Text

Reactor Containment Bldg Integrated Leak Rate Test for May 1979
	ML19207A607
Person / Time
Site:	La Crosse File:Dairyland Power Cooperative icon.png
Issue date:	05/31/1979
From:	Papworth L; DAIRYLAND POWER COOPERATIVE
To:	;
Shared Package
ML19207A606	List: ML19207A605; ML19207A607;
References
	LAC-TR-071, LAC-TR-71, NUDOCS 7908210393
	Download: ML19207A607 (58)
	v • d • e

LAC-TR-071 REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST (ILRT)

FOR THE LA CROSSE BOILING WATER REACTOR (LACBWR)

MAY 1979 L. G.

Papworth Dairyland Power Cooperative 2615 East Avenue South La Crosse, Wisconsin 54601 850 131 7908210 N 3

LAC-TR-071 TABLE OF CONTENTS Page No.

I.

INTRODUCTION......................................

1 II.

SUMMARY

AND CONCLUSIONS...........................

2 III.

TEST EQUIPMENT....................................

3 IV.

CALCULATIONAL METHOD..............................

5 V.

RESULTS ANALYSIS..................................

10 VI.

SUMMARY

REPORT OF TYPE B AND C LOCAL LEAKAGE RATE TESTS........................................

12 A.

Introduction..................................

12 B.

Summary of Tests Not Meeting Acceptance Criteria......................................

12 C.

Instrument Error Analysis.....................

20 APPENDICES:

Appendix 1 - Ir.tegrated Containment Leak Rate Test Data (Calculated)

( 2 4 Hour Te s t)...................

22 Appendix 2 - Raw Data (24 Hour Test)..........

26 Appendix 3 - Supplemental Verification Test Data (Calcula ted)................

41 Appendix 4 - Raw Data (Supplemental Test).....

42 Appendix 5 - Summary of Type B and C Test Results 10/78-5/79...............

45 850 132 ii

LAC-TR-071 LIST OF FIGURES FIGURE NO.

TITLE PAGE 1

LACBWR Containment Integrated Leak Rate Test Equipment Layout.........

54 2

Containment Dry Air Mass (Lbm) vs. Time, 1979 Integrated Leak Rate Test...............................

55 850 133 iii

LAC-TR-071 I.

INTRODUCTION The eighth Type A Reactor Containment Building Integrated Leak Rate Test (ILRT) for the La Crosse Boiling Water Reactor (LACBWR) was successfully performed May 12-17, 1979.

The test was per-formed in accordance with Section 5.2.1.1 of the LACBWR Technical Specifications and the applicable requirements of Title 10 of the Code of Federal Regulations, Part 50, Appendix J.

This test was the first to be performed on an accelerated test schedule basis due to the failure of the two previous consecutive. tests per-formed in July 1975 and October 1978.

The requirement is such that a Type A test shall be performed at each plant shutdown for refueling until two consecutive Type A tests meet the acceptance criteria, at which time the original retest schedule may be resumed.

The test was performed at a test pressure (Pa) of 52-53 psig and the absolute method of leakage rate determination, specifically the mass plot analysis technique, was utilized.

Leakage rates were determined in accordance with ANS-N274,

" Containment System Leakage Testing Requirements", Fevision 2, May 15, 1978.

Dairyland Power Cooperative (DPC) was responsible for conducting the test.

DPC personnel performed the test in accordance with LACBWR Operating Manual procedure " Containment Vessel Leak Rate Test" as contained in Volume XI, Section 2.

850 134 LAC-TR-071 II.

SUMMARY

AND CONCLUSIONS Results of the May 1979 Type A Test indicated an integrated leak-age rate (Lam) of 0.05317 weight percent per day at the 95 per-cent upper confidence level.

The Technical Specification Acceptance Criteria for resumption of plant operation is 0.075 weight percent per day and thus a successful test result was achieved.

The calculated leakage rate, without the 95 percent upper confidence level factor, was determined to be 0.05121 weight percent per day.

A supplemental verification leak test was performed after the 24-hour Type A test to verify the accuracy of the Type A test results.

Resalts of the supplemental test were acceptable based on the requirements of paragraph III.3.(b) of 10CFR50, Appendix J.

850 135 LAC-TR-071 III.

TEST EQUIPMENT The LACBWR Type A Test leakage rate detection system consists of twelve (12) 3-wire platinum resistance temperature detectors (RTD's), six (6) lithium chloride dew cells and a fused quartz bourdon tube manometer.

The RTD's and dewcells are positioned in the containment structure as illustrated in Figure 1.

The analog signals from these sensors are input to a data acquis-ition system located external to the containment structure.

The data acquisition system interrogates the RTD and dewcell sensors on demand for dry bulb temperature and humidity infor-mation.

The containment absolute pressure information is input to the fused quartz manometer, externally connected to the containment structure.

The analog signals from the various sensors are processed through an analog to digital converter and transmitted at preset intervals to a Nuclear Data ND 6600 computer.

The computer operates in a real time mode to collect and store the transmitted information and calculates on demand the con-tainment air leakage rate.

The block of stored information for leakage rate calculation is selectable from any portion of the stored data base.

Figure 1 also illustrates the equipment utilized for conduct of the supplemental verification test in which a calibrated-leak is introduced to the containment structure to check the sensitivity of the leakage rate measurement system.

The above described equipment with exception of the supplemental test equipment, replaced leakage measurement instrumentation utilized for previous Type A tests as a permanent change to the facility.

The new equipment was selected for its superior per-formance characteristics involving sensitivity, repeatability, resolution and accuracy.

The instrumentation used was calibrated with traceability to the National Bureau of Standards within six months prior to the conduct of the test.

Individual sensor /

component performance specifications are provided below.

Drybulb Temperature Measurement (RTD)

Configuration:

3 wire 0

Operating Range:

0 to 150 F Accuracy:

60-120 F, t 0.lOF 0

Repeatability:

i 0.lOF Sensitivity:

0.OlOF Element:

Platinum Quantity:

12 850 136 LAC-TR-071 Dewpoint Temperature Measurement (Dew Cell) 0 Dewpoint Range:

32 to l40 F g

0 Dewpoint Accuracy:

1 1.0 F over 60 F Range 0

Dewpoint Repeatability:

1 0.5 F 0

Dewpoint Sensitivity:

i 0.1 F Type of Sensor:

Lithium Chloride Quantity 6

Pressure Measurement (Manometer)

Operating Range:

0 to 100 psia Accuracy:

.02% of Reading Repeatsbility:

.001% of Full Scale Stabillsy:

Less than.001% F.S. per degree Fahrenheit Ambient Temperature Range Type of Sensor:

Quartz Bourdon Tube Quantity:

1 Flow Measurement (Wet Test Gas Meter) 3 Capacity:

5-60 ft / hour

~~

Pressure Range:

0.5 to 8.0 Inches H O 2

Accuracy i.5%

Data Acquisition System i

A/D Conversion:

Dual Slope Integration V+F, Constant Scan Rate Display:

5 + Digit, Polarity, Decimal and Legend Sampling Rate:

2.5 Channels / Seconds Common Mode Rejection:

DC-180db, 10,000 Ohm Unbalance AC-180db at 50-60 Hz Normal Mode Rejection:

80db Input Impedance:

1,000 Meg Ohms / Volt Ambient Temp. Range:

0-50 C Zero Offset:

Recalibrate before Each Reading Automatically Voltage Temperature:

i.002% of Reading (.25 uV/0C)

Accuracy:

.005% F.S.,

i.005% of Reading at 25 C with i 10% A.C. Power Variation 4_

850 137

c

(

LAC-TR-071 s_-

' x.

A IV.

CALCULATIONAL METHOD j

y.

The calculation of the containment leakage rate was performed utilizing the mass point analytical'66chnique in accordance with

~

the industry recognized standard ANS-274, " Containment System Leakage Testing Requirements", Revision 2 - May 15, 1978.

This method of leakage rato determination depends on the measure-ment of the temperature and" pressure of the containment atmosphere with correction for changes in water vapor pressure.

These para-meters are utilized to determine a contained mass of air by application of the perfect gas law.

The test data thus consists of a time series of independent values of contained air mass.

It is assumed that leakage rate is constant with time, thus the data can be analyzed by the method of linee.r least squares.

The slope of the air mass versus time represente thelcate of change of air mass with respect to time, which is'tha' leakage rate.

An upper confidence limit (UCL) was set.. sUch xhat there was only a 5 percent chance that the actual containment lhakage rate exceeded

~

the calculated value.

The derivations and details for this method of calculation are present6d in the above stated ANS document.

Symbols and Subscripts P00RBRBINM P - Total absolute pressure in the containment,(psia)

T - Mean absolute temperature of the containment air (OR)

V - Internal free volume of the containment (assumed to 3

remain constant for the duration of the test - ft )

R - Gas constant for air (53.35 ft-lbf/lbn-R)

P

- Partial pressure for water vapor (PSIA) y N - Number of pairs of measurement W - Measured mass of contained air (lbm)

T - Time interval of measurement after initia?. measurement (hr)

W - At & B - Least squares line relating measured masses to corresponding times of measurement A - Slope of least squares line -

B-Intercept of least squares.line 5-850 138

~

s

.3 t

i LAC-TR-071

+

S

- Estimate of standard deviation of slope of least a

squares line sb - Estimate of standa::d deviation of intercept of least squares line Sab - Estimate of covariance between slope and intercept of l

least squares line L - 2400A/B - Estimate of leakage rate, derived fr'om least squares slope and intercept, expressed as a positive number (%/ day) 9 T95 - 95th percentile of student's t-distribution UCL

, Exact upper one-sided limit of a 95% confidence level

-i,or the leakage rate.

Subscripts:

i-Indicates the ith data point The calculationa

.lods used in the computer code for mass point techr.,ae makes use of a least squares analysis as follows

The least squares line is given by:

W = At + B where the slope (A) and intercept (B) are given, respectively by:

A = N(It W ) - (IW ) (Et )

i i i

i N(It 2) - (Et )2 i

i AND i

(Eh ) (Iti2)

(Et W ) (It l B=

i ii i

N (I t 2) - (Et )2 i

i Each ti is the elapsed time between a clock time for the initial reading and the clock time at which the ith reading is taken.

The formulas for A and B do not require equal tine intervals.

850 139

IJiC-TR- 071 The leakage rate is expressed as the ratio of the rate of change of the mass and the mass in the containment at time ti = 0.

The values of ti have units of hours and since the leakage rate is desired in Wt%/ day, the estimated mass point leakage rate, expressed as a positive number, is cal-culated as follows:

L=

(-24 00) (A/B)

The uncertainty in the estimated value of leakage rate is assessed in terns of the standard deviations of A and B and their covariance followed by the computation of an upper limit of the 95th confidence level for the leakage rate.

The estimate of the common standard deviation of the masses with respect to the line is given by:

y2 where:

U Wi is the measured mass at time ti and N

is the estimated mass at time ti from Wi = Ati +B i

In order to determine the standard deviation of the slope (S ) let:

a K=

S

[N (I tf)

(I ti)2 ]b 2

then:

= K[N]b S

To determine the standard deviation of the intercept (S )

b i ]h Sb = K[It 2

and the covariance of the slope and intercept (SAB) is Sab = K

[-t t ]

i 850 140

LAC-TR-071 In order to calculate the exact upper one-sided limit of a 95% confidence level for the leakage rate, lets a=B2 -t2 (S 2) b=AB-th5 (Sab) and c=A2 -t2 32 95 a

then the exact upper une-sided limit of a 95% confidence level for the leakage rate is determined as follow:s:

(b -ac)b]/a UCL (+95) = -2400 [b -

2 All raw data for temperature and dewpoint input to the cal-culational methods described above was corrected for instru-ment error using calibration data provided by the equipment supplier.

In addition, the pressure sensor readings were corrected using a similar technique.

Contairtment Subvolume Weighting factors were assigned to the temperature and dew-point sensors thus providing a single ambient and dewpoint temperature reading indicative of containment conditions.

With regard to computer code qualification, an internal audit was performed on the computer code prior to utilizing it in performing a leak rate test on the LACBWR containment.

The audit consisted of an in-depth check of the egnations used to confirm agreement with those recommended by the governing standards.

In addition, independent leakage rate calculations were performed during the initial phases of the Type A Test and compared with computer code results.

The results of this check agreed favorably with the values obtained using the computer code.

The calibrated leakage rate (43) which is used for determin-ation of acceptance of the supplemental verification test was cmputed using the following equation for a point calculation:

fY 2

2 2

= (14.7 Ib /in )(144 in /ft )(SCFH Prm Flcu Device) (2400) f haw Imnge Rate)

(53.35 ft-Lbr/L4 R) (527.69 R) (Contalment Air mss, ihm) 0 g}Q jf}

8-

LAC-TR-071 A running sum of leakage rate (%/d) versus Time Data sets were introduced to a least square fit analysis for average calibrated leakage rate determination.

The calibrated leakage rate was calculated by use of a programmable calculator.

A minimum number of 10 data sets approximately equally spaced within a minimum tirte period of 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> was required for an acceptable data base.

850 142 LAC-TR-071 V.

RESULTS ANALYSIS _

Referring to the nomenclature as used in 10CFR50, Appendix J, the total measured as-found containment leakage rate (Lam) was determined to be as follows:

- Calculated Le'kage Rate, Wt.%/ day : 0.05121

- Calculated Leakage Rate at 95% Upper Confidence Level, Wt.%/ day : 0.05317 The maximum allowable test leakage rate (Lam) shall not exceed 0.1 Wt.%/ day at a test pressure of 52 psig (Pa) according to LACBWR Technical Specifications.

To provide a margin for possible deterioration of the containment leakage integrity during the interval between Type A tests, LACBWR Technical Specifications require that the leakage rate acceptance criteria be reduced to

.75 L or 0.075 Wt.%/ day.

Thus, by either criteria, the resultant am leakage rate satisfactorily complied with governing requirements.

Appendix 1 contains leakage rate test calculated dLta and results including the zero time intercept and slope of the containment air mass vs. time relationship depicted in Figure 2.

Raw data was collected at 10-minute intervals over a 24-hour period on May 16 and 17, 1979, resulting in 145 total data sets for integration into the leakage rate calculation.

Appendix 2 contains the test raw data used.

No leakage paths were isolated during test conduct.

The accuracy of the Type A test results was verified by a supple-mental test by bleeding air out of containment at a known rate and then comparing the composite leakage rate for the containment during this time (EC) to the previously determined containment integrated leakage rate (Lara).

In accordance with 10CFR50, Appendix J, the fol3owir.g criteria must be satisfied for the supplemental verifica-tion test to be acceptable:

(Lo+ Lam 0.25 L ) 1LC i (Lo+ Lam + 0.25 L )

3 a

where:

ao

= Calibrated Leakage Rate (superimposed)

Wt.t/ day Lam = Calculated Integrated Leakage Rate, Wt.%/ day LC

= Composite Leakage Rate, Wt.%/ day La

= Maximum Allowable Leakage Rate at Test Pressure P

= 0.1 Wt.%/ day a 85U 143

LAC-TR-071 The superimposed leakoge rate (Lo) was determined to be 0.06210 Wt.%/ day using the calculational method described in Section IV.

(L ) was determined to be The calculated composite leakage rate C

0.10855 Wt.%/ day using the computerized calculation methods previously described in Section IV.

The integrated leakage rate (Lam) was previously calculated to be 0.05121 Wt.4/ day.

Using the criteria discussed above, the following demonstrates criteria acceptance and therefore that the 24-hour integrated test results are valid.

0.06210 + 0.05121 - 0.25(.1) 1 0.10855 1 0.06210 + 0.05121

+ 0.25(.1) 0.08831 < 0.10855 < 0.13831 Twenty-five (25) sets of data were acquired between the hours of 0030 and 0430 on May 17, 1979, for supplemental verification test computation.

The data was collected at 10-minute intervals.

Appendix 3 contains calculated supplemental verification test data for determination of the composite leakage rate (LC).

Appendix 4 contains the raw data utilized in computation of the (L ) and the calibrated (superimposed) composite leakage rate C

leakage rate (La).

850 144 LAC-TR-071 VI.

SUMMARY

REPORT OF TYPE B AND C LOCAL LEAKAGE RATE TESTS A.

Introduction Results of the reactor containment penetration leakage tests (Type D) and isolation valve leakage tests (Type C) are found in Appendix 5, Summary of Type B and C Leakage Test Results, 10/78 - 5/73.

The acceptance criteria set forth in Sections 5.2.1.2 and 5.2.1.3 of LACBWR Technical Specifications were considered the limiting criteria; the total leakage limits established 47 10CFR50, Appendix J (Sections III.B.3 and III.C.3) are nc mntained in existing LACBWR Technical Specifications.

The LACBWR staff was responsible for conducting the te. s which were performed in accordance with approved procedures.

B.

Summary of Tests Not Meeting Acceptance Criteria 1.

Penetration:

Personnel Airlock Penetration No.:

M-37 Acceptance Criteria:

3.75 SCFH*

a.

Test Date:

12-02-78 Test Leakage Rate:

9.02 SCFH A Type B penetration leakage rate test to determine the leakage rate of Reactor Containment Building personnel airlock was per-formed on December 1-2, 1978.

The results of the test did not meet the acceptance criteria as specified in the LACBWR Technical Specifications Section 5.2.1.2(b).1.

The outer door of the personnel airlock provided a leak-tight closure, therefore, containment integrity was not jeopardized by the observed deficiency.

The reactor was in Operational Condition No. 1 - POWER OPERATION - at the time of the test.

An investigation was conducted promptly to determine the source of leakage.

The problem was traced to insufficient preparation for the conduct of the test.

The pressure strongbacks were not fully tightened upon commencement of the test, thereby permitting the elastic door seal to stretch.

The seal was replaced and a satis-factory retest of the personnel airlock was completed with an as left leakage rate of 0.0 SCFH (Ref. RO 78-13, LAC-6025).

0.1 L where L

= 37.5 SCFH po pa 850 145 LAC-TR-071 2.

Penetration:

Emergency Airlock Penetration No.:

M-38 Acceptance Criteria:

0.749 SCFH*

a.

Test Date:

11-26-78 Test Leakage Rate:

1. 037 SC7H A Type B periodic leakage rate test to determine the leakage rate of the Reactor Containment Building emergency airlock was performed on November 25-26, 1978.

The results of the first eight hours of the test did not meet the acceptance criteria as specified in the LACBWR Technical Specifications, Section 5. 2.1. 2 (b) (2).

The inner door of the airlock provided a leak-tight closure, therefore, containment integrity was not jeopardized by the ob-served deficiency.

The reactor was in Operational Condition 2 -

Startup - at the time of the test.

An investigation was promptly conducted to determine the source of leakage.

The problem was traced to the pressure equalizing valve (Valve No. 37-30-004) for the outer door.

This valve is a ball type valve which is operated by a mechanical linkage.

Its function is to equalize the pressure differential between the outside atmos-phere and the airlock to afford entry or exit.

The emergency air-lock is designed to remain gas-tight under a pressure of 52 psig from inside the containment shell and 1 psig from outside of the shell.

The valve was disassembled for inspection and although the bal.1 was found nearly smooth and clean; slight scratches of the teflon seats were found.

It was concluded that the scratches contributed to the slight leakage observed.

The valve is being overhauled with the following parts:

Seats Body Seals A retest of the airlock was accomplished upon ecmpletion of repairs with an as-left leakage rate of 0.52 SCFH (Ref. RO 78-12, LAC-6013).

The valve had served reliably for more than eleven years.

Recent construction activities in the vicinity of the valve related to the installation of security equipment may have produced concrete dust particles which passed through filters to scratch the valve seats.

.02 L where Lpo = 37.5 SCFH po 850 146 LAC-TR-071 3.

Penetration:

Electrical Penetration Unit Nos.

3, 4 and 6.

Acceptance Criteria:

0.375 SCFH ea.

a.

Test Date:

1-15-79 As a result of conducting Type B leak tests on January 15, 1979, the indicated leakage flow rates from electrical penetration unit Nos. 3.

4 and 6 were found to exceed the permissible value pre-scribed in LACBWR Technical Specifications.

The leakage rates found were 0.412 SCFH on penetration unit No. 3, 8.27 SCFH on penetration unit No. 4 and 0.619 SCFH on penetration unit No. 6.

The subject units employ the MI cable-type penetration.

This type has solid conductors, compacted magnesium oxide insulation and a round copper sheath.

The MI cable runs through an inner chamber formed by the containment shell and an inner chamber wall; the chamber for each unit is 3 feet 8 inches high with a cross section 3 inches deep and 0 inches wide.

The penetration is nade by passing the MI cable through brass glands which are screwed into 3/4-inch tapped holes in the containment shell and in the inner chamber is pressurized to leak-test the penetrations.

Each unit contains sixty-six (66) individual cable penetrations (see Figure 1).

The following individual cable penetrations were observed to be leaking on the outside of the containment shell:

Penetration Penetration Penetration Unit No. 3 Unit No. 4 Unit No. 6 2A 1B 8A 2A 9A 4B 19A 6A 10A 6B 32A 14A llA 8B 15B 23A 23A 21B 20B 24A 25A 23B 28A 27B 33A 29B 30B The specific points of leakage at the individual cable penetrations varied.

Leakage was from the copper sheath / packing gland interface (i.e., where the MI cable penetrates the gland) on some of the penetrations and other penetrations were observed to be leaking at the point where the threaded gland screws into the containment shell.

Following the determination of unsatisfactory testing results for these penetrations, repairs were commenced.

The repairs consisted of cleaning and recoating the af fected cable penetration glands and adjacent containment wall areas with Scoth Cast Resin J5 epoxy seal-and compound.

The subject electrical penetration units were post-maintenance tested on January 18, 1979, with unit No. 3 leakage found to be 0.01 Lpo where Lpo = 37.5 SCFH

850 i47

LAC-TR-071 0.442 SCFH, again exceeding the permissible leakage rate.

Units No.c 4 and 6 satisfactorily met the leakage acceptance criteria with indicated leakage rates of 0.295 SCFH and 0.0 SCFH respec-tively.

The following Unit No. 3 individual cable penetrations were obsered to be leaking on the outside of the containment shell:

9A 16B 10A 26B 22A 28B 27A 30B 7B 33B 13B The above cable penetrations were repaired using the method previously discussed.

Testing following maintenance was reper-formed on January 20, 1979.

Test results indicated that Unit No. 3 was again leaking 0.442 SCFH.

Individual cable penetrations observed to b'e leaking included the following, six of which are located inside containment at the inner chamber wall:

PENETRATION UNIT NO. 3 Outside Containment Inner Chamber Wall Shell (Inside Containment) 23B 8B 9B 17B 25B 28A 32A Additionally, repairs were made to Unit No. 4 to reduce the leakage rate even though it was previously found acceptable.

The leakage of Unit No. 4 was found to be 0.147 SCFH.

Repairs on Unit No. 3 were again effected using the methods previously discussed (the repair methods for sealing the penetra-tion glands at the containmenc shell are also used for sealing glands at the inner chembar wall within containment).

Post maintenance leakage testing was performed on January 21, 1979, which indicated that the penetration unit was leaking at a rate of 0.559 SCFH.

Final repairs were completed on penetration unit No. 3 on Ja.nuary 22, 1979, after the following individual cable penetrations were sealed at the inner chamber wall:

850 148 LAC-TR-071 22A 15B 23A 16B 25A 17B 32A 19B 30B Post maintenance leakage rate testing resulted in a leakage rate of 0.236 SCFH, thus meeting the applicable leakage rate acceptance criteria of 0.375 SCFH.

With the accomplishment of the sealing repairs and the attain-ment of successful Type B test results, no further corrective action was performed at that time.

The inability of some electrical penetration seals to remain leak tight during test conditions was attributed to hardening and embrittlement of the epoxy sealant compounds.

Due to the frequency with which numerous individual cable penetrations have leaked during tests, an investigation of sealing materials was undertaken for the purpose of determining improvements to insure long range integrity.

(Ref.

R.O.

79-02, LAC-6 0 9 0).

b.

Test Date:

4-25-79 As a result of conducting Type B leak tests on April 25, 1979, the indicated leakage flow rates from electrical penetration unit Nos. 3 and 4 were found to exceed the permissible value prescribed in LACBWR Technical Specifications.

The leakage rates found were 0.589 SCFH on penetration unit No. 3 and 1.768 SCFH on penetration unit No.

4.

The individual cable penetrations listed below were observed to be leaking by the soap bubble detection method at the penetration side indicated.

Inspection revealed the noted penetration condition.

PENETRATION UNIT NO. 3 Individual Penetration No.

Penetration Side

Discovered Condition 6A R

Cracked Gland Body llA T

Cracked Gland Nut 13B R

Cracked Gland Boyd 14B R

Leak at Gland / Wall Interface ISD R

Cracked Gland Body

R denotes reactor side; T denotes turbine side.

850 149 LAC-TR-071 PENETRATION UNIT NO. 4 Individual Panetration No.

Penetration Side

Discovered Condition SB T

Cracked Gland Body 8A T

Cracked Gland Nut 15B T

Cracked Gland Body 19A T

Cracked Gland Body Repairs were effected which consisted of replacement of the entire individual MI cable penetration at penetration locations 6A, 13B, and ISB on Unit No. 3 and SB, 8A, ISB, and 19A on Unit No.

4.

Individual Unit No. 3 penetrations llA and 14B glands were cleaned and coated with Velodur Metal (American Velodur Metal, Inc.), a high strength, high heat resistant sealing product.

It is believed that this product will provide a significant improvement over the previously used sealing material.

Post-maintenance leakage rate testing was performed on April 27, 1979, which resulted in an indicated leakage rate of zero SCFH on both electrical penetration unit No. 3 and No. 4.

With the accomplishment of effected repairs and attainment of suc-cessful Type B testing, no further corrective action for this dis-covery is necessary.

It is believed that random cracking of the fittings occurred as a result of mechanical tightening accomplished during post construction leak rate tests.

Subsequent epoxy sealing has compensated for observed leakages and this corrective action has proven satisfactory.

In the event further degradation of electrical penetration gland seals is observed on subsequent leak tests which reveal cracked fittings, appropriate replacements will be made.

(Ref.

R.O.

79-07, LAC-6 2 7 3).

4.

Valve:

Containment Ventilation Discharge Dampers Valve Nos.:

73-25-005, 73-25-006 Penetration No.:

M-21 Acceptance Criteria:

0.375 SCPH**

a.

Test Date:

4-29-79 Test Leakage Rate:

8.7 SCFH 850 150

R denotes reactor side; T denotes turbine side.

0.01 Lpo where Lpo = 37.5 SCFH LAC-TR-071 During the conduct of a Type C periodic leakage rate test on April 29, 1979, the indicated air leakage flow rate at the containment ventilation isolation exhaust dampers was found to exceed the established value prescribed.

The air leakage rate observed was 8.675 SCFH.

At the time of discovery, the facility was in Operational Condition 5 (Refueling), however, neither fuel handling or primary system maintenance was being performed.

The method of leakage rate determination used for this test requires

pressurizing the ventilation piping space between the two dampers with air to 52 psig.

After isolating the air supply, pressure decay versus elapsed time is observed.

As a means to assist in the determination of the point (s) of leakage, a blank flange was installed downstream of the downstream damper (73-25-006) and flow measurements made by means of a flowmeter installed on the blank flange.

Since no leakage could be detected initially at the lower damper operator shaft, the upper damper seat ring was re-placed to assure that it would be leak tight.

Later investigation revealed that air leakage was occurring past the lower damper oper-ator shaft packing into the containment building.

No leakage past the lower damper was observed.

The damper operator shaf t is up-stream of the valve disc on each damper.

Thus, containment integrity was maintained with no observed leakage past the lower dampers.

The shaft packing leak on the lower damper effectively resulted in a loss of redundant leak tight dampers.

The shaft packing in use at the time of leakage testing was a chevron type of asbestos composition.

The packing was installed with the chevrons installed to provide maximum leak tightness from the containment side into the pipe space between the two dampers.

Thus, as initially installed, pressurization between the two dampers ultimately resulted in shaft leakage.

The chevron packing on the lower damper was repalced with a square type braided teflon packing having an equivalent heat resistance capability to seal in eithcr direction.

A post-repair leakage rate test performed May 11, 1979, resulted in an indicatd leakage rate of 0.027 SCFH, in conformance with the Technical Specification acceptance criteria.

No further corrective action was performed.

The use of an o-ring type shaf t seal is being investigated.

(Ref.

R.O.

79-08, LAC-6322).

850 151,

LAC-TR-071 5.

Valve:

Demineralized Water Containnent Isolation Valve Valve No.:

67-26-001 Penetration No.:

M-ll Acceptance Criteria:

0.375 SCFH*

a.

Test Date:

1-19-79 Test Leakage Rate:

0.597 SCFH As a result of conducting periodic Type C leak testing on January 19, 1979, the leakage rate from the " Demineralized Water Containment Isolation Valve", No. 67-26-001, was determined to exceed the permissible leakage flow a.te as prescribed in LACBWR Technical Specifications.

The test leakage rate of the deminer-alized water isolation valve was determined to bc 0.597 SCFH.

The demineralized wate: molation valve, which is a Crane Model 373 chech valve, was disassembled and inspected.

Surface irregularities were noticed on the seat and disc as a result of normal wear.

Repairs consisted of replucing the seat and lapping the seat and valve disc.

A post maintenance leak test was per-formed on this valve on January 19, 1979, which resulted in an indicated leakage rate of 0.022 SCFH, which is within the permissi-ble leakage rate acceptance criteria.

No further corrective action was performed.

The plant was in Operating Condition 4, Cold Shutdown, during the conduct of both tests.

(Ref. R.O.

79-04, LAC-6103).

6.

Valve:

Condenste Demineralizer to Seal Injection Reservoir Make-Up Line Containment Isolation Valve.

Valve No.:

52-26-039 Penetration No. :

M-18 Acceptance Criteria:

0.375 3CFH*

As a result of conducting periodic Type C leak testing on January 18, 1979, the leakage rate from the " Condensate Dominer-alizer to Seal Injection Reservoir Make-Up Line Containment Isol-ation Valve", No. 52-26-039, was determined to exceed the.per-missible leakage flow rates as prescribed in LACBWR Technical Specifications.

The test leakage rate of the seal injection make-up isolation valve was determined to be 0.684 SCFH.

The seal injection makeup isolation valve, which is a Hancock Model 5540W check valve, was disassembled and inspected.

No abnormalities were detected in the seating surfaces that might

R denotes reactor sice; T denotes turbine side.

850 152 LAC-TR-071 have caused the indicated leakage rate.

However, the seat and disc were lapped and the valve reassembled.

A post maintenance leak test was performed on January 18, 1979, indicating a leak-age rate of 0.016 SCFH, resulting in compliance with leakage rate acceptance criteria.

No further corrective action was per-formed.

(Ref. R.O.

7 9- 0 3, LAC-6103. )

C.

Instrument Error Analysis The instrument errors associated with the various subject un-successful Type B and C leakage rate tests were determined from manufacturer's specifications, as available, or conservatively estimated.

1.

U Type Manon.eter Manufactured by:

Meriam Instrument Co.

Model No.:

107A25WM Range:

36 Inches Minor Division 1 Inch one half minor division (.05 inches = 0.0018 psi) is assumed as the instrument error associated with the manometer.

When this value is converted to standard volumetric flow rate units assuming a one hour test duration and a test volume the size of the personnel air lock, the resultant instrument error is i G.376 SCFH.

2.

Test Board (Two Identical Gauges)

Manufactured by:

U.

S.

Gauge Company Model:

Supergauge Range:

0-60 psig Accuracy:

.5% F.S.

(0.3 psig)

During test conduct, twc pressure gauges are read and the highest AP reading, as an indication of pressure decay, is used for leakage rate calculation.

Calibration checks performed near the unsuccessful emergency airlock test of 11-26-78 and the also unsuccessful ventilation damper test of 4-29-79 indicated that the gauges, as used for these tests, were in calibration relative to sensitivity, i.e.,

the capability of the pressure measure-ment device to respond to pressure change.

Accordingly, zero instrument error is assumed.

850 153 20 -

LAC-TR-071 3.

Electrical Penetration Pressure Gauges Manufactured by:

Ashcroft Gauge Company Model:

100-3 "

Minor Division:

2 psi Range:

0-100 psi Accuracy:

0-50 psi:

2%

50-100 psi:

3%

The procedure, the electrical penetrations are pressurized to 55 psig for Type B test conduct.

Thus, the maximum instrument error is 0.3 (55 psig)

=

i 1.65 psig.

This pressure error would relate to a volumetric flow rate error of 0.16 SCFH assuming leak-age from penetration units 3, 4 or 6 and a one-hour test duration.

Calibration checks have indicated that the inaccuracy of the gauges is typically lower than 1 psig and the proceding is thus conservative.

4.

Graduated Container No instrument error is assumed.

The summarized instrument error factors associated with the initially unsuccessful Type B and C test described in Section VI.B is provided below:

Valve / Penetration Test Instrument Instrument Error Personnel Airlock Manometer 0.375 SCFH Emergency Airlock Test Board 0.3 SCFH Gauges Ventilation Dampers Test Board 0.0 SCFH (Exhaust)

Gauges Electrical Penetration Individual Press.

0.16 SCFH Units 3, 4 and 6 Gauges Demineralized Water Graduated Con-0.0 SCFH Containment Isolation tainer Valve Condensate Demineralizer Graduated Con-0.0 SCFH to Seal Injection tainer Reservoir Makeup Con-tainment Isolation Valve 850 154 e

DAIRYLAND POWER COOPEPATIVE.

PAGE 1

gg '-

APPENDIX 1 LACROSSE BOILING WATER RERCTOR < LAC 8WR)_

O '.

INTEGRATED CONTAINMENT LEAK RATE TEST

ABSOLUTE METHOD

Ol

(*** MASS PLOT ANALYSIS ****

O REPORT PREPARED 17 MAY 1979 STARTING PRESSURE 66.357 PSI O'

DAY TIME PRESSURE TEMP.

DEWPOINT VPRESS.

AIR MASS AIR MASS (PSIA)

(F)

(PSIG)

(MERS.)

(CALC.)

136 0:10 66.357 79.625 70.845 0.3734 87234.3125 87233.9609 gg,

136 0:20 66.357 79.640 70.511 0.3692 87237.4219 87233.6484 136 0:30 66.258 79.643 71.051 0.3760 87229.2656 87233.~ 3437~

136 0: 40 66.359 79.647 71.060 0 3761 87229.8203 87233.0312 gg 136 0:50 66.360 79.648 70 654 0.3710 87237.7344 87232.7187 136 1-0 66.161 79.665 70.864 0 3736 87232.8672 87232.4062 136 1:10 66 :61

79. f.58 70.684 0.3713 87235.4453 87232.1016 gg 136 1:20 66.362 79.668 70.915 O.3743 87232.8047 87231.7891 136 1:30 66.363 79.682 70.718 0 3718 87235.1484 87231.4766 136 1:40 66.364 79.685 70.698 0.3715 87236.2812 87231.1719 gg 136 1:50 66.364 79.701 70.719 0.3718 87233.3516 87230.8594 126 2: 0 66.265 79.698 70.718 0.3718 87235 2109 87230.5469 136 2 10 66.365 79.703 70.899 0.3741 87231.3828 87230.2344 g

136 2 20 66.366 79.717 TO 877 0.3738 87230 7969 87229.9297 136 2:30 66.368 79.726 70.621 0 3706 87236.2344~

87229.6172 136 2:40 66.368 79.731 70.840 0 3733 87231.8594 87229.3047 gg 136 2:50 66.369 79.743 70.828 0.3732 87231.4687 87229.0000 136 2

0 66 269 79.745 70.956 0.2748 87228.9766 87228.6875 136 3:10 66.370 79.749 71.020 0.

756 87228.6016 87228.3750 gy 126 3:20 66.372 79.759 71.031 0.3757 87229.3672 87228.0703 136 3:30 66.372 79.767 70.963 0.3749 87229.2578~

8722777578 136 3 40 66.373 79.773' 70.994 0.3753 87229.0156 87227.4453 gg 136 2:50 66 373 79.786 70.815 0.3730 87229.9922 87227.1328 136 4

0 66.375 79 797 71.011 0 3755 87227.6250 87226.8281 136 4:10 66 276 79.791 70.995 O.3753 87230 0625 87226.5156 gy 126 4: 20 66 377 79.808 70.722 0.3720 87233.0391 87226.2331 126 4: 20 66.377 79.804 71.265 O.3787 87224.7187 8722578984 126 4 40 66 377 79.825 70.612 0.2704 87232.3672 87225.5859 gg 136 4:50 6& 378 79.830 71.236 0.3784 87222.4453 87225.2734 16 5.

0 66 379 79 836 70 980 0.3752 87226.9766 87224.9609 126 5 10 66 381 79 837 71.083 0.3764 87227.7969 87224.6562 gg 126 5 20 66.382 79.854 71.278 0.3709 87223.0391 87224.3437 136 5:30 66.383 79.869 71.253 0.3786 87222.4453 8722470312' 136 5:40 66.384 79.858 70.842 0.3733 87232.4297 87223.7266 gg 136 5:50 66.384 79.877 71.139 0.3771 87224.4062 87223.4141 126 6

0 66.383 79.877 71.520 0.2822 87216.3750 87223.'1016 126 6 10 66.379 79.845 71.000 0.3754 87225.2500 87222.7891 gg 126 6.20 66.377 79.817 71.233 0.3782 87222.1094 87222.4844

0. 7 87222.2578 87222J1719 g'1. 212p

+793 136 6:30 66.375 79.79A

-m-n s

h Fl ';

1 hN o 40 6

850 155

g,-

DAIRYLAfJD pol 4ER COOPERATIVE.

PAGE 2

LACROSSE BOILING WATER REA.C_ TOR (LACBWR).

9 IrJTEGRATED CONTAli4 MENT LEAK RATE TEST

ABSOLUTE METHOD

3

-=

- - + MASS PLOT ANALYSIS ****

' -~

REPORT PPEPARED 17 MAY 1979 STARTING PRESSURE : 66.357 PSI DAY TIME PPESSURE TEMP.

DEWPOINT YPRESS.

AIR MASS AIR MASS (PSIA)

(F)

<F)

<PSIG)

~ ~~~< MEAS.>-

< CACC.T-p, 1:6 6 40 66.373 79.789 71 384 0.3803 87219.9687 87221.8594 136 6 50 66.371 79.786 70.991 0.3752 87224.4141 87221.5547 136 7-0 6& 270 79.772 71.192 0.3778 87221.~8594 87221 2422~

116 7:10 66.368 79.752 71.462 0.3813 87217.8516 87220.9297 3

136 7:20 66.365 79.740 71.273 0.3788 87219.0469 87220.6172 126 7-20 66.366 79.742 71.457 0.3812 37216. 9062 ~ 87220. 3125-126 7 40 66 :66 79 757 71.503 0.3818 87213.7422 87220.0000 9

126 7: 50 66 366 79.757 71.544 0.3823 87213.1094 87219.6875 136 8: 0 66 366 79.766 71.315 O.3794 87215. 5391 -- 87219. 382u -

136 8:10 66.366 79.765 71.337 0.3797 87215.3437 87219.0703 3

126 8:20 66.367 79.774 71.124 0.3769 87218.8359 87218.7578 136 S:20 66 367 79 780 71 092 0.3765 87218.3828 87218.4453-126 8: 40 66 267 79.786 71.268 0.3788 87214.3750 87218.1406 3

126 8-50 6& 267 79 78:

71.477 0.3815 87211.4062 87217.8281 136 9: 0 6& 367 79.794 71.262 0.3787 87213.2344 872i7.-51 W 136 9 10 6d 368 79.796 71.371 0.3801 87212.4062 87217.2199--

3 136 9:20 6& 370 79.827 71.509 0.3819 87207.6562 87216.898+

136 9 :0 66 372 79 822 71.316 0.3794 87212. 7969-' 8r2id sus 9 136 9 40 66.27.

79 852 71.210 0.3793 87211.0234 8721'6.2812 y

136 9 50 66 376 79.858 71.057 0.3761 87218.2047 87215.9687 126 10- 0 6& 376 79.878 71.296 0.3791 87210.'9844 8 /21 0. b o6 4 136 10:10 6& 376 79 879 71.260 0.3800 87209.6484 87215.3437 y

126 10 20 66.377 79.905 71.374 0.3801 8720& 6250 87215.0391 136 10 20 66 379 79.901 71.211 0.3780~

87212. 7031-87214~~ 726C l 126 10 40 66 281 79.907 71.078 0.3763 G7216.6016 87214.4141 p

136 10.50 66 381 79.918 71.400 0.3805 87209.3828 87214.1094 136 11: 0 66.382 79.929 71.579 0.3828 ~~ 87205. 7422 ~

8721T7969-126 11 10 66 282 79.934 71.719 0.3846 87203.8672 87213.4844 3

126 11:20 6& 382 79 928 70.960 0.3748 87216.1328 87213.1719 136 11 20 6& Z82 79.946 71.230 0.3783 87210.2812 87212 3 672-126 11.40 66 282 79 943 71.222 0.3782 87210.9609 87212.5547 3

136 11 50 66 283 79.946 71.449 0.3811 8720& 6484 87212.2422 136 12: 0 66.383 79.953 71.532 0.3822-87204.1328 87211.93rs 136 12:10 66.385 79.957 71.247 0.3785 87210.9141 87211.6250' 3

136 12:20 66.385 79.956 71.047 0.3760 87214.5234 87211.3125 ~

136 12::0 66.385 79.957 71.317 0.3794 87209.7 44 87211.8000' 136 12: 40 6& 285 79.964 71 165 O.3775 87211.1875 87210.6953 1:6 12:50 66 385 79.966 71.410 0.3806 8720& 6719 87210.3828 136 13: 0 66.285 79.967 71.201 0.3779 87210.1250 87210.070T p e P00 w

R BRIGINAL

-m 850 156

DAIRYLAND POWER COOPERATIVE.

PAGE 3

(3 LACROSSE BOILING WATER REACTOR (LAC 8WR)

,,1 INTEGRATED CONTAINMENT LEAX RATE TEST *A8 SOLUTE METHOD *

- - - MASS PLOT ANALYSIS ****

REPORT PREPARED 17 MAY 1979 STARTING PRESSURE 66.357 PC DAY TIME PRESSURE TEMP.

DEWPOINT VPRESS.

AIR MASS RIR MASS (PSIA >

(F)

(PSIG)

.< MEAS.)

(CALC.)

(),

136 13:10 66.387 79.991 71.197 0.3779 87208.9766 87209. 765e 136 13:20 66.388 79.989 71.157 0.3774 87211.2734 87209.453*

136 13:30 66.390 79.994 71.302 0.3792 87210.5625-87209.1406 136 13:40 66.392 80.011 71.168 0.3775 87212.8281 87208.8281

)

136 13:50 66.392 80.008 71.479 0.3815 87207.9141 87208 523' 136 14: 0 66.394 80.029 71.254 0.3786 87211.0937 87208.210_

136 14:10 66.396 80.054 71.458 0.3812 87206.1484 87207.898' 136 14:20 66.397 80.060 71.553 0 3825 87204.8828 87207.593.

136 14:30 66.398 80.061 71.518 0.3820 87206.7422 87207.281, 136 14:40 66.399 80.086 71.209 0.3780 87209.1797 87206.968<

136 14:50 66.401 80.093 71.283 0.3790 87209.4766 87206.656' 136 i5: 0 66.403 80.102 71.615 0.3833 87205.0859 87206.~ 3516 136 15:10 66.405 80.116 71.490 0.3816 87207.5859 87206.0391 136 15:20 66.406 80.122 71.319 0.3794 87210.7656 87205.7266 136 15:30 66.408 80.137 71.313 0.3794

~87211.1016 87203.'4215 136 15:40 66.408 80.155 71.367 0.3801 87207.3047 87205.1094 136 15:50 66.410 80.169 71.561 0.3826 87204.2969 87204.7965 136 16: 0 66.412 80.169 71.670 0.3840 87205.2266 87204.4922 136 16:10 66.414 80.194 71.399 0.3805 87208.3828 87204.1797 136 16:20 66.415 80.204 71.548 0.3824 87205.5000 87203.8672 136 16:30 66.416 80.215 71.715 O.3846 87202.1484-~ 87203.~554, 136 16: 40 66.417 80.214 71.448 0.3811 87208.2109 87203.2500 136 16:50 66.418 80.234 71.625 0.3834 87203.3203 87202.9375 136 17- 0 66.420 80.248 71.767 0.3852 87201.2812~' 87202~6250 136 17:10 66.422 80.265 71.221 0.2783 87210.3750 87202.3203 gg 136 17:20 66.424 80.265 71.829 0.3860 87202.8203 87202.007E 136 17:30 66.425 80.286 71.799 0.3857 87201.1328 87201.~6952 136 17:40 66.426 80.297 71.768 0.3852 87201.2266 87201.3828 gg 136 17:50 66.428 80.306 71.820 0.3859 87201.6016 87201.0781 136 18: 0 66.429 80.316 71.842 0.3862^

87200.9766 87200.~7656 gg, 136 18:10 66.429 80.329 71.309 0.3793 87207.9609 87200.4531 136 18:20 66.431 80.353 71.781 0.3854 87198.5469 87200.1484 136 18:30 66.432 80.358 71.656 0.3838 87201.2656 87199.8359 gg 136 18:40 66.432

80. 367 71.900 0.3870 87195.6250 87199.5234 136 18:50 66.435 80.367 71.738 0.3849 87202.3594 87199.2109 136 19: 0 66.434 80.372 71.776 0.3853 87199.6016 87198 9062 gg 136 19:10 66.435 80.370 71.995 O.3882 87197.4766 87198.5937 136 19:20 66.436 80.382 72.083 0.3394 87195.2578 87198.2812 m

+ % "li93A 8Z197.9,796 136 19:30 66.436 80.384 71.762 0.3852 072 a

s o

i

$0RORMAL1

- 24h h8 N d" * ~ ~ ~ "

850 157 ab

O

~'

gp,j DRIRYLAND POWER COOPERATIVE.

PAGE 4

LACROSSE BOILING 14ATER REACTOR (LACBWR)__

b,. i _ _ _. _

9..

INTEGRATED CONTAINMENT __ LEAK RATE _ TEST

ABSOLUTE METH_OD*_ _ _ _

e '.:

- - - NASS PLOT ANALYSIS ****

O.

REPORT PREPARED 17 MAY 1979 STARTING PRESSURE : 66.357 PS, o

DAY TIME PRESSURE TEMP.

DEWPOINT VPRESS.

AIR MASS RIR MASS (PSIA)

(F)

(PSIG)

(MEAS.)

(CALC.)

136 19: 40 6& 436 80.389 72.069 0.3892 87194.4062 87197.6641 gg,

136 19:50 66.436 80.398 71.800 0.3857 87197.5625 87197.3516 136 20: 0 66 437 80.395 72.022 0.3886 87195.5234 87197.0391 136 20:10 66.437 80.410 71.850 0.3863 87196.2031 87196.7344 g,

136 20:20 66.437 80.418 71.820 0.3859 87195.4141 87196.4219 136 20:30 66.438 80.412 71.784 0.3855 87198 2187 87196.1094 136 20:40 66.439 80.425 71.810 0.3858 87197.1484 87195.8047 g,

136 20:50 66.440 80 426 71.763 0.3852 87199.0234 87195.4922 136 21: 0 66 440 80.434 71.637 0.3835 87199.8437 87195.1797 136 21:10 66.442 80.453 71.741 0.3849 87197.7266 87194.8672 g,

136 21:20 66.442 80.438 71.976 0.3880 87196.0234 87194.5625 136 21:30 66.443 80.470 71.818 0.3859 87194.9766 87194.2500 1I6 21: 40 66 444 80.469 72.272 0.3919 87188.6328 87193.9375 g,

136 21:50 6& 445 80.474 72.154 0.3903 87191.1719 87193.6320 136 22: 0 66.445 80.479 72.013 0.3885 87192.7344 S7193.~3203 136 22:10 66.446 80.488 71.950 0.3876 87193.7891 87193.0078 g,

136 22:20 66.447 80.500 71.720 0.3846 87197.1484 87192.7031 136 22:30 6& 448 80.501 71.625 0.3835 87199.7109 87192.3906 136 22:40 66.449 80.517 72.217 0.2911 87100.4297 87192.0781 g,

136 22:50 6& 450 80.527 72.029 0.3897 87191.3828 87191.7656 136 23: 0 66.451 80.540 71.932 0.3874

~~ 87192.2969 8719174609 136 23:10 66.452 80.545 71.992 0.3882 87191.7109 87191.1484 g,

136 23:20 66.452 80.558 71.776 0.3854 87193.3281 87190.8359 136 23:20 66 454 80.560 72.180 0.3907 87188.~7500 87190.~5312 136 23:40 66 455

80. 575 72.107 0.3897 87188.9141 87190.2187 g,

136 23:50 66 456 80.575 72.227 0.3913 87188.1406 87189.9062 137 0: 0 66.459 80.592 72.084 0.3894 87191.8203 87189.5937 137 0:10 6& 458 80.606 72.141 0.3901 87187.1484 87189.2891 g

P00R BRIGIN CALCULATED LEAK RATE PERCENT / DAY =

0.05121 g

UPPER CONFIDENCE LEVEL AT 95 PERCENT =

0.05317 e

THE ZEPO TIME INTERCEPT IS 87234.0 LBS AND THE SLOPE

-1.861 LBM/HP e hh 850 158

O DAIRYLAND POWER COOPERATIVE.

PAGE 2

gy,

[.___ APPENDIX 2 LACROSSE BOILING WATER RESCTOR {LACBWR)

INTEGERATED CONTAINMENT LEAK RATE TEST

INPUT LIST

REPORT PREPARED 17 NAY 1979 INPUT DATA F.ND EDIT MESSAGES O

136:00:10 67859 P 4 000 000.0iMV 4 001 079.28 F 4 002 079.71 F 4 003 080.28 F gg.

4 004 079.68 F 4 005 079.60 F 4 006 079.01 F 4 007 079.74 F 4 008 080.04 F 4 009 080.26 F 4 010 079.16 F 4 011 079.23 F 4 012 079.24 F 4 013 070.65 F 4 014 070.31 F 4 015 070.43 F

~

4 016 071.55 F 4 017 072.16 F 4 018 071.08 F g

g, 136:00:20 67859 P 4 000 000.00MV 4 001 079.35 F 4 002 079.72 F 4 003 0G0.30 F 4 004 079.65 F 4 005 079.60 F 4 006 079.02 F 4 007 079.76 F gy 4 008 080.08 F 4 009 080.25 F 4 010 079.15 F 4 011 079.27 F 4 012 079.26 F 4 013 070.93 F 4 014 070.28 F 4 015 070.45 F 4 016 069.54 F 4 017 071.71 F 4 018 070.90 F gg 136:00:30 67860 P 4 000 000.00MV 4 001 079.31 F 4 002 079.72 F 4 003 080.28 F 4 004 079.68 F 4 005 079.61 F 4 006 079.02 F 4 007 079.78 F gy 4 008 080.06 F 4 009 080.27 F 4 010 079.23 F 4 011 079.23 F 4 012 079.26 F 4 013 070.99 F 4 014 070.19 F 4 015 071.82 F 4 016 071.32 F 4 017 071.68 F 4 018 071.18 F gp 136:00:40 67861 P 4 000 000.00MV 4 001 079.34 F 4 002 079.74 F 4 003 080.30 F~-~~

4 004 079.67 F 4 005 079.65 F 4 006 078.99 F 4 007 079.79 F gy,

4 008 080.06 F 4 009 080.26 F 4 010 079.17 F 4 011 079.26 F 4 012 079.26 F 4 013 071.37 F 4 014 070.39 F 4 015 071.22 F 4 016 071.20 F 4 017 071.62 F 4 018 071.29 F gp 136:00:50 67862 P 4 000 000.00MV 4 001 079.35 F 4 002 079.73 F 4 003 080.'30 F

'~~

4 004 079.67 F 4 005 079.58 F 4 006 079.06 F 4 007 079.75 F q,

4 008 080.06 F 4 009 080.30 F 4 010 079.21 F 4 011 079.24 F 4 012 079.26 F 4 013 071.33 F 4 014 070.37 F 4 015 069.83 F

~~

4 016 070.95 F 4 017 071.64 F 4 018 070.53 F gy 136-01:00 67863 P 4 000 000.00MV 4 001 079 36 F 4 002 079.76 F 4 003 080.31 F

~

4 004 079.65 F 4 005 079.66 F 4 006 079.03 F 4 007 079.78 F q,

4 008 080.09 F 4 009 080.29 F 4 010 079.21 F 4 011 079.30 F 4 012 079.27 F 4 013 071.00 F 4 014 070.58 F 4 015 069.91 F 4 016 071.26 F 4 017 071.98 F 4 018 071.32 F g.

136:01:10 67863 P 4 000 000.00MV 4 001 079.34 F 4 002 079.76 F 4 003 080.31 F 4 004 079.66 F 4 005 079.62 F 4 006 079.09 F 4 007 079.82 F gy 4 008 080.07 F 4 009 0R0.28 F 4 010 079.22 F 4 011 079.27 F 4 012 079.30 F 4 013 070.67 F 4 014 070.37 F 4 015 069.68 F

~

4 016 071.34 F 4 017 072.08 F 4 018 071.00 F gy 136:01:20 67864 P 4 000 000 01MV 4 001 079.39 F 4 002 079.72 F 4 003 080.30 F

~

4 004 079.65 F 4 005 079.64 F 4 006 079.03 F 4 007 079.82 F gy 4 008 080.10 F 4 009 080.29 F 4 010 079.22 F 4 011 079.28 F 4 012 079.31 F 4 013 071 24 F 4 014 070.51 F 4 015 070 18 F g

4 016 070 75 F 4 017 072 91 F4 018 071 21 F 136 01 20 67865 P 4 000 000 00rw 4 001 079 40 F 4 002 079 74 F4 003 060 31 F g

a ooa o r.

. r a n.v.

a.~ a, r.

F a..,,.

07

w. F 4 007 074 CF 850 159

ao:

,o s

4 000 000.00MV 4 001 079.40 F 4 002 079.74 F 4 003 080.31 F 4 004 079.69 F 4 005 079.65 F 4 006 079.06 F 4 007 079.82 F 4 000 080.09 F 4 009 080.32 F 4 010 079.25 F 4 011 079.28 F 4 012 079.31 F 4 013 070.75 F 4 014 070.45 F 4 015 070.54 F gg 4 016 070.84 F 4 017 070.26 F 4 018 071.53 F 136:01:40 67866 P 4 000 000.01MV 4 001 079.34 F 4 002 079.79 F 4 003 000.31 F g)f'.

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4 000 000.00MV 4 001 079.36 F 4 002 079. 78 F ~4 003- 080734 F gg f 4 004 079.72 F 4 005 079.65 F 4 006 079.11 F 4 007 079.84 F 4 008 080.11 F 4 009 080.33 F 4 010 079.24 F 4 011 079.33 F

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gg 4 016 069.88 F 4 017 072.10 F 4 018 071.24 F 136:02:10 67867 P 4 000 000.00MV 4 001 079.39 F 4 002 079.76 F 4 003 080.~33~F'~-

gg 4 004 079.69 F 4 005 079.67 F 4 006 079.08 F 4 007 079.80 F 4 008 080.13 F 4 009 080.36 F 4 010 079.28 F 4 011 079.34 F 4 012 079.35 F 4 013 070.30 F 4 014 070.12 F 4 015 071.17 F ' ' --

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4 008 080.12 F 4 009 080.38 F 4 010 079.25 F 4 011 079.33 F 4 012 079.35 F 4 013 071.37 F 4 014 070.21 F 4 015 071.~65'F gg '

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4 016 070.81 F 4 017 071.53 F 4 018 071.52 F 136:03:00 67871 P 4 000 000.0iMV 4 001 079.42 F 4 002 079.83 F 4 003 080.35 F gg 4 004 079.70 F 4 005 079.67 F 4 006 079.16 F 4 007 079.89 F 4 000 080.16 F 4 009 080.38 F 4 010 079.33 F 4 011 079.41 F 4 012 079.38 F 4 013 070.99 F 4 014 070.82 F 4 015 071.28 F

~

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F4 005 079.69 F 4 006 079.14 F 4 007 079.85 F

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4 008 080.17 F 4 009 080.40 F 4 010 079.33 F 4 011 079.39 F 4 012 079.41 F 4 013 071.43 F 4 014 070.07 F 4 015 072.06 F gg 4 016 070.75 F 4 017 071.51 F 4 018 071.15 F 136:03:30 67874 P t.'

4 000 000.0iMV 4 001 079.47 F 4 002 079. 83 F 4 ~ 003 080.~39rp -

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gg 4 016 070.16 F 4 017 071.75 F 4 018 071.67 F 136:03:40 67875 P 4 000 000.00MV 4 001 079 45 F 4 002 079.83 F 4 003 050.40 79CI -

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136:05:20 67894 P 4 000 000.00MV 4 001 079.56 F 4 002 079.89 F 4 003 080.47 F g,

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136:08:00 67868 P 4 000 000.00MV 4 001 079.48 F 4 002 079.90 F 4 003 080 55 F mm 4 OG4 G74 7Q F 4 005 G74 79 F 4 004 074 17 F 4 GG7 074 87 F 850 163

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~

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4 008 080.97 F 4 009 080.83 F 4 010 080.06 F 4 011 079.99 F i.1 4 012 080.29 F 4 013 071.41 F 4 014 071.67 F 4 015~ 071799 F 4 01G 071.15 F 4 017 072.74 F 4 010 071.45 F gg-136:22:40 67951 P 4 000 000.00MV 4 001 080.16 F 4 002 080.66 F 4 003 081.30 F '---

~-~

4 004 080 61 F 4 005 080 51 F 4 006 079.90 F 4 007 080.66 F gg 4 008 080.97 F 4 009 000 85 F 4 010 080.11 F 4 011 080.00 F 4 012 080 18 F 4 012 072' 41 F4 014 071 36 F 4 015 072.14 F

~~~

4 016 07; 94 F 4 017 07; 84 F 4 018 072 56 F g

16 J2

'.0 6 ' '%2 P 850 172

e o e.

< m.

u.

gg i

136:22:50 67952 P

'P--

, 4 000~ 000.00MV 4 001 080.18 F 4 002 080.70 F~~4~003 v81 32 F -

4 004 080.61 F 4 005 080.54 F 4 006 079.94 F 4 007 080.59 F gg\\'j[

4 000 080.99 F 4 009 080.86 F 4 010 089.09 F 4 011 080.02 F q

I,n

~~4 012 ~080.19 F 4 013 071.78 F 4 014 071.75 F 4 015 071 81 P

~T 4 016 072.76 F 4 017 072.14 F 4 018 072.34 F (j"l 136:23:00 67953 P

~4 900 700. BOMV 4 001- 080f10 ~ F 4 002- ~ 080J 69 F~4 083= 901~.71 r y

4 004 080.59 F 4 005 080.55 F 4 006 079.96 F 4 007E 080.66 F '

S --

g'*'

L' 4 000 080.99 F 4 009 080.87 F 4 010 000.11 F 4 011' 080.06 F'~l?'iIi??

4 012-~080722'F~4 013~ 071.85 F~4~014 071.82 F 4 015- 071765 r 4 016 071.71 F 4 017 072.86 F 4 018 072.36 F gg,j, 136:23:16 67954 P

'080.70 F 4~003 081. 5.5 F -

gg ', { ---- 4 ~ 00E- 000J 00MV 4 001 080. 21 ~ F ~ 4 002 a

4 004 080.63 F 4 005 080.56 F 4 006 079.90 F 4 007 080.67 F 4 008 081.02 F 4 009 080.88 F 4 010 080.09 F 4 011 080.06 F 4~012 ~080720 F 4 013 '072.19 F 4~014 ~071-76 F 4 015- 071 71~'F

~

~-

gg,

4 016 072.05 F 4 017 073.73 F 4 018 071.59 F 136:23:20 67954 P

,~~

~4 000~ 000.00MV 4 001 '080.24 F 4~002 080768'F~4 003~ OS1.32 F 4 004 080.64 F 4 005 080.56 F 4 006 079.95 F 4 007 080.70 F gg 4 003 081.00 F 4 009 080.91 F 4 010 080.13 F 4 011 080.07 F

' - - ~~ 4 012' 080.21 F 4 013 072.80 F 4'014 070.92 F 4~015 ~071 92 F 4 016 071.33 F 4 017 073.22 F 4 018 071.66 F

1CI jg) 136:23:30 67956 P 4 000 000.00MV 4 001 080.23 F 4 002 080.72 F 4 003 081.34 F 4 004 080.63 F 4 005 080.58 F 4 006 079.92 F 4 007 080.63 F gg 4 008 081.04 F 4 009 080.91 F 4 010 080.16 F 4 011 080.06 F 4 012 080.21 F 4 013 072.78 F 4 014 071.87 F 4 015 071.72 F-gg 4 016 071.94 F 4 017 074.11 F 4 018 071.85 F 136:23:40 67957 P 4 000 000.00MV 4 001 080.20 F 4 002 080.73 F 4 003 081.37 F GE** 3

(),

4 004 080.64 F 4 005 080.58 F 4 006 079.97 F 4 007 080.68 F 4 008 081.05 F 4 009 080.92 F 4 010 080.18 F 4 011 080.06 F 4 012 080.23 F 4 013 072.65 F 4 014 071.85 F 4 015 071.16 F gg 4 016 072.13 F 4 017 072.54 F 4 018 072.82 F 136:23:50 67958 P 4 000 000.01MV 4 001 080.25 F 4 002 080.72 F 4 003 081'.35 F 4 004 080.64 F 4 005 080.58 F 4 006 079.97 F 4 007 080.66 F gg 4 008 081.04 F 4 009 080.94 F 4 010 080.17 F 4 011 080.06 F 4 012 080.23 F 4 013 072.33 F 4 014 071. 58 ' F '4~015 ~~072.16 F 4 016 072.58 F 4 017 073.35 F 4 018 072.42 F gg 137:00:00 6.'961 P 4 000 000.00MV 4 001 080.24 F 4 002 080. 75 F 4 003" 081:39 F-gg 4 001 080.66 F 4 005 080.62 F 4 006 079.97 F 4 007 080.73 F 4 008 081.04 F 4 009 080.92 F 4 010 080.17 F 4 011 080.07 F 4 012 080.25 F 4'013 072.09 F'4 014 071.21 F~4 015- 072.38'F--

gg, 4 016 G72.79 F 4 017 073.70 F 4 018 071.74 F 137:00:10 67960 P 4 000~ 000.OOMV 4 001- 080.31'F~4 002~080.74~F~4 003 081.38 F gg 4 004 080.66 F 4 005 080.60 F 4 006 079.96 F 4 007 080.76 F

^

4 008 081.08 F 4 009 080.97 F 4 010 080.17 F 4 011 080.11 F 4 012 080.25 F 4 013 072J37 F 4 014 071.73'F 4 015--~072J38~F~-~

gg f, 4 016 072.25 F 4 017 072.51 F 4 010 072.11 F

,e:

850 i73 e,

_40_

m

O

=

DAIRYLAND POWER COOPERATIVE.

PRGE i

g, APPENDIX 3 LACROSSE BOILING WATER. REACTOR.(LRC8WR)._

T O

INTEGRATED CONTA1HMENT_ LEAK RATE TEST *A8SO_ LUTE _ METHOD *

- :=

q~-

~

- - - MASS PLOT ANALYSIS ****

O REPORT PREPARED 17 MAY 1979 STARTING PRESSURE : 66.460 PSI O

DAY TIME PRESSURE TEMP.

DEWPOINT VPRESS.

AIR MASS RIR' MASS (PSIA)

<F)

(F)

<PSIG)~

- - (MERS. >

~

C C A L C.' > ~

137 0:30 66.460 80.626 72.172 0.3905 87186.1562 87188.2734 g

137 0: 40 66.459 80.623 72.219 0.3912 87184.4453 87187.6172 137 0:50 66.461 80.638 72.139 O.3901" 87185.9609 87186.~ 9609 ~

g 137 1: 0 66.462 80.648 71.888 O.3868 87190.0937 87186.3047 137 1:10 66.463 80.664 72.001 0.3883 87186.8359 87185.6406 137 1:20 66.464 80.681 72.172 O.3905

~~87182.4922' 87184.9844 137 1:30 66.466 80.695 72.112 0.3898 87183.9687 87184.3281 g

137 1:40 66.467 80.692 71.924 0.3873 87188.9141 87183.6719 137 1:50 66.468 S0.697 72.178 O.3906'

~87185.~0859 87183.0156-137 2: 0 66.469 80.724 72.090 O.3895 87183.6641 87182.3594 g

137 2:10 66.469

80. 731 72.010 0.3884 87183.8203 87181.7031 137 2:20 66.471 80 744 72.413 0.3937 87177.~ 3672 87181: 0469 137 2:30 66.472 6

751 72.199 0.3909 87181.3047 87180.3828 g

137 2:40 66.472 80.756 72.382 0.3933 87177.2422 87179.7266 137 2:50 66.474 80.783 72 C83 0.3973

~ 87170~ 3203 87179;0703~'

137 3: 0 66.475 80.785 72.064 O.3891 87182.1406 87178.4141 g

137 3 10 66.476 80 792 72.056 O.3890 87182.4687 87177.7578-IIT 3.20 66.477 80 807 72.251 0.3916 87177.9609 - 87177 1016-137 3:30 66.478 80.817 72.437 O.3941 87174.3672 87176.4453 0

137 3.40 66.480 80.833 72.241 O.3915 87177.9141 87175.7891 137 3:50 66.481 80.838 72.288 0.3921 87177.6641 87175'1256-137 4: 0 66.482 80.861 72.529 O.3953 87171.0312 87174.4687 g

137 4:10 66.483 80.862 72.531 0.3953 87172.1562 87173.8125 137 4: 20 66.483 80 856 72.282 O.3920 '- 87177 4219 872.7.s.1562~

137 4.30 66.484 80.883 72.603 O.3963 87168.6953 87172.5000 g

MR ay3+e O

CALCULATED LEAK PATE PERCENT / DAY =

0.10855 g

UPPER CONFIDENCE LEVEL AT 95 PERCENT =

0.13554 O

THE ZERO TIME' INTERCEPT IS 87188.3 L85 AND THE SLOPE

-3.943 L8M/HR t

O 850 174 h.

DAIRYLAND POWER COOPERATIVE.

PAGE 3

~

g ;:,. _ _ _ -

~ ",!

APPENDIX 4 LRCROSSE BOILING WATER RERCTOR (LRCBWR)

O; INTEGERATED CONTAINMENT LERK RATE TEST

INPUT LIST *

~

q..;

4:

INPUT DATA AND EDIT MESSAGES REPORT PREPARED 17 MRY 1979; y;.

~

137:00:30 67962 P n,

~4 000 000.00MV 4 001 ~080.~29 F 4 002 090.79 F 4 003-~881740'F

.. p gg *

4 004 080.67 F 4 005 080.66 F 4 006 080.00 F 4 007: 080.75 F J^~

4 008 081.09 F 4 009 080.98 F 4 010 000.20 F 4 011 080.12 F ^ - 7 n 4 012 080.27 F 4 013 073.00 F 4~014 071743 F~4 015- 071~.83 F gg, 4 016 072.29 F 4 017 073.27 F 4 018 072.25 F 137:00:40 67961 P 4 000 000.00MV 4 001 080.24 F 4 002 000.'77 ~ F 4 003 0817.9F gg 4,004 080.70 F 4 005 080.64 F 4 006 080.01 F 4 007 080.70 F ~

4 008 081.07 F 4 009 080 99 F 4 010 080.23 F 4 011 080.15 F 1

I 4 012 080.31 F 4 013 072.13 F 4 014 071.~69 F~4 015 ~072.29 F gg '

4 016 073.27 F 4 017 072.37 F 4 018 072.10 F 137:00:50 67963 P j

4 000 000.00MV 4 001 080.30 F 4 002 080.76~F 4~003~~~081.42 F--

gg.

4 004 080.70 F 4 005 080.64 F 4 006 080.05 F 4 007 080.74 F 4 008 081.09 F 4 009 081.01 F 4 010 080.21 F 4 011 080.17 F

~

4 012 080.29 F 4 013 072.51 F 4 014 071775~ F ~4~015- 072761 F g

gg '

4 016 071.33 F 4 017 072.92 F 4 018 072.36 F g

137:01:00 67964 P 4 000 000.00MV 4 001 080.28 F 4 002 080. 79~F 4 003- 081743'F

_ _P _-

qg.

4 004 0S0.72 F 4 005 080.67 F 4 006 080.08 F 4 007 080.68 F 4 008 081.09 F 4 009 081.01 F 4 010 080.27 F 4 011 080.18 F

=-

4 012 080.30 F 4 013 071.83 F 4 014 071.44 F~4~015- 072.23 F

~

gg 4 016 071.99 F 4 017 073.40 F 4 018 071.52 F 137:01:10 67965 P 4 000 000.00MV 4 001 080.35 F 4 002 080:80~F 4 007- 081745 F gg 4 004 080.72 F 4 005 080.64 F 4 006 080.07 F 4 007 080.78 F _.

-_c_.

4 008 081.10 F 4 009 081.04 F 4 010 080.23 F 4 011 080.17 F 4 012 080.34 F 4 013 072.71 F 4 014 071.'76 F 4'015- 072J10 F-jg 4 016 071.37 F 4 017 072.08 F 4 018 072.20 F 137:01:20 67966 P 4 000 000.00MV 4 001 080.34 F 4 002 080i81 F 4~003-~081746FF~

gg 4 004 080.72 F 4 005 080.71 F 4 006 080.07 F 4 007 080.82 F 4 Ob8 081.13 F 4 009 081.04 F 4 010 080.25 F 4 011 080.21 F

-~

~

4 012 080.33 F 4 013 072.44 F 4 014 071.84 F 4 015 ~071.~57 F gg 4 016 072.03 F 4 017 073.86 F 4 018 072.44 F 137:01:30 67968 P 4 000 000.00MV 4 001 080.34 F 4 002 080.83 F 4 003' 08IT48 F-gg 4 004 080.75 F 4 005 080.71 F 4 006 080.07 F 4 007 080.87 F c-4 000 081.16 F 4 009 081.06 F 4 010 080.24 F 4 011 080.20 F'

' ~~

4 012 080.34 F 4 013 072.40 F 4 014 071. 66 F 4 015-~072. 30 F gg 4 016 071.83 F 4 017 073.75 F 4 018 071.85 F 137:01:40 67969 P 4 000 000.00MV 4 001 080.33 F 4 002 080.83 F 4 003" 081.~47 F"-

gg 4 004 080.75 F 4 005 080.72 F 4 006 080.06 F 4 007 080.79 F 4 008 081.17 F 4 009 081.08 F 4 010 080.26 F 4 011 080.22 F 4 012 080.35 F 4 013 072.71 F 4 014 071.52 F 4 015 071.39 F

'~

(g 4 016 070.94 F 4 017 074.26 F 4 018 072.14 F 137 01 50 67970 P 4 000 Or$0 00MV 4 001 OE.0 30 F 4 002 080 83 F 4 003 081 47 F g a riO4 6 t: it 75 F 4 itit5 6tE.O 71 F 4 006 080 12 F 4 007 ORO 77 F 4 U 61.-

*R 1 17 F 4 009 OA1 10 F 4 010 050 28 F 4 011 080 24 F

< r

.,..s

..... r i.. -

,,i :,...

7C

jg t 6

<t..

137:01:50 67970 P 4 000 000.00MV 4 001 080.30 F 4 002 080.83 F 4 003 001.47 F 4 004 080.75 F 4 005 080.71 F 4 006 080.12 F 4 007 080.77 F gg 4 008 081.17 F 4 009 081.10 F 4 010 080.28 F 4 011 080.24 F 4 012 080.35 F 4 013 -072.16 F 4 014 071.61 F 4 015 071.80 F--

gg 4 016 073.33 F 4 017 073.50 F 4 018 071.81 F 67971 P 137 02:00

~ ~

080.34 F 4 002 OSO.85 F 4 0031 081.50'F 4 000 000.00MV 4 001

~

.g 4_g"" 3 +

g]l,i 4 004 080.77 F 4 005 080.74 F 4 006 089.16 F 4 007'- 080. 86 F t

V 4 008 081.18 F 4 009 081.08 F 4 010 080.29 F 4 011 080.26 F

s MF W 4 012 080.37 F 4 013 072.19 F 4 014 071.59 F 4 015 072.57 F gg:

4 016 072.06 F 4 017 073.09 F 4 018 071.89 F I_ -

~

7.

137:02:10 67971 P

~

.~

~4 000 000.31MV 4 001 080.36 F 4 002 080. 86 F 4~003- 081~~49 F gg[

4 004 080.77 F 4 005 080.72 F 4 006 080.11 F 4 007 080.91 F~ ?

4 008 081.18 F 4 009 081.10 F 4 010 080.36 F 4 011 080.25 F

~~4 012 080.39 F 4 013 072.47 F 4 014 071.' 66 ~ F 4 015-~ 072. 22 F gg '. '

4 016 071.00 F 4 017 072.97 F 4 018 072.45 F 137:02:20 67973 P 4 000 000.00MV 4 001 080.40 F 4 002 000.88~F 4 003-B8f752 F (g'

4 004 080.79 F 4 005 080.74 F 4 006 080.14 F 4 007 080.85 F TUI 4 008 081.21 F 4 009 081.12 F 4 010 080.31 F 4 011 080. 29 F C$E[

4 012 080.40 F 4 013 072.39 F 4 014 071.54 F~4 015 072.85 F-Ca#

dg.

4 016 072.77 F 4 017 073.08 F 4 018 072.81 F 137:02:30 67974 P 4 000 000.00MV 4 001 080.41 F 4 002 080.88 F 4 003 081752~F gg 4 004 080.82 F 4 005 080.76 F 4 006 080.13 F 4 007 080.89 F 4 008 081.20 F 4 009 081.13 F 4 010 080.34 F 4 011 080.24 F 4 012 080.41 F 4 013 072.51 F 4 014 072.42 F 4 015 072.21 r

~

4 016 071.94 F 4 017 072.24 F 4 018 071.84 F gg 137:02:40 67974 P 4 000 000.00MV 4 001 080.42 F 4 002 080.89 F 4 005 u81754~F.

Tr_E gg 4 004 080.81 F 4 005 080.74 F 4 006 080.15 F 4 007 080.85 F2.1 __Cli 4 003 081.22 F 4 009 081.13 F 4 010 080.35 F 4 01%

080.28 F

.-;rr-4 012 080.42 F 4 013 072.75 F 4 014 071.65 F 4 015 071'.~B2 r 4 016 074.07 F 4 017 071.92 F 4 018 072.47 F gg~

137:02:50 67976 P 4 000 000.00MV 4 001 080.47 F 4 002 080.91~F 4 uus 081755 P "7

4 004 080.81 F 4 005 080.78 F 4 006 080.19 F 4 007 080.94 F 7 ~ ~~ ~ ~

gg '

4 008 081.25 F 4 009 081.14 F 4 010 080.35 F 4 011 080.31 F _ :i~' ~

4 012 080.41 F 4 013 072.38 F 4 014 071.85 F~4~015-~072765 e 4 016 074.36 F 4 017 073.29 F 4 018 072.56 F gg 137:03:00 67977 P 4 000 000.00MV 4 001 080.42 F 4 002 080.92 F 4~003- 081754 F 4 004 080.84 F 4 005 080.80 F 4 006 080.21 F 4 007 080.87 F gg 4 008 081.27 F 4 009 081.16 F 4 010 080.36 F 4 011 080.31 F

, cc+z?

4 012 080.44 F 4 012 072.81 F 4 014 071.~ 54 F 4 015- 071. or r 4 016 071.54 F 4 017 073.84 F 4 018 072.32 F

,'"i gg 137:03:10 67978 P 4 000 000.00MV 4 001 080.43 F 4 002 080.93 F 4 003 881.56 F 4 004 080.83 F 4 005 080.80 F 4 006 000.17 F 4 007 080.90 F 2.

gg '

4 008 081.26 F 4 009 081.19 F 4 010 080.38 F 4 011 080.32 F T~ ~

~

4 012 080.46 F 4 013 072.43 F 4 014 072.02 F~4 015-~071.'82 F 4 016 071.66 F 4 017 073.27 F 4 018 071.82 F gg 137:03:20 67979 P 4 000 000.0iMV 4 001 080.45 F 4 002 080.93 F 4 003 081757 F 4 004 080.85 F 4 005 080.80 F 4 006 080.19 F 4 007 000.93 F g) 4 008 081.28 F 4 009 081.19 F 4 010 080.42 F 4 011 080.34 F 4 012 080 46 F 4 013 072.94 F 4 014 071.87 F 4 015 072. 51 F -~

4 016 071 81 F 4 017 OT2.47 F 4 018 072.27 F 43 -

gg 137 02 20 67980 P 4 000 000 00MV 4 001 060.47 F 4 002 080.96 F 4 003 081.57 F dh 4 004 080 85 F 4 OAS 080 82 F 4 006 090.25 F 4 007 080 92 F 850 1/6

4O$2 080:46 F 4 013 072.94 F 4 014 071.87 F 4 015' 072.51 F - -

4 016 071.81 F 4 017 072.47 F 4 018 072.27 F 137:03:30 67980 P Ir 4 000 OOO.00MV 4 001 080.47 F 4 002 000. 96 F 4 OO3 -~ 081~ 57 F 4 004 080.85 F 4 005 080. 82 F* 4 006 080.25 F 4 007 080.92 F 4 000 081.29 F 4 009 081.20 F 4 010 080.40 F 4 011 080.32 F s~

~4 012-~08C.'48 F 4 013 072.54 F 4 014 071.92 F 4 B15-U72.62 t-Q 4 016 072.33 F 4 017 074.24 F 4 018 072.24 F 137:03: 40 67982 P r

4 000 000.00MV 4 001 080.49 F 4 002 080.97 F 4 003 081.62 F 4 004 080.87 F 4 005 080.84 F 4 006 080.21 F 4 007 080.93 F g

4 008 081.30 F 4 009 081.21 F 4 010 080.42 F 4 011 080.39 F 4 012 080.47 F 4 013 072.12 F 4 014 071.72 F 4 015 071.90 F g

4 016 072.09 F 4 017 073.87 F 4 018 073.01 F 137:03:50 67983 P N

~~~~4 000 000.00MV 4 001 080.48 F 4 002 080J96 F 4 003~ 081 61 F g;i 4 004 080.90 F 4 005 080.83 f 4 006 080.23 F 4 007 080.92 F i..,

4 008 081.31 F 4 009 081.24 F 4 010 080.42 F 4 011 080.37 F I_,

~ 4 012^ 080.51 F 4 013 072.83 F 4 014 072.-15 F 4 015~071-~96 F g

4 016 071.70 F 4 017 073.03 F 4 018 072.58 F 137:04:00 67984 P

~

4 000 000.00MV 4 001 080.57.F 4 002 080.98 F 4~003-~081 64 F g-4 004 080.89 F 4 005 080.84 F 4 006 080.29 F 4 007 080.96 F 4 008 081.31 F 4 009 081.24 F 4 010 080.43 F 4 011 080.38 F

.. ~ ~ ~

~~ 4 012-~080.52'F 4 013 072.89 F 4 014 072.11 F 4-~B15 ~072 39 F g[

4 016 072.66 F 4 017 073.21 F 4 018 072.60 F 137:04:10 67985 P J~

4 000 000.00MV 4 001 080.51 F 4 002 080.98 F 4 003 ~081 647 g'

4 004 080.90 F 4 005 080.84 F 4 006 080.25 F 4 007 080.98 F 4 008 081.32 F 4 009 081.25 F 4 010 080.44 F 4 011 080.43 F

~4 012 080.53 F 4 013 072.50 F 4 014 072.12 F 4~015-- 072 63 F g,

4 016 071.96 F 4 017 074.04 F 4 018 073.03 F f g.-

137:04:20 67985 P

_=--m 4 000 000.00MV 4 001 080.50 F 4 002 081. 00 F 4 003 - 081 64 e 4 004 080.90 F 4 005 080.85 F 4 006 086.27 F 4 007 080.92 F.

f_ ~ t g

4 008 081.33 F 4 009 081.26 F 4 010 080.44 F 4 011 080.35 F_

. 2 --e Z 4 012 080.54 F 4 013 072.56 F 4 014 072.21 F 4 015- 072 sz V g

4 016 071.36 F 4 017 072.85 F 4 018 072.57 F

'~V

^

~#

137:04:30 67986 P 4 000 000.00MV 4 001 080.52 F 4 002 081.01 F 4~003- 081 6s t

=

g.

4 004 080.93 F 4 005 080.87 F 4 006 080.28 F 4 007 081.00 F

~ z.

4 008 081.36 F 6 039 081.26 F 4 010 080.48 F 4 011 080.42 F T -~O +

4 012 ~080.55 F'4 013 071.~88 F 4 014 072. 28 F 4 Ols ur s. i4 e

_"--.y_{

g-4 016 072.76 F 4 017 073.75 F 4 018 072.72 F

~ [_ _.. Nb 1m.

~

M='

- - u_.

O E f,E e

CA1ILEATF.D LEAK RATE : 30 SCFH O;

(INDUCED)

~

(137: 00: 30 + 137: 04: 30)

~

9-g-850 177 e

APPENDIX 5 -

SUMMARY

OF TYPE B AND C TEST RESULTS 10/78 - 5/79 (TABULATED LEAKAGE RATES DO NOT INCLUDE INSTRUMENT AND HUMAN ERROR FACTORS)

Total As-Found Allowable Leakage Penetration Test lest Leakage Leskage As-Left Number Description Type Dates (SCFH)

(SCFH)

Remarks M-37 Personnel Airlock B

12-2-78 9.02 3.75 0.0 inner door gasket replaced under MR 2329; retested 12-3-78 with an as-left leakage rate of 0.0 SCFH. (Ref. RO 78-13, LAC-6025).

3-17-79 2.25 3.75 2.25 None M-38 Emergency Ai rlock B

11-26-78 1.037

0. '/ 49 0.519 Ball valve kit installed on outer ball valve under MR 2326.

I Retested 11-28-78 with an as-left leakage rate of 0.519 SCFH.

3 (Ref. RO 78-12, LAC-6013).

ui I

1-16-79 0.0 0.749 0.0 None 4-18-79 0.002 0.749 0.002 None M-6 Main Steam B

1-17-79 0.06 0.375 0.06 None Penetration 4-19-79 0.04 0.375 0.04 None cx3 tn c:?

M-7 Feedwater B

1-17-79 0.07 0.375 0.07 None Penetration 4-19-79 0.05 0.375 0.05 None w

CX3

>3

o M-26 Heating Steam and B

1-18-79 0.013

0. 3', 5 0.013 None Condensate Return 4"

Penetration 4-26-79 0.0 0.375 0.0 None

APPENDlX 5 -

SUMMARY

OF TYPE B AND C TEST RESULTS 10/78 - 5/79 - (Cont'd)

(TABULATED LEAKAGE RATES DO NOT INCLUDE INSTRUMENT AND HUMAN ERROR FACTORS)

Total As-Found Allowabic Leakage Penetration Test Test Leakage Leakage As-Left Number Description Type Dates (SCFH)

(SCFH)

Ren.a rks M-39 Freight Door B

1-17-79 0.04 0.375 0.04 None 4-19-79 0.02 0.375 0.02 None H-36 Containment C

1-20-79 0.0 0.375 0.0 None Building Vacuum Breaker No. 1 5-1-79 0.02 0.375 0.02 None M-32 containment C

1-21-79 0.01 0.375 0.01 None i

Building Vacuum Breaker No. 2 5-1-79 0.0 0.375 0.0 None i

10 Electrical B

1-18-79 0.05 0.375 0.05 None Penetration 4-25-79 0.0 0.375 0.0 None IE Elect ri cal B

1-15-79 0.0 0.375 0.0 None Penetration 4-25-79 0.0 0.375 0.0 None 2A Electrical B

1-15-79 0.01 0.375 0.01 None Penetration

[

4-25-79 0.0 c.375 0.0 None 4

N 2B Electrical B

1-15-79 0.10 0.375 0.10 None e

Penetration O

4-25-79 0.10 0.375 0.10 Nonc

~

APPENDIX 5 -

SUMMARY

OF TYPE B AND C TEST RESULTS 10/78 - 5/79 - (Cont'd)

(TABULATED LEAKAGE RATES DO NOT INCLUDE INSTRUMENT AND HUMAN ERROR FACTORS)

Total As-Found Allowable Leakage Penetration Test Test Leakage Leakage As-Left Number Description Type Dates (SCFH)

(SCFH)

Remarks 2C Electrical B

1-15-79 0.03 0.375 0.03 None Penet ra t ion 4-25-79 0.0 0.375 0.0 None 2D Electrical B

1-15-79 0.01 0.375 0.01 None Penetration 4-25-79 0.0 0.375 0.0 None 2E Electrical B

1-15-79 0.0 0.375 0.0 None i

Penetration 3

4-25-79 0.0 0.375 0.0 None 1

3 Elect ri cal B

1-15-79 0.41 0.375 0.24 Resealed Individual calbe Penetration penetrations and retested on 1-22-79 with satisfactory leak rate of 0.24 SCFH (As-Left).

(Ref. RO 79-02, LAC-6090).

n 4-25-79 0.59 0.375 0.0 Replaced Mi cable penetrations under MR 2587 and retested on l

4-27-79 with As-Left leak rate of 0.0 SCFH. (Ref. RO 79-07, cr; LAC-6273).

Lr.

y CD o

4 Electrical B

10-31-78 0.0 0.375 0.0 Post repair leak test leakage 4

~

Penetration initially found during conduct

o C

of Type A ILRT.

C (Ref. RO 79-11, LAC-5542)

d

APPENDlX 5 -

SUMMARY

OF TYPE B AND C TEST RESULTS 10/78 - 5/79 - (Cont'd)

(TABULATED LEAKAGE RATES DO NOT INCLUDE INSTRUMENT AND HUMAN ERROR FACTORS)

Total As-Found Allowable Leakage Penetration Test Test Leakage Leakage As-Left y

Number Description Type Dates (SCFH)

(SCFH)

,{5CFH)

Remarks 4

Electrical B

1-15-79 8.27 0.375 0.15 Resealed individual cable (Cont'd)

Penetration penetrations and retested on 1-20-79 with as-left leak rate of 0.15 SCFH.

(Ref. RO 79-02, LAC-6090) 4-25-79 1.77 0.375 0.0 Replaced Mi c-Sle penetrations under MR 2587 and retested on 4-27-79 with as-left leak rate of 0.9 SCFH.

(Ref. 30 79-07, LAC-6273) s.

5 Electrical B

1-15-79 0.03 0.375 0.03 None Penetration 4-25-79 0.0 0.375 0.0 None 6

Electrical B

1-15-79 0.62 0.375 0.0 Resealed Individual penetration Pene t ra tion under MR 2404 and retested on 1-18-79 with as-left leak rate of 0 0 SCFH.

(Ref. RO 79-02, LAC-6090) 4-25-79 0.0 0.375 0.0 None CK)

~

f 1B Electrical B

1 *6-79 0.01 0.0936 0.01 None Penetrations Max.

each Max.

Includes 21 Indiv-

$5 cx3 Idual Penetrations 4-27-79 0.01 0.0936 0.01 None

[

Tested Separately Max.

each Max.

APPENDIX 5 -

SUMMARY

OF TYPE B AND C TEST RESULTS 10/78 - 5/79 - (Cont'd)

(TABULATED LEAKAGE RATES DO NOT INCLUDE INSTRUMENT AND HUMAN ERROR FACTORS)

Total As-Found Allowable Leakage Penetration Test Test Leakage Leakage As-Left Number Description Type Dates (SCFH)

(SCFH)

Remarks IC Electrical B

1-16-79 0.014 0.0936 0.014 None Penetrations Max.

each Max.

Includes 25 Indiv-Idual Penetrations 4-27-79 0.014 0.0936 0.014 None Tested Individual-Max.

each Max.

ly M-33 Containment B

1-18-79 0.0 0.375 0.0 None Building Spray Hand Wheel 4-20-79 0.0 0.375 0.0 None i

M-21 Containment C

10-31-78 0.0 0.375 0.0 Post repair leak rate.

Leakage Ventilation soap initially found during conduct i

Discharge Carrpers B

10-31-78 0.0 bubble 0.0 of Type A ILRT.

(Ref. RO 78-11, LAC-5542) 00 W

, C 4-29-79 8.7 0.375 0.0 Installed new seat ring and reversed shaft packing.

Re-tested on 5-1-79 with as-left leak rate of 0.0 SCFH.

oo N

(Ref. RO 79-08, LAC-6322).

B 5-1-79 0.0 soap 0.0 None bubble 5

M-31 Containment ventti-C 1-20-79 0.1 0.375 0.14 None 9

ation Inlet Campers B

1-20-79 0.0 soap 0.0 None f

bubble 3

APPENDIX 5 -

SUMMARY

OF TYPE B AND C TEST RESULTS 10/78 - 5/79 - (Cont'd)

(TABULATED LEAKAGE RATES DO NOT INCLUDE INSTRUMENT AND HUMAN ERROR FACTORS)

Total As-Found Allowable Leakage Penetration Test Test Leakage Leakage As-Left N umbe r Description Type Dates (SCFH)

(SCFH)

Remarks M-31 Containment C

3-24-79 0.03 0.375 0.03 None (Cont'd)

Ventilatten inlet Dampers B

3-24-79 0.0 soap 0.0 None bubble M-29 Reactor Vent C

2-7-79 0.06 0.375 0.06 None Header Valve 5-14-79 0.0 0.375 0.0 None M-26 Containment C

5-10-79 0.12 0.375 0.12 None Heating Steam Valve Heating Steam C

5-10-79 0.03 0.375 0.00 Restroked Valve Condensate Return Valve M-13 Containment C

1-20-79 0.0 0.375 0.0 None Penetration Station Air Valve 5-2-79 0.0 0.375 0.0 None M-6 &

Main Steam C

1-17-79 6.96/

22.47 6.96/

None CXD M-7 lsolation and 11.43 Total 11.43 f

Bypass Valve /

Feedwater Check 5-13-79 5.75/

22.47 5.75/

None I

Valve 4.76 Total 4.76 C33 (14

%J H

l

APPENDIX 5 -

SUMMARY

OF TYPE B AND C TEST RESULTS 10/78 - 5/79 - (Cont'd)

(TABULATED LEAKAGE RATES 00 NOT INCLUDE INSTRUMENT AND HUMAN ERROR FACTORS)

Total As-Found Allowable Leakage Penetration Test Test Leakage Leakage As-Left Number Description Type Dates (SCFH)

(SCFH)

Remarks M-17 Decay Heat Blow-C 10-28-78 0.0 0.375 0.0 Recorded 1-17-79 down and Steam Traps to Hotwell 5-13-79 0.0 0.375 0.0 Recorded 1-17-79 Containment isolation Valves M-19 Shutdown Condenser C

10-28-78 0.0 0.375 0.0 Recorded 1-17-79 Vent to Off-Gas isolation Valve 5-14-79 0.01 0.375 0.01 None 1

H-23 Primary Purifica-C 10-28-78 0.30 0.375 0.30 Recorded 1-17-79 tion Resin Sluice Line Valves 5-14-79 0.0 0.375 0.0 None 1-A Alternate Core C

1C-28-79 0.0 0.375 0.0 Recorded 1-17-79 Spray Check valves 5-13-79 0.0 0.375 0.0 None 1-A Electrical B

1-18-79 0.0 0.375 0.0 None Penetrations (In-Total (3) each Total (31 cludes 3 Individual Penetrations Test-4-28-79 0.0 0.375 0.0 y

m ed Separately Total (3) each Total (3)

None g

o

?

N 1-A Containment Build-C 1-18-79 0.08 0.375 0.08 Mone N

ing Suction Drain E

Lir.e Isolation 5-14-79 0.03 0 375 0.03 None j

Valves

APPENDIX 5 -

SUMMARY

OF TYPE B AND C TEST RESULTS 10/78 - 5/79 - (Cont'd)

(TA8ULATED LEAKAGE RATES 00 NOT INCLUDE INSTRUMENT AND HUMAN ERROR FACTORS)

Total As-Found Allowable Leakage Penetration Test Test Leakage Leakage As-Left N umbe r Description Type Dates (SCFH)

(SCFH)

Remarks M-11 Demineralized C

1-19-79 0.60 0.375 0.02 Renewed check valve seat and Water Containment lapped in seat and disc.

Isolation Valve MR-2426.

Retested on 1-19-79 with as-left leak rate of 0.02 SCTH.

(Ref. RO 79-04, LAC-6103),

4-29-79 0.01 0.375 0.01 None M-18 Condensate Deminer-C 1-18-79 0.68 0.375 0.02 Lapped in valve seat and disc alizer to Seal under MR 2423 Retested on Injection Reser-1-18-79 with as-left leak rate i

voir Makeup Line of 0.02 SrTH.

C Containment isol-(Ref. RO 79-03, LAC-6103).

ation Valve M-12 Containment Control C

1-20-79 0.0 0.375 0.0 None Air Isolation Valve 5-14-79 0.0 0.375 0.0 None M-8 HPSW Containment C

1-18-79 0.12 0.375 0.12 None Isolation Valve 4-29-79 0.02 0.375 0.12 None o

< Ji g

CD M-23 FESV lon Exchanger C

5-18-79 0.0 0.375 C.0 None r1 Resin Sluice Line j

Containment x

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ML19207A607

Contents

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