Text

Duke Power Company Oconee Nuclear Station Unit 2 Integrated Leak Rate Test of the Reactor Containment Building
	ML16230A282
Person / Time
Site:	Oconee
Issue date:	08/17/2016
From:	Collins R; Duke Power Co
To:	; Office of Nuclear Reactor Regulation
References
	Download: ML16230A282 (427)
	v • d • e

INTEGRATED LEAK RATE TEST OF THE REACTOR CONTAINMENT BUILDING UNIT 2 OCONEE NUCLEAR STATION DUKE POWER COMPANY PERFORMED BY DUKE POWER COMPANY WITH TECHNICAL ASSISTANCE BY BECHTEL CORPORATION Prepared by: 4.

Robert C. Collins Performance Engineer Approved by: vwc ' .

Robert M. Koehler Technical Support Engineer Robert C. Collins Performance Engineer

TABLE OF CONTENTS Section Page 1.0 FINAL REPORT

SUMMARY

1-1

1.1 INTRODUCTION

1-1 1.2 SYNOPSIS 1-1

1.3 CONCLUSION

S 1-2 2.0 REACTOR BUILDING ILRT PROCEDURE AND MEASUREMENT SYSTEM 2-1 2.1 TP 1 A 0150 03 REACTOR BUILDING INTEGRATED LEAK RATE TEST 2-1 2.2 INITIAL TEST CRITERIA 2-2 2.3 MEASUREMENT SYSTEM 2-2 2.4 INSTRUMENT ERROR ANALYSIS 2-6 2.5 PRESSURIZATION SYSTEM 2-8 2.6 AIR RECIRCULATION SYSTEM 2-10 2.7 INTEGRATED LEAK RATE TEST ORGANIZATION 2-10 2.8 INTEGRATED LEAK RATE TEST PRESSURE CYCLE 2-10 3.0 DUKE COMPUTER PROGRAM 3-1

3.1 INTRODUCTION

3-1 3.2 PROGRAM OPERATION 3-2 3.3 CALCULATION DESCRIPTION 3-6 4.0 DUKE FINAL TEST REPORTS,

SUMMARY

DATA AND CURVES 4-1 4.1 29.5 PSIG ILRT 4-1 4.2 29.5 PSIG VERIFICATION TEST 4-1 4.3 59 PSIG ILRT 4-1 4.4 59 PSIG VERIFICATION TEST 4-1 5.0 BECHTEL COMPUTER PROGRAM 5-1

5.1 INTRODUCTION

5-1 5.2 EXPLANATION OF PROGRAM 5-2 5.3 DEMONSTRATION OF PROGRAM 5-4 6.0 BECHTEL FINAL TEST REPORTS,

SUMMARY

DATA AND CURVES 6-1 6.1 29.5 PSIG ILRT 6-1 6.2 29.5 PSIG VERIFICATION TEST 6-1 6.3 59 PSIG ILRT 6-1 6.4 59 PSIG VERIFICATION TEST 6-1 7.0 LOCAL LEAK TESTS 7-1 7.1 LOCAL LEAK TEST

SUMMARY

7-1 7.2 PERSONNEL AND EMERGENCY LOCK LEAK RATE TEST PROCEDURE 7-11 7.3 RB ISOLATION PNEUMATIC LEAK TEST PROCEDURE 7-12 7.4 ELECTRICAL PENETRATION LEAK TEST PROCEDURE 7-13

TABLE OF CONTENTS Section Page 1.0 FINAL REPORT

SUMMARY

1-1

1.1 INTRODUCTION

1-1 1.2 SYNOPSIS 1-1

1.3 CONCLUSION

S 1-2 1-i

1.0 FINAL REPORT

SUMMARY

1.1 INTRODUCTION

The preoperational Integrated Leak Rate Test (ILRT) of the Reactor Building for Oconee Nuclear Station, Unit 2, was satisfactorily completed on July 5, 1973. Interpretation and final analysis of the test data show results well within the specified limits for this building, which has a maximum allowable leakage rate (La) of 0.25 weight percent of the containment atmosphere per day at a pressure of 59 psig. (Refer to Oconee Technical Specification 4.4.1.)

The reduced pressure maximum allowable leakage rate (Lt) was 0.176 percent per day at a pressure of 29.5 psig. The leakage rates for the Oconee Unit 2 Containment Building were found to be 0.00826 percent per day (Bechtel cal culations) and 0.00828 percent per day (Duke calculations) at 29.5 psig and 0.00209 percent per day (Bechtel calculations) and 0.00223 percent per day (Duke calculations) at 59 psig.

1.2 SYNOPSIS The successful ILRT was performed in accordance with Test Procedure TP/2/A/

0150/03 as approved for use on June 28, 1973. This test procedure is based on specifications provided by Bechtel Power Corporation.

The initial preoperational ILRT commenced on June 14, 1973, but was aborted on June 21 due to excessive leakage. A successful Structural Integrity Test was conducted during this time period. It was later determined that the excessive leakage was due to a vent valve on a steam generator that was not closed.

The successful preoperational ILRT commenced on July 1. The reduced pressure (29.5 psig) ILRT commenced at 2300 hours0.0266 days 0.639 hours 0.0038 weeks 8.7515e-4 months on July 2, following a six and one half (62) hour stabilization period, and ran for a duration of eleven (11) hours. The peak pressure (59 psig) ILRT commenced at 2100 hours0.0243 days 0.583 hours 0.00347 weeks 7.9905e-4 months on July 4, following a ten (10) hour stabilization period, and ran for a duration of ten (10) hours. Following both the reduced and peak pressure ILRTt s a verification (known imposed leak rate) test was run to confirm proper instrument operation.

The verification test durations were five (5) hours and four and three quarters (4 3/4) hours for the reduced and peak pressure tests, respectively.

The instrumentation provided for the ILRT consisted of one (1) precision pressure sensor, twenty-four (24) drybulb temperature sensors and two (2) vapor pressure sensors which were used to measure containment atmospheric conditions during the ILRT.

Leakage rate data were recorded at fifteen (15) minute intervals for both the 29.5 psig and 59 psig ILRT's. Reactor Building atmospheric conditions were allowed to stabilize prior to commencing each ILRT. The known imposed leak rate was established by setting the air flowing through a flowmeter at a known, predetermined value. The method used to calculate the Reactor Building leakage rate is in accordance with ANSI N45.4 - 1972 (formerly ANS 7.60),

"Leakage Rate Testing of Containment Structures for Nuclear Reactors." All calculations, summaries and reports were performed using the Bechtel Power 1-1

Corporation ILRT computer program. Computers used were the Pacific Inter national Computing Corporation computers located in the Bechtel building in San Francisco and the General Electric Time Sharing Network computers. A remote data terminal located at Oconee was used to input the data and to receive the ILRT calculations, summaries and reports. The Duke computer program was used following the test as added support and verification of the results.

1.3 CONCLUSION

S As shown in the computer printouts and graphs in Sections 4.0 and 6.0 of this report, the calculated leak rates for both the reduced pressure test (29.5 psig) and the peak pressure test (59 psig) are well within the allowable leakage rate limits, thereby verifying that the Reactor Building is extremely leak tight with an integrated leakage rate approximating zero.

For purposes of establishing a base for future tests, the leak rates for the preoperational tests were 0.00826 percent at 29.5 psig and 0.00209 percent at 59 psig. These calculated leak rates were obtained by using a linear least squares fit of the fifteen (15) minute leak rate data taken during each ILRT. These calculations are based on the total-time method as de scribed in ANSI N45.4 - 1972.

The ratio of Ltm/Lpm as defined in Technical Specification 4.4.1 is 0.00826/

0.00209 which is greater than 0.7. Therefore, in accordance with Appendix J to 10CFR50 the maximum allowable leakage rate (Lt) for subsequent tests is calculated to be [La (Pt/Pa)2] = [0.25 (29.5/59) ] = 0.176 percent per day.

The verification test consisted of imposing a known leak on the containment at the end of each ILRT. The verification test is satisfactory if the integrated test data and the verification test data are within 0.25 La for the peak pressure test and 0.25 Lt for the reduced pressure test.

The imposed leak was set equal to one-half ( ) the maximum allowable leakage.

At peak pressure the imposed leak was 0.125 percent per day which equals 8.3 scfm. At reduced pressure the imposed leak was 0.088 percent which equals 3.5 scfm. Comparisons of the imposed leak and the calculated leakage for each test are as follows:

Reduced Pressure Test (29.5 psig) 0.00826% Calculated 0.088 Imposed 0.096 Total 0.095 Verification Test Results Peak Pressure Test (59 psig) 0.00209% Calculated 0.125 Imposed 0.127 Total 0.178 Verification Test Results Comparison of the above shows that both verification test results are within the plus or minus 0.25 La (or Lt, as applicable) limits. The difference between the total of the calculated plus the imposed leakage and the verification test results is attributed to the fact that the accuracy and sensitivity of the ILRT measuring system was better than the accuracy and the sensitivity of the flowmeter.

1-2

The data and results of these tests correlate closely with the results of six (6) previous tests on prestressed concrete reactor containment structures (Palisades; Point Beach, Units 1 and 2; Turkey Point, Units 3 and 4; and Oconee 1). Therefore, a high degree of confidence exists that the ten (10) and eleven (11) hour ILRT's are valid and that the leak rates at both test pressures are essentially zero.

1-3

TABLE OF CONTENTS Section Page 2.0 REACTOR BUILDING ILRT PROCEDURE AND MEASUREMENT SYSTEM 2-1 2.1 TP 1 A 0150 03 REACTOR BUILDING INTEGRATED LEAK RATE TEST 2-1 2.2 INITIAL TEST CRITERIA 2-2 2.3 MEASUREMENT SYSTEM 2-2 2.4 INSTRUMENT ERROR ANALYSIS 2-6 2.5 PRESSURIZATION SYSTEM 2-8 2.6 AIR RECIRCULATION SYSTEM 2-10 2.7 INTEGRATED LEAK RATE TEST ORGANIZATION 2-10 2.8 INTEGRATED LEAK RATE TEST PRESSURE CYCLE 2-10 2-i

2.0 REACTOR BUILDING ILRT PROCEDURE AND MEASUREMENT SYSTEM 2.1 TP 1 A 0150 03 REACTOR BUILDING INTEGRATED LEAK RATE TEST Following is a copy of the test procedure used for the conduct of the test.

Data sheets are not enclosed as they would add significantly to the bulk of the material in this report. Data are retained in the Oconee Nuclear Station Master File.

2-1

No.

DUKE POWER COMPANY OCONEE NUCLEAR STATION PROPOSED PROCEDURE REVISION (1) To (Group Head): / (2) Proposed By:

(3) Procedure Number:

(4) Procedure

Title:

(5) Section(s) of Procedure Affected:

(6) Proposed Revision and Reason for Change: (Attach additional pages if necessary.) /

(7) Temporary Approval: By Date Time (8) Safety Analysis: (Attach additional pages if necessary.)

(v)"This change does not conflict with the station's FSAR or Technical Specifi cations, applicable license or regulatory requirements, and does not involve any unreviewed safety question.

Group Head::- )f \- f - Date 71' -h7.3

- **A * * * * * * ~~~~~**

e a~sa * *A * * * *a Endorsements:

(9) Supervisor Date (10) Group Head Date (11) Superintendent (If Required) Date (12) SRC (If Required) Date (13) (APPROVED/REJECTED) . - /}

f <*-- Date 7-' Time

,(14) ( Y Revision is permanent. ( ) Revision is restricted to

CONTROL COPY DUKE POWER COMPANY OCONEE NUCLEAR STATION TEST PROCEDURE RECORD OF APPROVAL AND TEST PERFORMANCE Test Procedure Number: TP/2/A/150/3-1 Test Procedure

Title:

Reactor Building Integrated Leak Rate Test Station Test Coordinator: Robert C. Collins Procedure Approved: Date; d Date(s) Test Conducted: 7 7 - 779 7 7A Test Verification:

STC; Date; 7Date; Group Head; Dat1e Date;-7 /

Witness (If Required); .. L Date; Witness (If Required); Date; Test Approved: Date; Remarks:

0II

TP/2/A/150/3-1 DUKE-POWER COMPANY OCONEE NUCLEAR STATION REACTOR BUILDING INTEGRATED LEAK RATE TEST 1.0 Purpose 1.1 To measure reactor building leakage rate at design peak pressure (59 psig) and at 1/2 design peak pressure (29.5 psig).

1.2 To compare the measured leakage rate to the allowable leakage rate as given in Oconee, Technical Specifications Section 4.4, (Ref. 2.14).

1.3 To initiate a performance history for future integrated leak rate tests.

1.4 To compare the results of the full-pressure and half-pressure integrated leak rate tests.

2.0 References 2.1 Oconee FSAR, Section 5.6.1.2; 5.6.1.3 2.2 0-1472(Rev. 2)- RB Structural and Leak.Rate Test 2.3 PO0-101-B-2, (Rev.6 ) Diagrammatic Layout of HP Injection System.

2.4 Pw.102-A-2 (Rev.6 ) Diagrammatic Layout of LP Injection and Core Flooding System.

2.5 PO-103-A-2 (Rev. 2) D'agrammatic Layout of RB Spray System.

2.6 PO-107-A-2 (Rev.' ) Diagrammatic Layout of Coolant Storage System, (Quench Tank Portion).

2.7 PO-107-B-1 (Rev.12) Diagrammatic Layout of Liquid Waste Disposal System, (Miscellaneous Waste Portion).

2.8 PO-107-D-1 (Rev. 7) Diagrammatic Layout of Auxiliary Building High Activity Sump Drains System.

2.9 PO-110-A-1 (Rev. 17) Diagrammatic Layout nf Chemical Addition and Sampling System.

2.10 PO-116-A-2 (Rev. 4 )Diagrammatic Layout of Reactor Building Purge and Penetration Room Ventilation System.

-2 2.11 PO-144-A-2 .(Rev. 8) Diagrammatic Layout of Component Cooling System.

2.12 0-1422R-9 (Rev. 1) 10 (Rev. 2), 11 (Rev. 1 ), 12 (Rev. 0), 13 (Rev 0).

2.13 Reactor Building Structural Integrity Test TP/2/A/150/2.

2.14 Technical Specifications Section 4.4.

3.0 Time Required 3.1 Seven days 4.0 Prerequisite Tests 6C4.1 IP/O/B/150/1A - RB Humidity Measure, Cambridge Mod. 992.

A( 4.2 IP/P/B/150/lB - RB Temperature Measure, L & N Model.

4.3A. IP/0/B/150/lC - RB Absolute Pressure Measurement, Texas Instrument.

/(4.4 IP/0/B/150/lE - RB Pressure Channel Wide Range.

R/~(C 4.5 IP/0/B/150/lF - RB Vent and Cooling Fans Temp. and Vib. Calibration.

4.6 IP/0/A/150/lG - RB Temperature Recorder Calibration.

4.7 PT/O/A/150/4 - Equipment Hatch Leak Test.

k*t_ 4.8 PT/0/A/150/5 - RB Electrical Penetration Leak Test.

4.9 PT/0/A/150/6 - RB Isolation Pneumatic Leak Test.

( 4.10 PT/O/A/150/8 - Personnel and emergency Lock Leak Test.

)Q,((-4.11 PT/O/A/150/16 - RB Inspection Test

-NOTE: Calibration curves for instruments not calibrated by Duke will be included in the final report.

5.0 Test Equipment 5.1 Air Compressors (2 compressors 2300 cfm each).

5.2 After Cooler (4600 cfm).

5.3 Air Dryer (4600 cfm).

5.4 Flowmeter 5.5 Hygrometer Syftem 5.6 Barometer 5.7 Pressure Gauges (1) 5.8 RTD's (28).

5.9 Precision Pressure Gauge (2).

5.10 Microwave-tower weather instruments (for information only and not required for conduct of this test).

5.11 Plant computer (program F18-Integrated Leak Rate Calculations.)

6.0 Limitations and Precautions 6.1 The activities in this procedure shall be coordinated with the structural test and related programs. It will be necessary to provide hold periods at the pressure levels required to conduct the structural integrity test and surveillance programs in addition to hold periods for the leak rate measurements.

6.2 Personnel access restrictions are given in Enclosure 13.1.

6.3 Reactor building air temperature should be maintained between 60-F and 1000 and above the dew point.

6.4 R.B. Ventilation Unitifans and R. B. Auxiliary fans should be operated only at half-speed.

6.5 Personnel designated to work inside the reactor building while it is under pressure shall be medically certified for work in pressurized air.

The maximum allowable pressure for work inside the reactor building is 14 psig.

6.6 Prevent helium gas from contacting the Texas Instrument pressure.

sensor. Helium can penetrate the sensor crystal and cause it to become inoperative.

6.7 During the period between the initiation of PT/0/A/150/16 and the performance of this test, no repairs or adjustments shall be made to.

the containment.

6.8 Insure that all isolation valves are closed from their normal source.

7.0 Requirea .-it Status (67.1 Core Flooding Tanks are empty.

(17.2 The Quench Tank is empty.

6C7.3 The LPSW System is operating to provide cooling water for the RB vent unit coolers. - -

'7.4 LPI System operating in.the normal decay.heat mode.

7.5 Fuel Transfer Tubes are installed and tested.

4. 667.6 RB Sump isolation valves are closed and 18" diameter emergency sump lines are capped.

7.7 Vent instrument transducers and closed structural systems to RB atmosphere.

7.8 Remove area radiation monitors 2RIA-2, 2RIA-3, and 2RIA-5 from the RB.

6C6 7.9 Remove portable TV Equipment from RB.

7.10 Steam Generator secondary handholes and instrument connections visually inspected for seal tightness.

7.11 RV vented to RB.atmosphere.

7.12 Remove all fire extinquishers, bottled gas, and flammable liquids from RB prior to pressurization.

7,13 Remove all lights from inside the reactor building and install temporary lights to withstand 67,5 psig.

t( 7.14 Turn off unnecessary electrical power to the RB.

((Q7.15 Verify that applicable unit reference drawings specifiec in this procedure agree with reference drawings in the Master File.

8.0 Prerequisite System Conditions

/66C 8.1 The RB is structurally complete. Penetrations are sealed and the leak rate from each testable penetration has been determined.

/ (68.2 All Integrated Leak Rate Test Equipment located inside the RB is installed and calibrated prior to the start of this test, Test panel located in Room 521.

A_(-8.3 RB Vent unit fans are able to recirculate air within the RB at 1/2 speed and the vent unit coolers are available for temperature reduction.

(-8.4 RB auxiliary fans are operable and available to recirculate air in the upper region of the RB.

8.5 Blind flange on leak rate test pressurization line is removed.

8.6 Air compressors installed and HPSW cooling water connected to compressors and aftercoolers. Operation of compressors checked.

8.7 The pressurization system and leak rate measurement system should be installed as shown on Dwg. 0-1422R-9/0 - 1422R-13.

8.8 RTD's located in same position as in Unit 1 Test.

9.0 -Test Method During the pressure increase, at about 10 psig, a short informal leak test will be performed and the building will be entered for leakage detection.

This is done so that any large-scale leakage can be detected and repaired prior to increasing pressure. The RB leakage rate will first be determined at 29.5 psig. A known leak will be imposed on the building at 29.5 psig to check the ability to accurately measure leakage. Only the "absolute method" will be used. After the leakage rate has been determined at 29.5 psig, the pressure will be increased in the RB to 59 psig for the second part of the leak rate test. This test will be performed like the reduced pressure test, and a known leak rate will be introduced to check the avility to accurately measure leakage.

10.Q Data Required 10.1 RB air humidity 10.2 RB air temperature 10.3 Barometer reading (temperature corrected).

10.4 Flowmeter reading during "Known leak".

10.5 RB absolute pressure.

10.6 RB liner temperature 10.7 Outside air temperature (DB.)

10.8 Wind Velocity.*

.10.9 Wind Direction. *

For Information Only.

-7 11.0 Acceptance Criteria 11.1 For the Integrated Leak Rate Test acceptance criteria, refer to references 2.1 and 2.14.

12.0 Test Procedure 12.1 Dewater all low points. Adjust valve positions to those shown on Enclosure 13.1.

12.2 Verify that all safety precautions Vave been satisfied.

12.3 Close inner door on both locks. Leave outder doors open.

(-C ~12.4 Verify that LRT-16 is closed.

.12.5 Record the data called for on Enclosure 13.3.

.12.6 Start RB vent unit fans and auxiliary fans at 1/2 speed.

12.7 Start water flow through coolers if and when required by temp erature limitations.

12.8 Open valves LRT-15, and LRT-17. Start compressors and begin pressurization of the RB.

12.9 During pressurization and depressurization, record the data called for on Enclousre 13.3 every 1/2 hour or more often if conditions are close to the limits of .6.3.

/ 12.10 When RB pressure reaches approximately 10 psig,close LRT-17 and LRT-15 and turn off the compressors and fans.

2.11 At this pressure, an informal leak test will be performed as a check on the leakage fromthe building and on the instrumentation used for the test. This leak rate test will run concurrently with the outside and inside penetration leak checks.

12.12 Inspect penetrations for leakage. Inspect all gaskets of the equipment hatch and inner lock doors,

.12.13 Following the leak survey of the personnel air lock inner door, entry into the reactor building may be made using the following procedures.

12.13.1 Enter lock and close outer doors and equalizing valve.

12.13.2 Slowly pressurize lock by opening inner door equalizin*g valve.

- 12.13.3 When lock becomes pressurized, open'inner door and enter the reactor building.

12.14 Inspect suspected leak areas inside the reactor building. Exit from the reactor building may be accomplished by the reverse of the entry procedure. After exiting, close the outer doors

,on both air locks.

12.15 If leaks are found which cannot be repaired with the reactor building pressurized, the building should be deprssurized by opening valves LRT-16 and LRT7 17, and the leak should be repaired.

A .10 psig retest should then be done.

12.16 If significant leaks are not found, resume pressurization by starting the compressors and opening valves LRT-15 and LRT-17.

Start Reactor Building Fans as required.

12.17 When RB pressure reaches 29.5 + 2, -0 psig, close LRT-15 qnd LRT-17 and stop compressors and fans (fans may be left running if necessary to maintain dewpoint sample).

C/ 12.18 After a stabilization period of Aho-urs, read and i-ecord the following instrument readings every 15 minutes for at least 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months and until leak..rate begins-to decrease. See.Enclosure 13.3 12.18.1 RTD's 12.18.2 Texas Instrument pressure gauges.

12.18.3 Dew Point Sensors.

12.18.4 Barometer and temperature.at barometer.

12.18.5 Heise gage pressure.

9L 12.19 Record the following instrument readings hourly ( all found in microwave towers):

12.19.1 Outside air temperature sensors.

12.19.2 Wind Velocity.

12.19.3 Wind Direction.

12.20 Calculate the leakage rate by means of freetime computer Program 18 at regular intervals throughout the test period.

12.21 At the end of the test period, superimpose a leak on the RB by opening valves IA-110 and IA-90. The flow rate through the flowmeter should be controlled by IA-110 to be approximately equal to the allowable leakage rate.

12.22 Repeat data acquisition and calculations as in Steps 12.18, 12.19, and 12.20 for at least 5 hours5.787037e-5 days 0.00139 hours 8.267196e-6 weeks 1.9025e-6 months .

-10 12.23 After verifying test leak rate calculations.are within 25% of the allowable leakage, resume pressurization by starting the compressors and opening valves-LRT-15 and LRT-17. Start auxiliary and vent unit fans.

( 12.24 When RB pressure reaches 59 + 2, -0 psig, close valves LRT-16 and LRT-17. Stop.fans unless otherwise required.

R.B. coolers may.be isolated..

( 12.25 After a stabilization-poriod .of 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months , read and record the following instrument.readings every 15 minutes.for at least )lO hours and until leak rate begins to decrease. See Enc. 13.@

12.25.1 RTD's 12.25.2 Barometer and temperature at barometer.

12.25.3 Texas Instrument Pressure Gauges.

12.25.4 Dew Point Sensors.

12.25.5 Heise Gage Pressure.

( 12.26 Record the following instrument readings hourly.

12.26.1 Outside Air Temperature Sensors.

12.26.2 Wind Velocity.

12.26.3 Wind Direction.

4C 12. 7 Calculate the leakage rate by means of freetime computer program 18 at regular intervals throughout the test period.

( C 12.28.At the end of the test period, superimpose a leak on the RB by opening valves IA-110 and IA-90. The flow rate through the flowmeter should be controlled by IA-110 to be approximately equal to the allowable leakage rate.

12.29 Repeat data acquisition and calculations as in Steps 12.27, 12.28, and 12.29 for at least 5 hours5.787037e-5 days 0.00139 hours 8.267196e-6 weeks 1.9025e-6 months .

12.30 After verifying test leak rate, calculations are vithin 25%

of the allowable leakage, open valves LRT-16 and LRT-17 and_

begin depressurization. - Start fans..

12.31 Continue-depressurization to atmospheric pressure. Stop fans.

_12.32 Inspect the RB internally and the equipment within the RB to

. determine if any.damage has been done by the pressure test.

12.33 Blind Flange on Leak Rate Test Pressurization Line is re placed and LRT-15 , LRT-16, & LRT-17 are closed.

13.0 Enclosures 13.1 Valve Checklist 13.2 RB Pressure Profile.

13.3 Data Sheets 13.4 Test Leakage and Allowable Leakage Comparison Sheet.

. Sheet 1 of 13

.i POWER COMPANY ENCLOSURE 13.1.

..CONEE NUCLEAR STATION TP/2/A/150/3 - 1 UNIT # .'_VALVE CHECKLIST VALVE NAME POSITION INITIAL IVALVE NO.

Open 2CC-1 Letdown Cler-- -

2CC-2 1 Letdown Cooler "B" Inlet Open Open e.nC.rO 2CC-3 1 R. C. Pump "Bl" Cooler Outlet 2CC-4 / R. C. Pump "B2" Cooler Outlet Open 2CC-5 /f R.. C. Pump "Al" Cooler Outlet Open 2CC-6 ' R. C. Pump "A2"tCooler outlet B kC Open 2CC-7 Z CC Return Penetration (54) Inside Block Closed 2CC-8 Y CCRtrPetation (54) Outside Block Closed 2CC-10 Pump ."A" Suction Open 2CC-21 Supply Header Penetration).(3) 'Drain Closed Closed 2CC-22 Supply Header Penetration (3) Vent Supply Header Penetration (3) PX Closed 2CC-23 2CC-37 R. C. P. "B2" Cooler Shell Inlet Check Open Letdown Cooler "A" Shell Drain Closed 2CC-41 Letdown Cooler "A" Shell Vent Closed 2CC-42 2CC-44 Letdown Cooler "A" Shell Outlet Open _

Closed 2CC-45 Letdown Cooler "B" Shell Drain Closed 2CC-46 Letdown Cooler "B" Shell Vent Shell Outlet Open 2CC-48 Letdown Cooler "B" 2CC-49 Quench Tank Cooler Shell Inlet Open Closed 2CC-51 Quench Tank Cooler Shell Drain Shell Vent Closed 2CC-52 Quench Tank Cooldr 2CC-53 Quench Tank Cooler Shell Outlet Open Retur n Penetration (54) Drain Closed 2CIC-54

DUKE POWER COMPANY ENCLOSURE 13.11 Sheet 2 ofl3 OCONEE NUCLEAR STATION UNIT UNITTP/2/A/150/3-1

VALVE CHECKLIST VALVE NO. VALVE NAME POSITION INITIA!

2CC-55 Return Penetration (54) Closed 2CC-56 Return Penetration (54) PX Closed 2CC-67 Supply Penetration (3) Inside Test Drain Closed 2CC-68 Supply Penetration (3) Inside Test Vent Closed 2CC-69 Supply Penetration (3) Inside Test PX Closed 2CC-78 CRD Cooling Supply Open. (bw 2CC-79 CRD Cooling Return Open 2CC-80 CRD Header Penetration (44) Vent Closed 2CC-810 CRD Header Penetration.(44) PX Closed _______

2CC-82 CRD Header Penetration (44) Drain-. Closed 2CC-83 CRD Header Penetration (44) Inside Test Vent Closed 84 CRD header Penetration (44) Inside Test PX Closed 2CC-85 CRD Header Penetration (44) Inside Test Drain Closed OC A" .-102 Hi ointVen etur RCP Closed 2CC-86 Shell Line Drain (Letdown Cooler "A") Closed 2CC-8 Shell Line Vent LetdownCooler "A"). Closed

-2CC-88 Shell Line Drain (letdown Cooler "B") Closed 2CC-89 Shell Line Vent (Letdown Cooler "B") Closed 2CC225 RCL'1'CoolarShell Tnlet CheckOpen 2CC-29 RCP "A2" Cooler Shell Inlet Check Open 2CC- CRD Service Structure InletOpen 2CC-101 CRD Service Structure OutletO 2CC-95 Quench Tank Cooler Shell Line VentO

CC-96 2CC-96 Quch"aRetrnk Quench t Ve Tank Cooler P Shell Drain Line Drai Closed

-14 13 ENCLOSURE 13. 1 Sheet 3 of DUKE POWER COMPANY OCONEE NUCLEAR STATION TP/2/A/150/3- 1 JNIT #. - 'VALVE CHECKLIST VALVE NAME POSITION IN AL VALVE NO.

Closed 2CC-103 RCP "B" Return Hi Point Vent 2CC-33 R.C. P. "2B1" Cooler Shell Inlet Check Open 2CC-70 Supply Inside Block Open 2CF-18 Tank "B" Vent Throttle Valve Open 20F-1 2~i Tank "A" Out let Open 2CF-2 Tank "B" Outlet Open Closed 2CF-3 Tank "A" Sample and Drain Closed

.2CF-4 Tank "B" Sample and Drain 2CF-5 Tank "A" Vent Open 2CF-6 Tank "B" Vent p Open Closed 2CF-7 Core Flood Bleed to Waste Holdup Tank 2CF-16 Tank "A" Vent Throttle Valve Open Closed 20F-19 Sample Block Tank "A" drain to Coolant Storage Closed 2CF-20 Coolant torage Closed 2CF-21"A" draiL to

-2Q-22-~ _ank!1Ldx~a1n to C~p~ ant Stpj Closed /7i ooant Storage Clbsed i z231 drain

.2CE-:23Coe i 2!L2 Tank "A" Outlet test connection Closed Closed Tank""A" outlet test connection

' Closed 2CF-26 Tank "B" Outlet test connection Tank "B" Outlet test connection Closed __L 2CF-21_

2CS-3 _ _Quqpcb Tank Outlet _____ _____Open__

ENCLOSURE 13. Sheet 4 of 13 DUKE POWER COMPANY OCONEE NUCLEAR STATION TP/2/A/150/3 - 1 1* # VALVE CHECKLIST VALVE NO. VALVE NAME POSITION INITIAL 2CS-5(ES) Component Drain Header (pent. Isolation) . Closed 2CS-6 (ES) Component Drain Header (pent. Isolation) Closed 2CS-13 Quench tank cooler inlet Open 2CS-14 Quench tank cooler outlet Closed 9 Closed 2CS-23 Component Drain Header penetration (#2 1 Drain 2CS-25 Component Drive Header penetration (29) PX Closed 2CS-145 Quench Tank Return penetration (38) Drain (RB) Closed 2CS-146 Quench Tank Return penetration (38) Vent (RB)- Closed 2CS-147 Quench Tank Return penetration (38) PX .(PB) -Closed 2C -17 Quench Tank Coolers Penetration (38) Drain (Aux. Bldg.) Closed 2BS-1Closed 2C#l-18 Quenich Tank Cooler Penetration (3.) Vent (Ax lg)Closed 2DW Quench Tank Outlet Header Closed 2Bs-l "A!' Header RB Isolation C~e 2BS-2 "B" Header RB Isolation Closed 2BS-12 ."A" Pump Discharge Closed 2BS-13 "A" Pump Test Closed 2BS-17 "B" Pump Discharge Closed 2BS-18 "B" Pump Test Closed 2BS-21 Testline to BWST Block Closed 2BS-22 Spray Nozzle Block "B" Header (Test) Closed

-16 DUKE POWER COMPANY Sheet 5 of 13 OCONEE NUCLEAR STATION ENCOSRE13.1 UNIT ~ ~TP/2/A/150/3 - 1 UI VALVE CHECKLIST VALVE NO. VALVE NAME POSITION INITIAL 2BS-23 Spray Nozzle Block "A" Header (Test)' Closed 2BS-15 "A" Spray Header Drain Closed 2BS-20 "B" Spray Header Drain Closed N-128 Core Flood Tank "A"' Supply Closed 2N-130 Core Flood Tank "B" Supply Closed 2LWD-1 RB Normal Sump Penetration (5) 1f Isolation Closed 2,D-2 Z' RB Normal Sump Penetration (5) Isolation Closed 2LWD-27 RB Normal Sump Penetration (5) Drain Closed TMWD-28 RB Normal Sump Penetration (5) Vent Closed 2LWD-29 RB Normal Sump Penetration (5) PX Closed 2LWD-99 Emerg. Sump Drain Penetration (40) Block Closed 2LWD-103 Emergency Sump Drain Penetration (40) Block Closed 2GWD-10 Quench Tank Vent Penetration (18) Vent Closed 2GWD-11 Quench Tank Vent Penetration (18) Vent Closed 2GWD-12 Quench Tank Vent Penetration (18) Inside Closed 2GWD-13 . Quench Tank Vent Penetration (18) Outside Closed 2FDW-105 St. Gen. "A" Sample Penetration (2) Isolation Closed.

2FDW-106 St. Gen. "A" Sample Penetration .(2) Isolation Closed 2FDW4-107 St.. Gen. "B" Sample Pen (58) Isolation Closed 2FDW-108 St. Gen. "B" Sample Pen (58) Isolation Closed 2FDW-117 St. Gen. "A" Sample Pen, (2) Vent Closed 2FDW-118 St. Gen. "A" Sample Pen (2) Drain Closed 2FDW-119 St. Gen. "A" Sample Pen (2) PX Closed 2FDW-122 St. Gen. "B" Sample Pent (58) Vent Closed 2FDW-216 Norm. FDW Header "B" Drain Block Closed 2FDW'-40 Steam Gen. "B" Main Block Closed 2FDW-45 Steam Gen. "B" Normal Start-Up Header Closed

DUKE POWER COMPWANY aweet; o or- -+/-

Encsoure 13.1.

OCONEE NUCLEAR STATION UNIT #

VALVE CHECKLIST TP/2/A/150/3 -1 V N.VALVE NAME POSITION I.J ITIA I 2FDW-123 St. Gen. B.Sample Pen (58) Drain Closed 2FDW-124 St. Gen. B Sample Pen (58) PX Closed 2FDW-130 Aux. FDW Header "A" Pen. (50) Vent.

Closed 2FDW-131 Aux. FDW Header "A" Pen. (50) Drain Closed 2FDW-132 Aux. FDW Header "A" Pen. (50) PX Closed 2FDW-38 Steam Gen. "A" Emergency Header Closed 2FDW-268 Aux. FDW Header "A" Pen. Drain (RB) Closed 2FDW-248 FDW Header "A" Drain Block Valve Closed 2FDW-269 Main FDW Header "A" Pen. Vent (RB) Closed 2FDW-247 FDW Header "A" Vent Block Valve Closed 2FDW-245 FDW Header "A" Vent Block Valve Closed 2FDW-127 Normal FDW Header "A" Drain Isolation Closed 2*-31 Steam Generator "A" Main Block Closed 2FDW-36 Steam Generator "A" Normal Startup header Closed 2FDW-219 Aux. FDW Header "B" Pent. (17) Vent Closed 2FDW-220 Aux. FDW Header "B" Pent. (17) Drain Closed 2FDW-272 Aux. FD1 Header "B" Pent Drain (RB)

Closed 2FDW-47 Steam Gen. "B" Emergency Header Closed 2FDW-270 Main FDlq I1dr. "B" Vent Block (RB) Closed 2FDW-253 FDW Hdr. "B" Vent Block Valve Closed 2FDW-25 4 FDW l1dr. "B" Drain Block Valve Closed 2FDW-256 FDW Hdr. "B" Drain Block Valve Closed 2FDW-251 FDW Hdr. "B" Vent Block Valve Closed.

Steam 2FDW254 Gen. "A" Shell Blck FDWEdr."B"Dran Drain Pen alv (43) Block 2FDW-104 Closed Steam Gen. "B" Shell Drain Pen (43) Block Closed' 2RC-5 Press. Steam Sample (Bld. Isol) Pen (1)

Closed 2RC-7 ires.Sample (Bldg. Isol) Pen(1)

Closed 2RC-49 Press..Sample Penetration Vent Closed

DUKE POWER COMPANY OCONEE.NUCLEAR STATION Enclosure 13.1 NITVALVE CHECKLIST TP/2/A/150/3 -1 VALVE NO. . V ALVE NAME POSITION I@ T 2RC-50 Press. Sam:,ple Penetration Drain Closed 2RC-51 Press. Sawple Penetraticn PX Closed 2RC-6 Pressurized Water Sample (Bld. Isol.) .Pen. (1) Closed 2SF-1 Transfer Tube "A" Isolation Closed 2SF-2 Transfer Tube "B" Isolation Closed 2SF-60 *Canal Fill Penetration (56) Block Closed 2SF-61 Canal Fill Penetration (56) Block Closed 2SF-62 Canal Fill and Drain Closed 2SF-63 Incore Instrument Tank Fill . Closed RB Purge Outlet (RB) . Closed 2PR-1 RB Purge Outlet. (PR) Closed 2PR-2 4',

1B Purge Control Closed 2PR-3 2PR-4 RB Purge Inlet -BPn Coe z' RB Purge Inlet (PR) Closed 2PR-5 2PR-6 r RB Purge Inlet (RB) Closed 2PR-7 RB Radiation Monitor Inlet Closed 2PR-8 RB Radiation Monitor Inlet Closed 2PR-9 RB Radiation Monitor Return Block (Inside RB) Closed RB Radiation Monitor Return Block (Outside RB) Closed 2PR-10 Purge Supply Line Bleed Closed 2PR-21 R.B.

2PR-:2C 2PR- 2 R.B. Purge Exhaust Line Bleed - IQL~v __

1.B. Sample Inlet Penetration (60) Test . Closed

.D.SampeReturiPenetration (:G) Test . Closed

... 2P.R-25. J ..

-19 Sheet 8 of 13 DUKE POWER COMPANY I ENCLOSURE 13. 1 OCONEE NUCLEAR STATION TP/2/A/150/3 -1 UNIT # VALVE CHECKLIST VA*E NO. VALVE NAME POSITION INITIAL 2PR-27 R. B. Purge Exhaust Penetration (#20) Test Closed 2PR-29 R. B. Purge Supply Penetration (#19) Test Closed 211P-3 Letdown Cooler .'A" Outlet Closed 2HP-4 'Letdown Cooler "B" Outlet Closed 2HP-5 Letdown Isolation Closed 2HP-20 RC Pump Seal Return (Inside RB) Closed 2H1P-21 2HP21RCPump JSeal Return (Outside B) Coe Closed 2HP-26 RC Loop "A" Injection Closed 2HP RC Loop "B" Injection closed 2HP-1 RC Pump Seal Flow Control 21P-36 Letdown Penetration (6) Vent Closed

.2P-3Z LetdownlPentr tojO~ran Coe __

211P-68 Seal Return Penetration_ Vent Cs 211P-69 Seal ReturnPenetration(7Z) Dr in Closed 2HP-119 RC Volume Control Inlet Closed Zi:L? -L!2 0 RC Volume Control _Closed 211P-121 RC Volume Control Outlet 2- 2 U RC Volume Control B~s Ospen Closed 2HP-122 RC Volume Control Bvpass Closed 2HP?-123 RC Loop '.'AInjecin eetration (11Vant________ Closed J L

DUKE po.WER COMPANY N Sheet 9 of 13 ENCLOSURE 13.1 OCONEE NUCLEAR STATIO TP/2/A/150/3 - 1 U'IT ~VALVE CHECKLIST VALVE NO. VALVE NAME POSITION INITIA 2HP-124 RC Loop "A" Injection Penetration (9) Drain Closed 2HP-125 RC Loop "A" Injection Penetration (9) PX Closed 2HP-138 Seal Pressure Control (2HP-31) Inlet Open 2HP-139 Seal Pressure Control (2HP-31) Outlet Open 2HP-140 Seal Pressure Control Bypass Closed HP-149 RC Loop "B" Injection Penetration (52) Vent C

-150 RC Loop "B" Injection Penetration (52) Drain Closed HP-151 RC Loop "B" Injection Penetration (52) PX Closed P-155 Core Flooding Tank "A" Fill Closed 2 -156 Core Flooding Tank "B" Fill Closed Closed 202 RCP "A2" Seal Supply Pen Vent Closed "P-203 1RC Seal Supply Vent PX "A2"'211-216Closed Closed IP-204 RCP "A2" Seal Supply Pen Drain Closed HP-209 RCP "Al" Seal Supply Pen Vent Closed 517210 RCP "Al" Seal Supply Pen PX Closed

__ ___ ___ ___ ____ ___ ___ ___ ___ Closed RCP "Al" Seal Supply Pen Drain RCP "B2" Seal Supply Pen Ventlosed RCP 48 "1B2" Seal Supply Pen Drain Closed RCP "Bl" Seal Supply Pen Vent Closed "Bl" Seal Supply Pen. Drain sRCP oed 235 _ Loop "A2' Nozzle Warming Throttle Partially HP-28"B"RP Sal uppl Pe Dran Cose HP-236 Loop "A2" Nozzle Warming Check Closed

Sheet 10 of 13 DUKE I OWER COMPANY OCONEE NUCLEAR STATION ELU 13.1 "ENCLOSURE 13.1.

UNIT UI VALVE CHECKLIST

. TP/2/A/150/3-1 V rE NO. VALVE NAME POSITION INITIAL 2HP-237 Loop "A2" Nozzle Warming Pen Vent ST 2HP-73 Loop "A2" Nozzle Warming Pen PX Closed 2HP-239 Loop "A2" Nozzle Warming Pen Drain Closed 2HP-241 Loop "Al" Nozzle Warming Throttle 2HP-242 Loop "Al" Nozzle Warming Check Closed 2HP-243 Loop "Al" Nozzle Warming Pen Vent Closed 2HP-244 Loop "Al Nozzle Warming Pen PX Closed

?2HP-45 Loop "Al" Nozzle Warming Pen Drain Close 2HP-333 N2 Decay Tank Drain "A2" Nozzle Warming Check Closed 2HP-254 "Al" Nozzle Warming Check Closed 2p1*2 "Al" Injection Line Drain l2HP323 "A2" Injection Line Drain losed 2HP126 "A2" Injection Stop Check Closed C

2HP-127 "Al" Injection Stop Check Closed 211P-152 "B2" Injection Stop Check Closed 2HP-153 "Bl" Injection Stop Check Closed 2HP-326 "Bl" Emerg. Injection Line Drain Closed 2HP-327 "Bl" Einerg. Injection Line Vent Closed 2HP-334 "B2" Emerg. Injection Drain (Outside SS)

Closed 2HP-144 Seal Supply to Pump "A2" Stop -Check Closed 2HP-145 Seal Supply to Pump "Al" Stop Check . Closed 2HP-146 Seal Supply to Pump "B2" Stop- Check Closed

- =

he of CUKE r1OWER COMPANY ENCLOSURE 13.1 Sheeti1 Of 13 OCONEE NUCLEAR STATION UNIT # -- TP/2/A/150/3 -1 VALVE CHECKLIST VALVE NO. VALVE NAME POSITION INITIAL 2HP-147 Seal Supply to Pump "Bl" Stop Check PClosed _____

2HP-283 Seal Supply to Pump "Al" Outside Stop Check Closed Seal Supply to Pump "A2" Outside Stop Check Closed SClosed 2HP-285 Seal Supply to Pump "Bl" Outside Stop Check Closed Seal Supply to Pump "B2"1 Outside Stop Check Clsd /1 HP-286 2LRT-3 Temporary Compr. #1 Outlet Block Open 21RT-6 Temporary Compr.AL2 Qutlet Block Open ,V 2LRT-7 After Cooler Drain Block Open 2LRT-16 Depressurization Control Closed 2LRT-17 Pressurization Block Closed 2LRT-25 RB Pressure Line Outer Block Open 2LRT-27 Absolute Pressure Gaugae Block Open, 2LRT-26 Absolute Pressure Gauge Block Open 2TA-91 Penetration (41) Isolation X1/3 Open 21A-111 Air Isolation to Aux. Bldg. Air Receiver C. Open Penetration (41) Isolation Closed 2TA-0 21A-88 R I SupplyIsolation Closed 21A-87 RB Supply Block Closed

.7l

DUKE POWER COMPANY -23 OCONEE NUCLEAR STATION ENCLOSURE 13.1 Sheetl2 of 13 UNIT # Z TP/2/A/150/3 -1 VALVE CHECKLIST VA # NO. VALVE NAME POSITION INITIA' L2LRT-24 R. B. Pressure InnerBlock PSON N er~lck . Open

-8 Abolute Press, Gauge Block 0 en 2CCW-112 Feed from SW. Pump to "2A" S/G 2CCW-116 Feed from SW. Pump to "2B" S/G Closed RB Header Isolation (Outside)

Closed 2BA-33 RB Header Isolation (Inside) 2M-S-141 MS 2Al Header Vent Closed 2&S-142 MS 2Al Header Vent Backup Closed

?MS-143 MS 2A2 Header Vent (Upper Header)

. Closed MS 2A2 Header Vent Backup Closed

!MS-145 MS 2B1 Header Vent Closed

Enclosure 13.1 Sheet 13 of 13 C ECLE NUCLJAR STATION UIT #

TP/2/A/150/3 -1 VALVE CHECKLIST VALVE NO. VALVE NAME POSITION INITIA 2MS-146 MS. 91 Header Vent ark.1dlP -d 2MS-147 MS 2B2 Header Vent (Upper Header) C 2MS-148 MS 1B2 Header Vent Backup Closed

-2LPSW-7'r R.C.P. "2A1" Coolers Inlet Open 2LPSW-81f R.C.P. "2Al" Coolers Outlet _____

2LPSW-9A R.C. P. "2B" Coolers Inlet - open 2LPSW-1O R.C.P. "21" Coolers Outlet Open 2LPSW-114 R.C. P. "2B2" Coolers Inlet Open 2LPSW-12 R.C.P. "2B2" Cooler Outlet Open 2LPSW-13 R.C.P. "2A2" Coolers Inlet 2LPSW-14 R.C.P. "2A2" Coolers Outlet Open 2LPSW-15 RC.P.'s Coolers Outlet Closed 2LPSW-6 R..C. Pumps Coolers Supply Closed 2LPSW-144 LPSW return penetration test drain Closed 2LPSW-145 LPSW Return Penetration Test Vent Closed 2LPSW-146 LPSW Return Penetration Test Gauge Closed 2LPSW-141 LPSW Supply Penetration Test Drain Closed 2LPSW-142 LPSW Supply Penetration Test Vent Closed 2LPS14-143 LPSW Supply Penetration Test Gauge Closed 2PR-36 Inlet to R. B. H 2Purge System Closed 2FDW-133' "A" OTSG Shell Vent Closed 2FDW-135 "B" OTSG Shefl Vent Closed 2CA-27 Boric Acid Supply to Core Flood tank "2A" Closed/

2CA-29 Boric Acid 2PR-36 ~ ~~ 7Pre to Core ytmCoe R.B Supply Flood Tank "2B" Inlet to/ Closed ~

2FW-64 Booster Pump Header Penetration (48) Block Closed 2DW-59 Derinin. Header Penetration (55) Isolation Closed 2FW-65 Booster Pump IDR. Pene. (48) Bloc Closed

70 REACTOR BUILDING ASSURE PROFILE DUKE POWER COMPANY 20 HRS OCONEE NUCLEAR STATION 59 PSIG 60 50 40 20 hrs S30 29.5 psig 20 10 - 10 psig Time (Hours) 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 TP/2/A/150/3 ENCLOSURE 13.2

DUKE POWER COMPANY OCONEE NUCLEAR STATION U NIT #~

ENCLOSURE 13. 4 TEST LEAKAGE AND ALLOWABLE LEAKAGE COMPARISON TP/2/A/150/3 The allowable Reactor Building leak rate is .25% of the Reactor Building.

atmosphere per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months . The measured leak rate must be within 25% of this value (or less than .3125%) to continue the test (See Steps 12.23 and 12. 30.

29.5 PSIG LEVEL f % of the Final leak rate calculation = _ _ _._

atmosphere per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

59 PSIG LEVEL

= , / 7/ % of the Reactor Final leak rate calculation Building atmosphere per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

2.2 INITIAL TEST CRITERIA Pressures:

(a) Design Pressure 59 psig (b) Peak Test Pressure 59 psig (c) Reduced Test Pressure 29.5 psig Leak Rate:

Maximum Allowable (La) 0.25 weight percent per day Temperature:

(a) Minimum 60 0F (b) Maximum 1000 F Volume:

Containment Internal Free Volume 1,910,000 cu'ft 2.3 MEASUREMENT SYSTEM The instrumentation used for the Oconee Unit 2 ILRT is similar to that used on previous tests conducted by Bechtel. A summary of instrumentation characteristics is given by Table 2-1. Reactor Building pressure was measured by a Texas Instrument precision pressure gage. The unit was factory calibrated before the test and will be recalibrated after the test.

The pretest calibration chart is shown as Figure 2-1.

Reactor Building temperature was measured by twenty-four(24) calibrated RTD's and read on a Leeds and Northrup Numation digital readout device. The factory calibration report is shown as Figure 2-2. Each RTD was assumed to be representative of a fraction of the total containment volume.

In the calculation of Reactor Building air temperature, each RTD output was weighted by its appropriate volume fraction. The RTD locations and volume fractions are described in Table 2-2 and illustrated in Figures 2-3 through 2-7. In addition to the twenty-four (24) RTD's used for the calculation of Reactor Building temperature, three (3) additional RTD's were used to measure temperatures at miscellaneous points for information.

Reactor Building dew point temperature was measured by two (2) Cambridge Dew Point Hygrometers both traceable to the National Bureau of Standards. Air samples for the two (2) dew point sensors came from the two (2) of the auxiliary fans which continually circulated air in the Reactor Building during the leak rate tests. Certificates of traceability and the integral RTD calibration data are shown in Figures 2-8 through 2-11. The relative location of the humidity sensors is shown on Figure 2-12. The accuracy of the leak rate test measurement system was verified by a 0-10 scfm Brooks rotameter which is shown on Figure 2-13 mounted on the leak rate test panel.

The leak rate test measurement system is shown schematically in Figure 2-14.

2-2

System Calibrated Serial Parameter Model Range Accuracy Repeatability Number Absolute Texas 0-100 psia + 0.0009 psi 0.001% 10132 Pressure Instrument or @ 59 psig Full Scale 2646 Model 145 100,000 counts (0.015% of full scale reading)

Barometric PRINCO 26-32 in Hg +0.01 in Hg Pressure (+0.00401 psi)

Temperature Leeds & 0 to 1500F + 0.12oF 1773462 Northrup Model 8197 RTD System Pressure Heise 0-100 psig 0.1 psi 0.1 psi Flow 1110- 0 to 10.45 + 0.1 cfm Better than ;% 7004 09123G1A cfm of Instrument 39848 Reading cn Dewpoint Cambridge -100 F + 0.50F 332 &

Temperature System to 333 992-Cl +2000F

Table 2-2 INTEGRATED LEAKRATE TEST UNIT # 2 RTD LOCATIONS AND ASSOCIATED VOLUME FRACTIONS Basement Floor Level - Elev. - 787 Ft.

RTD # Location Vol. Fract.

1 (1800) under center of access opening 0.03 11 10 ft. North-North-East of Steam Gener ator 2A 0.02 12 15 ft. from Primary Shielding at 3240 (placed in opening in secondary shielding) 0.02 2 8 ft. South-West of Steam Generator2B 0.02 13 Just Southof access to Reactor Cavity 0.01 Intermediate Floor - Elev. - 830 ft.

RTD # Location Vol. Fract.

3 Between Pressurizer and Reactor Pump2B1 0.02 14 Between Steam Generator 2A and Reactor pump 2A2 0.02 4 (1800) on railing of open hatchway 0.05 15 Just west of core flood tank 2B 0.02 5 Inside incore instrument tank 0.02 Operating Floor - Elev. - 850 Ft.

RTD # Location Vol. Fract.

6 Just North of open hatchway 0.03 7 Just North of Steam Generator 2B 0.01 20 Just South of Reactor Pump 2Al 0.01 16 Just East of Incore Instrumentation tank top 0.01 21 Above core flood tank 2B 0.01 8 Inside refueling canal near Reactor Head 0.08 2-4

Top of Shielding Floor - Elev. - 866 Ft.

RTD # Location Vol. Fract.

9 Top of removable shield section East 0.05 10 Top of removable shield section West 0.05 17 Above grading at 00 near Reactor Building wall 0.05 Polar Crane - Elev. - 923 Ft.

RTD # Location Vol. Fract.

18

On East end of polar crane about 25' from Reactor Building wall 0.09 22

On West end of polar crane about 25' from Reactor building wall 0.09

RTD # 18 and 22 will be stored on the polar crane access platform until just prior to the Integrated Leak Rate Test to allow use of polar crane up until test.

Spray Header - Elev. - 943 Ft.

RTD-# Location Vol. Fract.

23 On Reactor Building Spray Header at 00 with a radius af 30 ft. from center 0.11 19 On Reactor Building Spray Headee at 1800 with a radius of 30 Ft. from center. 0.11 Top of Dome - Elev. - 970 Ft.

RTD # Location Vol. Fract.

24 In center of Reactor Building Dome at at an elevation of 970 Ft. 0.07 Miscellaneous RTD's RTD # Location 25 , On Reactor Building Liner Plate Near Penetration #38 26 On Reactor Building Liner Plate near Penetration #53 27 On Reactor Building liner plate near electrical penetration EB-ll.

28 On Reactor Building Liner Plate near Electrical Penetration WB-11 2-5

2.4 INSTRUMENT ERROR ANALYSIS The leakage.,rate in weight percent per day is computed using the absolute method by the formula:

LR = 2400 1-ToP, H T PO ()

Where:

Po = Initial Reactor Building absolute pressure corrected for water vapor pressure.

P = Final Reactor Building absolute pressure corrected for water vapor pressure.

To = Initial Reactor Building mean absolute temperature.

T = Final Reactor Building mean absolute temperature.

H = Number of hours held at test pressure.

The change or uncertainty interval in LR due to uncertainties in the measured variables is given by:

aLR= dLR . + dLR . a 2 dLR . a 2 dLR . (2)

RdP j To TdT Where a is the standard error for each variable.

The error in LR after differentiating is:

eLR = 2400 -To . e22 2

(

H 9+ To P .(e) 0To + To Po + p .eT + ToP

/ TPo T) eTJ 3 Where: ep = oP ePO = GPo eTo = To eT = OT The analysis technique, based on equation (3) above, was verified by K. Horoschek and E. Weipport in "Tightness Investigations on Reactor Safety Pressure Vessels," Vol. 13, No. 3, March 1961.

For small values of LR:

T To, P = Po and ep = ePo, eT = To 2-6

Therefore, the equation then simplifies to:

e 2 2 2 2 eLR 2400 ++ e+ e_

_ +

H P r T T) or eLR = 2400 2 eP + 2 eT)]

HPT Where e = error in pressure which accounts for the error in the absolute pressure measurement instrument (ePT) and the water vapor measurement system (eP) and where eT = error in temperature.

e = (ePT 2 + (e )2 (5) ePT Absolute Pressure Instrument Accuracy Error e = Dew Point Sensor Accuracy Error (Number of Sensors) eT = RTD Accuracy Error (Number of RTD's)

To develop a numerical value for eLR it will be assumed that:

H = 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months RB mean absolute pressure = 60 psig RB mean absolute temperature = 539.6 0 R (800F) based on 24 volume weighted dew point temperature sensors RB mean dewpoint temperature = 700 F based on 2 volume weighted dew point temperature sensors Substituting the instrument accuracy values given in Table 2-1 into the above equations yields:

ePT = + 0.001 percent full scale*

Value of full scale repeatability used. This number is more significant for the error analysis than the absolute accuracy.

ePv =+ 0.50 F = + 0.3530F From the ASME Steam Tables at 700F:

eP = 0.00437 psi 2-7

e = V(0.0010 psi)2 + (0.00437 psi)2 e = + 0.00448 psi p

eT= + 0.120F

-(24) 2 eT= + 0.0245F Substitution into equation (4) yields:

eLR = + 2 0.00448\ 2 + 2 (0.0245 2 2400 L (74.7 I_529.6 10 eLR = + 0.0257%/24 hours 2.5 PRESSURIZATION SYSTEM Reactor Building pressurization was accomplished by two (2) electric motor driven air compressors operating in parallel. These compressors, purchased for pressurization of the Oconee Reactor Buildings, also include after coolers as integral equipment. The discharge from the compressors passes through a single air dryer which reduces the moisture content in the air prior to its entry into the Reactor Building. The specifications for these components are given in Table 2-3.

Three valves, LRT-15, LRT-16 and LRT-17, are used to control pressurization and depressurization of the Reactor Building. The controls for these valves are located in the test panel shown in Figure 2-13.

The pressurization system is shown schematically on Figure 2-15.

2-8

Table 2-3 PRESSURIZATION SYSTEM EQUIPMENT Number Required Description 2 Air Compressor, Electrically Driven, Centrifugal Type, Capacity of 2300 scfm @80 psig, Joy Turbo-Air 20V2.

2 After Cooler (Integral to Compressors),

Capacity of 2100 scfm @14.4 psia, Type "ES" - Fixed Tubesheet, Design Pressure 150 psig, Basco - Size 22048.

1 Air Dryer, Refrigerator Type With Inertial Impingement Separator, Capacity of 3750 scfm (1000 F (Sat.)

Inlet) @ 100 psig, Hankison - Model H-15.

2-9

2.6 AIR RECIRCULATION SYSTEM The Reactor Building Air Recirculation System consists of four (4) auxiliary fans and three (3) Reactor Building cooling fans. The auxiliary fans take suction through ducts in the upper region of the Reactor Building and circulate it downward. The Reactor Building cooling fans take air from mid height in the Reactor Building and exhaust it through ductwork down to the lower levels of the Reactor Building. This is shown schematically in Figure 2-12.

2.7 INTEGRATED LEAK RATE TEST ORGANIZATION The personnel organization used for the Integrated Leak Rate Test is shown on Figure 2-16.

2.8 INTEGRATED LEAK RATE TEST PRESSURE CYCLE The pressure cycle for the Integrated Leak Rate Test is shown on Figure 2-17.

2-10

TEXAS INSTRUMENTS INCORPORATED P. 0. BOX 66027 HOUSTON. TEXAS 77006 A. C. 7t3 PH . 494-5SIS PRECISIONFiLESSURE GAGE CALIBRATION CHART TI-4276-DA BOURDON TUBE CAPSULE PRECISION PRESSURE GAGE SERIAL NO. OPERATING PR SERIAL NO. ODEL NO GEARING 10132 0-100PSIA 2646 TYPE OVER PRESSURE TESTED TO CALIBRATION STANDARD 145 12 200 PSIA P-1602-3120 CAPSULE THERMOMETER CALIBRATED BY DATE READING DURING CALIBRATION 44.1 Deg. C Carroll Pierson 3/14/73 RUEE TI TUBE TRUE COREtEDm t TI TUBE PRESSURE PRESSURE CONSTANT EC CORRECTED PRESSURE PRESSURE CONSTANT PSIA GAGE READING /DEGREE GAGE READING /DEGREE 4.989 4.993 9.977 9.975 14.966 14.966 19.955 19.949 24.943 24.937 29.932 29.924 34.920 34.920 39.909 39.904 44.898 44.900 49.886 49.880 54.875 54,883

59. 864 59.863 64.852 64.863 69.841 69.843 74.830 74.841 79.818 79.823 84.807 84.817 _

89.795 89.796 94.784 94.785

.99.773 99.760 NOTES: True corrected pressures have been corrected to standard gravity 980.665 Units of water are corrected to 20* C.

cm / sec.2. Units of mercury are corrected to 0* C.

t Should the Gage thermometer reading ever change adjust the temperature set point potentiometer (refer to manual maintenance section) or odd 0.013% of gage reading per degree of centigrade positive deviation from the calibration temperature subtract for negative deviation.

and

Pioneers in .Precision SUMNEYTOWN PIKE NORTH WALES. PA 19454 215 643.2000

.EEDS &f N RTHRL/ CO PAjYV CALIBRATION REPORT FOR RTD/DIGITAL TEMPERATURE SYSTEM.

oOo Duke Power Co. No. W-8149 L&N Order No. I9201 The above designated-temperature measuring system, including L&N Numatron, Serial No. 1773462, HP 6181B Power Supply, Serial No.

0B0373, and 28 resistance thermometers, was adjusted in accordance with Section 3.3.0.0 of the supplied Operation Manual. Calibration was com pleted July, 1970 by placing each of the resistance thermometers in a constant temperature bath in close proximity with a standard platinum resistance thermometer. Simultaneous readings of bath temperatures at approximately 60V F and 1200 F measured with the platinum resistance thermometer (Std. Temp. Deg. F) and the corresponding system digital read out (Temp. Deg. F) for each of the resistance thermometers were found to be as follows:

Resistance Std. Temp. Temp. Di ff. Std. Temp. Temp. Diff.

Thermometer Deg. F Deg. F Deg. F Deg. F Deg. F Deg. F 59.917 59.98 -. 40.063 .120.000 120.06. +0.06 0 4 60.005 60.11/ +0.105, 120.000 120.03 +0.030 59.997 60.11 +0.113 120.000 120.01. +0.010

. 59.997 60.10 +0.103. 120.000 . 120.04 - +o.0L00 6o.oli 60.08, +0.066 .120.000 120.06. +0.060

.59.984 60.08 +0.096. 120.000 120.A4., +0.040 59.986 60.10 +0.114 120.000 120.05. +0.050

.8 59.965 60.05 +0.085 120.000. 120.11. +0.110 59.986 60.o +0.104 120.000 120.00 . +0.000 9

10 59.956 60.01, +0.0511 120.000 120.05, +0.050 1 60.041 60.08 +0.039 120.000 120.01. +0.010 42 60.041 60.11 +0.069 120.000 120.09- +0.090 31 60.0113 60.14 .+0.097 120.000 120.09. +0.090 1 60.0113 .60.08 +0.037 120.000 120.10 +0.100 2 Shoets Sheet 'I FIGURE 2-2 CADLE ADDRESS "LEEDSNORTH"

Duke Power Co. No. W-8149 L&N Order No. 49201 Resistance .Std. Temp. Temp. Diff.. Std. Temp. Temp. Diff.

Thermometer Deg. F Deg. F. Deg. F Deg. F Deg. F deg. F 45 60.059 60.11 - +0.o51 120.000 120.09 +0.090 16 60.059 60.11 +0.051 120.000 120.07 +0.070 60.036 60.06 +0.024 120.000 120.05 +0.050 8 60.041 60.13 +0.089 120.000 120.08 +0.080

-19 60.041 60.11 + 0069 120.000 120.04 +0.040

. 60.046 60.05 +0.004 120.000 119.96. 0.0 4 0 59.996 60.04 +0.044, 120.000 120.11. +0.110 2 59.940 59.99 +0.050. 120.000 120.07, +0.070 23 59.970 60.00 +0.030- 120.000 120.05. 0.050

24 59.970 60.04 +0.070 120.000 120.11 +0.110 59.963 6 0 .0.07y 120.000 120.12 +0.120 126 59.935 60.03 +0.095 120.000 120.10 +0.100

.27 60.011 60.12 +0.109 120.000 .. 120.04 +0.040 28 6o.01l 60.10 +0.086 120.000 120.08 +0.080 The above calibration is traceable to reference standards main tained by this Company and calibrated at regular intervals by the National Bureau of Standards. The applicable reference standards were calibrated in July, 1969; N. B. S. Test No. 211.01/198737, Decdmber, 1969; Test No.

199743 and September, 1969; Test No. 211.02/199266.

For the Executive Vice President - Operations

62, U~1 R. H. Verity Manager, Standards Laboratory

.2 Sheets Sheet #2 July 21, 1970 .

Figure 2-2 (Cont'd)

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90o TOP OF SHIELDINCr FLOOR ELEV. 866 FT Figure 2-6

070 ELE0 5PMAY HEADER T - - -- NOT 4.3' ELEV. 9'3' 6-2)POLAK CRAN\E vIEW OF SPRAY HEADEX -LOOKING- WEST VIEW oP Pol-AR CRANE - LookIN NORT#4

DATE CAL;BRATED: May 19, 1970 4C THERMOMETER CALIBRATION DATA ,*

Thermometer Serial No. 4502 Used on Model 992-S2 Serial No. 416-P o Thermometer Output Temperature F Resistance Indicatio, (my)

-100 70.696

-90 72.945

-80 75.190

-70 77.429

-60 79.665

-50 81.896

-40 84.123

-30 86.346

-20 88.564

-10 90.779 0 92.990 -00.01 10 95.197 05.06 20 97.401 10.10

. 30 99.601 15.13 40 101.797 20.*24 50 103.990 . 25.23.

60 106.178 30.22 70 108.363 . 35.18 80 110.545 40.15 90 112.7.23 45.07 100 114.898 50.01 110 117.068 120 119.236 130 121.400 140 123.559; 150 125.716 160 127.869 170 130,018 180 132.164 190 134.306 200. 136.445 FIGURE 2-E.

Certificate of Traceability Model 992-C SerialNo.

The above designated Dew Point Hygrometer was calibrated on May 19, 1970 against a Cambridge Systems "}Aodel Nio. 992 Serial Nio. 210 Standard Hygrometer.

The most recent StandardHygrometercalibration s d te Oct. 29, 1968 BS TestN o. H-2596 May 19, 1970 Date of Certification Quality Control Representative WARRANTY Cambridge Systems warrants that each instrument manufactured by them will perform according to design specifications and be free from defects in workmanship and materials. Dcfecti e material will be replaced and/or im proper workmanship corrected without cost to the Purchaser on any Cambridge Systems instrument returned to the factory, transportation pre paid, within ninety days of shipment. Due to the precision nature of Cambridge System4 instrunients, it is the policy of the Company to give utmost consideration in aniy initace wherein the user is not receiving satis factory service from the instrument purchased Components not manufactured by Cambridge Ssstems, such as vacuum tubes, condensers, lamps, other instruments, etc., are not covered by this warranty.

However, such components are carefully selected and inspected before use.

This warranty is also void on any instrument subjected to inisie, tampering, or incorrect operaion.

CAlVIERIDGE SYSTEIVIS AN Af0a COMPANY 50 HUNT STREET

NEWTON, MASSACHUSETTS 02158 FIGURE 2-9 IQQQQQQQQQ920O0QQ0QOQ

TE CALIBRATED: May 19, 1970 . SD THERMOMETER CALIBRATION DATA Thermometer Serial No. 4505 . Used on Model 992-S2 Serial No. .497-P 0 Thermometer Dial Output Temperature F Resistance Indication (my)

-100 70.679

-90 72.932

-80 75.182

-70 77.425

-60 79.666

-50 81.900

-40 84.131

.- 30' 86.359

-20 88.582

-10 90.802 0 93.016 00.02 10 95.228 05.05 20 97.436 10.10 30 99.640 15.12 40 101.840 20.22 50 104.037 25.22 60 106.230 30.20 70 108.420 35.17

80. 110.605 40.13 90 112.788 45.06 100 114.967 49.99 110 117.141 120 119.313 130 121.481 140 Y23.645 150 125.806 160 127.963 170 130.116 180 132.266 190 134.412 200 136.555 FIGURE 2-10

of=

Certiicat of Traceab4iy Model 992 Serial 0.

The above designated Dew Point Hygrometer '

was calibrated on may 19, 1970 against a a Cambridge Systems 7'Model No. 992 Seral No. 210 Standard Hygrometer.

The most recent StandardHygrometercalibration S datedOct. 29, 1968 ,NBS Test lo. H-2596 May 19, 1970 1 , *7 . , 4 ( (Z, Date of Certification Quality Control Representative WARRANTY Cambridge Systems warrants that each instrument manufactured by them will perform according to design specifications and be free from defects in workmanship and materials. Defective material Will be replaced and/or im proper workmanship corrected without cost to the Purchaser on any Cambridge Systems instrument rcturned to the factory, transportation pre paid, within ninety days of shipment. Due to the precision nature of Cambridge Systems instruments, it is the policy of the Company to give utmost consideration in any inistamce wherein the user is not receiving satis-factory service from the instrument purchased.

Components not manufactured by Cambridge Systems, such as sacuum tubes, condensers, limps, other instrumcnts. etc., are not covered by this warranty.

However, such components are carefully selected and inspected before use.

This warranty is also void on any instrument subjected ta mtisuse, tampering, or incorrect operation.

CAlVIBRIDGE SYSTEIVS AN AEaeO COMPANY 50 HUNT STREET NEWTON, MASSACHUSETTS 02158 FIGURE 2-11

REACTOR BUILDING AIR RECIRCULATION SYSTEM R.B. Auxiliary Fans Air Dewpoint .2A 2 Sensors EL. 835' - 2D 2C Dewpoint sensors will read into a cambridge model 992

,dev point hygrometer item 33QQ mounted DP in leak rate test panel.

27 L SW- 8

'FS S LPSW- 19 IFl T 22 .00 TE LPSW- I1-23 E 00 F

21PSW-22 LPSW-83 0 U'5W-2 Figure 2-1

R. B. LEAK RATE TEST PANELS CABTNET #1 CABTNET #2 Absolute Pressure Gage Dew Point Recorder 0 0 Heise Gage Rotometer RTD Readout age raw er=

AP Gage Blank Ilvproneter East LRT-16 Hvrometer West LRT-15, LRT-17 Figure 2-13

LEAK RATE MEASUREMENT SYSTE:

REACTOR BUILDING rA-91 IA-90 IA-88 IA-111 LRT-25 PI LRT-24 LRT-48 LRT-26, Flow Meter Figure-2-1 LRT-27 Absolute 0 CM recision

.age Figure 2-14

REACTOR BUILDING PRESSURIZATION SYSTEM High' Pressure Service Water Press.

Press. Cont.

Cont.

r r I~I.

Air Air Filter Filter No.1 No L- IPT IPT

IRVRV115.

IR-10Motor IRV-151

-V , LRT-5

- LRT-2 LRT-6 Aftercooler is rLRT- 3 Integral Part of Compressor LRT-11 PI ~ LRT-10 Air e

L RT-12 Air operated Butterfly Valve regulates Dryer Discharge LRT-46 Pressure 2LRT-1 LRT-13 Outside Vent 2LRT-16 I 2 LRT-15 L

Reactor Containment Figure 2-15

Data Maintenance Instrument Engineer Supervisor Supervisor Supervisor Shift 1 rsonnel Data Comp. Data Inst. Inst.

Taker Oper. Taker Elec. Mech. Tech. Tech.

DUKE POWER COMPANY OCONEE NUCLEAR STATION REACTOR BUILDING INTEGRATED LEAK RATE TEST ORGANIZATION CHART UNIT 2 Figure 2-16

INTEGRATED LEAK RATE TEST PRESSURE CYCLE 7/2/73 7/3/73 7/4/73 7/5/73 7/6/73 59 psig 29.5 psig 10 psig O Ln 00 C0 014 0 psig SI pA Leak Rate Test Leak Rate Test o at 50% Design At Design Peak Peak Pressure Pressure Completed Depressurization Informal Leak Test Figure 2-17

TABLE OF CONTENTS Section Page 3.0 DUKE COMPUTER PROGRAM 3-1

3.1 INTRODUCTION

3-1 3.2 PROGRAM OPERATION 3-2 3.3 CALCULATION DESCRIPTION 3-6 3-i

3.0 DUKE COMPUTER PROGRAM

3.1 INTRODUCTION

The Integrated Leakrate Program calculates the leak rate for a nuclear reactor containment vessel. The program computes the leak rate at a.given time from input values of pressure, temperature and vapor pressure. The leak rate, as a function of time, is determined by elementary linear least square methods.

The Integrated Leakrate Program is designed to allow the user to evaluate containment leak rate test results at the jobsite during containment leak rate testing. Interim leak rate test reports may be obtained at any time during the testing period. Each interim report consists of two printouts.

The first printout, called the total-time computation, uses the initial and latest input data to compute leak rate. Each computed leak rate is statis tically averaged using a linear least-squares fit. Early in the test this method of computation gives indication as to whether or not the leak rate is acceptable.

A second printout, called the point-to-point computation, is also provided.

The point-to-point method uses the data at a given hour and the data from the previous reading to compute leak rate. Each individually computed leak rate is then statistically averaged using a linear least-squares fit.

The results of the two methods used indicate that either method is a satis factory method for computing containment integrated leak rates. Both methods of computing the containment leak rate are presented in ANSI N45.4-1972.

However, the total-time method is recommended by Appendix J to 10CFR50, Section 54 (o).

3-1

3.2 PROGRAM OPERATION 3.2.1 PURPOSE The purpose of the Integrated Leakrate Test Program is to calculate the point-to-point and total-time (from initial) leakrates by the Absolute Method and the Absolute Statistical Method.

3.2.2 - PROGRAM OPTIONS (a) DELETE - This option initializes the data table used in making the cal culations. All locations in the data table are set to zero except the volume fractions associated with the RTD/digital temperature readings.

When beginning a new leak rate test (before entering data set 1), this option must be used. If not, the statistical leak rates will not be correct.

(b) SELECT - This option allows the operator to either key in data or run a leak rate calculation.

(c) ABORT - This option turns the leak rate program off.

3.2.3 GENERAL NOTES (a) This program is available only from the performance station.

(b) All output is through the Performance Video, Lineprinter and Card Punch.

3.2.4 OPERATING PROCEDURE (a) Push FREETIME button.

(b) Key in Program No. 18.

(c) Select the desired option and push ENTER.

If the DELETE option is selected, the data table will be set to zero and the program will turn off. If the SELECT option is chosen, lines 22, 23 and 24 of the video will appear as follows:

22 TO RUN CALCU, PLACE CARDS IN READER 23 AND ENTER 1 24 ENTER 0 TO KEY IN DATA 3.2.5 DATA INSERTION PROCEDURE Upon entering a zero, the video screen will appear as follows:*

3-2

0 INTEGRATED LEAKATE TEST DATA SET XX 2

3 RTD/DIGIT TEMPS VOLUME FRACTION 4 1 0.00 0.00 5 2 0.00 0.00 6 3 0.00 0.00 7 4 0.00 0.00 8 5 0.00 0.00 9 6 0.00 0.00 10 7 0.00 0.00 11 8 0.00 0.00 12 9 0.00 0.00 13 10 0.00 0.00 14 11 0.00 0.00 15 12 0.00 0.00 16 13 0.00 0.00 17 14 0.00 0.00 18 19 20 KEY IN DATA SET NUMBER AND ENTER 21 PUSH ABORT AND ENTER TO ABORT 22 PUSH CLEAR AND ENTER TO BYPASS 23 POSITION LF HERE AND ENTER TO PUNCH INPUTS 24 POSITION LF HERE AND ENTER TO TURN PAGE 25

If the Volume Fractions have already been keyed in, they will be displayed on the screen.

(a) Key in the data set number of the data. Line 20 will now become the following:

KEY IN TIME OF READINGS (b) Key in the time the data was taken in military time. If this is not the first data set, line 20 will become as after step (e). If not, line 20 will become as follows:

KEY IN DATE (c) Key in date the data was taken in the following format:

Month, day, year - XXXXX . Line 20 will now become the following:

KEY IN KNOWN LEAKAGE AND ENTER (d) Key in the known leakage. Line 20 will become as follows:

KEY IN PSIG 3-3

(e) Key in the pressure (psig) at which the test is being run. After keying in this item, line 20 will become the following:

POSITION LF, KEY IN READING AND ENTER (f) The program is now ready to accept the data set values. If Volume Fractions are to be keyed in, use the CLEAR AND ENTER option in order to be able to enter the Volume Fractions. Once the CLEAR AND ENTER option has been used, the Volume Fractions for all 24 temperatures may be entered. As the values are keyed in, the line finder will be automati cally positioned to the next item.

(g) After all values on the first page have been entered, the linefinder will be automatically positioned to the TURN PAGE line. Pushing ENTER will cause page 2 to be displayed. After all values for page 2 have been entered and a TURN PAGE request lodged, page 3 will appear as follows:

0 INTEGRATED LEAKRATE TEST DATA SET XX 1

2 3 PRESSURE - TEXAS VOLUME FRACTION 4 1 0.00 0.00 5 2 0.00 0.00 6

7 BAROMETER 8 1 0.00 9

10 DEWPOINT VOLUME FRACTION 11 1 0.00 0.00 12 2 0.00 0.00 13 14 DIFFERENTIAL PRESS 15 1 0.00 16 DIFFERENTIAL TEMP 17 1 0.00 18 19 20 POSITION LF, KEY IN READING AND ENTER 21 PUSH ABORT AND ENTER TO ABORT 22 PUSH CLEAR AND ENTER TO BYPASS COLUMN 23 POSITION LF HERE AND ENTER TO PUNCH INPUTS 24 POSITION LF HERE AND ENTER TO TURN PAGE 25 (h) The linefinder will be automatically positioned to the first item to be entered and to each of the remaining items. After all values have been entered, position the linefinder to the PUNCH INPUTS option and push the ENTER button. The inputs which were entered for this data set will be punched on cards and printed out on the lineprinter along with inter mediate calculation results. The program will then turn off.

3-4

3.2.6 CALCULATION PROCEDURE (a) After placing the input decks in the Card Reader and turning the Card Reader on, key in a 1 and enter. The video will appear as follows:

0 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 POINT-TO-POINT/ABS 17 FROM INIT DATA SET/ABS 18 POINT-TO-POINT/REF 19 FROM INIT DATA SET/REF 20 TREND REPORT (POINT-TO-POINT CALCU) 21 TREND REPORT (FROM INIT CALCU) 22 23 POSITION LF TO CALCU TYPE AND ENTER 24 25 (b) After selecting the type calculation desired and pushing the ENTER button, lines 23 and 24 will become as follows:

23 KEY IN DESIRED TIME INTERVAL 24 0 = 15 MIN., 1=30 MIN., 2=45 MIN., 3=1 HR (c) After keying in either a 0, 1, 2 or 3, depending on the time interval desired, the program will read the card decks, make the necessary calcu lations, print out the results and turn off.

3-5

3.3 CALCULATION DESCRIPTION 3.3.1 PURPOSE (a) Process raw data for use in leak rate calculation.

(b) Calculate leak rate on a point-to-point or total time basis.

(c) Calculate a statistical point-to-point or total time leak rate by a linear least squares fit of the data.

(d) Output data.

(e) The above for both absolute and reference vessel method.

3.3.2 PROCESS RAW DATA (a) Temperature (a.1) Unit - OF.

(a.2) Number - 28 (Includes 4 on liner plate).

(a.3) Input to computer will be in OF. The computer will apply necessary calibration corrections to the temperature.

(a.4) Each temperature (28) will be weighted by a volume fraction. The calculation for the average building temperature is:

T= T

V

n n Where: T = Average Building Temperature, F T = Temperature at each point, n = 1-28, F Vn = Volume fraction for each point. The volume represented divided by the total volume. Volume fractions must add to 1.

The Average Temperature must be converted to OR by adding 459.7.

(a.5) The temperature on the liner plate will be available for output.

(b) Pressure (b.1) Unit - psia.

(b.2) Number - 1.

(b.3) Input is in psia. The computer will apply necessary calibration correction to the pressure.

(b.4) The pressure will be weighted by a volume fraction. The calculation for the average building pressure is:

F = W1 Pt Where: P = Average Building Pressure, psia Pt = Pressure by Texas instrument, psia W1 = Volume fraction (must equal 1) 3-6

(c) Barometer (c.1) Unit - Inches of Hg @ 320 (c.2) Number - 1.

(c.3) Input is not used by calculations, but will be available for output.

(d) Dewpoint Temperature (d.1) Unit - o (d.2) Number - 2.

(d.3) Input to computer will be in F. A calibration curve will be as sociated with each sensor and the input will be corrected.

(d.4) Each Dewpoint Temperature isweightedby a volume fraction. The calculation for the average is:

TWT + WT 4

v 3 v1 v2 Where: T = Dewpoint Temperature, 0F Tv = First Sensor Dewpoint Temperature, F Tv2 = Second Sensor Dewpoint Temperature, 0 W = Volume Fraction (W3 + W 4 = 1)

(d.5) From the Dewpoint Temperature (Saturation Temperature) the Vapor Pressure (Saturation Pressure) is determined from the steam tables.

The range required is 40 to 120oF from the steam tables.

Pv f (TV)

(e) Differential Pressure (e.1) Unit - Inches of manometer fluid H 2 0.

(e.2) Number - 1.

(e.3) Input to computer will be in inches of manometer fluid. This will be converted to psi.

(f) Temperature at Differential Manometer 0F.

(f.1) Unit -

(f.2) Number - 1.

(f.3) Input will be in F. A calibration curve will be used to calculate a calibration factor from the differential temperature. The cali bration factor will be applied to the differential pressure.

3.3.3 LEAK RATE CALCULATIONS (a) Leak Rate on Hourly Basis Leak rate will be calculated on a point-to-point basis from data obtained at the previous point readings (data subscript 1) and data obtained at the present point readings (data subscript 2).

3-7

(a.1) Absolute Method La = 2400 Ti (P2- Pv2)

At T2 (P1 -Pvl)

(a.2) Reference Vessel Method Lx = 2400 Tl (AP2+ Pv2) jAP1 + Pvl)

At T2 (Pl - Pvl) (PI - Pvl)J Where in (a.1) and (a.2) above L = Percent leak rate per hour (La or Lx)

Tl = Average absolute temperature of Reactor Building air at start of each test period, F T2 = Average absolute temperature of Reactor Building air at end of each test period, F Pl = Absolute pressure of Reactor Building at start of each test period, psia P2 = Absolute pressure of Reactor Building at end of each test period, psia Pvl = Vapor pressure of Reactor Building at start of each test period, psia Pv2 = Vapor pressure of Reactor Building at end of each test period, psia APi = Pressure differential of reference vessel and Reactor Building at start of each test period, psi AP2 = Pressure differential of reference vessel and Reactor Building at end of each test period, psi At = Time interval between start and end of test period, hours (b) Statistical Point-to-Point Leak Rate Linear least square fitting is used to calculate a statistical point-to point leak rate for both the Absolute and Reference Vessel Method.

Li = a + bti Where: a = Yi J(ti 2 -ti Ikiti N Y(ti 2 ) - (Iti) 2 b = Nyiti - Yki Yti NY (ti2) 2Yt)

Li = Statistical leak rate 2i = Calculated leak rate ti = Time between data sets N = Number of points to be fit (number of data sets) 3-8

(c) Leak Rate From Initial Data Set Leak rate from the initial data set to each successive data set is calculated by the following equations:

(c.1) Absolute Method Laa = 2400 1 - Ti (Pt - Pvt)1 TI Tt (Pi - Pvi)j (c.2) Reference Vessel Method Lrr = 2400 [Ti (APt + Pvt) - (APi + Pvi)

TI Tt (Pi - Pvsi) (Pi - Pvi)

Where:

i = Indicates data from initial set t = Indicates data from each successive set TI = Time from initial data set (d) Statistical Leak Rate From Initial Data Set The leak rate is calculated by a linear least squares fit over a period from the initial data set to each successive data set.

(d.l)The equations are the same as in 3.3.3(b).

(d.2)The data used is obtained from 3.3.3(c).

(e) 95 Percent Confidence Limits CLi Li + T ai Where:

CLi = Confidence limits at time ti Li = Statistical leak rate at time ti ai = Standard deviation T = Tabulated constant T = 1.95996 + 2.37226 + 2.8225 (N-2) (N-2)

Where: N = Number of data points i ariance 1 + 1 + (to -t)2 IVN (it2 ]

Where: to = 0 t = 1 ti Variance = N[(i - a - bti) 2 ] +N-2 3-9

TABLE OF CONTENTS Section Page 4.0 DUKE FINAL TEST REPORTS,

SUMMARY

DATA AND CURVES 4-1 4.1 29.5 PSIG ILRT 4-1 4.2 29.5 PSIG VERIFICATION TEST 4-1 4.3 59 PSIG ILRT 4-1 4.4 59 PSIG VERIFICATION TEST 4-1 4-i

4.0 DUKE FINAL TEST REPORTS,

SUMMARY

DATA AND CURVES 4.1 29.5 PSIG ILRT The curve of Leak Rate versus Time is given on Figure 4-5. Supporting summary data is given on Figures 4-1 through 4-4. Individual data sets are given by Figures 4-6 through 4-50.

4.2 29.5 PSIG VERIFICATION TEST The curve of Leak Rate versus Time is given on Figure 4-53. Supporting sinary data is given on Figures 4-51 and 4-52. Individual data sets are given by Figures 4-54 through 4-74.

4.3 59 PSIG ILRT The curve of Leak Rate versus Time is given on Figure 4-79. Supporting summary data is given on Figures 4-75 through 4-78. Individual data sets are given by Figures 4-80 through 4-120.

4.4 59 PSIG VERIFICATION TEST The curve of Leak Rate versus Time is given on Figure 4-123. Supporting summary data is given on Figures 4-121 and 4-122. Individual data sets are given by Figures 4-124 through 4-143.

4-1

.DUKE POWER COMPANY OCONEF NUCLEAR STATION INTEGRATED LEAKRATE TEST 07/02/73 29.5 PSIG VERIFICATION TEST TREND REPORT ( POINT TO POINT CALCU / ASS DATA SET TIME PRESSUAE TEMPERATURE ABS LR ABS LR 95 % CONFIDENCE LIMITS (PSIA) (F) MEASURED CALCULATED

%/DAY %/DAY LOWER UPPER 2 11:15P 44.0090 79.5058 -0.25625 0.00000 0.00000 3 11:30P 44.0070 79.5097. D.34009 0.34009 + +

4 11:45P 44.0070 79.5154 0.10151 0.24067 -2.01665 2.21968 5 12:OOA 44.0070 79.5215 0.10866 0.20193 -0.68518 0.90250 6 12:15A 44.0070 79.5145 -0.12461 0.04025 -0.76877 0.51955 7 12:30A 44.0050 79.5235 0.60025 0.33510 -0.09268 1.29319 8 12:45A 44.0050 79.5249 -0.31295 0.07854 -1.12960 0.50371 9 1:00A 44.0050 79.5237 -0.02131 0.03952 -0.71000 0.66738 10 1:15A 44.0050 79.5298 -0.05987 -0.00067 -0.66150 0.54176 11 1:30A 44.0050 79.5324 0.04629 0.00861 -0.49170 0.58428 12 1:45A 44.0040 79.5338 -0.09114 -0.02821 -0.58263 0.40035 13 2:0OA 44.0040 79.5356 0.03209 -0.01865 -0.42127 0.48545 14 2:15A 44.0040 79.5403 -0.02790 -0.02764 -0.44869 0.39289 15 2:30A 44.0020 79.5407 0.00167 -0.02671 -0.39359 0.39693 16 2:45A 44.0020 79.5376 -0.16560 -0.06620 -0.54428 0.21308 17 3:00A 44.0020 79.5412 -0.04677 -0.07033 -0.40598 0.31244 18 3:15A 44.0010 79.5360 -0.03867 -0.07166 -0.38142 0.30408 19 3:30A 44.0000 79.5350 -0.12923 -0.09107 -0.45870 0.20024 20 3:45A 44.0000 79.5294 -0.42998 -0.16547 -0.78031 -0.07965 21 4:00A 44.0000 79.5339 0.08015 -0.13257 -0.27635 0.43665 Figure -1

22 4 :15A 43.9990 79.5389 _____0.19940 -0.08342 -0.17483 __ 0.57363 ___

23 4:30A 43.9980 79.5377 -0.02039 -0.07886 -0.38326 0.34249 24 4:45A 43.9970 79.5407 - 0.27346 -0.02693 -0.10957 0.65650 25 5:OA 43.9970 79.5372 -0.22634 -0.06043 -0.60557 0.152891-26 5:15A 43.9960 79.5426 0.31614 -0.00760 -0.08231 0.71459 27 5:30A 43.9960 79.5479 0.25841 0.03008 -0.14432 0.66115 28 5:45A 43.9960 79.5479 -0.49130 -0.04203 -0.93131 -0.05129 29 -6:OOA 43.9960 79.5453 -0.04634 -0.04520 .- 0.47600 0.38333 30 6:15A 43.9960 79.5581 0.22787 -0.01203 -0.20342 0.65917 31 6:30A 43.9960 79.5521 -0.10675 -0.02501 -0.53012 0.31662 32 6:45A 43.9960 79.5650 0.22968 0.00482 -0.19424 0.65360 33 7:00A 43.9930 79.5664 0.52171 0.06636 0.06821 0.97521 34 7:15A 43.9930 79.5739 -0.02934 0.05774 -0.47546 0.41679 35 7:30A 43.9930 79.5796 0.15587 0.07079 -0.28281 0.59455 36 7:45A 43.9930 79.5815 0.03384 0.06919 -0.39734 0.46503 37 8:OOA 43.9930 79.5736 -0.14060 0.04910 -0.57013 0.28893 38 8:15A 43.9930 79.5799 0.11216 0.05708 -0.30983 0.53414 39 8:30A 43.9930 79.5801 -0.26730 0.02592 -0.69595 0.16135 40 8:45A 43.9930 79.5815 -0.35292 -0.01099 -0.79158 0.08574.

41 9:OOA 43.9920 79.5816 0.22175 0.01060 -0.21537 0.65888 42 9:15A 43.9920 79.5888 0.12821 0.02160 -0.30395 0.56037 43 9:30A 43.9930 79.5867 -0.36495 -0.01361 -0.80705 0.07715 44 9:45A 43.9930 79.5923 -0.06161 -0.01878 -0.49769 0.37447 45 10:00A 43.9930 79.6018 0.16909 -0.00327 -0.26440 0.60257 Figure4-2

DUKE POWER COMPANY OCONEE NUCLEAR STATION .

INTEGRATED LEAKRATE TEST 07/02/73 29._pSG gfRIFICATIONTEST TRFND REPORT ( FROM INIT CALCU / A5S DATA SET TIME PRESS URE TEMPERATURE ABS LR ABS LR 95 % CONFIDENCE LIMITS (PSIA) (F) MEASURED CALCULATED

%/DAY %/DAY LOWER UPPER 2 11:15P 44.0090 79.5058 -0.25625

0.00000 0.00000 3 11:30P 44.0070 79.5097 0.04192 0.04192

4 11:45P 44.0070 79.5154 0.06179 0.10817 -0.63632 0.75989 5 12:OOA 44.0070 79.5215 0.07350 0.13161 -0.27740 0.42440 6 12:15A 44.0070 79.5145 0.03388 0.11334 -0.26125 0.32902 7 12:30A 44.0050 79.5235 0.12828 0.15030 -0.08496 0.34151 8 12:45A 44.0050 79.5249 . 0.06525 0.14005 -0.14155 0.27205 9 1:OOA 44.0050 79.5237 0.05443 0.12748 -0.14315 0.25201 10 1:15A 44.0050 79.5298 0.04173 0.11324 -0.14600 0.22946 11 1:30A 44.0050 79.5324 0.04218 0.10278 -0.13755 0.22192 12 1:45A 44.0040 - 79.5338 0.03006 0.09087 -0.13915 0.19928 13 2:00A 44.0040 79.5356 0.03023 0.08175 -0.13285 0.19331*

14 2:15A 44.0040 79.5403 0.02576 0.07333 -0.12788 0.17940 15 2:30A 44.0020 79.5407 0.02404 0.06619 -0.12425 0.17233 16 2:45A 44.0020 79.5376 0.01140 . 0.05736 -0.13172 0.15452 17 3:OOA 44.0020 79.5412 0.00776 0.04938 -0.13035 0.14587 18 3:15A 44.0010 79.5360 0.00503 0.04226 -0.12813 0.13820 19 3:30A 44.0000 79.5350 -0.00243 0.03485' -0.13066 0.12581 20 3:45A 44.0000 79.5294 -0.02493 0.02431 -0.15256 0.10270 21 4:00A 44.0000 79.5339 -0.01968 0.01647 -0.14246 0.10311

2 4:15A 43.9990 79.5389 -0.00924 0.01171 -0*12713 0.10865 23 4:30A 43.9980 79.5377 -0.00975 0.00759 -0.12724 0.10774 24 4:45A 43.9970 79.5407 0.00256 0.00609 -0.10998 0.11510 25 5:00A 43.9970 79.5372 -0.00697 0.00332 -0.11443 0.10048 26 5:15A 43.9960 79.5426 0.00595 0.00288 -0.10123 0.11314 27 5:30A 43.9960 79.5479 0.01566 0.00393 -0.08630 0.11762 28 5:45A 43.9960 79.5479 -0.00311 0*00223 -0.10486 0.09863 29 6.00A 43.9960 79.5453 -0.00466 0.00053 -0.10100 0.09169 30 6:15A 43.9960 79.5581 0.00336 0.00010 -0.09281 0.09953 31 6:30A 43.9960 79.5521 -0.00031 -0.00074 -0.09632 0.09570 32 6:45A 43.9960 79.5650 0.00711 -0.00056 -0.08326 0.09748 33 7:OA 43.9930 79.5664 3.02319 0.00154 -0.06705 0.11343 34 7:15A 43.9930 79.5739 0.02160 0.00324 -0.06852 0.11172 35 7:30A 43.9930 79.5796 0.02555 0.00523 -0.05865 0.10974 36 7:45A 43.9930 79.5815 0.02578 0.00705 -0.05831 0.109P8 37 8:OOA 43.9930 79.5736 0.02116 0.00622 -0.06284 0.10516 38 8:15A 43.9930 79.5799 0.02362 0.00954 -0.06029 0.10754 39 8:30A 43.9930 79.5801 0.01597 0.00997 -0.06786 0.09980 40 8:45A 43.9930 79.5815 0.00651 0.00944 -0.07103 0.08405 41 9:OOA 43.9920 79.5816 0.01189 0.00946 -0.06558 0.08936 42 9:15A 43.9920 79.5888 0.01473 0.00976 -0.06268 0.09213 43 9:30A 43.9930 79.5867 0.00569 0.00920 -0.07166 0.08303 44 9:45A 43.9930 79.5923 0.00412 0.00855 -0.07316 0.08141 45 10:OOA 43.9930 79.6018 0.00787 0.00828 -0.06263 0.07837 Fure 4-4 -- --------

PSIG ILRT TREND REPORT UNIT #2 777*77 7

............ JT: ...........

.o N:: ...

.. ...... 7= 777.

'::I: i i ....I.. .. ; ...

......... ....... 77 .7:! r =

L -1" i H...... 7.7.7....

...... 7- .77

....... . ... ........ ... .. ... ..... ........ .... 77 .7:!

.................. .7 4i P:.

2)7:1 7.: ------- 7: -1: 7.:: 7. ..........

a ........ ....

......... . :7-.:: 7== : .. ........ j 7 -7 ::7: .............. 7-:::

7:777: ........

....1-..

7 7,=

q. . . F w: .. ................. ......... .. ..............

. ... . ... .. . .. ... .. .... ... .I ... . ... ... . .... ... . . .. . . . .... . .

i:::: aq;: : i ::; ......... .........

....................... ................ . ......... ........ ... - 1 ...

7: ..... ..... T: :I-:::! -7'77 - 777-.-.- 7 =j 7 7=Z-.- 7:

. .. ..... ..... . .. ..... .. ......::I ........ . .......

. . ......... . jw: i: ...................

-7. 7

.......... .. a ira . ....... .

a . . . .... .. .. ....

. iin, A ik"fl,

. ......... . . _ 1 : .. - .. ........

P4 :!: : , I : :* . : I .. '.. ... I . 9. 1.......

61 ........ ......

q am 7:: ....... ......... .................... .................. . ............. ..... j: 7 -:7 7 7 77:

.. :77:= . -77

;: : . :. .... : :7:7 ... :77 -7 7 =

f7::: a I: ........ .......

7 7..' ..................... := . ........77

.7. :7: 7. ::. .. I .... ::.. I... : :::i:::: :::!::

... .. .. ... .. .. : : : . ! : : : : - : : , i - : : 1 :: . : ; : : : : ; I : : : : : ! : :; .1 ;

7 7:

(Y4-- ......

. I~

!. : . . 9 : : . : :: . : , - q : : :

I : : .m 71 m mq ..... ..... . ... ..

I m:::::: ..... . ..... . ....... .... . .. ....

.... . . . . .... 77777::-777 . -7 7t-. 7 ............ . ...... ......... ...

...... _777-0 a

7 -. -7 :7:71

.. ............ ...... J77 a :::i:: j7- 7 ......

........... :!: .............. ....._ - ::: :::_i a

. 04 . .. ... . ... .. ... . ... ... .

77. 7 7::--.: 7: - -- - ------- = _... . __ __ -:::

w. ............ .. .. .. .. a

... ......... .. ... ... .......... .. . .... Kalk. .,PAP - _. .. ....... . ....

I:: 4 :H : : ........ . IT- .... .

2 3 7 A TIME (HOURS AFTER START OF TEST)

Fi4oe 4-5 0

DUKE POWER COMPANY C01NFF NUCLFAR STT TTIN INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 1 RTC/DIGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.57. 0.0300 2 69.49

0.0200 PUILDING TEiP. F 79.507 0,000 0.000 3 80.27 0.0200 BUILDING PRESS, PSIA 44.009 0.000 0.000 A_ 130 _0.0500 BUILDING DEWPOINT TEMP, F 71.100 0.000 0.000 5 80.44 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.0000 0.0000 6 79.35 0.0300 7 83.45 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 9 79.05 0.0500I 9 80.05 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.77 0.Q00 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.81 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68 .6+/- 0 0 INFORMATION TEMP 4, F 0.000.0.0 13 68.93 0.0100 14 80.94 0,0200 BAROMETER 29.263 0.000 0.000 15 81.33 0.0200 KNOWN LEAK 0.0000 16 80.19 0.0100 17 79.78 0.0500 0.0900 19 81.51 0.1100 20 80.43 0.0100 21 80.42 0.0100 22 81.18 0.0900 23 81.56 0.1100 24 82.55 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 44.009 1.0000 2 0.000 0.0000 bARCMETER 1 29.263 DEWPOINT TEMPS VOLUME FRACTION 1 71.600 0.4000

2 71.600 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 iguire 4-6

DUKE POWER COMPANY 0GmtlE N'CLE4P STATION INTEGRATED LEAK RATE TEST

.07/02/73 29.50 PSIG VEUlFICATION TEST DATA REPORT DATA SET 2 RTr/DIC.tT TFMp VClIMF FRACTInN INITIAl PRFV. POINT PRFSFNT 1 68.53 0.0300 1 69 4R 0Q?0 PIITIPGIN TEMP, F 7Q -g7 7Q 607 79 506 3 80.30 0.0200 BUILDING PRESS, PSIA 44.009 44.009 44.009 4 78 .-I 0 .n5f RIlltIlNCG 0fFWPRINT TFMP, F 71.100 71-100 71 020 5 80.45 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3768 0.3757 6 79.36 0 0300 7 83.51 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 79'.44 0.0P00 9 80.04 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79 78 0 .0500 ITNFRMATION TFMP 2, F 0.00 0.00 0.00 11 69.8c 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1I AA67 0.0)00 INFORMATION TFMP 4. F 0.00 0.00 0.00 13 68.77 0 .0100 14 P0. 0.-nn RARAflMFTFR 29.263 29.263 29.63 15 81.35 0.0200 KNOWN LEAK 0.0000 16 80.20 0.0100 17 79.77 0.0500 18 81.26 0.0900 19 81.50 0.1100 20 80.4( 0 0100 21 80.46 0.0100 22 81.15 0.090C 23 81.54 0.1100 24 82.57 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PFESSIlRF-IFXAS VOLUME FRACTION 1 44.009 1.0000 2 0.000 0.0000 8ARnM0FTFR 1 29.263 DEwPOINT TEMPS VOLUME FRACTION 1 71 000 0.4000 2 71.600 0.6000 DIFFERENTIAL PRESS I 0.000 nIFFFRFJTIAI TFP 1 0.000 Figure 4-7

'ROW

OUKE POWER COMPANY OfilNFF NICL FAR STAT TIN INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 1 VOLUME FRACTION INITIAL PREV. POINT PRESENT RTCIDICIT TEMPS 1 68.57 0.0300 0.0200 PUILDIN T FP . F 79.507 0.000 0.000 2 t9.49*

80.27 0.0200 BUILDING PRESS, PSIA 44.009 0.000 0.000 3

BUILD ING QENPOINT TEMP, F 71.100 0.000 0.000 4 78.30 _.0500 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.0000 0.0000 5 80.44 6 79.35 0.0300 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 7 83.45 9 79.05 0.0PON 0.0500 INFORMATION TEMP 1,i F 0.00 0.00 0.00 9 80.05 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 10 79.77 69.81 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 11 0--0-0 INFORMATION TEMP 4. F 0.00 0.00 0.00 12 _8.t9 13 68.83 0.0100 - .

0.0200 BAROMETER 29.263 0.000 0.000 14 80.94 15 81.33 0.0200 KNOWN LEAK 0.0000 16 80.19 0.0100 17 79.78 0.0500 18 81.23 0.0900 19 81.51 0.1100 20 80.43 0.0100 21 80.42 0.0100 22 81.18 0.0900 23 81.56 0.1100 24 82.55 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 44.009 1.0000 2 0,000 0.0000 bAREMETER 1 29.263 DEWPOINT TEMPS VOLUME FRACTION 1 7-1.200 0,4000 2 71.600 0.6000 DIFFERENTIAL PRESS

] 0.000 DIFFERENTIAL TEMP 1 0.000 Fiue4-6

DUKE -POWER COMPANY INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VElIFICATION TEST DAT1A SFT1 RTr/ATrtT TFMDS VOilF FRACTION TNYTIAl PRFV. PRINT PRFSFNT 1 68.53 0.0300 2 69 ' n 02n0 'L'IAI r TrFmp F 79 -07 79 -s7 7q 50A 3 80.30 0.0200 BUILDING PRESS, PSIA 44.009 4 78 -9 44.009 44.009 n) non PIlnlrPING nFiWanrl1NT TFMP. F 71.100 71.1nn 71 02[

5 80.45 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3768 0.3757 16 79-36 n 0300 7 83.51 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 9 ". 0 0800 9 80.04 0.0500 INFORMATION TEMP 1, F 0.00 1 79 7A 0.00 0.00 p .on TNFnRMaTTnN TIFP 2, F 00 0.00 0.0 11 69.8C 0.0200 INFORMATION TEMP 3, F 0.00 1; A 7 0.00 0.00 nInnn0. 0 INFoRMArynN TFMP 4. F 0.00 0.00 .0 On 13 68.77 0 .0100 14 A0 99 n,-020f0 PAR0MFTFR 79 2 29.2&3 29 263 15 81.35 0.0200 KNOWN LEAK 0.0000 16 80.20 0.0100 17 79.77 0.0500 18 81.26 0.0900 19 81.50 0.1100 2n 45 0.01in 21 80.46 0.0100 22 81.15 0.0900 23 81.54 0.1100 24 8.57 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURF-TEXAS VOLUME FRACTION 1 44.009 1.0000 2 0.000 0.0nno BAROME TFR 1 29.263 DEWPOINT TEMPS VOLUME FRACTION 1 71 000 0 4000 2 71.600 0.6000 DIFFERENTIAL PRESS 1 0.000 OTFFFPFkTTAl TFMP 1 0.000 Figure 4-7

OUKE.POWER COMPANY fl NFF Nill FAR STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VElIFICATION TEST DATA REPORT DATA SET 3 RID/DIGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.51 0.0300

? (9.4s o00700 silINr TF4P. F 79.507 79.56 79.510 3 80.32 0.0200 BUILDING PRESS, PSIA 44.009 44.009 44.007 4 78.31 0.0500 BUILDING DFWP3INT TEMP. F 71.100 71.020 70.960 5 80.47 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3757 0.3750 6 79.37 0.0300 7 83.55 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a 79.A4 0.0poo 9 80.06 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.77 0.0500 INFORMATION TEMP 2. F 0.00 0.00 0.00 11 69.79 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.63 0.0200 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.79 0.0100 14 80.96 0.0200 BAROMETER 29.263 29.263 29.263 15 81.37 0.0200 KN0WN LEAK 0.0000 16 80.20 0.0100 17 79.79 0.0500 18 81.25 0.0900 19 81.50 0.1100 20 80.49 0,0100 21 80.44 0.0100 22 81.20 0.0900 23 81.53 0.1100 24 82.55 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 44.007 1.0000 2 0.000 0.0000 BAROMETER 1 29.263 DEWPOINT TEMPS VOLUME FRACTION 1 71 .000 0,4000 2 71 .500 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-8

DUKE POWER COMPANY rfflMFFr Alfl FtP AR TATONi INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET 4 TTr9ne untiMEu FRACTOn INTTIAI RFV. anINT PRFCFNT RTnglG 1 68.47 0.0300 2 19 ' 0 0200 B'll'IMG TFMP F 79 5n7 79 Al 79 515 3 80.33 0.0200 BUILDING PRESS, PSIA 44.009 .44.007 44.007 4 78 83 n - 0500 RIDING, DFWPAITT TFMP, F 71 100 70.9A0 70.96) 5 80.48

0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3750 0.3750 6 79.39 0 0300 7 83.54 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 09 9.3 0.00000 9 80.0d 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 in 79 77 0 000 INFORMATTON TFMP 7, F fl.00 0.00 0.00 11 69.79 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 16 A; 2 .0200 TNFORMATION TFMP 4, F -0.00 0.00 0.00 13 6 8.78 0.O1CO 1( An 99 0 0nnn RARnMFTFl 79.764 2.9.2 79.7$A 15 81.37 0.0200 KNOWN LEAK 0.0000 A 0.1 0.0100 17 79.81 0.0500 iR R1.2 0.0900 19 81.52 0.1100 7f R .41 0 .0100 21 80.48 0.0100 22 81.20 0,0900 23 81.54 0.1100 24 82.56 0.0700 25 0.00 Ph0.00 27 0.00 28 0.00 PRES URE-TEXAS VOLUME FRACTION 1 44.007 1.0000 n,0000 0.0000 BAROMFTER 1 29.263 DEWPOINT TEMPS VOLUME FRACTION 1 71 0an 0,4000 2 71.500 0.6000 DIFFERENTIAL PRESS 1 0.000 OLEFF..ENTTAI TFM4P Figure 4-9 1 0.000 4 'ROW

DUKE POWER COMPANY nrnNFF NUCLFAR STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET 5 RIn/DIGIT TFMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.47 0.0300 0.0200 UILDING TEMP. F 79.507 79.515 79I521 3 80.37 0.0200 BUILDING PRESS, PSIA 44.009 44.007 44.007 O 500 BUILDING DEWPOINT TEMP, F 71.100 70.960 70.960 4 78.34 5 80.47 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3750 0.3750 6 79.40 0.0300 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 7 83.60 R 79.Z- n Rno 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 9 80.09 79.80 O,0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 10 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 11 69.78 0.0700 INFORMATION TEMP 4, F 0.00 0.00 0.00 12 68.59 13 68.75 0.0100 14 81.02 0,0200 BAROMETER 29.263 29.263 29.263 15 81.38 0.0200 KNOWN LEAK 0.0000 16 80.23 0.0100 17 79.780 0.0500 18 81.27 0.0900 19 81.51 0.1100 20 80.45 0.0100 21 80.45 0.0100 22 81.22 0.0900 23 81 .57 0.1100 24 82.52 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION I 44.007 1.0000 2 0.000 0.0000 BAROIETER 1 29.263 DEWPOINT TEMPS VOLUME FRACTION 1 71-000 0.4000 2 71.500 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-10

DUKE .POWER COMPANY OFNE NPtl.PAR 'STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VE1IFICATION TEST DATA EPDRT DATA SET b DTPnTrIT TF!pS Vnl[IMF FRACTTON INITTAI PRFV- PnINT PIFFNT 1 68.45 0.0300

,0 QZnn PnUTI)ING TFmP , F 79 507 79 511 79-514 3 80.37 0.0200 BUILDING PRESS, PSIA 44.009 44.007 44.007 4 To8 35 f RUJTinAN. fiFwITNT TFMPr F 71.100 70.90 70. AA 5 80.50 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3750 0.3750 6 79 ,4 0 000 7 83.54 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a 79 45 0 .0800 9 80.08 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 7 9 PI n -00 TNFORMATTnN TFMP 2, F 0.00 0.00 0.00 11 69.76 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.57 n o200 INFORMATION TFMP 4. F 0.00 0.00 0.00 13 . 68.73 0.010C 14 1 04 0.0700 RARaMFTFR 29.263 29.263

?9.263 15 81.39 0.0200 KNOWN LEAK 0.0000 1b 80.24 0.0100 17 79.81 0.0500 18 81.27 0.0900 19 81.50 0.1100 20 AQ.44 0.0100 21 80.51 0.0100 22 81.20 0.0900 23 81.54 0.1100 24 2.L47 0.0700 25 0.00 2 t0.00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUMF FRACTION 1 44.007 1.OOO

? n 0n 0.0000 BAROPITER 1 29.263 DEWPOINT TEMPS VOLUME FRACTION 1 71 000 0.4000 2 71.500 0.6000 DIFFERENTIAL PRESS DTFFFRFNTIAI TFMP 1 0.000 Fig* 4-11

DUKE POWER COMPANY nflflMF NWrI FAR STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 P51G VERIFICATION TEST DATA PFPORT DATA SET 7 RTC/DIGIT TEMPS VOLUMF FRACTION INITIAL PREV. POINT PRESENT 1 68.43 0.0300 2 69 43 . A 0200 PUIlDINS TFSP. F 79,507 79,514 79.523 3 80.37 0.0200 BUILDING PRESS, PSIA 44.009 44.007 44.005 4 78-36 0,0500 BUILDING DEWPOINT TEMP, F 71.100 70.960 70.960 5 80.51 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3750 0.3750 6 79.41 0-300 7 83.55 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000

- -9 5 )n Pnn 9 80.12 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.81 a(i5Lo INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.76 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.54 0.02700 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.74 0.0100 14 81 .05 0,0200 BAROMETER 29.263 29.263 29.264 15 81.40 0.0200 KNOWN LEAK 0.0000 16 80.25 0.0100 17 79.82 0.0500 18 81.27 0.0900 19 81.49 0.1100 20 80.44 0 .0100 21 80.50 0.0100 22 81.22 0.0900 23 81.56 0.1100 24 b2.52 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURF-TEXAS VOLUME FRACTION 1 44.005 1.0000 2 0.000 0.0000 BAREMETER 1 29.264 DF6POINT TEMPS VOLUME FRACTION 1 71.000 0,4000 2 71.500 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-12

DUKE POWER COMPANY nCONEE M IFA TATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA PFPORT DATA CET 8 TrflDIGIT TFhADC VOUI.IMF FRACTION INITIdi PRFV. PnINT PRF FNT 1 68.41 0.0300 1 &0n2 0 no PillDTNG TFMP F 7Q 5n7 79a 7 q sq 3 80.39 0.0200 BUILDING PRESS, PSIA 44.009 44.005 44.005 4 78 IR n n0nn PillInD N. nFwPITNT TFMP. F 7i-inn _n9.0 70.R9 5 80.52

0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3750 0.3734 61 79 - : 0 -0300 7 83.61 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000 8 9 45 0.X0Arl 9 80.11 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 1 79- 81 n n00n- INFORMATION TFMP 2. F n.nn 0.00 0.00 11 69.74 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 51 00200 INFORMATTON TFMP 4. F '0.00 0.00 0.00 13 68.73 0.0100 14 Al.0'i 0.020 h PAROMFTFR 29,263 29,264 29,27S 15 81.41 0.0200 KNOWN LEAK 0.0000 16 80.26 0 .0100 17 79.82 0.0500 18 81.28 0.0900 19 81.51 0.1100 F1Q0 43 0.0100 21 80.51 0.0100 22 81.22 0.0900 23 81.56 0.1100 24 82.49 0.0700 25 0.00 27 0.00 28 0.00 PPFSSlJRF-TFXAS VOLUMF FRACTION 1 44.005 1.0000 2 0 000 0.0000 RARnMFTFR 1 29.275 DEWPOINT TEMPS VOLUME FRACTION 1 71 0n0 0 40l0 2 71.300 0.6000 DIFFERENTIAL PRESS I 0.000 0iFFFRFNTIAi TFMP 1 0.000 FiguLe 4-13

DUKE POWER COMPANY OflCDNFF NIlJCLFAR STATIN INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA REPORT nATA SET 9 RTr/DIGIT TFMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.39 0.0300 1,-4(

9 ) .0200 P(UILDING TEMP. F 79.507 79.525 79.574 3 80.41 0.0200 BUILDING PRESS, PSIA 44.009 44.005 44.005 4 76.39 0.0500 BUILDING DEWPDINT TEMP. F 71.100 70.839 70.839 5 80.52 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3734 0.3734 6 79t43 0.0300 7 83.58 0.01CO REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 R 19.46 0.0800 9 80.13 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.81 0.0500 INFORMATIIN TEMP 2, F 0.00 0.00 0.00 11 69.73 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6A- - 0.0200l INFORMATIN TEMP 4, F -0.00 0.00 0.00 13 68.70 0.0100 14 81.05 0.0200 BAROMETER 29.263 29.275 29.275 15 81.40 0.0200 KNOWN LEAK 0.0000

- 16L 80.27 0.0100 17 79.83 0.0500

_18 81.28 0.0900 19 81.50 0.1100 20 80.46 0,0100 21 80.52 0.0100 22 81.23 0.0900 23 81.56 0.1100 24 82.45 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 .

PPESSURE-TEXAS VOLUME FRACTION 1 44.005 1.0000 2 0.000 0.0000 BAROMETER 1 29.275 OFWPOINT TEMPS VOLUME FRACTION 1 71.000 0.4000 2 71.300 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000*

_Figur 4.14

DUKE POWER COMPANY nfNFF P.Ifi FA.R SIATIKM INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA PEDOPT DATA SET 10 RID /T r. IT TEWDS VpIuMF FRArTInN .INTTAI PRFV. PoINT PRFSFNT 1 68.38 0.0300 2 69 39 0 0 00 PITIDING TFAP, F 79 -;-7 79 54 79 - 0 3 80.43 0.0200 BUILDING PRESS, PSIA 44.009 44.005 44.005 7 41 0 -00 An 1n D ntNrG nFWP11MT TEMP , F 71 Ain 70. A49 7n.779 5 80.54 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3734 0.3727 S 6 79 44:

0-030P 7 83.62 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a T '- 0 100 9 80.13 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79-84 - 0 05n INPFRMATTON TFHP 2, F 0 0 0n n (n 11 69.72 0.0200 INFORMATIDN TEMP 3, F 0.00 0.00 0.00

-12 68--47 0 0200 TNFnPMATION TFMP 4, F n-nn n00 0.00 13 68.70 0.0100 1L AlP RI 0 .20n RAR[iMFTFR 79.263 29.275 29.265 15 81.43 0.0200 KNOWN LEAK 0.0000 16 80.28 0.0100 17 79.83 0.0500 1 81.10 0.0900 19 81.50 0.1100 20 80.s0 0.nlan 21 80.52 0.0100 22 81.23 0.0900 23 81.56 0.1100 24 -82.46 0.0700 25 0.00 2 A 0.00 27 0.00 28 0.00 PRESWIRF-TFXAS VOLUME FRACTION 1 .44.005 1.0000 2 0.000 0.0000 BARPMETER 1 29.265 DEwPOINT TEMPS VOLUME FRACTION 1 71 000 0 4000 2 71.200 0.6000 DIFFERENTIAL PRESS I 0.000 DTFFFRFNTTAl TFMP 1 0.000 Figure 4 _. ,

DUKE POWER COMPANY nflNFF NiCLFAP STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFP3RT DATA SET 11 RT/DGIT TFMPS VOilUMFEFRACTION INITIAL PREV. POINT PRESENT 1 68.36 0.0300 2 19-17 n n0nn BUILDING TEMP. F 79.507 79.530 79.532 3 80.43 0.0200 BUILDING PRESS, PSIA 44.009 44.005 44.005 4 78.40 00500 BUILDING DEWPOINT TEMP. F 71.100 70.779 70.779 5 80.57 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3727 0.3727 6 79.45 0 .0300 7 83.68 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79.47 0.0800 9 80.16 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 70 9-86 0.0500 INFORMATIDN TEMP 2. F 0.00 0.00 0.00 11 69.70 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6f.47 0.02Qo INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.68 0.0100 14 81.10 0,0200 BAROMETER 29.263 29.265 29.265 15 81.44 0.0200 FNOWN LEAK 0.0000 06.

28 0.0100 17 79.84 0.0500 18 d1.29 0.0900 19 81.50 0.1100 20 80.46 0.0100 21 80.51 0.0100 22 81.22 0.0900 23 81.55 0.1100 24 82.48 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRES;URE-TEXAS VOLUME FRACTION 1 44.005 1.0000 2 0.000 0.0000 BAROMETER 1 29.265 DEWPOINT TEMPS VOLUME FRACTION 1 71.000 0.4000 2 71.200 0.6000 DIFFERENTIAL PRESS 1 0.000 QIFFERENTIAL TEMP 1 0.000 Figure 4-16

DUKE POWER COMPANY (1C0NFF NiIif F-AP ' TTION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VEIIFICATIDN TEST DATA PEPOT.

DATA SET 12 pT~ni.IT TFMmp UnIME FRACTTON INITIAI PREV. PnlNT PROFFNT 1 68.38 0.0300 2 6O 36 0 000 ll ODING, TF4 F 79 n7 ,p 9 79 A4 3 80.45 0.0200 BUILDING PRESS, PSIA 44.009 .44.005 44.004 78.40 n£no n RlUIIlDNG. DFWPOINT TFMP, F 71.100 70.779 70.658 5 80.57 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3727 0.3711 6 79 45 n n n(0 7 83.64 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 q9n4' O 0oQ 9 80.14 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10-- 79 86 000 TNFRMATTON TFMP 2, F non 0.00 0.0 11 69.63 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1' AA AR 0. 01 INFRMATIlN TFMP 4, F - .0 0.00 n0 13 68.64 .0 .0100 14 a1 q 0 .020n RARnMFTFR 29.261 29.2S5 29.26S 15 81.43 0.02C0 KNOWN LEAK 0.0000 1 80.28 0.0100 17 79.86 0.0500 18 81.28 0.0900 19 81.51 0.1100 20 80.47 0 .100 21 80.53 0.0100 22 81,24 0,0900 23 81.55 0.1100 24 87.43 0.0700

25. 0.00 2f 04.00 27 0.00 28 0.00 PPFS.URF-TFXA S VOLUMF FRACTION 1 44.004 1.0000 2 r.000 0.0000 BAReETER 1 29.265 DEWPOINT TEMPS VOLUME FRACTION 1 71 000 0.4000 2 71.000 0.6000 DIFFERENTIAL PRESS I 0.000.*

OTFFFRFNTTAl TFMP 1 0.000 Figure 4-17 g .. -g

DUKE POWER COMPANY 000NFF NillFAR STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VElIFICATION TEST DATA RFPDRT DATA SET 13 RT0hGIT TFMPS VOlUME FRACTION INITIAL PREV. POINT PRESENT 1 68.36 0.0300 41 0.0n0n 069 PUILDING TFMP. F 79.507 79.534 79536 3 80.48 0.0200 BUILDING PRESS, PSIA 44.009 44.004 44.004 4 78.43 0.0500 BUILDING DEWPDINT TEMP, F 71.100 70.658 70.658 5 80.57 0.0200 BUILDING VAPOR. PRESS, PSIA 0.3768 0.3711 0.3711 6 79.46 0.0300 7 83.61 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 R_ 7_47_ 0nanon 9 80.16 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.7 0.050 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.58 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.73 0.0200 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.63 0 .0100 14 81.11 0,0200 BAROMETER 29.263 29.265 29.265 15 81.43 0.0200 KNOWN LEAK 0.0000 lb 80.30 0.0100 17 79.84 0.0500 8 81.29 0.0900 19 81.52 0.1100 20 80.49 0.0100 21 80.55 0.0100 22 81.23 0.0900 23 81.54 0.1100 24 82.43 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUMF FRACTION 1 44.004 1.0000 0.000 0.0000 BAROMETER 1 29.265 DEWPOINT TEMPS VOLUME FRACTION 1 71.000 0,4000 2 71.000 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAl. TEMP 1 0.000 Figure 4-18

DUKE.POWER COMPANY

- CO l'r E^A TATInN M1E INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VElIFICATION TEST DATA PEPORT DATA SET 14 Orn/DInrIT TEoMPS Uri11M.FFRArTIOnN TNITIAl .RFVL nlINT PRFSFNT 1 68.33 0.0300 69 31 n n020 PIDING TEiD. F o79 g7 79 -A _ Q -SA 7__

3 80.49 0.0200 BUILDING PRESS , PSIA 44.009 44.004 44.004 4 78--46 0 11-00 PIll]I0NG DFWPI1TNT TFMP, F 71 100 70.ARR 71A.1R 5 80.58 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3711 0.3706 61 79 4~7 n -03Un 7 83.66 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000 8 719 .6 Q G8 0 9 80.17 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79 n -Uon TNFnRMATTfln TFMP 2. F 0.00 0.00 0.

11 69.53 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68. . . -0 2nn INFORMATION TFMP 4. F n.n 0.00 0.00 13 68.58 0.0100 14 0.02c n1 PARnMFTFR 29.261 292 -2&S 15 81.44 0.0200 KNOWN LEAK 0.0000 16 a0.0 a. 0100 17 79.85 0.0500 I a1.29 0-0900 19 81.52 0.1100 2n 80 ).s 0- 0100 21 80.53 0.0100 22 8.725 0.0900 23 81.55 0.1100 2A 2,46 0.0700 25 0.Qo 2t, 0.00 27 0.00 28 0.00 PLRilP0SSRE-TEXAS V____

LUM FRACTION 1 44.004 1.0000 P0 0 0 0000 BAROMETER 1 29.265 DEWPOINT TEMPS VOLUME FRACTION 1 70 0q0 0 4000 .

2 71.000 0.6000 DIFFERENTIAL PRESS 1 0.000

)TFFFRFNTTAL TFMP 1 0.000 Figure 4-19

DUKE POWER COMPANY nrFF Nili FAR STATTnm INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPnRT DATA SET IS RTlnDC.IT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.31 0.0300 S .3 .n 0.0700 PUILDIN. TFIP. F 79.507 79,540 79.541 3 80.53 0.0200 BUILDING PRESS, PSIA 44.009 44.004 44.002 4 78.46 0.0o00 BUILDING DEWPOINT TEMP, F 71.100 70.618 70.457 5 80.59 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3706 0.3686 6 79-50 0.0300 7 83.63 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 9 80.4 00po 9 80.19 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 11 79.49 0.0200 INFORMATION TEMP 2. F 0.00 0.00 0.00 11 69.49 0.02G0 INFORMATION TEMP 3, F 0.00 0.00 0.00

.12 68-69 u0-200 INFURMATION TEMP 4, F 0.00 0.00 0.00 13 68.57 0.0100 14 81.15 00200 BAROMETER 29.263 29.265 29.265 15 81.44 0.0200 KNOWN LEAK 0.0000 1t 80.31 0.0100 17 79.86 0.0500 18 81.29 0.0900 19 81.51 0.1100 20 80.49 0.0100 21 80.57 0.0100 22 81.24 0.0900 23 81.55 0.1100 24 82.45 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 '44.002 1.0000 2 0,000 0.0000 BAROMETER 1 29.265 DEhPOINT TEMPS VOLUME FRACTION 1 70.800 0,4000 2 70.800 0.6000 DIFFEPENTIAL PRESS 0.000 DIFERFNTIAL TEMP 1 0.000 Figure 4-20

DUKE POWER COMPANY OCONEE 4UCLEPAR STAT ION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VElIFICATION TEST DATA PEPORT DATA T 16 DTD/DlC.IT TFMPS V IUME FRACTInN INTTIA1 PRFV. pnINT DRFcFNT 1 68.30 0.0300 2 ('Q 2H0 PIITIflDING TFP F 79 507 7q541 79 BAa 3 80.53 0.0200 BUILDING PRESS, PSIA 44.009 44.002 44.002 4 7845 0 0n50 B"IDIn'NG nFWPALNT TFMP, F 71.100 70.457 70.417 5 80.58 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3686 0.3681 6 79 50 .0-A0 7 83.71 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 0 79 .46 0 0800 9 80.20 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 In 79,89 n .nin INFORMATION TFMP 2, F 0.00 0.00 0.00 11 69.45 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 8.6 Ai 0 0200 INFORMATION TFMP 4. F 0.00 0.00 0.00 13 68.54 0.0100 14 81.17 n ion RARI1METER 29.263 29.265 29.265 15 81.46 0.0200 KNOWN LEAK 0.0000 16 80.31 0.0100 17 79.86 0.0500 18 81.29 0.0900 19 81.52 0.1100 20 ROA.R 0.0100 21 80.53 0.0100 22 81 .23 0.0900 23 81.55 0.1100 24 a20.42 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TFXAS VOLUME FRACTION 1 44.002 1.0000 BAROMETER 1 29.265 DEWPOINT TEMPS VOLUME FRACTION I 701 A.400 n-2 71.000 0.6000 DIFFERENTIAL PRESS 0.000 D IFFFRFNT TAI TFMP 1 0.000 Figure 4-21

DUKE PWER COMPANY OfnaNFF Uilry FAR sTATy18I INTEGRATED LEA RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFP3RT DATA SFT 17 itrniniraf TFMPr valuMF FRACTIOIN INITIAL PREV. PDINT PREN 1 68.28 0.0300

? f9g *"; n -n'nn RiliolING TFMP. F 79.507 79.S38 79.541 3 80.52 0.0200 BUILDING PRESS, PSIA 44.009 44.002 44.002 4 78.45 0.0500 BUILDING DEWP)INT TEMP, F 71.100 70.417 70.376 S 80.60 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3681 0.3676 6 79.50 0.0300 7 83.75 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79.48 0 .nAf00 9 80.20 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.88 0.050-0 INFORMATION TEMP 2. F 0.00 0.00 V.00 11 69.42 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.63 0.070fl0 INFQRMATION TEMP 4. F 0.00 0.00 0.00 13 68.52 0.0100 14 81.17 0.0200 BAROMETER 29.263 29.265 29.256 15 81.46 0.0200 KNOWN LEAK 0.0000 16 80.32 0.0100 17 79.87 0.0500 18 81.30 0.0900 19 81.52 0.1100 20 60.52 0.0100 21 80.58 0.0100 22 81.24 0.0900 23 81.54 0.1100 24 82.45 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 44.002 1.0000 2 0.000 0.0000 BAROMETER 1 29.256 DEWPUINT TEMPS VOLUME FRACTION 1 70,300 0,4000 2 71 .000 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-22

DUKE PDVER COMPANY UCUNEE AUCLEAR STATIDN INTEGRATED LEAK RATE TEST 03/02/73 29.50 PSIG VEAIFICATION TEST DATA REPORT DATA SET 16 RTD/DIGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.25 0.0300 2 69.22 0.0200 BUILDING TEMP, F 79.507 79.541 79.536 3 80.54 0.0200 BUILDING PRESS, PSIA 44.009 44.002 44.001 4 78.46 0.0500 BUILDING DEWPjINT TEMP, F 71.100 70.376 70.316 5 80.59 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3676 0.3669

-6 79.53 0.0300 7 83.79 0.0100 REF. VFSSEL DIFF PRESS,_PSI 0.0000 0.0000 0.0000 a 79.47 0.000 9 80.19 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 13 79.A9 0.050U TNFORMATNI-TEMP2, F u. 0.0 J- .U 11 69.39 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6P.58 0.0200 INFORMATION TEMP 4f F- 0.00 0.00 0.00 13 68.51 0.0100 14 81.18 0.0200 BAROMETER 9.Z63-29.256 - 29.256 15 01.46 0.020'0 KNOWN LEAK 0.0000 10 80.?3 0 .0100 17 79..8 0.0500 1 81.30 0.0900 19 . 11.52 0 .1100 20 30.53 0.0100 21 80.54 0.0100 22 61.23- 0 .0900 23 81.54 0.1100 24 62.41 0.0700 25 ._ _ _ _ _*

26 0.00 27 0.00 26 0 .00 PRESSURE-TEXAS VOLUME FRACTION 1 44.001 1.0000 2 0 .00 0 0.0000 BARhET Fk 1 29.256 DF.WPOINT TEMPS VCLUME FRACTION 1 70.360 0.4000 2 .70.900 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TE4P 1 0.0004-23

_______ ___________Figure 4-23 ______

e .

DUKE POWER COMPANY MONFF NiffFAR STATIOIN INTEGRATED LEAK RATE TEST 07/32/73 29.50 PSIG VERIFICATION TEST DATA RFPORT nATA &FT 19 r/nIGrIT TFMPs VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.24 0.0300 2 A9.2? 0.0200 RUTIDnING TFM4P. F 79.507 79.536 79.535 3 80.53 0.0200 BUILDING PRESS, PSIA 44.009 44.001 44.000 4 78.47 0.0500 BUILDING DEWPOINT TEMP. F 71.100 70.316 70.195 5 80.61 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3669 0.3653 6 79.53 0.0300 7 83.81 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 9 80.20, 0.05 n f) 00I 9 80.20 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 11 79.p 0.0500 INFORMATION TEMP 2. F 0.00 0.00 0.00 11 69.35 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6B.55 0.02700 INFORMATION TEMP 4. F 0.00 0.00 0.00 13 68.47 0.0100 14 81.21 . 0 00 BAROMETER 29,263 29,256 29,265 15 81.47 0.0200 KNOWN LEAK 0.0000 16 80.33 0.0100 17 79.87 0.0500 18 81.A0 0.0900 19 81.53 0.1100 20 80.55 0.0100 21 80.54 0.0100 22 81.25 0.0900 23 81.53 0.1100 24 82.39 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 44.000 1.0000 2 0.000 0.0000 BAROMETER 1 29.265 DEWPOINT TEMPS VOLUME FRACTION 1 70.300 0.4000 2 70.700 0.6000 DIFFERENTIAL PRESS 1 0.000 0IFFERENTIAL TEMP 1 0.000 Figure 4-24

DUKE POWER COMPANY OQCNEEi ACL:E-if STIATI'00 INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST D9TA REPORT DATA SET '0 lrnjnTrIT.TP D VOlUME FRACTION INITTg PFU Pf NT papFp 1 68.21 0.0300 3 89 I. n n20n neriDnv. TED2 7- n 7q -53 79 r20 3 80.53 0.0200 BUILDING PRESS, PSIA 44.009 -44.000 44.000 000 8 -

R'illlNr DPupOINT TFMPr E 7 1 -inn 70.194 7n nit1 5 80.63 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3653 0.3638 6 79 -52 0 0300o 7 83.73 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a :79' 7 0 000 9 80.20 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 6310 0 n nnn "

INFnRMATTnN TFMP 2. F n0n 0.00 0.00 11 69.33 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 -

0020n-0 INFQRMATI3N TFMP 4. F 0.00 .00 P00 13 68.44 0.0100 14 1.22 0. 02ri RARQMFTFR 29.263 29.2k, 29.2AS 15 81.47 0.0200 KNOWN LEAK 0.0000 17 79.87 0.0500 I ___813D 0.0900 19 81.51 0.1100 20 n -. ; 0 0100 21 80.56 0.0100 22 8il.24 0,0900 23 81.53 0.1100 24 82.37 0.0700 25 0.00 2A 0.00 27 0.00 S28 O0 PRESS'RE-TEXAS VOLUMF FRACTION 1 44.000 1.0000 2 P.000 n.0000 BAROMETER 1 29.265 DEWPOINT TEMPS VOLUME FRACTION 100

-1 n. 600 2 70.500 0.6000 DIFFERENTIAL PRESS NIFFFrFNTIAl TFMP 1 0.000

FigM4- 25

DUKE POWER COMPANY nCONFF NlIrI FAR sTATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VE1IFICATION TEST DATA RFPORT DATA SFT 21 RTP/DIGIT TFMPS VOLUME FRACTION INITIAL PREV, POINT PRESENT 1 68.19 0.0300 AQ15 . 0.0200 RUliLING TFMP, F 79.507 79.529 79.534 3 80.54 0.0200 BUILDING PRESS, PSIA 44.009 44.000 44.000 4 7R.50 0.0500 BUILDING DEWPOINT TEMP. F 71.100 70.074 70.074 5 80.64 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3638 0.3638 6 79.52 0.0300 7 83.81 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000 A 79.7 0 .0s00 9 80.22 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.90 0.0500 INFORMATION TEMP 2. F 0.00 0.00 0.00 11 69.32 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6b.50 - 0.0200 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.43 0.0100 14 81.21 0.0200 BAROMETER 29.263 29.265 29.268 15 81.48 0.0200 KNOWN LEAK 0.0000 16 80.35 0.0100 17 79.89 0.0500 18 81.31 0.0900 19 81.50 0.1100 20 80.56 0.0100 21 80.62 0.0100 22 81 .26 0.0900 23 81.54 0.1100 24 82.35 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURF-TEXAS VOLUME FRACTION 1 44.000 1.0000 2 0.000 0.0000 BARCMETER 1 29.268 DEWPOINT TEMPS VOLUME FRACTION 1 70,300 0.4000 2 70.500 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure .4-26

DUKE POWER COMPANY 00CaE tClEPAR STATIOn INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VElIFICATION TEST DAT.A REPORT DATA SET 22 PTi'.DIGIT TEmpS VLME FRACTION INITIAl PRFV PniNT PRFSENT 1 68.17 0.0300 2 69 14 0 0200 PIlIDINGr TFMPi F 79 507 7Q Al 79 539 3 80.57 0.0200 BUILDING PRESS, PSIA 44.009 .44.000 43.999 4 78-50 0-0500 Pilifli N. tlFwPnTN T TFMP, F 71 100 70-n74 70 014 5 80.66 0.0200 EUILDING VAPOR PRESS, PSIA 0.3768 0.3638 0.3633 6 0 0300 7 83.81 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79.28 0 0800 9 80.25 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 1 79-90 0 -05n INFnRMATIN TFMP 2, F 030 p,00 0.00 11 69.29 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 hA.4 A -02A0 INFORMATION TFMP 4, F -0.00 0.00 0.00 13 68.40 0.0100 14 A1 24 0 .0201 RAROMFTFR 29.263 79.26R 19.258 15 81.49 0.0200 KNOWN LEAK 0.0000 16 0l.A5 0.0100 17 79.89 0.0500 18 81.30 0.0900 19 bl.52 0.1100 20 An.60 0 .0100 21 80.58 0.0100 22 81.25 0.0900 23 81.54 0.1100 24 82.37 0.0700 25 0.00 26 0.00 27 0.00 PFE5SRE-TFXAS VOLUME FRACTION I 43.999 1.0000 7 0.000 0.0000 BAROMETER 1 29.258 DEWPOINT TEMPS VOLUME FRACTION 1 70 200 0.4000 2 70.500 0.6000 DIFFERENTIAL PRESS 1 0.000*

nIFFFRFNTIAI TFMP I 0.000 Figure 4-27

DUKE POWER COMPANY nflNFF NWIFAR STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VE1lFICATION TEST DATA RFPORT DATA SET 23 RTD/DIGIT TFMPS VOLUME FRACTION INITIAL PREy. POINT PRESENT 1 68.15 0.0300 2 9 167-n;0f AIDtNr TEMP, F 79,507 79.539 79.538 3 80.58 0.0200 BUILDING PRESS, PSIA 44.009 43.999 43.998 4 78.50 0,0500 BUILDING DEWPJIN.T TEMP. F 71.100 70.034 69.954 5 80.67 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3633 0.3624 6 79.56 0.00 7 83.79 0.0100 REF. VESSEL 01FF PRESS PSI 0.0000 0.0000 0.0000 9 80.23 0.0500 INFORMAT13N TEMP 1, F 0.00 0.00 0.00 ID 79.92 - 0.051U INFORMATION TEMP 2 F 0.00 0.00 0.00 11 69.27 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.46 0.0200 INFORMATION TEMP 4 F 0.00 0.00 0.00 13 68.38 0.0100 14 81.24 0.0200 BAROMETER 29,263 29.258 29.258 15 81.49 0.0200 KNOWN LEAK 0.0000 16 U0236 0.0100 17 79.90 0.0500 11 81231 0.0900 19 81.50 0.1100 20 80.59 0.0100 21 80.60 0.0100 22 81.25 0.0900 23 81.55 0.1100 24 82.36 0.0700 25 0.00 26 0.00 27 0.00 26 0.00 PREBIIRE-TEXAS VOLUME FRACTION 1 43.998 1 .0000 2 0 .001 000000 NAROFE0ETER 1 29.25A TEMPS VOLUME FRACTION IEWPOINT 0.4000 I R70F000

.2 70.500 0.6000 DIFFEPENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-28

DUKE POWER COMPANY UCo IEE ! LEA? STR . T In INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DA.TA PEPORT DATA SET 24 TGnIClT Tr5 nil'ME FRACTION INTTIAt PPFV. OnINT PRFSFNT 1 68.14 0.0300 a1 0A0Qa B ILDTNG TEMP. F 79 ;07 79 5 79 5.

3 80.60 0.0200 PUILDING PRESS, PSIA 44.009 43.998 43.997 4 78 5n 0 non PIIT IDING 0FDlanT TEMP F 71 1nn 69-04 69-9o4 5 80.67 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3624 0.3624 S6 .-

7---57 f) 0.3f0r 7 83.80 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 R 79 -50 0 0800p 9 80.26 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79 92 0.niSfon INFnRMATTON TFMP 2, F 0.00 0.00 0.0 11 69.26 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68 .44 ( nn.0.n200 TNFORMATION TFMP 4. F 0.00 0.00 0.00 13 68.35 0.0100 14 1. 26 0.0200 PAROMFTFR 79.263 29.25A 29.258 15 81.50 0.0200 KNOWN LEAK 0.0000 16 80.36 0non 17 79.90 0.0500 18 81.32 0.0900 19 81.52 0.1100 20 80.54 0 0100 21 80.63 0.0100 72 81 .25 0.0900 23 81.53 0.1100 24 82.36 0 .0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURF-TEXAS VOIUMF FRACTION 1 43.997 1.0000 c -.00 0. A000 HARPMFTFR 1 29.258 DEWPOINT TEMPS VOLUME FRACTION 1 70 000 A.4000 2 70.500 0.6000 DIFFERENTIAL PRESS 1 0.000 QMFFFRFNTIAt TFMP 1 0.000 Figu*4-29

DUKE POWER COMPANY OflNF F NIfCI FAR ST AT 1in INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 25 R1 IDIGIT T _MPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.13 0.0300 2 69.09 0,0200 BUILINS TFIP. F 79.507 79.541 79,537 3 80.61 0.0200 BUILDING PRESS, PSIA 44.009 43.997 43.997 4 78_51 0.0500 BUILDING DEWPDINT TEMP, F 71.100 69.954 69.893 5 80.65 0.0200 EUILDING VAPOR PRESS, PSIA 0.3768 0.3624 0.3616 6 79 57 0.0300 7 83.83 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 h 79.A9 0.0800 9 80.26 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79,94 0.000 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.24 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6b-A2 0.0200 INFQRMATION TEMP 4. F 0.00 0.00 0.00 13 68.35 0.0100 14 81.29 0.0200 BAROMETER 29.263 29.258 29.257 15 81.51 0.0200 KNOWN LEAK 0.0000 16 80.38 0.0100 17 79.91 0.0500 18 81.32 0.0900 19 81.52 0.1100 20 80.57 0.0100 21 d0.56 0.0100 22 81.23 0.0900 23 81.53 0.1100 24 82.33 0.0700 25 0.00 26 0.00 27 0.00 28 .0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.997 1.0000 2 0.000 0.0000 BARCMETER 1 29.257 DEWPOINT TEMPS VOLUME FRACTION 1 70.000 0.4000 2 70.400 0.6000 DIFFEPENTI AL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure4 DUKE POWER COMPANY

. OCONEE MUfit.?R STATIOn INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST

.ATA PEPOPT DATA SET 26 Tr-%pt VmiIHmF FRArTInN INTTT&I PpFV. PnINT PRFSFNT rnintGITl 1 68.11 0.0300 2 69 07 . 0'00 PILIlN TEMP. F7 79 ,7 79 54A 3 80.62 0.0200 BUILDING PRESS, PSIA 44.009 43.997 43.996 pnn mIl niir, nF-wonTN fDN TPFMP, F 71 100 h9A99 78-.52 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3616 0.3616 5 80.68 6 --7-9-59 0 L4JJn D__

0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 7 83.85 a 79 00900 9 80.26 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 0 5iOn INFnRMATTON TFMP 2, F 0.00 0.00 0.00 10 7q 94 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 11 69.23 n .n2on INFORMATTON TFMP 4. F 0.00 0.00 0.00 12 -A .41I 13 68.33 0.010) 14 81. 31) 0.0200 BAROMETFR 29.263 29.257 29.257 15 81.52 0.0200 KNOWN LEAK 0.0000 16 A0.37 0.0100 17 79.92 0.0500 18 81.37 0*0O 19 81.53 0.1100 2 805 0 0100 21 80.59 0.0100 22 8l *?5 0.0900 23 81.54 0.1100 24 82.23 0*0700 25 0.00 26A -nn 27 0.00 F&ESiURX-TEXAS VOLUME FRACTION 1 43.996 1.0000 RAROMFTFR 1 29.257 DEWPOINT TEMPS VOLUME FRACTION I .70 OflA n-4.000 2 70.400 0.6000 DIFFERENTIAL PRESS 1 0.000 D TFFFRFMTIAL TFMP 1 0.000 Fi . 4-31

DUKE POWER COMPANY OCONEF NJCIFAR STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 27 RTID/IGIT TEMP% VOLUvF FRACTION INITIAL PRE. POINT PRESENT 1 68.10 0.0300 2 69.05 0.0200 BUILDING TEMP. F 79,507 79.543 79.548 3 80.62 0.0200 BUILDING PRESS, PSIA 44.009 -43.996 43.996 4 78.55 0.0500 BUILDING DFWPDINT TEMP, F 71.100 69.893 69.954 5 80.69 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3616 0.3624 6 1959 0.0300 7 83.83 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 R 7q.4/9 0.0800 9 80.27 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 ID 79-94 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.21 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 L2 68-.29 0,0700 INFORMATION TEMP 4. F 0.00 0.00 0.00 13 68.34 0.0100 14 81. 0 0.0200 BAROMETER 29.263 29.257 29.258 15 81.52 0.0200 KNOWN LEAK 0.0000 16 _ 8_0.39 0.0100 17 79.92 0.0500 18 8l32 0.0900 19 81.52 0.1100 20 80.57 0.0100 21 80.61 0.0100 22 81.28 0.0900 23 81.55 0.1100 24 82.35 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRES URE-TEXAS VOLUME FRACTION 1 43.996 1.0000 2 0.000 0.0000 bAROMETER 1 29.258 DEWPOINT TEMPS VOLUME FRACTION 1 70,000 0.4000 2 70.500 0.6000 DIFFERENT IAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-32

DUKE POWER COMPANY OCOnEE NIICLEAR ST ATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST1 DATA ORFP9T DATA FT 78 RTn/Dir .T TFMpS VOIiIMF ERACTION INITIAI PRFV. PnINT PRFSFNT 1 68.09 0.0300 2 69 0 0 0 PIPIINS TF1P F 79 SO07 7Q 4Ag 79 548 3 80.6k 0.0200 EUILDING PRESS, PSIA 44.009 43.996 43.996 4 7A 66 f) .000 RAl1n1 nIN.

N F DWPOINT TFMP, F 71 .100 69.954 69.77 4 5 80 .9 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3624 0.3601 6 7-9-60 0 03,00 7 83.88 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 7.1 0 .0800 9 80.28 0.0500 INFORMAT13N TEMP 1, F 0.00 0.00 0.00 1 99 5 0.0500 INFORMATION TFMP ?, F 0.00 0.00 0.00 11 69.20 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00

_ 12 68.37 -0.02 0-0 INFORMATION TFMP 4. F 0.o 0.00 0.00 13 68.31 0.0100 14 81.I1 0 .0200 RAROMFTFR 29.263 29.75R 29.258 15 t81.51 0.0200 KNOWN LEAK 0.0000 16 d0.99 0.0100 17 79.93 0.0500 Ib __IL.3 1 0 00900 19 81.53 0.1100 20 gi0. -t 0.0100 21 80.62 0.0100 22 81.2b 0.0900 23 81.53 0.1100 0 4 b2.3.3. 0.0700 25 0.00 Ph 0.00 27 0.00 28 0.00__

PRES5,R-ETFXAS VOLUMEJ FRACTION 1 43.996 1.0000 2 .nna 0.0000 BARUMETER 1 29.258 OEWPCINT TEMPS VOLUME FRACTION 1 70 00'0 0 4000 2 70.200 0.6000 DIFFERENTIAL PRESS I 0.000 0 IFFFRFNT IAf TFMP 10.000 Ask ~F 41 4-33<

DUKE POWER COMPANY ncONEF NUn FAR STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 79 RTP/DIGIT TFMPS vOIUMF FRACTION INITIAL PREV. POINT PRESENT 1 68.06 0.0300 flQ 0 0)00 Rn.TING TF4P, F 79.507 79.548 79.545 3 80.64 0.0200 BUILDING PRES, PSIA 44.009 43.996 43.996 4 78.55 00trQ BUILDING OEWPOINT TEMP. F 71.100 69.773 69.773 5 80.71 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3601 0.3601 6 -79.59 0.0300 7 83.86 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79.-51 0 .0pf0 9 80.27 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.97 0.05 00 INFORMATION TEMP 2. F 0.00 0.00 0.00 11 69.19 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1 6. 0.00 INFORMATION TEMP 4. F 0.00 0.00 0.00 13 68.29 0.0100 14 l 11 0non BAROMETER 29.263 29.258 29258 15 81.53 0.0200 KNOWN LEAK 0.0000 164 I0.0100 17 79.93 0 .0500 l0 .0900 19 81.51 0.1100 20 80.58 0,0100 21 80.61 0.0100 22 81.25 0.0900 23 81.53 0.1100 24 82.35 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.996 1.0000 2 0.000 0.0000 bAROMETFR 1 29.258 DEWPOINT TEMPS VOLUME FRACTION 1 70,000 0.4000 2 70.200 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-34

DUKE POWER COPANY OCONEE N 'C'EAR STATION0 INTEGRATE LEAK RATE TEST 07/02/73 29.50 PSIG VE1IFICATION TEST DATA REPJT DATA SFT 30 TfninlrIT TMp r Unism1F FERArTInN INITTAI PRFV. PnINT PRFSFNT 1 68.07 0

0.0300

? n9i 0n0nn inintr.G TPmP, r 7Lr -eDks 7a. a 3 80.64 0.0200 BUILDING PRESS, PSIA 44.009 43.996 43.996 7R .4n0n A PUIt11lrING DFMfl.NT TFMP, F 71.0 Inn" 69. 771 69,773 5 80.72. 0.0200 BUILDING VAPOR .PRESS, PSIA 0.3768 0.3601 0.3601 6 79 6: p 0300 7 . 83.88 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 79.52 0 0600 9 80.29 , 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 in 0.A 5Aan no INFORMATInN TFMP 2, F n.00 0.00 0.00 11 69.18 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 2 68 n0n2n INFORMATION TFMP 4, F 0-00 0.00 0.00 13 6R.29 0.0100 14 Rl-s 0 000 PAROMETFR 29.263 29.25A 29.270 15 81.55 0.0200 YNO N LEAK 0.0000 16 80.41 0.0100 17 79.94 0.0500 18 dl.34 . 0.0900 19 81.53 0.1100 20 SO.54 0.0100 21 80.61 0.0100 22 81.77 0.0900 23 81.54 0.1100 24 .37 0,0700 25 0.00 26 0.00 27 0.00 26 0.00 PFFS &E-TFXAS VOLUME FRACTION 1 43.996 1.0000 2 0.000) 0,0000 BAROMETER 1 29.270 DEWPOINT TEMPS VOLUME FRACTIOM 1 70l n00 A 4000 2 70.200 0.6000 DIFFERENTIAL PRESS I 0.00 nIFFFRFNTIA TFMP 1 0.000

__Fi__ 4-35

DUKE POWER COMPANY flNFF N Ill FAR STAT 1N1N INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SFT 31 RTP/DIGIT TFMPS VOLiIF FRACTUON INITIAL PREV. POINT PRESENT 1 68.07 0.0300 2 h9.00 , 0.0200 PULn PING TEMP. F 79.507 79,558 79.552 3 80.65 0.0200 BUILDING PRESS, PSIA 44.009 43.996 43.996 4 78.57 0 0500 PUILDING OEWPJINT TEMP. F 71 .100 69.773 69.773 5 80.74 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3601 0.3601

_ _6 796.1 0 ,0300 7 83.88 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79.51 n.0n80 9 80.29 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10_-7_399 00500 INFORMATIDN TEMP 2, F 0.00 0.00 0.00 11 69.17 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 b8.34 0.0200 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.25 0.0100 14 81 .13 .0,200 BAROMETER 29.263 29.270 29.270 15 81.54 0.0200 KNOWN LEAK 0.0000 16 80.42 0.0100 17 79.95 0.0500 18 81 .34 0.0900 19 81.52 0.1100 20 80.60 0.0100 21 80.62 0.0100 22 81.26 0.0900 23 81.54 0.1100 24 82.32 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 4*3.996 1.0000 2 0.000 0.0000 BAR0IMFTER 1 29.270 DEWPOINT TEMPS VOLUME FRACTION 1 70,000 0.4000 2 70.200 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-36

DUKE POWER .COMPANY OCONEE NICLEA STATTON INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DI'TP PEnfJPT 3R DATAARF vnIfl FRArTin

)CME INITIAl PRFV. PnINT PRFSFNT RIn/nir1T TFDP, 1 68.06 0.0300

.69-n 0 0'00 RiTiDlING TFP. F 79 -07 79 9R> 79)6A 3 80.68 0.0200 BUILDING PRESS, PSIA 44.009 .43.996 43.996 nf 5 () PilI InING )F WPfTNT TFMP, F 71.100 69.773 69.773 4 89 5 80.74 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3601 0.3601 6 79-415 0 03f00 7 83.88 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a 795. p00000 9 80.30 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 8000 0 050-O INFOlRMATION TFMP 2, F 0.00 0.00 0.00 11 69.16 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.o ) 020 INFORMATION TFMP 4. F -0.00 0.00 0.00 13 68.25 0.01O 14 Al-1L ____ 0 0200 PARnMFTFR 29.263 29.270 29.270 15 81.55 0.0200 KNOWN LEAK 0.0000 16 80.43 0.0100 17 79.96 0.0500 1 a-- 1.35 0.0900 19 81.54 0.1100 20 sn. 6 o 0 .0100 21 80.62 0.0100 22 81 .29 0.0900 23 81.53 0.1100 240,0700 25 0.00 2f6 0.00 27 0.00 28 0.00 P.RESSR5-TXAS VOLUME RACTION 1 43.996 1.0000 2 0.000 . 0.0000 BAROMETER 1 29.270 DEWPOINT TEMPS VOLUME FRACTION

.I 70 0no 0 .-0 2 70.200 0.6000 DIFFERENTIAL PRESS 0.000 P~iFFFrgFNTiAI- TFmp 1 0.000 1 000 FL.T 4 . p.

DUKE POWER COMPANY ornNFF Nuirl FAR STATTON INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 33 RTIDIGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 68.05 0.0300 S 69.0

0.0200 BUILDING TEMP. F 79.507 79,565 79,566 3 80.68 0.0200 BUILDING PRESS, PSIA 44.009 43.996 43.993 4 78.59 0.0500 BUILDINS DEWPDINT TEMP, F 71.100 69.773 69.712 5 80.72 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3601 0.3594 6 19.65 0.0300 7 83.89 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79.54 0.-s00 9 80.30 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00

i. 7.98 00500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 b9.16 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 63.3 0.0200 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 o8.24 0.0100 14 81.36 0.0200 BAROMETER 29.263 29.270 29.275 15 81.55 0.0200 KNOWN LEAK 0.0000 16 80.43 0.0100 17 79.96 0.0500 18 81.34 0.0900 19 81 .54 0.1100 20 80.60 0.0100 21 80.65 0.0100 22 81.29 0.0900 23 81.55 0.1100 24 82.36 0.0700 25 0.00 26 0 .00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 43.993 1.0000 2 0.000 0.0000 BAROMETER 1 29.275 DEiiPOINT TEMPS VOLUME FRACTION 1 70.000 0.4000 2 70.100 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-38

DUKE POWER CDMPANY OCONEE N"C' FAP CZAT IOIN INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA 0PPPT DTRlirlT TMPS uiUME ERACTTnfl TNITTAI PRFV. POINT PRF5FNT 1 68.04 0.0300 99 0 000 P0INo I TP 1A F 79 -507 79 -AA 074 79 2 68 3 80.68 0.0200 BUILDING PRESS, PSIA 44.009 .43.993 43.993 4 7A 11 pOX0- RillTiING n FWP INT TFMP. F 71.100 69.712 69.6S2 5 80.74 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3594 0.3586 6 79 66 0-0300 7 83.91 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 79.5r4 0 .0O0 9 80.33 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 in 8An0o 0 -. 5Q TNFnRMATION TFMP 2, F n-0fl Lon 0.00 11 -69.14 0.0200 . INFORMATION TEMP 3, F 0.00 0.00 0.00 12 , 0.200 INFORMATIN TFMP 4. F -0.00 0.00 0.00 13 68.24 0.0100 14 A1 3R n n2on PARnMFTFg 29.263 29.275 29.275 15 81.57 0.0200 KNOWN LEAK 0.0000 16 80,44 1 17 79.98 0.0500 19 81.55 0.1100 20 An.-57 0.0100 21 80.64 0.0100 22 81.30 0.0900 23 81.55 0.1100 24 82,37 0.0700 25 0.00 26 0.00 27 0.00 28 P FiSIUEj -X1A VOLUME FRACTION 1 43.993 1.0000 o n 0ri0 0.0000 BAROMETER 1 29.275 DEwPOINT TEMPS VOLUME FRACTION 1 70 -000 n- 4000 2 70.000 0.6000 DIFFERENTIAL PRESS PFFFFM111I TFMP 1 0.000 Figure 4-39

DUKE POWER COMPANY OCONFF NUCI FAR STATION INTEGRATEU LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 35 RTn/DIGIT TEMPS VOLUME FRACTION ----. INITIAL PREV. POINT PRESENT 1 68.04 0.0300 R.97 0 .0200 BUILDING TEMP. F 79.507 79.574 79.580 3 80.70 0.0200 BUILDING PRESS, PSIA 44.009 43.993 43.993 40,0500 BUILDING DEWPOINT TEMP. F 71.100 69.652 69.672 5 80.75 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3586 0.3589 6 79b.66 0.0300 7 83.90 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 9 80.33 0.0500 IO O TM 1 9 80.33 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 dQ__02 a .U_300 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.14 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 ? ---- 0,021 ___ _ INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.24 0.0100 14 81.40 0,0200 BAROMETER 29.263 29.275 29.275 15 81.59 0.0200 KNOWN LEAK 0.0000 16 80.45 0.0100 17 79.99 0.0500

__8_ 81,17 0.0900 19 81.55 0.1100 20 80.59 0.0100 21 80.65 0.0100 22 81.32 0.0900 23 81.54 0.1100 24 82.36 0.0700 25 0.00 26 0.00o 27 0.00 28 0.00 PRES URE-TEXAS VOLUME FRACTION 1 43.993 1.0000 2 0.000 0.0000 BARCMFTER 1 29.275 DEWPOINT TEPPS VOLUME FRACTION 1 69.900 0.40C0 2 70.100 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-4n

DUKE POWER COMPANY n0UEF NVI AR ST ATIAl INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA PFPORT DATA SET 16 RTDIGIT TEMDS VflIMF FRArTInN 11ITTAI PRFV. PniNT PRFSFNT 1 68.03 0.0300 68 05 0 0200 P)IITIDIN TFMP. F 9 79 79 5 79 A) 3 80.71 0.0200 BUILDING PRESS, PSIA 44.009 43.993 43.993 4 7A AA 0500 PillilDIMr, nFWRNTNT TFMP , F 71 100 69.677 69.-A7 5 80.75 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3589 0.3589 6 7 67 0 -0300 7 83.85 0.0100 PEF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000

& 79.5 0 .0 0 9 80.33 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 RO.? n ncl.Afln INFORMATTIN TFMP 2. F 0.00 0.00 0.00 11 69.12 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1? 6AR.1 0.0200 INFORMATION TFMP 4. F 0.00 0.00 0.00 13 68.21 0.0100 14 Ri47 0.020 RAROMFTFR 79.263 29.775 29.275 15 81.58 0.0200 KNOWN LEAK 0.0000 16 80.46 0.0100 17 79.98 0.0500 1I8 1.A7 0.0900 19 81.57 0.1100 2n An. l1 0 .0100 21 80.67 0.0100 2? 81.32 0.0900 23 81.55 0.1100 24 8L.33 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESURL-TFXAS VOLUME FRACTION 1 43.993 1.0000

? 0.000 .0.0000 RAROMFTFR 1 29.275 DEwPOINT TEMPS VOLUME FRACTION T a 900 0 f.00 2 70.100 0.6000 DIFFERENTIAL PRESS 0lFFFPFJTTA1 TFtP 1 0.000 Figure 4-41

9 DUKE POWER Co Y DCONEE NJCLEAR STAl-1UN INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET 37 RTD/DIGIT TEMPS VOLUME FRACTION - PREV.PINT PRESENT

-IN-T 1 68.00 0.0300 2 68.93 0.0200-- --------- BUILDING TEMP, F - - 79.507 79.582 - 79.574 3 80.71 0.0200 - -- BUILDING PRESS, PSIA 44.009 43.993 43.993 4 78.62 .0.0500 BUILDING DEWPOINT TEMP, F 11.100 69.672 69.672 5 80.77 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3589 0.3589

.6 79.67 0 .0300 7 b3.89 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 c.0300 6 79.53 0.0800 9 80.34 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80.02 0.0500 INFORMATIO TEMP 2, F 0.00 0.00 0.00 11 69.11 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.30 0.0200 INFORMATION TEMP 4, F 0.00 0.00 '00 13 68.21 0.0100 14 81.39 0.020052BAROMETER 29.263 Z9.75 29.280 15 _ 1.5b 0.0200 KNOwN LEAK 0.0000 16 00.46 0.0100 17 79.99 0.0500 13 81.35 0.0900 19 81.56 0.1100 20 -80.61 -- 0.0100 21 60.60 0.0100 22- 81.33 U.0900 23 b1.F5 0.1100 24 82.30 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTIUN 1 43.993 1.0000 2 0.000 0.00 0 0

--- BAROMETER 1 29.210 DEWPDINT TEMPS VOLUME FRACTION 1 69.900 0 .4000 2 .70.100 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000

__Figure 4-42 -7

_ _ DUKE POWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST I-ATAfKEPORT DAK T 38 A1ilDI16l TEP V0LU14E FRACTION INITIAL PV.PDINT PREIENT 1 68.01 0.0300 2 68.93 ~0.0200 BUILDI4NGTEXP, 1931 957479.180 3 80.71 0.0200 BUILDING PRESS, PSIA 44.009 43.993 43.993 4 78.62 0.0500 BUILDING DEPOINT TE.P, F 71.100 69.612 69.67Z 5 80.78 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3589 0.3589 6 79.68T 0.0300 7 83.88 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 79.54 080

9 .80.37 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 1 00005 INt-URMAIIUN TEMP 2, F 0.00 U.UU U.ou 11 69.12 0.0200 INFORMATION TEMP 3, F 0.00 D.DD 0.00 12 68.29 U.0200 .INFURMAUN-TEP--4-,- U.UU0 0.00 .00

-- 13 68.20 0.0100 14 81.39 0.0200 BAKURIER Z9 .b3 .ZUU 29.Z8U 15 81.60 0.0200 KNOWN LEAK 0.;000 16 80.47 0 110 17 79.99 0.0500

-18 81.36 0.0900 19 bl.55 0.1100 20 - 80.65 0.0100 21 80.64 0.0100 22 - 81-.30 .0U90 23 81.55 0.1100 24 - 82.35 0.0700 25 0.00 26 0.0) 27 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.993 1.0000 2 0.000 0.0000.

BAROMETER 1 29.280 DEWPOINT TEMPS VOLUME FRACTION I 69.900 --- 0.4000 2 70.100 0.6000 DIFFERENTIAL PRESS

~I- 0.000

--- OFFERENTIAL TEMP 1 0.000 Fig~ 4-43

DUKE POWER COMPANY nrpNFF NUCLFAR STATIIN INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VFRIFICATION TEST DATA RFPORT DATA SFT 39 RTD/DIl1T TFMPS VOIUMF FRACTION INITIAL PREV. POINT PRESENT 1 68.00 0.0300

> ,g.

A - n nlnn PUTIDING TFiP, F 79.507 79.579 79.580 3 80.71 0.0200 BUILDING PRESS, PSIA 44.009 .43.993 43.993 4 7R.63 0. 50 FUILDING DEWPOINT TEMP, F 71.100 69.672 69.572 5 80.77 0.0200 EJILDING VAPOR PRESS, PSIA 0.3768 0.3589 0.3577 6 79.69 0.0300 7 83.94 0.0100 REF. VESSEL 01FF PRESS, PSI ,0.0000 0.0000 0.0000 A 7q 'A0 .0800 9 80.35 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 20.05 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.10 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.28 0.0200 INFORMATION TEMP 4. F -0.00 0.00 0.00 13 68.18 0.0100 14 A1.19 0.0200 BAROMETER 29.263 29.280 29.280 15 81.58 0.0200 KNOWN LEAK 0.0000 16 80.48 0.0100 17 80.00 0.0500 18 81.36 0.0900 19 81.56 0.1100 20 80.65 0.0100 21 80.67 0.0100 22 81.34 0.0900 23 81.55 0.1100 24 82.30 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 43.993 1.0000 2 0.000 0.0000 BARflMFTFR 1 29.280 DF*.POINT TEMPS VOLUME FRACTION 1 69.800 0,4000

2. 70.000 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFFRFNTIAL TEMP 1 0.000 Figure -44,

DUKE POWER COMPANY OC-OEE NICr.EAP STATION INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA CET 40 RTrinlr.IT TFpl VntIlMF FRACTInN INITIAl PRFVL LRflT PRFSFT 1 68.00 0.0300 Aa0 o a - g 20Plflt f 0f 1iM TFMP F 7Q9 - s 07 i 7Q . .. 7Q.

3 80.72 0.0200 BUILDING PRESS, PSIA 44.009 43.993 43.993 L. 78 A1 A 0l_ 00A RIIinINC. nF WDn INT TFMP. F 71 linn 9-972 A9.411 5 80.77 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3577 0.3559 7 83.92 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 B TO' 0 0800 9 80.35 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 in -4. nn fnn INFORMATInN TFMP 2, F 0.00 oa 0.00 11 69.10 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1? AR.8 0. G200 INFORMATION TFMP 4. F 0.00 0.00 0.0 13 68.19 0.0100 14 81.43 l?.000 PARnMFTFR 29,263 29.an 29,280 15 81.59 0.0201 KNOWN LEAK 0.0000 16 80.48 0 0100 17 80.01 0.0500 18 81.36 0.0900 19 81.55 0.1100

?70 A.6k 0.0100 21 80.64 0.0100 22 81.33 0.0900 23 81.55 0.1100 24 82.32 0,0700 25 0.00 27 0.00 28 0.00 PRFSSURE-TEXAS VOLUMF FRACTION 1 .43.993 1.0000 2 0.000 0.0000 RARFETER 1 29.280 DEWPOINT TEMPS VOLUME FRACTION 1 A9 A0 n-4000 2 69.900 0.6000 DIFFERENTIAL PRESS I 0.000 nIFFFRFNTTAI TFMP 1 0.000 Figure 4-45 e ...

4. p DUKE PDWER COMPANY QONl'FF Nilfl FAR STAT TON INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SFT 41 RIA/DIIT TFPS VOLUME ERACTION INITIAL PRFV. POINT PRESENT 1 67.99 0.0300 2 6A.91 0.0200 PUILDING TEMP. F 79.507 79.582 79,582 3 80.73 0.0200 BUILDING PRESS, PSIA 44.009 43.993 43.992 4 78.65 0.0500 BU.LDING DEWPINT TEMP, F 71.100 69.431 69.431 3 80.79 0.0200 PUILDING VAPOR PRESS, PSIA 0.3768 0.3559 0.3559 6 79.70 0.0300 7 83.91 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 R 79.55 0.01800 9 80.35 0.0500 INFORMATIN TEMP 1, F 0.00 0.00 0.00 10 80.04 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.10 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.27 0.0D00 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.19 0.0100 14 81.44 0.0200 BAROMETER 29.263 29.280 29.280 15 81.60 0.0200 KNOWN LEAK 0.0000 16 80. 9 0.0100 17 80.00 0.0500 18 81.36 0.0900 19 81.54 0.1100 20 80.65 0.0100 21 80.63 0.0100 22 81.32 0.0900 23 81.56 0.1100 24 82.?2 0.0700 25 . 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUMF FRACTION 1 43.992 1.0000 2 0,000 0,0000 BARnMETER 1 29.280 DEWPOINT TEMPS VOLUME FRACTION 1 69,600 0,4000 2 69.900 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Firle4-46

DUKE POWER COMPANY OC[NF r, in FO STATION

INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPIPT DATA SET 42

.E1xI c T TFMpS VOiiF FrTHIN. INITIAl PRFV PflMT DDFSFMT 1 67.99 0.0300 68 90 0 (1100 PfilliNr. TFMP F 79 507 79 587 .79 (R 3 80.73 0.0200 BUILDING PRESS, PSIA 44.009 43.992 43.992 t 7R A6A f fis(1i Pi jI~iNG nFWPr1INT TFHPr F 71_._100 9.Q431 411 5 80.80 0.0200 BUILDIN VAPOR PRESS, PSIA 0.3768 0.3559 0.3559 6 79 -71 0 nA0 7 83.90 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 0

7 3 0900p 9 80.37 0.0500 INFORMATI1N TEMP 1, F 0.00 0.00 0.00 10 an04 i500 TNFnRMATTIN TFMP 2 F 0.00 . 0.00 0.01 11 69.0C9 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1I 1 7 nl .11 20n INFnRMATT(lN TFMP 4. F .00 0.001 0.00 13 68.19 0.0100 14 A1 -46 0L200 PARnMFTFR 29.263 29.280 29 2Ro 15 81.61 0.0200 KNOWN LEAK 0.0000 16 80.48 0.0100 17 80.01 0.0500 18 81.37 0,0900 19 81.57 0.1100 20 An2A2 0,010n 21 80.67 0.0100 22 81.33 0.0900 23 81.57 0.1100 24 82.32 0.0700 25 0.00 2 n.0 27 0.00 28 0.00 PEFSURF-TFXAS VOLUME FRACTION 1 43.99? 1.0000 BAROMETER 1 29.280 DEWPOINT TEMPS VOLUME FRACTION 1 -9&00n0.4000 2 69.900 0.6000 DIFFERENTIAL PRESS I 0.000 nIFFFRFNTIAl TFMP 1 0.000 Figure 4-47

DUKE POWER COMPANY OCQNFF N[JCI FAR STATTON INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 43 RTg/DIGIT TFMPS VOLUMF FPACTION INITIAL PREV. POINT PRESENT 1 68.00 0.0300 2 P.90 0 000 UTIDING TFMP. F 79.507 79.589 79,587 3 80.74 0.0200 EUILDING PRESS, PSIA 44.009 43.992 43.993 4 78.68 0.0500 BUILDING DEdPJINT TEMP, F 71.100 69.431 69.391 5 80.81 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3559 0.3554 6 79.71 0.00c 7 83.86 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000 R 79.54 0.0800 9 80.37 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 IO 80.n5 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.09 0.0200 INFORMATI3N TEMP 3, F 0.00 0.00 0.00 12 68-2?7 0.0200 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.19 0.0100 14 d1.46 0.0200 BAROMETER 29.263 29.280 29.280 15 81.61 0.0200 KNG N LEAK 0.0000 16 80.50 0.0100 17 d0.01 0.0500 18 dl.36 0.0900 19 81.56 0.1100 20 80.65 0.0100 21 a0.69 0.0100 22 81.34 0.0900 23 81.55 0.1100 24 82.29 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 43.993 1.0000 2 0.000 0.0000 bAR('MFTER 1 29.280 DEWPUINT TEMPS VOLUME FRACTION 1 69.500 0,4000 2 69.900 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFEPENTIAL TEMP 1 0.000 Figure 4-48

DUKE POWER COMPANY CrOEE NUCI EAR S TAT ON INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET 4 T r/nTlIT T MPs UlnillMF F -Ar InN INTIAl PRFV. PnlWiT PRFSFNT 1 67.99 0.0300 2 t A 0 0200 I1LDING TEMP. F 79 r07 79- R7 79 92 3 80.74 0.0200 BUILDING PRESS, PSIA 44.009 43.993 43.993 4 72 70 0 0-5-00 81iI DING DEWPIlNT TFMP, F 71 100 3.0

-91 5 80.82 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3554 0.3547 6 79 . 0 0300 7 83.91 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79 5b 0 nno 9 d0.38 0.0500 INFORMATIDN TEMP 1, F 0.00 0.00 0.00 10 . 0.nron INFORMATION TFMP 2. F 0.00 0.00 0.00 11 69.08 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 B.2A 0. 02a0 INFORMATIJN TFMP 4. F 0.00 0.00 0.00 13 68.21 0.0100 14 81 46 02.000 BAROMFTFR 297263 29.280 29,280 15 81.61 0.0200 KNOWN LEAK 0.0000 16 8f)0. S0.0100 17 80.02 0.0500 18 81.37 0.0900 19 81.56. 0.1100 20 g0.61 0.0100 21 60.66 0.0100 22 81j34 0.0900 23 81.56 0.1100 24 82 3 0 0.0700 25 0.00 Ph 0.00 27 0.00 28 0,00 PEPFSUE-TEXAS VOLUME FRACTION 1 43.093 1.0000 oorm00 0.0000 bARCMETER 1 29.280 DFWPUINT TEMPS VOLUME FRACTION 1 &q-s00 0-4000n 2 69.800 0.6000 DIFFERENTIAL PRFSS I 0.000 n TFFFPFMTIAl TFMP 1 0.000 Figure 4-49 0 0

DUKE POWER COMPANY frnNFF NJCIFAR STATTON INTEGRATED LEAK RATE TEST 07/02/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 45 RT/DICIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 67.98 0.0300 2 6R8 9 - n.0200 BUILDING TFMP. F 79.507 79.592 79.602 3 80.76 0.0200 BUILDING PRESS, PSIA 44.009 43.993 43.993 4 78.71 . 0.0500 BUILDING DEWPOINT TEMP. F 71.100 69.330 69.330 5 80.81 0.0200 BUILDING VAPOR PRESS, PSIA 0.3768 0.3547 0.3547 E 79.74 0.03 00 7 83.90 0.0100 REF. VESSEL DIFF PRESS , PSI 0.0000 0.0000 0.0000 A 79.57 0 .)0(

9 80.37 0.0500 INFORMATI3N TEMP 1, F 0.00 0.00 0.00 In 8-0.0 6 0.0500 INFORMATION TEMP 2. F 0.00 0.00 0.00 11 69.08 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6R.26 0-,(2 Q0 INFORMATION TEMP 4. F 0.00 0.00 0.00 13 68.20 0.0100 14 81.47 0.0200 BARORETER 29 .263 29.280 29,270 15 81.62 0.0200 KNOWN LEAK 0.0000 16 80.50 0.0100 17 80.03 0.0500 18 81.38 0.0900 19 81.57 0.1100 20 80.64 0.0100 21 80.67 0.0100 22 81.34 0.0900 23 81.58 0.1100 24 82.33 0.0700 25 0.00 26 n,00 27 0.00 28 0.00 PF.ESSURE-TEXAS VOLUME FRALTION 1 43.993 1.0000 2 0.000 0.0000 8ARPMETFR 1 2q.270 DEkPOINT TEMPS VOLUME FRACTION 1 &9.500 0,4000 2 69.800 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure -A-50

DUKE POWER COMPANY D.CONEE NJCLEAR STATION INTEGRATED LEAKRATE TEST 07/03/73 29.5 PSIG VERIFICATION TEST TREND REPORT ( POINT TO POINT CALCU / ABS DATA SET TIME PRESSURE TEMPERATURE ABS LR ABS LR 95 % CONFIDENCE LIMITS (PSIA) (F) MEASURED CALCULATED

%/DAY %/DAY LOWER UPPER.

2 11:15A 43.9900 79.6162 0.40864

0.00000 0.00000 3 11:30A 43.9900 79.6214 -0.01417 -0.01417 *

4 1145A 43.9890 79.6220 0.23062 0.11935 -1.46106 1.92230 5 12:OP 43.9880 79.6256 0.28414 0.20800 -0.35560 0.92388 6 12:15P 43.9880 79.6295 0.06949 0.11974 -0.32241 0.46139 7 12:30P 43.9880 79.6332 0.06576 0.07337 -0.21388 0.34541 8 12:45P 43.9850 79.6386 0.48967 0.24507 0.05185 0.92749 9 1:00P 43.9850 79.6401 0.02676 0.15915 -0.37924 0.43277 10 1:15P 43.9850 79.6440 0.06941 0.11885 -0.28757 0.42638 11 1:30P 43.9850 79.6458 0.03210 0.07869 -0.28941 0.35360 12 1:45P 43.9850 79.6516 0.10321 0.07323 -0.18989 0.39631 13 2:00P 43.9840 79.6544 0.26980 0.11888 -0.02729 0.56689 14 2:15P 43.9840 79.6567 -0.22472 0.01779 -0.55960 0.11016 15 2:30P 43.9830 79.6578 0.23967 0.05980 -0.09882 0.57815 16 2:45P 43.9830 79.6656 -0.20546 -0.01441 -0.55115 0.14022 17 3:OOP 43.9830 79.6758 0.18156 0.01510 -0.16331 0.52642 18 3:15P 43.9830 79.6819 0.02932 0.00650 -0.30025 0.35888 19 3:30P 43.9830 79.6835 0.02848 -0.00037 -0.28739 0.34435 20 3:45P 43.9810 79.6711 0.21930 0.03140 -0.10192 0.54052 21 4:00P 43.9800 79.6803 0.38384 0.08872 0.03497 0.73271 Figure 4-5.1 ,

DUKE POWER COMPANY OCJNEE NJCLEAR STATION INTEG.tATED LEAKRATE TEST 07/03/73 29.5 PSIG VERIFICATION TEST TREND REPORT ( FROM INIT CALCU / ABS-)

DATA SET TIME PRESSURE TEMPERATURE ABS LR ABS LR 95 % CONFIDENCE LIMITS (PSIA ) F) MEASURED - -CALCULATED -- - _ ______

/DAY %/DAY LOWER UPPER 2 1.:15A 43.9900 79.6162 0.40864 0.00000 0.00000 3 11:30A 43.9900 79.6214 0.19723 0.19723 +

4 11:45A 43.9890 79.6220 0.20836 0.17127 -0.35060 0.76732 5 12:00P 43.9880 79.6256 0.22730 0.18045 -0.05495 0.50956 6 12:15P 43.980 79.6295 0.19574 0.16831 0.01661 0.37487 7 12:30P 43.9880 79.6332 0.17407 0.15248 0.03922 0.30893 8 12:45P 43.9850 79.6386 0.21915 0.16571 0.08715 0.35115 9 1:00P 43.9850 79.6401 0.19510 0.16488 0.08102 0.30918 10 1:15P 43.9850 79.6440 0.18113 0.15977 0.07700 0.28527 11 1:30P 43.9850 79.6458 0.16623 0.15166 0.07113 0.26133 12 1:45P 43.9850 79.6516 0.16050 0.14452 0.07407 0.24693 13 2:OOP 43.9840 79.6544 0.16960 0.14239 0.09186 0.24735 14 2:15P 43.9840 79.6567 0.13927 0.13280 0.06245 0.21609 15 2:30P 43.9830 79.6578 0.14644 0.12759 0.07840 0.21448 16 2:45P 43.9830 79.6656 0.12299 0.11812 0.05551 0.19046 17 3:O0P 43.9830 79.6758 0.12664 0.11168 0.05965 0.19364 18 3:15P 43.9830 79.6819 0.12092 0.10549 0.06326 0.17858 19 3:30P 43.9830 79.6835 0.11578 0.09961 0.05643 0.17313 20 3:45P 43.9810 79.6711 0.12123 0.09602 0.06415 0.17831 21 4:OOP 43.9800 79.6803 0.13435 0.09565 0.07751 0.19120

-__Figure 4-52

29.5 PSIG VERIFICATION TREND REPORT UNIT #2

.... ~ ............

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. 7

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_. _.. _7

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-~~~~~~~~~.... ~ .. :.::.I V.I~ _ _ _ _ _ _ .. _ _ _.....

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....... :2 :22:1:: 2:W:...:

27:: ::: .2.* :.:

m 7-.....-....

1.... 2.... . .. ......... 5.... .......

AFTER(HOUR TIME. STR OF.TEST) 1-4-53:::

-i .......

DUKE POWER CDMPANY

-OrNFF NUrlFAR STATION INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET I RTD/DIGIT TEMPS VOLUME FRACTION INITIAL PREV. .POINT PRESENT 1 67.96 0.0300 2 hA R87

0,0200 PUl DING TF4P, F 79.606 0,000 0,000 3 80.79 0.0200 BUILDING PRESS, PSIA 43.991 0.000 0.000 4 78.73 0.0500 BU LLDING DEWPOINT TEMP, F 69.169 0.000 0.000 5 80.86 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.0000 0.0000 6 79.77 0.0300 7 83.87 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 7

A.- 9L57 0.0Pon 9 80.40. 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 -8.09 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.07 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 - .h 0.8705 INFORMATION TEMP 4. F 0.00 0.00 0.00 13 68.16 0.0100 14 81 .4 0.0200 BAROMFTER 29.247 0.000 0.000 15 81.63 0.0200 KNOWN LEAK 3.5000 16 80.53 0.0100 17 80.06 0.0500 18 8.3 9 0.0900 19 81.57 0.1100 20 80.67 0.0100 21 80.71 0.0100 22 81.33 0.0900 23 81.58 0.1100 24 -82.28 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.991 1.0000 2 0.000 0.0000 BARPMETER 1 29.247.

DE6POINT TEMPS VOLUMF FRACTION 69.400 0.4000 2 69.600 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFFRENTIAL TEmP 1 0.000 Figure 4-54

DUKE POWER COMPANY n0caIEE NCLEr cTATION INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET ?

DTPIffGiT TFMDS VOIllMF FRACTTON INTTTAI PRFV. POINT PRFSFNT 1 67.96 0.0300 68 07 0 0200 Dill.DiNr TFMP, F 79 -6n6 79 606 79 61 3 80.79 0.0200 BUILDING PRESS, PSIA 43.991 .43.991 43.990 4 7 :75 n .n5nn AillI0Dr FDWPOINT TFMP, F [Q .I9 9.1 9 9.1A9 5 80.85 - 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3528 0.3528 6 79 77 0 0300 7 83.92 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 0 !7.60 0.000 9 80.39 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 -0.10 0 0 00 TNFnRMATTnN TFMP 2, F 0 .00 0.0 0.00 11 69.07 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1 A 75 . 0 0,00 INFORMATTDN TFMP 4. F f0.00 0.00 0.00 13 68.16 0.0100 14 Ai 0 0200 n0 PARnMFTFR 29.247 29,747 29-247 15 81.63 0.0200 KNOWN LEAK 3.5000

.16 80.5 0.0100 17 80.07 0.0500 18 81.40 0.0900 19 81.58 0.1100 n R _A7 0 0100 21 80.75 0.0100 22 81.35 0.0900 23 81.59 0.1100 24 82.29 0.0700 25 0.00

?k 0.00 27 0.00 28 0.00 PRFSSURF-TFXAS VOLUMF FRACTION 1 43.990 1.0000 0.000 0.0000 BARnMFTER 1 29.247 DEWPOINT TEMPS VOLUME FRACTION I 9a400 Q.4000 2 69.600 0.6000 DIFFERENTIAL PRESS 1 0..000

.TFFFPFNTIAi TFMP 1 0.000 Fi~u~e4-55

OUKE P~fk-COMPANY nrnNFF NJCi FAR STAT TON INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SET 3 RTr/ lIlT TFVPS V1LUMF FRACTION INITIAL PREV. POINT PRESENT 1 67.96 0.0300 h PA7 0000 FUTIPING TFMP. F 79.606 79.616 79,621 3 80.81 0.0200 BUILDING PRESS, PSIA 43.991 .43.990 43.990 4 PUIDING OFWPOINT TEMP F 69.169 69.169 69.129 5 80.88 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3528 0.3523 6 79.7I 0.(1300 7 83.93 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 2

79.59 0 -)00 9 80.41 0.0500 INFORMATION TE4P 1, F 0.00 0.00 0.00 10 80.12 0 .0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.07 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.25 0.0200 INFORMATION TEMP 4, F -0.00 0.00 0.00 13 68.15 0.0100 14 81.48 0.0200 BAROMETER 29.247 29.247 29.255 15 81.63 0.0200 KNOWN LEAK 3.5000 1____ 0._ _ 0100 17 80.07 0.0500 18 81.40 0.0900 19 81.57 0.1100 20 80.74 0 .0100 21 80.73 0.0100 22 81.36 0 .0900 23 81.59 0.1100 24 82.32 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.990 1.0000 2 0,000 0.0000 BARDMAE TER 1 29.255 DFvPOINT TEMPS VOLUME FRACTION

1. 69,300 0,4000 2 69.600 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-56

DUKE POWER COMPANY OCONEE N'illFAR CTATI-N INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET 4 PTIUnnfiT TFMps unIlyPF F RArTI lN TNTTIAI PRFV. POINT PRFSFNT 1 67.96 0.0300 0 000 Pilli1NG. TFMP, F 7q f1 q 79 ?

2 be p 3 80.80 0.0200 BUILDING PRESS, PSIA 43.991 .43.990 43.989 PilTinlI Nr. nFWPnT1NT TFMP, F 19.19 69.129 h9.129 4 78 76 n .0500 5 80.86 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3523 0.3523 6 79-79 0 0-3-00 7 83.90 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a T9t 0 8 00 9 80.42 0.0500 INFORMATION TEMP 1, F 0.00 0.00 .0.00 1n -an"12 0 0500 INFORMA TION TFMP 2, F 0.00 0.00 0.00 11 69.Ob 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68 -4 n 0 20 InMFARMATION TFMP 4, F -0.00 0 .0 0.00 13 68.16 0.O1OC IL R1 r_ __ 0 -n n PARMFTFR 29- 47 15 81.65 0.0200 KNOWN LEAK 3.5000 1 80.s 0.10100 17 80.07 0.0500 is 81.41 00900 19 81.56 0.1100 MA 80.73 0.0100 21 80.74 0.0100 22 81.37 0.0900 23 81.56 0.1100 24 $2.34 0.0700 25 0.00 26 0.00 27 0.00 2e 0*0 -o P FF KE.-T r-X AS VOLUME FJRACTION 1 43.989 1.0000

? 0.000 .0*0000 BAROMETER 1 29.255 DEWPOINT TEMPS VOLUME FRACTION 2 69.600 0.6000 DIFFERENTIAL PRESS I 0.000 DTF.F L1I.E I L.P 1 0.000

___________ __________________________EFUr' 0

DUKE POWER COMPANY nrnFF Ci FAR TATInN INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET 5 RTD/DIGIT TFMPS VOLUME FRACTION INITIAL REV. POINT PRESENT 1 67.96 0.0300 2 g6Q.0200 PUIL DIN. TEMP. F 79,606 79.622 79,626 3 80.80 0.0200 BUILDING PRESS, PSIA 43.991 43.989 43.988 4 78.77 0.0500 BUILDING DEWPOIMT TEMP F 69.169 69.129 69.129 5 80.88 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3523 0.3523 6 79)79 D Q 77 83.91 83.91l 0.0100 REF. VESSEL DIF F PRESS , psi 0.0000 0.0000 0.0000 9 80.42 0.0500 INFORMATION TEMP 1, F 0.00 0.0.

In 80-12 0.0500) INFORMATION TEMP 2, F 0.00 0.00 0 .00 1

11 69.06 69.06 0.0200 INFORMATION T EMP 3, F 0.00 0.00 0.00 12 6P.24 0. 0 INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.17 0.0100 14 81.,1 00200 BAROMETER 29.247 29.255 29.255 15 81.65 0.0200 KNOWN LEAK 3.5000 16 80.55 0.0100 17 80.07 0.0500 18 81.41 0.0900 19 81.59 0.1100 20 80.71 0.0100 21 80.74 0.0100 22 81.36 0.0900 23 81.58 0.1100 24 82.31 0.0700 25 0.00 26 0.00 27 0.00 26 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.988 1 .0000 2 0.000 0.0000 BAROIMETER 1 29.255 DEWPOINT TEMPS VOLUME FRACTION f&9 .300 0.4000 2 69.600 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-58

DUKE POWER COMPANY 1

PrPME. ifl1 EPR 5ZATT O INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET 6 4_R/~Dir.TT TFMDS UllMF FRACT n INTTIAI PRFV- PnTNT PRRFFNT 1 67.95 0.0300 2 h8 07 0 0200 B"I nfG TEMP. F 79 606 70 7A2 79 -60 3 80.82 0.0200 BUILDING PRESS, PSIA 43.991 43.988 43.988 4 78 -:180n . A RIJiflDTNrC nFWPfIjNT TFtP. F A9 169 69,1)9 69,179 80.87 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3523 0.3523 6 79 n () n00 7 83.92 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 79 61 0 0000 9 80.46 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 8014 0.0)50L TNAFORMAT1JN TF4P 2. F nfp0.00 p,0 0.

11 69.05 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1 . 0.0200 INFORMATTDN TFMP 4. F 0.00 0.00 0.00 13 68.16 0.0100 14 R1.91 00200 PAROMFTER 79,247 19-255 29-25q 15 81.67 0.0200 KNOwN LEAK 3.5000 16 80.55 0.0100 17 80.09 0.0500 I-18 81.47 0,0900 19 81.57 0.1100 20 80.AR 0.0100 21 80.72 0.0100 22 61.37 0.0900 23 81.59 0.1100 24 82,29 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURF-TFXAS VCLUMF FRACTION 1 43.988 1.0000 2 0.000 0.0000 BARPMFTFR 1 29.255 DEWPOINT TEMPS VOLUME FRACTION 1 flQ 200 0.4000 2 69.600 0.6000 DIFFERENTIAL PRESS 1 0.000,*

ATFFFRFNTTAI TFMP 1 0.000 Figure 4-59 g g0

DUKE POWER COMPANY<

nrl NiFF NWjI FAR STATION INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST OATA RFPORT DATA SET 7 RT-/DIGlT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 67.95 0.0300 2 68.87 0,0200 BUILING TEMP. F 79.606 79.630 79.633 3 80.80 0.0200 BUILDING PRESS, PSIA 43.991 43.988 43.988 4 78.80 00500 BUILDING DEWPOINT TEMP, F 69.169 69.129 69.129 5 80.88 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3523 0.3523 6 7980 0.0300.

7 83.91 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79.-6n 0 0.[)00 9 80.42 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00

_1-0 _0.14 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.06 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 25 0.02Q0 INFqRMATION TEMP 4, F 0.00 0.00 0.00 13 68.17 0.0100 14 81.51 0.0200 BAROMETER 29.247 29.255 29.250 15 81.67 0.0200 KNOWN LEAK 3.5000 16 80.56 0 .0100 17 80.10 0.0500 18 81.42 0.0900 19 81.57 0.1100 20 80.73 0,0100 21 80.77 0.0100 22 81.38 0.0900 23 81.59 0.1100 24 82.33 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.988 1.0000 2 0.000 0.0000 BAROMETER 1 29.250 DFWPOINT TEMPS VOLUME FRACTION 1 69,300 0,4000 2 69.600 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-60

DUKE POWER COMPANY CnrNFF NCI FAD TATIO INTEGRATEDLEAK RATE TEST 07/03/73 29.50 PSIG VEA.IFICATIDN TEST DATA RFPORT DATA SET 8 DTP/DFI.IT TFMPS VliMF FRACTIN INITIAl PRFV. POINT PRFiFNT 1 67.95 0.0300 2 6P P6 0 0'00 IiIRil, TFMP F 79 -606 79 -A 79 -69 3 80.81 0.0200 BUILDING PRESS, PSIA 43.991 43.988 43.985 4 78.81 0-0500 PUTlING Fp.DITNT TFP , F 69 1A.9 69-179 &9 -2A 5 80.90 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3523 0.3511 6 7 81 0 030 7 83.92 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 79 61 0U 80 9 80.44 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00

-0 15 0 0500 INFORMATTN TFMP 2 F 0,00 oo 0,00 11 69.05 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1? 68 5 0 -Qa , INFORMATION TFMP 4, F 0.00 0.00 0.00 13 68.19 0.0100 14 81. 4 0.0200 RAROMFTFR 29-247 29,250 29.2S0 15 81.67 0.0200 KNOWN LEAK 3.5000 16 80.-7 0.0100 17 80.11 0.0500 is 81.42 0.0900 19 81.60 0.1100 20 A 0.,1in 21 80.74 0.0100 22 81.37 0.0900 23 81.58 0.1100 24 82.33 0,0700 25 0.00 27 0.00 28 0.00 PRE SSURF -TEXAS VOLUMF FRACTION 1 43.985 1.0000 2 0.000 0.0000 BAROETFR 1 29.250 DEWPOINT TEMPS VOLUME FRACTION 1 A'9 00 0.4000 2 69.500 0.6000 DIFFERENTIAL PRESS I 0.000 QIFFFPFNTTAL TFMP 1 0.000 Figure 4-61

DUKE POWER COMPANY ncnNFF N111 FAR TATTONI INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA RFPORT DATA SFT 9 RTr)/DIGIT TFMPS VOIUMF FRACTION INITIAL PREV. POINT PRESENT 1 67.95 0.0300 2 M.R 0.0200 RUILDINS TFMP, F 79.606 79,639 79,640 3 80.84 0.0200 BUILDING PRESS, PSIA 43.991 43.985 43.985 4 78.83 0.0500 BUILDING DEWPOINT TEMP. F 69.169 69.028 69.028 5 80.90 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3511 0.3511 6 79.81 0.0200 7 83.91 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 7961 nnpann 9 80.45 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80.17 P .0500 INFORMATION TEMP 2. F 0.00 0.00 0.00 11 69.05. 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6. 25 0.n200 INFORMATION TEMP 4. F 0.00 0.00 0.00 13 68.18 0.0100 14 1. _ 1.0200 BAROMETER 29,247 29,250 29,250 15 81.66 0.0200 KNOWN LEAK 3.5000 16 80.57 0.0100 17 80.10 0.0500 18 11.A3 0 .0900 19 81.59 0.1100 20 80.69 0.0100 21 80.76 0.0100 22 81.37 0.0900 23 81.58 0.1100 24 82.30 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.985 1.0000 2 0.000 0.0000 BAR(METER 1 29.250 DEWPOINT TEMPS VOLUME FRACTION 1 69.200 Q.4000 2 69.500 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-62

DUKE POWER COMPANY OCONFF~ NULEAFia STT T INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA RDORT DATA SET T0 PTP/lTy-iT TEMPS Vn IMF FRACTInN TNTTIAI PRFV. PnINT PRFSFNT 1 67.94 0.0300 2 608 5 0 0D00 PIBILDING TFMP, F 7-9-6 7Q 640n 79 -ALL 3 80.83 0.0200 BUILDING PRESS, PSIA 43.991 .43.985 43.985 4 78 8'A 0 5nfn A11nlnIGr nFWOnINT TFMP , F A -1A9 Aq nR A9.nR 5 80.91 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3511 0.3511 6 7982 0 .03on 7 83.90 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a 79. f4 0.08O 9 80.46 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80 -17 0 _(ilon INFORMATTnN TFMP 2, F 0.00 0.00 0.00 11 69.05 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00

1) hA 24 .Qan TNFORMATInN TFMP 4. F -'0.00 Q.0 0.00 13 68.17 .0.0100 14 H1 _.; 0.7200 FPAROMFTFR 29.247 29.250 29.-7 0 15 81.67 0.0200 KNOWN LEAK 3.5000 16 80.58 0.0100 17 80.11 0.0500 18 81.42 0.0900 19 81.60 0.1100 20 An, 7f0 0._n01 0n 21 60.75 0.0100 22 81.39 0.0900 23 81.58 0.1100 24 82.30 0.0700 25 0.00 h 0.00 27 0.00 28 0.00 PFFSUR-TEXAS VOLUME FRACTION 1 43.985 1.0000 S 0.000 0.0000 BAROMFTFR 1 29.250 DEWPOINT TEMPS VOLUME FRACTION I Q 700 n 4000 2 69.500 0.6000 DIFFERENTIAL PRESS 1 0.000 nIFFFPFNTT'AI TFMP 1 0.000 Figure 4-63

DUKE PDWER CDMPANY nrnNFF NJCLFAR STATTJN INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET- 11 RTD/IIT TEMPS V LUME FRACT10N INITIAL PREV. POINT PRESENT 1 67.96 0 .0300 1R 0.0200 PHIIDING TFMP. F 79.606 79.644 79,646 3 80.84 0.0200 BUILDING PRESS, P51A 43.991 43.985 43.985 4 78-85 0.0500 BUILDING DEWPOINT TEMP, F 69.169 69.028 69.028 5 80.92 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3511 0.3511 6 1.84 0 ,030 7 83.94 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 A 79.65 0 .0000 9 80.46 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 -80.17- 0.050.0 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69.05 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00

_ LZ_ ___8..ZA 0.0200 INFORMATION TEMP 4. F 0.00 0.00 0.00 13 68.16 0.0100 14 81. 5 0 .0200 BAROMETER 29.247 29.250 29.245 15 81.67 0.0200 KNOWN LEAK 3.5000 1.8 805~8 0.0100 17 80.12 0.0500 18 81 .4? 0.0900 19 81.59 0.1100 20 80.73 0.0100 21 80.71 0.0100 22 81.39 0.0900 23 81.58 0.1100 24 82.28 0.0700 25 0.00 26 0.00 27 0.00 28 0.00 PPESSURE-TEXAS VOLUME FRACTION 1 43.985 1.0000 2 0.000 0.0000 BAROMETER 1 29.245 DE6POINT TEMPS VOLUME FRACTION 1 69,200 0.4000 2 69.500 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAl TEMP 1 0.000 Figure 4-64

DUKE ROWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/03/73

' 29.50 PSIG VERIFICATION TEST DATA REPURT DATA SET 12 RT/DIIT TEMPS VDLUME FRACTION EN 1 67.94 0.0300 2 68.85 0.0200 BUILDING7 TEMP, 7 9 646 7.65Z 3 60.85 0.0200 BUILDING PRESS, PSIA 43.991 43.985 43.985 4 78.84 0.0500 61 G BUILDI* DNT EMP, F 9.i!- 69.028 5 80.91

0.0200 BUILDING VAPOR PRESS, P51A 0.3528 0.3511 0.3511 6 79.85 0.0300 7 83.97 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 79.66 0 .0800 9 80.47 .0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80.20 0.0500 INF0RMT0NiEi-2,F 0.00 0.0 0.

11 69.05 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.25 0.0200 1FURAAT1O N TE 4 .0' 13 68.17 . 0.0100 14 81.55 0.0200 BAXOMETER 2 4 15 81.70 0.0200 KNOWN LEAK 3.5000 16 80.59 0.0100 17 80.13 0.0500 18 81.43 0.0900 19 81.59 U.1100 20 dO.72 0.0100 21 in.78 0.0100 22 81.37 0.0900 23 81.59 0.1100 24 82.30 0.0700 25 0.00 26 0.00 27 0.00 0N ENTI0.AL0.0E0.0INFORATIOFTEM IITIA2 REY PRSN PPESSURE-TEXAB FRACTIII7 I TM767VLUME 1 43.935 1 .0000 0.PRES000SPI REF. VESSELD 0000000 1 29.245 0INFORPMO.N TEMPS VOLUMF FRACTION TIT 2 0F60.. T69E5UM DIFFERENTIAL PRESS

- 1 0.0300____ 2 0.0000~ 000. - - --. ..... - in 1 29.24 1 0.000 Fi 3.lre 4-65

DUKE POWER COMPANY r nflNFF NjI FAR STATION INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VEkIFICATION TEST DATA RFPORT DATA SET 13 RTnintrl T TFLIPS vniUMF FRACTION INITIAL PREV. POINT PRESENT 1 67.94 0.0300 2 R . . 0.0200 RuTLnING TEMP. F 79.606 79.652 79,654 3 60.87 0.0200 BUILDING PRESS, PSIA 43.991 43.985 43.984 4 78.87 0.0500 BUILDING DEWPOINT TEMP, F 69. 169 69.028 69.028 5 80.89 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3511 0.3511 6 79.84 0.0300 7 83.95 0 .0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 g 79.6s 0 .0p00 9 80.45 0.0500 INFORMATIDN TEMP 1, F 0.00 0.00 0.00 10 60.21 0.0500 INFORMATI3N TEMP 2. F 0.00 0.00 0.00 11 69.06 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 1? 68.25 0.020O INFORMATION TEMP 4, F 0.00 0.00 0.00 13 68.17 0.0100 - .

14 81.54 0.0200 BARUMETER 29.247 29.245 29.245 15 81.70 0.0200 KNOwN LEAK 3.5000 16 80.59 0.0100 17 80.14 0.0500 1& 81 .43 0.0900 19 81.58 0.1100 20 80.71 0,0100 21 80.77 0.0100 22 81.38 0.0900 23 81.59 0.1100 24 82.34 0.0700 25 0.00 26 0,00 27 0.00 28 0.00 PRESSURE-TEXAS VOLUME FRACTION 1 43.984 1.0000 2 0,000 0.0000 SARPIMETER 1 29.245 DEPO INT TEMPS VOLUME FRACTION 1 69,200 0.4000 2 69.500 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-66

DUKE.POWER COMPANY

-OCONEE.NUCLEAR STATION___

INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DAThAREpiaRT DATA SET-14 1 6T3/DIG MPS_ VLUM ACTION -IANITIAL PREV. POINT- PRESENT 0l.0200 RIIILDING TEMPe E- 79.60 & 7.654. 1.651 34 80.9 7Fl.80.0200 0.0300 BUILDING PRESS, 0.0500 PSIA 43.991 43.984 43.984 BUILDING DEWPOINT TEMP, F 69.169 -

5 69.028 66 .928 jr .91 0.0200 BUILDING VPPOR PRESS, PSIA 0.3528 0.3511 0.3499 6 79 0.0300 7 b3.94 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 9 b .47 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 1 00.19 0.05U0 ___ INFOR"MATION TEMP 2,F 0.00 11 )6 0.00 0.00

09. 0.0200 INFORMATION TEMP 3, F 0.00

1. 6.26 -. 0.00 0.00 0200 _- INFORMATION TEMP 4,.F _ o.00 0.00 0.00 13 6 8 .3o 0.0100 - -

.5 15 I.71 1 0.4200 KNOWN LEAK 47 50.020A 3.50005 1L

0100 ..- -.

17 JC.14 0.0500 1 1 .42 0.0900. _

19 d1.59 0.1100 20 8.74 0.0100 21 6D8.75 0.0100

22. 1.38 0.U900 23 *1.61 0.1100 24 82. 30 _ 0.0700_ _

'.u 27 .

PRESsflRE-TEXASOLLIME FRACTION______ _____________

1 4?.984 1.0000 -

2 .2,00-0 0 .C000 bR"METER I 29.25 DEhPIT TEMPS VOLUmE FRACTION 2 69.400 0.6000 DIFFEFENTIAL PRESS 1 0 .000 ________________

LFFERE1TIAI TFMP 1 0.000 Figure 4-67 0

DUKE POWER COmPANY flNNEEJCLEAR STATICN_

INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VER.IFICATION TEST DATA REP 0lR T_

T

,A A SET 1-'1 RTD/DIGIT TEMPS- -_,_.__VOLUME FRACTIONINITIAL PRESENT

_PREV.POINT 1 67.05 0.0300 2_ 6 .85 _ 0.0200 _BJILDINGv TEMP,.F-_ -- -_79.606 - 79.6572--- _1-____9.658 3 60.89 0.0200 BUILDING PRESS, PSIA 43.991 43.984 43.983 4 79.91 0.0500 __ BILDING DEWPDINT TEMP, F ____69.169 68.928 68.928 5 60.93 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.3499 0.3499 6 79. .. 0.0300 ---

7 83.04 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 d______ 79 .6i ',__ 0800 9 Q. 4 0 .0500 INFORAATION TEMP 1, F 0.00 0.00 0.00 10 *019 - 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 11 69. 6 0.0200 INFORMATIN TEMP 3, F 0.00 0.00 0.00 12 67 .25 0.0200 _INFDPATION TEMP 4, F 0.00 _ 0.00 0.00 13 68.17 0.0100 14.____ 01.56 _ __ 0.0200 ____BARDMETER292 29.250 29_.250 15 61.6V U.0200 KNOdN LEAK 3.5000 16 L.1 0.0100 17 60.14 0.0500 l6 c 1f3 0.0900 19 '1.%0 0.1100 20 60.75 0.0100 21 80c.0 0.0100 22 11 .?8.. 0.0900 23 b1 . 0.1100 24 b2 .30 0.0700- ------ - -----

25 l 27 C.q0 28 0.00 PFE55'RE-TEXAS VOLUME FRACTION--------..

1 43.963 1.Cuoo 22 .00 0.0000 U'REM:ETER 1 29.250 DEWPOINT TEMPS VOLUME FRACTION 1--I.- 60.100 -__ _ -_ n Ann ____________ _____________________________________

2 69.4j0 0.6000 DIFFEPENTIAL PRESS 1 0.C000 n IFFE ENLT.IALITEMP 1 0.000 Figure4-68

DUKE- POER COMPANY OCONEE-NdCLEAR STATION INTEGRATED LEAK RATE TEST

. __ 07/03/73 29.50 PSIG VEOlFICATION TEST DATA REPORT DATA SET 16 RT0/01 lf TEMPS VOLUME FRArTTDN INfffA REV.POTNTPR!SNI 1 67.94 0.0300 2 68.85 -0.0200 BUILDING TEPtF -79.60 79.658 9.666 3 30.88 0.0200 BUILDING PRESS, PSIA 43.991 43.983 43.983 4 78 .91 0.0500 iTECING -WPu0lhl EMP, F 69.69 678.928 6.791 5 80.94 0.0200 BJILDING VAPOR PRESS, PSIA 0.3528 0.3499 0.3483 6 79.86 0 .0300 7 83.94 0.0100 REF. VESSEL DIFF PRESS , PSI 0.0000 0.0000 0.0000 8 79.66 0.0800 9 t0.49 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 60.20 0.0500 INFORKATEoN9 TEMP2, F 0.00 o.- 0 11 69.06 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68.25 0.0200 INFORmATION TEMP 4Y F 0.00 0.00--- 0.00 13 68.16 0.0100 14 81.55 0.0200 BAROMETER 29.247- 29.25029.250 1I o1.70 0.0200 KNON LEAK 3.5000 16 61.61 U.ul U0 17 dO.15 0.05u0 3J 81.44 0.0900 19 61.60 0.1100 2 b). 95 0.0100 21 v00.81 0.0100 22 61.39 0 .0900 23 81.59 0.1100 24 82.32 0.0700 25 0.00 26 0.o 27 0.00 28 .00 P FESSiE-TEXAS Vr'LUMf FRACTION 1 43.983 1.0000 0

2 .000 0.0000 bAkF.ETER 1 29.250 E.5PDINIT TEMPS VOLUME FRACTION 1 69.000 0.4000 2 69.250 0.6000 DIFFEPE 'TIAL PRESS 1 C.000 DIFFERENTIAL TEMP 1 p.000

-- Figure 4-69

DUKE POWER COMPANY COlNEENJ CLEAR.STLLATION INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST D-A-REiOP T DATA SFT 17.

RTC/DIGIT TEMPS -- VOLUME FRACT INITAlPRE.VPOITPRESENT 1 67.96 0.0300

_-2-- -6t.86 0.0200 RUIL1IN -T P -F 3 8n*9u 0.0200 BUILDING PRESS, PSIA 43.991 43.983 43.983

- 4 - - 78 .93- - _0.0500 .BU-ILDING DEWPOINT TEMPF69.169 68..797 arl*95 0.0200 BUILDING VAPOA PRESS, PSIA 0.3528 0.3483 0.3483 6 79.89 -- -- 0.0300 7 83.91 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.ODOo 9 .6.7 0 0 0.0 9 60.49 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 _ 0.220_?_ 0.0500 INFDPMATIONTEP2, F 00 S 11 69.05 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6*2 .6 0.0200 N__R.__ATINOORMAN_TEMP4tF 0.040 F.00___ _0 13 6.18 0.0100 14 -81.56DR 29 Z47 29 250 29250 15 61.73 0.0200 KNOWN LEAK 3.500 16 a n.62 0.01001 17 30.16 0.0500 I b 1.45 ,-,_0 .0900.

19 .8.791 0.1100 .

21 600.7.0 0.5 0380u 04.01083 0.0 23 1 1 430.11000

933.5000 0 0.02 25 280.0 .C00.77_____.0100_

20 000000 27.0.000 0.00 0 BARPMETER. ___

1 43.93341.00 1 . 8.2 _ 0 DEPINT TEMPS VOLUME FRACTION 2 69.250 0.6000 DIFFERE TTAL PRESS 1 --- 0.000 ___ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

--- JETfEFZFMT LAI TFM-P 1 0.000

- _ DUKE POWER COMPANY OCONEE NUCLEAR STATION

- - INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VEkIFICATION TEST DATA REPORT ----

DATA SET 18 RTI/DIGIT TEMPS VOLUME 1RACTIdN INITIAL PRE. POINT 1 67.03 0.0300 2 68.86 - U200 BUILDING TEKP, F------- 75'b06 79.676 -9682 3 0.91 0.0200 BUILDING PRESS PS IA 43.991 43.983 43 .983 4 78 .93 7.80 0.0500

.0200BULIGTPC7.07.66768BUILOING bEWPOINT TEMP 9 9.707 6a.767 5 80.96 0.0200 BUILDING VAPOR PRESS, PSIA 0.3528 0.34B3 0 6 79.88 3

7 9o 0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0030 0.0000

-79.68 U.0800 9 eO. 0.0500 _INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80.23 0 o0osoo INFORMAI ONTE4P YF 0.00 11 69.f7 0 a2UO INFORMATION TEMP 3, F 0.00 0.00 0.00 12 68 .20 U .0200 INFORMATION- TEMP4VF 000- -..f 13 68.19 0.0100 14 81.57 0.0200.BAROMETER 29.247 - 29;250 2250 15 81.73 KNOWN LEAK 3.5000 16 0.630100 17 80.16 0.0500 1a 61.45 0.0900 I R I E 2000 19 81.62 0.1100 20 . 76 0.0100 INFORMATION TEMP F -0.00 0.00 0.00 22 21 80.61i 0.0100 0l .41 .0900 23 81.63 0.1100 24 82.31

--0----0.760010 0.0700 25 0.00 0 26 V .0 OG_____

27 0.6.

P ESS!!kF-TEXAS VOLUME FRACTION - _. - - - --- __ _ _ _ _____--- -. -------.--- - ----- ---

1 8 03.93 1.0000 2

1.401 0.000 2 A30ETER. 0 1 29.250 hPU IT TEMPS VOLUME FRACTION 1 9.CuC 1 .4000 2 69.20 0.6000 DIFFEPENITIAL PRESS 1 0.000-.- ________________ ___

DIFFERENTIAL TEMP 1 C.000

-Figure 4-71

DUKE POWER COMPANY OCFIN.EFNUCLEAR STATION INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFICATION TEST DATAkSET 19 .

RTD/DIGIT TE MPS-_ - VOLUME FRACTION ___ INITIAL- PREV..-PINT.. PRESENT 1 67.r3 0.0300 00200 BUILDINGAE.AP __F 79-606- 79_682 79 9.6_84 3 810.91 0.0200 BUILDING PRESS, PSIA 43.991 43.983 43.983

4. 78.94 U5._0.B500 BUILDING DERPDINT TEMP._F 69.169_ _68.797. -68.7671_

5 Jr *'5 0.0200 PUILDING VAPOk.PRESS, PSIA 0.3528 0.3483 0.3479 6 7?.90 0.0300 7 63.06 0.0100 REF. VESSEL*DIFF PRESS, PSI 0.0000 0.0000 C.0000

-b _ 79.69 0 3 a.08

0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 1 0 .2. 0.0500 INFORMATIDN TEMP 2, F 0.00 0.00 0.00 11 . 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 6 .27 0.0200 INFORMATIDN TEMP 4, F __-0.00 0.00 0.00 b"*18 0.0100 u3 14 . 3 - .u200 ____ EARuMETER ___ 9 _247 L250 __ 29..40a 15 1 .7- 0.0200 KNOWN LEAK 3.5000 13 J . 0 .0100 17 . 0.0500 1b :].43 t 0.0900 19 6j1.A1 0.1100 21 6,'.79 0.0100 _

22 81 .111 0.0900 23 Jl.t3 U.1100 24 32 I 0.0700 25 r)r c U0.

PPESSRkE-TLXAS VOLUME FRACTION I 4 .%8 3 1.0000

-AR M;ETER 1 29.240 DEPOJIiT TEMPS VOLUME FRACTION

1. 69.00 _ _ _0..4000 2 69.260 0.6000 D IFFE DENITIAL PRESS 1 .7c0 F.FER LTNI TL-Ifl P 1 0.000 Figure 4-72

DUKE POWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 29.50 PSIG VERIFICATION TEST DATA REPORT DATA SET 20 RTD/DIGIT TEPS VOLUME FRACTION . INITIAL PRE. POINT PRESENT 1 67.93 0.0300 2 68 0.0200 PUILDING TEMP, F 3 09 0B0 UILDING PRESS, PSIA 79.606 79.684 79.671 43.991 43.983 43.981 4 7P.91 BUILDING DEWPOINT TEMP, F 5 70.96 0 .020 6 g.767 369.6;8.767 EUILDING VAPOR PRESS, PSIA 0.3528 6 79.89 0.0300 0.3479 0.3479 7 83.94 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 8 79.67 0 .0 200 A M T 2 . T 0.0000 2 0 0.0000 --0.50 0.0 0__ 5 00 __ INFORMATION TEMP 1, F____

10 bO.24.__ 0.00 0.00 0.00 0 .(5 00 h; FORAAT IDN T EM P 2,F _ - 0. 00 _ 0-.00-- 0 .00 11 69.65 0.0200 12 68.26 INFORLATION TEMP 3, F 0.00 0.0200 0 IF0rTONTEMP 4, F-----------0.00.......0.00 0.00 0.00 13 68.17 - 0 D 0.0500 14 81.56 0.0200. . AROMETER.................29.240 15 81.75 2 0.0200 KNOWN LEAK 3.500 S 80.64 0 .0100 17 80.17 0.0500 18 S1.43 0.0900 -------.

19 81.60 0.1100 20 80.78 0.0100 21 8 0. 79 0.0100 22 - 1.41 ~ 00 23 81.5b U.1100 24 a 2. 11 0.0700

?5 0.co 26 C.00 27 r .?o 2 1 '_ _ 0 -.

PPESSLRE-TEXAS VOLUME FRACTION 1 43.981 1.0000 2 ' .0 0.0000 DARDmFTER ---

1 29.240 DFWPOINT TEMPS VnLUME FRACTION 1 69.000 0.4000 2 69.200 0.6000 DIFFERENTIAL PRESS I 0.000 DIFFERENTIAL TEMP 1 C.00

- - - Figure 4-73

DUKE POWER COMPANY nrflFF STATINIiiFAR INTEGRATED LEAK RATE TEST 07/03/73 29.50 PSIG VERIFIrATIQN TEST DATA REPti DATA SET 21 RTr/DIGIT TFMPS VOLUMF FRACTION INITIAL PREV. POINT PRESENT 1 67.94 0.0300 2 -A t O2on PUTI ING, TFMP. F 79,606 79.671 79.680 3 80.91 0.0200 BJILDING PRESS, PSIA 43.991 43.981 43.980 4-94___ 0.50 RUILDING DFWPDINT TEMP. F 69.169 68.767 68.767 5 80.96 0.0200 BUILDING VAPOD PRESS, PSIA 0.3528 0.3479 0.3479

-6 7--9 -

U0. 0 3- 0 7 83.96 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 79.9 0.0800 9 80.51 . 0.0500 INFURMATION TEMP 1, F 0.00 0.00 0.00 0 8.b-0..25 0 *D500 INFORMATION TEMP 2, F 0.00 0.00 6.00 11 69.05 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 27 0.0200 IN.FORMATION TEMP 4, F 0.00 0.00 0.00 13 68.18 0.010c 14 81 . 6 0.0200 PAROMETER 29.247 29.?50 29.240 15 81.73 0.0200 KNOWN LEAK 3.5000 1-6 80.63 0.010c 17 80.16 0.0500 18 81.45 0.0900 19 81.62 0.1100 20 80.76 0,0100 21 00.80 0.0100 22 81.40 0.0900 23 81.60 0.1100 24 82.29 0.0700 25 0.00

?6 0.no 27 0.00 28 0 .00 PRESSURE-TEXAS VnLUME FRACTION 1 43.980 1.0000 (0.000 0.0000 BARnPETFR 1 29.240 DEWPOJINT TEMPS VOLUME FRACTION I (".000 0,4000 2 69.200 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-74

DUKE POWER COMPANY U-CDNE-E, NJCLEAR STATION- _____

INTEGRATED LEAKRATE TEST 07/04/73 59.0 PSIG VERIFICATION TEST TREND REPORT I POINT TO POINT CALCU / ABS.)

DATA SET TIME PRESSURE TEMPERATURE ABS LR ABS LR 95 % CONFIDENCE LIMITS (PSIA I) MEASURED C-LCULATED

_/DAY %/DAY LOWER UPPER 2 9:15P 74.7750 79.1379 -0.28990

0.00000 0.00000 3 9:30P 74.7810 79.1843 0.05224 0.05224 a 4 9245P 74.7860 79.2201 -0.00745 0.05952 -1.02592 1.01102.

5 10:0CP 74.7910 79.2582 0.10529 0.13393 -0.23515 0.44573 6 10:15P 74.7960 79.2873 -0.12866 0.02141 -0.58540 0.32807 7 10:30P 74.8000 79.3328 0.3e635 0.21998 -0.06645 0.79916 8 LO:45P 74.8050 79.3610 -0.14291 0.09514 -0.64636 0.36054 9 11:00P 74.8100 79.4039 0.11896 0.12481 -0.30277 0.54070 10 11:15P 74.8150 79.4311 -0.16078 0.03747 -0.59015 0.26860 11 11:30P 74.8200 79.4603 -0.12509 -0.01098 -0.52375 0.27357 12 11:45P 74.8240 79.4929 0.06446 0.01458 -0.30054 0.42947 13 12:00P 74.8290 79.5225 -0.11791 -0.02054 -0 .46213 0.22631 14 12:15A 74.8330 79.5476 -0.06922 -0.03371 -0.39151 0.25308 15 12:30A 74.8370 79.5883 0.20885 0.02768 -0.11922 0.53692 16 12:45A 74.8410 79.6209 0.06436 0.04082 -0.24667 0.37538 17 1:00A 74.8460 79.6401 -0.30305 -0.03261 -0.64628 0.04018 18 1:15A 74.8500 79.6744 0.09482 -0.00615 -0.23810 0.42773 19 1:30A 74.8540 79.6980 -0.09584 -0.02355 -0.41688 0.22520 20 1 :45A 74.8590 79.7340 -0.00387 -0.02002 -0.31127 0.30353 21 2:OOA 74.8630 79.7652 0.03775 -0.00934 -0.25944 0.33494 Figure 4-75

74.8650 .19.7823 0.04644 0.00118 -0.24233 0.33521 22 2:15A 23 2:30A 74.8690 79.80068 -0.3664 -U.06007 -0.68572 -0.04713 24 2:45A 74.8720 79.8423 0.17246 -0.02459 -0.15244 0.49735 25 3:00A 74.8760 _ 79.652 -0*080 -0.03796 -0.42556 0.20935 26 3:15A 74.8800 79.8893 -0.08678 -0.04631 -0.39507 0.22152 27 3:30A 74.8840 79.9270 0.15527 -0.01840 -0.15569 0.46623 28 3:45A 74.8880 79.9454 -0.18836 -0.04213 -0.49866 0.12195 29 4:00A 74.8910 79.9776 0.18630 -0.01224 -0.12836 0.50096 36 4.15A 74.8950 80.0025 -0.07258 -0.01974 -0.38005 0.23490 31 4:30A 74.8990 80.0285 -0.05289 -0.02390 -0.35481 0.24902 32 4:45A 74.9020 80.0592 0.15950 -0.00149 -0.14195 0.46095 33 5 :0OA 74.9060 80.0842 -0.07076 -0.00892 -0.3 6838 0.22686 34 5:15A 74.9090 80.1076 0.03318 -0.00355 -0.25687 0.32524 35 5:30A 74.9130 80.1358 -0.01731 -0.00442 -0.30374 0.26912 36 5:45A 74.9160 80.1594 0.03326 0.00033 -0.24748 0.31399 37 6:00A 74.9190 80.1875 0.11318 0.01314 -0.16544 0.39181 38 6:15A 74.9220 80.2064 -0.05215 0.00760 -0.32684 0.22255 39 6:30A 74.9270 80.2411 -0.02710 0.00507 -0.297S4 0.24365 40 6:45A 74.9300 80.2505 -0.21948 -0.01624 -0.49547 0.05651, 41 7:00A 74.9320 80.2741 0.16204 0.00100 -0.11552 0.43959 Figure 4-76

DUKE POWER COMPANY OCONEE NJCLEAR STATION INTEGRATED LEAKRATE TEST

-07/04173 9.0 PSIG VERIFtCATION TEST.

TAEND REPORT t FROM INIT CALCU / ABS )

DATA SET TIME PRESSURE TEMPERATURE ABS LR ABS LR 95 t CUNFIDENCE LIMITS (PSIA) (F) MEASURED CALCULATED

%/DAY %/DAY LOWER UPPER 9:15P 74.7750 _ 79.1379 -D.28990

0.00000 0.00000 3 9z3OP 74.7810 79.1843 -0.11883 -0.11883 + o 4 9:45P 74.7860 79.2201 -0.08171 -0.05936 -0.41708 0.25367 5 10 :00P 74.7910 79.2532 -0.03496 -0.01105 -0.18236 0.11245 6 10 :15P 74.7960 79.2873 -0.05370 -0.00456 -0.21249 0.10509 7 10:30P 74.8000 79.3328 0.01631 0.03286 -0.09651 0.12914 8 10:45P 74.8050 79.3610 -0.00643 0.04176 -0.12584 0.11297 9 11:00P 74.8100 79.4U39 0.00924 0.05214 -3.10434 0.12332 10 11:15P 74.8150 79.4311 -0.00965 0.05051 -0.12608 0.10678 11 11:30P 74.8200 79.4603 -0.02119 0.04436 -0.14571 0.10332 12 11:45P 74.8240 79.4929 -0.01341 0.04166 -0.13564 0.10882 13 12:00P 74.8290 79.5225 -0.02212 0.03647 -0.14256 0.09833 14 12:15A 74.8330 79.5476 -3.02574 0.03107 -0.14962 0.09614 15 12:30A 74.8370 79.5883 -0.00898 0.03083 -0.12682 0.10686 16 12:45A 74.8410 79.6209 -0.00409 0.03150 -0.11598 0.10779 17 1:UOA 74.8460 79.6401 -0.02278 0.02749 -0.12387 0.08831 18 1:15A 74.8500 79.6744 -0.01586 0.02551 -0.12627 0.09455 19 1:30A 74.8540 79.6980 -0.02030 0.02279 -0.13012 0.08951 20 1:45A 74.8590 79.7340 -3.01944 0.02053 -0.12365 0.08478 21 2:OOA 74.8630 79.7652 -0.01658 0.01904 -0.12036 0.08720 Figure 4-77

22 2:15A 74.8650 79.7823 . -0.01358 0.01819 -0.11697 0.08981 23 2:30A 74.8690 79.8008 -0.02962 0.01463 -0.12738 0.06815 24 2:45A 74.8720 79.8423 -0.0208.3 0.01293 -0.11830 0.07664 25 3:OOA 74.8760 79.8652 -0.02447 0.01081 -0.12167 ;0.07273 26 3:15A 74.8800 79.8893 -0.02696 0.00852 -0.12392 0.07000 27 3:30A 74.8840 79*9270 -0.01995 0.00749 -0.11114 0.07124 28 3:45A 74.8880 79.9454 -0.02619 0.00565 -0.11719 0.06481 29 4:00A 74.8910 79.9776 -0.01860 0.00501 -0.10942 0.07223 30 4:15A 74.8950 80.0025 -0.02046 0.00416 -0.11112 0.07020 31 4:30A 74.8990 80.0285 -0.02154 0.00322 -0.10621 0.06313 32 4:ttA 74.9020 80.0592 -0.01570 0.00307 -0.10024 0.06884 33 5-00A 74.9060 80.0842 -0.01742 0.00269 -0.10184 .06699 34 5:15A 74.9090 80.1078 -0.01589 0.00251 -0.10019 0.06841 35 5:30A 74.9130 80.1358 -0.01593 0.00230 -0.10013 0.06827 36 5:45A 74.9160 80.1594 -0.01452 0.00225 -0.09238 0.06333 37 6:00A 74.9190 80.1875 -0.01098 0.00255 -0.08875 0.06679 36 6:15A 74.9220 80.2064 -0.01209 0.00268 -0.08978 0.06560 39 6:30A 74.9270 80.2411 -0.01248 0.00275 -0.09010 0.06513 40 6:45A 74.9300 80.2505 -0.01779 0.00226 -0.09533 0.05975o 41 7:OOA 74.9320 80.2741 -0.01330 0.00223 -0.09077 0.06417

59 PSIG ILRT TREND REPORT UNIT #2 T ...

... .FZIFT

... .A

.0 A W'4]

LIiE:A200 v . .- . ~

I.

I3

. 18 ........

.06- 0 {

7 7I t I ffONTA IAE ORIINl

. AS:IN ONR t, I I---- ------ I

. I

/

I . . A ALI ATD 'K AT

, 1 . ........ .

1 2-.-3-- .1 -

0 TIME (HOURS FROM START OF TEST)

Figure 4-79

DUKE eOWER COMPANY

-- OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 0-7/04/73 59.00 PSIG VERIFICATION TEST DATA REPORT- _ _ _ _

_ATAET 1 RTC/DIGIT TEMPS VOLUME FRACTTON INTTIA _ PREV. PI NT PSENRF T 1 76.48 0.0300 2 78.34 0.0200 BUILDING L I79.11 TEMP, F 0.030 0. 00091 3 79.79 0.0200 BUILDING PRESS, PSIA 74.769 0.000 0.000 4 77.E4 0.0500 BUILDING DEWPOINT-TEMP, F T3.797 0 000 U0000 5 80.04 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.0000 0.0000 6 79.43 0.0300 --------

7 8n.81 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 75.92 0 .0800 9 78.58 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 78.99 0 .0500 - INFORRATION TEMP 2 18.09 0.00-00 11 77.37 0.0200 INFORMATION TEMP 3, F 78.09 0.00 -0.00 12 76.48 0.0200 - - INFORMATION TEMP 4 F 78.28 0.00 0.00 13 78.46 0.0100 14 79.27 0.0200 -BR'OMETER .29018 0.000 .0.000 -.

15 77.85 0.0200 KNODN LEAK 0.0000 16 79.66 0.0100 17 79.39 0.0500 lb 79.87 0.0900 19 80.23 0.1100 20 79.55 0.0100 - -- -

21 7A.67 0.0100 22 79.75 0 0900 23 80.28 0.1100 24 81 .55 0.0700 25 0.00 26 78.09 -- - -----

27 78.09 28 78.28 PRESSURE-TEXAS VOLUME FRACTION__

1 74.769 1.0000 2 0.000 0.0000 - --

6ARmIETER 1 29.018 DEWPOINT TEMPS VOLUME FRACTION I 74.000 0.4000 2 .74.200 0.6000 DIFFEPENTIAL PRESS 1 0.000 OIFFERENTIAL TEMP .

1 0.000 Figure 4.80

DUKE. PUWER COMPANY OCoNEE? UCLEAR STATION 0

.__INTEGRATED LEAK RATE TEST 07/04173 59.00 PSIG VE IFICATION TEST DATA REPORT

-D AJA SET. -2 RTO/DIGT.TEMP _ VOLUME FRACTIUN- -___ -- INITIAL PREV. P1NI RESEN______ESENT 1 76.57 0.0300 27 7 .O0200 RUILDINGTEMP, E 79.111 9-11.1 79.1938 3 79.13 0.0200 BUILDING PRESS, PSIA 74.769 74.769 74.775 77 .73. -.-u .0500 .-- -BU ILDING .DEWPOINT TEMPF 79. 7.79.7 _73 .97-5 8). 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4127 0.4127 6 79 .L 0.0300.

7 an.1 6 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 C.0000

-- 7 5 .9.4 - 0 .08 0.0 9 78.62 0.0500l INFORMATIDN TEMP 1, F 0.00 0.00 0.00 10 79.15 ...- 0.0500 ______-INFORMiATION TEMP. 2, E.78..09 78.09. 78.14 11 77.10c 0.0200 INFORMATION TEMP 3, F 78.09 78.09 78.13 12 76.52 INFRMATIONEMP E

.U.200 4, .F 7.2.8 78 .28 -78.33 13 7A.49 0.0100

.14 -.. 79.2_ 0 .0200 P___ARDMFER0 - 9.0.1 29 1.p 29 .028 1' 77 .9 L.0200 KNDWN LEAK 0.0000 16 79 .71 .. 0100 - ----- - - -. .. .

17 79.43 0.0500 16 79.91 0 .0900 -----

19 00.?6 0.1100 2 79.61 0,0100 21 78.71 0.0100 22 79.77 0.0900 23 60.29 0.1100 24 81.53 0.0700 25 ).00 26 7C .14,-

27 78.13 26 78.?3 ........

PQ ESS' RE-TEXAS VOLUME FRACTION--,---,------

1 74.775 1.0000 2 n 0-G0000 bAR[:!ETER..-

1 2q.028 0Pj IoT TcMP S VrLUME FRACTION L__79.00.0 Q.0.40 2 74.200 0.6000 DIFFE;ENTIAL PRESS 1 .. 0.000 .

_____iffY.N~TI~- ---- --

1 '.000 Figure 4-81

DUKE PUWER COMIPANY OCONEE NUCLEAR STATION

._ _INTEGRATED LEAK RATL TEST 07/04/73 59.00 PSIG VElIFICATION TEST DATA REPORT DATA SFT 3 PTD/DIGIT TEMPS_-_- _ VOLUME FRACTION ------ I-ITIAL---PREV. POINT - PRESENT 1 76.63 0.0300

7.4 5 u.0200 -eJILE)ING TEMP, F- ------ 9-.11 79.13 8-- 79.184-3 79.F3 0.0200 EUILDING PRESS, PSIA 74.769 74.775 74.781 4 77.25 0.0500 -UILDING DEWPDINT TEMP, F -- 73.797 ....-

73.797 73.797_

5 6r.12 0.0200 PUILDING VAPOR PRESS, PSIA 0.4127 0.4127 0.4127 079.53 0.0300 7 ** 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000

75.95 0.0000

. 0..000- - - - - - - - _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _

9 7 .67 0.0500 lItFORAATION TEMP 1, F 0.00 0.00 0.00 10 7. 9 0.0500 INFORMATION TEMP 2, F 78.09 78.14 78.18 11 77.44 0.0200 INFORMATIDN TEMP 3, F 78.09 78.13 78.19 12 76.61 0.02u0 INFORMATION TEMP. 4, F -- -78.2d--- 78.33. 78.39 13 78.u u.0100 14, 79.37_ 0.0200 EAROMETER 29.018 29.028 29.039 15 77.94 0.0200 KND N LEAK 0.0000 16 79.75 0.0100 17 79.4 0.0500 19 6JO."u 0.1100 20 79.64. _ _ _0 .0100 21 78.77 0.0100 22 79.83 0.0900 3

23 00. . 0.1100

'4 bl.55 0.0700 25 0.00 27 78.19 2b 78.39 PrESSRE-TEXAS... . VOLUME FRACTION 1 74.7 1 1.0000 B A R 0-vlE I E R______________ ______

1 - 29.C39 DEWPIiNT TEMPS VOLUME FRACTION

_ '1 7 .4

.a0- 0-.4000 2 74.200 0.6000 DIFFERENTIAL PRESS 1 - 0.000 -- _ _ _ _ _ .. ._ _ _..- -. . . ~. _ _ _

-AlfE ERFRTIAI TEFMP.

1 F.000 FigCure 4-82

DUKE PUWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/U4/73 A,

59.00 PSIG VElIFICATION TEST DATA REPORT

-. DATA SET 4 RTC/DIGIT TEMP-S D___ OLUME FRACTION-- - I----I.TIAL REV.. POINT.PRESENT 1 76.65 0.0300

._. -0.0200 BUILDING .E.P., T 79.111 7-8.4 79,22-0 3 79.96 0.0200 BUILDING PRESS, PSIA 74.769 74.781 74.786 4_ _77.96 ____0.0500- BUILDING DEWPDIRT_.TEMP,_F _73.797 _ __7.3.797_ _73.797_

5 80.16 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4127 0.4127 6 79.66 0. ...... 0 .030 0 7 ol.00 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8- 7 S.97 -- 0 .0800. _ __ __ __D_ _0__ __ _ __o __ __o 9 72 .7 2 .05J0 INFORMATION TEMP 1, F o.

10 79.13 0 .50C - - IFGPMATI0N TEMP 2,. F 78 .18 78 .21 11 -77.'1 0.G20n INFORMATIOM TEMP 3, F 7F.09 70.19 78.23 12 76.61 0 .0200..........i'.FbRMATIJN TEMP 4,. F-- 78.39 - 78.4 13 7.40.010 14 79.!11 .0200 ---- 1- EAROMETEP 770.00 INFORMTIDNTKNOEN LEAK 0.0000 o 79 0.0100 17 79.23 U.0500 1 r . I0 22 7.10.0900.8AR 0 .09u00 ETEP -29.01 9.0399.03 23~0.1200 19 00.31 .11100 KNONEAK0.00 20 24....7 79.78 9.7 -- - 0.

0.0700 100n .

21 78.1 0.010 22 79.87 0.0900 23 00 .2t 0.1100 24 81 . 4 0 .0700 20 .78 .21 27 78 .23 28 78 .t4 ------

PRES 5'JR E -T EX AS VOLUME FRACTION 1 74.70- 1.0000 2 . Z.000. _ _- ___ _ 0.0000 ____________ _____________________________________

6AkrMETER 1 2c.C39 DEe.PU INT TEMPS VOLUME FRACTIO4 1...74.000 Q 40.0 2 74.2.0 0.6000

IFFEPE 'TIAL PRESS 1 .2.000 .-

-- LFFERlENTLAL2TEMP 1 o.000

-Figura 4-83 -

DUKE PUWER COMPANY .

OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VERIFICATION TEST DATA REPORT DATA.. 5ET. 5 _

_RTLLDI1G IT. ..TEMPS ViLUME- FRACTION L TNT- IJLTIA PREV.-POII PRE S TENT 1 76.70 0.0300 2 7".C__ * ) 0 000 PTILDING TEAP s.F .79111 79 212. 79 .25A 3 80.co 0.0200 BUILDING PRE.SS, PSIA 74.769 74.786 74.791

.94

-4 _0.0500 80.ILDING D.EWP3..I.N.TTEMP F t3.7.97 193.797 7.3.837 5 80.22 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4127 0.4132 6- 79.72 .0 30 0 7 81.02 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0003 0.0000 0.0000 5-S9-9 fl-.O s Ul 9 7'.78 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.16 0.0500. NFORMAT.INTEMP 2, F 7 8.09 - 78-.1 7835 11 77.r5 0.0200 INFORMATION TEMP 3, F 78.09 78.23 78.30

_12 76 . 7u 0.0200 INFR!ATTONTEMP 4, F 7828 78_.44 4 I.49 13 78.72 0.0100 14 79,, n,020n BAROMETER 29,.01s 29.39 29.099 15 7 .O4 0.0200 KNOWN LEAK 0.0000 16 79.84 0.0100 17 79.57 0.0500 1e 60.0- 0.0900 19 50.35 0.1100 2-- 7 A (7. 0 10n 21 78.85 0.0100 22---

S 79 .92_0 .0900.

23 o0.37 0.1100 24 81 .57- - - - -- 0700______

25 0.00 27 78.3J 26 __._ 78. 49 ------

PESSLURE-TEXAS_ ____ MVOLUAF FRACIT1ON 1 74.791 1.0000 2 2-0LO 0 0 0d

-_-- ARMFTFR-3A 7AETER _

1 29.039 0 P0INT TEMPS VOLUME FRACTION 1 7.1 0 0 A00 0 2 74.2C0 0.6000 DIFFEPENTIAL PRESS

___ Lf-FFFFNTTAI TFMP 1 0.000 Figure 4- 84

DUKE PUWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VEAIFICATION TEST DATA REPORT DATA SET 6 RI/DIGIT TEMPS-- - VOLUME. FRACTION INITIAL ----- PREV. POINT PRESENT---

1 76.74 0.0300 2 _ P, ." 0 .0200 EBUILDING.TERP ~ _________

3 jo . 05 0.U2UO BUILDING. PPESS, PSIA 74.769 74.791 74.796 4 - 77.98 - EWPJINT TEMP, F____73_797 5 80.28 0.0200 BUILDING VAPO? PRESS, PSIA 0.4127 0.4132 0.4132 6 79.77 030 7 01.98 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000 L 76 ."0 9 7PQ.9 0.0500 INFORMATIN TEMP 1, F 0.00 0.00 0.00 10 -19.22 0 .05J0 - ----- IiNF0R.ATIDN TEMP ,.F----- 78.09 73.35 7e 7.3~

11 77.61 2,~~9.5 0.C200 C INFOR.ATI]!-' TEYP 3, F 78.09 78.30 78.34 9.72870 12 76 .76-- G200 INFORMATIDN TEMP . ti 9 78 .52 1 7Q.75 '10) 14- 79.52 -. 0.2U0 APGMETER. o39 "9-039_

15 72 . I9 U.oUO KNfliNN LEAK 0.000i 16 - 79.19 1 T LDIN0 ---------

F- 19 1--

17 79.61 500 U I P IL0.000 ILD. ING VP P PA 19 3.36 0.00 21 70.91 0.01001 22 79.91 08.(00 23 s .!2 0.1000 24 61 .115 0 .0700 25 27 7P .34 26 79. .52 -1 P 'ES5i1rE-TLXAS------- -- VLUME RCI; -- -_ -- ---- - - ----------- --

1 74.796 .000

-L/ARIL1ET Ek I 20.O 0FwPuIlNT TE4PS VrLUME FRACTION 277*3 gr4- 5_

2 6_ _ 7_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __3F _ _ _ _ _ _ _ _

2 74.210 0.6000 DIFFEPENTIAL PRESS 0.70 F iu ---- -

-_DUKE PUWER COMPANY OCONEE NUCLEAR STAT ION INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VERIFICATION TEST DATA PEPORT DATA SET 7 _

RT /fICIT TEMPS VOLUME FRACTION ____. __ INITIAL__PREV. POINT .---- PRESENT_

1 76.77 0.0300 78.64-- 0.0200 BUILDING__TEAo _F------ _--_ 79.111 9.28 . 79..333 3 n.10 0.0200 BJILDING.PRESS, PSIA 74.769 74.796 74.800 4 7P... 0.0500. BUILDING DE4PJINT TEMPF _ .73.837 73.877 5 8n.21 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4132 0.4138 L 79% - . 0.0300 .

7 1.13 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 di 76.C2.- ' .0800 ___....._.

9 7E.P7 0.0500 INFOR.ATION TEMP 1, F 0.00 0.00 0.00 10 7?.26 0 .05p0 INFORMATION TEMP 27 .F 78.09 7..34 ...78.3 11 77.67 0.0200 INFOR4ATI0N TEMP 3, F 78.09 78.34 78.39 12 76. 0.0200 INFOR.ATION TEMP 4, F 78.*28.. 78.52 78.55 13 7R.?1 0.0100 14 79 .5 0.0200 8ARUMETER 29.01_4320.0 9 15 7q.14 0.0200 KNDWN LEAK 0.0000 16 70.93 0.0100 17 79. 5 0.0500 1 b_0 0 __ 0 19 79.42 0.1100 21 7P.95 0.0100 22 79.97 23 oC .4~ 0.1100 24 e.5b .0 .0 70 0 25 27 78.?9 2j 7S.55 P RESSLUE-TEXAS VOLUME FRACTIO . -..

1 74.8CC0 1.0000 t)ARnHIETER 1 2'.02P OF PIJNT.TEMPS V1LUMF FRACTION 7

? 4.2JO 0.6000 DIFFEPEN'TIAL PRESS 0.LEfFrENTIM T MP 0.000 F Figure 4--86

DUKE PUWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST S - - -07/4/73 59.00 PSIG VE1lFICATION TEST DATA REPORT DATA SET .8 RT /DIGIT.TEMPSL . ___MDaLUME FRACTION-- INITIAl PREv.2POIL YR.AESEriT 1 76.32 0.0300 2 78660.0 2U.0 -- RU.LDIMGJElAP-,-.E_________ 1-___-7_____3-33_79-361 3 00..15 0.0200 BUILDING PRESS, PSIA 74.769 74.800 74.805 4 78.15 U . L ING UEWPJ1KT TEMP 3 .79 3 877 _ 77 5 or.34 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 6 79.86 0 7 .1.1631 REF. VESSEL 01FF PRESS, PSI 0.0000 0.O0uO 0.0000

.. 76 . 03 .

7F Q% C0.3500 I.NFOR:iATIDN TE4P I1, F 0.00 J.00 0.00

-17? .. . z O.0500 I NF uR MAT10 N! TE '1P 2,p F . _.._.... 7F.09 7- 7.38 7-8 .48 I 77. .9 1.0200 1t:FORMATI1 TEMP 3, F 78.09 78.39 78.43 12 76.% .0200 INFORMATION TEMP 4, F 78.28 78.55 78.61 0 01 .0100 RE.VSSLDF PES PI 00000000000 13 7 .97 o.1c.

19.N 19.% 9.~ ..- - -. 0 2Q0

.-- ___5__

__------- _ _ FAP 0M ETE~ _ _2 R02 ....... ._ 19-0-2.6 15 7r.17 u2 KNC'4N LEtK c.0o00 it 71- 0.0100.

17 79 . 6 0.0300 19 c..(3 .1100 22..7S.94~.. _____

21 7-.9~ 0.0100 22 79.9 0.0900.INFORMATIDN TEMP 1- F 0.1100 24 71.57 0.0700 25 0 PVOSSLAETEXAS .. ~-----. FR ACT IC __. _ ____

1 74.5 1.0000 2 '0 7 .. -. 4. . . .. - .. 0.

29.0293 17 70^

0 5,PL li T TE4P S VP.LUMF FRtPCT ICr

-I.- - ____ 0.. 400.0 ___________________

2 7.92 20 78.- 0.6000 7__01-

VSUETXSVLM RCI b IFFE"ett'TIAL P1 755 _ ___

_____ULEFLIEILA.L-ILAP

OCONEE NUCLFAR STATION INTEGRATED LEAK RATE TEST S 07/04/73 59.00 PSIG VElIFICATION TEST DATA REPORT PATA1 SrT 9 F.T/1CIIT TEPS -VOLUME FRACTION ____ 1 111ALPREV..POLNTPESEN 1 76.'4 0.0300

.7873 0.020.11 PUILIN.TEMP,F. 79.11 9.361 1__I9..404____________

3 00.20 0.0200 BUILDING PRESS, PSIA 74.769. 74.805 74.810 8 78.21 0..__ 0.0500 B_________EUILDING DEWPdlkT TEKP F_ 73..877

_173.797 13.877 . ______

5 0. 0.0260 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 6 79.92 0.0300 7 01.14 0.0100 REF. VESSEL DIFF PRESS, PSI C.0000 0.0000 0.0000

-- 6 0.0800. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

9 7!.q4 0.0500 INFDRMATIEN TEMP 1, F 0.00 0.00 0.00 1 3 7.34 _ 0.0500 I___1NFRM1ATION TEMP 2, F __7B.09 - 78.48 78.52 11 17.74 0.0200 IN'FORMATIDN TEMP 3, F 78.09 78.43 78.47 12 7 5 12 -. 76.00-- --- INFQR.RATIJINTEMP.4, E78.28 78.1 __ 8.67 13 7R.89 0.0100 15 7".23 u.0200 KNOWN LEAK 0.0000

-16 d2 U -- - --- 10-_ __ __ _ _ _ _ _ _ __ _ _ _ _ _ _

17 79 97j onu 171 70.7 0.0100 9

22 00.04 0

-. 00 __

23 e0.51 0.1100 24 - 1 .5 - -0.0700 25 0.00 27 7E.47 2e. 78F.6 7....

P SSRE-T:XAS - -- VPLUME FRACTION__________

1 74.P10 1.0000 1 .00 n,0000, 1 29.0283 DEi.PGINT TEMPS V[OLUME FRACTION 1 4.,0.0 0.4000 2 74.200' 0.6000 DIFFEPENTIAL PRESS

)1FrRFRT IAl TFMP 1 ).900 Figure 4 -

DUKE PUWER COMPANY OCONEE NUCLEAR STATION- -__- -

INTEGRATED LEAK RATE TEST 07/04/73

- --- - 59.00 PSIG VElIFICATION TEST' DATA REPORT DATA SET 10 RTD/DIGIT TEMPS VOLUME FRACTI!M -- INITIAL -- PREV. POINT -.. PRESEi4T. __ __

1 76.89 0.0300

.2.. 72 .713------ --. .0200. - -- -- UJILD ING. TEMP, F, . 9.1.... 404.2.3 3 fl' 0020BUILDING PRESS, PSIA 74..769 74.e10 74.815

4 73.17 . . 0 .0500 C) -- .BU I LOI NG OE'4PO I.T .TEMP _........~...73 .797----.73 .877-- ... .. 8___________

5 6.41 O.0260 BUILDING VAPOR PRLSS, PSIA 0.4127 0.4138 0.4138 7 61 .?6 .00 REF.~ VESSEL 01FF PRESS, PS 1 75 .5 0.0200 0.0000 0.0000 0.0000 BILDINGT PRESSp , SF 74.7698 ...... 7.8106 __.7.4.715.... _

9 79.01 0.3500 INFDRXATION TEMP 1, F 0.00 0.00 0.00 I " ',?. 9 0. L)5 30 -- IlNFCRklATIQN, TEMP 2, 11 7.7.4 76779 . _ . 8.9.... ..... 7 5 4 .

11 0.0200 I DFRMATION TEMP 3, F 78.09 78.47 79.48 13 76.'09 0.000 14 . 79 F - - . .020.0 A, R 0 MfT-ER 9-0____2_9-0_2_a-17~'.79 79.10.0200 0.1000 NOMTO KNOWN LEAK EP3 0.0003 80 84 8 13 17 79.7t 0.0500 T_ 7 IL 6 0 q* 2 3 ': . .0900....- . -- ___ --.. --- - - .... .

21 79.K7 0.0100 22 dO .000 0.0900 23 00.53 0.1100 2 al .59 0.0700

25 - - .OC-4 2o .... 7E . u....__________

27 7 .4 22 72.71 P ES UkF-TEXAS -.. VCLUME FRACTIO 1 74.815 1.0000 Ail, F TER 1 20.029 0%PuINT TEMPS VrLUME FRACTI 0N I - 74.200-- C.4300 2 74 .200 0.6000 DIFFEPLNTIAL PRESS 1 .0.000_ _____

____...IEEE7-E!:11AL TEMP 1 0.0u0

-- -. __ .~ ___. -. ___~ _____ Figure 4-89

DUKE PUWER COMP@

OCONEE NUCLEAR STATION

--- ------- INTEGRATED LEAK RATE TEST

____ 07/04/73 59.00 PSIG VERIFICATION TEST A Ft 5TA 11 DATA REPORT RT /DIGIT TEMPS VOLUVE FRACTION I AL__PNRS 1 76.93 0.0300 2 78.80 0.0200 BUILDING TEiP, F 3 80.29 - 0.0200 BUILDING PRESS, PSIA 74.769 74.815 74.820 4 78.22 u.0500 BUILDING DEWPOINT TEMP-, 73797- 3;877 - 73.877 5 8r0.45 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 C.4138 6 79.97 0 .0300 7 61.?2 0.01O0 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.000 8 76.09 0.0800 -_--

9 79.15 0.0500 INFORMATIDN TEMP 1, F 0.00 0.00 0.00 10 79.44 0.0500 INFORMATION TEMP 29 7F9- -46 876 11 77.85 0.0200 INFORMATION TEMP 3, F 78.09 78.48 78.54 12 76.95 0.0200 INFORMATIDN TEMP 4,7 ----

13 78.06 0.0100 14 79.73 0.0200 BAROMETE9 15 78.30 0.0200 KNOWN LEAK 0.0000 16N 0POT.01 PE.V07 PR0EE0 17 79.79 07.0500 10.12.27 00.13 0 3 8 0.1100 00080.52 22 0 .0900 00.09 23 80.56 0.1100 24 al.60 0.070 25 rfl.no 26 79.62 27 70.2.

20 78.760.1

-- PPESSV'Rc-TEXAS -VOLUME FRACTION 1 74.820 1.0000 1 29.031 DEAPOINT TEMPS VOLUME FRACTIONJ 1 74.200 0.4000 2 74.200 0.6000 DIFFEREMTIAL PRESS 2 0.00 SARCHIE PIFFERE-NTIALVTEOLUMEFRACTI 1 0.000

_________ ___________________________Figure 4-9-0

DUKE PUWER COMPANY OCONEE NUCLEAR STATlN~

INTEGRATED LEAK RATE TEST 07/U4/73 59.00 PSIG VERIFICATION TEST DATA REPORT

DATA SET _12 RTfl/DIGIT.. TEMPS_ - VOLUME FRACTION TN0TTII PRFEV. PINT2PRESfNT 1 76.96 0.0300

- 7&-.96 0 .0200 UILD LNG.T EP _.F 7911179.45 79.493 3 80.33 0.0200 BUILDING PRESS, PSIA 74.769 74.820 74.824 4 .78.29 -- 0.0500 BUILDING.. EWPEINTTEM.._F 73..797 73.877-- 3.877 5 80.48 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138

- 80.03 - - - - - -- 0.0300 7 81.29 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 11 0.0800 9 79.06 0.0500 INFURMATION TEMP 1, F 0.00 0.00 0.00 10 79.43 0. I.FRMATIDI FF'1 O TEMP-2, 78.09 78.62 ...

64_____t-__..9-7_-64 11 77. 7 0.0200 IiFORMATION TEMP 3, F 78.09 78.54 78.57 12 - 77.00 -. ----- 0.0200 - -- INFORMATIONTEMP 4. F -78.28 78..76 ___ _8...77 13 79.04 0.0100 14 79.76 0,0200 BARDMETER 29.018 29.031 29.021 15 7F.35 0.0200 KN04N LEAK 0.0000 16 80.09 0.0100 17 79.r2 0.0500 lb 80.30 _ 0.0900 19 80.53 0.1100 70 80.11 0.l0O 21 79.17 0.0100 22 80.13 0.0900._.____

23 80.59 0.1100 24 81.62 .07 2o 78 .64 27 7q.57 2 78.77 _

PRLSSIUkE-TEXASVO--.---..-VLUME. FRACTinN_

1 74.824 1.0000 So. 00b0 0_000DO BAROMETER . .. --------

1 29.021 DE POINT TEvPS VOLUME FRACTION 2 74.200 0.6000 D)IFFEREFTIAL PRESS

1. O.000 - -----

___ lE b I-0 _2ENT LiLIENMP _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

1 0.000

_Figure 4-91

DUKE PUWER COMPANY OCONEE NUCLEAR STATION- -____

._INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VERIFICATION TEST DATA REPORT DATA SET 13 RTO/DIGIT TEMPS _VOLUME. FRAC-L _ --- _ _IRTIAL.RREV. P01NT-PRESEN 1 77.01 0.0300 78D 87 .0200--L .NG-T-EAP,. F-7 -1.97094.5 3 3 dO.38 0.0200 BUILDING PRESS, PSIA 74.769 74.824 74.829 S -78 .3----7_____ 0 .0500 RBU.1_UILDING DEWPDIN TEMP- F 7379 3 .877_____73 .6.77-.

5 80.51 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138

.6 80.09 0.0300 7 81.36 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 J 1 0.000 9 79.12 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00

-10 79.52 0.0500 TNDFORMAT.ID LTEMP _72,-E F 8-O9 - 7.8.64 8-65 11 77.91 0.0200 INFORMATION TEMP 3, F 78.09 78.57 78.62 12 77.01 -- __ 0 .020 0. INFORA-__-TINIE-MP F -28 7- i8-8.2 13 79.08 0.0100

____14- 79-81 n-0201) BAROMETER 29,018 29.02l 29-f)21 15 78 .38 0.0200 KNOWN LEAK 0.0000 16 6 12~ _ 0. 010.0. _______________________________________

17 79.81 0.0500

.8.0 74 09.6 78.6

. 3 0 .. 9.090- 7 111 T 0.1100 0.412.57 21 70019 0.0100 25 0 0..0

-- - 2722 - .0

7. .12 0 .0 00 _ _ _ _ _ _ _ _ _ _ __ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 7.62 6 72.32 _ _ 0.0100

.PFESSLURF-TEXAS . VLM RCI.-___ .___________________________________

1 74.129 .0jO A3 .ETER 0 .1100 1 74..E29 1.-0000r 1 29.021 E.Pi TEMPS VCLUMF FRACTION 2 74.200 0.6000 DIFFEFENTIAL PRESS L1 0.000

-JTFFERf4LTAI TFMP 1 0.000 Figure 4-92

DUKE PUWER COMPANY OCUNEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 0-7/U4/73 59.00 PSIG VEAIFICATION TEST DATA REPORT DATA SET 14 pTr/DICGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 77.09 0.0300 2 78.91 0.0200 BUILDING TEMP, F 79.111 79.523 79.548 3 8C.40 0.0200 BUILDING PRESS, PSIA 74.769 74.829 74.833 4 - t.26 0.0500 BUILDING DEWPOINT TEMP, F 73.797 3.87-7 387_-38

-3.877 5 80.55 0.0200 BU.ILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 80.11 0.0300 7 bl.43 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 6 76.14 0 .0800 9 79.12 0.0500 INFORMATIN TEMP 1, F C.00 0.00 0.03 10 79.54 u .u500 INFORMATIN TEMP 2 -F 18.9 78 .65 78.75 11 77.93 0.0200 INFORMATIDN TEMP 3, F 78.09 78.62 78.66 12 77.'6 0.0200 IN FORMATI0N TEMP 4, F 78.28-78.5278.87 13 79.05 0.0100 14 79.P5 0.0200 BAR'OMETER - -- 29.0 29.021 -2901 15 78.43 0.0200 KNOWN LEAK 0.0000 16 60.17 0.0100 17 79.90 0.0500 18 b0 .37 0.0900 -----

19 bO.61 0 .1100 20 80 .18 0.0100 21 79.24 0.0100 22 - O.15 0.090U 23 60.65 0.1100 24 81.65 0.0700 25 0.00 26 78.75 27 78.66 28 78.87 PFESSURE-TEXA$ VOLUME FRACTION-" -

1 74.833 1.0000 2 0.000 0.0000 tiARL'hETER .

1 29.011 DEWPOINT TEMPS VOLUME FRACTION 1 74.200 0.4000 2 .74.200 0.6000 DIFFERENTIAL PRESS 1 0).000

- DIFFERENTIAL TEMP 1 0.000 Figure 4-93

DUKE POWER COD Y OCONEE NUCLEAR STATION INTEGRATED LEAK RATtE TEST 07/04/73 59.00 PSIG VElIFICATION TEST DATA REPORT RTO/DIGIT TEMPS VOLU4E FRACTITI-F iN-TTAIPWEV-flINTPRESENT 1 77.15 0.0300 2 78.95 0.0200 B-UILDING-TE4P F 719. 1

- .3 80.47 0.0200 BUILDING PRESS, PSIA 74.769 74.833 74.837 4 78.43 0.0500 SUVLDINDFWPOINTTEMP, F 5 80 .57 0.0200 BUILDING VAP13R PRESS, PSIA 0.4127 0.4138 0.4138 6 80.14 0.0300 ___

7 81.42 0.0100 ___________REF. VESSEL 1FF PRESS, PSI 0.0000 0.0000 0.0000 6 - 76.17 o.8uc______________ _________________

9 79.19 .U500 TINFORMATION TEMP Iv F 0.00 0.00 0.00 I

u 79.5 9 _0 -0 5 u0 N F0R4A TIJN T E M P-29F 79 8 .7 77 5 11 77.99 0.0200 UFORMATION TEMP 3, F IN 76.09 ___ 78.66 7.8.66 12 77.11 .0200 TEMP8 9 13 79.09 0.7100 14 79.R7 0.0200 BAROMETER 2 9.0 18 2 9 .0 11 2 9.00 1---------

15 78.45 0.0200 KN01N LEA3 0.0000 16 80.21 0.0100 17 79.92 0.0500 Ilt aO.39 0.090 0 0 ~- - __

19 79.4 0.1100 20 80.21 0.0100 IE18 21 79.07 0.0100 22 .203 0.0900 23 60.67 0.1100 24 81.67 0.0700 25 0.00 26 78.75 27 78.66 28 78.90 PRESSURE-TEXAS VOLUME FRACTION 1 74.837 1.0000 2 0.000 0.0000 BAROMETFR 1 29.001 DEWPOINT TEMPS VOLUME FRACTION 1 74.200 0.4000 2 74.200 0.6000 DIFFEPENTIAL PRESS I - 0 .000 DIFFERENTIAL TEMP

.1 0.000

~--- _Fi&mreJr-94_ _ ___

UUKE PUWER COMPANY OCONEE NUCLEAR STATION-______

INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VEAIFICATION TEST DATA REPORT DATA SFT 16 .. ..

RTD/DIGIT TE4PS VOLUME FRACTION ..... INITIAL - PREV. POINT PRESENT-1 77.15 0.0300 2 78.9.8 U.0200 BUILDING TEMP, F 79.111 79.588 79.621 3 0O.49 0.0200 BUILDING PRESS, PSIA 74.769 74.837 74.841 4 78.41 0.0500 BUILDING DEWPDINT TEMP, F 73.797 .73.877 73.877 5 80.61 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 6 80.18 0.0300 7 81.50 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 76.19 0.0800 9 .79.24 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.63 0.0500 INFORMATIDN TEMP 2, F 78.09 78.75 78.77 11 78.00 0.0200 INFORMATION TEMP 3, F 78.09 73.66 78.71 12 77.14 0.0200 INFORMATION TEMP 4, F-- 78.28 78.90 78 .95 13 79.21 0 .0100 14 79.92 0.0200 BAROMETER 29.01 2900T 28994 15 78.50 0.0200 KNOWN LEAK 0.0000 16 302~00100 17 79.95 0.0500 13 80.43 0.0900 19 60.66 0.1100 20 00.?7 0.0100 21 79.32 0.0100 22 60.25-- 0.0900 23 60.71 0.1100 24 31.70 0.0700 25 0.00

26 78.77 27 78.71 PqESSU'RE-TEXAS VOLUME FRACTION 1 74.841 1.0000 2 ('.000 0.0000 1 28.994 bEAPOINT TEMPS VOLUME FRACTION 1 74.200 0.4000 2 74.200 0.6000 DIFFEPENTIAL PRESS 1 0.000 DIFFEPENTIAL TEMP -------

1 0.000 o~c0 Figure L4-95__________

DUKE PUWER C1MPA OCONEE NUCLEAR STATIO.

INTEGRATED LEAK RATE TEST .

-. _ 07/04/73 59.00 PSIG VERkIFICATION TEST DATA REPORT DATA SET 17 RTC/DIGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 77.16 0.0300 2 79.05 0.0200 BUILDING TEMP, F 79.111 79.621 79.640 3 80.53 0.0200 BUILDING PRESS, PSIA 74.769 74.841 74.846 4- 78.42 0.0500 BUILDING DEWPOINT TEMP, F 73.797 73.877 73.877 5 80.65 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 6 60.23 0.0300 7 tl.54 0.0100 REF. VE5SEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 76.21 0.0800 9 79.25 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.65 U INF3RMATJNTEMP Z, f 9-. 0 18.77 18.83 11 78.r6 0.0200 INFORMATION TEMP 3, F 78.09 78.71 78.76 12 77.16 U.20 INFOR ATI3NTIMP , i-V8.97 i8.2895 13 79.21 0.0100 14 79.96 0.02O0 BAROMETER 29.18 28.994 2a.994 15 78.54 0.0200 KNOWN LEAK 0.0000 16' 80.27 D .0100 17 79.99 0.0500 18 80.47 0.0900 1I 80.67 0.1100 2C 60.30 0 .0100 21 79.34 0.0100 22 80.25 U .090U 23 80.72 0.1100 24 81.68 0.0700_

25 0.00 26 7P.83 27 78.76 PRESSURF-TEXAS- YVLUME FRACTIUN 1 74.846 1.0000 2 0.0O-00.0000 BARbalJET5 1 28.994 DEWPOINT TEMPS VOLUME FRACTION 1 74.200 0.4000 2 74.200 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000

. Figure 4-96

DUKE PUWER COMPANY OCONEE NUCLEAR STAT ION --- --- --

INTEGRATED LEAK RATE TEST

-_---OT/U4/73 59.00 PSIG VEAIFICATION TEST DATA REPORT DATA SET~ 18 RTD/DIGIT TE4PS VOLUME FRACTION INITIAL PRtEV. POINTV PRESENTV 1 77.22 0.0300 2 79.08 0.0200 BUILDING TEMP, F 79 .111 79 .640 79.674

.3 80.57 0.0200 BUILDING PRESS, PSIA 74.769 74.846 74.650 4 78.54 0.0500 BUILDING DEWPOINT TEMPT 73.79773.877 - 738 1 5 8C.67 0.0200 BUILDING VAPfOR PRESS, PSIA 0.4127 0.4138 0.4138

.6 80.26 0.0300 7 81.55 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 76.21 0.Oso 9- 79.31 0.0500 _ _ INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.70 0.0500 INFORMATION TEMP 2, F 78.09 78.83 18.87 11 78.11 0.0200 INFORMATION TEMP 3, F 78.09 78.76 78.77 12 77.18 0.0200 INFORMATION TEMP 4,F 78.2 .. 78.9T - 7899 13 79.31 0.0100 14 79.99 0.0200 BAROMETER 29.018 28.994 28 .994 15 78.57 0.0200 KNOWN LEAK 0.0000 lo 80.29 0.0100 17 80.01 0.0500 16 80.49 0.0900 -- -_-_-_

1, 80.68 0.1100 20 80.35 0.01.0.---.OluO 21 79.38 0.0100 22 80.30 0.0900 23 80.76 0.1100 24 81.69 0.0700.---

25 0.00 26 78.87 27 78.77 28 78 .99 PRESSURE-TEXAS VOLUME FRACTION -----

1 74.850 1.0000 2 0.000 0.0000---- ------

BAROMETER I 28.994 DEWPO*INT TEMPS VOLUME FRACTION 1 74 .200 0.4000 2__ - .74.200 0.6000 DIFFEPENTIAL PRESS 1 0.000 ------- -

DIFFERENTIAL TEMP -- ---- _ ----- -

1 0.000 Figure 4-97

DUKE PUWER COMP Y OCONEE NUCLEAR STATION-__

INTEGRATED LEAK RATE TEST

. . 07/04/73 59.00 PSIG VERIFICATION TEST DATA REPORT

-- DAT A -5 5T 19 RTD/DIGIT TEMPS VG[UME FRACTIUN 1NTTIU-PREY-PD1NT PRE3ENI 1 77.29 0.0300 2 79.12 0.0200 UILDINGTEMPVF 3 80.60 0.0200 BUILDING PRESS, PSIA 74.769 74.850 74.B54 4 78.54 0 .0500 BUILDING OEWPOINT TEkP, F 7777877 7 37877 5 80.70 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 6 80.26 0.0300 7 81.60 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000 8 . 76.23 U .0800-- - ________ ______ ___ ____________

9 79.32 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79U.72 0.0500 INFORMATION TEMP 2, F7 .. 9 11 78.11 0.0200 INFORMATION TEMP 3, F 78.09 78.77 78.80 12 77.24 -- 0.0200- NFORMATION- TEMP- 78.28 - 73.899 I /

13 79.27 0.0100 14 dO.03 0.0200 INFOMATION T 1, F 0.00 .0090.00 15 78.60 .0.0200 KNOWN LEAK 0.0000 16 80.33 0.0100 17 80.04 0.0500 10 80.51 0.0900 19 80.72 0.1100 20 80.35 0.0100 21 79.42 0.0100 22- 80.31 0.0900 23 80.78 0.1100 24 81.72 0.0700 25 0.00 26 78.91 27 78.00 28 79.r!4 PRESSURE-TEXAS VOLUME FRACTION---

1 74.854 1.0000 2 0.000 0.0000 BAROETER 1 2A.994 DEV.POINT TEMPS VCLUME FRACTION 1 74.260 0.4000 2 74.200 0.6000 DIFFERENTIAL PRESS 1 0.000 -_-

- OIFFERENTIAL TEM P_ _

1 0.000 Figure 4-98

DUKE PUWER COMPANY

OCONEE NUCLEAR STATION INTEGRATED LEAK RAT% TEST

. ._ 07/04/73 59.00 PSIG VEAIFICATION TEST DATA REPORT DATA SET 20 RT9/DIGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT----

1 77.29 0.0300 2 79.13 0.0200 BUILDING TEMP, F 79.111 79.698 79.734 80.65 0.0200 BUILDING t PRESS, PSIA 74.769 74.854 74.859 4 78.60 0.0500 BUILDING DEWPOINT TEMP, F 73.797 73.877 73.877 5 80.74 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 6 60.34 0.0300 7 d1.61 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 b 76.26 0.000 9 79.40 0.0500. _____ INFORMATION TEMIP 1, F 0.00 0.00 0.00 10 79.76 0.0500 INFORMATION TEMP 2.F 78.09 78.91 78.97 11 78.20 0.0200 INFORMATION TEMP 3, F 78.09 78.80 78.85 12 77.30 0.020C INFORMATION TEMP 4, F 78.28 79.04 79.08 13 79.30 0.0100 14 80.07 0.0200 BAROMETER 29.018 28.994 29.004 15 7P.67 0.0200 KNOWN LEAK 0.0000 16 60.37 0.0100 17 80.07 0.0500 13 80.54 0 .0900 19 30.76 0 .1100 20 80.41 0.0100--. . -- --.

21 79.46 0.0100 22 80.32 0.0900 23 80.82 0.1100 24 81.71 0.0700 - .---- --------

25 0.00 e 26 78.97 -- ------ --.

27 78.e5 23 79.08 PPESSURE-TEXAS VOLUAE FRACTION 1 74.859 1.0000 2 0.000 0.0000- - - -.---

BAROMETER 1 2Q.004 DFWPOINT TEMPS VOLUME FRACTION 1 74.200 0.4000 . . . .....

2 74.200 0.6000 DIFFEPEPTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4.99

-UKE PUWER COMPANY OCONEE NUCLEAR STATION_

INTEGRATED LEAK RATE TEST

&7/04/73 59.00 PSIG VElIFICATION TEST DATA REPORT DATA 3FT217 RTD/DIGIT TEMPS -- VOLUME FRACTION ------ - TNITIALC PREV. POINT PRESENT 1 77.36 0.0300 2 79.20 0.0200 BUILDING TEMP, F 79.111 79.734 79.765 3 d00.69 0.0200 BUILDING PRESS, PSIA 74.769 74.859 74.863 4 78.62

0.0500 BUILDING DEWPO1NTTEMP, F 73.79 7 73.8777 13.871 5 80.77 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 60.42 0.0300-- --

7 81.1_ 0.0100 REF. VESSEL DIFF PRESS, PSI. 0.0000 0.0000 0.0000 8 76.28 - 0.0800- -

9 79.43 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.80 0.0500y INFORMATI-ON TEMP 2, v 78.098.91 19.U 11 78.25 0.0200 INFORMATION TEMP 3, F 78.09 78.85 78.88 12 77.33 NFORMATDNTEM47F 1828 79.08 70.0200 79.13 13 79.38 0.0100 14 80.10 0.0200 BAR'OMETER -. 2908 2W.004 9.TI4 15 78.68 0.0200 KNOWN LEAK 0.0000 16 80.38 0.0100 17 80.09 0.0500 18 80.57 0.0900 19 80.77 0.1100 20 60.44---------- 0.0100 21 79.49 0.0100 22 d0.38 23 80.84 0.1100 24 81.73 7 - ---.-

25 0.00 26 79.02

.27 78.88 28 79.13 PRESSURE-TEXAS . -- VOLUME FRACTION 1 74.863 1.0000 2 0.000 0.0000 BAR fMETER 1 29.004 DEWPOINT TEMPS VOLUME FRACTION 1 74.230 0.4000 2 74.200 0.6000 DIFFERE4TIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 .

Figure 4-100

DUKE PUWER COMPANY

-UCCNEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VElFICATION TEST DATA REPORT DATA SET 22 RTP/DICIT TEMPS VOLUME FRACTION IN .- PDTNT PkES ENT 1 77.37 0.0300 2 79.23 0.0200 BUILDING7 TE4P,7F1-65 797 8 3 80.72 ---. 0.0200 BUILDING PRESS, PSIA 74.769 74.863 74.865 4- 78.62 0.0500 BUILDING DEWPOINT TEMP, 1-3-79 7 7877 ______7 3 -- 7 7 5 80.79 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4138 b 60.36 0 .0300 7 81.67 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a 76.29 0.0800-9 - .79.46 _ ___ 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.84 0.0500 INFORMATION TEMP2YF 2, i80902 11 78.28 0.0200 INFORMATION TEMP 3, F 78.09 78.88 78.90 12 77.34 0.0200 INFORMATIONTEMP--4,F9 13 79.42 0.0100 14 80.13 -- 0 .0 200- 0

AROMETER -- ~9o18 9042.

78.72 KNOWN LEAK 0.000 78.6200 30.400.3 01 0.0.1001 17 0 .0500 00.12 1d8 s 0. 59 0 .0900. -__ - ___

19 80.79 0.1100 23 31~.4b ----- D 01CC 0 ___ _____________ ________________________

21 79.52 0.0100 22 87 .39 7800.090 23 70.42 0.1100 19 24 8.79.0.110 81.73 0.0700 25 0.o 6 79.02 0 27 78.9,J P 9E SS" Fk-TEXAS VOLUME FRACTION ____ --------.---. -- - -..---.

1 74.865 1.0000 2 0.000 0.0000 _

2 R 0.11

-0.86 2 29.4 PES.PSu-NT TEMPS VOLUME FRACTION 1 74.20 0.4000 2 74.200 0.6000 DIFFERENTIAL PRESS DIFFEPENTIAL TEMP 1 0).009 Figure 4-101

DUKE PUWER COMPANY UCONEE NUCLEAR STATIO INTEGRATED LEAK RATE TEST

. __ 07/04/73 59.00 PSIG VERIFICATION TEST DATA REPORT DATA ST2 RT/DIGIT TEMPS VOLUME FRACTION -- INITIAL PREV. POINT PRESENT 1 .77.37 0.0300 2 79.26 0.0200 BUILDING TEMP, F 79.111 79.782 79.801 3 80.75 0.0200 BUILDING PRESS, PSIA 74.769 74.865 74.869 4 78.63 0.0500 BUILDING DEWPOINT TEMP, F 73 .797 73.877 73.776 5 80.81 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4138 0.4124 6 80.40 0.0300 7 81.68 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 76.31 0.0800 9 79.49 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.85 0.0500 INFORMATION TEMP 2, F 78.09 79.02 79.02 11 78.31 0.0200 INFORMATION TEMP 3, F 78.09 78.90 78.92 12 77.36 0.0200 INFORMATION TEMP 4, F 78.28 79.14 79.16 13 79.45 0.0100 14 80.15 0.0200 BAROMETERk 29 I 29.0F 28.994 15 78.75 0.0200 KNOWN LEAK 0.0000 16 50.44 0.0100 17 80.15 0.0500 13 80.62 0.0900 19 80.79 0.1100 20 60.50 0.0100 21 79.54 0.0100 22 80.40 U.090U 23 80.89 0.1100 24 81.73 0.0700 25 0.00 26 79.02 27 78.92 2 79.16 PRESSURE-TEXAS VULUNF FRACTION 1 74.869 1.000 2 ".000 000

~BAP ER .

1 28.994 DFNPOINT TEMPS VOLUME FRACTION 1 74.100 - 0.4000 2 74.100 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000 Figure 4-102

UUKE PUWER COMPANY UCONEE NUCLEAR STATION -- -

... .INTEGRATED LEAK RATE TEST 07/U4/73 59.00 PSIG VE1IFICATION TEST DATA REPORT -

DATA SET 24 RT9/DIGIT TEMPS-... LUME FRACTION 1

INITIAL PREV. POINT 77.43 .0300 2 79.29' 0.0200- -BUILDING TEA P Fa ---7g 984 2 3 be.__________ .0.0200 BUILDING PRESS, PSIA 74 .769 74.869 __ 74.872 ___________

4 78.74 0.0500 BUILDING DEWPOhlT TEMP7F -73;797 73.776 73.676 5 80.?6 0 NG VAPOR PRESS, PSIA 0.4127 0.4124 0.4110

-6 60.49 0.0300 7 81.71 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 6 76.34 0 .08u 0.

79.52LRT V 0.0500 INFORMATION TEMP 1, 16 F 0.00 0.00 0.00 79 . 9o 0.U50 0 _ INFORMA TION_ TE MP 2, 11 78 .31 0.0200 F 7_8.09 _790 _2 - 79.062

. NFORMATION TEMP 3, F 78.09 7PRE.92 12 77.46 78.N P E5 0.U200 INFORMATION TEMP 4, F 7.

13 79 .5 u 79.16 -79.21-----

0 .01100 14 6 0. 20 0.0200 ~ BAROM ETER 02;1 -28 .9 9 4 2 8.9 8 4 15 7 8 .7 Z 0.0200 KNOWN LEAK 16 0.0000 80.48-- -- 0100 _

17 eo.18 0.:0500 113 80.66 0 0.0900--

19 2 0l. p 0.1100 2, Z0.53.........0o c 21 79.57 _0.0100 22 60 .44 0.090-0 23 o0l.92 0.1100 24 61.74 0 .0700 - .

25 0.00 2

6 79.02 -_ _ ____ ______________________

0

__27 73.95 20- 79.21 PfRESSURE-TEXAS - VLUME FRACTION----.__

1 74.?72 1.0000 2 9 .000 0.0000.

6AR AETERT 1 25.9d4 UFWPO INT TEMPS VOLUME FRACTION 1 74.000 .0.4000------------~--

2 .74.000 ____ 0.6000 DIFFEPENTIAL PRESS 00.000 DIFFERENTIAL TEMP-----------____________________

0.000 Figure 4-103

. DUKE PUWER CO-MP, Y D0CONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST

-.... 07/04/73 - _-----------_--

- - ---- - 59.00 PSIG VElIFICATION TEST DATA REPORT_

DATh SET 25 RTD/DIGIT TEMPS VOLUME FRACTION- PIN7F P PRESENT----

1 77.48 0.0300 2 79.31 0.0200 BUILDING T RP, F--- 9 842_7g 6 3 80.83 0.0200 BUILDING PRESS, PSIA 74.769 74.872 74.876 4 78.80 0.0500 BUILDING DEWPOINT TEMP, F 9*7T9T7 36773;_7 5 80.87 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110 6 80.46 0.0300 7 81.76 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 6 76.36 0.0800 9 79.56 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.93 0.0500 INFORMTIOMTEMP2, F 1801 19.02 79.U3 11 78.35 0.0200 INFuR:4ATION TEMP 3, F 78.09 78.95 78.99 12 77.44 U.02u0 INFORMATION IEMP--,4; F7926 13 79.50 0.0100 14 80.22 0.0200 -- BAROMETER 15 78.82 0.0200 KNOWN LEAK 0.0000

-_- 0.0100 17 80.20 0.0100 19 0.17 77.86 7.

21 0.0100 0..16 22 80.46 0.0900 23 80.93 00.1100 24 8..74 0.0700190 25 r.n0 26 79.03- - _______________________________

27 7.7978.999 2.b 79.26 PFESSPRE-TEXAS VOLUME FRACTION ___ ___ __ _ _____ __________

1 74.876 1. 'o ob 2 f.000 0.0000. ........ -

1 289.84 DEWPOINT TEMPS VOLUM~E FRACTION 1 74.000 0.4000 2 74.000 0.6000 I 2.984_O~

DIFFERENTIAL PRESS 1 0.000 2IFFER.000AL OEWPOINTguir 0.000 TEPSVLUE0RCTO 4-1 ---

DUKE RUWER CD!PANY OC NEE NUCLEAR STATION -

INTEGRATED LEAK RATE TEST

______ 07/04/73 _ ___

59.00 PSIG VEAIFICATION TEST DATA REPORT DATA SET 26 PTr/DIGIT TEMPS -- V FRACTION _______________

1 77.49 .0300 2 79.37 2 7.70.0200 BUILD-ING TE4P; F_ 791 9865____79.89 3 80.86 0.0200 BUILDING PRESS PSIA 74.769 74.876 74.880 4 78.81 0.0500 BUILDINcVOEWPOrNTTEMP7, 5 40 91 020 0 ______BIILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110

- 60 O. 52 - ~ -0.U300___ __------

7 6 1. 7o 0 .0 10 0 REF. _VESSEL_ 01FF_ PRESS,, PSI.

6 0.0000 0.0000 0.0000) 76.38 .0800 9 79 .59 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79 .97 0 0 0------- IN FO0R M-A T fD NJTE M F'_ -F 11 78.41 :0.0200 7_6_ q -7D 7 9_.

INFORMATIN TEMP 3, F 78.09 78.99 79.02 12 77.47 0D.EWP20I0 TEMINFsRMAT1NT T 7 797 1-67 3 79.28 13 79.53 . 0.0100 14 'bC.24 333 A0EE 10 7P.PREF.__ 2~1 894 894 -__

_ V.0200 KDIFFWN LEAK 0.0000 16 60.53 0.0100 17 60.23 0.0500 -_________

lb 80.71 0 . (90 C)_ 0 19 60.88 .1100 20 80.60 0 .0100 21 79.65

.01 1 22 6C.1E0 U.0900 -__________________________________

23 70.94 0.1100 24 81.73 0.0700 25 0.00 16 79.14 27 79.02 28 I879.28 PRESSfUkE-TEXAS V -OL UME FR ACT 0 N~

2 01 74.860 0 . 0 1.000 0 . 0 1 0 0 2 0.000 0.0000 KWLA0 0

1 7.65 0010

-- BARF;4FTFR_

1 250.00 2F.9b4 DEWPU1;-T TEMPS VOLUM4E FRACTION

6791 1 74.000 -0.000 2-1 0.0700 817 -- --

2 .74.000 0 6000 DIFFEPENTIAL PRESS D IF FE RE PT I AL TEMP _____ _________________________

DUKE PUHER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VERIFICATION TEST

.DATA REPORT _

DATA SFT27 RTh/DIGIT TEMPS-'- ------- VOLUME FRACTION -- INITIAL PREV. POINT PR FSE N-_T_

1 77.56 0.0300 2 79.41 0.0200 - BUILDINGTEMPF 19.111 79.889 79.927 0.90 0.0200 -3 BUILDING PRESS, PSIA 74.769 74.880 74.884

78.95 0.0500 BUILDING DEWPDINT TEMP, F 73.79 73.6767 1.676 5 80.93 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110 6 80.56 0.0300 7 81.E3 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 76.39 0.0800 9 79..64 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 79.99 0.0500 INFORMATIONTEMPr2,F 780 9.14 19.r1 11 7P.45 0.0200 INFORMATION TEMP 3, F 78.09 79.02 79.06 12 77.52 -0.0200 INFORMATION TEMP 4yF 78.28 79 Z8 79.32 13 79.58 0.0100 14 d0.27 0.020 0 URMETEK ZY.Ulb 8.9W4 Z8.984 15 78.90 0.0200 KNOWN LEAK 0.0000 16 80.56 0.0100 17 80.26 0.0500 18 80.75 0.0900 19 80.90 0.1100 20 80.66 - 0.0100 21 79.69 0.0100 22 80.53 - 0.090u 23 80.97 0.1100 24 81.76 0.0700 25 0.00 26 70.12 27 79.06 2d. 7q.3 PRESSLRE-TEXAS VCLUME FRACTION 1 74.884 1.0000 2 10.0uo 0.0000 .

1 2P .984 DE0POINT TEMPS VOLUME FRACTION 1 74.000 0.4000 2 74.000 0.6000 DIFFEPENTIAL PRESS 1 0.000 DIFFE9ENTIAL TEMP 1 0.000 Figurc4-106

DUKE POWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST

___07/04/73 59.00 PSIG VERIFICATION TEST

- DATA SET 28 RTD/OIGIT TEMPS VOLUME FRACTION INITIAVL PREV.POINV PRE5YNT 1 77.63 0.0300 2 79.43 0.0200 ULDTINGTEMPF -- 19.1 1 9.921 19945 3 bO.94 0.u200 BUILDING PRESS, PSIA 74.769 74.884 74.888 4 7V.93 0.0500 BOJLDINGTEMPT1NTTEMP, F 73.91 3.676 13.76 5 80.96 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110 6 80.60 0.0300 7 e.1.89 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 6 76.42 0.0800.

9 79.67 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 Iu b0. 0 0.0 500 IKFORMAll I0FTESP 2 F B. 109.12 19.11 11 78.47 0.0200 . INFORMATION TEMP 3, F 78.09 79.06 79.08 12 77.54 0.0200 INFORMATTONTEKP 4,-77 18B 79.37 79.36 13 79.56 O..0100 14 80.?1 0.0200 BARMETER 29.018 8.984 2.984 15 7P.91 J.02J0 KNOWN LEAK 0.0000 16 60.59 0.0100 17 80.29 0.0500 1r 60.70 0.0900 19 60.92 0.1100 2 60d).6 7 - 0 . 010 0~

21 79.71 0.0100 22 .'4 -*0.3900 23 b1 .00 0.1100 8

24 bl. 0 0.0700 25 0.00 S 26 79.11 27 79.%

2o 79.36 PRESSURE-TEXAS VOLUME FRP CTION 1 74.888 1.0000 2 0.000 0.0000 3A RU!iFTFR 1 29.984 DE POINT TEMPS VOLUME FRACTION 1 74.000 0.4000 2 74.000 0.6000 DIFFERENTIAL PRESS 1 0 .0 0 0 DIFFERENTIAL TEMP 1 0.000 Fe re 4-107

DUKE POUWER COMPANY DCONEE NUCLEAR STATION' INTEGRATED LEAK RATe TEST 07/04/73 59.00 PSIG VErIFICATION TEST DATA REPORT DATA SET 29 RT0/DIGIT TEMPS VOLUME FRACTION- ----- INITIAL PREV. POINT PRESENT 1 77.67 __ ___0.0300 2 79.48 0.0200 BUILDING TEMP, F 9.-111 79.943 79.978 3 80.98 0.0200 BUILDING PRESS, PSIA 74.769 74.888 74.891 4 78.97 0.0500 BUILDING DEWPOINT TEMP, F 7.797 73.676 73.676 5 80.98 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110

'6 80.60 0.0300 7 81.89 0.0100 REF. VESSEL_01FF PRESS PSI 0. 0.0000 0.0000.

8 76.44 0.000 9 79.70 0.0500 -INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80.07 0.0500 IORMATION-TEMP 2, F 78.09 79.11 79C25 11 78.49 0.0200 INFORMATION TEMP 3, F 78.09 79.08 79.11 12 77.56 0.0200 INFORMATION TEM 4, F 88 36 79.38 13 79.59 0.0100 14 80.33 0.0200 B 15 78.95 0.0200 KNOWN LEAK 0.0000 16 80.60 0.0100 17 80.30 0.0500 18 80.78 0.0900 19 80.95 0.1100 20 80.73 0.0100 21 79.73 0.0100 22-807.56 U.OMy~ INOMTO TEM 2R F 780 791 79.2 23 81.04 0.1100 INURATONTMP4,F 8.87936793 24 81.81 0.0700 25 0.00 26 79.25 ----

27 79.11 P ESS tRE-TEXAS *__ WOLU E-FR ACTION 1 74.891 1.0000 2 0F 00 000 T 1.000 0.

B1 228.984R DEWPO NT TEXPS VOLUME FRACTION 1 74.000 .4000 2 .74.000 0.6000 DIFERENT IAL PR.ESS 1 0.980 DIFFERENTIAL P

'1 0.000 Figure 4-108

.---- UKE PUWER CDMPANY UCO EE NUCLEAR STATION - .. ....

INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VE1IFICATION TEST DATA REPORT -- -- - - - ---

DAT rTET So -_

RTD/DIGIT TEMPS- VOLUMEFRACTON --

1 77.73 0.0300 2 79.51 0 00200 UILOIN( TEP F 7 9.97 8 80.003 3 61.02 0.0200 OUTLCING PRES, PSIA 74769 74.891 74.895 4 78.96 0.050cY BlLDING 5 81.01 0.0200 FUILDING VAPOR PRESS, PSIA 9.4127 0.110 0.110 6 80.60.0.0300 7 61.93 0.0100 REF. VESSEL DIFF PRESS, PSI 8 76.47 0.0000 0 0.0000 9 79.74 0.0500 INFORMATION TEMP 1, F 1G 8.10. .50 0.00 0 11 7q.52 0.0200 INFORMATION TEMP 3, F 78.09 79.11 79.15 12 77.61- - - - --200 INFORMAT1J7EMP-4-9--F 8 28 79 38 79.-44 13 79.70 0.010 14 60.35 0.0200 BAROMETER--28 15 79.01 0.0200 KNOWN LEAK 0.0000 80E .6F VL .0 100 17 - -

3 -. 33 0.0500 1

03.090 0 d . .1000 BUIL.NGTEM,9.98 80 91 91 .00-------3 19 80.98 ( 10 20 dO.73 - 0.0100 21 79.76 0.0100 22 57 90 0 F.. D.0 24 81 .p 1 0 .0700 21 25 791 . .76-27 79.1 PRESS(;kE-TEXAS.......VOLUME FRACTION -

I 74.e95 1.0000 I 0.0100 3A;Z!ThETFR 1 2 " 984 OEiiPC INT TEV PS VOLUME FRACTION 1 74.0U0 0.4000 2 74.000 0.6100 DIFFERE'%TIAL PRESS 1 c0.0.0 0JFFE;ENTIAL TEMP --- - - - - ---- __

2- . 44 - ------- -

PS S R RE T X A.VL U E F R C T O

DUKE PUWER CD'PANY OCONEE NUCLEAR STATION' INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VElIFICATION TEST DATA REPORT DATA SET 31- _ __________________________________ _____

RTD/DIGIT TEMiPS - VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 77.71 0.0300 _ -__

2 79.54 0.0200 BUILDING TEMP, F79.111 80.003 80.029 3 81.05 0.0200 BUILDING PRESS, PSIA 74.769 74.895 74.899 4 79o2 0.0500 BUILDING DEWPOINT TEMP, F 73.797 73.676 73.676.

5 81.02 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110 6 80.68 0.0300 7 82.02 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 76.49 0.0800 9 79.77 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80.10 0.0500 INIFORMATJfTEP 2, F 18.079 9.25 9.32Z 11 78.55 0.0200 INFORMATION TEMP 3, F 78.09 79.15 79.17 12 77.63 0.0200 INFORMATIUN-TEMP-4 F- 18-.28 -79.44 79.47 13 79.73 . 0.0100 14 -- -U U. .U2UU

.0U AkUMMETER 9Y.U B 8.984=- .84 15 79.04 0.0200 KNOWN LEAK 0.0000 16 80-.64 U 01U U 17 80.36 0.0500 18 8.85 3 U0900 19 81.01 0.1100 20 -- -- 80.76 - U .0100 21 79.79 0.0100 22- 8 0-62 ~ ~ . 9 0 23 81.07 0.1100 24 - 8.9~.70 25 0.00 26- 79 .??- - -- __ __ _ _ _ _ __ __ _ _ __ _ _ __ _ __ _ -----

27 79.17 28 79.47 PRESSURE-TEXAS VOLUME FRACTION 1 74.899 1.0000 2 0.000 0.0000

___- E-WR0ETER 1 28.984 DEWPOINT TEMPS VOLUME FRACTION 1 74.000 0.6000 2 74.000 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.000

________ _______ Figure 4-110

DUKE PUHER CDMPANY DCONEE NUCLEAR S TATIO -

INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VEA IFICATION TEST UATA REPORT -

!ATA SFT 32-- ---- - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

RTP/DIG TEMPS V0LUME F CTIN 1 77.72 INITIAL PREV. POINT PRESENT-0.0 __

2 79.59 0.0200 BUILDING TEMP, F 79.111 80.029 80.059 3 61.08 0.0200 BUILDING PRESS, PSIA 9.08 74.769 74.899 74.902 0.050U BUILDING DEWPOINT TEMPpF 73.797 5 81.0 -73.676 73.676 0.0200 BLDING VAPOR PRESS, PSIA 0.4127

'674O. 4. .. . .0.0300.- ---- - . .

0.4110 0.4110 7 82.04 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 76.51.. 0.0800 9 79.00 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 t!. 14- 0 .0500 INFOATIOTEMP F01.32 11 79.55 79 0.0200 INFORMATION TEMP 3, F 78.09 12 77.67 79.17 79.23 0.0200 - - INFRMAT T8.2 7947. 79 . 50 ------------

13 79.75 0.0100 14 80.40 0.0200HAR'GMETER -29 018 28-.98 4- 28.984 15 79.06 0.0200 KNON LEAK 1 0.;000 0 .65 0.0100 17 60.38 0.6500 Id 80.88 0.0900 -

19 81.03 0.1100 20 60o..00.0100 -- -

21 79.81 0.0100 22- -- 600.65 0.0900G 23 81.11 0.1100 24 81.82 0.0700 ---

25 0.00 26 79.27 27 .79.20 2d79.50 PPE55L'E-TEXA5 TVOLUMF FRACTION 1 74.902 1.0000 2 0.000 0.0000 BARONhETER.

1 2q.984 DFWPO.INT TEMPS VOLUME FRACTION 1 74.000 0.4000 2 -74.000 0.6000 DIFFERENTIAL PRESS 1 0.000 - - --- -

DIFFERENTIAL TEMP - -_

I 0.000

Figu 4-111

DUKE PUWER COMPANY OCGNEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VERIFICATION TEST DATA REPORT -- -

UTAf TFT'33 RTD/nIGIT TEMPS VULUME FRACTII 1 77.77 0.0300 2 79.60 0.0200 BULDINGtNM V 7T9E. 0P.05 80.084 3 81.11 0.0200 BUILDING PRESS, PSIA 74.769 74.902 74.906 4 79.08 0.0500 BUILDINGb EWPOINT TEMP, FT1-T37 .676 73.676 5 81.06 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 6 80.78 0.4110 0.0100 82.10 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 6 76.54

_.0800 9 79.64 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00

___-10 - C17- 0-.050c, INFOR14ATT01TEMP2T (87U97g 27 7~-

--- 4 0 11 78.63 0.D200 INFORMATION TEMP 3, F 78.09 79.20 79.24 1 2 7 7 . 7 3 - .RK8.

13 79.78 .0100 14 80.41 .0200 BAR0METER

__15 79.10 0.0200 KN0A LEAK 0.0000 79.11 800598008 17 80.40 0.0500 18 8.91.000INFOR--TIDN-TEM-,

19 81.05 0.1100 20 80.72 - -- 0.0100 21 79.R5 0.0100 28 80.67 0.0900 23 81.13 0.1100 24 81.82 0.0700 25 P.00 26 79.40 27 79.24 op ES SLRE- TExAS ------ VLOLUME -FRACT0W-- --

74.906 1.0.0 74761 6 2.4

00. 1 0..00011 a AROMFTER 1 2?.984

-DEWPOJNT TPS __ VOLUME FRACTIO IN 074.0000.00000 2 74.000 0.6000 DIFFEREPTIAL PRESS W--TFFEP ENT IAL T-EMP- -

0.C0.00 BAREEFigure .4-12

- OUKE PUWER CD'PANY OCGNEE NUCLEA;R STATIO-N INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VERIFICATION TEST DATA REPORT -----

DATA SET 34 RTD/DIGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 77.F1 0.0300 2 79.63 0.0200 BUILDING TEMP, F 79.111 80.084-- 80.108 3 81.13 0.0200 BUILDING PRESS, PSIA 74.769 74.906 74.909 4 79.17 0.J500 RUILDING-UEWPOINT TEMP, F 73.797 17.676 73.676 5 31.10 0.0200 BUILDING VAPOR PRESS, PSTA 0.4127 0.4110 0.4110 6 8f0.77 0 .0300 7 d2.C7 0.0lOC REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 0

b 76.56 0.L) 800 9 79.!4 0. 0U50l INFORMATION TEMP 1, F 0.00 0.00 0.00 10 a.n1 0.0500 INFURKATION TEMP 2, F 78.09 79 40 79.40 11 70.64 0.0200 INFDRMATION TEMP 3, F 78.09 79.24 79.25 12 77.74 0.0200 INFDRMATION TEMP 4, F 78.28 79.55 79.55 13 79.72 0.0100 14 80. 43 0.u200 BARUMETER 29.018 28.984 28.984 15 79.13 0.2200 KNDWN LEAK 0.0000 I0 oC. 7 0.0100 ---

17 d0.43 0.sC00 1 dc0 .93 0.900 15 bl.8 I 0.1100 23 6 .R2 0.3100 21 7 .C7 0.0100 22 60 .70 0 .0 90 0 23 81.If 0.1100 24 1 .q1 0.0700 .

2 7 ) .0 ------ -

2c 79 27 79.25 2o 79.55 PlESS 'kF-TEXAS VOLUME FRACTION 1 74.9u9 1.0000 2 .. 0.0000

-RAkCHETER .

1 2F.984 DEWPIT TEMPS VOLUME FRACTION 1 74.00 0.4300 -----

2 74.001 0.6000 0IFFEPEMTIAL PRESS 1 .000 DIFFERENTIAL TEMP 1 0.000 1 4 3

.- .. . ~. Figure. -11 - - .

0

OUKE PUNER CO'PANY UCGNEE NUCLEAR STATION INTEGRATED LEAK RATE TEST

- 07/04/73 59.00 PSIG VERIFICATION TEST.

DATA REPORT DATA SFT 35 RTD/DIGIT TEYPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 77.90 0.0300 2 79.66 0.0200 BUILDING TEiP, F 79.111 80.108 80.136 3 61.17 0.0200 BUILDING PRESS, PSIA 74.769 74.909 74.913 4 79.23 0.0500 BUILDING DEWPJINT TEMP, F 73.797 73.676 73.676 5 81.11 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110 6 .?0 0 .0300 7 b2.16 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 76.58 0.0800 9 79.f9 0 .0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 IT-- 80.23 0.C500 ATT0TEMP 2, 1 &uR0 780919.40 - 79.4Z0 11 78.66 0.0200 INFURMATION TEMP 3, F 78.09 79.25 79.27 7

12- 77 . o - 0.020( INFORRVATION TEMP , T18.28 7955-79.59 13 79.74 0.0100 14 - 80.46 0.0200 bAMEET lbk29.018 E AdB.94 - 28.984 15 79.16 0.0200 KNOWN LEAK 0.0000

~15- 0 . 74 0-.0100o 17 o0.4 0.0500 1 80.96 0.0900 19 01.11 0 .1100 20 80.88 U.010 21 79. 0.0100 22 bO0.71 0.0900 23 81.19 0.1100 24 81. 1 0.0 700 25 .0 26 79.40 27 79.27 2a . 19.s9 PFESSLRE-TEXAS VOLUME FRACTION 1 74.913 1.0000 2 0.000 0.000 BAR[EFTER.

1 2O.984 _ _ _ _

DEWPLItT TEMPS VOLUME FRACTION 1 74.000 0.4000 2 74.000 0.6000 UIFFErENTIAL PRESS 1 - (.000 DIFFERENT IAL TEMP 1 0.000 Figure 4-114

DUKE PLWER COMPANY DCGNEE -NJCLEAR STATION INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VElIFICATION TEST DATA REPORT DATA SET 36 PTr/DIGIT TEMPS VOLUME FRACTION INITIAL PREy. POINT- PRESEN- -

1 77.89 .1300 2 70.71 U.0200 BUILDING TEMP F 3 01.19 C.0230 BUILDING PRESS, PSIA 74.769 74.913 74.916 4 79.33 - 500 PUILDING DE,03INT TEMPvF 77976 76 73-7 5 61.14 0.0200 BUILDING VAPOR PRESS, P51A 0.4127 U.4110 0.4110

- e f.1 .300 7 82.14, 0 10VL) REF. VEAEL CIFF PRESS, PSI 0.00I 0.0000 0.0000 S 7 6 .6u 0.0800 79.91 __ 0.0500 IFRMATI N TE P 1, F111 80.00 80.059 1 0. 5 0 .1)5u0 liI'F1RATIJN TEMP 2, F ~ 8094 94 11 7P.7 1 0.200 INFORMATI N TEMP 3, F 78.09 79.27 79.30 12 77.77 0.020 IrFLRIAT PN TEMP 4, F 78.28 79.59 79. 62 13 79 .53 dUloo 14 60.L9 0 .U200 BA:UMETER V PS0127 01 -- 0.9 15 79.18 0.0200 KNFN LEAK DF 0.0000 1b 7C.77 0.0100 17 r) .4 6 0 u500 1 79.91 0.0900 IFRAINEP1F0. 0.00_0.0 19 d0.25 0.00 I 21 78.9 0.0100 INFORMATI-N-TEMP-3--F-78.09 79.27 79.30 21 79.91 0.0100 2 c0.74 U.0900 23 bl.19 0.1100 24 bl .P3 0.0700 ........

25 3.00 2b 79.49 27 79.3u 2 79.62 P ESSURE-TEXAS VPLUME FRACTION 1 74.916 1.0000 2 ,.Ouo 0.0000

-AR,.ETER ,

1 2'.964 OFWPUINT TEMPS VOLUME FRACTION 1 74.000 0.4000 2 .74.000 0.6000 UIFFE RENTIAL PRESS 1 0.0100

.flFFEPENTIAL TEMP 1 0.0410

- - --- -Figure 4-115

DUKE PUWER CDPANY OCuNEE NUCLEAR STATIOD INTECGATED LEAK RATL TEST 07/04/73 59.00 PSG VER IFICATION TEST DATA REPORT DATA SET 7 - -

RT ./D)IGIT TEMPS VGLUME FRACTI ON- 1NIT1L IN PREV. POINT PRESNT 1 77.96 0.U300 2 79.74 0.0200 BUILDING TEMP, F 3 6l.23 9.11 80.159 80.188 0.0200 BUILDING PRESS, PSIA 74.769 74.916 74.919 4 79.31 0.0500 BUILDING DEFWPOINT TEMPT F 73.797 T.736767.676 5 o1.16 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110 6 80.81 0.300a 7 62.21 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 76.f2 0.0800.

9 79.94 0.0500 IiF0RMATION TEMP 1, F 0.00 0.00 0.00

10. O.? o~sooINFORATIN TEM , F 78.09 19.49 793 11 11 7F.75 0.0200.3 0.0200 77 INFORMATION TEMP 3, F 78.09 79.30 79.34 12 .Au 0.200 --- INFORMATION TEMP 4F- 78.28 79.62 79.5T 13 79.9i 0.0100 14 80. 0 0.0200 BAROMETE 29.01. 28984 Z8.986 15 79.21 0.0200 KNON LEAK 0.0000 lb 0.0100 17 e0.48 0.0500 13 81.01 0.0900 --

19 81.18 0.1100 P0 80.95 - 0.0100 21 79.94 0.0100 22 80.76 0.0900 23 81.23 0.1100 4 81.P4 0.0700-25 0.0 26 79.51 27 79.34 2 - 79.67 PrES5 'RE-TEXAS Vi1LUME FRACTION 1 74.919 1.0000 2 ' 0.000 0.0000 ARqM ET ER 1 20.966 DFWPLINT TEMPS VrLUMF FRACTION 1 74.000- - -0.4000 2 74.C0 0.6000 uIFFERENTIAL PRESS DIFFErENTIAL TEMP

....-. ,Figure 4-116

OUKE POWER C:tMPANY OC61NEE NUCLEAR STATION INTEGRATED) LEAK RATE TEST

. . 07/(4/73 59.00 PSIG VEAIFICATION TEST

... . ..... DATA REPORT VATA SET 38 RTC/DCIT TEMPS V0LUmE FRACTION -- - ITAL PREV P01N - PRESENT 1 77.99 0.0300 79.76 U.0200 BUILDIMG TEAP, F 79.111 80.188 FO.206 3 13 -?6' O. 02j' ___BUILDING PRESS, PSIA 74.769 74.919 74.922 ___________

4 79.35 , .05D0 BUILDING DEWPjINTTEMPF 73.797 73.676 73.67b 5 31.18 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110 6 br.9u 0.030 7 d2.21 00100 REF. VESSEL 01FF PRESS, PSI 0.0000 (.0030 0.0000 6 7 0.0800 9 79.7 0.0500 INF7R.ATI97N TEMP 1 F 0.0 _ 0.00 0.00 10 ..1 0.0500 .i?1 TP 2, F 11 73.76. . . .U20 r _ _ FORMATION TEMP 3, F _ 8.09 79.34 79.34 12 77.79 0200 INFURMATION TEMP 4p- F 79.2U 79.67 79.69 13 79.P3 14 uO.53 0.0200 BAROMETER 2-9-.0 18- 288 28 .98 15 79.24 0 .0200) KNOWN LEAK 0.0000 1 . 80.52 0100 17 bl. 2 0.0500 0.50 INOMTO TE 1. F0.00.000 16 1 .03 G .0 90~ _.____________ _ ___

19 81.16 0.1100 2 80.95 100APORPRESSPSIA BU ILD.I0 0.4127 .4110 0.4110 21 79.95 0.0100

__-22-- ZO '76- U .09ou 23 61.24 0.1100 S0.0800 26 705 I.53FR I T 2F8 27 79IM4P 2.200 - T ,72.9 PPESSLRE-TEXAS -- VCLUilF FRACTION~ _ ____

1 74.922 1.0000 2 ".COO -. 0.0000

1. 2P.98 6 F0P.I0NT T2MPS VOLUME FRACTIARMTR2.82.

1 74.00 0.40.000 226 74.0009.5 0.6000 DIFFEPENTIAL PRESS 1 0.000 IFFERENTIAL TEMP ---- - _______________________

3 10.000 2____.85e40./U

-~~ -...-..-..... OU~KE Pbu ER A*NY________

OCONEE NUCLEAR STATID_

INTEGRATED LEAK RATL TEST

-- - - -- - _ _ ~07/04/73 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

59.00 PSIG VERIFICATION TEST DATA REPORT

-5 5ET 19 - ----------.- __ _ _ __ _ _ __ _ _ _ __ _ _ __ _ _ __ _ _ _ __ _ _ __ _ _

RTP/DIGIT TEMP S-- -VOLUME FRACTI ON P 1 77.98 0.0300 2 79.82 0.0200 BUILDING TEMD, F79 1 8- .226- -80.241 3 81.30 0.0200 BUILDING PRESS, PSIA 74069 74.922 74.927 4 79.42 0.00500 BUILDING DEWPOINT TEMP, F 73797 737676 -3.6 5 81.21 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110

-6 80.89 0.0300___

7 82.28 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 76.68 0 .0 00 9 80.02 0.0500 INFORMATION TEMP 1, F 0.00 0.00 10 80.34 0.0500 INFORmATION TEMP 2, F 78.09 7 .53 -7 96 11 78.Au 0.0200 INFORMATION TEMP 3, F 78.09 79.34 79.40 12- 77.el 0.0200 INFDRMATIJN TEMP4F 7 13 79.93 . 0.0100 14- 80.56 0.0200 BARDMETER-- -98 15 79. 2t 0.0200 KNOWN LEAK 0.0000 1 80.30.3 100 17 80.54 0.0500 16 81.06 0.0900--__ __

19 81.20 0.1100 .

20 80.99 0.0100 21 79.99 8.0100 2277.6 07.49.0 7..923 23 0.1100 01.?7 0 .007U0. 0 0810.08 25 0.00 26 79.5619.5319.bb 27 7979.40.3479.40 791. 179 PPES UR FT EX A2S V FR2A8CT.I 2L8U.8E 1 74.927 1.0000 2 0.0000 00u

- Ak4:ETEWR .

1 2.996 DEWPUINT TEMPS VULUME FRACTION 1 74.83 0 0.4000 2 74.000 0.6000 D IFFE RENT IAL PRESS I 1 .A8 0 -

TEM-- -FFEPENTiAL 1 .000 I......996.

UUKE PULWER CJPANY UCGIkEE NJCLEAR STATID-INTEGRATE) LEAK RATL TEST 07/04/73 59.00 PSIG VEiIFICATION TEST DATA REPORT DATA SET LO RT0/DIGIT TEMPS VOLUME FRACTION - -_ INITIAL PREV. POINT PRESENT 1 7?.01 0.0300 2 79.82 0.0200 BUILDING TEMP, F 79.111 80.241 80.250 3 81.31.0.0200 BUILDING PRESS, PSIA 74.769 74.927 74.930 4 79.33 0 .0500 BUILDING DEWPUINT TEMP, F 73.797 73.676o '73.676 5 bl.21 0.0200 BUILDING VAPOR PRESS, PSIA 0.4127 0.4110 0.4110

.6 80.90 0.0300 7 62.22 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 6 76.70 0.08U0 9 80.02 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 16 t..7 0.0500 INFORAATION TEMP 2,F 78.09 79.56 79.56 11 7F. P 0.0200 IiFORMATI]N TEMP 3, F 78.09 79.40 79.44 12 77.C6 0.0200 INFORMATION TEMP 4, F 78.28 79.71 79.75 13 79.91 0.0100 14 s0.6b 0.0200 BARJMETER 29.018 28.996 28.996 15 70.31 0.0200 KNOWN LEAK 0.0000 1U b0.rb 0.0100 17 30.57 U.U500 1 o61.07 0.0900 19 cl.23 0.1160 0

20 bl. 2 U.0100 0

21 d 0. 2 0.0100 22 j-.P4 0.0900 23 61.27 0.1100 74 L.9 0.0700 25 C.0 0 26 79.5b 27 79.44 27 19.75 ....

PPESSURE-TEXAS VOLUME FRACTION 1 74.9 3 r) 1.0000 2 0 .000 0.0000 BARL:FTER ,

1 2F.996 DEwPOIvT TEMPS VOLUME FRACTION 1 74.000 0.4C00 2 .74.000 0.6000 UIFFEFENTIAL PRESS 1 n,000 UIFFERENTIAL TEMP 1 0.000 Figure 4-119

DUKE POWER CONY

OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/04/73 59.00 PSIG VERIFICATION_ TEST DATA.REP3RT DATA SPT 41 RT/DIGIT TEMPS VOLUME FRACTION - -- INITIAL PREV. POINT PRESENT 1 78.03 0.0300 2 79.86 U .0200C BUILDING TEP, f 711l1 80.250 80.274 3 81.36 0.0200 BUILDING PRESS, PSIA 74.769 74.930 74.932 4 79.36 0.0500 BUILDING DEWPOINT TEMiF, F71.797 13.67 673.676 5 81.21 0.0200 BUILDING VAP0R PRESS, PSIA 0.4127 0.4110 0.4110 6 - 60.97 0.0300 7 82.31 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 b 76.72 0.0800 9 .0.C3 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00

-- 10 80.39 0.0500 INFaRMATIlFTEM2,F 78.09 19.ST 9.62 11 78.93 0.0200 INFJRMATION TEMP 3, F 78.09 79.44 79.47 12 77.90 0.0200 INFORMATIDN TEMP 4, F -78.28 79.75 79.7T 13 79.97 0.0100 14 80.61 0.0200 BARUMETER- 9.Ulb 28996 28.96 15 79.32 0.0200 KNOWN LEAK 0.0000 lb c0.e8 0.01 00 17 8.59 0.0500 1s 81.10 0.0900_ __

19 81.24 0.1100 2L al.05 0.0100---

21 80.04 0.0100 22 60.35 G.0900 23 81.31 0.1100 24 e1 .89 0 .070 0___

25 0.00 26 79.62 - .

27 79.47 2c 19.11 PPESSURE-TEXAS Vf'.LUNFEFRACTION 1 74.932 1.0000 2 0.000 0.0000

-bAkMhFR 1 2.996 DEWPOINT TEMPS VOLUME FRACTION 1 74.000 0.4000 2 74.000 0.6000 DIFFEPENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP Figure 4-120

DUKE POWER COdPANY OCONEE NJCLEAR STATION INTEGRATED LEAKRATE TEST 07/05/73 59.0 PSIG VERIFICATION TEST TREND REPORT ( POINT TO POINT CALCU / ABS )

DATA SET TIME PRESSURE TEMPERATURE ABS LR ABS LP 95 5 CONFIDENCE LIMITS (PSIA) (F) MEASURED CALCULATED

%/0AY %/DAY LOWER UPPER 2 10:45A 74.9660 80.6081 0.39262

0.00000 0.00000 3 lr:GOA 74.9660 80.6207 0*22398 0.22398 4 11:15A 74.9680 80.6417 0.11556 0.10553 0.00377 0.22735 5 11:30A 74.9690 80.6633 0.25504 0.16863 -0.15754 0.66762 6 11:45A 74.9720 80.6915 0.11490 0.11554 -0.11966 0.34946 7 12 :00P 74.9720 30.7048 0.23624 0.15380 0.00266 0.46982 a 12:15P 74.9750 80.7264 -0.00254 0.06637 -0.21314 0.20805 9 12:30P 74.9760 80.7462 0.22305 0..10745 -0.00825 0.45435 10 12:45P 74.9770 80.7730 0.34743 0.18257 0.07438 0.62049 11 1:00P 74.9790 30.7893 0.03200 0.12577 -0.22963 0.29369 12 1:15P 74.9800 80.8108 0.25320 0.15601 0.00121 0.50519 13 1:30P 74.9800 80.8353 0.43343 0.23172 0.14670 0.72017.

14 1:45P 74.9820 80.8503 0.01952 0.17513 -0.27404 0.31308 15 2:00P 74.9820 80.8680 0.30375 0.20470 0.01913 0.58836 16 2:15P 74.9830 80.8953 0.35619 0.24063 0.07800 0.63439 17 2 :30P 74.9840 80.9030 0.00802 0.18985 -0.28207 0.29811 18 2 :45P 74.9860 80.9359 0.32684 0.21760 0.04240 0.61128 19 3:00P 74.9880 80.9465 -0.06920 0.15925 -0.37269 0.23428 20 3:15P 74.9900 80.9739 0.22914 0.16915 -0.06380 0.52207 Figure4-121

S~ _________DUKE POWER COMPANY ___

OCONEE NUCLEAR S TAT ION -____ _ ..

INTEGRATED LEAKRATE TEST 07/05/73 59.0 PSIG VERIFICATION TEST TREND REPORT ( FROM INIT CALCU / ABS DATA SET TIME PRESSURE TEMPERATURE ABS LR ABS LR 95 % CONFIDENCE LIMITS TPS [Al ( MEASURED CALCULATED.

_ __/DAY %/DAY LOWER UPPER 2 10:45A 74.9660 80.6081 0.39262

0.00000 0.00000 3 11:00A 74.9660 80.6207 0.3083U 0.30830 a 4 11:15A 74.9680 80.6417 0.24405 0.2407o 0.24405 0.24405 5 11:30A 74.9690 80.6633 0.24679 0.22268 0.14256 0.35103 6 11:45A 74.9720 80.6915 0.22041 0.20125 0.13749 0.30334 7 12:00P 74.9720 80.7048 0.2?305 0.19334 0.14918 0.29691 8 12:15P 74.9750 80.7264 0.19082 0.17520 0.12188 0.25975 9 12:30P 74.9760 80.7462 0.19484 0.16673 0.12898 0.26070 10 12:45P 74.9770 . 80.7730 0.21179 0.16848 0.13815 0.28543 11 1:00P 74.9790 80.7893 0.19381 0.16421 0.12192 0.26571 12 1:15P 74.9800 80.8108 0.19921 0.16346 0.12863 0.26978 13 1:30P 74.9800 80.8353 0.21872 0.16914 0.14097 0.29646 14 1:45P 74.9820 80.8508 0.20339 0.16960 0.12657 0.28021 15 2:OOP 74.9820 80.8680 0.21056 0.17210 0.13449 0.28662 16 2:15P 74.9830 80.8953 0.22026 0.17667 0.14483 0.29569 17 2:30P 74.9840 80.9030 0.20699 0.17749 0.13210 .0.28189 18 2:45P 74.9860 80.9359 0.21404 0.17984 0.13960 0.28847 19 3:O0P 74.9880 80.9465 0.19830 0.17869 0.12427 0.27234 20 3:15P 74.9900 80.9739 0.19992 0.17819 0.12623 0.27361 Figure 4-122

59 PSIG VERIFICATION TREND REPORT UNIT #2

..4.-~..

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i... il.. I .......

7: La- .::- : 11. ...... i -

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5T3-:7 71

.33 . .......... ... .

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7 HEi LtLt-t.PU

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_. ____ ___.25:4wt. /ayI.

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I............. ..... ..... .... ..

A: . ... ..... . - ..

.... .... N..O ED2AKGE F. _ _

0 ........

2- 3 4 5 -0 TIME (HOURS AFTER START OF TEST)

OR Figure 4-123

___ ~ ~GCOMEE DUKEPOWER CG!'PANY NUCLEAR STAT1UN INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT OATA SET I RT:/DIGIT TEMPS VOLUME FRACTIC - INTP POINT PRESET 1 78.45 0.0300 2 . 80.24 0.0200 BUILOINS TEAP, F 000000 3 81.71 J .0200 __ ILDING PRESS, PSIA 74.966 0:000 0.000 4 79.P7 0.0500 BUILDING DEWPINTTEMPF J .00 5 a1.54 0.J200 BUILDING VAPOR PRESS, PSIA 0.4110 0.0000 0.0000 6 dl.27 0.03D0 7 82.57 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000 6 77.C7 0.0p00 9 .6.1 __ 050 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80.73 0.0500 INFORMATIDN TEMP 2, F 0.00 0.00 0.00 11 70.27 0.0200 INFORMATION TEMP 3, F 0.00 0.00-0.00 12 78.29 0.0206 . INFORKAT10NTEMP4,F 0.00 0.00 0.00 13 80.30 0 14 8C.93 U.u200 BAROMETER 28996 0o00a 00 15 79.71 -U .0200 KNOWN LEAK 8.250D 16 81.16 D.0100 17 80.09 0.G500 1e 81.38 0.0900 19 31.49 0.1100 20 81.39 0.0100 21 _ 22

_80.36 10

_ ___ __ .10________________________________

0.0900 23 dl.56 0.1100 BID TPF .80.0.0 24 62.n3 0.0200 2* 0.C0u 27 0.8u PRESSURE-TEXAS FRACTTEMP INVFLUME 1 74 .966 10.0000 2 .000 0000.0 . 0 1 2 1 996 bOE.POlihT TEMP S VOLUME FRACTION ___ _____________________

1 74.%0.000.00.

2 74.000 0.6000 UIFFEPENTIALPRESS 1 00100 DIFFERE4TTAV--TEMP-- --

1 0.0000 Figure 4-124

DUKE POWER COMPANY OCONEE NUCLEAR STATION INTEGRATED.LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT DATA SET 2 PTW/DICIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 7P.54 0.030f0 2 30.25 0.02J0 BUILDING TEMP, F 80.586 80.586 80.608 3 61.74 0.0200 BUILDING PRESS, PSIA 74.966 74.966 74.966 4 79.96 0.J500 EUILDING )EWPOINT TEMP, F 73.670 .73.676 73.676 5 61.'5 0.0200 BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 b1.3U 0.0300 7 62.57 0.olo0 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 J 77.10 0.3000 9 0 .43 0.0500 INFORMiATION TEMP 1, F 0.00 0.00 0.00 1 B0.75 0.500 INFORMATION TEMP 2, F 000 0.0 0.00 11 79.29 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 7 q.1 0.0200 INFORAATION TEMP 4, F 0.00.0.00 0.00 13 80.28 U.0100 14 50.A7 0 .02300 - BAROMETER-28.996 28.996 ....... 28.996 15 79.74 0.0200 KNOWN LEAK 8.2500 16 81.1 - ).0100 17 80;.91 0.0500 11 81.41 0 .--900---

19 dl .3 0.1100 20 31.41 0.010U U 21 80.39 0.0100 22 81.17 0.09u 23 81.59 v.1100 24 82 .Cf 0.0700 25 0.00 2L 0.0 .

27 0.00 2, 0.00 PrESSURE-TEXAS VOLUME FRACTInlu-._ ____ -____ _ ________

1 74.966 1.0000 2 r0.Co 0.0000 .

1 2 .996 DEiPCINT TEMPS VCLUME FRACTIOi 1 74 .iUO 0.4000 2 74.000 0.6000 DIFFE' E'NTIAL PRESS 1 0.000 DIFFEOENTIAL TEMP 1 0.000 _

Figure 4-125

___ _ DUKE POWER COMP ANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST

______________07/05/73

___ ~59.00 PSIG VERIFICATION TEST __

UATA REPORT DATA SET 3 RT/0IGIT TEMPS VOLUME FRACTION --- INITIAL PREy. POINT PRESE-1 78.55 0.0300 2 80.28 60.02000.60B_

3 81.76 0.0200 BUILDING PRESS, PSIA 74.966 74.966 74.966 4 79 .P4 0.0500 BUILDMNG0EWPOINTTEMP, F 76 T3 3676-73.676 5 81.58 0.0200 BUILDING VAPOa PRESS, PSIA 0.4110 0.4110 0.4110 6 81 .31 0.0300 7 82.61 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0003 0.0000 0.0000 8 77.13 0.0800 9 80.46 0.0500 INFORMATION TENP 1, F 0.00 0.00 0.00 10 80.77 0.0500 NFmATITEMP2, F 000 o.a oa a 11 979.28 0200 INFORMATION TEMP 3, F 0.0. 0200 0.00 12 78.27 0.0200 INF0RMATIDNTEtP4rF 0 0.00- - 0.00 13 80.31 0.0100 INTA REV. DNT PE

- 14 80 .9 0 .0200 BAROMETER-_ 2Z7996 28 96- 296 15 79.75 0.0200 KNOWN LEAK 8.2500 167 81 .21 0.0100 17 80.93 0.0500 l 1 42- U.G-0UU 19 81.54 0.1100 20 _d1 .42 - .0010 0 -- --

21 80.41 0.0100 2 1.1L U.090U 23 81.6U 0.1100 24 82.03 U.U/UU 25 7 0.00 26 0.00 PUEIS'LRE-TEXASD FRACTIO, TVPLUME 8 0.

1 74.966 1.0000 2 0.0000PESPI RE.FV0ESEDF 0.0 .0000 .. 000 BAR OiFT ER 1 2 A.99 6

-IFFO 1 RTINT TEMPS 1F.VOLU00E FRACTIC.

1 74.0R0 0.4MATIJN _MP_2,_.00_0.000.0 2 74.3FC TEP 0.000.0.600D0 0.00 DIFFERENTIAL PRESSTfP- . 0.0TT.00 . .00

_ _D I FFE PENT I AIYTEPP-- _____- .-- ----- -- _

1 0.000

_________________________________Figure 4-126

OUKE POWER CDHPANY DCONEENUCLAR STATION -

INTEGRATED LEAK RATE TEST

. __ 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT SATA SET 4 RT/DIGIT TEMPS VDLUME FRACTION INITIAL POINT-- P-ES -PRV.

1 78.60 U.0300 2 80.33 0.0200 BUILDINGTEMP, F 80.586 80.621 80.642 3 81.79 0.0200 BUILDING PRESS, PSIA 74.966 74.966 74.968 4 79.83 0.0500 BUILDING DEWPOINT TEMP , F 73.676 73.676 73.676 5 81.59 0.0200 PUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 81.29 0 .0300 7 82.62 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 77.16 0.0800 9 dO.47 __ 0.u500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 80.78 0.0500 IFOR A ATION TEMP 2, F 0..00 0.00 11 70.?"3 0.0200 INFORMArION TEMP 3, F 0.00 0.00 0.00 12 7R.34 0.0200 INFORMATION TEMP 4, F 0 0.00 0.00 13 80.37 OUL)0 14 l .00 0.0200 BARUMETER - 28.996 28.99 2896 15 79.77 0.0200 KNOW4N LEAK 8.2500 It 81.23 0.0100 17 80.95 0.0500 1l 81.44 0.0900 19 61.56 0.1100 20 81.43 0.0100 21 8' _.42 0.0100 22 e1.20 0.0900 23 31.62 0.1100 24 82.06 0.0700 25 0.00 26 0.00 27 _ 0.00 22 0.00 PE ESS'.RE-TEXAS - VOLUME FRACTI0 1 74.968 1.0000 2 p.000 0.0000 _____

BARF~iFTER 1 21.996 v[WPD IiT TEMPS VE1 LUNE FRACTION 1 74.000 - - 0.4000 2 74.000 0.6000 DIFFERENTIAL PRESS 1 0.000 -- _____.-.-__ _______________ _ _ _ -- - __ __

DIFFErENTIAL TEMP I 0.000 Fiure .4-127

DUKE POWER COMlPANY

- ~ lC N EE~JULER OCOjNEE UCLEAR STATION ~.---------- - ---

INTEGRATED LEAK RATE TEST 0.7/0 5/73 59.00 PSIG VERIFICATION TEST DATA REPORT DATA SET 5 RT/DIGIT TEMPS VOLUME FRACTION f INITIAL PREV. POINT PRESENT 1 78.63 __0.0300 __ '_______

2 80.3 0.0200 BUILDING 1 TEAP, F 80.586 80.642 80.663 3 81.81 0.0200 BUILDINS PRESS, PSIA 74.966 74.968 74.969 4 79.84 0.0500 BUILDING DFWPOINT TEMP, F 73.676 73.676 73.676 6 0.4110 0.4110 5 61 . 1 0.J200 BUILDING VAPOR PRESS, PSIA 0.4110 6 81.36 0 .0300 7 t2.70 0.0100 o REF. VESSEL 01FF PRESS, PSI 0.000 0..0000 0.000 8 77.19 0.0800 9 8.49 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 602 0.0500IN F 0.00 11 79.36 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 78.37 0.0200 -1NFORAAT10NTEMP4YF 00 13 b0.31 . . 0.0100 14 81.02 0.0200 BWPOMETER 28.996 21.996 2 .96 15 79.79 0.0200 KNOWN LEAK 8.2500 T6-81.25 0.0100 17 60.96 0.0500 S 81 .46 0.0900 19 81.58 0.1100

20. . 11.47 0.010U 21 60.45 0.0100 INFOR0ATIONTEMP 2, F 000 0.50 0.0 I2OMTO

. TEMP 3 0.00 0.0 0.0 22 i1.22 0.0900 0.1100 R E.0 INOMTOTM 4, U.D 0.00k-.

23 61.63 24 82 .0 .0700 25 0.00 27 0.00 FRACT I I. .PRESSVERE-TEXAS DLUmE 1.0DN_ I74.969 TEMP1,F0.000.00 0.00 1 2..996 OFPOIT TEXPS VOLUME FRACTION 1 74.0O 0.40000 2 74.000 0.60000 DIFFERENTIAL PRESS

~1 0.00c DIFFEPENITIAL TEMP 0.000 Figure 4-128

OUKE PUIER COMP ANY OCONEE NUCLEAR STATIoN_

INTLGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST .

DATA REPORT DATA SET 6 RT /D IOIT TE!4PS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 78.70 0.0300 2 80.34 0.0200 BUILDING TEMP, F 80.586& 80.663 80.692 3 01.?4 0.0200 BUILDING PRESS, PSIA 74.966 74.969 74.972 4 C0. &.500 0 BULDINI'.' DTWDINT% T EMP,7 F-7 76 7 3.67 3.7& _76 5 dI.65 0.0200 BUILDING VAPDf. PRESS, PSIA 0.4110 0.4110 0.4110 6 e1.37 0.0300 7 02.70 0.0100 REF. VESSEL DIFF PRESS, PSI 0.ouou 0.0000 0.0000 77.22 0.0800 9 .d 0.53 0.u500 INFORAATION TEMP 1, F 0.00 0.00 0.00 10 0.84 0.0500 INFURATUM 2, F U.00 0.00.

11 79.37 0 .0200 INFORMATION TEMP 3,. F 0.00 0.00 0.00 1e 78.? 0 .0200 liIFORMATION TEMP,4F 0.0Y 0.00o0.00 13 tf0.'.4 0.0100 14 al.Ct 3 .0200 b4KUMEIER 2B.996 8.99 2.E996ER 15 79.3 0.0200 KNOWN LEAK 8.2500 16 01.27 0.010U 17 uO.97 0.0500 l 31.47 0 .J 0 U - .

19 d1.93 0.1100 0 31.40 G.1G10C 21 -0.47 0.0100 22 - 11 .25 23 81.66 0.1100 24 C2i0.070 25 0.00 26 27 20 0.G P ESSU;tRE-TEXAS VCLLE FRACTION4_

1 74.972 1.0000 2 ' .000C 0.0000 -- __ _ _ _ _ _ _ _ _ _ _ _ __ __ _ _ _ _ _ _ _

4 eHP. FMTER I 28.996 OrWPcI:ST TEMPS VOLUME FRACTION 1 74 .000 0.4000_____ ___ _____-________

2 _74.%0 _____ 0.6COO 0 IFFE ENTIAL PRFSS 1 .000 DIFFE ENTIAL TcMP_____

1 .000 Figure 4-129

00LKE POWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST.

DATA REPORT DATA S FT17 PTfn/DIGIT TEMPS .VOLUME FRACTIOW TNITIAL PREV. POINT -PRESENT PRSN --

1 78.67 0 .0300

? b0.37 0.0200 BUILDING.TEMP, F 80.586 80.692 00.705 3 :1P.87 0.0200 BUILDING PRESS, PSIA 74.966 74.972 74.972 4 79.93 0.0500 BU ILDINGDEWPOINTTEMP 5 81.66 0.0200 PUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 61.39 i0.0300 7 d2.69 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 a 17.25 0.0800 9 80.55 0.0500 INFORMATIDN TEMP 1, F 0.00 0.00 0.00 0 0 70.050 INFORMATION TEMP2FF 0.0.

11 79.41 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 72.41 . - . 0.0200 . INFORATI1NTEP4 F0 0oo 0.00 0.

13 80.47 0.0100 14 1.0r6 0.200t BKuMIEE 28.996 28.996 29.000 15 79.83 0.0200 KNOWN LEAK 8.2500 16 81.29 0.010 17 a I1.0j 0.0500 13 81.4V U.0900 19 81.60 0 .1100

?J 1 .50 0.0uo 21 bo.49 0.0100 22 81 .26 U.u900 23 81.67 0.1100 24 2.09 U.070 25 0.00 27 0.00 26 0.ou PPESSURE-TEXAS VOLUME FRACTIEk N . _

1 74.97? 1.0000 2 r) .000 U.UUUU 3ARrmETER 1 20.000 DF P1.JI T TEMPS VOLUME FRACTION 1 74.000 0.400 -

2 74.00C 0.6000 DIFFErENTIAL PRESS UDIcFF ENTIAL TEP Figure 4-130

DUKE POWER CUPPANY CONEE NUCLEAR STATIGN INTEGRATED LEAK RATE TEST 07/05/73 .

59.00 PSIGVERIFICATION TEST __ __ - -----

DATA REPDRT DATA S T 8 RTD/DIGIT TEMPS VOLUME FRACTION NT P OR 1 79.70 0.0300 2 0.b0.02006 -~I~NT E NP, F- --- 868-a.705- -80.726 3 61.118 U.020() RUILD ING PRESS , PS IA 74.966 74.972 74.975 0.0500 F 5 81.63

--. 5 - 1.67 o 0020 0 ______ BUILDING VAPfJA PRESS, PSIA 0.4110 0.4110 0.4110 __________

-6 61.42 - 0.0300 7 32.75 0.0100 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000 8 77.27 0.0800 9 80.59 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10INFORMATION 050000 TEMP 2, F 0.0.

743 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 79.43 0.0200INFORMATION TEMP F 13 - 80 .46 0.0100 0 14 81.10 c.0200 BAROmETER .00 15 79.87 0.0200 KNOWN LEAK 8.2500 16 1.33 -0.0100 17 b1.03 0.0500 16 61 .51 0 .09 00(

19 o1.63 0.1100 20 61.53 -0. 0100 21 80.51 0.0100 23 .30 I7090oI U 24 62.' -.-- 0 070 25 o.0 26 0.00 27 0.00D PITESSIPRE-TEXAYREEVCLUSTFRACTIO 1 74U.975 1P.0000RESSPSIA4.96 7.279 2 .000 - .no0 ____________

1 2 9.060) 3 0PWPUIDNT TEMPS VTLUME FRACTION__P__F73.66 REF.00 VESSEL DFP 2 .74.0T0 0.6000 PRESSNFRAINTEP2__.0_.000 IIFFENENTIAL INOIRFFEMATIT TAL 3TEM,0..

25 0.000 2 0.00

___ ____ ____ ~~~~~~~Figure 4-131-------------- - - - - __

DUKE ROWER CO ANY OCONEE NUCLEAR TATION INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST

......- -- - - _D A TA R E PO R T DATA SFT 9 RTC/DIGIT TEMP S VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 78.69 0.0300 2 80.42 0.0200 BUILDING TEMP, 80.586 80.726 80.746 3 81.91 0.0200 BUILDING PRESS, PSIA 74.966 74.975 74.976 4 79.94 0.0500 BUILDING DEWPOINT TEMP, F 73.676 73.676 73.676 5 6I.7u 0.0200 BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 81.43 0.0300 7 82.76 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 77.29 c.0of 9 80._60 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 la 80.92 0 .0500 INFORAATION TEPF, _F 0.0 0 000 0..0-11 79.49 0.0200 INFORMATIJN TEMP 3, F 0.00 0.00 0.00 12 78.44 0 .0200 INFORMATION TEMP 4, F - T OU .

000 13 30.49 0.0100 14 31.10 0.0200 BAR'OYETER-28.996 29.000 29.000 15 79.c), 0.020C KNOWN LEAK 8.2500 16 61.33 G.0 100-17 61.06 0.u500 18 61.'3 0 .0900 19 d1.65 0.1100 20 dl.55 3.0100 21 860.53 u.U100 22 bl. 11. 0.0900 23 61.71 0.1100

?4 62.10 0.0700 25 0.00 27 0.00 P! ESSE'RE-TEXAS VDLUMF FRACTION 1 74.976 1.0000 2 .000 0.0000 bARrDEiE.k 1 20.000 DFWPOINT TEMPS VOLUNE FRACTION 1 74.000 - 0.4000 2 -74.000 0.6000_

DIFFEREPTIAL PRESS DIFFE ENTIAL T.MP 3..030 Figure 4-132

DUKE POWEcR CMPANY DCONEE NJCLEAR STATION INTEGRATEDs LEAK RATE- TEST 07/05/73 59.00 PSIG VERIFICATION TEST

.. DATA REPORT DATA SFT 10 RT'/nIGIT TEMPS VULUjEF NTI PREVP 1 78.76 0.0300 T E -_T_6__60__7___77 2 L0.47 0.o2c0 - - BuILDIN' -A P F 3 l 1.94 U.0200 BUILDING PRESS, PSIA 74.966 74.976 74.977 4 60.07 .500 BILDINGUEdPU11TYfmP, F 76 7.676 5 bl.72 U.0200 BUILDING VAPOR PRESS,_PSIA 0.411L 0.4110 0.4110 6 81.45 0.030 7 a2 .78 u .010 REF. VESSEL DIFF PRESS, PSI 0.0000 0.000 0.0000 8 77.34 0.0300 9 3 C.6 ____(I__U 0.0500 IUFRMATIN TEMP , F 0.00 0.00 0.00 1 l.93 0.0500 IFUR M DT0N T TEMP 2, F 0 11 79 _49 0.0200 IFNRMATIORN TEMP 3, FPSI 0.00 0.A0 0.0 12 17 7912..4978 0.0200 INFORMATIDN TEMP _4,f 00 .000 13 ar . s52 0.0100 14 61.13 0.u.200 BAROMETER _28-9 9b _ _2 9 . 00 a9O~ - ----- 29 -. DOG

- 15 79.03 0___ _ 0.0 20 0 KNOWN LEAK 8.2500

8. 81.56 .7.'96 19 0 .1100 01..67 20 77.39 0.0100 21 0.56 0.0100 INFORMATION TEMP 1, F 22 71.32 0.0200 23 elr.72 0.1100 14 d2.10 0.0700 0 2 7.00 0.600_________________________0.00_____0.00_____0.0____

K L 25 lb 0.0 .0 0.000.000.0 27 81.0 50 28 0.00 .

P! SSI!RE-T0XAS VCLU~iF FRACTIGN 1 714.977 1.0 0.000 0 C)D___o --- ---- -

2 C0.506 27 74.00 bARFMhETER 1 29.000 DFwPDI T TE14PS VOLUME FRACTION 74.000 0.0000. 0 PRE __.RE- _XA VCLU-MFFRACTION -- 13 DIFFEPENTIAL PRESS________________________________________

D IFFE FfVT IAL TEMP 8 0.00

DUKE POWER COMPANY DCONEE NJCLEAR STATION INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DA TA REPORT-DATA SET 11 RTP/DIlIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESENT 1 78.75 0.0300 2 80.46 0.0200 BUILDING TEMP, F 80.586 80.773 F0 .789 3 81.97 0.0200 BUILDING PRESS, PSIA 74.966 74.977 74.979 4 30.01 0.0500 7 EUILDING DEWPOIN4T TEMP, 73.676 .73.676 3.670 5 61.73 0.0200 BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 81.51 0.0300 7 82.79 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 77.38 0.0800 9 80.64 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 60.96 0 .05u0 INFURAATIN TEM2,F 0.00 000 0.00 11 79.51 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 7B.52 0.0200 INFORMATIONTEMP 4, F -- 0.00- 0.00 0.00 13 80.55 0.0100 14 81.17 0.0200 BAROMETER 28.996 29.000 28.999 15 79.94 0.0200 KNOWN LEAK 8.2503 16 81.37 0.0100 17 61.09 0.0500 18 81.57 0.0900 19 81.68 0.1100 20 81 .62 0.0100 21 80.5 0.0100 22 61 .33 0.90U 23 81.74 0.1100 24 82.12 0 .0700 25 0. 0 26 c .00___

27 0.00 2tV -- .00 PPESSURE-TEXAS VfLUME FRACION----

1 74.979 1.0000 2 *0.000 0.0000 ---..

1 2L.999 0F.PuINT TEFPS VOLUME FRACTION 1 74.000 - ----- 0.4000 2 74.000 0.6000 CIFFERENTIAL PRESS 1 .OU0 DIFFEFENTIAL TE4P 1 4.000 Figure 4-134

UKE POWER CDHPANY UCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT DATAA Ef 12 VOLUME FRACTION INITIAL PREV. POINT PRESENT RTO/DIGIT TEMPS 1 78 .80 - 0.0300 2 60.49 0. CG2 F 8 BUILDING PRESS, PSIA 74.966 74.979 74.980 3 l.80.0200,______

BUILDING DEWPJINT TEtdP, F7.676 73.676 73.676

60. 4 0 .05U0 5 61.75 0.0200 BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 d1.51 0.0300 7 82.71 3.3100 REF. VESSEL 01FF PRESS,_PSI 0.000D 0.0000 r.0000

& 77.41 0.0600 0.0500_______ INFORMATION _TEMP 1, F 0.03 0.OC_____ 0.00 _________

- 9 *&.67 ___

10 E0.98 0.0500 1 FURATIUN TEMP 2, F 0.00 U.UO 0.00 0.0200 INFORMATION TEMP 3, F 0. 0.0 8 0.00 11 7q.54 0.00 0.0200 INFLRATI ONTRES4 , SAF0.010 3.00 12 7P.52 13 80 .57 1 .0 100 28.999 0 .i200 BAROMETER 28.996 28.999 4 1 .16 0.02 KNOWN LEAK .2500 1-9.97 000 0.000.0

---. 1 3.10.0500 1 C INFORATIO TEMP 2, F 17 61.10 0.0500 61.5 1 0.0900 ol.. uI.TM _

16 0.30000 22 .36 u .0900 01 I TP0.

7 23 ol. 6 0.1100 28.999 24 12.12 0.0700..AROMETER.28.996-28.999 17 0 0.50 Pr 6SS'ETEXAS VOLLINF: FRACTION 1 74.971 1 1000 2 02 0.01003..

L Ar2.12 .70R0 1 2 F,.999 C P1dT TEMPS VCLUMF FRACTION 1 74.000 0.400 2 ".0__ 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP 1 0.0_0 Figure 4-135

._ _DUKE POWER COMPANY GCONEE-NUCLEAR STATION___

INTEGRATED LEAK RATE TEST 07/05/73 59.00 P51G VERIFICATION TEST DATAR EPRT DATA SET 13 RTD/DIGIT TEMPS VOLUVE FRACTION 1 78.80 _____0.0300 ______

2 80.52 0.0200 BUILDING TEMP, F 8 .586 80.811 80.835 3 82.02 0.0200 BUILDING PRESS, PSIA 74.966 74.980 74.980 4 80.08 0.0500. ILDING DEPOITTEMP, F 7 67 5 - 81.78 0.200 u BUILDING VAPOR PRESS PSA 0.4110 0.4110 0 6 al.53 0.0300 7 82. 60.0100 __ 0.01U0 REF. VESSEL 01FF PRESS, PSI 0.0000 0.0000 0.0000.

77.43IT 0 .P SUE0 9 8 )-.7U 0ii500 INFORMATION TEMP 1, F 80.00 0.00 0.00 I0u 1.D 0.0ou_50c;0 1N FORM AT I U N -T E M F 00_0 00 0-0 1 79.5B 0U0L 2P0 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 7 P.57 ().R200 I VFORDATIIN TEPE4 F P 0.00 0.00 0.00 13 70.52 0.0100 14 e I .2L, U.U230 BAROMETER--- - 28 99~

15 79.58 0.0200 KN N LEAK 8 .2500 12 1 .41 0o.0N.

17 1

81.13 31.2 0.0500 0.AR ER .996 28.9998.999 15 7 8 0 .11002 K L 16 81.66 0.0100 21 01.62 0.0100 23 t1.76 0.1100 24 82.14 0.0700 25 P.r 27 n 2i (1100 PPcSS:kR-TEXAS VOLUME FRACTION - -

1 74.960 1.0000 2 0.000 0.0000 0

3AR METER ___

1 20.999 DEAPOINT TEMPS VOLUME FRACTION 1 74.000 0.4000 2 74.000 0.6000 DIFFERENTIAL PRESS 1 0.00 0IFFE ENTIAL TEMP 1 0.00

--- Fi ure 4-136

DUKE POWER COMPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 0.7/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT CATA SET 14 INITI AVPREV. POINT PRESENT RTo/DIGIT TEMP S VOLUME FRACTION 1 78.88 . .0300 2 80.54 u.0200 BUILDING TEMP, F 80 5B 0.835 82.0'4__ 0.0200 BUILDING PRESS, PSIA 74.966 74.980 74.982 3

4

- 80.C5 8.5 -5

.50 BUILDIN ENON N7DEWOIN TEMP , F 73 .676 A3~~?.7 5 81.7t 2.Q20 BUILDING VAPO-R PRESS, PSIA 0.4110 0.4110 0.4110 b a1 .56 U .0300 0.0100 REF. VESSEL 01FF PRESS, PSI 0 .000 _ _ -0.000 0 .c0.0 7 3 2. P1 s 77.43 G o8u0 30).70- 0.0500 INFORMATIONTEMP 1, F 0.00 0.00 0.0_

9 10 61.02 0.0500 INFORMATION TEMP 2, F 0 79.56 0.0200 INFURMATION TEMP 3, F 0.00 0.00 0.00 11 0.00 0.00 12 7P.61 . 02 INFORMAT ION TEMP 4 8F0.00 13 a0 . 5 0.0100- 9 7-.982 Z 99 8.9 14 a1 22 0.0200 BAROMETER 2.966 -74.980 KNLN LEAK P P.2110 0.4110 0.4110 15 do - CC) L .0.0200 4

16 dl . 3 0.0300 17 81.14 0.0500 1-3. 61.63 0.0900 19 81.75 .1100 T 20 01.6d 0.0100 210.000 INFRMATIO TEMP 3,G 27 12 61 .4o 81.14 0 .0200 23 81.79 0.1100 24 o2.15 0.0700 15 0.0 O 21 80.05 25 0.00 PT-5SSURE-TEXAS VFLUIAE FRACTION~

10.999 2 1 742.98.92 2 .000 0.0000 KA E2AR rI',FTFR 1 20..99 OF,.P 0 11 kT TEMPS VULUME FRACTI ON 1 74.000 0.4000 DIFFERENTIAL PRESS DIF FERPENT IAL -TEM P 0.0.01 Figure 4-137

DUKE.POWER CJIPANY OCONEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/05/73 PSIG VERIFICATION TEST

--- - - 59.00- DATA REPORT DATA SET 15 RTD/DIGIT TEMPS VOLUME FRACTION - .---- IITA REy. POINT PRESENT 1 78.91 0.0300 B G 2 80.56 0.0200 p 3 82.05 0.0200 BUILDING PRESS, PSIA 74.966 74.982 74.982 4 80.06 0.0500 BUILDING OEWPOINT T, F 73.67 676 73.676 0.0200 BU ILD ING VAPOR PRESS, PSIA 0.4110 _0.4_110 041 _________

5 81._81.....

6 81.62 0.0300 0.0100 REF. VESSEL DIFF PRESS PS 0.0000 0.0000 0.0000 7 e2.65 b 77.50 0.

INFORMATION TEMP 1, F 0.00 0.00 0.00 9 80.72 0.0500 INFORMATIN TEMP 2, F 0.00 0.00 0.00 10 81 .05 0.050N0 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 11 79.-2 0 .02u0 INFORMATION TEMP 4, F 0.00 - 0.00 0.00 12 78.61 13 80.61 0.0100 INFRMATINEP F 142 BARMETER 23.996 28.999 28.999 15 80.04 0.0200 KNOWN LEAK 8.2500 16- 81.45 U.010T 17 81.15 0.0500 18 81.65.- _0.09O 19 81.75 0.1100 20 81.70 0.0100 21 80.67 0.0100 22 81.42 U.009U 23 81.80 0.1100 24 82.14 0.0700 25 0.00 26 0.00 27 0.00 26~ 0.00 PRESSURE-TEXAS-- VOLUME FRACTrDN .

1 74.982 1.0000 2 _' 0.000 BAROMFTFR 1 28.999 DEAPUINT. TEMPS VOLUME FRACTION 1 74.000 0.4000 2 74.000 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFEPENTIAL TEMP 1 0.000

-_Fj re 4-138

DUKE POWER CDMPSNY OCUNEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT IATA SOT 16 RTF/DIGIT TEMPS VOLUME FRACTION INITIAL PREV. POINT PRESEN 2 d0.~8 0.020 BUILDING TEMP, F 80.586 80.872 80.895 BUILDING PRESS, PSIA 74.966 74.982 74.983 3 Z2.08 0.0200 BUILDING DEWPOINT TEMPF 73.676 73.676 73.676 60.13 .0500 5 81.82 0.0200 BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 61.6U 0.0300 7 62.88 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 _ 0.0000 8 77.54 0.0800 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 9 6n.76 10 81.07 0.0500 INFORMATION TEMP 2, F 0.00 0.00 0.00 J .0200 INFORMATION TEMP 3, F 0.00 0 .00 0.00 11 79.64 0.0200 INFORMATION TEMP F 0.00 0.00 0.00 12 78.64 13 ' .64 0 .0100 14 81.2b 0.0200 - BARDMETER 996 28.999 28.999 15 80.05 0.0200 KNOWN LEAK 8.2500 16 81.46 0.0100 17 81 .18a 0.0500 21 1.67 0.0900 19 jil.70 0 .1100 ___________

20 61.74 0 .0100

.11.80.67 ____ 0.0100 22 81 .46 0.0900 23 61.R2 0.1100 24 32.14 0.0700 25 0.00 27 0.00 2o f). no PRESSLIrF-TEXAS VOLUME FRACTION 1 74.983 1.0000 2 0.000 0.0000

£ArflaETER.

1 2R.999 UE-PO INT TEMPS VOLUME FRACTION 1 74.000 0.4000 2 74.000 0.6000 DIFFERENTIAL PRESS 1 0.000 DIFFERENTIAL TEMP I 0.000 re 4-139

DUKE POWER C D'PANY OCUNEE NUCLFAR STATION INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT DATA SFT 17 --

RT"/DI0IT TEvPS VOLUPE FRACTION INITIAL PREV. POINT PRF.SENT 1 78.98 0.0300 2 60.6U U.020c BUILDING TE4P, F 80.586 80.895 80.903 3 8?.11 0.0200 BUILDING PRESS, PSIA 74.966 74.983 74.984 4 60.18 0.0500 BUILDING DEWPOINT TEMP F 73.676 73.676 --- 73.676 5 81 .4 0.0200 BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 0 I .61 0 .0300 7 32.89 0.010c REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 77.56 U.0800 9 t.75 0.0500 INFORMATION TEMP 1, F 0.00 0.30 0.00 16 81.09 0.0500 [NFUjRATION TEMP 2, F 0.00 0.000 11 79.65 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 7S.65 U .0200 4, F 000

-INF0RMATIONTEMP 0.00 0.00 13 n.65 0.0100 14 E1.P8 0.d200 FAROMETER 28.996 28.999 28.999 1 80.rd 0.0200 KNON LEAK 8.2500 1 1 .40 0 .0100 17 61.20 0.0500 1 1Il.67 0.0900 19 81.77 0.1100 20 81.73 0.0100 -.--.

21 n.70 0.0100 22 - 1.46 0 .0900 23 eI .1 0.1100 24 82.14 0.0700 .......

25 0.00 26 0.00 27 0.00 2d C.00_____

PRESSURIF-TEXAS VOLUME FRACTIONj --

1 74.9b4 1.0000 2 *0.000 0.0000 CAR CETER .

1 2a.999 0FAPuIhT TEMPS VOLUME FRACTION 1 74.000 0.4000 -.------.-.-.-

2 74.000 0.6000 DIFFEFENTIAL PRESS DIFFErENTIAL TEMP -- .

1 4.0004 Figure 4-140

DUKE POWER COMPANY OCONEE NUCLFAR STATION.

INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT DATA SET lb RTD/DIGIT TEMPS -VOLUM'E FRACTION INITIAL - PREV. POINT PRESENT 1 78.98 0.0300 2 d0.65 0.0200 BUILDING TFMiP, F 80.586 80.903 80.936 3 62.12 0.0200 BUILDING PRESS, PSIA 74.966 74.984 74.986 4 80.20 0.0500 BUILDING DEWPINT TEMP F 73.676 73.676 73.676 5 81.86 0.0200 BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 61.67 0.0300 7 82.90 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0CO 8 77.60 0.0800 9 .SC.p1 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 81.12 0.0500 INFORMATIDN TEMP 2, F 0.00 0.00 0.00 11 79.65 0.02C0 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 78.66 0.0200 INFORMATION TEMP 4, F 0.00 0.00 0 .00 13 v0.73 0.0100 14 31.31 0.0200 BAROMETER -- 28.996 28.999 29.888 15 80.12 0.0200 KNOwN LEAK 8.2500 16 81.51 0.0100 17 81.21 0.0500 lo bl.71 0.0900 19 81.80 0.1100 20 61.77 0.0100 21 80.73 0.0100 22 b1.49 U.0900 23 81.5 0.1100 24 b2.18 0.0700 - - --- --------

25 0.00 ..

26 0.00 27 0.00 PRESSURE-TEXAS VCLUME FRACTION -----------

1 74.9t6 1.0000 2 0.00 0.0000 ---

v4 RLAETER-.

1 29.888 DFwPuINT TEMPS VOLUME FRACTION 1 74.000 0.4000 - - - - - -- - -

2 74.000 0.6000 DIFFEPENTIAL PRESS 1 0 .0u00 ------- ---

OIFFEPENTIAL TEMP 1 0.000

- -- -Figure4-141 -

- ------- DUKE PUWER COMPANY OCUNEE NUCLEAR STATION INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT - -

DATA SFT 19 _ ---

RTC/DIGIT TEMPS VOLUME FRACTION - - INITIAL PREV. POINT PRFSENT

1. 79.02 0.0 3 00 2 C0.68 0.0200 BUILDING TEAP, F 80.586 80 .936 80.946 3 82.16 ___ 0.0200 BUILDING PRESS,

_____ PSIA 74.966 74.986 74.988 4 80.17 0.0500 BUILDING DEWPOINT TEMPF 73.676 73.676 7.676 5 01.89 0.0200 BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 81.68 0.0300 7 o2.93 0.01u0 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 77.62 0.0800

9. 0.-

("1 2 C0.0500 IN4F0RMATIJN TtMP 1, F 0.00 0.00 0.00 10 1.13 0.0500 INFURMATION TEMP 2, F 0.00

-0.00 0.00 11 79.69 0.0200 INFORMATION TEMP 3, F 0.00 0.00 0.00 12 78.68 0.0200 INFORMA.TION TEMP 4, F 0.00 0.00-0.00 13 80.73 0.0100 14 81.?2 0.0200 BAROMETER 28.996 29.888 28.996 15 80.13 0.0200 KNOWN LEAK 8.2500 1 a1 .53 0.0100 17 31.24 0.0500 lb 81.7e 0.0900 19 81.01 0.1100 20 81.76 0.0100 21 80.74 0.0100 22 bl.5 0.0900 23 81.f5 0.1100 24 82.17 0.u700 25 0.00 26 0.00 27 0. '0 P7ESSURE-TEXAS VOLUME FRACTION 1 74.9c0 1.0000 2 '0.C00 0.00 00) 3ARnSETER - ----

1 2 .996 DEnPOINT TEMPS VDLUME FRACTION 1 74.0u0 0.4000 2 74.000 0.6000 DIFFERENTIAL PRESS 1 0.0url . .

uIFFERENTIAL TEMP 1 0.000 Figure 4-142

DUKE PO3WER COMPANY OCONEE NUCLFAR STATION INTEGRATED LEAK RATE TEST 07/05/73 59.00 PSIG VERIFICATION TEST DATA REPORT ------

DATA SET 20 RTD/D GIT TEMPS VOLUME FRACTION--I A P OT 1 79.00 0 .0300 2 80.69 0.0200 BUILDING TE4P, _F.586- 80.946 8o.974 3 82.17 0.0200 BUILDING PRESS, PSIA 74966 74.988 74.990 4 80.31 0.0500 BUILDINGDEW PDTTT TE73 7 73.676 73 5 81.89 0.0200 0 .200 0 ------ _BUILDING VAPOR PRESS, PSIA 0.4110 0.4110 0.4110 6 81.68 0.0300 ---- _________-_---

7 82.95 0.0100 REF. VESSEL DIFF PRESS, PSI 0.0000 0.0000 0.0000 8 77.66 0.0800 9 a.82 d 0.0500 INFORMATION TEMP 1, F 0.00 0.00 0.00 10 81.15 0.u5U0 INFORMATION TEMP 2 , F 0.0 0.00 0.

11 7,.74 0.0200 INFORMATION TEMP 3, F 0.00 0.00 . 0.00 12 78.66 0 .0200 -- NFORMATION TEMP 4, F -0000.00 0.00 13 80.76 0.0100 14 81.35 0.0200 BAROMETER 25.99 _ 28.996 28.996 15 80.16 0.02C0 KNOWN LEAK 8.2500 16 o 0.15 0.01u00____

17 81.26 0.0500 18 81.74 0.0900 --- --

1s 8 1.3 3.10 20 bl.82 0.0100 21 6'.7 6 0.0100 22 b1.53 0.0900-23 81.08 0.1100 24 6?.20 0.0700 25 0.00 26 0.00 27 0.0u PPESSIkE-TEXAS VOLUME FRACTION 1 74.990 1.0000 2 00 0.0000-bARnMETER 1 2 .q96 DF POINT TEMPS VOLUME FRACTION 1 74.000 0.4000 ---- -

2 74.0O 0.6000 DIFFERENTIAL PRESS 1 .030 .....

DIFFERENTIAL TEMP -- -

1 0.000

Figure4-143

TABLE OF CONTENTS Section Page 5.0 BECHTEL COMPUTER PROGRAM 5-1

5.1 INTRODUCTION

5-1 5.2 EXPLANATION OF PROGRAM 5-2 5.3 DEMONSTRATION OF PROGRAM 5-4 0

5-i

5.0 BECHTEL COMPUTER PROGRAM

5.1 INTRODUCTION

The Containment Integrated Leak Rate Program calculates the leak rate for a nuclear reactor containment vessel. The program computes the leak rate at a given time from input values of pressure, temperature and dewpoint tem perature (water vapor pressure).

The Containment Integrated Leak Rate Program is designed to allow the user to evaluate containment leak rate test results at the jobsite during containment leak rate testing. Interim leak rate test reports may be obtained at any time during the testing period. Each interim report can provide three print outs. The first printout, called the Total-Time Method, uses the initial and latest input data to compute leak rate. Each computed leak rate is statis tically averaged using a linear least-squares fit. Early in the test this method of computation gives the best indication as to whether or not the leak rate test is proceeding satisfactorily.

A second printout, called the Point-to-Point Method, is also provided. The Point-to-Point Method uses the data at a given hour and the data from the previous reading to compute leak rate. Each individually computed leak rate is then statistically averaged using a linear least-squares fit. The Point to-Point Method of computation is used since it gives rapid indication of deviations in the calculated leak rate late in the testing period.

The test results provided by the two methods indicate that either method is satisfactory for computing containment integrated leak rates. Both methods of computing the containment leak rate are presented in ANSI N45.4-1972, "Leakage-Rate Testing of Containment Structures for Nuclear Reactors."

However, the Total-Time Method is recommended by Appendix J to 10CFR50, Section 54(o) and is used, therefore, to report the containment leak rate.

The third printout is the Trend Report. This report is based on total-time calculations and gives a more concise and timely description of test results.

In this printout the leak rate is reported as a function of test duration.

5-1

5.2 EXPLANATION OF PROGRAM The Containment Integrated Leak Rate Program computes containment leak rate using the Absolute Method given in ANSI N45.4-1972 "Leakage-Rate Testing of Containment Structures for Nuclear Reactors."

At the start of the program the basic data is entered which consists of:

(a) Test title.

(b) Number of containment temperature points, vapor pressure points and absolute pressure points to be entered.

(c) Absolute pressure sensor tube constant.

(d) Volume fractions assigned to each temperature and vapor pressure sensor.

The recorded data, which is used to compute the leak rate, is then entered.

Recorded data consists of:

(a) Containment atmosphere dry bulb temperature.

(b) Containment atmosphere absolute pressure.

(c) Containment atmosphere dewpoint temperature.

Temperature, pressure and vapor pressure values are entered as read at the test panel, i.e., each dry bulb and dewpoint temperature is entered inoF and pressure is entered in psia uncorrected for tube constant. If a temperature or vapor pressure sensor becomes inoperable during the course of the test, the sensor is eliminated and volume fractions recomputed. The new volume fractions are then entered in the computer program for the leak rate com putations. After all data for a given time step is entered, a print-out summary of the measured data is provided. In the Summary of Measured Data, each temperature entry is printed out in OF and each pressure and vapor pressure entry is printed out in psia. (The dewpoint temperature is converted to water vapor pressure and is printed out in psia.) At this point the user is given an opportunity to check the data and correct any errors.

Following any corrections, if required, a Corrected Data Summary is printed out. This summary consists of the date, time, one average containment temperature (corrected for volume fractions) and one average containment air pressure (corrected for vapor pressure volume fractions). These corrected values of temperature and pressure are the values used in the containment leak rate computations. Basically the leak rate is computed as follows:

P V = W RT1 (1)

P2 V = W2 RT 2 .(2) 5-2

% leakage 4L (W1 - W 2) 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months L A - x 100 (3)

At1 Solving for W1 and W2 and substituting equations (1) and (2) into (3) yields:

L = 2400 (1- T1 P2)

At T2P 2 Where:

W 1 , W 2 = Weight of contained air at time tl and t2 respectively.

Tl, T2 = Absolute temperature of containment volume at time t1 and t2 respectively.

Pl P2 = Absolute containment air pressure (corrected for water vapor pressure) at times t1 and t2 respectively.

At = t 2 - t1 in hours.

L = Leak rate (Percent/day).

V = Containment internal free air volume (assumed constant).

R = Gas Constant (assumed constant).

Linear least-square fitting, is used to establish the value of leak rate at 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months . The leak rate as a linear function of time is:

L = a + bt Where:

a = Li ti 2 - ti tiLi i i i i N t2 - (ti)1 b = N Li Ti - Li ti 1 1 N ti - ( ti) 2 1 1 Li = Calculated leak rate from equation (4) above at time ti.

N = Number of leak rate calculations.

5-3

5.3 DEMONSTRATION OF PROGRAM To enter the Bechtel (Pacific International Computing Corporation) time share system, dial the current telephone number and place the telephone receiver in the acoustical coupler on the data terminal. Enter the user ID and pass word as requested and continue sign-on procedure as illustrated on page 5-8.

The return key on the terminal is hit after data entry and can be used as a "NO" answer. When entering the time use military time, i.e., 1345 for 1:45 p.m.

The date is entered in four digits; the first two are the month, the last two the day. For example, 0704 is July 4th. For additional information, such as error corrections, consult the users manual for the system being used.

The general flow of user's decisions is shown in the flow chart in Figure 1, page 5-7.

Initially, the basic data is supplied to the system., This basic data includes title information, number of temperature points, number of pressure points, pressure constant, number of vapor pressure points and volume fractions associated with each temperature and vapor pressure point. (See page 5-8)

After entering the basic data, new values of drybulb temperature, absolute pressure and dewpoint temperature for each data set are entered. The Tem perature and Pressure Corrected Data Summary is then computed for each data set (page 5-10) and this information is stored on a file. Therefore, when restarting the program it is possible to enter averaged values of temperature and pressure from previous runs from a stored file. (See page 5-9) After entry of data the user may select one of seven options:

Option Command Function DATA Enables operator to enter additional uncorrected data for new times not previously entered. When the system requests values of time, temperature, pressure and vapor pressure, the user enters data as directed by the program. After completing the data entry, a summary is printed out for the user's verification of data correctness. If there are errors detected by the user, the user will be given the opportunity to correct the errors. After the user certifies that the data as entered is correct, a corrected summary report of time, average temperature and average pressure is printed. This is the data to be used in subsequent runs if the option to enter previous data is selected. (See pages 5-9 and 5-10)

TREND Terminal will print out a Trend Report. (Page 5-11)

TOTAL Termnal will print out a Total-Time Report. (Page 5-12)

POINT Terminal will print out a Point-to-Point Report. (Page 5-13)

TERM Enables operator to sign-off temporarily or permanently. (Page 5-13)

UPDATE Enables operator to store the Temperature and Pressure Corrected Data Summary on the previous file thereby updating the previous file automatically.

5-4

Option Command Function TIME Enables operator to eliminate old data from the program by selecting a later start time.

5-5

EXAMPLE Pages 5-8 through 5-13 are examples of program utilization for computing containment leak rate. The sign-on, sign-off and various command options are indicated. It is not feasible to demonstrate all possible combinations of the user's input request. Additionally, the initial sign-on procedure changes periodically. Consult Bechtel personnel for any information required.

To facilitate program restarts, previous summary data can be put on tape or stored on a separate file. When previous data is called for in the program, data can be entered either from a tape or from the file thereby saving con siderable time.

5-6

SIGN ON ENTER BASIC DATA NO ENTER PREVIOUS

/ ___(EN V UES FROM FILE?

YES OPTIONS?

SUPPRESS NO PRINTOUT?,

YES DATA FILE LISTED ENTER NEXT SET OF DATA YES STORES CORRECTED ERROR? UPDATE

SUMMARY

DATA IN NO PREVIOUS FILE NO ENTER CORRECTION RTREND 4 REPORT

SUMMARY

OF MEASURED DATA TOTAL TOTAL TIME I YES E ERROR? /.

NO POINT POINT TO POINT CORRECTED1PON

SUMMARY

DATA REPORT PRINTOUT ENTER NEW7 Ta START TINE /

TERM SIGN OFF CONTAINMENT INTEGRATED LEAK RATE TEST PROCEDURE COMPUTER PROGRAM LOGIC DIAGRAM Figure 1 5-7

U:ER ID PA:S:IWOFD-uuD5uumfl55l SYS&TEM OLD OR NEW READY

RUN ENTER TITLE OF LESS THAN 28 CHARACTERS

=BECHTEL POWER CORP. ILRT ENTER MAX ALLOWABLE LEAK RATE ENTER PRE: :URE CONSTANT

=1 ENTER NO. OF TEMPERATURE POINTS

=24 ENTER NO. OF PRESS:URE POINTS

=1 ENTER NO. OF VAPOR PRE::URE POINTS

-2 ENTER VOLUME DECIMAL ASCOCIATED WITH EACH TEMPERATURE VOL. FRAC. TEMP 1

.03 VOL. FRAC. TEMP 2.

=. T2 VOL. FRAC. TEMP 3 VOL. FRAC. TEMP 4 ETC.

/OL. FRAC. TEMP 24 ENTER VOLUME DECIMAL AJCOCIATED WITH VAPOR PREXSURE VOL. FRAC. VAPOR PRE: 1

?OL. FRAC. VAPOR PRES 2

.4 5-8

ENTER PREVIOUS VALUES FROM FILE?

=YES SUPPRESSPRINTOUT?

=NO 2215 704 84.259697 73.230112 2230 704 8 4 .222198 73.225037 2245 764 84.200197 2192 2300 704 84.172897 .219916 2315 704 84.144999 73.12857 2330 704 84.121097 73.209311 2345 704 84.091698 05751 2400 704 84.061399 11690 15 705 84.03739 73.198647 30 705 84.014598 31945S6 45 705 83.988198 73.191542 100 705 83.965898 188497 115 705 83.944398 185452 130 705 83.929299 73.1:2407 145 705 83.904198 73.178347, 200 705 83.881898 73.175303 215 705 8:3.855699 73.172256 OPTION:

= DATA ENTER TIMEFDATE

= 023070705 ENTER 24 TEMP. PRA. IN DEGREE: F.

ENTER 1-8

= 8:3.89 83.89 8:3.89 83.89 :3.89 83.89 :33.89 8:3.89 ENTER 9-16

= 8:3.89 33.89 :33.89 83.89 :33.89,83.89 383.39 33.39 ENTER 17-24 89

83-:9 :3:3 .9 :3 .S9 :3 .89 :33.29 S2.9 33.9 ENTER 1 PFESS. IN PgIA ENTER PREMIJRE',

731714 ENTER 2 AP. PRE:.

ENTER 1A-O8 PREMURET

= 82 3 5-9

CHANi3E AN' DATA 7

= NO OUMMARY OF MEA RBED DATR AT TIME 230 70 CALC. ENTERED TEMP 1 = ;.2 o34."

TEMP 2 = I. 15 .,;

TEMP '3 = .18 90 TEMP 4 = .1. 1 I.99 TEMP 5 =6 .

TEMP 6 = . 0, TEMP 7 = .1 .8:0 TEMP 3 = ~. 83.7 *399 .

TEMP 9 = *.27 :3.

TEMP 1= .

TEMP 11 .f TEMP 12 . D.9 TEMP 13 = .3."3 3.0 TEMP 14 = .3 7.74 TEMP 15 4 3.09" TEMP 16 = 1 8990 TEMP 17 - I.3.856 0 .7fl TEMP 1: = -'I9 TEMP 19 =3.

TEMP 20 = -. 04 -3. l TEMP 21 = 2 i TEMP 22 TEMP 23 =5 :3.740 TEMP 24 :7,4 =Ir TPR? 1 = 3.10' 7.10

'T'PR: 1 3. 4 1 3 I. 0

'.c'Fp 2 = i 41 S 1. Ol 0 OH ANGE AN'Y DA TA 7 NO TEMP. AND RE- . CORRECTED DATA UMMArY TI IE = 2 j DATE = 705 TEMP =- 3859 PRE. = 73. 16000'

.5-10

BECHTEL POWER CORP. ILRT TIME9 DATE START OF TEST 22.25 704 TIME AFTER START OF TEST = 4.25 HR TREND: BASED ON TOTAL-TIME CALCULATIONS HDURU DATA MEAN OF CALCULATED CHG IN CALC LR OF TEST ENTRIES CALC LR LEAK RATE FROM LA:T POINT 0.75 4 -i.182E-01 -0.525E-01 1 .00 5 0. 120E-02 0. I E-l1 0. 6c80E-0 1 1.25 6 0.956E-02 0 . 35E- 01 0. 20'3E-0 1 1.50 U. 143E-01 0.432E-01 0.742E-02 1.75 1 0.169E-01 0.443E- 01 2.00 9 ii.179E-01 0.107 E-02 0.417E-01 -0 .5E -02 2.2510 H.200E-01 0.440E-01 0 .23E -02 2.50 11 0.20,E-01 0 .419E-01 - .21 5E-02 2.J 12 210E-01 0.C3IE- 01 - .31E- 02 1.03 i .2 13E-01 0.3'76E-01 -0.194E-02 3.2= 14 0.2C1E-01 515 0 .231E-01 -34E-01

.9E-01 0. 739E- -3 0.154E-02

-- *.c 1 0. C39E-01 U. 0 406E-01 0. 634E-03 4.00 17 0 .242E-01 0. 3I96E-01 -0.944E-03 4.25 18: 0 .240E-01 .71E- 01 -. L248E-0 THE CALCULATED LEAK RATE IS 0.371E-01 THE MA'IMUM ALLOWABLE LEAK RATE IS 0 .250E+0i0 THE LA:.T 2 DATA POINTS ESTABLISH A NEGATI'V,.E SLOPE 5-11

BECHTEL POWER CORP. ILRT TIME, DATE START OF TEST 22.25 704 TIME AFTER START OF TEST = 4.25 HR LEAK RATE BASED ON TOTAL-TIME CALCULATIONS TIME TEMP. PRESSURE MEASURED CALCULATED (F) 95% CONFIDENCE (PSIA) LEAK RATE LEAK RATE LIMITS 22.50 84.22 73.225 0.341E-02 0.108E-01 22.75 -0.50E-01 0.71E-01 84.20 73.222 0.718E-02 0.124E-01 23.00 -0.47E-01 0.72E-01 84.17 73.220 -0.652E-01 0.141E-01 23.25 -0.45E-01 0.73E-01 84.14 73.213 0.594E-01 0.157E-01 23.50 -0.42E-01 0.74E-01 84.12 73.210 0.430E-01 0.174E-01 23.75 84.09 73.206 -0.40E-01 0.75E-01 0.380E-01 0.190E-01 -0.38E-01 0.76E-O1 24.00 84.06 73.202 0..322E-01 0.207E-01 -0.36E-01 0.77E-O1 24.25 84.04 73.199 0.251E-01 0.223E-01 -0.34E-01 0.79E-O1 24.50 84.01 73.195 0.368E-01 0.240E-01 24.75 -0.33E-01 0.80E-01 83.99 73.192 0.264E-01 0.256E-01 25.00 83.97 -0.31E-01 0.82E-01 73.186 0.245E-01 0.273E-01 -0.30E-01 2.5 83.94 73.185 0.241E-01 0.84E-01 25.50 0.289E-01 -0.28E-01 0.86E-O1 83.93 73.182 0.325E-01 0.306E-01 25.75 -0.27E-01 0.88E-O1 83.90 7:3.178 0.:365E-o1 L.322E-01 26.00 -0.26E-01 0.90E-01 83.88 73.-175 0.3'-44E-oi 0.:336E-0x 26.25 8.3.36 -0.25E -01 0.'93E-O01 73.172 0.284E-01 0.355E-01 -0.24E-01 0.95E-Oi 26.50 83.83 73.169 0.206E-01 0.371E-01 -0.23E-01 0.98E-01 IF IT IS ASSUMED THAT THE LEAK RATE IS CONSTANT:

THE MEAN IS 0.240E-01 THE STANDARD DEVIATION IS 0.263E-01 THE CALCULATED LEAK RATE AFTER 4.25 HOURS OF TEST IS 0.371E-01 5-12

BECHTEL FOldER CORP. ILPT TIMES DATE :TART OF TE:T 22.25 714 TIME AFTER START OF TE:T = 4.25 HF LEAK RATE BASED ON POINT-TO-POINT CALCULATIONS TIME TEMP. PRESSURE MEASURED CALCULATED 95 CONFIDENCE (F.:' (PSIA' LEAK RATE LEAK RATE LIMITS 22.50 84.22 2 25 0 .34 1E- 02 0 .4:3E- 01 -0 .28E+ 0 0 .:37E+fl 0 22.75 84.20 0.111E-01 0.41 -11 -0 .28E+ u.36E + 00 23.00 84.17 E 2: 0+

4 c.l14 1l 0u' 4:33E+l CE C; A G11 -j 23.25 84.142E- 01 - .28E+ 0 5E+ 00 23.50 84.12 1 I' - - '1 3E-01 - 128E+ 1 . 4E+ 0 23 .75 8 . 09 Ir .11 -11 . -44E- C Ii - . E+ 1 E + Ci0 24.00 84.06.271E-02 2 5E - 02E +00 0. E+ 00 24.25 R4. 04 1E- -0a 3 0.

24.50 84.01 0.1:30E+ 00 l 1 E- 01 - .28E+ 0 0.32E+ 00 24.75 1'4 E- 0 C 01 - .2EE+ 0 0 .23E.+ 90 25.00 83.7 1 0 577E- 02 1 - 01 - 29E+ 00 0 .:2E+ 0A 25.25 83 . 9 4 0. 197E-01 1 E-Ol -0 .29E+0 0 0 .:32E+00 25.50 .50 3.93+

73.1 81 fl.1;RE+00E i1- i .1,-'17E- 0 C2-0I:E+C 0 ( 0 .:n32E+0 25.75 839 0 1 0 E -4f- I F2E- 02 - A' E+A 0 0. 2E+00 00 88 - , r 542E- 02 E- E

- 0 ,2 - 0 .:3 1E+0 0- 0l- .3:32 E+C-C 2f-- 175 -, El 6 c&E- 0 1 i 48'E- 103 -0 1.:'2E+1-.- - - + (0 C 26.00 83 .- .41E-0

- -E+8i 0 .32E+00 IF IT IS AMU-'AMED THAT THE LEAFL RRTE I: RONcK TAN T THE MEAN 86 I. 0 . - '51 THE :TARNDARP.D FEYI AT ION IS.. 1 :34E+ 00 THE CALCULATED LEAK PATE AFTER 4.25 HOURC OF TE*:T IS._ -0,.241E-032 OPTION: 7

= TERM

- R'ECOURC EC- U-:ED

- TIME HOFF 5-13

TABLE OF CONTENTS Section Page 6.0 BECHTEL FINAL TEST REPORTS,

SUMMARY

DATA AND CURVES 6-1 6.1 29.5 PSIG ILRT 6-1 6.2 29.5 PSIG VERIFICATION TEST 6-1 6.3 59 PSIG ILRT 6-1 6.4 59 PSIG VERIFICATION TEST 6-1 6-i

6.0 BECHTEL FINAL TEST REPORTS, SUMARY DATA AND CURVES 6.1 29.5 PSIG ILRT The curve of Leak Rate versus Time is given on Figure 6-5. Supporting summary data is given on Figures 6-1 through 6-4. Individual data sets* are given by Figures 6-6 through 6-50.

6.2 29.5 PSIG VERIFICATION TEST The curve of Leak Rate versus Time is given on Figure 6-55. Supporting summary data is given on Figures 6-51 through 6-54. Individual data sets*

are given by Figures 6-56 through 6-76.

6.3 69 PSIG ILRT The curve of Leak Rate versus Time is given on Figure.6-81. Supporting summary data is given on Figures 6-77 through 6-80. Individual data sets*

are given by Figures 6-82 through 6-122.

6.4 59 PSIG VERIFICATION TEST The curve of Leak Rate versus Time is given on Figure 6-127. Supporting summary data is given on Figures 6-123 through 6-126. Individual data sets*

are given by Figures 6-128 through 6-147.

The 'ENTERED' column shows the data that was entered from the raw data sheets. The 'CALC' column shows the data presented as follows:

(a) Drybulb temperature (OF) is corrected per the Calibration Report given in Section 2.0 of this report.

(b) Pressure is direct reading in psia.

(c) Dewpoint temperature (OF) is converted to water vapor pressure (psia).

6-1

OCONEE UNIT 2 - 29.5 PSIG ILRT

SUMMARY

DATA TINE DATE TEMP. PRES.

2300, 702, 79.507474, 43.627680 2315, 702, 79.505774, 43.629720 2330, 702, 79.509678, 43.627500 2345p 702, 79.515360a 43.627500 2400R 702, 79.521492p4.627500 0015. 7031 79.514463 43.627500 0030. 703, 79.523483. 43.625500 00459 703, 79.524867, 43.627060 0100i 703, 79.523689, 43.627060 0115, 703, 79.529792P 43.627840 0130, 703; 79 3939 43.627840 0145, 703, 7937929 43.629400 0200, 703, 79.53595, 43.628400 0215, 703, 940294, 43.628900 0230, 703, 7940696, 43.628900 02459 703, 79600, 43.62940 0300, 0 79.541196 43.629900 0315p 73 79.5:35999, 43.629650 0330, 703 79.5:35001, 43.630150 0345, a 79.529400, 43.631650 0400, 702 79.5:3902, 43.631650 0415, 703 79.5%905, 43.631150 0430, 7f3o 79.537701, 43.631150 0445, 703 79.540705, 47.030150 0500; 7 79.5:37209F 43.630900 0515, 70 79.542608, 4.629900 0530, 703P 79.547907, 4.629150 0545, 703P 79.547910, 40.631400 0600, 703, 79.54507, 43.631400 0615, 703, 79.5581071 43.63140, 0630 703, 79.552111, 43.631400 0645, 703, 79.565013, 43.631400 0700, 702> 79.5664103 43.629150 0715, 702m 79.573914 4 62990r 0730, 70SF 79.579614 462963 0745, 7 03c. 79.5 715, 4 6296:38 0800i 7029 79.57361 43 629638 08159 703. 79.57991Y 43629628 0830, 702, 79.580118 49 630976 0845. 703l 79.50517 4.632584 0900. 702, 79.51616, 43.631584 0915,p 7039 79.536819, 43.63184 09:30, 703, 79.56720, 43.633072 0945, 70:3, 79.592321, 43.633604 1000p 70:3, 79.60121, 43.63B604 Fi.ure 6-1

OCONEE 29.5 PSIG ILRT UNIT 2 TIME. DATE START OF TEST 23.00 702 TIME AFTER START OF TEST = 11.00 HR LEAK RATE BASED ON TOTAL-TIME CALCULATIONS TIME TEMP. PRESSURE MEASURED CALCULATED 95% CONFIDENCE

F) (PSIA) LEAK RATE LEAK PATE LIMITS 23.25 79.51 43.629 -0.259E+00 01166E-01 -0.9E-01 0.12E+00 23.50 79.51 43.628 0.394E-01 0.164E-01 -0.89E-01 0.1200 23.75 79.52 43.628 0.601E-01 '.162E-01 -0.89E-01 0.12E+00 24.00 79.52 43.628 0.723E-01 0.16CE-01 -0.89E-01 0.12E+00 24.25 79.51 43.628 0.329E-01 0.1iSE-0l -0.89E-01 0.12E+00 24.50 79.52 43.626 .0.127E+00 0.156E-01 -0.89E-01 0.12E+00 24.75 79.52 43.627 0.638E-01 0.154E-01 -0.89E-01 0.12E+00 25.00 79.52 43.627 0.531E-01 0.152E-01 -0.89E-01 0.12E+00 25.25 79.53 43.628 0.402E-01 0.15GE-01 -0.89E-01 0.12E+00 25.50 79.53 43.628 0.409E-01 0.14SE-Ol -0.89E-01 0.12E+00 25.75 79.53 43.628 0.282E-01 0.146E-01 -0.89E-01 0.12E+00 26.00 79.54 43.622 0.285E-01 0044E-01 -0.8&E-01 0.12E+q00 26.25 79.54 43.629 0.243E-01 0.142E-01 -0.89E-01 0.1200 26.50 79.54 43.629 0.231E-01 0.141E-01 -0.89E-01 0.12E+00 26.75 79.54 43.629 0.10SE-01 0.139E-01 -0.89E-01 0.12E+00 27.00 79.54 43.630 0.700E-02 0.137E-01 -0.89E-01 0.12E+00 27.25 79.54 43.630 0.438E-02 0.135E-01 -0.89E-01 0.12E-'-0 27.50 79.54 43.630 -0.296E-02 0.133E-01 -0.90E01 0.12E+00 27.75 79.53 43.632 -'0.254E-01 Il-01 -0.90001 0.12E+00 28.00 79.53 43.62 -0.202E-01 19E01 0.90E-0 0.12E+00 28.25 79.54 43.631 -0.971E-02 0.127E-01 -0.90E-01 0.12E+00 28.50 79.54 43.631 -0.102E-01 0.125E-01 -0.90E-01 0.12E+00 28.75 79.54 43.630 0.210E-02 0.123E-01 -0.9bE-01 0.12E+00 29.00 79.54 43.631 -0.746E-02 0.12E-01 -0.91E-01 0.11E+00 29.25 79.54 43.630 0.548E-02 0.119E-01 -0.91E-01 0.I1E+00 29.50 79.55 43.629 0.152E-01 0.117E-01 -0.91E-01 0.1lE+00 29.75 79.55 43.631 -0.365E-02 0.115E-01 -0.91E-01 0.11E+00 30.00 79.55 43.631 -0.518E-02' 14F-01 -0.92E-01 0.11E+00 30.25 79.56 43.631 0.286E-02 0.112E-01 -0.92E-01 0.11E+00 30.50 79.55 43.631 -0.793E-03 LI 10E-01 -0.92E-01 0.11+00 30.75 79.57 43.631 0.664E-02 0.108E-01 -0.92E-01 0.11E+00 31.00 79.57 42'2 0.22'E-'1 0.106E-01 -0.93E-01 0.11E+0 31.25 79.57 42.630 0.210E-01 6.104E-01 -0.93E-01 6.11E00 31.50 79.58 4.630 0.251E-01 0102E-01 -0.93E-01 0.11E+00 31.75 79.55 43.630 0.254E-01 0.i00-01 -0.94E-01 0.11E+00 32.00 79.57 43.630 0.207E-01 09L1E-02 -0.94E-01 0.11E+00 32.25 79.58 4-.60 0.23LE-01 0.6162 -0.95E-01 0.1E+00 32.50 79.58 43.61 0.155E-01 42E-02 -0.95E-01 0.11E+00 32.75 79.58 43.633 0.614E-02 . -02 -0.9- 0.11E+00 33.00 79.58 43.602 0.115E-01 0.90'E-02 -0.96E-1 0.11E+00 4

S3.25 79.59 3.j22 0.144E-01 0.884E-02 -0.96E-01 0.11E+0 33.50 F9.59 43.633 0.535E-02 0.865F-02 -0.97E-01 0.1100 33.75 79.59 43.634 0.380E-02 0.84E702 -0.97E-01 0.11E+00 34.00 79 .60 43.634 0.755E-02 0.166E-02 -0.9E-01 0.11E+00 IF IT IS ASSUMIED THHT THE LEFAK FATE IS CONSTANT:

THE MEAN 0..114E+-0100 .9S THE STA.8ARD DEVIATION IS 0E.491E-01 THE CALCLATED LEA PATE AFTER 11.00 HOURS OF TEST IS. 0.1 06E-.2 Figure 6-2

OCONEE 29.5 PSIS ILRT UNIT 2 TIME, DATE START OF TEST 23.00 702 TIME AFTER START OF TEST = 11.00 HR LEAK RATE BASED ON POINT-TO-POINT CALCULATIONS

TIME TEMP. PRESSURE MEASURED CALCULATED 95% CONFIDENCE (F) (PSIA) LEAK RATE LEAK RATE LIMITS 23.25 79.51 43.629 -0.259E+00 0.180E-01 -0.48E+00 0.52E+00 23.50 79.51 43.628 0.338E+00 0.175E-01 -0.48E+00 0.52E+00 23.75 79.52 43.628 0.338E+00 0.170E-01 -0.48E+00 0-.52E+00 24.00 79.52 43.628 0.109E+00 0.165E-01 -0.48E+00 0.51E+00 24.25 79.51 43.628 -0.125E+00 0.160E-01 -0.48E+00 0.51E+00 24.50 79.51 43.626 0.600E+00 0.160E-01 -0.48E+00 0.51E+00 24.75 79.52 43.627 -0.318E+00 0.151E-01 -0.48E+00 0.51E+00 25.00 79.52 43.627 -0.214E-01 0.146E-01 -0.48E+00 0.51E+00 25.25 79.53 43.628 -0.630E-01 0.141E-01 -0.48E+00 0.51E+00 25.50 79.53 43.628 0.463E-01 0.136E-01 -0.48E+00 0.51E+00 25.75 79.53 43.628 -0.983E-01 0.131E-01 -0.48E+00 0.51E+00 26.00 79.54 43.628 0.321E-01 0.126E-01 -0.48E+00 0.50E+00 26.25 79.54 43.629 -0.264E-01 0.122E-01 -0.48E+00 0.50E+00 26.50 79.54 43.629 0.717E-02 0.117E-01 -0.48E+00 0.50E+00 26.75 79.54 .43.629 -0.165E+00 0.112E-01 -0.48E+00 0.50E+00 27.00 79.54 43.63.0 -0.460E-01 0.107E-01 -0.48E+00 0.50E+00 27.25 79.54 43.630 -0.4605E-i 0.102E-01 -0.48E+00 0.50E+00 27.50 79.54 43.630 -0.128E+00 0.974E-02 -0.48E+00 0.50E+00 27.75 . 79.53 43.632 -0.430E+00 0..925E-02 -0.48E+00 0.50E+00 28.00 79.53 43.632 0.802E-01 0.877E-02 -0.48E+00 0.50E+00 28.25 79.54 43.631 0.199E+00 0..828E-02 -0.48E+00 0.49E+00 28.50 79.54 43.631 -0.214E-01 0.780E-02 -0.48E+00 0.49E+00 28.75 79.54 43.630 0.274E+00 0.732E-02 -0.48E+00 0.49E+00 29.00 79.54 43.631 -0.227E+00 0.683E-02 -0.48E+00 0.49E+00 29.25 79.54 43.630 0.316E+00 0.635E-02 -0.48E+00 0.49E+00 29.50 79.55 43.629 0.259E+00 0.586E-02 -0.48E+00 0.49E+00 29.75 79.55 43.631 -0.495E+00 0.538E-02 -.0.48E+00 0.49E+00 30.00 79.55 43.631 -0.463E-01 0.490E-02 -0.48E+00 0.49E+00 30.25 79.56 43.631 0.228E+00 0,441E-02 -0.48E+00 0.49E+00 30.50 79.55 43.631 -0.107E+00 0.393E-02 -0.48E+00 0.49E+00 30.75. 79.57 43.631 0.230E+00 0.344E-02 -0.49E+00 0.49E+00 31.00 79.57 43.629 0.520E+00 0.296E-02 -0.49E+00 .0.49E+00 31.25 79.57 43.630 -0.314E-01 0.248E-02 -0.49E+00 0.49E+00 31.50 79.58 43.630 0.159E+00 0.199E-02 -0.49E+00 0.49E+00 31.75 79.58 43.630 0.339E-01 0.151E-02 -0.49E+00 0.49E+00 32.00 79.57 43.630 -0.141E+00 0.102E-02 -0.49E+00 0.49E+00 32.25 79.58 43.630 0.112E+00 0.539E-03 -0.49E+00 0.49E+00 32.50 79.58 43.631 -0.269E+00 0.546E-04 -0.49E+00 0.49E+00 32.75 79.58 4:3.633 -0.351E+00 -0.430E-03 -0.50E+00 0.50E+00 33.00 79.58 43.632 0.222E+00 -0.914E-03 -0.50E+00 0.50E+00 33.25 79.59 4:3.632 0. 128E-+00 -0.140E-02 -0.50E+00 0.50E+00 33.50 79.59 43.633 -0.365E+00 -0.188E-02 -0.50E+00 0.50E+00 33.75 7%r.59 43.634 -0.613E-01 -0.237E-02 -0.50E+00 0.50E+00 34.00 79.60 43.634 0.169E+00 -0.285E-02 -0.50E+00 0.50E+00 IF IT IS ASSUMED THAT THE LEAK RATE IS CONSTANT:

THE MEAN IS 0.756E-02 THE STANDARD DEYIATION IS 0.236E+00 THE CALCULATED LEAK RATE AFTER 11.00 HOURS OF TEST IS -0.285E-02 Figure 6-3

OCONEE 29.5 PCSIG ILPT UNIT 2 TIMES DATE START OF TEST 23.00 702 TIME AFTER START OF TEST = 11.00 HR TRENDS EASED ON TOTAL-TIME CALCULATIONS HOURS DATA MEAN OF CALCULATED CHG IN CALC LR OF TEST ENTRIES CALC LR LEAK RATE FROM LAST POINT 0.4 -0 .52E -01 0.106E+ 0i.

1 .00 5 -0.21: E-1 0.130E+00 0.240E-01 1.25 6 -0. 19E- 1 0.11,E+00 -0.179E-01 1 .5 7 0 122E-1 0. 150E+ 00 0.372E-01 1.75 s 0. 195E 5 1 0. 139E+00 -0.104E-01

2. l 9 0.237 E -1 0.127E+00 -0. 126E-01 2.25 10 0 . 25E-01 0.11E+00 -0. 143E-01 2.50 11 l.271E-A1I 0.1 02E+00 -0. 115E-01 2.75 12 0.273E-01 0. 97E- 01 -0.121E-01

.00 13 0.273E-01 0. 05E-01 -0.923E-02 14 0 (.71E-01 0' 1E-01 -0.842E-02 3.50 15 0.26E-01 0 .650E-01 -0. 703E-02 16 0.257E-01 0 .5E- 01 -0 . 8 71E-02 4.00 . 17 .245E-01 0 .485E-01 -0.787E-02 4.25 1 0 .234E-01 0 .415E-01 -0.701E-02 4.50 19 0.219E-01 0..4 E-01 0.729E-02 4.75 0 0. 194E- 01 0 .237E--01 -0. 104E-01 5.00 21 0fi.174E -01 0. 160iE-01 -0.776E-02 5 . 25 . 161E- 01 0.11' E- 01 -0. 468E- 02 5.50 0. 149E-01 0.722 E-02 -0 406E-02 5.75 24 0.144E-01 f.5 7E-0K -0.145E-02 6.00 135E- 0 I 1'-. 0.304E- 02 0.273E-02 6..5 26 0. 131 E- 01 0.64E- 0 -0.401E-03

6. .50 27 0. 13E- 01 . 37E-02 0.108E-02

6. 75 20.126E-I01 0f. 4E-02 0.169E-02

7. 0 0 2 10E-f01 0.36E-03 .168E-02 7.35 30 0.117E-01 -i.3E-04 -0.419E-03 7.50 31 0.117E-01 H0.SS6E-03 -0.82E 03 2.5 32 0.111 E- 01 .6 3E-0: 0.193E-03

. .00 33 l. 115E- 01 C.14 0E- 02 0.1 E- 03 34 0.117E-01 0 .11E-0 0. 10E -0 8.50. 3 0.11E-01 014 IE-02 0.200E-02 8i.5 3 0.1. E- 01 0.6 11-4E- 02 0.18C4E-02

.00 :5 0.137E-01 .811E-03 0.118E 02

.25 80. 130E-,1 0 .4E- 0 0.184E-02 9.590 39 .131E-01 0.98~9E*-02i 0.437E-03 9.75 4 1. 1 7E- -I .6E-2 0.5 26E-03 10.00 41 0.139E-01 C. 940E- C C2.37E-04 10 .254 0.1 2E-01 1.i1 E- 0 . 3 06E-03

10. . 43 0J. 1C7E-01 16E- 02 0.54E-023 10 .7 44 E,.125E-C1 1 .5 E- 1 -. 41E-031 11 .0 45 0i. 124E- 01 0.82~6E- 03 -02i E 0 THE CALCULATED LEAK FATE IS 0.:26E-02 THE rA:X: 1MlM ALLMDRELE LEAK PATE IS 0.76E+ 0 THE LAST 3 DATA POINTS ESTEAL ISH A NEGATIVE SLOPE Figure 6-4

'29.5 PILRT UNIT #2

-Ann haa

.16 : .... -.

- ;ma IBM.- ar 1t;-

4* .......

HOOP.- T A.. 2-.. ........... .c:xI Q4.T-.nJiI PPT:T:in. I I

.2 .1

~

. ..... n a a .a a* l t..

.. y .. .. ..

:: 1 .. ........ 7 PY wHI+/-Jit KzwSly Time(Hous Ater tar of est

SUMMARY

OF MEARURED DATA AT TIME 2300 702 CALC. ENTERED TEMP 1 = 68.507 SS.570 TEMP 2 = 69.397 69.490.

TEMP 3 = 80.192 30.270 TEMP 4 = 7S.216 78.300 TEMP 5 = 80.276 8 0.44 0 TEMP 6 = 79.272 79.350 TEMP 83.361i= 83.450 TEMP 8 = 79.337 79.430 TEMP .9 = 79.981 80.050 TEMP 10 = 79.717 79.770 TEMP 11 = 69.776 69.810 TEMP 12 = 63.618 68.690 TEMP 13 = 68.734 68.83 TEMP 14 = 80.881 S0.940 TEMP 15 = 81.265 91.330 TEMP 16 = 80.133 80.190 TEMP 17 = 79.747 79.790 TEMP 1 = 81.144 81.230 TEMP 19 = 81.451 81.510 TEMP 20 = 80.441 80.430 TEMP 21 = 80.354 80.420 TEMP 22 = 81.123 81.190 TEMP 23 = 81.523 81.560 TEMP 24 = 82.465 82.550 TPRS 1 = 44.009 44.009

','F'RS 1 = 0.378 71 .20C0

'*.'PRS 2 = 0.083 71 .600 CHANGE ANY DRTA ??NO TEMP. AND PRESI. CORRECTED DATA TULMMARPY TIME = 2300 DATE - 702 TEMP = 79.507474 PRES = 43.627690 Figure 6-6

3UMMAPY OF MEA:'UPED DATA AT TIME 2315 702 CAL C. ENTERED TEMP I = E8 .467 6,.530 TEMP 2 = 69.337 69.430 TEMP 3 = 0.222 80.300 TEMP 4 =78 .206 78.290 TEMP 5 =D0.386 0. 450 TEMP E 79.22 7960 TEMP =83.421 83.510 TEMP 8 79.347 79.440 TEMP 9 = 79.971 0. 040 TEMP 10 = 79.727 79.780 TEMO ll 69 .7E.6 69.800 TEMP 12 = 68 .5983 68.670 TEMP 13 = 6E.674 68.770 TEMP 14 = 80. 1 80.950 TEMP 15 = 81.285 81.350 TEMP 16 = 30.143. s0.200 TEMP 17 =79.737 79.770 TEMP 1 = 31.174 81.260 TEMP 19 = 81 .441 31 .500 TEMP 20 = 80.461 80.450 TEMP 21 = 30.394 30. 46 0 TEMP 22 = 81.093 31 .150 TEMP 23 = 81.503 31 .540 TEMP 24 = "2.4:5 82.570 TPPS3 1 = 44.009 44.009 VPR& 1 = 0.376 71 . 000 VPRS 2 = 0.33 71 .6l00 CHANGE ANY DATA ??NiO TEMP. AND PRES::S. CORPECTED DATA :SrUMMARY TIME = 2315 DATE = 702 TEMP = 79.50574 PRES: = 432c720 Figure 6-7

iUMMARY OF MEA{URPED DATR AT TIME 2330 702 CALC. ENTERED TEMR 1 = 63.447 63.510 TEMP = 69.357

' 69.450 TEMP 3 80.242 f .0 2 TEMP 4 = 78.226 78 .310 TEMP 5 = 470n0.406 TEMP 6 = 79.292- 79.370f TEMP = 3.41 TEMP = 79.4'7 79.440C TEMP 9 = 7 .991 13 0.060 TEMP 10 = 79.717 79.770 TEMP 11 = 69.756 6 '.790 TEMP 12 = 6.55.

TEMP 1 .694 4-0 6.

TEMP 14 = 801 8'.60 TEMP 15 = 1.3I 1.0 TEMP 16 = 0. 14 3 1. 0 TEMP 17 = 79.757 79.790 TEMP 13 = 1 .164 31 .250 TEM' 19 = !1.441 31 .500 TEMP 20 = 30 .501 30 .490 TEMP 21 = 0. 374 30.440 TEMP 22 = :1 14? 12l00 TEMP 23 01 4 1 .0 TErMF 24 = . C 255 TPRS: 1 = 44 .07 44 .07 VPR: 1 = 71.000

'PR" 2 = 0.1 500 TEMP. AND PRESS. COPECTED DATrA UMMARY TIME = 2330 DATE = 702 TEMP = 79.509673 PRES = 4.3 . 6750 Figure 6-8

SUMM~AY OF MEA:LPRED DATA AT TIME 2345 702 CALC. ENTERED TEMP 1 = 68.407 68.470 TEMP 2 = 69.34;7 69.440 TEMP 3 = 81 .252 80.3310 TEMP 4 = 78.246 78.330 TEMP J = 804.416 80.480 TEMP 6 = 79.312 79.390 TEMP 7 = 83.451 83.540 TEMP 8 = 79.-337 79.430 TEMP 9 = 8n.011 80. 080 TEMP 10 = 79.717 79.770 TEMP* 11 = 69.756 69.790 TEMP 12 = 68.548 68.620 TEMP 13 = 68 .684 68 .780 TEMP 14 = 80. 9:31 80.990 TEMP 15 = S1.305 81.370 TEMP 16 = 8 0 .153 80.210 TEMP 17 = 79.777 79.810 TEMP 18 = 81.164 81 .250 TEMP 19 = :1.461 81.520 TEMP '0 = 80.421 80.410 TEMP 21 - 8 0.414 80.480 TEMP 22 = 81.143 81 .200 TEMP 23 1.503 81.540 TEMP 24 = 2.475 82.560 TPRS7 1 = 44.007 44.007 VPRS: 1 = 0.376 71 .000 VPRS 2 = 0.32 71 .500 CHANGE ANY DATA ??NO TEMP. RHD FRESSc.. C;OFRECTED DATA

SUMMARY

TIME = 2345 DATE = 702 TEMP = 7?. 51530 PRESl = 43.627500 Figure 6-9

SUMMARY

OF MEASLIED DATA AT TIME 2400 702 CALC. ENTERED TEMP 1 = 68.407 68.470 TEMP 2,= 69.327 69.420 TEMP 3 = 80.292 80.370 TEMP 4 = 78.256 78.340 TEMP 5 = 80.406 80.470 TEMP 6 = 79.322 79.400 TEMP 7 = 83.511 83.600 TEMP 8 = 79.337 79.430 TEMP 9 = 80.021 S0.090 TEMP .10 = 79.747 79.800 TEMP 11 = 69.746 69.780 TEMP 12 = 68.51S 68.590 TEMP 13 = 68.654 68.750 TEMP 14 = 80.961 81.020 TEMP 15 = 81.315 81.380 TEMP 16 = 80.17? 80.230 TEMP 17 = 79.767 79.800 TEMP 18 = 81.184 81.270 TEMP 19 = 81.451 81.510 TEMP 20 = ?0.461 80.450 TEMP 21 = 80.3S4 80.450 TEMP 22 = 81.163 81.220 TEMP 23 = 81.503 81.570 TEMP 24 = S2.405 82.520 TPRS 1 = 44.00? 44.007 VPRS 1 = 0.376 71.000 VPRS 2 = 0.382 71.500 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 2400 DATE = 702 TEMP = 79.521480 PRES = 43.627500 Figure 6-10

SUMMARY

OF MERURED DATA AT TIME 15 703 CALC. ENTERED TEMP 1 = 69.337 63.450 TEMP 2 = 69.337 69.430 TEMP 3 = 80.29 0.3-7 TEMP 4 = 78 S.6 7!. 50 TEMP 5 = 80 .43 0 .i0 TEMP 6 = 79.33' 79.410 TEMP = 3.41 .54 TEMP = 79. 357 79450 TEMP 9 = c0.0i0 Q0.

TEMF 10 =79.757 7 9.1 0 TEMP 11 6".72I 6 69.76 TEMP 1'2 = .ED.49'- 6s8I,. 5,70 TEMP 1 =6-. , 4 6. 7.0 TEMP 14 0.98-1 1 .04r0 TEMP 15 1. 1 ;1.390 TEMP 16 = .18 80. 240 TEMP 17 7 . 77 77. 810 TEMP 13 1 1'.4 81270 TEMP 19 = 1 .441 1 500 TEMP 20 = . 451 8.440 TEMP 1 80. 444 ' .510 TEMP 1.14 S 1 .200 TEMP 2D = S1 .503 1 .540 TEMP 24 = 2.3.D 32.470 TPR S 1 44.C0A 44.007 VPR 1 = 0. 376 7 1 . 0 C0 VPRS 2 = :0.332 71 .50 l CHARNGE ANY DATA ??ND TEMP. AND PES.:. CORRECTED DATA SUMMAPY TIME =

DATE = 703 TEMP = 7'.51448'?

PRES. = 43.627500 Figure 6-11

SULMMRY OF MEASUpED LATA AT TIME 30 703 CALC. ENTERED TEMP 1 = *. 6843 TEMP 2 = 69.337 69.430 TEMP 3 ?0.292 30.370 TEMP 4 = 78.276 78.360 TEMP 5 = 90.446 80.510 TEMP 6 = 79.332 79.410 TEMP 7 = 83.461 83.550 TEMP 8 = 79.357 79.450 TEMP 9 = 80.051 80.120 TEMP' 10 = 79.757 79.810 TEMP 11 = 69.726 69.760 TEMP 12 = 68.46: 69.540 TEMP 13 = 6S.644 68.740 TEMP 14 = 80.991 81.050 TEMP 15 = 81.W5 81.400 TEMP 16 = 80.193 80.250 TEMP 17 = 79.797 79.80 TEMP 18 = 81.184 81.270 TEM" 19 = 81.431 81.490 TEMP 20 = 80.451 80.440 TEMP 21 = 80.434 80.500 TEMP 22 = 81.163 81.220 TEMP 23 = 81.523 81.560 TEMP 24 = 82.425 82.520 TPRS 1 = 44.005 44.005 VPRS 1 = 0.376 71.000 VPRS 2 = 0.382 71.500 CHANGE ANY DATA ??NO

,TEMP. AND PRESS. COPRECTED DATA TUMMARY TIME = 30 DATE = 703 TEMP = 79.523483 PRES = 43.625500 Figure 6-12

SUMMARY

OF MEASURED DATA AT TIME 45 70*3 CALC. ENTERED TEMP 1 = 68.347 68.410 TEMP 2 = 69.327 69.420 TEMP 3 = S0.312 0 .90 TEMP 4 = 78.296 78.380 TEMP 5 = 00.456 :80.520 TEMP 6 = 79.342 79.420 TEMP 7 = 83.521 83.610 TEMP 8 = 79.357 79.450 TEMP 9 = 80.041 80.110.

TEMP* 10 = 79.757 79.810 TEMP 11 = 69.70S 69.740 TEMP 12 = 68.43S 68.510 TEMP 13 = 68.634 6S.730 TEMP 14 = 80.991 81.050 TEMP 15 = 81.345 S1.410 TEMP 16 = 80.203 80.260 TEMP 17 = 79.7S7 79.820 TEMP 1 = 81.194 S1.280 TEMP 19 = 81.451 81.510 TEMP 20 = 80.441 0.430 TEMP 21 = S0.444 0. 51 0 TEMP 22 = 31.163 S1.220.

TEMP 23 = 81.523 81.560 TEMP 24 = S2.405 S2.490 TPR3 1 = 44.005 44.005 VPR 1 = 0.376 71.00c VPRS 2 = 0.::0 71.300 CHANGE ANY DATA ??M@NO TEMP. AND PRESS. CORPECTED DATA

SUMMARY

TIME =45 DATE = 70::

TEMP = 79.524887 PRET = 41.627060 Figure 6-13

UNMAY C1 MEA&UPED DATA AT TIME 100 703 CALC. ENTERED TEMP 1 68.327 63.390 TEMP 2 = 69.307 69.400 TEMP 3 =80.332 80.410 TEMP 4 = 78.-06 7 -.

390 TEMP 5 = a0.456 0 TEMP 6 79.352 79.430 TEMD = 83.491 83.580 TEMP 8 79.367 79.460 TEMP 9 80.001 80.130 TEMP 10 79.757 7%.10 TEMP 11 69.696 69.730 TEMP 12 = 68.428 68.500 TEMP 13 = 68.604. 6.700 TEMP 14 = 80.91 81.05 TEMP 15 = 81.335 81.400 TEMP 16 = 80.212 30.270 TEMP 17 = 79.797 79.30 TEMP 1 = 81.194 81.280 TEMP 19 = 81.441 81.500 TEMP 20 = 80.471 80.460 TEMP 21 = 80.453 80.520 TEMP 22 = 81.173 81.230 TEMP 23 = 81.523 81.560 TEMP 24 = 82.365 92.450 TPRS 1 = 44.005 44.005 VPRS 1 = 0.376 71.000 VPRS 2 = 0.3s0 71.300 CHANGE ANY DATA ??NO TEMP. AND PPETI. COPRECTED DATA

SUMMARY

TIME = 10, DATE = 703 TEMP = 79.513689:;

PRES = 43.62706 Figure 6-14

OUMMAR OF MEA URED DATq AT TIME 115 703 CALF ENTERED TEMP 1 = #.317 6.0 TEMP : = 6 TEMP 3 = 0.3 4 .40 TEMP 4 = 7. 78.410 TEMP 5 = 0.476 80 .40 TEMP 6 = 7 79.440 TEMP J 3.531 83.

JEMP : = 79.357 79.450 TEMP 9 =30.061 0 .130 TEMP. 10 = 79.77 79.340 TEMP 11 = 69.686 69.7 0 TEMP 12 = 6-.38 68.470 TEMP 13 = 6 .04 67. 00 TEMP 14 = 1. 021 1.Ci TEMP 1I5 = 1. 3 3 1 .4-0 TEMP 16 = 80.3 C .2 TEMP 17 = 7 9 3 TEMP 18 =14 81. 0 TEMP 19 = '1.441 1 .00 TEMP 20 = I .r11 .0 TEMP 21 = , .45. 8-.50 TEMP 22 = 1.13 1 TEMP 21 '1'.0 TEMP 24 = .3.5 4.0 TPRS: 1 = 44 . i 75 44 . 005 VPRS 1 = I0.376 71 .000 VPRS: 2 = 0 .3:7 71. 200 CHANGE Ar'Y DA;TA ??NO TEMP. AND PRE::. COPPECTED DATA :UMARY TIME = 115 DATE = 703 TEMP = 79.27 PRES = 43 .67940 Figure 6-15

UMMARTY OF MEASURED DATA AT TIME 130 70 CALC. ENTERED TEMP = 68.297 68.360 TEMP 2 = 69.277 69.370 TEMP 3 80.352 80.430 TEMP 4 = 78.316 78.400 TEMP 5 =80. u 80.570 TEMP 6 79.372 79.450 TEMP 7 = U.591 S3.680 TEMP 8 = 79.377 79.470 TEMP 9 = 80.091 90.160 TEMP 10 = 79.807 79.860 TEMP' 11 = 69.666 69.700 TEMP 12 = 68.398 68.470 TEMP 13 = 68.584 68.680 TEMP 14 = 81.041 81.100 TEMP 15 = 81.375 81.440.

TEMP 16 = 80.223 80.280 TEMP 17 = 79.807 79.'40 TEMP 1 = 81.204 81.290 TEMP 19 = 81.441 81.500 TEMP 20 = 80.471 80.460 TEMP 21 = 86.444 80.510 TEMP 22 = 81.163 81.220 TEMP 23 = 81.513 81.550 TEMP 24 = 82.395 82.480 TPRS 1 = 44.005 44.005

'*PRS I = 0.376 71.000

PRS 2 = 0.378 71.200 CHANGE ANY DATA ??NO TEMP. AND) PRESS. CORPECTED LATA SUMMAYF TIME = 130 DATE = 703 TEMP = 79.532393 PRE& = 43.627S4K Figure 6-16

SUMMAHY OF MEASURED LATA AT TIME 145 CALC. ENTERED TEMP 1 = 68.37 6.380~

TEMP 2 = 69.360 TEMP =C. 80.450 TEMP 4 = 73 73.420 TEMP 5 = 8.5 S0.570 TEMP 6 . 79.450 TEMP 7 = 83.640 3.51 TEMP 8 = 79.367 79.460 TEMP 9 = .0.0:'71 0 .140 TEMP 10 = 79.07 79 .60:

TEMP

11 = E.9 .596 69.63 0 TEMP 12 = 6 .0 6:.680 TEMP 13 = . 454 6 .640 TEMP 14 = E 1.01 1 ,.090 TEMP 15 = 1. 5 C 1 .43 TEMP 16 = 80. 2 2 0.

TEMP 17 = 79.:27 79.60 TEMP 13 = 1 1194 8 1.2l TEMP 19 1 4511 :1 .510 TEMP 20 = 8.41. 0470I TEMP 21 = 4 3 .530 TEMP 22 = 1 19 S 1 240 TEMP 23 1 1..3 C1.55 TEMP 24 = 824.45 32.4 TPRS 1 = 44.004 44. 004 VPRS 1 = 0.376 71 .000 VPRS 2 = 0.376 71 .0 C0 C;HANG'3E ANY DATA ??NO TEMF. AND PRE:S. C-ORREC:TED DATA 3UMMARY TIME = 145 DATE = 7:3 TEMP = 7?.53;7 PPES = 4:.62:4(n Figure 6-17

UMMArY OF MEPSURED DRT A AT TIME 200 703 CALC. ENTERED TEMP 1 = 6.297 68.360 TEMP 2 = 69.237 69.33 TEMP 3 -= 80.402 80. 48 0 TEMP 4 = 78.146 79.410 TEMP 5 = 80.506 . 0.570 TEMP = 79.382 79.460 TEMP 7 = 3.51 83.610 TEMP 8 = 79.377 79.470 TEMP 9 = 80.091 80.160 TEMP, 10 = 79.317 79.870 TEMP 11 = 69.546 69.580 TEMP 12 = 68.658 6a.730 TEMP 13 = 68.504 6S.600 TEMP 14 81.051 81.110 TEMP 15 = 81.365 1 .4:0 TEMP 16 = 80.243 000 TEMP 17 =79.07' 79.840 TEMP 18 81.204 31.290 TEMP 19 81.461 81.520 TEMP 20 = 80.501 80490 TEMP 21 = 80.480 80.550 TEMP 22 = 81.173 81.230 TEMP 23 = 81.503 81.540 TEMP 24 = 82.S45 82.4-:

TPRS 1 = 44.004 44.004 VPRS 1 = 0.376 71.000 VPRS 2 = 0.376 71.000 CHANGE ANY DATA ??NO TEMP. AND PRESS. COPRECTED DATR

SUMMARY

TIME = 2o0o DATE = 703 TEMP = 79.53595 PRES = 43.62840 .

Figure 6-18

U*MMARY OF MEAJUFED DATA AT TIME 215 703 CALC. ENTERED TEMP 1 = 68.267 68.330 TEMP 2 = 69.217 69.310 TEMP 3 = 80.412 80.490 TEMP 4 = 78.376 78.460 TEMP 5 = :0.516 80.580 TEMP 6 = 79.392 79.470 TEMP 7 = 83.571 83.660 TEMP 8 = 79.367 79.460 TEMP 9 = . 0.101 80.170 TEMP 10 = 79.797 79.850 TEMP, 11 = 69.496 69.530 TEMP 12 = 68.648 68.720 TEMP 13 = 68.494 68.500 TEMP 14 = 81.061 81.120 TEMP 15 = 81.375 81.440 TEMP 16 = 80.243 80.300 TEMP 17 = 79.817 79.850 TEMP 1 = 81.204 81.290 TEMP 19 = 81.461 81.520 TEMP 20 = 80.531 80.520 TEMP 21 = 80.463 80.530 TEMP 22 = 31.193 81.250 TEMP 21 = 81.513 81.550 TEMP 24 = 82.375 82.460 TPRS 1= 44.004 44.004 VPRS 1 = 0.374 70.900 VPRS 2 = 0.376 71.000 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 215 DATE = 70::

TEMP = 79.5402?4.

PRES = 43.62S900 Figure 6-19

SUMMARY

OF MEASURED IHAT AT IME 2a0 7 CALC. ENTERED TEMP 1 = 68.247 69.310 TEMP 2 = 69.207 69.301 TEMP 3 = 80.452 80.530 TEMP 4 = 78.376 78.46:1 TEMP 5 = 80.526 80.590 TEMP 6 = 79.422 79.500 TEMP 7 = 83.541 83.630 TEMP 8 = 79.367 79.46, TEMP 9 = 80.121 80.190 TEMP 10 = 79.827 79.880 TEMP. 11 = 69.456 69.490 TEMP 12 = 68.618 6S.690 TEMP 13 = 68.474 68.570 TEMP 14 = 81.091 81.150 TEMP 15 = 81.375 81.440 TEMP 16 = 80.25 s0.310 TEMP 17 = 79.827 79.860 TEMP 1 = 81.204 81.290 TEMP 19 = 81.451 81.510 TEMP 20 = 80.501 3.49:

TEMP 21 = 80.503 80.570 TEMP 22 = 81.183 81.24':

TEMP 23 = 31.513- 81.550 TEMP 24 = 82.365 82.450 TPRS 1 = 44.002 44.002 VPRS 1 = 0.373 70.800 VPRS 2 = 0.373 70.800 7 NO CHANGE ANY DATA TEMP. AMD PRESS. CORRECTED DATA

SUMMARY

TIME = 230 DATE = 70:

TEMP = 79.540696.

PRES = 43.628900 Figure 6-20

SUMMARY

OF MEA:LRED DATA AT TIME £45 703 CALC. ENTERED TEMP 1 = 63.237 68.300 TEMP 2 = 69.J186 49.S80 TEMP = S 0.452 R0.r53 TEMP 4 = 73.366 7S.450 TEMP 5 = .16 80.5:0;.

TEMP 6 = 9.4 79.500 TEMP 7 C1 r3. 83.710 TEMP S = 79.367 79.46 TEMP 9 = 80.'11 80.200 TEMP. 10 =79.83 79.'890C TEMP 11 = 69.416 69.450 TEMP 12 = 6S.578 68.65 TEMP 13 = 68.444 68 .540 TEMP 14 = 81.111 91.170 TEMP 15 = 8 1.5 81 .460 TEMP 16 = 80.75 80 .10 TEMP 17 = 7'9.7 79._60 TEMP 1: = "1204 1. 9O TEMP 1? = .4 E1 G1 .52 TEMP 20 = 0.49 1 30 . 4;F0 TEMP 21 = 80. 43 80.5:0 TEMP 22 = 1. 17 31.230 TEMP 2: = 8 1 .5 3 1.550 TEMP 24 = :=.3 2.420 TPR: 1 = 44.002 44.002 VPRS 1 = 0.363 70.400 VPRS 2 = 0.376 71 .00 0 CHANGE RN'Y DATA -?NO TEMP. RND PRE% . CORRECTED DATA

SUMMARY

TIME = -45 DATE = 703 TEMP = 79.531 IS - 1 PRES = 43 .629400 Figure 6-21

SUMMARY

CF MEASURED DATq AT TIME 300 CALC. ENTERED TEMP 1 = 68.217 68.280 TEMP 2 = 69.156 69.250 TEMP 3 = 80.442 30l.5a; TEMP 4 = 73.366 78.450 TEMP 5 = 80.536 80.600 TEMP 6 = 79.422 79.500 TEMP 7 = *3.661 83.750 TEMP 8 = 79.387 79.480 TEMF 9 = 80.131 90.200 TEMP 10 = 79.S27 79.990 TEMP' 11 = 69.386 69.420 TEMP 12 = 68.158 68.630 TEMP 13 = 68.424 68.520 TEMP 14 = 81.111 81.170 TEMP 15 = 81.S95 1.460 TEMP 16 = 80.263 80.320 TEMP 17 = 79.837 79.870 TEMP 18 = 81.214 81.300 TEMP 19 = 81.4S1 81.520 TEMP 20 = 80.T31 80.520 TEMP 21 = 80.513 80.580 TEMP 22 = 81.193 81.240 TEMP 23 = 81.503 81.540 TEMP 24 = a2.365 82.450 TPRT 1 = 44.002 44.002 VPRS 1 = 0.167 70.300 VPRS 2 = b.376 71.000 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 30C DATE = 70 TEMP = 79.541196 PRES = 43.62990A Figure 6-22

ZcUMMARY OF MEAKURED DATA AT TIME 315 70 CALC. ENTERED TEMP 1 = 6.1-7 68.250 TEMo 2 = 69.126 69.220 TEMP 3 = 30.462 80.540 TEMP 4 = 78.376 7D.460 TEMP 5 80.526 80.59 0 TEMP 6 79.452 79.530 TEMP :3=3:.701 83 .790 TEMP S = 79.377 79.470 TEMP 9 = 30.121 80.190 TEMP. 10 = 79 .. :37 79.390 TEMP 11 = 6'9 .356 69.390 TEMP 12 = 63 .503 68 .580 TEMP 13 = 68.414 68.510 TEMP 14 = 81.121 31.18I0 TEMP 15 = 81.395 81.460 TEMP 16 = 80.273 80..30 TEMP 17 = 79.47 79.330 TEMP 1 81 .214 81.:30 TEMP'D = 81. 41 81.520 TEMP ' = D0.41 80.5320 TEMP 21 == 80.4 80.540 TEMP 22 = 1 1.230 TEMP 23 1.503 81.540 TEMP 24 = .325 82.410 TP.:S 1 = 44 .0 1 44 . 001

.P: 1 = 0 .:367 70.300 VPRS 2 = 0.374 70.900 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA PIUMMRiRY TIME = 315 DATE = 703 TEMP = 79.535999 PRE- = 43 . 6250 Figure 6-23

SUMMARY

OF MERAUPED DATA AT TIME 330 CALC. ENTERED TEMP 1 = 68.177 68.240 TEMP 2 = 69.106 69.200 TEMP 3 = 80.452 80.530 TEMP 4 = 78.386 78.470 TEMP 5 = 80.546 80.610 TEMP 6 = 79.452 79.530 TEMP 7 = 83.721 83.310 TEMP 8= 79.367 79.460 TEMP. 9 = 80.11 80.200 TEMP 10 = 79.837 79.890 TEMP 11 = 69.315 69.350 TEMP 12 = 8.47S 68.550 TEMP 13 = 68.374 68.470 TEMP 14 = 81.151 81.210 TEMP 15 = 81.405 81.470 TEMP 16 = 80.273 80.330 TEMP 17 = 79.937 79.870 TEMP 18 = 81.214 81.300 TEMP 19 = 31.471 31.520 TEMP 20 = 30.561 30.550 TEMP 21 = 80.473 30.540 TEMP 22 = 81.193 81.250 TEMP 23 = 31.493 81.5:0 TEMP 24 = 82.305 82. 390 TPRS 1 = 44.000 -44.000 VPRS 1 = 0.367 70.300 VPRS 2 = 0.372 70.700 CHANGE ANY DATA ??NO I

'TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 330 DATE = 703 TEMP = 79.535001 PRES = 43.60150 Figure 6-24

SUMMARY

OF MEASUFED DA-TA AT TIME 345 0 CALC. ENTERED TEMP 1 = 68.147 68.210 TEMP 2 = 69.0 6 69. 10 TEMP 3 =80 .45.? 80 .5:30 TEMP 4 = 78. 396 78 . 4:0 TEMP 5 = 8D.566 TEMP 6 = 79.442 7 9.5*C TEMP 7 = 3.641 3.730 TEMP = 79.377 9. 410 TEMP 9 = 80.131 60 .0.

TEMP. 10 = 79.847 79.900 TEMP 11 = 69.295 933 TEMP 12 = 68.458 6E.50 TEMP 13 = 683.:44 6E. 440 TEMP 14 = 1.161 81 .220 TEMP 15 = 81.4A5 81.470 TEMP 16 = .283 1 .340 TEMP 17 = 79 79.S70 TEMP 18 = 31.214 81 .300 TEMP 19 = :1.451 S1.510 TEMP 20 = 80.'j1 801.50 TEMP 21 = 80.49 80c.560 TEMP = S1.122 81 .240 TEMP 2 1.493 81 .530 TEMP #4 82.370 TPRS 1 = 44 .001-C' 44.000 V.PR'S 1. = .0 .67 70 .3 00 VPRS 2 = .369 70.500 CHANGE ANY DATA ??,NO0 TEMP. AND RE:Il. CORRECTED DATA SUMMAPY TIME = 345 DATE = 703 TEMP = 79.5294001 PRES = 43 .63165 Figure 6-25

UMMARY OF MER:UPED DATA AT TIME 400 70 CAL C. ENTERED TEMP 1 = 5 2.1" 6 *.190 TEMP 2.= .0 6 .5I TEMP 3 = 4 0 F0.540 TEMP 4 1741'- .500 TEMP 5 = 07 S0 .640 TEMP E. = 79 44' 520 TEMP - 3.721 310 TEMP 8 79.377 9. 470 TEMP 9 = 80.151 0 .220 TEMP 10 = 79.S47 ' .900 TEMP 11 = 6.295 69 . :320 TEMP 12 6 .42: 6 .500 TEMP 1= 63 .334 6 .430 TEMP 14 = 1.15 1 8 1 .210 TEMP 15 = 1 .415 1 .430 TEMP 16 = 0. 0.30 TEMP 17 = 79f.8l5 .890 TEMP 1.8 = 1 .224 1 .310 TEMP 19 = 1 .441 1 .500 TEMP 20 = f.571 R0 . 0 TEMP 21 = 0.5 S0.620 TEMP 22 = 1.03 ' 1 .260 TEMP 23 -= 81.3 1 .540 TEMP 24 = 82.a-5 D:.350 TPP. 1 = 44 .CI0 44 .000 VPR 1 = 0.367 70.:00 VPRS 2 = 0'.369 70 .500 CHANGE ANY DATA ??HO TEMP. AND PREK. CORRECTED DATA :UMMARY TIME = 400 DATE = 703 TEMP = 79.523392 PPES = 43 .t1650 Figure 6-26

UMMRARY OF MERAURED DATA AT TIME 415 70 CALC. ENTERED TEMP 1 = 68.107 68.170 TEMP 2 = 69.046 69.140 TEMP 3 = 80.492 80.570 TEMP 4 = 78.416 78.500 TEMP 5 = 80.596 80.660 TEMP 6 = 79.482 79.560 TEMP ? = 83.721 83.810 TEMP 8 = 79.387 79.480 TEMP 9 = 80.181 80.250 TEMP 10 = 79.247 79.900 TEMP' 11 = 69.255 .69.290 TEMP 12 = 68.408 68.480 TEMP 13 = 68.304 68.400 TEMP 14 = 81.181 81.240 TEMP 15 = 81.425 .1 %.490 TEMP 16 = 80.293 S0.350 TEMP 17 = 79.857 79.890 TEMP 18 = 81.214 81.300 TEMP 19 = 81.461 S1.520 TEMP 20 = 80.611 80.600 TEMP 21 = 80.513 80.580 TEMP 22 = 81.193 81.250 TEMP 23 = 81.502 81.540 TEMP 24 = 82.285 82.370 TPRS 1 = 43.999 43.999 VPRS 1 = 0.366 70.200 VPRS 2 = 0.369 70.500 CHANGE RNY DATA ??NO TEMP. AND PREIS. COPRECTED DATA

SUMMARY

TIME = 415 DATE = 703 TEMP = 79.538905 PRE& = 43.631150 Figure 6-27

SU 1RY OF MEAUPED

-MMA DATA AT TIME 430 703 CALC. ENTERED TEMP 1 = 68.087 68.150 TEMP 2 = 69.026 69.120 TEMP S = S0.502 20.5S0 TEMP 4 = 78.416 78.500 TEMP 5 = 80.606 80.670 TEMP 6 = 79.482 79.560 TEMP 7 = 83.701 8.90 TEMP 8 = 79.397 79.490 TEMP 9 = 80.161 80.23 TEMP 10 = 79.867 79.920 TEMP* 11 = 69.235 69.270 TEMP 12 = 6S.028 68.460 TEMP 13 = S8.284 68.30 TEMP 14 = 81.181 S1.240 TEMP 15 = 81.425 81.490 TEMP 16 = 80.303 80.360 TEMP 17 = 79.867 79.900 TEMP 18 = 81.224 81.310 TEMP 19 = 81.441 81.500 TEMP 20 = 80.601 80.590 TEMP 21 = 80.503 80.600 TEMP 22 = 81.193 81.250 TEMP 23 = 81.513 81.550 TEMP 24 = 82.275 82.360 TPRS 1 = 43.998 43.998 YPRS 1 = 0.363 70.000 VDRS 2 = 0.369 70.500 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 430 DATE 703 TEMP = 79.537701 PRES = 43.631150 Figure 6-28

SIUMMARY O M A:UPED DATAi PT TIME 445 703 CALC:. ENTERED TEMP 1 = 68. 0 7 6. 140 TEMP 2 = 69. 69.110 TEMP 3 = 8 2.600 TEMP 4 4 7.41 7:8.00C TEMP 5 =S 0.6 80'.617 0 TEMP 6 = 49 2 79.570 TEMP 7 = . 11 3800 TEMP =79407 79,500 TEMP 9 191 0 .26 0 TEMP'( 10 = '7 9.671 79 .920.

TEMP 11 = 69 E.60 TEMP 12 = 6.:36 6, .440 TEMP 13 = 68.254 t8-.3,5 0 TEMP 14 = 1 1 .1. 26C0 TEMP 15 = 81.4 1 .500 TEMP 1e = . C 0.360 TEMP 17 = 7-8 79.-0 TEMP 1- = C1.,34 E1 .20 TEMP 19 = 1.461 =1 .5 TEMP 20 = E0.551 80.540 TEMP 1 = . 5 0.630 TEMP 1 11 .0 TEMP =-81 .493 1 .53 TEMP 24 = 75 72.360 TPR: 1 = 437.997 43 .n V~PRS: 1 = 0.363 70.000 VPRS 2 = 0.369 70 .50 CHANGE ANY DATA ??NO

.TEMP. ANiD FPES$S. COPRECTED DATA :

SUMMARY

TIME 445 DATE = 703 TEMP = 79.54:705 PRES =. 4 . 0 1'f0 Figure 6-29

SUMMARY

OF ME A-:URE D DATA FAT TIME 500 703 CALC. ENTERED TEMP 1 = 6.067 6. 13 0 TEMP 2 = 61.996 9. 00 TEMP 3 = 8.532 3 0 . 610 TEMP 4 = 78.426 .510 TEMP 5 = 80.5S6 0. i 50 TEMP 6 = 79.492 79.570 TEMP 7 = 83 .741 ,n3 .30 TEMP 8 = 79.397 79.490 TEMP. 9 = 30.191 80.26'0 TEMP 10 = 79.37 79.940 TEMP 11 = 6,9.5 69.240 TEMP 12 = 68.34 63.420 TEMP 13 = 68.254 6.350l TEMP 14 = I1.231 31 .290 TEMP 15 = 81.445 1.510 TEMP 16 = 02 2 :8 .0.380 TEMP 17 = 79.D77 79.910 TEMP 1S = ;1.2,4 81 .320 TEMP 19 = .461 1.20 TEMP 20= 80 .51 80.570 TEMP 21 = 80.49 . .5 60 TEMP 22 = 81.173 81.230 TEMP 23= 81.493 1 30 TEMP 24 = 2.245 12.330 TPRS 1 = 43.997 43.997 VPRS 1 = 0I.6 70.000 VPRS 2 = 0.363 70.40'0 CHANGE ANY DATA ??NO TEMP. AND PRES . COPRECTED DATA SUMMAR' TIME = 500 DATE = 703 TEMP = 79.537209 PRES. = 43.6301-9 0 Figure 6-30

SUMMIRY OF MEPUPED DATA AT TIME 515 703 CALC. ENTERED TEMP 1 = 63.047 68.110 TEMP - = 6'.976 A'9.070 TEMP 3 = .4 f0 .0 TEMP 4 7. 78.520 TEMP = . f0 I.:f0 TEMP '6 = 79.02 950 TEMP 7. 8.50 TEMP 7 = . 79.490 TEMP* =, I -.

8.1a1 E0.0 TEMP. 9 =-:

TEMP 10 = 7 79 .94 0 TEMP 11 = '15 69 .23 0 TEMP 12 = .3 8 .410 TEMP 1:3 = 6D' 4 6.3 30 TEMP 14 = D1.41 1. 30 TEMP 15 = '1.4'5 81.520 TEMP 16 = .1 1 0.370 TEMP 17 = 79.c7 79.D20 TEMP 1 = 31.234 1.320 TEMP I '1.41 *91.530 TEMP TEMP t . 9~ I ft :: :

1 0.5;0 TEMP 1 = I 0.5: 0 TEMP 2L'- =8113 1.5 TEMP 23 = 1 1 540 TEMP 24 = *2' .24 5 !.3 TPR.S 1 = 4:3 .996. 43.

VPRj 1= 0.63 70. 000 VPs 2= 0.3c 70 .400 CHAN'GE ANY DATA ?NO TEMP. AND FPES. CORRECTED DATA :UMMARY TIME = 515 DATE = 703 TEMP = 79.54260 PRE: = 43 . 6291 Figure 6-31

UMARY OF MEA-:!UEr LATA AT TIME 530 CALC. ENTERED TEMP 1 = 6c.37 63.100 TEMP E = .956 69. 050 TEMP = 0 .542 30.620 TEMP 4 7:34.t. 7.550 TEMP j = 30.626 30.690 TEMP 6 9.512 .

TEMP 7 3.741 C. 0 TEMP 9 = 79 .397 79 4'0 TEMP = 0.201 0 .270 TEMP* 10 = 797 79 TEMP 11 = 69.175 69 .210 TEMP 1 = 3.313 68.390 TEMP 13 = 6 -.244 6;. 340 TEMP 14 = ;1.241 81.300 TEMP 1 = 1.455 31.520 TEMP 16- = 0.3.33 3f0.390 TEMP 17 =79.37 79.920 TEMP 18 81.234 31 .320 TEMP 17 = 1 .41 91 .20 TEMP 0 = 0.1 0c TEMP 21 =,:.54 I 50.610 TEMP ,2 = 1.=2z. C 1280 TEMP 23 = 81.51. 10 TEMP 24 = a.2 8 .

TPR - 1 = 4.9 9 C 43 n VPFRC 1 = 0. . . 70000 VPRS 2 = 0.369 70.500 CHArGIE AN'Y DATA rND t

TEMP. AND PRES F' . COPRECTED DATA 3UMMARY TIME = 530 DATE = 703 TEMP = 79.5479:7 PRE = 43.429150 Figure 6-32

SUMMiAR OF MEASUPED DATA AT TIME 545 703 CALC. ENTERED TEMP 1 = 68.027 68. 090 TEMP 2 = 68.936 69.030 TEMP 3 = 80.352 80.630 TEMP 4 78.476 78.560 TEMP 5 80.626 -0.690 TEMP 6 = 79.522 79.600 TEMP 7 = 83.791 83.880 TEMP , = 79.417 79.510 TEMP 9 = 80.211 80.280 TEMP ' 10 = 79.S97 79.950 TEMP 11 = 69.165 69.200 TEMP 12 = 68.298 68.370 TEMP 13 = 68.214 68.310 TEMP 14 = 81.251 21.310 TEMP 15 = 81.445 S1.510 TEMO 16 = 80.333 80.390 TEMP 17 = 79.897 79.930 TEMP 1 = 81.224 81.10 TEMP 19 = 81.471 81.530 TEMP 20 = 80.611 80.600 TEMP 21 = 80.553 80.620 TEMP 22 = 81.223 81.280 TEMP 23 = 81.493 81.530 TEMP 24 = 82.245 2.330 TPRS 1 = 43.996 43.996 VPRS 1 = 0.36- 70.000 VPPs 2 = 0.366 70.200 CHANGE ANY DATA ??NO TEMP. AND PREIS. CORRECTED DATA

SUMMARY

)

TIME = 545 DATE = 703 TEMP = 79.547910 PRES = 43.631400 Figure 6-33

UMMARY OF MEA:JRED DATAI AT TIME 60 0 CALC. ENTERED TEMP 1 = 67.997 6. 050 TEMP 2 = 68.936 69. 00 TEMP 3 = S0 .562 0.64 0 TEMP 4 = 7 8.4I6 78.550 TEMP 5 = 80:.646 30.710 TEMP 6 = 79.512 79.590 TEMP 7 = 33.771 83.360 TEMP 8 = 79.417 79.510 TEMP 9 = 30.201 0.2l

.70 TEMP. 10 = 79.917 79. 970 TEMP 11 = 69.155 6l9.190 TEMP 12 = 68S9 68.3 70 TEMP 13 = 68.194 68.290 TEMP 14 = C1.251 81.310 TEMP 15 = 1.465 :1 .530 TEMP 16 = 0 .35 80.410 TEMP 17 = 79 .2-97 79 TEMP 13 = 1.244 S1 .30 TEMP 19 = 1.4 51 81 .510 TEMP 20 = .. 1 8 0.30 TEMP L1 = W0.43 80.610 TEMP 22 = ;1 .1 1 150 TEMP 23 = '491 41.0 TEMP 24 = 82. 2t5 .50 TPRS 1 = 43 . 9 9 6. 4 .96 VPFRS 1 = 0 .6. 70.1000 VPRS 2 = 0.36E 70.200 CHAN' E ANY DATA ??NO TEMP. AND PRES. COPPRECTED DATA :UMMARY TIME = 600 DATE = 703 TEMP = 79. 54507 PRE. = 43 . 63140 Figure 6-34

U1P1RY OF 1EAU ED DAPTH-A AT TIME 615 703 CALC. ENTERED TEMP 1 = 6. 0 0 :7 63.0170 TEMP 2 = 68.916 69.010 TEMP 0.562 64 TEMP 4 =74 ?8.0 TEMP = . j 8.7Z0 TEMP 6 = . 4 79. . 20 TEMP .91 R 0 TEMP 8 = 79.427 79.120 TEMP 9 = C0.221 :0.290 TEMP 11 = .79.990 TEMP. 11 = .t- 14 5 69.10 TEMP 12 = 6 .2:868360 TEMP 1 =6.194 6.

TEMP 14 = 31.29 1 ,1.5 0 TEMP 15 = 1.485 81 . '0 TEMP 16 = 0 0.410 TEMP 17 = 7:.907 79 .9401 TEMO 18 = 1 .254 81 .40 TEMP 19 1 .471 1 0 TEMP 20 = 1 .551 0 4.11 TEMP :1 = ED.43 . 50.10 TEMP 22 = 81. 81. 20 TEMP 2. = : 1.50 1 :1 .540 TEMP 24 = 2.235 D2 .:37 0 TP RS 1 = 43.996 43 .996 VPRS 1 = 0 .303 70. C000 VPRSFF~ 2 = L0I6 - 70.200 iC:HFiHGE ANY DATA ??NO TEMP. Ai "PES. COPFECTED IITA CUMMARY TIME = 615 DATE = 7::3 TEMP = 7 55S I Ci0 PRES = 4 .631400 Figure 6-35

UMMARY OF MEAURED DATR AT TIME 630 70 CALC. ENTERED TEMP I = 68 . 007 6: . 070 TEMP 2 = 6S.906 69.000 TEMP :3 = 0.572 80.650 TEMP 4 = 78.486 78.570 TEMP 5 = 80.676 80.740 TEMP 6 = 79.532 79.61c TEMP 7 83.791 83.880 TEMP = 79.417 79.510 TEMP 9 80.221 90.290 TEMP 10 =79.937 79.990 TEMP* 11 = 69.135 69.170 TEMP 12 = 68.26S 68.340 TEMP 13 = 68.154 68.250 TEMP 14 = 81.271 81 .30 TEMP 15 = 81.475 81540 TEMP 16 = 80.363 80.420 TEMP 17 = 79.17 . 79.950 TEMP 1 = 81.254 S1.340 TEMP 19 = 81.461 81.520 TEMP 20 = 80.611 80.600 TEMP 21 = 80.553 S0.620 TEMP 22 = 81.20? 81.260 TEMP 21 = 81.5031.540 TEMP 24 = 82.235 S2.320 TPRS 1 = 43.996 43.996 VPRS 1 = 0.06? 70.000 VPRS 2 = 0.366 70.200 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 630 DATE = 703 TEMP = 79.552111 PRES = 43.631400 Figure 6-36

S&L MRPY OF MEFUPED1 DATA AT TIME 645 703 C:ALC. ENTEPE D TEMP I =

997 .0: 0 TEM 2 = E.0 -4 000 TEMP 3= 0.r. .6 TEMP 4 = 75.'

TEMFP 5. 0.740 TEMP ._ = 9.. f TEMP 7 =1 TEMP 79 .44 7 7.4 540 TEMP = A.1 n0.300 TEMP 1 = 7 .47 cif00 TEMP 11 = 69.125 TEMP 12 = 69.27: .350 TEMP 13 = t. 154 .,50 TEMP 14 = 81.311 1370 TEMP 15 = 1 48 .01 0 TEMP 1-E = 07 TEMP 1.960 TEMP 1: 1 264 1 5i TEMP 19 1 481.41 1 .540 TEMP L20 -- 0.11 . 0 TEIP 21 = 0D 5 L5. r3.

TEMP 1 1.290 TEMP 23 = 1.43 1 0 TEMF 24 = 4 .330 TF: 1 = 4.9 43.9.

VPRS 1 = 0.3'53 70.00 VPS 2= 0.366 70.200:

C:HANG3E ANY' DATA ??NO .

TEMP1. ANDr PRES. C:ORRECTED DR TA SU'MM1PY TIME = 4 DATE = FITS TEMP = 79 .7 r 12 FPE = 4".3 14I1 Figure 6-37

SUlMMRIFFY OF M 0URE D DATA AT TIME 700. 703 CALC. ENTERED TEMP 1 = 67.987 68.050 TEMP 2 = 68.906 69.000 TEMP 3 = 80.602 80.61101 TEMP 4 = 78.506 78.59C0 TEMP 5 = 80.656 80.720 TEMP 6 = 79.572 79.650 TEMP 7 = 83.801 83.890 TEMP 8 = 79.447 79.540 TEMP 9 = 80.231 80.300 TEMP 10 = 79.927 79.980 TEMP 11 = 69.105 69.160 TEMP 12 = 68.258 68.3?0 TEMP 13 = 68.144 68.240 TEMP 14 = 81.301 91.360 TEMP 15 = 91.485 81.550 TEMP 16 = 80.373 80.430 TEMP 17 = 79.927 79.960 TEMP 18 = 81.254 81.340 TEMP 19 = 81.481 81.540 TEMP 20 = 90.611 80.600 TEMP 21 = 80.583 80.650 TEMP 22 = 81.233 81.290 TEMP 23 = 81.513 81.550 TEMP 24 = 82.275 82.360 TPRS 1 = 43.993 43 .99 VPRSF 1= 0.363 70.000 VPRS 2 = 0.364 70.100 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORPECTED DATA

SUMMARY

TIME = 700 DATE =

TEMP = 79.566410 PRES = 43.629150 Figure 6-38

S&UMMAR 1 JF MEAIIURED DATA AT TIME 715 703 CALC. ENTERED TEMP 1 = 67.977 6. 040 TEMP. 2= 68.896 69.990 TEMP 3S = 0 83

- .0:1 TEMP 4 = 7.610 TEMP 5 cf. 0.740 TEMP 6, = 9.52 9.66 E0i TEMP = a 1 91 0 TEMP I' = 9.44 79540 TEMP 9 = 0.61 8036 TEMP = 79 417 000 TEMP 11 = 69.105 69.140 TEMP 12 = 68.243 68.320 TEMP 13 = 68.144 68 .240 TEMP 14 = 81.321 1.330 TEMP 15 = 81.505 31 .570 TEMP 16 = 80.l S0. 440 TEMP 17 = 179.47 79.9C TEMP 1 1.4 1 .:340 TEMP 1 = 1.41 15 50 TEMP 20 =1 S. 570 TEMP 2'1 = R0.3 7 0640 TEMP 22 = 1 .4 81. 00 TEMP 231 = 1 1.90' TEMP 24 = 32.5 -2 .70 TPRS 1 = 4. -99 43.'3

\VPP$ 1 = 0.36 ii0.0 VPRS = . 63 0 000 CHANGE ANY DAT ??NO TEMP. AND PREM . CORRECTED DATA &UMMAPY TIME = 715 DATE = 703 TEMP = 79 . 7414 PREF = 43 . 0u629

. Figure 6-39

UrMARY O MEASURED DATA AT TIME 730 70 CHLC. ENTERED TEMP 1 = 7.977 6. 040 TEMP 2= 68.876 68.970 TEMP 3 = 0 .6D 0 .700 TEMP 4 = 78.54- 78.630 TEMP 5 =8.686 80.750 TEMP 6 = 79E.5816 9 TEMP 7 = 3.311 .00 TEMP 79.437 79 5 .0 TEMP 9 = .80.261 .0 TEM'P 10 = 79.967 G0 .l0 TEMP* 11 =69.105 69.140 TEMP 12 = E.48 6.320 TEMP 13 = 68.144 68.240 TEMP 14 = ;1.341 81.400 TEMP 15 = 81.525 1 .590 TEMP 16 = .3,34 80.45 0 TEMP 17 = 79.:57 79.990 TEMP 1 = 1.284 1.0370 TEMP 1 = 14:'1 '15 10 TEMP 2 0 = -.601 0.0 TEMP 21 = 80. .650 TEMP 22 = S1.263 1.32 0 TEMP . 51 0D 1 _140 TEMP 24 = 82.275 C.60 TPR 1 43.993 4 3.3 V'PRS 1 = 0.32 6.0 V2 = 0 .34 70.100 CHANGE ANY DATA ??ND TEMP. AND PRES:. CORRECTED DATA SUMMAPY TIME = 7:0 DATE = 7-,

TEMP = 79 .579 14 PRES: = 43 ."74 J Figure 6-40

SLIMMRRY CF MEAU9ED DATi AT TIME 745 703 CALC. ENTERED TEMP 1 = 67.967 6S.010 TEMP 2 = 68.856 68.950 TEMP 3 = 80.632 90.710 TEMP 4 = 78.556 78.640 TEMP 5 = 80.686 80.750 TEMP 6 = 79.592 79.670 TEMP 7 = 83.761 83.850 TEMP S = 79.457 79.550 TEMP 9 - 80.261 80.330 TEMP 10 = 79.967 80.,00 TEMP 11 = 695. 69.120 TEMP 12 = 68.23S 6S.10 TEMP 13 = 68.114 in.210 TEMP 14 81.361 21.420 TEMP 15 81.515 81.50 TEMP 16 80.403 0.460 TEMP 17 = 79.947 79.9S0.

TEMP 18 = 81.284 'S1.370 TEMP 19 = 81.511 81.570 TEMP 20 = a0.621 00.610 TEMP 21 = 80.600 80.670 TEMP 22 = 81.263 81.320 TEMP 23 - 81.513 81.550 TEMP 24 = 82.245 82.3D0 TPPS 1 = 43.993 43.99:

VPRS 1 = 0.362 69.900 VPR 2 = 0 .364 7 0. 1 00 .

CHANGE ANY DATA ??NO TEMP. AMD PRESS. CORPECTED DATA

SUMMARY

TIME = 745 DATE = 7 03 TEMP = 79.581515 PRES = 43.629629 Figure 6-41

SUMMARY

DR MEAURED DATA AT TIME :00 CALC. ENTERED TEMP 1 = 67.937 6:.000 TEMP 2 = 6;.836 68.9rI TEMP D3 = 8l03.1 TEMP 4 = 5 78.620 TEMP n = 6 0.770 TEMP 6 = 79.59 7.6 7 0 TEMP 7 = 83.:01 83.I0 TEMP 8 = 79. 437 7,9 .5l TEMP -= 830.271 8 0.3 40 TEMP 10 = 79. D97 80.0i0 TEMP ' 11 = 6.05 69.110 TEMP 12 = 2.28 6.0 0 TEMo 1 = .114 6. 10 TEMP 14 = 1 1 :13 TEMP 1 81 - 1.0 TEMP 16 = 8C,. 40 CC 0.4 60 TEMP 1'= 79 .95 19 10 TEMP 1! = 8I.264 81.5 0 TEMP 19 = 81.501 3 1 .0 TEMP 20C = 1 .621 0 .10 TEMP I1 = :80 . 5 80 .600 TEMP 22=- =8173 1.0 TEMP 2:3 S 1. 513 1.55 TEMP 24 =82 .2 15 832.0 TPRS& 1 = 43.99 43. 993 V PR 2 = .364 '70.100i CHFiNE ANY DATA ?NO TEMP. AND "PEc:S.. C.DRRECTED DATA 'SU:IMMAFY TIME = 80 DATE =

TEMP = 79.573617 PREg = 43.629663 Figure 6-42

SUMMARY

2F MER UfREL DATA AT TIME 8 15 703

-CALC. ENTERED TEMP 1 = 67.947 63. 010)

TEMP 2 = E.836 68.930 TEMP .3 = 0 80.710 TEMP 4 = 7 2 0 TEMP =16 :3 0.7:D 0 TEMP 6 = 79.02 -7:i. 0 TEMP 7 =

TEMP . =7447 7.40 TEMP 9 = 0 1 80 . 70 TEMP 1 = 7 .- 7 CIO.0 ' 0 TEMP, 11 = . 1".1 0 TEMP 1 = .1 6. :1 TEMP 13 = 68.104 6. 200 TEMP 14 = 1 1 1 .39 TEMP 15 = 31.535 31.600 TEMP 1E = 80.413 80.47 1 TEMP 17 = 79.957 19 c9 TEMP 13 = 81.274 1 .360 TEMP 19 = 1.49;1 j1550 TEMP 20 = 0.1 0 .5 0 TEMP 21 = 80.573 S0. 40 TEMP 2I == 4 1.00 TEMP 23 = 81.51 1.550 TEMP D4 = 33.26 '3.350 TPRS 1 43.'9- 43.993 VPR 1 = 0. 32 0.900 VPRS 3 = 0.3 4 70.100 CHANGE ANY DATA ??NO TEMP. AND PRES:.. C:OPECTTED DATA :UMMA'RY TIME = 15 DATE = 0 TEMP = 73.579917 PPEC = 4. .93' Figure 6-43

SUMMARY

OF MEASURED DATA AT TIME 83U 703 CALC. ENTERED TEMP 1 = 67.937 68.000 TEMP 2 = 68.846 68.940 TEMP 3 = 80.632 80.710 TEMP 4,= 78.546 78.630 TEMP 5 = 80.706 80.770 TEMP 6 = 79.612 79.690 TEMP 7 = 83.851 83.940 TEMP 8 = 79.437 79.530 TEMP 9 = 80.281 80.350 TEMP. 10 = 79.997 80.050 TEMP 11 = 69.065 69.100 TEMP 12 = 68.208 68.280 TEMP 13 = 68.084 68.180 TEMP 14 = 81.331 81.390 TEMP 15 81.515 81.580 TEMP 16 80.423 80.480 TEMP 17 = 79.967 80.000 TEMP 18 = 81.274 81.:360 TEMP 19 = 81.501 81..560 TEMP 20 = 80.661 80.650 TEMP 21 = 80.603 80.670 TEMP 22 = 81 .28:3 81 .340 TEMP 23 = 81.513 81.550 TEMP 24 = 82.215 82.300 TPRS 1 = 43.993 43.993 VPRS 1 = 0.361 69.800 VPRS 2 = 0.363 70.000 CHANGE ANY DATA ??NO TEMP. AND PRES. CORRECTED DATA

SUMMARY

TIME = 8:30 DATE = 703 TEMP = 79.580118 PRES = 43.630876 Figure 6-44

SUMMARY

OF MEASURED DATA AT TIME 845 703 CALC. ENTERED TEMP 1 = 67.937 68.000 TEMP 2 = 68.836 68.930 TEMP 3 = 80.642 80.720 TEMP 4 = 78.556 78.640 TEMP 5 = 80.706 80.770 TEMP 6 = 79.612 79.690 TEMP 7 = 83.831 83.920 TEMP 8 = 79.447 79.540 TEMP 9 = 80.281 80.350 TEMP 10 = 79.987 80.040 TEMP 11 = 69.065 69.100 TEMP 12 = 68.208 68.230 TEMP 13 = 68.094 68.190 TEMP 14 = 81.371 81.430 TEMP 15 = 81.525 81%.590 TEMP 16 = 80.423 80.480 TEMP 17 = 79. 9 7 7 80.010 TEMP 18 = 81.274 81.360 TEMP 19 = 81.491 81.550.

TEMP 20 = 80.671 80.660 TEMP 21 = 80.573 80.640 TEMP 22 = 81.273 81.330 TEMP 23 = 81.513 81.550 TEMP 24 = 82.235 82.320 TPRS 1 = 43.993 43.993 VPRs 1 = 0.358 69.600 VPRS 2 = 0.3062 69.900 CHANGE ANY DATA ?NO TEMP. AND PPESS. CORRECTED DATA

SUMMARY

TIME = 845 DATE = 703 TEMP = 79.581517 PRES = 43.632584 Figure 6-45

SUMMARY

OF MEASUPED DATA AT TIME 900 703 CALC. ENTERED TEMP 1 = 67.927 67.990 TEMP 2 = 68.816 68.910 TEMP 3 = 80.652 80.730 TEMP 4 = 78.566 78.650 TEMP 5 = 80.726 80.790 TEMP 6 = 79.622 79.700 TEMP 7 = 83.821 83.910 TEMP 8 = 79.457 79.550 TEMP 9 = 80.281 80.350 TEMP 10 = 79.987 80.040 TEMP 11 = 69.065 69.100 TEMP 12 = 68.198 68.270 TEMP 13 = 68.094 68.190 TEMP 14 = 81.381 81.440 TEMP .15 = 81.535 81.600 TEMP 16 = 80.433 .W0.490 TEMP 17 = 79.967 80.000 TEMP 13 = 81.274 81.360 TEMP 19 = 81.481 81.540 TEMP 20 = 80.661 80.650 TEMP 21 = 80.563 80.630 TEMP 22 = 81.263 81.320 TEMP 23 = 81.523 81.560 TEMP 24 = 82.235 82.320 TPRS 1 = 43.992 43.992 VPRS 1 = 0.358 69.600 VPR 2 = 0.362 69.900 CHANGE ANY DATA ??NO TEMP. AND PPESS. CORRECTED DATA

SUMMARY

TIME = 00 DATE-= 703 TEMP = 79.581616 PRE& = 43.631584 Figure 6-46

SUMMARY

OF MEASURED DATA AT TIME 915 703 CALC. ENTERED TEMP 1 = 67.927 67.990 TEMP 2 = 68.806 68.900 TEMP 3 = 80.652 80.730 TEMP 4 = 78.577 78.660 TEMP 5 = 80.736 80.800 TEMP 6 = 79.632 79.710 TEMP 7 = 83.811 83.900 TEMP 8 = 79.437 79.530 TEMP 9 = 80.301 80.370 TEMP. 10 = 79.987 80.040 TEMP 11 = 69.055 69.090 TEMP 12 = 68.198 68.270 TEMP 13 = 68.094 68.190 TEMP 14 = 81.401 81.460 TEMP 15 = 81.545 81.610 TEMP 16 = 80.423 80.480 TEMP 17 = 79.977 80.010 TEMP 18 = 81.284 81.370 TEMP 19 = 81.511 81.570 TEMP 20 = 80.631 80.620 TEMP 21 = 80.603 80.670 TEMP 22 = 81.273 81.330 TEMP 23 = 81.533 81.570 TEMP 24 = 82.235 82.320 TPRS 1 = 43.992 43.992 VPRS 1 = 0.358 69.600 VPRS 2 = 0.362 69.900 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 915 DATE = 703 TEMP = 79.588819 PRES = 43.631584 Figure 6-47

SUMMARY

OF MEASURED DATA AT TIME 930 703 CALC. ENTERED TEMP 1 = 67.937 68.000 TEMP 2 = 68.806 68.900 TEMP 3 = 80.662 80.740 TEMP 4 = 78.597 78.680 TEMP 5 = 80.746 80.810 TEMP 6 = 79.632 79.710 TEMP 7 = 83.771 83.860 TEMP 8 = 79.447 79.540 TEMP 9 = 80.301 80.370 TEMP, 10 = 79.997 80.050 TEMP 11 = 69.055 69.090 TEMP 12 68.198 68.270 TEMP 13 = 68.094 68.190 TEMP 14 = 81.401 81.460 TEMP 15 = 81.545 81.610 TEMP 16 = 80.443 80.500 TEMP 17 = 79.977 80.010 TEMP 18 = 81.274 81.360 TEMP 19 = 81.501 81.560 TEMP 20 - 80.661 80.650 TEMP 21 80.623 80.690 TEMP 22 81.283 81.340 TEMP 23 = 81.513 81.550 TEMP 24 82.205 82.290 TPRS 1 43.993 43.993 VPPS 1 = 0.357 69.500 VPRS 2 = 0.362 69.900 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 930 DATE = 703 TEMP = 79.586720 PRES = 43.633072 Figure 6-48

SUMMARY

OF MEASURED DATA AT TIME 945 703 CALC. ENTERED TEMP 1 = 67.927 67.990 TEMP 2 = 68.796 68.690 TEMP 3 = 80.662 80,740 TEMP 4 = 78.617 78.700 TEMP 5 = 80.756 80.820 TEMP 6 = 79.632 79.710 TEMP 7 = 83.821 83.910 TEMP 8 = 79.467 79.560 TEMP 9 = 80.311 80.380 TEMP, 10 = 79.997 80.050 TEMP 11 = 69.045 69.080 TEMP 12 = 68.188 68,260 TEMP 13 = 68.114 68.210 TEMP 14 = 81.401 81,460 TEMP 15 = 81.545 81.610 TEMP 16 = 80.443 80.500 TEMP 17 = 79.987 80.020 TEMP 18 = 81.284 81.370 TEMP 19 = 81.501 81.560 TEMP 20 = 80.621 80.610 TEMP 21 = 80.593 80.660 TEMP 22 = 81.283 81.340 TEMP 23 = 81.523 81.560 TEMP 24 = 82.215 82.300 TPRS 1 = 43.993 43.993 VPRS 1 = 0.357 69.500 VPRS 2 = 0.361 69.800 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 945 DATE = 703 TEMP = 79.592321 PRES = 43.633804 Figure 6-49

SUMMARY

OF MEAS:URED DATA AT TIME 1000 703 CALC. ENTERED TEMP 1 = 6.917 67.980 TEMP 2 = 68.796 6.8390 TEMP 3 = 80.683 80.760 TEMP 4 = 7 8.627 78.710 TEMP 5 = 80.746 80.810 TEMP 6 = 79.662 79.740 TEMP 7 = 33.811 33.900 TEMP 8 = 79.477 79.570 TEMP 9 = 80.301 30 .370 TEMP. 10 = 80. 07 0 . 060 TEMP 11 = 69.045 69. 080 TEMP 12 = 68.188 68.260 TEMP 13 = 68. 104 68 .200 TEMP 14 = 81.411 31.470 TEMP 15 = 81.555 81.620 TEMP 16 = 80.443 80.500 TEMP 17 = 79.997 30.030 TEMP 18 = 81.294 81 .:00 TEMP 19 = 81. 511 81.570 TEMP 20 = 80.651 80.640 TEMP 21 = 80. 603 8 0.6E70 TEMP 22 = 81.283 81.340 TEMP 23 = 81.543 81.580 TEMP 24 = 2. 245 82.330 TPRS 1 = 43.993 43.993 VPRS. 1 = 0 .3'57 69.500 VPR:S 2 = 0. 361 69.800.

CHANGE ANY DATA ??ND TEMP. AND PRESS. CORRECTED DATA SUMMAPY TIME = 1000 DATE = 703 TEMP = 79.6018G.21 PRE S = 4: 3 04 333

Figure 6-50

OCONEE UNIT 2 - 29.5 PSIG ILRT VERIFICATION

SUMMARY

DATA TIME DATE TEM. lRES.

1100' 703, 79.6056e64 43.633756 1115, 7039 79.6162249 43.638756 1130, 703' 79.621427p 43.633244 1145, 703. 79.62202S. 43V432244 1200, 703, 79.6256eS. 43.431244.

1215 703, 79.629532. 43.631944 1230, 703, 79.633226 43.631244 1245' 703' 79.638630P 43.629444 1300, 7031 79.640134. 43.629464 1315, 70.3, 79.644032p 43.629464 1330, 703, 79.645936P 43.629464 1345, 703, 79.6516:35. 43.62944 1400, 703, 79.654433v 43.6 464 1415, 703, 79.656736. 43.62%94 1430, 703' 79.657841- 43.62684 1445, 703, 79.6656401 43.630270 1500, 703' 79.675841. 4346-30270 15159 703, 79.6819439 43.638636 15309 703, 79.683542. 43.630636 1545, 703, 79.6711429 43,,621636 1600, 703: 79.680:3469 43.627636 Figure 6-51

OCONEE 29.5 PSIG ILRT VERIF TIME; DATE START OF TEST 11.00 703' TIME APTER START OF TEST = 5.00 HP LEAK RATE EASED ON TOTAL-TIME CALCULPTIONS TIME TEMP. PPESSUPE MEASUPEL CALCULATED 95% CONFIDENCE (F) (PSIA) LEAK RATE LEAK RATE LIMITS 11.25 79.62 43.632 0.409E+00 0.257E+00 0.16E+00 0.35E+00 11.50 79.62 42.633 0.197E+00 0.249E+00 0.15E+00 0.34E+'0 11.75 79.62 43.622 0.208E+00 0.240E+00 - 0.15E+00 0.33E+00 12.00 79.63 43.631 027E+00 0.232E+00 0.14E+00 0:33E+00 12.25 79.63 43.621 0.196E+00 0.23E+00 0.13E+00 0.32E+00 12.50 79.63 43.6S1 0.174E+00 0.215E+00 0.12E+00 0.31E+O0 12.75 79.64 43.629 0.219E+00 0.206E+00 0.1E+60 -0.30E+00 13.00 79.64 43.629 0.195E+0 0.19E+O0 0.11E+00 0.29E+00 13.25 79.64 43.629 0.181E+00 0 .189E+00 0.98E-01 0.28E+00 13.50 79.65 43.629 0.166E+00 0.180E+o 0.90E-01 0.27E+00 13.75 79.65 4S.629 0.160E+00 0.172E+00 0.81E-01 0.26E+00 14.00 79.65 43.62. 0.169E+00 0.161E+00 0.73E-01 0.25E+00 14.25 79.66 43.630 0.139E+00 0.155E+00 0.64E-01 0.25E+00 14.50 79.66 43.629 0.146E+00 6.146E+00 0.55E-01 0.24E+00 14.75 79.67 43.E30 0.122E+00 0.138E*00 0.46E-01 0.23E+00 15.00 79.68 43.630 0.116E+00 0.129E+00- 0.37E-01 0.22E+00 15.25 79.68 43.631 0.120E+00 0.121E+00 0.27E-01 0.21E+00 15.50 79.6W 43.631 0.115E+00 0.112E+00 0.18E-01 0.2E+00.)

15.75 79.7 40.629 0.121E+00 0.104E+00 0.23E-02 0.20E+00 16.00 79.68 43.629 0.134E+00 0.950E-01 -0.14E-02 0.19E+00 IF IT I RESUMED THAT THE LEAK RATE I CONSTANT:

THE MEAN It 0.176E+00 THE TANDRRD DEVIRTION IS 0.651E-01 THE CALCULATED LEAW STE AFTER 5.00 HOURS OF TEST IS 0.950E-01 Figure 6-52

OCONEE 29.5 P.I ILRT VEPIF TIME5 DATE S:TART OF TE:T 11 .00 703 TIME AFTER START OF TE:T = .00 HR LEAR RATE EA:Et' ON FoINT-TD-POINT CALCULATIONS :

TIME TEMP. PRESUPRE MEA URED CALCULATED 95% CONFIDENCE

%(F) PSIA LEAK RATE LEAK RATE LIMITS '

11.25 79 .62 4.C .3 4 09E + 0 . ISCE+00 - 0 .25E+ 0 0 0 .61E+00 11.50 79 .62 4.-3 0.147E-01 0.175E+00 -D.25E+00 0.60E+0) 11.75 79 .6 4.a 0 .IE+00 0. 17 3E+20 0 25E+ 0 0 0.5?E+00 12.0'0 79 .6 43. 6..1 0 .4E+nn C'. 145E+00 -0 .2EE+C'0 0.59E+00 12.25 4 6 1 0 .A'1E-01 0. 160A+ 00 -0.26E+00 0 .45.6E+(

12 79.63 43 . 1 0 G 0. + 0 i"0 - I" E+Cl:' 0.57E+00 12.75 17964 40 4 E6+90 . 1E+0C -0 .62,9E+0 0 0.56E+00

13. 00 7 96 4 4: .a9. E-01 0. 146E+ 1A 0 .26E+AC 0.51.E+ 00 125 79 .4 4 " 2-0 l.141E+ G 0.27E+OCl 5 55E+0 4 E+ 0 13 .5 79.65 43-0.-D 29 1 E- 01 . O6E+ 0C C!. 127E+0 0 C.54E+ 0 13 .75 79.65 4.6 '- 29 0 J E+ict 0. 1:31E+OiC -0 SE+00 0.54E+C 14.0: 79 43 .28S' 7 (1C'F+ C. I27E+00 -0 .21:E+iCi0 0.54E+00 14.25 7966 43."6:0 - 2E+~

14.29 79.6 .43.629E~0 o12EO -0 . 3,E +C:IC

E0 0 . 7- ,E+00 14 .9 ! ' C- 43.t2 i .24 CE+ r0 C (.I 1"E+ (IF 14 .75 .67 4.6 3 -0 .2 1E+ 0. 11)+00 0 .:30E+ 11 * .E+00 15.00 79 .6 4 . .+ ( . I 07E-- UC -0 . 1E+ on E + C0 15.25 6 4 .61 0 .2C0ECO1 0.1 (;2'E+ (:( -0 + C2E+ OEi 15.50 79.68 43.63 1 23F- il 1 0. 97-E- 1. - E + CC, 0. 5 E+ 0 15.75 79 .67 43 . 9- 1 -0 16 9 .: 963S 4: .63 .34E+ 110 0 .8 f"P E-CI -0 .5+ C' G 0 .=72E+100 IF IT 127 A2&L-_-.INED THAT THE LEAK* FATE I~ CON:-..TANT:

THE MEA N I C . 1 -.4E+ 1tE THE 'T A N11i RD DEVIATION I J0.4E+

THE 1:ALCIJLATEr, LEA P 0TE AFTER 5.00 HOUR 0r TECT. 1 .8 E-01 Figure 6-53

OCONEE 29.5 PSIG ILPT VERIF TIME, DATE START OF TEST 11.00 703 TIME AFTEP START OF TEST = 5.00 HP TRENDS BASED GN TOTAL-TIME CALCULATIONS HOURS DATA MEPN OF CALCULATED CH3 IN ALC LR OF TEST ENTRIES CALC LR LEAK RPATE FROM LAST POINT, 0.75 4 0.271E+00 0.171E+00 0.

1.00 5 0.260E+00 0.1s0E+00 0.922E-02 1.25 6 0.247E+00 0.168E+00 -0.121E-01 1.50 7 0.235E+00 0.152E+00 -0.158E-01 1.75 8 0.233E+00 0.165E'00 0.131E-01 2.00 0.22SE+ 0 0.165E+00 -0.864E-03 2.25 10 0.223E+00 0.159E+06 -0.513E-02 2.50. 11 0.217E+00 0.151E+00 -0.811E-02 2.75 12 0.212E+06 0.144E+00 -0.712E-02 3.00 12 0.208E+00 0.142E+00 -0.213E-02 3.25 14 0.203E+00 0.1%3E+00 -0.96?E-02 3.50 15 0.199E+00 0.127E+00 -0.524E-02 3.75 16 0.194E+00 0.118E+00 -0.956E-02 4.00 17 0.190E+00 0.111E+00 -0.650E-02 4.25 1 0.186E+00 0.105E+00 -0.624E-02 4.50 19 0.182E+00 0.990E-01 -0.592E-02 4.75 20 0.178E+00 0.954E-01 -0.361E-02 5.00 21 0.176E+00 0.950E-01 -0.380E-03 THE CALCULATED LEAK FHTE IT 0.950E-01 THE MARIMUM PLLDWALLE LERK PATE IS 0.126E+00 THE LATT 13 DATA POINTS EWTAELISH A NEG9TIVE ?LOPE Fiaure 6-54

LEAK RATE Ot % DAY)

PO

......... ..... .... .... :1 77.

a

!: 7!

T

....... .... :n! T 17,. 77-7 : T: 9

.... ........ -T

.......... ...... ...... 114 TT ;i 7::: i: 7 :: :::7

. .... ....... . .... .7;:..

-r,' 7 7 :.:7 ....... :7*, i 77T 7 7 .. ....... ... .... ........... .........

it . ........... .. ....

nI 77 7. t7

d ............ ..... . .... ............... ......

rl) ...... - .. ; ...............

W: ... . 7:7.

.... w . ...........

77:: 77. ....... ... ................

-H ......... .. Mll I-7.: .............

-E :!H L Ll

........ so ... ..

-, *-.1. ... .... ... ... ... ..... .. ..

lows. ........... ..... .... .... . ... .... .... .... ........ .. .- ..... ........ ..

......... :7: :1;; :::1 n:

t7l qo ....

7 n .. 7 .7 7 .. .....

7:: 1 1:... .. .... .. ..... ... .........

7 C-1 7 77 =::::f 1:::: f.. , . : ::: i::::

....... ::: : a. .. 7..... ...

-r. .................... ............ .........

=7

... 1d

.. .............. ... z

I::::

. . ... ....I'.... ... t

. ..... ...... iiii H Ln . ........... ......

It ......

t2l z

..... . I:: aaI::::

... ... ......... 7- 7 -::

. . ........ 5

= 177 77177 7:J 7 = 7 --- 7- 7 -- = ': - -- - ...

-7'7 7 ...... T 7:-: -7! 7 77 7 77. 7 :7 7 . 7-77, 77 -77 7 1:::: mA ; :::I

... ........ ::::V.:: W T- : 9 :- :7-. 7 7 jr:77 T J : ... .. .. ... .. ... .. ..... . ........

777 :77 i ;; :;

... ... so 1: 1;:

m ............. .........

SUMMARY

OF MEASURED DATA AT TIME 1100 703 CALC. ENTERED TEMP 1 = 67.897 67.960.

TEMP 2 = 68.776 68.870 TEMP 3 = 80.713 80.790 TEMP 4 = 78.647 78.730 TEMP 5 = 80.796 20.860 TEMP 6 = 79.692 79.770 TEMP 7 = 83.781 83.870 TEMP 8 = 79.477 79.570 TEMP 9 = 80.301 80.400 TEMP 10 = 80.037 80.090 TEMP 11 = 69.035 69.070 TEMP 12 = 68.178 68.250 TEMP 13 = 68.064 68.160 TEMP 14 = 81.421 81.480' TEMP 15 = 81.565 81.630 TEMP 16 = 80.473 80.530 TEMP 17 = 80.027 80.060 TEMP 18 = 1.304 81.390 TEMP 19 81.511 81.570 TEMP 20 =&80.681 80.670 TEMP 21 = 80.643 80.710 TEMP 22 = 81.273 81.330 TEMP 23 = 81.543 81.580 TEMP 24 = :2.195 82.280 TPRS 1 = 43.991 43.991 VPR. 1 = 0.356 69.400 VPRS 2 = 0.358 69..600 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED .DATA

SUMMARY

TIME = 1100 DATE = 703 TEMP = 79.605626 PRES = 43.633756 Figure 6-56

SPUMMARY OF MEASURED DATA AT TIME 1115 703 CALC. ENTERED TEMP 1 = 67.897 67.960 TEMP 2 = 68.776 68.870 TEMP 3 = 80.713 80.790 TEMP 4 = 78.667 78.750 TEMP 5 = 80.786 80.850 TEMP 6 = 79.692 79.770 TEMP 7 = 83.831 83.920 TEMP S = 79.507 79.600 TEMP 9 = 80.321 80.390 TEMP 10 = 80.047 80.100 TEMP 11 = 69.035 69.070 TEMP 12 = 68.178 68.250 TEMP 13 = 68.064 68.160, TEMP 14 = 81.441 81.500 TEMP 15 = 81.565 81.630 TEMP 16 = 80.473 80.530 TEMP 17 = 80.037 80.070 TEMP 18 = 81.314 81.400 TEMP 19 = 81.521 81.580 TEMP 20 = 80.631 80.670 TEMP 21 = 80.683 80.750 TEMP 22 = 81.293 81.350 TEMP 23 = 81.553 81.590 TEMP 24 = 82.205 82.290 TPRS 1 = 43.990 43.990 VPRS 1 = 0.356 69.400 V'PRS 2 = 0.358 69.600 CHANGE ANY DATA ??NO TEMP. FND PRESS. CORRECTED DATA

SUMMARY

TIME = 1115 DATE = 703 TEMP = .79.616224 PRES= 43.632756 -

S IMARY OF MEASURED DATA AT TIME 1130 703 CALC. ENTERED TEMP 1 = 67.897 67.960 TEMP 2 = 68.776 68.870 TEMP 3 = 80.733 80.810 TEMP 4 = 78.677 78.760 TEMP 5 = 80.816 80.0 TEMP 6 = 79.702 79.780 TEMP 7 = 83.841 83.930 TEMP 8 = 79.497 79.59-0 TEMP 9 = 80.341 80.410 TEMP 10 = 80.067 80.120 TEMP 11 = 69.035 69.070 TEMP 12 = 68.178 68.250 TEMP 13 = 68.054 68.150 TEMP 14 = 81.421 S1.480 TEMP 15 = 81.565 81:630 .

TEMP 16 = 80.493 80.550 TEMP 17 = 80.037 80.070 TEMP 18 = S1.314 81.400 TEMP 19 = 81.511 81.570 TEMP 20 = 8..751 80.740 TEMP 21 = 80.663 80.730 TEMP 22 = 81.303 81.360 TEMP 23 = 81.553 81.590 TEMP 24 = 82.235 82.320 TPRS 1 = 43.990 43.990 VPRS 1 = 0.355 69.300 VPRS 2 = 0.358 69.600 CHANGE ANY DATA ??ND TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1130 DATE = 703 TEMP = 79.621427 PRES = 43.633244 Figure 6-58

SUMMARY

OF MEASURED DATA AT TIME 1145 703 CALC. ENTERED TEMP 1 = 67.897 67.960 TEMP 2 = 68.766 68.860 TEMP 3 = 80.723 80.800 TEMP 4 = 78.677 78.760 TEMP 5 = 80.796 80.860 TEMP 6 = 79.712 79.790 TEMP 7 = 83.811 83.900 TEMP 8 = 79.517 79.610 TEMP 9 = 80.351 80.420 TEMP 10 = 80.067 80.120 TEMP 11 = 69.025 69.060 TEMP 12 = 6S.160 68.240 TEMP 13 = 68.064 68.160 TEMP 14 = 81.441 81.500 TEMP 15 = 81.585 81.650 TEMP 16 = 80.493 80.550 TEMP 17 = 80.037 80.070 TEMP 18 = 81.324 81.410 TEMP 19 = 81.501 S1.560 TEMP 20 = 80.741 80.730 TEMP 21 = 80.671 80.740 TEMP 22 = 81.13 81.370 TEMP 23 = 81.523 81.560 TEMP 24 = 82.255 82.340 TPRS 1 = 43.989 43.989 VPRS 1 = 0.355 69.300 VPRS 2 = '0.358 69.600 CHANGE ANY DATA ??NO TEMP. AND PREIS. CORRECTED DATA

SUMMARY

TIME.= 1145 DATE = 703 TEMP = 79.622025 PRES = 43.632244 Fi oiirca A- 1O

SUMMARY

OF MEASURED DATA AT TIME 1200 703 JALC. ENTERED TEMP 1 = 67.897 67.960 TEMP 2 = 68.766 68.860 TEMP 3 = 80.723 80.800 TEMP 4 = 78.687 78.770 TEMP 5 = 80.816 80.880 TEMP 6 = 79.712 79.790 TEMP 7 = 83.821 83.910 TEMP 8 = 79.517 79.610 TEMP 9 = 80.351 80.420 TEMP 10 = 80.067 80.120 TEMP 11.= 69.025 69.060 TEMP 12 = 68.168 68.240 TEMP 13 = 68.074 68.170 TEMP 14 = 81.451 81.510 TEMP 15 = 1.585 81.650 TEMP 16 = 80.493 80.550 TEMP 17 = 80.037 80.070 TEMP 18 = 81.324 81.410 TEMP 19 = 81.531 81.590 TEMP 20 = 80.721 80.710 TEMP 21 = 80.673 80.740 TEMP 22 = 81.203 81.360 TEMP 23 = 81.543 81.580 TEMP 24 = 82.225 82.310 TPRS 1 = 43.988 43.988 VPRS 1 = 0.355 69.300 VPRS 2 = 0.358 69.600 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1200 DATE = 703 TEMP = 79.625628.

PRES = 43.631244 Figure 6-60

S3UMMARY OF MEASURED DATA AT TIME 1215 703 CALC. ENTERED TEMP 1 = 67.887 67.950 TEMP 2 = 68.776 68.870 TEMP 3 = 80.743 80.820 TEMP 4 = 78.697 78.780 TEMP 5 = 80.806 80.870 TEMP 6 = 79.722 79.800 TEMP = 83.831 83.920 TEMP 8 = 79.517 79.610 TEMP 9 = 80.391 80.460 TEMP 10 = 80.087 80.140 TEMP 11 = 69. 015 69.050 TEMP 12 = 68.168 68.240 TEMP 13 = 68.064 68.160 TEMP 14 81.451 81.510 TEMP 15 = 81.605 .81'.670 TEMP 16 = 80.493 80.550 TEMP 17 80 . 057 80.090 TEMP 18 = 81.334 81.420i TEMP 19 = 81.511 81.570 TEMP 20 = 80.691 80.680 TEMP 21 = 80.653 80.720 TEMP 22 = :31 .313 81.370 TEMP 23 = 81.553 81.590 TEMP 24 = 82.205 82.290 TPRS 1 = 4:3.988 43.988 VPR.S 1 = 0.355 69.300

'.PRS 2 = 0 .358 69.600 CHANGE ANY DATA ??ND TEMP.. AND PRESS. C'ORRECTED DATA SUMMAPRY TIME = 1215 DATE = 703 TEMP = 79.629532 PPE = 42.631244

SUMMARY

OF MEASURED DATA AT TIME 1230 703 CALC. ENTERED TEMP 1 = 67.887 67.950 TEMP 2 = 68.776 68.870 TEMP 3 = 80.723 80.800 TEMP 4 = 78.717 78.800 TEMP 5 = 80.816 80.880 TEMP 6 = 79.722 79.800 TEMP 7 = 83.821 83.910 TEMP 8. = 79.507 79.600 TEMP 9 = 80.351 80.420 TEMP 10-= 80.087 80.140 TEMP 11 = 69.025 69.060 TEMP 12 = 68.178 68.250 TEMP 13 = 68-.074 68.170 TEMP 14 = 81.451 81.510 TEMP 15 = 81.605 81.670 TEMP 16 = 80.503. 80.560 TEMP 17 = 80.067 80.100 TEMP 13 = 81.334 81.420 TEMP 19 = 81.511 81.570 TEMP 20 = 80.741 80.730 TEMP 21 = 80.703 80.770 TEMP 22 = 81.323 81.380 TEMP 23 = 81.553 81.590 TEMP 24 = 82.245 82.330 TPRS 1 43.988 43.988 Y.-'PRS 1 0.355 69.300 VPRS 2 = 0.358 69.600 CHANGE ANY DATA ??NO

TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1230 DATE = 703 TEMP = 79.633226 PRES = 43.631244 Figure 6-62

S UMMHRY OF MEASURED DATA AT TIME 1245 703 CALC. ENTERED TEMP 1 = 67.887 67.950 TEMP 2 = 68.766 68.860 TEMP 3 = 80.733 80.810 TEMP 4 = 78.727 78.810 TEMP 5 = e0.836 30.900 TEMP 6 = 79.732 79.810 TEMP 7 = 8.831 83.920 TEMP 8 = 79.517 79.610 TEMP 9 = 80.371 80.440 TEMP 10 = 80.097 80.150 TEMP 11 = 69.015 69.50 TEMP 12 = 68.178 68.250 TEMP 13 = 6.094 *68.190 TEMP 14 = 81.480 1 1.540 TEMP 15 = 31 .605 81.670 TEMP 16 = 80.513 80.570 TEMP 17 = 80.077 80.110 TEMP 18 = 1.334 8 1.420 TEMP 19 = 81.541 81.600 TEMP 20 = S0.701 80.690 TEMP 21 = :0.67-3 80.740 TEMP 22 = 81.313 81.370 TEMP 2:3 = 81.543 :l .580 TEMP 24 = 82.245 82.330 TPRS 1 = 43 .985 43.985 VPRS 1 = 0 .353 69 .2 00 VPRS 2 = 0.357, 69.500 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORPECTED DATA

SUMMARY

TIME = 1245 DATE = 70:3 TEMP = 79.63 0 PRES = 4E.629464 Figure 6-63

SUMMARY

OF MEASURED DATA AT TIME 1300 703 CALC. ENTERED TEMP 1 = 67.887 67.950 TEMP 2 = 68.766 68.860 TEMP 3 = 80.763 80.840 TEMP 4 = 78.747 78.830 TEMP 5 = 80.836 80.900 TEMP 6 = 79.732 79.81, TEMP 7 = 83.821 83.910 TEMP 8 = 79.537 79.630 TEMP 9 = 80.381 80.450 TEMP 10 = 80.117 80.170 TEMP 11 = 69.015 69.050 TEMP 12 = 68.178 68.250 TEMP 13 = 68.084 68.180 TEMP 14 = 81.470 81.530 TEMP 15 = 81.595 81.660 TEMP 16 = 80.513 80.570 TEMP 17 = 80.067 80.100 TEMP 18 = 81.344 81.430 TEMP 19 = 81.531 81.590 TEMP 20 = 80.701 -8 0.690 TEMF 21 = 80.693 80.760 TEMP 22 = 81.1S 81.370 TEMFP 23 = 81 .543 81 .580.

TEMP 24 = 82.215 82.300 TFRS 1 = 43.985 43.985

'FRS 1 = 0.353 69.200 VPRS 2 = 0.357 69.500 CHANGE ANY DATA ??N TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1300 .

DATE = 703 TEMP = 79.640134 PRES = 43.629464 Figure 6-64

SUMMARY

OF MEASURED DATA AT TIME 1315 703 CALC. ENTERED TEMP 1 = 67.877 67.940 TEMP 2 = 68.756 68.850 TEMP 3 = 80.753 80.830 TEMP 4 = 78.747 78.830 TEMP 5 = 8.0.846 80.910 TEMP 6 = 79.742 79.820 TEMP 7 = 83.811 .83.900 TEMP 8 = 79.547 79.640 TEMP 9 = 80.391 80.460 TEMP 10 = 80.117 80.170 TEMP li = 69.015 69.050 TEMP 12 = 68.168 68.240 TEMP 13 = 68.074 68.170 TEMP 14 = 81.490 81.550 TEMP 15 = 81 .605 81.670 TEMP 16 = 80.523 80.580 TEMP 17 = 80. 077 80.110 TEMP 18 = 81.334 81.420 TEMP 19 = 81..541 81.600 TEMP 20 = 80.711 80.700 TEMP 21 = 80.683 80.750 TEMP 22 = 1 .3 81.390 TEMP 23 = 81.54 81 .580 TEMP .24 = 82.215 82.300 TPRS 1 = 43.985 43.985 VPRS 1 = 0.353 69.200 V.PRS 2 = 0.357 69.500 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1315 DATE = 703 TEMP = 79.644032 PRES = 43.629464 Figure 6-65

SUMMARY

OF MEASURED DATA AT TIME 1330 703 CALC. ENTERED TEMP 1 = 67.897 67.960 TEMP 2 = 68.766 68.860 TEMP 3 = 80.763 80.840 TEMP 4 = 78.767 78.850 TEMP 5 = 80.856 80.920 TEMP 6 = 79.762 79.840 TEMP 7 = 83.851 83.940 TEMP 8 = 79.557 79.650 TEMP 9 = 80.391 80.460 TEMP 10 = 80.117 80.170 TEMP 11 = 69.015 69.050 TEMP 12 = 66.168 68.240 TEMP 13 = 68.064 68.160 TEMP 14 = 81.490 81.550 TEMP 15 = 81.605 81.670 TEMP 16 = 80.523 8 0.8 5S TEMP 17 = 80.087 80.120 TEMP 18 = 81.334 81.420 TEMP 19 = 81.531 81.590 TEMP 20 = 80.741 80.730 TEMP 21 = 80.64 80.710 TEMP 22 = 81.333 81.390 TEMP 23 = 81.543 81.580 TEMP 24 = 82.195 82.280 TPRS 1 = 43.985 43.985 VPRS 1 = 0.353 69.200 VPRS 2 = 0.357 69.500 CHANGE ANY DATA ??NO TEMP- AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1330 DATE = 703 TEMP = 79.645836 PRES = 43.629464 Figure 6-66

SUMMARY

OF MEASURED DATA AT TIME 1345 703 CALC. ENTERED TEMP 1 = 67.877 67.940 TEMP 2 = 68.756 68.850 TEMP 3 80.773 80.850 TEMP 4 78.757 78.840 TEMP 5 = 80.846 :30 .91 0 TEMP 6 = 79.772 79.850 TEMP 7 83.881 33.970 TEMP 8 79.567 79.660 TEMP 9 = 80.401 80.470 TEMP 10 = 80.147 80.200 TEMP 11 69.015 69. 050 TEMP 12 = 68.178 68.250 TEMP 13 = 68.074 68.170 TEMP 14 = 81.490 81.550 TEMP 15 = 81.635 -11.700 TEMP 16 = 80.533. 80.590 TEMP 17 = 80.097 80.130 TEMP I = 81.344 81.430 TEMP 19 = 81.5:31 81.590 TEMP 20 = 80.731 80.720 TEMP 21 = 80 .713 80.780 TEMP 22 = 81.313 81.370 TEMP 23 = 81.553 81.590 TEMP 24 = 82.215 82.300 TPR: 1 = 43.985 43.985 VPRS 1 = 0 .353 69.200 VPRS 2 = 0.357 69.500 CHANGE ANY DATA ??HO TEMP. AND PRESS2.. CORRECTED -DATA

SUMMARY

TIME = 1345 DATE = 703 TEMP = 79.651635 PRES = 43.629464 Figure 6-67

SUMMARY

OF MEASURED DATA AT TIME 1400 703 CALC. ENTERED TEMP 1 = 67.877 67.940 TEMP 2 = 68.766 68.860 TEMP 3 = 80.793 80.870 TEMP 4 = 78.77 78.870 TEMP 5 = 80.826 80.890 TEMP 6 = 79.762 79.840 TEMP 7 = 83.861 83.950 TEMP 8 = 79.557 79.650 TEMP 9 = 80.381 80.450 TEMP 10 = 80.157 80.210 TEMP 11 = 69.025 69.060 TEMP 12 = 68.178 68.250 TEMP 1 = 68.074 68.170 TEMP 14 = 81.480 81.540 TEMP 15 = 81.6S5 81.700 TEMP 16 = 80.53 80.590 TEMP 17 = 80.107 80.140 TEMP 18 = 81.344 81.430 TEMP 19 = 81.521 81.580 TEMP 20 = 80.721 80.710 TEMP 21 = 80.703 80.770 TEMP 22 = 81.323 81.380 TEMP 23 = 81.553 81.590 TEMP 24 = 82.255 82.340 TPRS 1 = 43.984 43.984 VPRS 1 = 0.353 69.200 VPRS 2 = 0.357 69.500 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1400 DATE = 703 TEMP = 79.654433 PRES = 43.628464 Figure 6-68

LIMMARY OF MEASLRE D DATAP AsT TIME 1415 703 CAL C. ENTERED TEMP 1 = 67.67 67.930:

TEMP 2 = 68 .756 68 .850 TEMP .0 ;8. C9 TEMP 4 ='~ 17 F_

TEMP 5 = 0.4 0.910 TEMP 6 = 9. 7.50 TEMP 1 TEMP 8 = 79 557 0 TEMP 9 = 80.401 8' .470 TEMP 10 = 01 0 190 TEMP 11 = 69.025 69.060 TEMP 12 = E68 .188 6.20 TEMP 13 .084 8. 140 TEMP 14 = 81.510 8 1. r, TEMP 15 = 81.645 81 710 TEMP 16 = 8 . 00 .90 TEMP 17 = SO.107 80 1401 TEMP 18 = 1 4 1 .4 0 TEMP 19 = ,1.531 1 590 TEMP 2 0 = 80.51 C0.740 TEt-P 21 = 0 750 TEMP .= 1 1.380 TEMP 21 1.1 if' TEMP 24 = 21.

TPRS& 1 = 43.44 4 IVPRS1 = 0-.35_ 100 V2 = 0.356 69 .4 0 CHA'NGE AirY DRATFA ?ND.

t TEMP. RND FRES. CORPEC.TED DATA 1UIMM:AY TIME = 141 DATE = 70 TEMP = 79.656736 PPES = 4:3-. 4 Figure 6-69

SUMMiARY OF MEArLIFED DATA AT TIME 14:30: 703 CALC. ENTERED TEMP 1 = 67.887 67.950 TEMP 2 = 68.756 .850 TEMP 3 = 80.813 80.890 TEMP 4 = 78.827. 78.910 TEMP 5 = 80.866 30.930 TEMP 6 = 79.772 79.050 TEMP 7 = :3 .851 83.940 TEMP 8 = 79.557 79.'150 TEMP 9 = 80.411 80.480 TEMP 10= 0.1:37 80 .190 TEMP 11 = 69.025 69.060 TEMP 12 = 68.178 e6.250 TEMP 13 = 68.074 68.170 TEMP 14 = 81.500 81.560 TEMP 15 = 81.625 81.690 TEMP 1 = '0.553 80.610 TEMP 17 = S0.107 80.140 TEMP 18 = 81.344 1.4.30 TEMP 19 = 81.541 81.600 TEMP 0 = 30.761 S.,0 .750 TEMP 21 = 80.733 80 l TEMP 22 1.323 81.380 TEMP 23 81 .543 81 .580 TEMP 24 82.215 *382. 300 TPR*c 1 = 43.983 4:'.93 VPCr 1 = 0 .352 E9. 100 VPRS 2 = 0.356 69.40 CHiNGIE A DATA ??N O TEMP. AN D PRES. S CfGPREC:TE D DRATA MMARY I-U TIME = 1430 DATE = 703 TEMP = 79.6=7341 PRE1 = 43 . 64 Figure 6-70

UMMARY OF OMEASURED DATA AT TIME 1445 703 CALC. ENTERED TEMFI 1 = 67.a77 67.940 TEMP 2 = 68.756 68.850 TEMP 3 = 808 00.880 TEMP 4 = 78.227 7S.910 TEMP .5 =80.876 80.940 TEMP 6 =79.78: 9.86C TEMP 7 83.651 83.940 TEMP = 79.567 79.660 TEMP 9 = 80.41 90.490 .

TEMP 10 = 80.147 $0.200 TEMP 11 = 69.025 69.060 TEMP 12 =68.178 68250 TEMP 13 68.04 6.160 TEMP 14 81.490 31.550 TEMP 15 =81,.615 1.700 TEMP 16 = 0.553 8a.610 TEMP 17 = 80.117 80.150 TEMP 1 = 81.54 81.440 TEMP 19 = 81.541 81.600 TEMP 20 80.861 80.850 TEMP 21 80.743 80.810 TEMP 22 = 13 S1.390 TEMP 23 81.55* 81.590 TEMP 24 82.235 82.320 TPP 1 = 43.9.3 43.983 VPRS 1 = 0.351 69.000 VPRS 2 0.354 69.250 CHANGE ANY DATA ??NO TEMP. AND PRESS. CORRECTED DATA :UMMARY

,TIME = 1445 DATE = 703 TEMP = 79.665640 PRES = 43.630270 Figure 6-71

SLIMMARY OF MEASURED DATA AT TIME 1500 70:3 CALC. ENTERED TEMP 1 = 67.S97 67.960 TEMP 2 = 6*.766 68.860 TEMP 3 = 50.823 80.900 TEMP 4 = 7S.47 7e.930 TEMP 5 = 80.886 80.950 TEMP 6 = 79.813 79.890 TEMP 7 = 80.821 33.910 TEMP 8 = 79.577 79.670 TEMP 9 = 80.421 80.490 TEMP 10 = 80.167 80.220 TEMP 11 = 69.015 69.050 TEMP 12 = 68.188 68.260 TEMP 13 = 68.084 62.180 TEMP 14 = 81.500 81.560, TEMP 15 = 81.665 81.730 TEMP 16 = 80.563 80620 TEMP 17 = 80.127 80.160 TEMP I. = 81.364 81.450 TEMP 19 = 81.551 81.610 TEMP 20 = 80.781 80.770 TEMP 21 = 80.693 80.760 TEMP 22 = S1.303 81.390 TEMP 23 = 81.583 81.620 TEMP 24 = 82.235 82.320 TPRS 1 = 43.983 43.983 VPPS 1 = 0.351 69.000 VPRS 2 = 0.354 69.250 CHANGE ANY DATA ??NO TEMP. AND PRESS. COPRECTED DATA

SUMMARY

TIME - 1500 DATE = 70:

TEMP = 79.675941 PREZ = 43.630270 Figure 6-72

UIMMARY OF MEI:RUPED DPTR AT TIME 1515 703 C.ALC. ENTERED TEMP 1 = 67.S67 E7.9 0 TEMP 2 =68 .766 63.860 TEMP 3 = 0.333 80.910, TEMP 4 =7.347 78.90 TEMP = 9 G0.96 o90.10 TEMP = 7-8.2( 79.0 TEMP .0 63.91 TEMP 79.587 0 79.80 TEMP 7 fl8.431 (I0 TEMP 10 = S0.177 C0 .20 TEMP 11 = 69. 035 69.07 TEMP 12 = 68.18 E.260 TEMP 1.3 = 6.094 6!. 1 0 TEMP 14 = 81.510 31.570 TEMP 15 = 81665 1.730 TEMP I = 80.572 80 .630 TEMP i? = 0.127 30.160 .

TEMP 1:= 81 .364 81.450 TEMP 1 = 81 .561 81 .20 TEMP 0= 0.77 76 TEMP 21 = 80.7 8 1- 00 TEMP D1.353 31 .41 TEMP 3 = 31 .593 31.630 TEMP 24 = 82.225 2.310 TFRS 1 = 434.93 43 .93 VPS 1 = 0 .351 69.

q 0 V= 0.353 69 .200 CHANGE ANY LATA ?,?NO EMP. AND FRE::. COPPECTED DATA SUMiMARY TIME = 1515 DATE = 703 TEMP 79.6819430 PR E S = 43 .63 63 Figure 6-73

UMMARY OF MEPFURED DATA AT TIME 1530 70 CALC. ENTEPEL TEMP 1 = 67.867 67.930 TEMP 2 = 68.766 68.860 TEMP 3 = 80.813 80.910 TEMP 4 = 78.857 78.940 TEMP 5 = 80.886 80.950 TEMP 6 = 79.823 79.900 TEMP 7 = 83.871 83.960 TEMP 8 = 79.597 79.690 TEMP 9 = 80.431 80.501 TEMP 10 = 80.187 80.240 TEMP 11 = 69.025 69.060 TEMP 12 = 68.198 68.270 TEMP 13 = 68.084 60.180 TEMP 14 = 81.520 81.580 TEMP 15 = 81.665 81.730 TEMP 16 = 80.582 Q0.640 TEMP 17 = 80.147 80.180 TEMP 1 = 81.364 31.450 TEMP 19 = S1.551 S1.610 TEMP 20 = 80.801 80.79 TEMP 21 = 0.723 80.790 TEMP 22 = 81.353 81.410 TEMP 23 = 91.590 1 .630 TEMP' 24 = 82.215 82.3001 TPRS 1 = 43.983 43.983-VPRS 1 = 0.351 69.000 VPPS 2 = 0.353 69.200 CHANGE ANY IrATA ??NO TEMP. AND PRESS. CORRECTED DATA SUMM

TIME = 1510 DATE = 70 TEMP = 79.683542 PRES = 43.6306%

Figure 6-74

SUMMARY

OF MEASURED DATA AT TIME 1545 703 CALC. ENTERED TEMP. 1 = .67.97 67.930 TEMP 2 68.756 68.50 TEMP 3 =80.83 80.910 TEMP 4 78.827 78.910 TEMP 5 80.896 80.960 TEMP 6 79.813 79.690 TEMP 7 83.S51 83.940 TEMP 8 79.577 79.670 TEMP 9 = 0.431 80.500 TEMP 10 =80.187 0.240 TEMP 11 = 69.015 69.050 TEMP 12 = 68.182 68.260 TEMP 13 = 63.074 6S.170 TEMP 14 = 81.500 S1.560 TEMP 15 = 81.685 81.750 TEMP 16= 80.5?2 80.640 TEMP 17 = 80.17 K0.170 TEMP 1S = 81.?44 81.43 TEMP 19 = 81.541 a1.600 TEMP 20 = 80.791 SO.780 TEMP 21 = 80.723 80.790 TEMP 22 = 81.053 81.410 TEMP 23 = 81.54? 31.580 TEMP 24 = 82.225 82.310 TP: 1 = 43.981 43.91 V'PRS 1 = 0.351 69.000 VFPRS 2 = 0.353 69.200 CHANGE ANY DATA ??NO TEMP. AND PRESS. COPPECTED DATA SUMMPRY TIME = 1545 DATE = 702 TEMP = 79.671142 PRET = 43.628646 Figure 6-75

SUMMARY

OF MEASURED DATA AT TIME 1600 703 CALC. ENTERED TEMP 1 = 67.S77 67.94Q TEMP 2 = 68.766 68.660 TEMP 3 = S0.833 e0.910 TEMP 4 = 78.857 W.940 TEMP 5 = 80.896 80.960 TEMP 6 = 79.823 79.900 TEMP 7 = 93.871 8.960 TEMP 8 = 79.597 79.69 TEMP 9 = 80.441 80.510 TEMP 10 80.107 80.250 TEMP 11 69.015 69.050 TEMP 12 68.198 68.270 TEMP 13 = 6.084 6S.1%

TEMP 14 = 81.500 81.560 TEMP 15 = 81.665 81 .730 TEMP 16- 80.572 80.630 TEMP 17 = 80.147 80.190 TEMP 16 = S1.364 81.450 TEMP 19 = 81.561 61.620 TEMP 20 = 80.771 80.760 TEMP 21 = 80.733 80.0cl TEMP 22 S1.4 81.400 TEMP 23 81.563 81.6 0 c TEMP 24 82.205 82.290 TPRS 1= 4S.980 42.980 VPRS 1 = 0.351 69.000.

VPRs 2 = 0.353 69.200 CHANGE ANY DATA ??ND TEMP. AND PPETS. COPPECTED DATR SUMMAPY TIME = 1600 DATE = 70, TEMP = 79.6803 PRE= 41.627636 Figure 6-76

OCONEE UNIT 2 - 59 PSIG ILRT

SUMMARY

DATA TIME DATE TEMP. PRES.

2100, 704Y 79.1107089 74.351696 2115w 704, 79.137915, 74.357696 2130w 704, 79.184323, 74.363696 2145, 704v 79.220136, 74.368696 2200, 704' 79.258240' 74.373128 2215P 704, 79.287249s 74.378127 2230' 7049 79.3327629 74.381559 2245p 704, 79.360968, 74.386559 2300P 7049 79.403880, 74.391560 2315, 704, 79.4310849 74.396559 2330' 704' 79.460290 74.401559 2345' 704P 79.492893, 74.405560 2400' 704, 79.522503Y 74.410560 0015, 705, 79.547599, 74.414559 0030, 705; 79.588316P 74.418559 0045' 705, 79.620917P 74.422559 0100' 7059 79.640122P 74.427559 0115' 705. 79.674434, 74.431560 0130, 705' 79.698033' 74.435559 0145' 705' 79.734046, 74.440559 0200' 705' 79.765152, 74.444559 0215' 705' 79.782253, 74.446559 0230, 705. 79.8007569 74.451980 0245, 705, 79.8422669 74.456399 0300, 705 79.865173, 74.460400 0315' 705F 79.889279' 74.464399 0330' 705, 79.9269919 74.468399 0345' 705. 79.945386, 74.472399 0400R 7 05, 79.9775989 74.475399 0415' 705, 80.0025029 74.479400 0430, 705, 80.028512, 74.483399 0445' 705' 80.059216, 74.486400 0500' 705, 80.084221P 74.490399 0515, 705' 80.107825, 74.493400 0530, 7051 80.135836, 74.497399 0545, 7055 80.159443' 74.500400 0600m 705, 80.187547' 74.503399

.0615, 705, 80.206352, 74.506399 0630v 705' 80.241057' 74.511399 0645, 705' 80.250452, 74.514400 0700' 705, 80.274057' 74.516399 Figure 6-77

OCONEE 59 PSIG ILRT UNIT 2 TIME, DATE START OF TEST 21.00 704 TIME AFTER MTART OF TEST = 10.00 HR LEAK FATE EATED ON TDTAL-TIME CALCULATIONS TIME TEMP. PRESUPE MEASURED CALCULATED 95% CONFIDENCE (F) (PSIA) LEAK. PATE LEAK RATE LIMITS 21.25 79.14 74. -0.290+60 -0.-02E-0 -0.15E+00 VS37E-01 21.50 79.18 4 r4 -0.119E+00 -0.567E-fi -0.15E+00 0.33E-01 21.75 79.22 4.s69 -0.816E-01 -0.512-1 -0.15E+00 0.39E-01 22.00 79.2 74.7 -0.045E-01 -0.52S- 1 -0.15E+00 0.40E-01 22.25 799 4 -0.53S2-01 -0.51*E-01 -0.15E+00 0.42E-01 22.50 79.33 4 0.169E-01 -00E-f1 -0.14E+00 0.43E-01 22.75 79.36 4 -0.593E-02 -0.4"E-f1 -0.142+00 0.442-01 23.00 79.40 4.9 0.99E-02 -0.474E-01 -0.142+00 0.452-01 23.25 79.43 74 - 11 3-02 -0.45?E01 0.14E+00 0.47E01 23.50 79.46 4.4'2 -00E,0l -0.4432-01 -0.14E+00 0.48E-01 23.75 79.49 74.406 I 1lE-Ol -0.428E-01 -0.14E+00 0.50E-01 24.00 79.52 4.411 -0A2-01 -0.412E-01 -0.1E+00 0.51E-01 24.25 79.'5 '4.415 i 4E1 -0.3972-01 -0.13E+00 0.52E-01 24.50 79.59 74.419 -0860-02 -0.380-01 -0.13E+00 0.542-01 24.75 79.62 74.4 I' 2-0 -0.366E-01 -0.13E+00 0.55E-01 25.00 79.64 4.428 f0.225-01 -0.350E-01 -0.13E+00 0.57E-01 25.25 79.67 74.4 -0156E-01 -0.335E-01 -0.13E+00 0.58-01 25.50 79.70 4.4 -0.200-01 -0.319E-01 -0.12E+00 0.60E-01 25.75 79.73 4.441 -0.0 0l -0.304E-01 -0.12E+00 0.61E-01 26.00 - 79.77 74.445 -0.164001 -0.3:2-01 -0.122+00 0.63E-01 26.25 79.78 74.47 134E-01 -0.2732-01 -0.12+00 0.64E-01 26.50 79.80 4.4 96E-01 -0.25EE-01 -0.12E+00 0.66E-01 26.75 4 4.456 -. 209E-01 -0.242-01 0.12E+00 0.67E-01 27.00 79.87 74.46@ -0.246E-01 0.2272-1 -0.112+00 0.692-01 27.25 4-4 -. 1-01 -0.211E-01 -0.11E+00 0. 7 1 -01 27.50 7 74.4'- U0.0E-61 -0.196E-01 -0.11E+00 0.72E-01 27.75 79.95 74.472 f0 2 r0 -0.1802-01 -0.11E+00 0.742-01

?8.00 79.9S 4.475 -0.1872-01 -0.165E-01 -0.112+00 0.762-01 28.25 80.00 74.479 -0.205E-01 -0.149E-01 -0.1IE+00 0.772-01 28.50 80.03 74.4 -0.216E-01 -0.134-01 -0.11E+00 0.79-01 28.75 80.06 74.4% -0.1582-01 -0.11@E-01 -0.102+00 0.812-01 29.00 80.9 74.4-0 -6.175E-01 -0.102-01 -0.10E+00 0.2-01 29.25 80.11 74.49 -U. TE-Oh -0.S'42-02 -0.10E+00 0.84E-01 29.50 80.14 7 4 -. 1602-01 -0.7192-O2 -0.10E+00 .36-01 20.A90.1 74.Af0 f0.1461 -0.565-0: f0.99E-01 0. E:Ef t 10.1 Woo 74.L5 -. 10E+01 -5.410E-02 9So

-. f:0.89E-01 30.25 i I.1 74.5069 0.1212-01 -0.2550-02. f16EE01 0.91E-01 30.50 ft .4 74.311 -0.31E-01 -0.101E-02 -0.92E01 0.93E-01

?0.95'"00.25 74.14 -0.173E-01 0.541E-03 -A.94E-01 0.95E-01 1.00 i 0.27 74.17 '0211!E 0.1 02-02 -.2E01 0.972-01 IF IT IS HSlUMED THA-T T-HE LEAKf R-ATE IS CONSITANT:

THE MEAN 1 4 -. 0.-0 THE STANDARD IIRT IO74 IT 0.477E-01 THE CALCULFVET LEW4 FATE AFTER 10.00 HURS OF TES IS 0.209E-02 Figure 6-78

6L-9 aiflSij 6:0-38:9:70 Al IS31 AD LWiOH 00' 01 dIiH 3iHA AH31 I3iHIlflUi 3H1 00U+ 1 '0 1iHO II M/1 ikUM 2H-f TMU-NNh 1T MltW BHI

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00+31E:'0 00+360 2 0-3?98' 0- 00+381'0- 2LF'F '66 r--' 2'2 00+3W9 0 0+3CSO 1EG-3F26'0- 00+3991'0 89F'F2 rO OG09'L 00+310'O 0 0+3- 'U- 30-3.960.'0- 10-B ''0- f9vl' FL h t. 921M2 00+31W 0 00+3600 10-3!O P0- 00+3010 o 09W Z8L 6 HIMC00 00+316'0 00+36E'0 10-3bTd'0- 00+3691'0 99F'F 16,6 ' G&W?

00+316'"0 00+36E'0- 10-B121'G- 09+30200 psF'M FL b 09'9 42 G0+300'0 00+Y0o 10-3621'0- 1G-3'9F'0 'FF'F' 8,1 'F' 92 00+306" 0 00+360 '0 10-3901 '0- 10-3186"0 9FF' FL ,6 22 00'90 00+3000 00+3'60 'U I-3bOF'0- 50-3F2'O WY 1FF' FL19L92 00+306' 0 00+366"0 10-3091 '0- 10-39900-' 9EF'l F 1L6Z 09'M 00+306"0 00+30W 0- 10-319 0- IG-O8t' 0 2F' 29'6 QM 00+3000 00+3SW 0- '0-3191T'0- 00+3SGW 0- SWIM V9"6?'2C 00'0 00+306'0 00+30' 0- [0-32' 0- I0-39FV' 0 cP F 29"C1 FM 00+300' 00+3FW 0- 10-3F - 00+3602" 0 611WF 69'6 UL QC 00+300'0 00-f3bC'0- 10-39S1 0- 10-3169' 0- OW IF'U FKI'ML9F 00+308'0 0G+3F0' 0- 10' B061"0- 00+331 1'0 1TF'FM 24'61 C 0M F 00+300'0 00-3F0'0- 10 31" *0- 10-39t'9'0 900F'4 W' CF'C 00+300'0 00-3F0'0- 10j 3803'0- 00+3U710- T0F'F 9F'CL 09' 00+300 0 00+BFCO- 10-B912'0- 00+3)91 '0- MAE t'i WU'C S2'0 00+3000 00+3F0'- 10-3257'0- 00+3611' 0 WsrltF OF'6L 00'S?

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00+300'0 00+B&0'0- 10-3192'- 00+320 1'0 c Fv 9?'CL 00'?

00+3000 00+390'0- 10-3692' 0- 20-392L'0 6'c'F' 22' CL 9L'1 00+30&'0 00+39E '0- 10-J991' 0- 10-3029' 0 9&v 'F6 o1 CL 09i1 00+300' 00+390' 0 10-3U27'0- 00+3062' 0- 'F~t 416 FTsC72'1

-1M AW3 Wsd (d SiI I 3-Ud. AL4 313 1d] 'I A 32'NB'IAN-40 %-96 131U102V1HJ '13dfU3W 3db 3d 'dW31. 3W.41 S~fll~if~iUJ1J-Oi-JAJIDd WO 1135H U 3BL~d :U1dB dH 00)1 =103 AD Id84IS d3l0H 3W~Il FOL 10G't? 1031 AD 1*10S 31d1 Q3W1 2 lIpif 1 1 910d 6!; 33f-40:10j

OCONEE 59 PlIG ILPT UNIT 2 TIME, DATE START [F TEST 21.00 704 TIME AFTER START OF TECT = 10.00 HR TRENDS BASED ON TOTAL-TIME CALCULATIONfS HOURS DATA MEAN OF CALCULATED CHG IN CALC LP OF TEST ENTRIES CALC LR LEAK RATE FROM LAST POINT 0.75 4 -0.1ESE+00 -0 1.00 5 -0.131E+00 -0.107E-01 0.486E-01 1.25 -0.116E+00 -0.414E-02 0.655E-02 1.50 7 -ft9'E-01 0.214E-01 0.375E-01 1.75 -0.810E-01 0.42BE-01 0.89SE-0a 2.00 9 ii.696-1 0.527E-01 .104E701 2.25 10 -0.629E-01 0.511E-01 -0.164E-02 2.50 11 -0.*E-01 01449E-01 -0.617E-02 2.75 12 -0.546E-u1 0.421E-01 0.274E-02 3;00' 13 -0 .518E-01 0.36?E-01 -0.522E-02 2.514 -0.498E-0n: 0 .015E-01 -054?E-os 3.50 15 -0.469E-01 0.312E-01 269E-03 3.751 -. 440E-01 0.319E-01 0.645E-:3 4.00 1 -0.42FE-61 0J78E-01 -0.403E-:t 4.25 1 -0.411E-01 0.2SE-01 - 00E-02 4150 19~ -0.3'99E-01 0 .231E-01 -0.274E-02 4.75 20 -0.3:SE-01 0.20UE-01 f0.227E-02 6 -0.11O6E+00'-~C 1Fi 5.00 1 -0.377E-01 8.507 250.35E-01 0.193E-01 0.1E2 f0.151E-02 5.25- -0.35E-01 0.15E-0 5.50 F2-0 0.149E-01 -0.360E-02 5.75 4 -0..56- l .131E-01 -0.176E-02 6.00 25 -0.151E-f1 0.109E-01 -0.217E-02 6.25 26 -':'4SF ii 0.860E-02 -0.233E-02 6.5 27i -0.242F "1 0.752E-02 -0.107ZE-02 6.75-0.-290 0.566E-O2 -0.187E-02 7.00 2 -0.%W-01 0.49-02 -.65E0' 7.2 3 -0.3292-01 0. 412E@ Fi'875E 0*

7.50 1 -0.35E-01 16 -0ft54E@:

7.75 3 -0.126E- 0.t00-.E2 8.0t 34 -0.316E-01 06-02 -0t3S-E-f 8.25 34 -0.311E+01 04!E-0E

. - -0.30E-01 -. 1:E-02 -0.647E-04 9.&i0 37 -0.696E-01 4T-02 0.296E-W3 9.55 1 -- 0.29E-01 5GE-05 0.131E-0::

950 31 -0.546E-01 0.261F-0S 0.576E-04 S-0.851E-01 0 0 .00 41 -0.28E-01 it209-02 -0.349E-04 1THE CALCt0I4T LEW 6ATE I01 THE MA:>:;t'9 ALE' LE LEAF RATE IS 0t.250E+00 THE LAST [HiRT- POINAT! E2TRELISH A rIECAT lE SLOPE Figure 6080

- LEAK RATE (Wt. %/Day)

I'I 000 00

.- ........2 2

.K....... ...

~~.... ~~

I.....

H7 ': -1 .. .. . ....

wl~~ H...

.77H

.. 0.

7 _ _

T 17::

d

-7::: :;:

7~~r :7 7

.7.-

S.

Figur6 8

SUMMARY

OF MEASURED DATA AT TIME 2100 704 CALC. ENTERED TEMP 1 = 76.418 76.480 TEMP 2 = 78.258 78.340 TEMP 3 = 79.711 79.790 TEMP 4 = 77.756 77.840 TEMF 5 = 79.976 80.040 TEMP 6 = 79.352 79.430 TEMP 7 = 80.718 80.810 TEMP 8 = 75.828 75.920 TEMP 9 = 78.508 78.580 TEMP 10 = 78.937 78.990 TEMP 11 = 77.339 7?.370 TEMP 12 = 76.405 76.480 TEMP 13 = 78.365 78.460 TEMP 14 = 79.21 79.270 TEMP 15 = 77.787 77.50 TEMP 16 = 79603 79.660 TEMP 17 = 79.358 79.390 TEMP 18 = 79.784 79.870 TEMP 19 = 80.171 80.230 TEMP 20 = 79.560 79.550 TEMP 21 = 78.606 78.670 TEMP 22 - 79.693 79.750 TEMP 23 = 80.243 80.280 TEMP 24 = 81.466 81.550 TPRS 1 = 74.769 74.769 VPRS 1 = 0.416 74.00,0 VPRS 2 = 0.418 74.200 CHANGE ANY DATA ?

NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 2100 DATE = 704 TEMP = 79.1107 PFES = 74.351696'

Figure 6-82

S,:UMMARY OF MEASURED DATA AT TIME 2115 704 CALC. ENTERED TEMP 1 = 76.508 76.570 TEP 2 = 78.288 78.370 TEMP 3 = 79.751 79.830 TEMP 4 77.646 77.730 TEMP = 80.016 80. 080 TEMP 6 79.542 79.620 TEMP 7 = 80.768 80.860 TEMP 8 = 75.848 75.940 TEMP 9 78.548 78.620 TEMP 10 = 78.997 79.050 TEMP 11 = 77.369 77.400 TEMP 12.= 76.445 76.520 TEMP 13 78.395 78.490 TEMP 14 = 79.243 79.300 TEMP 15 = 77.827 77.890 TEMP 16 = 79.653 79.710 TEMP 17 79.398 79.430 TEMP 1 =79.824, 79.910 TEMP 19 80.201 80.260 TEMP 20= 79.620 79.610 TEMP 21 78.645 78.710 TEMP 22 79.713 79.770 TEMP 23 = 80.253 80.290 TEMP 24 = 81.446 81.530 TPRS 1= 74.775 74.775 VPRS 1 = 0.416 74.000 VPRS:: 2 = 0.418 74.200 CHANGE ANY DATA NO TEMP. AND FPESS. CORRECTED DATA SLMMARpY TIME = 2115 DATE = 704 TEMP = 79 .137915 FRE' = 74 .3576 Figure 6-83

SUMMARY

OF MEAURED IMATA AT TIME 21 704 CALC. ENTERED TEMP 1 = 76.568 76.630.

TEMP 2 = 72.368 78.450 TEMP 3 = 79.801 79.880 TEMP 4 = 77.766 77.850 TEMP 5 = 80.056 80.120 TEMP 6 = 79.512 79.590

TEMP 7 = 80.858 80.950 TEMP = 75.858 75.950 TEMP 9 = 7S.598 78.670 TEMP 10 = 79.037 79.090 TEMP 11 = 7?.409 77.440 TEMP 12 = 76.535 76.610 TEMP 13 = 78.405 73.500 TEMP 14 = 79.313 79.370 TEMP 15 = 77.S77 77.940 TEMP 16 = 79.693 79.750 TEMP 17 = 79.448 79.480 TEMP 18 = 79.884 79.970 TEMP 19 = 80.241 80.300 TEMP 20 = 79.650 79.640 TEMP 21 = 78.705 78.770 TEMP 22 = 79.773 79.830 TEMP 23 = 80.293 80.330 TEMP 24 81.466 81.550 TPRS 1 74.781 74.781 VPRS 1 = 0.416 74.000 VPRS 2 0.418 74.200 CHANGE ANY DATA ?

NO TEMP. AND PRESS. CORRECTED.DATA

SUMMARY

TIME = 2130 DATE = .7 04 TEMP = 79.184323 PRES = 74 .363696 Figure 6-84

SUMMARY

OF MEAuJREU DATA AT TIME 2145 704 CALC. ENTERED TEMP 1 = 76.588 76.650 TEMP 2 = 78.378 78.460 TEMP 3 = 79.881 79.960 TEMP 4 77.876 77.960 TEMP 5 -80.096 80.160 TEMP 6= 79.582 79.660 TEMP = 80.908 81.000 TEMP 8 75.878 75.970 TEMP 9 = 78.648 78.720 TEMP 10 = 79.077 79.130 TEMP 11 = 77.479 77.510 TEMP 12 = 76.535 76.610 TEMP 13 = 78.545 78.640 TEMP 14 = 79.353 79.410 TEMP 15 = 77.927 77.990 TEMP 16 = 79.723 79.780 TEMP 17 = 79.498 79.530 TEMP 18 = 79.914 80.000 TEMP 19 = 80.251 80.310 TEMP 20 = 79.710 79.700 TEMP 21 = 78.745 78.810 TEMP 22 = 79.813 79.870 TEMP 23 = 80.323 80.360 TEMP 24 = 81.456 81.540 TPRS 1 = 74.786 74.786

..'PRS 1 = 0.416 74.000 VPRS 2 = 0.418 74.200 CHANGE ANY DATA NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 2145 DATE = 704 TEMP =. 79.220131 PRES 74.368696 Figure 6-85

,UMMARY OlF MEAIUPED DATA AT TIME 2200 704 CALC. ENTERED TEMP 1 = E7.38 76.700 TEMP 2 = 78.44. 7:.530 TEMP =7.1 80.000 TEMP 4 =77.856 77.94 0 TEMP E = .16 C 0. 220 TEMP E = .6,4-2 772 0 TEMP 0 =. 81. C120 TEMP - =.

.TEMP CI = .08 7'8.-780 TEMP 10C = 79.12I 71l TEMP 11 = 77.519 77. 550 TEMP 1= 76 .6 2 76.70 TEMP 13 7=8.625 78.712 TEMP 14 = 79.423 79. 48 f TEMP 15 = 77. 7 .040 TEMP 16 = -7. 79.S' 40 TEMP 7 = 79 .538 79. ,

TEMP 1 =7.954 G,0 .04r0 TEMP 19 = 8. 291 80 .350C TEMF 20 = 79.70 79,0 TEMP 21 7 5 .0 TEMP 22-7.63 79.92 TEMP C3 = 80.:33 '0.370 TEMP *24 81.4 6 81 .570 TPR 1 - 74.791 74.791

.1 0.41 74 .100:I 2 .418 74.200 CHANGE AY DATA ?

= NO TEMP. AND PESS. CORFECTED DATA

SUMMARY

TI ME= 22::

DATE = 704 TEMP = 79.2524l PRE = 4.37312 Figure 6-86

$UMIMAFY U F ME U EEr LDATA AT T IME 2 15 04 CALC. ENTERED TEMP 1 = 7 .7 76.740 TEMP 2 = 78.488 78.570 TEMP 3 = 79.971 80.050 TEMP 4 = 77 .96 77 .910t TEMP 5 = 80.196 30.260 TEMP 6 7.70 779692 TEMP 0 81. 030 TEMP S = 75.90 7r . 000A:I TEMP 9 = 7.7 7.00 TEMP 10 =79.167 220 TEMP 11 = 77 .579 7 .610 TEMP 1 76.6 76.760 TEMP 13 7 0 TEMP 14 = 43 9.520 TEMP 15 = 7 .. 0 7 78.090 TEMP16 = ,: 90 TEMP 17 = 79578 79 .610 TEMP 18- 79.98~4 i0.070 TEMP 18 = .1 0 0 TEMP 20 = 79.821 79.10 TEMP 21 = 7.45 7.8190 TEMP 2 = 79. 79.910 TEMP 23 = C0.420

'0':3 TEMP 24 = 8'1 .4 6 '1 .550 TPRS 1 = 74.796 74.796 VPRS 1 = 0.417 74.100 VFP 2 = 0.418 74 .0 0:' 0 CHANE ANY DATA NO TEMP. AND PFE:SS. CORPRECTED DATA UMrARY TIME = 2215 DATE = 704 TEMP = 79?..:749 PF:ES = 74.FE7:'12 Figure 6-87

YUMM F OP ME:trl DATi T TIME 704 CALC. ENTERED TEMP 1 = 76.708 76 .770 TEMP 7 = 78..8) 7.640 TEMP 3 = 8CI.021 0.100 TEMP 4 = 77.996 78 .0' TEMP 5 = .246 0.310 TEMP 6 = 79.722 79 .0 TEMP 0 TEMP 8 = . 77.9E. fL?.00 TEMP I.- = D I- ,

TEMP 10 = 79. 2t27 7 9.280 TEMP 11 = 77.640 77 .670 TEMP 12 = 7E.725 e.001 TEMP 13 = 7S.715 78. 1-0 TEMP 14 = 79.49 79.550 TEMP 15 . 0077 78. 140 TEMP 16 = '79.873 79 .0 TEMP 17.= 7 9.-1 79 .6 5 TEMP 1 0 .044 0 .1 0 TEMP 19 = 80.361 30.4,0 TEMP 20 = 79.871 79.60 TEMP 1= 78.335 78-950 TEMP 2- = 9 .913 79.970 TEMP 23 = 8:I0.413 80.450 TEMP 24 = 31 .476 E1 .0 TPFP 1 = 74 .00 74.00 VPRS 1 = .4 1. 74.200 P= 0.413 74.200 CHArNGE ANY DATA TEMP. AND PPE11. CEOSPRECTED DATA IMMAF'Y TIME = 2230 DATE = 704 TEMP = 79.33762 PRE = 74.3; 559 Figure 6-88

SUMMARY

OF MEA:5URED DATA AT TIME 2245 704 CALC. ENTEPED TEMP 1 = 76.758 76.S20 TEMP. 2 = 78.578 78.660 TEMP 3 = 80.071 30.150 TEMP 4 = 78.066 78.150 TEMP 5 = 80.276 80.340 TEMP 6 = 79.782 79.260 TEMP 7 = 81.068 81.160 TEMP 8 = 75.938 76.030 TEMP 9 = 78.829 78.900 TEMP 10 = 79.267 79.320 TEMP 11 = 7?.660 77.690 TEMP 12 = 76.765 76.G40 TEMP 13 78.775 78.870 TEMP 14 =79533 79.590 TEMP 15 78.107 78.170 TEMP 16 = 79.893 79.950 TEMP 17 = 79.647 79.680 TEMP 18 = 80.064 00.150 TEMP 19'= 80.371 80.430 TEMP 20 = 79.951 79.940 TEMP 21 = 78.925 78.990 TEMP 22 = 79.933 79.990 TEMP 23 = 80.443 80.480 TEMP 24 = 81.486 81.570 TPRS 1 = 74.805 74.805 VPRS 1 = 0.418 74.200 VPRS 2 = 0.418 74.200 CHANGE ANY DATA TEMP. AND PRESS. CORPECTED DATA

SUMMARY

TIME = 2245 DATE = 704 TEMP = 79.360968 PRES = 74.386559 Figure 6-89

SUMMARY

OF MEAWURED DATA AT TIME 2300 704 CALC. ENTERED TEMP 1 = 76.778 76.840 TEMP 2 = 7S.649 S73870 TEMP 3 = 30.122 80.00; TEMP 4 = 78.226 78.310 TEMP 5 = 80.326 80.s90 TEMF' 6 = 79.843 79.520 TEMP 7 = 81.048 81.140 TEMP 8 = 75.958 76.050 TEMP 9 = 78.869 78.940 TEMP 10 = 79.287 79.240 TEMP 11 = 77.710 77.740 TEMP 12 76.775 76.850 TEMP 13 = 78.795 7890 TEMP 14 = 79.592 79.6Q0 TEMP 15 =78.67 78.23 0 TEMP 16 =79.943 0.o000 TEMP 17 79.697 79.730 TEMP 1 = 80.114 80.200 TEMP 19 = 80.401 80.460 TEMP 20 = 79.991 79.980 TEMP 21 = 78.975 79.040 TEMP 22 = 79.983 80.040 TEMP 23 = 80.473 80.510 TEMP 24 = 81.50 81.590 TPRS 1 = 74.810 74.810 VPRS 1 = 0.418 74.200 VPPS 2 = 0.418 74.200 CHANGE RHY DATA '

TEMP. AND PVE. CORRECTED DATA SUMMRPY TIME = 2300 DATE = 704 TEMP = 79.403880 PRES = 74.391560 Figure 6-90

UMMARY OF MERASUREL DATA AT TIME 2315 704 CALC. ENTERED TEMP 1 76.828 76.890 TEMP .2 = 78.693 78.780 TEMP 3 = 80.172 80.250 TEMP 4 = 78.036 7S.17.0 TEMP 5 = 80.346 30.410 TEMP 6 79.893 79.970 TEMP 7 =81.169 81.260 TEMP 8 = 75.978 76.070 TEMP 9 = 78.939 79.010 TEMP 10 = 79.337 79.390 TEMP 11 = 77.760 ??.790 TEMP 12 = 76.845 76.920 TEMP 13 = 78.?95 75.990 TEMP 14 = 79.622 79.680 TEMP 15 = 78.207 7C.270 TEMP 16 = 79.953 80.010 TEMP 17 = 79.727 79.760 TEMP 18 = 80.144 80.230 TEMP 19 = 80.441 80.500 TEMP 20 = 80.031 80.020 TEMP 21 = 79.005 79.070 TEMP 22 = 80.023 30.080 TEMP 23 = 80.493 80. .

TEMP 24 = 81.506 81.5 TPRS 1 = 74.815 74.815 VPRS 1 = 0.418 74.200 VPRS 2 = 0.418 74.200 CHANGE ANY DATA NO TEMF. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 2315 DATE = 704 TEMP = 79.431084 PES= 74.396559 Figure 6-91

SUMMARY

OF MERSURED 1DATA T TInE 22.30 704 CALC. ENTEPED TEMP 1 = 76.868 76.930 TEMP 2 = 78.718 78.800 TEMP 3 = 80.212 80.290 TEMP 4 = 78.116 78.220 TEMP 5 = 80.386 80.450 TEMP 6 = 79.893 79.970 TEMP 7 = 81.229 81.321 TEMP 8 = 75.998 76.09C TEMP 9 = 78.979 79.05.i TEMP 10 = 79.387 79.440 TEMP 11 = 77.826 77.850 TEMP 12 = 76.875 76.950 TEMP 13 = 78.865 78.960 TEMP 14 = 79.672 79.730 TEMP' 15 = 78.2S7 78.300 TEMP 16 80.013- 0:070 TEMP 17 79.757 79.790 TEMP 1S 80.184. 80.270 TEMP 19 =80.461 80.520 TEMP 20 80.081 80.070 TEMP 21 79.045 79.110 TEMP 22 = 0.033 0.090

-TEMP 23 = 80.5S2 80.560 TEMP 24 = 81.516 81.600 TPRS 1 = 74.820 74.820 VPRS 1 = 0.418 74.200 VPRS 2 = 0.418 74.200 CHANGE ANY DATA?

NO TEMP.. AND F'RESS. CORRECTED DATA

SUMMARY

TIME = 2330 LATE = 704 TEMP = 79.460250 PRES = 74.401559 Figure 6-92

SUMMFRY OF MEASURED DTA RT TIME 2345 704

-CALC. ENTERED TEMP 1 = 76.898 76.?60 TEMP 2 = 78.779 78.860 TEMP 3 = 80.252 80.330 TEMP 4 = 7S.206 78.290 TEMP 5 = 80.416 80.480 TEMP 6 = 79.953 80.030 TEMP 7 - 81.19 81.290 TEMP 8 = 76.018 76.110 TEMP 9 = 79.009 79.080 TEMP 10 = 79.427 79.480 TEMP 11 = 77.840 77.870 TEMP 12 = 76.925 7?.000 TEMP 13 = 78.945 79.040 TEMP 14 = 79.722 79.780 TEMP 15 = 78.287 78.350 TEMP 16 = 80.033 8o00 TEMP 17 = 79.787 79.820 TEMP 18 = 80.214 s0.300 TEMP 19 - 80.471 80.530 TEMP 20 = 80.121 80.110 TEMP 21 = 79.105 79.170 TEMP E2 = 80.073 80.130 TEMP 23 = 80.553 80.590 TEMP 24 = 81.536 81.620 TPRS 1 = 74.824 74.324 VPRs 1 = 0.418 74.200 VPRS 2 = 0.413 74.200 CHANGE ANY DATA ?

NO TEMP. RND PRESS. COPECTED DATA SUMMArY TIME = 2345 DATE = 704 TEMP = 79.492893 PPEF = 74.405560 Figure 6-93

1:UMMAPY OF MEHUlPED rDATA AT TIME 2400 704 CALC. ENTERED TEMP 1 = 76.948 77.010 TEMP 2 = 7:.70S 78.870 TEMP S = 80.302 80.380 TEMP 4 = 7S.20 78.320 TEMP 5 = 80.446 80.510 TEMP 6 = 80.013 80.090 TEMP 7 = 81.269 81.3S0 TEMP = 76.02? 76.120 TEMP 9 = 79.049 79.120 TEMP 10 = 79.467 79.520 TEMP 11 = 77=0 77.910 TEMP 12 =.76.935 .010 TEMP 13 =7685. 75.080 TEMP 14 79.752 79.610 TEMP 15 78.317 78.330 TEMP 16 = 80.063 -0.120 TEMP 17 = 79.S27 79.860 TEMP 18'= 00.244 80.330 TEMP 19 = 80.511 C0.570 TEMP 20 = 80.161 0. 150 TEMP 21 - 79.121 79.190 TEMP 22 - 80.063, 80.120 TEMP 2 = 80.553 80.630 TEMP 24 = 81.556 81.640 TPRS 1 = 74.29 74.329 VPRS 1 = 0.418 74.200 VPRS -2= 0.418 74.200 CHANGE ANY DATA NO AEMP. AND. PRESS. CORRECTED DATA

SUMMARY

TIME = 24100 DATE = 704 TEMP = 79.522503 PRES = 74.410560 Figure 6-94

OFMMARY OF riSUr-ED rATA T TIME 15 705 CALC. ENTERED TEMP 1 = 77.0 7 77 .00 TEMP 0 = . 7.910 TEMPF 3:= 8032 80.400:

TEMP 4 = 78.176 .260 TEMP 5 = 046 00.550 TEMP . = 8.3 t0.110 TEMP f 1 81.430 TEMP : = 76.048 76.140 TEMP 9 = 79.049 79.120 TEMP 10 = 79.4:7 79.540 TEMP 11 = 77.;00 77.930 TEMP 12 = 76.985 77.060 TEMP 13 = 78.955 790 TEMP 14 = f9 " - 7 .350 TEMP 15 = 7837 7S.430 TEMP 1E = 0.113 0. 170 TEMP 17 = I78 7- '? Clf TEMP 1 = 8 .4 0 370 TEMP 19 = 0.1 =0.610 TEMP 0 = 191 130 TEMP 1 = 79.175 79.24 TEMP 22 = :0. 90.150 TEMP 23 = 0.6&13 =0 .5L TEMP 24 = :.566 1 .650 TPR5. 1 = 74.33 74.833

'FRF 1 = 0: .41: 74.2:00 VPRS = 0 .41: 74 .200 C:HANiE AINY DATA NO TEMP. FIAD E. :

SUMMARY

DORRECTED DATA TIME = 15 DATE = f0 TEMP = 79.54759?

PPES = 74.414559 Figure 6-95

SUMMARY

OF MEASUREt DATA AT TIME 30 705 CALC. ENTERED TEMP 1 = 77.088 77.150 TEMP 2 = 78.869 78.950 TEMP 3 = 80.392 80.470 TEMP 4 = 78.346 78.430 TEMP 5 = 80.506 80.570 TEMP 6 = 80.063 80,.140 TEMP 7 = 81.329 81.420 TEMP 8 = 76.078 76.170.

TEMP 9 = 79.119 79.190 TEMP 10 = 79.537 79.590 TEMP 11 = 77.960 77.990 TEMP 12 = 77.035 77.110 TEMP 13 = 78.995 79.090 TEMP 14 = 79.812 79.870 TEMP 15 = 78.387 78.450 TEMP 16 = 80.153 80.210 TEMP 17 = 79.887 79.020 TEMP 13 = 80.304 80.390 TEMP 19 = 80.581 S0.64 0 TEMP 20 = S0.221 80.210 TEMP 21 = 79.205 79.270 TEMP 22 = 80.143 80.200 TEMP 23 = 80.633 80.670 TEMP 24 = 81.586 81.670 TPRS 1 = 74.837 74.837 VPRS 1 = 0.418 74.200 VPRs 2 = 0.418 74.200 CHANGE ANY DATAi

= NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 31 DATE = 705 TEMP = 79.53506 PRES = 74.418559 Figure 6-96

LMMRFiY OF MEA UREP DATA AT TIME 45 705 CA LC:. ENTERED TEMP 1 = 7 TEMP 2 = 8.90 TEMP 3 = 0. 41 1 :0.490 TEMP 4 = 732 78.410:'

TEMP 5 = I I4' 80.610 TEMP 6 = -80.103 8. 180 TEMP 7 = 8 09 1.5 00 TEMP = 76.9 U9::. .190 TEMP 9 = , 79-.1-< 79 .240 TEMP In = 7f-4 79.630 TEMP 11 = 7 -. 0.00 TEMP 11 A 77.5 ??.140 TEMP 13 = 794115 7.:-10 TEMP 14 = 7.: 7.920 TEMP 15 = 7: .437 7 C.500 ,

TEMP 1 E. = 10.1 80 .2430 TEMP 17 = 79.917 79.950 TEMP 1D = C0. 44 30.430 TEMP 19 = i1 I 80.6 0 TEMP 20 = .1 0 TEMP 21 = 7.4 7 n.0 TEMP 22 = .1- .

TEMP 3. a0.710 TEMP 24 = 1 I 1. 0 TFR 1 = 74.41 74 .41 VPRS 1 = 0 .418 74 . 0 VPRS 2 = 0.418 74.200 CHANG EANY DATA NO TEM P. FiIN1 PFE CORRECTED DATA

SUMMARY

TIME =

DATE = 70 TEMP = 79.01 PRE= 744 Figure 6-97

SUMMARY

OF MEASURED DATA AT TIME 100 705 C:ALC. ENTERED TEMP 1 = 77.093 77.160 TEMP 2 = 78.969 79.050 TEMP 3 = 80.452 80.530 TEMP. 4 = 78.336 78.420 TEMP 5 = 80.586 80.650, TEMP 6 = 80.153 0.230 TEMP 7 = 81.449 81.540 TEMP 8 = 76.118 76.210 TEMP 9 = 79.179 79.250 TEMP 10 = 79.597 79.650 TEMP 11 = 78.050 78.060 TEMP 12 = 7?.085 77.160 TEMP 13 = 79.115 79.210 TEMP 14 = 79.902 79.960 TEMP 15 = 78.477 78.540 TEMF 16 = 8.213 80.E7 0 TEMP 17 = 79.957 79.990 TEMP 18 = 80.384 80.470 TEMP 19 = 80.611 80.670 TEMP 20 = 80.311 80.300 TEMP 21 = 79.275 79.340 TEMP 22 = 80.193 80.250 TEMP 23 = 80.683 90.720 TEMP 24 = 81.596 81.6s80 TPFRS 1 = 74.846 74.846 VPRS 1 = 0.418 74.200 VPRY 2 = 0.418 74.200 CHANGE ANY DATA SNO TEMP.. AND PNEWS. CORRECTED DATA SUMMrAPY TIME = 1001 DATE = 70C TEMP = 7%.646122 FPRE = 74.417559 Figure 6-98

SUMMARY

OF MEAS:UREti DM IS RAT TIME 115 705 CALC. ENTEPED TEMP 1 = 77.15S 77.220 TEMP 2 = W8.999 79 . 080 TEMP 3 = 80.492 80.570 TEMF' 4 = 78.456 78.540 TEMP 5 = 80.606 80.670 TEMP 6 = 80.183 80.260 TEMP 7 = 81.459 81.550 TEMP 8 = 76.118 76.210 TEMP 9 = 79.239 79.31.0 TEMP 10 = 79.647 79.700 TEMP 11 = 78.010 78.110 TEMP 12 = 77.105 77.180 TEMP 13 = 79.215 79.310 TEMP 14 = 79.932 79 .990 TEMP 15 = 75.507 7S.570 TEMP 16 = 80.233 90:290 TEMP 17 = 79.977 80.010 TEMP 18 = 60.404 80.490 TEMP 19 = 80.621 80.680 TEMP 20 = 80.361 80.350 TEMP 21 = 79.315 79.380 TEMP 22 = 80.243 0.300 TEMP 23 = 80.723 80.760 TEMP 24 = S1.606 81.690 TPRS 1 = 74.850 74.850 VPRS 1 = 0.418 74.200 VPRS 2 = 0.418 74.200 CHRNGE ANY DATA ?

NO TEMP. RND PRESS. CORRECTED DATA

SUMMARY

TIME = 115 DATE = 705 TEMP = 79.674434 PPES = 74.42150 Figure 6-99

SUMMARY

OF MEASURED DATA AT TIME 130 705 CALC. ENTEPED TEMP I = 77.228 77.290 TEMP 2 = 79.039 79.120 TEMP 3 = 80.522 80.600 TEMP 4 = 78.456 78.540 TEMP 5 = 80.636 80.700 TEMP 6 = 80.183 80.260 TEMP 7 = 81.509 21.600 TEMP 8 = 76.138 76.230 TEMP 9 = 79.249 79.320 TEMP 10 = 79.667 79.720 TEMP 11 = 78.080 78.110 TEMP 12 = 77.165 77.240 TEMP 13 = 79.175 79.270 TEMP 14 = 79.972 80.030 TEMP 15 = 7S.537 78.600 TEMP 16 = 80.27S 80.330 TEMP 17 = 80.007 80.040 TEMP 18 = 80.424 80.510 TEMP 19 = 80.661 80.720 TEMP 20 = 80.361 80.350 TEMP 21 = 79.055 79.420 TEMP 22 = 0.250 9 :10 TEMP 23 = 80.743 80.780 TEMP 24 = 81.636 81.720 TPRS 1 = 74.854 74.854 VPPs 1 = 0.418 74.200 VPS 2 = 0.418 74.200 CHANGE ANY DATA NO TEMP. AND FFET. CORRECTED DATA

SUMMARY

TIME = 130 DATE = 705 TEMP = 79.695033 PRES = 74.435559 Figure 6-100

SUMMARY

OF MESUPEDI DATA AT TPME 145 705 CAL' C. ENTERED TEMP 1 = 77.2 .

TEMP A.= 79 .049 7.130 TEMP 3 = 0.572 80. 50 TEMP 4 =71.51 .100 TEMP = 0.6 80,740(

TEPI '- = . 0.II 4 C' TEMP D=1. 19 1.10 TEMP 8 = G.163 260 TEMP = A. 3 47C.40 TEMPF 10 79.70 ' 79.760i TEMP 11 = 1 TEMP 11 = .5 C0 TEMP 12 79.05 79.

TEMP 14 = . 12 c007 TEMP 1 7 C8.07 78.7 TEMP 1 = 0.313 0.70 TEMF 17 = , 80 f0.07 TEMP 18 .4!4 C0 .40' TEMP 1 = 8.71 060 TEMP 2 =, .41 .410 TEMP 1 = 9 9H9.6 TEMP 22 = . 3 TEMP = . 0 TEMP L.4 = 1.26 11 TPRS 1 = 74 .'59 74 . 5 VPS 1= 0 .41: 74.200 VPR 2 = 0 .418 74 .00 CHANGE FiNY DATA ?

NO TEMP. PHD r . C'R'ECTED LAT A

SUMMARY

TIME = 145 DATE = 70J TEMP = 7'.734 4 -,

PES = 74 .44:

Figure 6-101

UMARY OF MEREURED DATA AT TIME 0' 705 CALC. ENTEPED TEMP 1 = 77.298 77.360 TEMP 2 = 79.119 79.200 TEMP 3 = 80.612 80.690 TEMP 4 = 78.5% 78320 TEMF 5 = 80.706 80.770 TEMP 6 = 80.343 80 .420 TEMP 7 = a1.519 61.610 TEMP 8 = 76.188 76.280 TEMP 9 = 79.160 79.430 TEMP 10 = 79.747 79.800 TEMP 11 = 78.220 78.250 TEMP 12 = 77.255 7?.330 TEMP 13 = 79.285 79.380 TEMP 14 = @0.042 80..100 TEMP 15 = 78.617 78.680 TEMP 16 = 80.023 80.380 TEMP 17 = 80.057 80.090 TEMP l8 = 80.484 80.570 TEMP 19 = 80.711 80.170 TEMP 20 = 80.451 80.440 TEMP 21 = 79.425 7%490 TEMP 22 = 80.32 8 0.3?0 TEMP 23 = 80.I03 808410 TEMF 24 = 81.646 81.710 TPRS 1 = 74.863 74.86:

VP 1 0.418 74.200 VPRS 2 0.418 74.200 CHANGE ANY DATA NO TEMP. AND PRES1. CORRECTED DATF

SUMMARY

TIME = 200 DATE = 70&

TEMP = 79.76515.

PPE S = 74.444559 Figure 6-102

SLIMMAtPY OF MEASURED DATA AT TIME 215 705 CALC. ENTERED TEMP 1 = 77.308 77.370 TEMP 2 = 79.149 79.230 TEMP 3 = 80.642 80.720 TEMP 4 = 78.56 78.620 TEMP 5 = 80.726 80.790 TEMP 6 = 80.283 80.360 TEMP 7 = 81.579 81.670 TEMP 8 = 76.198 76.290 TEMP 9 = 79.390 79.460 TEMP 10 = 79.787 79.840 TEMP 11 = 78.250 78.250 TEMP 1 = 0.261 77.340 TEMP 13 = 79.325 79.420 TEMP 14 = 80.072 80.130 TEMP 15 = 78.657 78.720 TEMP 16 = 80.43 8 0.400 TEMP 17 = 80.087 80.120 TEMP 18 = 80.504 80.590 TEMP 19*= S0.731 80.790 TEMP 20 = ?0.491 80.40 TEMP 21 = 79.455 79.520 TEMP 22 = 80.02 80.390 TEMP 23 = 0.823 S0.-60 TEMP 24 = 81.646 81.730 TPRS 1 = 74.865 74.865 VPRS 1 = 0.418 74.200 VPRS 2 = 0.418 74.20' CHANGE ANY DATA NO TEMP. AND PWE:S. CORRECTED DATA

SUMMARY

TIME = 215 DATE = 705 TEMP = 79.78225:3 PRES = 74.44655q Figure 6-103

SUMMARY

UF MERUEP DOITS AT TIM1E 2:30 705 CALC. ENTERED TEMF 1 = 77.30S 77.370 TEMP 2 = 79.179 79.260 TEMP 3 = 80.672 80.750 TEMP 4 = 78.546 78.630C TEMP 5 = 80.746 80.810 TEMP 6 = 80.323 :30.400 TEMF = 81.589 81 .680 TEMP 8 = 76.218 76.31-0 TEMP 9 79.420 79.490 TEMP 10 = 79.797 79.850 TEMP 11 = 79.280 78.310 TEMP 12 = 77.285 77.360 TEMP 13 = 79.355 79.450 TEMP 14 = 80.092 80.150 TEMP 15 78.687 78.750 TEMP 16 80.382 80.440 TEMP 17 = 0.117 80.150 TEMP 1= 80.534 80.620 TEMF 1 = 80.731 30.79 0 TEMP u = 80.11 S0.500 TEMP 1 79.475 79.540 TEMP 22 = 0.343 80.400 TEMP 23 80.853 80.b990 TEMP 24 = 81.646 81.730 TPRS 1 = 74.869 74 .869

',-'PRs 1 = 0.417 74.100

PPs 2 = 0.417 74.10 CHANGE ANY DRTT?

NO TEMP. FD PWEIS. COPECTED DATA

SUMMARY

TIME = 230 DATE = 707 TEMP = 79. 00 75 PRES = 74.451rn Figure 6-104

$-UMPM1R OF MEAS.URD lATA AT TIME 245 705 CALC. ENTERED TEMP 1 = 77.368 r7.430 TEMP 2 = 79.209 79.290 TEMP 3 = 80.723 S0.800 TEMP 4 = 78.657 78.740 TEMP 5 = 30.796 80.860 TEMF 6 = 80.410 80.490 TEMP 7 = 81.619 81.710 TEMP 8 = 76.248 76.340 TEMP 9 = 79.450 79.520 TEMP 10 - 79.247 79.9 06 TEMP 11 = 78.280 78.310 TEMP 12 = 77.3e5 77.460 TEMP 13 = 79.405 79.500 TEMP 14 = 80.142 80.200 TEMP 15 = 10.717 78.780 TEMP 16 = 80.423 80.480 TEMP 17 = 80.147 so.180 .

TEMP 18 = 80.574 90.660 TEMP 19 = 80.771 80.30 TEMP 20 = 80.541 80.520 TEMP 21 = 79.505 79 570 TEMP 22 = 80.383 80.44 0 TEMP -3 = 80.883 80.920 TEMP 24 = 81.656 81.740 TPRS 1 = 74.872 74.872 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DRTA NO TEMP. AND PRETIS. CORPECTED DATA &UMMARY TIME = 245 DATE = 707 TEMP = 7?.84266 PRES = 74.456394 Figure 6-105

SUMMARY

OF MlEACURED DATA AT TIME 30 705 CALC. ENTERED.

TEMP 1 = 77.418 77.480 TEMP 2 = 79.229 79.310 TEMP 3 = 80.753 80.830 TEMP 4 = 7S.717 78.00 TEMP 5 = 80.806 80.870 TEMP 6 = 80.383 80.460 TEMP 7 = 81.669 81.760 TEMP S = 76.268 76.360 TEMP 9 = 79.450 79.560 TEMP 10 = 79.877 79.930 TEMP 11 = 78.320 78.350 TEMP 12 = 77.365 77.440 TEMP 13 = 79.405 79.500 TEMP 14 = 80.162 80.220 TEMP 15 = 78.757 78.820 TEMP 1 = 80.443 W0:0 TEMP 17 = 80.167 80.200 TEMP 18 = 80.604 0.6 90 TEMP 19 = 80.801 80.660 TEMP 20 = 80.591 80.58 0 TEMP 21 = 79.535 79.600 TEMP 22 = 80.403 80.460 TEMP 23 = 80.893 30.930 TEMP 24 = 81.656 81.740 TPRS 1 = 74.876 74.876 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA NO TEMP. RND PRE&. CORPRECTED DATA

SUMMARY

I TIME =

DATE = 705 TEMP = 79.565173 PRES = 74.460400 Figure 6-106

US:UMMARY OF MEtSUR ED DATA AT TIME 315 70C CFILC. ENTERED TEMP 1 = 77.42, 77.490 TEMF 2 = 79E.28 79.C70 TEM 3 = 07 0P A C . C, TEMP 4 = 7.727 78. 10 TEMP 5 =f 04 10 TEMP 6 = 044 8.520 TEMP 7 = 81.68 1.7 TEMP ::= 76.28D 7.3 TEMP 9 = 79.5c0 79 .90 TEMP 10 = 7.9 17 79.9 q TEMP 11 = 78.380 73.41l TEMP 1 = 77.5 77.470 TEMP 13 = .45 TEMP 14 = 80. 10.24 C TEMP 15 = 77 73. 50 TEMP 16 = 80.473 R0 TEMP 17 = 80.197 80.230.

TEMP 13 = 0.24 ':0 .710:'

TEMP 19 = 0.L21 80 .80 TEMP 20 .6 11 8D.E00 TEMP 21 = 7 4 79.650 TEMP 22' = 8443 0.500

.TEMP 23 = 8090 - 80 ~i.940 TEMP 24 = "1'.64f- :1 .73 TPR.: 1 74,.:8n 74 Vl,'PIS 1 = :.416 74.000 VeP 2 = 0.416 74. 0 0 CHANGE ANY DATA NO TEMP. AriD PREC. CORREC.TED DATA SUMIMARY TIME = 315 DATE = 75 TEMP = 79. E92'7 PRE = 4.

Figure 6-107

2UMMAiR OF MEASURED DATA AT TIME 3O 705 CALC. ENTERED TEMP 1 = 7.498 77.560 TEMP 2 =79.329 79.410 TEMP 3 =80.83 80.90o TEMP 4 = 78.867 78.950 TEMP 5 = 80.866 80.920 TEMP 6 = 80.483 80.560 TEMP 7 = 81.739 81.830 TEMP 8 = 76.298 76.390 TEMP 9 = 79.570 79.640 TEMP 10 = 79.937 79.990 TEMP 11 = 78.420 78.450 TEMP 12 = 77.445 77.520 TEMP 13 = 79.425 79.5?0 TEMP 14 = 80.212 80.270 TEMP 15 = 78.8-7 78.900 TEMP 16 80.503 80.560 TEMP 17 80.227 80.260 TEMP 18- 80.664 80.750 TEMP 19 = 80.841 80.900 TEMP 20 = 80.671 80.660 TEMP 21 = 79.624 79.690 TEMP 22 = 80.473 80.530 TEMP 23 = 80.933 80.970 TEMP 24 = 81.676 81.60 TPRS 1 = 74.884 74.884 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA NO TEMP. AND WRESS. COPRECTED DATA

SUMMARY

TIME = 33o DATE = 705 TEMP = P9.9269m

~ 7u4r4e6-1 ig=

Figure 6-108

.UMMRT OF MEASURELI LinATA FT TIME -345 7 CALC. ENTERED TEMP 1 = 77.568 77.630 TEMP 2 = 79.349 79.430 TEMP 3 = -0.863 80.940 TEMP 4 = 78.747 78.830 TEMP 5 = 80.896 80.960 TEMP 6 = 80.5 3 80.600 TEMP 7 = 81.799 81.890 TEMP 8 = 76.328 76.420 TEMP 9 = 79.600 79.670 TEMP 10 = 79.957 80.010 TEMP 11 = 78.446 78.470 TEMP 12 = 77.46.5 77.540 TEMP 13 = 79.465 79.560 TEMP 14 = 80.252 80.310 TEMP 15 = 78.847 78.910 TEMP 16 = 80.532 80.590 TEMP 17 = 80.257 80.290 TEMP 1 = 80.674 80 .760 TEMP 19 = 80.861 80.920 TEMP 20 = 80.681 80.670 TEMP 21 = 79.644 79.71l TEMP 22 = 80.488 0 .540 TEMP 23 = 20.963 81.000 TEMP 24 = 81.716 21.060 TPRS 1 = 74.88S 74.88 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 O:CHANGE ANY DATA TEMP. AND PRESS. CORRECTED DAT

SUMMARY

TIME = 345 DATE = 705 TEMP = 79.3453%.

PPE! = 74 .472399 Figure 6-109

SUMMARY

OF MEASURED DRTA AT TIME 40U 705 CALC. ENTERED TEMP 1 = 77.608 7?.670 TEMP 2 = 79.399 79.420 TEMP 3 80.903 80.980 TEMP 4 = 78.887 78.970 TEMP 5 = 80.916 80.980 TEMP 6 = 80.523 80.600 TEMP 7 = '1.799 81.890 TEMP 8 = 76.348 76.440 TEMP 9 = 79.630 79.700 TEMP 10 = 80.017 80.070 TEMP 11 = 78.460 78.490 TEMP 12 = 77.485 77.560 TEMP 13 = 79.495 79.590 TEMP 14 = 80.272 80.330 TEMP 15 = 78.*87 78:950 TEMP 16 = 80.543 80.600 TEMP 17 = 30.267 80.300 TEMP 1 = 80.694 00.780 TEMP 19 = 80.891 Q.950 TEMP 20 = 80.741 80730 TEMP 21 = 79.664 79.730 TEMP 22 = 80.503 80.560 TEMP 23 = 81.003 81.040 TEMP 24 = 81.726 81.810 TPRS 1 = 74.891 74.891 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA

= NO TEMP. AND PPETT. CORRECTED DATA

SUMMARY

TIME = 4001 DATE = 705 TEMP = 79.977598 PRES = 74.475399 Figure 6-110

SUMMARY

OF MEASURED DATA AT TIME 415 705 C:ALC. ENTEPEDi TEMP 1 = 77.608 77.70 TEMP 2 = 79.429 79.510 TEMP 3 = 80.943 81.020 TEMP 4 = 78.877 78.960 TEMP 5 = 80.946 81.010 TEMP 6 = 80.523 80.600 TEMP 7 = 81.839 81.930 TEMP S = 76.378 76.470 TEMP 9 = 79.670 79.740 TEMP 10 = 80.047 80.100 TEMP 11 = 78.490 78.520 TEMP 12 = 77.535 77.610 TEMP 13 = 79.605 79.700 TEMP 14 = 80.292 80.350 TEMP 15 = 78.947 79.0 i TEMP 16 = 80.572 80.630 TEMP 17 = 80.297 0.330 TEMP 1 = 80.734 80.820 TEMP 19 0.921 80.9S0 TEMP 20 = 80.741 80.730 TEMP 21 = 79.694 79.760 TEMP 22 = 80.515 80.570 TEMP 23 = 81.013 81.050 TEMP 24 = 81.726 81.81 TPRS 1 = 74.855 74.89!

VPRs 1 = 0.416 74.000 VPPs 2 = 0.416 74.000 CHANGE ANY DATA No TEMP. RND PRESS. CF:PECTED DATA SUMMP-r'Y TIME = 415 DATE 7 05 TEMP = 80.002562:

PF'RES = 74.47040l Figure 6-111

SUM1APY OF MEASUPED DAT AT TIME 430 705 CALC. ENTERED TEMP 1 = 77.648 77.710 TEMP 2 = 79.459 79.540 TEMP 3= 80.97 81.050 TEMP 4 =7S.9 79.020 TEMP 5 = 80.956 81.020 TEMP 6 = 80.603 80..50 TEMP 7 = 81.929 82.020 TEMP S = 76.391 76.490 TEMP 9 = 79.700 79.770 TEMP 10 = 80.047 . 1 00 TEMP 11 = 78.520 78.550 TEMP 12 = 77.555 77.630 TEMP 13 = 79.635 79.730 TEMP 14 = 80.312 80.370 TEMP 15 = 78.977 79.040 TEMP 16 = 0.582 80.640 TEMP 17 = 80.327 80.360 TEMP 18= 80.764 80.@50 TEMP 19 = 80.951 81.010 TEMP 20 = 80.771 80.760 TEMP 21 = 79.724 79.790 TEMP 22 = 80.563 80.620 TEMP 23 = 81.033 81.070 TEMP 24 = 81.706 81.790 TPRS 1 = 74.899 74.899 VF'Rs 1 = 0.416 74.600 VPRS 2 = 0.416 74.000

= DEL CHANGE ANY IATA ?

NO TEMP. AND FPRESS. CORPECTED DATA

SUMMARY

TIME = 430 DATE = 705 TEMP = 80.028512 PRES = 74.483395 Figure 6-112

SUMMRRY OF MEH:URED UHTH HT TIME 445 705 CALC. ENTERED TEMP 1 = 77.658 77.720 TEMP 2 = 79.509 79.590 TEMP 3 = S1.003 81 .01-0 TEMP 4 = 70.997 79.020 TEMP 5 = 80.986 81.050 TEMP E = 80.663 80.740 TEMP 7 = 81.949 82.040 TEMP 8 = 76.418 76.510 TEMP 9 = 79.730 79.806 TEMP 10 = 80.087 50.140 TEMP 11 = 78.520 78.550 TEMP 12 = 77.595 77.670 TEMP 13 = 79.655 79.750 TEMP 14 = 80.:42 80.400 TEMP 15 = 78.997 79.060 TEMP 16 = 80.622 80.680 TEMP 17 = 80.S47 S0.380 TEMP 18 = 80.794 80.8s TEMP 19 = 80.971 31.030 TEMP 20 = 80.811 80.s00 TEMP 21 = 79.744 79.@1 0 TEMP 22 = 80.5:90.650 TEMP 23 = 1.073 81.110 TEMP 24 = 81.735 8 1 . 9 20 TPPS 1 = 74.902 74.902 YPRS 1 = 0.416 74.000 VPPs 2 = 0.416 74.600 CHANGE ANY DRTA?

NO TEMP. AND PRES . CORRECTED DATA

SUMMARY

TIME = 445 DATE = 705 TEMP = 80.059 '16 PRES = 74.46-411 Figure 6-113

'SUMMAPY OF MEASURED DATA AT TIME 500 705 CALC. ENTEPED TEMP 1 = 77.709 77.770 TEMP 2 = 79.519 79.600 TEMP 3 = 31.023 81.110 TEMP 4 = 78.997 79.080 TEMP 5 = 80.996 81.060 TEMP 6 = 80.703 80.780 TEMP 7 = 82.00? 82.100 TEMP 8 = 76.448 76.540 TEMP 9 = 79.770 79.40 TEMP 10 = e0.117 80.170 TEMP 11 = 78.600 78.6s30 TEMP 12 = P7.655 77.730 TEMP 13 = 79.68t 79.780 TEMP 14 = 80.352 80.410 TEMP 15 = 79.037 79.100 TEMP 16 = 80.642 0. 700 .

TEMP 17 = 80.367 80.400 TEMP 18 = 80.024 80.910 TEMP 19 = 80.991 81.050 TEMP 20 = 89.831 80.820 TEMP 21 = 79.784 79.850 TEMP 22 = 80.613 80.670 TEMP 23 = 81.093 81 .130 TEMP' 24 = 81.735 1.82-0 TPRS 1 = 74906 74.906 VPRS I = 0.416 74.000 VPPS 2 = 0.416 74.000 CHANGE RNY DTAT ?

NO TEMP. AND PREST . CORRECTED DATA

SUMMARY

TIME =500 DATE = 705 TEMP = 80.8421 PES 74.4690199

Figure 6-114

SUMM IFMEHDDED RHTA A T TeIM- 15 05 CALC. ENTERED TEMP 1 = I?.74 7 . ?.10 TEMP = -79 .54 7.60 TEMP 13 - 13 0 TEMP 4 = 79.0917 0 TEMP 5 = 1.036 8.1 l0 TEMP 6 = . 80.1 u TEMP 7 =

TEMP = 76.468 76.6 TEMP 9 = 79.477 79.40 TEMP 10 = C. 157 0.21.0 TEMP 11 = I.61 C 7:3 . 640 TEMP 12 = 77.6 5 7.74 0 TEMP 1.? 79.625 79. 0 TEMPF 14 = C .. 72 0.4 fl TEMP 15 = 7'.7 79,1.0 TEMP 16 = 80.662 :072 I TEMP 17 = .A .430 TEMP 1 = 4. 44 09 TEMP 19 1=81.2 1 00 TEMP 20 =8.1 0 TEMP 21 = 7.f04 79.::70 TEMP C22 = 8.4 0.700 TEMP 23 = t1.1 81.160 TEMP 24 = 1.726 81.310 TF'PS 1 = 74.909 74.909 VPR.. 1 = 0.41" 74 . 00 VPP'S 2= 0.416 74 .00G CHAif E AY DATA TEMP. Ar PREC:S. COPPECTED DATA SUiMMARY TIME = 515 DATE = C:

TEMP = .107325 PFRE = 74 .49, 41!0 Figure 6-115

LIMMAR Y OF MEASUIED DATA AT TIME 530 705

-CALC. ENTEPED TEMP 1 77.838 77.900.

TEMP 2 79.579 79.660 TEMP 3 =81.093 81.170 TEMP 4 =79.147 79.23G TEMP 5 = 81.046 81.110 TEMP 6 = 80.723 80.900 TEMP 7 = 82.070 82.160 TEMP 8 = 76.488 76.5 TEMP 9 = 79.820 79.990 TEMP 10 = 80.177 80.230 TEMP 11 = 78.630 78.660 TEMP 12 = 77.695 77.760 TEMP 13 = 79.645 79.740 TEMP 14 = 80.402 80.460 TEMP 15 = 79.097 79.160 TEMP 16 = 80.682 80.740 TEMP 17.= 80.407 80.440 TEMP 18 = 80.874 80.960 TEMP 19 = 81.051 81.110 TEMP 20 = 90.891 80.880 TEMP 21 = 79.814 79.890 TEMP 22 = 80.653 80.710 TEMP 23 = 81.153 81.190 TEMP 24 = 81.726 81.810 TPPS 1 = 74.913 7 4 .913 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA NO TEMP. AND PRESS. COPPECTED DATA SUMMERY TIME = 530 DATE = 705 TEMP = 80.135S?6 FPRES = 74.497399 Figure 6-116

~UMMARY OF MEAURED rATi AT TIME 545 705 CALC. ENTERED TEMP 1 = 77.390 TEMP G = 30 79.710 TEMP 3 = 81.113 81 .190 TEMP 4 79.247 79.0 TEMP 5 = 1 076 81 140 TEMP E. 07 .81t TEMP 7 =0 .0 TEMP 3 7651iS 76.600t' TEMP 9 =7 4 5.91i TEMP 10 = 80 flIi TEMP 10* == ::G 17.1o. f11 TEMP 11I 7.60 TEMP 12= 77f TEMP 13 7.7 7.

TEMP .14 = 4 80.43 S 49 0 TEMP 15 = 79.117 79.1R0 TEMP- 16 = 0 .71 3 0.77 0 TEMP 17 = i80.427 80 .460 TEMP 18 = 0 4 R.97 0 TEMP 1 8' = 1 I SL1 40 TEMP :0 = 0. 11 :D( ..

TEP ' 1 = 79844 -. 1 0 TEP .6 t0.7t TEMP 3 1 1 1 1.5 1 '.

TEfP 24 1 45 1.8 TP; 1 = 74..91 74.16 VPP 1=1 .416 74. F00 V'PR0 2= 0.416 74.00 C HAN GE ARN' DATA Ho TEPP. AN D FFESS. cORECTE' DATA

SUMMARY

TIME = 545 DATE = 705 TEMP =8.15,:443 .

PRE 74 .5C4 tC.

Figure 6-117

.UMMARY OF MEASURED DATA AT TIME 600 705 CALC. ENTERED TEMP 1 = 77.898 77.960 TEMP 2 = 79.660 79.740 TEMP = 91.153 81.230 TEMP 4 = 79.227 79.310 TEMP 5 = 81.096 91.160 TEMP 6 = 80.733 80.810 TEMP 7 = 82.120 82.210 TEMP 8 = 76.528 76.620 TEMP 9 = 79.870 79.940 TEMP 10 = 80.227 80.280 TEMP 11 = 78.720 78.750 TEMP 12 = 77.725 77.800 TEMP 13 = 79.805 79,900 TEMP 14 = 80.442 80.560 TEMP 15 = 79.147 79.210 TEMP 16 = 80.742 80.800 TEMP 17 = 80.447 80. 480C:

TEMP 18 = 80.924 81.010 TEMP 19- 81.121 81.10 TEMP 20 = 80.961 80.950 TEMP 21 = 79.874 ?9.940 TEMP 22 = S0.703 80.760 TEMP 23 = 81.190 81.230 TEMP 24 = 81.755 S1. 40 TPR: 1 = 74.919 74.919 FVPRs 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA ?

NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 6r0 DATE = 705 TEMP = 80.187547 PRES = 74.503399 Figure 6-118

SUMMARY

OF MEASURED DATA AT TIME 615 705 CALC. ENTERED TEMP 1 = 77.92S 7?.9%

TEMP 2 = 79.680 79.760 TEMP 3 = 81.183 81.260 TEMP 4 = 79.267 79.350 TEMP 5 = 81.116 .1 180 TEMP 6 = 80.823 80.900 TEMP 7 = 82.120 82.210 TEMP 8 = 76.558 76.650 TEMP 9 = 79.901 79.970 TEMP 10 = 80.257 S0.310 TEMP 11 = 78.730 78.760 TEMP 12 = 77.715 77.790 TEMP 13 = 79.735 79.830 TEMP 14 = 80.42 8.530 TEMP 15 = 79.177 79.240 TEMP 16 = 80.762 80.820 TEMP 17 = 80.487 80.520 TEMP 18 = 80.944 81.030 TEMP' 19 = 81.121 S1.10 TEMP 20 = 80.961 80.950 TEMP 21 = 79.884 79.950 TEMP 22 = 80.700 80.76 TEMP 23 = 81.203 81.240 TEMP 24 = 81.765 81.850 TPRS 1 = 7 4.922 YPRS 1 = 0.416 74 . 00 0 VPRS 2 = 0.416 74.000 CHANGE ANY DATA ?

NO TEMP. AND PRESS. CORRECTED DPTA TUMMSPY TIME = 615 DATE = 705 TEMP = S80.2061352 PRES = 74.500199 Figure 6-119

UMMAFRY OF MEASU1RED DATA AT T.IME 630 705 CFLC. ENTERED TEMP 1 = 77 . 1 -7 930 TEMP 2 = -7.740 7C .20 TEMP 3 1.2 1.300 TEMP 4 = 9.317 79 .420 TEMP 5 1.14 81 .21.0 TEMP 6= 80' 13 -, 0.890' TEMP 7 = 21 .1 0 8 .280 TEMP 7 = 76.588 76.680 TEMP 9 = 79.951 ; .02 TEMP 10 = 80.237 30.340 TEMP 11 = 78. 770 7 880 TEMP 12 = 77.735 77.310 TEMP 1 = 79."35 7-.9 : -:

TEMP 14 = .502 0.6 0, c TEMP 1= 79.217 f 280 TEMP 16 = 80.772 G0 .G0 TEMP 17 = G0.50 0.540 TEMP 1 = 80.974 81 060c TEMP 19 = 1 .141 81.200 TEMP 2n = 81.001 Cl,99 TEMP 21 = 179.94 79. Z9 TEMP 22 = 8..7 S, 3:0 TEMP 21 = '1.233 G1.70 TEMP 24 = 1.7 ' -1 .880 TPR 1= 74.92 7 4.27 VPRF.S 1 = 0.41 E 74.000 VP 2 = . 416E 74 .C100 CHANGE ANY DRATA NO TEMP. ANF PRESS:f. COFPEC:TED DATA 1lMMAIR TIME =

DATE = 705 TEMP = 80.241057' PRE: = 74 .51 1399 Figure 6-120

. :UMR: OF MEASUL.UE DA I T TIME 645- 7-5 CALC. ENTERED TEMP 1 = 77.948 7S.010 TEMP 2 = 79.740 79.820 TEMP 3 = 81.232 81.310 TEMP 4 = 79.247 79.330 TEMP 5 = 81.146 81.210 TEMP 6 = 80.823 8-0.90 TEMP 7 = 82.130 82.220 TEMP 8 = 76.608 76.700 TEMP 9 = 79.951 80.020 TEMP 10 - 80.317 80.3.0 TEMP 11 = 78.770 78.800 TEMP 12 = 77.7S5 77.860 TEMP 13 = 79.815 79.110 TEMP 14 = 00.521 80.50 TEMP 15 = 79.247 79,i TEMP 16 = 80.80 80.8 TEMP 17 = 80.537 0.570 TEf'tF l = 0.984 81.070 TEMP 19 = 81.171 81 .23 TEMP 20 = 81.031 81.020 TEMP 21 = 79.954 80.020 TEMP 22 = 80.783 80040 TEMP 23 = 81.2H3 81.270 TEMP 24 = 81.805 01 .90 TPRS 1 = 74.90 74.9?

1PR 1 = 0.416 74.000l

'.'PRS 2 = 0.416 74.000 CHANGE ANY DRTA?

No TEMP. AND PRESS. CPRECTED DATA SUMMFRPY TIME =645 DATE = 705 TEMP = 80.25045.

FPRE = 74.514400 Figure 6-121

UMMARY DF MREASUErD DATA AT TIME 700 70 CALC:. ENTERED TEMP 1 = .

TErMP 2 = 7978 79.860 TEMP 1.4 81.60 TEMP 4 = 92i77 '7?

TEMP 5 = f14 TEMP 6 = 0 44 I0.970 TEMP ? = .2 .310 TEMP I =* .7 TEMP 794 1 H 0.030 TEMP I0 = .7 TEMP 11 n= ,7.800 7.,

TEMP 12 - 7'7. 'Z5' 7.0 TEMP 1 79,87 5 9.970 TEMP 14 = 0.5 51 10c1 TEMP 15 = 7..

TEMP 16 = C082 S,0'.8-80 TEMP 17 = C0.5 57 J30.590 TEMP 1 = 1.014 1.1 TEMP 1= 1 1 1.40 TEMP L2i = 8 i"1 01'.

TEMP *1 = 79.94 -. 040 TEMP 22 = .9 *0.8 TEMP 3 = 81.2 1.:10 TEMP 24 = 81.85 81.804 TPRS 1 = 4 .3 4 VR'S' 1= 0 .416 74.000 VPF: iE = 0l .41 '. 74 .0':0 CHANGE' AHY DATA ND TEMP. AND PE . CORF'ECTED DPTA UMAMARY TIME = 700 DATE = 705 TEM.P = -1.L 4057 PRES = 74 .5 16 Figure 6-122

OCONEE UNIT 2 - 59 PSIG ILRT VERIFICATION -

SUMMARY

DATA TINE DATE TEMP, PRES.

1030 705 80.586014 74.550399 1045 705 80.608110 74.550399 1100 705 80.620719 74.550399 1115 705 80.641517 74.552400 1.130 705 80.663320 74.553399 1145 705 80.691529 74.556399 1200 705 80.704828 .74.556399 1215 705 80.726428 74.559400 1230 705 80.746234 74.560399 1245 705 80.773042 74.561399 1300 7-15 30.789340 74.563399 1315 705 80.31084:3 74.564399 1330 705 80.835249 74.564399 1345 705 80.850S46 74.566400 1400 705 80.867951 74.566400 1415 705 30.895257 74.567-399 1430 705 80.902958 74.56 399 1445 705 80. 93586 74.57099 1500 705 80.94646 74.572399 1515 705 80. 97:3868 74.574399 Figure 6-123

DCONEE 59 P I ILRT .ERIF.

TIME LATE S:THFT OF TET 10.50 70y TIME AFTER 7TART OF TE T .4.75 HR LEAK PATE ASB:ED DN TOTAL-TIME CALCLLATIONS TIME TEMP. PRESSUPE .MEAS.:URED CALCLILATEL 95 CONFIrENCE (F) (PSIA' LEAK PATE LEA RATE LIMIT" 10 7 .1 74.5 3E0 0. 3'E+ 0 . 2 74E+ 00 0. 18E+00 0 .3EE+ 00 11 i 80.6 4,550 0 .303E+0 0 0. i 9E+00 0. 18;E+00 0.36E+00 I1 .8 . -4 74 .5c 0 .k24 E++00 11 0 .18E:E+ C,0 0 .35E+G

' 0.6 EE 4 4. 3 4 .47E+ 00I 0. -E+00 0.1 7E+ 00 0 .3'5E+00 S1" 1 0 . 0 74.556 0-2 00 0 .253E+ 00 0.1 7E+00 0 .34E+0O 12 ' .- - 4 . u .223E+ Ci . '47E+00 0.16E+00 7 4 .i 0.33E+0;

4. .9 0.191E+00 0.242E+00 .0. 1EE+oo 0i 3E+00 1 ii 4.560 0.195E+00 0.2 37E+ 00 0.15E+00 14.25 8 0. 32E+0 4 6 0.211E+00 E 2E+00 0.12E+OF, 13i- .'10 0 0.29E+0C 74 . 5! 0 .1 94E+ A,0 " .~ i21 E+'J 0 .1 4E+0t0 0.31 E+A0 13.7-5 8 fj .D 8 74 .'14 . 0.: :4 !E0 14.:4 (I2

+i~ G03 I455 0.2 XE1 ' 1E0a 03E 2 .E+0 0 0 . 14E+n00 0..DlEin-0

. 14.501 50 H4E.56 .4 cr,.1 4.E. I C 219E+0 .20EC~ 10 0.206F+00 a-, 1,!E+rin0 0.11TAE+NDAR0 0l. 12E+ 00 0.E E+T0

0. .LE+0 THET14 .CO CL.T MEAN~l IS E0.26 74.56 + 0 0 ..9E14E7+5 0H.

E o0 ii EE Orfi T 0.17E+0 01 E c 0.29E+00 C.1E 15 .00 cf 'Ell 0 5 74.572 c. 1Q E+Fi.

15 .2.5 ?' 74."7 0 .20':E+oo 1 4E+G0 0 .74-C1 0 .2E+0 0.1 -73E + iiCi 0 3 0 1 0.2~7E+ 00 IF IT I1C H lip1Nfl THF-T THE L E .k PA T E II CON:7TAr-T:

THE MEA N I 'S 0. 22E -+E +

THE -TAR~lApr DE'.,IRTIDr. I: .0 THE CALCUiLATED; LEP: TE RFFT E.. 4.5 H0 U nOF T E: TI Cf 0.1I 7E+OO Figure 6-124

OCDNEE 59 PSIG ILPT VERIF.

TIME, DATE START OF TEST 10.50 705 TIME AFTER START OF TEST = 4.75 HR LEAK RATE BASED 0N POINT-TO-POINT CALCULATIONS TIME TEMP. PRESSURE MEASURED CALCULATED 95% CONFIDENCE (F) (PSIA) LEAK RATE LEAK RATE LIMITS 10.75. 90.61 74.550 0 .393E+60 0.231E+00 -0.12E+00 0.58E+00 11.00 80.62 74. 50 0.224E+00 0.227E+00 .- 0.12E+00 0.57E+00 11.25 80.64 74.552 0.112E+00 0.224E+00 -0.12E+00 0.57E+00 11.50 80.66 74.553 0.259E+00 0.221E+00 -0.12E+00 0.56E+0 11.75 80.69 74.556 0.115E+00 0.217E+00 -0.12E+00 0.55E+00 12.00 80.70 74.556 0.226E+00 0.214E+00 -0.12E+00 0.55E+00 12.25 80.73 74.559 -0.244E-02 0.210E+00 -0.12E+00 0.54E+00 12.00 80.75 74.560 0.223E+00 0.207E+00 -0.12E+00 0.54E+00 12.75 80.77 74.561 0.348E+00 0.204E+00 -0.13[+00 0.53E+00

.3.'00 80.79 74.563. 0.322E-01 0.290E+00 -0.13E+00 0.5E+00 13.25 80.81 74.564 0.253E+60 0.197E+00 -0.1:3E+00 0.53E+00 13.50 80.84 74.564 0.414E+00 0.193E+00 -0.14E+00 0.52E+00 13.75 80.85 74.566 0.197E-01 0.1902+00 -0.14E+00 0.52E+00 14.00 80.87 74.566 0.304E+00 '0.186E+00 -0.15E+00 0.52E+00 14.25 80.90 74.567 0.356E+00 0.183E+00 -0.15E+00 0.52E+00 14.50 90.90 74.568 0.803E-02 0.180E+00 -0.16E+00 0.52E+00; 14.75 80.94 74.570 0.327E+00 0.176E+00 -0.17E+00 0.52E+00 15.00 80.95 74.572 -0.691E-01 0.173E+00. -t.17E+00 0.52E+00.

15.25 80.97 74.574 0.229E+00 0.169E+00 -0.18E+00 0.52E+00 IF IT IS ASSUMED THAT THE LEAK RATE I! CONSTANT:

THE MEAN IS 0.200E+00 THE STANDARD DEVIATION Ii '0.149E+00 THE CALCULATED LEAW PATE AFTER 4.75 HOURF OF TEST Ii 0.169E+00 Figure 6-125

OCONEE 59 P IG ILPt VERIF.

TIMEP DATE START OF TEST 10.50 705 TIME AFTER START OF TEST = 4.75 HR TRENDS EASED ON TOTAL-TIME CALCULATIONS HOUR. DATA MEAN OF CALCULATED OF TEST CHG IN CALC LR ENTRIES CALC LR LEAK RATE FROM LAST POINT

.0.75 4 0.315E+00 0.240OE+00 1.00 5 0.298E+00 0.222E+00 -0175E-01 1.25 IS 0.2S2E+00. 0.201E+00 1.50 -0.212E-01 7 0.272E+00 0.193E+00 -0.779E-02 1.75 8 0.261E+06 0.175E+00 2.00 -0.181E-01 9 0.25?E+00 .0.167E+00 -0.843E-02

2. 10 0.24SE+00 0.169E+00 0.178E-02 2.50 11 0.243E+00 0.164E+00 -0.426E-02

.5 12 0.239E+00 0.164E+0 -0.738E-03

3. 00 13 0.237E+0 0.169E+00 0.569E-02 3.25 14 0.234E+00 0.170E+00 3.50 0.462E-03 15 0.233E+00 0.172E+OQ 3.75 0.251E-02 16 0.232E+06 0.177E+00 4.00 17 0.230E+00 4.178E+00

.0.457E-02 4.25 0.819E-03 1 0.229E+00': 0.180E+00 4.50 0.236E-02 19 0.22SE+6C 0.179E+00 4.75 -0.115E-02

. 20 0.22SE+00 0.178E+00 -0.507E-03 THE CALCULATED LEAK RATE IS 0.17SE+00 THE MAXIMUM ALLOWiELE LEAK PATE It 0.189E+00 THE LAST 2 DATA POINTS ECTRELITH A NEGATIVE SLOPE Figure 6-126

I 4IA:: :

a .. ....

7' ::7 4.11

.h.... 1: . ..

4

7: ::: 7 a:~

77

-- -:7

. . 4- . .. . . . .

o r- *-

77:,

-i-i

.......... ~~ . .......

- --77 0I 6-12 Figure

'UMMARY O MEAPSURED DPTA AT TIME 1010 705 CALC: . ENTERED TEMP. 1 = 7S.088 78.450 TEMP 2 = 80.160 80.240 TEMP 3 = 81.634 81.710 TEMP 4 = 79.788 79.70 TEMP 5 = 81.476 81.540 TEMP 6 = 81.194 81.270 TEMP 7 = 82.480 82.570 TEMP 8 = 76.978 77.070 TEMP 9 = 80.341 80.410 TEMP 10 = 80.677 80.730 TEMP 11 = 79.240 79.270 TEMP 12 = 78.215 78.290 TEMP 13 = 80.205 S0.:000 TEMP 14 = 0.871 80.90 ,

TEMP 15 7946 79.710 TEMP 16 81.122 81.i 10 TEMP 17 =80.857 80.90 TEMP 1S= -1.294 81.380 TEMP 19 = S1.431 81.490 TEMP 20 = 81.402 81.390 TEMP 21 = 80.294 80.360 TEMP 22 = 81.083 81.140 TEMP 23 = 81.542 81.580 TEMP 24 = 81.945 82.030 TPRS 1 = 74.966 14.906 VPRS 1,= 0.416 74.000 VPPS 2 = 0.416 74.000 CHANGE ANY DATA?

TEMP. AND FPESS. CORRECTED DATA

SUMMARY

TIME = 1030 DATE = 705 TEMO = .80.5S6014 746-128 Fiur=

Figure 6-128

UJMMARY OF MEASUED rTR AT TIME 1045 705 CALC. ENTERED TEMP 1 = 78.478 7.8 .540 TEMP 2 = 0.170 0.250 TEMP 3 = 81.664 81.740 TEMP 4 = 79 .718 79.S00 TEMP 5 = 81 .4Z6 81 .550 TEMP 6 = 81.24 1.300 TEMP 7 = 82.480 82.-70 TEMP :3 = 77.00 7 .100 TEMP 9 = 0 1 :0.430 TEMP 10 = 0.6E917: C80 .750:(

TEMP 11 = 79.260 79 .2D0 TEMP 12 = 8 70 .31 0 TEMP 13 = 80 .1 S,- 80,c.2:80 TEMP 14 = 8A.191 G0.970 TEMP 15 = 79.6 -79.740 TEMP 16 = 31.12 81 .190.

TEMP 17 = .E77 8 0 .'910 TEMP 18 :3 1. 4 81.410 TEMP 19 = 1 .471 c1 .530 TEMP 20 = 1 .422 81 .410 TEMP 21 = 80.324 0 900 TEMP 22 =1 .113 1.170 TEMP 2:3 = 1.553 :1.590 TEMP 24 = 1.975 2. 060 TPRS 1 = 74 . 74 .966 VPS 1 = 0.416 74 . 000 VPRS 2 = 0 .416 74. 000 CHANGE ANY DATA NO TEMP. AriD P:ES. CORPECTED DATA CUMM1ARY TIME = 1045 DATE = 7C5 TEMP = 80.608110 PFREC = 74 .'5r511 Figure 6-129

SUMMARY

OF MEASURED DATA AT T*IME 1100 705 CALC. ENTERED TEMP 1 = 75.4 .0 TEMP 2 = 80O.2oc 130.2:0 TEMP 3 = 81 .64 81 1 60

.TEMP 4 = 779. 40 TEMP 5 = .16w 81-.50 TEMP 1.42 1 .310 TEMP G 21 .10 TEMP 8 = 7 7.08 77.1'30 TEMP 9 = 804 81 TEMP 10 = .1 80.770 TEMP 11 = .L 0 79 .28 0 TEMP 12 7.270 TEMP 13 = :3 21 0 TEMP 14 = I80.91 80.980 TEMP 15 = 79.68 79,750 TEMP 16 = 81.12 81 .210 TEMP 17 = 8. 7 13 0.9 0 TEMP 1 1 4 1 .420 TEMP 19 = .481 81 .40 TEMP 20 = 1.432 81 .420 TEMP 21 =8.44 d0.410 TEMP 22 = 1 I 1 . 10 TEMP 23 = 31.5631.600 TEMP 24 = 31.945 8:2.030 TPRS 1 =74 .966 74.966 VPRS 1 = 0.416 74.000 VPRS 2 = 0:.416 74.0000 CH3AGE ANlY DATR TEMP. AND FRE:: . COPRECTED DATA UMMAPRY TIME = 1100 DATE = 705 TEMP = 0.62071 PP E =-4 Figure 6-130

SUMMAPY OF MEH:SUREDD THSA PT TIME 1115 705 CALC. ENTERED TEMP 1 = 7.53i '78.600 TEMP 2 = 80.240 80.320.

TEMP 3 = 81.714 81.79A TEMP 4 =79.748 79.

TEMP 5 81.526 81.59:

TEMP 6 81.214 81.290 TEMP 7 82.530 82.620 TEMP 8 77.06 77.160 TEMP 9 =80.401 s0.470 TEMP 10 80.727 80.780 TEMP 11 79.300 79.330 TEMP 12 =7.260 73.340 TEMP 13 = 80.275 .0.70 TEMP 14 = 80.941 81.000' TEMP 15 = 79.706 79770 TEMP 16 = 81.172 81.230 TEMP 17 = 80.917 80.950 TEMP 1: = 81.354 81.440 TEMP 19 = S1.501 81.

TEMP 20 = S1.442 81.400 TEMP 21 = &0.354 80.420 TEMP 22 = 81.14? 81.200 TEMP 23 = 81.582 81.620 TEMP 24 = 81.975 82.060 TPRS. 1 = 74.9E8 74.968 VPRs 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA 7 NO TEMP. AND PRESS. COPPECTED DATA

SUMMARY

TIME = 1115 DATE 705 TEMP = eG.641517 PRES = 74.5524:0 Figure 6-131

SUMMARY

OF MEAURED DATA AT TIME 1130 705 CALC. ENTEFED TEMP 1 = 78.568 78.630 TEMP 2 = 80.250 80.330 TEMP 3 = 81.734 81.810 TEMP 4 = 79.758 79.840 TEMP 5 = 81.546 81.610 TEMP 6 = 81.284 81.360 TEMP 7 = 82.610 82.700J TEMP 8 = 77.098 77.190, TEMP 9 = 80.421 80.490 TEMP 10 = 80.767 80.820 TEMP 11 = 79.330 79.360 TEMP 12.= 78.295 78.370 TEMP 13 = 80.215 80.310 TEMP 14 = 80.961 81.020 TEMP 15 = 79.726 79.790 TEMP 16 = 81.192 81.250 TEMP 17 = 80.927 801 4 TEMP 1- = 81.374 81.46-0 TEMP 19 = 81.521 81.580 TEMP 20 = 81.482 81.470 TEMP 21 = 80.384 80.450 TEMP 22 = 81.163 81.220 TEMP 23 = 81.59 80 .630 TEMP 24 = E1.995 82.080 TPPS 1 = 74.969 74.969 VPRS 1 = 0.416 74.000i VPRS 2 = 0.416 74.000 CHANGE ANY DATA NO TEMP. AND PRES.. CORRECTED DATA

SUMMARY

TIME = 1130 DATE = 705 TEMP = 80.663?20 PRE& = 74 .55299 Figure 6-132

SUMMARY

CF MERCUFED DATA AT TIME 1145 705 CALC. ENTERED TEMP 1 = 78.638 7.7l0 TEMP 2 = 0 . 26 80 .34 U TEMP 3 = 31.764 81.340 TEMP 4 79.918 30.000 TEMP 5 1. ' 1.1E65 TEMP 6 = 1 .2?4 81 .370 TEMP 7 = E.10 8,.700 TEMP = 71 7 720 TEMP 9 = 80.461 8.53 R

TEMP 10 = . 80.IS40 TEMP' 11 = 79.40 79.-70 TEMP 12 . .

TEMP 13 = .4 0.440 TEMP 14 = 0.4-j1 81 040C TEMP 15 = 79.176 E. .34 .

TEMP 16 1 1 31270 TEMP 17 = 03 8.90 "1c TEMP 18 1 .:84 1 .470 TEMP 19 1 .5C1 81.580 TEMP 20 = .492 81. 4 80 TEMP 21 = 404 . 47 0 TEMP 22 = I13 81.50 TEMP 23 = 1 1.6 81.6-6 TEMP 24 = 81 .5 2.

TPRS 1 = 74 .972 74 .972 VPRS 1 = 0.416 74 . 000 VP 2 = 0.416 74 .0 CHANGE ANY DaTA ?

NO TEMP. AhiD PFRES-S. iCrRECTED DATA

SUMMARY

TIME = 114' DATE = 5 TEMP = 80.6-159 PRE' = 74 .56 Figure 6-133

SUMMARY

OF MEASURED DATA AT TIME 1200 705 CALC:. ENTERED TEMP 1 = 78.608 78.6F TEMP 2 = 80.290 80.370 TEMP 3 = 81.794 8t.870 TEMP 4 = 79.848 79.930 TEMP 5 = 81.596 81.660 TEMP 6 = 81.314 81.390 TEMPF = 82.600 82.690 TEMP 8 = 77.15S 77.250 TEMP 9 = 80.482 80.550 TEMP 10 = 80.817 80.870 TEMP 11 = 79.380 79.410 TEMP 12 = 78.335 78.410 TEMP 13 = 80.375 80.470 TEMP 14 = 81.001 81.060 TEMP 15 = 79.766 79.830 TEMP 16 = 81.232 81.290 TEMP 17 = 80.967 81.000 TEMP 18 = 81.404 81.490 TEMP 19 = 81.541 s1.600 TEMP 20 = 81.512 81.50:

TEMP 21 = 80.424 S6.490 TEMP 22 = 81.200 81.260 TEMP 23 = 81.633 81.670 TEMP 24 = S2.005 82.090 TPRS 1 = 74.972 74.972 VPRS I = 0.416 74.000 VPRs 2 = 0.416 74.000 CHANGE ANY DATA ?

NO TEMP. AND PPESC. C5FPRECTED DATA SUMMAR'Y TIME = 1200C DATE = 705 TEMP = 80.7048K3 PRES = 74.556099

Figure 6-134

SUMMRPY OF MERSURED DATA AT TIME 1215 705 CHALC. ENTEPED TEMP 1 = 78 .63 78.700 TEMP = C0.300 80.380 TEMP 3 =. 8.104 C1.880 TEMP 4 = 7.793 - 0 TEMP 5 =S .16 G 8 1 .670f' TEMP E 1.344 1.4?0 TEMP 7 = E.62E 6 .75 TEMP 3 = 77.17 77.270 TEMP 9 = 80.522 80 .59.0 TEMP 10 = 80.847 8 0.9 C TEMP 11 = 79.4: 79.430 TEMP 12 = 7-.355 78.430 TEMP 13 = 80.365 8 0 .460 TEMP 14 = 81 . 041 -1 .1 00C TEMP 1 79 .8Cl, 79.0 r TEMP 16 = .'L77 1;:30 TEMP 17 = 80.974 1 .0(

TEMP 1: = 1.424 81 .10 TEMP 1'74 1 5 (1 1.

TEMP 20 = 81.4 81 .53 5,A TEMP 21 . 444 S0 .10 TEMP 22 1. 4 81.-00 TEMP = 81 .66 81.7 0 TEMF 24 = -1.995 32.00 TP: 1 74.975 74.975 VF 1 = 0.416 74.C0C VFR 2 = 0 .4 1 74 .00 1 CHANGE ANY DATA NO TEMP. AriD FRESS. CORRECTED DATA

SUMMARY

TIME = 1215 DATE = 705 TEMP = 80.726428 PRE =: 74 .5 5 '4 Figure 6-135

7:UMMARY OF ME.A'URED DATA AT TIME 1230 705 CALC. ENTERED TEMF' 1 = 7:.62'8 718.60c TEMP = 0 .34 0 80.420 TEMP 3 = 83 4 81.910 TEMP 4 =79. 79,940 TEMP = .36 81.700 TEMP . = 1 .54 81.430 TEMP = 87 C.760 TEMP = 77.19 77 .290 TEMP 9 = l 2

,L 0 .r6 00 STEMP 10 0. C,0. 92 0 TEMP 11 = 79.460 79.490 TEMP 12 = 78 .365 7.440 TEMP 13 = 80.395 80.490 TEMP 14 = 81.041 81.100 TEMP 15 = 79.,36 79.900 TEMP 16 = 81.272 81 .3:30 TEMP 17 = :1027 81 . 060 TEMP 18 = 81.444 81 .530 TEMP 19 = 8.591 SI1.650 TEMP 20 = 1.62 15.550 TEMP 21 = D0.46 80.530 TEMP 2L= 81.2 D1.310 TEMP 23 = 81.673 1.710 TEMP '24 = 82. 15 2. 100 TP 1 =74.976 74.976 VFR 1 0.416 74.000 VPRS 2= 0 .416 74 . 000 CHHIGE AN4Y DfATH

= NO TEMP. RND PRES.:S. COPPECTED DATA SUMMAPY TIME = 123 0 DATE = 705 TEM = 30.746234 PP7E. = 74.I6039 Figure 6-136

SUMMARY

OF MlEAO.:FrED DATA AT TIME 1245 70 CALC:. ENTEPED TEMP 1 = 7.698 73.760 TEMP 2 8.3 80.470 TEMP 3 = 1.5 81.94, TEMP 4= 79.938 80.070 TEMP 5 = 1 8 1. .720 TEMP 6 = 1 74 1.450 TEMP 7 = .90 2.70 TEMP 8 = 77.7437.340 TEMP 9 = 80 E.00 TEMP 10 = 0.77 .930 90 TEMP 11 = 7 .0 79.490 TEMP 12 = 41 78.490 TEMP 13 = 4 0 .520 TEMP 14 = 01.7 1 81 .1 TEMP 15 = -79.6 79.930 TEMP 16 = 81 .302 1 TEMP 17 = 1.0 . .070 TEMP 18 = SI.4 4 81.rE0 TEMP 19 1=

81.61 1.670 TEMP 20 = 1.02 1.590 TEMP 21 = 4; n0.560 TEMP 22 = 81.30 TEMP 23 = 81.720 C1.603 TEMP 24 = 2 . 015 S2 . 0 TPPS. 1 = 74.977 74.977 VPtR: 1 = 0.416 74.000 VPRS 2 = 0.41 6 74. 0 00 CHAN GE A DATA DY NO TEMP. Ar4i FRES . CO PECTED DATA SUMMAFY TIME = 1245 DATE = 705 TEMP = 8.77 l42 PRES = 74 .561 9 Figure 6-137

UMMPR4Y OF MEA5UPED DATA AT TIME 1300 705 CALC:. ENTERED TEMP 1 = 7.750 TEMP -: = - 80.460 TEMP 3 = 1.970 TEMP 4 = 7-9.4 A0.010 TEMP 5 = 81 .666 1.730i TEMP 5 = 1 .434 1.510 TEMP 7 = . 8 TEMP =7 TEMP 9= '8,. 57 80.6E.4'0 TEMP 10 = 0.?C07 30i. 9 G TEMP 11 = 7.4: 0 79.1 TEMP 1I = 44 7 TEMP 1 = 8.455 .-r 0 TEMP 14 = 1 .111 81 .170 TEMP 15 7.-7 79 .4041 TEMP 16 = 1 Z "a 1 .0 TEMP 17 = 81.057 I'D81..0 TEMP 1! = 1.4 4 1.0 TEMP 19 = 81.62 1 1.60 .

TEMP C0 = :1.6:2 1*.. 2u TEMP 21 = , 0.51 0.00 TEMP 1.27 "1.3 TEMP 2 = 1 14.40 TEMP 24 = 82.0 C 1 n0 TFF' 1 = 4 .9-79 74.979 VPp 1 = .416 74. C000 VPRS = 0.416 74.00 CHANGE ANY DATA?

NO

TEMP. AND PtR.E:C.. COPPECTED DATA FMMARY TIME = 1300 DATE =

TEMP = C .739340 PRE= 74 .5 59 Figure 6-138

SU.MMAPY OF MEAlIRED DATA- AT TIME 1:315 705 ALC. ENTERED TEMP 1 = 73 73.800 TEMP 2 = 0411 0.49:0 TEMP '3 1.95 31.930 TEMP 4 =7.5 8 ED.0A 4.A TEMP 5 1 .8 t 17, TEMP 6 = 1 4 1.510 TEMP 7 = 2.60 2.73':

TEMP 8 1 77.410 TEMP 9 = 8. 0.6 TEMP 10 = 0.92 7 .D TEMP 11 = 79.510 7 .5 4 TEMP 12 = 78.445 7.520 TEMP 13 =880.475 8D 0.C TEMP 14 = 1. 2 I. ,

TEMP 15 = -79.906 79.70 TEMP 16 1=1I 81 TEMP 17 = G81.0 81.1 0A TEMP 1:: = '.54 81.90 TEMP 19 = 1. 1 G1.710 TEMP 2C = 81.1.620:

TEMP 21 = :04 .610 TEMP 22 = D 1.0 .

TEMP 23 = 1 i7 1 .760 TEMP 24 = 2 2.120 TPRS 1 = 74.98 C 4.980 vPR 1 = 0 .416 74.0 VPPS .2 = .0.416 74.000 CHAN'GE ANY DATA :

NO TEMP. FiND RES. COFPFECTED DATA CUMMRPY TIME = 1315 DATE = 705 TEMP = C.1:: I :084 PPEC . 74. 54:

Figure 6-139

SUMIMArPY OF MEASIPED DATA AT T*IME 1330 705 CALC. ENTERED TEMP I = 78.73:3 78.800 TEMP 2 = 80.441 80.520 TEMP 3 = 81.945 82.020 TEMP 4 = 79.998 80.00 "

TEMP 5 = 81.716 81.780 TEMP 6 = 81.454 81.530 TEMP 7 = 82.770 82.S60 TEMP 8 = 77.338 77.430 TEMP 9 = 80.632 80.700 TEMP 10 = 80.957 81.010 TEMP 11 = 79.550 79.520 TEMP 12 = 78.495 7e.570 TEMP 13 = 80.425 80.520 TEMP 14 = 81.141 81.200 TEMP 15 = 79.916 79.980 TEMP 16 = 81.352 81.410 TEMP 17 = 81.097 81.130 TEMP 18'= 81.534 81.620 TEMP 19 = SY.661 81.720 TEMP 20 = 1.672 81.660 TEMP 21 = 80.56 50.630 TEMP 22 = 81.3:3 81.90 TEMP 23 = 81.743 81.780 TEMP 24 = 82.055 82.140 TPRS 1= 74.980 74.980I VPRs 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA ?

ND TEMP. AND FREW. CORRECTED DATA

SUMMARY

TIME = 1330 DATE = 705 TEMP = 80.W5249 PRES = 74.564399 Figure 6-140

SUMMARY

OF MEASUPED DATA AT TIME 1345 705 CALC. ENTERED TEMP 1 = 78.81S 78.5?0 TEMP 2 = 80.461 80.540 TEMP 3 = 81.965 82.040 TEMP 4 = 79.968 80.050 TEMP 5 81.716 81.790 TEMP 6 81.484 81.560 TEMP 7 = 82.720 82.810 TEMP 8 = 77.38S 77.480 TEMP 9 = 80.632 80.700 TEMP 10 = 80.967 81.020 TEMP 11 = 79.530 79.560 TEMP 12 = 78.505 70.610 TEMP 13 = 80.405 80.500 TEMP 14 = 81.161 01.220 TEMP 15 = 79.936 80.000 TEMP 16 = '1.72 S1.A3o TEMP 17 = 81.107 81.140 TEMP 13 = 81.544 81.630 TEMP 19 = 81.691 1I.750 TEMP 20 = 81.692 81.680 TEMP 21 = 80.583 80.650 TEMP 22 = 81.343 81.400 TEMP 23 = 81.753 81.790 TEMP 24 = 82.065 82.150 TPRS 1 = 74.982 74.982 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000, CHANGE ANY DRATA?

NO TEMP. ALD FRES. COPPECTED DATA SUMMAPRY TIME = 1345 DATE = 705 TEMP = 80.850846 PRES= 74.566400 Figure 6-141

SUMMARY

OF MEASUPED DATA AT TIME 1400 705 CALC. ENTERED TEMP 1 = 78.848 78.910 TEMP 2 = 80.481 80.560 TEMP 3 = 81.975 82.050 TEMP 4 = 79.978 80.060 TEMP 5 = 81.746 81.810 TEMP 6 = 81.544 81.620 TEMP 7 = .82.760 82.650 TEMP 8 = ?7.408 7.500j TEMP 9 = 80.652 80.720 TEMP 10 = 8.997 81 .05c TEMP 11 = 79.570 79.600 TEMP 12 78. 78.610 TEMP 13 = 80.515 80.610 TEMP 14 = 81.181 81040 TEMP 15 = 79.976 80.040 TEMP 16 = 81.392 81450 TEMP 17 = 81.117. 01.150 TEMP 18 = 81.564 S1.650 TEMP 19 = 81.691 81.750 TEMP 20 = a1.712 81.700 TEMP 21 = 80.603 80 67 0 TEMP 22 = 81.363 81.420 TEMP 23 = 81.763 81.800 TEMP 24 = 82.055 82.140 TPRS 1 = 74.982 74.9B2 VPRS 1 = 0.416 74.00 VPRS 2 = 0.416 74 ..00 CHANGE ANY DATA NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1400 DATE = 705 TEMP = 80.867951 PRES = 74.566400 Figure 6-142

SUMMARY

OF MESURED rATA AT TIME 1415 705 CALC. ENTERED TEMP 1 = 73.898 78.960 TEMP 2 = 80.501 30.5S0 TEMP 3 = 82.005 82.080 TEMP 4 = 80.048 80.130 TEMP 5 = 01.756 .. 320 TEMP 6 = 81.524 81.600 TEMP 7 = 82.790 82.80 TEMP 8 = 77.448 77.5401 TEMP 9 = 80.692 80.760 TEMP 10 = 81.017 81.070 TEMP 11 = 79.610 79.640 TEMP 12 = 78.565 78.640 TEMP 13 = 80.545 80.640 TEMP 14 = 21.201 81.260 TEMP 15 = 79.986 0.050 TEMP 16 = 81.402 81.460 TEMP 17 = 61.147 81.180 TEMP 1 = 81.584 81.670, TEMP 19 = 81.721 81.780 TEMP -20 = 81.752 81.740 TEMP 21 = 80.603 80.670 TEMP 22 = 81.403 01.460 TEMP 23 = 81.783 1.82c TEMP 24 = 82.055 82.14Q TPRS 1 = 74.983 74 .93 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA o

TEMP. AND PRESS. CORPECTED DATA SUMMRRY TIME = 1415 DATE = 705 TEMP = 80.890257 PRES = 74.56739q 0 Figure 6-143

SUMMAPY OF MEAFUFED r ATA :AT TIME 1430 705 CALC. ENTERED TEMP 1 7 .913 78.380 TEMP = 0.521

.600 E0 TEMP 3= 8:. 03 j .10.

TEMP 4 = :. 09S 8 C0 . 180c TEMP 5 = 81 .77 1.40 I

TEMP . = 1.3 4 1 .610 TEMP = .0C .

TEMP 8 = 77.468 77.560 TEMP 9 = 0 8 0.70 TEMP 10 = 81.7 81 . 0190 TEMP 11 = 79 . 0 79.650 TEMP 12 = 78 78.65 TEMP 1 =8.5 30.650 TEMP 14 = .221 81.2 8 TEMP 1 -1 8.01 0.0 80 TEMP 16 = S1 31.4 80 TEMP 17 = 81.7 1.I200 TEMP 13 = 81 .S4 81.670 TEMP 19 = 1. 7i s1.770 TEMP 20 = 1 74 31.-73 TEMP 21 = .6 80.700 TEMP 2 = 1.403 1 .46 0 TEMP 21 .773 1.81 C TEMP 24 = .0C5 5 2. 14 0 TPR* 1 74 .94 74 .984 VPS 1 0 . 4 16 74 . 0 A0 VPRS 0 .416 74 . 0 00 CH AN GE RN i D TA NO TEMP. AND PRES. COPRECTED DATA

SUMMARY

TIME = 14:'

DATE = 705 TEMP =

PRE*S = 74.

Figure 6-144

SUMMARY

OF MEASURED DATA AT TIME 1445 705 CALC. ENTERED TEMP 1 = 78.918 78.980 TEMP 2 = 80.571 0.650 TEMP 3 = 62.045 82.120 TEMP 4 = 80.118 80.200 TEMP 5 81.796 81.660 TEMP 6 = 81.594 81.670 TEMP 7 = 82.810 82.900 TEMP 8 =77508 77.600 TEMP 9 = 80.742 80.810 TEMP 10 = 81.067 81.120 TEMP 11 79,620 79.650 TEMP 12 78.585 78.660 TEMP 13 = 80.635 80.730 TEMP 14 = 81.251 81.310 TEMP f5 = 80.056 8 0.120 TEMP 16 = 81.452 S1.510 TEMP 17 = 81.177 81.210 TEMP 1 = 81.624 81.710 TEMP 19 = 81.741 81.200 TEMF 20 = S1.782 S1.770 TEMP 21 = 80.663 80.730 TEMP 22 = 81 .433 81 .490 TEMP 23 = 81.813 81.S50 TEMP 24 = 82.095 2.18 0 TPPS 1 = 74.9%6 74.966 VPRS 1 = 0.416 74.000 VPPS 2 = 0.4L6 74.000 CHANGE ANY DAT?

NO TEMP. AND PRESS. COPRECTED DATA

SUMMARY

TIME = 1445 DATE = 705 TEMP = 8 0. 935863:

PRES = 74.57009

Figure 6-145

SUMMARY

OF MERSURED) LATA PT TIME 1500 705 CALC. ENTERED TEMP 1 = 78.95e 79.00 TEMP 2 = 80.601 80.680 TEMP 3 = 82.085 82.160 TEMP 4 = 80.08T 80.170 TEMP 5 81.826 81.090 TEMP 6 81.604 61.680 TEMP 7 = 82.840 82.930 TEMP 8 = 77.528 77.620 TEMP 9 = 80.752 80.820 TEMP 10 = 81.077 81.130 TEMP 11 = .79.660 79.690 TEMP 12 = 78.604 78.6S0 TEMP 13 = 80.635 80.730 TEMP 14 = 81.261 81.320 TEMP 15 = 80.066 80.130 TEMP 16 = 81.472 81,530 TEMP 17 = 81.207 81.240 TEMP 18 = 81.634 81.720 TEMP 19 = 81.752 81.810 TEMP 20 = 81.792 81.780 TEMP 21 = 80.673 80.740 TEMP 22 = 81.443 81.500 TEMP 23 = 81.813 81.850 TEMP 24 = 82.085 SE.170 TPRS 1 = 74.988 74.988 VPRS 1 = 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA ND TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1500 DATE = 705 TEMP = 30.946465 PRES = 74.572399 Figure 6-146

SUMMARY

OF MEASURED DATA AT TIME 1515 705 HCALC. ENTERED TEMP 1 = 78.938 79.000 TEMP 2 = 80.611 80.690 TEMP 3 = 82.095 82.170 TEMP 4 = 80.222 80.310 TEMP 5 = 81.826 81.890 TEMP 6 = 81.604 81.68 TEMP 7 = 82.860 82.950 TEMP 8 = 77.568 77.660 TEMP 9 = 80.752 80.820 TEMP 10 = 91.097 81.150 TEMP 11 = 79.711 79.740 TEMP 12 = 78.585 78.660 TEMP 13 = 80.665 80.760 TEMP 14 = 81.291 81.350 TEMP 15 = 80.096 80.160 TEMP 16 = 81.492 81.550 TEMP 17 = 81.227 91.260 TEMP 16 = S1.654 S1.74" TEMP 19 = 81.772 81.830 TEMP 20 = 81.832 81.820 TEMP 21 80.713 80.780 TEMP 22 81.473 81.530 TEMP 23 81.843 81.880 TEMP 24 82.115 82.200 TPRS 1 74.990 74.990 VPRs 1 0.416 74.000 VPRS 2 = 0.416 74.000 CHANGE ANY DATA NO TEMP. AND PRESS. CORRECTED DATA

SUMMARY

TIME = 1515 DATE = 705 TEMP = 80.973868.

PRES = 74 .574399 Figure 6-147

TABLE OF CONTENTS Section Page 7.0 LOCAL LEAK TESTS 7-1 7.1 LOCAL LEAK TEST

SUMMARY

7-1 7.2 PERSONNEL AND EMERGENCY LOCK LEAK RATE TEST PROCEDURE 7-11 7.3 RB ISOLATION PNEUMATIC LEAK TEST PROCEDURE 7-12 7.4 ELECTRICAL PENETRATION LEAK TEST PROCEDURE 7-13 7-i

7.0 LOCAL LEAK TESTS 7.1 LOCAL LEAK TEST

SUMMARY

Local leak testing of Reactor Building penetrations occupied approximately one month prior to the Integrated Leak Rate Test of the Reactor Building.

Final analysis of all penetration leakage rates shows that the total pene tration leakage rate is approximately 2.74 percent of the allowable leakage rate of 0.125 percent/24 hours. (Table 7-1) 7-1

TABLE 7-1 LOCAL LEAK TEST

SUMMARY

A. Pneumatic Tests Penetration No. Description Leak Rate (lb/hr) 5 Reactor Building 0.0271 Normal Sump Drain 6 Reactor Coolant 0.3858 Letdown Line 7 Reactor Coolant Pump 0.0141 Seal -Outlet Line 9 Normal Makeup to .0.0360 Reactor Coolant System 10 Reactor Coolant Pump 0.0747 Seal Inlet Line - Loop A 11 Fuel Transfer Tube Blind 0.0000 Flange - East 12 Fuel Transfer Tube Blind 0.0000 Flange - West 18 Quench Tank Vent 0.0618 19 Reactor Building Purge 0.0741 Inlet 20 Reactor Building Purge 0.0406 Outlet

23. 'Reactor Coolant Pump 0.0149 Sea. Inlet Line - Loop B 7-2

Penetration No. Description Leak Rate (lb/hr) 29 Quench Tank Drain Line 0.0202 28 Quench Tank Return Line 0.0927 52 High Pressure Injection Line 0.0199 60 Reactor Building Sample Line 0.0263 from Reactor Building 61 Reactor Building Sample Line 0.0049 to Reactor Building Total = 0.8931 lb/hr B. Electrical Penetrations Total* =0.0010025 lb/hr C. Others Description Leak Rate (lb/hr)

Personnel Lock 0.0**

Emergency Lock 0.0608 Equipment Hatch 0.0037 Total = 0.0645 lb/hr

Individual leak rates given in Table 7-2

- A negative leak rate(-0.0431) was obtained, indicating leakage too small to calculate.

7-3

D. Allowable Leak Rate From Technical Specification 4.4.1.2.3, the total leakage from all pene trations and isolation valves shall not exceed 0.125 percent of the Reactor Building atmosphere per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months . For Reactor Building conditions of 80oF and 59 psig, 0.125 percent/24 hr. of the Reactor Building at mosphere represents approximately 35 lb/hr.

Allowable Leak Rate = 35 lb/hr.

E. Total Measured Leak Rate Total Measured Leak Rate = 0.9586 lb/hr (from A through C above) 7-4

TABLE 7-2 RESULTS OF ELECTRICAL PENETRATION LEAK RATE TESTS Unit 2 WEST PENETRATION ROOM Penegration Serial No. Type Results Leak Rate (#/hr) Test Date A-1 7 J P Neg. 8/18/72 A-2 5 J P Neg. 8/18/72 A-4 3 F-2 P Neg. 8/18/72 A-5 20 F-2 P Neg. 8/18/72 A-6 12 F-2 P Neg. 8/18/72 A-7 16 F-2 P Neg. 8/18/72 A-8 25 F-2 P Neg. 8/18/72 A-9 8 F-2 P Neg. 8/18/72 A-12 6 G P Neg. 8/18/72 A-13 1 J P Neg. 8/18/72 B-1 5 E-1 P 1.75xl0-5 8/10/72 B-2 9 E-1 P 1.75x10-5 8/10/72 B-3 7 E-1 P 2.75x10-5 8/10/72 B-4 15 E-1 P 1.75x10-5 8/10/72 B-5 21 E-1 P 1.75x10-5 8/10/72 B-6 33 E-1 P 1.75x10-5 8/10/72 B-7 3 E-1 P 1.75x10-5 8/10/72 B-8 4 E-1 P 1.00x10- 5 8/10/72 B-9 29 E-1 P 3.75x10-5 8/10/72 B-10 2 E-1 P 1.75x10-5 8/10/72 B-11 36 E-1 P 5.60x10-5 8/10/72 B-12 11 E-1 P 4.60x10 5 8/10/72 7-5

Penetration Serial No. Type Results Leak Rate (#/hr) Test Date C-1 18. D P Neg. 8/18/72 c-2 10 B P 0.50 x 10 8/18/72

-5 C-3 34 C-1 P 1.75 x 10 8/ 8/72 C-4 18 C-1 P 1.65 x 10- 5 8/ 9/72 C-5 12 C-1 P 1.00 x 10 8/ 9/72

-5 c-6 19 C-1 P 1.50 x 10 8/ 9/72

-5 C-7 17 C-1 P 0.50 x 10 8/ 9/72

-5 C-8 9 C-1 P 0.10 x 10 8/ 9/72 C-9 22 C-1 P 1.00 x 10- 8/ 9/72

-5 C-10 16 C-1 P 4.60 x 10 8/10/72

-5 C-11 24 C-1 P 0.10 x 10 8/*9/72

-5 C-12 28 C-1 P 1.75 x 10 8/10/72

-5 C-13 21 C-1 P 1.75 x 10 8/10/72 D-3 16 C-2 P 1.75 x 10-5 8/ 8/72

-5 D-4 39 D P 2.75 x 10 8/ 8/72 D-5 3 D P 1.00 x 10-5 8/ 8/72 D-6 22 D P 1.00 x 10-5 8/ 8/72 D-7 40 D P 1.75 x 10 5 8/ 8/72

-5 D-8 19 D P 1.75 x 10 8/ 8/72 D-9 5 D P 1.00 x 10-5 8/ 8/72

-5 D-10 10 C-2 P 1.75 x 10 8/ 8/72 D-11 3 C-2 P 1.75 x 10 8/ 8/72 D-12 4 D P 4.75 x 10-5 8/ 8/72 D-13 22 B P 1.75 x 10 8/ 8/72 MV-1 9 A P Neg. 8/22/72 mv-2 5 A P Neg. 9/ 5/72 7-6

Penetration Results Leak Rate (#/hr) Test Date Blind Fanges A-3 P Neg. 8/22/72 B-13 P Neg. 8/23/72 D-1 P Neg. 8/22/72

-5 D-2 P 1.90 x 10 8/22/72 7-7

RESULTS OF ELECTRICAL PENETRATION LEAK RATE TEST Unit 2 EAST PENETRATION ROOM Penetration Serial No. Type Results Leak Rate (#/hr) Test Date A-7 1 F-2 P Neg. 8/22/72 A-8 15 F-2 P Neg. 8/22/72 A-10 8 G P Neg. 8/22/72 A-11 2 G P Neg. 8/22/72 A-13 3 J P Neg. 8/22/72 B-8 9 E P Neg. 8/22/72 B-9 1 E P 0.90 x 105 8/21/72 B-10 3 F-1 P Neg. 8/21/72 B-11 3 E P Neg. 8/21/72 C-4 4 J P Neg. 8/21/72 C-8 8 C-2 P Neg. 8/21/72 C-9 14 C-2 P Neg. 8/21/72 C-12 1 D P Neg. 8/21/72 C-13 1 B P Neg. 8/21/72 7-8

Penetration Serial No. Tyke Results Leak Rate (#/hr) Test Date D-1 4 H-2 P 0.90,x 10 8/21/72 D-2 6 H-2 P Neg. 8/21/72 D-3 2 K P Neg. 8/21/72 D-4 1 H-2 P Neg. 8/21/72 D-5 11 H-2 P Neg. 8/21/72 D-7 24 B P Neg. 8/21/72 D-8 .4 C-2 P Neg. 8/21/72 D-9 35 D P Neg. 8/21/72

-5 D-10 31 D P 4.65 x 10 8/21/72 D-11 17 D P Neg. 2/.5/73.

D-13 23 D P Neg. 8/21/72 E-1 12 H-2 P 0.90 x 10-5 8/21/72 E-2 16 H-2 P Neg. 8/21/72 E-3 4 K P Neg. 8/21/72

-5 E-4 7 H-2 P 5.50 x 10 8/21/72 E-5 14 H-2 P Neg. 8/21/72 F-5 13 F-2 P Neg. 8/21/72 F-6 -5 6 F-2 P 0.90 x 10 8/21/72 F-8 17 B P Neg. 8/21/72 F-9 23 B P Neg. 8/21/72 F-10 2 B P Neg. 8/21/72 F-11 3 B P Neg. 8/21/72 MV-1 4 A P 1.75 x 10-5 9/5/72

-5 . 2 MV-2 11 A P 5.50 x 10 5/8/73 7-9

Penetration Results Leak Rate (#/hr) Test Date Blind Flanges A-9 P Neg. 8/23/72 A-12 P Neg. 8/23/72 B-12 P Neg. 8/23/72 B-13 P Neg. 8/22/72 P 3.70 x 10 8/23/72 C-3 P Neg. 8/23/72

-5 C-7 P 5.60 x 10 8/23/72 C-10 P Neg. 8/23/72 D-12 P Neg. 8/23/72 E-7 P Neg. 8/23/72 E-8 P Neg. 8/23/72 E-9 P Neg. 8/23/72 E-10 P Neg. 8/23/72 F-2 P Neg. 8/23/72 F-3 P 0.90 x 10- 8/23/72 F-4 P Neg. 8/23/72 7-10

7.2 PERSONNEL AND EMERGENCY LOCK LEAK RATE TEST PROCEDURE Following is a copy of the test procedure used for the conduct of the test.

Data sheets are not enclosed as they would add significantly to the bulk of the material in this report. Data are retained in the Oconee Nuclear Station Master File.

7-11

No.

DUKE POWER COMPANY OCONEE NUCLEAR STATION PROPOSED PROCEDURE REVISION (1) To (Group Head): (2) Proposed By:

(3) Procedure Number: Tl/:/ / /

(4) Procedure

Title:

(5) Section(s) of Procedure Affected: - V /

(6) Proposed Revision and Reason for Change: (Attach additional pages if necessary.) o j 9 e (7) Temporary Approval: By Date Time (8) Safety Analysis: (Attach additional pages if necessary.)

($4 This change does not conflict with the station's FSAR or Technical Specifi cations, applicable license or regulatory requirements, and does not involve any unreviewed safety question.

Group Head: D(y}m PL Date Endorsements:

(9) Supervisor Date (10) Group Head Date (11) Superintendent (If Required) Date (12) SRC (If Required) Date (13) (APPROVED/REJECTED)-C, ( .. - Date 0 3 Time ),7g)n

<14) () Revision is permanent. (4 Revision is restricted to .

No.

DUKE POWER COMPANY OCONEE NUCLEAR STATION 0 PROPOSED PROCEDURE REVISION.

(1) To (Soup Head): r e , (2) Proposed By: _ _ _

(3) Prbcedure Number: / 5z2/

5 (4) Procadure

Title:

r(7 C ,-1 ri (5) Section(s) of Procedure Affected: .)

(6) Proposed Revision and Reason for Change: (Attach additional pages if neesary.)

(7) Temporary Approval: By Date Time (8) Safety Analysis: (Attach additional pages if necessary.)

(/)This change does not conflict with the station's FSAR or Technical Specifi cations, applicable license or regulatory requirements, and does not involve any unr.iewed safety question.

Group Head:z- i' Date, 7

- - - ea*****

Endorsements:

(9) Supetvisor Date (10) Group Head -Date (11) Superintendent (If Required) Date (12) SRC (If Required) Date (13) (APPROVED/REJECTED) a - . , .- Date 5}3 /72;sTime 1P&r (14) (I)Revision is permanent. (L)"Revision is restricted to 14) 1 T)AL.

T~st J Car

'T/A/150/8 Approval Date o FINAL PERSONNEL AND EMERGENCY LOCK LEAK RATE TEST OCONEE NUCLEAR STATION 1.0 Purpose 1.1 To determine the leakage rate from the lock volume when pressurized to design pressure (59 psig).

1.2* To determine the leakage rate from the inner and outer electrical penetrations associated with the locks and the outer door seal volume when pressurized to design pressure (59 psig).

Optional at the discretion of the test coordinator, since this is, in effect, a "local-local" leak test.

2.0 References 2.1 Dwgs. OM 100-168 and OM 100-169.

2.2 "Leak Rate Test Procedure PG-1 for Duke Power Company Units 1, 2, 3 (Oconee)," W. J. Woolley Company, October 31,:1969.

2.3 TS/1/A/150/4, Reactor Building Equipment Hatch and Air Locks Leak Rate Test Specification.

3.0 Time Required 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months for the Emergency Lock Both assuming test clamps in place.

12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months for the Personnel Lock)

.0 Prerequisite Tests None 150/8 Rev. 0 March 3. 1972

150/8 5.0 Test Equipment

.5.1. Barometer 5.2 Pressure Gauge 5.3 Alcohol Filled Thermometer 5.4 Inner Door Clamps 5.5 Test Piping and Air Supply 5.6 Soap Bubbler 5.7 2 "C" Clamps 6.0 Limitations and Precautions

.6.1 Do not pressurize test volumes above 68 psig.

6.2 Use only clean dry air for pressurization.

7.0 Required Plant Status The Reactor Building should be at atmospheric pressure.

8.0 Prerequisite System Conditions 8.1 Test Fittings should be made for each test volume.

8.2 Source of compressed air should be available.

9.0 Test Method

The electrical penetrations and the outer door seal Volume will be pressurized to 59 psig and leak tested for 15 minutes each.* The lock volume will be pressurized to 68 psig as a local structural test and then will be leak rate tested at 59 psig. During the leak rate test, temporary forced closure must be made to the inner lock door to hold pressure opposite the design direction. Also, 2 "C" clamps should be used to force the inner door equalizing valve closed for the same reason.

150/8 10.0 Data Required 10.1 Lock Pressure 10.2 Lock Air Temperature 10.3 Elapsed.Time 10.4 Barometric Pressure 10.5 Borometer ambient temperature 11.0 Acceptance Criteria The total amount of leakage from each lock should be less-than 0.5 lb/hr.

12.0 Test Procedure 12.1* Pressurize the lock electrical penetrations to 59 psig and hold pressure for at least 10 minutes. Soap bubble test and observe pressure decay. Calculate leakage from Enclosure 13.1. Electrical pene tration volumes are cubic feet.

12.2* Close outer door and pressurize 0-ring seal volume to 59 psig.

Soap bubble test and observe pressure decay for at least 10 minutes. Calculate leakage rate from Enclosure 13.1 ring seal volume is 12.3 Close inner door and install inner door clamps and "C" clamps. Insure that lock electrical penetration test holes and outer door test holes are sealed. Inspect any other likely source of leakage.

12.4 Install thermometer in lock volumes insuring that they are readable through the door observation ports.

1.5 Close outer door.

S2.6 EE e eI ck volume to 59 psig. Bubble check door seals and test connections.

150/8 2 Record data g

the EinergncY Lo-k an l8osure 13.2 eeYhu 12.8 Ctn Calculate leakage hourse o or 4 ours on rat froe PesoneLck

I1s 1675 cubtEnclosure 13.1

.1675 cubi feet. Emergency locPersonnel lock Volu

0ptia lock volume Is 762 Cubic feet.

c osI oqal at the discret a the Test Coordinato In effect, sin is is, a s Cal cu t 13.0 o S he 1s leak et lcllcl ossn 13i Lock Leak Rate T s a c l t 13.2 Data Sheet he

!otSee

ENCLOSURE 13.1 Sheet 1 of 2 LOCK LEAK RATE TEST DUKE POWER COMPANY OCON4EE NUCLEAR STATION CALCULATION SHEET UNIT #

Lock Test Date Beginning Time End Time Calculation Done By PRELIMINARY DATA

1. Pressure gauge reading at start of test Pi= psig.

2. Pressure gauge reading hrs. later Pi psig.

3. Barometer reading at start of test = Bi " in. Hg.

4. Barometer reading _ hrs. later = Bj - in. Hg.

5. Atmospheric Pressure at start of test Patmi (multiply line 3 by 0.491 psi/in.Hg.) = psia.

6. Atmospheric Pressure hrs. later = Patmf (multiply line 4 by 0.491 psi/in. Hg.) - psia.

7. Temperature at start of test = Ti 0 OF.

8. Temperature hrs. later = Tf = OF.

9. Absolute temperature at start of test = Tai (add line 7 to 459.70) = oR.

10. Absolute temperature hrs. later Taf (add line 8 to 459.70) =

OR.

11. Gas constant for air 53.3 f-lbf/lbmoR

12. Volume between valves = VL 3 ft

Sheet 2of 2 ENCLOSURE 13.1 - Continued DUKE POWER COMPANY CALCULATION OCONEE NUCLEAR STATION

1. Weight of air between valves at start of test UNIT W= (Pi + Patmi) VL x 144 R Tai Wi -lb.

2. Weight of air between valves hours later.

Wf (Pf + Patmf) VL x 14 4 R Taf lb.

3. Leakage rate= Wi Wf W lb/hr.

Time

4. Leakage rate in cubic feet per hour at 60*F and 14.7 psi.

LR-WW x 53.3 x 520 = x 13.1 14.7 x 144 LR =cfh

-7 OCONEE NUCLEAR STATION PERSONNEL AND EMERGENCY LOCK LEAK RATE TEST DUKE POY/ER COMPANY ENCLOSURE 13.2 OCONE NUCLEAR STATION DATA SHEET UNIT -

Test Date ata Recorder TIME PRESSURE BAROMETER TEMPERATURE BAROMETER BAROMETER *

(psig) (in. Hg) T 1 (F) 40filO TEMP. (oF) (in. Hg)

Corrected Pressure Gauge Serial No.

Thermometer Serial No. (T1)

Barometer Serial No.

7.3 RB ISOLATION PNEUMATIC LEAK TEST PROCEDURE Following is a copy of the test procedure

-used for the conduct of the test.

Data sheets are not enclosed as they would add significantly to the bulk of the material in this report. Data are retained in the Oconee Nuclear Station Master File.

7-12

DUKE POWER COI-'ANY OCONEE NUCLEAR STATION PROPOSED PROCEDURE REVISION Change o.

(1) To: (Hrod (2) From: Proposed (3) Procedure Number: _ /_ _ _

(4) Procedure

Title:

1 Ax 2?? / wa (5) Section(s) of Procedure Affected: /3, (6) Proposed Revision and Reason for Change: (Attach additional pages if necessary) A ,

/A0$

Date: Time:

(7) Temporary Approval By:

(8) Safety Analysis: (Attach additional pages if necessary)

( O4'This change does not conflict with the Station's FSAR or Technical Specifications, applicable license or regulatory requirements, and does not involve an unreviewed safety question.

Group Head: Aim______ _ _ Date: 36 L 7 .

Endorsements:

.__ Date (9) Supervisor:

Head: Date__

(10) Group (11) Station Superintendent(If Required) __Date (12) SRC (If Required) Date'

. (13) (APPROVED/sio se) C ) eio.Date s i _

dT

-(14) ( a Revision is permanent. Y Revision is.j resttinttd to

DUKE POWER COMPANY OCONEE NUCLEAR STATION PROPOSED PROCEDURE REVISION Change No.

(Group (1) To: Head) (2) From: ,- fpo (3) Procedure Number:_____________

(4) Procedure

Title:

/(~ z49t (5) Section(s) of Procedure Affected: 6 (6) Proposed Revision and Reason for Change: (Attach additional pagesu if necessary)~ ~/2 (7) Temporary Approval By: Date: Time :/3j (8) Safety Analysis: (Attach additional pages if necessary) or Technical

( L)'This change does not conflict with the Station's FSAR Specifications, applicable license or regulatory requirements, and does not involve an unreviewed safety question.

Group Head: < Date: 3 4 k

* * * * * * * * * * * * * * * * * ~** * * * * * *1 Endorsements: l/

(9) Supervisor: s:, Date (10) Group Head: . Date_ _

Date (11) Station Superintendent(If Required)

Date' (12) SRC (If Required)

(13) (AP'ROVED/MarPD) , Date Z1 7j Time../_L (14) (v) Revision is permanent. ( Revision is restli -ed to

DUKE POWER COMPANY OCONEE NUCLEAR STATION RECORD OF MINOR CHANGES Procedure Number: p r 9/A /9/

Procedure

Title:

R, / 7 L/L A t 77PA NFU-1/C SA4A 5Tsr Change Affected Section Approval No. Date of Procedure Reason for Change Signatures arctC-OSUC 1/5 C5~ueAc - 'i 7,0AI ' PiI

) ~~~~ f S?)7 ~5 3 ffi.IA.(.1 SLj, j VAl-VE I,& c VL.C nO, c__aiC-s_ ON vm A vci' m e 7, V 663;, 'R ECAE 5 JRCYfN C4 ~5i )97uds, FoA don/Wyint in AE 4pitcrET.

PT/ /A/150/6 Approval.

Date /

FINAL PT/O/A/150/6 OCONEE NUCLEAR STATION RB ISOLATION PNEUMATIC LEAK TEST 1.0 Purpose To determine the leak rate of the RB isolation valves required for the Engineered Safety Features System and which entrap.air or water vapor between the isolation valves.

2.0 References 2.1 PO-116A-1 Rev. 10; PO-116A-2, Rev. 0; and PO-116A-3, Rev. 0; Units 1, 2, and 3 Reactor Building Purge and Penetration Room Ventilation System drawings.

.2.2 PO-107A-1, Rev. 10; PO-107A-2, Rev. 0; and PO-107A-3, Rev. 0; Units 1, 2, and 3 Coolant Storage System (Quench Tank Portion) drawings.

2.3 PO-104A-1, Rev. 9 and PO-104A-3, Rev. 0; Units 1, 2, and 3 Spent Fuel Cooling System drawings.

2.4 PO-144A-1, Rev. 9; PO-144A-2, Rev. 1/ & PO-144A-3, Rev.

1;

.Units 1, 2, & 3 Component Cooling System Drawings.

2.5 PO-101B-1, Rev. 12; PO-101B-2, Rev. 1; PO-101B-3, Rev. 1; Units 1, 2, & 3 HPI System Drawings.

2.6 PO-11OA-1, Rev. 11; PO-11OA-3, Rev. 1; Units 1, 2 & 3 Chemical Addition and Sampling System Drawings.

2.7 PO-107B-1, Rev. 6; PO-107B-3, Rev. 0; Units 1, 2, & 3 Liquid Waste Dispotal System.

2.8 Technical Specification Sections 1.7, 1.8, & 4.4.1.

2.9 FSAR Section 5.1.4.4 + table 54.

3.0 Time Required Thirty hours, three men*(for all penetrations).

4.0 Prerequisite Tests None 5.0 Test Equipment 5.1 Barometer 5.2 Test pressure gauge 5.3 Thermometer 5.4 Soap bubbling equipment 6.0 Limitations and Precautions 6.1 Pre-testing of isolation valves is not allowed prior to this test.

6.2 Air for the test should be free of oil and dry enough so that the dew point will not be reached in the volume being tested.

6.3 Any electrically operated isolation valve that does not operate properly is considered an abnormal occurrence and should be reported to the director of Region II Regulatory Operations Office by telephone or telegraph within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months followed by a written report within 10 days to the Directorate of Licensing, Washinton, D.C.

7.0 Required Unit (or station) Status

1. Clean, dry filtered instrument air supply required.

2. Verify that applicalbe unit reference drawings in Master File agree with reference drawings specified in this procedure.

8.0 Prerequisite System Conditions Power operated valves being tested have been closed using power source.

9.0 Test Method Power operated valves should be closed in their normal manner with power. Any malfunction of these valves will be reported as stated in 6.3. Manual valves and stop check valves should be closed to a tightness consistent with normal operation. The volume between the isolation valves should be pressurized to 68 psig and points of possible leakage should be bubble tested. The pressure should then be reduced to 59 psig and leak rate test is to be conducted not less than 59 psig and not more than 100 psig, for a minimum period of time according to the following table:

Volume (cu. ft.) Duration of Test Less than 1/2 3 minutes 1/2 to 1 5 minutes

.1 to 5 30 minutes 5 to 20 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months 20 to 40 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months 40 to 50 3 hours3.472222e-5 days 8.333333e-4 hours 4.960317e-6 weeks 1.1415e-6 months 50 and up 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months

-4 10.0 Data Required 10.1 Test pressure at beginning and end of test.

end 10.2 Temperature corrected barometric pressure at beginning and of test.

test.

10.3 Surface temperature of penetration at beginning and end of 10.4 Time elapsed during test.

10.5 Test log shall be kept recording any unusual events that may occur and to record test results.

11.0 Acceptance Criteria.

Leakage rate for each penetration must be less than 0.5 pounds/hour.

12.0 Test Procedure 12.1 Ascertain that isolation valves are closed and penetration is ventedand drained.

12.2 Pressurize the penetration volume to 68 psig, remove the air and bubble test for leakage.

100 12.3 Reduce pressure to not less than 59 psig and not more than psig with drain or vent valve. Close valve and bubble test for lehkage.

test.

12.4 Record the following items at the beginning and end of the 12.4.1 Pressure 12.4.2 Temperature 12.4.3 Barometric pressure and temperature at barometer.

12.4.4 Time 12.5 Depressurize the penetration and restore all valves to normal position.

-5 12.6 Repeat Steps 12.1 through 12.5 for all peneirations listed in Enclosure 13.2 for the unit being tested.

13.0 Enclosures 13.1 Calculation Sheet 13.2 Volumes Between Penetration Isolation Valves

DU(E POWER COMP'ANY Sheet 1 of 2 CCONCENUCLEAR STAT!No U:N PT/ /A/150/6 ENCLOSURE 13.1 PENETRATION VALVE LEAK RATE TEST CALCULATION SHEET Data Recorder Test Date*

Penetration No. Beginning Time PRELIMINARY DATA End Time

1. Pressure gauge reading at start of test =i psis

2. Pressure gauge reading hrs later = Pf = psig

3. orrected barometer reading at start of test Bi in.Hg

. Corrected barometer reading _____hrs later = B in.Hg

5. Atmospheric pressure at start of test ='Patm (multiply line 3 by 0.491 psi/in. Hg) = paig

6. Atmospheric pressure hrs later = Patmf (multiply line 4 by 0.491 psi/in. Hg) = . at

7. Temperature at start of test = Ti

8. Temperature hrs later = T f *F O

9. Absolute temperature at start of test Ta (add line 7 to 459.7*) *R

10. Absolute temperature hrs later Taf (add line 8 to 459.7*) = *y

11. Gas constant for air = 53.3 f-lbf/lbm*R

12. Volume betweeft valves =L _ _ft 3 0*

Uw O C L-i 0,%4X'JY-7 Sheet 2 of 2 OCONE NUCLEAR~ STATION UNIT PT/ /A/150/6 ENCLOSURE 13.1 CONT'D CALCULATION

1. Weight of air between valves at start of test (P + Patm)

V x 144 in /f R Ta L i

W== lbs i

2. Weight of air between valves hrs later Wf (Pf + Patmf) 2 2

~aV xl14 4 in /f R Ta fL f

W _ _ _= lbs

3. Leakage rate = i i f = W = _ _ __ _= b/hr 1____

hr 4.. Leakage rate in standard cubic feet per hour LR = W x 53.3 x 520 W x 13.1 14.7 x 144 LR = af3 /hr

DUKE PO JER COMANY - Sheet 1 of 3 OCOE2 NUCLE'tSA PT/ /A/150/6 ENCLOSURE 13.2 UNIT 1 PENETRATION TO BE PNEUMATICALLY TESTED Initial Penetration PO Drawing # Inside Valve Outside Valve Time of Test &

No. or Valves or Valves Date 5 107B-1 LWD-1, LWD-2 3 M 6 101B-1 HP-3 & HP-4 HP-5 7 101B-1 HP-20 HP-21 26 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months 9' 101B-1 HP-126,HP-127 HP-120,122,

-1 HP-146 HP-286 . 3 min.

S10101 1010-1 HP-147 HP-285 .3 min.

10 104A-1 Between thb gaskets of 3 min.

11 the -trans-tube blind flange 3 min.

12 104A-1 107A-1 GWD-12 GWD-13 3 min.

18 116A-l PR-6 PR-5 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months 1) 116A-1 PR-1 PR-2 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months 20 HP-PK. HP-283 3 min.

23 23 101-1QL HP-144 HP-284 3 min.

107A-1 CS-5 CS-6 5 min.

29 107A-1 CS-13 to CS-12 5 min.

38 107A-1 CS-12 CS-11 5 min.

38 191B-l HP-153,HP-152 HP-27 30 min.

52 116A-1 PR-7 PR-8 5 min.

60 61 116A-1 PR-9 PR-10 5 min.

DU2Pc2XT CO2:9-.XY Sheet 2 of 3 OCONEE NUCLEAR STATION PT/ /A/150/6 ENCLOSURE 13.2 UNIT 2 PENETRATION TO BE PNEUMATICALLY TESTED Penetration 1t Drawing # Inside Valve Outside Valve Time of Test Initial No. or Valves or Valves Date 5 107B-2 LWD-1, LWD-2 3 6 101B-2 HP-3 & HP-4 HP-5 4 &

7 101B-2 HP-20 HP-21 && a 5 i 9 101B-2 HP-126,HP-127 HP-120,122,26 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months 10 .10-2 qHP-146 HP-286 3 min.

10 101J-2 HP-147 HP-285' 3 min.

11 104A-2 Between th& gaskets of 3 min.

12 104A-2 the trans-tube blind flange 3 mi.

18 107A-2 GWD-l GWD-J-3 3 min.

19 116A-2 PR-6 PR-5 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months 20 116A-2 PR-l PR-2 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months 23 1016-2 1P-I C: IIP-283 3 min.

23 lOl-2 IIP-144 HP-284 3 min.

29 107A-2 CS-5 CS-6 5 min.

38 107A-2 CS-13 to CS-12 5 min.

38 107A-2 CS-12 CS-11 5 min.

52 101B-2 HP-153,HP-152 HP-27 30 min.

60 116A-2 PR-7 PR-8 5 min.

61 116A-2 PR-9 PR-10 5 min.

DU ' P YSheet -1C0-. 3 of 3 GCO;2EE NU2LEA1 STATi2CNPT/ /A/150/6 L) ..-- ENCLOSURE 13.2 UNIT 3 PENETRATION TO BE PNEUMATICALLY TESTED

.t Initial Penetration PO Drawing # Inside Valve Outside Valve Time of Test A No. or Valves or Valves Date 5 107B-3 LWD-1, LWD-2 3 MIN 6 101B-3 HP-3 & H1P-4 HP-5 3 4 3 /,ntiy 7 101B-3 HP-20 HP-21 I=-our 9 101B-3 HP-126,HP-127 HP-120,122,26 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months 10 1010- HP-146 HP-286 3 min.

10 101- HP-147 HP-285 3 min.

11 104A-3 Between th6 gaskets of 3 min.

12 104A-3 the trans-tube blind' flange 3 min.

18 107A-3 GWD-12 GWD-13 3 min.

19 116A-3 PR-6 PR-5 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months 20 116A-3 PR-1 PR-2 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months 23 101HP-.4 13 HP-283 3 min.

23 1011-3 HP-144 HP-284 3 min.

29 107A-3 CS-5 CS-6 5 min.

38 107A-3 CS-13 to CS-12 5 min.

38 107A-3 CS-12 CS-11 5 min.

52 101B-3 HP-153,HP-i52 HP-27 30 min.

60 116A-3 PR-7 PR-8 5 min.

61 116A-3 PR-9 PR-10 5 min.

7.4 ELECTRICAL PENETRATION LEAK TEST PROCEDURE Following is a copy of the test procedure used for the conduct of the test.

Data sheets are not enclosed as they would add significantly to the bulk of the material in this report. Data are retained in the Oconee Nuclear Station Master File.

7-13

PROCEDURE RECORD OF MINOR CHANGES PROCEDURE NUMBER PT/ /A/150/5 DATE 3/3/72 PROCEDURE TITLE ELECTRICAL PENETRATION 0-RING SEAL LEAK TEST Change Date Change Made and Reasons Initials No.

10672-/7 NEw pNEig 10u TryPr ADut -0 Ulyt

_____5 5tC7-YO Eec Al c, cYG)&

______ 13 £~L.J

___ 4 UALJ

PT/ /150/5 FINAL Approva OCONEE NUCLEAR STATION Date &J7a PT 150 5 ELECTRICAL PENETRATION 0-RING SEAL LEAK TEST 1.0 Purpose To determine the sealing capability of or leak rate through the double 0-ring seal between electrical penetrations and reactor building flanges.

2.0 References 2.1 FSAR, Section 5.1.4.4 2.2 FSAR, Section 5.6.2.1 2.3 OM-337-31, Electrical Penetrations - Detail 2.4 OM-337-15, Electrical Penetration - Master E-J 2.5 OM-337-12, Electrical Penetration - Master-B, C-1, C-2, and D 2.6 OM-337-33, Valve and Gauge Assembly 3.0 Time Required One man - 200 hours0.00231 days 0.0556 hours 3.306878e-4 weeks 7.61e-5 months 4.0 Prerequisite Tests None 5.0 Test Equipment 5.1 Test pressure gauge, 0-100 psi 5.2 Theromometer or contact pyrometer 5.3 Test valve 5.4 Dry, filtered air supply, 75 psi minimum 5.5 Barometer 6.0 Limitations and Precautions J./Use only dry filtered air.

150/5 Rev. 0 MA1Q9F March 3, 1972 o 1 /F ACCEP1NCE- 15 Nor -- er 17/As Co5/eOV5/, O A/V 8N ,-u. c A ANDO SWHAG- AA 61AYE ivor1 adi tV A4 HoV4) r0 THE DIREcroA, oP Atc,1j airt OLU/ Y A "A/r77e/V//0A 6A7a.APYDAAKAC&FC

PT/150/5 12-8-71 7.0 etaquired Plant Status None 8.0 Prerequisite System Conditions Seal integrity of SF6 charged volume should be confirmed by checking gauge, which is permanently mounted on penetration.

9.0 Test Method Volume between 0-rings is pressurized to 68-psig initially as a structural test. Pressure is then reduced to 60 psig and a leak rate test is performed.

Leak rate is determined from observing the pressure decay. Structural test does not need to be repeated on a periodic basis.

10.0 Data Required 10.1 Temperature of penetration near "0" rings at beginning and end of test.

10.2 Pressure at beginning and end of test.

10.3 Length of test, hours.

10.4 Volume between seals.

10.5 Penetration type and Serial #.

10.6 Barometric pressure at beginning and end of test. (Corrected for Temperature and Altitude) 11.0 Acceptance Criteria Maximum allowable leakage is 9.237 x 10-5 lbs/hr.

12.0 Test Procedure 12.1 Attach test assembly and pressurize volume between O-rings to 68 psig.

12.2 Bubble check test fittings for leaks and repair leaks found.

12.3 Reduce,pressure to 60 psig and close valve.

12.4 Record at start and finish of test:

12.4.1 Time: see enclosure 13.1 for test time duration 12.4.2 Temperature on surface of penetration near "0" rings.

12.4.3 Pressure as indicated by test gauge.

12.4.4 Atmospheric Pressure corrected for temperature and Altitude.

PT/150/5 12-8-71 12.5 Bleed off air and remove test fixture.

13.0 Enclosures 13.1 Electrical Penetration Leak Rate Curve 13.2 Electrical Penetration Leak Rate Test Data Sheet.

13.3 Electrical Penetration Leak Rate Test Calculation Sheet.

13.4 Chronological Log

10 X10 /2 N~m 46 1331 7 ) 10 IN HE MANC DE U.S. A.

KEUFL & ESSER CO.

ELECTRICAL PENETRATION LEAK-RATE~ CURVE - CUJRVE ASSUPIES TAT"~- 66'F

t. H, 1 1W . Flit. L '

-XM -

IT1UP

.. Ti I -R V I---I-T 1 IR I.IrI i WEhj ~..

ij I

-7 41I T

IT,'1 1;JlWoi ~AIC'AE.1JAKAE 1: j ItI 7'

r~jI 7 i14,

i. 13 1s 51

PT/iSO/5

- 12-8-71 HE~F -O Enclosure 13.2 DUKE POWER COMPANY ELECTRICAL PENETRATION LEAK RATE TEST OCONEE NUCLEAR STATIOP UNIT #

DATA SHEET Unit # Test Date Penetration Location # Beginning Time Penetration Type and Serial # *End Time_.

Test Gauge # Data Recorder

NOTE: To use Enclosure 13.1, duration of test should be as follows:

Penetration pe: A = 1 hr. 10 min. to1 hr. 15 min.

-K 4s = 45 Min. to 50 min.

Flange 30 min. to 35 min.

Test Data

1. Pressure Gauge Reading at start of test Pi =_psig

2. Pressure Gauge Reading hrs. later = Pf = psig

3. *Barometer Reading at start of test = Bi = in. Hg.

4. *Barometer Reading hrs. later = Bf =

in. Hg.

= Ti OF

5. Temp. near "O" Rings at start of test

6. Thmp. near "0" Rings hrs. later = Tf =O NOTE: Correct Barometer reading for temperature and altitude.

7. Penetration Leak Rate using Enclosure 13.1 = lbs/hr.

If this leak rate is greater than 7.4 x 10-5 #/hr, Rerun leak rate test and calculate leak rate using Enclosure 13.3.

Supervisor Date

. 8-71 Enclosure 13.3 ex DUKE POWER COMPANY ELECTRICAL PENETRATION LEAK RATE TEST OCONEE NUCLEAR STATION UNIT #

CALCULATION SHEET Unit # Test Date Penetration Location # Beginning Time Penetration Type and Serial # End Time Test Gauge # Data Recorder NOTE: Minimum Test Times are as follows:

Penetration Tye: A 1 hr 10 min.

t 45 min.

Flange = 30 min.

PRELIMINARY DATA

1. Pressure gauge reading at start of test- Pi Psi

2. Pressure gauge reading__ hrs. later = Pf psi

3. *Barometer reading at start of test = B. = in.Hg.

4. *Barometer reading hrs. later Bf in.Hg.

5. Atomspheric pressure at start of test = Patm.

1 (multiply line 3 by 0.491 psi/in. Hg) =si

6. Atmospheric pressure hrs. later = Patmf (multiply line 4 by 0.491 psi/in. Hg) =psi

7. Temp near "0" rings at start of test Ti O

8. Temp near "0" Rings hrs. later = Tf =

9.. Absolute temperature at start of test Tai (add line 7 to.459.7") = *R

10. Absolute temperature hrs. later = Taf (add line 8 to 459.70) -R

11. Gas constant for air = 53.3 f-lbf/lbmOR

NOTE: Correct barometer readings for temperature and altitude.

12/8/71 5WETL g

.- DUKE POWER COMPANY OCONEE NUCLEAR STATI Enclosure 13.3 - cont. UNIT

12. Penetration volume plus Test Rig volume = Vi ft ft3 Ay 00005.

Penetration T e: A 00040 f These volumes include S=1 0.00 2719 ft3 the,7cc Test Rig Volume Flange, 0.001660 ft3 CALCULATION

1. Weight of air between "0" Rings at start of test (Pi + Patmi) X VL x 144 in2 /f2 R Tai S__lbs.

2. Wight of air between "0" Rings hours later Wf =(Pf + Patmf) X VL x 144 in2 /f2 R Taf W= lbs.

3. Total leakage rate=Wi -W =W= = _lb/hr.

Time Test Fixture Leak Rate assumed negligible Calculation by_

Supervisor Date

ML16230A282

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