ML19327A753

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Reactor Containment Bldg Integrated Leak Rate Test
ML19327A753
Person / Time
Site: Perry 
Issue date: 07/31/1989
From:
CLEVELAND ELECTRIC ILLUMINATING CO.
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ML19327A745 List:
References
NUDOCS 8910180043
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{{#Wiki_filter:l af 'OL J. i i \\ l i l CLEVELAND. ELECT.'IC ILLUMINATING COMPA!!Y l l-PERRY NULLEAR POWER PLANT 'l UNIT 1 REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST JULY 1989 l PORC Meeting No. 89-111 October 5, 1989 and 89-112 October 12, 1989 3 p OCK 05 coo 44n 1 PDC

"> b i 's. O' 1 TABLE OF CONTENTS ) Sect. Item Title Pace i 1.0 SYNOPSIS 1

2.0 INTRODUCTION

3 i 3.0 GENERAL. TECHNICAL, AND TEST DATA 4 3.1 GENERAL OATA 4 j 3.2 TECHNICAL DATA 4 i 3.3 TEST DATA 5 ( 4.0 ACCEPTANCE CRITERIA 6 4.1 TECHNICAL SPECIFICATION 6 l ACCEPTANCE CRITERIA 5.0 TEST INSTRUMENTATION 7 5.1

SUMMARY

OF INSTRUMENTS 7 5.2 SCHEMATIC ARRANGEMENT 8 5.3 CALIBRATION CHECKS 8 5.4 INSTRUMENTATION PERFORMANCE 9 5.5 VOLUML WEIGHTING FACTORS 9 5.6 SYSTEMATIC ERROR ANALYSIS 11 5.7 SUPPLEMENTAL VERIFICATION 14 6.0 TEST PROCEDURE 15 6.1 PREREQUISITES 15 6.2 GENERAL DISCUSSION 16 6.3 TEST PERFORMANCE 17 7.0 METHODS OF ANALYSTE 20 7.1 GENERAL DISr;USSION 20 v 7.2 STATISTICAI EVALUATION 24 7 8.0 DISCUSSION.0F RESULIS 26 t 8.1 RESULTS Af PA 26 8.2 SUPPLEMENTAL TEST RESULTS 30 1 8.3 AS FOUND ANALYSIS 31 8.4 LOCAL LEAKAGE, RATE TEST RESULTS 32 f

9.0 REFERENCES

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u- 'e, ^ *6 TABLE OF CONTENTS (Cont'd) lt. APPENDICES SCHEMATIC ARRANGEMENT OF TEST INSTRUMENTATION A REDUCED TEST DATA B LEAKAGE RATE TEST GRAPHS C COMPUTER RESULTS D

SUMMARY

OF LEAKAGE RATE RESULTS E FIRST REFUELING OUTAGE LEAKAGE RATE RESULTS - 1989 F

SUMMARY

OF TYPE B & C LEAKAGE RATES SINCE PRE G OPERATIONAL ILRT L l l l l l a

r 1 1.0 SYNOPSIS 4 The Perry Nuclear Power Plant Unit No. 1 reactor containment building was subjected to en integrated i n - leak rate test during the period' July 5 to July 9, 1989. The purpose of this test was to demonstrate the acceptability of the building leakage rate at an internal pressure of 11.31 psig (Pa). Testing was performed in accordance with the requirements of I 10CFR50 Appendix J, ANSI N45.4-1972, Bechtel Topical i Report BN-TOP-1 and Perry Nuclear Power Plant Unit No. ] 1 Technical specifications. The Mass Point method of analysis resulted in a measured' leakage rate of 0.027% by weight per day at l 11.31 psig. The leakage rate at the upper bound of the L 95% confidence intervul was 0.029% by weight per day. A correction factor of 0.0721: Dy weight per day for 14 pe.netrations which were not vented for the test, changes in the net free volume of the containment due i to water level changes, and inleakage from pressure J sources (HCU accumulators and electrical penetrations) not vented during the test must be.added to-the test i results. Therefore, the leakage rate at the upper bound of the 95 percent confidence interval is 0.101% .i by weight per day which is below the allowable leskage rate of 0.150% by weight per day at 11.31 psig. l Utilizing the Total Time method of analysis, the l measured leakage rate was found to be 0.0175% by weight per' day and 0.0291% by weight per day at the upper bound of the 95% confidence interval at 11.31 psig. The mean of the measured leakage rates based on'the total time calculations for the last five hours of the test J was 0.016% by weight per day. All total time analyses are below the allowable leakage rate of 0.150% by weight per day. I i 1 l 1 l

U m ,, t 2 An equivalent leakage rate reduction of 0.005% by weight per day was achieved by performing Type B and C tests prior to the integrated leakage rate test. In addition, during the integrated leakage rate test, a flange downstream of relief valve 1E12-F055A was tightened due to excess leakage from the flange. Leakage measurements teken prior to tightening indicated a best estimate leakage rate of 1.62 scfm or 0.0915% by weight per day. Therefore, the "as found" reactor containment integrated leakage rate is the corrected measured leakage rate of 0.101% by weight per day plus the 0.005% by weight per day plus the 0.0915% by weight per day or 0.198% by weight per day. This is above the "as found" leakage rate acceptance criteria of l 0.15 % by weight per day, but below the design basis assumption leakage rate of 0.20% by weight.per day [0.15%. wt/dcy - (0.75)(0.20% wt/ day)). As noted above, tightening the flange brought the "as left" leakage rate within the acceptance criteria. PNPP Technical Specification- ] 4.6.1.2(b) was reviewed, and pending review and approval by t the Commission, no Integrated Leak Rate Test frequency 1 change is considered necessary at this time. This position j was discussed.with the NRC Region III ILRT Inspector. The difference between the supplemental-instrumentation verification leakage rate at Pa and the measured reactor containment building integrated leakage rate ] was 7.5% which is within the 25%. requirement of 10CFR50, Appendix J, Section III A.3.'b). 1 Testing was performed by C1.eveland Electric j Illuminating Company with the technical assistance of United Energy Services Corporation. Procudural and calculational methods were observed by Nuclear ) Regulatory Commission personnel, ] l l i ~

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1 p. i 2 i 2.0 JNTRODUCTION f The objective of the integratel **ak rate test was the establishment of the degree of oarall leak tightness of the reactor containment bui3 ding at the calculated design basis accident pressure of 11.31 pr.ig. The i allowable leakage is defined by the design basis accident applied in the safety analysis in accordance with site exposure guidelines specified by 10CFR100. For the Parry Nuclear Power Plant the maximum allowable intcgrated leak rate at the design basis accident pressure of 11.31 psig-(Pa) is 0.2% by weight per day (La). l Testing was performed in accordance with the procedural' requirements as stated in Perry Nuclear Pv.er Plant i Integrated Leak Rate Test Surveillance Instruction SVI-T23-T0394. This procedure was approved by the Technical Section Mr. nager prior to the commencement of the test. Leakage rate testing was accomplished at a pressure of at leant 11.31 psig for a period of Ct. hours. The 24 hour perici was followed by a 10 hour supplemental test L for a verification of test instrumentation. i l I O E 0'

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7 x -a; - L 1 'o e f i 4 i 3.0 GENERAL, TECHNICAL AND TEST DATA i 3.1 GENERAL DATA l l Owners tieveland Electric Illuminating Co. i i Docket No. 50-440 3 Location: Perry, Ohio Containment Type: Mecx III Date Test Completed: July 8, 1989 l l 3 3.2 TECHNICAL DATA Containment Net Free Volume: 1,441,900 cubic feet Containment 1,165,400 cubic feet Drywell 276,500 cubic feet i Design Pressura: 15 psig Calculated Accidont Peak Precsure: 11.31 psig L l l i I l i

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.u. W + f-5 3.3 TEST DATA T6st Method: Absolute Data Analysis: Mass Poiat and Total Tine Test Pressure: 1.7 pali s i Max Allowable Leakage Rate (L ): 0.20%'wt per day Measured Leakage Rates Mass Point 0.027% wt per day Total Time 0.018% wt per day i Measured Leakage Rate at UCL: Mass Point 0.0291% wt per day Total Time 0.0291% wt per day j Supplemental Test Flow Rate: 0.200% wt per day 1 Supplemental Test Measured I ' Leak Rate: L I Mass Point 0.212% wt per day Total Time 0.205% wt per day Sopplemental i Test cnd L Agreement:am Mass Point 7.5% Total Time 6.3%

1 7-- 1 C I 1 l \\ 6 ) I 4.0 ACCEPTANCE CRITERI4 l .4.1 TECHNICAL SPECIFICATION ACCEPTANCE CRITERIA Acceptance criteria established prior to the test and as specified-by 10CFR50, Appendix J, ANSI N45.4-1972 and the Perry Nuclear Power Plant Unit 1, Technical - Specificationo, are as follows: j a. The measured leakage rate (L,) at the calculated design accident pressure of 11.31 psig (Pa)'shall be less than 75% of the maximum allowable leakage rate (L ), specified as 0.2% by weight of the a building atmosphere per day. The acceptance i criteria is determined as follows: L = 0.2% wt/ day a O.75 L = 0.15% wt/ day a The test instrumentation shall be verified by I means of a supplemental test. Agreement between the containment leakage nieasured during the Type A test and the containment leakage measured during i the supplemental test shall be within 25% of La. o .l - ~.

I-t i ? e i 1 i 7 5.0 TEST INSTRUMENTAflQH 5.1

SUMMARY

OF INSTRUMENTS Test instruments employed are described, by system, in t the following subsections. 5.1.1 Temperature Indicatina System Components: 1. Resistbnce Temperature Detectors: Quantity 34 i Manufacturer Rosemont . Type Model 78-65-17 Range, OF 0 tc. 400 Accuracy,~0F +/- 0.25 Sensitivity, OF +/- 0.01 2. Data Acquisition System l Quantity 1 Manufacturer Volumetrics Resolution, OF +/- 0.01 Repeatability, OF +/- 0.01 5.1.2 Dewpo/nt Indicatina System 1. Dewcell-Elements: Quantity 12 Manufacturer EG&G Type Model 660-S2 Range 32-120 L Accuracy, OF +/- 0.54 I Sensitivity, OF +/- 0.1 i 2. Data Acquisition System Quantity 1 Manufacturer Volumetrics Resolution, OF +/- 0.01 Repeatability, OF +/- 0.01 i l- ~

y rf *. l ,se \\/ e' .c 8 a i 5.1.3' Pressuie Monitorina SygigE ) Precision Pressure Gauges ] Quantity 2 Manufacturer Mensor i Type-Quartz Manometer Range, psia 0-100 Accuracy, psia +/- 0.015% of reading +/- 0.002% fu Sensor sensitivity, psia +/- 0.001% fs 9epeatability, psia +/- 0.001% fs i i 5.1.4-Sucolemental Test Flow Monitorina System Flowmeter Quantity 2 Manufacturer Kurz l Type. Model 500-9 l l Range, ncfm 0-10 i Accuracy +/- 1% of full scale [ 5.2 SCHEMATIC ARRANGEMENT l The arrangement of the four measuriag systems summarized in Section 5.1 is depicted in Appendix A. Drybulb temperature sensors vere placed throughout the reactor containment vessel volume to permit monitoring l L of internal temperature variations at 34-locations. l l Dewcells were placed at thirteen locations to permit l-monitorinq of the reactor containment partial pressure of water vapor. 5.3 CALIBRATION CHECKS l Ter.perature, dewpoint, and pressure measurjng systems were checked for calibration before the test as recommended by ANSI N45.4-1972, Section 6.2 and 6.3. In addition, an area temperature survey of the containment was performed which confirmed that the locations selected for drybulb and dewpoint teniperature l monitoring were representative locations. The results of the cali:Tation checks and temperature survey are on file at the Perry Nuclear rower Plant. The supplemental test at 11.31 raig confirmed the instrumentation acceptability.

~ j, ' c 4 of [ l 9 i 5.4 INL/RUMENTATION PERFORMANCE During the testing i.aese, one dewpoint instrument exhibited cbnormal bei tvior and was not used for the test. The remaining 12 dewpoint instruments, 34 RTD's, I g two precision press'2ro gauges, and flow meter performed i satisfactorily throughout the performance of the $1 integrated leak rate test and provided adequate coverage of the containment. 5.5 VOLUME WEIGHTING FACTORS Weigh *:ing factors were assigned to each drybulb temperature sensor and dewpoint temperature sensor l based on the calculated volume of the reactor containment building each sensing device monitored. Drybulb and dewpoint temperature sensors elevation and. weighting factors for the test were as follows: !tlevation/ Temperature Weighting Azimuth Element Factor 0 589/225 TE-N028 .0158 0 589/126 TE-H029 .0048 0 589/306 TE-NO30 .0158 0 589/50 ME-N087 .0363 l 604/316" TE-N018 .0515 0 604/45 TE-N020 .0515 0 604/23 ME-N083 .103 0 604/203 ME-N084' 0 604/120 TE-N025 .0256 0 604/25 TE-N026 .0256 0 604/202 TE-N027 .0256 0 66 /0 ME-N088 .0384 604/180 ME-N089 .0384 0 620/134 TE-N017 .0216 0 620/324 TE-N019 .0216 0 646/204 T0-N013 .0315 0 633/315 TE-N014 .0153 l 0 646/13 TE-N015 .0315 0 633/117 TE-N016 .0153 0 646/40 ME-N090 .0731 0 646/220 ME-N091 .0731 655/140 TE-N021 .0121 i 0 0 634/210 TE-N022 .0272 0 ^ 655/320 TE-N023 .0121 634/25 TE-N024 .0272 0 655'290 ME-N085 .0393 r ~

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2. e O j i 10 l 5.5 VOUJME WEIGHTING FACTORS Elevation / Temperature Weighting j Feet Element Factor j ,s t 655/125'd ME-N086 .0393 i 0 621/0 TE-NO31 .0096 671/45 TE-N009 .0171 ' I 0 671/135 TE-N010 .0171 0 0' 671/225 TE-N011 .0272 0 671/315 TE-N012 .0272 679/200 ME-N082 .0531 i 0 0 679/60 ME-N092 .0531 i 0 657/0 TE-NO32 .0112 i 0 668/85 TE-NO33 .0031 _ i 0 668/95 TE-NO34 .0031 0 710/0 TE-F305 .0739 710/90 TE-N006 .0739 I 0 0 710/180 TE-N007 .0739 0-710/270 TE-N009 .0739 710/270 hE-N080 .2956 f 0 0 742/45 TE-N001 .0393 0 752/135 TE-N002 .0524 0 742/225 TE-N003 .0393 0 - 732/315 TE-N004 -.0262 742/90 ME-N081 .1573 I

  • Not used during test.

The weighting factor for t ME-N084 wac reassigned to'ME-N083. P f r n ..4,e, ,w. -w-.. .,a-,-v

a s.. 4 c i V 11 5.6 SYSTEMATIC ERROR ANALYSIS systematic error, in this ters, is induced by the operation of the temperature indicating system, dewpoint system, and the prer,sure indicating system. i Justification of instrumentation selection was i accomplished, using manufacturer's sensitivity and repeatability tolerances stated in Section 5.1, by computing the instrumentation selection guide (ISG) formula. l 6 Containment 3eakage determined by the Absolute Method i taquires accurate measurement of small changes in containment pressure with suitable corrections fcr i temperature and water vapor. Since the Absolute Method utilizes the change in a reading.(i.e., pressure and temperature)-to calculate leak rate, the repeatability, } sensitivity, and readability of the instrume: t system is of more concern than the accuracy. To perfern the ISG calculation, the sensitivity error of the vet:sor and the repeatability error of the measurement system must be used. Sensitivity is defined as "the capability of a sensor i to respond to change." Sensitivity is usually a function of the system measuring the sensor output. When the rensor energy state is raised or lowered an amount equal to the smallest value which the entire system will process, a change of indication will occur. To determine sensitivity for ILR't sensors, it is necessary to analyze the smallest value of the analog tansor output which will cause a one digit change-in tne digital display. + Repeatability is defined as "the capability of the measurement system to reproduce a given reading from a constant source." t L Utilizing the methods, techniques, and assumptions in l Appendix G to ANS 56.8-1981, the ISG formula was T computed for the Absolute Method as follows: l. Conditions: I 0.2% wt/ day L L = a 27.7 psia P = l .%~, y ,-.........c

~1 ol 3 -r o. 1 12 1. Conditions (Oont'd) 542 R drybulb [ 0 T = 0 76 F devpoint i Tdp = 24 hours t = 2. Total Absolute Pressures o l p No. of sensors = 2 Range = 0 - 100 psia Sensor sensitivity error (E ) = +/- 0.001% of l p full scale 1 Measurement system errc~ ( C p) +/- 0.001% of = full scale = +/- [(E )2 + (cp)2)1/2/[no. of sensors)1/2 e p p p = +/- [(0.001)2 + (0.001)2)1/2/ [2)1/2 e p = +/- 0.001 psia L a 3. Water Vapor Pressurnt epy l No. of sensors e 12 1: 0 Sensor sensitivity error (Epy) = +/- 9.1 F 1 Measurement system error (Cpy), 0 Excluding Fensor = +/-.01 F 1 0 l At a dewpoint tempersture of 76 F, the equivalent l water vapor pre.ssure change (as determined from 0 steam tables) is 0.01478 psja/ F 0 0 Epy = +/- 0.1 (0.01478 psia / F) Epy = +/- 0.0015 psia 0 0 pv = +/- 0.01 F (0.01478 psia / F) pv = +/- 0.00015 psia ,, - - -..- ---- -- _.~ _-,_._... --- --- .., - -,. - t

= [ c 13 F l' py = +/- [Epy) 2 + ( cpv)2)1/2/[no. of sensors)1/2 e py = +/- ((0.0015)2 + (0.00015)2)1/2/(12)1/2 e py = +/- 0.0004 psia e 4. Temperatures eT No. of sensors = 34 0 0 Sensor sensitivity error (E ) = +/- 0.01 F = +/-0.01 R T Measurement system error (CT)* p 0 0 excluding sensor = +/- 0.01 F = +/- 0.01 R eT = +/- ((E ) + (CT)2]1/2 / [no. of sensors) 1/2 T 4 eT = +/- [(0.01)2 + (0.01)2)1/2 j [34) 1/2 0 eT = +/- 0.002 R b. Instrument Selection Guide (ISG): ISP. = +/ 2400 (2(*p)2 + 2(*pv)2 + 2(eT)2 ) 1/2 t P P T ISG = +/. 2400 (2(0.001)2 + 2(0.0004)2 + 2(0.002)2)1/2 24 27.7 27.7 542 l ISG=+/-100(2.61X10~9{ 1p}x10-10 + 2.72 x 10~ ISG = +/- 0.006% wt/ day 1

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s. o - 14 4 The ISG value does not exceed 0.25 L (0.05% wt/ day) a i and it is therefore concluded that the instrumentation -1 selected was acceptable for use in determining the reactor containment integrated leakage rate. 5.7 SUPPLEMENTAL VERIFICATION In addition to the calibration checks described in Section 5.3, test instrumentation operation was verified by a supplemental test subsequent to the { completion of the 24 hour leakage rate test.- This test consisted of imposing a known calibrated leakage rate on the reactor containment building. After the flow rate was established, it was not altered for the duration of the test. During the supplemental test, the measured leakage rate l was: 1 e=L'+L i L L y o Where: Measured composite leakage rate j L = p consisting of the reactor containment building leakage rate plus the imposed leakage rate j Imposed leakage rate j L = o Leakage rate of the reactor containment L' = y building during the supplemental. test j phase Rearranging the above equation, L' =L -L y e o The reactor containnent building leakage during the supplemental test car, be calculated by substracting the known superimposed lehkage rate from the measured composite leakage rate. The reactor containment building leakage rate during the supplemental test (L ') was then compared to the y I measured reactor containment building leakage rate during the preceding 24 hour test (Lam) to determine i instrumentation acceptability. Instrumentation is considered acceptable if the difference between the two building leakage rates is within 25% of the maximum allowable leakage rate (L ). a o ~ _....

en 1. 4 b at O i 15 l i 6.0 TEST PROCEDURE 6.1 - PREREQUISITES Prior tc. commencement of reactor containment building i pressurization, the following prerequisites were satisfied: 1. Proper operation of all test instrumentation was verified. 2. Reactor containment building isclation valves were closed using the normal mode of operation. Associated system valves were placed in post-accident positions. 3. Equipment within the reactor containment building, aubject to damage, was protected from external i uifferential pressures. 4. Portions of fluid systems, which under post-accident conditions become extensions of the containment boundary, were drained and~ vented. L 5. Type B and C testing was completed with a leakage L value less than 0.6 L

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( 6. Containment pressurization system was operational. 7. Potential pressure sources were removed or isolated from the containment. 8. A general inspection of the accessible interior and exterior surfaces of the containment was completed. Several indications were noted during this inspection. Engineering analysis of these indications did not indicate any structural ~ deterioration which would affect the containment structural integrity or leak-tightness. l ls s w

H O 16 6.2 GENERAL DISCUSSION Following the satisfaction of the prerequisites stated in Section 6.1, the reactor containment building pressurization was initiated. Containment building pressure and temperature, were monitored hourly. After the containment was stabilized, leak rate tasting was initiated at a pressure of at least 11.31 psig. During the test the following occurred at 15 minute intervals (see Appendix B - Reduced Leakage Data): 1. Readings indicated by the two precision pressure gauges were recorded and entered into the computer.- The computer program converted this reading, using calibration equations, to psia and computed the average. 2. Readings indicated by the 34 RTDs were recorded and entered into the computer. The computer program calculated the weighted average containment building drybulb temperature by use of a weighting factor that was assigned to each RTD. This value was subsequently converted to degrees Rankine for use in the ideal gas law equation to calculate containment building weight of air. 3. Readings indicated by the 12 dewpoint temperature sensors were recorded and entered into the conn".ter. The computer program calculated the avea n containment dewpoint temperature by use of a weighting factor assigned to each sensor. This weighted average dewpoint temperature was then converted to a partial pressure of water vapor. The use of water vapor pressure (Pyy), temperature (T), and the total pressure (P ) is described in more t detail in Section 7.1. ?

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oV j i i 17 j Data was entered into an IBM AT Portable Computer located at the leak rate instrumentation roon. The ILRT computer program utilized for the test had been i -previously checked with sample data of known results and certified prior to the test. The computer program then calculated the following at 15 minutes intervals: i 1. Total we!ght of containment air. 2. Mass point least squares fit leakage rate. t 3. Mass point 9C% upper confidence level leakage rate. ] 4. Observed total time leakage rate. 1 5. Total time mean leakage rate. J 6. Total time least squares fit leakage rate. 7. Total time 95% upper confidence level leakage

rate, A plot of weighted average containment temperature, containment total pressure, containment average dewpoint temperature, and weight of air was performed for each 15 minute data set-(see Appendix C).

1 Immediately following the 24 hour leak test, a superimposed leakage rate was established for an additional 10 hour test period. During this time, 1 temperature, pressure, and vapor. pressure were monitored as described above. 6.3 TEST PERFORMANCE 6.3.1 Initial Pressurization Pressurization of the reactor containment building was started at-1530 on July 5, 1989 with a pressurization rate of approximately 3 psi per hour. - During pressurization, Containment and Drywell recirculation fans were secured because of high amperage readings. At approximately 1900 a containment entry was made to investigate a fire alarm and perform a final lineup of i the PS2 system. When containment pressure reached 13.0 psig at 2240 on July 5, 1989, pressurization was secured. By 0400 on July 6, 1989, temperature stabilization criteria had been met. J 1 j

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t r* i g* s .t 18 ~ 6.3.2 Intearated' Leak Rate Testina Phase At'0400 on July 6, 1989, 15 minute frequency test data collection was initiated. Gubsequent to 0400, the following sequence of events took place: 1. At 1000, the leakage rate based on six hours of data was relatively constant with a mass point. I leakage of 0.263% wt/ day and a total time leakage 1 of 0.253% wt/ day. 1 L 2. Leak detection teams were sent to investigate for potential leakage paths. During the investigation L a significant leak was discovered on a two inch flange downstream of relief valve 1E12-F055A. l l At this time a tent was built around the flange to I determine the leakage. The leakage was measured and found to be'1.62 standard cubic feet per minute or 0.0915% wt/ day. 3. At approximately 2100 a decision was made to tighten the-flange on 1E12-F055A and the leakage was reduced to less than 10 secm. Since the ( indicated leakage rate prior to tightening the l-flange was in excess of.15% oy weight per day, the initial integrated' leakage rate test was considered a failed test. Also, at this time, the j decision to fill the MSIV lines with water was 1 made. The MSIV lines have a separate leakage l limit established by Technical Specifications and j air leakage from the MSIV lines does not need to be considered during the containment integrated leakage rate test. During this evolution water was inadvertently drained through 1B21-F005 causing high level alarms on the drywell sumps. l 4. At 0345 on July 7 an entry was made into ) containment to pump water from the sumps until an j on-scale reading in the control room could be obtained. By 0750 the water had been removed and l: the Containment and Drywell Floor and Equipment L Drain Sumps System was realigned. i l j .-r, __.s

f 1 19 Following the sequence of events mentioned above, an acceptable 24 houp leakage rate was obtained from 1200 on July.7 until 1205 on July 8, 1989. Utilizing the Mass-Point method of analysis, the measured leakage o rate was 0.027% by weight per day and 0.029% by weight per day at the upper bound of the 95% confidence interval. Utilizing the Total Time method, the measured leakage rate was 0.0175% by weight per day with an i associated 95% confidence interval of 0.0116% by weight per day. Thus the Total Time leakage rate at the upper 95% confidence level was 0.0291% by weight per day. 6.3.3 Sucolemental Leakace Rate Test Phase Following completion of the 24 hour integrated leak rate test, a leakage rate of 3.63 scfm was imposed on the containment building through a calibrated flow meter at 1235 on July 8, 1989. Leakage rate data was-again collected at 15 minute intervals from 1235 until 2235 on July 8, 1989. With an imposed leak rate of 0.200% by weight per day a measured composite leakage. rate.of 0.2124 by weight per day was obtained using the [ Mass Point method. This results in a containment building leakage rate agreement of 7.5% of L with the l a results of the 24 hour test. Using the Total Time method of analysis, the measured composite leakage rate was-0.205% by weight per day, resulting in an agreement of 6.3% of L with the results of the 24 hour test. e These values are both well within the acceptance limit of 25% of L

  • a 6.3.4 Deoressurization Phase After all required data was obtained and evaluated, centainment building depressurization was started.

A post test inspection of the containment revealed no unusual findings, i i -- a. ,m. ,m... .... -, _.,. ~....,,,,, -,..,,,. c,% ..,.,m. .s, r ,,a.- m

4 I V / i i ? r 20 6.3.5 Post Test Findings l On August 23,.1989, during the review of the integrated leakage rate results, it was discovered that the Type B testing requirements of Perry Nuclear Power Plant Technical Specification 4.6.1.1.1.a for the Residual Heat Removal (RHR) System vent line flanges (downstream of relief valves lE12-r055A and B) had not been met i since March 31, 1986. 'This event was previously reported under LER 89-006. The failure to perform the Type _B testing of the RHR System flanges is a result of a deficiency in the Local Leak Rate-Testing (LLRT) program; however no other deficiencies were identified. The leakage rates of the flanges were demonstrated to be acceptable by i successful completion of the integratedfleakage rate test. Corrective. actions include revision of the LLRT Program to j include the RHR system flanges and evaluation of potential design changes.to enhance the ability to perform Type B testing of the RHR System flanges. It was noted that the i . initial difficulty in meeting.the Type.A test acceptance l l criteria was the result of the.above described Type B/C LLRT:, concern and did not indicate a deficiency in the Type A ILRT program. PNPP Technical Specification 4.6.1.2(5) was p reviewed,~and pending review and approval by the commission, no Integrated Leak Rate Test frequency change is considered .necessary at this time. 1-l 1 l l i 'I I 4 y

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21 i ll 7.0-METHODS OF ANALYSIS y 7.1 - GENERAL D 'w;USSION q 1-The Absolute Method of. leakage rate determination was employed during testing at the 11.31 psig. The_ILRT computer code calculates the percent by_weigt.t per" day b leakage rate using both the mass point an6 total time D methods'.. t y 7.1.1 Mass Po!nt Analysis I 5 l The Mass Point method of computing leakage rates uses n the'following ideal gas law equation to calculate the'- weight of air inside containment for each 15 minute s interval: I y. 144 PV, EE RT T g - Where:' -1 I W = Mass of air inside containment, lbm. 6 lbm' oR-in.2 i' K = 144 V/R = 3.89191.x 10 lbf 1 ~ P = Part.el pressure of air, psia-L 1 o-T = Average internal containment temperature, g l V = 1.4419 x 10 ft3 6 R = 53.35 1AE : fA 4 lbm - R L L The partial pressure of air, .a calculated as l follows: P=PT-Pyy T Where: P = Total containment pressure 1 T Partial pressure of water vapor determined Pyy = by averaging the twelve dewpoint temperatures and converting to partial j pressure of water vapor, psia. i l i e

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N 22 The average: internal containment temperature, T,'is L 7 calculated as:follows: o 1 T= c yfi T Where: i s Vfi = Volume fraction of the ith sensor T; = Absoluce temperature of the'ith. sensor i h The weight of' air is plotted versus time for the 24 hour test and for the 10 hour supplemental test. .The-ILRT computer-coda fits the locus of these points to a L straight line' using a -linear least squares: fit. "The I equation 1of the; linear least-squares fit line is of the form W ='At + B, where A is-the-slope in Ibm per hour h and B.is the-initial weight at time zero..The least-squares parameters are calculated as follot:s: ( ~

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11 A=N (: i 11-Sxx I I I II l II I I II ~ B= XX l Where: XX = N ( ct 2) (ct{)2' S N = Number of. data points i = Measurel. mass of containment air W ti = Time interval TF.c weight percent leakage per day can then be determined from the-following equation: L . -2400 A am B where the negative sign is used since A is a negative slope to express the leakage rate as a positive ~ quantity. i

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23 7.1.2

Total' time Analveis The total < time nethod utilizes the following equation to determine the leakage rate of the reactor containment building:

i T P L=AkEE( h 2 ). 9 p 2 1 + Where:' i (; L = Measured leak rate in weight percent per day t = Time interval 'in hours, between measurements T,T2 = Average internal containment temperature, 1 R, at the beginning and the end of the test interval respectively. P,P2 = Average containment pressure (corrected-- 1 for water vapor. pressure) at the beginning-and end of the-test interval respectively. The mean total time leakage rate is derived from the above individual total; time calculations. The equation for the mean leakage rate is in the form: L [. Ci i n r Where: Li = Individual' tota) time leakage rates n = Number of total time leakage rates 1 P o-,-- --r.,_

m y., V. l; ,*i g l II 24 The individual leakage rates are then pl'otted.against time for the duration of the 24 hour test. ' The,T.LRT ll computer-code fits the locus of these points-to a straight line using a linear.least squares fit. The-equation is of the form L = L is the o + L t where Li i [ -- slope in percent per hour.and L is the-initial leakage. a l rate'at time zero. The least squares paramc.ters are b calculated as follows:. 1 L ct 2 CL Ct' CL i 1 i i g.. .] i SXX N g i %g 4 t E 1 i L. ^ S u XX l . Where: 1 S =N ct 2 2 xx f (Ct ) 1 i 3 L T a L .i 1 1

~ p ~ s . },

47 t

4' ?? t h 1 L 25 j l L. L 7.2; ' STATISTICAL EVALUATION I 7.2.l' 'Ganeral i After performing the least squares fit, the ILRT computer code calculates the following statistical l- . parameters: L 1. Limits of1the 95%~ confidence. interval for the mass ~ s L point leakage rate (C ). g 2. Limits of the-95% confidence interval for the total time leakage rete (C )._ L These statistical parameters-are then used to determine that the measured leakage rate _plus the 95 UCL meet-the-acceptance criteria. U 7.2.2 Mass Point Confidence o c The upper 95% confidence limit for the mass point _ leakage rate is-celculated as follows: (S /B) CM = 2400 t95 A L Where: C = Upper 95% confidence limit g I .t = Student's t distribution with N-2 95 h degrees of freedom S = Standard deviation of the slope of the g p least squares fit line B

Intercept of'the'least squares fit line l-The. standard deviation of the. slope of the least l

squares fit line (S ) is calculated as follows: A 0 S (N) S = 1/2 i)2) L [Kict 2) ( ct Where: i 1 l-S Common standard deviation of the weighted ) = from the least squares fit line h Number of data points E N = ti= Time interval of the ith data point =

O 7, o 1 ,,c '=ac 54' , _ ' 41 n 26- ) The' common < standard deviation- (S) is defined byi j J c(w1 W)2 S = [1 ) 1/2 N-2 j Where: Wi = Observed mass of air. W. = Least squares calculated mass: of air 1 .\\ s The ILRT computer cods calculates an upper 95% j confidence leakage rate as follows: l UCL'= Lam + 2400 t95 (S /B) A l ThisfUCL'alue is tnen.used to determine that the 1 L v E measured leakage' rate at the upper 95% confidence limit j L meets the' acceptance criteria. h i p' 7.2.3 nTotal' Time confidence l 'l I~ The 95%= confidence limit for the total time leakage L rate is calculated as follows: t - t)2 1/2 +h+c(t l Cn =.t~ Se-[ ) 95 ( - t)2 g Where: Total time interval t = i j t- = s n 3 t'= Time interval for each data point i Number of individual total time leakage ratesL n = y: E u b'j' s ~ -...- w -. -...,,,, ~.....

c ~2 t + y no. -

%n

~ 'o1 I' ^ p E L 27 l'j.' L - 8.0-DISCUSSION ~OF RESULTS-u 8.1 RESULTS AT PA

8. l'.1 Mass Point Method of Analysis Data obtained du2ing the' leak rate test at P indicated-the following changes (highest to lowest) du$ing-the,24-hour test.

Varlable Maximum Chance' I 91 l. P 0.013 psia T P 0.010 psia-yy T-0.266'0F l P The: method used in calculating the Mass Point i l leakage rate is described in Section 7.1.1. The results of this calculationfis a mass point leakage . rate.0.027%'by weight per day.(see Appendix D). c The 95%. confidence limit associated with'this leakage L rate is 0.002% by weight per' day. Thus, the: leakage -rate at the-upper bound of the 95% confidence level 3 becomes: UCL = 0.027 + 0.002 UCL = 0.029% wt/ day Additional leakage rates must be_ applied to the. measured leakage rate at the upper 95% confidence level to account.for penetration paths not exposed to the -test pressure, changes in the nettfree volume of.the containment due to water level changes, and in leakage from pressure sources not vented'(HCU accumulators and electrical penetrations). Penetration paths not exposed to the test pressure and the corresponding leakage rates based on analysis of minimum pathway local leakage rate testing are as follows: + w ,-e t_-.-.,

p 7 ~ 3-s Y .o r

  1. - nS.L..

1 28 8.1.1- ' Mass PSint Method of Analysis (Continued)~ Minimum Pathway: Containment Local. Penetration Isolation Valves' Leakaae Rate (SCCM) 131 G33-F001 12.5 G33-F004 ~204 C11-F122 130.1 C11-F083 310' P43-F721 i P43-F055. 311 P43-F215 10 P43-F140 L 317 E61-F550 BF 5 E61-D006 317= E61-F549 BF 5-E61-D007 '319 E61-F551 BF 2.4 i E61-D005 l 319 E61-F552 BF-2.4 E61-D004 404 P50-F539 10 P50-F060 1 '405 P50-F140 129.6 P50-F150 421 E12-F009 21.6 E12-F005 ECCS DIV I 40 '423 B21-F016 10 B21-F019 422 E51-F063 .5 s E51-F076 E51-F064

p t
  • A i

o.: . o~- N -'t ~! [" t l s 29 .e TheEtotal applicable local leakage rate is 380.1 SCCM which is equivalent to a leakage rate of.0.0008% by weight per day. l Volume changes in the containment during the 24 hour integrated leakage rate test are summarized below: Reactor. Vessel-Water level +133.9 cubic feet Containment Pool -108 cubic. feet Suppression Pool +369.48 cubic-feet = Cont." Floor Drain Sump. +63.25 cubic. feet 1,1 Cont. Equip. Drain Sump +31.45 cubic feet ,l i DW Floor Drain Sump +3.48 cubic feet' L DW Equip Drain Sump +46.57 cubic feet-The level d'ecrease in the containment pool'results in an ir. crease in containment net free volume'and is conservatively assumed to have remained inside containment,-therefore no change in nec free volume occurred due to this decrease.. The remaining water-11evel increases' result in a decrease in containment net free volumeiof 648.13 cubic feet. This corresponds to an increase in the measured containment leakage rate'of ? 0.045% by weight per day. V In leakage from the HCU accumulators.is calculated to be:0.026% wt/ day based on pressure gauge readings taken prior to and subsequent to the' test. The pressure gauge; readings were corrected for temperature, accuracy and sensitivity. Of'the 36 electrical penetrations, ? only 5;showed a decrease in pressure, with a total pressure: drop of 6 pai. Due to the low pressures on the eldctrical penetrations (33 psig max) and the small volumes involved, in leakage from the electrical th penetrations was considered insignificant, y> l The total containment leakage rate at the upper 95% u confidence level (UCL) is calculated as follows: L q. UCL = L + 95% confidence limit + Type C leEkage + changes in nec free volume N + in leakage l UCL = 0.027% wt/ day + 0.002% wt/ day + 0.0008 wt E %/ day + 0.045% wt/ day + 0.026% Et/ day. .UCL = 0.101% wt/ day This value is below the acceptance criteria leakage rate of'O.150% by weight per day (.75L )* a >g-e-y e ,-,,e--, -,,--e, -se',

~ _.. . r n+e v: 1, e 1 $^ 30 .I i 1: 8.1.2 Total Time Method of Analvsis ] The method used-in' calculating the total time leakage rates is defined in Section 7.1.2. The results of these' calculations are as follows: 1 1. The measured total time leakage. rate for the 24 hour test was 0.0175% c by weight per-day. 2. .The 95% confidence-limit associated with this leakage rate is 0.01164 by weight per day.

Thus,

-l -the' leakage rate at the upper bound of the 9E% j confidence level becomes UCL = 0.0175 + 0.0116 UCL = 0.0291% wt/ day 3. The-mean of the measured leakage rates based on. the.last five hours of'tae-test was 0.016 percent by weight.per day. The corrected containment leakage rate at the upper 95% confidence. level; (UCL) for Type-C penalties, changes in net' free volume,'and in leakage is calculated as j Rollows: ~ UCL = L + 95% confidence limit + Type C ) le$kage + changes in net free volume. H UCL = 0.0175% wt/ day + 0.0116% wt/ day + 0.0008% wt/ day-0.045% wt/ day + 0.026% wt/ day UCL = 0.101% wt/ day 1 The total time measured leakage rate, the measured leakage rate at the upper bound of the 95% confidence 1 level and the mean of the measured leakage rates based on the last five hours of testing are below the acceptance criteria of 0.150% by weight per day..- Therefore,. the reactor containment building leakage rate, based on both the mass point method and total time method of analyris, at the calculated design basis accident pressure (P ) of 11.31 psig is acceptable. a l s l O.: D,Y ..T

e c4 I.N n' p byg 31 J.2 SUPPLEMENTAL TEST RESULTS 1 After conclusion of the 24 hour' test at a pressure of at least.11.31 psig (P ), the' flowmeter was placed in a service and afflow rate of 3.63 scfm was established. t This' flow rate is equivalent to a. leakage rate of 0.200% by weight per day. After the flow rate was-established it was-not altered for the Jaration of the supplemental test. The measured leakage rate (L ) c during the supplemental test was calculeted to be o 0.212%;Ly: weight'per day using the Maas Point method-of analysis and 0.205% by weight per day using the Total L Time method. L l y The' building leakage rate during the supplemental test u is then determined-as follows: V Mass Point Total Time j 4 g .L' =L -L L'=L -L y e o y c o 0.205'-^0.'?00 L ' = 0.212 - 0.200 L' = y y L ' = O.012% wt/ day L.j' =>0.005% wt/ day .] y Comparing this leakage rate with the building leakago; n rate measured during the 24 hour. test yields the i following: lam'- v1 -= .027 - 0.012

0.075 Masa Point

L 0.2 a l am Lv1 .0175 .005 l

0.d6i Total Time

= L 0.2 .) The btailding. leakage rates agree-within 7.5% of L@ime using the Mass Point method and 6.3%.using Total which are below the acceptance criteria of.25%. Using the formulation of ANS 56.8-1981, j (Lo+ Lam - 0.25L ) 5 L n (Lo+ Lam + 0.25L ) a c a P (0.200 + 0.027 - 0.050) s L s (0.200 + 0.027 + 0.050 a 0.177 $ Lc $ 0.277 Since L was measured to be 0.212% by weight per day, this vaSue falls within the acceptable tange of 0.177% to 0.277% by weight per day. Therefore, the acceptability of the test instrumentation is considered to have'been-verified. e ,_m_ w

^ ~- g u., y ') -] ^ * ' -:s: 4:.'i ~ =! -l 2 N-32 ] I 8.3 AS-FOUND ANALYSIS 'To; determine the as-found-containment leckage rate, ~ j an . analysis-was performed to evaluate any leakage savings i from repairo or maintenance to containment isolation barriers.. Leakage savings are realized when containment isolation barrier repairs result J in a 1ower . minimum pathway 13aakage-than-that which existed prior .to-the repairs. /; A total of 11.' penetrations-underwent repairs or had j l flanges. removed / replaced which resulted in minimum path-L t ' leakage' savings. The total savings from these H l penetrations is 2650 seem which is equivalent to_a H-leakage rate 1 reduction of 0.005% by weight per day. j ~ The following is a list of those-affected~ penetrations: As Found-As-Left

Leakage Pen. No.

Min. Path Min. Path Savings (sccm) I 204. 2350 130-2220 123 273.5 10 263.5 109 1 .5 .5 119~ 1 .5 .5 y 205 10 7.85 2.15 420. 10 8.1 1 ~. 9 208 11 6.45 4.55 108 10 1 9 111' 16.1 1 15.1 1 l 310 10.38 1 9.38 311 133.5 10 123.5 j ~ I L' .~. ? p d l .;y r - - + + .. -,.., - - - - ~

? L:

s =

o-ve.- .~8 r ? n l i 33 8.4' LOCAL LEAKAGE-RATE TEST:RESULTS The J occl1(Type B&C) leakage rate test results since the preoperational integrated leakage rate test are included in Appendices F and G. A one time relief exemption to the two year test interval of 10CFR50 . Appendix J, Section III.D.3, to the first refueling-outage for the-following fourteen containment isolation valves was granted: i 1E12-F005 1F12-F028B 1E12-F008 1512-F037B J 1E12-F009 .1E12-F042B ~1E12-F023 1E12-F550B-J 1E12-F0238 1E12-F550 1E12-F025C 1E12-F013 H 1E12 F027B 1E51-F066 l' b '..=- + O 4 u,... 4 s i .{.,- m

g' V _ :. ~ p x. 7 -si 1. + e ~ ,e 34 i

9.0 REFERENCES

1. -PerryJNuclear Power Plant' Unit 1 Updated Safety Analysis ~Raport. 2. lSVI-T23-T0394, " Integrated Leak' Rats Test" l' 3. Code.of Federal Regulations, Title 10, Part 50, Appendix J. 4. uANSI N45.4-1972, " Leakage Rate Testing of containment Structures for Nuclear-Reactors,"- 1 American Nuclear Society (March 16, 1972). .U 5. ~ Steam-Tables,'American Society of Mechanical L Engineers, 1967. i L-6. ILRTLCompater Code, Gilbert / Commonwealth, Inc. 7. ANS-56.8-1987, " Containment System Leakagr Testing Requirements,"=American Nuclear Society. L 8. BN-70P-1, " Testing Criteria'for Integrated ' Leakage Rato;Testirq of Primary Containment Structures for Nuclaar Power Plants," l Revision l', November 1, 1972.. h L l. 1 I-l a t I r p. ~ l l. -+

, o -2 Dj: ',4 0 g ?'Wgy q p e, n. I -Y n. y g t . ) b-g y. s,..-. , a.. -- s,., - ,,,. e

e

.;c-s. r, s v: d K i .r r F. F* APPENDICES v C v I t T 1 2-: g:>g - t h. Y 'sg J I S g-i: -- {<r' s t .l -'t.- 6 i W ./ k u 4 ha s id....

  1. P

.f -l' e J [ s g'.t' si-(.~ .,+: 4 t g g. = m.'. 4,. ,3 f [ i e, . i

t c ,f .' ',[_ h[. N-s s. s 4 ,.4-'

  • s,.

a,, -

9,.

. r n<m ^. 5 APPENDIX-A SCHEMATIC ARRANGEMENT OF TEST INSTRUMENTATION 8 ^ 6 I 4 A = 2 i F k i f i ~ t \\ t y t. 6 I' s !,.s I.l F .i 3

  • 4

-.t 'I. P '~ b y y s 2 A ,-r. .. j ,,s. -,w,. ~.

,' 'I l l 1I q g er >,

  • APPENDIX A-I

' Schematic" Arrangement _ C. ; ' + R =Of Test Instrumentation. pp ], 37p ~ s. ( il 727' to 757' x 3 W j TE's '1, - 2,. 3, l 4 d l' ME 81 L-- 689'6" to 727' L .TE's 5, 6, 7, 8 L ME 80 1 664'7" to 689'6" g. TE's 9, 10, 11, 12,- F 32, 33,:34-ME's 82, 92 I:

.I i

.r.-

t..-

_.: g 1; 620' to 664'7" ~ ~ " TE's 13, 1 4,' 1 5', 1 6, -. ..,7, 17, 19, 21, 22,' 0 23, 24,-31 ME's 90, 91,-05, 8E? ' 599' to 620'6" TE's 18, 20, 25,.261 l 27 '3 l-ME'a:83, 84, 88, 89 3. ', l-574 '10" to 599 ' 11 i TE's'28, 20, 30 ME 87 j f.- , ' _ - ~ 1 J f f :E., TE = Temperature Elements - RTD l' ME = Meisture Elements - Chilled Mirror ,= '.'r ( g -e, ~ s Al$ n.

-L----,,,,,, i' '. '..,, ',. ' f 6 t 4 5' f 4 .w 7.p : -- p ...s.. g :... ,, rn Q2?;;r*;:,l;p.b,<** ' ' ~,, :,. - +. + l Y _', -APPENDIX B REDUCED TEST DATA .i 4 ~~. f 5 s 9 2 e M B., IJ i _.4 1 _'^) = In 4 ,a I + ) M h -m

g ,2 7 W.;gv.a. TEMPERATURE. ST AB I L I Z AT I ON. O O Q-jiQ N ' l REPORT i Q ' ^< : l 1 AVE DELTAtT DELTA 4 HOURS -i AVE DELTA T ' cTIME-AVE. TEMP ~ OVER 4' HOURS OVER~LAST-HOUR DELTA LAST HOUR j o a iHOUR! -DEG F ' DEG = R ' ' DEG F. DEG-R DEG F DEG R DEG F DEG R

======================a=============n===============================

l ' ' ':745; B2.83 542.52 COO .82.79; 542.48

015 82.76' 542.45 C30i 82.74 542.43-845

.82.72 542.41 0.00-0.00' O.11 0.11 0.00~ 0.00 1 900 82.71 542.40 0.00 0.00 0.00-0.08 0.00 0.00- ,i

915 82.69 542.38 0.00 0.00, 0.07 0.07
-

0.00 0.00

930 82.69'~542.38 0.00 0.00 0.05 0.05 0.00 0.00 945.

<82.69. 542.38 0.00 0.00 0.03 0.03 0.00 0.00 i 1000 82.68; 542.37- .O.00 0.00 0.03 0.03-0.00 0.00 i 1015. 82.68> 542.37 0.00-0.00 =0.02 0.02 0.00 0.00-1 i 1030.- 82.68= 542.37~ 0.00 0.00 0.01 0.01-0.00-0.00 -A04" B2.68 -542.37 0.00 'O.OO O.01 0.01' O.OO ' O.OO ] 11001 82.67-542.36 0.00 0.00 0.00 0.00 0.00. G.OO R .1115-82.67-542.36' .O.00 0.00 0.01 0.01 0.00 0.00 1230: 82.66 342.35 0.00 0.00 0.01 0.01 0.00 0.00. i 1245' -82.66; 542.35' O.04 0.04- ~0.02: 0.02 -0.03 - 0.03 ' 1200-82.66.. 542.35; O.03 0.03 0.01 .O.01 0.02 0.02- ] E .i V P 5 i 0 ,.l 4 e e . +- } t X s f:f

y c C T-L' s% f REDUCED ILRT TEST DATA 4 1 ' ?DATE-TIME FAVG PWV TAVB MASS WEIGHT ~ k 07 o7-89. 1200 '27.717 0.4459-82.659 195698.47 1215 27.717 O.4469 82.661 195691.27 1230 27.718 0.44661 82.663 195696.22 1245 27.718 0.4466 82.666 195694 ~. 54 1300 27.717 0.4467 82.664 195691.16 .1315 27.718 0.4473 82.663 195691.33 -1330 27.718 0.4462 G2.654 195702.23 l 1345-27.718. O.4465-82.664 '195696.7'O 1400- -27.718. O.4472 82.663~ 195691.34 1415 27.718 0.4469 82.669 195691.64 1430 27.718 0.4475 82.670 195607.38 1445 27.718 0.4473 82.672 195691.39 + 1500 27.713 O.4480 82.671 .195686.88 1515 27.718 0.4480 82.669 195687.19 1$30 27.719 0.4473 82.687 195689.70 1545 27.719 0.4480 -82.682 195686.28 4 1600 27.719 0.e.482 82.684 195684.19 '1615 27.719 0.4480 82.687 195684.26' 1630i 27.718 0.4478 82.682 195684.08 5 - 1645: 27.718 0.4487 82.685 195673.09

1700 27.718 0.4484 82.683-195676.08 1715 27.718 0.4488 82.683 195673.12 i

~ 1730 27.718 0.4487 -82.683-195673.60 1745 27.718 0.4492 82.686-195669.25-1800 27.717 0.4480 82.692 195672.29-181S .27.717 0.4487-82.684 195669.84 1830' 27.717 0.4486-82.684 195670.68 11845 '27.717 0.4492 82.688 195664.51 1900 27.717 0.4494 82.692 -195661.56 1915 27.717 0.4489 82.694 195664.61 1930 27.717 0.4482. 82.696- .195668.99 i 1945 27.720 0.4483 82.702-195687.45 4 2000 27.721 0.4496 82.705 195684.58 2015 '27.721 0.4500 82.703 195682.78 2030 27.721 0.4491 82.706 195687.78 2045 27.721 0.4497 82.706 195683.81 2100 27.721 0.4502 82.706 195680.21 2115 27.721 0.4492 82.711 195685.43 2130 27.721 0.4500 - 92.711 195679.98 4- .2215 27.721 0.4495 82.716 195680.89 2200 27.721 0.4504 82.719 195673.67 2215 27.721 0.4496 82.725 195677.73 12230 27.721 0.4493 82.730 195678.00 2245 27.721 0.4501 82.725 195673.78 2300 27.722 0.4499 82.724 195679.38 1 g, th '

~ M}:c'll. y w-a- l 4 y E -REDUCED'ILRT TEST DATA J dyu -DATE. TIME ~PAV8 PWV TAVG MASS WEI8HT 07-07-89 2315-27.722 0.4496~ 82.726 195684'.15 12330-27.722 C.4510 82.730-195672.72 2345 27.722 0.4501 82.728 195679.88 s LO7-08-89 ~O 27.722 0.4504 82.731 195676.73 15 27.722 0.4499 82.733 195679.42 30 27.722 0.4497 82.738 195678.99 50: 27.722 0.4511 82.743 195667.17- '1 -105 -27.722 0.4505 82.741 195672.23 120 27.722 0.4507 82.745 195669.16 135' 27.723 0.4509 82.746 195671.76 d 150 27.723 0.4506 82.753. 195670.70 205 27.723 O.4510 82.757 '195666.77 220 27.723 0.4511 82.764 195663.39 235 27.723 0.4512 82.7e8 195665.11 l 250 27.723 0.4514 82.769 195662.80 305-27.723 0.4513 82.775 195661.66 1 320 27.723 0.4509 82.776 193664.03 335 27.723 0.4511 '82.779 195661.74 I 350 27.724 0.4514 82.787 195660.21~ 405-27.724 0.4514 82.789 195663.25 420 27.724 0.4515' 82.794 195660.26 -435 27.724 0.4518 82.800 195656.60 450 27.724 0.4516 82.798 195658.64 505. 27.725 0.4514 82.800 195663.04 520' 27.725 0.4520 82.813 195653.49 1 1535 27.725 0.4524 82.813 -195651.08 550 27.725 0.4525 82.820 195651.50 ~605

27.726 0.4521-82.819 195658.05 620 27.726 0.4523 82.824

'195654.76 635 27.726 0.4524 82.828 195652.74 650 27.726 0.4521-82.832 195653.44 705 27.726 0.4527 82.840 195646.41 720 27.726 0.4530 82.840 195647.51 735 27.727 0.4529 82.844 195650.25 750 '27.727 0.4533 82.850 195645.16 805 27.728 0.4532 82.852 195652.54. 820 27.728 0.4532 82.853 195652.22 835 27.728 0.4528 82.857 195653.63 850 27.728 0.4536 82.862 195646.34 905 27.728 0.4547 82.866 195640.68 920 27.728 0.4530 82.863 195653.59 935 27.728 0.4537 82.870 195646.17 950 27.728 0.4539 82.980 195641.39 1005 27.728 0.4537 82.880 195642.31 1020 -27.729 0.4554 82.880 195634.00 ~

(, h,l p f ,,,L* ' y. REDUCED ILRT TEST DATA 3 14 ?DATE: TIME-FAVGI PWV TAVG MASS WEIGHT-i; ~ p '07-08-89 '1035 27.729 0.4545 82.888 195637.8V F 1050. 27.729 0.4539 82.889 195641.70 i 1105= 27.729 0.4534 82.899 195644.80 i ( 1120 27.730 0.4533 82.896 195650.52 1135 J27.730 C.4540 82.903 '195642.53 1150 27.730 0.4540-82.913 195639.82 1205 27.730 0.4545-82.920 195636.85 l VERIFICATION TEST DATA 07-08-89 1235 27.731 0.4545 82.929 195640.99 1250 27.731 0.4546 82.933 195638.54 1305L -27.731 0.4545 82.944 195635.63-1320 27.731 0.4556 82.955 195623.79' - 1335 27.731 0.4543-82.963 195629.45 1350 27.731 .O.4549 82.966 195624.45 1405 27.731 0.4554 82.974 .195618.00 1420 27.732 0.4555 82.987 195616.32. 1435 27.734 0.4552 82.998 195629.24 ' 1450 27.734 0.4555 83.005 195624.52

1505 27.734 0.4554-83.013 195621.85.

1520 27.734 0.4561 83.030 195610.74 - 1535-27.735 'O.4561. 83.044 195613.50 1550 27.735 0.4560 83.053 195610.32 1605 27.735' 0.4564 83.056 195610'.39 1620 .27.734 0.4564 83.063 195600.56 1675 27.733 0.4562 83.060 195596.03 1650 27;733. O.4560 83.060-195594.11- + 1705' 27.732 0.4565

83.064 195581.26' 1720 27.731 0.4574 83.073 195567.82 1735 27.731 0.4568 83.076 195571'.72 1750 27.731 0.4569 83.078 195566.15 1805 27.730 0.4576 83.083 195555.95' 1820 27.730 0.4565 83.084 195563.73 1835 27.730 0.4569 83;O91 195557.50

-1850 27.730 0.4566 83.104 195551.53-1905' 27.730 0.4580 83.109 195540.15 . 1920 27.730 0.4583 83.115 195535.83 1935 27.729 0.4571 83.117 195536.62 1950 27.729 0.4576 83.117-195532.68 2005 27.728 0.4577 83.118 195524.39 s . 2020 27.728 0.4579 83.122 195522.03 ~ 2035 127.727 0.4580 83.127 195511.90 r

W r f $1: n F [ VERIFICATION TEST DATA l t - 'DATE a_ ETIME. PAVG PWV TAVG MASS WEIGHT 07-08-89 '2050-27.727 0.4590 83.132' 195503.24. 2105 27.727 0.4579 83.134 195510.12-2120 27.726 0.4584 83.141 195499.99 '2135 27.726 0.4584 -83.137 195498.37 2150 -27.724 0.4580 83.141 '195488.67 Ei 2205 27.723 'O.4589 83.140 195475.86= ; 2220 27.723 0.4585 83.139 195478.91" i 2235 27.723 0.4587 83.143 195472.07- -4 I F 't i i s I l. B' Bt u n-I l. l

p; 7, 4 s i Y '.b.. -s,e,. 4., ,,. *st p,. r 6 It0? .'f+f i, .z_ - f_2 . ;_,x t r h N e ch,. k h s** APPENDIX C- 'oi,.e. e i LEAKAGE RATE TEST GRAPHS

5,
u. - ',

4g* e r - l l A I 1 l' i . 1-t- 1. j."', ..g - _s. ".p: i-i f wl' '- dg .s. 9 3' ., - h 1 -3' I ~ \\ l 4, y l. %ut ', A - e l .a E l t ( l - ~- ?- e .i \\ 3 , ;> r e Ie + a J '[ '9 9 2, ~- - on Omo CC A J li i e, r.- we m

-7 +$ M u %++ 4' /// 8/ IMAGE EVALUATION 4, g/ , E E,, -., < l.0 lf12 FA ylj 1142 1.I ['"EE I.8 1.25 W l.4 1.6 4 150mm 4 6" 4 44

  1. (h>,,,%

ftf;;h$ r e v C

b fi// $ $s l [,/[/ \\o[M/#@4 V kh IMAGE EVALUATION k//7"-f.' N%i/' TEST TARGET (MT-3) NY

  1. 4

'(2

  • kzzzz I.0

'd 82 En u m g=u Em ii [' lilla 3 i.25 i.4 g 4 150mm 4 6" ? h+,% I;;[k& t f, v Y'N%

=

f ^ f 4 @ E 8 // Mhg

  1. A

! MAGE EVALUATION g'l///'y g),y;y@-gy,;p 'T<[p,p# t/ TEST TARGET (MT-3) N 4 + l.0 lf 2 M yll LE ii s = RL&& L: l.25 1.4 1.6 4 150mm 6" '63 /4% 4)#p%;/// 4 y,,,,7, , ++>fN, t. + 0I'eu

//bo s> + 4)R>,/ '%f[8/ ((p

  • ')

IMAGE EVALUATION 4 st @ TEST TARGET (MT-3) y 4

  1. ,4 1.0

'd 82 EE 'd 9 RE [!E n E 1,l 12 1.25 1.4 1.6 4 150mm 6" [.+4[. >h. 7 3,f = o k, - !A x

^ R- .e _;.. J ': n. f* VERIFICATION. TEST DATA l; 5 iE ' PAVG PWV TAVG MASS WEIGHT iO 27.727-0.4590 83.132 195503.24- 'S 27.727 0.4579 83.134. 195510.12 +

0 -

27.726 0.4504 83.141 195499.99

5.

27.726 0.4584 83.137 195498.37 10 27.724 0.4580 83.141 195488.67= 45-27.723 0.4589 l83.140 195475.86-

O 27.723 0.4585 83.139 195478.91 t,
5.

27.723 0.4587 83.143 195472.07 ( 4 I . t - e t l ' l l' 4 f i-

y
n

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l. >

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s wi .i' s.s i ,a

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l, { _' 1 y . r, 3 'h 'di .j i, 4 ti e .ik APPENDIX C ) 1 4

e LEAKAGE RATE TEST GRAPHS

.( lj I 1 t -i 9 'I t i .1 m- ],_ . ?- 7 t 19 'Yv Y, -e ' I. 4 . j- -s b i .h -l ' fy x r h I !1 .1 1, q.. .s j l5 m s h p I e ' k. '.a-I i 1. F w F 1.' s i T 4 ? I l l lr l C. \\ e '[ 'r- % #feYtr+4" M 'r N t%i<=v~E N A W 4i e vaceaWe%= v WW W-ww we~ i w e--v.r -mvWewmew.~.vewvo -r -=% > m w,W. cw-ever[

.; 1 preprui. ppvee+~nmg. aw, am. -me m m-4 -b, !I g.., t ~ ~ f _'- . f ',, I 4 <g,, i n, .s.u, .4.. .o 4 -ji !. y c 9; 3 4 24 HOUR TEST: V f-L .s-k.

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aglll> -

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'..-u:

PSIA AYG PRESU E vs fl E PIAffDK 4:

97/0/H 27,749-113:57:29 5 - ygg 27,735 STARfD: A^ 97/97/89

12:00:09 I

27,739 .V y I MJ0R 1 i 27,725 IERDEhi i 45 . m .f..:. 1MIMIB [ 27.729 I'~' l .,A n l l 1 1 Ii 1 I Ii l 11-1I I I I I I I I II I I I I I I I I l' l 1268

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  • Fe*W*yas eet

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il * [ ,'.f C:: N -[ e. 5 14 5 . 5-10' HOUR VERIFICATION-- 1 ~ _f f 'i;- .r% r -^ _, 6' r 4

  • A

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  • .-k-

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07/13/89..

i 19:43:09J ~' l ~ [ 195.65 jfyRfD: l 87/R/89 W 12:35:11: 195,69 'N I .MAJ0R 195.55 INCRDEN i 15; - t MIllifB 195,59 - 1 I I I I I I ' ! I I I i i I I I I I I I I I I l-1 1 I I l'l l'l'l l I I I I I l 1135 ~ 2235 1 IIME i I e i t { i

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q. ' @M i O.. 0D==4. g- ..N.- 9 Ws... E' ~ nn - W 6 W==4 WE q 9-e-6 9 e tw9 E >=* Erl> C4 _ n N ~l" ~ 1 j = osa W h4 p l. c - w + p; I '. M 5 hI y f.' g-l p: i b y o g . g,g - g-WG" L i,.- T m l i%' I M' m n u, e co = ( S l :-- t,

M-wA-e-am noam a.w ama sa.a easas-_m,a., a a + 3m g,,,,;_,_ d 5 'k" ,e N. 3: I \\ .. J es.

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~ ~ ~ % _f w ", 3 2 -PSIA: AYG P HSSilE vs fl E ~ PIMfB:C-< 87/13/89.1 27,745

19:43:09 B

27'749 III ] STARfD:- 07/M/89-i 12:35:111: l 27.735 i } MJ0R ^ s = INCRDEM l 27.739 151 MIMfB: i 27,725 l 'i i l 11Ii!I'IIIIIIIIIIIIIIi1IIII'llIIIIIIIIIl' I t 1235 2235 i ~IIE j i e i i-b ^ ,.r., ..,.~.-,,.m .f,_. ,,,.,r...., ,y

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?...,y h - - f -\\ 'f s t -APPENDIX D-COMPUTER RESULTS )+. ', 5.] s I k 4 tw I 4 I 4- .-sF,,. 1 ~ } T ( A 5) A 4 I t k J '.. Y u i 1 np +s ? ,, m 4 1 .4 < 1 '- .o~.w

,tu,. w-- y ' - -w. 3,3.. r ( 1 y ed, ? - v: + + *.., 4 p 4 e i ':yis , ys 4 i 4z4'. N, t 'q, s..,3... i s s. A .s , j p: t, ( ' xf rI-( s .t -:sk F. h t"b,I i ) - I _ F- - g .>). 24IHOUR TES? .t \\ t '\\' ?e-.,3 k(e - F t- . i V ..r..< ,f' o s i e '2 - _d q 3 i j [ I l- .'.gs g 'y. J ')

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  1. W M

34 ' " o. . m f.g$,Y" W W 7.F$I NME Q R AT E Di !!iE A lgil4 AT EC - REST,. R E S U LLT St V.cby;DILBERT/ SERVICES)INCsi fj j ybW % M**A -MASSi P O -I N *TU :- A N A LW S I S J***1 -i . IILRTLl "*ttti f' Q/Qg h,, :A'W': ~ ' tttti s $;N%) W, ADUPLICATE a w y g; =c . = l?pf ...r%. N#4FROMtTEST4POINTENU_MBER-10jfTO! 97;. _. f P EROM[ [1200 l(07/07/8_9.)1 ;-TOF 71205'(07/CE/89)_ ~ w- .<OBS.--. MIN.~ CALC.. .y J " 1 SOBS.6WEIGHTJ % (TIMEis _J d>-(LB) . ( LB ) 1. QINTERVAL 4 u vp, ;q.o j , z:y'..j. JJ9Q9g;g 3]gog32 at, i( E g .o. L195691.31 t- -3. 431577 f D $425; - .19 5696 ^. 27 -2.076358: 4 51 .9411835. >-hatry-;3751 -195694'.5

195691';2

-1 880396 , a+ , G F,il' 2 5, ' ' _ = 19 5'691'. 3 ' -1.155266- ^, - ~ '.1957.02 2) <10.29342- "T=1. 5?.. m~ ?pMc.1475 1195696.7!

5.321657:

%wld2?. '1956913) .5170012 we (195691'.84 1.370285 E.'24250 s2s5? fi95687.4! '-1.334742 j 42(75L *

195691-;4

L 22726 N+ 33 2195686.9c ~ -1. 728237) Q ;,335254 -195697.2: --; B 61389 S ' [*g $345( (M~[' s (195689.7.- 2.203263- .-Ic5686.3i 1.6647250.. 23475' f4 W 11956e4.2 -2.205791 ,,Mf4425: 1 i195684.3- -1.576275'. yM dad 4j5L. f195634'.1 ' -1.198203 ab,!44750 L195673.1-

-11.63727' 4

YSI ?195676'.11 -8.092733. A '4.5 s 2 5 ? ' s," t19567.3.1 J-10.50254 + (+ 15,51 2195673.6 -9.469928 rgC5k751 3195669.3- _ 1-13.26476-kih6$ l. C >195672.3 -9'.665228-n?61251 '195669.8' -11'.563521 ~ d e?615 Ji95670.7/ 1-10.17442: T6175? c19566475 -15.78075 Iw m' D~ 195661.63 ~-18.18069 , % 7425S' 195664.6 ~ 14 '. 57943 7765-

195669~

-9.638798 cM V74756 ' 7195687.5 9.369132. yer 9 195684.6' ~7.06007 .s i195682.8 5.806345 3 (8.25 'g @ jBES/ 195687.8: 11.36045 $ $48175jL_' 195683.8 17.950306 Q 94 ^ 195680.2 4.904851 -j @$lQ9{2N ' [ I195685.4t 10.67312' ] @M e 194 Sr 195680 5.783981 -{ '195680.9 '7.261653 ,i Wi 19175: MM10; J195673.7' .5790764' l M10125 - 19 567 7.~ 7-5.188595 l 110 51 '195678 6.013791 %, (10.75 195673.8 2.'34988 { I sflii 195679.4 8.501284 i J

m.,

, f1 ' ' _-n 4 l- ? i 41'. i 6 }E o"1 i h T' l 6 " # 1.

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  1. s e4

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f.., WEIGHT

OBS.0 MIN.uCALC. i WTIMEi M INTEROAL M ^ ', 1(LB): 'f i(LB)l 4 Sp, w& ~ 4 ..e 1M ihW11'.25~ s195684'.is 13,82668-glM 11.754, p. ~ .g11,5r fe.

195672.70 12.948652-q c19567.9. 9f 310.66571' 12:

-195676'.7. 8tO71761" 6 12.250 (195679.41 11'.31376 g% N, ".12 5 :-. 11;44081' vi95679 "195667 2 .3620243-W' -d

  1. 3 TJ2;B363889; 1

% d 13.0863889) !195672.2 5.976Bi Y L13.3363889 T195669.2,

3[46298 3

kn 113.b863889i ' :? 1195671.8- !6.62054 y L13.83638894 1195'670 7; J6.1'11297 i:14.08638891 -195666.8L 2.734397: 5.'.. d 4. 3 3 6 3 8 8 9 ?' O 1 9 5 6 6 5". 1; r195663.4? 7-8.960127E-02: Dif'E ?14.5863589i 2.180574 MT114jB36'3889i 1195662.'81

.4289044

(' ,(15sO5_63889; T195661l.7: .15942997-715!3363889:1 e1956642 '2.763276 ,s ?(f 115'.'5863889) L195661.l7e -1.029265-O F ?15.8363889l. i195660.2-_

5.161241E ',

>d O., [16.0863889.: '195663;3- '3.~648715, e ~016.33638891 (195660.3 -.'1.21163: < e 16'. 5663889'; 3195656.6 ' -1'. 8915 53V fle.L16.'8363889 195658.6t .6980775 2 /Y E17--0863889l 2195663 5.~ 652227 ; ( p17.'3363899: 195653.5,

-3.33958c C ' C17s58638893 (195651.1

-5.196433 t17.5363889-1195651S4 -4.2221461 Y18i08638893 L195659 12.883701 + g WElJI18'.3363889' ~195654.8

41424557- -

+ < Q.18.5863889a -195652.7 -1.319321~ ' $1828363889? ?195653.4 .0615216-

  1. 119.0963889 '

195646.4 -6'.544453 ^ $9.3363889 197647.5, -4.867098 7 J195650.3 -1.593758 = & _fi9;5863889?~ Ji95645.2 -6.134338 Q $19)8363889 , 20;O8638891 195652.5. 11,804729 gN ,20.3363889, =195652.2 2.040319, "~ s M 20.58638895 "195653.6 24.006907-m.31f20;8363889.- ?195646.3- .-2.734484' '195640.7 -7.842207 g -,(21.0863889f kk 2133363889L 195653.6 5.625621 j t,+ 21458638891 i195666.2' -1.244948 u. '195641.4-- -5.461879 1 c 121'.836!889' 122.OB63889L 195642.3' -3.992049 i 1 1 ,( 22L3365889" 195634. -11.74962 .i W '. 'i 1 ,1 i j ,3' dQ d: 4 M l I. _&[

QVWV&, = - %?ch YT55, m@:.l:D, %~_ l~ ~ Q: A ~ w,, un o ~- e v = ~ wq 4 [df (( ,b, m ,..,e- --m .....r s .~ I. f l.

  • 4

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(LB)1 it LB)1

.e = m < r a' - . ~, Il :. .s .4' y 6 ' '221058638991 1195637195 J-7.303579 3 1 I 9564171 0; :-2.93769I 22f.B363889E 1 l j,.23.0863BS9[.. ;1956'44.Bf ' f.71358483 ^ i s 1 , y p /23;3363889?.1195650; 5? 6.992862E G' 4is 9Mi . f ^M123!5863BB9r Y'195642.51 I.4505764f ? F23'8363859j g 195639.81, -2.605906f j "@ 24209638897 V195636183 1-5.'022495f. ~' D ;.., A, + ,w ~ p,"fwoT=i-..1.95695.2568095.023$ LB:. ^ au: i :.. O ;W1 -, -2,.21p488936437075';,LB/HR1

e.,

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2. 71829 5E :-02 ;, % _ PER. D AY fl.DLEAKAGEfRATEq=;

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..r ; gg g;g, f " dLRT? ' ' ?**** ,2 dg! W $y, H A * ~ !, DUF.LI C ATE 7 W^ A _'e dis .s ~... ....~,_ M 0 ,.b ,1L 1 N, ' L'- h%.g g.i- ) i 3 g L.J... '. +1 m.,.. y n., t p + g, w '? mg M FROMtTESUPOINTdNUMBERE 17 ' 4TO4 t'97; s 1] kjF.MDit21200J (07[07/89 }l M OS ' 22051 (07f/OS/691)? - 'n-i + 1 b.M *% + w q,+ n - ~ -r- 'k :: ^4XM, ?e. s S.c ( O S S. J L E A K A G E J R A T E.:-4 W- ~ ~ n s va m s f ~ w I i M Md251 9, t L, ~ N.^ hq, i ', $35296311 s. W 15.494675E-02l % h'@s. 5 7 a ^ ,,4 ~' 425401E-02 6; m 75; m. g ig;9.50933E--02i L .w-J p?qip 4 -A W,11"i25: 1--..'0699937f. j%65M h ? V 0-3. 074 412E--02. n IV754 11;237252E-02 ^ 4 4 42sli 7 f:, (4136853bE-02 i 12i25; 311 23.720002E-02/ q 3 ?5. 437402E -023 @@$ l3 M ~ s ' 2. 5 L t N > b' 24755 13;.'155759E-02 " V E ,4173627sE-021 a 2 $123d25T s L4.253941E-02' q 4 (31-53 K 73;.070414E, 41 AW3175? 13.984E67E-021 f

  1. G4f;;p L4".378185E-02S J

R J 04?25(X.

41098889E,
r. n;&w. s. 5 (

/u4 . 3,; 919151Et02' 4 '1 141752 f6;551153E-02.- 4 3 6o 35 ' h5. 4 901'19E -021 1 i 5 05}%2 5_.!<8 E5.921046E-02' N!'a ,s ~ 4fg 5}51 15.545215E-02:

Q' m 4 s

.,5,7 51

6.231674E_02 T

J 3 ( e. e_ g -. 45,349553E s f (6;.- _ \\ ~ 25; f5?616793E-02:1 pf -e6151 9 ' 15124321'6E402* - 'x a i ~ m -: 6.168287E-02 ~ " ,a + p% 16i757 3 47f. M^ 7 6.'465533E-02 ' f' j7i25) ?5.727144E 02: m 40481897: w:. ~ J.. 7. 5 ::- -.0174335: ~, -s s" a g, m77;;752

10.. )' 8 5..

12?l2778GE402 4.1 {..<. 22.332049E-02. 5 vg m QBi25n ".. f.1~.542065E-021 q G.hes5) 1 4 J J2.^033626E-02 % 8s75h. sA d A~99;;;% ^ 2 ; 4 5 7 0 7 4 E a 0 2,J ~ .a 9 W. J ' 19.$ 25o1, 1.725558E-02~- m:4 9, 5 ? ' ^.' L2.385752E-02 hiW 7 M

g. A 2.205413E-021

~,2,.9 aa 4

3.0.40694E-02

@7 M10t i A % 10i25: n2. 481317E ' M, d10. 53 K 12 ". 39057,7E-02 '

a

~ w 02 7 kn n l:. sF~ 2.816182E-02 01 J a-4 -4 2.<128144E-02 O

  1. g11).97@

.0156073 1 .J1l1l.25C. i sa q A,711'. SI: * .0274592 m ,n, 1.939904E-02 W Wl11;752 i kN[12'i ' 2.221216E-02 r.c;p m ,J [ p ;k t.s. Mi mi m

.b W a.

,yr ; m - ' m, @.id d 2 y y;* o/gLg' 9 j ' 'f, t pa; h O w. r h i

5,7 n w mye i

g K* (/Q ' r ,,1 s s..

w..

CONT *D: 4T;L*:* *., --;(T I M E..' AN AL YSIS '

    • 1 ST O T A L.-

k<A: it

  • 2 K -

ILRT-

a * * *'

a M DUPLICATE- ., -,. s

  • M,.

. DBS.t LEAK 4. EE F:ATC + q m .12k 25: g-- ~ .1.906795E-02 +

.0191056 "12.5T 2.990182E-02

+l12.8363889 ~ 2.458805E-02-. 013.0863889;. 13.3363889c ,2.6948 2 -3 E 02' r i13.5863889'- 2.410246E-02 13.8363889. 2;460947E-02 14.08638893 .0275951' 17.3363889' 3.000364E-02' 1 .y {14.5863889-12.804659E-02: ~ 14.8363889 =2.947997E-02 ? ~ t ~15.0863889.- 2.992015E ; N 15~.3363889 2.753638E-02 "15;5863889.

2.889704E-02 115.8363889 2.962707E-02~

t , 016'.0863889. 2.684676E-02 D16.3363889 c2.868142E-02

.1N 5863889

- 3.'09S328E c16.8363889 .2.90109BE-02' L17.0863889' -2.SA283BE-02: 617.3363889.- ,3.181449E i l7 ^. 5863889 - .0330435: s ?17.8363889 3.229147E-02= 118.086385:19 ' 2.740261E-02 q t 18.3363889'

2;923301E-02 18.S863E89'

'3.016995E-02: s ve i18,8363889-2.93133?E-02 Ji9.'0863889-3'.344905E-02 19.3363889 l3.2316 BEE-02 1 ! 9.5863869 '3.018926E-C2 1 4 119.83658891 3.295856E :02 t O 20[0863889 12.803946E-02: ' ?20.3363889E 2.788686E-02. l l (.* 20.5863889? 2.670676E-02 1 '20.8363089 3.068028E-02 '21~.0863E89 3.360945E-02 ' 2. 579308E--02. m-- .21.3363889 .21.5863889 2.971251E-02 i J 21.8363E89 3,2051E6E-02 .22.0863889 .0311806 12243363889 3.539514E-02 ] $o i22.5863889; s3.2S9016E-02 g q g j 1 1 o, l _ + I t t i .h 4 1 1) ~ wu=

RTh,... M, w m %/Ws WMer m , cw. >_ 4 e ra w ,,-4 m g.- 4 ? MrMy m m n...m%h ' ',: g.,,

n.

iW ~ m;vV -= a,.. . s .4,; n n

f i",*

e W@@W.c)@h;f n w:b : % h . ' ~ Y.~ 4 5 a m .s . "s ce > w;m-- " .u p A v = 4 -= _. - ~,...: ,t i %: W ' C - 0 ',. 1 ^ > M

  • 4 W O lT* A W.a..-'--WMlEEY A N A' ?.L NSISL C O N T t DJ ' !*:*
  • 4 n-M c

M 2-L*#*4C, 'ILRT; PMN s %. < c G' -i '%m ; @W N;,,' M - - .-o v u m -<7 Mi:bOPL1C4TE; 7 ;; ~ f "

e n

s i '4 WF n..

OBSW LE AKA'3El RAT E w U

t_ w -c ~ v, w MM?M wv ~- a p:.s.g z ,y p-;..., wa., r =.L O .u +? - J. %. r.5?(221836308@ ]3.048307E-023 ~ 4u - + n ,.r k 4.p g, M/2310863939; F2.850773E-02: ~ W W 9,23.3363889V J2.519364E-02; 1 M~ic V23(5863BB9i~ (2t902495E-02f n' + 7,$ h23)83638890s f [3.017391E-02; 2N24;.0863PS9 s m4- '?3 '.137328E-02 6 ,. m&m w.m. #,.

n.....

g4 LO L =1 : 5,675059625434353D-02 i : % :. PERI D AYl 1 g. sf. v-Mth=Y116281109727655S9D-031 J. PER JDAY > FERiHR) l. c 1 p g... y-

3. 036555E-021.%:PER DAY;

( JTHE SVHOURiMEAC LEAKAGE RATEJ>=P '9 = _..;. ,n_. si L ._4 a htCALCOLATED 1EAKAGEERATEj >i \\1.7b3529E-02 '% PER DAYi: C 2<!24[HRSL 95%/ UPPER CONFIDENCE <1NCREMENTl 6.974895E-02'L%cPERsDAY < $[M M 24}HRSbuPPER;ti1MITMOFSTHEI95% CONFIDENCEELEVEL"'i =- 8.728423E-02 %;PER! DAY;'t! ~ , a-ny

7 p met W...,.,,241 HRS 4 95%iUPPERiCONFIDENCE: INCREMENT ^'=

i-(1.ib7123E-02? I % PERlD$Y-u

  • 1 2.910651E-02L:%LF:ER DAY ttr

@, M. 24?HRSiUPPER LIMI_.TJ OFS THE {95% ! CONFIDENCE LEVEL: , e. .t c. 3.., y-,,;g o-:m, D~ RATE J I S W E7 5% OF 1 L'A h.15 L )J ^ v

.a

,...a M *a~;; ,,.~ f j 1 g.g r g k ? + g;' 9; y ~ 4 _ l!R 4l. _

  • y fl

,3,, 1 M ou " 4 r e w ./ [ ';j v + &n 2 t -p 3 1' 1, a y: 1 s 4 4 4 4 l '( [ ,L.I's 6. gf

r p

' [m.' V -.u s f.u.$ r', b 'h 6 s x 4 3 g / q -. .M 'I-I '['.'._ w'., E n%;4;!? t 5, 6i

r-.3 y

Nr 5 p c,% (_ -,g:- .;w'a' - - .- :+ f; W" i . s ta. e 7 l,M,

b. 3

-- -- ( t ,.a' n + a , e k's .bf ML t.

s

+' a y,3@-y, t ;:;- 1 l q,, - a i,. .w ~,.w - .):. Qy s': ';l6 }m/y[. .y-2 . m y e.

2. fl,.

+.e 4. n~ s u h 's y'.4 b , N;Q , "* 'y NH \\ / 'j' + wam <ayF t t j gc : ,s .ft , :0? l Sph j '6 q ,~ m. + 3 ( C l' p i %;.,C 6-g 1_'i'*; L ybV A W ; p: f]!. . ~. / ggi -..., W' T 'A, s 4

  • N j ':.

' ' $l. 's ',.l'N 45Wi.nG" IN[< ~ g1

a. l. - l 6 ^., [ t i ,i. 4 e ..' 41t < f'. e '-,c.,Il> 4, 4e +

g it -
  1. g'.

t ,r ,7 g * ' E 5

h. _ { g _'. ' 9. -j y

j '.' \\ ; ,. - 8, i.Nr 7 4 u. -r< . i t' Y f i k k.- t g - i f '.' 4-2 s e r i = 10 HOUR: VERIFICATION l ~ 4 1 i = 1 -_a p .] < ) f f 3 h 'r.. . 1 4 . i 4 ) t 1 ' Y 1 F.- G I 1 ) I -.r 9e . { i 1 .3.. k i a 1 ?' 9 1, 1',.' s } 1 e 1 h I l s r- / i L 7(, h 1 i k i t , y -i. 'I t <,ms, ~n. ,.u.. ---n.. -.~ ~..,,-- . -, ~-,

e

-w.,----- s.- ,n-,

,.. ? n-. v, ?

p
.

-m !,; : -i 'n" "*+**%r"?

  • P": 'W"

-Y

m. ;.

,; y-y( 3es, 4 '[ ,1.? 4 ..a h_l' +...z Q s.{s' s)' {' ; a, I - k .,'.I,-)

10 HOUR VERIFICATION.

t ,, ks 1 '- 1 i j-- s ,'f.' t i(.. k t I i. b t ' {' ' ;. G - i/ ~ m + )% P-L. 5 't 5 \\ '\\.- s '),l t 6 t s '1 s .wi 't \\ - Oyt ~ k i /1 y 5 ^ \\ 'I i p % l' ' .? .. wa>

MbI NT EG'R A T E D - t._ E A K RATE-TEST RESOL TS' k E> by GILBERT / SERVICES.INC. , C(OC ' MASS. PO I NT' -- ANAL YS IS

    • O' My M'

' Vic l ~ Sup';rimpoasd

        • 1

- l DUPLICATE fa n. o <3 r y,[FROMTEST[POINTfNUMBER-1 TO :41 ~ 3 N sEROM.(1235-(07/08/89):. TO _ : 2235 (07/08/89)- j ~ + r ktl TIME '.. _ OBS. ' WEIGHT; OBS.. MIN. CALC. i / INTERVAL 1 -(LB); (LB) f O' '195641 -13.48895. f 925: 195638.5- -11.61372 i ? Jh 5 ', -195635.6' .-10.~19394 ? .75c 195623.8 -17.71374 b

11 195629.5-

'-7.71686 b/ 1'.25?

195624.5

-8.390491 l f: 1-.5, 195618 -10.52032 I L1.75 195616.3 -7.870639 2 195629.2 9.381956 2r~' 2.26' 195624.5~ 8.984251 2 K[ . 2. 5 -- 195621.9. -10.64883-f 2.75' 195610.7-3.861959. 73f 195613.5' 10.95575 4 3.25'

195610.3

'12.0965 13.5-195610.4 16.00058 13475

195600.6~

10.99536 J47 195596 10.79174 "4.25: 195594.1 13.19728 4.5e 195581.3 4.682337 4175L 195567.8 -4.42905 '5-195571.7 3.796228 -5;25 c195566.2-2.b51868 r 5.5' 195556- ~-3.323881 -5;75' 1195563.7' 8.787644- ! '61 195557.5J 6.889852 26.25 195551.5 5.243548 -6.5~ 195540.2: -1.810239 16'.75 195535.8 -1.798481 ,7 195536.6- -3.317381 L7425. 195532.7-13.707559 7 7. 195524.4 .2540657 7.75-195522 1.710972 '8~ 195511.9 -4.086812 8.25 195503.2' -8.427149 .m:8.5 -195510.1 2.788778-8.75 .195500 -3.018218 '9' 195498.4~ .3070571 9i25 195488.7 -5'.678715 '/ ~945 fi95475.9. -14.16511 -6.785122 9.75' '195478.9 '10

195472;1

-9.297829 J WO = 195654.-4930454958 LB (W11' = - ~17.31142035705206-LB/HR _ LEAKAGE. RATE =: .2123509 % PER DAY 'THE-95% UPPER. CONFIDENCE INCREMENT = 9.593007E-03 % PER DAY LUPPER, LIMIT OF'THE 95% CONFIDENCE LEVEL = .2219439 % PER DAY l I, e.A ea sp. p' g_L f .a A

me= - N: jbjkT N O'T"A L. -- 7 I M ET ANALYSISi CQ Ci- .l., b':( Sup;rimpo;cd ; DUPLICATE gy' p: g l ?! ;FROMiTEST' POINT NUMBER 1:

TO 41 IT-1FROMi11235-(07/08/89)

TO =2235 (07/08/89)- + a? ~ 1. --. X ::', OBS. LEAKAGE RATE. m i 1251 .1203486:

.5

.1315232-:~ 1 I: S75 .2814682-f1 '. if. .1415572 .1623298' ,1.25'- 14 5 .1880873' [ h L, fi.75

.1729816-2-

7.200263E-021 7.2.25 8.983798E-02 !2.5 9.392273E-02 2.75 . 1349656 g l3-,. .1124082-P

  • 3425-

.1157914' i

3.5

.1072534 ,t ' 3.7 5 - .1322701'- 4= =.137.9005 4.-25' .1353374 , 4.' 5 .1628291 + l L4.75. .1889674' i -5 .1699568 5.25

.1748839 i

5.5 .1896931

5. 75 =

.1648394' y '6- .1706999

6.25

.1755978 -: 6'. 5 .1903245 .6.75> .1911194-71 .1829128 7.25 .1832682 17.5- . 1907179 a .1883058 ' 7. 7 5 '- 4 B .-1979401

0. 2 5'-

.2048389

  • 8.5

.1888732 8.75 .1976857-t 9i .,943981. L9,25 .2020076' r

)
. ( -

4 r (:; y ( 3 43V 4 7.e a l r ,,o

! _, Ws - . TIME ANALYSIS. CONT *D C00 TOTALc + 88** Superimp20cd

  • ss*

DUPLICATE 'f X: OBS.-LEAKAGE RATE --s c.,.. 'E 9,5 .2132367 -) %75 .0039309 >10 .2072241. "LO =-.1266723052168345 % PER DAY' L1-=' 7.792364826963815D-03 % PER DAY PER HR THE 5 HOUR MEAN LEAKAGE RATE .189 '12 % PER DAY = = .204596 % PER DAY CALCULATED LEAKAGE RATE 7.355043E-02 %.PER DAY -<=24 HRS 95% UPPER CONFIDENCE INCREMENT = .2781464 % PE'R DAY < 24 HRG UPFD LIMIT OF THE 95% CONFIDENC$ LEVEL = t 1.815843E-02 % PER DAY .) 24 HRS 95% UPPER CONFIDENCE INCREMENT = > 24 HRS UPPER LIMIT OF THE 95% CONFIDENCE LEVEL .2227544 % PER DAY = 'f b e b k i t C 6 e b i + .2....

t s a 4. i t i APPENDIX E

SUMMARY

OF LEAKAGE RATE RESULTS 9 ? f I t v 5 ? A 4 P h

Q;wg, m;, a R ,g V "m N w a Q ',b $l l l +'. RATE R E s t_l L T S - *** \\ <s- ..A

z..

+ 'O h *g

  • is LJ M M A R Y ' O F; LEAK LILRT-X4st 584*

's it p l' DUPLICATE 3x, Q FORL: CleveleM 'Elec.I11uminiting m 'T iQ' UNIT?tiPerry J utlaar Power Station-g.. 4 L F ROMiTEST ; POINT' NUMBER 1 TO 97. g FROM'l1200-(07/07/89)< JTO 1205>(07/.09/89). i..+ MASS' -TOTAL > 6 24 > 24 MASS ~ 'i T 4,fT2NEL iWEIGHT TIME 'UCL#" 'UCL# POINT UCL# e W 120011195698'.465. 11215 :195691.271' 11230 l195696'.225: "+" 1245t 195694;536 11300 t195691.160-O.0233 O.6422 0.3267 0.0557 0.1658 g r1315-: 195691.231 0:0 01 0.4492 0.2215 0.0528-0.1182 ' 0.0318~- ,0.2504 0.'1158~ -0.0111 0.0752-f 1330 fi95702.225 gf 11345l:195696.700' -0.0396 O.2417 0.0257~ -0.0142 0.0479:

O;1?OO 195691.341?

-0.02964 0.2370 0.0958' O.CO28 0.0532 l14151l195691.640 -0.0242' O.2252' O.0808 0.01051 0.0509 21450 195697.381' -0.0137 'O.2250' O.0841 0.0237 0.0591 i1445"'195691.389' -0.0127 .O.2108 0.0764 0.0229 'O.0520' i115001 195686~.879 -0.0068 0.2066 0.0762: .O.0289 .O.0541-21515L.195587.192 -0.0032

0.2003 C.0739' O.0314-O.0530 1530 195609.702

-0.0032 .O.1904 0.0685 0.0292-. 0.0479

  • i1545T 19568h.280

-O'.0007 0.1852 0.0666 0.0708 0.0471'- 11600: 195684.1ES 'O.0025..O.1919 0.0660 0.0333 .O.047E M1015=J195684.260. 0.0046. 0.1779-0.0646 0.0344. 0.0473 1130 --1956S4.C84 -O.0062 0.1736 O.0630 C.0348 0.0463 , :1045 '195673.091

0.0127i O.1770 0.0674-0.0422

-0.0550 . 17001 :'195676.082 ~ 0.0163' O.1764-0.0686

0. 04 53~ -

0.0572 g;(1715,:195673.116. 0.0202 .O.1765= 0.0703 0.0438 0.0602 4 O.0229 .O.1754 O.0710-O.0507 C.0612- 't1730 195673.596 oa

1745?1195669.247~

~0.0265. O.1756 0.0727-0.0538 0.0639 didOO.,195672.293 'O'.0282. O.1737-0.0725 0.0543 0.0636 11~15??195669.840 .0.0302-O.1723: 0.0728 0.0553 0.0639' i f183OrL195670.675-0.0313'- =0.1702. ' 0.0724 0.0553 .OsO632 ,)1845'J195664.515 0.0337 0.1699 0.0733 0.0571 0.0647 l1900 11956,61'.561 0.0362' 0.1699 0.0745 0.0592 0.0665 .. ;e W ^,1915'.195664.608 'O.0375' O.16ES 0.0745-O.0595 0.0664 10301'.195668.994' O.0376 0.1658 0..'0733 0.0582 0.0647 -1945; 195687.448 0.0338 0.1596-0.0684. 0.0516 0.0605 !2000, 195684.585 0.0310 0.1543 0.0644 0.0465 0.0562 12015' 195682.777 0.0236 O.1496 0.0610' O.0426 0.0525-H '2030 !195687.777 0.0257 0.1445 0.0571 0.0379 O-04B3 & 02045JL195683.813 0,0236 'O.1403 0.0541 0.0347 0.0450 ,'L2100J 195680.213: 0.0222 0.1369 0.0518 0.0325 0.0425' 121151 195685.427 0.0201 ~ O.1330 0.0489 0.0295 0.0394 12130'Ji95679.984 0.0190 0.1300 0.0470 0.0279 0.0374 '92145"l195680.908 0.0177 0.1270 0.0450 0.0262 0.0354 g,2200. 195673.671 0.0174.- 0.1252 0.0440 0.0259 0.0346 4 2215.- 195677.726 0.0166 0.1228 0.0426 0.0249 0.0333 12230 2195677.997 0.0159 -0.1205 0.0412 0.0239 0.0320 4I 95673.779: .0.0155 0.1189 0.Ot02 0.O?36 0.0317 g _2245 1 L23OO: 195679.377. 0.0146 0.1166 0.0388 0.0225 0.029V o >.. m :A _- ~

pg~ g g g' f mg C + s W 4,,M C 7 q- +, 'g @$ lptet/ GtJ M M A RY : 0 12 " ~ L EI A K R Wi~ Ei B CON T*: D: n**. y.7,7 yg 4 $.*fM: R,, .sI4* '" 3LR0 =Ie: i

DUPLICA1E j S

jg/ .? ~ F ORJa/Clevelind.Elec!!114minating ~$E y (juNIT' tis PerryLNu::Isar,Powe r Station c 9, 1- 'TO 97' fFROM' TEST.FDINT. NUMBER-

  1. FROM 11200((07/07/89) STO 1205 (07/08/39)j g

., g r jA MAES. TOTAL T 24 > 24 MASS. k LTIMEL'

WEIGHT-LTIME

' UCL46 LUCLW-

POINT UCL4)

E 's O.0133- 'O.1139 0.0369 .O.0208 0.0281 1 g2315l'1195684.148/ 7 J 2330' 195672.716

O.0132
O.1126 0.0363;
O.0208' O.0277

% 2345: 195679.879 C.0123 0.1105: 0.0349 'O.0193-O.02651 1 o5l195676.731~ 0.0118 0.1089' O.0339 0.0192 0.0257 s15 '195679.419f 0.0111 'O.1070 0.0328 0.0194 0.0246 f,_f300T 95678.992! O.0104 0.1053 0.0317~ 0.0176 0.0237 1 {x f 50 1195667.167: 0.0103-0.1043-0.0313 0.0182 0.0240 105 l195672.228 LO.0101 0.1032 'O.0308 0.01815 0.0237 7 4 4-1120L1195669.160 0.0102 0.1024 -0.0304 0.01S3 0.0237 y

135lt195671.763l 0.0101 0.1013 0.0299

-O.0182 C.0234 3 V100;7195670.7001i ~0.0100_ O,1004 O.0295 0.0192 0.0232 p 12051(195666.769. l0.0101-0.0997 0.0293 0.0185' O.0233 L i220f 195663.391. 0.0104-0.0993 0.0293

0.0190

.0.0237 O.0106-0.0987 0.0291 0.0193" O.023E '?235'L195665.107 200 da95662.801 =0iO108 0.0983. -0.0291 0.0197. 0.0241 L; 3 p-4 V 3Ob11195661.oS9. 90.0111 0.0979 0.0241 0.0002 'O.0244 , ?.; 1320 ;195664.027'

O.0112 0.0973.

O.0289 C.O204 0.0246- [ , g35 195661;739-0.0114-0.0969-0;O288-0.0207-0.0247-t350n 2195660.207 x0.0117 0.0965 0.02E8 0.0210-~, 0.0249 -A [405 2195663.250' O.0117-0.0959 0.0286 0.02111 0.0249 lP (420l 195660.259 0.0119 0.0954~

0. 02E6 ~

0.0214 0.02DOJ y' W435 -1 9 5 6 5 6"; 6 0 2 '~ 0.0122 0.0952 O 0286' O.0219-O.0254-C50 c195658.637: "O.0124 0.0948 0.02E6 -0.0220 0.0255 oh ~505 1956631037-0.0124: 0.O?41 0.0283 0.0220 ?O.0253

520 ~195653.491 0.0327 0.0940 0.0286' 0.0224 0.0208 l535.195651^.000~

'O.0131~ O'.0939: 0.0287- "O.0230- .0.0262 .,p 550- 1956511501 -0.0135 0.0937 O.028B O.0234 0.0266 L '605 '195650.052 =0.0135 0.0932- -0.0287 0.0235 0.026 \\ 620; 195654.757. 0.0137 0;O929 'O.0286 0.0236 0.0267' F '635iL195652".741 O'.0139 0.0926.- 0.0287-O.0239 0.0268 [I ~650 !a95653.445. 10.014[. 'O.0923 O,0286 0.0240 0.0269 k " 1705 195646.403 ~ .O.0144 0.0922 0.0288' O.0245 0.0274 U 4 (720i_195647. 511N O.0147 O.0921 O.0290 C.0249 0.0277 ,;'(735 195650.'250 .O.0149 .O.0918' O.0290 C.0251 0.0278 F 'E750 '195645;155 .O.0152 0.0917 0.0291 0.0254 0.0201 h f805 fi95652.540. 0.0153 0.0913 0.0290 0.0254 0.0281 T20;2195652.2221 .O.0154 0.0909 0 0289-0.0254 0.0280 g,,,835-195653'634 'O.0154 'O.0904 0.0788 0.02b3 0.0278 $7 85CF '195646.339- -0.0156 0.0902 0.0288 0.0255 0.0280 3 .9054 -195640.677; O.0159 0.0901 0.0290 0.0259 .O.0283 d t920 195653.591 -O.0158 0.0896 0.0288 O.0258 0.0281 935'"195646;166 0.0160-0.0894 0.0289 0.0259 0.0262 9501'195641.395-; O.0162 0.0892 0.0289 0.0261 0.0284 ~ z M -1005b 1956'42.311; O.0164 0.0890 0.0290 0.0263 v.0236 b, i:1020?.195633;999- .O.0168 0.0891 0.0292 0.0268 0.0290 p .:.k.. _i [ N 0&.

u4+e ;ML, :# ,a .,i. ,.. t , 7 y ;g .c ,3-' - f._ q.. \\ NSQ f@$e(h att M*p ' Eiis O M M A R YX O F i ' L E A t<.0 39 A T E Ed ' CONTJ*D ' C O;,;L f, J-a J t t. e tt.' .ILRT' W s e a af L"" 7..

  • f

' ' McA = DUPLICATE' i x y ,= ys ".......,,, s ,ys

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.:FORdt';'Clevelenc::Eleci111uminating p, 5e >, . Ferry l Nuclear' Power" Station : IU c -. :., m UNITE 81. )[FROMSYEST!POINTsNUMBER ^ 11 - T 0 ; - 97 ' WiFROMi 12OOL(07/07/89f. TO. 1205 (07/09/89) .y dd ' MASS - TOT AL - <'24 > 24 MASS cy?TIMEf 'LWEIGHT-TIME UCLW UCL# POINT .UCL#- b 'O.0170: 0.0990" y,'.. _O'0293; O.0270 0.0292 J: 16 1035i[195637.8911 1050f1195641.703 0.0172 O.OBBS' O.0294 0.0272 'O.0293 9 '1105? 195644.800: 0.0172-L 0. 0884-0.0293- <10.0271 0.0292-k:.1120!n195550.525

O.0171' V O.0879-0.0291 0.'0269 iO.0290 4

h f1135LV195642;527, 0.0172' O. OB77 ' O.0290 0.0269. 0.0290 m f'v1150i-195639.818- ~0.0174' ' O' 0974 < ~0.0290 0.0270l 0.0290-O.0175: O.08737 O.0291 O.0272 'O.0291' {h. ' "1205) [195636iE47. h. f, 'ls (bb, .i n -- a ,s t i

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gpq m K k,...' S U M M A R Y OF ' LEAK RATE' 'RESULTS O Cro. K 88t* Sup?rimp;;;d stat DUPLICATE t-I 'FOR LCleveland Elec Illuminating Perry Nuclear Power Station 1 UNIT s1 FROM TEST POINT NUMBER 1 TO 41 FROM' 1235 (07/08/89) TO 2235 (07/08/89) MASS TOTAL < 24 > 24 MASS

TIME, WEIGHT TIME UCLW UCLW POINT UCLW G

i 1235 195640.994 7.1250 195638.541 f 1305 195635.633 1320, 195623.786 1335 '195629.455 0.2008 0.6341 0.4132 0.1857 0.3400 1350 195624.453. O.1862 0.4722 0.3208 0.1700 0.2641 .1405 '195617.996 0.1917 0.4071 0.2903 0.1811 0.2446 L .1420 195616.317 0.1875 0.3658 0.2669 0.1772 0.2231 '1435 195629.242 0.1425 0.0305 0.2239 0.1213 0.1916 1450 195624.517 0.1197 0;2905 0.1917 0.0988 0.1589-c P 1505c 195621.853 0.1057 0.2604 0.1691 0.0880 0.1377 1520 195610.739 0.1090 0.2533-0.1666 0.0994 0.1420 l i~ 1535-195613.505 0.1050 0.2389 0.1570 0.0985 0.1342 [; 15501 195610.317 0.1031 0.2288 0.1508 0.0996 0.1300 l-16051 195610.394 0.0996 0.2181 0.1435 0.0978 0.1239 1620 '195600.561 0.1031 0.2175 0.1445 0.1050 0.1289 1C35 195596.029' 0.1073 0.2184 0.1466 0.1123 0.1345 I 1050 '195594.107 0.1102 0.2177 0.1475 0.1170 0.1373 ~1705 '195581.264 0.1183 0.2254 .O.1547 0.1286 0.1500 f' L '1720 195567.825-0.1302 0.2394 0.1665 0.1446 0.1696 1735 195571.722 0.1366 0.2438 0.1716 0.1520 0.1758 1750: 195566.150 0.1428 0.2481 0.1766 0.1591 0.1817 1C05-195555.946 0.1507 0.2549 0.1835 0.1681 0.1907 1820 195563.730 0.1534 0.2546 0.1847 0.1696 0.1903 1C35 195557.504 0.1566 0.25b2 0.1866-0.1720 'O.1912 1850 195551.530 0.1601 0.2564 0.1889' O.1750 0.1928 1905 195540.149 0.1652 0.2599-0.1932-0.1803 0.1977 1920 195535.832 0.1699 0.2627 0.1969 0.1849 0.2016 1935 195536.620 0.1728 0.2636 0.1988 0.1870 0.0026

1950 195532.683

.O.1754 0.2643 0.2005 0.1888 0.2034

2005 195524.393 0.1787 0.2658 0.2030 0.1915 0.2055 J2020 195522.031 0.1813 0.2667 0.2048 0.1934 0.2066 i

'2035 195511.905 0.1847 0.2686 0.2075 0.1965 0.2093 2050 195503.237 0.1886 0.2711 0.2107 0.2003 0.2129 2105' 195510.125 0.1902 0.2713 0.2117 0.2009 0.2127 '2120~-195499.990 0.1927 0.2723 0.2135 0.2027 0.2141 2135-195498.373 0.1945 0.2727 0.2147 0.2038 0.2145 .i 2150~ 195488.674 0.1969 0.2739 0.2166 0.2057 0.2161 3 '2205 195475.859 0.2003 0.2761 0.2194 0.2091 0.2194 2220 195478.912 0.2024 0.2771 0.2210 0.2106 0.2205 -2235 195472.071 0.2046 0.2781 0.2228 0.2124 0.2219 4

g. a 9 10I,' l n' 4 t APPENDIX F FIRST REFUELING OUTAGE LEAKAGE RATE RESULTS i 1989 P t' 5 l' e- ? L r l-i I L I i i 'I i I l-k k ~

[. ~(w Statistical:Summaticn of Typ3 B cnd C .AA0..AH931E g-L cal'LOOkago R3tos AA1..AH56-F DATE 07/20/89 Test I/O' Pent. Leakage Leakage Leakage-Pent.- Isolation-Rate- .SD+ Rate SD+ Rate SD+ No. Barriers SCCM - SCCM SCCM SCCM- -SCCM SCCM P 104 1E51-r019 1 0.6 1 0.6 1 0.6 05/24/89 P 106 1E51-r077 115 and F068-20 6 20 6 20 6 04/14/89 P 107 1E12-r055A and F025A and'1E21-r018 361.8 60 05/12/89 +(1N27-r751 and D027) 917.3 60 05/12/89 SUM 1279.16 .85 1279.16 84.85 P 108 1P11-r545 10 6 10 6 04/06/89 or 1P11-r060 1 0.6 1 0.6 04/25/89 LARGER 10 6 P 109 (1E61-D017 and blank and 1E61-D003) 1 0.6 1 0.6 1 0.6 07/12/89 4 AA58..AH112

M~T:: I v I' Y.' P 111 1P11-r090 '1' O.6 1 0.6 'i 04/25/89 { i or 1P11-r080 16.3 6 16.3 6 03/07/89 i LARGER 16.3 6

  • ' Type."B" Local Leak Rate Test 1327.46 85.5 Statistical Summation of Type B and C AA74 l

Local Leakage Rates Test I/O Pent. Leakage Leakage Leakage Pent. Isolation Rate SD+ Rate SD+ Rate SD+ l I No. Barriers SCCM SCCM SCCM SCCM SCCM SCCM F 112 1E21'-r006 20 6 20 6 04/24/89 or 1E21-r005 10-6 10 6 05/15/89 LARGER 20 6 Reference Note 1 P 113 1E12-r028A 20 6 04/26/89- +1E12-r037A 36.9 6 04/26/89 +1E12-r042A 565.8 60 04/25/89 SUM 622.7 61 or 1E12-r027A 20 6 20 6 04/26/89 LARGER 622.7 60.6~ P 114 1M17-r010 10 6 03/23/89 AA113..AH168 +O-rings 1.43 0.6 03/31/89 SUM 11.43 6 or 1M17-r015 10 6 10 6 03/23/89 LARGER 11.43 6.03 -P 116 1P57-r524B 54.58 6 54.58 6 03/25/89 or IP57-r015B 10 6 10 6

t. g 'e f - i= '*' 03/25/89. [ f-LARGER 54.58 6 p e? 117 1P86-r528 15.33 6 15.33 6 04/21/89 i-or 1P86-r002 10 6 10 6 ~ 04/21/89 LARGER 15.33 6 --~ P 1187 1E12-r558A 10 6 10 6 r 03/20/89 Poten or 1E12-r073A 10 6 10 6 03/20/89 LARGER 10 6

  • Type "B" Local Leak Rate Test 734.04 ~III78 Statistical Summation of Type B and C AA145 Loca1' Leakage Rates Test I/O Pent.

Leakage Leakage Leakage Pent. Isolation Rate SD+ Rate SD+ Rate SD+ No.- Barriers SCCM SCCM SCCM SCCM SCCM SCCM P 119 (IE61-D014 and ) 1E61-D015) 1 0.6 1 0.6 1 0.6 L 07/12/89 1 [ P 120 (1E61-D016 and i 1E61-D001 and blank 10 6 10 6 '10 6 07/12/89 Pf123 1E51-r066 24.75 6 24.75 6 05/16/89 or-(1E51-r013 and 1E12-r023 10 6 10 6 06/23/89 LARGER 24.75 6 AA169..AH224 Reference Note 1 P 131. 1G33-r001 12.49 0.6 12.49 0.6 06/02/89 or 1G33-r004 14.24 0.6 14.24 0.6 06/02/89 LARGER 14.24 0.6 P 132 1G33-r040 20 6 20 6 04/17/89 or 1G33-r039 303 60 303 60 07/03/89 LARGER 303 60

w: 3-F 201-1D17-F079B 10 6 03/13/89 i or 1D17-F079A 10 6 {l 03/13/89 LARGER 10 6 e ID17-F0718 10 6 03/15/89= ~ or 1D17-F071A 10 6 03/15/89 .10 6 LARGER . SUM 20 8.485 P 203 1G41-F522 10 6 10 6 02/25/89 or 1G41-F100-80.22 6 80.22 6 02/25/89 LARGER 80.22 6

  • Type "B" Local Leak Rate Test 453.21 61.49.

L Statistical Summation of Type B and C AA221 l Local Leakage Rates Test 1/0 Pent. AA225..AH280 Leakage Leakage Leakage pw Pent'. Isolation Rate SD+ Rate SD+ Rate SD+ l No. Barriers SCCM SCCM SCCM SCCM SCCM SCCM P'204 1C11-F122 130.1 6 130.1 6 05/04/89 or 1C11-F083 135.5 6 135.5 6 05/04/89 l LARGER 135.5 6 1 P 205 (Blank Flange Seal Reducing Spool Flat Flange Seal and Upper Bellows and Lower Bellows and Bellows 7.85 0.6 7.85 0.6 7.85 0.6 06/23/89 P'208 1M17-F020 5.45 0.6

m y ', ' *y 04/05/89 +o-rings 1 0.6 04/06/89 y i SUM 6.45 0.8 or IM17-r025 10 6 ~ ~ Il 6 ~ 03/23/89 LARGER 10 6 P.210-1P54-F1098' 38.03 6 38.03 6' 03/22/89 or 1P54-r340' 10 6 10 6 w 03/22/89 i LARGER 38.03-6 p P 301-

1G41-r140-111.2 6

111.16 6 02/25/89 or 1G41-r145 157.7 6 157.73 6 06/19/S9 AA281..AH335 LARGER 157.73 6 P 302 1M51-r090 560 60 560 60 06/22/89 or IM51-F110~ 273 60 273 60 ~ 06/22/89 LARGER 560 60 P-304 1P57-r524A 10.08 6 10.08 6 ~04/04/89 or 1P57-r015A 10 6 10 6 04/04/89 LARGER-10.08 6 l

  • Type "B" Local Leak Rate Test 9ITTTY ~317T8 i

ll Statistical Summation of Type B and C AA305 Local Leakage Rates Test I/O Pent. Leakage Leakage Leakage i l Pent. Isolation Rate SD+ Rate SD+ Rate SD+ No. Barriers SCCM SCCM SCCM SCCM SCCM SCCM P 305'(1P53-r030 and r010) 2 6 04/13/89-1 l L.

/t

~ ,I, ghL (. v' 2 s i +(IP53-r035 and r015) 2 0.6 04/13/89 SUM 4-6 e. t 3 'or (1P53-r035:and F070 2 0.6 l 04/13/89 +(1P53-r030 and F010)~ 2 6 04/13/89 SUM 4 6 i e LARGER-4 6 4 (1P53-r536.and t 1P53-r570) 1.99 0.6 AA337..AH390 04/14/89 +1P52-r160 1 0.6 { .04/14/89_. + Airlock Barrel 51.45 8.5 l 05/07/89 SUM 54.44 8.5 'f SUM 58.44 10.45 10 6 10 6 P 306.1P52-r550 05/17/89 or 1P52-r200 10 6 10 6 05/17/89 LARGER-10 6 t P 308 1P51-r530 84.4 6 84.4 6 t 05/09/89-or IP51-r150 1 0.6 1 0.6 04/16/89 LARGER 84.4 6 P'309 1P22-r577 20 6 20 6 05/06/89 or 1P22-r010 20 6 20 6 05/06/89-LARGER 20 6 P-310'1P43-r721 10 6 10 6

m - j s' 03/19/89 or IP43-r055' 1 0.6 1 0.6 06/03/89 i LARGER 10 6 l 1 P 311 1P43-r215. 12.3 6 12.3 6 06/03/89-l I or 1P43-r140 10 6 10 6 06/03/89 1 1 m . LARGr'R 12.3 6-1 Type "B" Local Leak Rate. Test 195.14 17. s 1 Statistical Summatior, of Type B and C l Local. Leakage Rates AA395 i Test I/O Pent. Leakage Leakage Leakage i Poten' Isolation Rate SD+ Rate SD+ Rate SD+ No. Barriers SCCM SCCM SCCM SCCM SCCM' SCCM l P 312-(1P53-r075 and F045) 1 0.6 04/14/89 1 +(IP53-r040 and r020) 1 0.6 04/14/89 . SUM 2 0.8 (1P53-r025 and r045) 1 0.6 04/14/89 +(1P53-r020 and F040) 1 0.6 04/14/89 SUM 2 0.8 LARGER 2 0.8- [ (1P53-r571 and F541) 3.08 0.6 04/14/89 +1P52-F170 7.15 0.6 04/14/89 + Airlock Barrel 194 7 04/23/89 SUM 204.23 7.1 SUM 206.23 7.132 P 313--(1M14-r045 and r040 and 1M14-F190) 10 6 05/13/89 or (1M14-r045 and r040 and 1M14-F195) 10 6 05/13/89 LARGER 10 6 a e d.. .-m e _.m,-r, ,-y, 4

N ') L l + P E .PL314 (1M14-r090 and'r085- ~ i k -and 1M14-r200) 1 0.6 AH449.. i '05/14/89, L for (1M14-r090 and F085 L.6 and 1M14-r205) 1 O 05/14/89. l LARGER 1 0.6 P 315:1C41-r518 10, 6 10 6 i-02/27/89 or 1C41-r520 39.7 6 39.7 6 02/27/89 LARGER: 39.7 6

  • Type "B" Local Leak Rate Test 2537V3 11.1 Statistical Summation-of Type B and C

'AA474..AH504- ' Local Leakage Rates Test I/O Pent. Pent. Isolation Rate SD+ Rate SD+ ' Leakage Leakage Leakage Rate SD+ No. Barriers SCCM SCCM SCCM SCCM SCCM SCCM P-317 1D17-r089B 1.06 0.6 02/23/89 i or ID17-r089A 1 ~D.6 02/23/89. LARGER 1.06 0.6 1D17-F081B 1.2 0.6 02/23/89 or 1D17-r081A 1.5 0.6 02/23/89 LARGER-1.5 0.6 (1E61-D007 and 1E61-r549 and CAP 10 6 -07/11/89- +(1E61-D006 and '1E61-r550 and CAP 10 6

in 4 .. ; $d I gj 07/11/89. ~ SUM 20- 8. 5' AA505..AH560 SUM 22.56' 8.528 E iP 318 (1M51-r210B and 1P87-r074) 10 6 i +1M51-r220B. '04/02/89-61.2 6 I f 04/02/89. +(1M51-r230s and ) 1P87-r077) 10 6 04/02/89 +(IM51-r240s and 1 -1P87-F071). 34.7 6 04/02/89- ) +(1M51-r250B and L L IP87-r065) 10 6-04/03/89- 'I r l SUM 125.9 13 125.9 13 42L P 319 (1E61-r552 and i 1E61-D004 and CAP 4.7 0.6 j 07/11/89 1 +(1E61-D005 and CAP and 1E61-r551) 4.7 0.6 h '07/11/89 . SUM 9.4 0.8 9.4 0.849 j P 404.1P50-r539 10 6 10 6 j 04/06/89. 1 or'IP50-r060 10 6 10 6 1 04/06/89 10 6 E LARGER. L

  • Type'"B" Local Leak Rate Test 167.86 177U1 I

Statistical Summation of Type B and C AA554 Local Leakage Rates ] m Pent. Test I/O i Leakage Leakage Leakage ' Pent. Isolation Rate SD+ Rate SD+ Rate SD+ No. Barriers SCCM SCCM SCCM SCCM SCCM SCCM AA561..AH615 P 40511P50-F140 231 60 231 60 1 04/21/89 or:1P50-r1E0 129.6 60 129.6 60 04/21/89 ..~. .~.

l' L - ? ), LACGER '231 L60 F 'P'406 1P54-r726 8.08 0.6 8.08 0.6 07/14/89 or 1P54-r727 1 0.6 1 0.6 + 07/14/89 LARGER-8.08' O.6 g. P 408 1E12-r021 895.3 60 895.33 60 895.33' 60 it .03/28/89 P 409 (1E22-r023 and'r012 and 1E22-r035) 38.4 6 38.4 6 38.4 6 04/30/89 P 410 1E22-r005 22.98 6 22.98 6 04/27/89 or 1E22-r004 298.2 ~3D-298.2 60 04/27/89 LARGER 298.2 .60 P!411 1E12-r041C 10 6 10 6 05/09/89 or 1E12-r042C 25.67 6 25.67 6 ( 05/09/89 LARGER: 25.67 6 l 1 -P 412 1E12-r028B 20 6-05/11/89' l +1E12-r037B 34.5 6 l 06/21/89 +1E12-r042B 1-0.6 06/21/89 SUM 55.5 8.5 i or 3 E12-r027B 10 6 10 6 2 05/10/89 AA616..AH672 LARGER 55.5 8.506 Reference Note 1 15577TY '104.'6

  • Type "B" Local Leak Rate Test Statistical Summation of Type B and C AA623 Local Leakage Rates l

Test I/O Pent. r Leakage Leakage Leakage . Pent. Isolation Rate SD+ Rate SD+ Rate SD+ No. Barriers SCCM SCCM SCCM SCCM SCCM SCCM 4.

fdI:

P 413'1P87-F049 135.3 6 ? 03/31/89; 77.9 6

or.IP87-F055' 03/31/89-LARGER 135.3 6

IP87-F046 161.3 6 03/31/89 i or 1P87-F052 174.9 6 03/31/89 LARGER 174.85 6 SUM 310.15 8.485 P 417 1G61-F075-10 6. 10 6 05/15/89 or 1G61-F080 6 6 6 6 '05/15/89 LARGER 10 6 P 418 1G61-F165 1 0.6 1 0.6 06/29/89 or-1G61-F170 1 0.6 1 0.6 06/29/89 LARGER 1 0.6-P 419.1G33-F053 39.6 6 39.6 6 03/09/89 or 1G33-F054 10 6 10 6 '03/09/89 LARGER-39.6 6 P.420 1G50-F272 10 6 10 6 03/25/89-or 1G50-F277 871 0.6 8.1 ~UTE 06/04/89-LARGER 10 6 P~421 (1E12-F009 and F550) 3640 600 3640 600 04/11/89 ~ or 1E12-F008 21.57 6 ITT57 6 AA673..AH728 05/22/89 LARGER 3640 600 P~422 (1E51-F063 and F076 added 292.3 +/- 60 scem for F063 8/20/87 [ and 1E51-F064) 1 0.6 1 0.6 1 0.6 i: 07/13/89 P 423 1821-F019 i l-L' and 1B21-F016 20 6 20 6 20 6 06/29/89 i

  • Type "B"

Local Leak Rate Test 4031.75 600.2 l Statistical Summation of Type B and C AA691 Local Leakage Rates l

p, 'L 4 Tost I/O' Pont. Leakage Leakage Leakage U ~ Pent.' Isolation Rate SD+ Rate SD+ Rate SD+ I No. Barriers SCCM SCCM ~ SCCM SCCM SCCM SCCM P 424 1G33-r028 25.82 6 25.82 6 03/08/89 20 6 20 6 or-1G33-r034 04/17/89 ' LARGER 25.82 6 P 425 1M51-r210A 10 6 04/03/89 +1M51-r220A 103.1 6 04/05/89 +1M51-r230A 162.1 6 04/05/89 i +1M51-r240A 13.1 6 04/05/89 +1M51-r250A 10 6 04/05/89 SUM 298.25 13 298.25 13.42 P 429 1M17-r030 10 6 03/23/89 L +O-ring 1 0.6 .03/30/89 SUM 11 6 or IM17-r035 10 6 10 6 03/23/89 LARGER 11 6.03 P 429 (1P87-r083 and r264) 10 6 04/24/89 +(1E12-r055B and F025B and 1E12-r025C and i r005) 2130 600 AA729..AH784 05/06/89 SUM-2140 600 2140 600 P 431 1E12-r558B 59.05 6 59.05 6 i 04/15/89 or 1E12-r073B 57I75 60 571.5 60 04/15/89 LARGER 571.5 60 P 436 IM17-r040 36.1 6 03/23/89 +O-ring 1778 0.6 03/30/89 SUM 37.38 6 or 1M17-r045 63.9 6 63.9 6 03/24/89 LARGER 63.9 6 IR72S001 E 318 O-Rings 0 0 0 0 02/28/89 1R72S002-E 320 0-Rings 0 0 0 0

T ~ ~ ~ t 's- -c. 02/28/89 x L

  • Type "B" Local Leak. Rate Test 3110.47 603.3 Statistical Summation of Type B and C AA762 Local: Leakage Rateh l Test I/O Pent.

Leakage Leakage Learage Pent.- -Isolation Rate SD+ Rate SD+ Rate SD+ 'No. Barriers SCCM SCCM SCCM PCCM SCCM SCCM 1R725003 ! E 315 0-Rings 20 6 20 6 02/28/89' 1R728004 'E.340 0-Rings 20 0.6 20 0.6 02/27/89 1R725005 Ec317 O-Rings. 0 0 0 0 02/28/89 I 1R725006 E 339 O-Rings 20 6 '20 6 + 02/27/89 1R725007 E 312 0-Rings 20 6 AA785..AH840 20-6 02/28/89 1R725008 E 309o.O-Rings-0 0 0 0 02/28/89 1R72S009 E 336 'O-Rings 20 6 20 6 02/27/89 1R72S010 E 332 0-Rings-20 6 20 6 s 02/27/89 1R725011 E 337 O-Rings 20 6 20 6 02/27/89 1R725012 E 314 0-Rings 20 6 20 6 02/28/89 1R725013 E 311 0-Rings 0 0 0 0 02/28/89 -1R725014 .E-335 0-Rings 20 6 20 6 02/27/89 -1R725015 E 331 0-Rings 20 6 20 6 i 02/27/89 l Type "B" Local Leak Rate Test 200 18.01 s*

w. P-e s, l e- ', R / Statistical: Summation of Type:S and C AA822 l Local Leakage Rates E K Test I/O Pent.- e Leakage Leakage Leakage l b; , Pent.. Isolation Rate SD+ Rate SD+ Rate SD+ j .No. Barriers SCCM SCCM SCCM SCCM SCCM SCCM l 1R725016 ^ L E 306 0-Rings: 0 0 0 0 02/28/89 '1R725017 - i 'E 303 0-Rings. 0 0 0 0 02/28/89 1R725018 E 308 Rings 0 0 0 0 l 02/28/89 l 1R725019 E 305- 0-Rings 0 0 AA841..AH896 0 0 L .02/28/89 1R721 E 328 O-Rings 20 6 20 6 02/27/89 l f 1R725021 E.322 0-Rings 20 6 20 6 02/27/89 I L 1R72S022 l E 327. O-Rings 20-6 20 6 .02/27/89 l E 1R72S023 j E-324 0-Rings 20' 6 20 6 02/27/89 L 1R725024 E 335 O-Rings 20 6 20 6 02/27/89 1R725025 E 333 0-Rings 20 6 20 6 02/27/89 L ..1R725026 20 6 20 6 L E 301 O-Rings L 02/28/89 1R725027 v E 341- 0-Rings 0 0 0 0 02/28/89 o<_ -* Type "B" Local Leak Rate Test 140 ~T3737 i Statistical Summation of Type B and C AA878 Local Leakage Rates Test I/O Pent. Leakage Leakage Leakage i

p;;g ].p "I ^ ~ .x l .w i Pent.. Is010ti0n Rato SD+ RSto SD+ R3t0 SDA f -No. ' Barriers SCCM SCCM-SCCM SCCM SCCM SCCML i s i

lR728028 E 304 0-Rings 20 6

20 6 02/28/89-3 u 1R725029 E 316 0-Rings 0 0 0 0~ j 02/28/89 1R728030 l

E 307: 0-Rings 1

0.6 1 0.6 i 07/01/89 1 1R728031: C E 310 Rings-0 0 0 0 i i 02/28/89 F . 1R725032 E; E 338 0-Rings 20 6 AA899..AH932 20 6 i H i. , 1R728033 02/27/89 q L 1 L E 329 0-Rings 20 6 20 6 ) 02/27/89-1R725035 E 323 0-Rings 1 0.6 1 0.6 07/01/89

1R725036 E 330 0-Rings 20 6

20 6 02/27/89 f 1R725038 E 334 0-Rings 1 0.6 1 0.6 02/27/89: P 416 Expansion Bellows 0 0.07/03/89 P415 Expansion Bellows' O O 07/03/89 P414 Expansion Bellows 0 0 07/03/89 P423 Expansion Bellows 0 0 07/03/89-i D P421 Expansion Bellows 0 0 07/03/89 5 L P123 Expansion Bellows 0 0 07/03/89 P124 Expansion Bellows 0-0 07/03/89 u .P122' Expansion Bellows 0 0 07/03/89 P422 Expansion Bellows 0 0 07/03/89 P131 Expansion Bellows 0 0 07/03/89 P121 Expansion Bellows 'O O 07/03/89 SUM

  • 0 0

0 0 P202_ Equipment Hatch double 0-Rings 54.1 6 54.1 6 n i 07/03/89 TITTI 13.46 L

  • Type "B" Local Leak Rate Test b

7 i I I V' [

,e l i AQO..AV55 'j .e StOtistiC01 Summ3tiCn Cf'Typ3 5 AND C Local leakage Rates 1 1 'li . Total Recorded-Leakage' 13225.3 l j 4 Total Recorded Leakage Standard Deviation 869.04 ,. ~ .LPCI A +LPCS + RCIC 667.45 STANDARD DEVIATION,LPCI A +LPCS +RCIC 61.1882 i 9 LPCI.B + LPCI C 81.17' l STANDARD DEVIATION LPCI B +LPCI C 10.4096 i I HPCS 298.2 t i STANDARD DEVIATION HPCS 60 k SUM OF DIV 1, 2, 3 1046.82 ? L STANDARD DEVIATION SUM OF DIV 1,2,3 86.3271 1-1 MAX OF DIV 1, 2, 3 667.45 STANDARD DEVIATION MAX OF DIV 1,2,3 61.1882 .379.37 SCCM (SUM l-MAX) DIV 1, 2, 3 L STANDARD DEVIATION (SUM -MAX) DIV 1,2,3-60.8963 i L TOTAL RECORDED LEAKAGE (NOTE #1) 12846 SCMM i L STANDARD DEVIATION TOTAL 866.904 RECORDED LEAKAGE (NOTE #1) UPDATE 07/20/89 . ALLOWABLE LEAKAGE 60139.8 L 1-1 l ,.. _ _... _. _. - ~

fi [..; if o$ g .%I IC' h L i APPENDIX G l

SUMMARY

OF TYPE B & C LEA 1: AGE RATES SINCE PRE OPERATIONAL ILRT B P 4 e 1 1 l l l l l l l l l \\ l l l

f I ay :. p e, h 150 I' . PEN' RARRIER DATE-1.EAKAGE STD REMARKS '4 ' E301 01: 02/28/89 20.00 6.00 AS FOUND CORRECTED FROM 14.6. ' E301 01 07/05/87 .00 00 SEE E306 01 l - E301 - 01 12/18/85 .00 2.00 e E303 01 02/28/89 .00 00 SEE E304 E303 01 07/05/87 .00 00 SEE E306 01 E303 01 12/17/85 1;93 2.00 - E304-01 02/28/89 20.00 6.00 AS FOUND CORRECTED FROM 15.6 E304 Ol' 07/05/87 .00 00 SEE E306'01 ~ b E304 01 12/30/85 .00 2.00 L .E305~ Ol' 02/28/89- .00 00 SEE E312 L E305. 01 07/05/87 .00 00 SEE E306 01 E305 01 12/27/85' 33 2.00 1 (

E306, 01 02/28/89

.00 00 SEE E304 E306 01 07/05/87 2.00 .60 1' - E306- -01' 12/17/85- .07 2.00 E307 01 07/01/89 1.00 .60 AS LEFT E307 01. .02/28/89 .00 .00 SEE E304 E307 01 07/05/87 .00 .00 SEE E306.01 s E307-01 01/01/86 .20 2.00 i E308 01 02/28/89 .00 .00 SEE E312 i E308 Ol' 07/05/87 .00 .00 SEE E306 01 E308 01 12/13/85 .12 2.00 E309 01 02/28/89 .00 .00 SEE E312 E309 Ol' 07/05/87 .00 .00 SEE E318 01 E309 01 12/13/85 .06 2.00 E310 01-02/28/89 .00 .00 SEE E314 E310' 01 07/05/87 .00 .00 SEE E318 01 i E310 01 12/18/85 .00 2.00 I E311 01 02/28/89 .00 .00 SEE E314 E311 01 07/08/87 .00 .00 SEE E318 01 E312 01 02/28/89 20.00 6.00 AS FOUND CORRECTED FROM 1.6 i 1 E312 01 07/05/87 .00 .00 SEE E318 01 E312-01. '12/13/85 .02 2.00 E314 01-02/28/89 20.00 -6.00 AS FOUND CORRECTED FROM 1.6 1 'E314 01 07/05/87 .00' .00 SEE E318 01 E314 01 12/16/85 .60 2.00 E315 01-02/28/89 20.00 6.00 AS FOUND CORRECTED FROM 1+.6 E315 01 08/02/87 1.00 .60 r E315 01-12/12/85 .07 2.00 E316 01 02/28/89 .00 .00 SEE E315 E316 01 .07/05/87. .00 .00 SEE E320 01 i E316' 01 01/01/86 .00 2.00 E317 01 02/28/89 .00 .00 SEE E314 E317 01 07/05/87 .00 .00 SEE E320 01 .E317 01 ~12/12/85 .98 2.00 E318 01-02/28/89 .00 .00 SEE E315 'E318 01 07/05/87 1.00 .60 E318 01 12/18/85 .15 2.00 E320 01-02/28/89 .00 .00 SEE E315 E320 01- -07/05/87 1.00 .60 E320 ,01 -12/12/85 .28 2.00 E322 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1.35.6 1 E322 01 07/05/87 .00 .00 SEE E328 01 .4,.-

( ~

1 !> v E g e' ISO PEN RARRIER DATE LEAKAGE STD RENARKS E322 01 12/27/85 .18 2.00 'E323 01 07/01/09 1.00 .60 AS FOUND E323 01 01/14/88 10.00 6.00 4 -E323 01 07/05/87 .00 .00 SEE E328 01 J E323 01 01/02/86 .10 2.00 E324 01 02/27/89 20.00 6.00 AS FOUND CORRECTED PROM 14.6 ~ E324 01 07/05/87 .00 .00 SEE E328 01 E324 01 12/28/85 .10 2.00 E325 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1.35+.6 ~ E325 01 '07/05/87 .00 .00 SEE E328 01 E325-01 12/28/85 .50 2.00 E327 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1+.6 t ~ E327 01 07/05/87 .00 .00 SEE E328 01 E327 01 12/27/85 .20 2.00 E328 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 14.6 i ~ E328 01 07/05/87 2.00 .60 E328 01 12/30/85 .00 2.00 E329 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 14.6 ~ E329 01 07/05/87 .00 .00 SEE E336 01 E329-01 01/02/86 .00 2.00 E330 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1+.6 ~ E330 01 07/05/87 .00 .00 SEE E328 01 E330-01 01/02/86 .00 2.00 E331 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1.01+.6 ~ E331 01 07/05/87 .00 .00 SEE E336 01 E331 01 12/17/85 .05 2.00 E332 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1+.6 E332 01 07/05/87 .00 .00 SEE E336 01 E332 01 11/26/85 .20 2.00 E333 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1.35+.6 ~ E333 01 07/05/87 .00 .00 SEE E336 01 E334 01 02/27/89 1.00 .60 AS FOUND E334 01 07/05/87 .00 .00 SEE E328 01 E334 01 01/02/86 .00 2.00 E335 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1+.6 ~ E335 01 07/05/87 .00 .00 SEE E336 01 E335 01 12/16/85 .50 2.00 E336 01 02/27/89 20.00' 6.00 AS FOUND CORRECTED FROM 1.01.6 1 E336 01 07/05/87 3.55 .60 E336 01 12/13/85 .29 2.00 E337 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 14.6 ~ E337 01 07/05/87 .00 .00 SEE E336 01 E337 01 12/16/85 .10 2.00 E338 01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1.35.6 1 E338 01 07/05/87 .00 .00 SEE E336 01 E338 01 01/01/86 .10 2.00 E339-01 02/27/89 20.00 6.00 AS FOUND CORRECTED FROM 1.01.6 1 E339 01 07/05/87 .00 .00 SEE E320 01 E339 01 12/13/85 .08 2.00 'E340 01 02/27/89 20.00 .60 AS FOUND CORRECTED FROM 1.01.6 1 E340 01 07/05/87 .00 .00 SEE E320 01 E340 01 12/12/85 .08 2.00 E341 01 02/28/89 .00 .00 SEE E301 E341 01 07/05/87 .00 .00 SEE E306 01 l l m-

5 h 7; ISO y J PWI ' RARRIER

DATE LEAKAGE STD REMARKS 1341 01 12/30/85

.50 2.00 .P014 01 07/20/89 20.00 8.49 1 P014 01 06/27/87 .00 .00 .P104 01 05/24/89 1.00 .60 AS FOUND 1 ~ P104 01 01/06/88 10.00 6.00 1E51-F019 P104~ 01 11/22/86 10.00 6.00 P104 01 08/12/86 10.00 6.00 P104 01 03/13/86 3,05 .60 P106 01 04/14/89 20.00 6.00 THIS IS AS FOUND FOR F077 P106 01-02/27/89 40000.00 12000.00 AS FOUND P106 01 01/21/88 8271.40 600.0G P106 01 01/17/88 37.90 6.00 P106 01 01/13/88 30040.00 04a,53 1E51-F068/F077 P106 01 08/12/86 47.20 6.00 P106 01 07/22/86 3890.00 600.00 P106 Ol' 06/02/86 10.00 6.00 P106-01 05/23/86 10340.00 600.00 P107-01 05/12/89 917.33 60.00 AS FOUND LP107 01 07/23/87 20.00 6.00 IN27-F751/D027 P107 .02 '05/12/89 361.83 60.00 AS LEFT P107 02 03/24/89 379.39 60.60 AS FOUND P107 02 07/22/87 318.70 60.00 1E12-F055A/F025A P107 02 03/18/86 850.00 6.00 1E21-F018 P108. 01 04/06/89-10.00 6.00 AS FOUND P108 01 10/24/88 10.00 6.00 P108 01 08/04/87 378.20 60.00 1P11-F545 P.108 01 12/03/85 25.20 2.00 P108 01 11/23/85 7.64 6.00 P108 02 04/25/89 1.00 .60 AS LEFT P108 02 04/16/89 785.80 60.00 P108 02 04/07/89 790.50 60.00 AS FOUND -P108 02 10/25/88 431.00 60.00 1P11-F060 P108 02 08/06/87 273.00 60.00 P108 02 08/04/8' 1860.00 60.00 P108 02 12/03/83 1.29 .20 P108 02 09/13/85 .72 .60 P109 01 07/12/89 1.00 .60 AS LEFT P109 01 02/10/89 2.00 .60 AS FOUND 1E61-D017/D003 P109 01 08/09/87 12.30 6.00 P109 01 10/06/85 .63 .60 Pill 01 04/25/89 1.00 .60 AS LEFT Pill 01 03/07/89 16.10 6.00 AS FOUND Pill 01 01/06/88 2.00 .60 1P11-F090 Pill. 01 11/09/87 1.00 .60 Pill 01 11/19/65 61.70 6.00 Pill 02 03/07/89 16.30 6.00 AS FOUND Pill 02 01/06/88 2.00 .60 1P11-F080 P111 02 11/19/86 10.88 .60 1212 01 04/24/89 20.00 6.00 AS FOUND .P112 01 07/24/88 10.00 6.00 1E21-F006 P112 01 11/08/86 10.00 6.00 'P112 02 05/15/89 10.00 6.00 AS LEFT l P112 02 04/25/89 20.00 6.00 AS FOUND P112 02' 07/24/87 10.00 6.00 1E21-F005 1

f "f' ' W ~. . ISO PW BARRIER DATE 12AKAGE STD kBNARKS P112 02 11/08/86 13.20 6.00 'P113 - 01 04/26/89 20.00 6.00 AS FOUND E

P113 -

01 07/23/87. 17.20 .60 1E12-F028A 0 L P113 01- '01/29/86 845.20 20.00 L P113 02 04/26/89 36.90 '6.00 AS FOUND. P113 02 07/i3/87 1.00 .60 1E12-F037A L P113-02 06/20/86 23.40 l6.00 P113 03 04/25/89 560;SO 60.00 AS FOUND P113 03 07/23/87-1.94 .60 1E12-F042A P113' 03 02/05/86 12.40 6.00 P113 04 04/26/89 20.00 6.00 AS FOUND e >? P113 04 08/04/87 49.33 6.00 1E12-F027A.

P113.

04 01/29/86' 46.50 2.00 P114L 01 03/23/89 10.00 6.00 AS FOUND ( P114 01 ~ 03/26/87 15.56 6.00 1M17-F010 0

P114-02 03/31/S9 1.43~

.60-AS FOUND P114 02 .03/29/87 2.00 .60 0-RINGS L P114 03 03/23/89 10.00 6.00 AS FOUND E P114 03-03/29/87 10.00-6.00 1M17-F015 P116 01 03/25/89 54.58 6.00 AS FOUND .P116 01 07/24/87 12.82 6.00 1P57-F524B P116' 01 01/23/86 27.10 2.00 .P116~ 02' 03/25/89 10.00 6.00 AS FOUND P116~ 02 01/15/88 10.00 6.00 1P57-F015B -.P116-02 07/24/87 10.00 6.00 P115 02 01/23/86 29.54 2.00 P117 01-04/21/89 15.33 6.00 AS FOUND P117 01 ~01/06/88 7.61' .60 P117 01 11/16/86 14.00 .60 1P86-F528 P117 02-04/21/89-10.00 6.00 AS FOUND L P217 02 01/06/88 2.00 .60 2P86-F002 P117 - 02' 11/09/86

  • 9.00 6.00 P118 -

'01 03/20/89 10.00 6.00 AS FOUND P118 01 09/29/87 1.00 .60 1E12-F558A F118 01 01/29/36 2.83 2.00 i P118 02 03/20/89 10.00 6.00 AS FOUND P118-02. .09/29/87 1.00 .60 1E12-F073A P118 02-01/29/86 .23 2.00 n P119-01 ~07/12/89 1.00 .60 AS LEFT P119 01 02/10/89 2.00 .60 AS FOUND P119 01 08/09/87-10.00 6.00 1E61-D014/D015 P119 01 10/06/85 2,62 6.00 .P120 01-07/12/89 10.00 6.00 AS LEFT P120-01 02/10/89 2.00 .60 AS FOUND P120-01 08/09/87 10.00 6.00 1E61-D001/D016 P120 01 10/09/85 .40 6.00 .P122' 02 07/03/89 .00 .00 SEE P122 P122 02 09/26/87 .00 .00 SEE P202 01 BELLOVS .P122 02 02/06/86 .00 .00 SEE P123 03 P123-01 05/16/89 24.75 6.00 AS LEFT P123 01. 04/09/89 273.50 60.00-1E51-F066 P123' 01-05/28/86 261.00 60.00 P123 02' 06/23/89 10.00 6.00 AS LEFT P123 02 06/18/86 10.00 6.00 1E51-F013/IE12-F023

e 0a :.e ' [ :l$,. ( s p A 1t. ISO-j. FEN BARRIER DATE LEAKAGE STD' REMARKS (

P123 03 07/03/89

.00 .00-SEE P202 01 BELLOWS 7 - P123 ' 03 09/26/87- .00 -. 00 SEE P202.01-f P123 03- .02/06/86 .46.90' 2.00 zu 9 P131~ Oli 06/02/89 L .60 AS LEFT P131 01. 03/13/89 e 6.00-AS FOUND

P131-01 12/08/87,

'M .60 1G33-F001 F. P131 01-04/07/87 22.;; 6.00 l ' s P131. 02' 06/02/89 14.24 .60' AS LEFT P131 '02 03/13/Pn 10.00 6.00 AS FOUND P131 02 04/07/6/ 23.30 6.00 1G33-F004 P131~ 03 07/03/89- .00 .00 SEE P202 01 P131 03 09/26/87 .00- .00 SEE P202 01 BELLOWS + P131' 03 02/06/86 .00 .00 SEE P123 03 P132 01 04/17/89 20.00 6.00 AS LEFT P132 01 03/08/89 25.82 6.00 AS FOUND TESTED VITH 424 P132-01 07/10/87 1120.00 60.00 1G33-F040 P130 01 05/08/86 20.00 6.00 P132 02 07/03/89 303.00 60.00 AS LEFT WO #89-1396' P132 02-03/08/89 10.00 6.00 AS FOUND TESTED VITH 424 P132 02 07/10/87 1081.00 60.00 1G33-F039 P132 02 05/08/86 20.00 6.00 P201-01 03/13/89 10.00-6.00 AS FOUND P201 01 01/09/88 10.00 6.00 1D17-F079B P201 01= 03/25/87 2.00 .60 P201 02 03/13/89 10.00 6.00 AS FOUND P201-02-01/09/88 =10.00 6.00 1D17-F079A P201' 02-03/29/87 20.00 6.00 P201 02-03/25/877070.00 600.00 P201 02 05/08/86 4.63 .60 P201 03- '03/15/89 .10.00 6.00 AS LEFT P201 03 03/13/89 10.00 6.00 AS FOUND - P201 03 12/07/87 1.00 .60 P201. 03-03/25/87 25.30 6.00 1D17-F071B. .P201-03 06/02/86 10.00 6.00 P201 04 03/15/89 10.00 6.00 ~P201 104 03/13/89 643.33-60.00 AS FOUND P201 04 12/07/87 67.70 6.00 .P201-04 03/25/87 22.20 6.00 1D17-F071A P201. 04~ 06/02/86 10.00 6.00 .P202-01 07/03/89 54.10 6.00 AS LEFT

P202.

01 02/23/89 31.88 6.03 PRE LLRT INCLUDES LAST TEST SINCE PARTIAL P202: ' 01 - 09/26/87 1.00 .60 t P202-01 05/23/86 2.30 .60 P202 ' 01 02/06/86-4.53 .20 P203-01 02/25/89 10.00 6.00 AS FOUND ~P203-01 10/01/87 1.00 .60 1G41-F522 P203 01 02/16/86 20.00 2.00 P203 02' 02/25/89 80.22 6.00 AS FOUND P203 02 10/01/87 24.27 6.00 P203-02-

02/16/86 20.43 2.00 1G41-F100 P204 01 05/04/89 130.10 6.00 AS LEFT P204f 01 04/12/89 40000.00 12000.00 AS FOUND
  • P204 01 07/29/87 107.50 6.00 1011-F122 l

m m

19l ~ t [g w[' a l-ygn .- e =PENJ RARRIER- -DATE LEAKAGE STD REMARKS l JP204- . 01: 05/11/86-29.80-6.00 y P204f l02' L05/04/89-135.50: 6.00; AS LEFT ' P204) 02: -04/12/89 2350'00 600.00 .1C11-F083 AS FOUND'

P204=

'02: -07/25/87- .1.00 .60 P204' '02 ' 05/08/86 46.30'-

6.00 P205-01 06/23/89 7.85

.60 AS LEFT 'P205< 01-02/21/89 10.00-6.00 PRE.LLRT P205= -01 10/30/88 3.24 .60-P205' 01 01/06/88: 10.00 6.00' t. P205 Ol' 05/23/86-10.00~ 6.00 P205 ~01 12/06/85' .46 2.00 'P208 Ol' '04/05/89 5.45 60 AS LEFT/1M17-F020 P208 01 03/23/89 99999.99 12000.00 ACTUAL LEAKAGE 125 SLM AS FOUND P208. 01 - 03/22/89 99999.99 99999.99 UNABLE TO PRESSURIZE VITH SMALL' LRM -t -P208 01- '03/27/87 75.60 6 00 P208-02 04/06/89 1.00 .60 AS FOUND 'P208~ 02 03/27/87: 20.00-6.00 .0-RING .P208 03: 03/23/89 10.00-6.00-AS FOUND i -P208 03 03/27/871 57.20 6.00 1H17-F025 P210 01 03/22/89 .38.03 6.00 AS FOUND

P210 '

01 .01/07/88-20.00-6.00 1P54-F1098 'P210: 01 11/10/86 16.30-6.00 P210 - .02 '03/22/89 -10.00 6.00 -AS FOUND .P201-02-01/07/88 20.00 '6.00 IP54-F340 P210 02-11/10/86 67.10 6.00 P301 01 02/25/89 111.16 6.00-AS FOUND 'P301' 101 10/01/87 2.00- .60 1G41-F140 P301 01 02/16/86 10.00 2.00 P301. 02 06/19/89 157.73 6.00 AS LEFT

P301 LO2 02/25/89 1.00

.60 AS FOUND-

P301 02-10/01/87-11.37

.60 1G41-F145-P301' 102 06/12/86-40.00 6.00 P301: -02 02/16/86 1966.00 20.00 -P302' 01. 06/22/89 560.00 60.00 AS LEFT P302-01 01/08/88 10.31 6.00 1M51-F090 l 1 P302 01 03/25/87 1.00- .60 ~P302 02 06/22/89 273.00 60.00 AS FOUND LP302: 02 .01/08/88 13.13 6.00 1H51-F110 P302. 02: 03/25/87 1.00 .60 -P302 '02 12/06/85 .55.90 2.00 P304 01 04/04/89 10.08 6.00 AS FOUND 'P304 01 03/25/87' 20.57 6.00 1P57-F524A P304 02 04/04/89 10.00 6.00 AS FOUND P304 02 03/25/87 10.00 6.00 1P57-F015A .P305 01 04/14/89 1.99 .60 - AS FOUND P305 01 07/10/87 1.00 .60 1P53-F536/F570 P305-01 02/19/86 1.00 .20 .P305 02 04/13/89 2.00 .60 AS FOUND P305 02 07/10/87 3.48 .60 1P53-F030/F010 ~P305 02-02/19/86 1.00 .20 P305 '03 04/13/89 2.00 .60 AS FOUND P305 03 07/10/87 1.00 .60 1P53-F035/F010 P305l 03 02/19/86 3.43 .20 l 1 ) 'N. n a--

{* ' l] ' C ~ 3 p= ct,. ~ j ^ T -q[();? "u x@ 1 ISO

PEN :

BARRIER DATE-LEAKAGE-STD REMARKS I 1F305; 04 04/13/89 -2.00 .60 AS FOUND y Lg 'P305' 04_ 107/10/87 1.00- .60 IP53-F035/F070 l J P305

04
02/19/861 1,13

.201

P3051 05 04/14/89

'1.001 .60- 'AS FOUND l P305- .05 '07/10/87 27.00-6.00- -1PS2-F160 P305' 05: '02/19/86' 1.00- .20' CP3051 l061 05/07/89 51.45 8.49-AS LEFT' .P305 06-04/30/89- -198.50-60.00- ,AS LEFT .fI P305' 10 6 :' -10/19/88 844.83 -60.304 ~P305: 1 06-04/27/88 1978.00-60.00 AIRLOCK BARREL OgN .P305) 10 6 !

10/28/87-545.00 60.00 A

LP305L 06 :: 05/30/87 260.20 60.00 R P305-- 061 11/03/86i 60.80-6.00-h 'P305/ 06: 05/19/86L '35.60 6.00 t 0 P305 06 03/31/86. -10.00 6.00 P306--

01

.05/17/89. 10.00 6.00 AS FOUNDE E 'P3063 01. 01/22/88 1002.00 60.00. P306' 01D 01/21/88:.1680.00 60.00 P306 01. 01/20/88' 2403.00~ 600.00 s lP306- '01 +01/16/88 1309.00 60.00 '1P52-F550 P306 ~ Ol' <11/15/86. 413.70 '61.00 0 JP306' 102-05/17/89-10.00; 6.00 AS FOUND P306. 02

01/16/88' 223.30 60.00

+1 P306 LO2 11/15/86 216.84. 60.00 1PS2-F200 iP306 02 11/10/86 218.16-60.00 + P3082 01 05/09/89 84.40-6.00 AS LEFT P308-01 05/05/89 918.00 60.00 SENT WO-TO BE REVORKED P? P308- -01 -04/21/89 106.90 6.00 AS LEFT ^

P308
011

'04/16/89 690.00 60.00. AS FOUND. P308 01 -12/03/87 109.43 6.00 1P51-F530 P3082 '011 02/11/86 39.78 2.00' LP308-01" 12/20/85: 127.90 2.00 P308: 02 -04/16/89 1.00 -. 60 - AS FOUND' Ks:

P3082 02'
12/03/87:

58.931 6.00 h P308 602-02/14/86

396.50.

20.00 1P51-F150 P308 02 112/20/85. 9170.00 -200.00 P309 101-05/06/89: 20.00 6.00 -AS FOUND P309: 01: 08/10/87 245.10 60.00 1P22-F577 p_ -  : P309; l 01' 10/10/85 41.97 6.00' P309' 02 05/06/89 20.00 6.00 AS FOUND P309' 02 08/09/87 11.10 6.00 ,P3091 02 10/10/85 36.82 6.00 1P22-F010 P310 "01. 03/19/89' -10.00 6.00 AS FOUND P310 01 08/11/87 10.00 6.00 s .P310 01 02/10/86 20.00 2.00 1r43-F721 'P310' 02 06/03/89 1.00 .60 AS LEFT LP310 .02 03/19/89 -384.00 60.00 AS FOUND-4

P310f 02-08/11/87' 172.50 6.00 1P43-F055
P310 02' 02/10/86 47.30 2.00 P311:

01 06/03/89 12.30 6.00 AS LEFT P311 01

03/21/89 133.50 6.00 AS LEFT P311 01 03/19/89 1950.00 60.00 AS FOUND 1P43-F215 P3111 01-08/11/87 10.00 6.00 P311:

01 02/10/86 50.33 2.00 -,i ,-u a

Q:,M, ,~ b $ht (ik.: Ti[ j g l PEN RARRIER' DATE LEAKAGE-STD REMARKS bg, lP311' - 02 .06/03/89 10.00 6.00. AS LEFT ,, - 'P311; O2l 03/21/89-310.001 60.00' ACTUAL AS FOUND i v" +

P311 02-03/19/89.-303.00 60.00 LEAK'AT F215.1P43-F140 s

hs -P311' 02' 08/11/87' 10.00-16.00 !P311 02' 02/10/86 25.75 2.00: <f 96 P312 011 .04/14/89J -3.08 .60 AS FOUND ri i'P3121 01: 07/10/87l 1.00: .60 -P312 '01-02/19/86~ 10.00~ 2.00 i JP312 01: 10/09/85 .84 .60 1P53-F541/F571 P312 02-04/14/89 1.00 .60 AS FOUND .P312 02' J07/10/87 1.00- .60 l ~P312' 02: 02/19/86~ 10.00 2.00: IP53-F075/F045 .P312 021 10/09/85 .16 .60

P312 J03

'04/14/89' ,1.00 .60 AS,FOUND P312 03-07/10/871 ' 1.00 .60 ' ' ' JP312' 03 02/19/861 10.00, 2.00 1P53-F041/F020 2P312: 03: 10/09/85 .04' .60 'l 'P312: 041 04/14/89 1.00 .60 AS FOUND o P312 04! 07/10/87-1.00 .60 P312"

04 02/19/86 10.00 2.00 1P53-F025/F045 P312; 04'
10/09/85 3.06-6.' 0

-P312 05 04/14/89 7.15 .60 AS FOUND P312' 05-07/10/87. 1.00- .60-P312 05

02/19/86 10.00 -

2.00 1PS2-F170 i 'P312 05. 10/09/85 .77 .60 4 E

P312' 06 04/23/89 194.00-

'7.03 AS LEFT l P312 =06

01/19/89 876;00.

60.30 AS FOUND r

P312',

06 07/27/88 722.69-60.30 AIRLOCK BARREL P312: l06 01/26/88. 658.00 60.00 P312

06' 04/21/87 173.50 60.00 LP312.

061 '10/22/86 82.15 6.00 X' LP312-06c 05/15/86-10.00 6.001 s LP312 l06J 03/25/86 -21.30 '6.00 P313' 01 05/13/89-10.'00- =6.00 AS.LEFT

P313,

' 01 01/30/89 10.00' 6.00-AS FOUND-eP313 .01= 10/17/88" 5.26- .60-JP313; 01-07/14/88'. 1.00 .60 P313 -01 04/13/88: 1.00 .60 LP313; 01. 01/02/88. 2 p00 .60 1M14-F045/F040/F190 P313

012 09/28/87-2.00

.60 LP313~ 01 03/26/87

2.48-

.60 -P313 Oli '12/06/86 17.30 6.00-sP313= 10 1 -11/25/86 3566.66 600.00 P313' J01 08/15/86 1647.00 60.00 P313h 01. 05/09/86 .20.00 6.00 ~P313: E01 02/10/86 110.00 2.00

P313 02

.05/13/89: 10.00-6.00 AS LEFT P313-02 01/30/89 10.60 6.00 AS FOUND P313 02: -10/17/88 38.40 6.00 P313-02- .07/14/88 1.00 .60 1M14-F045/F040/F195 P313' 02 04/13/88 1.00 .60 y.P313 102-01/02/88 2.00 .60 .P313 . 02 - 09/28/87 2.00 .60 P313-02 03/26/87 3.07 .60

h}h < I I of '

r7 q

y b43 Y .t. 7Lh = ;. J<di b hit ~' a ['q;,iPEN: .. ISO ll r f BARRIER; DATE 12AKAGE STD REMARKS u-iP313 02m 12/06/86' -12.00 6.00. , fu JP3131 02"

11/25/86 i3586.66 600.00 i

L, iP313 ~02 08/15/86 1601.00^ 60.00 ps 4^ 2 >; p33 3 - 02 -- '05/09/86-20.00-6.00 iP313 ' 02

02/10/86:

. 10.00; 2.00' 'P314' 01: 05/14/89-1.00 .60 . AS LEFT i

P314 -

<014 01/30/89C =1.00 .60: AS'FOUND % :P314: '01 10/17/88 .26.80c . 6,00 - K P3144 101- -07/14/88- - 10.00 -6.00 q s h *j. L P314 Oli '04/13/88-110.00-6.00 1M14-F090/F085/F200 j 3' - P314 --

011 01/02/88 1.00

.60' i P314J 01, 09/28/87 ^2.50" .60 l 4 , :P314 01: ' 06/07/87: 13.30 6.00 1 P314 01" 03/03/87: 89.601 6.00 o f.,, iP314; 011 x11/25/86? ?4.53 .601 3 -P314. 01 .08/15/86J 20.50 6.00 "S r P314: 01" 05/09/86- '44.00 6.00 P314 101. 02/10/86'

20.00;

.2.00 P314 - 02 05/14/89 1.00 . 60 AS;LEFT-JP314' '02 01/30/89' - 1.~ 30 .60 AS FOUND. P314 c 02 10/17/88 10.00- ' 6.00 P3141 102 07/14/88

10.00 6.00
P314' 023

-04/13/88 10.00 6.00 1M14-F090/F085/F205

P314
02 01/02/88

'1.00 .60 -P314' 02 -09/28/87 6.29 .60 1 ~P314 '02i 06/07/87 110.00-6;00 1P314 J02" ?03/03/87 .10.00 6.00 P3143 02' 11/25/86-5.14 .60 N.n P3147 c 02: 08/15/86. 10.35 6.00 5' P314' 02' 05/09/86 10.05. ' 6.00 P314$ 02!

02/10/86L 20.45 2.00

?= ~P315 - 01 02/27/89 10.00 6.00 - AS FOUND j L

P315!

01-01/07/88 1.00 .60 1C41-F518 1 j .P315 !01: 10/25/86' ~10.00 6.00 4 LP315 02. 02/27/89-139.70-6.00 AS FOUND. P315 02- ' 01/07/88 32.50 6.00 'P315' 02: 11/07/86 10.00 6.00 1C41-F520 LP317- ,01 02/23/89 1.06 .60 PRE LLRT N4 .P317 01" 01/10/88 10.00' 6.00 I sP317 . 01' 06/13/86 10.00 6.00 1D17-F089B lP317 01: 05/08/86 10.00 6.00

P317 02 02/23/89' 1.00

.60 PRE LLRT s .P317 02-01/10/88-~ 10.00 6.00 nP317 02. 06/13/861 22.50 6.00 1D17-F089A 0" LP317-02 05/08/86 10.00 6.00 GJ -P317? 03> 02/23/89. 1.20 .60 PRE LLRT

P317:

03- -01/10/88 10.00 0.00 'P317 03 06/13/86-10.00 6.00 1D17-F081B .P317. 03 05/08/86 10.00 6.00 1 P317' 04 .02/23/89 1.50 .60 . PRE LLRT .P317 04 03/04/88 10.00. 6.00 LP3171 04 01/10/88-10.00 6.00 1D17-F081A J) P317" 04 06/13/86 10.00 6.00

P317:

.04 05/08/86 10.00 6.00 w ye .*e--www- - - - +en w we.,, w w s w-a

(N: ? ISO-g ePEN-BARRIER: =DATE-LEAKAGE STD REMARKS' n 9P317-05 07/11/89. -10.00.

6.00 AS LEFT-P317; 05:

-07/07/87-. 2.102 .60 -P317 05< 10/11/85 -1.22- .60-1E61-D007/F549' P317r 06-07/11/89.' 10.00

6. 00 ~

AS-LEFT'. P317: 06< 07/07/57 2.04 .60 1E61-F550/D006 .1 y !P317: ' 06j 10/10/85

3. 20 '.

.60 ^ -P318 -05= 04/02/89 -10.00 6.00- .AS-FOUND g P318:. 05 01/08/88' 10.00- - 6.00 :- IM51-F210B/IP87-F074 E ~P318 05 10/26/86. 10.00-6.00 N

P318 06 04/02/89' 61.20-6.00 AS FOUND P318
06 01/08/88 ;146.30 6.00-

'1M51-F220B R P318 '06J 10/24/86 77.35 - 6.00 ! P318 07" 04/02/89. -10.00. 6.00' -AS FOUND~ ' P318 07 01/07/88 2.00. .60 1H51-F230B/IP87-F077 y

P318-07 10/24/86-10.00-6.00 P318 08.

04/02/89 -34.70 6.00 AS FOUND Ee P318-08 01/07/88-2.00 . 60 - IM51-F240B/IP87-F071 'P318' 08, 10/24/86 21.67 6.00 j P318 09 04/03/89'- 10.00 6.00 AS FOUND + P318-09 01/07/88-5.46 .60 1M51-F250B/IP87-F065 P318 09 10/24/86' 10.33 6.00 P319

01-07/11/89 4.70

.60 AS LEFT ) P319l 01 07/07/87 1.00 .60 1E61-D005/F551 1 P319 01 -08/21/85 .59 . 60 ~- P319 Oli 08/19/85 .38 .60 .P319? 02' 07/11/89-4.70 .60 -AS LEFT.

P319 02

~07/07/87 1.00 .60 1E61-D004/F552 t P319. 02 08/21/85 .12 .60 l

P319 02-08/19/85

.00 .60 -P404 '01 04/06/89 10.00 6.00 'AS FOUND. P404 -01 12/04/87 10.00 6.00

P404
01 03/09/86 1.00' 2.00 1P50-F539

-P404 02 04/06/89

10.00 6.00 AS FOUND

~P404 02-12/04/87' 10.00 6.00 1P50-F060 P404-02 03/09/86 1.45 2.00 'P405 01' 04/21/89 -231.00 ' 60.00 AS LEFT~ P405-01 04/15/89-1275.20 60.00 WP #88-4245 BAD PACKING LEAK P405-01 04/05/89 69.90 6.00 AS FOUND-P405 -- .01. 12/04/87 66.69 6.00 .P405 01 03/09/86 42.75 2.00 1P50-F140

P405 02 04/21/89 129.60 60.00 AS LEFT

.P405: 04/16/89 764.50 60.00 PACKING LEAT F140 P405~ '02 04/05/89 10.00 6.00-AS'FOUND P405' 02-12/04/87 1.00 .60 1P50-F150

P405 02 03/09/86 10.00 2.00 1

JP406 01. 07/14/89 8.08 .60 AS LEFT 'P406 01-02/24/89 20.00 6.00 AS FOUND CORRECTED FROM 1+.6 P4061 . 01 07/06/87 1.00 .60 1P54-F726 P406-01. 10/14/85 .50 6.00 P406. 02 07/14/89 1.00 .60 AS LEFT P406-02 02/24/89 1.00 .60 AS FOUND ~P406 02-07/06/87 1.00 .60 1P54-F727 i P406 02 10/14/85 18.23 6.00 l P408 02 03/28/89 895.33 60.00 AS FOUND

p{ q.,' y[A q = U

t p

f Li'[ ' a;.v4 m i s ISO E- ' PEN-BARRIER ~ DATE _ LEAKAGE. _ REMARKS STD-p1 fr-P408 > 02-107/15/87 263.00-60.00 .P408 . 02 03/02/8F 20.00' 2.00 1E12-F021

P409

-. 01. -04/30/89' -38.40 6,00: ~AS LEFT l JT409 011 03/23/89 1.00 ' 60 LAS FOUND. 4 tP409 .01 04/21/87

76.00 6.00 1E22-F023/F012/F035:

I P409. - 01: 04/24/86 28.90-6.00 P410: 01-04/27/89 22.98L 6.00' AS FOUND .P410 01 03/30/87 20.00 6.00 1E22-F005

F410:

~ 02, -04/27/89 298.20 60.00 AS FOUND l? 'P410t

02 03/31/87.

177.10' 6.00 1E22-F004 'P411 01 05/09/89 10.00 6.00 AS FOUND

r P411' Ol' 07/14/87 10.00 6.00 1E12-F041C P411'

- 01 03/08/86 21.10 2.00 P411' 02c 05/09/89 25.67 6.00 AS FOUND 3P411 ~02' .07/14/87 '101.00 6.00 -1E12-F042C P411' =02 03/08/86 981.10 '20.00 "R P412 01: 05/11/89 20.00 6.00 AS FOUND a .P412, 01 06/15/86 20.00 6.00 1E12-F042B P412" 02-06/21/89 -34.50 6.00 AS FOUND I P412-02 06/15/86 20.76-6.00 1E12-F037B

P412 03 06/21/89 1.00

.60 AS LEFT <P412. 10 3 05/10/89 10.00 6.00-AS FOUND.1E12-F042B JP412 03; 06/15/86 20.00 e6.00 P412' 04 05/10/89 '10.00 6.00 AS FOUND g, P412. ' 04-05/15/86 20.00 6.00 1E12-F027B-g P413. 01. 03/31/89 135.30 6.00 AS FOUND P413 01 05/23/88 10.00 6.00 L

LP413, 01

- 01/12/88 10.00' 6.00 l-P413' .01- -01/05/88 3240.00 600.00 1P87-F049

P413 01 11/10/86 10.00 6.00 P413 Ol' 10/25/86 1611.33 60.00-P413 02 103/31/89 77.90 6.00 AS FOUND P413s 02-05/23/88 10.00 6.00 j

P413 02 01/12/88 12.95 .60-P413 ~ 02.' -01/05/88 4266.00 600.00 1P87-F055 i P413 02 1 11/10/86 10.00-6.00-P413

02 10/25/86

-719.33 60.00

P413 03 03/31/89 161.30 6.00 AS FOUND

?P413 103^ 01/05/88 2.00 .60 IP87-F046 q.h P413 03' 10/25/86-193.80 6.00 P413-04' 03/31/89 174.85 6.00 AS FOUND P413 04 -01/05/88 2.00 .60 1P87-F052 P413 04 10/25/86 193.50 6.00 P414 04 07/03/89 .00 .00 SEE P202-1 P414 -04 09/26/87 .00 .00 SEE P203 01 BELLOWS 'P414 '04 02/06/86 .00 .00 SEE P416 02

P415, 02

-07/03/89 .00 .00 SEE P202-1 P415-02 09/26/87 . 00 .00 -SEE P202 01 BELLOVS P415 02. 02/06/86 .00 .00 SEE P416 02 P416 02 07/03/89 .00 .00 SEE P202-1 l .P416. 02 09/26/87 .00 .00 SEE P202 01 BELLOVS P416 02 02/06/86 38.90 2.00 -P417 01 05/15/89 10.00 6.00 AS LEFT P417 01 04/12/89 10.00 6.00 AS FOUND

] { 7 -.. I E jfd' . ISO ' PEN ^ BARRIER' DATE~ LEAKAGE ^ STD RENARKS l " ~ 'P417: 01 03/25/87 20.00 6.00 1G61-F075-h - P417: 02- '05/15/89 .10.00 6.00 AS LEFT A 'P417: 02: 04/12/89: 10.00 6.00 LAS FOUND

(

y? -P417 ' 02 " 03/25/87 20.001 6.00 1G61-F080 i P418 Ol' 06/29/89 1.00- .60 AS LEFT V0 #88-5678 P418< 011 06/17/89 1.00 .60' AS FOUND P418 01 .01/10/88' 10.00 -6.00-1G61-F165 a .P418; 011 05/15/86 20.00 6.00 'P418: 02 06/29/89 1.00 .60' AS~LEFT WO #89 P418 ~ -02 06/17/89 1.00 .60 -AS FOUND P418: 02-01/10/88 10.00-6.00 1G61-F170 K iP418-02 05/15/86 20.00 -6.00 P419 '01-03/09/89-39.60 6.00 AS FOUND -P419 -01' 07/14/87 302.00 60.00 P419' '01 07/12/87 628.50 60.00 1G33-F053- -P419 .01 05/09/86' 10.00 6.00 P419 ~02, 03/09/89-10.00 6.00 AS FOUND P419-02-07/12/87 .1.00 .60 1G33-F054 P419 02 05/09/86-11.00 6.00 'P420 01 03/25/89' 10.00 6.00 AS FOUND P420 01 12/06/87 1.00' .60 .P420' Ol' 08/08/87, 13.20 6.00 1G50-F272 P420-01 11/09/86 1.00 .60-P420 02-06/04/89 8.10 .60 AS LEFT g P420-J02 03/25/89 10.00-6.00 AS FOUND -P420 02 08/08/87" 10.00 6.00-1G50-F277 P420. 02 11/09/86 1.00- .60 P421 01-04/11/89 3640.00~ 600.00 AS FOUND P421 -01 02/17/86 368.80 60.00 1E12-F009/F550-L

P421 01

~ 08/08/85 54.30 6.00 l P421 02' 05/22/89 ~ 21.57-6.00 AS LEFT P421 02 05/01/89 1042.66 60.00 1E12-F008 L P421= -02 04/11/89 10.00 6.00 AS FOUND .P421 02 02/17/86 12.40 ,6.00 P421-03 07/03/89- .00 .00 SEE P202-1 P421" .03 09/26/87- .00 .00 SEE P202 01 BELLOVS P421 '03 02/06/86 -. 00 .00 SEE P416 02 P422-01 -07/13/89 1.00 .60~ AS LEFT- 'P422 10 1 06/09/89 29.17 6.00 AS LEFT 1E51-F063/F076/F064 P422 01 03/01/89 27.90 6.00 AS FOUND P422' 01 10/29/88 34.60 6.00 P422 -01 06/20/87 309.50 60.00 ADDED 292.3 +/- 60SCCH FOR F063 P422 01 03/31/87 17.20 6.00 P422. 10 1 03/30/87' 10.00 6.00 P422: Ol' 01/30/87-1.54 .60 P422 -01 01/18/87 15.50 .60 P -P422 01. 11/23/86 423.33 60.00 P422-10 1 01/15/86 -29.00 2.00 P422 02' 07/03/89 .00 .00 SEE P202-1 ~P422-02 09/26/87 .00 .00 SEE P202 01 BELLOVS ,P422 -02 02/06/86 .00 .00 SEE P123 03 'P423 01 06/29/89 20.00 6.00 AS LEFT P423' <01 06/16/89 10.00 6.00 ACTUAL AS FOUND AND AS LEFT P423: 01 02/24/89 34000.00 12000.00 AS FOUND

f (_a n 'M b sd...f/ L E ISO:. c PEN' RARRIER DATE LEAKAGE STD REMARKS 'P423, 01' 08/20/87 1226.83 60.00 IB21-F019/F016 LP423" 01 '05/01/86- -95.10-6.00 P423 01- - 04/14/86 -5080.00-600.00 'P423 01 04/06/86. 9190.00 600.00 'P423 Oli -03/21/86' 3020.00- 600.00 'P4237 02' 07/03/89- .00 .00 SEE P202-1~ ' P4231 02~ 109/26/87- .0 .00, SEE P202 01 BELLOVS 0 P423 10 2 02/06/86 .00 .00 SEE P416 02 .P424L 01~ 03/08/89 25.82' 6.00 AS FOUND TESTED VITH 132 P424-01 07/13/87 ~148.48. 6.00 .1G33-F028 P424: 01. 12/14/85 .64 .60 4 - P424 02 04/17/89 120.00 6.00 AS LEFT .."i P424-02 03/08/89 10.00 6.00 AS FOUND TESTED WITH 132 P424-02 07/13/87 151.65 6.00-IG33-F034 P424 '02 12/14/85! .20 .60 P425-01 04/03/89-101.00 6.00 AS FOUND A",~ - P425 01-04/04/87_ 2.00 .60 1M51-F210A ~P425 01 08/13/85 2.70_ .60 P425. 02 04/05/89-103.101 6.00 AS FOUND bo' P425-02 04/04/87 2.00 .60 1M51-F220A P425i 01 08/13/85 6.66 .60 ~P425-01 LO4/05/89 162.05 6.00 AS FOUND P425-- 03 04/04/87-163.60 6.00 1M51-F230A g P425' 03 08/13/85 .05 .60 / k _P425. 04 04/05/89 13.10 6.00 AS FOUND-P425 04 04/04/87' 4.97 .60 1M51-F240A P425-04 08/13/85 6.55 .60

P425' 05 04/05/89 10.00 6.00 AS FOUND P425 05 04/04/87-2.00

.60 1M51-F250A P425 05 08/13/85 5.50 .60 P428 01-03/23/89 10.00 -6.00 AS FOUND P428 01 02/26/87 106.80 6.00 1M1T-F030 'P428 02 03/30/89 1.00 .60 AS FOUND 'P428-02 03/27/87 10.00 .6,00 0-RINGS P428-03-03/23/89 10.00 6.00 AS FOUND P428 03 03/26/87 -62.80 6.00 1M17-F035 P429 01 04/24/89. 10.00 6.00 AS FOUND tP429 01 12/04/87 10.00 6.00 -P429 01 03/10/86 10.00 2.00 1P87-F083/F264 'P429~ 01 - 09/05/85 .43 .60 .P429 '02 05/06/89 2130.00 600.00 AS LEFT 'P429 02 04/24/89 1397.66 60.00 AS FOUND 1E12-F055B/F025B/F025C/F005 P429l '02 03/10/86 478.70 60.00 P431 01 04/15/89 59.05-6.00 AS FOUND 'P431 01 10/08/87 12.74 .60 1E12-F558B -q P431 01 03/08/86 1.45 .20 P431. 02 04/15/89 571.50 60.00 AS FOUND l P431 02 10/08/87 557.30 60.00 1E12-F073B P431 02 03/08/86 41.93 2.00 P436 01 03/23/89 36.10 6.00 AS FOUND l .P436~ Ol' 03/26/87 10.00 6.00 1M17-F040 'P436-02 03/30/89 1.28 .60 AS FOUND P436 02 03/29/87 10.00 6.00 0-RINGS

I i w p.. / j. + o; .); . :7, .. c; ,,,;{g q' + -dt; 130.. =r ' PENL BARRIER' DATE LEAKAGE STD-REMARKS-

P436

= 03-

03/24/89-

-63.90-6,00 -AS=FOUND . P436.' - : 03-03/29/87 43.70e 6.00 1M17-F045 + s -k- -.} ' f_ ' < \\ h 4 9 { 4 /k .-i. {v sj C se e .s a _g 9 ' g+ ...,:,.}}

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