Reactor Containment Bldg Integrated Leak Rate Test

ML20137G587
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Site:	Maine Yankee
Issue date:	08/31/1985
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A MAINE YANKEE ATOMIC POWER COMPANY REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST August, 1985 B601210096 860107 PDR ADOCK 05000309 P

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TABLE OF CONTENTS PAGE List of Figures 11 List of Tables and Graphs iii References iv 1.0 Introduction 1.

2.0 Integrated Leak Rate Test (Type A) 2.

2.1 Initial Plant Conditions 2.

2.2 Chronology of Events 3.

2.3 Instrumentation and Test Equipment 4.

2.4 Data Analysis 6.

2.5 Results 8.

3.0 Local Leak Rate Tests (Type B and Type C) 10.

3.1~

Summary of Local Leak Rate Tests 10.

Appendi.' A - Adjustments to Type A Test (As Found) 17.

Appendix B - Adjustments to Type A Test (As Left) 21.

Appendix C - Type A Test Data 24.

Appendix D - T;pe A Test Plots 34.

Appendix E - Type A Test Procedure 42.

l 1

c.

FIGURES PAGE Figure I Containment Air Pressurizing Equipment 15.

Figure II Flow Diagram and Equipment Used for Verification Test 16.

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TABLES AND GRAPHS PAGE Table 2.5.1 Results of 1985 Type A Test 9.

Table 3.1.1 1982 Type B & C Leakage Rate Data 11.

Table 3.1.2 1984 Type B & C Leakago Rate Data 13.

Table C-1 Type'A Test Data 25.

Table C-2 Verification Test Data 31.

TYPE A TEST PLOTS Graph D-1 LSF and UCL 35.

Graph D-2 Mass of Air 36.

Graph D-3 Containment Temperature 37.

Graph D-4 Containment Total Pressure 38.

Graph D-5 Containment Air Pressure 39.

Graph D-6 Containment Vapor Pressure 40.

Graph D-7 Verification Test 41, iii i

REFERENCES 10CFR50, Appendix J. Primary Reactor Containment Leakage Testing for Water Cooled Powsr Reactors.

Maine Yankee Technical Specifications, Section 4.4, Containment Testing.

ANSI N45.4 - 1972, Leakage-Rate Testing of Containment Structures for Nuclear Reactars ANSI /ANS - 56.8 - 1981, Containment System Leakage Testing Requirements.

Naine Yankee FSAR, Section 5.1, Reactor Containment.

EPRI NP-3400, Criteria for Determining the Duration of Integrated Leakage Rate Tests for Reactor Containments.

IE Information Notice No. 85-71, Containment Integrated Leak Rate Tests.

iV

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1.0 INTRODUCTION

This technical summary fulfills the reporting requirements established in Maine Yankee Technical Specification, Section 4.4 and in 10CFR50, Appendix J.

The Maine Yankee Reactor Containment Building is a totally reinforced concrete structure with a steel liner. The structure takes the shape of a right vertical cylinder with a hemispherical dome.

It bears directly on bedrock with a central reactor vessel pit projecting into the bedrock.

The cylinder has an inside diameter of 135 feet with 4 foot 6 inch walls.

The dome has an inside radius of 67 feet 6 inches and a wall thickness of 2 feet 6 inches. The steel liner acts as an impervious membrane against pressure and transmits loads to the reinforced concrete under normal test and design accident conditions.

The containment building structure is designed for a pressure of 55 psig and a temperature of 280*F.

It has been Type A tested five times, once at calculated peak accident pressure (Pa) in September 1972 and four times at a reduced pressure (Pt). The reduced pressure tests were conducted in May 1975, September 1979, Septen.ber 1982 and August 1985.

The 1985 Type A test was performed utilizing the absolute method in accordance with 10CFR50, Appendix J and the provisions of ANSI N45.4 -

1972Property "ANSI code" (as page type) with input value "ANSI N45.4 -</br></br>1972" contains invalid characters or is incomplete and therefore can cause unexpected results during a query or annotation process., " Leakage Rate Testing of Containment Structures for Nuclear Reactors". The leakage rate was calculated by the mass point method using the formulas from ANSI /ANS-56.8 - 1981, " Containment System Leakage Testing Requirements".

The termination criteria presented in EPRI NP-3400, " Criteria for Determining the Duration of Integrated Leakage Rate Tests of Reactor Containments", was introduced into the computer program used to calculate the Containment System leakage rate. However, since the NRC has not endorsed this EPRI Report, the results were used only as a reference and not a basis for Type A test termination.

Since the last Type A test performed in September 1982, two Local Leakage Rate Testing Programs have been completed and a Continuous Leak Rate Monitoring System has been in operation.

1.

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2.0 INTEGRATED LEAK RATE TEST 2.1 Initial Plant Conditions The plant was placed in a refueing shutdown condition during the middle of August 1985.

Type A test preparations included venting and draining of systems that may rupture as a result of a loss of coolant accident, venting of pressurized components such as the Safety Injection Tanks and the Pressurizer Quench Tank, and venting of twenty (20) accessible weld channels (a majority of those vented were near the base mat which was considered to be the high stress zone). All were vented to the containment atmosphere.

The Containment Air Recirculation Fan Dampers were adjusted for high pressure operation to allow continuous operation during the test. No credit is taken for these six units in the Safety Analysis, but they were run to prevent air temperature stratification during the test.

Prior to the start of the test, two automatic containment isolation valves were disabled open.

LM-A-43 and LM-A-45, located on the Leak Monitoring Header, were disabled open to permit containment pressure monitoring throughout the test. Upon completion of the Type A Test, a Type C Test was performed on this penetration and the results, when corrected to Pt, added to the Type A Test results.

Immediately upon entering the 1985 refueling shutdown and prior to the start of the Type A test, four Type B penetrations, the Purge Supply Valves, the Service Air Test Connection, the Purge Exhaust Valves, and the Aerated Vent Header were opened to support plant shutdown activities. A Type B Test was performed prior to opening each and again after closure. The Type A Test results were then adjusted to reflect the "as found" configuration of the containment structure, 2.

3 2.1 Initial Pl.ent Canditiens (C5nt'd)

Prior to pressurization, a general inspection of the internal and external accessible surfaces was performed to uncover any evidence of structural deterioration. There were no unusual indications found and no repales or modifications were necessary.

2.2 Chronology of Events The Integrated Leakage Test commenced at 1C40 hours on 19 August when the air compressors were loaded. The rate of pressurization achieved was approximately 2.5 psi / hour. When the containment pressure reached 5 psig, both CIS trains had fired and all CIS valves except PCC-A-216 and PCC-A-270 indicated closed from the Main Control board. An auxiliary operator was dispatched to investigate and reported that both valves did indeed go closed. The necessary paper l

work needed to repair the position indicators on both valves was generated.

At 5 psig, the air compressors were shut down and a containment entry was made. No sign of water or oil carryover was observed.

Once all personnel had exited containment, containment pressurization continued. At 0745 hours0.00862 days <br />0.207 hours <br />0.00123 weeks <br />2.834725e-4 months <br /> on 20 August, containment pressure reached 28.7 psig as required by procedure and the air compressors were secured. The temperature stablization period had begun.

During the temperature stabilization period, each containment penetration that was vented and drained to expose the containment isolation valves to the containment atmosphere and test differential pressure was checked for excessive leakage. No unacceptable conditions were identified and all vented systems remained lined up to the containment atmosphere.

At 1300 hours0.015 days <br />0.361 hours <br />0.00215 weeks <br />4.9465e-4 months <br /> on 20 August, the temperature stabilization criteria was satisfied and data collection for the Type A Test was initiated.

Data gathering for the leakage test continued untfl 1400 hours0.0162 days <br />0.389 hours <br />0.00231 weeks <br />5.327e-4 months <br /> on 21 August at which time the acceptance criteria set forth in i

the procedure was met and the test terminated.

3.

2.2 Chronslegy of Ev*nts (Crnt'd)

At 1530 hours0.0177 days <br />0.425 hours <br />0.00253 weeks <br />5.82165e-4 months <br /> on 21 August, a leakage rate of 105.54 lbm per day (0.0265 wt% per day) was superimposed on the containment system and after one hour of stabilization time, the verification test commenced. Data gathering for the verification test continued until 0141 hours0.00163 days <br />0.0392 hours <br />2.331349e-4 weeks <br />5.36505e-5 months <br /> on 22 August. At this point, all acceptance criteria had been successfully met and the containment system turned over to the Operations Department for depressurization.

Containment depressurization started at 0335 hours0.00388 days <br />0.0931 hours <br />5.539021e-4 weeks <br />1.274675e-4 months <br /> on 22 August and was completed at 1730 hours0.02 days <br />0.481 hours <br />0.00286 weeks <br />6.58265e-4 months <br /> the same day. The Personnel Air Lock was opened and personnel entered containment to begin refueling activities. A post test inspection found the containment air to be clear and no equipment damange was noted.

2.3 Instrumentation and Test Equipment Type A Test Instruments used at Maine Yankee input data to the Plant Process Computer, a Modcomp Classic 7870.

Inputs include the following:

pressure Sensors:

1 - Mensor Quartz Manometer Range:

0-150 in HG Repeatability:

.001 in HG Temperature Sensors:

13 - Electric Thermometers Inc. RTDs Model:

PDH-1413 Range:

30-150*F Accuracy: 1 1*F Vapor Sensors:

3 - Foxboro dew Cells Type:

2711 Range:

20* - 120*F Dew Point Repeatability:

.56*F 4.

2.3 Instrumentetirn end Tast Equipment (Cent'd):

Verification Test Flowmeter: 1 - Volumetrics Remote Flowmeter (Does not input to Plant Computer)

(Local Readout)

Model:

7798 Range:

0-10 SCFM Accuracy: 1 1% F.S.

When sensitivity error was unavailable, instrument repeatability error was used to calculate the Instrument Selection Guide (ISG) per ANSI /ANS-56.8-1981 (repeatablity error is a conservative value when used to calculate the ISG).

The required air for the test was provided by four (4) diesel powered air compressors supplied by Ingersoll-Rand. The compressors discharged to a permanently installed manifold for cooling, moisture separating and filtering of the air delivered to containment. Air discharge temperature was regulated by an aftercooler installed within the manifold. The aftercooler, E-95, was used to maintain delivered air temperature near to containment air temperature in order to reduce stabilization time. Cooling water was from the Fire Main. During operation, the Aftercooler Moisture Separator Drain was left open to drain condensate. The Air Receiver, FL-62, downstream of the Aftercooler was filled with sanitary pads to absorb moisture and filter the air.

A diagram of the equipment is shown in Figure 1.

5.

2.4 D-tn Anilysis The measured leakage rate for the Type A Test at a 95%

confidence level was dettrmined to be 0.0488 wt % per day at a retest pressure (Pt) of 28 psig. The maximum allowable leakage rate (Lt) in the as found condition is 0.0695 wt % per day.

However, to satisfy the requirements of 10CFR50, Appendix J. Paragraph III.A.1(d), those systems that were not vented to the containment atmosphere during the test and could possibly rupture during a loss of coolant accident were Type B or C tested and the results added to the Type A Test results. Further adjustments were made to the Type A test results for Type B penetrations that were opened prior to the start of the Type A Test and for changes in the containment free volume due to the changing liquid levels in the Pressurizer and the Containment Sump.

All this was done to assure that the containment was tested as close to the "as found" configuration as possible.

Refer to Appendix A for a list of the affected penetrations, calculations, and adjustments.

During the 1985 Type A Test, the Pressurizer and Containment Sump levels were recorded in the sequence of events log prior to and upon completion of the test. Prior to the test, the Pressurizer Level was 41% and the Containment Sump Level was 1.6 feet.

Upon completion of the test, the Pressurizer level was 39% and the Containment Sump level was 1.65 feet.

3 The Pressurizer has a total volume of 1500 ft. A decrease of 2% increases the containment free volume by 30 ft. From the Maine Yankee Technical Data Book, a change in the Containment Sump from 1.6 feet to 1.65 feet increases the sump volume from 92.5 gallons to 95 gallons. Using the conversion factor 1 ft /7.481 gallons, an increase in the Containment Sump from 1.6 to 1.65 feet decreases the containment free volume by.334 ft.

t 6.

~2.4 Dotn Annlysis (Cent'd)

Due to the level changes in the Pressurizer and the Containment Sump, the net change in containment free volume was + 29.67 ft.

Because the volume increase was not factored into the leakage rate calculations, it was reflected in the leakage results as a mass loss of 6.4 lbs over the twenty-five hour test period or a leakage rate of 0.0016 wt % per day. Therefore, a leakage rate of 0.0016 wt % per day must be deducted from the measure leakage rate of 0.0448 wt 1 per day due to changes in containment free volume.

Since Penetration #3, Primary Component Cooling Water to the Reactor Coolant Pumps, was not vented to the containment atmosphere during the Type A Test, it was one of several penetrations that was Type C Tested and the results, when corrected to Pt. added to the Type A results. During Type C Testing of this penetration, the leakage rate for both the inside and outside isolation barriers exceeded the limit of our Local Leakage Rate Monitoring equipment.

Therefore, the Type A Test Leakage Rate in the "as found" configuration shall be proported as

" greater than L ". It should

-be noted that with the exception of this one pipe penetration, Penetration #3, the recorded leakage rate would have been 0.0494 wt %

per day. The value is less than the Nazimum Allowable Operational Leak Rate of 0.0521 wt % per day (.75 Lt)..

During the 1985 refueling outage, several repairs were made on containment isolation barriers, this included the inside and outside barrier for Penetration #3.

In order to make the proper adjustments i

to the Type A Test, a local leakage test was performed before and after the repair of each isolation barrier.

In addition, a local leakage rate test was performed prior to and after the use of each Type B penetration. After all adjustments had been made, the recorded leakage rate for the Type A test in the "as left" condition was 0.0487 wt % per day. This is 93.5% of that allowed to pass the test. Refer to Appendix B for affected penetrations and calculations.

i 7.

i

2.4' Dmte Analysis (C?nt'd)

Upon completion of the Type A Test, a Verification Test was performed to check instrument response. A leakage rate of 105.54 lba per day or 0.0265 wt % per day was superimposed on the containment system such that the composite leakage of both the containment system leakage rate and the superimposed leakage rate was between 75% and 125% of the maximum allowable leakage rate for the containment system (Lt). When the-verification test was terminated the measured leakage rate was determined to be 0.0546 wt % per day which was greater than the minimum allowable. 0.0490 wt % per day, and less than the maximum allowable. 0.0838 wt % per day.

l 2.5 Results The significant results of the Type A Test are shown in Table 2.5.1.

As can be seen, all acceptance criteria was met with the exception of the Type A Test Leakage Rate in the "as found" condition. Again, it should be emphasized that the as found test failure can be contributed to one single pipe penetration, Penetration #3, Primary Component Cooling Water to the Reactor Coolant Pumps.

Per 10CFR50, Appendix J Paragraph III. A. 6(a), the Type A Test schedule subsequent to a Type A test failure will be reviewed and approved by the Commission. During the 1985 Type A Test, there was one single source of excessive leakage that resulted in Type A Test failure. Once corrected, the Type A Leakage Rate was not only less than the Maximum Allowed (Lt) but less than the Maximum Allowed Operational Leakage Rate (.75 Lt). Therefore, because of the

. circumstances of the 1985 Type A Test failure Maine Yankee proposed to continue with the periodic retest schedule delineated in 10CFR50, Appendix J. Paragraph III.D.1(a).

Local Leakage Rate Testing on Penetration #3 as well as all other Type B & C penetrations will continue to be performed each refueling shutdown.

t 8.

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TABLE 2.5.1 TYPE A TEST' ACCEPTANCE CRITERIA Pressure:

- Start (8/20, 1300) 89.20 in Hg abs

> 28 psig (88.35 in Hg abs)

- Finish (8/21, 1400) 88.96 in Hg abs y 28 psig (88.35 in Hg abs)

Temperature Stabilization:

(a)

Al'over'last 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> (8/20, 0900-1300)

.46*F/Hr (b)

A'Tover last hour (8/20, 1200-1300

.24*F/He (c) Absolute value (a)-(b)

.22*F/He

<.5*F/Hr L

Leakage Rate (As Found):

(a) Calculated (8/20, 1300 - 8/21, 1400)

.0448 wt%/ day (b) Adjustments for Type C Testing

.(exc1 Pen #3)

.0063 wt%/ day (c) Adjustments for Pen #3 Note 1 (d) Adjustments for free volume change

.0016 wt%/ day (e) Adjustments for Type B Penetrations

.0000 wt%/ day being cycled prior to Type A Test (f) Leakage Rate (a)+(b)+(c)+(d)+(e) greate* than.0695 wt% <.0695 wt%/ day Leakage Rate (As Left):

(a) Calculated 8/20, 1300 - 8/21, 1400)

.0448 wt%/ day (b) Adjustments for Type C Testing (as left)

.0056 wt%/ day (c)

Adjustments for free volume change

.0016 wt%/ day l

(d)

Adjustments for Type B Penetrations

.0001 wt%/ day being cycled prior to Type A Test (e)

Leakage Rate (a)+(b)+(c)+(d)

.0487 wt%/ day

<.0521 wt%/ day

. Verification Test:

Leakage Rate:

.(a) Nessured Leakage Rate during ILRT (LSF)

.0399 wt%/ day r

I (b) Superimposed Leakage Rate

.0265 wt%/ day (c) Composite Leakage Rage (a) + (b)

.0664 wt%/ day (d) Nessured Leakage Rate during i

Verification Test

.0546 wt%/ day

, e) Difference (c)-(d)

.0118 wt%/ day

<.25 Lt

(

(.0174 wt%/ day)

NOTE:

(1) - Leakage Rate exceeded the limits of our Local Leakage Rate Monitoring

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Equipment.

+

i 9.

F 3.0 LOCAL LEAKAGE RATE TESTS:

3.1 Summary of Local Leak Rate Test.

As required by 10CFR50, Appendix J, routine leakage tests were performed on applicable containment saals and isolation valves at a pressure equal to or greater then Pa.

These tests were performed in accordance with approved plant procedures in the 3.17.4 series.

Leakage rates were measured in Ibm air per day 0 55 psig which is the Containment design pressure. Allowable leakage rate as delineated in the Maino Yankee Tech Spec is 365 lbm air / day.

Two Local Leakage Rate Testing Programs have been performed since the last Type A Test in 1982. The first during the refueling outage in 1982 and the second during the 1984 refueling outage.

10.

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TABLE 3.1.1 1982 TYPE B & C LEAKAGE RATE DATA LEAKAGE RATE TITLE PENETRATION AS FOUND AS LEFT TYPE Purge exhaust duct B

2.43 0.97 Purge supply duct B

385.0 7.20 Equipment Hatch i

B l

2.85 l

2.85 Electrical penetration fuel building l

B l

0 1

0 Bank "A" l

l

.17 l

.17 Bank "B" 2.83 2.83 Bank "C" B

0 0

Bank "D" l

l

.42 l

.42

.42 Bank "E"

.42 Leak test connection B

1.03 1.03 Personnel air lock l

l l

Equalizing valve B

1.03 l

1.03 Hatch pressure test B

0 1

0 Sample system part I l

C l

4.99 l

1.08 part II l

l 0

1 0

Primary drain header l

C l

4.08 l

4.08 Containment sump discharge l

C l

.93 l

.93 PCC (ez, air cooling) l l

10.80 1

10.80 Penetration 89 l

l 0

1 0

Penetration 5 l

C l

.65 l

.65 Penetration 81 l

l 1.99 l

1.99 Penetration 6 l

l 2.22 l

2.22 Containment air cooling l

C l

39.9 l

39.9 Primary water header l

l l

PW-A-78 l

C l

0 1

0 PW-80 l

l 20.3 l

24.57 (1)

Refueling purification l

C l

4.13 l

4.13 Charging and seal water l

C l

26.4 l

21.26 Seal water return header l

C l

4.46 l

4.46 RCS letdown header l

C l

443.7 1

0 RHR letdown header l

C l

3.83 l

24.30 SI tank drain and RHR l

l l

recire line l

C l

.69 l

.69 Service air header Cont, side l l

6.94 l

6.94 (1)

PAB side l

C l

31.9 l

.61 Aux, instrument Cont. sidel

.67

.67 (1) air header PAB side l

C

.18

.18 Post accident purge l

C l

4.54 1

4.54 APD supply line l

C l

.55

.55 APD return line PAB side l

.12

.12 Cont. sidel C

l

.36 l

.36 (1) 11.

-. -. ~.

CONTINUATION OF TABLE 3.1.1 1982 TYPE B & C LEAKAGE RATE DATA i

LEAKAGE RATE TITLE PENETRATION AS FOUND AS LEFT TYPE Aerated vent header B

21.43

.303 Continuous SG blowdown C

Note (2) 0 SG drain header l

C l

4.95 l

4.95 SG chemical feed l

C l

0 1

0 Leak monitoring header l

C l

.09 l

.09 Auxiliary Steam l

C l

1.45 l

1.45 Containment pressure switch C

0 0

i Primary went header C

.30

.30 CO2 header i

C li

.24 l

.24 Nitrogen Supply Part I l

l 8.49 I

8.49 (1) i Part II l

C l

.12 l

.12 Fuel Transfer Tube Flange l

l l

& Bellows Seal l

B l

.968 l

.968 I

I I

I I

I l

i TOTAL B&C LEAKAGE l

.6 La l

187.83 lbm/ day l

3 NOTE:

(1)

Indicates maximum pathway leakage.

l (2) Leakage Rate exceeded the limits of our Local Leakge Rate Monitoring Equipment.

4 4

t i

s' 4

i 1 -

12.

1

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CONTINUATION OF TABLE 3.1.2 1984 TYPE B & C LEAKAGE RATE DATA LEAKAGE RATE TITLE PENETRATION AS FOUND AS LEFT TYPE Purge exhaust duct l

B 2.09 l

2.35 Purge supply duct i

B Note (2) l 2.97 Equipment Hatch l

B l

.983 l

.13 Electrical penetration fuel building l

B l

.065 l

.065 Bant "A" l

l

.402 l

.402 Bank "B" l

l 1.23 l

.423 Bank "C" l

B l

.069 l

.069 Bank "D" l

l

.258 l

.258 Bank "E" l

l

.431 l

2.41 Leak test connection l

B l

2.11 1

3.01 Personnel air lock l

l l

equalizing valve l

B l

.12 l

.12 Personnel hatch l

B l

l 0

Sample system part I l

l 3.3 1

3.3 part II l

C l

.256 l

.256 Primary drain header l

C l

1.13 l

1.13 Containment sump discharge l

C l

96.8

-l 3.837 PCC (ez, air cooling) l l

207.15 l

19.41 Penetration 89 l

l 1.814 l

1.814 Penetration 5 l

C l

4.56 1

4.56 Penetration 81 l

l-1.85 l

1.85 Penetration 6 l

l 6.29 l

6.29 Containment air cooling l

C l

Note (2) l

.82 Primary water header PW-A-78 C

.14

.14 PW-80 l

l 9.42 l

9.42 Refueling purification l

C l

3.58 3.58 Charging and seal water l

C l

7.94 7.94 Seal water return header l

C I

11.39 l

11.39 RCS letdown header l

C l

2.032 l

2.032 RHR letdown header l

C l

.42 l

.62 SI tank drain and RHR l

l l

recire line l

C l

2.51 l

2.51 Service air header Cont, side l l

5.7 l

5.7 (1)

PAB side l

C l

.29 l

.29 Aux, instrument Cont, side l l

1.23 l

1.23 (1) air header PAB side l

C l

.242 l

.242 Post accident purge l

C l.82/1.67 1.18/.03 APD supply line l

C l

1.30 l

1.30 APD return line PAB side l

l

.79 l

.79 (1)

Cont, sidel C

l 1.23 l

.20 13.

CONTINUATION OF TABLE 3.1.1 1984 TYPE B & C LEAKAGE RATE DATA LEAKAGE RATE TITLE PENETRATION AS FOUND AS LEFT TYPE Aerated vent header B

.244

.29 Continuous SG blowdown C

145.58 1.87 SG drain header C

9.91 9.91 Leak monitoring header C

0.44 0.44 Auxiliary Steam l

C l

0.44 1

0.44 Containment pressure switch l

C l

0.53 1

0.53 Primary vent header l

C l

1.63 l

1.63 CO2 header l

C l

0.18 1

0.18 I

.49 l

.49 Nitrogen Supply Part I i

Part II C

.73 l

.73 (1)

Fuel Transfer Tube Flange l

l l

& Bellows Seal C

.66/.20

.04/.07 Personnel hatch o-ring Test Isolation Valve l

C l

3.66 l

.285 Purge Exhaust dp Cell Isolation valves C

.807/.285

.807/.295 I

I I

I l TOTAL B&C LEAKAGE l

.6 La l 119.85 lbm/ day NOTE:

(1) Indicates maximum pathway leakage.

(2) Leakage Rate exceeded the limits of our Local Leakage Rate Monitoring Equipment.

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APPENDIX A ADJUSTMENTS TO TYPE A TEST (AS FOUN9) i s

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i I

i APPENDIX A ADJUSTMENTS TO TYPE A TEST (AS FOUND) FOR LOCAL LEAKAGE RATE TESTING There were instances when a system could not be vented or drained during the Type A Test. Either the system design didn't allow it to be vented or drained or the system was in service during the test.

In these cases, a Type C Test was performed in accordance with Section III. C of 10CFR50, Appendix J cnd the results, when adjusted to Pt. added to the Type A Test results.

Since there were no active failures during the test i.e.,

valves not closing, the einimum pathway leakage for barriers in series, tested individually, was added i

to the Type A Test results. In cases where penetrations were tested by pressurizing between the isolation barriers, one-half the measured leakage rate was added to the Ty e A T9st results.

In accordance with ANSI /ANS-56.8-1981, the reported Leakage Rate for each penetration is a reasured Leakage Rate plus a leak rate deviation.

The " Square Root Method" was applied to extrapolate leakage measured at Pa to a Leakage Rate at Pt.

L I

28" 55 L28" 55 L28"

• 55 The following equation was used to express Type B & C Leakage rates measured at 28 psig in terms of wt% per day:

Wt% per day = Type B&C Leakage Rate (1bm/ day) x100 LSF Intercept from the Mass Point Analysis 18.

APPENDIX A TYPE C PEN.#

PENETRATION LBM/ DAY @ 55 PSIG WT1/ DAY 3

PCC to RCPS Note (1)

Note (1)

~

4 PCC to Component Coolers

.33 5.9159x10 81A PCC to Pen. Coolers 8.04 1.4413x10-86 PCC to CEA Coolers

.05 8.9635x10' 5

PCC from Component Coolers 4.29 7.6907x10~

6 PCC from RCPs

.02 3.5854x10' 81B PCC from Pen. Coolers 8.04 1.4413x10" 89 PCC from CEA Coolers

.96 1.7210x10~

MI-A' CO2 Header

.52 9.3221x10' 63A Containment Leak Detection

.02 3.5854x10'

-4 62 A, B, C RCS Samples 4.36 7.8162x10

-4 32 RCS Letdown 1.66 2.9759x10

-4 10-21 PCC to/from Recire. Coolers 5.25 9.4117x10

-4 37 Primary Water 1.83 3.2807x10 NOTE:

(1) Leakage Rate exceeded the limits of our Local Leakage Monitoring Equipment.

The sum of the Type C Leakage Rates to be added to the Type A Test results was greater the Lt.

With the exception of Pen. #3, the adjusted Leakage Rate was 0.0063 wt% per day.

6.

19.

APPENDIX A Prior to the start of the Type A Test, there were four Type B penetrations that were opened to support refueling activities. A Type B Test was performed prior to opening each and again after closure. Below are the adjustments to be made to the Type A Test.

TYPE B RETEST PRIOR TO PENETRATION AS FOUND TYPE A TEST ADJUSTMENT LBM/ day 0 55 psig LBM/ day 0 55 psig Wt%/ day Purge Exhaust Valves 1.14

.08

+1.9003x10 Purge Supply Valves 1.01 3.77

-4.9479x10 Aerated Vent Header

.30

.16

+2.5098x10' Service Air Test Connection 2.91 1.26

+2.9580x10 The total adjustment made to the Type A Test because of the Type B barriers that were opened prior to the test is.0000 wt%/ day.

t 20.

I APPENDIX B ADJUSTMENTS TO TYPE A TEST (AS LEFT) 21.

)

APPENDIX B ADJUSTMENTS TO TYPE A TEST (AS LEFT) FOR LOCAL LEAKAGE RATE TESTING During the 1985 refueling outage, repairs were made to several containment isolation barriers.

In order to make the proper adjustments to the Type A Test, a local leakage test was performed before and after the repair of each isolation barrier.

Furthermore, adjustments were made to the Type A Test results for the Type B barriers that were opened and closed after the test. Below are two tables. The first shows the leakage rates for Type C Tests and the second shows the adjusted leakage rates for Type B Tests. The table with the Type C results also shows the as left leakage rate for the penetrations not vented during the Type A Test.

TYPE C PEN.#

PENETRATION AS FOUND AS LEFT WT%/ DAY (AS LEFT)

(LBM/ DAY @ 55 PSIG) 3 PCC to RCPs Note (2)

.33 5.9159x10-5 4

PCC to Component Coolers

.33

.33 5.9159x10-5 81A PCC to Pen. Coolers 8.04 8.04 1.4413x10-3 86 PCC to CEA Coolers

.05

.05 8.9635x10-6 5

PCC from Component Cooles 4.29 4.29 7.6907110-4 6

PCC from RCPs

.02

.02 3.5854x10-6 81B PCC from Pen. Coolers 8.04 8.04 1.4413x10-3 89 PCC from CEA Coolers

.96

.96 1.7210x10-4 MI-A C02 Header

.52

.52 9.3221x10-5 63A Containment Leak Detection

.02

.02 3.5854x10-6 62A&C RCS Samples 4.36

.15 2.6891x10-5 32 RCS Letdown 1.66 1.66 2.9759x10-4 10-21 PCC to/from Recire Coolers 5.25 5.25 9.4117x10-4 37 Primary Water 1.83 1.83 3.2807x10-4 50 Containment Spray Supply 5.27 5.12

-2.6891x10-5 (1)

Not2:

(1) This penetration was vented curing Type A Test. Therefore, the net difference between the as found and as left leakage rates shall be added to the Type A Test results.

(2) Leakage Rate exceeded the limits of car Local Leakago Rate Monitoring Equipment.

The adjusted leakage rate to be added to the Type A Test in the as left condition is 0.0056 wt1 per day.

22.

[

APPENDIX B TYPE B PENETRATION DURING TYPE A TEST AS LEFT ADJUSTMENT (LBM/ DAY 0 55 PSIG)

Purge Exhaust Valves

.08

.22

+2.5098X10-5 Purge Supply Valves 3.77 3.58

-3.4061X10-5 Aerated Vent Header

.15

.08

-1.2549X10-5 Equipment Hatch

.16

.04

-2.1512x10-5 Personnel Hatch 3.28 3.28 0.0000 Fuel Transfer Flange

.05

.01

-7.1708x10-6 The total adjustment made to the Type A Test because of the Type B barriers that were opened after the test is -0.0001 wt% per day, i

L 23.

(

APPENDIX C TYPE A TEST DATA 24.

=

• • • • • PASS F01NT C ALCUL A TED RESUL TS * ****

)

(T9T CTMT CTMT CTMT CTMT CTMT LSF UPPER sia AIR Pfw 10 T A t.

AIR V4POR LSF LSF UCL LEAK Cour O

DATE TIMF P A '. S TEPP F0161 PRFSE PFESS PRESS INTCFT STAB CONV RATE Lr%EL 0/20/1995 13: r 397.979 P6.272 74.759 89.200 88.336 0.864 7

a/20/1985 13: 5 3*F.SSA P6.250 74.171 89.200 88.?50 0.850 397.979

-5.7241 e/20/1985 13:10 39F.303 86.276 73.907 P9.190 88.342 0.848 398.001

-0.8720 16.e14' t/20/1985 13:15 395.J90 P6.292 73.550 89.200 88.364 0.836 397.991

-2.P074 2.1213 0

_8/20/1085 I?:20 39P.000 86.305 73.845 89 20C 88 360 0.840 397.999

-1.3973 0.6960 F/20/19P5 13:25 397.a52 86.320 74.725 P9.20e 88.333 0.866 398.031 0.3017 2.7308 F/20/1985 13:!C 397.913 86.260

74. 7! E 89 190 88.320 0 870 398.047 1.0216 2 8469 0

.P/20/1985 1?:3t 397.950 96.307 74.0a1 29.190 80.336 0.854 398.047

.1.0095.

2.3232 E/20/1985 13:4C 398.976 86 290 73.975 87.190 88.361 0.829 398 025 0.3347 1 5715 P/20/1GF5 13:45 3 9 7. '* W 6 86.242 74.*(4 P4.1c0 88.333 0.857 398.025 0.32f 0 1.2945 9

8 / 2 C /19 F 5 13:50 398.004 P6.204 74.169 P a.190 88.331 0.859 398.021 0.2446 1.0289 P/20/1*Ft 13:55 397.362 P6.253 79.236 69.1"O 88.334 0.856 398.022 0.252c 0.P972 P/2C/19b5 14* C 3 9 7.M1 86.246 74.600 E9.190 88.335 0.855 398.020 3753.877 0.2249 0.7660 3

P/20/ lap 5 14: 5 397.9A2 86.189 74.555 63.190 88.323 0.866 398.020

.1586.644

,NO

_0.2205 0.6P03

+

F/20/1985 14:1f 39P.003 A6.259 74.?66 Pl.190 86.339 0.850 398.017 1937 943 NO 0.1749 0.5734 P/20/1"85 14:1!

397.937 86.291 74.954 P ?.19 0 8P.330 0.860 398.022 929.736 NO C.2448 0.?985 9

P/20/19Mr 14:21 397.309 86.250 74.692 09.180 86.317 0.863 398 028 35E.895 YES

.0 3278 0.6494 8/20/1985 14:25 39P.061 A6 196 74 172 P9.1PO 88.342 0.838 398.017 1246.806 YES 0.1878 0.5055 8/20/19A5 14:20 397.189 86.249 74.007 83.1PO 88.335 0.P45 398.016 850.769 YES 0.1663 0.4503 3

e/20/ lap 5 14:35 397. %

e6.220 74.530 87.1P0 88.323 0.857 398.017 _ 446.945 YES

..0 1P24 0.4376 P/20/1985 14:40 797.925 P6.114 73.974 83 18C 88.314 0.865 396.015 502.404 YES 0.1553 0.3870 P/20/19P" 14*45 397.9FC R6 194 74.530 89.180 88.324 0.856 398 014 460.BR7 YES 0.14f 6 0.3569 trj sg I

_P/2C/19Pt 14 :f C 397.924 86 208 74.333 89.170 88.314 0.856 398 017 325.711 YES

_ 0.1819 0.3767 e/20/1989 14:5?

397.9'P 86.182 74 040 89.170 88.319 0.851 398.017 210.007 YES 0.1758 0.3540 3

P/2C/la6?

15: 0 397.975 86.167 74.400 89 170 88.319 0.851 398.015 217.923 YES 0.1645 0.3285 H

N I

F/20/1965 15: 5 3a7."?P R6 156 74.465 83.170 88.319 0.850 398.013

.256.346 YES 0.1464 0.2986 h

n 8/2c/1905 15:10 39F.002 P6.119 74.138 89.170 E8.317 0.853 398.011 397.705 YES 0 1230 0.2655 e

i

,8 e/2C/ lop 5 15:15 39P.082 E';.117 74.074 84.170 88.334 0.836

'399.003 9360.504 NO 0.0002 0.2061 I'.

P/20/1"At l':20 398.027 PL.084 73.P44 09.170 88.317 0.853 398.000 3337.418 NO 0.0365 0.1741 R/20/19F5 15:25 3"7.t34 86 131 75.C22 87 170 88.303 0.866 398.003 3400.P21 NO 0.0606 0.1910 0/20/1*P' 1*:31

!97. 7 7 86.109 74.235 87.170 88.314 0 856 398.002 70626.579 NO 0.C524 0.1745 3

P/2C/19P5 15:35 397.95?

66.147 74.9e6 89.170 88.310 0.860 398.004 1468.723 NO

_ 0.0639 0.1788 P/20/1985 15:40 397.o'5 A6.137 79.270 89.170 88.303 0.867 398.007 747.978 No 0.0835 0.1930 P/2C/19AL 15:4(

39P.C07 R6.061 74 660 89 170 88.308 0.862 398.005 947.726 NO 0.0fo6 0.1735 I

e /20 /19 R5 lt :50 39f.Ci?

86.C77 74.398 89.170 88.323 0.847 390 000 2765.295 NO 0.03P6 0 1410 P / 2 0 /19 8 5 15:55 397."4C P6.123 74 139 89.170 88.304 0.866 3 9P.0 02

+3877.872 NO 0.0520 0.1495 P/20/19R5 If : 0 397.17H 86.078 74.171 89.160 88.305 0.855 396.002 13008.997 ho 0.0513 0.1435

)

P/20/1985 16: !

3'7."61 86.141 74 171 89.160 88.311 0.849 398.003 2179.887 NO 0.0555 0.1428 6/20/1T6" If:11

?q7.cfa 86.125 74.5(3 89.160 P8.310 0.850 3 9P.0 0 3 1203.374 YES 0.05tf C.1394

- 8/'C/1985 16:lt

?97.760 86 182 74.041 P1 160 88.316 0.842 3 9P.0 0 3 6(2.499 YES 0.0598 0.1384

)

8/20/198E 16:20 398.004 St.140 74.040 P".160 PP.321 0.839 3 9P.0 0? 12280.147 YES 0.0513 0.1165 P/20/1=P*

16:21 39*.11%

96.062 73.585 E9.160 E8. 33 2 0.828 397.996 1171.4P4 FO 0.0171 0.0401 8/20/19P5 lt :30 3 9 7.%?

86.006 74.075 64.1(0 88.30a 0.951 397.995 587.385 NO 0 01b4 0.Ca07 I

• / 2 C /19 9 5 16:??

390.r24 a6.0P4 74.171 P5.100 88.316 0.R44 397.994 393.04P NO 0.0071 0.0794 th F/20/15AS 16:40 39P.117 86.092 7?.6R1 An.lf0 88.33P 0.822 397.988 446.366 NO

-0.0196 0.0541 6/20/19H5' 15:4?

397."70 R6 119 74.367 84.160 88.309 0.850 397.990 236.959 NO

-0.0135 0.0573 (D

)

A/20/1?P! 16:tr

?9e.n?7 E6.r32 73.715 P9.100 66.310 0.850 397.9P8 197 726 NO

-0.02C4 0.C471 p

8/?O/1985 1 A :"

• 3 9 7. "E "

P6.C9?

73.P13 8".100 8P.302 0.858 397.990 169.221 NO

-0.0124 0.0533 k

-)

P/20/19P?

17: C 397.if7 86.096 74.735 R".lf0 e8.312 P.848 397.990 145.239 NO

-0.0122 0.0'08 6/20/1985 17: 6 3 ' 7. "7 86 134 74.*"A P'.150 88 296 0.854 397.994 439.093 NO 0.0051 0 0678 P/20/1995 17:10 398.027 Ph.051 7?.457 P9.150 88.218 0.832 397.991 227.317 NO

-0.0059 0 0553 O

8/20/1985 17:15

?9 7."f 7 P6.07 4 74.107 E4.150 88.299 0.M1 397.992 107.400 NO

-0.001S 0.0575 g

U1 P/20/19FS 17:20

?97.%19 Sf.0H5 75."11 e".1?c M8.2a?

0.P57 397.995 31P.307 N3 0.0C97 0.C675 P/20/19P5 17:25 M 7. "M P6.085 74.525 0'.150 88.;97 0.853 397.997 322.F36 ha 0.0173 0.0733

{

P/20/158' 17:31 3C 7.' 4 4 P6.10a 7?.P77 P'.150 88.302 0.648 397.99P 332.762 P.0 0.0229 0 0771 8

8/20/1985 17 : M 307. 9

%.059 74.1 71 M'.lt o cP.245 0.850 397.999 105.009 YEs 0.0246 0.0770 M

• • • • • PA?.s FDINT C ALCUL ATED RESUL TS oo**e

~ ~ ' ~ ~'

C T' '

CTMT CTFT fTMT CTMt CTMT

~

~

' UPPER' LSF

_ DA TE _

T1nt PA55 TEFF

~,DFW TOTAL AIR VAPOR LSF LSF UCL LEAK CONF

'9 7,

AIR P C 1 f1T IPESS PRESS PRESS 1NTCPT STAB CONY RATE

' LE VEL j

8/20/1085 17*4C 397.c63 M6.013 74.2 70 H9 150 88.291 0.859 397.999 266.965 YES 0.0267 0.0773

'I i

P/20/196% 17:4t

!98.08a PF.001 79 107 6".15C 88.312 0.P37

. 3 9 7.9 9 f.

375.037 YES

.C.0152 C.0652 f

F/20/1995 17:50 39f.132 F6.043 74.C42 R4.15C 88.333 0.817 397.991 395.686 NO

-0.0030 0.0484 8/20/198! 17 : t **

29P.060 85.969 73.845 A9.150 88.310 0.840 397.988 260.619 NO

-0 0132 0.0374 9

6/20/1985 16: 0 3 = P.0 70 F6.005 74.69!

80.15C 88.!!3 0.837 397.986 19F.777 NO

-0.0213

'O.0283 f / 70 /19 A 5 18: ; 398.075 F5.*24 73.519 8".150 88 301 0.P*9 397.9P4 164.732 NO

-0.0291 0.0194 F/20/1995 1':11 396.146 e6.046 73.P46 89.150 88.337 0.813 397.980 177.184 NO

-0.0439 0.0052 O i

_f/20/198%

IP:15 3 9 P.0' 0 86.032 73.780 84 150 88.313 0.837 397.979 127.626

.N0 _.-C.0472 0.0005 I

P / 20 /19 8 5 1P*21 39F.073 86.023 73.979 84.150 88.317 0.833 397.978 113.516 NO

-0.0525

-0.0060 6

8s2c/192*

1P:2f 39F.0C3 86.034 74.007 8".15C 88.303 0.847 397.978 100 320 NO

-0.0504

-0.0053 Ir e/20/1965 16:31 396.023 A6.012 73.649 80.150 88.304 0.846 397.978 90.210 NO.

-0.0003

-0.0066 F/2C/19P5 18:35 39P.058 85.94P 73.594 80.140 88.301 0.839 397.977 82.846 NO

-C.0533

-0 0108 8/20/1995 14:46 397.rco P6.009 74.140 84.140 BR.276 0.864 397.981 145.463 NO

-0.0419 0.000P I

g 8/2G/19tt 15:4*

3c 7.e 73 65.996 74.303 84.140 A8.290 0.850 397.922

_103.867 NO _

-0.0378.

0.0039 F/20/1985 18:*1 398.037 85.999 74.003 6'.140 88.305 0.835 397.982 60.940 NO

-0.0394 0.0G10 R/2C/19Pt 18 :? (

397.9#

R5.973 74.04*

8".140 88.292 0.848 397.982 52.775 NO

-0.0376 0.0019 II

_.E/2C/1*A5 16: 0 397.c3e 85.A45 74.13P 89.130 88.274 0.856 397.984

,_.97.506 NO

-0.0308 0.0081 P/2C/la85 Ic: %

347.904 P6.025 74.171 89.120 88.280 0.840 397.987 141 322 NO

-0.0221 0.0167 t

8/?t/laA5 19:11 39F.050 85.P92 73.323 89.120 A8.291 0.829 397.986 64.163 NO

-0.0251 0.0127 I i

__8/20/1905 19:15 397.t?C R5.893 74.172 60.110 88.253 0.857

.397.990_

_176.950

.N0_._-0.0153.

0 0227

_ _ M P/20/19P5 14:20 397.c93 PS.853 74 334 8*.11C 88.271 0.838 397.990 97.811 ho

-0.0144 0.0227 I

8/20/Ines 19;;6 397,c*C P5.880 74.139 89.110 88 264 0.846 397.991 99.927 NO

-0.0097 0.0266

.6/?0/1985 19:31 390.C97 85.884 72.e37 80.110 88.296 0 814

.397.991.

. 75.804 NO _.. -0. 0101 0.0254 F/20/1985 19:30 397.a47 P5.850 73.746 89.120 88.261 0.859 397.993 80.111 NO

-0.0063 0.0284 g

F/20/19P5 1?:40 3%.000 AS.808 74.173 86.120 88.280 0.839 397.993 71.127 NO

-0.0064 0.0275 M

I4 l

P /20 /19 A 5 19:46 397.aE7 F5.P93 73.520 89.120 88.277 0.843

.397.993 66.582 NO

-0.0056

_0.0275 n

gH I [l' 8/20/1985 19:50 39F.C H F5.971 73.127 84.130 88.307 0.823 397.991

.80.658 NO

-0.0097 0.0228 i

6 P / 2 C /19 8 5 19:55 396.C63 95.95P 73.84*

84.130 88.304 0.826 397.990 71.817 NO

-0.0134 0 0185 h

P/20/19P5 20: b 3a7.? 70 86.013 73.064 Ba.130 88.297 0.838 397.991

_ 40.496 NO

-0.0113 0.0200 8/20/1985 2C: 5 397.a93 P5.972 73.a43 80.120 8e.270 0.842 397.992 83.465 NO

-0.0071 0.0236 E/ 2 0 /19 A*-

29:11 347.*; 7 A5 915 73 977 R0.120 88.274 0.846 397.993 68.389 YES

-0.0048 0.0254

'I r/20/1985 20:15 397.976 85.a02 73.P80 P".120 88.276 0.844 397.994 55.P54 YES

-C.0035 C.C260 8/2G/19P5 2G:2L 397.9FD F5.915 73.079 ft.120 88 279 0.841 397.994 48.186 YES

-0.0025 0.0263 8/20/19P5 20

.5 397.041 95.872

73. F 17 80.110 88.263 0.847 397.996 69.477 YES 0.0005

0. 0 2 8 P.

I I

_ 9 / 2 G /19 8 5 2?:30 397.a25 85.805 73.454 80.110 88.258 0.851 397.997 91.207 YES 0.0041 0.0321 8/2C/1995 20:35 3 9 7.a 0 0 F5.934 74.074 80.110 88.264 0.846 397.999 129.085 YES 0.0088 0.0365 18 8/20/19P5 20:40 397."43 P5.926 74 073 A*.110 88.272 0.838 398.000 102.663 YES 0.0110 0.0382 is

_ E/2C/la85 20:45 397.e42 65.905 73.911 80.110 88.269 0.841 398.001 97.550 YES.

_ 0.0132 0.0398 8/20/19P5 20:50 397.E ?4 85.907 74.303 89.110 88.25P 0.851 398.003 147.168 YES 0.0174 0.0438 E/20/1905 20:!5 397.943 P5.858 74.335 85.110 88.261 0.849 398.003 113.121 YES 0.0191 0.0450 I ;.

P/20/1985 21: P 397.93r RS.930 73.7P0 89.110 88.256 0 854 398.004 113.143 YES 0 0210 0.0464 P/2C/lc85 21: 5 398.015 P5.822 74.334 8.110 88.271 0.838 399.003 88.091 YES 0.0152 0.0442 6/2C/1986 21:1C 39R.C37 85.82R 73.077 85.110 88.275 0.835 39A.002 74.392 YES 0.0171 0.0416 3

8/20/1985 21:15 396.01P FM.335 74.303 P'.110 88.274 0.836 398.002 62.590 YES 0.01!4 0 0395 P/20/1*P5 21:20 397.5 F PS.P45 73.52' P'.110 88 271 0.839 398.001 50.533 YFL 0.0147 0.0383 y

8/20/19P5 21:,5 397.9H AS.763 73.387 U.100 88.25P O.842 398.001 43.682 YES 0.0140 0.0372 Q

J

_8/20/19H5 21:30 397.c44 R5 83a 74.237 h*.110 88 258 0.851 398.002 50.276 YE5 0.0156 0.0383 8 /2 0 /19 P 5 21:35 397.F67 PS.7e8 74.554 A'.100 88.239 0.861 398.003 135.109 Yfs-0.0193 C.0419 F/?C/1985 21:40 347.?76 65.P54

73. F P C P'.100 88.246 0.854 398.005 162.136 YES 0.0232 0.0457 M

J

_8/20/1985 21:4b 397.972 F5.F17 73.421 P'.100 88.261 0.838 3 9 P,.C C 5 104.187 Yrs 0.0231 0.c452 O

f/20/1985 21:51 397.41' e5.040 73.e 7f 65.100 88.253 0.897 398.006 105.P14 Yfs C.0251 0.0460 FD 8/2C/1985 21:55 397.a4?

P5.c30 73.553 P5.100 88.257 0.843 398.007 96.777 YE5 0.02(1 0.0474 04

'd y 8/20/1985 22: C 397.c42 AS.7AO 74.041 8'.100 P B.14 P 0.Pb1 39P.007 91 141 YFS 0.0270 0.0480 6/20/1985 22: 5 397. ell E5.R14 73.552 80.10C 8A.24E 0.451 39P.008 96.83P VfS 0.02PP C.0494 P/20/1985 22:10 397.**?

F5.7PO 73.715 PS.1CC FP.24F 0.H51 3aP.CC8 97.932 YES 0.02*5 0.0490 0

_8/2C/19F5 22:1*

397.924 65.RC" 73.'78 F'.100 A P.24 "

0.S'1 3eP.000 90.166 YES 0.0309 0.0*04 6

i

• • • • • P ASS FOINT C ALCUL ATE C PFSULis *****

O i

CTMT CTPi LMT CTMT CTFT CTMT LSF UPPER T}

IIR AIR OEW TOTAL AIR V A P O.R LSF LSf UCL LEAK CONF

_CATE.

TIFE PAP TCPP POILT rPESS PPES?

PRESS INTCPT STA8

.CONV RATE LE VEL R/20/1965 22:20 3a7,q.a 85.7P6 73.5"5 (9.100 88.249 0.850 398.009 93.098 YES 0.0315 0.0512 di 8/20/1985 22:25 397.954 PS.792 73.a15 f9.C90 Be.249 0.841 398.010 _ 465.079 NO 0.0379 0.0576 93.316.YES.

0.C324 0.0517 P/2C/1995 22:30 397.740 R5.787 74.106 19.090 88.216

0. A 74 398.013 F /2 C /19 85 22:35 397.837 85.843 73.P79 19.0a0 88.249 0 841 398.014 351 474 No 0 0397 0.0591 8b

._ A / 2 0 /19 8 5 22:40 397.949 85.795 74.204 19.090 88.252 0.838 398.014 237.076 NO 0.0397 0.0588 8/2C/1985 22:45 397.9: 9 85.776 73.453 19.050 88.245 0.845 398.014 204.033 NO 0.04C4 0.0592 I

F/20/19F5 22 :50 397.8F7 85.R27 73.74R (9 090 88.244 0.846 39P.015 239.112 NO 0.0422 0.0608 9

L R/20/1985 22:55 397.919 8 5. P *+ 1 73.0"7 59.090 88.255 0.835 _ 398.016._.233.c09 NO _ _

0.0430 0 0613 6/20/19P5 23: C 397.o:6 85.742 73.4f6 f9.090 88.241 0 849 398.016 209.983 NO 0.0433 0.0612 C/20/1985 23: 5 397.970 85.793 73.293 79.090 88.257 0.833 398.015 156.690 NO 0.0425 0.C601 lb

[A/2C/19F5 ??:10 397.941 85.760 73.813 f9.C90 88.245 0.845, 398.015 141.732 f.0 0.0426 0.0599 3/20/1995 23:15 397.9F0 65.786 73.847 19.090 88.258 0.832 398.015 116.888 NO 0.0415 0.0586 F / ? C /19 85 2':2C 397.971 85.753 73.P79 F9.090 88 251 0 839 398.014 94.362 NO 0.0408 0.0576 9

a/20/1985 23:;5 397.940 85.711 74.239 E9.CPO 88.237 0.843 398.014 59.564 YES P/20/19P5 23:!C 39F.301 85.717 73.915 E9.0E0 88.251 0.828 398.013 146.463 YES

_ 0.C4C9 0.0575 0.0393 0.0557 8 /2 0 /19 P 5 23:35 3a7.8**

85.767 73.779 Ea.0F0 8P.236 0.844 39A.014 137.405 YES 0.C406 0.056P 9l

_.5/20/1965 23:40 397.93R 85.725 73.714 f9.CE0 88.239 0.841 398.014 75.729 YES

_ 0.0415 0.0573 0 04C8 0.0567 f /2 C /19 F 5 23:45 397.411 P5.716 74.271 09.0P0 88 231 0.849 399.015 89.261 YES y

P/20/19FT 23:!P 39P.020 85.741 73.748 fa.0P0 88 260 0.820 398.014 192.271 YES 0.0395 0.0551 e/20/19P5 23:55 397.9f9 85.722 73.308 E9.C80 88.245 0.835 39P.013 121.496

.YES_____0.C329 0.0542 8/71/1985 0: 0 397.987 P5.(1R 73.912 89.070 88 232 0.838 398.012 105.482 YES 0.03ia 0.C529 M

P/21/19At 0: 5 397.965 85.682 73.911 P9.0 7 C 88.216 0.854 398.014 171.724 YES 0.0396 0.0547 S

p

___f/21/1985 0:10 398.G25 95.684 73.031 89.070 88 251 0.819

.398 012

.166.369 _YES 0.0376 0.0526 P /21/19 e 5 C:15 397.940 95.666 73.454 F9.070 88.230 0.840 398.012 81.248 1ES 0.0377 0.0524 P

b F/21/19RE C:20 397.366 85.683 73.650 89.060 88.220 0.839 398.013 116.763 YES 0.0390 0.C535

._P/21/1985 C:25 399.027 85.604 73.617 69.070 88.239 0.831 398.012 156.768 YESn_ _ 0.0370 0.0515 g

F/21/19A5 C:30 3"7.3?!

R5.679 74 270 P9.070 89.205 0.865 398 014 25P.003 NO 0.03*7 0.0542 1

I 'f F/21/la85 0:%

397.910 85.713 74.075 E9.070 88 231 0.839 398.014 166.211 NO 0.0403 0.0546 M/21/19P5 r:40 397.907 85.E99 74.4C2 89.080 88.228 0.852 39R.014 b/21/1985 0:45 397.979 85.725 73.261 89.080 P8.248 0.832 398.014

_ 140.041 NO 0.0409 0.0550 93.590 NO 0.0400 0.0539 P/?t/1995 0:50 397.920 85.708 73.7P1 8a.0P0 88.232 0.848 398.014 66.569 NO 0.0403 0 0540 lb P/21/19PS 0 :5%

337.934 R5.759 74.074 R9.090 e8.243 0.837 398.014

. 55.673 NO 0.0403 0.0538 P/21/1"H5 1: 0 397.536 P5.814 73.a42 89.070 88.230 0.839 39P.015 245.168 NO 0.0423 0.0558 F/21/laA9 1: 5 597."!3 85.748 73.605 89.070 Pp.241 0.828 398.015 118.836 NO 0.0422 0.0556 3!

F/21/1985 1:10 39 F.% 0 PS.617 74.2P E9.C70 88.235 0.R35 39R.014 149.824 Nn 0.0408 0.0540 l

F / ? 1/19 F t 1:15 397. % 4 A5.654 73.51" A9.070 88.240 0.830 3 9 R.014 126.a20 ho 0.03a6 0.0527 6

F /?1/1*P %

1:2t 397.875 P. S. 6 5 P 73.943 89.060 88.214 0.846 39P.014 117.390 NO 0.0407 0.0537 7

P/21/19R5 1:25 397.924 85.630 73.716 R9.C60 88.221 0.A39 398.014 _

50.812. VES_

0.0407 0.0535 r

P/21/laPt 1:30 397.903 45.632 73.5P6 F9.000 BP.216 0.844 398 015 60.482 YES 0.0412 0.053A P/?l/19A5 1:35 397.a47 85.589 73.423 89.050 88.219 0.831 3 9P.014 36.720 YES 0.C409 0.C533 0

8 / ? ! /19 6

• 1:4[

347.967 85.596 73.456 69.C50 88.224 0.826 398.014 70.P36 YES 0.0402 0.0525 8/21/19P5 1:4 397.997 AS.539 73.6?C 69.05C P8.22 0 0.830 39P.013 97.972 YES 0.0391 0 0513 8/21/1965 1:50 39 7.d 46 PS.575 73.25" P9.040 88.194 0.846 398.014 15P.f77 YES 0.C400 0.0528

)

F / ? ! /19 A t 1:55 3 9 7. R F-85.553 74.107 fr.040 A8.187 0.853 398.016 215.695 YFS 0.C424 0.0545 g

A/21/laF5 2: 1 397.919 F5.560 73.292 8'.040 88.20P 0.832 398.016 139 116 YES 0.C425 0.0544 q

F/21/1*R5 2: 5 397.'13 A5.569 73.5*3 69.04C PR.2GP 0.832 398.016 112.483 YES 0.C4?7 0.0t44 O

J E/21/1985 2:10 3 7.915 85.'83 75.326 Aa.040 90.211 0.829 39P.016 94.(68 YES 0.042P 0.0544 y

P/21/19P?

2:15 397.899 85.570 73.!53 F9.04C A8.205 0.P35 39P.016 90.P83 YES 0.0432 0.0547 k

')

P / 21/19 85 2:2r 397.700 R5.!P1 73.0T3 P9.040 E8.211 0.828 398.016 78.225 YES 0.0432 0.0545

_._F/21/19P5 2 :r' 397.At3 85.551 73.4Hf P3.040 P8.194 0.846 398.017 140.216 YIS 0.0441 0 0554 R/21/19P5 2:3t 397.a7+

PS.M P

'73.5t'.

Pa.040 8P.200 0 840 398.017 133 250 YFS 0.0448 0 0559 O

gv 8 / 21/19 f S 7:35 3 9 7. iM 85.K47 75.0'P 84.040 RP.20P 0.R32 3 9 A.017 P8.140 YES 0.0446 0.0556 J

'J.P/21/la35 2:40 397.G4" R5.502 73.?2P 6'.040 Ph.205 0.835 3 9F.017 78.372 YES 0.0441 0 0550 P/21/1%P.5

:4*

3"J.use 85.541 73.45*

87.040 AB.190 0.850 398.017 165.999 YIS 0.0451 0.055P 6/21/198*

2:tr 397.9-5 F*.44?

72.667 P?.030 FP.197 0.P33 39P.017 9".100 Yfs 0.0444 0.0551 S

P/21/19EE

?:5% 3 4 n.9 u PS.aym 73.s. 0 R5.03L PS.222 0.808 398.015 249.475 LO 0.0424 0 0531 i

.**** F ASS FO IPT C A L CUL A T E C' R ESUL TS * * * *

• b r

t j

CT9T CTMT CTMT STFT CTFT CTMT LSF UPPER q

g Ala AIR PEJ TOTAL AIR WAPCR

.LSF LSF UCL LEAK CONF IQ,

. _r a T E _ _

TIPT FASS TEPP FOINT DRESS FPESS PRESS INTCPT STAB CONV

_ RATE LEVEL F/21/19P5 3: C 397.'*P 85.494 72.902 67.03C 88.201 0.829 394 015 139.a18 NO 0.0421 0.0527

1. D

,___2/21/1985 3:

• 347.S94 85.45" 73.357 89.030 88 126 0.844 398 015 82 3(8 NO 0.0424 0.C529 8/21/1985 3 :1 C 397.575 85.467 75.619 F1.030 8P.183 0.847 39P.016 8P.000 No 0.0431 0.0534 0/21/19P*

3

• 1 *-

297.71a FS.454 73.813 29.C30 88.191 0.839 398.016 45.527 NO 0.0430 0.C532 0

.8/21/1885 3:2C 397.99k e5.482 73.0a8 8 9.C 3 0 80.190 0.839 398.016

_ 37.732 NO 0.0432.

0.0533 F / 21/198 5

? :25 397.P74 P5.520 73 3P9 87.030 88.191 0.839 3 9P.017 79.435 NO 0 0438 0.0538 i

P/21/1985 3:30 397.P83 85.456 73.355 65.020 8P.179 0.841 398.017 106.306 No 0.0445 0.0544 16 i' i t/21/1985 3:35

?97.70P 85.479 73.715 81.C20 8P.191 0.829 398.017 72.060.

No

_ 0.0446 0.0544 i

C/21/1"85 3:40 347. % 0 85.4A0 73.4PR P3.020 H8.200 0.820

.398.017 65.758 NO 0.0441 0.0538 I

8/21/1985 3:45 397.9 4 85 4PO 73.913 P1.020 88 187 0.833 398 017 55.788 NO 0.0445 C.0541

4

_.. _ E / 21/19 8 *

f t 3"7."40 85.510 74.172 E7.02C 8R.182 0.838 398.018

.162.056 YES 0 0454 s.0549 e/21/!*FC 3:!S 397.'Ir 65.949

<3.'29 87.C20 dA.188 0.832 398.018 75 174 YES 0.0453 0.0548 P/21/1*95 4: 0 39'.E%

85.43(,

75.357 83.C20 88.192 0.838 398.018 60.672 YES 0.0455 0.054c 3

___E/21/1985 4: 5 397.970 P5.469 73.356 87.020 88 182 0.838

.398.018

- 85.965 YES

._.0.0459 0.0552 8/21/1985 4:1C 307.dJ' A5.47P 73.474 PT.02C 88 174 0.846 398.019 22P.978 YES 0 0469 0.0561 0/21/1585 4:15 39 7. P '5 85.403 73.614 P3.020 88.175 0.845 398.019 141.776 YES 0.0471 0.C562 3

. 8/21/1985 4:2L 397.r M A5.427 73.6e3 83.C20 88 180 0.839 398.019 104.182 YES 0.0472 0.0562 P/21/198*-

4:2L 347.854 95.498 73.684 81.020 88.183 0.837 398.020 155.246 YES 0.0477 0.0567 P/21/1*P5 4*30 397. % 4 6%4?!

73.126

f. ?.0 2 0 88.173 0.847 398.020 148.058 YES 0.0482 0.0570 I

)

..E /21/15 E 5 4:?S 307."65 85.459 74.109 P1.020 A B.19 0 0.840__398.020 150.981 vet 0.04R5 0.0573 P / ? 1/15 8' 4:40 397.-11' 85.452 73.5AA 81.C2C 88.190 0.830 390.020 109.701 YES 0.0483 0.0569 U

F/71/19e*

4:4r 397.77?

F5.5 3 3 73.iP8 89.0?0 88.170 0.850 398.022 736.511 NO 0.0497 0.0584 SI r / 21/19 9 5 4:50 397.430 A5.518 73.652 P4.020 28.181 0.839 398.022 797 106 NO 0.0505 0.0591 t-1 6/21/196?

4:55 3 9 7. H 0 3 A*.53P 74 107 R1.CPC 68.179 0 841 398.023 1997.*P5 NO 0.0515 0.0600 M

F/21/19F5 5: C 397.767 65.505 74.074 P9.020 8P.175 0.845 398.024 2218.536 NO 0.0528

0. 0f 14 g

S 8/21/ 19*!

5:

397.113 85.581 7'.6?2 89.030 88.188 0.842.

398.025 844.651 NO 0.0537 0.0622 I

F/21/1985 5:10 397.fc7 85.574 73.143 P9.030 88 183 0.847 398.026 505.0F2 NO 0.0546 0.0631

% l18 P/21/19P!

1*

397.797 85 507 73.87a 89.020 88.172 0.848 398.027 363.081 NO 0.0555 0.0640 e/21/1985

• • 2t 3c7.'19 85.534 73.455 89.0PC 88.181 0.839 398.027 291.253 NC 0.05E2 0.0645 F/21/196*

f:25 39 7.m6 2 R5.531 73.977 E9.020 ee.191 0.829 398.027 254.862 NO 0.0563 0.0646 f/21/108'

• :30 397.PC3 P5.519 74.141 89.020 88.175 0.845 398.028 211 692 No 0.0571 0.C653 S

5/21/19P5 5:35 397.776 85.558 73.7P1 89.020 88 176 0.844

.398.029 203 691 NO 0.0581 0.0663 F/21/1865 5 : g r.

397.229 65.481 73.359 P9.010 P6.175 0.835 3 9 P.0 29 150.623 NO 0.0585 0.0667 E/21/19/t 5:45 397.*15 PS.461 13.033 P9.010 88.169 0.e41 398.030 134.733 NO 0.0591 0.0672 0

P/?1/lc65 5:15 397.979 85.481 73.5P4 E9.010 88.186 0.874 39P.030 119.266 NO 0.0569 0.0670 P/21/1'At 5:55 397.'tF 85.560 72.706 8".CIG 88.1P4 0.826 398.029 19P.778 YES 0.0560 0.C66C 8

.P/21/1565

(: C 377.900 85.406 73.076 8".010 PA.179 0.831 3 9P.0 2

• 144.197 YFS 0.0576 0.0655 9

C/?t/19P' f*

397. W 85.420 7'.684 P".CIO 88.174 0.636 398.028 99.661 Yrs 0.0576 0.C654 E /21/19 6 5

1. :10

?97.ct?

• S.450 73.0a6 8".010 88.175 0.P35 39a.029 66.0a3 YES 0.0577 0.0655 5/21/19P5 6 :1' 397.dO7 55.4a4 73.448 P9.010 88.172 0.828 398.C29 109.9*8 YES 0.05P3 0.0660 e/21/19F; 6:20 397.74*

F5.544 73.554 89.01C 88.167 0.843 39P.030 188.860 NO 0.0594 0.0671 P/?1/lcA?-

t:2%

397.Tc" FS.5?2 73.455 7".C10 B P.17 5 0.835 398.031 131 660 NO 0.0600 0.C677 h

8/21/ laps

,,;;p 3q y,7e n a5,454 73,4p9

,49.010 88.164 0.846 3 9 A.0 31 10P.370 NO 0.0f0(

0.0682 4

8/71/1965 6 : 3*

'97. 0 h5.*04 73.c45 P9.C10 M.179 0.831 398.032 P7 580 NO 0 0608 0.0684 O

P / 21/19 8 5 6:41 33 7. W4 P5.464 73.Al' 80.010 PP.171 0.839 598.032 75.214 A0 0.0(11 0.0(86 A

F/01/19P5 t :4' 3 9 7. d ? t.

P5.501 73.612 89.010 P8.178 0 832 398.032 67.323 ho 0.0613 0.06e7 o

4 6/21/14t!

6 :" f 397.54o P5.493 7?.521 P'.010 8P.181 0.828 398.032 59.061 NC 0.0f14 0.0he7 N) 6/?1/19h' e : *6 39 7. N "

F5.495 73.f17 6'*. t 10 68.17P 0.R32 398.032 53.386 NO 0.0(15

0. Ct 87 m

f/21/198' 7: 0 597.a?4 45.441 7?.019 A".010 F8.170 0.840 398.032 49.077 to 0.0616 0.068P 3

l S/21/1985 7: i 3 7 7.F5 6 F5.441 73.051 A'.C IC P8.177 0.833 3 9P.0 32 43.429 NO 0.C614 0.0606 9/?1/198?

7:10 3'7."J7 P5.4NC

73. C ' 7 FC.CIC 8P.177 0.833 396.032 37.476 NO 0.0615 0.0686

$6/21/1065 7:lt 397.747 P%.47C 7 8. w 7 8.

8.0 1 0 98.164 C.846 398.033 63.493 YE5 C.C62C

0. 0f 91 f/21/198*

7:2C

?97.A PS.430 73.3 6'.r10 A h.17 ?.

0.4?5 3ca.033 23 5F0 YES 0.061P 0.0e P 8 P/21/1965 7:T' 3 3 7. 7e. S 55.47P 7?.? 7' f".CIC 8F.161 0.849 3*P.033 75.386 YEs 0.0f25 0.0694 r/21/tcs' 7:h

?t7.81-95.4R' 7 3. 'C M.01 C FP.173 0.5'37 398.033 4 7. a81 YFS 0.0(27 0.0696 6/21/198*

7 :

? 9 7. ""

6%.394 73.F4(

t'.ctr Fr.17F 0.R32 3aP.033 6f.501 vfl 0.Cf21 0.C690

m M ASS PC1hi C ALCUL A TED 'R E SUL TS *****

95

~~ ~"

~ CTNT ' I

~~ LSF UPPER

~

CTMT CTFT CTMT CTMT CTM7 All AIR CEW TOTAL' AIR VAPOR LLSF LSF LCL LEAK CONF g

.CATE TIPE PASS T[PP POINT FRESS FPESS PRESS,,1NTCPT

. STAB

.. CO NV _ _. RATE LE VE L g

i P/21/1985

?:4P 397.795 85.447 73.520 P9.010 PP.162 0.848 398.033 44.452 YES 0.0625 0.0693 9'

P /21/19 85 7:45 397.470 85.437 73.7F0 89.010 88.177 0.833. 398.033

. 30.722..VES

_ 0.0623 0.0690 8/21/1985 7:50 397.835 85 435 73.879 89.003 88 162 0.838

~398.033 32.C43 YES

'0.0625 0.C692 F/21/1985 7:55 397.767 85.498 74.303 89.0CC 88.156 0.844

-398.034 6'.699 YES 0.0631 0.0698 O[

.8/21/1985 P: 0 397.745 85.448 73.P14 89.000 88.151 0.849

.398.035

.75.325 YES.~

0 0639 0.0705 P/21/1985 P*

6 397.R30 85.389 73.911 89.000 88 161 0.839 398.035 45.510 YES 0.0039 0.0704 8/21/198?

6:lt 397.P26 25.389 73.813 8?.000 88.160 0.840 398.035 35.287 YES 0.0639 0.0704 O

E/21/1585 8:1!

397.'05 85.315 73.325 89.000 e8 165 0.R35 398 034 63.F44._YES _.. _0.0633.

0.0699 _

}

8/21/19%

P:20 39 7.NE E5.394 73 717 89.0C0 88.160 0.839 398.034 29.998 YES*

0.C634 0.0698 8g P/21/1985 P :2 6 397.616 85.440 73.683 87.000 88.166 0.834 39P.034 16.464 YES 0.C635 0.0698 p.

@/21/1985 e:30 397.816 85.374 73.684 87.000 88.155 0 845

_398.034 15.120.YES

_.0.0636 0.0699 -

l' P / 21/19 85 P:35 397.918 85.411 73.780 8 9.0 C0 88 161 0.838 398.034 14.283 YES 0.0636 0.0699 6/21/19P5 0:41 3*7.858 85.Jo6 73.488 87.000 8P.168 0.832 398.034 25.445 YES 0.0634 0.0696 Oi P/21/1995 f:45 397.AC1 85.469 73.552 87.000 88.167 0.833. 398.034 20.571 _YES __. 0.0656 _ 0.0697.

[

6/21/1*85 P:5C 397.802 85.445 73.6P3 87.000 P8.163 0.837 1398.035 19.169 YES 0 0638 0.0699 O ().

8/21/1995 R:56 397.Te4 85.441 73.6E4 87.000 88.159 0.841 1398.035

.29.633 YES

' O.0641 0.0701

. e / 21/1985 9: 0 397.R10 P5.431 73.879 e?.000 P8 164 0.836

. 3 98.0 3 5 x_17.918 _ Y ES L

0. 0641 0.0701 0

8/21/1995 9: t 397.771 85.448 73.618 P1.600 88.161 0.839 398.035 21.748 YES 0.C643 0.0703 b

e/21/1985 9:1L 397.355 85.356 73.746 89 000 88.160 0 839 398.035 25.265 YES 0.0641 0.0700 Ol

. E/21/1985 5:15 397.P28 85.448 73.455 8?.000 28.170 0.830 398.035 15.E 01_ Y ES _ _ 0. 0 64 0. ~ 0. 069 9 P/21/1985 9:2C 397.794 P5.422 73 455 P7.000 88 158 0.842

-398.035 17.705 YFS 0.0642 0.0700 e/21/1985

• 25 3 9 7.P 5 3 75.3R6 73.2??

89.000 88.165 0.835 398.035 25.489 YES 0.0639 0.0697 e3 0i P/21/1985 9:30

?97.782 85.404 73 552 89.000 88 152 0.848 m398.035 24.803.YES _.

0.0642 0.C699

>g I

P/21/1985 9:35 2*7.833 65.391 75.7ge 89.0C0 88.161 0.838 398.035 12.248 YES 0.0641 0.0698 O f' 8/21/1?P5 9:41 397.a05 85.423 73.618 89.000 88.160 0.839 398.035 6.e39 Y E.S 0.0641 0.0698 i

5/21/19P5 5:45 397.a04 85.361 73.1*4 89.010 88 172 0.838 398.034

_. 65.760 YES. _ _0.0635-0.0692.

n P/21/1985 9:te 397.675 e5.407 73.749 87.010 88.173 0.837 398.034 56.616 YES 0.C631 0.0687 I

h*

$ ['8 8/21/19 e 9:?5 397.*05 85.411 73.357 89.C1C 8e.181 0.829 398.033

.71.251 YES C.0625 0.0681

.E/21/1985 1C: 1 397.P70 F5.41P 73.879 81.010 88 174 0.836. 398.033 60.543 YES _

0.OE21 0.0677

>3 F

6 P /21/19 P5 10: 5 397."17 PS.3A6 73 390 87.010 88 180 0.830 398.032 89.834 YES 0.0614 0.0670 8/21/1985 10:1c 397.*25 F5.389 73.358 81.010 88.181 0.828 398.031 100 457 YES 0.0607 0 0f63 9

E/21/1985 10:15 397.PE2 F5.407 73.423 81.010 88 170 0.839

_398.031

_ 82.453. Y ES. _. _ 0. 0 6 0 4,0.0659 e/21/1985 If*2C 397.4PF F5.400 73.682 89.010 88.175 0.835 398.030 83.325 YES 0.0599 0.0654 t

8/21/1985 10:25 397.872 P5.383 73.%85 89.010 88.169 0.841

'398.030 81.201 YES 0.0596 0.0650

$b

.8/21/1965 10:30 3 9 7.r 61 E5.409 73.761 09.010 88.171 0.839 398 029 80.645. VES.

0.0593 0.C647 6

8/21/19P5 10:35 397.868 65.394 73.845 89.010 98 170 0.840 398.029 81.985 YES 0.0590 0.0644 i

P/71/1985 10:40 397.913 P5.371 75.780 89.G10 88 176 0.834 398.028 116 629 YES 0.05e4 0.0637 I

8/21/1985 10:45 39F.003 85.311 73.879' 89.010 88.186

.0.824 398.027 275.069 NO

.0.0572 0.0627 i

e/21/1965 10:50 397.938 85 349 73.651 E9.010 88 178 0.832 398.026 261.542 NO 0.0565 0.0619 8/21/19E5 10:55 39 7.F E2.

85.380 73.390 89.010 88.170 0.839 398.026 225.024 NO 0.0561 0.0615 8/21/1*t5 11: 0 397.*51 85.348 73.683 89.010 88.181 0.829 398.025 300.338 h0 0.05b3 0.0607 8/21/1*P5 11: 5 397."15 85.379 73.293 89.01C 88 178 0.832 398.024 335.074 NO 0.0547 0.C601 8/21/19P5 11:10 397.P73 e5.386 73.977 89.010 ed.170 0.840 398.023 342.*$1 NO 0.0544 0.0598

')

i e / ?! /1985 11:1*

397.FP2 PS.391 73.22K 89.010 88.172 0 838 398.023 37*.453 NO 0.0540 0 0594 y

S/21/19F5' 11:20 39 7. 8 5 f.

PS.404 73.( 18 P9.010 E8.16*

0.841 398.023 390.4R5 NO 0.0538 0.0592 c

P/21/1*85 11:25 397.*31 R5.380 7?.423 A9 010 88.181 0.828 398.022 702.374 NO 0.0532 0.0585 O

J, 8/21/1985 11:30 3* 7.F 75 A5.360 73.716 89 010 88.166 0.844 398.022 835.615 No 0.0529 0.0582 ut i

P/21/1785 11:35 397.653 E5.333 7!.74a P*.010 88.179 0.A31 396.021 25055.550 NO 0.0521 0.0574 k

.d?

6/21/1995 11:4C 3p7.587 85.396 73.781 89.01C 88 174 0.836 398.020 2061.397 NO 0.0518 0.057C 8/21/1985 11:45 397.;77 85 335 73.224 89.010 88 173 0.837 39R.019 773.548 NO 0.0512 0.0565 S/21/1985 11:5t 397.F63

>5.372 73.*86 8'.010 P8.170 0.840, 398.019 490.840 ho 0.0509 0.0561

$ e/21/19F5 11:55 397.?20 P5.339 73.552 89.010 8e.172 0.838 3 9 E.018 361.368 A0 0.05C3 0.0555 V

. J/21/1985 12: 0 3*7.h77 F5.336 74.237 81.003 PR.151 0.849 398.018 290.745 NO, 0 0503 0.0555 P/21/1985 12: 5 397.P91 R5.283 73.749 F1.060 88.157 0.843 398.018 241 5?4 NO 0.0499 0.0551 8/21/1985 12:!O 39 7.f "

P5.P96 73.5f6 ts.000 68.154 0.h46 398.018 207.726 NO 0.0497 0.0548 O

8/21/1955 12:15 397.r%6 PS.301 7A.P13 P".0C0 88.15*

0.841 39P.C17 179.117 40 0.0494 0.0545

s

• • • • • KA S F o !N T C ALCUL A TED R E SUL TS *** **

'U

• ~, i CTPT CTMT CTRT (TPT CTFT

-CTMT LSF UFFER i

AIP AIR DEW TOTAL AIP VAPCR LSF LSF UCL LE AM CONF

_ CATE-TIPE f*A35 TEMP POINT FRESS PEESS PkESS INTCPT STA8 EONV RATE LE VE L 8/21/1985 12:20 397.875 85.31P 74.204 89.00C 88.160 0 840 398.017 151 634 ho 0.0491 0.0542 9

8/21/1985 12:25 397.962 85.322 73.455 89.01C 88.179 0.231 398 016. 235.980 _ NO..._ 0.0484 0.0534 P

8/21/19R5 12:30 397.a24 E5.289 74.Oca 89.01C 88.165 0 845 398.015 176.655 NO 0.0478 0.0529 s

C/21/1985 12:35 39 7.' T7 85.284 73.F13 89.01r P8.176 0.834 398.014 188.912 NO 0.0470

0.0521

O ;

_ _0/21/1985 12:40 397.*2P F5.324 75.797 8'.010 88.171 0 838 398.013

.141.746

%0 _ 0.0465.

0.0516 F/21/1?P5 12:45 39F.'*1 85.356 73.044 85 010 88.180 0.830

~398.012 110.432 ho 0.0454 0.0t04 4

398.013 123.474 NO 0.0459 0.0510 P/21/1985 12:5b 397.T*6 E5.!29 73.454 89.010 88 174 0 836 s

i e/21/1985 12:55 397.?14 P5.331 73.651 85.010 88.170 0.840. _398.011..

99.231. ho

__.0.0449..

0.0500_ _.

il 8/21/1985 13: 1 3?7. alt 85.253 74.009 8*.000 88.164 0.847 398.011 90.225 r.0 0.0445 0.0496 h.

t 6/21/1965 13: 6 3?7.F70 F5.30C 73.717 81 000 88 155 0 845 398.011 81 561 NO 0.0443 0.0493 l9

._ f/21/1985 13:10 397.94a 65.232 73.651 8*.000 88.161 0.839

.398.010 86.217 No

.0.0437 0.0487 _

8/21/1985 14:15 397.PR2 85.273 73.781 A1.00C 88.153 0.84F 398.009 70.950 NO 0.0435 0.0485 8/21/19P5 13:20 397.9 %

M5.248 73.6R2 8E.990 89.163 0 827 398.009 73.681 NO 0.0429 0.0479 O [.

,__P/21/1985 13:25 397.903 85.244 75.749 Re.99C 88 153 0 837 39P.006. _ 60.176..No

.0.0426 _.0.0475 _

ii 8/21/1985 13:30 397.917 65.175 73.391 8F.9R0 88.145 0.835 398.008 53.417 YES 0.0422 0.0471 P /21/19 e 5 13:35 397.e12 85.193 73.814 88.960 88 147 0.833

-398.007 49.921 YES 0.0418 0.0467

% ['

_ 8/21/1985 13:40 397.946 85.062 73.391 88.970 88.133 0.837 -_398.006

. 59.754 'YES _.O.0413 0.0462 8/21/19P5 13:45 397.*22 F5 134 73.553 88.970 88.140 0 830 398.006 50.916 YES 0 0408 0 0457 i

8/21/1985 13:5C 397.*11 85 138 73.781 89.970 88 138 0 832 398.005 45 140 YES 0.0405 0.0453 1

__2/21/1985. 13*55 397.e87 e5.086 73 5P5 88.960 88.124 -

0.836 _ 3 98.0 0 5.. _41.299. Y ES __

0. 0 40 3.

0. 04 51..

f.

S/21/1985 14:

C. 397.914 85.112 75.096 88.960 88.134 0.826 398.005 39.668 YES

0 0399 0.0447 M

,()

MAX ALL0wAett CrE R A T I O,. At TEA AGr. RATE <tTO =.15tT1 = C.0521 wTS f-

_ PA N. ALLOW AELE LE A M AGE D A TE ELT) = 0.0695 WT2 a

i' k-

• • • TERMINATION CRITERIA ***

~

)b

~

1. 5 PERCER:T UCL LEAMAGE RATE IS A POSITIVE NUMBER LSF LEAWACF ESTE IS LESS THAN.75LT VES YES 95 PERCENT UCL LE AA AGE R ATE IS LESS ThAN.75LT YES

'3 LSF LEANACE RATE AS A FUNCTION OF TIME HAS STABILIZED....

_._,. _. N O..

95 PERCENT UCL LEAKAGE RATE IS CONVERGIhG WITH THE LSF LEAMAGE

.YES l

.)

a ',

6,

~_

N g

) f m

4 O

t-h

)"

m I+e U

.h o..

~

. L_

'M.O j/

• +ese M Ast POINT C ALCUL ATF P RF SUL TS *.***

1 [l (

TTM1 CTFT CTFT CT"T CTMT CTMT LSF UFFER h p) '

AIR AIM OEW TOTAL AIR VAPOR LSF LSF UCL LFAK CONF

[f OATE T!*C FA5?

TIPP POINT PRESS PRESS PRESS INTCPT STA8 CONW RATE LEVEL-8/21/19P5 1A*30 f a 7.82 R 84.863 75.4?3 88.940 BP.114 0.826

-e/21/1965 -th:353-3 9 7. 91 f-- 8 4. 9 6 3- - 7 4. 3 91 - - 8 8. 94 0 0 8.1 1 1 - - 0. 4 2 9 - - 3 '. 7. 9 2 6 --- - - -

0.8830 l

M/21/1985 16:40

?97.950 84.939 73.390 88.940 88 114 0.826 397.921

-0.7849 5.2817 p

P/21/19P5 16:45 ? ? 7.P a4 P4.976 73.259 82 940

1. 8 104 0.832 3*7.932 0.4977 3.0026

c)

- --- 8/21/1999 18:50

?"7.PF?

84.970 73.587- --88.940

-RP.104

-06836 - 3*7.937 -- -

0.P2*3

2. 0 7 99 ---- ~ - ~ '

8/21/1995 16:55 397.9: 0 84.*23 73.228 68.940 88.105 0.835 367.929 0.4128 1.3142 fy t.

M/21/ IMP 5 17; 1 3"7.914 84.*32 73.292 M8.94J 88 105 0.835 357.926 0.2659 0.8917

- A/21/l op h - 17 5- - ? 5 7 9 E 7 --- 8 4. 9 0 5 -- - - 7 ?.1

• 2 - -- 8 3 9 4 0 48,112 9 820 367.91 F

-0 1367 - -6 5000.

b/21/19F5 17:10 2 9 7. f ' "

84.948 7'.3t B 88.940 88.098 0.842 3T7.924 0 1571 0.7360 I'

h) b/21/19s? 17:15 2 9 7.9F 3 84.911 73.4?3 88.940 88 117-0.823 3*7.913

-0.1515 0.4102 6/21/19F% 17:20 2 9 7.cro

-84 29D 73 521 8P.540

-R8.110--

-0 830 --397 909 -

-0.2539

0. 21 11 - - - - --- ~

C/21/1*At 17:25 597.*-0 P4.953 73 4AR 88.940 8A.119 0.821 397.907

-0.2894 0.0950

,)

F /21/ t t e 5 17:30

?"7.*?!

84.971 73.064 68.940 ER.115 0.825 397.910 560.1*0

-0.2321 0.0953 3

- - 8/31/1%S -17:35 --297.q;4 84.954 - 73.394 - 88.940 88 111 0.829 - 197 913 5 93. 8 79--N o

-0 1729 - 9 1119

- l P/21/ lap 5 17:41 397.941 84.94, 73.130 88.940 88.i13 0.e27 397.914 553.94:

NO

-0.is26 0.e826

,I t/21/19P5 17:45 397.944 84.896 73.750 88 940 88.106 0.834 397.914 514 564 NO

-0.1570' O.0564 t-e/21/!nas 17:5 0 -- 397.914

~84.898-

-~7 3.4 8R -- - 88. 930 -

88.100

-- D. 8 5 0

-317.918 372.353 - NO -

-0 1075--

0 0 8 6 4 - - --~

P/21/1985 17:55 397.922 e4.P92 73.096 88.930 88.101 0.829 317.920 342.592 NO

-0.0810 0.0927 F

6/21/1995

!P* O 3a7.*40 84.859 73 2*2 BR.930 E8 10R 0.R22 397.916 308.434 YES

-0.1270 0.0345 a

F /21/19h s - 16 :

G-3 9 7.u p s _, p 4.sp4 -

-7 3.4 q s --_ p g. g 3 0 - --# 8 10 6 0.824---347 910 2 03 b 7 5-- V E S 0 1008---9 0464-N$

M/21/1985 16*1c 297.944 84.901 73.358 28.930 BR.107 0.823 397.918 168.035 YES

-0.0990 0.0338 "I,

8/21/1965 14:16

?*7.97e 84.885 73.2d1 88.930 88.101 0.829 297 920 183.945 YES

-0.0826 0.0388 H

-h 8/21/1?*5 18:2P

?"7.974 84.P72 72.999 PA.930-

--8H.109

-- 0.821---397.918 -- 176 502 YE S -

--0 10 5 5 - 0 0 0 75 '

P / 21/1

• f A 18:25

?*7.91G 84.552 72.131 PP.930 88.109 0.821 217.*2O 230.611 YES

-0.0801 0 02(2 pg

. )

R/21/199E 19:30

?97.911 84.90R 73.259 88.930 88.101 0.829 297 923 272.834 VES

-0.05f2 0.0442 g

- - #./21/1t: 5 14:35-57.9 84.867--- 73 194 - 88.930 - 88 105 0.825 F 97 921-122.562-YE S- --0 06 8 5 0.0248 - 4

(

7 t )-

r/21/1*P5 1P:43 591.041

84. ppa 7?.097 8P.930 BP.104 0.826 297.922 101.302 YES

-0.0657 0.0206 3

4 P/21/ lap 5 18:45

?97.914 84.926 73.489 Pe.930 P 8 10 4 0.826 297.924 205 227 YES

-0.0485 0.0333 N

I'

&/21/1**5 1P:50 297.4$9 44.843 73.2tc

-86.930

-88.099

- 0.831-

'97.923 - 102 022 - VE S -

-0.052, 0.0239 7/21/19F4 le:55 397.Pel A4.892 72.748 BR.930 88.091 0.839 197.927 474 520 NO

-0.0227 0.0529

'y F /? 1/19 e 5 In: 0 JS7.*f4 84.*10 73.966 69.930 88.It6 0.824 297.927 248.803 NO

-0.0217 0 0500 P /21/19 E '> 19: h 2 9 7.#

a _ a4.925 - -73 130 - - 86.930 88 101-0.829---4 97 929 3 2 8.76 A ---N 2

-9 0058 - 9 0630 - -

.d H/21/19RS 19:11 3 9 7. 9?.'

84.873 73.292 8P.930 88.100 0.830 97.929 240.370 NO

-0.0058 0.0588 F/21/15k5 Ic gg 2 9 y.p, 3 g4.a59 7?.000 BR.930 88.099 0.831 T97.933 868.919 NO 0.0186 0.0829 l[

j P. /? ! / l o ? '

19:2G Ze7.Pc4 A4.931 T T.4 57 RR.930-

-8R.101

- C. R2 9

--u 9 7. 9 3 5 - - 9 0 8 4 61 -- N O -

0 0291 0 0914-t' 3

A/21/1*c5 1':2*

Jn7.a77 84.901 73.934 EA.940 F8 114 0.826 97.932 531 100 NO 0.0106 0 0721

.)

i 8 / 21/19 k '.

19:'O 247.*?a 9 4. 95 f-73.409 8P.940 86.114 0.826 97.931 292.959 NO 0.0071 0.0653 1/21/ L *M.

19:35-- 2 9 7.o.' e, 4 4. A R S 7 3.0 t.5-S B. 9 3 0 - 8 R.103-0.42S 697.931 205.794 - - --0.0046 - 0.0597

~

F/21/lcr5 19:40 2 9 7.C 14 84.PFu 73.097 8P.950 8P.09P 0.832 197.931 167.570 NO 0.0086 0.0610 y

F/21/1"P5 19:45 2

• 7."; 6 A4.P%F 73.455 PF.930 88 102 0.828 197.930 180.472 NO 0.000R 0.0511 l

6/21/19P% IS:50 347.*'5 4 4.r' 7 73.8*9 Ph.920 8A.089 0.R31 197.932 246.618-NO 0.0095 0.0581 8/21/19a5 19:50 ? 9 7. "? !

R4.P47 73.1A1 88.920 88.095 0.R25 397.931 103.439 NO 0.0084 0.0547 F/21/19R5 20:

377.**3 P4.P24 73 5F5 PR.920 RB.004 0.826 M 9 7.931 96 183 NO 0 0046 0.04R9 4 /21/17.5 4 04 5-J O 7.M 1 S 4. F 2 2,---

7 3.5eG--

88.910- BR.C 82 - -0 828 -- 39 7.932 246.7GO - N b

0. 012 7-G. 0 5 56 t/21/19F5 20:10 317.65s 84.R17 73.200 HR.910 88.073 0.P37 397.935 723.508 NO 0.0275 0.0709

[ ')

8/21/19r5 2e:15 297.911 84.789 73.1f 2 P8.a10 FR.ORI 0.829 397.935 419 385 NO 0.0289 0.0705 13 8/21/19F% 21:20 ? 9 7.P"7 R4.P2r 7t.61R AB.920 AP.0P3 0.H37 397.936 437.340 NO-0.0328 0 07c7-P/21/19M 23:25 ? " 7. P ' 5 P4.905 75.472 PP.920 88 0FP O.P32

?97 93a 160a.155 NO 0.0438 0 0A?6 O

')

F/21/19F5 25:30

?ST."'7 84.N29 7?.32%

EM.a20 PM.P?!

0.P29 3a7.*3P 636.750 NO O.0407 0.07a0 E '21/1' a t & C : ' S J ' 7.0 aa -- 64.849 73.181 86.920 88.101 0.819 - 297.936 5 0 0 186 - - N O

- 0. 0 32 6 -- 0. 0 7 01 - - g,- - - - - - -

P/21/11PN 20:41 2 9 7.c ? f-44.R1*

7 3.9< 4 R *. '2 0 DR.091 0.929 397.935 304.579 NO 0.0290 0 0652 f

- )

F/21/19M5 20:4*

2

• 7. 5 16 P4.Pf2 72.2"?

PP.920 F*.094 0.P26 397.935 20%.192 No 0.02PP 0 0FT6 h$ e/21/1*R% 20:50

!"7.k2'

1. 4.P77 7'.

144 80.120 HA.0"1 D.829 357 936 206 723 NO 0.0322 0.065P LJ F/21/1'F% 20:55 39 7.02 M 84.PFP 73.5F%

P8.921 RR.D*P 0.822 397 936 125.473 No 0.0299 0.0624 I.

gg y,_

F/21/15F" 21: 1 ? ' 7. "T 7 F a. P 1:

71.618

• • .??O PH. Ora 0.P31 397."35 11:.657 r.n 0.02Fu 0.05A3

__.__F/21/17ns 2::

5.

Z ' 7. r s c P4.FfJ 7'.7 9

SP.520 BP.0Rn 0.R31 39 7.n 4 195.703 Yt S n.0314-

-0 0617 ss

-~ -~~ +

e.**.

PASS POINT C A L C t'L A T E D P E SUL T S * *.**

t ri"i CTFT CT'T O T *' T CTPT CTFT LSF UPFER f

e

1c AIF DEW TOTAL A IF VAFOR LSr LSF UCL LTAK CONF 0 ATE T!"r

• AY TEv POINT 00Est FRF SS PPESS INTCPT Star CONV RATE LIVEL Ll l F/21/laF5 P1:11

+ 7. F ' 1 P4.PE2 73 521 PF.920 HP.OR9 0.831 397.937 202.319 YES 0.0341 0.0635 1

~/21/14k5 21:!A Jc7.cs0

-R4.Pl*

7 3 3 90 -- 8 P. 42 0 -S a.0' O -- - - 0 830

--3 9 7.936 - 15 0 2 7 4-Y E S -

0.0315 - 0 0600 h

8/01/1995 21:?0

?'25 074 94.75G 7 3. 0 ' ',

PE.a20 P i!.101 0.R1*

3a7.932 4P3 541 NO 0 0176 0 04P2

[

e/21/1985 21 : T *. ' ' 7. c h P=.E33 73.293 HP.420 E8.107 0.818 397.030 2"9.692 NO 0.010s 0.0412

,3 a/21/19P5 21:51

't

!. u 3 F4.890 7'.3'1 PF.a20 RR.091

- - 0.824- - 397.932 17 5 5 6 9 -- - N O - -

0.0154 -

0.0444--

8 /21/1 h '

Pl*?n 7.M ?

P4.96M 73 022 Ba.c20 ER.092 0 828 397 932 123.414 NO 0.0171 0.04t8

-,)

• / 21/1 " ' P1:4r' 7. F 7 84.P96 7'.179 RF.420 PP.ppo 0.q33 347 934 220.R76 NO 0.0225 0.0508 A# P I /1 G M '-

71:4F-Jo7.M9-A4.5 0 3 - ~ 7 5 519---49. c 2 0 - 4 9. 0 8 6---G. 4 3+- 34 7 0 36-- 366.G 54--ho 0 02 a3----G. 0 5 75-8/?!/19a5 21 : ': 0

" 7. 8 7 C P4.874 73.455 PP.120 PM.0PR 0.832 397 937 346.740 NO 0.0334 0.0609 p.)

w /21/ I '

21*55 2'7.417 P4.621 7?.4 f R 6P.92G 88 0PP 0.832 397.037 231 760 NC 0.0324 0.0591 i

• /21/15"'

?T: 0 J'7.P's P4.877 73 229 PP.423 99 079 0.824 397.939 657 96P

-ND 0.0343 0 0661 F / 21/1 '" T?: '-

2 " 7. * ' '

P4.57A 7T.5P7 PF.'30 BR.110 0.P20 397.*37 406 629 NO 0 0328 0 0ta5

't y

M/?!/14-t 12: 10 ? ' 7. P ' 7 A4.HR3 7'.651 89.950 PR.093 0.837 397.937 166.366 NO 0.0336 0.n5"5 1-

-- - a / E 1/1 % %

,2:1~-

243.9!4 - 44.Pc6 - - 7 !.

• w - 8 9. 0 3 0 - R 8 1 G

O. 6 3 0---3 0 7 9 3 7 - 13 7.8 5 5 -N O -- 0.0 3 2 6- 0. 0 5 7 8 - ---

F /21/ 3 r ' '

'?:;c

?

• 7.

• t 7 e4.R79 7 3 2 ? st 9a.933 ha.106 0 824 397 935 222.0F6 NO 0.0282 0.0530

l,-)

F/21/Im %

?*:?%

? " 7. M 6 R4.PG4 72 3sR AP.930 PA.109 0 821 397.934 1P3.610 No 0.0240 0.04F5 a/?t /IN

?p:?O 47.87-64.008 79 587

-RA.020

--6R.0P4

-0.830 347.Q36 416.412-N O - -- 0. 0 31 P -

0 05(0 h / 21/1 % 5 2?*?f P i.404 P4.P97 72 926 RH.920 88.098 0.R22 397.936 203.670 NO 0.0311 0.0553 3

r/21/ lead 22:40 L e 7. F

• 5 P4.Rf8 73.815 88.020 PA.0PP 0.M32 397.937 IPO.684 NO 0.0327 0.05(3

-- -- - -* / ; a /14 a 5 - ; & :4a ? t 7.M P --

04.*P&

73 455 - 68.424 A n.0 A A--0. A 3 2 397.93A hl.6 %-W 0.0&72 0 06G6 r/71/19e*

??:50 ' 4 7. P : ?

R4.916 73 325 BR.920 PP.0P?

0.83P 3*7.940 710.459 NO 0 0427 0.0661 H

h

>-3

.c F / ? t /1'W %

??:55 2 - 7. * /

R4.895 77.337 BP.9?0 P?.0c9 0.P31 397.941 645.535 NO 0.0447 0.0675 e/21/ loph 2?: 1

? ' 7. c ~

84.A7A 73 5,4 kP.920 P R.1 P 5 - -

0.R15-397.939 424.844 NO

- 0.0406 0.0632

,f 9 /r ! /12 *

??: ?

? i. ' I r P4.853 7?.3t 7 RP.920 PR.093 0.827 397.039 2bH.8a0 NO 0.0391 0.0611

{i) 7 / 21/1 " _

7': 10

7.

• A t 84.r?;

7'.477 Pp.920 PP.09?

0 828 397.*40 226 02E

'NO 0.0411 0.06?7 4

1/ 21/1 % r 2':1*-

' c 7. 4 7 - M4.906-74.455-

- N 8. 9 2 0 -- 8 8.0 91 -- - 0. 82 9 - 347.940 -- 243.615 -0.0426----0.0640 -

-O - q l p ',

r/?!/lcf 2':?0

' ' 7. F P S M 4. P ( (.

73 611 PR.920 68.0A7 0.833 397.940

?49.632 NO 0.0436 0.064?

[

.I

• /? ! /I N '

22:2f

""7.'t i

F4.7P6 75.422 BP.920 88 093 0 827 397.930 420.190 YES 0.0389 0.0555 y

• /;1/les

'*:31

? ' 7. c c i P4.787 73 6'O 86.410 PR.07A 0.832 347.939 216.765 VF S 0.03P7 0.05F8-h

• /21/1"4' r *:%

'. 0 7. F F 7 P4.801 73.749 PP.910 P8.078 0.832 3a7.439 137.870 YIE 0 05a0 0.05P7 F/?1/14a*

??:41

? 9 7.F ' t P4.78; 73 4P8 88.910 AM.077 0.833 397.939 219.2 63 --VE R - 0.0 4 0 9 - -- 0. 05 W %

[,l 106.429 YES 0.03PB 0.05N1 a/21/19et.

23:4A 247.8 W -

.-64.776--

73.260 - 88.900 - A R. 0 6 7. - - 0. 833 - -J9 7.9 59 ---

sg F/?!/la6'

.?:51

!97.701 R4.769 73 522 8P.a00 PP.076 0.824 397.a39 72.986 YES 0 0403 0.05e7 1;

y F/11/!m i

? :

'.

• 7. P 1

• R4.771 73 356 PP.*00 EP.05*

0.842 397.941 570 261 YE S 0 0441 0.06?5

' t F/n/lar' n: 1

?9'.87?

M4.78' 73.1!0 PN.990

.sp.071 0.829 397.941 370.471 Yr5 0.044R 0.06?8-F /; / /1 %'

9:

r-

' 5 7. & ' )

84.773 73.2'3 98.890 M8.066 0.924 367.942 423.103 yrs 0.0464 0.0640 ill;)

f /?i /1 %

• t.:11

?97.97-P4.704 73.4/3 NR.990 88 061 0.R29 397.942 3?P.516 YFS 0.0465 0.0639

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a 3 e4.54p 73.310 PP. PRO P R.05 7 0.R23 3'7.94F 602.380 Yrs 0 04f 5 0.06:4 9: 3 6 /T 2 /1 % -

0:41 7.'14 84.679 7t.2"3 PM.ARD PP.064 0.R16 307.441 36(.2 E 7 Y15 0 04'.0 0.0606 g

3 L/;;/1"t' a:4A-

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EP.034

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j y f /72 /1 v.

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P4.607 7?.057 PP.670 P8 052 0.P18 397.94?

7PP.0P4 fL O 0.04a5

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4

• r 7.re.

94.fc7 7f.?n7 Pp.seg.0 PP.0?P 0.P3?

3a7.a45 5070.371 NO 0.0577 0 0(.78 k

P/T?/195 1:1f

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0.82P 397.945 10"4.112 NO 0.054F 0.06'8

{'

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15

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- 0.0556 0.0 7 0 4 - W -

t W

a /2 2 /1 "-

1:20

? ~ 7.5 :

64.5'7 73 17d P1.P6D H P. t' ? !

D.R28 347.946 4 7".5 f M NO 0 0559 0.0703

.N H/??/I' 1:2<

'"7.F

M 4.* ! 7 7 9.S V P P. A 6 f) o C. ts ? +,

0.R25 367.a4s 410.fj e f t' 0 0 05'S 0.06*7 4 !'

6/9;/:"n 1:*r

' " 7. a. 7 "

B 4.*;41 7f.?'1 08.,)60

> P.I ? 4 0.926 397.940 41%.674 f:0 0 0550 0.06T9 i

ft /2? / I m 1:2

'97.5.

1 P 4. * '- '

7'.240 99."60 a w. f> ? ?

D.R27 3' 7.N 315.?a5 No 0.055a 0.06'6 l g F /?2 /1 ' '

1:*)

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0.0546 0.0061 i

l M

^)

fD

- M A7-Cite'J Abt E L E c.5# 0E Fair ( L il--o-C EMS W TO P.X ALLOW AT LE CFf f 8 71CN AL LEARAGE FAlt (LTD

.7SLT3 = 0.0521 WTt

+++ T E R P I AS T IOrd CRITL'IA ***

q

-- 4 5-f f A C F N T UCL LE At A GE - P AT E - IS-A - POS IT I bE-NUP9FP TES L!F LEAKAGE RATE I!; LE SS THAN.75LT No

{

,3 95 PEFCENT t:CL LEAPAGE RATE IS LFSS THAN.75LT NO LSF LE AF Air R ATE A:;- A FUNCTION OF T I PE-H A S S T A ? ! L i f f fi - --- - -- - - -

---

~'ND'~~~~~

.h 95 FERCENT UCL LE AP AGE RATE 15 CONVERGIkG WITH THE LEF LEAKAGE YES

,q 1

j -)

H

.as

_m_

R a j.s to

? y

's

)

.i

.s ii 5

y J'

j c __ _ _

O

)

i W

OW

_ W W....

W I

L._

1 1

1 1

1 APPENDIX D TYPE A TEST PLOTS j

1 I

34.

MAINE YANKEE 1985 LRT (MASS POINT)

LEAKAGE RATE VS TIME (LSF & 95% UCL)

.3 0.25 1

0.2 -

h c<

Q 0.15 x

m m

Q 0.1

\\

7 x

~

g g 0.0521 1--- Q g

x 0.05 -

i 6

a q

'I 0

N

-0.05 -

d h N5 4 4 5 I N N

6 5

h e

k I

6 l N k

i (

4 I l h I

O 1 2 3 4 5 6

7 8

9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 TEST DURATION - HOURS

MAINE YANKEE 1985 LRT MASS POINT)

MASS OF AIR 398.3 398.2 -

398.1 f

b s

i I'

I

\\

398 -

o p

//Iq l n

b l4 i

/

Lily m '3r d

o t

i il 1lff l4 i

Ik1 R

397.9 -

7 (t

'Vji k

i m

397.8 -

1 Y

1 l

\\

397.7 -

397.6 -

397.5 rr r c =r cerrrrry r r e cr crrrrrrrry r rr"r r crrrrrrrrrr crvr e-1314151617181920212223 0 1

2 3

4 5

6 7

8 9 1011121314 TIME (HRS, STARTING ON 8/20/1985)

gg 7" 4

1

-,r3 1

r 2

r.

1 v

.v1 1

v 0

.e.

1

)

y T

r 9

N

.c IO r8 r

P r7

)

5 S

r 8

c6 9

S E

1 A

R

/

MT

. 5 U

0 t.

2 A

v 4

/

R T

v 8

E R

P

v. 3 N

M L

4 O

E 1 2 G

T 5

r N

T r1 T

8 N

I R

9 E

r 1

M r0 AT N

v S

E I

v3 A

E T

v2 S

N K

O 7 2 R

2 H

N C

f 7

(

A v.

2 E

1 1

M Y

v2 I

0 T

E 3

N 7 9 r

1 IA

(

,8 M

.r 1

7 y

1

_,6 1

y

., 5 1

4 1

3 1

7 8

6 4

2 6

8 6

4 2

5 8

6 4

2 8

8 8

8 6

6 6

6 5

5 5

5 4

4 4

4 8

8 8

8 8

8 8

8 8

8 8

8 ayv wE3<1wc 3-t U-

t MAINE YANKEE 1985 LRT NASS POINT) l CONTAINMENT TOTAL PRESSURE l

89.5 l

89.4 -

89.3 -

G I

z 89.2 n

o H

e y

e a

m 89.1 w

C G.

H 39 _

1 88.9 -

.S 85.8

..y 1..,

er.cr c.c..r vrv.3..r rvr cer t cy cvrrrr eve c t crervrerrrrrrr 1314151617181920212223 0 1

2 3 4

5 6

7 8

9 10 11 12 13 14 TIME (HRS STARTING ON 8/20/1985)

MAME YANKEE 1985 LRT NASS PONT)

CONTAINMENT AIR PRESSURE 88.5 I

88.4 -

1

?

'NUAn N SS.3 -

IW 1

o i

h,

( bM%

5 b

{p.

mau 88.2 -

[9%

4%

4, 58.1 l

.O ss

. y,.y.c,..,..c.,.r,. v.,y v.t.r,..v.c y.,.,.,.r.c y r v.y.r.71.v.rr.,. r.,.r.c,. ev.v r.r v.rc..

1314151617181920212223 0 1

2 3

4 5

6 7

8 9 10 11 12 13 14 TIME (HRS STARTING ON 8/20/1985)

MAME YANKEE 1985 LRT MASS POplT)

CONTAINMENT VAPOR PRESSURE 0.9 0.89 -

0.88 -

0.87 -

E l

0.86 -

yl b

I a

g z

y r'

u y

0.85 j

{

L i

3

(-

n

\\

n l

\\

\\

\\

l m

3 b

0.84 -

l )l fg

! fl' h

gl

.i J

g a

l k

[

l 0.83 -

b i

I l

i 0.82 -

t 0.81 8

0.8 cery.cr.v.,,.v.t,y,77.c,.v.c1,,,e,eerreerrim,vrcrrr,rrm rvr-1314151617181920212223 0 1

2 3

4 5

6 7

8 9 1011121314 TIME (HRS. STARTING ON 8/20/1985)

MAIPE YANKEE B85 LRT (MASS POINT)

VERIFICATION TEST (LSF) 0.2 0.18 -

0.16 0.14 0.12 m:-

o ' <'

q 0.0838 D

0.05 -

1 6

I w

0.06 0.049

~C Y

e<

-w E

0.04 u

0.02 r

6 0

J

-0.02

-0.04

-0.06

-0.08 -

2

- 0.1

............i...i............................................i.................

1....i.

0 2

4 6

8 TEST DURATION - HOURS

APPENDIX E TYPE A TEST PROCEDURE s

42,

~

. 1, PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No. 6 Page 15 or 16 s

[G c

Form No. 0-06-2-3 Rev. Date 7-3-85 PCR#

CGorS Date_/eb/E Time i4/C This form shall tn utilized to document and obtain approval for temporary changes to Class A and B Procedures. Ovnges must be reviewed by POR: and approved by the Plant Manager within le days of the above date.

(1) ' Procedure #_ 8 17.i Rev. # 0 Sceps Affected:

/0, 7 Procedare

Title:

C h=. /~

heuwoucur /c etwns fr4 2,,rr rect-(2) Reason for change:

3eJ,a : intx ornec W r.w4.cc fr ne m Fou.r'.uce; rn CN>wrur m

iir.c. cy wir e r. t.%ec e ty

-,wi n

,e m-Te M utra fe t Ceru o ur N TevsTe6.e.

c s

(3) Description of Change:

(attach pages or describe here)

C. Mren nre C7 v.

int.

dec.r v v re, w.CA mo. Au ror +Ms 2 ewer dre 0C ml s.' Cb ? OCks%M*h*7 Ot* si slM CF FR %htt Y C.M!r,b oa e.w re ;r_ o. w re,: Rept> re ec, mws Acton.rre.-

(T th :

oi C s.rmmt.

rec c:en te 1 (4) Tempcrary Approval:

This temporary change is necessary and does not alter the inte

• f the

/

Licensed SRO [Q

'.1/i n)t.S*[(ff - Aw (p

procedure.

,C

/

was [

q v

(5) PORC Review' and Plant Manager Approval as:

A temporary ch oge which is new terminated

'A temporary change and as a procedure revision

< ' A temporary change to remain in effect until Other (explain).

(6) PCRC review date PCRC Secretary Plant Manager Approval j

9226N-JMT -

0

,,_-.-.--.--,--,_,,_-.,-_..__.m.,,--.r,-._.

., _. ~.

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,-,-m__,..

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No.- 6 Page 15 or 16 Form No. 0-06-2-3 Rev. Date 7-3-85 PCR0 SS zc0 Date_ t[of6rTime too to Class A and 8 Procedures.This form shall be utilized to document and ob Plant Manager within 14 days of the above date. Changes must be reviewed by POPC a (1) Procedure #_187.t Rev. # 4 Steps Affected:

88. 0 Procedure

Title:

_ % A. Cbs:ws4

• m r em.W a a u A,<, h rn r (2) Reason for change:

Ter Q_ xema ict Pa.mv & S n an ns u Asse wm Ovw $ Test Rms (3) Description of Change: (attach pages or describe here)

Se, Amc.o (4) Temporary Approval:

This temporary change is necessary and does not alter the intent of the procedure.

Licensed SR0y Mgt. Sta s

,, A y,

(5) PORC Review and Plant Manager Approval as:

g A temporary change which is now terminated A temporary change and as a procedure revision A temporary change to remain in effect until Other (explain)

(6) PORC review date _

PORC Secretary _

+

Plant Manager Approval 9226N-JMF

e

}

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No. 6 Page 15 or 16 Form No. 0-06-2-3 Rev. Date 7-3-85 PCR# A 5 - // *;

Date Shs/rs. Time /c.25 i a This form shall be utilized to document and obtain approval for temporary changes to Class A and B Procedures. Changes must be reviewed by PORC.and approved t.y the Plant Manager within 14 days of the above date.

(1) Procedure # fi 0.8 Rev. # G Steps' Affected:

it e s.co

/e b Procedure

Title:

-(2) Reason for change:

%d,..s,

c.d.,

r, Mi

b. W c.c ha..s,,j tt c a n f,te-..

m n.

Cn..,.. + L,' 4..,$ 1 - A l a 4 % w h c A A.,\\

-l, % OIr... li %. ) c#s./lb (3) Description of Change: (attach pages or cescribe here) l % e c.M m 'w el h (4) ' Temporary Approval:

This temocrary change is necessary and does not alter thedritent of tne

[' I k precedure.

4 uh s

Licenseo SRO uct. Sta'ff

(

\\'

'?)

'A Y

.i (5) PORC Review and Plant Manager Approval as:

-'~

A tenporary change wnicn is now terminate:

A temporary change and as a precedure revisicn A :emporary change to remain in effect until Other (explain)

(5) PCRC review Ca:e _ _,_ '

,, i:CP"' T20:?tary slant Manc;er,'.ror;vt,

ID

,s PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No.~ 6 Page 15 or 16 Form No. 0-06-2-3 Rev. Date 7-3-85 PCRt_ OT--13 2.

Date<3(7'ZhM Time G M O This form shall be utilized to document and obtain approval for temporary changes to Class A and B Procedures.

Plant Manager within 14 days of the above date. Changes must be reviewed by PORC and app (1) Procedure # 3 /'7e/

Rev. # 4 Steps Affected: 9e Procedure

Title:

C_ u ss A T W 60A*rco LIAk TC W (2) Reason for change: C\\5 Th e ca_m n,

o c wnn c 2c-UP A-4 ApoV9-A-J N w -

A Wrzeta cula rQtn 7Cd w.4 6 on 00-A-t.

7. AAA 3 C.W :-

GF A ctd tVtD u 19 to (3) Description of Change:

(attach pages or describe here) 3' CW L 4 y e.

5; rate 40 op.O9 ( M '\\

FO'1 Un e uALs 4 9-A- 4 As 0 P - A- - E o.h (4) Temporary Approval:

This temporary change is necessary and does not alter he intent of the procedure.

QD Licensed SRO m dl r j Mgt. St f.

., b,-

t 7A) y w

(5) PORC Review and Plant Manager Approval as:

A tenporary change which is now terminated A tenporary cange and as a procedure revision A temporary change to remain in effect until Other (explain)

(6) PORC review date PCRC Secretary Plant Manager Approval 9226H-JHT

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No.~ 6 Page 15 or 16 Form No. 0-06-2-3 Rev. Date 7-3-85 PCRf TS'- 1.2 4 Date_ f-a t- ? fTime /Jo f l

This form shall be utilized to document and obtain approval for temporary changes to Class A and B Procedures.

Plant Manager within 14 days of the above date. Changes must be reviewed by PORC and ap (1) Procedure # J.i7./

Rev. # /o Steps Affected: 7/3 Procedure

Title:

Gla s s 4-14eemLE Oh 4- (_eok ddeTed-u (2) Reason for change:

YP-IO n L.d e r-ecuD V P-foo i a no.

(3) Description of Change:

(attach pages or describe here)

Ohonae VO-to M,-ceuA V9-b n (A) Temporary Approval:

This temporary change is necessary and does not alter the intent of the procedure.

g g

Licensed SRO N4 r

Mgt. Staff

/,

me

//

/'

(5) PORC Review and Plant Manager Approval as:

A temporary change which.is now terminated A temporary change and as a procedure revision A temporary change to remain in effect until Oth'er (explain) i (6) PORC review date PORC Secretary Plant Manager Approval i

i 9226N-JMT n

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No. 6 Page 15 or 16 Form No. 0-06-2-3 Rev. Date 7-3-85 PCR0 8.S~-/Z2 Date B-19-85 Time 1930 This form shall be utilized to document and obtain approval for temporary changes to Class A and 8 Procedures. 01anges must be reviewed by PORC and approved by the Plant Manager within 14 days of the above date.

/mer31 and (1) Procedure # 3.17. I Rev. # (

Steps Affected: MPF c -2 /57N' /. 2, / 5',2 /, /

Procedure

Title:

skrEccorro cowwumswr unx psyc 72 sy-(2) Reason for change:

In -Z/o wns R E ^ru m 8 E P e~O AS JM ~ Z3 /

Rw YMC P X O C E O U R E~

D/D A/oT A'F F"/ E C Y fM) $

f M/9M S -

(3) Description of Change: (attach pages or describe here) cwpu:cD rActs

/>wo sroos ns wDien rm m h rrectto t% psf S l

(4) Temporary Approval:

This temporary change is necessary and does not alter the intent of the procedure.

h1A _,-_k, Licensed SRO a

Mgt. Staff

,h (5) PORC Review and Plant Manager Approval as:

V l

_ Y A temporary change which is now terminated A temporary change and as a procedure revision A temporary change to remain in effect until Other (explain)

(6) PORC review date PORC Secretary Plant Manager Approval 9226N-JMT

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No. 6 Page 15 or 16 Form No. 0-06-2-3 Rev. Date 7-3-85 PCR0 8S-/Z/

Date 8-/9-85 Time /d d This form shall be utilized to document and obtain approval for temporary changes to Class A and B Procedures.

Plant Manager within 14 days of the above date01anges must be reviewed by PORC and app (1) Procedure # 3,/7, / Rev. # 4 Steps Affected: J.27 / NEA> Frsp 4, /2, /

Procedure

Title:

TA> Tre:RM7ED Cours?mstv7'irnA nnrr 72-d (2) Reason for change:

To au st.O prasoA>Ne L 7 n-prsnyisj

/A/

c~nv739/A/MFA/Y />AJr// /

's"HF PPM <t/Pf Fx2"FFDS

-f"PSfC.

(3) Description of Change: (attach pages or describe here)

N//e

. s-/n>

3,2,hk n/ep fo /2,/ nd n

m>

,-/,5 ds

-/ s ni k fir. e,

&n

.3. c'9.

fsee Na N,-J u n.,n d / l-m J i,s h in V

/

(4) Temporary Approval:

This temporary change is necessary and does not alter the intent of the procedure.

Licensed SRO M]+ Iduj Mgt. Staff p

/Z/ M' (5) PORC Review and Plant Manager Approval as:

_b( A temporary change which is now terminated A temporary change and as a procedure revision A temporary change to remain in effect until Other (explain)

(6) PORC review date PORC Secretary j

Plant Manager Approval 9226N-JMT

O

./

/

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No. 6 Page 15 or 16 Form No. 0-06-2-3 Rev. Date 7-3-85 PCR0 85 -il(c, Date 6/ss/ar Time 13#O This form shall be utilized to document and obtain approval for temporary changes to Class A and B Procedures.

Plant Manager within 14 days of the above date.01anges must be reviewed by PORC and (1) Procedure # S.I1.1 Rev. # (s Steps Affected: 3, n, t d to A h Procedure

Title:

bss A-luwesmeo bum.umeur (.ux Rw Tar (2) Reason for change:

h,as Wracuence, 70 trei art nte Prodr Aus Acel rm ertt Fio.o PRio( 7a e m A issr Sc4<e_ r Pcc u.u ute ser,e (ch Nr hosts bu,ess osAescsweet nc4.,

rn 44xtromAwwTs (3) Description of Cnange:

(attach pages or describe here) 9EE Amcuro (4) Temporary Approval:

This temporary change is necessary and does not alter the intent of the procedure.

g Mgt.Stafh,]RA Licensed SRO _ m,t,/h 1

i

)

~

~

V

@ )q //

(5) PORC Review and Plant Manager Approval as:

g A temporary change which is now terminated A temporary change and as a procedure revision

~

A temporary change to remain in effect until Other (explain)

(6) PCRC review date P mC Secretary Plant Manager Approval 9226N-JMT

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No. 6 Page 15 or J6 Form No. 0-06-2-3 Rev. Date 7-3-85 PCR0 B T;- /Z 7 Date 8-El-8Siime /.330 This form shall be utilized to document and obtain approval for temporary changes to Class A and B Procedures.

Plant Manager within 14 days of the above date.01anges must be reviewed by PORC and app AFP.c-l / S4e p 1. 3. )

Pqc to/ S4-e e 4.2 (1) Procedure # 3.1T.I Rev. # 6 Steps Affected: P% e 7/ s tep

3. il Procedure

Title:

n a e y d g J L, I N. f f # rY T

• • '#~

c to u A-(2) Reason for change: r%e

v. t v e_

1,b d in A,,, c. - t

.,1,. o i,3.l d.d vi.mb

,o v, s t.

S A - 14 E l-, m W 4a Lo

,o,_,

d ve-

_+m e r e r. e,,_ e _

%e nnne mm %

e,. c. n k k e e. A e r, Tu-

,)uee_

G v-chOcao;na

+ke e Nr.

n eerdne n, n e

's s-N-7 n,+ \\ ROM- /. *TL e e d er.-ee e.

s m r u,n as 4n

[4-boue -f - c3 o,.4 s u d, e L-e Wo o

o11/

cec 4c'ie4iOe..

n (3) Description of Change: (attach pages or describe here)

D, \\ e 4 -

t mu t

% _ n l-Av,r.. lus A< n U l v,=

- ( % #4 (r,'n 4 c c-1/13.\\1 i

C h a m e_ :Fbne 10 :: L-n-4. ?-

)lr -

+m e I n t e_

s A - / 95,

om Ckde n ndave r-i 4 -l

-L, y m-l,, re J^~-N-7) -

4 e,n e,n o.o 7

c f.

r=

3. If (4) TNo'iOr#7hpfr'ov$$E' D***

' PT "

• +*P This temporary change is necessary and does not alter the intent of the procedure.

Licensed SRO

[

Mgt. Staff

/r y//

/

/

'l (5) PORC Review and Plant Manager Approval as:

A temporary change which is now terminated A tamporary change and as a procedure revision A temporary change to remain in effect until Other (explain)

(6) PORC review date PORC Secretary _

Plant Manager Approval 9226N-JMT

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 i

Rev. No. 6 i

Page 15 or 16 l

Form No. 0-06-2-3 Rev. Date 7-3-85 PCR# 85-117 Date R/i e Time /000

/I

~

This form shall be utilized to document and obtain approval for temporary changes to Class A and B Procedures. Changes must be reviewed by PORC and approved by the Plant Manager within 14 days of the above date.

(1) Procedure #_3,171 Re v. # (, -

Steps Affected:

3. r t, Procedure

Title:

bn d, famAsmbmem lu, Tsc7 (2) Reason for change:

hansa 70 Masr Actat Tw rater %x1 rn ra w,m M A,n n w m e m e (3) Description of Change:

(attach pages or describe here)

Cr a_. ANlb (4) Temporary Approval:

I This temporary change is necessary and does not alter e intent of the procedure.

g Licensed SRO 4, t) /

Mgt. Sta b i m MYu (5) PORC Review and Plant Manager Approval as:

A temporary change which is now terminated l

A temporary change and as a procedure revision A temporary change to remain in effect until Other (explain)

(6) PORC review date PORC Secretary Plant Manager Approval 9226N-JHT 1

Proc. No. 3.17.1 Rev. No.

6 j' ?

Page 7 of 99 f,_

1 INITIALS 3.10.5-Vent a representive sample of twenty (20) accessible containment liner weld test channels. Document locations in the Sequence of Events Log.

Test Supervisor All Steam Generator Manways (Secondary side) have been checked 3.11 closed and studs have been retorqued to 350 ft-lbs per Procedure 5-14-1 prior to the test.

NOTE:

Each Steam Generator has 2 manways.

S/G DR#

E-1-1 E-1-2 E-1-3 R

3.12 The Steam Generators are in Wet Layup per Special Chemistry j g/

j7 Procedure 7.200.2.

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PSS

.t NOTE:

This is a normal shutdown condition.

R 3.13 0-30 psig pressure sages calibrated within six months have boca installed upstream of the Non-Return Valves (NRV).

Install on PT-1013D, PT-1023D, and PT-1033D drain isolation valves. Open all three valves after gages installed.

OPS /I&C 3.14 The Computer Section Head has been notified that 24 hotr coverage should be provided during the Type A test. The Plant Computer is deemed operational for test data gathering, storage, and reduction.

Comp. Sect. Head 3.15 The Test " Sequence of Events Log" is at hand to record pertinent test data and events.

l; Fte Test Supervisor i SS-hl 3.16 The Containment Recirculation Fan inlet, vanes have been adjusted for high pressure operation by swih.hia g %e. mehr-emps.

aEp's IFAppendix~F7

~~ Record "as left" motor PSS l

ID 0254r

PROCEDURE CHANGE REPORT Proc. No. 0-06-2 Rev. No.

6 Page 15 or 16 Form No. 0-06-2-3 Rev. Date 7-3-85 PCR#

85-ll(o Date 6/sBfar Time 13:0 This form shall be utilized to document and obtain approval for temporary changes to Class A and 8 Procedures.

Plant Manager within 14 days of the above dateChanges must be reviewed by PORC and ap (1) Procedure # S.11.1 Rev. # (o Steps Affectedr_ 3.0.1 d 10,4 h Procedure Title; bcs. A - )cier,caveo Oeutw.u.se~r t,- b Tear (2) Reason for change:

h as lusneurnous r0 esci m w Prom'r Ava acel rm A'c rse,u PRiost To c m d Tar hc4mt?

(omu Ort hces bu,e.uh Oswsm.u.a.nu,,

Pec_(c.u wr m+t,e T o m irtr e o m A ^ w u n (3) Description of Change: (attach pages or describe here)

SEE N7Tenco (4) Temporary Approval:

This temporary change is necgssary and does not alter the intent of the procedure.

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j Licensed SRO Mgt. Staf h l L L

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(5) PORC Review and Plant Manager Approval as:

A temporary change which is now terminated A temporary change and as a procedure revision A temporary change to remain in effect t ntil Other (explain)

(6) PORC review date PORC Secretary Plant Manager Approval 9226N-JMT

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