'4 848 29( 14844691 94'4 94'9 94't 94'9 44'4 di'8 94't 44'4 44'4 94'4 849 398 14894891 94'4 94'1 94'1' 94'4 44'4 di'C 94't 44'l 44'4 94'4 '

841 418 16814891 94'4 94'9 94** 94'9 44'4 di'l 94*p 40*t 44'4 94*4 ~

849 498 24844stS 94'4 94'1 94'p 94'9 94'4 it*1 94*9 44'4 44'4 94'4 i ted 298 44814891 14'4 9$'4 94't- 14'd 94'4 di'l ts'd de't 40*4 '94'4 tto 298 44824:tg 94'4 94'9 94't 94'9 94'4 dt't 94'1 de'l de'4 14'4 1 C44 21( 24884896 94'4 94'9 94't 94'9 de'4 4t*( 94't 44'4 44'4 94'4  !

tit 498 208t4891 )s'4 )4'4 94*1 94'd 94'4 di't 94'1 de't A4'4 94'4 stt 498 44 14891 96'4 91

• e- )t't 94'd- 94'4 41*t 94'9 44*f 44'4- 94'4 810 dit 1t'4 ) s ' +* %4*i 14'1 94'4 41*t 94'1 49*l de'4 14'4 494 21tt4891 41844891 >a's 1

tit 1 te't 14'd. 4'9 4f*1 -94'1- 44*t -d4*4 94'4 ttp 2$C 2t834tti ) s't li'a~

1, '3s's 9$')- 44'4 dt*; 94*d de't 14'4 )4'o tt4 494 21:648 91 .J-4 I.'t + 1t'l it'd 44'4 it*t 94'D 14'4 44*4 14'4 tt$ 01C 21ttGtti )4*4 )t't 91*p 94'1 se'o di'l 94'9 44't 44'4 94*4 tfi 31( 218548t$ 14'4 ts'b )t't 94*l tn*$ ll't 94'd de't de'4 94'4-tt4 49$ JJ844891 1t*4 )4 i 94't 14'9 64'4 dI'l 94't- de't A4 4 94'4 tto 411 24814'91 1e'4 ) $ l 94'6 94'd de*4 -tI't 14'D de'o d e 4 .14'4- ,

004 2$( 42'0441 $i's e$'1 )s*# 94*l '94'4 ll't 94'd 44't 44'4 )4'i l C21 298 ;0844 tis 14*4 ts'l tt** )t l )4 4 4!'t 94't 40*t 94*4 iL

• 4

!!' 0$0 00894891 94'6 1t'6 lw't 1g4 494 dt't .94'3 44*t 44'4- 84'4 CO( a$t 4814891 14'4- 'tt** eg't 14'1 1$'4 tf*f 14'9 de't 44'4 94'4 3 JW 29( gts44891' 14*4 )t*. )s't 14*4 94'4 it*!' 94'4- 44'4 -44'4 94'4 tt$ 291 sditlitS 14'4 1i'% i4't )t'9 )4*l dt'4 93'1 44'4 94'4 -)4'4

' CC1 4$( 44824891 14'4 li'9 94't 14*A )4'4 it*! 94'1 =44'4_ 44'4 94'4 '

l' t04 29( stitelti 94'4'-94't -94*( . 44*4- 94'4 tt'4 94't 44'4 94'4 -)t'4 J CC3 41$ : tit 4891 04'4 94'A 14*f 94'd 94'4 dt't 94*O .de'4 94'4 94'4 ' j C;4 _29( 28814891 )$'4 14'1 )4'C )4'l~ 11'4 dt't- 91'C 44*4- 94*4 4- i iC4 09# 44844891 94'4 34*F 14*( 94'9- 94'4 _-ll'! 04'1 44'4 94'4 14'l 94'

~

! ttt 41# 44854891 94'4 )til 94't 64'1 94'4 4f'f -94*1 de t - 94'4- 44 4

! ttJ. 499'44826891 94'4 )$** 94*0 14'1 44'4 it*4 91'1- det 94*4 ) 4 '* 4 I 484 29D 448d48 94 94'$ )4'd )4*v 15'4= 14'4 dt't '14'1 44*t'l31'4 "4'4- -I itt 099 4S8W4891 94** 1t'J ) 4

• t' 94*$ 1$'1 dt't 9w't 40*4 14*4-~)4'4 ,

tli C17 44814891 14'4 )4'D 94'C- )4'9 .ti't dt't =31'd 44'4- 71'4 )4'4 tt9 299 ett44t99- )4'4 94'1 94't- 94*$ 94'4 tt*t' 10*t 44*t 94'4 94*4 .j tt4 319 eltt4: 91 94*3- 14'l 14'0 94*1- 91'4 it*! 14't d e ' t- 94'4 14*4

)) V 26t)020L6Z(

20460

- . _ ~ ~ . _ . - . _ - . . _ . _ . -. _ ~.-_ _ -____,_____,,_._,_ _ _

J0:u0ry 17, 1992 UNIT 2 ILRT TINAL REPORT TABLE Ce2

$UMMARf Of_DIEILL IIHf22A2 VEES

( Cont. ' d)

$0FTWAh! P90 Duff 10 kVP6tp Ch01406 t.t 339 764 01379s46 69.9 69.7 69.4 (f.6 69.9 11.1 69.6 79.1 69.9 69.9 339 F64 01:39: 4b 69.9 69.b 69.4 69.7 69.9 71.1 69.4 79.1 69.9 69.9 340 P64 01: 49:46 69.9 69.7 69.3 69.6 69.9 78.1 69.6 79.1 69.9 69.9 341 764 01169 46 69.9 69.6 69.7 (9.4 69.9 71.1 69 1 70.2 69.9 69.9 347 264 Ottt9 46 69.9 69.7 69.4 69.4 69.9 71.1 66.6 7d.1 69.9 69.9 343 264 ft:19:46 69.9 69.6 69.3 69.6 69.9 71.1 69.6 ft.1 69.9 69 9 144 #64 92:2V146 69.9 69.9 69.4 69.6 69.9 71.0 69.6 79.1 69.9 69.9 346 764 07:39: 46 69.9 69.6 69.4 69.7- 69.9 71.1 69.6 79.1 69.9 79.0 346 264 9?e49e44 69 9 69.6 69.4 69.6 69.9 71.1 (9.7 79.1 69.9 69.9 347 F64 92:59: 46 69.9 69.6 69.3 69.6 69.9 7..! 69.6 79.1* 69.9 69.9 349 764 03:09: 46 69.9 69.6 69.3 69.6 69.9 71.9 69.7 79.1 69.9 (9.9 eeeeeeeeeeeeeeeeeeeeeesseeeeeeeeeeeeeeeeeeeeeeese,essesessee ..,eeeees he PRillVRt (HAhhtl$ A#t 10ftfD OU*

DA6 CHAhhtt e 40 is tettre os' re0m 01h ;

44b 292(020792)

ZD790 l

i

_m. . ._ _ _ _ .___ _ . _ _ _ _ _ _ _ _ . . . . . _ ___ _ . _ _ . . _ _ . . . . _ _ . _ _ _ _ . _ . . _ _ .__ _ _.

1 i Jcausry 17, 1992 i

UNIT 2 ILRT r!NAL REPORT i Appendix D ,REASURED LEAK RATE TIS M TA i

The following tables present the data for the leak test phases of the ILRT l using the Mass Plot Method. The sneasured leak test is defined as the interval between data sets, 349 and $03 inclusive. This corresponds to a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and 40 minute test duration. The following data is included ,

4 IADt% IIILE I

D.1 Swnmary of Mass Plot Leak Rates D.2 Swnmary of Pressures '

D.) Swnmary of Temperatures D.4 Summary of Deweell Temperatures [

t i

t A

4 L

I l

l  !

45 292(020792) '

ZD79G y ,._7._ ..__..-.....r. . . , , , ._ . . . . . , _ _ , . , , . , . . _ . . , , . . , _ . , _ _ _ . _ . , . , , . , . _ . . . , _ . , , , , .

January- 17, 1992 UNIT 2 ILRT f!NAL REPORT Table D.1 ,

LtWiAELQLith$$ l' LOT LEAK RATIg iN EWOOD U'J) T C 10:0b 17 $UN. ? ? SCI' 1991

(,ATA St1 34? THROUGH 500, "T A I J ST ICAL LE% RATE RE Eut.T3 CALCUL ATED V51NG THE Malis R.m mL m00 s

DA7f. eAla fr 1 7IME 7EST OPY AIR LtJ.C FATE, ?L'4 Uk CONT CET 8 DnY HH MM 90 11ME,(HR: MASS. (LOMi m D) L I M11. t'uD) 2+5 164 03:19: 45 c.000 0.8034??37E+06 350 164 07 49: 45 O.100 c.80351075E+06 It* 264 03:39: 45 0.323 0.80351300E+e6 -0.1221E+00 0.2840E+00

4 RC4 03: 49: 45 e.500 0. 80351137E+ 06 -0.7384E-01 0,2908E-01 3! 2 d'0* 03:5?: 45 0. f. 6 E- 0.80348915E+06 0.333EE-01 0.1868E+00 3!4 Cf* 0* 09: 45 0. 832 0.80347987E406 0.8328E-01 0.1930E+00 255 164 04 : l 'a i 45 1.000 0.80349101E406 0.6767E-01 0.1432E+00

.b6 204 0*iL9 45 1.160 c.80347075E+0C 0.79ECE-01 9.1351E+ed 7C Jt44 04: 39:*L 1.21'. 0.60348487E+0L e.6967E-01 0.1131E+00

.4: c4 04. :

• 9 : u , 1. w 0,8035821 E400 c.0360E-01 0.9849E .i t ' ne . Oc :5? s e . 1. f.0l, c.00347150E+06 0.6535E-01 0.93&8E-01

'i e. 0 H4 OS:00:45 1.62: 0. 0034 E.737 E + 00 0.6734E-01 0.9041E-01 If,: 9* 05::?: 45 O.000 0.803 7137E+0L 0. 6395E'-01 0.8359E-el M' l(- 0!:*L: 4! f. . I C C 0.!0 ,405LLE+0C 0.6314E-01 0.7985E-01

'A' 0".:?Siet 0.332 c.8034b887E+00 c.0388E-01 0.7818E-01

(* 2 4. O!: 4% 4f 4.t00 .* 60344900t 0;- 0.CC88E-01 0.797CE-01 af' OS 59: 45 c . 682 c.90345600E400 0.E516E-01 0.7601E-01

.'4 00109

45 O.03* 0, 6.* :45811E+06 0.6015E-01 0.727dE-01 lo4 06:11 45 3 . 0 ,*.* 0.802 !,400E+0C 0.E017E-01 0. E,980E -01 l-E .: L - Ous2T 45  :. 100 0. 0034 3387E + 0(. 0.6303E-01 0. 7 A*13E-01 Tr ? Or. 06:3?: 45 3. *.;3.* 0. 80 34 4 575E + 0C 0.0156E-01 0.6990E *70 Lt; et 3 4? 45 3,.500 0. 80 34 3037t .0E, 0.0199E-01 0.7068E-01 371 1-6 06:5?: 45 3. ( f,r 0.80342050E+06 0.6416E-01 0.7126E-01 37C .T & c' : 07:: 4L  :.. e ; 0,n03 it.50E+0C 0.6459E 9.7110E-01 377, !04 07 19: 45 4. .'00 c.803-4000E+06 0.6193E-01 S.6846E-0.1

37a 204 0' P9

45 A.,100 .*.80342000t.00 0.6237E-01 0.6840E-01

! 27* 204 07: 39: 45 4.323 0.80341115E+06 0.6205E-01 0.0764E-01 370 404 07:49: 45 4.500 0.80341061E*06 B.C&74E-01 0.0796,E-01 777 ///. + 07:!?: 45 4.600 0.80340837E+06 0.6315E-01 B.6801E-01 70 . 64 Sid 0?: 45 . ell 0.80339E50E*06 0,i490E-01 0.6976E-01

M /w Ot 19: 45 5.000 0.80339111E+06 c.0599E O.7065E-01 MO L4.4 08:2?: 45 -5.100 0.80338000E400 0.0093E-01 0.7139E-01 081 204 00:29: 45 5.333 0.80339100E+06 0.6700E-01 0.7115E-01 JOS 264 08: 49: 45 5.500 0.80330312E+06 0. 000,4E-01 0.70E,0E-01 383 i:64 08:59: 45 5.066 c.00338550E+06 0,6663E-01 -2.7035E-01 384 264 09:09: 45 5.833 0.00330987C400 0.6757E-01 0.71&lE-01 385 264 09:19: 4S 0.000 0.80337287C+06 0.6785E-01 0.7130E-01

~+-

46 292(020792)

ZD79G

w.m. g ., e o m - 3 1

• IJNIT 2 ILRT r! AL ptPORT Tcblo D.1 SVttiARY or Mass Pirr Lm RAnf JB6 204 09:29: 45 6.106 0.80337600E+06 0.6759E-01 0.7087E-01 387 264 09:39:45 6.333 0.80336187E+06 0.6809E 0.7123E-01

?"8 264 09: 49: 45 6.500 0.80335725E+06 0.6856E-01 e.7158E-01 264 09:59:45 6.666 0.80337062E+06 0.6790E-01 0.7084E-01

. 264 10:09: 45 6.833 0.80334075E+06 0.6887E-01 1.7183E-01 391 264 10:19: 45 7.000 0.80334925E+06 0.6902E-01 0.7184E-01 392 264 10: 2? 45 7.166 0.80334537E+06 0.6915E-01 0.7184E-01 393 264 10:39:45 7.333 0.80334887E+06 0.6888E-01 0.7146E-01 394 264 10: 49: 45 -7.500 0.80335412E406 0.6819E-01 0.7075E-01 395 264 10:59: 45 7.666 0.80335562E+06 0.6733E-01 0.6992C-01 0.00lC2762Fa06 0. 676?E 0.7019L-Ot

.i96 J24 11:0?:ss 7.953 0.70-7E-01 397 e.000 0. 00 3 4Ja'? tC + 06 0.6905E-01 264 11:1< : 45 0.6831C-01 - 0.7065E-0 4 ,q4 i l i c? : a-; 8.166 0.302 4037E+06 0.682EE-01 0.7051L-0;

%4 i1:3a: 45 (' . :. 3 3 0 O1 w 33?E+06

u. ro 6:00 c. 903 3223 7E +M 0.6811E-01 0.7018E-01

? ;1:u?: 4 *-

D e.M 0 . 0 0.;,/.1 .". ;E 4 0 0 0.0820E-01 0.702CL-01 A01 # 13 va: 45 0. 6%bE -01

p. 1 ;;; ; c 2 : e - 4.Oi> 0. 403 3.i?00E +06 0. 6"'5bE -01 6 .1l. 0.6958E-01

.ve 12:*9:~t 4.000 0. 00 > 79n3'E* 0'. - 0. 6 755E 4 * :-

0.6?29E-01 c0e e-- te:?9: 4" 9.156 o.feJ331175L+06 0.6732E-01 7.33: . O. De M"?S5 71 + 06 c.6742E 0.6932E-01

• 05 >- 14' 39: 45 0.6907E-01 4 0f . 264 1U: 4:- 46 9.500 e.80330350L+06 0. G723E -01 ,

4W' e64 12:59:45  ?.L66 0.f'0130300E+06 0.669EE-01 0.E876E-01 408 264 la:09: 4f 9.633 0.8032'9675E*06 0.6680E-01 0.6854E-01 409 c04 13:19: 45 10.000 0.80328112E+06' O.6698E-01 0.68E8E-01 464 13:23: 46 10.16E 0.S033006SE+06 0.6651E-01 0.6821E-01

• 10 0.6805E-01:

All 264 13:39: 45 10.333 0.80328512E+06 0.6640E-01 412 264 13: 49: 46 10.500 0.803d'7787E+06 0.6639E-01 0.6799E-01 413 264 13:59: 45 10.666 0,80327237E+06 0.6642E-01 0.6797E-01 414 264 14:09:45 10.833 0.80327362E+06 0.6633E-01 0.6784E-01 415 264 14:19:45 11.000 0.80326062E+06' O.6647E-01 0.6794E-01 416 264 14: 29: 45 11.16E 0.80328100E+06 0.6604E-01 0.6752E-01 417 264 14: 39: 45 11.333 0.00327350E+06 0.6574E-01 0.6721E 264 14: 49: 45 11.500 0.80326150E+06 0.6564E-01 0. 670?E 418 419 204 14: 59: 45 11. 66!- 0.80306450E+06 .0.6541E-01 0.6681E-01 h 420 264 15:04: 45 11.63." 0.80325600F+06 0.6530E-01 0.6667E-01 4*' 004 15:1?:45 1.. 000 0.80326712E+06 0.6490E-01 0. E.628E-01 '

4 f 2-

.ta 15:29: 45 I J .1 U. 0. 00 323912C 4 0i. 0.6502E-01 0.6638E-01

.;3 s.64- 15:3?: 45 IL..?J 0. 4 03 "*.:1cE900 0.649?E-01 0.6631E-01 e 264- 15: 40: 45 14.50? 0.30225275E+06 0.6471E-01 0.6602E-01

( e 264 15:59: 45 12.((( 0.803P&700E406 0.6448E-01 0.6578E-01

-*d- N- 16:09: 45 1 0 . * *.

• 0.8032343?E+0E 0.6442E-01 0.6569E-01 42 ' 2i..=16:13:us

...N '

l'.80 v54SSE*Ok 0.6398E-01 0.6528E-01

-20 ee > >., : 7: ; 45 13. - ' O.80323062E+06 0.6389E-01 0.6517E-01 42? 16* l i t .*.9 :45 t i . : '. . 0.80323662E+06 0.6369E-01 0.6495E-01 420 lie IE: 4 ::: 4f 12.500 0.80322725E+06 0.6357E-01 0.E480E-01 46a 292(020792)

ZD79G

m m ... suvs i

UN [ 2 - ILRT FINAL REPORT  !

l Tablo D.1 l SW94ARY . T__ MASS PLOT _ LFALghtts '

l

-31  : (.- 16: 6a:*5 13.000 0.i3323000E400 0.0335E-01 0.6458E-01 l 0.0335E-01 0.6455E e 3; ~' '. 4 17: 0?: 45 l a. 83 2 0. 6032133?E +06 453 ;t4 17:19:~5 14.000 0.803&l125E*00 0.6333E-01 0.6450E-01  ;

4 .4 J:r e 17;29:a$ 14.160 0.80320462E+06 0.633EE-01 0.6449E-01

, 4A5 C.4 17: 31: 45 14. 3.*G 0.00320900E400 0.6327E-01 0.6438E-01 A 3C 214 17: 49: 45 14.500 0.60321000E+0E 'O.C312E-01 0.642&E-01

-47 7 DEA 17: 5?:45 14.600 0.00319850E+06 0.6309E-01 0.6417E-01 1 430 264 10:09: 4M 14.82,; . 0.80320350E10E 0.6295E-01 0.0401E-01 439 204 18 : ! $s: 45 15.0e0 0.80310900C400 0.0284E-01 0.6388E-01 440 2E.4 18:29: 45 15.10E 0.803e0812E+06 0.6257E-01 0.6302E-01 441 264 18:3?: 45 15.333 0.00317987E+06 P.6262E-01 0.6365E-01 ,

442 264 18: 49: 45 15.500 0.80317887E+C6 0.0264E-01 0.6365E-01 443 2E4 18:59:45 15.6EC 0.80310575E+06 0.6254E-01 0.6353E-01 444 264 19:09: 45 15.,933 0.80319075E+0C 0.0228E-01 0.6328E-01 445 e64 19:19: 45 16.000 0.80319625E+06 0.6199E-01 0.6301E-01 446 264 19:29: 45 16.160 0.80319137E406 0.6174E-01 0.6277E-01 447 2E4 19:39: 45 16.332 0.80310387E+06 0.6155E-01 0.6257E-01 446 264 19:49: 45 10.500 0.80316925E+06 0.6149E-01 0.A250E-01

'? 264 19:59: 45 16.066 0.80317612E+06 0.6133E-01 0.ed32E 3 264 20:09: 45 10.833 0.80317137E+06' O.6119E-01 0.6217E-01 4 264 20:19: 45 17.000 0.80316850E+06 0.0105E-01 0.6202E-01 452 264 20:29: 45 17.166 0.80317725E+06 0.6080E-01 0.6178E-01 453 264 20:39: 45 -17.333 0.80315775E406 0.6072E-01 0.6169E-01 454 364 20: 49:45 17.500 0.80316437E+06 0.6055E-01 0.6151E-01 455 l'64 20:59: 45 17.666 0.80310362E+06 0.6036E-01 0.6132E-01

-TE .;-~ c:109: 45 17.033 0.60314813E+0E 0.6030E-01 '0.611-E-01 M' .t6 ct:19: 45 10.000 0.803:5627E*0E 0.0015E-01 0.6103C-01 364 d'1 : 2?: 45 te.1EE i'.00314275E+06 0.6008E-01 0.6101E-01 l

264 21: 39: 45 18.32: 0.80315112E*06 0.5991E-01 0.0004E-01

-u* 26' L1: 49: 45 10.500 0.00315425E+00 0.5970E-01' O.00C3C-01 46! di4 21:%9: 4? 10.666 0.80213525E+0C 0.59E3C-01 0.6055E-01 461 20+ 22:07: 45 18.833 0.80313387E+06 0.5955E-01 0.6045E-01 4L3 d6* J:2:1? 45 19.000 0.00313700E40F 0.5?42E-01 0.6032E-01.

Af 4 .Ga 23:2?: 4S 19.160 0.80313613E+0C 0.5938E-01 0.0017E-01 465 e64 22:3? 45 19.333 0.00314112E400 0.5908E-01 0.599BE-01

• 60 164 22: 49: 45 19.500. -0.80313850E+0C 0.5888E-01 0.5978E-01 4(.7 204 22:59: 45 19.666 0.80315025E+06 0.5859E-01 0.5952E-01 468 264 23:09:45 19,833 0.8031418?E+0E 0.5834E-01 0.5928E-01 46? 364 2'3:19: 45 20.000 0.80315325E+0C 0.5800E-01 0.5898E-01 470 264 23:29: 45 20.16C 0.80313137E+06 0.5781E .0.5879E-01 471 204 23:39: 45 20.333' O.80313112E+00- 0.5761E-01 0.5859E-01

-72 204 23:49: 45 20.500 0.80313187E+06 0.5739E 0.5838E-01

( 0.5709E-01' O.5811E-01_

473 204 23:59: 45- 20.666 0.80314112E+06 474 565 00:09: 45 20.833 0.80313550E+06 0.5683E-01 0.5786E-01 475 ?C5 00:19: 45 21.000 0.80312075E+06 -0.5665E-01 0.5768E-01

- 4 ?(  !:65 00: 29: 45 21.16E. 0.80312175E+06- 0.5646E-01 0.5749E-01 l

47- 265 00:3? 45 21.333 0.80311525E+06 0.5629E-01 0.5732E-01 46b 292(020792)

ZD79G

__ . . .g UNIT 2 ILRT FINA6 REPORT TCb10'D.1 Sine (ARr or MASE.,* LOT LEAR RATES -  :

1 i

V 0,80310875E+06 O.5616E-01 0.5718E-01 47& 365 00: 49: 45 21.500 .

0.5698E-31 21.666 0.80311712*E+06 0.5595E-01 u?9 265 00 t.9: 45 - 0.5579E-01 0.5681E-01 es th 265 01:05: 45 21.833 0.80310987E+06 0.,,665E-01 c.80310600E+e6 0,5563E-01 s 81  ; ts 01 : .* 9 : 45 22.000 e.5649E-01 erg it' 01: 2;, 45 23',166 c. M310375E+06 0.554BE-01

_0.00309362E+06 0.5537E-01 0.5637E-0.

.N*. 01:?9: 45 22.333' 0.5619E-01 I. up. 01: 4. m e ' i2,500 0,80310462E+e6 0.5519E-01 0.5501E-el 0. 5601 E - 01 I 01 '5: 45 22. 66(, .O.80310375E+06 0,80300712E+06 0.5490E-01 0.5590C-01  ;

v ., I f.r.

6 '- 02: 09: a' 22.833 0.5473E-01 0.5573E-01 '

cf i' E 0:: 3..: . r 23.000 0.80309712E+0E.

c.80308987E+06 0.5L59E-01 0.5558C h*. '.'. 01:no: -

6' 23.166

3.333 0.80307887E+06 c.5450E-01 0,554BE-01 4 ,

". . ' z 0 2

3".. : 4' 0.5435E-01_ c.5533E-01 4q0 't E. 0. 4';. : c 5 23.50c 0.80308675E+06

. cl . rv . em 2 ;. 6 6 6 c.80308037E+36 0.5423E-01 c.5520E 01-

~

'I.k. p~

0,80307912E+06 c.5411E-01 0.5507E-01 r 4d 03:M. :r 45

23.833 a

0.60308762E+06 c.5393E-01 . O.5489E-01  ;

49[ N.50?.::S: 45 24,000 0.5375E-01 0.5471E-01

v. oss 07: 293 L 24.1 C e , 0.80308512E+06 0,80300575E+06 c.5356E-01 c.5453E-01 4 -i r, a65 0: :7.u: AS 24.333 - 0.5444E 0.5'148E-01 44 r. m.S0306325E+06 .

s 6 03: 4 9 : 24.,500

[

, i .U. O.60307375E+06 0.5334E-01 0.5429E-01

4. U 6 0 ,: ? . : t. c.

0.5417E-01

• c' 0. :45 . 4. C: - c. A0306625( 4 0C 0.5322E-01 i

.r. ~4f.975E*0E 0,5308E-01 0.5401E-01.

4.e ,.6 .s:. $.  ; .. c "-

0.5389E-01 i 0.00306412E+06 - 0.52?5E-01 th  ::a Oe : 2h 45  ::  ; % 16t, l't.. r 3;- 0.80305675E+06 0.5285E-01 0. 5.:,76E-01 t.01  ;"# E 0 4 : ' .': : 4 t. ,

m.20304600E+06 0,5279E-01 S. 5.:.71 E-01 t:0; ec) 01.:<!: W 25.500 0.5359E-01 C5.666 O.8030551SE406 - 0,5267E-01 50;  ;. LS ea :!.9 : b

... .., ...... ...... eve ******e************************************** ,

NC: PREG' WE CHANNCLS ARE LOCKED OUT 1

a CH NNEL ti . 42 15 LOCKED OUT FROM DSN l r F

b 46c 292(020792)

ZD79G 9

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i.

tMIT 2 16R7 FINAL REPORT TABLE D.2 sineuw or Parssumts ,

FACIDWOOP Util T '

10:00:09 SUtJ,-22 SED 1991-Oc7A SET AVERAGE VACOR DRY A14

!***- '?ME PRESSURE PRESSURE PRESSURE PRESSURE PRESSUM Gi 9

• 3.1/ HH MM SS #1,(PSIA) N2fPSIA) ,(PSIA) , (PSI A)- ,(PSIA) 34? 064 03:19: 45 59.8209 59.8230 59.81'19 0.3611 59.4609 350 264 03:29: 45 59.8191 59.8213 59.8202 0.3607 - 59.4595 St.1 E64 03:39: 45 59.8175' 59.8196 59.8185 0.3606- 59.4579 352 264 03: 49: 45 59.8158 59.8179 59.8168 0.3601 59.4567 353 264 03:59: 45 5'J. 8138 59.8159 59.8148 0.3608 59.4541-354 2'E,4 04309: 45 59.8120 59.8241 59.8130 0.3610 59.4520l 355 264 04: 19:45 59.8105 59.8126 59.8115 0.3607 59.4508 356 J64 04 29: 45 59,8089 .59 e107 59,8098 0.3605 59,4493' 357 d64 04: 39: 45 59.8068- 59.8089 59.8078 0.3608 59.4471 350 264 04:49: 45 59.8051 59.8071 59.8061 0.3601 59.4460-359 264 0* S? 45 59.6033 59.8056 59.8044 0.3607 59.4438 360 JT.4 05:09:45 59,8017 59.805? 59.8028 0.3609 59.4419 361 264-05:19: 45 59.7999 59.8021 59.8010 0.3608 59.4402-

%65 FC e': c:9:45 59,7982 59.8004 59,7993- 0.3613- 59.4380-N' Pt 4 05:39: 45 19.-79C! 5?.79P' 59,797E 0.3610 59.4365

(

• SE4 05: 4?: 45 59.7947 "S.7968 5?.7957 0.3610 59.4346l 164 05:59: 4b 59,7916 59.??r0 59,7939 0.3607 - 59.4332

-/ 264 06202 -5 59,7910  !?.'97: 59.7910 C.3i06 59. 4 31.~. '

Si ? 264 06:19: 45 59.7896 "9.'?)7 59.??0E 0.3605 59.4301

-Ji6 264 OEtho: 45 59.7679 59.'899 5?.78B? C.3616 59.4273-

!6h 16. Of.:39: 45 !9.7861  !?,7092- 59.7e71- 0.360!- 59.426E.

F.' 0 ?64 Oi, 4 'i t 4 *., 59.78 2 !9. es 55,7953- 0,3605 59.4248 373 26e 06:59: 45 59,7824 Y.9. 7 6 41 59.783- O.3607 59,4227 37;* 264 07:0?: 4t 59. 780f. 59.781E 59.7915 0.3605: 59.4210 3.73 206 07: 19: 45 59.778? 59.7809 59,779? .O.3599 59,4200 3 '.

• 264 07: 29: 45- 59.777.? 5? 7792 59.7781 0.3604 59.'4176

!s *5 2E,4 07: 39: 45 59.7756 5?.7773 59,776- O.3608 59.4156 373 *'

64'07: 49: 4b 59.7740 59,7757 59.7740 0.3607 5 9 . 4 1 4 1.- 4 377 d't. . C : 5% 45 59.7723 59.7736 59.7730 0.3606 59.412'4_

371* ib. 08:02:45 59.7706 .59.7721 .59.7715 0.3609 59.4104 F/9- e'i-4 06 : 1 *- t 4 5 59.76B? *9.7703= 59.-7696 0.3608: 55.4087 380 .d .4 08:29: 45 59.7E72 59,700, 59.7f.78 0.3610 59.406E 361 264 08:39: 45. 59.7651 5'4. :'E E,7 59.7659 0.3611- 59.4049.

382 264 08: 49:45 59.763E 59.7652 .59.7644- O.3604 59.4040 383 264 08:59:45 59.7618 59.7E34 59.7626 0.3606' 59.4020 384- 1 64 09:09: 45 59,7602 59,7617 59,7609 0.3608 ,59.4001-385 264 09:19: 45 59.7587 59.7600 53.7593 0.3612. 59.3981 47 292(020792)

ZD79C

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ou, m y;4,,.4.,.

UNIT 2 ILR7 r!NAL pgpopy 7ABLE D.2 SL% uRY or Pntssunts 59.7572 59.7584 59.7578 0.3606 59.3972 38E 264 09:29: 45 0.3609 59.3951 387 264 09:39:45 59.7553 59.7566 59.7559-59.7537 59.7548 59.7542 0.3612 59.3930 388 264 09: 49: 45 0.3605 59.3922-

'49 2'64 09:59:45 59.7522 59.7532 59.7527 59.7514 59.7509 0.3609 59.3900 0 264 10:09: 45 59.7504 0.3609 59.3884 264 10:19:45 59.7489 59.7497 59.7493 1

59.7482 59.7478 0.3607 59.3871 392 264 10:29:45 59.7474 0.3606 59.3855 393 264 10: 39:45 59.7458 59.7465 59.7461 59.7451 59.7446 0.3603 59.3843 394 264 10:49: 45 59.7442 0.3603 59.3829 395 264 10:59: 45 59.7427 59.7437 59.7432 59.7409- 59.7420 59.7414 0.3605 59.3810 396 264 11:09: 45 0.3610 59.375?

0' 264 11:19: 45 59.7??4 59.7400 5? " !?F 59.7387= 59.738.' O.3606 59.37't M 264 11129: 45 59.7378 0.3606 59,37C1 264 11: 29: 45 59,7261 5?.7372 59. 73C -

$9.7356 59.73L 0.3604 59.2746 264 11: 49:45 59.7344 0.2012' 59.3721 264 11 59: 45 59.7327 59.7339 59.7333 1

59.7324  !'1.7310 0.35?5 59,27.":

"Of 264 12:0*"45 59.7312 0.3604 59. SC V4 402 F64 12:19: 45 59.7296 59.7308 59.7303 59,7262 59.7292 59.7487 0.3604 59.36F3

• 04 264 12 29: 45 59.3662 59.7175 59.7270 0.3008 "M 264 12:39:45 59.7266 O.3600 59,36!3 40#- 264 12: 49: 45 59.7250 59.7260 59.7255 59.7243 59.7238 0.3610 59.3628 "07 264 12:59: 45 59.7234 0.3611 59,3611 '

408 264 13: 09 45 59.7218 59,7226 59.7222 59.7006 0.3621 59.3585 409 264 13:19: 45 59.7203 59.7210 0.3601 59.3592 410 264 13:29:45 59.7189 59.7197 59.7193 59.7182 59.7178 0.3610 59.3569 411 264 13:39: 45 59.7175 59.3557 412 264 13: 49: 45 59.7161 59.7168 59.7164 0.3607 59.7151 59.7147 0.3605 59.3541 l- 413 264 13:59: 45 59.7143 0.3602 59.3529-414 264 14:09: 45 59.7127 59.7175 59.7131 415 264 14: 19: 45 59.7111 59.7120 59.-7115 0.3606 59.3510 59.7106 59.7103 0.3601 59.3502-416 264 14: 29:45 59.7100 59,7087 0.3604 59.3483

'l7 _264 14:39: 45 59.7084 59.7090 59.7076 59.7072 0.3600 59.3472 418 264 14: 49: 45 59.7069 0.3604 59.3451 419 264 14:59: 45 59.70!3 59.7059 59.7056 420 264 15:09: 45 59.7039 59.7045 59.7040 0.3608 59,3434.

59,7014 59.7031' 59.7027 0.3606 59.3419 421 264 15 19: 45 422 264 15:29: 45 59.7006 59.701E. 5?.7011 c.3E05 59.3405 59.6996 c.3608 59.3389

' 23 164 15:39: 45 59.6993 59.7000

164 15: 49:45 59,6979 59. E 988 59.69C3 C.3606 59.3277 0.3610 59,3359

( *- 264 15:59: 45 59.6965 59.6972. 5 9. f ? 6'.*

. e64 26 09: 45 59.695e 59.6957 59.695: e. 36 n 59.3342 5% E944 59.C940 0.3599 59.23*1

'd? 264 16:19: 45 59. E 9_ f 59,2319 428 .26. 16:29: 45 5*.. 6924 t9.E931 59.6927 0.3600

'29 264 16:3~: 45 59. 69y  !.,.E!;C '59.E?!L- O.3607 59.3306 59.3190 430 264 16 49:e5 59.6097- $9. 690'- 59.E?00 0.3611 292(020792)

ZD79G

J0nuary 17, 1992 UNIT 3 ILRT T1HAL REPORT TABLE D.2 .

SUMMARY

OF PRISSUggs 431 164 16:59:*5 59.6882 5?.6889 59. 6.B85 0.3606 59.327-432 264 17:09:45 59.(867 59.6875 59.6871 0.3615 59.325!

Al? ~64 ;7:19: 45 59.6853 59.6861 59.6857 0.3611 59.314' 434 264 17:29: 45 59. t.835 59.6845 59.6840 0.3614 59.322 59.6818 59. 6fe? 59.fS23 0.3608 59.321;

• 25 264 17:39: 45

~36 264 17: 49: 45 59.6806 59.6616 5?.6811 0.3608 59.320.

437 264 17:59: 45 59.6768 59.C799 59.6793 0.3610 59.315 438 264 18:09: 45 59.6771 59.078D 59.6776 0.3611 59.316:

439 264 16:19: 45 59.0760 5'1.C.769 59.6764 0.3600 59.315 640 264 18:29: 45 59.6745 59.675? 59.E.740 0.3602 59.314' 641 264 18:39: 45 59.6731 59.6738 59.6734 0.3602 59.313 442 264 18: 49: 45 59.6716 59.6724 59.6720 0.3615 59.310' 443 264 18:59: 45 59.6701 59.c708 59.6704 0.3606 59.30?

444 264 19:09: 45 59.6685 59.6691 59.6688 0.3600 59.308' 4*5 264 19:19: 45 59.6070 59.6679 59.667* 0.3599 59.307 59.6663 59.E659 0.359? 59.306, 446 264 19:29: 45 59.6655 447 264 19:39: 45 59.6641 59.6648 59.6E44 0.3604 59.304 448 264 19:49: 45 59.6626 "9.6635 59.E630 0.3605 59.302; 449 264 19:59: 45 59.6611 59.6619 59.6615 0.3605 59. 300l

'O 264 20:09:45 59.6600 59.6607 59.6603 0.3600 59. 300l 1 264 20:19: 45 59.6588 59.6593 59.6590 0.3608 59.2981 2 264 20:29: 45 59.6570 59.6577 59.6573 0.3608 59.296i 453 264 20:39: 45 59.6556 59.6563 59.6559 0.3609 59.295 454 264 20: 49: 45 59.6540 $3.6549 59.6544 0.3605 59.294t 59.6534 59.652? 0.3606 59.291; 455 264 20:59: 45 59.6525 4 5f. 264 21:09: 45 59.EL10 59. C 518 59.6514 0.3598 59.2911

~'. . --

c1:1?: 45 * ?. 6- Y T 3. 6 0 5?.E~98 0.3601 59.lti

~t 4- .1 : 19: 4S $9.6-e: " 9. f -0 7 bS.6*B4 0.3603 59.iSS

.1: Sc : 45

• T. C.4i ! 'N.(4. 59.E471 0.2E0' 59.28E 0 > .1 : 49: 45 59.(4!3 '9. -55 59.6450 0.3600 59.185

+.

h c.1:59: 45 59.E43' *3.0-41 59.6441 0.3609 59.283

-0 .. c. : .r. : : 4 5 59.E*24 5 9. L * ; '. 59.6428 0.3606 59.281

• L..  :(.4 21:1'1: 45 5?.(406 **s.641' 59.6412 0.3602 59.281 464 146 22:29: 45 59.63?S 59.C402 59.6398 0.3604 59.279,

~55 16 4 20:39: 45 59. E 381 59.0387 59.6384 0.3604 59.276

• f4 164 6: :: 49: 45 59.6?60 59. 63 7t 59.E.372 0.3607 59.2764 46' 564 22:59: 45 54.6360 5'3.6366 59.6363 0.3606 59.27E 468 264 23:09:45 59.6348 59.6355 59.6351 0.3604 59.274 4 t .9 264 23:19: 45 59.6335 59.6342 59.6338 0.3598 59.274' 470 264 23:29: 45 59.6321 59.6329 59.6325 0.3606 59.271' 471 164 23:39: 45 59.6306 59.6315 59.6310 0.3602 59.270 472 264 23: 49 45 59.6293 59.6301 59.6297 0.3603 59.269' 473 264 23:59: 45 59.6279 59.6286 59.6282 0.3600 59.268 474 165 00:09: 45 59.6264 59.6271 59.6267 0.3603 59.266 475 265 00:19: 45 59.6251 59.6258 59.6254 0.3607 59.264 47b 292(020792)

ZD79G

~. .. ..

January 17, 1992 UNIT 2 ILRT T!NAL REPORT TABLE D.2 .

EUMMARY Of PRESSURES 476 L'65 00:29: 45 59.6238 59.6246 59.6242- 0.3601 59.2641-477 265 00:39:45 59.62P2 59.6232 59.6247 0.3602- 59.262r 478 265 00: 49: 45 59.6208 59.6217 59.6212 0.3606 59.2607 479 265 00:59: 45 59.6193 59.6202 59.6197 0.3598 59.e600 480 265 01:09: 45 59.6178 59.6188 59.6183 0.3608 59.2575.

• 81 265 01:19: 45 53.6165 59.6174- 59.6169 0.3602 59.2567 482 265 01:29: 45 59.6153- 59.0160 59.6156 0.3607 59.2550 483 ei5 01:39:45 59.6140 59.6146 59.6143 0.3606 59.2537.

dt.S 01 49: 45 59,6130 69.6136 59.6133 0.3605 59.2527

["84 45 46 265 265 01:59:

02:09:

45 45 59.6114 59.6099 59.6121 5'.4.6107 59.6117 59.6103 0.3605 0.3607 59.2512 59.249E 487 265 01:19: 45 59.6087 59.6094 -5?.6090 0.3600 59.2490 488 165 01:29: 45 59.6073 59.E062- 59.6077 0.3607 59.2470 489 7.65 02:39: 45 59.6058 59.6968 59.6063 0.3610 59.2452:

59.6051 4'40 265 02: 4?:45 59.6047 59. E 056 0.3607 59.2445 491 265 02:59: 45 59,6036 .59.6044 59.6040 0.3606 59.2434 492 2f? 03:09: 45 59.6022 59.E030 59.6026 0.3610 59.2415' 4 9.' %5 03:19: 45 59,6009 59.6018 59.6013 0.3606 59.2407 494 iE5 03:29: 45 59.5996 59.E006 59.6001 0.3604 55,2397 4 9 ". 165 03:39: 45 59.5982 59,5995- 59.5987 0.3602 59.236:i 446 JE.5 03: 49: 45 59.5966 59.5977 59.5971 0.3611 59.2362 43' '65 03:59: 45 59.5?S3 5%.5965 59.5959 0.3603 59. 2 35Ei 4?8 465 04: 09: 45 59.5939 -59.5952 59.5945 0.3601 59.2344 499 165 04:19: 45 59.5928  ? ,. 5 ?4 ? 59.5933 0.3609 59.232.

500 205 04: 2'.4 45 59.5917 59.5918 59. 592L' O.3604 59,231?:

501 F65 04 39: 45 59,590b 59.59*6 59.5910 0. . ' 05 59.230E 502 265 04:49:45 59.5090 59.5900 59.5895 0.'s 39 59.228E-503 265 04:59: 45 59.5877 59.565J9 59.5883 0.36e5 59.2278 ee****esee..**ee...a***e..e.e+ .......................................

NO PRESSURE CHANNELS ARE LOCKED OUT DAS CHANNEL :: 42 IS LOCKED OUT FROM DSN 1 47c 0' 292(020792)

ZD79G'

~ _ . . _ .

JctuOry 17, 1992 UNIT 2 ILRT TINAL REPORT TABLE D.3 ,

SIMiARY OF TEMEEEAEIRES i; - m DW 'UD UNIT < 10:08: 42 SUN, 2. SEP 1991 Df,T A TT AVERA6E It :T , f IM TEMP, AVERAGE SUBVOLUME TEMPERATURES, (DEG F)

'Tm DAY HH MM 'n :DEG F1 el #2 4: 3 ts a 45 #6 #7 #8 M4 JO  ? f,4 03:19: 45 91. 3 92.9 93.0 93.0 92.0 92.9 91.9 92.6 85.6 85.7

.350 N4 0i: 29: 45 92.3 92, 9 'R . 0 93.0 92. 9 92.8 91.9 92.6 85.6 85.7 35: 1. a3:39:45 92. 2 ?2, 8 92.0 92.9 92.5 92.8 91.9 92.6, 85.6 85.6 15;; 2 0.e 03: 49: 4 ?, 9 0. . ' 92.8 T.? 92,9 9J . 9 92.8 91.9 92.6 85.6 85.6 15;; Of.4 03 : 5's : ., * . 92. U 92. n 92. 9 92. 9 92.9 92. D 91.9 92.6 85.6 85.6 354 264 04: M: 4 *'. 9.2. 2 T.8 92.9 92.9 92.9 9d'. 8 91.9 92.6 85.6 85.6

' T;G 4, 05: 15 : .d 9a i- 92. A W; . 9 91-1. 9 9P. 9 92.8 91. 9 92.6 85.E, 85.6 n: ,;6e c.. : 2' 5 W.? 72.8 o. 9 92.9 9;:. 8 92.8 91. 9 94. L 85.6 85. C

.5 , 14 OA. . .'. 9;'. / N.D 92,9 92.8 92.8 92.7 91.8 92.6 85.6 85.E, 1<

.: ..c e. . ., p r . <, e . r- s, . / 9J. . p c.2. 0 12. A 92.7 91. 8 92.6 85.E, 85.6 i <- .'  :.- c . J '..? qi . B 9i;. 8 i' ' r. ? 91.8 92.5 85.6 85.6

, :e i. : .? <.

92,7 92.8 92. 8 9J, i. 9?. 7 91. 8 92.5 85.6 e5. 6

.: . .. o - . i o : .. -

r, .

92 ; o .8 g r. . e 92.8 99.7 91,8 92,5 85,6 85.0 M. , t .. 0. :as R,i 9; . ,' '

.8 9 ~-l U 92.7 92.7 91.8 92.5 85.6 6S. 6

. . .%: re5 4.I w. '

.O 7./. A Pc;. 7 92.7 91. 8 92.5 8*. 6 85.6

- . e i.,: 4 9 : - 5

, , . 92.7 92.7 92, c. 91.8 92.5 85,6 es, c

.% . m : .A '

i- er , " q; . 7 92,7 92, f, 51, 8 42,5 ns. 0 85, c

9. . v. w7 q;.;. f. s 1. 8 8 5 f.

ui, ..l_ g. : e .s ,

%, . ?  %.~ 92. P. O *. 6

.u. .g . ., n. . e. r. . .

.,, 1...,. -

. s. . r., n. . . g-

= ,r. e. . ,,

...c .s

,,~ . - .,-

. n- 9. ..6 ,c . .e.

n t..

~

t w < i n:. . i

.t M.B 1. 5 !v. n , r.

. . .-c. .

.4. . <.. .. .o

.- c . t c.

. . :s*:~5 u,;. p 9.,* 9. . ' 9. t , . .+, m.U . F. 85.6 '.t.(

- c

eq ; .y. oc . c .

. , #  ; .-* 91,7  %,E 85.6 85.6

, ;G. /

'

J. 91. 9 q; '

c. 5 91. 7 92.4 85, E, 85,6

'. ;' 4 Ti.4 u : .  : -. ' . m.% 0 '

9?. S 91.7 9i/. 4 85.6 85.5

." t . N 4. n : :. - 1

.: , * '. 9 l . '. 91.7 92.4 85.6 85.5

.'. , c.u a : 49: t

.1. o w.. . 3, ..

" .S 92.5 91.7 92.4 85.6 85.5

.77 cte e .y .e 1. 9 4*.~ 92, t. 9; . 5 9?/. 5 92.4 91.7 92.4 85.6 85.5

- 78 'C e . +e : .e . ,. ; . ? 9.: . e  ?. 5 9; . 5 31.5 92.4 91.7 92.4 85.6 '95.5

c e .

f. o t ,9 .c . u ,% n.5 92. E. ?d.4 91.7 92.4 85.5 85.5

'. c 7.4 M:cS: e5 41. 9 'v . . ...5 92. 5 4.; . 5 92.4 91.7 92.4 85.5 85.5 t

,1 .

00: ?.9: M '11, 8 92. - 9'/. 5 92.5 ?2. 4 92.4 91.7 92.4 85.5 85.5 l

in J, - er:e9:.A 91. 8 92. 9c . 5 42.5 9 /. . e 92.4 91. 7 92.4 e5. 5 85.5 i

% e ..+ mc.: 5' : e . -41. 8 .2, 4 4,l 4 92.4  ;- 4 92.4 91. 7 92.4 85.5 85.5 t

u. ,- . 4 2 0 !: 45 91, e 9;. . . ", ; . t. 9ss. a 4l . e 92.4 91.7 92.4 85.5 85.5 l e . - m . j '. : t . 91. 6 92. - 4 e. 91. e ,e 92 . 3 kl.6 42.3 85.5 85.5 l w r, ~ o u : r ;. .*. . 91. p. 92. "

. 9.4 2,: , - , W!. 3 91.7 92.3 85.5 85.5 L

6' . .e os : 3 1 : .. M 91,1: n' A . e. 92. e 92. 9) . 7 9c:. 3 85.5 85.5 i c.9 n - c .c. <. M:49: 45 4; . o  : e; . . . :. n4 N.3 '-4 . ? 91.6 92.3 85.5 85.5

.w  ;.2 v,:5+ ..'. 9;.' o,. ei; . ~ 92. : 9c. 3 o 3 91.E. 92.3 05.5 85.5 7n .c :e:e : .

. .t <

% . N.3 - 1. 3 91.6 92.3 e5. 5 85.5 3

. . t n .,. ..J 9, c.. , d .

. c ;. . c... ,.1.

2 6 r.

A.J Cc .. , r, e v . c,

• 9: " 0; ,

.' 9,i . ' S;. I 92. ? 91.6 9 2 . '. 85.5 85.5

O 1 ;'s: 3' -.' T 1. . 9*. '

'JJ . 3 92.3 - 9?. 3 91. 2 91.E. 9L'. 3 85.5 85.5 48 292(020792)

ZD79G

e u.f .., .,,.

. . WIT 2 ILRT TINAL REPORT TABLE D.3

~

smeig Y or TEMPr m y gs

94 Tic 10

4'J:45 91.7 9.. 2 92.3 92.3 92.3 92.2 91.6 32.3 85.5 05.5

.95 20.4 1 (1 : 59: 45 91.7 9a .1 9L. 3 92.3 92.2 92.2 91. C 92.3 85.5 85. 5 v.c.c FC4 11:em: 45 ' 1 , ~1 T2 92.3 92'.2 92.2 92.2 91.6 92.3 e5. 5 85. 5

.,' N.4 1).19: 4 '. 91. f . A .1 92.3 92.2 92.2 92,2 91. 0 9.3 85.5 85.5

.90 25 I1: 29:-S 91.6 T. , 1 92.3 92.2 92.2 92.2 91. 6 92.3 8,5. E e5. 5 we pr.n 11:39: 45 SJ 1. 6 92.1 92.2 92.2 92.2 92.2 91.G 92.2 85.5 05.5 400 26. 11: 4 4 : 4 ". 91.6 92.1 92.2 92.2 92.2 '92.1 91. G 92.2 05.5 _ e5. 4

40) 2G4 ljs59: 45 91.6 92 1 92.2 92.2 92.2 92.1 91.6 92.2 85.5 85.4 402 564 12:09: 45 91. G 9; .1 'M.2 92.2 92.1 9T. . ! 91.5 92.2 85.5 85.4 4 0':. Jh 12:19: 4 ". 91. f. 92.1 92.2 92.2 92.1 92.1 91.5 92.2 85.5 85.4 404 CA4 12:29: 45 91. 6 9ff. 0 92.1 92.1 92.1 92.1 91. 5 92.2 85.5 85.4

. 05 a f.* 12:39: 45 91.5 92.0 92.1 92.1 S0'.1 92.1 91.5 92.O 85.5 85.4

-ci / 64 J:49: - 91.5 92.0 9a.1 95.1 92.1 92.1 91. 5 92.2 85.5 65.4 407  ? O .. 1. : 5's: 45 91. 5 92.0 92.1 92,1 'Y P . 1 92.1 91. 5 92.1 85.5 C5.4 403 .r& 13 oc: 4 v. ' n . ', qc.c 97.1 9,: .1 9;'. 0 9/', O *11, 5 92.1 85,5 c5. 4

.,0 % 7 1: : 1 9 : ., *- 1.'. v.c s.1-9.J . 1 n. . n DJ . o 91.5 92.1 8 . 5 E 5. 4

-. 1 0 l+, 1 : I': r e 0,.' v.i 9, . 0 9d. 0 W.0 9P. 0 $ 1. 5 92.1 65.5 E 5. ~

s 1 , .

o : % r. :1 .- 91, 92. n 9?. 0 'Js n  % 0 9J. 5 92.1 85.5 85.4

t. . .. 1 . . : .:. " . .

91. e 1. - 92.0 92. e 91.o < ;2. c 91. 5 92.1 85.5 es. 4

- 4 .- N .~ 17. : 55: 45 01.4. nl e 9; o 9 *. o 92,O *x . 0 91.5 92.1 85.5 e5. e i .4

m:45 m 91. . 9^.0 'N . 0 92.0 1. 9 01. 5 92.1 85.". 6 5. A

~ ". N4 1-::,5 <- --

'n. 3 .a '

.c  ?: 0 91 - 91.5 92.1 8 5 . . f.5. 9

.:. E. Jr- 1,: Ts: 4*. al., , c'.e ql . 0 9; , 0 91,9 91.4 9?. 0 e r , c. e5 A e' , / .6 3 7^: ., '

u 1. ~ u;.e "-

, ,. ~ 1. o 91 n c 1, 4 9,I rm. , r 0 5 .,

e l

.., 12 : 4. -,,:' 4 ..

c 1.< m ) , c. 91. t. cl.L 92.0 6 ". . " T 5 . --

4

- ,' . t,o ei. 1, a 92,c c r. e 95,4

. . i .3 0 .: us .

.- c- .

. ., 91, 4 92,0 e5. 5 s 5, 4 u-

.. 2. - .1 . m... . q n. .

. m . ) . e,

. a. 3 . + q.:. .O gr.s ev c. r. . r_

... . < ^ '. 91. ' '

"1. ..n 71. 9 -1 . 92.0 85.5 e 5.

JT~  : . :45 93.' 9: ' . **1. a . - ." .1. 8 Q 1. 4 92.0 E 5. 5 85.i'

^ "

,o a .- ( 4 t r. : e 9 : *, 91. .~ .  ;.' . . 91.O 91, 4 9J . O es,5 CS, 5 Ci 4 15:59: 45 +1 . .- '

, 7 t 31.8 91.4 91.9 85.5 85. 5 427, Pf. 10:0": 45 91. )." u..t 't.8 91. E 91.8 91.4 91.9 85.5 E 5. 5 a;" N.4 16:* : 4 ": n l . .'. 91. ' ' ' ' .O ti.E 9'.8 91.8 91.4 92.0 8 5. E. 85,5

'S .L 1. : 7; ' : 4 r. "'1.,. 9: . - 91. F 91 c .1. n 91.8- 91.4 91.9 85.E, 65. 5 O Pc .. 11: 3" 45 ' ; 1. . . ':: 1. '  ?; . o

• 1. O 91.8 '11, p 91.4 91,i 05. C e 5, 5 4T 2 1G: 49: 4E 91.O mi.- 9:.t i.8 9- .

91,7 91. 4 91.9 e5. E c5. 5

.* 7:( 4 10:5?:e.5 en ? c't." n1.1 n 1. 0 91. ' ',1.

. 7 91. 7 91,9 p5, 0 c 5, 5 4. Ti4 1 -' : 09:45 91. D 1.i 01. e

• 1. re

91. o 91.7 91, 3 01,o 85. E. 85.5 N.. 17:19: 45 91.. '1. .P . . '9 1 . , '. 4 . ? 91. T; 91.O C 5. C C 5. 5

. , p. N4 4

'9:t. m1. i,i <'

'.L "". 91.3 91. 9 85.E. 85.5 s w.

s, -

-- ... .> q 1. u..

c. .

.c ..

..i.,'

1

m. ,

e .

.. . c., . c, lg.s. rs c s..r a

. 17* gG,4r s* t'

.."' r. - t, at1..' C. 6r.Pw0

-4' J ,

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,' a w* 4 1. . .i.3 fse, '

,. g.

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m. ~ ,.

1 .2s q l . ,.-

r ,.. cs

_ c: .e s

4Ba 292(020792)

ZD79G

..~.a .;. . i.

11 HIT 2 ILRT TINAL REPORT TABLE D.3

~

S!h04ARY Ol' T!2if1RKIURES 4 ?.8 N.. 18:09: 4- 9;.! 91. E 91.7 9: 7 91. '/ 91.7 91.3 91.8 85.6 85. 5 4 ? :) ;9 , . . 1 0 t .'i: 45 1

91. - 91. L 91. 7 91.7 91. 7 91. G 9;.  ?!. 8 85. C 85.5

. 40 '~ 1 6:.29: 4 *. n).' 91. 5 51.7 91. C. 91.7 91. 0 31.3 91. 8 05. C 85.5

. 41 rA 1as30: 55 ' -

91. (, ' 1. / 91.( 91.7 91.C. 91.3 91. P B b . E, 85.5

~4? L, 1DaAO:e5 "s ! 1 91.S 41. 6 91.6 91. G 91, f. 91.3 91.8 85.E 85.5

t. 4 ;. 7%4 1" 59:.w. 91,1 91. 5 9 I . f. 91. 6 91. C, 91. C 91.3 91.8 85. E 85.5

-4 2:I. 1 :e9: 45 91.1 71. S ".i 91. E 01, 0 91. C. 91. 3 91. 8 85. E 85.5

-e 7G 19:19: 45 ).1 '!1. *. 91. f . 91. . C 91.6 91. G 91.2 91.8 85. E, 85.5

.. .g . u i 2:; a: 4. 91.1 91. 5 91. c.  ?!.C 91. E 91. 5 91.2 91.8 85. E 85.5

.a *

y.- m.0 91. e. 91. r. '.) , c

91. e-; 91, 5 91, p 91.7 85. E 85.

. . t. . 1 . . . : 4. - '

.t. 9 .. <

.G n1 ' 91.5 'n 1. r, 91.2 91. ? er. c OS. U

": $' :c' . e 71. "t.5 9;.e 9).'. 9) . 5 gj.E- 91.7 05.O e5. u

.S t.- . ." :e '

t' "1.~ -a 1. ( 92. 5 91, b li . 5 91.O 91.7 85. E 85. '

.,*. .. .. c. , e 4. - m.n a 1. ~ ot.*. q i . c. 91.5 91.5 41. t: 91.7 O P. , 6 85.5 4

. *: F .'. n) . a '11. N . *. 91. M 91. 5 91. ? 91. 7 8t. C 85.<

. .: 3 ., i :il . 0 'a 1 . - n;.' 9',*- n;.'.

• 1. 5

. 91, f 41. ' 8' . , L /;' . E

.' , ,,to  : e$. 'i t , c

". ) . -

.'  :.. >i >

91, 4 91.2 91. G 85. - 8' , t

. 1 . . ; i . . .v .- ' -

4

^-

• 91.4 M.1 91. G ' . . 'st.'

c' *:ps .

i-

. . . , :1. . ' 1. 1 'il.-

85. '

c t . c.

pr,C

, c,.

w <. r

. . , .,- - ., . .. <f l . t . . . ._ m . u..

. Sc . . - .  : . . . . .. 1. * ~ :1. 1 91.6 e t... t, 85.5

-- 1:

~

'.- n: , ..1 91. C 85. E 85.5

- c. - c - - - .

. .1 4 91. 1 91. E, 85. C 85.4 1 -

.  : ty.. : :, c -j -

., ' ! . ', 91.1 91.E, 85.6 85. A et - . :M 'N. "' '?.- '41. 3 S t .1 91. L 85. E 85.4 40 6 -. ri'." 90 n - '

... .3 91. 3 91.1 91.E 85.E. 85.o 4, ( * .. , ,  ; ;3 : ; r. r. e "*

St.7 p),3 Oj.3 91,1 91,5 85.E 85.4 l

g . .

r. me .., . -

. 91. 9: . ? 91, 3 91,1 91.5 85.E. 85.4 l .

. .,:L: '-

' '.' 91. : 91.0 91. ~ 91. !- 91. 3 91. 0 91.5 85. C, 8t. 4 l

.. C :  ;(4 40. E. "'.' ,' 51.: 91.4 91,3 ',1. e 91.5 85. E. 85.4 Af. .(. .' 2'.:':  : n :6"'.- 90.6 91.1 91.7 91 .  ? ) . !- 91.3 .91.0 91. 5 85.0 85.4

. /t* A . : . " ) : e f. 90.8 91.1 91. '. 91. .: 1. - 91. 3 91.0 91.5 8 5. r. 85.4 e i J i ... . . t:e5 90.8 91.1 91, .' 91.. :1. . 91. T' 91. 0 91.5 85. C 85.4 4 /.' i! . r '.-e5 90.6 91. : '.c-

• 1;.. "1.J 91.. 0. 91.5 85. E 85.4

.. . 14 0: :'. : ~ r. n:,1. 7 nl.c 1, ; , m . .; n.. a.c 91. 5 c5, 6 85.4

." ~ r. 00:0 . . . * , .' .e  ?:. 'q.c- ~ 1, 0 91.4 85. C 85. a 4- /*. < '; 0! 'a : 45 9: '

9... .. ' 1..n .  ;

- .T 91.0 91.4 85. L 85, t.

91,8 85, G

• • O r, * ,'- '

,, *?.* .

, ,. (1,2 91.4 85.4 4ab 292(020792)

ZD79G

UNIT 2 ILRT l'INAL REPORT TABLE D.3

~

SU104ARY Of' TEMPERATURES 477 . .. 0 0 : y 4 . 4 5., oc '

01. 0 91. .. 91. ; 71.3 91. O 90,9 9. 85.6 85.4 4?n re, 00: 49:ue. ge. ' . 9 : . .- 9-

"' 1. 1 '31, 2 91.1 30.9 91.4 85.6 85.4 4,9 . . - p;, . . a : s-

. 3; - .

.e 91 ; 91,1 91, 2 m1 1 90.9 91,4 as, s 85,4

.. < T . e1309: 45 90." 9: . 0 11.

• 91.1 91,2 91.1 90.9 91. 4 85.6 85.4 n /' l i 5 01: 19: 4". 90. ' 91, 0 91. 1 T 1.1 91.2 91.1 90.9 91. 3 85.6 85. A

s. 'i,i- .f.'- p :29: 4'. 90.E 9'.0 91.1 91.1 91.2 91.1 90.9 91.4 85.6 85.4

%: 765 ci:39: 45 90.6 90.9 T 1.1 91.1 91. 2 91. 1 90.9 91.4 85.6 85.4

-iu -

01 7: 4 F, 96.6 90.9 91.1 91.1 91.2 91.1 90.9 91.3 85. C 05.4 s- 01 :f 9: 45. PO. 6 90.9 91. ! 91.1 91. 1 91.1 90.9 91.3 85.6 85.4

. ';6 v7 : 09:4' 90.6 9?. 9 91.1 91. 0 91.1 91. 0 90.'3 91. 3 85.6 85.4

-- ^i 5 02:: 1?:e5 C'. r 90.O aj 1 41. 0 91,1 c.. ) . 0 'in. 7

91. :, 85.6 85.4

~" . i

• 0l : J ' ' : 4'

'f.( On ' 1. P 91. 0 91.1 * :1. v  :.>0. 8 91..i 85. C OS,i

. ;< t.7 07 ::;': A' 9. . t, ae , r. T.1, 6 91. 0 91,1 9;,c 90, c 9j . ; C5. 6 C' . .

- C l' O.'. : 49: ef ' 'n - N ; 'i l . C H '/. M1 9*. 0 90.O 91.: G5. 6 AS..

,. 3 ;  ; o .,,7. : wr . ; g . , ;. . ;- f; .,,.,g.' ,'.,,g .

,' , 3 , 3 93, e qc. O 91. , . 85.0 0' . 7

'?'i ' " ':0.' ' '1. t

91. ' 91. 0 90.8 'M . E ' 95. C 85.

i' -45, N;. ..

1. '

" 1. 0

91. 0 01. ' ~. 7. O 91. C 05. G 05.3

,?at'. 90.- -

, 9c, m 91.1 91.c '.' c , a e 1. ; ' c5. 6 c'.-

a

• q,,..-

4 as ,sa r-4

s. 4<

n,. .J . .-i.

a - '

c.

. ., s, c. .. ., s.. n- 7.

s.e..

c. s.

.;- **" . q.3 . , lw. g. es . - .g.,s r,.i . /=.

, s r-

. . .r . . s - g.3 . #.l . , e.4 ...s

..s. e. c,.. .6 .s. ,r

.x. .II.a

. i .

. . v . .% . C. . .

s rs, e,^. . . . . - r;-3

.g s-

, . . . c.

,. c. . ..

a .

, y,. . . . ,,.s, q . . . ,

e. ... .. o p. ... a.s p. r .

v  : ,0 90. -

. *;r ') . c  ? c' . ** ', ' 91. C; SS. G 85. c.

. ,,i -q . t c. ,

., .. + . . ., o.,o qe 3,4 , 94 g , g e, . 6 D'a. 3

".. -t s c,,,

.'6.. - .. .s s .c ... <

. 4 . c Oe. s es 8 s,.: . .3

m. *

.. qj.e6 .,.s. on

. . .r

. e e

,,i r-q.,

m . .

O p. r. ,

a,si i . si . < . s, s<..

l 1-l

' s, ei .. e<>a44e8hi V3es- .eeeis . *

• ee a t . e .t t .e , p g + y e 4 -w s i 4 4

• 1 's y n I. m " G .* ' k( (.ElfC[b i k ,

a - . . .- p .. .

4 ,, , 3 1

1 1

4Bc 292(020792)

ZD79G

Janu ry 17, 1992 UNIT 2 ILRT TINAL REPORT TABLE D.4 .

SUMMARY

OF DEWCELL TEMPERA *IURES t.i'.

.Il . i 09 . 't4 E.Ur4 .'J .; 'I F 199)

- e .*;

y .. **, ' .

~ .; *. p , p. r p;;,9 g. q :,Q UMt;

'] I;MpE RDT: ti ! ' , (DEG F)

M9 . L t' e' **' v3 44 #5 #C 18 7 ft 8 M9

- ' 1 ' : ". L(' '

G' .

• C9. 4 f. '.4. 9 71.1 CD. 5 70.2 69.9 C 9. 9

- ,r e . : D .; : 45 .0  : . r. b?. 3 69."- C' . 9 ) . - C8. 4 70.1 69.9 C 9. '.

.., 0; : ; ,.

..S cia. !. (.- 6 6 3. _, UJ.S L.9. 9  ? ! .1 60.0 70.1 09.9 E.9. 9 Of- 1-  : 4 9 : .+ 5 L9. 8 U.t. S r/ . .~- f.9. ". 69.9 7'.P 68.4 70.0 69.9 69.9

'5 .

. m: 6': 45 G9. G 09. E. G$. 4 09.7 69.9 71.0 68.3 70.0 69.9 U:1. 9 354 l't 4 0 :. : e " : 45 C 9. D 69.C 6'.4 C9. 6 09.9 " 1. 1 68.3 70.1 69.9 69.9 2St cf. Ou:19::.5 f . "~ . P 69. G 69. ~ 69.5 69.9 71.0 68.5 70.1 09.9 09.O E  : - n..:?9: 45 rS r,' r CO. ? C .' . 5 70.0 71. e 69.2 70.1 69.9 69.9 '

t7 ..-

. 0-:: i te5 f. ? . / ' E 9. i . L9. 4 C9.5 69. ' - -

~? t . i - GO. 5 70.0 C.9. 9 C9. 9

.  :.9::.e

r. '- . !- 'i O . '. 69.0 !1. o ( S . "' 70.1 / O . "- CO 'd

'.'.**. f i ( /.. 8." .'5..

a

' 1 . i. . r'.

s 't'. 1 '. ( . '.~f . < '

- - + .

U . t. [ U. 9.* vL9 ~' '

(.L. N 7t'. ; f. 9. 9 70. n a

.y: 4. 5  ; <

t /-. t 69. ' - ';.~ ('

. . S. 71.1 L 9, 9 f/ 9 t  ?+.: 9 : st. .  : c' . f.9. f ,9, n ').O <C.4 70, p 69.9 (-(t 9

.<.6 ' -

(- (*.6 c< . ro

• 1 Tw i. 'e. e Gis. 9 C9. 9

. r9 , 1. 0 4 7 ?c,1 09.9 cy. 9

, _ . .s e. .. , ,; .- ,p 3 gg, 9 gg r.

. ..' s .

- - .+ 1 0 . c.n 70,0 ES,9 c' ',

, rg. e ....., . t3 ..q... ,

.. ., ,,,' f ._, , . c. .

.. .(s. ... f... ,,

. . t ..

c e, ,, e

, , . . . .. o. . .n.,

, . i-

.. . r 3 , s. n, e 7v.e ( p. - ,

5

',- ( ,

<- ' . , , 08.3 70, e 69.9 t. 3. 9

. r

r. -

m. (- r . 4 L m.  : .  !

. *e ie , .

... .. o...s c. ,,,. , . 43

.[

1 i . . . .. . ,

,t.< . . . .

t.. ,, ., . eJ t u.

i

s. -f.. _.

" e : ';:.4 t .*;; . c . . . . . .

.0 '

.C CD. ' U.:. 09.9 O *; . 9 '

. y, : t.'  : 4. ", r/ . o  : .

- r -.', *;.c e v.- ( (A e ' in9, e 69,9

.t- O t> e ; 4 t, t.' .

, .' : '.0 ( G. 5 c.1 r. , 9 C9. 9 c . q:4S <.- (- >

r * (,r- 7:,0 t. r. > t A. o (,9, 9 c9. 9 l .z. .s4 en:.":45 . .. (

• 3. -

r.n . v. cr.c 69,8 co, 9 I '

i. er : 29 : ., c, '

'~

."  :,; (M.7 C-D. " 09.9 69. '-  !

-c . 0:_. i ., rs:v. 1 .

< .  ; i -

71, 0 ( c. r. 09. D - 69.9 69.9-

.f - ..<.se i.,,* ,,. ,.

e

... . .q (, r, .. 4 Cc . r. ,, r..e,. t- rsq. . q .

, ,-%;a'. ' r .r .( c.<- . 71. 0 60.! 70.0 "O 9 C9. 9 a >< - *

.c -

i:.n. s v9 , - o ( n. ?

t- .  ;*. , ... is r Un ' ; .1 c .8.1 (. . O c.c- 9 t 9. 9

.:. 9: . c. . * *

. .w. <

4

, 1 s rt e t4 (,9. c. t .n. 9

' n- .. .y (- >: - r ., - r.- '-

( .+ ' s Gn. 9  !

.. .c - .,. .i, <

f. '<-. - ' ' . 6" u C '. , 9 L9. !

t -

~ . . v- . . . s. . ~

. y t <. : . 9 U ., n l .

-. .,. .6 .

. . n.....n . .- ns . n.,

le '): t .- * '

0. ~ <

.' m.9 59. 9

. , - . . . .. . . . . - . _-. ,o. .

. 1..

. ,.. ., 4 1

,' e t . g

.. g. e . c.,

,q.-,.

.. c. c... q..

49 292(020792)

ZD79G

UNIT 2 ILRT FINAL' REPORT TABLE D.4

^

SmgiARY Ol' DD(CELL TEMEEEAnlRES

< ;t , - :. n : - . > ' * *

.= r v. g c. 9 > 1.1 66.4 C9. 8 E 9. 9 69, m

'. it c-c4  ; . t. .<t ..",' 09.6 f. ' ' . 3 69, a 70.0 71. O GD. 3 C9. 9 09.9 69.9

'9 1: 4 1 ' : .W : 45 1/ h n GG . F. C 9. ., e 9. G 6'./ . ? 71. 0 68.5 09.8 C ?. 9 C9. 9

.. f . t. 1 . 1 w. r 9, r (.9. c c"i. A c't. 6 70.0 71.1 LO. S 69. 9 69.8 69.9 4; a 11.c w '. S tS. 09 b C 9. :- C 9. L 70.0 71. 0 68.7 C9. 9 69.9 09.9 vr .  : .

.r . 09.o 69,7 C o. - t 9. 5 ( o. O 71.0 C.G. 7 09.9 69.8 C9. 9 er i . 11: 4. " . . .

F.9.13 69.r ( 9. ? 69.5 G9. 9 71.1 68.4 G9. 9 63.8 09.9 401 . s -, 11: S: 5 to.9 69.0 69. A C 9. f. 0?. 9 71. 1 68.0 69.9 69.8 69.9 4n- ,N . 6, ) : en : 4 *. CO.

' 9. C

.. ( o. l C O. A C9. O " 1. 0 68.. 69.9 69.8 69.9 402 204 1l : 19: 4 t. ' 9. D 05. G 09.3 C?. 5 69.9 71.1 68. D 69.8 69.8 69.9

.+ 0 4 . ;r.4 1.. : . 9 : 45 09. A C. L G9. 3 09.5 69.9 71. O C 8. 7 69.9 69.8 69.9 405 J'C 4 1.': 39: 45 69.O 69.8 09.3 C9. 4 70.0 71.O C,0. 6 69.8 69.8 69.9 40C 't - 4 10: 49: 45 ( 9. D 09. C 09. ? 69.5 09.9 71.0 60.3 69.8 69.8 09.9 4e7 [' . 1,; ; t,r;; ; 4 g, r,., g ,, gg, g g,q, 4 gg, g 7g, p 73, g gg, 3 gg, g gg, g gg, g

.+ 0 0 ,me ).:09: 45 C 9. 9 C9. 6 69 e. 09.7 F9. 9 71.0 68.4 09.8 69.8 69.9 4?^ J:Lu 13.3n: 45 U O 0o. n 09,5 1' ' . 1 70.0 71.1 GB. ? 69.9 69.8 C9. 9 41r .e! 1 :  : 4- C' '. A 6' ' . ?. 09.. C '; ' . S 09.9 71. 0 68.5 - CM . D 69.8 69.

r< m 41" '4 1  % '

'O.< .o.4 C9. o 71.0 En. 8 09.9 C a. 8 C9. 9 4:' . -

'r..

. ;a- r. . : .E L s. 3 ("," C '.' . o 71.1 GO. S 69.8 69.8 C9. C 61l. , . .  :.5 t>>.

• U '. C 09.4 0'.' E 9. 9  ?).0 68.4 E.9. 8 69.O C,9. L 41^  ! . r* * : 6' .o. '

LO 4 ( 9. 4 ( "' . G C,9. B 71. 0 68.5 09.8 69.6 69.9

+ '

o '. I' .

'N.. i '. l . 4 CD.

• 71.L' 08.6 C 9. 6 09. D C 9. 9 14  ; ..>  :..- 4. r ?. C 9. ; c',. 9 71, c E,0. 5 09.8 69. G 69. 9 s, 1 a:  : '.4 . C' '. 09 u c . e,9, c ' 1. 0 08.5 09,8 69.9 69.9

'- c . .'- ,e *" *

. C".9 71.O Ce. 7 c9. 9 rM . C C 9. 9

..  ; e c.,

. . Ls u.n..

i ., . p 7.g C ,, . r,

. ~ '~

~

. i'

. e 6r . , . 69,6 C . ( 9. o e o.. :. 60 , .,l .: .;

.t

'!.. i.9.' .

- - e 'I  : 68.6 09.9 E 9. 8 C9.9

.," :r 4 3 r. .,;- (' P fr t . .' .ce 71.1 68.4 69.8 6,9. 8 69.9 404 ec t. .n.an . <. $ , t' . rt r' v r 9. .r (',n 1. O E8. 4 c9, 9 c 9. a 69,9

-- -  : ': o- ,

r- . t. - .'- <; O 68.6 69.i; i 8 E S. 9

.e ,. i o .:  ;- - ~-  ; 68.4 69.9 69. e 69. '-d 4 1t .: .<' . , .' I (. , i 9. t ~.! C 8. E, 69.8 69.8 70. C M , i . e. :r.  :- C',;. e r- .

(. E'.'. 70.L ~.* 1 . 1 68.5 69.8 69.8 6,9. 9 er .

e '

r.n. e t . (.- . ,/... "c. C 1. 0 f.8. 4 L 9. 8 E9.8 70.0

- a;

~

r,4. 1(.:cn.' .

rs . 9 _ r - .

( ; . ., (.. .

'4 71. 1 68. h f.9. 9 69.O 70.0 1 -

' L : %'i: a 2 0. 9. 3 '

.s i ~

71.0 68.3 69.B 6?. 8 70.O c , .. 1: 0 9 . =, eg c 0 9. e ,o. 4 ,,' %O ~ 1. 0 68.6 69.8 E.3. e c: 9. 9

-; 1 7 . I '- : r. r.0. r T. "*

0 68.5 f.9. 0

. i 4 . ', ( .- t1 .. . 09.8 f.9. 9 4 u. se e . ' .  : ;. v . '. . q to . r- - t

.t / 0. 0 /1.1 66.5 69. C 69. D 70.0 l

Ap N .4 1- ' , : a ". ...p

(', (... (-

• i .e j ,0 (.'.. G

. 6 9. ': 69.8 69.9 I

4 r e. <

q.- <r.p c .L ' . 8

? 71.0 68.4 69.o E,9. 0 70.0 t r' t 71. '

6 9. '. 0 9. e

. t. t

- 8. L 70.O

, a, t-c i. o i* , - a '

..t " 1. 0 t 8. S r.o. o 69, e 70.0 1

'; ...s .,

.( i

• t 1,1 f.8 5 . '.o v. .

a 70. e

-.,*.

• v t. . it s.'. .

i s.= '

') O 9, b ( .h. P 6; 'n . *l m v 7 V. , L :

(. s. . _ ." ' '

o z . . e. . , f.9, 9 A v.4 n ( . y. , 4 49a 292(020792)

ZD79G

...~.s . . - . . , > .

VAIT 2 ILRT FICAL REPORT TABLE D.4

~

F.JHMARY of DEWCELL TEMPERA'mRES f.9. 8 69.5 C it . 7 70.0 71.0 68.4 69.8 69.7 69.9 s 4 c-  ? r,4. 1e: Ao: 4. c. 69.9 69 f, 69. u (-9. (, f 9. O 71.0 68.6 69.9 69.7 69.9 4~ , Ea : 1 : 59 : u'. (s.8 1: 0 i ', .. 6 (,9. S r.9. ; (,9. S 69.9 71.0 68.4 69.8 69.7 70.O 4c. T

c. .w, 3 y e s', r. ;i. A 69.- 69.3 f,9. - 69.8 71.0 68. C, 69.9 69.8 70.O 4 1-ic,

.. 1- > : 4. E t ". r N', 69. ' i'.4 70. O 71. 0 68.5 E 9. 8 69.7 69.9

, - .- ,. 1.4 4." i. r,0 -

r.9. 4 70.0 73 a 68.4 / .O f.9. B 6cf. 9

- ..,:<- G9 a # .9. " 69.. . t. 70. G 71.0 60.4 5  %* C'i. 7. r.o. 9 o c. cN  : 1, S r.9, 9 71.O E.9. 5 69.o 69,7 70.O 4 .. - 7 . . .. 1  : .. r,9. O i, v: ^ c.a x : ;v) : . . .

c .> n . (. a. t t c..n m. c. 69.9 1, 0 68,1 G':> . L 69.7 E~.9. 9

.- ... 0:- .. r.5 U' . t .' - E7.( im 9 '1.0 66.4 69.9 69.7 69.9

. v. ,, ye , ,: - r_ . e (A i *. < '. . r,9. 9 1. O f 0. 4 J.9. rt r.9. 7 69.9

_1.i : . f 9. - 09 /' . 'C

. 76.0 71. 0 60.4 6e . 9 69.7 r,' . s

>. i r. i"- '

~-

r.S 70.0 71.0 G0. T 69. D 69.7 f.9. 9 i * "

.0 7 : . E8 : ~ 9. O i 9. n 'O. 0

' 6 i

'.9 ~ 1. 0 8. 5 6%.' ra.7 69.9

. _r

.v. < , . .c.. -.-- f., m. . n

- t :  :- ..e ( .' . 9 71.0 18, 3 69. B 69.7 70.0

<- . .'t :e,'- . n  ; .. c . c. c9, 9 - ' '

.0 68. u 69.9 6 9. ~' 69.o

-- -  : 49 :

• f 't A U. i i 9. - ' O. 0 7:.0 68.4 69.9 69. ' 70.0

-- ' - i; C: .

. .. ;3.. ce. 5 p ,. (, 69, e c9, 9 l -

o' : ': ..

.-  ; . ",- c 1, 0 60. 6 6F. 9 69. ? 70.0

- : I: 5 f .9. F. L~. < ,e (, , , r , " 3, e gg, 2 .a . . O 69. ? 70.0 c... - c. : ' ' : -+ S . 69 f-

• 9 . '- - .

.<. O . o 7'.0 60. - 69.8 69.8 70.0

., ( * ." . c , , : : ' r M.

. f 9. O r; ' ,-

, 7; , p -),e cf , .- r,o , . - gg,7 gg, a

.f

:4? ,9. n '

c. re o ~ 1. C 66. ' - '

-.P 69.7 69.9

!f - -  ;'. : "- i . '. . C i'. f. ' ( o. ( +'.9 . ').0 68. D ti ? . 9 69.7 69.9

".. . o N.  : 0' : 4 '- 69.* U. ( C.9. t .. o  :. 0 68.5 6 ' . ." 69,7 70.0

^

tw , ,;n: . wn r_ .

• - ,; , . ( .'

. 1. 0 68.6 69. C 69.7 69.O A70 ,. c-  :, J : *! ( ,' - - - .

t .' c ( 1 '- C .- '

i . P 68. 5 69.O 69,7 69.9

-)  ; a  :; ,: e n,, ,, .

g (. 1,O r,8. 4 69.9 E.9. 7 70.0

. 49::. # ,o. n

< if ,9 3, e c n. ' 69.9 69.8 69.9

- -' ( *:i . -

a9 "; O (,e s (.9. 9 69, 69,9

' - 2', <

3. r r_ c ,e cc, e  : 9. P 6 9. -' 69.9 49b 292(020792)

ZD79G

6 m ,-a .3-UNIT 2 2LRT TCAL REPORT' TABLE D.4

$U}04ARY Or DrWC' ELL TQiELRATURES '

. *:l':^' tM.e . _ - I ' . e. t 9. 0 69.S 71. e .

66.5 C.9. Y' 69.7 G".?

0 7 : c." ' : e tn.e 0 9.

• 69. f.o. 5 69.9 ' 1. 0 68.4 69.S 69.7 09,9 e ' -" .,

r.  : &t ( 9. n C 4, t. ca. s o.- (,9. 9 't.0 60.5 69.8 09.7 69.9 4, c e c *

.> 9 : t. ' qri. 6 (c , t / . ., 3, c. c9, 9 71.O GS. 5 70.0 69.7 69.9  ;

,'9 ' ,; i. 2 .S ( 9. ' tm ca. ; L 9. .

09.9 71.O C 8. 4 69.8 09.7 69.9

-m *

<s v* 09: 45 09.O s. . t .3

69.5 70.0 71.0 60.5 U! . "4 69.7 69.9

O* . i. M

1?: 45 09. B 69.5 69.3 C9. S 69.9 71.O C.D. S 69.7 C,9. 7 69.9

.p:

... g..' : e fM.C 69. C 69.3 C9. 5 70.0 71.0 (.0. S 69.0 69.7 C9. 9

.9 T. + - e1: Ju: 4 '. 09.8 C9 C 09,4 09.0 69.9 71.O CD.44 C 9. O 69.7 09.9

. :n: us c ci, e cg . -- 09. 69.5 fM. 9 71.0 68.S t 9. 8 69.7 69.9

.!- S9: AS C 9, O G ? . '; 69. A r.9. 6 69.9 71.O t;0. 5 69.0 09.7 E.9. 9

tr : f r.'.,o c'r. O ce.- i .e. 5 ?n. 0 71.0 60. M 69.9 . ,0. 7 c.9. %

.,'- +'.6 m (.?. 0 - . 9. 8 .O r.h . 's r, f. c:  ;.o, 7 c. ? .

., : .* ,v : - :e . o. e f. o . " ".T C'.S 70. O ~ 1. O GS. 5 G'- . O E 9. 7 C I' "

. , t.  :?::-5 4. ~J r~.t ( O. . i. 9, G /c. 0 1. f: 60.3 70, c 09,7 C9, 9 Lc

• i e ". ^

• 3 e '- r '?. .

. 4 9.

• r m . c. U., er '1..* r.0. 6 C9. 9 69.7 E.9 . 9

' 4. w l :' , [

('.. (,,9, t ; i,O t. b. E 69.9 69.7 L 9. ?

' ' +

. 8 (,i.'t .*

~

• 70,0 7), O ~,,8. S C9.9 69.7 70.O

'. - - '+.L t. .O U. .

70.0 71.0 68.5 C.9. 9 C9. 7 69. ?

c. . - -- -

f " " 1. 0 60.C 89.9 09.7 C9. ?

' .t , ' 1. O L.D . S (.. .

e 69. ' 00. "

.v.- E

' ,c .O d.C . L ( . !! . ~ f. .? 69.9

. r.,. . ac . . , . . L..< r. i . e-

-' . C'. c

.- . '? . .O Gn. 4 C 4 . '? C 9. 7 i 9. D i -5 ( r ' .

^

t .- .t. '0. 0 '3,0 ( O. 5 C 9. M 09.7 f.9. 9 o.e . .. .. : ,. . . . s

. cr .

,. t a , c. 3 , ,, . . 0. 0 69.9 69.7 09,9

.  : ,. S " . e., e

.. 1. :,, . p . w. 69.O f4:. 7 E.9. 9

. t' . : ' :45 N1. 0 '/.' O.- 7 -

.0 60.S 69.8 69.7 69.9

t ,e. f .o. r .

( ' 0. '- 1.0 68.7 69.9 f5'. 7 69.9

< <........ .....,v*.n<is.. ..... ....... ............... ..........gxx

!PC 5 J r. C ' 4NNCLD Ph'i ; D:- Tn

~ .'

re ' ( ' t. a: . . L v s,. ic. ~ r' 67 7.. .

49c 292(020792)

ZD79G

J nuary 17, _1992 UNIT 2 ILRT TINAL REPORT Appendix E - IllDEEILLEATAGE_7ESI DATA The following tables present the data for the induced leakage phase of the ILRT. The induced leakage test is defined as the interval between data sets 505 and 522 inclusive. This corresponds to a 2 hour2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />, 50 minute test duration. The following data is included:

IABLE IITLE E.1 Summary of Mass Plot Leak Rates E.2 Summary of Pressures l E.3 Summary of Temperatures E.4 Summary of Deweell Temperatures l '

i 50 292(020792)

ZD79G l

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

_ , , g,. , .- ,

~ UNIT 2 ILRT FINAL REPORT-  !

TARLE t.1

3 StDenRY Of MARS PLOT LEM RATES' f E

1 a - .

- . e , . . #., .. e U. ..

0.;,.

3  : e. . 1 .;s- .i~. ..

- .t.- P r".

.. P 1 c. '.'. .t DA7A SCT E05 'MC OH "11  !

.LPl?1.aT10N TE'- r 'Mt;. r5 CA;.C L ATEL L'I1NO 'HC MASS PLCT METHOD ~!

,' n DA'4 -

.a E *l'E T r.;

• DPv c!R  :. L .:W. 9 ATE.- 95% UP COh!.3 T

• tu v Hi re, t," f I ret . ( H R ) - MAS!,?LDM)  % < D) . LIMIT.(u/E- f

" C' Sti,5 05 : 19 : 45 0, 000  : P.0030407!C+06 t oi. itt et: 4 '4 : 45 0 :L* 0.8020!*11E+0E  !

.0.1062E+0;#

". IfM 0! 3?: 45 0. 333 C.S0303875E+06 0.9891E-01

'l6! ?S: 49: 45 0,500 0.80303612E+06 0.1017E+00 9. L'50SE+ 00 5? .-C' 05:59: 45

-0.166- O.80301575E+06- C.1561E+00' O.2559E+00" L' ' ' .(? N.:09:-t C. i;23 0.80301:00E+06- C.1612E+00 0.220EE+00-

1. '  : 2 C S ,';: 19 : 45 1.000 0.80200400E+0i- 0.1591E+00 0.1999E+0'

. '! ei:l1:-Y'

1. :(( l'.00*,?? M't On  ?.1453E+00 C. !?79E* 00 4

• 1 5 c(,:39:F'  :.2* .' 80! ?i20F+0E 0.14327+00' -C.1630C+0.

- ' ! 06: 19:~t -

t 0.*  ?.A0,- m'E.0? 0,:r110 00 0.172:C + 0 ' ,

I,1 Oi : ! ' : '  :, ,

?, f.e; '?' 50t . , ; 0. 1 0 0; . ?,0 - 0,16c:C407 "1C .4! 0 0 91.. * .!'* 0.50 W t!.Or+0/ --0.1440C100 0. ; 591 C ; c ' .

4 . . .

..s, ..es.--.

... . E.L2 _ .s .. .. . , -.-w , .s4

- c.. . ,c . .m g 4 s - -

. c. ,y, .. .:, : ,, ,. . . . , -.

.......,sj

. . . .--- . , , r.., Ly. . , .

4,. 1E..e r.. u* .

c" 3m: 45 .,

.'.', 9.- 5 '. #'*: 02- -0.1!!1Et00'

'0.1632C40i' e . .

. s .,...,:.,,. .. .-a.,,.,.-,.,,.,,. . .- ..4. 0.16.31.c. d (' '

s . . . . . . . . .. . . .. e. e. + 4 eM C7 59: ' i' S NJ? ' M

• E s'C t'.14'2E+00 e.1568C+00 I  ! .: . ". ' 0 4 : 0 d: -? .

. 0.'.0i  :!!'C4 0' O 14"It400 .0.155EE+0;

,,i......... ,...... . .... ........ .... ............................

. + >.....w

.....

• w

.s (... .. .,. ., . ,T c .,s%.,- ... -..- .

1 I

51

'292(020792) 2D79G--

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

Janunty- 17,-1992 UNIT 2-ILkT FINAL REPORT TABLE E.2 =

SUltiARY or Patsst3RES kWCIEWOCD UN17 2 10:11:08 5UN, *2 SCP 1931 DATA SET AVERAGE VAPCR DR( AIR L'.: 1 - 71Mt PRESSURE ORESEURE PRESSURE PRESSUR6 Pbf ESUPt E4.' # DAY HH MM 5", #1,fR3]A) #2(P51A7 ,(PSIA' ,(PSIA) i(P6!A) 505 265 05:19: 45 59.5849- 59.5860 59.5854 0.3608 59.2247 506 265 05:0?: 45 59.5032 =59.5842 59.5837. 0.3601 5?.2236 507 265 05:39:45 59.5813 59.5825 -59.5819 0.360* t9.2215 508 -265 05: 49: 45 59.5793 59.5805 59.5799 0.3600E 59.2199' 509 265 05:59: 45 59.5775 59.5787 59.578) 0. 3612'- 59.216?

510 265 06:09: 45 59.5760 59.5771 59.5765 0.3605 59.2160 511 265_06:19: 45 59.5742 59.5755 59.5748 0.3603 59.2145-

'51 2 265 OE.:29: 45 5'1,5727 59.5738 59.5732 0.3601  !?.211'?

h13 265 06,139: 45 59.5711 59.S722' 59.5716- 0.360C- 5?.I110-514 265 06: 49: 45 59.56?5- 59,5706 59,5700 0.3607 59.2094 515 165 0r,a19: 45 t.9 . 5 6 7 7 - # 9, St.P 9 . 59.5683 -O.3607 59,2076l b16 265 0'ses: 45 t9,566 */ a. t./ 7 2 5?.56E,7 0.3606 5?.1061 51' 26.5 07:19: 45 59.56 7 * 's .1 t N

59.5651 0.3610 59.2042 b'6 265 07:2'"): 45 59 S6J' * **. *,2 .' .

-59.5632 0.3612 59.2021

-b19 115 07: 3y: 45 5 9. #.E 1 ' ' 0.I ;- -59.5616 0.3602 5?. L'01 ' :

f .' '; 0 - 265 e/ 49: 45 58, m ' = 3, 5 . .e ' 59.5601 0.3605 59.19?2:

I I 2M 0V: 5-: 4:, vg. =.. ?. c (9. ?2 59.55e6 0.360; 59,19e3i 265 08:09: % 5". $50 5 9. " '. "i 59.556e O.3600- 59.19E.9 -

N C D kt s nirW CHANNELS ARE LOC W Oui .

T.:i .'l4NNEL at 42 IS LOCl;E*i OU' FPOM DEN- 1 V

-7

-52 2?2(020792) 3:G79G

Jcautry 17, 1992 UNIT 2 ILRT TINAL REPORT TABLE E.3 .

SU]eiARY Or Tf,11PERAnIRES r "f i r 4:"I, L'rJ 17 ; 10:12:31 SitN, 22 F.Er 1991 DATA CCT AVERAGE l' M A T l t':E TEMP, AVERAGC SUDVOLUMC TEM 9CRATURES, (DEG F) i '._ t U. HH MM C3 (DEG F) ti l #2 #3 #4 #5 #6 #7 #8 *t 9

'2 .L5 05: 19: 45 90. A 70.7 90.8 90.8 90.') 90.8 90.7 91.1 85.5 85.3 50C _ 05:0?: E 00. 4 90.~ 90.8 90.8 00.9 90.8 90.7 91. C 85.5 85.3

.. m. 3 9 : . i , '3 0. .:. 90. ' na. s ic. 8 90 9 90.8 9c, 7 91. ) .95.5 85. 3 c' ..: e F:u9: e 90.4 90, r. T.' 90.8 90.9 90,8 90.7 91.1 85.5 fj 5, 2

.. - :x ^ t. 2 5 5- : -. 5 90. ( 90 C. 90. J N' . 8 90.9 T.0 90.7 91.1 85.5 85.3

• 1s,

'ct .. 09 : e n.w . 9 T. ( 'oc. 0 90.8 90.9 9c , 8 90.6 91.1 85.5 85.3

IC . c : 1 ' : '. 's '. 0 . 'n 90. C. '3 t - P 90. ? v.O 90.6 91.1 85.5 85.3

c5 e 2 ;o . .r t;. w,c 9c. i. .i., -- o0. 8 90. ? 90.6 91.1 85.5 85. 3

.. .  :."'=: '. 'a .; c.. N 1. ' . ' 90. P. '40. 8 '70. C 91.1 85.5 85.3 e :-5 ' tc . - '

T.~ 9?. " 90.8 90.7 90.6 91.1 85.5 05. 3

'. : ". ^' c . 9, . 7  %). 8 90.7 90. C 91.0 85.5 85.3

.;  ;. , 's , " 9c , 7 ge, g 90,7 .(, c 91, 0 85,5 g5, 3

• i. c. "'7 . 90 e '. 1. " '0. G Y 1. C 86. 5 D5. 3

' ' r *

-5 90. ~ ' -C . 5 90. " 90 '- 90. n 90.7 90.6 91.0 85.5 85. 3

". .  :'n: 5 9e. 3 90.5 9 c -- 90.7 90.8 ':0. 7 90.6 91.0 85.5 85.3

a 9 : .:. 5 90.0 90. * - W. W.7 9.' H 90.-7 90.6 91.0 85.5 85.3

'-J ' , . !  : - 5 '30. J' 90.' N.' 9 '. f W.' 90.7 90.6 91. 0 85.5 85.3 l 'J~ -

2Ct 08:09: 45 90.3 N.'  ?? " S' . G 90.7 90.7 90.5 91. 0 85.5 85.3

......++ .............+ ..................................... *,+ **.

f.a LRi SSURL CHu,NCLL ARE LO!' C OT --

PA; C * .4NNEL # 42 15 LOCKiis i t' ' 0 'JM DEN 1 53 292(020792)

ZD79G

, Jcnuary 17, 1992=

UNIT 2 ILRT TINAL RfPORT TABLE E.4 ,

SIIHMARr or DEWCE1,L TEMPERA'IURJ,$

DFAIDWOOD UNIT C 50:a3:21 SUN, 22 CEP 1991 DAlA SET AVERAGE DATA '1ME D E L.' TEMP, AVERAGE SUBv0LUME TEMPERATURES, (DEG F)

SET ** DAY HH FM SS (DEG F) #1 #2 #3 #4 #5 #6 #7 #8 *t 9 505 165 05:19: 45 69.8 E.9. 7 69.4 69.5 69.9 71.0- 68.6 69.9 69.7 69.9 50E DES 05: :9: 4" 69.8 69.6 69.3 C9. 3 09.9 71. 0 68.7 69.8 69.7 69.9 ,

507 OCS 00: 39: 45 f.9. 8 09.5 69.3 09.0 70.0 71.0 C8. 4 69.8 69.7 69.9

'508 2CS e5: 49: 45 69.8 69.5 69.3 69.4 70.0 71.O. 68.3 69.8 69.7 69.9 Lot  ; t? e c . c.9 : e, c be. 69.7 69.4 69.6 70.0 71. 0 68.S 70.O E.9. 7 -69.9 b!0 0% .  : 00 : -. S t .I CO. 7 C 9. 3 69.5 69.9 71.0 68.S 69.0 09.7 E9. 9 Mi 'i *

i*+:4' 69. A 69. f. 0?. 3 09 & 69.9 ').U 68. b 69.9 69.7 -69.9

" 1..  ; 'E 0; i .:" : 0 0 S. 0 69. E L') :. 69. - 4 .' . 9 7.1. 0 68.7 69.9 69.7 69.9 51: 4 r a;. t'c t :;9 : 4'i 09.8 6 9. ,, 64 69.E 69.'s 71.0 68.5 69.8 69.7 69. e

' .1 4, e6: c' : A u, 69.O G* :. I 6'i . 4 E.9. 5 C 9. 9 71.0 68.4 69.8 69.7 E9.9

-

• r 0 4.", i 's , i - 0 9. .' 0 9. .'  ! 9. e, 69.'i " 1.1 68. A 69. D 69.7 69.9

'~.1

h

6:S'r: . "< < 9. 0 r/ 4. 5. Co. .. C9. 5 7 t'..e ":,0 -68.5 r.9. ' ' 69.7 69.9

.m e . o . r. .

u s g. n , 9. . , 9. < 70. n y 1. e s8. 5 69.9 69.7 62.9

.. . . . g,,, c., , .3 , 4. ,. 6 .9 ').O RO. 6 6 c' , '7- 69.7  ?. 9

+1-, t -

, . c.o 09.- o. t 6 .. , ' 7 g g , u, 69.9 ( 9. 7 E 9. 0 is.< . e'. 9. . 9. . " i . t- FP.* 69. D 69. 7 69. n

i 6. t-

~ c, : < ;. U j. e e.. . . - .. . 9. 3 1.0 66 Vi 69. Ct ( o. ' 09.9 0' : V 3: L '*. L,%. P t' .' f' & #i

'].O i D. 6 ( ,9. 'l 69. ' 09,9 3 ,.i i4 ...... ........+4 ....... ...s .................,ve........ .....,

WI P '

. :Ir f.H .* F E LE OFC-LU ?LF 4"

' Hb :'t 14NiJEL *t i, .

i' L.U'T l D O'

i

.iM . ;JJ 54 292(020792)

ZD79G

JCnuory 17, 1992 UNIT 2 ILRT TINAL REPORT AppandiLF - TYPE A TERI_CQRRECngtig The following table presents the Type A Test corrections for leakage pathways isolated during the ILRT.

TABLE F.1 TYPE A TEST CORRECRQti$

Pen. No. Dggnip_Lton Lqcal_ Leak Teat Ho. liinEath_Lgn.k Rate.

P-4 Pressurization 2DwVS 6.1.2.D-1.24 .081 SCTH Penetration 1-3 Instrumentation 2BwvS 6.1.2.D-1.7 .363 SCTH Test Line

-- Equipment Air 2BwVS 6.1.3.B-1 3.04 SCTH Lock

-- Emergency Air 2BwVS 6.1.3.B-2 5.15 ScrH Lock TOTAL 8.63 SCTH 55 292(020792)

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o l' Jcnucry 17, 1992 UNIT 2 ILRT TINAL REPORT Appandir G - HISTORICAL LOCAL LEAK RATE DATh Local Leak Rate Testing (LLRT) has been performed three times at Braidwood Unit 2. LLRT test results were obtained (1) after the 1987 preoperational test; (2) during the first refuel outage (A2R01); (3) after the subject ILRT of the second refuel outage (A2R02). Results indicated for A2R2 are "As Left" LLRT values performed after the ILRT. Several containment penetrations, including the containment airlocks and purge valves, are tested at more frequent intervals, as specified by the plant's Technical Specificationse The results below represent the periodic Type B & C tests performed at month intervals to satisfy the requirements of 10CTR50 Appendix J.

TABLE G.I.

HISTORICAL LOCAL LEAK RATE DATA EIHLIEAT10tl SISIDI LLRT RES1[LTS (SCCM)

PEE-OP.5/B7 A2R01 A2R02_10/_91 ZONE 1 ELEC 97 154.6 164.3 ZONE 2 ELEC 108 45 483 ZONE 3 ELEC 400 236 49 ZONE 4 ELEC 370 34.3 85.6 FUEL X-TER TUBE O 28.8 40.1 FUEL X-FER BELLOWS 35 756 3.4 EQUIP HATCH 3 5 46.1 I-3 VQ 15 10.2 161.3 I-3 VO 12 42 10.4 P-70 PS 1 6.4 84 P-70 PS 146 6.5 340 P-70 PS b5 83.2 21.8 P-70 PS 35 3.6 187.9 P-45 PS 11.4 8.3 133.8 P-45 PS 58 563 179.6 P-36 PS .. 16.4 275 P-36 PS . 160 7560 P-41 CV 80 6.4 2650 P-28 CV 31 1668 705 P-11 RE 1.0 66.7 295 P-65 RE 29 4.4 9.7 P-65 RE 33 4.4 9.5 P-27 RY 2.1 16 177 P-27 RY 320 1068 1130 i P-44 RY 150 540 3.5 I-5 RY 20 9.6 299 I P-21 CC 896 218 992 P-24 CC 400 13.2 3720 P-25 CC 460 493 2730 P-32 PC 6.5 3.0 .9 P-57 FC 10 47 2.2 P-1 CS 505 2700 9000 P-16 CS 48 340 52.2 P-39 IA 266 945 200.5 56 292(020792)

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Jcnucry 17, 1992 UNIT 2 ILRT FINAL REPORT TABLE G.1 (continued) >

PDIETRATlQH SISICM LLRT RESULTS f SCCli). -

PRE-OP 5/87 A2R01 A2R02 P-56 SA 98 372 5800 P-30 WM 390 9810 8980 P-47 RF 15 3.0 .001 P-13 OG 46 19.8 345 P-69 OG 55 19.7 146.3 P-69 OG 152 5.1 36.1 P-13 OG 8 37.1 48.2 P-52 PR 501 3700 4100 P-52 PR 162 17.8 27.4 EQUIP. HATCH PR 3.7 735 32.5 PR 319 315 142.2 EMERG. HATCH PR 12.5 96.3 60 PR 455 673 660 P-5 WO 45 445 95.6 P-8 WO 157 65.4 943 P-6 WO 650 780 618 P-10 WO 530 785 58.9 P-55 SI 14C 23,6 1693 P-55 SI 46 144.2 4.8 P-4 CPP 240 120.1 37 P-63 SPARE N/A 24 6.3 P-64 SPARE N/A 14 5.5 P-74 SPARE N/A 13.4 12.9 P-97 VO 1442 8010 4076

, P-95 VO 3290 3110 1910 l P-96 VO 450 325 567 P-94 VO 976 :787 1090 EQUIP. HATCH PC 3730 1200 955 EQUIP. HATCH FLANGE PC 2.2 1.0 8.7 EMERG. HATCH PC 1030 5620 3030 FLANGE il PC 240 199.4 32.2 FLANGE #2 FC 12 46.8 3.4

P-82 SD 15 N/A N/A*

l P-83 SD 15 N/A N/A*

P-80 SD 5 N/A N/A*

l P-81 SD 5 N/A N/A*

P-BP SD 51 N/A. N/A*

P-E9 SD 51 N/A N/A*

P-90 SD 52 N/A N/A*

P-91 SD 52 N/A N/A*

• Steam Generator Blowdown Valves no longer required to be leak tested per Type C LLRT program.

57 292(020792)

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