Text

Jm Farley Nuclear Plant Unit 1 Second Periodic Reactor Containment Bldg Integrated Leakage Rate Test, Final Rept for Apr 1984
	ML20090E232
Person / Time
Site:	Farley
Issue date:	04/30/1984
From:	; BECHTEL GROUP, INC.
To:	;
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	SU-055, SU-55, NUDOCS 8407190358
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'9

~O ALABAMA POWER COMPANY J. M. FARLEY NUCLEAR PLANT UNIT 1

SECOND PERIODIC REACTOR CONTAINMENT BUILDING INTEGRATED LEAKAGE RATE TEST O

APRIL 1984 FINAL REPORT O

BECHTEL POWER CORPORATION n 7ma" mum R

PDR u_..--__.._.___._..______-,_

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ALABAMA POWER COMPANY J. M. FARLEY NUCLEAR PLANT J

UNIT 1 4

4 i

i J

SECOND PERIODIC REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST J

.I April 1984 FINAL REPORT f

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es s.

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Prepared by l

Bechtel Power Corporation

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San Francisco, CA 1

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SU-055 1

l TABLE OF CONTENTS

.v Sections P. ay,e

1.0 INTRODUCTION

1 2.0 TEST SYNOPSIS 2

3.0 TEST DATA

SUMMARY

3 4.0 DISCUSSION 5

Test Sequence 5.0 INSTRUMENTATION AND DATA ACQUISITION 7

Sensor Location and Volume Fractions

6.0 REFERENCES

9 Appendices A.

Description of Bechtel ILRT Computer Program B.

ILRT Stabilization Summary Data

'.ID C.

ILRT Trend Report and Summary Data V

D.

ILRT Mass Point Analysis and Total Time Analysis E.

ILRT Plots: Mass Point Total Time, Airmass.

Temperature, Pressure and Vapor Pressure F.

Verification Test and Summary Data G.

ISG Calculation H.

LLRT Summary and Data I.

Modifications to Containment I

l O

SU-055 11

r x

1.0. INTRODUCTION

)

The primary reactor containment building second periodic Integrated t

Leakage Rate Test (Type A) was performed to demonstrate that leakage through the primary containment and penetrations does not exceed the allowable leakage rate values as specified in the Farley Nuclear Plant

.(FNP) FSAR and FNP Unit 1 Technical Specifications.

This report describes how the periodic Integrated Leakage Rate Test (ILRT) at the Farley Nuclear Plant, Unit 1, was conducted in accordance with the requirements of the ILRT Procedure FNP-1-STP-117.0, revision 3,

. Appendix J to 10CFR50, ANSI N45.4-1972, Bechtel Topical Report BN-TOP-1, and ANSI /ANS 56.8-1981. The periodic ILRT was successfully completed on April 14, 1984. The test was conducted at peak pressure for a duration of 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months followed.by a 4-hour verification test.

Acceptance criteria for ANSI /ANS 56.8-1981 " containment System Leakage Testing Requirements" were met for a 24-hour ILRT. Calculations were performed using the ANSI /ANS 56.8-1981 " Mass Point Analysis Method." The test results are reported in accordance with the requirements of ANSI /ANS 56.8-1981, Section 5.8 and 10CFR50, Appendix J.Section V.B.3.

Calculations were performed also in accordance with NRC approved Bechtel Topical Report BN-TOP-1 and the results were calculated per ANSI N45.4-1972 using the " Total Time Analysis Technique." For purposes of evaluating test results, the Total Time Analysis method should be

-(V considered more conservative than the tbss Point Analysis method.

i 13 V

SU-055.. -

r 2.0 -TEST SYN 0PSIS

)

s

'~

The primary containment building Integrated Leakage Rate Test (ILRT) was successfully completed meeting all acceptance criteria set forth in the governing documents listed in Section 1.0.

The test results are reported in accordance with the requirements of 10CFR50, Appendix J, Section V.B.3.

Containment inspection required by 10CFR50, Appendix J, Section III.A.1(a) and V.A. was conducted before the ILRT. Since'no evidence of degradation was found, the Type A test was conducted. The Containment Inspection Report is on file at FNP as a part of the official test copy of the procedure.

The calculated leakage rate, using the Mass Point Analysis technique, was 0.086 wt% per day, with a 95% upper confidence limit (UCL) of 0.087 wt%

per day. The acceptance criterion, 75% of La, is 0.1125 wt% per day.

And the Total Time Analysis technique was 0.082 wt% per day with a 95%

UCL of'0.085 wt% per day.

Following completion of the ILRT, a successful 4-hour verification test was performed. The Mass Point calculated leakage rate was 0.214 wt% per day with a lower acceptance limit of 0.197 wt% per day and upper acceptance limit of 0.272 wt% per day. The Total Time calculated leakage rate was 0.193 wt% with a lower acceptance limit of 0.193 wt% per day and upper acceptance limit of 0.268 wt% per day.

,s Pressurization for ILRT started on April 12, 1984 at 0410 with a pressuri-(

)

zation rate of approximately 4.8 psig per hour. The peak test pressure Pa of 48 (+3, -0) psig was reached at 1615 on April 12, 1984. All containment fans were turned off and secured for the temperature stabilization. Stabilization criteria were satisfied after 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of stabilization. The ILRT began at 2200 on April 12, 1984. After 9 hours1.041667e-4 days 0.0025 hours 1.488095e-5 weeks 3.4245e-6 months of test duration, the acceptance criteria were satisfied per ILRT procedure FNP-1-STP-117.0, Revision 3.

The Total Time calculated leakage rate was 0.090 wt% per day, and the 95% UCL was 0.110 wt % per day. The thss Point calculated leakage rate was 0.093 wt % per day and the 95% UCL was 0.096 wt% per day. The ILRT was continued until 2200 hours0.0255 days 0.611 hours 0.00364 weeks 8.371e-4 months on April 1

t 13, 1984 with a Mass Point calculated leakage rate of 0.086 wt% per day, and a UCL of 0.087 wt% per day and a Total Time calculated leakage rate of 0.082 wt% per day, and a UCL of 0.085 wt% per day. Following the ILRT a 4-hour verification test was conducted and completed at 0215 on April 14, 1984.

The Local Leakage Rate Tests (Type B & C tests) were completed prior to

[

the ILRT. The total of the local leakage rates is below the 0.6 La allowable limit, and the summary of the LLRT reaults are included in Appendix H.

l

)

SU-055 3.0 TEST DATA

SUMMARY

A.- Plant Information Owner Alabama Power Company Plant Farley Nuclear Plant, Unit 1 Location Ashford, Alabama Containment Type Post-tensioned Concrete PWR Date Test Completed April 14, 1984 B.

Technical Data 1.

Containment Net Free 1

Air volume 2,000,000 cu. ft.

2.

Design Pressure, Pd 54 psig 3.

Containment ILRT Average Temperature Limits 40 - 120'F C.

Test Results - type A Test 1.

Test Method Absolute h

2.

Data Analysis Technique Mass Point Leakage Rate per ANSI /ANS 56.8-1981 c

Total Time Leakage Rate per ANSI /N45.4-1972 and BN-TOP-1 3.

Peak Test Pressure, Pa 48 (+3.-0) psig

4.. Maximum Allowable Leakage Rate, La 0.15 wt% per day 5.

75% of Ia 0.1125 wt% per day 6.

Integrated Leakage Rate Calculated Isakage Rate, wt%/ day Test Result Lam At 95% UCL Mass Point Analysis 0.086 0.087 Total Time Analysis 0.082 0.085 7.

Imposed Verification Flow 9.1 scfm 8.

Verification Test Imposed Leakage Rate, Li 0.149 wt%/ day 9.

Verification Test Results Leakage Rate, wt%/ day Mass Point Analysis 0.214 Total Time Analysis 0.193 SU-055 _

W) _

f

10. Verification Test Limits G

Mass Point Analysis Total Time Analysis wt%/ day wt%/ day Upper Limit (Li + Lam +.25 La) 0.272 0.268 f

Lower Limit (Li + Lam

.25La) 0.197 0.193 D.

LLRT Adjustments and Other Penalties:

a.

Total Penalty to be added:

Pen. 61A Pressure Sensing Line 30.00 seem Pen. 71 Pressurization Line 57.60 seem Pen. 72 Pressurization Line 31.50 seem Total 119.0 seem = 0.000303 wt% per day Containment Sump Increased 149.6 Gal./32 hrs = 0.00075 wt%/ day Total Penalty:

0.001 wt% per day

b. ILRT Results Corrected by Leakage Rate, wt%/ day Adding 0.001 wt% per day Ltm At 95% UCL

~I' Mass Point Analysis 0.087 0.088 Total Time Analysis 0.083 0.086 f

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SU-055.

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4.0 DISCUSSION

,m The pressurization system consisted of Atlas - Copco, diesel driven oil free air compressors, moisture separators and refrigerated air dryers.

Pressurization rate was about 4.8 psig/hr.

All containment isolation valves were lined up in post-LOCA condition in accordance with the ILRT procedure. Since no repairs or adjustments were required to be made, no corrective actions were necessary.

When the containment was pressurized to 50 psig (test pressure equals 48,

+3, -0 psig), the compressors were stopped. All containment fans

-were turned off and the service water supply to the containment coolers was isolated at the beginning of stabilization period. After

-stabilization was achieved a 24-hour ILRT was performed. The resulting leakage rates were within the allowable limits.

The successful periodic Type A and supplemental verification test were performed according to the requirements of the Farley Nuclar Plant Unit 1 Technical Specifications and 10CFR50, Appendix J.

The Type. A test method used is the absolute method described in ANSI /N45.4-1972, " Leakage Rate Testing of Containment Structures for Nuclear Reactors and ANSI /ANS 56.8-1981, " Containment System Leakage Testing Requirements." The leakage rate was calculated using formulas from the above ANSI Standards and BN-TOP-1, Rev 1, " Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants."

O)

Type A and verification test durations were performed in accordance with BN-TOP-1 criteria.

y The test results are reported in accordance with the requirements of 10CFR50, Appendix J, Section V.

The containment leakage rate testing method applied is the Absolute

!!ethod as described in References 5 and 6.

This is a direct application of the ideals gas 1 n PV = WRT. Two data analysis techniques were used:

(1) The Mass Point Analysis Technique (Reference 5)

This technique calculates the containment air mass at each time interval. A straight line least-squares analysis is used, and the slope of the regression line represents the rate of change of air mass with respect to time, which corresponds to the leakage rate.

(2) The Total Time Analysis Technique (Reference 6)

This technique measures leakage rate based on the most recent data point and the data point taken at the start of the test. The overall calculated leakage rate is determined by applying linear regression analysis to all measured leakage rate data at the end of the test period.

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'SU-055 t L

[]

Ninety-five percent upper confidence levels were calculated for leakage C/

rate data as required by References 5 and 6.

This is to ensure a 95%

probability that the calculated leakage rate value is within the 1

acceptance limits. A11' calculations were done with Bechtel's ILRT computer program described in Appendix A.

The temperature, pressure, and containment air mass history are plotted by the computer program.

The plots are in Appendix E.

The overall Instrun.entation Selection Guide (ISG) value was calculated (see Appendix G) in accordance with ANSI /ANS 56.8-1981 based on above instrumentation and on a 24-hour test duration. The calculated ISG =

0.0023 wt% per day < 0.0375 wt% per day = 0.25 La.

There was no instrument failure; therefore, post-ILRT ISG calculation was not required.

The IIRT data collection system consisted of drybulb and dewpoint temperature sensors, precision pressure gauges, and flow meters. All sensors were connected to the Data Acquisition System (DAS) for data acquisition scanning, collecting, and storing data in 15 minute intervals.

4.1 TEST SEQUENCE Containment pressurization started on April 12, 1984 at 0410 with all compressors running. The test pressure was reached at 1615 the same day.

The Test Phases were as follows:

I I

Test Phase l

Time l

Duration l

Date l

i I

I I

Irressurization 1

0410 - 1615 l

12:05 hrs IApril 12 l

l l

1 IStabilization i

1630 - 2030 1

4:00 hrs IApril 12 l

l l

l lIIRT l

2200 - 2200 l

24:00 hrs lApril 12-13 l l

I I

IVerification Test-l 2215 - 0215 1

4:00 hrs lApril 13-14 l l

1 I

I I

!Depressurization 1

0215-1115 l

9:00 hrs lApril 14 I

latart - end l

l l

l 1

Dd SU-055 ~

5.0 INSTRUMENTATION AND DATA ACQUISITION The following instrumentation system was used:

Number Reqd. Description Data Absolute Pressure 2

Precision Pressure Gauge Range:

0-100 psia Texas Instrument (TI)

Accuracy:

+/-0.015 of reading Model 145-02 Sensitivity:

0.001 psia Repeatability: 0.0005% FS Resolution:

0.001% FS Calibr. Date:

3/1/84 Drybulb Temperature 18 Resistance Temperature Range:

0-150*F Detectors, Platinum Accuracy:

+/-0.1*F 100 ohn RTDs Sensitivity:

0.01*F Repeatability:

0.01*F Calibr. Date:

3/13/84 Dewpoint Temperature t

6 Dewpoint Detectors, Range:

40-212*F Chilled Mirror Accuracy:

+/-0.54*F EG&G Model 660-CI Sensitivity:

0.10*F Repeatability: 0.10*F Calibr. Date:

2/23/84 Flow Meters 1

Brooks Rotameter Range:

0-10 scfm Model 1110 Accuracy:

+/-1.0% FS Calibr. Date:

3/6/84 The Bechtel DAS was utilized for data acquisition. All instruments were directly connected to the computer. The data was acquired and printed from the DAS every 15 minutes. The computer used a direct data input from the DAS.

SU-055, _

/%

-l.v) 5.1 SENSOR LOCATIONS AND VOLUME FRACTIONS RTD'S Sensor Elevation Azimuth Distance From Volume No.

(ft)

(Degree)

CTMT Center (ft)

Fractions TE-1 280 120 10 0.0586 TE-2 250 120 40 0.0586 TE-3 180 300 5

0.0586 TE-4 210 120 40 0.0586 TE-5 190 120 50 0.0586 TE 212 315 10 0.0586 TE-7 210 300 50 0.0586 TE 236 300 35 0.0586 TE-9 190 300 35 0.0586 TE-10 165 26 61 0.0563 TE-11 165 120 55 0.0563 TE-12 165 215 55 0.0563 TE-13 165 320 64 0.0563 TE-14_

134 0

58 0.0637'.

TE-15 134 185 60 0.0637 e

TE-16 110 15 50 0.0400

)'

(

TE-17 110 124 45 0.0400 TE-18 110 250 50 0.0400 1.0000 DEWCELLS ME-1 236 300 35 0.1758 ME-2 210 120 40 0.1758 ME-3 190 300 35 0.1758 ME-4 165 26 61 0.2252 ME 134 185 58 0.1274 ME-6 110 250 46 0.1200 1.0000 u

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6.0 REFERENCES

The following documents contain the test requirements and acceptance criteria for the ILRT:

1.

Farley Nuclear Plant Unit 1 Technical Specifications 3/4.6.1.2 2.

Farley Nuclear Plant Final Safety Analysis Report (FSAR) 3.

10CFR50, 50.54(0) and Appendix J. " Primary Reactor Containment Leakage Testing for Water Cooled Power Reactors."

- 4.

Farley Nuclear Plant Procedure FNP-1-STP-117.0, Revision 3

" Containment Integrated Leakage Rate Test."

5.

ANSI N43.4-1972, " Leakage Rate Testing of Containment Structures for Nuclear Reactors" with guidance from ANSI /ANS 56.8-1981 -

" Containment System Leakage Testing Requirements."

6.

Bechtel Topical Report BN-TOP-1 Revision 1 " Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Fower Plants."

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O APPENDIX A Description of Bechtel IIRP Ctmputer Fr@m O

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t 4

APPENDIX A DESCRIPTION OF BEQtTEL IlJtT COMPtTIER PROGRAM l

I A.

Program and Report Description 1.

The Bechtel IIJtt computer program is,used to determine the inte-

)

grated leakage rate of a nuclear primary containment structure.

The program is used to compute leakage rate based on igut values of time, free air volume, containment atmosphere total pressure, drybulb temperature, and dewpoint temperature (water vapor pressure).

Imakage rate is computed using the Absolute Method as defined in ANSI /ANS 56.8-1981, "Contalment System Leakage Testing Requirements" and EN-TOP-1, Rev 1, " Testing Criteria for lategrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants".

i The program is designed to allow the user to evaluate containment leakage rate test results at the jobsite during containment leakage testing. Current leakage rate values may be obtained at any time during the testing period using one of two computational methods.

yielding three different report printouts.

2.

In the first printout, the Total Time Report, leakage rate is com-puted from initial values of free air volume, containment atmosphere drybulb temperature and partial pressure of dry air, the latest O

values of the same parameters, and elapsed time. These indi 1 dually computed laakage rates are statistically averaged using linear re-

[

4 grossion by the method of least squares. The Total Time Method is

[

4 J

i the computational technique upon which 'the short duration test criteria of EN-TOP-1, Rev 1 " Testing Criteria for Integrated 14akage Este Testing of Primary Contaiment Structures for Nuclear r

Power Plant," are based.

3.

The second printout is the Mass Point Report and is based on the Mass Point Analysis Technique described in ANSI /ANS 56.8-1981,

" Containment System 14akage Tasting Requirements." The mass of dry air in the containment' is compuped at each data point (time) using the Equation of State, from curreur values of containment atmosphere drybulb temperature and partial pressure of dry air. Contained mass is " plotted" versus time and a regression line is fit to the data using the method of least squares. leakage rate is determined from the statistically derived slope and intercept of the regression line.

4.

The third printout, the TEend Report, is a summary of leakage rate

~

values based on Total time and Mass Point computations, presented as a fumetion of number cf dar.a 'yoints and elapsed time (test dura-tion). The Trend Report, prwides all leakage rate values required for comparision to the accept.ance criteria of 'EN-TOP-1 for conduct

~

of a short duration test.'50-043 A-1

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w w w -i-ywww.www,,,-,.-eew,--we-.-+-v,--+mww.-wmwww,ww-v_w----

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5.

The program generates a predictor report based on Reference 7.

The

" predictor" is en estiente of the upper bound on the change in mass point calculated leakage rate which will occur during the next four hours. The estiaste is based on the mass point calculated leakage rates and 95% UCLs during the previous four hours.

6.

The program is written in a high level language (FORTRAN) and is designed for use on a micro-computer with direct data 1 yut from the data acquisition system. Brief descriptions of program use.

formulae used for leakage rate computations, and progran logic are provided in the following paragraphs.

3.

Enplanation of Progras l

1.

The Bechtel 11JtT computer program is written, for use by experi-t enced ILRT personnel, to determine containment integrated leakage rates based on the Absolute Method described in ANSI /ANS 56.8-i 1981 and RN-TOP-1.

2.

Information loaded into the program prior to or at the start of the test:

l a.

Number of containment atmosphere drybulb temperature sensors, dewpoint temperature (water vapor pressure) sensors and pressure O

gages to be used in laakage rate computations for the specific test b.

Volume fractions assigned to each of the above sensors c.

Calibration data for above sensors d.

Test title e.

Test pressure f.

Maximum allowable laakage rate at test prsssure 3.

Data received from the data acquistion system during the test, and used to compute leakage rates:

a.

Time and date b.

Contaisenent atmosphere drybulb temperatures j

c.

Containment steosphere pressure (s) d.

Containment atmosphere dewpoint temperatures 1

e.

Containment free air volume.

l 4.

Af ter all data at a given time are received, a Summary of Nessured Data report (refer to " Program Logic," Paragraph D, " Data" option i

command) is printed.

SU-043 A-2

5.

If drybulb cnd

. poi nt tempercture cewors sht i f oil dur inr, t he test, the data f rom the sensor (s) are not used. The volum-free-tions for the resetning eensors are recomputed and reloaded into the progree for use in ensuring leakage rate computations.

C.

leakage Rate Formulae 1.

Computation Using the Total Time Methods Measured leakage rate from data a.

(1)

FV3 3 = W RT3 3

(2)

Pg 3 = WgRT3 V

2400 (W1-W) i W

L

~

i a,s yl Solving for W1 and Wg and substituting equations (1) and (2) into (3) yields t 2400 TyF Vi (4) i 1-i L

=

g Atg TgPyV1 i

where O

Wy, W3 = Weight of contained usas of dry air at times ti and tg. respectively, Iba.

7. Tg = Contalment atmosphere drybulb temperature at times 1

ty and t, respectively. *R.

i F, Fg = Fartial pressure of the dry air component of the con-1 i and t, respectively, tainment atmosphere at times t i

psia.

V, Vg = Contalment free air volume at times ti and tg. respec-3 g

tively (constant or variable during the test), it.

0 i, tg = Time at 1" and 1 data points respectively, hr.

t to t, hr.

Atg = Elapsed time from ti i

I R = Specific gas constant for air - 53.35 f t.lbf /11ms.*R.

Lg = Measured leakage rate computed during time interval ti to tg wt.1/ day.

To reduce truncation error, the computer program uses the following equivalent formulationt lo k,c='cWy) 1 Att A-3 SU443

.r

, N-w ^ ; y, '4,.,.-

J e

~~

.4-g,2.N'

=

r.

.7 Y, r N A.

,n s

. whers*

s w..

&Wg? - Wg - W1

/%s

_=

W 7,2 W1 %

1

. ~ Pg a V ' f a Pg Vp ~ a Tg,

A i

^

_ +. --:- +

s JF1

~'Vi

&PV1is T1

\\

=.

ATg s_

,'. s.

1+

n s

,I s-71-t s

~

.q

&Pg =- Pi - P1

(,,

& i "'Y ' - Il

~

T i

.g' A g = Tg - T1 y

T N

b.

CalcularM leakagCrate fra sgressien analysis:

~

(5)

L ",a + b atN where",

L = Calh$1sted leakage rdiii, wt.Z/ day, as determined fran the regression O

line.'

s a =J(gL c brati@

(6) 1 gN

^

N(gLg t ) - (I i)(m tg).y

?

i L

(7) b =,_

R(TA i )

( TA t ) h,f" t

y v

..j, %,%

s N = Nunsd.;of. data ' paints

~..,

l

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-W, (

m

?.

I " I! 'i.d i=1 95% upper eenfidence limit on the calculated leenage rate:

c.

UCU = a + b a fg,+ S..

(8)

,...A i where 2

I UCL = 95% uppeE confidence limit wi..%/ day, e.t elepsed tiame atN-l i

~.

M l

~~*n_

.s.

eks r g.

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.1.

For atN < 24 ght )/(N-2))l/2, gi + 1 + (5 2 - agLg - bgL t'

)/

(98)

= t.025;N-2 [(ILg g

N o

N L

2 _ (gg )2/N)] N (utg i

where to.025;N-2 = 1.95996 + 2.37226 + 2.82250.;

N-2 (N-2)Z For aty 1 24 0 025;N-2 [(I g2 - agLg - bgLg t )/(N-2)]1/2,g1 +(atN-d)/

(9b)

L i

S

=t I

W 2 _ (Z g )2/N)] N (gtg i

1.6449(N-2)2 + 3.5283(N-2) + 0.85602 where to.025;N-2 =

(N-2)2 + 1.2209(N-2) - 1.5162 Ig = Calculated leakage rate ccamputed using equation (5) at total elapsed time 3 i, I/ day.

t t

, Ta i N

2.

Computation using the Mass Point Method a.

Contained mass of dry air from data:

Ug = 144 PgYg RTi (go) where All symbols as previously defined.

b.

Calculated leakage rate from regression analysis, W = a + b gt b

L = -2400 -

(gg) a l

where L

= calculated leakage rate, wt.%/ day, as determined from the regression line.

O 50-043 A-5 l

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O

- cl,->==1)<-

(12)

N(twg t ) - (twi)(a ti) i N(m tg ) _ (gg )z 2

i th atg = Total elapsed time at time of i data point, hr N = Number of data points th Wg = Contained mass of dry air at i data point, Ibm, as computed f rom equation (10).

N I"I i=1 To reduce truncation error, the computer program uses the following equivalent formulation:

AWi b

a=

W

.1 + (I

- I at )/N (14) y g

W1 W1 O

AWi AWi

. N (I at ) - I I at g

g Wi Wi N(Etg ) - (ht )2 2

g AWi l

where is as previously defined.

I Wg e.

95% upper confidence limit.

-2400 UCL =

(b - S )

(16) b a

where UCL = 95% upper confidence limit, wt.%/ day.

O SU-043 A-6

SN sb " 10 025;N-2 [NIatg# - (Iat )#] *

(17) i where to.025;N-2.1.6449(N-2)2 + 3.5283 (N-2)2 + 0.85602 (N-2)2 + 1.2209 (N-2) - 1.5162 I[Wg - (a + b Atg)]

N-2 l 1

~

=W I(aW /W )2 _ [g(ag fy )j2/N -

y 1 y i 1 1 N-2 l/2 (18)

[I(AW /W ) At - I(AW /W )(E t )/N]2 i

g y g

I(a eg ) _ (g ati)2/N

-1 2

A 2[(UCL-L) + 4 (lAl + 2 S )]

A Predictor =

w 100 La where UCL = 95% upper confidence limit of mass point calculated leakage rate at end of test La = mass point calculated leakage rate at end of test A

= value of linear regression analysis slope of mass point calculated leakage rate vs. time for last 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of test data SA = linear regression analysis standard deviation of slope La = allowable leakage rate In terms of elasped time, &t and mass point calculated leakage rate th Im calculated at the end of i time interval.

g SU-043 A-7

- ~..

O 1

I lag - B I A tg M

4 hr 4 hr (19)

A *

(20)

M I-laga tg - I lag I

& tg 4 hr 4 br 4 hr B

=

2 2_g ggi MI

&tg 4 hr 4 hr I

lag - A I lag - B I lag a ti 4 hr 4 hr 4 hr (21)

S

=

- (I at )2}

[M-2] [M r atg i

4 hr 4 hr g = mass point calculated leakage rate evaluated using data up to time ati.

I4 hr = summation over last 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of test data.

N I

N-M+1 number of data points for last 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of test.

M

=

e e

SU-043 A-8

D.

Program Immic 1.

The Rechtel 11JtT computer program logic flow is controlled by a set of user options.

The user options and a brief description of their associated f unction are presented below.

OPIION COMMAN_D FUNCTION Af ter starting the program execution, the user either enters the name of the file containing previously entered data or initializes a new data file.

DATA Enables user to enter raw data. When the system requests values of time, volume, temperature, pressure and vapor pressure, the user enters the appropriate data. Af ter completing the data entry, a summary is printed out. The user then verifies that the data were entered correctly. If errors are detected, the user will then be given the opportunity to correct the errors. Af ter the user verifies that the data were entered correctly, a Corrected Data Summary Report of time, data, average temperature, partial pressure of dry air, and water vapor pressure is printed.

TREND A Trend Report is printed.

TOTAL A Total Time Report is printed.

MASS A Mass Point Report is printed.

TEEK Enables user to sign-off temporarily or permanently.

All data is saved on a file for restarting.

CORR Enables user to correct previously entered data.

LIST A Summary Data Report is printed.

READ Enable the camputer to receive the next set of data from the data acquisition system directly.

PLOT Enables user to plot summary data, individual sensor data or air mass versus time.

DELETE Enables user to delete a data point.

INSERT Enables user to reinstate a previously deleted data point.

VOLFRA Enabic user to change volume fractions.

O PRED A Predictor report is printed.

SU-043 A-9 l

OPTION COMMAND FUNCTION l

TIME Enable the user to specify the time interval for a report or plot.

j VERF.

Enable the user to input imposed leakage rate and calcaluted 11RT leaka e rates at start of verification n

tes t.

E.

COMPUTER REPORT AND DATA PRINTOUT Mt.3S POINI REPORT The Mass Point Report presents leakage rate data (wt%/ day) as deter-eined by the Mass Point Method. The " Calculated 14akage Rate" is the value determined f rom the regression analysis. The "Contaiment Air Mass" values are the masses of dry air in the containment (lba).

These air masses, determined from the Equation of State, are used in the regression ar.alysis.

TOTAL TIME REPORT The Total Time Report presents data leakage rate (wt%/ day) as deter-O mined by the Total Time Method. The " Calculated Leakage Rate" is the value determined from the regression analysis. The " Measured Leakage Rates" are the leakage rate values determined using Total Time calcu-la tions. These values of leakage rate are used in the regression analysis.

TREND REPORT The Trend Report presents leakage rates as determined by 'the Mass Point and Total Time methods in percent of the initial contained mass of dry air per day (wt%/ day), versus elapsed time (hours) and misber of data points.

PREDICTOR REPORT The predictor reports presents a predicted upper bound on the diange in calculated mass point leakage rate over the next four hours.

4 SUMMAIf DATA REPORT The Summary Data report presents the actual data used to calculate leakage rates by the various methods described in the " Computer Program

section of this re,> ort. The si-column headings are TIME, DATE TDiP, O

PRESSURE, VFRS, and VOLUME and contain data defined as follows:

i SU-043 A-10

1.

TIME:

Time in 24-hour notations (hours and minutes).

2.

MTE:

Calender date (month and day).

3.

TDiP:

Containment weighted-average drybulb temperature in absolute units, degrees Rankise (*R).

1 4.

PRESSURE: Partial pressure of the dry air component of the con-tainment atmosphere in absolute units (psia).

5.

VPRS:

Partial pressure of water vapor of the containment atmosphere in absolute units (psia).

i 6.

VOLUME :

Containment free air volume (cu. f t.).

i F.

SUMMARY

OF MEASURED MTA AND

SUMMARY

OF CORRECTED DATA The Summary of Measured Data presents the individual containment atmosphere drybulb temperatures, dewpoint temperatures, absolute total pressure and f ree air volume measured at the time and date.

l.

TEMP 1 through TEMP N are the drybulb temperatures, where N = No. of RTD's.

The values in the right-hand column are temperatures (*F), multiplied by 100, as read from the data O

acquisition system (MS). The values in the lef t-hand column are the corrected temperatures expressed in absolute units

(*R).

2.

PRES 1 through PRES N are the total pressures, absolute, were N = No.

of pressure sensors. The right-hand value, iii parentheses, is a number in counts as read from the MS.

This count value is converted to a value in psia by the computer via the instrument's calibration

)

table, counts versus psia. The lef t-hand column is the absolute total pressure, psia.

3.

VPRS 1 through VPRS N are the dewpoint temperatures (water vapor pressures), where N = No. of dewpoint sensors. The values in the right-hand column are tentaratures (*F), multi-1 plied by 100 as read from the DAS. The values'in the left-hand column are the water vapor pressures (psia) from the steam tables for saturated steam corresponding to the dewpoint (saturation) temperatures in the center column.

The Summary of Corretted Data presents corrected temperature and pressure values and calculated air mass determined as follows:

1.

TEMPERATURE (*R) is the volume weighted average containment atmosphere drybulb temperature ' derived from TEMP 1 through TEMP N.

DH-165 A-11

2.

CORRECIED PRESSURE (psia) is the partial pressure of the dry air component of the containment atmosphere, absolute. The volume weighted average containment atmosphere water vapor pressure is subtracted from the volume weighted average total pressure, yielding the partial pressure of the dry air.

1 3.

VAPOR PRESSURE (psia) is the volume weighted average contain-sment at.aosphere water vapor pressure, absolute derived f rcu VPRS 1 through VPRS N.

4.

VOLUME (cu. f t.) is the contaianent free air volume.

5.

CONTAINMENT AIR MASS (1be) is the calculated mass of dry air in the containment. The mass of dry air is calculated using the containment free air volume and the above TEMPERATURE and CORRRECIED PRESSURE of the dry air.

O i

l O

50-043 A-12

l (D BECHTEL CONTAINMENT INTEGRATED LEAKAGE RATE TEST COMPUTER PROGRAM FLOW CHART

( SIGN ON )

1

\\ ENTER BASIC / -

NO

/ ENTER PREVIOUS \\

g1NFORMATION f

~

\\ VALUES FROM FILES /

,VES f

'1 ENTERS

SUMMARY

i DATA -

DATA STORED ON o

GMIONS)

SELECTED FILES L

i rPREV CORRECTS i > CORR

SUMMARY

DATA

{ ERROR 7)

[ VES STORES

SUMMARY

jy NO SELE D ILE o

(

MEASURED DATA

SUMMARY

OF i + TREND

l TREND REPORT!

t -TOTAL TOTAL TIME REPORT

'fRROR7)

"8 MASS P0 INT l

< - MASS REPORT CDRRECTED o

SUMMARY

DATA PRINTOUT i r LIST PRINT OUT OF

SUMMARY

DATA

<> TERM

( SIGN OFF)

O.

(

y A-13

__.m._

_.__ _m_ _ _ _ _ _. _ _ _ _ _ _ _. _ _ _.. _ _. _ _ _ _ _ _ _ _. _ _ _ _ _. _. _ _ _ _ _ _. _ _.,

l i

9 i

i 1

APPENDIX B L

T 4

i ILRT Stabilization Sumary Data f

i e

L I

i i4 i

i i

4 4

i I

5 I

1 I

i 1

I l

I J

i t

i b

h v

I P

I i

b i

4 l.

1 I

P

]

t i

4 i

d I

i r

..---m..-.-

~

APPENDIX B

(#

FARLEY UNIT 1 ILRT

'~

SUMMARY

DATA

=

.150 VOLUNE =

2000000.

ALMAX VRATET =

.231 VRATEM =.235 TIME DATE TEMP PRESSURE VPRS VOLUME 1630 412 535.437 64.6892

.2782 2000000.

1645 412 535.118 64.6470

.2793 2000000.

1700 412 534.911 64.6193

.2790 2000000.

1715 412 534.786 64.5983

.2788 2000000.

1730 412 534.697 64.5821

.2791 2000000.

1745 412 534.613 64.5679

.2792 2000000.

1800 412 534.550 64.5568

.2792 2000000.

1815 412 534.493 64.5458

.2793 2000000.

1830 412 534.444 64.5351

.2799 2000000.

1845 412 534.411 64.5273

.2797 2000000.

1900 412 534.373 64.5195

.2799 2000000.

1915 412 534.329 64.5123

.2801 2000000.

1930 412 534.296 54.5047

,2807 2000000.

1945 412 534.276 64.4987

.2807 2000000.

2000 412 534.244 64.4933

.2806 2000000.

2015 412 534.222 64.4882

.2307 2000000.

2030 412 534.191 64.4832

.2807 2000000.

l B-1 (G

APPENDIX B FARLEY UNIT 1 ILRT v

TEMPERATURE STABILIZATION FROM A STARTING TIME AND DATE OF:

1630 412 1984 TIME TEMP ANSI BN-TOP-1 (HOURS)

( R)

AVE T

DIFF AVE T

(4 HRS)

(1HR)

(2 HRS)

.00 535.44

.25 535.12

.50 534.91

.75 534.79 1.00 534.70 1.25 534.61 1.50 534.55 1.75 534.49 2.00 534.44

. 496*

2.50 534.37

,. 353*

c. 25 534.41

. 269*

2.75 534.33

. 228*

3.90 534.30

. 201*

3.25 534.28

. 169*

3.50 534.24

. 153*

3.75 534.22

. 136*

I 4.20 534.19 311

.105

-.21*

. 063*

I U INDICATES TEMPERATURE STABILIZATION HAS BEEN SATISFIED B-2 l-O e=

.y..,m_, _ _.w_._yp,,.

,~,,,m.

pm g.7.y_.y.

.-,.,.,,,__._,,,-,_f,,,,,

m

,,.,._.,,,c.,y,,_,,,_,.wm,-,_w,,,,ym.,.3,yy,

,_,,,g.

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

4 k

1 1

i i

1 l

APPENDIX C ILRT Trend Report and Sumary Data h

i

i I

I i

1j f

f I

l

)

a

!, 9 4

f f

1 4

i

...,_--my.__

,_...v,.,-,,,,.yyy,,-g,mw-_.

we e

APPENDIX C O

FARLEY UNIT 1 ILRT TREND REPORT TIME AND DATE AT START OF TEST: 2200 412 1984 No.

END TOTAL TIME ANALYSIS NASS POINT ANALYSIS PTS TIME MEAS. CALCULATED UCL CALCULATED UCL 4

2245

.125 118

.282

.121

.147 5

2300

.132 125

.200

.129

.144 6

2315

.160 145

.216

.151

.181 7

2330

.135 142

.198

.144

.165 8

2345

.123 135

.186

.134

.153 9

0

.133 134

.178

.133

.148 10 15

.109 125

.169

.121

.139 11 30

.113 120

.161

.116

.131 12 45

.105 114

.152

.109

.124 13 100

.104 109

.145

.105

.118 14 115

.110 107

.141

.104

.115 15 130

.106 105

.137

.103

.112 16 145

.107 104

.134

.102

.110 17 200

.105 102

.131

.101

.109 18 215

.107 101

.129

.101

.108 l

19 230

.100 099

.126

.099

.105

( ).

20 245

.100 098

.123

.098

.103 21 300

.109 098

.124

.099

.104 4

22 315

.106 098

.123

.100

.104 23 330

.097 096

.121

.098

.102 24 345

.105 096

.120

.098

.103 25 400

.105 096

.120

.099

.103 26 415

.104 096

.120

.099

.103 27 430

.107 096

.120

.100

.103 28 445

.092 094

.118

.097

.101 29 500

.103 094

.117

.097

.101 30 515

.095 093

.116

.096

.100 31 530

.100 093

.115

.096

.099 32 545

.096 092

.114

.095

.098 33 600

.098 092

.113

.095

.098 34 615

.099 091

.113

.095

.098 35 630

.099 091

.112

.095

.097 36 645

.098 091

.112

.094

.097 37 700

.089 090

.110

.093

.096 38 715

.095 089

.110

.093

.095 i

39 730

.093 089

.109

.092

.095 40 745

.096 088

.109

.092

.094 41 800

.092 088

.108

.091

.094 i

42 815

.096 048

.108

.091

.094 43 830

.095 087

.107

.091

.093 3

44 845

.098 087

.107

.091

.094 45 900

.095 087

.107

.091

.093 46 915

.095 087

.107

.091

.093 47 930

.096 087

.107

.091

.093 l

c_3

-,,--e

.-w

,..v-w--

..w,,-,

-.--e

.,.-..---,-..v---.

APPENDIX C FARLEY UNIT 1 ILRT TREND REPORT TIME AND DATE AT START OF TEST: 2200 412 1984 NO.

END TOTAL TIME ANALYSIS NASS POINT ANALYSIS i

l PTS TINE NEAS. CALCULATED UCL CALCULATED UCL 48 945

.095

.087

.107

.091

.093 49 1000

.095

.087

.106

.091

.093 i

50 1015

.091

.086

.106

.091

.093 51 1030

.097

.087

.106

.091

.093 52 1045

.093

.086

.106

.091

.092 53 1100

.095

.086

.106

.091

.092 54 1115

..094

.086

.105

.091

.092 55 1130

~.094

.086

.105

.091

.092 56 1145

.096

.086

.105

.091

.092 57 1200

.097

.086

.105

.091

.092 58 1215

.096

.086

.105

.091

.093 59 1230

.094

.086

.105

.091

.092 60 1245

.095

.086

.105

.091

.092 61 1300

.095

.086

.105

.091

.092 62 1315

.094

.086

.105

.091

.092 63 1330

.095

.086

.105

.091

.092 64 1345

.096

.086

.105

.091

.093 65 1400

.093

.086

.105

.091

.092 66 1415

.094

.046

.105

.091

.092 67 1430

.094

.086

.105

.091

.092 68 1445

.093

.046

.105

.091

.092 g

69 1500

.095

.046

.105

.091

.092 70 1515

.094

.086

.105

.091

.092 71 1530

.096

.046

.105

.091

.092 72 1545

.092

.086

.105

.091

.092 73 1600

.095

.046

.105

.091

.092 74 1615

.092

.046

.105

.091

.092 75 1630

.090

.046

.104

.091

.092 76 1645

.089

.046

.104

.091

.092 77 1700

.090

.085

.104

.090

.091 78 1715

.090

.045

.103

.090

.091 79 1730

.090

.085

.103

.090

.091 l

80 1745

.090

.085

.103

.090

.091 S1 1800

.091

.085

.103

.090

.090 l

82 1815

.091

.085

.103

.089

.090 83 1830

.090

.045

.102

.089

.090 84 1845

.089

.084

.102

.049

.090 45 1900

.089

.084

.102

.089

.090 l

46 1915

.084

.044

.102

.089

.089 l

87 1930

.049

.044

.101

.044

.089 SS 1945

.046

.044

.101

.088

.089 89 2000

.087

.083

.101

.084

.089 90 2015

.087

.083

.100

.087

.088 91 2030

.087

.083

.100

.087

.088 92 2045

.087

.083

.100

.087

.048 93 2100

.046

.083

.100

.087

.088 O'

94 2115

.086

.082

.099

.086

.087 95 2130

.087

.082

.099

.086

.087 96 2145

.086

.082

.099

.086

.087 97 2200

.086

.042

.045

.046

.087 C-2

APPENDIX C C\\

\\,/

FARLEY UNIT 1 ILRT

SUMMARY

DATA

=

.150 VOLUME =

2000000.

ALMAX VRATET =

.231 VRATEM =.235 TIME DATE TEMP PRESSURE VPRS VOLUME 2200 412 534.071 64.4611

.2807 2000000.

2215 412 534.056 64.4583

.2805 2000000.

2230 412 534.037 64.4554

.2804 2000000.

2245 412 534.018 64.4521

.2807 2000000.

2300 412 534.002 64.4492

.2805 2000000.

2315 412 533.997 64.4468

.2805 2000000.

2330 412 533.982 64.4449

.2803 2000000.

2345 412 533.968 64.4429

.2804 2000000.

O 413 533.964 64.4410

.2807 2000000.

15 413 533.944 64.4392

.2806 2000000.

30 413 533.936 64.4371

.2806 2000000.

45 413 533.930 64.4364

.2804 2000000.

100 413 533.924 64.4350

.2807 2000000.

115 413 533.920 64.4332

.2805 2000000.

130 413 533.913 64.4321

.2807 2000000.

145 413 533.905 64.4302

.2805 2000000.

200 413 533.903 64.4294

.2808 2000000.

215 413 533.901 64.4283

.2804 2000000.

r~s 230 413 533.893 64.4274

.2803 2000000.

\\

245 413 533.888 64.4262

.2805 2000000.

300 413 533.895 64.4251

.2806 2000000.

315 413 533.890 64.4242

.2805 2000000.

330 413 533.874 64.4229

.2808 2000000.

345 413 533.888 64.4227

.2805 2000000.

400 413 533.883 64.4213

.2809 2000000.

415 413 533.881 64.4206

.2806 2000000.

430 413 533.887 64.4202

.2805 2000000.

445 413 533.870 64.4201

.2806 2000000.

500 413 533.880 64.4186

.2806 2000000.

515 413 533.877 64.4192

.2805 2000000.

530 413 533.881 64.4180

.2807 2000000.

545 413 533.881 64.4181

.2806 2000000.

600 413 533.881 64.4171

.2806 2000000.

615 413 530.888 64.4170

.2807 2000000.

630 413 533.883 64.4158

.2809 2000000.

645 413 533.885 64.4156

.2810 2000000.

700 413 533.877 64.4162

.2805 2000000.

715 413 533.888 64.4154

.2808 2000000.

730 413 533.887 64.4152

.2805 2000000.

745 413 533.888 64.4137

.2814 2000000.

800 413 533.887 64.4142

.2810 2000000.

815 413 533.903 64.4142

.2809 2000000.

830 413 533.898 64.4133

.2809 2000000.

845 413 533.908 64.4132

.2809 2000000.

900 413 533.908 64.4132

.2810 2000000.

915 413 533.914 64.4132

.2809 2000000.

930 413 533.919 64.4131

.2811 2000000.

945 413 533.919 64.4128

.2814 200G000.

1000 413 533.926 64.4128

.2813 2000000.

C-3

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

)

APPENDIX C b)

(_

FARLEY UNIT 1 ILRT

SUMMARY

DATA

.150 VOLUME =

2000000.

ALMAX

=

VRATET =

.231 VRATEM =.235 TIME DATE TEMP PRESSURE VPRS VOLUME 1015 413 533.922 64.4132

.2810 2000000.

1030 413 533.941 64.4129

.2813 2000000.

1045 413 533.935 64.4130

.2812 2000000.

1106 413 533.948 64.4129

.2812 2000000.

1115 413 533.948 64.4127

.2815 2000000.

1130 413 533.956 64.4132

.2815 2000000.

1145 413 533.969 64.4133

.2814 2000000.

1200 413 533.974 64.4128

.2814 2000000.

1215 413 533.980 64.4135

.2812 2000000.

1230 413 533.979 64.4134

.2812 2000000.

1245 413 533.991 64.4139

.2813 2000000.

1300 413 533.995 64.4137

.2814 2000000.

1315 413 534.001 64.4140

.2812 200000.

1330 413 534.008 64.4139

.2813 2000000.

1345 413 534.018 64.4139

.2813 2000000.

1400 413 534.013 64.4143

.2814 2000000.

1415 413 534.026 64.4145

.2817 2000000.

1430 413 534.031 64.4147

.2815 2000000.

()T 1445 413 534.036 64.4148

.2814 2000000.

\\m, 1500 413 534.046 64.4145

.2822 2000000.

1515 413 534.052 64.4153

.2814 2000000.

1530 413 534.063 64.4148

.2819 2000000.

1545 413 534.063 64.4163

.2814 2000000.

1600 413 534.081 64.4163

.2814 2000000.

1615 413 534.080 64.4169

.2818 2000000.

1630 413 534.078 64.4171

.2816 2000000.

1645 413 534.0*/8 64.4170

.2817 2000000.

1700 413 534.089 64.4174

.2817 2000000.

1715 413 534.103 64.4181

.2816 2000000.

1730 413 534.107 64.4183

.2819 2000000.

1745 413 534.114 64.4184

.2818 2000000.

1800 413 534.126 64.4190

.2817 2000000.

1815 413 534.126 64.4184

.2822 2000000.

1830 413 534.127 64.4182

.2820 2000000.

1845 413 534.130 64.4184

.2822 2000000.

1900 413 534.135 64.4188

.2819 2000000.

1915 413 534.136 64.4188

.2819 2000000.

1930 413 534.145 64.4185

.2822 2000000.

1945 413 534.134 64.4184

.2823 2000000.

2000 413 534.145 64.4185

.2822 2000000.

4 2015 413 534.150 64.4187

.2820 2000000.

2030 413 534.1=2 64.4185

.2822 2000000.

2045 413 534.158 64.4182

.2825 2000000.

2200 413 534.156 64.4181

.2826 2000000.

l 2115 433 534.161 64.4181

.2826 2000000.

s 2130 413 534.173 64.4183

.2824 2000000.

s 2145 413 534.173 64.4183

.2824 2000000.

2200 413 534.180 64.4186

.2826 2000000.

C-4

l 1

1 1

4-t 1

i 1

t

!e

(-

t 4

f j

4 1-APPENDIX D

[

ILRT Mass Point Analysis I

t I

f l

J Total Time Analysis 1

l i

i o

O i

b l

I O

t i

1

\\

APPENDIX D FARLEY UNIT 1 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

NASS POINT ANALYSIS f~

TIME AND DATE AT START OF TEST: 2200 412 1984 TEST DURATION: 24.00 HOURS TIME TEMP PRESSURE CTNT. AIR NASS LOSS AVERAGE MASS (R)

(PSIA)

NASS (LSN)

(LSN)

LOSS (LSM/HR) 2200 534.071 64.4611 651564.

2215 534.056 64.4543 651554.

9.8 39.1 2230 534.037 64.4554 651549.

5.7 30.9 2245 534.018 64.4521 651539.

10.0 34.0 2300 534.002 64.4492 651528.

10.3 35.8 2315 533.997 64.4464 651510.

18.4 43.4 2330 533.982 64.4449 651509.

.7 36.6 2345 533.964 64.4429 651506.

3.5 33.4 0 533.964 64.4410 651492.

13.8 36.1 15 533.944 64.4392 651497.

-5.6 29.6 30 533.936 64.4371 651487.

10.2 30.8 45 533.930 64.4364 651486.

1.2 28.4 100 533.924 64.4350 651440.

6.2 28.1 115 533.920 64.4332 651467.

13.1 30.0 130 533.913 64.4321 651463.

3.4 28.8 145 533.905 64.4302 651455.

4.4 29.1 200 533.903 64.4294 651449.

5.3 24.6 215 533.901 64.4243 651440.

9.0 29.1 4

230 533.893 64.4274 651442.

-1.2 27.2 245 533.484 64.4262 651435.

7.0 27.2 0

300 533.895 64.4251 651416.

18.9 29.6 315 533.890 64.4242 651412.

3.4 28.9 1

330 533.874 64.4229 651419.

-6.8 26.3 345 533.844 64.4227 651399.

19.4 28.6 400 533.483 64.4213 651392.

7.2 28.6 i

415 533.841 64.4206 651347.

5.5 28.4 430 533.447 64.4202 651375.

11.2 29.0 445 533.870 64.4201 651396.

-20.5 24.9 500 533.440 64.4186 651364.

27.6 24.0 515 533.877 64.4192 651374.

-9.7 25.7 530 533.841 64.4140 651361.

17.3 27.1 545 533.841 64.4181 651362.

-1.0 26.1 600 533.841 64.4171 651351.

10.1 26.6 615 533.848 64.4170 651342.

9.7 26.9 r

630 533.443 64.4154 651336.

6.0 26.8 645 533.885 64.4156 651332.

4.1 26.5 700 533.477 64.4162 651347.

-15.2 24.1 715 533.844 64.4154 651325.

22.1 25.9 730 533.447 64.4152 651325.

.2 25.2 i

745 533.844 64.4137 651309.

16.3 26.2 l

800 533.847 64.4142 651314.

-5.7 25.0 815 533.903 64.4142 651296.

18.7 26.2 I

830 533.894 64.4133 651293.

2.9 25.8 445 533.904 64.4132 651279.

.13.4 26.5 900 533.904 64.4132 651279.

.3 25.9 915 533.914 64.4132 651272.

6.5 25.9 O

930 533.919 64.4131 651265.

7.6 26.0 i

945 533.919 64.4124 651262.

2.9 25.7 1000 533.926 64.4128 651254.

S.4 25.9 I

D-1

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

APPENDIX D TIME TEMP PRESSURE CTNT. AIR MASS LOSS AVERAGE MASS (R)

(PSIA)

MAS 5 (LBM)

(LBM)

LOSS (LBM/HR) 1515-555.455-214:3155----- i51515 ----~;i 1--------- 54 9---

O 1030 533.941 64.4129 651235.

26.5 26.3 1045 533.935 64.4130 651243.

-S.2 25.1 1100 533.948 64.4129 651227.

16.1 25.9 1115 533.948 64.4127 651225.

2.3 25.6 1130 533.956 64.4122 651221.

4.3 25.4 1145 533.969 64.4133 651206.

14.9 26.1 1200 533.974 64.4128 651195.

10.4

.:2i6.4 1215 533.980 64.4135 651194.

.8 26.0 1230 533.979 64.4134 651195.

.4 25.5 1245 533.991 64.4139 651185.

9.6 25.7 1300 533.995 64.4137 651178.

7.1 25.7 1315 534.001 64.4140 651174.

4.4 25.6 1330 534.004 64.4139 651165.

S.8 25.8 1945 534.018 64.4139 651152.

12.9 26.2 1400 534.013 64.4143 651162.

-10.1 25.1 1415 534.026 64.4145 651149.

13.4 25.6 1430 534.031 64.4147 651144.

4.9 25.5 1445 534.036 64.4148 651139.

4.J 25.3 1500 534.046 64.4145 651124.

15.2 25.9 1

1515 534.052 64.4153 651125.

.4 25.5 i

1530 534.063 64.4148 651106.

14.5 26.2 j

1545 534.063 64.4163 651121.

-14.6 25.0 1600 534.081 64.4163 651099.

21.5 25.4 3

1615 534.080 64.4169 651107.

-4.0 25.0 1630 534.074 64.4171 651111.

-3.5 24.5 O

1645 534.074 64.4170 651109.

1.5 24.3 1700 534.089 64.4174 651102.

7.6 24.3 1715 534.103 64.4141 651092.

9.9 24.5 1730 534.107 64.4143 651084.

3.9 24.4 1745 534.114 64.4144 651081.

7.1 24.5 1800 534.126 64.4190 651072.

4.1 24.6 1815 534.126 64.4164 651066.

6.5 24.6 1830 534.127 64.4182 651062.

4.1 24.5 l

1845 534.130 64.4184 651061.

.7 24.2 1900 534.135 64.4164 651059.

2.2 24.0 i

1915 534.136 64.4184 651057.

2.2 23.9 1930 534.145 64.4185 651044.

13.3 24.2 1945 534.134 64.4184 651056.

-12.5 23.4 2000 534.145 64.4185 651044.

12.2 23.6 2015 534.150 64.4187 651040.

3.6 23.5 2030 534.152 64.4185 651035.

5.4 23.5 2045 534.154 64.4182 651025.

9.4 23.7 2100 534.156 64.4181 651026.

.9 23.4 2115 534.161 64.4181 651021.

5.7 23.4 2130 534.173 64.4183 651004.

12.7 23.7 j

2145 534.173 64.4183 651008.

.1 23.4 2200 534.180 64.4146 651003.

5.1-23.4 FREE AIR VOLUME USED (CU. FT.)

=2000000.

REGRESSION LINE INTERCEPT (LBM)

= 651540.

O SLOPE (LBM/HR)

=

-23.3 MAXIMUM ALLOWABLE LEAKAGE RATE

=

.150

.119 l

754 OF MAXIMUN ALLOWABLE LEAKAGE RATE

=

THE UPPER 954 CONFIDENCE LIMIT

=

.047 THE CALCULATED LEAKAGE RATE

=

.046 D-0

APPLNDIX D FARLEY UNIT 1 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

TOTAL TIME ANALYSIS TIME AND DATE AT START OF TEST: 2200 412 1984 TEST DURATION: 24.00 HOURS l

TIME TEMP PRESSURE MEASURED (R)

(PSIA)

LEAKAGE RATE 2200 534.071 64.4611 2215 534.056 64.4583

.144 2230 534.037 64.4554

.114 2245 534.018 64.4521

.125 2300 534.002 64.4492

.132 2315 533.997 64.4468

.160 l

2330 533.982 64.4449

.135 2345 533.968 64.4429

.123 0

533.964 64.4410

.133 15 533.944 64.4392

.109 30 533.936 64.4371

.113 45 533.930 64.4364

.105 100 533.924 64.4350

.104 115 533.920 64.4332

.110 3

130 533.913 64.4321

.106 145 533.905 64.4302

.107 200 533.903 64.4294

.105 215 533.901 64.4283

.107 230 533.893 64.4274

.100 245 533.488 64.4262

.100 300 533.895 64.4251

.14) 315 533.890 64.4242

.106 330 533.874 64.4229

.097 345 533.888 64.4227

.105 400 533.883 64.4213

.105 415 533.881 64.4206

.104 430 533.887 64.4202

.107 445 533.870 64.4201

.092 500 533.880 64.4186

.103 515 533.877 64.4192

.095 530 533.881 64.4180

.100 545 533.881 64.4181

.096 600 533.881 64.4171

.098 615 533.888 64.4170

.099 630 533.883 64.4158

.099 645 533.885 64.4156

.098 700 533.877 64.4162

.089 715 533.488 64.4154

.095 730 533.887 64.4152

.093 745 533.488 64.4137

.096 400 533.847 64.4142

.092 815 533.903 64.4142

.096 830 533.898 64.4133

.095 845 533.908 64.4132

.098 900 533.908 64.4132

.095 915 533.914 64.4132

.095 930 533.919 64.4131

.096 945 533.919 64.4128

.095 4

10C0 533.926 64.4128

.095 D-3 r

l 4.,--em- - -, -,,. - -. - ~,,.,,- -.,

--.--.--,wm-.,,..

www w em ---

e-e, -

w.

m----,---

APPENDIX D TIME TEMP PRESSURE MEASURED (R)

(PSIA)

LEAKAGE RATE

/

1015 533.922 64.4132

.091

~

1030 533.941 64.4129

.097

^

1045 533.935 64.4130

.093 1100 533.948 64.4129

.095 1115 533.948 64.4127

.094 1130 533.956 64.4132

.094 1145 533.969 64.4133

.090 1200 533.974 64.4128

.097 1215 533.980 64.4135

.096 1230 533.979 64.4134

.094 1245 533.991 64.4139

.095 1300 533.995 64.4137

.095 1315 534.001 64.4140

.094 1330 534.008 64.4139

.095 1345 534.018 64.4139

.096 1400 534.013 64.4143

.093 1415 534.026 64.4145

.094 1430 534.031 64.4147

.094 1445 534.036 64.4148

.093 1500 534.046 64.4146

.095 1515 534.052 64.4153

.094 1530 534.063 64.4148

.096 1545 534.063 64.4163

.092 1600 534.081 64.4163

.095 1615 534.080 64.4169

.092 1630 534.078 64.4171

.090 0

1645 534.078 64.4170

.089 1700 534.089 64.4174

.090 1715 534.103 64.4181

.090 1730 534.107 64.4183

.090 1745 534.114 64.4184

.090 1800 534.126 64.4190

.091 1815 534.126 64.4184

.091 1830 534.127 64.4182

.090 1845 534.130 64.4184

.089 4

1900 534.135 64.4188

.089 1915 S34.136 64.4188

.088 1930 534.145 64.4185

.089 1945 534.134 64.4184

.086 2000 534.145 64.4185

.087 2015 534.150 64.4187

.087 2030 534.152 64.4185

.087 2045 534.158 64.4182

.087 l

2100 534.156 64.4181

.086 2115 534.161 64.4181

.086 2130 534.173 64.4183

.087 2145 534.173 64.4183

.086 l

2200 534.180 64.4186

.086 l

.099 MEAN OF THE MEASURED LEAKAGE RATES

=

.150 MAXIMUM ALLOWABLE LEAKAGE RATE 0

.113 75x OF MAXIMUM ALLOWABLE LEAKAGE RATE

=

.085 THE UPPER 954 CONFIDENCE LIMIT

=

.082 THE CALCULATED LEAKAGE RATE

=

D-4

-.. ~..

i i

a

':I j

t F

J 5

4 I

APPENDIX E i

ILRT Plots:

Mass Point, Total Time, Airmass, Temperature, Pressure and Vapor Pressure 1

I i

i i

{

i i

(

f r

i r

h l

l l

'v-~~-

~.w-mv w w w e,,,.mme.w,e,.w

..w,m-e-e.

APPENDIX E FARLEY UNIT 1 ILRT MASS POINT LEAMAGE RATE (+) AND UCL(%)

.994 029

.See

.969

.988

.19e

.128

.148

.168

.188

+

+ - - - -

+

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,~__.-.._,,..,.--,._m-m.-.... - _..,,

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APPENDIX E FARLEY UNIT 1 !LRT TOTAL TIME LEAKAGE RATE (*) AND UCL.(%)

....+.10...... +. 2. 4 0......,. 2 70

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.030

. 060

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+

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E-2 G

__m.,

1 APPENDIX E FARLEY UNft 1 Rt A t ama S Lem M 6 9. 834... 650. 995..~658.e. 9.78.. 651. e..#.. 651. la... 45 8.194.. 6.51. 8.71.. 65 8. 345.. 65 8 414.. 45 8 49 8.. 451. 545 in e.

e.

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(

AfS.434 494.9v1 698.976

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e F. 3 i

,.. -~- - - ~

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n

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l APPENDIX E l

FAALEY UN!7 8 ILR7 TEMetmatunt DSOREES P 4 199.

74. 2.3e.... 74. 261....74. a.9a....74. Ja.3.

..'.4 354.

.74. 345

..74. 417

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+

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..... +............... +....... +....... +

. +....

4.199 74.834 74.948 74.894 74.383 74.354 74.345 74.487 74.448 74.479 74.510 E.4

me APPENDIX E PARLEY UNIT'1 ILetT a

- PRESSURE I41R 64 _413_._

64;41C 64 423.

_64 _428. ____6_4_432_

64 437

__64 _442 _ _6_4 447

---. _52 64 456 64 46_1 64.4 r

!!!!1 t

223.

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+

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64 413 64.418 64E423 (ME423 64.432 A4E437 64E 44L' 64.447 64.4S2 64E456 64.463 k

8 E-5 s.

7 k

APPENDIX E FARLEY UN17 1 ILR7 VAPOR PRESSURE PSIA O

.275

.276

.277

.278

.279

.280

.281

.282

. 283

.284

+

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.+

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9 i

APPENDIX F Verification Test Summary Data l

1 0

l l

M'PENDIX F Ft.RLEY UNIT 1 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

MASS POINT ANALYSIS TIME AND DATE AT START OF TEST: 2215 413 1984 TEST DURATION:

4.00 HOURS TIME TEMP PRESSURE CTMT. AIR MASS LOSS AVERAGE MASS (R)

(PSIA)

MASS (LBM)

(LBM)

LOSS (LBM/HR) 2215 534.177 64.4182 651001.

2230 534.190 64.4166 650969.

31.7 126.7 2245 534.189 64.4168 650973.

-3.4 56.5 1

2300 534.193 64.4153 650952.

20.8 65.5 2315 534.205 64.4145 650931.

21.4 70.5 2330 534.208 64.4139 650920.

10.6 64.9 2345 534.211 64.4137 650*15.

5.1 57.5 0

534.217 64.4132 650902.

13.1 56.7 15 534.221 64.4118 650883.

19.2 59.2 30 534.234 64.4117 650866.

16.7 60.0 45 534.242 64.4105 650845.

21.0 62.4 100 534.248 64.4100 650832.

12.7 61.4 115 534.251 64.4091 650819.

13.4 60.7 130 534.250 64.4089 650819.

.2 56.1 145 534.268 64.4077 650784.

34.6

,62.0 200 534.268 64.4071 650779.

5.2 59.2 0

215 534.283 64.4073 650763.

16.2 59.6 FREE AIR VOLUME USED (CU. FT.)

=2000000.

REGRESSION LINE INTERCEPT (LBM)

= 650996.

-58.1 SLOPE (LBM/HR)

=

VERIFICATION TEST LEAKAGE RATE UPPER LIMIT =

.272 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT =

.197

.214 THE CALCULATED LEAKAGE RATE

=

l l

l r

F-1

APPENDIX F

. (

FARLEY UNIT 1 ILRT LEAKAGE RATE (WEIGHT PERCENT / DAY)

TOTAL TIME ANALYSIS TIME AND DATE AT START OF TEST: 2215 413 1984 TEST DURATION:

4.00 HOURS TIME TEMP PRESSURE MEASURED (R)

(PSIA)

LEAKAGE RATE 2215 534.177 64.4182 2230 534.190 64.4166

.467 2245 534.189 64.4168

.208 2300 534.193 64.4153

.241 2315 534.205 64.4145

.260 2330 534.208 64.4139

.239 2345 534.211 64.4137

.212 0

534.217 64.4132

.209 15 534.221 64.4118

.218 30 534.234 64.4117

.221 45 534.242 64.4105

.230 100 534.248 64.4100

.226 115 534.251 64.4091

.224 130 534.250 64.4089

.207 145 534.268 64.4077

.228 200 534.268 64.4071

.218

\\

215 534.283 64.4073

.220 239 MEAN OF THE MEASURED LEAKAGE RATES

=

VERIFICATION TEST LEAKAGE RATE UPPER LIMIT =

268 VERIFICATION TEST LEAKAGE RATE LOWER LIMIT =

193 193 THE CALCULATED LEAKAGE RATE

=

)

g

, - - p

-.-..-,__y

,g--v_r 3-

,,..-w.,-c.-m-a

,--e--

y

-y m-

,e.-,---y--,.u.-y yw wy,,m..--

,g.-a

+==at>--+

9e- - - -.ue e

APPENDIX F f%

h FARLEY UNIT 1 ILRT MASS POINT LEAKAGE RATE (+)

AND UCL(%)

.000

.034 068 102 '

.136

.170 204

.239

.273 307

.341

.375

.409

+

_ +

+

_ + _

+

2215 1 2230 1 2245 1 2300 :

+

1 2315 !

+

1 2330 I'

+

1 2345 :

+

1 0:

+

1 15 i

+

1 30 i

+

1 45 ! -

+

1 100 i

+ 1

!!5 :

+ Z 130 i

+1 145 :

+ 1 200 i

+ 1 215 :

e

+ 1

+

+.

+

.000

.034 068 102

.136

.170 204

.239

.273 307

.341

.375

.409 l-k n

O l'

y_3 e

-w-

+ - - - -

,,e-,-

..ww---.e,e,o.

r,.,e

-m>

w, a

w,,

---,se--,----,---gwwgm v.,

,,n,,--,-,

g-

-.we-wg--eve-

APPENDIX F

('

FARLEY UNIT 1 ILRT TOTAL TIME LEAKAGE RATE (+) AND UCL(%)

.000

.112

.224

.337

.449

.561

.673

.786

.898 1.010 1.122 1.234 1.347

+

+-

+

2215 1 2230 1 2245 1 1

2300 1

+

2315 I

+

1 2330 1

+

1 2345 1

+

1 0l

+

1 15 1

+

1 30 1

+

1 45 I

+

1 190 8

+

1 115 i

+

1 130 1

+

1 145 1

+

1 i

200 8

+

1 215 1 8

+

1

+

.000

.112

.224

.337

.449

.561

.673

.786

.898 1.010 1.122 1.234 1.347 O

i 6

F-4 s

i

APPENDIX F O

FARLEY UNIT 1 ILRT AIRMASS LBM X 1000 650.763 650.783 650.803 650.822 650.842 650.862 650.882 650.902 650.922 650.942 650.961 650.981 651.001

+

_ _ +

+

__.+

+

_ _.+

+.__ ___+ _ _ ___+____.

.__+

2215 i

+

2230 :

+

2245 i

+

2300 :

+

2315 1-

+

2330 :

+

2345 l-

+

0:

+

15 i

+

30 i

+

~

45 :

+

100 :

+

!!5 :

+

IM !

+

145 i

+

200 i

+

215 +

e

+

+--

-+

+

650.763 650.783 650.003 650.822 650.842 650.862 650.882 656.902 650.922 650.942 650.961 650.981 651.001 O

I l

t I

l t-I F-5 I

,_.-___,..___.-._,______.,..--___-,_....-._,,.._-__m

- - ~ - ~

- - - - - - -. --. - -. ~. - - - - - - - - - - - - -

APPENDIX F I

FARLEY UNIT 1 ILRT

SUMMARY

DATA ALMAX

.150 VOLUME =

2000000.

=

VRATET =

.231 VRATEM =.235 TIME DATE TEMP PRESSURE VPRS VOLUME 2215 413 534.177 64.4182

.2825 2000000.

2230 413 534.190 64.4166

.2826 2000000.

2245 413 534.189 64.4168

.2824 2000000.

2300 413 534.193 64.4153

.2829 2000000.

2315 413 534.205 64.4145

.2827 2000000.

2330 413 534.208 64.4139

.2823 2000000.

2345 413 534.211 64.4137

.2825 2000000.

O 414 534.217 64.4132

.2825 2000000.

15 414 534.221 64.4118

.2829 2000000.

30 414 534.234 64.4117

.282M 2000000.

45 414 534.242 64.4105

.2827 2000000.

100 414 534.248 64.4100

.2826 2000000.

115 414 534.251 64.4091

.2837 2000000.

130 414 534.250 64.4089

.282"i 2000000.

145 414 534.268 64.4077

.2830 2000000.

200 414 534.268 64.4071

.2831 2000000.

215 414 534.283 64.4073

.2829 2000000.

~ (

i l

l F-6 i

l..

as.-

a 2

_2.w

-a

-~wa-

-a-1 A--

i--- -

--am-aw--*1 a=+w a

-- - - e

A-n A

L-2---

mA

.m._

-.-_n,s-_s APPENDIX G 9

ISG CALCULATION i

l i

)

i 1

1 1.

i t

a

(

l 4

I I

I.

{

l O

SU-055

=

t A

ISG CALCULATION

- V~

Reference ANSI /ANS-56.8-1981, Appendix G A.

Test Parameters La = 0.15 %/ day leakage rate P-

= 64.14 psia containment pressure T

= 534.17 "R average drybulb temperature Tdp = 62*F average dewpoint temperature t

= 24 Hr.

test duration i

B.

Instrument Parameters 1.

Total Absolute Pressure No. of sensors:

2 Range:

0-100 psia Sensitivity error (Ep):

.001 psia Repeatability (EP):

0.05% of full scale

- 1/2

.(0.001)2 + (0.0005)2 1/2 (E ) + (E e =+

p p

No. of sensors 2

-4

= 7.91 x 10 psia

-2. Water Vapor Pressure No. of sensors:

6 Sensitivity error (Ep ) pV):

+.10*F Repeatability (E

.10*F y

Dewpoint temperature:

62*F Vapor pressure change Q 62*F: 0.00986 psia /*F 1/2 1/2

(*

(

1}

Pv}

('Pv

~

6

+

x 0.00986 e =+

=

Y ~

_No. of sensors,

~4

= 5.6926. x 10 psia W

4 SU-055 G-1

3. Temperature No. of Sensors:

18 Sensitivity error (E,):

0.0l*F Repeatability error (ET): 0.01*F

~

2

+ e2 (0.01)2+ (0.01)2

= 3.333 x 10-3 e =1 T

T

=

T

,No. of sensor, 18 C.

Instrumentation Selection Guide (ISG) 2 h2 2 -

1/2 I

ISG = + 2400 2 eP

+2

PV l

+2

T i

t P

/

7

-4}2

[

2 +2l[3.333x10 2-

,4

-3

= 1 2400 2

7.91x10

+ 2l 5.6926x10 l

j

( 64.14 534.17 24 64.14 ISG = 1 0.00232 wt%/ day

.25 La = (0.25) (0.15) = 0.0375 > 0.00232 O

4 I

i i

l O

SU-055 G-2

a t

APPENDIX H j

i LLRT Summary t

i i

a i

I i

l

.I 4

l I

L i

ie i

I 4

I I

O

\\

i i

I r

t t

I SU-055 I

r,em,--+-

.,.v.--

-~

APPENDIX H SIMIARY OF LOCAL LEAK RATE TEST RESULTS Sum of measured leakages 10,751.67 seem Reported leakage rate = sum of measured leakages for penetrations Acceptance criteria:

Reported leakage

.6 La

.6 La = 151,058.9 scen 10,751.67 scem(151,058.9 seem Total local leak rate satisfies the acceptance criteria.

LLRT data taken since the First Periodic ILRT (second refueling outage) is enclosed.

O e

A N

SU-055 H-1

.--m-#---

u

..,m

.,,,iyy,...,

.y--

..rmm,m.,

,-_s,,,--,,,c.-_e-,.--_-,,

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

--..---.g-w---

iF LLRT

SUMMARY

FOR 5th REFUELING DATE:

4/18/84 ELECTRICAL PENETRATION TOTAL 26.27 TYPE B TEST (LESS ELEC. PEN.) TOTAL 6618.7 TYPE C TEST TOTAL 4106.7 TOTAL LLRT LEAKAGE 10751.67 MAX. ALLOWABLE LEAKAGE (.6 La) = 151,058.9 SCCH.

10751.67 x 100 7.12% OF ALLOWABLE LEAKAGE

=

151,058.9 i

i O l

l t

SU-055 H-2 T

Tw-

'w---

w----

7

-e

+$-*--w-*;

7-ar Yg 97 y 3=-

w + T v m+19--M-T-'1---#

p-W--at-wh'--W*$

-+pNe e e-- *N9+--u*wwwpWrWwT"*FPh'**P M'm" * * " *e 2

M-MN'-F'M""NW"""'-F"*'*-"""" " '#

]

TYPE B TEST

SUMMARY

FOR 5th REFUELING (V

DATE:

3/16/84 ELEC. PENE.

N0ZZLE LEAKAGE RATE TPNS NO.

LOCATION WA/MWR DATE IN SCCM Q1T52A003-A EA01 WA 31190 2/16/84 0.07 Q1T52A004-A EA02 WA 31190 2/16/84 1.02 Q1T52B014-A EA03 WA 31190 2/16/84 0.07

-Q1T52B001-A EA05 WA 31190 2/16/84 0

Q1T52B005-A EA06 WA 31190 2/16/84 0

Q1T52B002-A EA09 WA 31190 2/16/84 0

Q1T52A001-A EA10 WA 31190 2/17/84 0.07 Q1T52A002-A EAll WA 31190 2/17/84 1.02 Q1T52B019-A EB01 WA 31190 2/15/84 0

qV

.Q1T52B007-A EB05 WA 31190 2/16/84 0

i Q1T52B006-A EB09 WA 31190 2/16/84 0

l Q1T52B013-1 EC01 WA 31190 2/15/84 0.10 Q1T52B012-1 EC03 WA 31190 2/16/84 0.17 Q1T52B010-4 EC08 WA 31190 2/16/84 2.38 Q1T52B008-4 EC10 WA 31190 2/16/84 0

Q1T528023-B WA03 WA 31190 2/15/84 0

Q1T52B015-B WA02 WA 31190 2/15/84 0

Q1T52B046-B WA05 WA 31190 2/14/84 0.54 Q1T52B047-B WA06 WA 31190 2/14/84 0

Q1T52A005-B WA07 WA 31190 2/15/84 0.44 Q1T52A006-B WA08 WA 31190 2/17/84 0.10 Q1T52B018-B WA09 WA 31190 2/14/84 0

U SU-055 H-3

..,s.

TYPE B TEST

SUMMARY

FOR 5th REFUELING A~) ~

DATE:

3/16/84 ELEC. PENE.

N0ZZLE LEAKAGE RATE TPNS NO.

LOCATION WA/MWE.

DATE IN SCCM QlT52B016-B WA10 WA 31190 2/13/84 0

.Q1T52B017-B Wall WA 31190 2/13/84 0.24 Q1T528032-N WA21 WA 31190 2/14/84 0

Q1T52B033-N WA22 WA 31190 2/14/84 0.03

~Q1T52B034-N WA23 WA 31190 2/14/84 0

Q1T52B035-N WA24 WA 31190 2/13/84 1.29

'Q1T52B020-B WB03-WA 31190 2/15/84 0

Q1T52B022-B WB07 WA 31190 2/14/84 0

Q1T52B025-B WB09 WA 31190 2/14/84 0.07 Q1T52B038-B WB11 WA 31190' 2/14/84 0.03 Q1T52B037-N WB21 WA 31190 2/13/84 0.17

~Q1T52B039-N WB24 WA 31190 2/13/84 0.17 Q1T52B026-3 WC01 WA 31190 2/15/84 0.17 Q1T528024-3 WC03 WA 31190 2/15/84 2.48 Q1T52B028-3 WC05 WA 31190 2/14/84 0.41

.Q1T52B030-2 WC07 WA 31190 2/14/84 0

Q1T52E042-2 WC09 WA 31190 2/15/84 0

Q1T528031-2 WC11 WA 31190 2/13/84 0

Q1T52B040-N WC21 WA 31190 2/13/84 0.14 Q1T52B041-N WC23 WA 31190 2/13/84 0.17 Q1T52B009-A EC07 WA 31190 2/17/84 0

' /"~T Q1T52B011-B WC08 WA 31190 2/17/84 0

V SU-055 H-4

.=._

TYPE B TEST

SUMMARY

FOR 5th REFUELING 4

i..

DATE:

3/26/84 ELEC. PENE.

N0ZZLE LEAKAGE RATE TPNS NO.

LOCATION WA/MWR DATE IN SCCM Q1T52B052-A EB10 WA 31190 3/20/84 0.195 Q1T52B053-B WC02 WA 31190 3/20/84 0.02 EB02 WA 31190 3/26/84 0

ECOS WA 31190 3/26/84 10.5 EB04 WA 31190 3/26/84 4.2 i

i e

fr!O I

I I

i i

i J

O SU-055 H-5 i

i j

i

..... ~

/'~'s '

TYPE B TEST

SUMMARY

FOR Sch REFUELING

(

1-DATE:

4/18/84 PENE.

LEAKAGE RATE D

NO DESCRIPTION MWR-DATE IN SCCM 14 Fuel Transfer Tube -

N/A 4/4/84 5.1 SCCM j-Flange Double "0" Ring 14 Fuel Transfer Tube -

PCN 84-2598 4/11/84 29.1 SCCM 3

Bellows 84 Equipment Hatch -

N/A 4/11/84 30.5 SCO!

Between "0" Rings 86 Personnel Lock Outer 0 SCCM Door - Between "0" i

Rings 86 Personnel Lock -

MWR 81084 4/10/84 6200 SCO!

Volume Between Doors 87 Auxiliary Access Lock 0 SCCM O

Outer Door - Between "0" Rings 87 Auxiliary Access Lock -

MWR 81049 4/10/84 354 SCCM Volume Between Doors r

f f

4 0

SU-055 H-6

L

.c TYPE C TEST

SUMMARY

FOR 5th REFUELING ku DATE:

4/18/84 PENE.

LEAKAGE RATE TOTAL LEAKAGE I

NO.

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

10 Q1E11V025A WA 31137 3/5/18 229 Q1E11V026A WA 31137 3/5/18 229 229 11 Q1E11V026B WA 31138 2/26/84 3.8 Q1E11V025B WA 31138 2/26/84 3.8 3.8 12 Q1P13V302 WA 31139 3/2/84 110 Q1P13V282 MWR 92800 3/2/84 110 WA 31139 s

}

Q1P13V301 MWR 90587 3/2/84 110 WA 31139 Q1P1'3V281 MWR 90586 3/2/84 110 110 WA 31139 q(j 13 Q1P13V304 WA 31140 3/2/84 438 l

Q1P13V283 HWR 90585 3/2/84 438 WA 31140 Q1P13V303 MWR 90588 3/2/84 438 WA 31140

.Q1P13V284 MWR 92799 3/2/84 438 438 WA 31140 c

16 Q1E11V001A WA 31141 3/5/84 74.7 74.7 18 Q1E11V001B WA 31142 2/27/84 17.3 17.3 23

~Q1E21V253A WA 31143 3/5/84 5.3 Q1E21V253B WA 31143 3/5/84 5.3 Q1E21V253C WA 31143 3/5/84 5.3 Q1E21V254 WA 31143 3/5/84 21.3 21.3 4

lo SU-055 H-7 1

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

. r3 TYPE C TEST

SUMMARY

FOR 5th REFUELING DATE:

4/18/84 PENE.

LEAKAGE RATE TOTAL LEAKAGE NO. -

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

24 Q1E21V257 WA 31144 2/29/84 66.4 Q1E21V258 WA 31144 2/29/84 59.3 Q1E21VM9 WA 31144 2/29/84 61.4 66.4 25 Q1E21V115B WA 31144 2/16/84 14.3 14.3 26-Q1E21V115C WA 31146 2/16/84 20.1 20.1 27 Q1E21V115A WA 31147 2/16/84 99.2 99.2 28 Q1E21V249A WA 31148 2/16/84 21.6 Q1E21V213 WA 31148 2/16/84 21.6 Q1E21V249B WA 31148 2/16/84 25.4 25.4 29 Q1E21V049 WA 31149 2/14/84 12.4 Q1E21V050 WA 31149 2/14/84 13.6 13.6 30 Q1B13V040 WA 31150 2/15/84 79.7 Q1B13V038 WA 31150 2/15/84 80.7 80.7 31 Q1021V005 WA 31151 2/16/84 25.2

. A 31151 2/16/84 7.9 Q1c21V006 W

Q1021V064 MWR 91057 2/16/84 16.6 25.2 WA 31151 32 QlP16V072 WA 31152 2/16/84 194.3 Q1P16V081 WA 31152 2/16/84 194.3 194.3 33 Q1G21HV3380 WA 31153 3/31/84 6.8 Q1G21V204 WA 31153 4/3/84 293 293 42 Q1P17V083 WA 31154 2/26/84 117 Q1P17V082 WA 31154 2/26/84 6

117 SU-055 H-8

TYPE C TEST

SUMMARY

FOR 5th REFUELING DATE:

4/18/84 PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.-

MWR/WA DATE IN SCCM PER PENE.

43 Q1Pl7HV3045 MWR 91428 3/20/84 21.6 WA 31155 Q1P17HV3184 WA 31155 2/27/84 67 67 44 Q1P17V097 MWR 91768 2/26/84 29 Q1P17V099 WA 31157 2/26/84 29 29 45 Q1P17HV3095 MWR 91767 2/26/84 214 WA 31156 Q1P17V159 WA 31156 2/26/84 303.5 303.5 46 Q1P17HV3443 WA 31158 2/26/84 101.3 Q1Pl7HV3067 WA 31158 2/26/84 82.2 101.3

(%

()

47 Q1P18V001 WA 31159 3/20/84 53.0 QlP18V002 WA 31159 3/20/84 53.0 53.0 48 Q1P19HV3661 WA 31160 3/2/84 15 Q1P19V002 WA 31160 3/2/84 57.4 57.4 49 QlE21V052 WA 31161 2/13/84 6.3 Q1E21V091 WA 31161 2/13/84 10.4 10.4 50-Q1P15HV3776 WA 31162 2/13/84 3.5 Q1P15HV3334 WA 31162 2/13/84 3.7 3.7 54 Q1E14V002 WA 31163 3/19/84 4.1 Q1E14HV3658 WA 31163 3/19/84 8.5 8.5 55 Q1E14HV3657 WA 31164 3/19/84 4

Q1E14V001 WA 31164 3/19/84 134.4 134.4 SU-055 H-9

A

_ TYPE C TEST

SUMMARY

FOR 5th REFUELING

'w)

DATE:

4/18/84 PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

56 Q1P15HV3104 WA 31165 2/14/84 3.8 r

Q1P15HV3331 WA 31165 2/14/84 5.0 5.0 57 Q1P15HV3103 WA 31166 2/15/84 27.0 QlP15HV3332 WA 31166 2/15/84 13.8 27.0 58 Q1P15HV3765 Wa 31167 2/18/84 14.2 Q1P15HV3333 Wa 31167 2/18/84 24.8 24.8 59 Q1E11V039B WA 31168 3/8/84 3

Q1E11V039A WA 31168 3/8/84 3

Q1E21V263A WA 31168 3/8/84 3

V Q1E21V263B WA 31168 3/8/84 3

Q1B13V054 WA 31168 3/8/84 0.8 Q1E11V040 WA 31168 3/8/84 3

3 60 Q1P16V075 WA 31169 2/16/84 162.4 Q1P16V017 PWR 0-561 2/16/84 127.3 162.4 WA 31169 61A Q1E23V022D WA 31170 2/15/84 30.0 i

l Q1E23V022C WA 31170 2/15/84 30.0 01E23V023B WA 31170 2/15/84 30.0 30.0 l

61B Q1E23V024B WA 31171 2/15/84 17.4 l

Q1E23V025B WA 31171 2/15/84 17.4 17.4 62 Q1G21V082 WA 31172 2/17/84 19.3 Q1G21V001 WA 31172 2/17/84 19.6 19.6

/O V

SU-055 H-10

TYPE C TEST SUFDIARY FOR 5th REFUELING DATE:

4/18/84 PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

63 Q1E21V058 MWR 80560 2/13/84 140 WA 31173 Q1E21V059

!!WR 80559 2/13/84 170.2 170.2 WA 31173 64A Q1B13V037 WA 31174 2/13/84 19.5 Q1B13hv039 WA 31174 2/13/84 37.5 37.5 64B Q1B13V026A WA 31175 2/13/84 7.6 Q1B13V026B WA 31175 2/13/84 4.6 7.6 66 Q1E23V025A WA 31176 2/15/84 11.3 Q1E23V024A WA 31176 2/15/84 11.3 11.3 67 Q1E23V022B WA 31177 2/15/84 22.9 Q1E23V022A WA 31177 2/15/84 22.9 Q1E23V023A WA 31177 2/15/84 22.9 22.9

.70 Q1E14V004 WA 31178 2/18/84 26.1 Q1E14V003 WA 31178 2/18/84 15.3 26.1 71 Q1P23V022A WA 21179 4/15/84 57.6 57.6 72-Q1P23V002B WA 31180 4/17/84 31.5 31.5 78 Q1c21HV337

-WA 31181 3/31/84 35.5 Q1c21V291 WA 31181 3/31/34 53 Q1G21HV3376 WA 31181 3/31/84 53 53 82.

Q1P11V301 WA 31183 2/13/84 24.5 Q1P11V021 WA 31183 2/13/84 11.4 24.5 SU-055 H-11

{~

TYPE C TEST

SUMMARY

FOR -Sth REFUELIE DATE:

4/18/84 l

l l

PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

93 QlE13V003A WA 31184 2/22/84 715.1 Q1E13V004A WA 31184 2/22/84 715.1 715.1 94 QlE13V004B WA 31185 2/18/84 3.3 Q1E13V003B WA 31185 2/18/84 3.3 3.3 95 Q1G31V012 WA 31186 2/13/84 15.5 Q1G31V013 WA 31186 2/13/84 13.3 15.5 97B Q1P19V004 WA 31188 2/13/84 7.2 QlP19HV2228 WA 31188 2/13/84 7.6 7.6 103 Q1E23V002 WA 31187 2/18/84 22.3 Q1E23V003 WA 31187 2/18/84 22.3 22.3 O

SU-055 H-12 1

e LLRT SIDDIARY FOR 4th REFUELING O

1 DATE: 3/21/83 i

ELECTRICAL PENETRATION TOTAL 12.43 SCCM TYPE B TEST-(LESS ELEC. PEN.) TOTAL 2000.7 SCCM TYPE C TEST TOTAL 3140.91 SCC!l TOTAL LLRT LEAKAGE 5154.04 MAX. ALIDWABLE LEAKAGE (.6 La) = 151,058.9 SCCM.

1 5154.04 x 100 3.4% OF ALLOWABLE LEAKAGE

=

151,058.9 4

O l

t i

t 4

i i

l t

i 1

4 j

I:

1-4 SU-055 11 - 1 3 l

,.-,----nn,,

- - - - + ~. + -_-,,,m,..

,,,,,.e..,,-,.

,-..,,,.v.,,-n,m~

,m man-e--

r, n e n,

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

.w,w,.

g-a,----g.

w w--

7-=__..-

&.s. -_ j

. -g & #-

u ~ Y,.

w e--

c'

.n j;.

<~;

,y

^,

s;.,,

l_

'f.

.j l

s 1'

s

?

o 3 [N TYPE B: TEST

SUMMARY

FOR 4th REFUELING

)

-n-l..

,=

- ' w',

^,'

\\,

/

' DATE:

3/21/83

'A

,,4

' ' ' ' *[ -

l p

u o.

f

PENE, LEAKAGE RATE

^

Sr. -

No

.t DESCRIPTION MWR DATE IN SCCM 7;

e>

'^

.)

N

. ',. ~.14. / Fuel Transfer Tube -

WA 6189 3/14/83 204 SCCM I.

^ / Flange -Double. "0" Ring

.14'.

Fuel Tranaf dIube -

WA 6189 3/14/83 2 9 SCCM Bellows

$~f.

64: -,. Equipment Hatch '.

WA 6189 3/17/83 1785 SCCM

..Petween "0"; Rings '

~

86 Personnel Lock Outer N/A 3/18/83 0

i Door - Between "0"

.' P.ings 86

- Personnel Lock -

WA 22574 3/15/83 4.5 SCCM

, Volt e Between Doors 87 Auxiliary Access Lock N/A 3/18/83 0

< ' pd "0" Rings Outer' Door - Between T

'~

87., '

Auxiliary Access Lock -

WA 22574 3/18/83 4.3 SCCM Volume Between Doors',

+

4 7

/

c

.n y

%~

a. g '

.i P

, f;,

v

')

i(

4

,p.

I

,s g

).w.

b j

, /

r s

? -~

(SU-055'.

' H-14 j

i

/'

TYPE B TEST SUliMARY FOR 4th REFUELING

\\]

DATE:

3/21/83 ELEC. PENE.

N0ZZLE LEAKAGE RATE TPNS NO.

LOCATION WA/MWR DATE IN SCCM Q1TS2A003-A EA01 WA 3188 1/12/83 0.204 Q1T52A004-A EA02 WA 3188 1/12/83 O.238 Q1T52B014-A EA03 WA 6188 1/12/83 0.714 Q1T52B001-A EA05 WA 6188 1/12/83 0.11 Q1T52B005-A EA06 WA 6188 1/12/83 0.27 Q1T52B002-A EA09 WA 6188 1/12/83 0.238 Q1T52A001-A EA10 WA 6188 1/12/83 0.27 Q1TS2A002-A EAll WA 6188 1/12/83 0.306 Q1T52B019-A EB01 WA 6188 1/12/83 0.034

(/

Q1T528007-A EB05 WA 6188 1/12/83 0

Q1T528006-A EB09 WA 6188 1/12/83 1.70 Q1T528013-1 EC01 WA 6188 1/11/83 0.034 Q1T525012-1 EC03 WA 6188 1/12/83 0.068 Q1T52B010-4 EC08 WA 6188 1/12/83 0.17 Q1T528008-4 EC10 WA 6188 1/12/83 0.17 Q1T528023-B WA03 WA 6188 1/11/83 0.034 Q1T52B015-B WA02 WA 6188 1/11/83 0.068 Q1T52B046-B WA05 WA 6188 1/11/83 0.17 Q1T528047-B 9A '6 WA 6188 1/11/83 0.102 Q1T52A005-B WA07 WA 6188 1/11/83 0.34 Q1T52A006-B WA08 WA 6188 1/11/83 0.238 Q1T52B018-B WA09 WA 6188 1/11/83 0.068 V

SU-055 H-15

7-

~

t

,.. l r.

s r

x l.

f-]

T'tPE 3 TEST Sulf 3ARY FOR 4th, REFUELING 1

j 3

DATE:

3/21/83

\\

ELEC. PENE.-

'N0ZZLE LEAKAGE RATE TPNS NO.

LCCATION WA/MWR 1 DATE IN SCCM

_Q1T52B016-B WA10 WA 6188 l'/10/83 1.02 Q1752B017-B' Wall WA 6188 1/10/83

'O.34 Q1T52B03hN WA21 WA 6188 L1/10/83 0

.Q1T52B033-N WA22 WA 6188 1/10/83

. O'.'34 Q1T52Y034-N WA23 WA 6188

-1/_10/83 0 17 Q1TS2B035-N WA24 WA 6188 1/10/83 3.06

-QlT52B020-B WB03 WA 6188 3/11/83 0.034 Q1T52B022-B

.WB07 WA 6188

=1/11/83 0.17 QN252B025-B

- WB09 WA 6188 1/11/83 O.17

)

01T32B03.8-B WB11 WA 6188 2/0/83 0

.Q1TS2B037-N

'WB21 WA 618E;

.1/10/83 0.068

_Q1T52B039-N W324 WA 6188 1/10/83 0

's

~

Q1T32B026-3 WC01 WA 6188 1/11/83 0.136 Q1T52B024-3

' WCO3 WA 6188 1 11/83 0.136 Q1T52B028-3.

WC05 WA 6188

'1/11/83 0.102 Q1T32B030-2 WC07-WA 6188 1/11/83 0.102

(

Q1T52B042-2,

WC09 WA 6188 1/10/83 0.068

.. C11 WA 6188 1/10/83 0.102 Q1T52B031 W Q1T52B040-N WC21 WA 6188 1/10/83 0.238

-Q1T52B041-N WC23 WA 6188 1/10/83 0.27 Q1T52B009-A EC07 VA 6188 1/12/83 0.027

-Q1T52B011-B WC08 WA 6188 1/11/83 0

o 7-u SU-055 H-16 e

9

~ TYPE C TEST SUMM 2 Y FOR 4th REFUELING DATE:

3/22/83 PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

10 Q1E11V025A 60538 2/3/83 49.1 Q1E11V026A 60538 2/3/83 49.1 49.1 11

-Q1E11V026B 60539 1/25/83.

4.0 Q1E11V025B 60539 1/25/83 4.0 4.0 12

'Q1P13V290 60540 2/25/83 18.5 Q1P13V282 60540 2/25/83 18.5 Q1P13V289 60540 2/25/83 18.5 Q1P13V281 60540 2/25/83 18.5 18.5 13 QlP13V292 60541 2.26.83 4.6

-(L-Q1P13V283 60541 2.26.83 4.6

.Q1P13V291 60541 2.26.83 4.6 Q1P13V284 60541

-2.26.83 4.6 4.6 16

.Q1E11V001A 60542 2/2/83 4.5 4.5 18 Q1E11V001B 60543 1/25/83 14.2 14.2 23 Q1E21V253A 60544 1/25/83 22.5 Q1E21V253B 60544 1/25/83 22.5

.- Q1E21V253c 60544 1/25/83 22.5 Q1E21V254 60544 1/26/83 9.2 22.5 24

,Q1E21V257 60545 3/9/83 5.0 4

.Q1E21V258 60545 3/9/83 2.9

'Q1E21V119 60545 3/9/83 3.5 5.0 25 Q1E21V115B 60546 1/25/83 13.2 13.2-O M

SU-055 H-17

E TYPE C TEST

SUMMARY

FOR 4th REFUELING

~~

.DATE:

3/22/83 PENE.

LEAKAGE RATE TOTAL LEAKAGE NO. -

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

.26.

Q1E21V115C 60547 1/25/83 12.6 12.6 27 Q1E21V115A 60548 1/25/83

-129.0 129.'0 28 Q1E21V249A 60549 1/27/83 27.5 Q1E21V213 60549 1/27/83 27.5 Q1E21V249B 60549 1/27/83 42.6 42.6

.29 Q1E21V049 60550 1/19/83 5.9 Q1E21V050 60550 1/19/83 9.2 9.2 30 QlB13V040 60551 1/25/83 42.4 Q1B13V038 60551 1/25/83 71.8 71.8

( -)s-31 Q1G21V005 60552 1/26/83 26.6 Q1G21V006~

60552 1/26/83 35.6 Q1G21V064 60552 2/8/83 4.3 35.6 32 Q1P16V072 60553 1/25/83 209.0 Q1P16V081 60553 1/24/83 93.0 209.0 33 Q1G21HV3380 60554 2/16/83 8.5 Q1G21V204 60554 2/16/83 366.0 366.0 42 Q1P17V083 60555 1/22/83 107.5 Q1P17V082 60555 1/22/83 0.3 107.5 43 Q1P17HV3045 60556 1/25/83 32.2 Q1P17HV3184 60556 1/25/83 19.2 32.2

,44 Q1Pl7V097 60557 1/22/83 31.3

(i Q1P17VJ99 60557 1/22/83 28.4 31.3

'L)

SU-055 H-18

/7 TYPE C TEST

SUMMARY

FOR 4th REFUELING

\\.)

DATE:

3/22/83

-PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

45 Q1Pl7HV3095 60558 2/11/83 419.2 QlP17V159 60558 1/25/83 90.0 419.2

'46-Q1Pl7HV3443 60559 1/22/83 5.2 QlPl7HV3067 60559 1L/22/83 61.4 61.4 47 Q1P18V001 60560 3/14/83 33.3 Q1P18V002 60560 3/14/83 33.3 33.3 48

-QlP19HV3611 60561 2/23/83 5.0 Q1P19V002 60561 2/25/83 21.5 21.5 49 Q1E21V052 60562 1/19/83 7.7

's Q1E21V091 60562 1/19/83 7.1 7.7 50

-Q1P15HV3766 E0563 1/19/83 7.5 Q1P15HV3334 60563 1/19/83 6.4 7.5 54.

QlE14V002 60564 2/14/83 6.1 41E14HV3658 60564 2/15/83 69.6 69.6 55 QlE14HV3657-60565 1/21/83 30.73

.Q1E14V001 60565 2/2/83 44.6 44.6 56:

'Q1P15HV3104-60566-1/24/83 6.4 Q1P15HV3331 60566' 1/24/83 18.4 18.4 57-Q1P15HV3103 60567 1/24/83 26.5 Q1P15HV3332

.60567 1/24/83 17.9 26.5 58 Q1P15HV3765 60568 2/1/83 4.4 QlP15HV3333 60567 2/1/83 5.2 5.2

.m SU-055-H-19

TYPE C TEST SUl&lARY FOR 4th REFUELING DATE:

3/22/83-

-PENE.

LEAKAGE RATE TOTAL LEAKAGE

.NO.

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

59 Q1E11V039B 60569 2/26/83

.0

~

Q1E11V039A 60569 2/26/83 5.0 Q1E21V263A 60569 2/26/83 5.0 Q1E21V263B 60569 2/26/83 5.0 Q1B13V054 60569 2/25/83 11.4 Q1E11V040 60569 2/26/83 5.0 11.4 60

-Q1P16V075 60570 1/24/83 153.0 Q1P16V017 60570 1/24/83 9.0 153.0 61A Q1E23V022D 60571 1/31/83 7.4 j,sv) i Q1E23V022C 60571 1/31/83 7.4 Q1E23V023B 60571 1/31/83 7.4 7.4 61B Q1E23V024B 60572 2/3/83 8.4 Q1E23V025B 60572 2/3/83 8.4-8.4 62 Q1G21V082 60573 1/24/83 4.5 Q1G21V001 60573 1/24/83 8.2 8.2 63 Q1E21V058 60574 1/22/83 39.0 Q1E21V059 60574 1/19/83 70.1 70.1 64A'

- Q1B13V037 60575 1/25/83 27.5 Q1B13 V039 60575 1/25/83 33.3 33.8 64B Q1B13V026A 60576 1/22/83 3.5 Q1B13V026B 60576 1/22/83 4.7 4.7

~

66

.Q1E23V025A 60577 1/19/83 6.4 Q1E23V024A 60577 1/19/83 6.4 6.4 SU-055 11 - 2 0

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

r]

TYPE C TEST

SUMMARY

FOR 4th REFUELING

'u,J DATE:

3/22/83

~PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR/WA DATE IN SCCM PER PENE.

67

.Q1E23V022B 60578 1/18/83 14.3

)

Q1E23V022A 60578 1/18/83 14.3 Q1E23V023A 60578 1/18/83 14.3 14.3

~

70 Q1E14V004 60579 2/3/83 82.1

.Q1E14V003 60579 1/19/83 0.8 82.1 71-Q1P23V022A 60580 2/16/83 39.2 39.2 72 Q1P23V002B 60580 2/16/83 10.6 10.6

-78 Q1G21HV337 60582 3/12/83 4.2 Q1G21V291 60582 3/12/83 4.6

'D Q1G21HV3376 60582 3/12/83 4.6 4.6 82 Q1P11V301 60583 1/26/83 146.3 Q1P11V021 60583 1/26/83 12.4 146.3 L93 QlE13V003A 60584 1/22/83 598.0 Q1E13V004A 60584 1/22/83 598.0 598.0 94-

-Q1E13V004B 60585 1/22/83 0.8

.qlE13V003B 60585 1/22/83 0.8 0.8 95 Q1G31V012 60586 1/19/83 28.61 Q1G31V013 60586 1/19/83 13.2 28.61 97B-Q1P19V004 60588 1/18/83 9.2 Q1P19HV2228 60588 1/18/83 4.0 9.2 103-Q1E23V002 60587 1/19/83 6.5 Q1E23V003 60587 1/19/83 6.5 6.5 Dx)

SU-055 H-21

LLRT SIRDIARY FOR 3rd REFUELING I

DATE: 2/23/82 ELECTRICAL PENETRATION TOTAL-6.26 TYPE B TEST (LESS ELEC. PEN.) TOTAL

.40.86 TYPE C TEST TOTAL 2078.17 TOTAL LLRT LEAKAGE 2125.29 M. A W WABLE LEAKAGE (.6 La) = 151,058.9 SCCM.

2125.29 SCCM = 1.41% OF ALLOWABLE LEAKAGE O

4 1

ii l

O SU-055 H-22 i

t V

"'"w-,

,e-

TYPE B TEST

SUMMARY

FOR 3rd REFUELING

\\v DATE:

1/14/82 AS LEFT-ELEC. PENE.

N0ZZLE LEAKAGE RATE TPNS NO.

LOCATION WA/MWR DATE IN SCCM Q1T52A003-A EA01 WA 11446 10/10/81 0.0 Q1T52A004-A.

EA02 WA 11446 10/12/81 0.34

-Q1T52B014-A EA03 WA 1146 10/10/81 0.0 Q1T52B001-A EA05 WA 11446 10/10/81 0.0 Q1T52B005-A EA06 WR 27453 11/16/81 0.07

-Q1T52B002-A EA09 WA 11446 10/lb/81 0.0 Q1T52A001-A EA10 WA 11446 10/10/81 0.0 Q1T52A002-A EAll WA 11446 10/10/81 0.0 C

Q1T528019-A EB01 WA 11446 10/13/81 0.07 O)

Q1T52B007-A EB05 WA 11446 10/10/81 0.34 Q1T52B006-A EB09 WA 11446 1/7/81 0.03 Q1T52B013-1 EC01 WA 11446 10/10/81 0.0 Q1T52B012-1 EC03 WA 11446 10/10/81 0.0 Q1T52B010-4 EC08 WA 11446 10/10/81 0.0

.Q1T52B008-4 EC10 WA 11446 10/10/81 0.17 Q1T52B023-B WA03 WA 11446 10/12/81 0.0

. A 11446 10/12/81 0.0

. Q1T52B0'15-B WA02 W

Q1TS2B046-B WA05 WA 11446 10/12/81 0.0 Q1T52B047-B WA06 WA 11446 10/12/81 0.0 Q1T52A005-B WA07 WA 11446 10/12,/81 0.0

'Q1T52A006-B' WA08 WA 11446 10/12/81 0.0

[x_-.

'Q1T528018-B WA09 WA 11446 10/12/81 0.0 SU-055 H-23

- - ~ -. - - -. -

TYPE B TEST SUStagy FOR 3rd REFUELING n)

/14/82

.AS LEFT ELEC. PENE.

N0ZZLE LEAKAGE RATE TPNS NO.

LOCATION UA/I!Uit DATK IN SCCt!

Q1T52B015-B:

WA10 WA 11446 10/12/81 0.0

-Q1T328017-B Wall WA 11446 10/12/81 0.0 Q1T528032-N WA21 WA 11446 10/12/81 0.07

_Q1T52B033-N WA22 WA 11446 10/12/81 0.0 Q1T52B034-N

. WA23 WA 11446 10/12/81 0.03 Q1T52B035-N WA24 WA 11446 10/12/81 3.40 Q1T52B020-B WB03 WA 11446 11/13/81 0.0 Q1T52B022-B WB07 UA 11446 10/12/81 0.0 Q1T52B025-B WB09 WA 11446 10/12/81 0.0 7%

.- Q)

Q1T52B038-B WB11 WA 11446 12/2/81 0.10

-Q1T52B037-N WB21 WA 11446 10/12/81 0.07 Q1T528039-N.

WB24 WA 11446 10/12/81 0.17 Q1T528026-3 WC01 WA 11446 10/12/81 0.0 Q1T528024-3 WC03 WA 11446 10/12/81 0.0 Q1T52B028-3 WC05 WA ll446 10/12/81 0.17

.Q1T52B030-2 WC07 WA 11446 10/12/81 0.0 Q1T52B042-2 WC09 WA 11446 10/12/81 0.14 Q1T528031-2 WC11 WA 11446 10/12/81 0.10 Q1T52B040-N WC21 UA 11446 10/12/81 0.0

-QtT52804t-N Wc23 WA 11446 10/12/81 0.0 Q1TS20009-A EC07 WA 11446 10/12/81 0.0 Q1T528011-B WC08 WA 11446 10/12/81 0.99 V

SU-055 11-24 w

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

.-.-~n e--,--

-n,,--,.,

TYPE C TEST

SUMMARY

FOR 3rd REFUELING k)

DATE:

1/14/82 AS LEFT PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR DATE IN SCCM PER PENE.

10 Q1E11V025A 40975 10/3/81 191.7 191.7 Q1E11V026A

'40975 10/3/81 191.7 11 Q1E11V026B 40976 10/4/81 28.9 28.9 Q1E11V025B 40976 10/4/01 28.9

-12

.Q1P13V290 40977 10/9/81 16.2 16.2 Q1P13V282 40977 10/9/81 16.2 1~

Q1P13V290 40977 10/9/81 16.2 Q1P13V281 40977 10/9/81 16.2 13 Q1P13V292 40978 10/4/81 21.8 21.8 Q1P13V283 40978 10/4/81 21.8 Q1P13V291 40978 10/4/81 21.8 Q1P13V284 40978 10/4/81 21.8 16 Q1E11V001A 40979 10/8/81 2.6 2.6 18 Q1E11V001B 40980 10/6/81 25.4 25.4 23 Q1E21V253A 40981 10/6/81 1.9 1.9 Q1E21V2538 40981 10/6/81 1.9 Q1E21V253C 40981 10/6/81 1.9 Q1E21V254 40981 10/6/81 1.9 24 Q1E21V257 40982 11/13/81 1.0 1.6 Q1E21V258 40982 11/13/81 1.6 Q1E21V119' 40982 11/13/81 0.5 25 Q1E21V115B 40983 10/14/81 2.2 2.2

( ') '

v-26

- Q1E21V115C 40984 10/6/81 1.9 1.9 SU-055 H-25

7 TYPE C TEST SUmfARY FOR 3rd REFUELING

~

DATE:

1/14/82 AS LEFT i

PENE.

LEAKAGE RATE TOTAL LEAKe.;E NO.

VALVE NO.

MWR DATE IN SCCM PER PENi..

27 Q1E21V115A 40985 12/16/81 0.5 0.5 28 Q1E21V249A 40986 10/7/81 2.5 2.5 Q1E21V213 40986 10/7/81 2.5 Q1E21V249B 40986 10/7/81 2.4 29 Q1E21V049 40974 10/3/81 0.6 0.6 Q1E21V050 40974 10/3/81 0.0 30 Q1B13V040 46502 10/3/81 7.9 7.9 Q1B13V038 46502 10/3/81 7.5 31 Q1G21V005 40988 10/5/81 8.9 189.0 Q1c21V006 40988 10/5/81 189.0 s_-

Q1G21V064 40988 10/5/81 1.6 32 Q1P16V072 40965 10/5/81 18.9 35.0 Q1P16V081 40965 10/5/81 35.0 33 Q1021HV3380 40989 10/5/81 53.0 243.0 Q1c21V204 40989 10/5/81 243.0 42 Q1P17V083 40967 10/4/81 5.0 127.4 Q1P17V082 40967 10/4/81 127.4 43 Q1P17HV3045 40968 10/4/81 325.0 325.0 Q1.P17HV3184 40968 10/4/81 1.0 44 Q1P17V097 40969 12/1/81 1.5 339.0 Q1P17V099 40969 10/4/81 339.0 45 Q1P17HV3095 40970 10/6/81 18.1 18.1 Q1P17V159 40970 10/6/81 6.5

's SU-055-H-26

.,.----.-.--,,e-.-v-

[

TYPE C TEST SUl! MARY FOR 3rd REFUELING DATE:

1/14/82 s

.'AS LEFT l

b.

PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

' VALVE NO.

MWR DATE IN SCCM PER PENE.

14 6 Q1P17HV3443 40971 10/6/81 14.0 14.0 Q1P17HV3067 40971 10/6/81 1.1 3

47 LQ1P18V001 40991 10/10/81 1.8 1.8 Q1P18V002 40991 10/10/81 1.8

-48 Q1P19HV3661 40992 1/6/82 1.0 164.5 Q1P19V002 40992 1/6/82 164.5 49 Q1E21V052 40993 10/5/81 13.1 13.1 Q1E21V091 40993 10/5/81 11.17 50 Q1P15HV3770 40994 10/5/81 1.9 2.4 17~,

Q1P15HV3334 40994 10/5/81 2.4 s-54 Q1E14V002 40995 10/7/81 20.07 20.07 1

~Q1E14HV3658 40995 10/7/81 13.0 4

55 Q1E14HV3657 40996 10/8/81 16.4 16.4 t

Q1E14V001.

40996 10/8/81 3.0 56 Q1P15HV3104 40997 10/9/81 ~

2.5 2.5 i '

Q1P15HV3331 40997 10/9/81 2.3 57 Q1P15HV3103 40998 10/9/81 2.6 2.6 I

Q1P15HV3332 40998 10/9/81 2.6 58 Q1P15HV3765 40999 10/9/81 0.9 1.1 Q1P15HV3333 40999 10/9/81 1.1 L

i i -

L

!~

SU-055 H-27 4

~.;____-,.. _. _... _ _ _.. -. - - - _. -. _.., _ _ _ - - -..

s-

[

TYPE C TEST

SUMMARY

FOR 3rd REFUELING V

DATE:

1/14/82 AS LEFT' PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR DATE IN SCCM PER PENE.

59

.Q1EllV039B 41000 11/4/81 48.5 48.5 Q1E11V039A 41000 11/4/81 0.0 Q1E21V263A 41000 11/4/81 22.3 Q1E21V263B 41000 11/4/81 28.3 Q1B13V054 41000 11/4/81 0.0 Q1E11V040 41000 11/4/81 25.9

'60 Q1P16V075 40966 11/12/81 0.0 14.7 Q1P16V017 40966 11/12/81 14.7 61A Q1E23V022D 41001 10/8/81 1.2 1.2

\\'

Q1E23V022C 41001 10/8/81 1.2 Q1E23V023B 41001 10/8/81 1.2 i

61B

-Q1E23V024B 46112 10/8/81 2.0 2.0 Q1E23V025B 46112 10/8/81 2.0 62 Q1G21V082 46113 10/9/81 2.1 4.5 Q1G21V001 46113 10/9/81 4.5 63 Q1E21V058 46114 10/9/81 3.8 3.8 Q1E21V059 46114 10/9/81-2.8 64A Q1B13V037 46115 10.9.81 0.9 1.4 Q1B13hV039 46115 10.9.81 1.4 64B Q1B13V026A 46116 10.9.81 2.0 2.0 Q1B13V026B 46116 10.9.81 1.9 O

SU-055 H-28

TYPE C TEST SUIDIARY FOR 3rd REFUELING DATE:

1/14/82 AS LEFT PENE.

LEAKAGE RATE TOTAL LEAKAGE NO.

VALVE NO.

MWR DATE IN SCCM PER PENE.

66 Q1E23V025A 46117 10/8/81 14.1 14.1 QlE23V024A 46117 10/8/81 14.1 67 Q1E23V022B 46118 10/8/81 2.0 2.0 Q1E23V022A 46118 10/8/81 2.0 Q1E23V023A 46118 10/8/81, 2.0 70 Q1E14V004 46120 12/7/81 5.6 5.6 Q1E14V003 46120 10/8/81 4.2 71 Q1P23V022A 46121 10/3/81 21.6 21.6 72 Q1P23V002B 46121 10/3/81 60.9 60.9 OV 78 Q1G21HV3377 46123 10/7/81 2.0 2.0 Q1G21V291 46123 10/7/81 1.9 Q1G21HV3376 46123 10/7/81 1.9 82 Q1P11V001

.46124 10/7/81 19.3 19.3 Q1P11V002 46124 10/7/81 3.9 93 Q1E13V003A 40972 10/3/81 19.7 19.7 Q1E13V004A 40972 10/3/81 19.7 94 Q1E13V004B 40973 10/3/81 0.0 0.0 Q1E13V003B 40973 10/3/81 0.0 95 Q1G31V012 46125 10/7/81 22.0 22.0 Q1G31V013 46125 10/7/81 4.5 97B Q1P19V004 46126 10/9/81 2.7 9.8 Q1P19HV2228 46126 10/9/81 9.8

'O

\\- /

103 Q1E23V002 41092.

10/8/81 2.4 2.4 Q1E23V003 41092 10/8/81 2.4 SU-055 H-29 Ws

i'"

TYPE B TEST

SUMMARY

FOR 3rd REFUELING DATE:

2/23/82 M un PENE.

LEAKAGE RATE NO DESCRIPTION ISGt DATE IN SCCM

- 14 Fuel Transfer Tube -

48347 1/18/82 9.1 Flange Double "0" Ring 14 Fuel Transfer Tube -

48347 12/30/81 0.5 i,'

Bellows 84 Equipment Hatch -

N/A 2/9/82 12.8 Between "0" Rings 86' Personnel Lock Outer N/A 2/17/82 0.0 Door - Between "0" Rings 86 Personnel Lock -

47199 2/14/82 9.04 Volume Between Doors 87 Auxiliary Access Lock N/A 2/23/82 0.0 l - ).

Outer Door - Between "0" Rings 87 Auxiliary Access Lock -

41726 2/14/82 9.42 Volume Between Doors i

a 4

' O l

SU-055 H-30 n,.--

,,,e-

,,_..,_....w.

-m-.

=

=. - - _ _.

' O' APPENDIX I Modifications to Containment I

i I

i a

i e

d 0

6 i

I J

t 1

5 L.

.i SU-055 4

i 3

4

. n-m n

( -

APPENDIX I

~\\

Modifications to Containment:

j Two electrical penetrations and three temporary flanges were added to the containment directly prior to performance of the ILRT so that the requirements of 10CFR50, Appendix J, section IV.A would be met. These penetrations and their local leak rate results are reported in Appendix H and are repeated here.

5 Elec. Pene.

Nozzle Leakage Rate

{

TPNS No.

Location WA/MWR Date in SCCll Q1T528052-A EB10 WA 31190 3/20/84

.195 Q1T52B053-B WC02 WA 31190 3/20/84

.02 Q1T528053-B EB02*

WA 31190 3/26/84 0

Q1TS28053-B ECOS*

WA 31190 3/26/84 10.5 Q1TS28053-B EB04*

WA 31190 3/26/84 4.2 2

(A ).

v i

Temporary flanges added to the penetration nozzle t

i 4

l l

' O i O SU-055 I-1

ML20090E232

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ML20090E232

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1.0 INTRODUCTION

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6.0 REFERENCES

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