Reactor Containment Bldg Integrated Leakage Rate Test Rept

ML20081G127
Person / Time
Site:	South Texas
Issue date:	03/04/1991
From:	HOUSTON LIGHTING & POWER CO.
To:
Shared Package
ML20081G108	List: ML20081G127 ST-HL-AE-3789, Forwards South Texas Project Electric Generating Station Unit 1,Reactor Containment Bldg Integrated Leak Rate Test Rept
References
GP-R-263103, NUDOCS 9106120250
Download: ML20081G127 (76)
v • d • e

Text

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

t s I

IlOUS'lON IJGirI1NG & IOWER COMI'ANY j' ] South Texas Project Illedric Generating Station Unit 1 I

a 1 1  !

REACIOR CONTAINM11NT 11UIIDING IN'11? GRATED ,

j IJ1AKAGE RATIt Tl!SI' REIORT  !

t

. i i

! I i

j t-  !

March 4,1991 4

i 1

GENERAL PilYSICS CORPORATION  ;

GP.R 263103 t

i O  !

9106120250 910603 1 PDR ADOCK 05000498 R PDR

I 9 GP R-263103 GENI?RAI, PilYSICS CORPORN110N l

Q TAlliJ! OF CONTEN'13

1. INTRODUC110N

11. TU5rSYNol51S i

111. 'II?Kr DATA

SUMMARY

A. Plant Information 11 Technical Data C. *lype A Test Results D. *I)pc 11 and C Test Results E. Integrated leakage Rate Measurement System i

F. Information Retained at Plant

'v-O ^"^ S ' S ^ " " ' "'"" """r^7' " '

V. REFERENCES VI. APPENDICES A. Stabilization Phase Data B. ILRT Test Data and Plots C. Verification Phase Data and Plots D. Instrument Selection Guide Calculations E. Description of General Physics ILRT Compulcr Program F. Local leakage Rate Test Summaries G. Sensor locations and Volume Fractions O

i

f 6 GP R 263103 G11NERAL PIIYSICS CORPORATION

1. INTRODUCTION The Reacto llullding integrated leakage Rate ' Type A" Test is performed to

)

demonstrate that leakage through the primary reactor containment systems and components penetrating primary reactor containment do not exceed the allowable  !

leakage rates specified in the Plant Technical Specifications, j l

l The purpose of this report is to proside information pertinent to the activities related j to the preparation, test performance, and reporting of the South Texas Project Electric Generating Station Unit 1 integrated leakage Rate Test (ll RT).

liighlights of activites snd events which occurred prior to and during the ILRT are presented in Section 11, Test Synopsis.

Section Ill, Test Data Summary, o ntains data and results necessary to demonstrate O coai=i"=eai aimosehere sioditizatio#. #cceniedie ieat=se roie ="a successr#i i

verification test, in addition, p?ots provided in Appendices 13 and C supply a visual 4 history of containment atmospheric conditions beginning with the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> ILRT test period and ending with the verification test. l l

1 Information in Section IV, Analysis and Interpretation, supplies the technical details associated with the ILRT computer program and its associated hardware as well as l the instrumentation used during the ILRT.

I Section V, References, lists the documents used for the conduct of the ILRT. l The successful periodicType A and verification test were performed according to the i

requirements of the South Texas Project Unit 1 Technical Specifications and 10CFR50, Appendix J. The test method used was the Absolute Method, as described in ANSl/ANS 56.81987,

• Containment System Leakage Testing Requirements.".  !

1

e a GP It 263103 GliNiilt AL l'1lYSICS ColtPollATION Leakage rates were calculated using the Total Time Analysis equations from ANSI N45.41972,' Leakage Itate Testing of Containment Structures for Nuclear Itenetors'.

Mass point Analysis as described in ANSI /ANS 56.81987 was run concurrently for informational purposes. The test results are reported in accordance with the requirements of 10CFR50, Appendit: J,Section V.lL3.

l l

l O

s O

2

i e O P R 263103 GIIN!!RAL PilYSICS CORPORATION

, 11. TEST SYNOPSIS ,

Prior to containment pressurization on January 8,1991, site personnel were engaged in prerequisite activities for the condect of the ILRT. De ILRT was conducted at the beginning of the refueling outage.The following discussion highlights some of the activities that were essential to the successsful and timely completion of the ILRT.

These items are presented in chronological order.

A. Pre pressurization Activites These activities included ILRT procedure review and finalization, ILRT computer program checkout and linkup to the Fluke 2280Il Data Acquisition System, ILRT instrumentation installation and operability checks, and containment subvolutae weighting factor and sensor failure analysis calculation.

O The ILRT test procedure was reviewed against the requirements of the Plant Technical Specifications; 10CFR50, Appendix J; and ANSI /ANS 56.81987.

The ILRT instrumentation was calibrated prior to the ILRT as recommended by ANSI N45.41972, Sections 6.2 and 6.3. Final ILRT instrumentation operability checks and in situ checks, as specified in ANSI /ANS 56.8 1987, Section 4.2.3.1, were perfonned to ensure that all instrumentation was operating correctly Calibration records for the ILRTinstrumentation system components are retained at the plant.

O 3

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

e e GP R 243103 GENEllAL PilYSICS CORPORATION H. Test Summary Time Line .

Phaic Time Frame Dnta110D Pressurization From: 2230 on 1/8/91 12.08 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> To: 1035 on 1/9/91 Stabilization From: 1035 on 1/9/91 8.50 hours5.787037e-4 days <br />0.0139 hours <br />8.267196e-5 weeks <br />1.9025e-5 months <br /> To: 1905 on 1/9/91 ILRT Test From: 1905 on 1/9/91 14 hours1.62037e-4 days <br />0.00389 hours <br />2.314815e-5 weeks <br />5.327e-6 months <br /> To: 1905 on 1/10/91 Verification Test From: 1920 on 1/10/91 4.35 hours4.050926e-4 days <br />0.00972 hours <br />5.787037e-5 weeks <br />1.33175e-5 months <br /> To: 2341 on 1/10/91 C. Containment Pressurization Containment pressurization started at 2230 on January 8,1991 using eight 1500 sefm, one 1200 sefm and one 900 sefm diesel driven 100% oil free air A

w compresscrs. The pressurization rate was maintained at approximately 3.5 psi per hour until containment pressure reached 35 psig. At this time, the prersurization rate was gradua"y reduced by reducing the number of operating compressors. All compressors were stopped when the containment pressure reached 40 psig at 1035 on January 9,1991. This was within the procedural limits of 37.5 +3,0 psig.

During pressurization a containment walkdown was performed to identify potentialleakage. No measurable leakage was observed. Pressurization was conducted with the use of the Reactor Containment Fan Cooling Units.

Ilowever, the fans were stopped at a pressure of 39.5 psig and were not used during the ILRT or verification test. No temperature stratification was observed. One RTD failed and as a result RTD No. 4 was removed (by use of the weighting factors) from the ILRT calculations.

4

e 4 GP R 263103 GENERAL PilYSICS CORPORATION D. Containment Atmosphere Stabiliation

'Ihe stabillation phase was started at 1035 on January 9,1991. Hy 1445 on January 9,1991, the temperature stabilization criteria of ANS!/ANS 56.81987 had been met. Ilowever. Operations required e . ron sample to be taken prior to the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> lulT test period. This activity was completed at 1857 and the temperature stabilization data was still within limits.

l l

E. ILRT Test Period l

The ll.RT was officially started with the next data point at 1905 on January 9,1991 and was successfully completed at 1905 on January 10,1991. The maximum allowable leakage rate (L,) for the containment is 0.3 9F wt. per day with a test acceptance limit of 0.225 % wt. per day (0.75 L,). *lhe Total Time and Mass Point Analyses were run concurrently on the General Phy:les ILRT Computer Program. The leakage rate results are as follows:

Total Time Mass Point Analysis Analysis

% wt/d;1y O'c wt./ day Calculated leakage Rate 0.0892' O.0524' 95 % Upper Confidence 0.1232' O.0562'

, leakage rate l

I

• Does not include penalties for nonstandard alignments and water level changes l

O 5

f 8 GP.R 263103 GliNI!!(AL PliYSICS CORPORATION I

Q F. Verification Test A successful verification test was conducted following the ILR l'. At 1920 on January 10, 1991, a leakage rate of 27 scfm was imposed on the primary containment. The 27 scfm leakage imposed (L,) on the existing containment leakage was slightly less than L, (0.3 96 wt/ day) at 0.2978 9b wt. per day.

The verification phase was completed at 2341 on the same day.

The verification test results are presented below:

Total Time Mass Point Analysis Analysis M51/dc SLn/ day Leakage Rate (L,m) 0.0892 0.0524 Impr$ed Leak (Lo) 0.2978 0.2978 Lower Limit:

L+L o am 0.25 L, 0.3120 0.2753 Composite Leakage (L,) 0.3312 0.3151 Upper Limit:

L+L o am 4 0.25 L, 0.4620 0.4253 G, 12> cal leakage Rate Testing Subsequent to the completion of the ILRT, "as found" local leakage rate testing (1.LRT) was performed as required by 10CFR50, Appendix J. Results from this testing were required for those penetrations not exposed to the ILRT pressure to complete the analysis of the "as found" IljtT results. The "as found" local leakage rate testing was completed on March 4,1991.

O

1 GP it 263103 Gl!NilltAI, P1IYSICS COltPoltATION 111. 311SI.lMTASUMMAID' O A. Plant Information Owner llouston IJghting & Power Company City Public Service 130ard of San Antonio Central Power and lj ght Company City of Austin Plant South Texas Project lilectric Generating Station Unit 1

, Iwcation Wadsworth, Texas Containment Type Post tensioned concrete with a steel liner ,

NSSS Supplier, Type Westinghouse,4 loop PWR l

Date Test Completed March 4,1991 B. Technicel Data Containment Net Free Volume 3,560,000 cubic feet Design Pressure 56.5 psig Design Temperature 286 F Calculated Peak Accident Pressure 37.5 psig Calculated Peak Accident 323 F Temperature C. Test Results Type A Test Method Absolute i

Test Pressure 37.5 psig O

7

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

GP.R 263103 GENERAL PIlYSICS (X)RPollATION Integrated 1.cakage Rate Total Time Analysis Test Results:

Calculated leakage Rate, Lam 0.0892 9b wt./ day 95 96 Upper Confidence Umit 1.cakage Rate 0.1232 '7c wt./ day Integrated leakage Rate Mass Point Analysis Test Results (Presented for information only):

Calculated leakage Rate, L,, 0.0524 9b wt./ day 95 96 Upper Confidence Umit leakage Rate 0.0562 96 wt./ day Mtalmum Allowable Leakage Rate, L, 0.3 CE wt./ day ILRT Acceptance Criteria,0.75 L, 0.225 96 wt./ day Verification Test imposed Leakage Rate, La 27 sefm or 0.2978 9b wt./ day Verification Test Total Time Analysis Results and Limits Upper Umit 0.4620 9b wt./ day (Lo+ Lam + 0.25 L,)

Calculated Composite 0.2% 96 wt./ day leakage Rate, Le 1.ower Umit 0.3120 9b wt./ day (Lo + Lam - 0.25 L,)

Verification Test Mass Point Analysis Results and Umits (Presented for information only)

Upper Umit 0.4253 9b wt./ day l

(Lo+ Lam + 0.25 L,)

l Calculated Composite 0.315195 wt./ day Leakage Rate, Le Lower Umit 0.2753 9b wt./ day Q (Lo + L,, 0.25 L,)

8 1

GP-R 263103 GIINERAI, PIlYSICS CORPORATION t

] Report Printouts '

He report printouts of the ll.RT and verification test calculations for the Total Time and hiass Point Analyses are provided in Appendices B and C. Stabilization data is provided in Appendix A.

D. Test Results . lype 11 and C Tests A summary of local leakage rate test results since the ILRT in 1987 are included in Appendix F.

E. Integrated leakage Rate hicasurement System

1. Absolute Pressure Quantity 1 hianufacturer Ruska Type Quartz hianometer Range 0 100 psia Q Accuracy + /- 0.02 % of reading Sensitivity 0.001 psia Repeatability +/ 0.002 psia Resolution 0.001 psia

2. Drybulb Temperature l

l Quantity 23 l

l hianufacturer Thermetries Type FI'A T12,100 ohm platinum resistance temperature detectors (RTD)

Range, calibrated 32 120 " F Accuracy + /- 0.4 F 1

O Sensitivity 0.oi P 9

f GP R 263103 GENERAL PilYSICS CORPORATION

3. Dewpoint Temperature Quantity 6 hianufacturer EG & G Type hfodel 660, Chilled mirror hygrammeters Range, calibrated 40 - 100 F Accuracy + / 0.54 " F Seruitivity 0,1 " F

4. Verifica:lon Flow Quantity 1 hianufacturer Kurz Type hiodel 505, ljnear two wire mass flow Range 0 50 scfm Accuracy + /- 2% of reading + 1/2 % full scale

, 5. Readout Device l

l l Quantity 1 l

hianufacturer Fluke Type biodel 2280B Repeatability Drybulb Temp + / 0.054 " F Dewpoint Temp + / 0.02 " F Resolution 0.01 " F O

10

GP R 263103 GIINHRAL PilYSICS CORPORATION 1

Q De instrumentation Selection Guide (ISG) value from ANSI /ANS 56.81987 based on a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test and the above ILRT instrumentation configuration is 0.007 95 ,

wt./ day. (Refer to Appendix D for calculations) The sensor locations and volume

[

fractions as installed for the ILRT are shown in Appendix G.

G. Information Retained at Plant The following information is available for review at the South Texas Project Electric Generating Station site:

1. Access control procedure used to control access to the containment during testing,

2. A listing of all containment penetrations, including the total number, 1 size, and function.

3. A listing of normal operating instrumentation used for the leakage test.

O 4 ^ system iineuc cat iime of iest). showins reaeired vaive cositions and status of piping systems.

5. A continuous, sequential log of events from the initial survey of containment to restoration of tested systems.

6. Documentation ofinstrumentation calibrations and standards, including a sensor failure analysis.

7. Data to verify temperature stabilization criteria as established by test procedure (Appendix A).

8. The working copy of the test procedure that includes signature sign-offs of procedural steps.

9. The procedure and data that verifies completion of penetration and valve testing, including as found leak rates, corrective action, and final leak rates.

10. Computer printouts of ILRT data and automated data acquisition printouts along with a summary description of the computer program.

11

GP R 263103 GENERAL PilYSICS CORI' ORATION

11. The Quality Assurance audit plan or checklist that was used to monitor the IUIT with proper signoffs.

12. A listing of test exceptions including changes in the containment system boundaries.

13, Description of sensor malfunctions, repairs, and rnethods used to redistribute volume weighting fractions to operating instrumentation.

14. A review of confidence limits of test results with cecompanying computer printouts.

15. Description of the method ofleakage rate verification.

16. ILRT data plots obtained during the test.

17. De P&lDs of pertinent systems.

O h

O 12

O P R 263103 Gl!NERAL PilYSICS CORPollATION IV. ANALYSIS AND_lEIEJLPRETATION O

The upper 95% confidence limit (UCL) Total Time and Mass Point leakage rates calculated during the ILRT were less than the test acceptance criteria of 0.75 L, (0.225 % wt./ day). Additions to the calculated leakage rates must N made to account for penetration paths not exposed to the ll_RT pressure and for changes in the net free containment volume due to changes in containment water levei . These additions are discussed below, i

l A. Type C Penalties Penetration paths not expord to the ll.RT pressure and the corresponding minimum pathway leakage rates are as follows:

Pen.No. System I cakagc_Jlate (secm)

M 10 111151 C Train 32 + / 2 M 11 LilSI C Train 20 +/ 2 j M 14 1111S113 Train 93 + / 10 l M 15 LIISI Il Train 31 + / 2 M 18 IIIISI A Train 45 4/ 2 M 19 LHSI A Train 20 + / 2 l M 23 RCFC C Train Return 2150 + / 200 3 M 24 RCFC C Train Supply 4479 + / 200 M 25 RCFC A Train Supply 20 + /. 2 l M 26 RCFC A Train Return 110 + / 10 1

M 27 RCFC I3 Train Supp!y 20 + /- 2  ;

O M 28 RCFC n Train Reiurn 847 +/ 20 13

i' GP R 263103 GRNERAL PIlYSICS ColtPORN110N 4

Pen. No. Snlem Len}wge_ Rate (secm) hi32 ILRT Verification Test 32 4/ 2 i

M 33 CCW to RilR Pmp/lix A 21 4 /. 2 M 34 CCW ltcturn RIIR Pmp/lix A 220 + /. 20 M 35 CCW to RilR Pmp/lix 11 12,207 +/ 200 M 36 CCW Return RilR Pmp/lix 11 847 + / 20 M 37 CCW to RilR Pmp/lix C 142 + / 10 M 38 CCW Return RilR Pmp/lix C 847 + / 20 1

M 39 CCW Supply to RCPs 21+/.2 l M 40 CCW Return from RCPs 219 +/ 20 M46 CYCS Ixtdown 26 + / 2 ,

l M 47 RCP Seal Return Line 32 + / 2 M-48 CVCS Charging 2970 +/ 200 i M 53 CVCS letdown to RilR 20 + /- 2 i M 55 RilR Pmp B to RWST 71 + / 10 M 71 ILRT Depressurization 40 + /. 2 M 76 RilR Pmp C to RWST 20 + / 2 M 82(F) ILRT Pressure Monitoring 21+/.2 M 87 ILRT Depressurization 60 + /.10 l

The total applicable localleakage rate Type C penalty addition is 25,683 + /-

4N scem, which including the upper instrumentation error, is equivalent to 0.0104 % wt. per day, 1 0 14 1

l.

GP R 243103 GIINIIRAL PilYSICS CORPORX110N

13. Volume Change Corrections ,

ne following volumes were monitored for liquid level changes which would affect the containment net free volume:

Volume Monitored Level Change Volume Change Pressurizer 0 0 Normal Primary Sump 0 0 Nermal Secondary Sump 0 0 Ilased on the volumes monitored, there was no change during the ILRT to the containment net free volurne.

C. As Found ILRT Results The as found ILRT leakage rate including the required additions is as follows:

Total Time Mass Point h0S" Iday) hCS / day) 95 9o UCL Leakage Rate 0.1232 0.0564 Type C Penalties 0.0lN 0.0lN Volume Change 0.0000 0.0000 As Found 95 % UCL Leakage Rate 0.1336 0.0668 The as found Total Time and Mass Point 95 CE UCL leakage rates are less than the test acceptance criteria value of 0.75 L, (0.225 % wt./ day).

D. As Left ILRT Results No repairs or adjustments were made on a minimum pathway basis which O would require correction to the as found ILRT result.

15

G P R 243103 Gl!N!!RAL PIIYSICS ColtPoltATION l V. REFERENCES A. South Texas Project Electric Generating Station Department Procedure, OPSP11 lie 0007, Reactor Containment llullding integrated leakage Rate Test.

11. South Texas Project Electric Generating Station Unit 1 Technical Specifications.

C. South Texas Project Electric Generating Station Unit 1 Updated Final Safety Analysis Report.

D. Code cf Federal Regulations, Title 10, Part 50, Appendix J, Primary Reactor Containment leakage Testing for Water Cooled Power Reactors.

Q E. ANSI N45.41972, leakage Rate Testing of Containment Structures for Nuclear Reactors.

]

l l

F. ANSI /ANS 56.81987, Containment System leakage Testing Requirements.

l l

l O

16 l

. . l G P R 263103 GIINHitAI,l'IlYSICS Colt!'OltN110N l L

O A

l l

I b

O vi arcNoices l

I

(

1 1

1 l

l O

l 17 1

__-,...e - __ _ . . . . . . _ - , ye..< .. .%we--, . , . ,, , , , . -we w-- e.m,,,,,,_m., s,r, ,.- m-,%%e.,,3mg- . , - -r_ef7r- F w ' N'4 p W

• T

f I GP.R 263103 GENilltAI, PilYSICS CORPORN110N l

l O

l l

l l

l APPL!NDIX A i O STAllit.17ATION PilASE DATA l

6 l

l l

l l

l O

STABILI2ATION NODE TIME I 1851 OPTIONS HODE

SUMMARY

1 - MANUAL DATA ENTRY f OF DATA POINTS = 34 2 - PARAMETER ORAPHS MODE DURATION (IN HR8 ) = 0.266667 3 - SENSOR PLOT 8 TOT TIME MEASURED LEAR = 0.0618 4 - SENSOR DIFFERENTIAL 8 TOT TIME CALCULATED LEAK = .0710 5 - ANSI STABILIEATION TOT TIME 95% UCL = 0.6062 6 - BN-TOP-1 STAB. CRITERIA MASS PT LEAK = 0.0454 7 - ANSI CRITERIA PRINTOUT MA88 PT 95% UCL = 0.0621 8 - BN-TOP-1 CRITERIA PRINTOUT 9 - REPRINT CURRENT DATA POINT P - PA88 WORD MENU 0 - FLASHER OFF ANSI PRESSURE / TEMPERATURE STABLE CRITERIA MET EN-TOP TEMPERATURE CRITERIA MET POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMPS 81.18/ -0.035 AVG PRESS 54.179/ -0.005 MA888 962563.44/ ~28.063 AVG DEW PRESS 0.3643/ +0.0001 O 85.18e ,

UNIT 1::\ t

• = \

E " \' s, M

p --

x E ~~

R

p --

~'

~.,

T '

y --

p -.

s ,,

E .. N. -

.,,~-

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

__.~-

81.181_

i i i- i i i i 1035/ 9 TIME 1851/ 9

STABILIZATION CRITERIA ANSI 56.8 TE' e 56.8 56.8 4-1 PRESS 56.8 O TIME 1 HR 4 HR HR dP F/HR F/HR PDI/HR 8.27 81.18 -0.19 -0.25 -0.06 54.18 .0243 8.02 81.22 -0.20 -0.27 -0.07 54.18 .0243 7.77 81.27 -0.20 -0.28 -0.09 54.19 .0205 7.50 81.32 -0.22 -0.29 -0.07 54.20 .0?4d 7.25 81.37 -0.24 -0.31 -0.07 54.20 .0229 7.00 81.42 -0.25 -0.33 -0.00 54.21 .0254 6.75 81.47 -0.26 -0.35 -0.09 54.21 .0294 6.50 91.54 -0.28 -0.36 -0.07 54.22 .0261 6.25 81.61 -0.27 -0.39 -0.11 54.23 .0301 6.00 81.66 -0.30 -0.39 -0.09 54.23 .0276 5.75 81.73 -0.30 -0.43 -0.13 54.24 .0286 5.50 81.83 -0.28 -0.44 -0.16 54.25 .0340 5.25 81.8P .30 -0.47 -0.17 54.26 .0332 5.00 81.f e.33 -0.50 -0.17 54.2b .0364 4.75 82.0. 0.37 -0.54 -0.16 54.27 .0366 4.50 82.10 -0.39 -0.60 -0.21 54.28 .0390 4.25 82.18 -0.43 -0.66 -0.22 54.29 .0429 4.00 82.30 -0.44 -0.72 -0.28 54.30 .0484 3.75 82.40 -0.47 0.00 0.47 54.31 .0554 3.50 82.49 -0.47 0.00 0.47 54.32 .0505 3.25 82.62 -0.54 0.00 0.54 54.33 .0517 82.73 -0.50 0.00 0.50 54.35 .0544

()3.00 2.75 2.50 82.87 82.97

-0.56

-0.61 0.00 0.00 0.56 0.61 54.36 54.37

.0531

.0614 2.25 83.15 -0.59 0.00 0.59 54.30 .0649 2.00 83.23 -0.73 0.00 0.73 54.40 .0706 1.75 83.44 -0.74 0.00 0.74 54.42 .0728 1.50 83.58 -0.93 0.00 0.93 54.43 .0848 1.25 83.75 -1.07 0.00 1.07 54.45 .0953 1.00 83.97 -1.20 0.00 1.20 54.47 .1189 0.75 84.18 0.00 0.00 0.00 54.49 0.0000 0.50 84.51 0.00 0.00 0.00 54.52 0.0000 0.25 84.81 0.00 0.00 0.00 54.54 0.0000 0

Gl' It-263103 GilNIlltAl,I'lIYSIG Colti'OltATION i

O APPENDIX 11 ILRT TEST DATA AND l'1XriS O

TEST MOEE PLEASE SELECT THE OPTIO!1 YOU WISH TO USE: TEST DATA 19: 05 1 -

MANUAL DATA ENTRY a OF DATA POINTS  : 97 2 -

PARAMETER GRAPHS MODE DURATION (IN HOURS) 24

} 3 SENSOR PLOTS TOT TIME MEASURED LEAK = 0.0520 4 -

TREND AtJALYSIS TOT TIME CALlULATEP LEAK = 0.0892 5 -

REPRINT CUEREt1T DATA PT TOT TIME ~~N UCL 0.1232 6 -

SENSOR DIFFEREt1TIALS MASS POIN1 LEAK : 0.0524 MASE POINT 95% UCL : 0.0562 75% La : .225 P -

PASS WORD MENU MASS : 962060.8 L

SELECTED OPTION:

POINT.

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 78.91 / -0.044 AVG PRESS: 53.92 / +0.001 MASS: 962060.81 / +94.438 AVG DEW I'RESS: 0.3598 /-0.0019 0.73527. \

\

f.! NIT 1:: "

TOT. 1 TIME

\

ANAL: '. \

' ' s_~

NT'M

DAY  :: ._ %

LEGEND :  % -~ .. " - '

,g

= L ..

i., , _ _ - _

1 o  :: __

,\ _

. L [ np-,._ ^ - 1 A ,_ _ - , ,> s , _ _ _ _ _ _ ._, ,

g ,. ., s , ,,_ /3 ,

O . 0000" i. v,c , ~i,,,,.,,,,,,,,,,,,',,,,

, , , , 7 , -

i, {

O 1905)' TIME 1905/ 10 Ji

TEST MODE l

PLEASE SELECT THE OPT 10t1 YOU WISH TO USE: TEST DATA 19:05 I -

MANUAL DATA ENTRY a OF DATA Polt1TS  : 97 2 -

PARAMETER GRAPHS MODE DURATIO!1 (It1 HOURS)  : 24 3 -

set 1SOR PLOTS TOT TIME MEASURED LEAK = 0.0520 4 -

TREND ANALYSIS TOT TIME CALCULATED LEAK : 0.0892 5 -

REPhf NT CURREt1T DATA PT TOT TIME 95% UCL = 0.1232

'i -

SENSOR DIFFEREllTIALS MASS POINT LEAK : 0.0524 MASS POIt1T 95% UCL 2 0.0562 75% La : .220 P -

PASS WORD MENU MASS : 962060.8 SELECTED OPTION POIllT

SUMMARY

CURREt4T VALUE/DIFFEREt1CE FROM PREVIOUS POINT AVG TEMP: 78.91 / -0.044 AVG PRESS: 53.92 / +0.001 MASS: 962060.81 / 494.438 AVG DEW PRESS: 0.3598 /-0.0019 0.3810: I gNIT1:: "

MASS HNAL. ::

WT' A/

DAY  ::

LEGEND" " 'g

= L ..

-- \ ,./ '\, ...

,__/.>',_.-___

"' ^

' '~_.,

==.__

• C*-

p 0.0000 -

,, ,,,,,,,,,,,,,,,,,,,,,,i O

1905/,9 TIME 1905/ 10 l

TEST MODE PLEASE 3 ELECT THE OPTION YOU WISH TO USE: TEST DATA 19:05 1 -

mat!UAL DATA E'1TRY 88 OF DA'I A POINTS  : 97 2 -

PARAMETER GRAPHS MO '- DURATION (IN HOURS)  : 24 3 -

SENSOR PLOTS Tor TIME MEASURED LEAK : 0.0520 4 -

TREND ANALYSIS ' LOT TIME CALCULATED LEAK : 0.0892 5 -

REPRINT CURRENT DATA PT TOT TIME 95% UCL : 0.1232 6 i SE!!SOR DIFFERENTI ALS MASS POINT LEAK = 0.0524  !

MASS POIt1T 95% UCL = 0.0562 75% La : .225 P -

PASS WORD Mc.NU HASS : 902060.8 SEISCTED OPTION:

POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT 1

AVG TEMP: 78.91 / -0.044 AVG PRESS: 53.92 / +0.001 i MASS: ) 2060.81 / +94.438 AVG DEW PRLSS: 0.3598 /-0.0019 l 54,173;:3, NIT 1 "..\ s p -

k. ,

R " \

E " N.'

S "

l S " \

U \

g --

~

s E .. N.

PSIh  :: N x ~._,

s

\

I

~ .J\

s

.- s k

. ,f r g 4

1 53.922" , ,

,,,,,,,,,,,,,,,,,,7,,.,,

.O 1905/ 9 TIME 1905/ 10

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

TEST MODE PLEASE CELECT THE OPTION YOU WISH TO USE: TEST DATA 19:05 1 -

MANUAL DATA ENTRY 2 a OF DATA POINTS  : 97 PARAMETER GRAPHS MODE DURATION (IN 'iOURS )

3 -

SENSOR PLOTS

24 4 -

TREND ANALYSIS TOT TIME MEASURED LEAY. : 0.0520 5 - TOT TIME CALCULATED LEAK = 0.0892 REPRINT CURRENT DATA PT TOT TIME 95% UCL 0.1232 6 -

SENSOR DIFFERENTIALS MASS POINT LEAK = 0.0524 MASS POINT 95% UCL = 0.0562 P

75% La : .225 PASS WORD MENU HASS = 962060.8 SELECTED OPTION:

POINT

SUMMARY

l CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 78.91 / -0.044 AVG PRESS: 53.92 / +0.001 MASS: 962060.81 / +94.438 AVG DEW PRESS: 0.3598 /-0.0019 l

i 1

81.127'.. -

UNIT 1:N g

'N l

' E

\

M "

'N p --

E " 's' R -

A

T "

U " N R N E  ::

'N._,

u' p

s_.

s

-- s N.

~. .

! 78'o11" ' '

:  :  :  :  :  :  :  :  :  : -:  :  :  :  :  :  :  :  :  : t :4 O 1905/ 9 TIME 1905/ 10

TEST MODE PLEASE SELECT THE OPTION YOU WISH To USE: TEST DATA 19:05 1 -

MA!1UAL DATA EN'I..Y a OF DATA POINTC .,

97 2 -

PAhAMETER GRAPHS MODE DURATION (IN HOURS) : 24 4

3 -

SEhSOR PLOTS TOT TIME MEASURED LEAR = 0.0620 4 -

TREND ANALYSIS TOT TIME CALCULATED LEAL : 0.0892 5 -

REPRINT CURRENT DATA PT 6

TOT TIME 95% UCL = 0.1212 SENSOR DIFFERENTIALS MASS point LEAK = 0.0524 MASS POINT 95% UCL = 0.0562 75% La : .225 P -

PASS WORD MENU -

MASS : 902060.8 SELECTED OPTION: -

POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 78.91 / -0.044 AVG PRESS: 53.92 / +0.001 MASS: 962060.81 / 494.438 AVG DEW PRESS: 0.3598 /-0.0019 70.1547l f 4

U / 'i l i l

/,J s/ni . A is, .i c) NIT l', g

%y - -

' l hn s

i f

9 v

n . .

3fVy',j"i,rjjtq i /s (,A,. dd 3 i V

! yI /gYys, G  :: ,

/ l D "

i E

g ..

T "

E ~~

M ~~

V ..

.p- - -

l 68.934" ,,

,,,,,,,i O 1905/ 9 TIME 1905/ 10

. - - . ~ . _ ,

__ _ _ _ _ _ . ._._..___ __.___.-~_ _ _.._. ___ _

TEST MODE O PLEASE YOU WISHSELECT TO USE: THE OPTION TEST DATA 19:05 l

l 1 -

MANUAL DATA ENTRY a OF DATA POINTS : 97 2 -

PARAMETER GRAPHS MODE DURATION (IN HOURS) = 24 3 -

SEtJSOR PLOTS TOT TIME MEASURED LEAK = 0.0520 4 -

TREND ANALYSIS TOT TIME CALCULATED LEAK = 0.0892 l 5 -

REPRINT CURRENT DATA PT TOT TIME 95% UCL = 0.1232 6 -

SENSOR DIFFERENTIALS MASS POINT LEAK = 0.'3524 MASS POINT 95% UCL = 0.0562 75% La = .225 i P -

PASS WORD MENU MASS : 962060.8 l SELECTED OPTION: ,

l POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 78.91 / -0.044 AVG PRESS: 53.92 / +0.001 MASS: 962000.81 / +94.438 AVG DEW PRESS: 0.3598 /-0.0019 l

l 0.365 .

I l g '4

$.INIT 1" , Yi (4 t M r m>,.J, l f4,ph y %j s0 n

y i 9 v( 9 A I i ys ),\,

/ <,di\gI 3

! \.'

V ,

G  : ', \1 j

/

y . .

.p ..

R ..

P " l R "

E l 3

S l l

l

l o8 _

t.

t i

. e.

t

. e. I. s. e. a. e. a.

e

. e.

n i

e a

,e g

g l

1905/ 9 TIME 1905/ 10 l

TEST MODE l

l PLEASE SELECT THE OPTION YOU WISH TO USE: TEST DATA 19:05 l 1 -

MANUAL DATA ENTRY  :: OF DATA POI!JTS  : 97 2 -

PARAMETER GRAPHS MODE DURATION (IN HOURS)  : 24 3 -

SENSOR PLOTS 'IOT TIME MEASURED LEAK = 0.0520 l 4 -

TREND ANALYSIS TOT TIME CALCULATED LEAK : 0.0892 '

S -

REPRINT CURRENT DATA PT TOT TIME 95% UCL : 0.1232 6 -

SENSOR DIFFERENTIALS MASS POINT LEAK : 0.0524 MASS POINT 954, UCL : 0.05G2 75% La : .225 P -

PASS WORD MENU MASS : 962060.8 i l

SELECTED OPTION:

POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 78.91 / -0.044 AVG PRESS: 53 92 / +0.001 MASS: 962060.81 / +94.438 AVG DEW PRESS: 0.3598 /-0.0019 l

l 1

9.6265]'l i, i dlNIT 1:: ) iil W l ' ,"

MASS : : j

.. 5.fs,  !

" 8 LBM '

X10^5 ::

'p/\r\ h i

l,! ki\ ,

I t q.,

s .

.. i /

l  ::

t)[\S 'a, 1

% q)/ \ n) N

\

N, l -

\\'W[j/ ,a  ;

i  ;

I l

9.6197" ,

i O 1905/ 9 TIME 1905/ 10 l

l

. 4 AVG DATA VALUES UNIT # 1 D ATE TIME T(I) P(I) DT(I) VP(I) MASS (I)

O ---------------- ----------------------.--------------------------

9 0.00 82.13 54.17 70.15 0.365 962562 9 0.25 81.06 54.17 69.97 0.363 962649 9 0,00 81.02 54.17 69.99 0.363 962609 9 0.75 80.98 54.16 69.93 0.362 962593 9 1.00 80.92 54.15 70.15 0.365 962555 9 1.25 00,87 54.15 69.83 0.361 962634 9 1.50 80.84 54.14 70.02 0.363 962514 9 1.75 80.81 54.14 69.98 0.363 962594 9 2.00 80.77 54.14 70.15 0.365 962541 9 2.25 80.73 54.13 70.00 0.363 962543 9 2..b0 60.66 54.13 70.08 0.364 962035 9 2.75 60.62 54.12 70.03 0.363 962523 9 3.00 80.54 54.11 69.94 0.362 962524 9 3.25 00.52 54.11 70.04 0.363 962447 e

9 3.50 80.47 54.10 70.02 0.363 962460 9 3,75 80.44 54.10 70.06 0.364 962439 9 4.00 80.39 54.10 69.97 0.363 962485 -

9 4.25 80,36 54.09 69.04 0.362 962474 9 4.50 80.33 54.09 70.01 0.363 962457 9 4.75 80.31 54.08 70.10 0.364 962426 10 5.00 80.28 54.08 70.02 0.363 962423 10 0.25 80.26 54.08 69.99 0.363 96238?

10 5,50 80.20 54.07 69.96 0.362 982390 10 5.75 80.16 54.06 70.05 0.364 962342

, . 10 6.00 80.11 54.06 69.99 0.363 962380 10 6.25 80.09 54.06 70.03 0.363 962361 10 6.50 80.06 54.05 70.00 0.363 962335 10 6.75 80.02 54.05 69.93 0.362 962378 10 7.00 79.99 54.05 69.97 0.363 962375 10 7.25 79.96 54.05 69.97 0.363 962365 10 7.50 79.95 54.04 69.94 0.362 962339 10 7.75 79.92 C4.04 69.96 0.362 962328 10 8.00 79.92 54.04 69.99 0.363 962280 10 8.25 79.86 54.03 69.94 0.362 962360 10 8.50 79.84 54.03 69.91 0.362 962343 10 8.75 79.85 54.03 69.98 0.363 962284 10 9.00 79.79 54.03 39.95 0.362 962329 10 9.25 79.81 54.03 69.96 0.362 962287 10 9.50 79.78 54.02 70.01 0.363 962277 10 9.75 79.74 54.02 69.96 0.362 962279 10 10.06 79.71 54.02 69.97 0.363 962281 10 10.25 79.67 5'.01 70.08 0.364 962250 10 10.50 79.65 54.01 70.11 0.364 962222 10 10.75 79.65 54.01 69.93 c . n32 962227 10 11.00 79.58 54 00 69.83 L. cal 962317 10 11.25 79.59 54.00 69.89 0.362 962242 10 11.50 79.57 54.00 70.03 0.363 962191  !

10 11.75 79.53 54.90 22.31 0.362 962243 10 12.00 79.51 53.99 69.96 0.362 962235 10 12.25 79.51 53.99 69.89 0.362 962187 O 10 11.50 79.47 53.99 69.94 0.362 962230

GP-R-263103 GIINEllAL PilYSICS CORPOllATION l

O APPENDIX C VERIFICATION TEST DATA AND PIDTS O

AVG. DATA VALUES UNIT # 1 4

D TIME T(1) P(I) DT(I) VP(I) MASS (I)

O ..--------.--------------------------------------------------------

10 ATE 12.75 79.47 53.99 69.89 0.362 962206 10 13.00 79.44 53.98 69.99 0.363 962182 10 13.25 79.43 53.98 69.86 e.361 962212 10 13.50 79.43 53.98 69.93 0.362 962163 10 13.75 79.40 53.98 69.93 0.362 962185 '

10 14.00 79.37 53.96 70.00 0.363 962189 '

10 14.25 79.35 53.98 69.96 0.362 962210 10 14.50 79.37 53.98 69.88 0.361 962183 10 14.75 79.36 53.97 69.89 0.362 962161 10 15.00 79.32 53.97 69.99 0.363 962195 10 15.25 79.33 53.97 69.96 0.382 962164 10 15.50 79.30 53.98 68.93 0.350 962384 10 15.75 79.26 53.97 69.90 0.362 962186 l 10 16.00 79.23 53.96 69.98 0.363 962181 10 16.25 79.21 53.96 69.98 0.363 962184 10 16.50 79.22 53.96 69.85 0.361 962163 10 16.75 79.22 53.96 69.94 0.362 962112 10 17.00 79.20 53.96 69.89 0.362 962112 10 17.25 79.16 53.95 69.84 0.361 962172 10 17.50 79.15 53.95 S9.64 0.361 962163 10 17.75 79,13 53.95 69.77 0.360 962193 10 18.00 79.14 53.95 69.97 0.363 962084 10 18.25 79.11 53.95 69.89 0.362 962135 10 18.50 79.11 53.95 69.88 0.361 962148 10 18.75 79.09 53.95 69.89 0.362 962143 O 10 10 19.00 19.25 79.08 79.06 53.94 53.94 69.99 69,89 0.363 0.362 962108 962157 10 19.50 79.07 53.95 69.06 0.352 962306 10 19.75 79.04 53.95 69.11 0.352 962326 10 20.00 79.05 53.95 69.33 0.355 962229 10 20.25 79.04 53.95 69.13 0.352 962259 10 20.50 79.02 53.94 69.74 0.360 962143 10 20.75 79.00 53.94 69.88 0.361 962123 10 21.00 79.00 53.93 69.97 0.363 962092 10 21.25 79.02 53.93 69.88 0.361 962058 10 21.50 78.97 53.93 69.87 0.361 962129 10 21.75 78.99 53.93 69.97 0.362 962045 10 22.00 78.99 53.93 69.82 0.361 962055 10 22.25 78.95 53.93 69.91 0.362 962104 10 22.50 78.94 53.93 69.83 0.361 962110 10 22.75 78.93 53.93 69.85 0.361 962107 10 23.00 18.94 53.93 69.91 0.362- 962038 10 23.25 78.92 53.92 69.84 0.361 962078 10 23.50 78.91 53 '2 69.77 0.360 962089 10 23.75 78.95 53. '2 69.90 0.362 961966 10 24.00 78.91 53.92 69.75 0.360 962061 l

(

-,s ,m-- -,-- ,,--mr -~ - - - -

a , -- ,,--------~~-------,-v.-- . . - - , - , - - . - - - - - - --

1 VERIFICATION MODE TIME: 2341 OPTIOt1S:

TEST

SUMMARY

I 1 -

MANUAL DATA ENTRY a OF DATA POINTS : 19 i I 2 -

PARAMETER GRAPHS MODE DURATION (IN HorJRS) = 4.349998 f V3 -

SENSOR PLOTS TOT TIME MEASURED LEAK = 0.3074 1 1 -

TREND AN ALYS'.' S 5 TOT TIME CALCULATED LEAK = 0.3312 l REPRIt1T CURRENT DATA PT 6 -

SENSOR DIFFERENTIALS MASS PT LEAK 0.3151

, 7 -

FLASHER OFF IMPOSED LEAK : 0.2978 0 -

PASS WORD MENU TOT "'IME UPPER LIMIT = 0.4620 TOT TIME LOWER LIMIT = 0.3120 MASS PT UPPER LIMIT = 0.425S SELECTED OPTION = MASS PT LOWER LIMIT : 0.2753 TOT TIME VERIFICATION CRITERIA HAS BEEN MET MASS PT VERIFICATION CRITERIA HAS BEEN MET l POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT t AVG TEMP: 78.75/ -0.006 AVG PRESS: 53.876/ -0.001 MASS: 961518.31/ -11.313 AVG DEW PRESS: 0.3606/+0.0002 l

0.662Off  !

IJNIT l'_~ .

, kOT . "

TIME ANAL.

1 W T /' . / ~.

-Q' \

DAY ..

i e - <

~-

u' N ____ _ ,

t _ __ _

v, -

s., -

l LEGEND" " /

= L ..

l 1,

lI

.. ,1

/

0. 0000~:/ ,

, i

! O 192e/ 1e TIME 2341r le

I i

VERIFICATIO!1 MODE TIME: 2341  !

OPTIO!1S: TEST SUMMAkY 1 -

MAtiUAL DATA Et1TRY a OF DATA POINTS : 19 .

2 -

PARAMETER GRAPHS MODE DURATION (IN HOURS)  : 4.349998 3 -

set 1SOR PLOTS TOT TIME MEASURED LEAK : 0.3074 4 -

TREt1D ANALYSIS TOT TIME CALCULATED LEAY. : 0.3312 5 -

REPRINT CURREt1T DATA PT MASS PT LEAK = 0.3161 6 -

SENSOf: DIFFERENTIALS 7

IMPOSED LEAK = 0.2978 FLASilER OFF TOT TIME UPPER LIMIT 0.4620 P -

PASS WORD MENU TOT TIME LOWEh LIMIT 0.3120 MASS PT UPPEh LIMIT = 0.4253 SELECTED OPTION : MASS PT LOWER LIMIT = 0.2753 TOT TIhE VERIFICATION CRITERIA HAS BEEN MET MASS PT VERIFICATION CRITERIA HAS BEEN MET POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG IEMP: 78.75/ -0.006 AVO PRESS: 53.876/ -0.001 MASS: 961518.31/ -11.313 AVG DEW PRESS: 0. 3606/+ 0. 0002

0. 6 6 2 0~; '

UNIT 1 kASS -

ANAL.

'~

WTX/ "

DAY ,s

.. ,./

,, s.%

~___ __

LEGEND" "

I

= L ..

.. j 0,0000" f ,

O 1920/ 10 TIME 2341/ 10 l

VERIFICATIOtt MODE TIME: 0341 GPT10t1C : TEST

SUMMARY

1 mal 1UAL DATA Et1TRY # OF LATA Polt1TS : 19 t'oos oua^t or: <2ti "ouas) = 4 349888 O2 3 e^n^" sten oa^e"s set 1SOR PLOTS TOT TIME MEASURED LEAK 0.3074 4 -

TREt1D At1ALYSIS TOT TIME CALCULATED LEAK : 0.3312 L -

hEPRit1T CURREt4T I ATA PT MASS PT LEAK : 0.3151 6 -

set 1SOR DIFFERE!4TI ALS IMPOSED LEAK = 0.297e 7 -

FLA?HER OFF TOT TIME UPPER LIMIT = 0.4620 P -

PASS WORD MENU TOT TIME LOWER LIMIT = 0.3120 MASS PT UPPER LIMIT = 0.4253 SELECTED OPTI0t1 : MASS PT LOWER LIMIT : 0.2753 TOT TIME VERIFICATION CRITERIA HAS BEEN MET MASS PT VERIFICATION CRITERIA HAS BEEti HET POINT

SUMMARY

CURRE!1T VALUE/ DIFFERENCE FROM PREVIOUS P'0 INT AVG TEMP: 78.7E / -0.006 AVG PRESS: 53.876/ -0.001 MASS: 961516.31/ -11.313 AVG DEW PRESS: 0.3606/+0.0002 54.283".. .

UNIT 1". '- s

. s OP -. 's's E

E

s.

S  :: .' s ,

S N U " .'

R "

s.

E '.~_

PSIA ..~~ ~

~,

s. , .

s..' .

54.237

' ~. . ;

O 1920/ 10 TIME 2341/ 10

VERIFICATIOt1 MODE TIME: 2341 OPTIONS: TEST

SUMMARY

1 -

MA'JUAL DATA E!JTRY # OF DATA POINTS : 19 O23 -

PARAMETER GRAPHS SENSOR PLOTS MODE DURATION <IN HOURS)

TOT TIME MEASURED LFAK : 0.3074

= 4.349998 4 -

TRENL AtlALYSIS TOT TIME CALCULATED LEAK = 0.3312 5 -

REPRINT CURREtJT DATA P1 MASS PT LEAK : 0.3151 6 -

set 1SOR DIFFERENTIALS IMPOSED LEAK = 0.2978 7 -

FLASHER OFF TOT TIME UPPER LIMIT = 0.4620 P -

PASS WORD MENU TOT TIME LOWER LIMIT = 0.3120 MASS PT UPPER LIMIT = 0.4253 SELECTED OPTION : MASS PT LOWER LIMIT : 0.2753 TOT TIME VERIFICATION CRITERIA HAS BEEN MET MASS PT VERIFICATIO!1 CRITERIA HAS BEEN MET POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 78.75/ -0.006 AVG PRESS: 53.876/ -0.001 MASS: 961518.31/ -11.313 AVG DEW PRESS: 0.3606/+0.0002 78.8977.. s,

, A UNIT 1

\./ '

is. a

,3

.. \ / )

.. V \

M \

p --

E -

p - -

x, A --

's, /'sy 3 __,-

u s

R "

\

E \

g,f,~~~~~s, r <

. p. - -

3s,

... 's s

.. y 78.748" ,

O 192er le TIME 2341/ le l

l __ _ _. _ _ _ - - - . . --

VERIFICATIOt1 MODE TIME: 2341 OPTIO!1S: TEST

SUMMARY

1 -

mat 1UAL DATA Et1TRY n OF DATA PO!t1TS = 19 e2 -

PARAMETER GRAPHS MODE DURATIOt1 1It1 HOURS)  : 4.349996 3 -

set 1SOR PLOTC TOT TIME MEASURED LEAK = 0.3074 4 -

TRE!1D AtlALYSIS TOT TIME CALCULATED LEAK : 0.3312 5 -

REPRINT CURREt1T DATA PT MASS PT LEAK : 0.3151 6 -

SENSOR DIFFERENTIALS IMPOSED LEAK : 0.2976 7 -

FLASHER OFF TOT TIME UPPER LIMIT = 0.4620 P -

PASS WORD MENU TOT TIME LOWER LIMIT = 0.3120 MASS PT UPPER LIMIT = 0.4253 SELECTED OPTION : MASS PT LOWER LIMIT : 0.2753 TOT TIME VERIFICATION CRITEWJ1. lb S BEEN MET MASS PT VERIFICATION CM Ti'Rd HAS BEEN MET POINT

SUMMARY

CURRENT VALUE/DIFFERENE F'i h JREVIOUS POINT AVG TEMP: 76.75/ -0.006 AVG PRESS: 53.676/ -0.001 MASS: 961518.31/ -11.313 AVG DEW PRESS: 0.3606/+0.000?

69.892".

UNIT l 'q

!4u

:;g

, s.,

/j G / \ j k

\ < . ,ts,.. ,

, t l.\

D --

\. Il \ / \

E "

t f t,

3

% /

/ l 1

H I i 5 T ' '

/

t '

l I 't >

l1 i, ,

T l 'l \ / (I g i' . ~~

E

.. \, \/ \ l s l \ /

" i V , \ >

l H

\  ! /

E \

F 5

l(

l

\/

69.710 ,

i O 1920/ 10 TIME 2341/ 10

/ERIFICATIOl1 MODE TIME: 2341 OPTICSS: TEST

SUMMARY

1 -

MANUAL DATA ENTRY a CF DATA POINTS : 19 PARAMETER GRAPHS MODE DURATION (Iti HOURS) : 4.349996 O23 -

SEf1SOR PlhTS TOT TIME HEASURED LEAK : 0.3074 4 -

!RE!1D ANALYSIS TOT TIME CALCULATED LEAK 0.3312 6 -

REPRINT CUkkENT DATA PT MASS PT LEAK : 0.3161 6 -

2E!!SOR DIFFERENTI ALS IMPOSED LEAK : 0.2978 7 -

FLASHER OFF TOT TIME UPPER LIMIT = 0.4620 P -

' ASS WORD MENU TOT TIME LOWER LIMIT = 0.3120 MAGS PT UPPER LIMIT : 0.4253 SELEr'TED OPTION : MASS PT LOWER LIMIT : 0.2763 TOT TIME VERIFICATION CRITERIA HAS BEEN MET MASS PT VERIFICATIOt1 CRITERIA HAS BEET 1 MET iv1NT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 78.75/ -0.006 AVG PRESS: 53.876/ -0.001 MASS: 961518.31/ -11.313 AVG DEW PRESS: 0.3606/+0.0002 0.362" LINI T l' i i .

$U ~

~ 'I

. ll g -

-1 </ \,s i

!I y

.\ { \

j

{y l h

" ( / k' \ /

P l i I

\\ / j R

(i ,

~

I ll

\ i l / t /

g

\ <' \ \ l 1

f. -

R P "

I,l' \/ \

V l \\ '

l \

• I \~/

E \ l -

s 3

g ..

l l

l 0.359 -

, , , , F O 1920/ 10 TIME 2341/ 10

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

VERIFICATI0t1 MODE TIME: 2341 OPTIOtJS: TEST

SUMMARY

1 -

mat 1UAL DATA Et1TRY # OF DATA POItiTS : 19 PARAMETER GRAPHS MODE DURATIotl (Iti HOURS) = 4.349998 O- 03 -

SENSOR PLOTS TOT TIME MEASURED LEAK : 0.3074 4 -

TREND ANALYSIS TOT TIME CALCULATED ' EAK = 0.3312 5 -

REPRINT CURREt1T DATA PT MASS PT LEAK : 0.3151 6 -

SENSOR DIFFERENTIALS IMPOSED LEAK = 0.2978 7 -

FLASHER OFF TOT TIME UPPER LIMIT = 0.4620 P -

PASS WORD MENU TOT TIME LOWER LIMIT = 0.3120 MASS PT UPPER LIMIT = 0.4053 SELECTED OPTION : MASS PT LOWER LIMIT : e.2753 TOT TIME VERIFICATION CRITERIA HAS BEEN MET MASS PT VERIFICATION CRITERI A HAS BEEN MdT POINT

SUMMARY

CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 78.75/ -0.006 AVG PRESS: 53.870/ -0.001 MASS: 961518.31/ -11.313 AVG DEW PRESS: 0. 3606 /+ 0. ( 302 9.62057 .

UNIT 1 "..

\. N n,

Y ASS

.. N.,

s

.. r s

LBM 'v'N l

X10^5 ". .

'.s l

's ,

...~

g ,

.. Y ,

s.s l

I

~

'g N

i

< 9.6152." ,

,' -s O 1920/ 10 TIME 2341/ 10 l

i .

AVG. I)ATA VALUES UNIT a 1 "

---

b-----

b--.362 .962054 10 0.00 78.90 53.92 69.89 0 10 0.33 78.88 53.92 69.77 0.360 962042 1 10 0.00 78.89 53.92 69.83 0.361 961991 10 0.75 78.88 53.91 69.85 0.361 961958 10 1.00 78.86 53.91 69.83 0.361 961917 10 1.25 78.88 53.91 69.77 0.360 961858 10 1.50 78.85 53.91 69.80 0.360 961878 10 1.75 78.85 53.90 69.71 0.359 961830 10 2.00 78.83 53.90 69.84 0.381 961791 10 2.25 78.82 53.90 69.81 0.361 961767 l 10 2.50 78.82 53.90 69.76 0.360 961747 10 2.75 78.83 53.89 69.80 0.360 961680 i 10 3.00 78.78 53.89 69.82 0.361 961718 l 10 3.25 78.80 53.89 69.87 0.361 961634 10 3.50 78.80 53.89 69.76 0.360 961598 10 3.75 78.79 53.88 69.76 0.360 961577 10 4.00 78.77 53.88 69.79 0.360 961530 10 4.25 78.75 53.88 69.79 0.360 961530 10 4.35 78.75 53.88 69.81 0.361 961518 I O

L 1

O

GP-R 263103 G11NEllAl, P1lYSICS ColtPoltN110N O

APPENDIX D INSTRUMENT SELECTION GUIDE CAlfUIATION 1

l l

1 0

f 8 GP-R 263103 GENERA L PilYSICS CORPORATION i

INSTRUMENT SEllICllON GUIDE CALCUIEFION O

A. TEST PARAMElliRS La = 0.3%/ day P = 53.9 psia T = 538" R Tdp = 69.8 F t = 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> i

B. INSTRUMENT PARAMETERS l

1. Total Absolute Pressure l No. of Sensors = 1 Range: 0 100 psia  !

, O Sensor sensitivity error (E): 0.001 psia Measurement system error (c):

Resolution: 0.001 psia Repeatability: +/ 0.002 psia e = +/- ((0.001)2 + (0.002)2)1/2 l

e = +/- 0.00224 psia ep = +/- ((0.001)2 + (0.00224)2)1/2 j(i)1/2 ep= +/- 0.00245 psia

2. Water Vapor Pressure No. of Sene,rs = 6 Sensor sensitivity error (E): 0.1 F

GP R-263103 GENERAL PilYSICS CORPORATION Page 2 of 3 L

Measurement system errror (e):

Resolution: 0.01" F Repeatability: + /- 0.02 F e = + /. ((0.01)2 + (0.02)2)1/2 e = + / 0.02236 F i 1

At a dewpoint of 69.8 F, the equivalen'. water vapor pressure change (as l determined from steam tables) is 0.0118 psia / F.

E = + /- 0.1 F (0.0118 psia / F)

E = +/- 0.00118 psia e = + /- 0.02236" F (0.0118 psia /" F) i e = + /- 0.00026 psia  ;

e py = +/- ((0.00118)2 + (0.00026)2)1/2 /(6)1/2 e py = +/- 0.00049 psia

3. Temperature No. of Sensors = 24 Sensor sensitivity error (E): +/- 0.01 F Measurement system error (c):

Resolution: 0.01" F Repeatability: +/- 0.054 F e = +/- ((0.01)2 + (0.054)2)1/2 e = /- 0.055 F = + /- 0.055 R eT = +/- ((0.01)2 + (0.055)2)1/2 /(23;1/2 O er = /- o.oi>6s" n

GP R-263103 GENERAL PIIYSICS CORPORATION 1

l l

Q O

Page 3 of 3 l

4. Instrumentation Selection Guide Formula ISO = +/- 2400/t (2(e p/P)2 +2(e ps/P)2 +2(eT/T)2)1/2 ISG = +/- (2400/24) (2(0.00245/53.9)2 + 2(0.00(149/53.9)2

+ 2(0.01165/538)2)1/2 ISG = +/- 0.007 %/ day O

l O

. _ , . . ~ .

GP-R-263103 GFN!!RAl. PilYSICS CORPORNIlON l

O  !

4 l

l l

i APPENDIX E GENERAL PilYSICS ILRT COMPUTER PROGRAM DESCRIPTION i

IO

l GP-R 263103 GIINiiltAL PilYSICS ColtPoltNI'lON l l

l l

DESCRil'IlON OF GENIIRAL PilYSICS IlJtT COhtlUll!R PROGRAhi ,

The following paragraphs describe the various features and attributes of the General Phy. sics ILRT Computer Program and the process used to certify it for each application.

RIIDUNDANCY The General Physics ILRT team was equipped with two fully operational lithi compatible microcomputers during the ILRT and for on site data reduction and analysis. The computer software and hardware interfaced directly with the ILRT hicasurement System Data Acquisition System (Fluke 228011),

i Two computers were brought on site for 100% redundancy, as each computer and its software is capable of independently performing the ILRT. The General Physics ILRT Computer Software is also capable of accepting manual input of raw sensor lO data a#o verrormias aii re9uirca sea >or oata cooversioos it the data iosser shouio l cease to function. Each computer was equipped with back-up discs in the unlikely event of a disc " crash."

i I

O

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

GP R-263103 GIINIIRAL PilYSICS CORPORN110N O

S!!CURrrY The General Physics ILRT Computer Program is written in Illhi's 11ASICA.

IIASICA is a high level programming language which combines programming case with user oriented command functions to create an easy to use and understand program, in order to increase speed of operation the program was then compiled into an executable command file. Compiling was accomplished using the Illhi Basic Compiler. In addition to execution speed, this had the added benefit of making the program more secure as compiled programs cannot be edited or changed. The program requires a password to change modes of operation, start times, or enter the data editing routine to safeguard the integrity of the raw data files.

FEATURES l

O The program itself is designed to be a menu driven program consisting of five separate, menu driven operating modes. These are the:

1

1. Pressurization hinde 4. Verification hiode 2, Stabilization hiode 5. Depressurization hiode

3. Test hiode O

c6 h E e:{ ~ ' 39 IMAGE EVALUATION o

\/,o//

j

' '. , g U TEST TARGET (MT-3) '%,//"5 7

\ff ,

1. 4 k3 to 4' s 1.0 ~ s 2, J ,

bM 1.25 l l 1.6 s=sa L =I.4

, = .

4 150mm -

4 _ _ _ _ _ .---

6" - - - - - - - - ---

h?

4}JP /f*\\

l}jDr(,y,f7( R($ sp g,, y

B e

,e '-

qO.-.

w

\/g/

" 'g IMAGE EVALUATION /// /

TEST TARGET (MT-3) , \NN ['> 3

\\\\\/// j g

'o v+ ,y, I.0 M "

q" =2 0 l,l ,2-Br1 i l.25 1.4 1 i== ,em a.6 7

4 --

150mm >

4._____.._______ ___._.-

6" -- -

l, '

,;c cW/f 4 O

ni ,

4 L&

y

. . . . _ .. 4

++ g u' '

+

-^

'g " IMAGE EVAL.U ATION o

\)g/,9 / '

': 3 TEST TARGET (MT-3) .

f phi z,{

4> 4

l.0 .

22 U20 l,l u:s s M

1.25 i 1.4 l == H 1.6L g____-.-- - 150mm -- ->

I 4.__ . - - - - - -

6" -- - - ' --

l kh 4f

/

4 II'gg, gp ' '"

Msp c,7 fy,,,,y ,.

o #[;

GP-R-263103 GENERAL PIIYSICS CORPORATION These modes also correspond to the phases of the ILRT, Menu driven means that c)

' the user is presented with a list of options that the program can perform and from which the user can choose, it allows for interactive information exchange between the user and the computer and prevents invalid infonnation or user mistakes from l crashing the program. Program organization c.ansists of a master menu which controls access to the seven operating modes chained to the individual menus which control these modes. The data processing, information display capabilities and I fuuction of each mode is as follows: ,

1 I

1. Pressurization Mode: All data reduction, graphic displays of average  !

temperature, dewpoint, and corrected pretsure.

2. Stabilization Mode: All data reduction, automatic comparison of dcta against ANSI 50.6 a'id BN TOP 1 tempe.ature stabilization criteria, notification when criteria is met, graphic displays of average temperature, dewpoint, and corrected pressure.

p~

3. Test Mode: All data reduction, calculation ofleakage rates using mass point, total time and point to-point analysis techniques, display of trend report information required by BN TOP 1, graphic display of avernge temperature, dewpoint, pressure and mass, as well as graphic display of mass point measured leakage,95% UCL; total time measured and calculated leakage and the total time leakage rate at the 95% UCL (as calculated by BN-TOP 1),

including a superimposed acceptance criteria line).

i 4 Verification Test Mode: With input of imposed leakage in SCFM automatically calculates and displays on graph and trend report the acceptance criteria band, plus all graphics displays available in test mode.

5. Deoressurization Mode: All data and graphics capabilities of Pressurization Mode. In programs for BWR units, this mode also includes a Drywell to Suppression Chamber Bypass Test routine.

! fJ l

GP-R 263103 GENERAL PIIYSICS CORPORATION g

V Other reduction and analysis capabilities of the General Physics ILRT compu: -

program include:

1. Containment total pressure conversion from counts to psia (if required), and averaging.

2. Containment drybulb temperature weighted averaging and conversion to absolute units.

3. Containment dewpoint temperature weighted averaging (conversion from Foxboro deweell element temperature to dewpoint temperature if required) and conversion to partial pressure of water vapor (psia),

3 4. Data storage of ILRT measurement systeni inputs for each data point.

(G

5. Weight (mass) point calculations using the ideal gas law.

6. Automated Data Acquisition and/or Manual Data Entry.

7. Sensor performance and deviation information for sensor failure criteria, graphic display of individual sensor performance for selected operating mode.

8. Calculation of ISG formula at beginning of test; acceptance criteria based on number of sensors remaining and actual test duration.

9. Computer System Error Functions automatically checks for error in incoming data, printer or disk drive faults.

A V

GP R-263103 GENEllAL PilYSICS COllPOllATION The computer program used by General Physics has been previously certified for six O tests at 'ae San Onofre Nuclear Generating Station and over a dozen other ll_RTs.

The initial certification required verification of the program through hand calculations and an independent review by Bechtel Power Corporation. After certification was completed, a calibration set of raw data was used to verify software of the program prior to usage. Additionally, once the computer was linked to the data acquisition system and a complete data stram was available, the input function of each mode of the program was verified by comparing the data acquisition system output to the computer printout data point summary.

O 10

GP-R 263103 GENERAL PilYSICS CORPORATION O

i l

I APPENDIX F I

O LOCAL LEAKAGE RATE TEST SUMMARIES l

l l

O

GP-R 263103 GENERAL PilYSICS CORPORATION APPENDIX F Page 1 of 20.

LOCAL LEAKAGE RNFE TEST SUhihiARIES PEN. VALVE TEST lllAKAGE dQ SYSTEh! NR DATE SCChi hi 9 Containment CS0006 .5/9/88 0 Spray C 9/6/89 73 Train CS0001C 5/9/88 602 9/6/89 532 hi10 High Head S10005C 5/8/88 1220 Safety inj. 9/6/89 985 C Train S100(MC 5/8/88 0 9/6/89 327 hi-11 Low licad S10030C 5/8/88 26 Safety Inj. 9/6/89 31.6 C Train S10018C 5/8/88 39 9/6/89 81.1 M 12 Sludge Lance SIA027 9/16/87 12.5 O Chem. Return SLOO29 9/5/89 53 23.3 9/16/87 9/5/89 l' ailed 9/25/89 29.5 hi 13 Containment CS00(M 10/23/87 30.8 Spray B Train 8/8/89 12.3 4/15/90 20 CS0005 10/23/87 17.8 8/8/89 14.8 CS0001B 10/23/87 401 8/8/89 440 hi-14 High Head S10005B 5/3/88 650 Safety Inj. 8/8/89 588 B Train S100(MB 5/3/88 0 8/8/89 0 M 15 Low Head S10030B 5/4/88 0 Safety Inj. 8/8/89 22 B Train S10018B 5/4/88 1.2 Q 8/8/89 0 1

GP R-263103 GENEilAL PilYSICS CORPORATION APPENDIX F Page 2 of 20 LOCAL LEAKAGE RATE TEST SUMMARIES PEN. VALVE TEST lllAKAGE NQ, SYSTEM MQ. DKII SCCM M-16 Sludge lance SLOO(M 9/16/87 20 High Press. 9/5/89 53 Line SLD002 9/16/87 20 9/5/89 53 M 17 Containment CS0002 10/22/87 378 Spray A Train 8/28/89 73 CS0001A 10/22/87 143.3 8/28/89 435.5 M-18 High llead S10005A 5/10/88 1220 Safety inj. 8/24/89 539 A Train S100CMA 5/10/88 50 8/24/89 9 M 19 Low IIead S10030A 5/10/88 5 O Safety Inj.

A Train SIO018A 8/24/89 73 154.5 5/10/88 8/24/89 34 M 20 Emergency S10016C 5/8/88 2 Sump C Train 9/6/89 0.6 M 21 Emergency S10016B 5/4/88 0.8 Sump B Train 8/10/89 72.5 M 22 Emergency S10016A 5/10/88 2 Sump A Train 8/24/89 52 M-23 RCFC Cooling CC0208 10/2/88 80 Water Return 9/8/89 13,611 C Train 5/19/90 2,558 CC0209/ 11/10/87 9 CC0210 1/19/88 1.3 9/8/89 1,327 CC0210/ 9/8/89 794 CC0864 0

GP R 263103 GENERAL PIlYSICS CORPORA'llON APPENDIX F Page 3 of 20 LOCAL LEAKAGE RATE TEST SUhthf ARIES l

PEN. VALVE TEST LEAKAGE HQ, SYSTEM HQ. DATE SCCM hi 24 RCFC Cooling CC0198 10/2/88 124.4 Water Supply 8/29/89 Failed C Train 9/1/89 1058 CC0197/ 10/2/88 182.4 CC0199 8/29/89 139 hi-25 RCFC Cooling CC0058 10/16/87 Failed l

Water S';pply 10/26/87 25.8 A Train R/22/89 14.5 CC0057/ 10/1ti/87 1880 CC0059 2/7/88 4S1 1/3/89 157.4 8/22/89 43 hi26 RCFC Cooling CC0068 10/12/87 263 Water Return 9/1/89 ' 18 A Train _CC0069/ 10/12/87 4 CC0070 9/1/89 1.8 CC0069/ 9/!/89 4 .'.

CC0862 M 27 RCFC Cooling CC0138 10/22/87 840 Water Supply 8/8/89 Failed B Train 8/12/89 1058 '

CC0136/ 10/22/87 478 CC0137 8/8/89 518 M-28 RCFC Cooling CC0147 10/19/87 1280 Water Return 8/17/89 796 B Train CC0148/ 10/19/87 220 i CC0149 8/17/89 435.5 CC0148/ 8/17/89 319.5 CC0863 M-29 Safety Inj. PS4824 5/6/88 110 Accumulator 8/10/89 28  ;

Sample PS4466 5/6/88 35 Q 8/10/89 0

GP-R-263103 GENERAL PilYSICS CORPORATION APPENDIX F Page 4 of 20 LOCAL LEAKAGE RATE TEST SUhthtARIES PEN. VALVE TEST LEAKAGE HQ, SYSTEhj HQ, DATE SCCM hi30 RCDT Vent WL4920 5/4/88 196

& N 2Supply 8/10/89 14.5 WL4919 5/4/88 16.4 8/10/89 17 hi32 ILRT Veri- 3/30/87 8.7 fication Test 10/22/87 0.6 Line 1/24/89 7.4 8/7/89 0 M-33 Component CC0013 10/19/87 177 Cooling Water 8/28/89 73 to RHR PhiP/ CC0012 10/19/87 0 Hx A 8/28/89 72.5 hi-34 Component CCON9 10/19/87 1272 O Cooling Water Return from 8/30/89 9011 Failed 5/7/90 RHR/Hx A 5/21/90 3289 CC0050 10/19/87 1997 8/30/89 24,426 5/7/90 1284 M 35 Component CC0123 10/10/87 Failed Cooling Water 10/27/87 11,620 to PMP/Hx B 8/10/89 10,380 4/20/90 213 CC0122 10/10/87 0 8/10/89 1,709 4/20/90 281 M 36 Component CC0129 10/21/87 1820 Cooling Water 8/8/89 9261 Return from 4/20/90 31 RHR/Hx B CC0130 10/21/87 Failed 10/30/87 580 l

8/8/89 1327 4/20/90 747

l GP R 263103 '

GENERAL PIlYSICS CORPORA 110N i

APPENDIX F Page 5 of 20 IDCAL llIAKAGE RATE 1 TSP SUMMARIES I

PEN. VALVE 1135T LEAKAGE EQ, SYSTEM HQ DATE SCCM M 37 Component CC0183 10/26/87 1200 Cooling Water 8/30/89 Failed

! to RHR PMP/ 9/1/89 1058 Hx C CC0182 10/26/87 6800 8/30/89 5860 5/18/90 732 M-38 Component CC0189 Failed 10/2/88 Cooling Water 10/5/88 1490 Return from 8/29/89 288 i PMP/ih C CC0190 10/2/88 Failed 10/5/88 1350 8/29/89 161.5 M 39 Component CC0319 16,200 10/17/87 Cooling Water 0 Supply to RCPs 10/26/87

-2/20/89 8,000 2554 8/11/89 5.7 CC0318/ 10/17/87 1068 CC0291 8/11/89 250 M-40 Component CC0403/ 10/17/87 34.4 Cooling Water CC0542/ 8/16/89 72.5 Return from CCN46 RCPs CCNN/ 10/17/87 33 CC4493 8/16/89 Failed 8/17/89 53 M-41 Normal HC0009/ 7 87 4500 Containment HC0010 1 /87 4500 Purge Exhaust 8 4460 5{1/>88 6

8 il!!

/89 Failed Y

4 90 732 1 /90 15 900 12 /90 87'N O

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

GP-R-263103 GENERAL PilYSICS CORPORNFION APPENDIX F Page 6 of 20 LOCAL LEAKAGE RATE TEST SUMMARIES PEN. VALVE TEFT LEAKAGE NQ SYSTEM HG DATE SCCM h.-42 Normal llc 0008/ 7/29/87 3800 Containment HC0007 1/20/88 4500 Purge Supply 8/30/88 3800 1/5/89 4650 9/26/89 3026 3/22/90 2037 5/17/90 8158 5/21/90 5484 11/13/90 10,200 12/26/90 8809 ,

M 43 Supplementary IIC0003/ 7/24/87 1490 Purge Supply FV9776 10/28/87 1710 1/14/88 Failed 1/19/88 6000 1/22/88 1758 O' 5/3/88 8/24/88 4:00 1630 11/15/88 Failed 11/17/88 910 11/20/88 849

1/3/89 388 i 4/4/89 3650 l

7/19/89 Failed l

7/19/89 5787 8/8/89 851 I

10/24/89 649 1/18/90 1040 5/11/90 732  ;

8/2/90 732 M-43 Supplementary HC0003/ 11/6/90 Failed Purge Supply FV9776 11/6/90 4100 11/15/90 560 12/26/90 377 O

_ ,,----.c.r,<.,,rm--, ,, _., - - - -_ _..- -,. . , ,- - ,- .. m,--..,_ . m . _.., . . ,-..

GP R-263103 GENERAL PilYSICS CORPORATION APPENDIX F Page 7 of 20 '

O LOCAL IJ1AKAGE RATE T11ST SUMMARIES PEN. VALVE 'I73ST LEAKAGE HQ, SYSTEM HQ, DKW SCQd M-44 Supplementary IIC0(X)S/ 7/23/87 1150 Purge Exhaust FV9777 10/29/87 1700 1/14/88 1935 4/13/88 Failed 4/13/88 2500 4/14/88 2300 7/14/88 2520 10/12/88 2500 12/8/88 4500 2/16/89 1586 6/7/89 2124 8/7/89 3130 11/7/89 1320 2/1/90 2830 5/2/90 1806 7/19/90 1555 O 2o/25/9o 12/26/90 37oo 2345 ,

M-45 Reactor RC0(M6 5/6/88 256 Makeup Water 8/11/89 409 Storage Tank 5/2/90 732 to PRT RC3651/ 5/6/88 250 AP2458 8/11/89 Failed 9/7/89 2361 5/2/90 5484 M-46 CVCS 12tdown CV0022/ 10/10/87 4200 (Charging) CV0023 10/22/87 8000 10/26/87 9000 5/6/88 262 5/8/88 3640 8/30/89 529 CV0024 10/10/87 0 5/8/88 1520 8/30/89 139 O

GP-R-263103 GENERAL PilYSICS CORPORATION APPENDIX F Page 8 of 20 O IDCAL IllAKAGE RATE TEST SUMMARIFE PEN, VALVE TEST IJ1AKAGE HQ, SYSTEM NQ DATE SCCM M-47 RC Pump CV0077/ 1/5/87 50 Seal Return CV0078 5/4/88 58 IJne 8/18/89 0 CV0079 5/4/88 4 8/18/89 53 M-48 CVCS CV0026 5/4/88 1583 8/29/89 6765 CV0025 1/5/87 20 5/4/88 201 8/29/89 5698 M51A RCP A CV0034A 10/17/87 79 Seal Water 8/15/89 0 ,

Inj. CV0033A 10/17/87 8 O 8/25/89 o M 51B RCP B CV0034B 10/16/87 0 Seal Water 8/16/89 0 inj. CV0033B 10/16/87 709 8/16/89 0 M-52C RCP C CV0034C 10/16/87 4 Seal Water 8/15/89 0 Inj. CV0033C 10/16/87 3700 ,.

10/26/87 9.8 8/15/89 0 M-52D RCP D CV0034D 10/17/87 46 Seal Water 8/16/89 5 Inj. CV0033D 10/17/87 284 8/16/89 5 i

O l

GP R 263103 GENERAL PIIYSICS CORPORATION APPENDIX F Page 9 of 20 O IDCAL WAKAGE RATE TF51' SUMMARIES PEN. VALVE 'IllST LEAKAGE EQ, SYSTEM HQ. DEE SCCM hi 53 CVCS 1.etdown CV0158 5/5/88 21.4 to RHR 8/29/89 3660 4/24/90 1284 CV0157 5/5/88 0 8/29/89 8.9 4/24/90 13 M-55 RHR PMP B RiiOO63B 5/4/88 0 to RWST 8/17/89 6 RII0064B 5/4/88 2 i 8/17/89 73 M 56 Liquid WLO312 10/7/87 59.7 Waste to 12/8/87 20 ,

Holdup Tank 5/9/88 47 8/10/89 0 C FV4913 10/7/87 12/8/87 562 1294 8/10/89 539 8/18/90 71 M 57 Service Air SA0505 9/27/87 97 8/7/89 Failed 9/21/89 340 SA0504 9/27/87 17 8/7/89 14.5 M 56 Instrument IA0541 10/12/87 Failed Air 10/13/87 1740 10/28/87 13 8/8/89 205 FV8565 10/12/87 64.3 1

8/8/89 112.4 M 61 Demin DWO502 9/24/87 652 Water to 8/7/89 0 RCB DWO501 9/24/87 1.5 8/7/89 1586

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

i GP-R 263103 GENERAL PilYSICS CORPORNrlON APPENDIX F Page 10 of 20 IDCAL LEAKAGE RATE TEST SUhihiARIES PEN. VALVB TEST LEAKAGE HQ. SLTu"EM EQ. DAE SCCM hi-68A Nitrogen S10058 5/5/88 158 Supply to 8/8/89 18.5 SI Accumu- FV3983 5/5/88 10.1 i lators 8/8/89 92 hi-68C Pressurizer FV3653 5/5/88 246 Relief Tank 8/10/89 233 Vent FV3652 5/5/88 62.5 8/10/89 278 M-68E S1 Test Line FV3970 5/3/88 0 8/8/89 6765 FV3971 5/3/88 0 8/8/89 7831 M 69 Spent Fuel FC0013F 5/6/88 35 O Pool Closed Coolmg FC0050 10/7/89 7.5 0

5/6/88 System 10/7/89 5 FC0013E 5/6/88 0 10/7/89 92 i

M 70 Spent Fuel FC0006C 5/7/88 106 Pool Closed 10/7/89 0 Cooling FC0007C 5/7/88 3 System 10/7/89 28 M 71 ILRT Depres- 5/4/88 20 surization 1/24/89 17.9 8/7/89 6 M-72 Containment ED0064 5/7/88 0 l Sump 10/6/89 0

FV7800/ 5/7/88 13,400 l FV2453 5/13/88 11,890 .

l 8/10/88 2330 10/6/89 9 O

l

GP R-263103 GENERAL PIlYSICS CORI' ORATION APPENDIX F Page 11 of 20 LOCAL LEAKAGE RATE 'mST SUMMARIES l PEN. VALVE TESP LEAKAGE HQ, SYSTEM N_Q DA'm SCCM M-75 RCP Oil POO217 5/8/88 349 Return Line 8/26/89 45.5 POO218 5/8/88 328 8/26/89 72.5

M 76 RIIR PMP C RH0063C 5/3/88 27 to RWST 8/25/89 5 RII0064C 5/3/88 34 8/25/89 5 M 77 RCD Fire FP0943 5/10/88 5310 Protection 8/10/89 3980 4/25/90 1799 FP0756 5/10/88 4100 8/10/89 1288 4/25/90 1028

, O- M 79 Sludge 1.2nce SLD014 9/16/87 200 Low Pressure 9/5/89 53 Line SL0012 9/16/87 82 9/5/89 53 M-80(A) Containment RA0001/ 5/9/88 182 Particulate RA0004 8/25/88 129 Monitor Supply 8/7/89 225 M-80(D) Containment FV4128/ 5/9/88 120 Hydrogen FV4127 1/30/89 128.8 Monitor Return 8/9/89 72.5 M 80(E) Containment FV4135 5/9/88 610 Hydrogen 2/13/89 92 Monitor Supply 8/9/89 240 FV4101 5/9/88 17 2/13/89 92 8/9/89 240 lO

GP-R-263103 GENERAL PIIYSICS CORPORA *I1ON APPENDIX F Page 12 of 20 O LOCAL IEAKAGE RATE TEST SUMMARIES PEN. VALVE TEST LFAKAGE HQ, SYSTEM HQ, DA1E SCCM M 80(F) Containment RA0003/ 1/6/88 Failed Particulate RA0006 1/6/88 27 8/7/89 14.5  ;

M 81 RCP Oil POO2N 5/8/88 73 Changing 8/14/89 7.5 Line POO203 5/8/88 99 8/14/89 18.5 M 82(A) RCB Breathing BA0006 10/22/87 34.9 ,

Air 9/27/89 50.5 BA00N 10/22/87 323 9/27/89 72.5 M 82(D) Containment FV4136 5/10/87 510 Hydrogen 2/27/89 224 O Sampie Suggir FV41N/

8/9/89 5/10/87 379.5 103,600 FV2456 2/27/89 240 4

8/9/89 92 M 82(E) Containment FV4134/ 5/9/88 Failed Hydrogen FV4133/ 5/9/88 106,200 Sample Return FV2457 5/11/88 121,600 2/27/89 85,631 9/25/89 40 M 82(F) ILRT Pressure 3/30/87 20

, Monitoring 10/22/87 20 1/24/89 38.7 8/7/89 20 M-85A I cessurizer FV4450 5/8/88 370 Vay

• Sample 8/9/89 48 FV4452 5/8/88 210 10/22/88 1.7 8/9/89 0 lO

GP R 263103 GENERAL PilYSICS CORPORN1'lON 1 l

APPENDIX F Page 13 of 20, IDCAL lliAY. AGE RATE TEFI' SUMMARIES PEN. VALVE TEST lilAKAGE tiQ SYSTEM HQ DATE SCCM M-85B Pressurizer FV4451 5/8/88 100.3 Liquid Sample 2/26/89 20 8/22/89 213.5 FV4451B 5/8/88 95.7 8/22/89 9 M 85(E) RCS 110t Leg FV4454 5/8/88 155.3 ,

Sample 8/22/89 6 i FV4455 5/8/88 76.1 l 8/22/89 6 FV4456/ 5/8/88 138 FV2455 2/21/89 20 6/27/89 0 8/22/89 6  ;

1/30/90 0 O M.86cD) RuR u, Sample Fv48u 5m88 eaiiea 236 5/8/88 8/9/89 28 l FV4461/ 12/18/87 16.4 FV2454 2/26/88 133 5/7/88 0

, 5/8/88 182 8/9/89 6 M-87 ILRT Depres- 10/21/87 20 surization 1/24/89 20 8/7/89 20 M-88 RCS Vacuum RD0008 10/22/87 520 i

Degas 8/10/89 37 RD0010 10/22/87 630 8/10/89 43 M-89 Fuel Transfer 9/19/87 184 Canal 1/27/89 384.5 t 10/7/89 24 l 5/11/90 1013 I O l

GP-R-243103 GENEllAL PIlYSICS COltPORATION APPENDIX F Page 14 of 20 LOCAL lilAKAGE RNFE TEST SUMMARIES PEN. VALVE TEST LEAKAGE RQ SYSTEM NO, DAll! SCCM M 90 Personnel Airlock 9/5/87 799 Barrel 3/3/88 Failed 3/4/88 722 8/25/88 46 2/15/89 1596 7/25/89 4050 1/22/90 3990 7/10/90 2558 M 91 Auxiliary Airlock 9/10/87 20 Barrel 3/5/88 420 9/2/88 642 2/14/89 2350 7/13/89 3210 1/11/90 997 6/26/90 1245 O 12/13/90 45 M 92 Equipment llatch 7/21/87 132 1/25/89 20 10/13/89 12 5/16/90 15 M-90A Personnel FV1025 3/11/88 20 Airlock Rx 10/6/89 20 Door Seal Air Supply M 90B Personnel FV1026 3/11/88 20 Airlock Outer 10/7/89 20 Door Seal Air Supply M-90C Personnel FV1027 3/11/88 33.6 Airlock Outer 10/7/89 20 Door Between 5/30/90 20 l Seals Test Line

O l

GP R-263103 GENIIRAI, PIlYSICS CORPORATION l

APPENDtX F Page 15 of 20 IIX'AL llMKAGE RATIl TPSP SUMMARIES PEN. VAINE TESP ll1AKAGE HQ, SYSTEM MQ, I M 113 SCCM Personnel FV1028 3/11/88 72.8 M 90(D)

Airlock Rx 10/'.'89 53 Door Between 5/30,,J 30 Seals Test Line EP 1 Electrical 10/22/87 0 Penetration 6/26/89 0.12 EP2 Electrical 10/22/87 0 Penetration 6/26/89 0.21 EP-3 Electrical 10/22/87 0.08 Penetration 6/26/89 0.23 10/1/89 0.54 5/1S/90 0.09 O EP-4 Eiearicai Penetration 20m/87 6/26/89 0.48 0.16 10/2/89 13.14 10/2/89 0.219 EP-5 Electrical 7/26/88 0.12 Penetration 7/12/90 1.47 EP-6 Electrical 10/22/87 1.1 Penetration 6/27/89 5.59 EP-7 Electrical 10/22/87 0 018 Pcnetration 6/26/89 0.22 EP-8 Electrical 7/28/88 0.22 Penetration 7/12/90 0.09 FP9 Electrical 6/30/88 2.84 Penetration 3/13/90 0.(M3 0

- GP R 263103 GENERAL PilYSICS COR10 RATION APPENDIX F Page 16 of 20 LOCAL LEAKAGE RATE TEST SUMMARIES

PEN. VALVE 11Er LEAKAGE hQ DA'm NQ EYSTEM SCCM ,

EP 10 Electrical 11/2/87 0.069 Penetration 12/7/87 0.036 5/7/88 0 3/13/90 0.25 EP-11 Electrical 11/2/87 0.03 Penetration 6/27/89 0.23 EP 13 Electrical 10/22/87 0.027 ,

Penetration 6/27/89 0.11 EP 14 Electrical 7/28/88 0.07 Penetration 7/12/90 1.85 EP-15 Electrical 10/21/87 0 Penetration 6/27/89 0.11 EP-16 Electrical 7/28/88_ 0.09 Penetration 7/12/90 0.17 EP-17 Electrical 11/2/87 0.019 Penetration 6/27/89 0.15 EP-18 Electrical 7/28/88 1,63 Penetration 7/12/90 0.01 EP 19 Electrical 10/3/87 0.08 Penetration 6/28/89 0 EP-20 Electrical 11/2/87 0.115 Penetration 6/28/89 0 EP 22 Electrical 10/22/87 0.09 Penetration 6/28/89 0.22 EP-24 Electrical 11/2/88 0.22 Penetration 9/20/90 0.13 O

l l

l ___._ ___.___ _________ ____ _ _ - _ - - - - . - _ - .- - - - . - _ _ - , - _ _ _ . , . . . _ - . . . . . . . . . . _ - . - .

GP-R-263103 GENERAL PilYSICS CORPORATION APPENDIX F Page 17 of 20 LOCAL MAKAGE RA1TI TF5r SUMMARIES ,

i PEN. VALVE TEST WAKAGE l HQ, SYSTEM NO. DATI3 SCCM EP 25 Electrical 7/28/88 0.11 Penetration 7/13/90 0.07 EP 26 Electrical 10/22/87 0.62 .

Penetration 6/28/89 0.79 l EP 27 Electrical 7/26/88 0.24 Penetration 6/28/89 0.06 EP-28 Electrical 10/3/87 0.278 Penetration 6/15/89 0.78 EP 29 Electrical 10/3/87 0.089 Penetration 6/15/89 1.73 7/31/89 0 O Ee-30 Eiectricai Penetration 20/24/87 6/15/89 0.o43 0.108 7/31/89 0 EP-31 Electrical 10/3/87 0.027 Penetration 6/15/89 0 EP-32 Electrical 10/2/87 0.745 Penetration 6/15/89 1.45 EP 33 Electrical 10/3/87 0.016 Penetration 6/19/89 0.19 EP 34 Electrical 10/2/87 0 Penetration 6/19/89 0.45 EP 35 Electrical 10/13/87 21.4 Penetration 6/15/89 0.76 7/24/89 85 7/28/89 5.16 O

I

, - - . - - - .-v,. ---~---v - ,------,--,,,.nn---r, --

,--r-------- , -,,.----r- - , , , , - , -m - --

r----- w

T GP-R 263103 GENERAL PIIYSICS CORPORA'I1ON APPENDIX F Page 18 of 20 LOCAL LEAKAGE RATE TEST SUMMARIES PEN. VALVE 'mST LEAKAGE HQ S Y S' m M HQ DA'm SCCM EP-36 Electrical 10/3/87 0 Penetration 6/19/89 0.28 EP-37 Electrical 10/13/87 0.129 Penetration 10/22/87 0.11 6/19/89 0,1 EP-38 Electrical 10/13/87 0.61 Penetration 10/5/89 0.04 EP-40 Electrical 10/13/87 0.025 10/22/87 0.1 Penetration 6/21/89 0.09 EP-42 Electrical 10/24/87 0.45 Penetration 6/20/59 0.17 EP-43 Electrical 10/16/87 2.7 Penetration 6/20/89 0 EP-44 Electrical 10/24/87 0.18 Penetration 6/21/89 0.17 EP-45 Electrical 10/13/87 0.06 Penetration 6/21/89 0.33 EP-46 Electrical 10/28/88 0.06 Penetration 9/29/90 0.08 EP-47 Electrical 10/28/88 0.05 l

Penetration 9/20/90 0.167

, EP-48 Electrical 6/24/88 0.69 Penetration 4/9/909 0.21 0

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

GP R-263103 GENERAL PIIYSICS CORPORATION APPENDIX F Page 19 of 20, LOCAL LEAKAGE RATE TEST SUMMAR ES PEN, VALVE TEST LEAKAGE N.Q SYSTEM NG DAW SCCM EP-49 Electrical 10/17/87 2.5 Penetration 5/26/88 0.05 4/9/90 0.63 EP-50 Electrical 11/4/87 0.17 Penetration 12/4/87 0.088 6/13/89 0.22 7/28/89 0.02 EP-51 Electrical 6/24/88 0.47 Penetration 4/9/90 0 EP-52 Electrical 10/28/88 0.52 Penetration 9/18/90 0.23 EP 53 Electrical 10/3/87 97.4

, O- -

Peeeiration 5/25/88 ni 2/1/89 114.3 12/28/90 29 EP-54 Electrical 10/30/87 3.1 Penetration 10/19/89 20 EP-55 Electrical 10/28/88 0.06 Penetration 9/20/90 0.18 EP-56 Electrical 11/12/88 0.31 Penetration 9/18/90 0.29 EP-57 Electrical 11/2/87 0 Penetration 6/13/89 0.01 7/28/89 0.06 EP-58 Electrical 11/2/88 0.003 i Penetration 9/18/90 0.059

!O 1

,.--- ,,-7..,~,-.-y-.,,..y, -

. . _ ------._,y.,.,ym_,,m.,-._, .,,-3,,,,y-- ______.,y,yw-w,. m w.w .- ,-,-n-vn,, .u

GP-R-263103 GENERAL PilYSICS CORPORATION APPENDIX F Page 20 of 20 IJDCAL LEAKAGE RATE TFSI' SUMMARIES PEN. VALVE TEST LEAKAGE

_ NQ SYSTEM HQ DATE SCCM EP-59 Electrical 10/31/88 0.61 Penetration 9/18/90 0.73

{

EP-60 Electrical 10/3/87 1934 Penetration 10/26/87 1.4 6/13/89 1.55 EP-61 Electrical 10/31/88 1,73 Penetration 9/18/90 0.16 L

EP 62 Electrical 10/3/87 11.1 Penetration 5/25/88 27 2/2/89 0.2 12/28/90 0.08 EP 63 Electrical 10/28/88 0.13 O reaetratio- 9/20/90 0.17 EP-64 Electrical 6/24/88 0.014 Penetration 4/9/90 0.42

~

EP-66 Electrical 10/30/87 1.9 P:netration 6/13/89 4.67 EP-67 Electrical 11/2/88 0.02 Penetration 9/18/90 0.26 EP-68 Electrical 10/17/87 0.01 Penetration 6/23/88 0.098 2/2/89 0.21 12/28/89 0.32 EP-69 Electrical 11/2/88 0.06 Penetration 4/25/89 0.04 12/28/90 0.22

GP R-263103 GENUllAL PilYSICS CORPOltgl10N O

l l

l l

APPENDIX G l

' SENSOR LOCATIONS AND VOLUME FRACl10NS l

i lO

. __ _ _ - - ' ~ * ~ , . _ _ _ _

O 231 FT O O TE 1 TE 2 g

ME 31 g g TE 3 TE-4 141 FT O O TE 5 TE 6 O ME 32 TE.7

-105 FT TE 10 TE-8 TE 9 ME 34 ME 33 TE 11 O O

.__ _. ______ .___ _ TE 12 - - - - ----

68FT e

TE 15 O

TE-13 OO TE 14 O

TE 16 O O TE 17 O

TE 18 ME 35 9 O TE 19 TE 20 I i

19 FT O O O O TE 23 TE 21 TE 22 TE 24

- - - - - - - - - - M E - - - - - - - - _ - - - - - - - - 2 FT l

I l

l l

O

e

• SDU1H TEXAS PROJECT I INSTALLCD CONSTANTS R1D WEIGHT FACTORS RTD 1 WEIGHT FACTOR = 0.0619 RTD 2 WEIGHT FACTOR

• O.0929 RTD 3 WEIGHT FACTOR = 0.0619 RTD 4 WEIGHT FACTOR = 0.0000 RTD B WEIGHT FACTOR = 0.0678 RTD 6 WEIGHT FACTOR = 0.0987 RTD 7 WEIGHT FACTOR = 0.0678

, RTD 8 WEIGHT FACTOR = 0.0678 RTD 9 WEIGHT FACTOR = 0.0678 RTD 10 WEIGHT FACTOR = 0.0212 RTD 11 WEIGHT FACTOR = 0.0212 RTD 12 WEIGHT FACTOR = 0.0268 RTD 13 WEIGHT FACTOR = 0.0303 RTD 14 WEIGHT FACTOR = 0.0303 RTD 15 WEIGHT FACTOR = 0.0180 RTD 16 WEIGHT FACTOR = 0.0180 RTD 17 WEIGHT FACTOR = 0.0195 RTD 18 WEIGHT FACTOR = 0.0195 RTD 19 WEIGHT FACTOR = 0.0258 O RTD 20 WEIGHT FACTOR RTD 21 WEIGHT FACTOR

=

=

0.0258 0.0395 i RTD 22 WEIGHT FACTOR = 0.0395 RTD 23 WEIGHT FACTOR = 0.0390 RTD 24 WEIGHT FACTOR = 0.0390 PRESSURE GAUGE WEIGHT FACTORS PhESS. GAUGE # 1 WEIGHT FACTOR = 1.0000 PRESS. GAUGE 4 2 WEIGHT FACTOR = 0.0000 DEW CELL WEIGHT FACTORS DEW CELL 1 WEIGHT FACTOR = 0.2476 DEW CELL 2 WEIGHT FACTOR = 0.1695 DEW CELL 3 WEIGHT FACTOR = 0.1695 L DEW CELL 4 WEIGHT FACTOR = 0.1298 I DEW CELL 5 WEIGHT FACTOR = 0.1266 l DEW CELL 6 WEIGHT FACTOR = 0.1570 0

o s Sensor Failure Analysis Document Os January 8, 1991 HL&P STP UNIT 1 TEMEERALURFuEJaEMENT FAILURE Failed HT. Fac. Adjusted NEW Weighting Factors TE sensors for sensors 1 .0619 2 and 3 1/0 2/.0929 3/.0928 2 .0619 1 and 4 1/.0928 2/0 4/.0929 3 .0619 1 and 5 1/.0929 3/0 5/.0928 4 .0619 2 and 6 2/.0929 4/0 6/.0987 5 .0678 3 and 7 3/.0958 5/0 7/.1017 6 .0678 4 and 7 4/.0958 6/0 7/.1017 7 .0678 5 and 6 5/ 1017 6/.1017 7/0 8 .0678 5 and 10 5/.1017 8/0 10/.0551 9 .0678 6 and 11 6/.1017 9/0 11/.0551 10 .0212 8 and 15 8/.07P4 10/0 15/.0286 11 .0212 9 and 16 9/.0784 11/0 16/.0286 12 .0268 7 7/.0946 12/0 13 .0303 16 13/0 16/.0483 14 .0303 15 14/0 15/.0483 15 .0180 14 14/.0483 15/0 0' 16 17

.0180

.0195 13 20 13/.0483 17/0 16/0 20/.0453 18 .0195 19 18/0 19/.0453 19 .0258 18 18/ 0453 19/0 20 .0258 17 17/.0453 20/0 21 .0395 22 and 23 21/0 22/.0593 23/.0587 22 .0395 21 and 24 21/.0593 22/0 24/ 0587 23 .0390 21 and 22 21/.0590 22/.0585 23/0 24 .0390 21 and 22 21/.0590 22/.0585 24/0 3

pEWPOINJ_ SENSOR FA110_BE Failed WT. Fac. Adjusted NEW Weighting Factors DPS sensors for sensors 1 .2476 2 1/0 2/.4171 2 .1695 1 and 3 1/.3324 2/0 3/.2542 3 .1695 2 and 4 2/.2543 3/0 4/.2145 4 .1298 3 3/.2596 4/0 5 .1266 4 4/.2564 5/0 6 .1570 5 5/.2836 6/0 0

-_ _