Reactor Containment Bldg Integrated Leakage Rate Test Rept

ML20044C974
Person / Time
Site:	Catawba
Issue date:	02/28/1993
From:	Baughman J, Crawford T, Hutcheson M DUKE POWER CO.
To:
Shared Package
ML20044C973	List: ML20044C971 ML20044C974
References
NUDOCS 9305140239
Download: ML20044C974 (110)
v • d • e

Text

-

=

Duke Power Company Catawba Nuclear Station Unit 2 1

1 Reactor Containment. Building Integrated Leakage Rate Test Report February 1993 Submitted to The United States Nuclear Regulatory Commission Docket Number 50-414-NPF-52 Prepared By:

M. A. Hutcheson Engineer k.k.

m

'J. M. Baughdan Engineer Reviewed By:

Yd h -

T. V. Moore Engineering Supervisor Approved By:

[6 UA T. E. Cradford Systems Engineering Manager 9305140239 930511 DR ADOCK 05000414 PDR

Cataw ba Unit 2 1.

INTRODUCTION A periodic Type A Containment Integrated Ixakage Rate Test (ILRT) was successfully conducted on the primary containment structure of the Catawba Nuclear Station, Unit 2 pressurized water reactor. This test was completed on Febmary 7,1993, seven days following unit shutdown for the End of Cycle 5 refueling outage. The purpose of the test was to demonstrate that leakage through the primary reactor containment, and systems and i

components penetrating primary containment does not exceed the allowable leakage rate specified in the Plant Technical Speci6 cations.

The test was conducted in accordance with the requirements of 10CFR50, Appendix J using the Absolute Method defined in ANSI N45.4-1972. The leakage rate was calculated for both the Type A test and the verification test using the Total Time methodology and the calculational requirements of BN-TOP-1, Revision 1, " Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants." Leakage rates for both the Type A test and the verification test were also calculated, for information only, using the Mass Point methodology given by ANSI /ANS 56.8-1987. The ILRT was performed at a pressure in excess of the calculated peak containment internal pressure related to the design basis accident as specified in the Final Safety Analysis Repon (FSAR) and the Plant Technical Specifications.

This repon describes and presents the results of this periodic Type A test, including the supplemental test method used for verification. The summary of events and test chronology are presented in Section II, Test Synopsis. Plant information, technical data, test results and measurement system information are presented in Section III, Test Data Summary. The test results are compared with the Acceptance Criteria in Section IV, Analysis and Interpretation.

A summary of the local leakage rate testing (Type B and C) performed since the last ILRT is also provided in this report as Appendix F.

The "As Ixft" Type A test result reported at the 95 percent upper confidence limit is 0.1461 percent of the contained mass per day. The "As Found" Type A test result reported at the 95 percent upper confidence limit is also 0.1461 percent of the contained mass per day.

The acceptance criteria specified in the plant Technical Specifications is a leakage rate less than 0.75 L,, or 0.225 percent of the contained air mass per day.

Page 1 of 15

Cataw ba Unit 2 II.

TEST SYNOPSIS Unit shutdown for the End of Cycle 5 refueling outage began on January 29. 1993.

During the six day period following unit shutdown preparations to pressurize containment for the conduct of the ILRT included: internal and external inspections of the containment vessel and the reactor building interior; installation and checkout of the ILRT instrumentation; alignment of valves and breakers for test conditions; the installation and leakage check of the depressurization assembly at spare mechanical penetration M371, and the installation and checkout of the temporary pressurization facilities. Local leak rate tests conducted prior to the start of the ILRT included all containment purge penetrations, the ILRT pressure instrument sensing lines and the equipment hatch. The inspection of the reactor building exterior was completed after the ILRT.

Following Operations alignment of all required containment penetrations, pressurization of the containment vessel began at 1900, on February 5,1993. Pressurization continued at an average rate of 1.9 psi /hr using the 4500 cfm capacity available from the three diesel driven air compressors. The pressurization rate calculated by the ILRT software was only 2400 cfm; whereas,4500 cfm was expected. The pressurization rate decreased less than 100 cfm when one of the three 1500 cfm compressors was temporarily isolated. A series of pressure measurements were taken at various locations along the path through the normal station and instrument air systems. A 50 psid drop was measured from the compressor outlet to the inlet of diaphragm valve VI77B and a 30 psid drop was measured across VI77B. With the excessive headloss across the system, containment pressurization took three hours longer than anticipated. At 0258 with a containment pressure of 14.965 psig, the pressurization path was isolated and vented, and the stabilization period started. The upper and lower containment ventilation fans were also secured at this time.

The temperature stabilization period was started with data set number 36 at 0300, on Febmary 6. At 0535, all 30 air handling units in the upper ice condenser were turned off in an attempt to reduce the scatter in the containment mass data due to rotating defrost cycles for each air handling unit. This decision was made based on operating experience from another ice condenser plant during performance of their ILRT. However, this procedure did not work out as expected for Catawba. During the period between 0535 and 0750, the ice condenser temperature in the upper plenum increased from 16.6 7 to 38 T, the ice condenser frost point temperature increased from 14.6 T to 33 T and the containment absolute pressure increased from 29.28 psia to 29.31 psia. The containment mass for this period increased more than M Pace 2 of 15

Catawba Unit 2 TABLE OF CONTENTS Eau 1.

INTRODUCTION...

1 II.

TEST SYNOPSIS..

2 III. TEST DATA

SUMMARY

5 A.

Plant Information B.

Technical Data C.

Type A Test Results D.

Verification Controlled Leakage Rate Test Results E.

Type B and C Test Results F.

Integrated Leakage Rate Measurement System G.

Description of Computer Program H.

Information Retained at Plant IV. ANALYSIS AND INTERPRETATION..

12 A.

ILRT Test Corrections B.

Reported "As Left" ILRT Results C.

"As Found" Evaluation of Containment V.

REFERENCES............

15 j

1 VI. APPENDICES A.

Temperature Stabilization Phase Data and Graphs B.

Integrated Leakage Rate Test Data and Graphs C.

Verification Controlled Leakage Rate Test Data and Graphs D.

Miscellaneous Information E.

Test Data Summary l

F.

Local Leakage Rate Testing Conducted Since the Last ILRT i

Catawba Unit 2 lbm. The increase in these parameters can be attributed to the excess heat dissipated from the fan motor windings. At 0800 the ice condenser air handling units were restored to service.

This action resulted in an immediate decrease in containment mass, absolute pressure and ice condenser temperature and frost point temperature.

At 0900 soap bubble testing was completed on all hot penetrations required by the Catawba Technical Specifications. At 1049, beginning with data set number 122, the Type A test calculation was initially started. Penetration leak searches were periodically conducted throughout the pressurization and stabilization phases - no significant leaks were observed.

By 1600 it became apparent that the Total Time calculation at the UCL would not trend inside the acceptance line. The Mass Point UCL was inside the acceptance line, however its value was four times the value measured during the previous ILRT. The rotating defrost cycles for each of the air handling units in the upper ice condenser introduced a significant degree of scatter in the mass data - in some cases containment air mass fluctuations of more than 30 lbm. Considering that the ice condenser contains more than 2.475'million Ibm of borated ice, the temperature swings in the upper plenum did not accurately reflect the true conditions for the overall ice condenser air volume. At 1800 the five temperature sensors in the upper plenum were removed from the calculation. The sensor volume weighting factor for each of these sensors were then transferred to the five temperature sensors located in the lower plenum, beneath the ice baskets. Following removal from the calculation, the UCL for both the Mass Point calculation and the Total Time calculation was greater than 0.75La.

Leakage survey teams were again dispatched to the air locks, the penetration rooms and the annulus to check for any additional leaks. At 1830, a technician reponed hearing a hissing noise from one of the containment spray header lines inside the annulus. At 1930, another annulus entry was made to trace all six of the containment spray header lines from the lower annulus to the top of the containment vessel. Potential air leakage into one of the spray line piping volumes was identified from what was believed to be containment side block valve 2NS42 and check valve 2NS41. By 2l00 this leakage path was confirmed following review of the isometric drawings for this system. From 2130 to 2300 preparations were made to pressurize the 8 inch line between valves 2NS42 and 2NS38B (ND Containment Spray Line B, M381) through 3/4 inch vent valve 2NS68. By 2400 the line was pressurized with instrument air to 14.0 psig, using the Volumetrics leak Rate Monitor. The pressurization source was removed at 14.0 psig and 2NS68 was closed and capped. Outside containment isolation valve 2NS38B is a double-disk gate valve which receives a sealing fluid from the Pace 3 of 15

Catawba Unit 2 Containment Penetration Valve Injection Water System (NW) if closed following a phase A isolation signal. Catawba FSAR Table 6-77 does not require venting and draining of this penetration for the Type A test, and does not require a Type C test since the valve is sealed tight by a quali5ed seal system.

At 0100, on Febmay 7 the Type A test period was restarted beginning with data set number 198. Both the BN-TOP-1 and Mass Point temperature stabilization criteria were also verified to have been satisfied at this time. Also, at 0100 dew point sensor number 1 located in lower containment was removed from the calculation due to the receipt of trend alarms with every data set beginning with data set number 180. The volume fraction for this sensor was reassigned to dew point sensor number 2. By 0200 the Upper Confidence Limit leak rates for both the Total Time and Mass Point leakage calculations were within the acceptance limit. A successful eight hour test was completed at 0900, ending with data set number 230. The Total Time and Mass Point Leak Rates at the 95 % Upper Confidence Limit were 0.1456 wt. 9/ day and 0.0901 wt. 9/ day respectively. Both the BN-TOP-1 termination criteria and the Extended ANS Method mass point termination criteria were met at this time.

A verification Dow of 4.82 scfm (0.2975 wt. %/ day) was initiated at 0935 on Februay 7.

Following the one hour stabilization period required by BN-TOP-1, a successful verification test was performed from 1035 to 1700. The composite leakage rates calculated during this period were 0.3231 wt. %/ day for the Total Time method and 0.3177 for the Mass Point method.

Depressurization began at 1725 on Febmag 7 and was complete at 2100 on February 7.

The primary flow paths were through a 6 inch butterfly valve installed at spare mechanical penetration M371 and through a 4 inch VY penetration, M346. The air discharged into the annulus from contamment, and then from the annulus through the annulus ventilation system HEPA and carbon filter units, and out the unit vent. Depressurization was accomplished in 3.6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> at an average rate of 4.1 psi /hr. No equipment damage was found during the post-ILRT containment inspection.

The test results in this report do not include the temperature data from the five sensors in the upper plenum of the ice condenser. However, the test results were recalculated using the data from these sensors. Both the Type A test results and the verification test results for the Mass Point calculation and the BN-TOP-1 calculation still meet all acceptance criteria if included in the calculation.

Page 4 of 15

Catawba Unit 2 A containment pressure time line for the entire test period is included in Appendix D.

Test Chronolocv Phase Data Set No.

Time Period Duration Pressurization From:

003 1900 on 2/5/93 8.0 To:

036 0258 on 2/6/93 Stabilization From:

036 0300 on 2/6/93 22.0 (Includes leak To:

198 0100 on 2/7/93 survey & NS header pressurization)

ILRT From:

198 0100 on 2/7/93 8.0 To:

230 0900 on 2/7/93 Leak Stabilization From:

233 0935 on 2/7/93 1.0 for Verification Test To:

239 1035 on 26/93 Verification Test From:

239 1035 on 2n/93 6.6 To:

277 1700 on 2n/93 Depressurization From:

279 1725 on 2n/93 3.6 To:

295 2100 on 2n/93 Total Elapsed Time: 50.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> III. TEST DATA

SUMMARY

A.

Plant Information Owner Duke Power Company Plant Catawba Nuclear Station, Unit 2 Location Hwy 274 York, South Carolina Containment Type Free-standing cylindrical steel shell sunounJed by a separate reinforced concrete reactor building.

NSSS Supplier, Type Westinghouse, Ice Condenser PWR Docket No.

50-414 Page 5 of 15

Catawba Unit 2 License No.

NPF-52 B.

Technical Data A six foot annular space is provided between the exterior surface of the steel containment vessel and the inner wall of the reactor building. The annulus ventilation filter system maintains this space at a negative pressure relative to the outside atmosphere during accident conditions.

Containment Net 1,172,618 cu. ft.

Free Air Volume Design Pressure, P 15.0 psig Design Temperature. T 250 F Calculated Peak Accident 14.68 psig Pressure, P, Calculated Peak Accident 232"F Temperature Maximum Allowable 0.300 wt. % / day Leakage Rate, L, C.

Test Results - Type A Test 1.

Test Method Absolute 2.

Test Pressure 14.75 psig 3.

Data Analysis Total Time (per BN-TOP-1,1972),

Techniques Mass Point (for information only, per ANSI /ANS 56.8-1987) 4.

ILRT Acceptance 0.2250 wt. % / day Criteria ( < 0.75 L,)

5.

Type A Test Results BN-TOP-1 ANSI 56.8 Total Time Mass Point Simple Leakage Rate 0.0717 wt.%/ day 0.0717 wt.%/ day Fitted Leakage Rate (L.)

0.0715 wt.%/ day 0.0809 wt.9/ day Upper 95 % Confidence Level 0.1456 wt.%/ day 0.0901 wt.W/ day 6.

All acceptance criteria for the Reduced Duration BN-TOP-1 ILRT were satisfied in 6.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br />; however the test was extended to 8.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> to meet the reduced duration Page 6 of 15

Catawba Unit 2 mass point requirements given by the Extended ANS Method. This method is given in the NRC draft regulatory guide, Containment System Leakage Testing dated April 3,1991. The Extended ANS Method satisfied the Limit on Curvature Condition 1.1.1 and Data Scatter Condition 2.1. Printouts of both the BN-TOP-1. Total Time Termination Criteria and the Extended ANS Method, Mass Point Termination Criteria are included in Appendix B. Repon printouts and data plots for both the Total Time and the Mass Point Analysis techniques are also provided in Appendix B.

D.

Verification Controlled Leakage Rate Test Results 1.

Verification Test Super-4.820 SCFM (0.2975 wt. %/ day) imposed Leakage Rate (L,)

2.

Verification Test Total Time Analysis Results and Limits Upper Limit 0.4440 wt. %/ day (L, + L, + 0.25 L, )

Verification Test Total 0.3231 wt. %/ day Time Results (L,)

Lower Limit 0.2940 wt. %/ day (L, + L. - 0.25 L.)

3.

Verification Test Mass Point Analysis Results and Limits (Presented for information only)

Upper Limit 0.4534 wt. %/ day (L, + L, + 0.25 L, )

Verification Test Mass 0.3177 wt. %/ day Point Results (L )

c Lower Limit 0.3034 wt. %/ day (L, + L. - 0.25 LJ 4.

The report printouts and data plots for both the Total Time Analysis and Mass Point Analysis techniques are provided in Appendix C.

E.

Test Results - Type B and C Tests A summary of the local leakage rate test results conducted since the last.lLRT conducted in March 1989 is included in Appendix F.

Page 7 of 15

-_ --------- - - ~ " ' - - - - - - - ~ ' - -

Catawba Unit 2 F.

Integrated Leakage Rate Measurement System The containment system was equipped with instrumentation to permit leakage rate determination by the absolute method. Data from the absolute system is reduced to a containment air mass by application of the Ideal Gas Law. The leakage rate is equal to the time rate of change of this value. The mass of dry air W within containment is calculated as follows:

( P-P, ) V W=

RT where:

P = Containment Total Absolute Pressure P, = Containment Water Vapor Pressure (Average)

V = Containment Net Free Volume R = Gas Constant for Air T = Containment Absolute Temperature (Average)

The primary measurement variables required are containment absolute pressure, containment dew point temperature and containment temperature as a function of time.

During the supplemental verification test, the calibrated leakage imposed on the existing leakage in the containment system is also recorded.

1.

Absolute Pressure (3 Sensors)

Type:

Paroscientific Model 760-A Portable Field Standard Range:

0-45 psia Relative Accuracy:

0.01 % Full Scale Repeatability:

0.005 % Full Scale Sensitivity:

0.000045 psia Calibration Date:

December 28,1992 The sensors provide an RS232 direct digitalinput to the computer. Two sensors were used to monitor the upper and lower containment air volume and one sensor was used to monitor the ice condenser air volume.

2.

Dew Point Temperature (6 Sensors)

Type:

General Eastem Hygro-El Optical Dew Point Monitor with Model 1111H single stage sensor Range:

-40"F - 140"F, Analog output respanned from 20"F to 100"F dew point f or the five upper & lower containment sensors Page S of 15

Catawba Unit 2 are performed concurrently.

The ILRT program actually consists of two separate programs. The main program, called LEAK.EXE, is a generic data analysis and reporting program. It can be used at any facility with no changes required, as its personality is derived from a configuration file developed prior to each test. The configuration file specifies all plant specific information, such as station name, unit number, number of compartments in containment, number of each sensor type within each compartment, sensor calibration constants, volume fractions, serial numbers, DAS channel assignments and containment volume. The second program, called DATACQ.EXE, controls data acquisition and is customized for the type of system being used.

The ILRT program calculations were verified prior to test performance by loading a hand verified benchmark Raw Data File and Configuration Data file into the subdirectory containing the ILRT program. Following selection of the Configuration data file, a Test Data file was recalculated by the program. Having rebuilt the Test Data File, all calculated values output by the program were compared with the benchmark calculations. Exact agreement (to the same number of significant figures given in the Benchmark Summary) was achieved between the benchmark calculation and the ILRT program output.

H.

Information Retained at Plant The following information is available for review at Catawba Nuclear Station:

1.

A listing of all containment penetrations, including the total number of like penetrations, penetration size and function.

2.

A listing of normal operating instrumentation used for the leakage rate test.

3.

A system lineup (at time of test), showing required valve positions and status of piping systems.

4.

A continuous sequential log of events from initial survey of containment to restoration of all tested systems.

5.

Documentation ofinstrumentation calibration and standards.

6.

The working copy of the test procedure that includes signature sign-off of procedural steps.

Page i1 of 15

Catawba Unit 2 7.

The procedure and all data that would verify completion of penetrations and valve testing (Type B and C tests), including as found leakage rates, corrective action taken, and final leak rate.

8.

A listing of all test exceptions including changes in containment system boundaries instituted by Catawba to conclude successful testing.

9.

Description of method of leak rate verification of instrument measuring system (superimposed leakage), with calibration information on flowmeters along with calculations that were used to measure the verification leakage rate.

10. The Instrumentation Selection Guide (ISG) Calculation

11. The P&ID's of pertinent systems.

IV. ANALYSIS AND INTERPRETATION A.

ILRT Test Corrections In accordance with 10CFR50 Appendix J, Section III A.I.D, leakage penalties mus be added to the Type A test result. During the ILRT 10 penetrations in addition to th electrical penetrations were not placed in the post-LOCA alignment. The penetrations an minimum pathway "As Left" leakage rates (instrument error included) are given below:

Penetration Description Reason Leakage Rate (2) E Penet.

Conax Electrical N gas left in penet.

4 sccm 2

Penetrations CNIP-2MI5 ILRT Pressure sensing line.

20 seem CNIP-2MI6 ILRT Pressure sensing line.

20 sccm CNIP-2MI7 ILRT Pressure sensing line.

20 secm M371 Spare NF Mech.

Depressurization rig 20 seem Penetration installed.

M372 NF glycol pump Glycol recire required for ice 40 seem suction line condenser air handling units.

Page 12 of 15

Catawba Unit 2 and -10"F to 40"F for the ice condenser sensor, corresponding to 4 to 20 mA.

Accuracy:

1.0 *F Repeatability:

0.09"F Sensitivity:

0.09"F Calibration Date:

November 30,1992 3.

Dry Bulb Temperature (42 Sensors)

Type:

Rosemount Model No. 78S,4 wire,100 ohm platinum Calibrated Range:

0"F - 200 F Accuracy:

0.45 F over entire range Sensitivity:

0.09 F (for conservatism, the manuf. specified repeatability is used for this value in the ISG calculation.)

Calibration Date:

December 15,1992 4.

Data Acquisition System The data acquisition system consists of a Fluke 2289A Helios system front end and Fluke 2281 A extender chasis which interface with an IBM compatible,486 processor computer. The Fluke system acquires data from the dew point sensors and the dry bulb temperature sensors. The required canis and pertinent data are as follows:

Dew Point - DC current measurement Cards Required:

161 High Performance A/D 162 Thermocouple / DC Volts 171 Current Input Connector Range:

64 mA

• Accuracy:

0.02 % ofInput,i 5 uA (15 C-35*C Operating Temp.)

Repeatability:

0.015 % ofInput, 2uA Resolution:

0.6uA Calibration Date:

November 30,1992 Note: Accuracy improved over manuf. stated spec. due to change to 8 ohm, 0.01 %

precision resistors.

1 Temocrature - RTD Resistance Measurement Cards Required:

161 High Performance A/D 163 RTD / Resistance Scanner 177 RTD / Resistance Input Connector Range:

256 ohms Accuracy:

0.0175 % ofInput, 5.7 m ohms (15"C-35"C Operating Repeatability:

0.005 % ofInput, 4 m ohms Page 9 of 15

Catawba Unit 2 Resolution:

2.4 m ohms Calibration Date:

December 14,1992 5.

Verification Flow Type:

Brooks Hi-Accuracy, Full-View Flowmeter, Model No.

I110 Calibrated Range:

0 - 5.86 SCFM Accuracy:

1 % Full Scale Calibration Dates:

January 4,1993 6.

Instrumentation Selection Guide (ISG) Calculation The ISG calculation is a method used to evaluate the total instrumentation systems' ability to detect leakage rates in the range required. The ISG formula is described in ANSI /ANS 56.8-1987, Appendix G and requires that the sensitivity must be at least four times better than the containment's allowable leakage (ISG s 0.25 L.). The ISG calculated for the instrumentation used for this test was 0.0257 wt. (7c/ day for the eight hour test. The allowable value for this test is 0.0625 wt. %/ day.

The ISG value given by the computer for the end of test data point reflects actual containment atmospheric conditions and the number of sensors in service at that time. For this test, the ISG value is based on 3 pressure sensors,5 dew point sensors and 42 temperature sensors.

7.

Sensor Calibration Information and Volume Fractions Appendix D, Miscellaneous Information contains a Sensor Information report. This report lists the calibration coefficients for each sensor, instrument serial numbers, DAS channel assignments and final volume fraction assignments as installed fer the 1993 ILRT.

G.

Description of Computer Program The Duke Power ILRT is written in the C programmmg language and runs under the Microsoft (R) Windows operating environment. Through use of pull down menus, the user is made aware of all program options at any given time. All data including indnidual sensor readings, containment average readings and leakage calculations are accewible through spreadsheet data display windows, graphs, standardized reports, custom rerorts and data files written to disk. The program provides for multiple views of test data. noth graphical and tabular, and also provides for real time updating of ie displays with each new dat t set. Both ANSI 56.8 mass point and BN-TOP-1 total time leakage calculuns Page 10 of 15

Catawba Unit 2 M373 NF glycol pump Glycol recirc required for ice 52 seem discharge line condenser air handling units.

Upper Air Lock Emergency Air Pressure instrument installed I secm Penetration to monitor PAL pressure.

Lower Air Lock Emergency Air Pressure instmment installed 6 seem Penetration to monitor PAL pressure.

Upper Air Lock Aux. Side Door Instrument air supplied to inflatable 20 seem Instmment Air Supply seal on PAL outer door.

Lower Air Lock Aux. Side Door Instrument air supplied to inflatable 20 sccm l

Instrument Air Supply seal on PAL outer door.

Total:

223 seem 0 0005wt. %/ day Water volume changes in containment during the ILRT were negligible. During the period from 0100 on 2/7 to 1700 on 2/7, the containment floor and equipment sump levels increased an average of 1.5 inches, the pressurizer relief tank level decreased 0.1 inches and the reactor coolant drain tank increased from 30.7 inches to 38.5 inches.

B.

Reported "As Left" ILRT Results The results of the ILRT to be reported including all corrections are:

Total Time Mass Point Analysis Analysis Calculated Leakage Rate 0.1456 wt. %/ day 0.0901 wt. %/ day at 95% UCL Corrections 0.0005 wt. %/ day 0.0005 wt. %/ day "As Left" Leakage Rate 0.1461 wt. %/ day 0.0906 wt. %/ day Acceptance Criterion ( < 0.75 L, )

< 0.225 wt. %/ day Since both the "As Left" Total Time and Mass Point UCLs are less than 0.75La, the test results demonstrate that the leakage through the primary containment and systems and components penetrating containment does not exceed the allowable leakage rate specified in the Catawba Nuclear Station FSAR and the Technical Specifications.

Page 13 of 15

Catawba Unit 2 C.

"As Found" Evaluation of Containment In a letter dated July 27,1989 (Reference J) to Duke Power Company, the Director of NRR concluded that "As Found" Type A testing is not an explicit requirement of the regulations. Therefore, the "As Found" evaluation in accordance with NRC IE Notice No.

85-71, " Containment Integrated Leak Rate Tests", does not currently apply to Catawba Nuclear Station.

However,10 CFR 50 Appendix J Section IILA.I.(a) requires that, "during the period between the initiation of the containment inspection and the performance of the Type A test, no repairs or adjustments shall be made so that the containment can be tested in as close to the 'as is' condition as practical." Following the time of the initiation of the containment inspection, described by paragraph V.A. of Appendix J, and the completion of the Type A test, preparatory repairs and adjustments were made to one containment purge penetrations M357. The "As Found" Type A result is determined by adding the total leakage savings resulting from the repair or adjustment to the "As left" Type A test result.

These corrections are the difference between the pre-repair leakage's (but not negative),

calculated in the minimum pathway case for each purge penetration.

Minimum Pathway Penetration Description Leakace Difference M357 Containment Purge 13 seem Valves 2VP6B & 2VP7A Total Leakage Savings:

13 seem 0.0000 wt. %/ day Total Time Mass Point Analysis Analysis "As Left" Leakage Rate 0.1461 wt. %/ day 0.0906 wt. %/ day Total Leakage Savings 0.0000 wt. %/ day 0.0000 wt. %/ day "As Found" Leakage Rate 0.1461 wt. %/ day 0.0906 wt. %/ day Acceptance Criterion ( < 0.75 L, )

< 0.225 wt. %/ day Page 14 of 15

Cataw ba Unit 2 V.

REFERENCES A.

Catawba Nuclear Station FSAR Section 6.2 and Table 6-77.

B.

Catawba Nuclear Station Technical Specifications; Section 3.6.1.2, 4.6.1.2, 4.6.1.6 and 4.6.1.7.

C.

Catawba Nuclear Station, Procedure PT/2/A/4200/01 A. Unit 2, Containment Integrated Leak RateTest, Retype Approved 1/29/93.

l D.

Catawba Nuclear Station, Procedure OP/2/A/6200/20, Unit 2 Venting and Draining l

Procedure for Type C Leak Rate Tests, Retype 5,1/29/93.

E.

Catawba Nuclear Station, Procedure PT/2/A/4200/01C, Containment Isolation Valve Leak Rate Test, Retype Approved 1/29/93.

F.

Duke Power Company Integrated Leak Rate Test Software Documentation, Version 1.76.

G.

Code of Federal Regulations, Title 10, Part 50, Appendix J, " Primary Reactor Containment Leakage Testing for Water Cooled Power Reactors".

H.

ANSI /ANS 56.8-1987, " Containment System Leakage Testing Requirements".

I.

Bechtel Topical Repon BN-TOP-1, " Testing Criteria for Integrated Leakage RateTestmg of Primary Containment Structures for Nuclear Power Plants", Revision 1,1972.

J.

ANSI N45.4-1972, " Leakage-Rate Testing of Containment Structures for Nudear Reactors".

K.

July 27,1989 Letter to Mr. H. B. Tucker, Vice President Duke Power Company from Nlr.

Thomas E. Murley, Director Office of Nuclear Regulation, Determination of fh kfit Appeal Regarding Containment Integrated Leakage Rate Testing at Oconee, McGuire. and Catawba Nuclear Station (TACS 68443-68449).

L.

NRC Proposed Draft Regulatory Guide, " Containment System Leakage Testing" Arnl 3.

1991.

Page 15 of 15

Catawba Unit 2 SECTION VI APPENDICES S

Cataw ba Unit 2 APPENDIX A Temperature Stabilization Phase Data and Graphs Reading No. 36 to 198 Reports:

BN-TOP-1 Temperature Stabilization Criteria Mass Point Temperature Stabilization Criteria Containment Calculated Values by Reading No.

Graphs:

Containment Mass Average Pressure & Average Temperature Lower & Upper Containment Ice Condenser Average Vapor Pressure Lower & Upper Containment Ice Condenser Average Dew Point Lower & Upper Containment Ice Condenser 1

l l

BN-TOP-1 Tomperature Stabilization Catowt>o Nuclear Starbon Unit 2 Containment i

AVE. DT OVER LAST 2

! RATE OF DT CHANGE OVER LAST 2 i

TIME TEMP HOURS l

HOURS l

i t

t2 t

T i

2 i

HOURS l

• F

• F/HR f

'F/HR/HR 03:02 67.479 03:05 67.327 03.10 67.088 03:15 66.934 03 20 66.814 03:25 66.733 l

03.30 66.650 03.35 66.597 j

03:40 66.552 l

03:45 66.504 03.50 66.466 03 55 66 431 04:00 66.396 i

l 4

04 05 66 3S6 l

l l

0410 66 Sol t

I 04 15 l

66.332 04:20 1

66.312 04.25 66.291 04.30 66 271 04:35 66.269 I

04:40 66.247 l

04:45 66.226 04.50 66.216 04.55 66.205 05:00 66.100 05:05 66.171 0.577 0.723 05:10 66.166 0 461 0.531 05:15 66.155 0.389 0.425 05:20 66.151 0.331 0.342 05:25 66.140 07v6 0.290 05:30 66.131 0.259 0.238 05:35 66.120 0.238 0.179 05.40 66.119 0217 0.176 1

05:45 66.115 0 194 0.166 05.50 66.117 0.174 0.150 05.55 66.109 0.161 0.131 06:00 66.099 0.148 0.115 0605 66.096 0145 0.140 06:10 66.086 0 138 0.115 06:15 66.084 0.124 0.105 06:20 66.078 0.107 0.106 06:25 66.077 0.107 0.088 06:30 66.081 0.075 0.070 j

06:35 66.076 0.096 0.105 06:40 66.068 0 090 0.078 06:45 66.065 0 081 0 061 06:50 66.071 0 072 0.054 06:55 66.067 0 069 0.053 07:00 66.065 0 062 0.056 07.05 66.009 0 051 0.047 07:10 66 065 0 050 0 059 07:15 66 064 0 045 0.052 07:20 66 057 0 047 O 013 07:25 66 062 0039 0.049

BN-TOP-1 Tomporoturo Stabilization Catawbo Nuclear Statkm Urw 2 Cw ow..

T!ME l

TEMP j

AVE. DT OVER LAST 2 l RATE OF DT CHANGE OVER LAST 2 '

l l

HOURS l

HOURS

i f

I t-2i t

t T

i j

HOURS I

• F l

• F/HR l

• F/HR/HR 07.30 66.050 0.041 i

0 019 1

l 07:35 66.063 l

0 028 l

0 031 07:40 66.046 0.037 1

0.028 I

07.45 66.055 0030 1

0 G40 t

l 07.50 66 031 j

0 043

}

0.005 1

07.54 66 025 i

0.042 O COO I

07 59 66.044 0 028 0.013 08:04 66.021 1

0 038 0.023 08:09 66.010 I

O 038 0.035 08:14 I

66.011 f

0 C36 0.035 08:19 l

o6.023 0 038 0.006 j

08:24

$6.017 l

0 030 0.032 08:29 66 020 0 031 0.030 CS 34 66.024 O 026 I

O 028 C8.39 l

66 022 0 023 l

0.002 C8 44 l

66.033 0 016 0 014 08 49 l

66.030 O 021 0 040 08 54 06.036 0 015 0.031 08.59 66.030 0.017 0 008 l

09:04 66 051 0 009 0.019 09 09 66.048 0 000 0.018 09:14 66.045 0 010 0.020 09:19 66.031 0.013 0.027 09:24 66.042 0.010 0.021 l

09:29 66.053 0.002 0.003 09.34 66.046 0 009 0.018 09.39 66.035 0.005 0.011 09:44 66.043 0.006 0.013 09:49 66.CM1 0 005 0 010 10G:

66.046 0013 0.025 10:19 66.041 0 009 0.003 10:34 66.054 0.015 0.015 10 49 66.037 0 U33 0.007 11:04 66.050 0.001 0.001 11:19 66.061 0.015 0.007 11:34 66.064 0.0C4 0.CD3 11:49 66.079 0.019 0.037 12:04 66.066 0 010 0.012 12:19 66.088 0023 0.CD6 12:34 66.107 0.028 0.035 12.49 66.108 0.035 0.012 1

13 S4 66.105 0.028 0.024 i

13:19 66.110 0.024 0.004 13.34 66.121 0.029 0.033 l

13.49 66.124 0.023 0.013 14:04 66.136 0035 0.008 14:19 66.134 0.C23 0.CD2 14:34 66.154 0C23 0.021 14.49 66.163 0 027 0.022 15 04 66.158 0026 0.010 i

15:19 66.179 0 035 0.021 j

15-34 66.173 0026 0.014 15 49 66.184 0 030 0 017 16:04 66.206 0 035 0027

~

od-lOF-I lemperaturo Stabilization Catewbo Nuclear Staflon Unit 2 Containment j

i T!ME TEMP AVE. DT OVER LAST 2 l RATE OF OT CHANGE OVER LAST 2

• i HOURS l

HOURS 1

t. I t-2!

i T

2 HOURS

'F

• F/HR

• F/HR/HR 1$.19 M 203 0 034 0 021 5

1c:34 66 208 0 027 O.015 l

66.232 l

0 035 l

0.027 16 49 1

17:04 i

66.243 l

0 043 i

0011 i

17:20 j

$6.249 O G35 0 022 17:35 l

66.248 i

0 037 0.006 17.50 66.258 i

O 037 0.022 18 05 j

66.262 0 028 i

0 018 18:20

,l 66.278 0037 0 016 18:35 66.283

{

0 038 O.005 18.50 i

66.315 j

0 041 0.C31 19 05 l

66.296 l

0 026 0.014 19:20 l

66.312 O 032 O 005 1935 66 '>31 i

0 041 0 013 19 50 0 034 66 326 1

O G45 20 ^5 66.341 i

0 039 i

0012 i

$6.323

)

O C23 2C JO 2035 36 338 l

0 027 0 023 O.041 20 50 66.362 0024 0.024 21:05 66.365 0 035 0 021 j

l 21:20 66.391 0 G40 0.058 l

21:35 66.404 0 036 0.059 I

21.50 66.401 0 037 0.003 22:05 66.412 0 035 i

0 022

'i 22:20 66 407 0 G42 0.053 22:31 66 428 0047 0 G43 22:36 66 437 0 G49 0.033 22:41 66.437 0 G47 0.033 s

l 22:46 l

66.431 0 036 OIO7 i

22.51 66 424 0 031 0.017 i

22:56 66.421 0028 0.019 23:01 66 425 0 031 0 035 23:06 66.426 0030 0 032 23:11 66.441 0 G36 0.01B 23:16 66.445 0 028 0.027 1

23:21 66.442 0025 0.018 23:26 66.451 0028 OIO1 23.31 66.442 0 020 0.012 23:36 66.468 0 032 0.000 23 41 66.459 0 026 0.008 23.46 66.466 0 033 OIO3 23.51 66.451 0C25 0.005 23.56 66 465 0 030 0.026 00:01 66.458 0 024

}

0.020 l

CD:06 66.486 0 037 0 046 00:11 66 483 0.034 0.015 l

00:16 66.478 0 036 0.008 0021 66.489 0 G41 0.013 00:26 66 487 0 031 0.011 00.31 66.491 0032 0 035 00:36 66 485 0 024 0.015 00:41 66 495 0029 0.013 l

CD 45 66 496 0 032 l

0.005 i

00 50 66489 l

0 033 0 011

__________m.

BN-TOP-1 Temperaturo Stabilization Cc*rwbo Nuclear $1otteri thit 2 Coritahment l

l i

AVE DT CVER LAST 2

RATE OF DT CHANGE OVER LAST 2 l i

TIME l

TEMP HOURS l

HOURS j

l I

- i t-2)

{

t 1

T 2

HOURS l

• F l

'F/HR l

• F/HR/HR 01.00 66493 4

0 C35 0.002 l

I i

i

)

i 4

l l

l l

i l

i I

l j

l j

I i

l I'

I I

i l

i l

i I

I I

i l

i l

1 l

4

)

i w.___.

Toss FoTniEmFeioturo stabiiiiation

" ;2 l

~~

Unit 2 O

l AVE. DT OVER LAST 4 AVE. DT OVER LAST HOUR TIME TEMP HOURS t

T

^

jT, - T,,il h = h. - h.

4 HOURS l

• F

'F/HR l

• F/HR

'F/HR 03:02 67.479 03:05 67.327 03:10 67.088 03:15 66.934 F

03:20 66.814 03:25 66.733 03:30 66.650 03:35 66.597 03:40 66.552 03:45 66.504 03:50 66.466 03-55 66.431 04:00 66.396 04:05 66.3S6 04;10 66.361 04:15 66.332 04:20' 66.312 G4:25 66.291 04:30 66.271 04:35 66.269 04:40 66.247 l

04:45 66.226 l

04:50 66.216 04:55 66.205 05:00 66.190 05:05 66.171 05:10 66.166 05:15 66.155 05:20 66.151 0525 66.140 05:30 66.131 05:35 66.120 05:40 66.119 05:45 66.115 05:50 66.117 05:55 66.109 06:00 66.099 06115 66.096 06:10 66.086 06:15 66.084 06:20 66.098 06:25 66.077 06:30 66.081 06:35 66.076 06:40 66.068 06:45 66.065 06:50 66.071 06:55 66.067 07:00 66.065 07:05 66.069 0.314 0.027 0 287 -

07:10 66.065-0 256 0.021 0.235 07:15 66.064 0.217 0.019 0.198

Moss Point Temperaturo Stabilizatio i

UnN 2 Contolnment i

O I

l O

l r

,,.MP AVE. DT OVER LAST 4 AVE. DT OVER LAST HOUR

,ME u

ic HOURS i;

^

ji, - T,,3{

h=h-h t

T j

4 HOURS

• F l

• F/HR l

• F/HR l

4/HR 0720 66.057 0.189 0.040 0.149 07.25 66.062 0.167 0.015 0.153 i

07.30 66.050 0.150 0.031 0.119 i,

07:35 66.063 0.i33 0.013 0.121 07:40 66.046 0.127 0.022 0.104

) !

07:45 66.055 0.112 0.000 0.103 l1 07.50 66.031 0.109 0.040 0.068 l

07:54 66.025 0.102 0.042 0.060

'}

07:59 66.044 0.088 0.021 0.067 08:04 66.021 0.092 0.049 0 042 0809 66.010 0.088 0.056 0.032 l

3 08:14 66.011 0 0B0 1

0.054 0.026 I

I 08:19 66.023 0.072 0.035 0.038 l

CS:24 66.017 0.069 0.046 0.022

}

08:29 66.020 0 063 0.031 0.033 08.34 66G4 0.061 0.040 0.021 j

05.39 66 022 0.057 0.024 0.032 08:44 66.033 0.048 0.023 0.025 i

08.49 66.030 0.047 0.001 0.046 l

08:54 66 036 0 042 0.011 0.031 08.59 66.030 0.040 0.014 0.026 09:04 66.051 D.030 0.030

-0.000 09:09 66.048 0.030 0.038

-0.009 l

09:14 66.045 0 028 0.034

-0.007 l

09:19 66.031 0.030 0.00B 0.023 09:24 66.042 0.025 0.025

-0.001 l

09:29 66.053 0.020 0.033

-0.014 t

l 09:34 66.046 0.018 0.022

-0.004 09:39 66.035 0.021 0.013 0.008 09 44 66.043 0.018 0.010 0.008

{

09.49 66.041 0.019 0.011 0.008 10:04 66.046 0.013 0.005 0.008 10:19 66.041 0.014 0.011 0.003 i

10:34 66.054 0.006 0.008

-0.002 10:49 66.037 0.C09 0.004 0.005 1104 66.050 0.005 0.004 0.001 11:19 66.061 0.001 0.020

--0.019 11:34 65.G64 0.000 0.010

-0.010 11:49 66.079 0.012 0.042

-0.030 1204 66.066 0.011 0.016 4.005 12:19 66.088 0.016 0.026

-0.010 12:34 66.109 0.021 0.045

-0.024 12:49 66.108 0.019 0.029

-0.010 13:04 66.105 0.014 0.039

-0.026 13:19 66.110 0.020 0.022

-0.002 13;34 66.121 0.019 0.012 0.C07 l

13.49 66.124 0.021 0.017 0.004

(

14:04 66.136 0.023 0.031

-0.009 i

14:19 66.134 0.023 0.024

-0.001 14:34 66.154 0.025 0.033

-0.008 14.49 66.163 0.031 0.038

-0.007 l

I 15:04 66.158 0 027

}

0.022 0.006

(

+

Moss Point Tcmperairuro Stobilization

~

c= >

on Une2 Containment O

I O

l O

TIME TEMP AVE. DT OVER t.AST 4 AVE. DT OVER l.AST HOUR l

HOURS

{

jT, - T 3,4l lT,. T,,3{

h. Qj. ng t

T m

HOURS l

• F l

• F/HR l

• F/HR l

• F/HR f

15:19 66.179 OD29 0.045

-0.016 15:34 66.173 0.027 0.019 0.008 15:49 66.184 0226 0.021 0.005 16:04 66.206 0 035 0.048

--0.013 16:19 66.203 0.029 0D24 0 005 I

16.34 66.208 0.025 0.034

-0.010 16:49 66.232 0.031 0.048

-0.017 17D4 6$.243 0.035 0.037

-0.003 17:20 66.249 0.035 0.046

-0.011 17:35 66.248 0.032 0.040

-0.009 17.50 66.258 0 033 0 026 0.007 18D5 66.262 0.031 0.019 0.012

[

15 20 J

66278 0 036 0.029 0 007 1B 35 oo2B3 0.032 0.035 4 003 i

18.50 66.315 0.038 0.057

-00'9 19 05 66296 0.034 0.033 0.001

- l, 19:20 66.312 0.033 0.034 4.001 i

19:35 66.331 0.039 0.048

-0.008 i

19:50 66.326 0.036 0.012 OD24 20:05 66.341 0.034 0.045

-0.012 2020

- 66.323 0.030 0.011 0.019 I

20:35 66.338 0.033 0.007 0226 l

20.50 66.362 0.033 0.036

-0.003 i

21:05 66.365 0.030 0.024 0.006 21:20 66.391 OD36 0.068

-0.033 21:35 66.404 0.039 0.066

-0.027 21:50 66.401-0.036 0.039

-0.003 l

22:05 66.412 0.037 0.047

-0.009 L

22:20 66.407 OD32 0.016 0.017 22:31 66.428 0.037 0.026 0.011 I

{

22.36 66.437 0.038 0.032 0.006 22:41 66.437 0.038 0 030 0.007 22:46 66.431 0.030 -

0.032

-0.002 l

22:51 66.424 OD27 0.022 0 005 22:56 66.421 0.026 0 018 0.008

[

23:01 66.425 0.033 0.014 0.019 23D6 66.426 0.032 0.014 0.01B 23:11 66.441 0.036 0.027 0.008 23:16 66.445 0.034 0.041

-0.007 l

23:21 66.442 0 032 0.034

-0.002 I

23:26 66.451 0.034 0.025 0.009 l

23:31 66.442 0.028 0.014 0.014 23:36 66.468 0.034 0.032 0.002 23:41 66.459 0.031 0.022 0.009 l

23:46 66.466 0.035 0.035 0.001 l

23.51 66.451 0.031 0027 0.004 i

23:56 66.465 0.034 OS44

-0.010 00:01 66.458 0.030 0.034 4 004 00.:06 66.4B6 0.036 0 060

-0.024 00:11 66.483 0 035 odd 2

-0.007 00.16 66.478 0 039 i

0.033 0.007 00:21 66.489 OD41 0.047

-0006 f

I l

I i

i'

I Mass Point Tcmperatura Stabilization Catewbo Nuclear Stofton Unit 2 Containment j

J t

i 7;pjg q,jp AVE. DT CVER LAST 4 j AVE. DT OVER LAST HOUR HOURS j

t-4!

I lT, - T t

T j

T, -

T,,3l h = @m - y

.m l

HOURS l

• F f

• F/HR l

• F/HR l

• F/HR f:

00:26 66 487 0.040 0.036 0 004 00:31 66.491 0.039 0.049 4 010 00.36 66485 0.037 0.017 0 020 00:41 66.495 0.028 0.035 0.003 I,

00 45 66.496 0 034 1

0.030 0.004 00 50 66.489 0.032 l

0.038

-0.007 01:00 66.493 0.033 l

0.036

-0.003

~i I

I 1

J i

1 i

t I

i

'l i-i i

I t

1 i

i I

i 4

l Containment Calculated Values i

Catawbo Nuclear Station 2

Unit 2 I

RDG TNE MASS TEMP VAPOR PRESS PRESSURE t

36 03 02:06 Lower / Upper Cont.

140655 01 75.364 0.1616 29.3853 f

ice Condoneer 26203.16 16.665 0.0388 29 3956 TOTAL 175858.18 37 0305.16 Lower / Upper Cont.

149645.33 75.198 0 1623 29.3751

[

ice condoneer 26197.23 16.605 0.0300 29.3B54 TOTAL 175B42.56 t

38 03:10.27 Lower / Upper Cont.

149660.98 74.929 0.1621 29 3633 l

lee Condenser 26189.25 16.558 0.0391 29.3737 TOTAL 175B50.24 39 03:15:27 Lower / Upper Cont.

149665.45 74.753 0.1624 29.35:8 i

les Condenser 26182.71 16.541 0.0388 29.3651 TOTAL 175848.16 40 03:20:27 Lower / Upper Cont.

149673.20 74 617 0.1614 29 3470 see Condoneer 26177.43 16.528 0.0387 29.3583 TOTAL 175B50.63 41 03 25:27 Lower / Upper Cont.

149667.38 74 524 01617 20 3410 i

lee Condenser 26172.07 16.526 0.0388 29 3522 TOTAL 175839.45 42 03.30:27 Lower / Upper Cont.

149672.90 74.428 0.1610 29 3370 fee Condenser 26167.86 16.526 0.0387 29 3474 TOTAL 175840.75 43 03:35:27 tower / Upper Cont.

149674.46 74.366 0.1605 29 3335 Ice Condoneer 26164.68 16.528 0.0387 29 3439 TOTAL 175839.14 l

44 03:40:28 tower / Upper Cont.

149672.08 74.315 0.1600 29 3?98 Ice Condenser 26161.20 16.528 0.0387 20 3401 TOTAL 175833.28 45 031.5:28 Lower / Upper Cont.

149672.40 74.258 0.1593 29 3260 lee Condeneer 26157.73 16.532 0.0386 29.3364 TOTAL 175830.14 46 03.50:28 Lower / Upper Cont.

149668.92 74.214 0.1590 29.3226 nee Condoneer 26154.29 16.536 0.0387 29.3323

{

TOTAL 175823.21 I

47 03:55:28 tower / Upper Cont.

149667.63 74.172 0.1585 29 31G6 tco Condenser 26151.18 16.545 0.0388 29.3300 TOTAL 175818.80 48 0400:28 Lower / Upper Cont.

149668.13 74.131 0.1580 29.31t9 les Condenser 26148.91 16.547 0.038v 29.3274 l

.TQTAL 175817.03 49 04 05.28 Lowe / Upper Cont.

149658.01 74.119 0.1577 29.3140 Ice Condenser 26145.99 16.552 0.0386 29.3244 TOTAL 175804.00 50 04:10:29 tower / Upper Cont.

149659 63 74.090 0.1570 29.3120 l

ice Condenser 26143.94 16.556 0.0385 29.3223 TOTAL 175803.56

[

1 Containment Calculated Values CcWowba Nuclear Stomon UnN2 RDG THE MASS TEMP VAPOR PRESS PRESSURE 51 04:15:29 Lower / Upper cont.

149659.65 74.056 0.1564 29.3096 Ice Condonner 26142.08 16.552 0.0384 29.3198 l

TOTAL 175801.73 52 04:20:29 Lower / Upper Cont.

149659.20 74.033 0.1561 29.3079 see condoneer 26140 47 16.556 0.0384 29.3183 TOTAL 175799.67 i

53 04.25:29 Lower / Upper Cont.

14965821 74.009 0.1557 29.3060 ice Condonner 26138.51 16.556 0.0384 29.3161 l

TOTAL 175796.72 54 04:30:29 Lower / Upper cont.

149659.06 73.985 0.1549 29.3041 Ice Condoneer 26136.58 16.558 0.0386 29.3142 j

TOTAL 175795.64 55 04:35:29 Lower / Upper cont.

149652.00 73.983 0.1544 29 3021 i

tee Condenser 26134 S6 16.556 0.0387 29.3124 l

TOTAL 175786.96 56 04 40 30 tower / upper cont.

149646 22 73 S 57 0.1546 29 299B lee Condoneer 26132.04 16.565 0.0390 29 3,99 TOTAL 175778.26 57 04AS.30 towoc/ Upper Cont.

149650.10 73.932 0.1533 29 2979 ice Condenser 26130.23 16.567 0.0391 29.3082 TOTAL 175780.32 58 04.50 30 Lower / Upper Cont.

149642.21 73.921 0.1535 20 2950 Ice Condenser 26128.50 16.564 0.0392 29.3061 TOTAL 175770.70

$9 04:55:30 tower /Lpper Cont.

149640.02 73.907 0.1530 29 2043 i

sco Condenser 26126.99 16.569 0.0391 29 3040 TOTAL 175767.01 60 05:00:30 Lower / Upper Cont.

149637.33 73.890 0.1526 29 272:'

les Condenser 26124.98 16.571 0.03?2 29 30:t f

TOTAL 175762.30 t

61 05:05.30 tower / upper Cont.

149639.69 73.866 0.1517 2; ;W.

[

lee Condenser 26122.77 16.582 0.0392 20 2X' i

TOTAL 175762A6 62 05:10:31 tower / upper cont.

149633.94 13.860 0.1515 20:'-;

l Ice Condenser 26121.38 16.583 0.0391 29 3.

TOTAL 17575532 63 05:15:31 Lower / Upper Cont.

149633.55 73.847 0.1507 29 It 7 Ice Condenser 26120.01 16.586 0.0390 29 :C~

TOTAL 175753.56 b

64 05:20:31 tower / Upper Cord.

149630A0 73.843 0.1502 2c ; -

les Condenser 26118.95 16.586 0.0390 29 2

• TOTAL 175749.34

-l 65 05:25:31 Lower / upper cont.

149631.39 73.829 0.1494 29 :e Ice Condenser 26117.57 16.587 0.0388 29 2- -

TOTAL 175748.96 i

i i

Containment Calculated Volucs CaNrwbo Nuclear Stanon UnN2 RDG TIME MAS 5 TEMP VAPOR PRESS PRESSURE i

66 05.30 31 Lower / Upper Cont.

149626 96 73.818 0.1494 29 2832 les Condenser 26115 89 16.594 0.0388 29.2935 TOTAL 175742.85 i

67 0525:32 Lower / upper Cont.

149663.80 73 804 0.1495 29.2898 lee Conooneer 26120.52 16.598 0.0399 29 3000 L

TOTAL 1757B4.32 i

68 05:40:32 Lower / Upper Cont.

149676.63 73.803 0.1493 29.2920 les Condenser 26121.77 16.601 0.0406 29 3023 l

TOTAL 175798.41 t

69 05:45:32 Lower / Upper cont.

149693.12 73.798 0.1486 29.2943

[

lee Condoneer 26123 S7 16.598 0.0414 29.3044 s

TOTAL 175816.18 70 D5.50:32 Lower / Upper Cont.

149704.22 73.800 0.1480 29.2958 I

les Condonner 26123.37 16.605 0.0424 29 3062 TOTAL 175827.60 71 05 55.32 tower / Upper Cont.

149717.84 73.791 0.1473 29.2;73 Ice Condenser 26123 59 16.605 0.C435 292075 TOTAL 175841.44 72 06:00.32 Lower / Upper Cont.

149726.20 73.779 0.1479 29 2;B9 les Condoneer 26123.94 16.608 0.0?.47 29 3092 TOTAL 175850.14 73 06:05:33 tower / Upper Cont.

149731.70 73.775 0.1483 29 3002 Ice Condonner 26123.32 16.616 0.0460 29 3103 TOTAL 175855.02 74 06:10:33 Lower / Upper Cont.

149742.00 73.762 0.1482 29 3014 Ice Condenser 26123.03 16.620 0.0472 29.3115

[

TOTAL 175865.03 75 06:15:33 tower / Upper Cont.

149714.11 73.758 0.1550 29.3026 lee Condoneer 26122.50 16.627 0.0485 29 3126 TOTAL 175836.60 I

76 06:20:33 tower / Upper Cont.

149759.45 73.773 0.1464 29 3035 l

lee Condenser 26121.90 16.635 0.0497 29.3130 TOTAL 175881.35 t

77 06:25:33 tower / Upper Cont.

149776.98 73.749 0.1449 203041 I

les Condenser 26121.30 16.637 0.0509 29 3143 TOTAL 175898.28 78 0$00.33 Lower / Upper Cont.

149783.25 73.751 0.1444 29 3050 Ice Condenser 26120 02 16.650 0.0523 29.3151 TOTAL 175903.27 79 06.35:34 Lower / Upper Cont.

149789.89 73.745 0.1442 29 3057 Ice conooneer 26119.50 16.656 0.0535 29 3160 I

TOTAL 175909.39 80 06:40:34 Lower / upper Cont.

149800.05 73.734 0.1440 29 3069 lee Condenser 26118.98 16.667 0.0543 29 316v r

TOTAL 175919.03 t

I

Containment Calculated Values Colowba Nuclear Stamon UnN 2 RDG TIME MA$$

TEMP VAPOR PRES $

PRES $URE 81 06:45:34 tower / Upper cont.

149808.64 73.729 0.1437 29.3050 les Condenser 26117.73 16.674 0.0563 29.3179 TOTAL 175926.36 82 06:50:34 Lower / Upper Cont.

149812.35 73.735 0.1435 29.3089 i

les Condenser 26115 94 16.682 0.0588 29.3189 TOTAL 175928.28 i

83 06 55:34 Lower / Upper Cont.

149816.13 73.730 0.1437 29.3095 lee Condenser 26112.84 16.685 0.0627 29.3195 TOTAL 175928.97 84 07:00.34 tower / Upper Cont.

149822.95 73.726 0.1430 29 3100 lee Condonner 26109.48 16.695 0.0663 29.3200 TOTAL 175932.43 j

85 07:05:35 tower / Upper Cont.

149822.89 73.729 0.1430 29 3101 lee Condenser 26106.02 16.707 0.0696 29.3201 TOTAL 175928.91 t

86 07.10 35 Lower / Upper Cont.

149830 99 73.722 0.1427 29 3110 - !

Ice Condenser 26103.81 16.717 0.0724 273210 l TOTAL 175934.80 l

S7 07:15:35 Lower / Upper Cont.

149836 44 73.721 0.1423 29 3116 Ice Condoneer 26101.75 16.719 0.0750 29,3215 TOTAL 175938.20 88 07:20:35 tower / upper Cont.

149845.00 73.712 0.1423 29.3128 l lee condenser 26100.10 16.725 0.0776 29 3226 TOTAL 175945.20 j

89 07:25.35 tower / Upper cont.

149849.14 73.717 0.1420 29.3136 ;

lee Condenser 26098.54 16.732 0.0799 29 3236 ;

TOTAL 175947.69 90 07 30:35 Lower / Upper Cont.

149860.89 73.701 0.1418 29.3148 )

Ice Condenser 26006.59 16.744 0.0823 29.3246 t

TOTAL 175957.48 i

91 07:35:36 tower / Upper Cont.

149861.89 73.716 0.1415 29 3155 ;

ice Condenser 26094.87 16.749 0.0847 29 3254 :

TOTAL 175956.76

'f r

92 07:40:36 tower / Upper Cont.

149861.55 73.695 0.1413 29.3141 Ice Condenser 26091.40 16.751 0.0870 29 3239 TOTAL 175952.95 93 07 45:36 Lower / Upper Cont.

149856.17 73.706 0.1411 29 3134 - i Ice Condenser 26088.77 16.755 0.0891 29.3233 l TOTAL 175944.93 j

i 94 07:50.36 Lower / upper Cont.

149864.05 73.676 0.1411 29 3133 )

nee condenser 26066.90 16.766 0.0905 29 3232 !

TOTAL 175950.94 1

95 07:54:40 Lower / upper Cont.

149864.26 73.669 0.1410 29.3129 I les Condenser 26085.44 16.769 0.0016 29 3229 i TOTAL 175949 69 i

Containment Calculated Values Catowbo Nuclear Station UnN 2

.I RDG TIME MASS TEMP VAPOR PRESS PRESSURE I

96 07.59A0 Lower / Upper Cont.

149855.94 73.689 0.1409 29.3122 i

tee Condenser 26083.56 16.777 0 0925 29.3221 TOTAL 175939 49 97 08:04 40 Lower / Upper Cont.

149732 83 73.663 0.1403 29.2862 Ice Condoneer 26067AS 16.770 0 0849 29.2961 TOTAL 175800.2B i

98 08:09A0 Lower / Upper Cont.

149715.47 73.648 0.1400 29.2818 fee Condenser 26075.21 16.782 0.0714 29.2920 TOTAL 175790.69 I

99 08:14AO Lower / Upper Cont.

149709.74 73.646 0.1399 29 2B04 f

Ice Condenser 26079.33 16 807 0.0638 29.2905 TOTAL 175789.07 100 08:19:41 Lower / Upper Cont.

149701.70 73.657 0.1397 29.2793 Ice Condenser 26081.64 16.826 0.0589 29 2894 TOTAL 175783.35 101 C8.24 41 Lower / Upper Cont.

149698JO 73 647 0.1393 29 2777 Ice Condenser 26082.20 16.847 0.0556 29 2880 TOTAL 175780.90 102 08.29:41 Lower / Upper Cont.

149689.18 73.647 0.1392 29 2757 lee Condenser 26081 A7 16.867 0.0534 29.2862 TOTAL 175770.65 i

103 08:34A1 Lower / Upper cont.

14 678.98 73.650 0.1388 29 2735 ice Condanner 26079.67 16.880 0.0520 29 2836 TOTAL 175758.66 104 08:39A1 Lower / upper Cont.

149671.42 73.645 0.1387 29.2718 lee Condoneer 2608009 16.894 0.0491 29.2821-TOTAL 175751.50 105 08A4:41 Lower / Upper Cont.

149663.39 73.656 0.1384 29.2705 ico Condenser 26080.08 16.905 0.0471 29.2507 TOTAL 175743A7 106 08:49:42 Lower / Upper Cont.

149659.54 73.651 0.1384 29.2695 Ice Condenser 26079.85 16.916 0.0458 29.2798 i

TOTAL 175739.39 107 08.54 A2 -

Lower / Upper Cont.

149657.22 73.657 0.1378 29 2688 i

ice Condenser 26079.85 16.924 0.0445 29 2700 TOTAL 175737.07 108 08.59:42 Lower / Upper cont.

149652.%

73.649 0.1378 29 2675 -

?

Ice Condenser 26079.05 16.935 0.0435 29.2778 TOTAL.

175732.02 109 09:04A2 Lower / Upper Cont.

149641.57 73.671 0.1376 29.2602 l

Ice Condenser 26078.03 16.944 0.0427 29 2764 TOTAL 175719.60 110 09:09A2 Lower / upper Cont.

149638.67 73.667 0.1374 29 2$52 l

leeCondenser 26077.15 16.950 0.0423 29 2754 i

TOTAL 175715.82 h

P

Containment Calculated Volues -

s casowba Nuctoct $8 anon j

Une 2 M

MAS $

TEMP VAPOR PRESS PRESSURE 111 09:14 42 Lower / Upper Cont.

149633.25 73 662 0.1373 29 2638 ice Condoneer 26075.95 16 959 0.0418 29.2741 TOTAL 175709.20 112 09:19.43 Lower / Upper Cont.

149637 69 73.645 0.1369 29.2633 see Condoneer 26075.73 16.963 0.0413 29 2736 TOTAL 175713.42 113 09:24:43 Lower / Upper Cont.

149624.35 73.657 0.1368 29.2613 ice Condenser 26073.95 16.969 0.0410 29.2717 TOTAL 175698.30 114 09:29:43 Lower / Upper Cont.

149620.80 73.667 0.1365 29.2609 Ice Condenser 26073.03 16.983 0.0406 29.2711 TOTAL 175693.84 115 09:34:43 Lower / Upper Cont.

149619.05 73.659 0.1363 29.2599 lee Condenser 26072.22 16.968 0.0403 29.2702 TOTAL 175691.27 1

116 09 39.43 Lower / Upper Cont.

149620.67 73.645 0.1360 29 2592 ice Condeneer 26071.74 16.991 0.0399 29.2694 TOTAL 175692.41 117 09.44.43 Lower / Upper Cont.

14 % 11.03 73.653 0.1360 29 2577 les condenser 26070.60 16.998 0.0395 29.2682 TOTAL 175681.63 1

118 09.49:44 tower / Upper cont.

149608.32 73.651 0.1357 29 2568 Ice Condenser 26069.82 171X)0 0.0393 29.2672-TOTAL 175678.14 L

119 10:04A4 Lower / Upper Cord.

149595.90 73.654 0.1350 29.2539 lee Condenser 26066.80 17.016 0.0387 29.2643 TOTAL 175662.70 j

120 10 19:45 Lower / Upper Cont.

149592.25 73.646 0.1343 29 2520 Ice Condenser 26064.31 17.034 0.0384 29.2623 TOTAL 175656.56 121 10:34AS Lower / upper Cont.

149582.91 73.657 0.1337 29 2501 les Condenser 26061.91 17.053 0.0382 29.2606 TOTAL 175644.82 122 10A9A6.

Lower / Upper Cont.

149576.28 73.636 0.1332 -

29.2472 lee Condenser 26058.74 17.066 0.0380 29 2575 TOTAL 175635.01

'[

123 1104:47 Lower / Upper Cont.

149566.59 73.648 0.1326 29 2454 ice Condenser 26056.38 17.081 0.0378 29.2556 TOTAL 175622.97 P

124 11:19:47

. Lower / Upper Cont.

149559.67 73.660 0.1320 29 2440 lee condenser 26054.87 17.094 0 0373 29.2543 TOTAL 175614.54 125 11:34:48 Lower / Upper Cont.

149554.79 73.661 0.1313 29.2425

[

Ice Condenser 26053.25 17.105 0.0369 29.2527 TOTAL 175608.05 I

Containment Calculated Volurs Ccriowtm Nuclear Stanon Unit 2 ROG TIME MASS TEMP VAPOE PRESS PRESSURE 126 11:49.48 Lower / Upper Cont.

149546.85 73.676 0.1310 292415 Ice Condonner 26051.58 17.121 0.0371 29 2521 TOTAL 175598 43 127 12:04 49 Lower / Upper Cont.

149554.45 73.659 0.1301 29 2411 lee Condoneer 26049.14 17.132 0.0387 292516 TOTAL 175603.59 128 12:19 49 tower / Upper Cont.

149541.71 73 682 0.1298 292396 Ice Condonner 26046 84 17.143 0.0390 29 2500 TOTAL 175588.56 129 12:34:50 tower / upper Cont.

149528.45 73.706 0.1292 202377 les Condoneer 26046 40 17.152 0.0371 29 2481 TOTAL 175574.84 130 12:49:50 Lower / Upper Cont.

149528.72 73.702 0.1286 -

29.2370 lee Condenser 26045.38 17.169 0.0365 29 2474 TOTAL 175574.10 131 13 04.51 Lower / Upper Cont.

149530 27 73 696 0.12B0 29 2264 les Condoneer 26044.13 17.184 0.0364 29 240S TOTAL 175574.40 132 13:19:51 tower / Upper Cont.

149527.88 73.700 0.1276 29 2357 lee Condenser 26042.95 17.196 0.0363 29 2461 TOTAL 175570.83 133 13:34:52 tower / Upper Cont.

149521.24 73.712 0.1269 29 2343 lee Condenser 26041.03 17.205 0.0365 29 2447 TOTAL 17556227 134 13.49:52 tower / Upper Cont.

149515.43 73.713 0.1265 2923 B Ice Condenser 2603920 17.223 0.0363 29 2:15 TOTAL 175554.64 135 14:04:53 Lower / Upper Cont.

149513.95 73.725 0.1257 29 :2: '

ice Condenser 26038.16 17.233 0.0363 2974;^

TOTAL 175552.11 136 14:19:53 tower / Upper Cont.

149512.55 73.721 0.1256 29 3 les Condenser 2603622 17.244 0.0372 2c ; -

TOTAL 175548.77 137 1434.54 tower / upper Cont.

149505.49 73.742 0.1250 20 :

Ice Condenser 26032.52 17.257 0.0396 29.~ 2 :

TOTAL 175538.01 138 14:49.54 tower / Upper Cont.

149503.09 73.750 0.1243 29.. -

Ice Condenser 26033.49 17.265 0.0369 20 2 TOTAL 175533.57 139 15:04:55 tower / Upper cont.

149505.43 73.742 0.1239 29 :. --

Ice Condenser 26033 25 17.285 0.0361 29 N TOTAL 175538.68 140 15:19:56 Lower / Upper Cont.

149496.79 73.763 0.1236 29 :.

Ice Condenser 26031.52 17.304 00358 29 :

TOTAL-175528.31 n

Containment Calculated Values

• N Colowbo Nuclear Slanon

{

Unit 2 l

RDG TIME MASS TEMP VAPOR PRESS PRESSURE 141 15:34:56 Lower / Upper Cont.

149496.51 73.755 0.1232 29 2282 lee Condenser 26030.30 17.314 0.0357 292386 TOTAL 175526.81 142 15:49:57 Lower / Upper Cont.

149492.98 73.766 0.1225 29 2274 Ice Condoneer 26029 53 17.321 0.0354 29 2378 TOTAL 175522.50 143 16:04:57 Lower / Upper Cont.

149484.24 73.790 0.1219 292264 Ice Condonner 26028 19 17.334 0.0352 29.2370 TOTAL 175512.44 144 16:19:58 Lower / Upper Cont.

149489.06 73.785 0.1216 202267 Ice Condenser 26030.82 17.345 0.0354 29.2407 :

TOTAL 175519.88 I

145 16:34.58 tower / Upper Cont.

149492.34 73.788 0.1210 29.2270 lee Condenser 26027.41 17.355 0.0353 29.2375 TOTAL 175519.75 146 16:49 59 Lower / Upper Cont.

149478.86 73.814 0.1207 29 2255 ice Condenser 2602520 17.370 0.0356 29 2361-TCTAL 175504.05 i

147 17.04:50 Lower / Upper Cont.

149471.84 73.825 0.1205 29 2245 les Condenser 26023.40 17.385 0.0356 29.2351 TOTAL 175405.23 148 17:20:00 tower / Upper Cont.

149469.87 73.829 0.1202 29 2241 lee Condenser 26022.35 17.399 0.0355 29 2346 TOTAL 175492.22 149 17:35:00 tower / Upper Cont.

149470.32 73.827 0.1198 29 2236 ice Condenser 26021.64 17.409 0.0352 292342 TOTAL 175491.%

150 17:50:01 Lower / Upper Cord.

149471.43 73.837 0.11B8 29 2234 lee Condenser 26020A6 17.415 0.0358 29 2339 TOTAL 175491.89 s

151 18:05:01 Lower / Upper Cont.

149479.27 73.840 0.1174

' 29 2237 Ice Condenser 26018.20 17.432 0.0377 29 2342 t

TOTAL 175497.47 152 18:20 02 tower / Upper Cont.

149465.56 73.856 0.1185 29 2230 lee Condenser 26016.86 17.441 0.0381 29 233t i TOTAL 175482.42 153 18:3502 Lower / upper Cont.

149463.70 73.861 0.1182 29 2226 ice Condenser 26017.71 17.448 0.0364 29 2334 TOTAL 17548tl.41 154 1830:03 Lower / upper Cont.

149461.31 73.8 %

0.1163 29 2221 !

Ice condenser 26017.44 17A56 0.0356 29 2327 TOTAL 175478.75 155 19:05:03 Lower / upper Cont.

149463.90 73.872 0.1167 2922 9 ice Condenser 26016.36 17.469 0.0357 29 232 TOTAL 175480.27 I

N

Containment Calculated Volu s Ccnowba Nucesor SkWon Urd 2 RDG TIME MASS TEMP VAPOR PRESS PRESSURE i

156 19:2004 Lower / Upper Cont.

149459.24 73.889 0.1170 29.2220 leeConcenser 26015.55 17.4S4 0.0356 29.2323 TOTAL 175474.79 157 19.35:04 Lower / Upper Cont.

149463.02 73.909 0.1145 29 2213 lee Condonner 26014.66 17.497 0.0356 29 2321 TOTAL 175477.68 158 19:50:05 Lower / Upper Cont.

149455.70 73.900 0.1157 29.2207 les Cond3mer 26013 33 17.516 0 0351 29 2313 TOTAL 175469.04 f

159 20:05:05 tower / Upper Cont.

149453.98 73.916 0.1147 29.2202 L

lee Condenser 26012.17 17.522 0.0355 29 2307 TOTAL 175466.15 i

160 20:20:06 Lower / Upper cont.

149464.86 73.894 0.1144 29 22C8 les Condenser 26011.21 17.534 0.0364 29.2312 i

TOTAL 175476.07 161 20:35:06 Lower / Upper Cont.

149451 79 73.910 0.1150 20.2137 i

ice Condonner 26007.46 17.540 0.0392 29 2.02 TOTAL 175459.25 162 20:50:07 Lower / Upper Cont.

149450.40 73.936 0.1134 29.2193 lee Condoneer 26008.84 17.555 0.0364 29.2300 TOTAL 175459.24

[

163 21:05:07 Lower / Upper Cont.

149448.63 73.939 0.1139 29 21C6 Ice Condoneer 26009.56 17.557 0.0357 29 2301 TOTAL 175458.19 164 21:20:08 Lower / upper Cont.

149438.54 73.968 0.1138 29 2191 lee Condoneer 26008.92 17.564 0.0354 29 2295 TOTAL 175447.46 j

165 21:35:08 Lower / Upper Cont.

149441.71 73.980 0.1124 29 2100 Ice Condenser 26008.23 17.578 0.0352 29 2295 TOTAL 175449.94 I

166 21:50:C9 Lower / upper cont.

149438.43 73.975 0.1126 29 2133 leo Condenser 26007.14 ~

17.591 0.0350 20 22E8 1

TOTAL 175445.57 167 220509 Lower / Upper Cont.

149440.47 73.985 0.1111 29 21 "

Ice Condenser 26005.79 17.606 0.0350 202252 f

TOTAL 175446.25 t

168 22:20 10 Lower / upper cone.

149439.89 73.980 0.1120 29 219e ice Coneeneer 26006.46 17 606 0.0349 29 2239 TOTAL 175446.35 169 22:31:10 Lower / Upper Cont.

149438.58 74.003 0.1113 29 2125 i

les Condenser 26006.14 17.615 0.0348 29 es TOTAL 175444.72 I

170 22:36:10 tower / upper Cont.

149431.90 74.012 0.1116 29 2152 lee Condeneer 26005.40 17.619 0.0350 29 2250

[

TOTAL 175437.30 i

i k

I i

Containment Calculated Volucs

*i Cotowba Nuclear ShWlon Unit 2 RDG TIME MASS TEMP VAPOR PRESS PRESSURE 1

171 22:41:10 tower / Upper cont.

149430.87 74.011 0.1113 29.2175 ice Condenser 26004.26 17.630 0.0351 29 2280 TOTAL 175435.13 172 22:46:10 Lower / Upper Cont.

149438.86 74.002 0.1099 29 2172 lee Condenser 26003.51 17.640 0.0351 29.2279 TOTAL 175442.37 l

173 22:51:11 Lower / Upper Cont.

149437.93 73.993 0.1106 29 2172 lee Condoneer 26002.85 17.647 0.0351 29.2276 TOTAL 175440.78 i

174 22:56:11 Lower / Upper Cont.

149434.18-73.988 0.1114 29 2170 ace Condoneer 26001.94 17.656 0.0354 29 2274 TOTAL 175436.12 175 23:01:11 Lower / Upper Cont.

149433.67 73.992 0.1109 29.2166 Ice Condenser 26001.88 17.658 0.0353 29.2273 TOTAL 175435.55 176 23.06:11 Lower / Upper Cont.

149437.71 73.992 0.1101 29 2166 ice Condoneer 26001.07 17.666 2.0353 29.2269 TOTAL 175438.78 177 23:11:11 Lower / Upper Cont.

149430.32 74 010 0.1107 29 2167 ice Condoneer 26001.22 17.666 0.0353 29.2271 TOTAL 175431.55 178 23:16:11 Lower / Upper Cont.

149438.08 74.014 0.1087 29 2164 lee Condoneer 26000.77 17.671 0.0353 29 2269 TOTAL 175438.86 179 23:21:12 Lower / Upper Cont.

149431.48 74.010 0.1104 29 2166 Ice Condenser 26001.15 17.669 0.0353 29 2272 TOTAL 175432.63 180 23:26:12 Lower / Upper Cont.

149431.36 74.020 0.1098 29 2166 Ice Condenser 26000,95 17.675 0.0351 29 2272 TOTAL 175432.31 181 23:31:12 tower / Upper Cont.

149445.18 74.009 0.1076 29.2165 lee condenser 26000.77 17.677 0.0351 29.2270 TOTAL 175445.96 182 23:36:12 tower / Upper Cont.

149424.25 74.039 0.1098 29.2162 f

lee Condenser 26000.51 17.678 0.0351 29 2267 TOTAL 175424.76 183 23:41:12 tower / Upper Cont.

149430.13 74.029 0.1072 29 21c2 ice Condenser 26000.81 17.675 0.0350 29 2268 j TOTAL 175430.94 184 23:46:12 tower / Upper Cont.

149428.22 74.037 0.1094

.29.2165 Ice Condenser 26000.69 17.675 0.0351 29 2269 ~

TOTAL 175428.91 155 23.51:13 tower / Upper Cont.

149435.40 74.020 0.1091 29 2167,

ice Condenser 26000.54 17.675 0.0355 29 22'O !

TOTAL 175435.93 I

Containm:nt Calculated Voluss Cotowtm Nuclear Station Unit 2 RDG TIME MASS TEMP VAPOR PRESS PRES $URE 186 23:56:13 -

Lower / Upper Cont.

149431.00 74.035 0.1093 29.2168 f

ice Condenser 25999 98 17.681 0.0359 29 2272 TOTAL 175430.99 187 00 01:13 Lower / Upper Cont.

149434.94 74 027 0.1093 29.2171 ice Conderner 25999.40 17.683 0.0366 292274 TOTAL 175434.34 188 00:06:13 Lower / Upper Cont.

149427.94 74.059 0.1090 292172 t

Ice Condenser 25998.73 17.685 0.0370 292271 TOTAL 175426.68 l

189 00:11:13 Lower / Upper Cont.

149427.37 74.055 0.1088 292167 Ice Condenser 25997.75 17.688 0.0379 29 2271 TOTAL 175425.12 i

190 00:16:13 Lower / Upper Cont.

149423 23 74.048 0.1000 292166 I

Ice Condenser 25996.94 17.692 0 0384 29 2270 TOTAL 175420.18 191 00.21:14 Lower / Upper Cont.

149426.62 74.060 0.1084 29.2164 Ice Condenser 25997.04 17.697 0.0379 29.2268 TOTAL 175423.66 192 00:26:14 tower / Upper Cont.

149424.75 74.057 0.1091 29.2166

'I ice Condenser 2599727 17.702 0.0372 29.2268 i

TOTAL 175422.02

[

193 00-31:14 Lower / Upper Cont, 149424.92 74.061 0.1086 29.2163 i

lee condenser 25997.52 17.707 0.0367 292268

-[

TOTAL 175422.44 l

194 00:36:1.4 tower / Upper Cont.

149428.30 74.054 0.1085 292165 ice Condenser 25997.76 17.707 0.0364 292267 TOTAL 175426.06 l

195 00:41:14 tower / Upper Cont.

149428.27 74.064 0.1077 29.2163 lee Condenser 25997.60 17.711 0.0360 29 2265 L

TOTAL 175425.87 196 00:45:20 tower / Upper Cont.

149427.98 74.065 0.1080 29.2166 5

les condenser 25997.94 17.714 0.0357 292267 TOTAL 175425.92 r

197 00:50.31

' tower / Upper Cont.

149428.73 74.058 0.1079 29 2162

'k ice Condenser 25997.82 17.714 0.0356 292264

}

TOTAL 175426.54 198 01:00:21 tower / Upper Cont.

149429.04 74.061 0.1078 29.2163.

lee Condenser 25997.47 17.727 0.03S4 29.2266 TOTAL 175426.51 i

1

Containment Mass Cotowba Nuclear Station Urdt2 176000 175950 I g

175000 -

M si 175850

[~

uSem 175750 f_

t

-;g b

175700 m

\\.

uss50 sNs n33m

'%f k

175550 is.,

d jx uS5m -

. y' +t PW -

175450 ih

} ;rejy. -.

- -____ _._,-.~ ~ m 0

2 4

6 8

10 12 14 16 18 20 Time - Hotss

6

'p 0

7 4

1 8

5 2

9 6

3 0

e 6

5 5

5 4

4 4

3 3

3 3

7 7

7 7

7 7

7 7

7 7

7 r

u t

ru

~

a ta r

e.r e

p p

m e

m.T

. 0 e

2 g

e a

T e

r v

e A

g.t n

a.C i 18 o

r r

A.

N e.p e v

p re w

1 6

t o

+

~

n l

o C

re t

14 p

p Un

/o i

rt a

t 2

eS i

1 s

wa r

r u

e o

ol H

c L u N

e

&c lm u

i d

r0 1

etu r o uC ss e

r 8

P e

g h.

a

• • a b.e i 6 re v

reu 3,

A r

[

• e

&4 s

s e

P 5,

4 t

o n

g o

o

~

re C

Av r

[

4,

~

tn e

o C

p 2

re p

p p

U N

/r re e

w

, i.

o

- 0 L

i ', '

w I

o 8

6 4

2 0

8 6

4 2

0 3

3 3

3 3

2 2

2 2

2 L

9 9

9 9

9 9

9 9

9 9

2 2

2 2

2 2

2 2

2 2

P8,G

1 i

j e

h t

f

. f I

i i

S.

i u

e e

M

-l ub u

O 2

-i 0.

O>

c e$

12 l

0)5 i

0 L

=

. #1 E

-l R-FR'

-l

.J F

C O

O 1

w

=

i Q.

Q.

D i

h e-

'I k

h O

a l

i

.N f

a o

3 g

i i

R 8

S o

p 0

pC M'

5

~

~

~

N Y

d y

U 6

P Nw 8

l

?

w.

e_w. p i

l t

.h r

i i

1

{

F e

. ~c w

c

)w en

.f l

ub l 3 l

w O

Q.

.)

i 0

> ]8

_ ~

I

.y l a

=

O a

i

- e"$$

,c-'.$

I t

r-t

(

l-

.[

ms t

eu i

e i

1 C

y C

4 O

L 0

-i -4 S

U i,

i y

.n i

t f

o i

i i

i i

j a

E a

8 a

a 8

5.

e e

e e

e e

e c

l, 1 e4 O

/

i

-r02 8

t 1

t 6

n 1

i o

P w

e r4 1

D s

s x

g n

aio rt a

2 eS t

t 1

s r

s va t

o Ale 2

~

H ct

~

uin

~

.NU e

tnb im a

T 0

ow 1

1 o

Ct o

C r

e pp 8

U

/re w

o r

6 L

\\

4

/

2 0

0 9

7 6

4 3

5 4

4 4

4 4

1 0

8 7

5 4

4 3

3 3

p

Ice Condenser Average Dew Point Catawba Nucleot $ lotion Unit 2 40 37 34 -

31 -

28 -

25 -

22 -

19 -

16 -

13 -

/

10

---

r-i i

0 2

4 6

8 10 12 16 18 20 Time - Hours

..~

Ice Condenser Average Pressure & Ice Condenser Average Temperature Cotowbo Nuclear Station 29.40 18.0 i

29.38

- 17.8

,. * ^ * "

29.36 -

~'

- 17.6 29.34 -

- 17.4 29.32 -

- 17.2 P

29.30 -

- 17.0 s

i p

N a

29.28 -

/

- 16.8

/

8 29.26 -

- 16.6 29.24 -

N

- 16 4 29.22 -

10 2 29.20 a 16.0 0

2 4

6 8

10 12 14 16 18 20 Time - Hours

,..-..---,-....,.,._a_.-.._.,.---.-..-........-..,._.----

f Cataw ba Ur.

I APPENDIX B Integrated Leakage Rate Test Data and Graphs Reading No.198 to 230 Repons:

BN-TOP-1 Total Time Test Termination Criteria Mass Point Termination Criteria (Extended ANS Method)

Total Time Leak Rate Analysis Mass Point Leak Rate Anslysis Containment Calculated Values by Reading No.

Graphs:

Total Time Leak at UCL and Calculated Total Time Leak Mass Point Leak at UCL and Mass Point Leak Containment Mass Average Pressure Average Vapor Pressure and Average Dew Point Lower & Upper Containment Ice Condenser i

Average Temperature Lower & Upper Containment Ice Condenser i

J

BN-TOP-1 Termination Crit ria

,l Colowbo Nuclear $1cean i

r Unli2 I

f BN-TOP-1 Terrrunction Criteno Evoluotion for Reading # 230 f

1. The Trend Report based on Total Time calculations shall indicate that the mognitude of the coiculated look rate is tending to stabine at a value less than the maximum allowable leak rate (<.75Lo).

Required Vobe:0.225000 %/doy Actual Value:0.071531 %/ day f

^ I (Note: The mognffude of the calculated leak rote moy be i

increasing slign:ly asit tends to stabius. In this case the overage rate of InCreose of the ColCulated leak rote shc8 be determined from the occumulated data over the lost five hours or lost twenty dato points, whichever provides the most points. Using this overage rote. the calculated leak rote con then be linsorfy extropolated to the 24th hour dato point.

l If this extropolated value of the calculated leak rote exceeds I

75% of the maximum allowoble leak rote (La) then the leck rote I

test is continued.)

y t

Required Value: 0.225000 %/dov Actual Value:0.058955 %/doy

2. The end of test upper 95% confidence limtt for the calcutoted I

look rote based on Total Time calculations shall be less than f

the maximum odowable look rote (<.75Lo).

k Required Volue: 0.225000 %/ day Actud Votue: 0.145586 %/ day

?

I

3. The mean of the measured leak rates based on Totd Time -

l Calculotbns over the lost five hours of test or lost twenty dato points, whichever provides the most dato. Shall be less than the f

maximum allowoble leak rote (<J5Lc).

Required Value: 0.225000 %/doy Actud Value: 0.098515 %/ day

4. Data shou be recorded of opproximotely ecuoiintervats and in no cose of intervois greater than one hour.

1 Required IIntervo!: <=1 hr Maximum Actud intervd: 0.25 hr

.5. At least twenty (20) dato points shou be provided for proper

{

statisticd ondysis.

~f Required 8 Doto Points: >=20 Actud Data Points: 33 i

6. In no cose shot the minimum test durotton be less than six (6) hours.

. Ii f

Required Minimum Durotton: 6 hr Actual Duration: 8.0 hr

.t l

. t I

1

?

i i

j

,.o

Mass Point Termination Critoria Catawba Nuclear Stat 6on Unit 2 RDG TIME MP UCL Curv 11 Curv 111 Curv 12 Scot 21

%/ day 198 0.00 0.0000 0 0000 199 15.18 0.00CD 1.0000 200 30.18 0.2887 1 0989 201 45.20 0.3039 0.0407 23.2947 195 8370 1.0756 202 60 20 0 1957 0ASIO 15.0674 100.7222 129B6 203 75 22 0.1540 0.1055 6.4764 42.3312 1.5825 204 90.22 0.1537 0.0030 0.5706 4.0152 1.5657 205 105 23 0.1286 0.3036 4 0105 24.8232 1.7917 206 120.23 0.1031 1 3596 6.0312 32.8449 1.9B36 207 135.25 0.1050 0 1905 2.3100 13.121S 2.041 B 208 150.25 0.1239 0 0235

-0.7570 4.6948 1.7004 209 165.27 0.1116 0 0037 0.2294 1.3779 1.9103 210 180.27 0.1218 0.1066

-1.0313 6.5596 1.7555 211 195.2B 0.1217 01838

-1.0575 6 B530 1.7B54 212 210.28 0.1106 0 0026 0.1165 0.7195 19326 213 225.30 0.1115 00124

-0.2081 1.3069 1.9400 214 240.30 0.1234 0 3467

-1.0105 6.7045 1 7343 215 255.32 0 1294 0 7770

-1.2777 8.7936 1 6661 216 270 32 0 1253 04230

-0B377 5.7069 1 72:6 217 255 33 0,1203 O X 53

-0.4130 2.7626 179a0 218 300.33 0.1166 0 0314

-0.1808 1.1959 1S539 219 315.35 0.1127 0 0005 0 0206 0.1345 19iB4 220 330.35 0.1154 00520

-0.1836 1.2190 1 8768 221 345.37 0.1155 0 0946

-0.2167 1.4477 1 8789 222 360.37 0.1151 0 1126

-0.2080 1.3938 1.BES3 223 375.38 0.1116 0.0004

-0.0113 0.0744 1.9426 224 390.40 0.1071 0.1665 0.2280 1.4600 2.0103 225 405.40 0.1051 0.2632 0.2562 1.6397 2 0531 226 420.42 0.1010 0.7612 0 4093 2.5686 2.1253 227 435.42 0.0992 08975 0 4000 2.4959 2.1701 228 450 43 0.W58 1 5584 0.4861 2.9858 22440 229 465.45 0.0934 2 0091 0.5004 3.0454 2.3074 230 480.45 0.0001 3.0171 0.5674 3.4011 2 35cB l

l

Tctal Time Leak Rota Analysis Catowba Nuclect Station Unit 2 RDG TIME GAINUTES)

MEASURED LEAK (WT CALCULATED LEAK (WT UCL LEAK (WT %/ DAY)

%/ DAY)

%/ DAY) 198 0 00 109 15.18 0.247B52 200 3018 0237567 0.237567 201 45 20 0.1343 4 0149856 0 51$984 202 60 20 0 109089 0104036 0243432 203 75.22 0 118604 0092457 0.219658 204 90.22 0.140079 0.D99023 0.237634 205 105 23 0.082248 0.077142 0.100975 206 120.23 0.050902 0 051513 0 14?168 207 135 25 0.102204 0.054886 0161592 208 150 25 0.129641 0.067445 015S000 209 165.27 0 083148 0.062146 0 174753 210 180.27 0.124261 0.070811 0 186729 211 195.28 0.111572 0.074169 0187598 212 210.28 0 074748 0.067593 0.174518 213 225 30 0.iD6800 0.070300 0.175411 214 240 30 0 133475 0 078903 01865 6 r

215 255 32 0 129245 0.0B5019 0192025 216 27032 0 103324 0.084841 0 155132 217 2E5.73 0 005769 0.083320 0.152c45 218 300.33 0.097593 0.082483 0.178055 219 315.35 0 093735 0.081171 0.174675 220 330.35 0116B46 0.084054 0.176405 221 345.37 011C035 0.085490 0.176024 222 360.37 0.108101 0.086474 0.175152 223 375.38 0 091481 0.084868 0171223 224 390 40 0.080786 0.081960 0 166105 225 405 40 0 003442 0.081234 0.163526 226 420.42 0.077800 0.078515 0.155E56 227 435.42 0.089779 0.077723 0.1564S3 228 450.43 0.076915 0.075422 0.152476 229 465.45 0 081368 0.073955 0.149508 230 480.45 0.071739 0.071531 0.145556 f

Moss Point Look Rot.3 Analysis c

- si Une2 RDG 11ME (MINUTES)

NCitM. MASS MEASUREL LEAK (WT UCL LEAK (WT %/ DAY)

%/ DAY) 198 0.00 1.000000 199 15.18 0.999974 0247B52 200 30.18 0.999950

-0237588 02SS689 201 4520 0 999958 0.143775 0.303890 -

l 202 6020 0.999954 0.103528 0.195693 i

f 203 7522 0.999938 0.099063 0.153999 5

204 9022 0.999912 0.113358 0.153690 205 10523 0.999940 0.087806 0.12B596

.l 206 12023 0.999957 0.055831 0.103051 207 13525 0.999904 0.068791-0.105033 E

208 150.25 0.999665 0.068217 0.123914

?

209 16527 0.999905 0.081344 0.111581 210 1B027 0.999844 0.093518 0.121815 211 19528 0 999849 0.097336 0.121704 l

212 21028 0.999891 0.087282 0.110$37 I

213 225.30 0 999833 0.090665 0.111527 l

214 240,30 0 999777 0.102041 0.123392 j

215 255.32 0.??9771 0.109161 0.129371 216 270.32 0999506 0.107205 0 125324 217 255.33 0 999810 0.103673 0.12C3C4 i

218 300.33 0.999796 0.101430 0.116597-l 219 315.35 0999795 0.098738 0.112748 l

220 330.35 0.999732 0.102164 0.115373 221 345.37 0.999736 0.103382 0.115520 222 360.37 0.999729 0.103963 0.115122

.i I

223 375.38 0.999762 0.100903 -

0.111620 6

224 390.40 0.999781 0.096192 0.107133 I

225 405.40 0.999737 0.@ 4833 0.105064 l

226 420.42 0.999773 0.090705 0.101G47 l

227 435 42 0.999729 0.089508 0.099219

,j 228 450.43 0.999759 0.086195 0.095B33 229 465.45 0.999737 0.084198 0.003433

[

230 480.45 0.999761 0.080679 0.090134 I

I i

f I

i t

I i

l i

e t

l k

Containment Calculated Valuas Catawba Nuclear $8afton Urs 2 I

i RDG TIME MASS TEMP VAPOR PRESS PRESSURE 148 01:00:21 Lower / Upper Cont.

149429.04 74.061 0.1078 292163 lee condoneer 25997.47 17.727 0.0354

-292266 TOTAL 175426.51

)

109 01:15.32 Lower / upper Cont.

149424.79 74 OB6 0.1075 29.2166 Ice Condenser 25997.13 17.737 0.0354 292269 TOTAL 175421.92 l

200 01:30.32 Lower / Upper Cont.

149421.B3 74.104 0.1071 292165.

l lee Condonner 25995.95 17.757 0.0355 29 2269 TOTAL 175417.77 l

201 01:45:33 Lower / upper Cont.

149424.80 74.087 0.1067 29 2158 lee Condonner 259G4.30 17.774 0.0354 29 2260 TOTAL 175419.11

+

202 02:0033 Lower / Upper Cont.

149424.68 74.096 0.1063 292159 les Condenser 25903.77 17.780 0.0355 29 2258 TOTAL 175418.44 i

203 C2:15:34 Lower / Upper Cont.

149422.42 74.111 0.1061 20 2161 Ace Condenser 25993 22 17.782 0.0363 29 22tl TCTAL 1754154,4 204 C2:30:34 Lower / Upper Cont.

149419.39 74.128 0.1057 29.2160 fee Condense.

25991.72 17.786 0.0373 2922.58 TOTAL 175411.11 205 C2:45:35 Lower / Upper Cont.

149424.58 74.104 0.1053 29 2153 Ice Condoneer 25991.38 17.793 0.0371 29 2255 l

TOTAL 175415.96 4

206 0300:35 Lower / Upper cont.

14942726 74.108 0.1052 29 2159 i

Ice Condoneer 25991.78 17.815 0.0357 29 2260 TOTAL 175419.04 207 03:15:36 Lower / upper Cont.

149417 27 74.162 0.1048 29 2115 Ice Condenser 25992.39 17.821 0.0355 29 22 B TOTAL 175407.67 1

208 03:30:36 Lower / Upper Cont.

149412.64 74.165 0.1047 29 2157 Ice Condenser 25990.13 17.651 0.0355 29 2261 1

TOTAL 175402.78

)

209 03:45:37 Lower / upper cont.

149420.90 74.141 0.1042 292'5e ice Condenser 25988.66 17.874 0.0351 29 2257 TOTAL 175409.77 210 04:00:37 Lower / upper Cont.

149411.05 74.182 0.103B 29 215.:

Ice condenser 25968.17 17.883 0.0350 29 2254 TOTAL 17539922 211 04:15:38 Lower / Upper cont.

149412.09 74.177 0.1036 29 2152 leeCondenser 25987.87 17.B88 0.0350 29 2253 TOTAL 175399.96 212' 04:30:38 Lower / upper cont.

149419.13 74.166 0.1033 292:57 lee Condenser 2598823 17.887 0.0348 29 2255 i

TOTAL 175407.36 i

l i

Containment Calculated Volus ccnowbo Nucisor Station l

Unit 2 RDG TIME MAS $

TEMP VAPOR PRESS PRESSURE 1

213 04:45.39 Lower / Upper Cont.

149410.39 74.193 0 1030 292151

)

les Condenser 25986 80 17.898 0 0351 29 2249 TOTAL 175397.19 214 05M39 Lower / Upper Cont.

149401.70 74215 0.1028 29 2144 lee Condenser 259B5.73 17.905 0.0353 29.2243 TOTAL 175387.43 215 05:15:40 Lower / Upper Cont.

149401.25 74.220 0.1024 292141 i

lee Condoneer 25985.05 17.915 0.0354 292242 TOTAL 1753B6.31 216 05:30:40 Lower / Upper Cont.

149408.04 74.199 0.1022 29 2142 lee Condoneer 25984 44 17.926 0.0352 29 2240 TOTAL 175392.48 217 05:45.41 Lower / Upper Cont.

149408.06 74217 0.1019 29.2149 ice Condonner

_25985.16 17.930 0.0351 29.2249 TOTAL 175393 22 218 06 00.41 Lower / Upper Cont.

14940744 74 223 0.1016 29 2148 ice Condonner 25983.16 17.939 0 0365 292 47 TOTAL 175390.80 i

219 06:15-42 Lower / Upper Cont.

149409.53 74220 0.1014 292147 Ice Condenser 25980.97 17.947 0.0385 29 2247 TOTAL 175390.50 220 06:30:42 Lower / Upper Cont.

149397.50 74262 0.1011 29 2145 Ice Condenser 25981.98 17.960 0 0366 29 2247 TOTAL 175379.48 221 06:45:43 Lower / Upper Cont.

149397.79 74275 0.1007

-29 214S lee condoneer 25982.43 17.970 0.0358 292251 TOTAL 17538021 222 0700:43 Lower / Upper Cont.

149396.55 74.275 0.1005 292143 see Condenser 25982.50 17.969 0.0355 29 2247 TOTAL 175379.05 223 07:15:44 Lower / Upper Cont.

149402.42 74256 0.1003 29 2143 Ice Condesor 2598225 17.971 0.0356 29 2247 l

TOTAL 175384.67 224 07:30:45 tower / Upper Cont.

149405.41 74263 0.1000 29 2149 '

ice condenser 25982.68 17.978 0.0354 29 2254 TOTAL 175388.09 225 07:45:45 Lower / Upper Cont.

149398.43 74286 0.0996 29 2144 ice Condenser 25981.93 17.986 0.0351 29224B TOTAL 175380.36 22$

08:00:46 Lower / Upper cont.

149405.30 74257 00994 20 2141 ice Condenser 25981.36 17.986 0.0353 292243 TOTAL 1753B6.66 I

227 08:15:46 Lower / Upper Cont.

149398.50 74293 0.0973 29 2145 lee Condoneer 25980.38 17.999 0.0363 29 2250,

TOTAL 175378 89 i

Containm:nt Calculatcd Valucs Catombo Nuclear Station Unit 2 RDG TIME MASS TEMP VAPOR PRESS PRESSURE 228 08:30:47 Lower / Upper Cont.

149406 70 74.270 0.0989 29.2145 l

Ice Condenser 25977.60 18.022 0.0379 29.2249 i

TOTAL 175384.30 229 08:45:48 Lower / Upper Cont.

149403 41 74.264 0.0988 29.2134 ice Condenser 25976.96 18.033 0.0369 29.2238 TOTAL 175330.37 j

230 09:00:48 Lower / Upper Cont.

149406.71 74.273 0.0984 29.2144 lee Condenser 25977.81 18.053 0.0359 29.2250 TOTAL 1753u.62 l

1

9 Y

t h

^

?

i I

h r

b 6

h 0

4 e

e t

h 5

e t

3 f,

i f

- ?

i 4

).

r

)

I e

4 6

9 i

t a

?

4

.1

' 1

\\

a l

l 9

t '

[

'.[-

t k

8 a

e m

~

L e

im T

la to w

t de

• ta

, 7 lu e

c w

N laC h

k i.

a w

e

=

d.

e L

e h

6 m

w i

T e

l a~

t o

h T'

5 d

e w

.1 t

==

2 an o

e l

i

=

uta m

=

s

=

t e

r u

e cS a h

lo r

a l

y4 f

ale 2 Cct e

m uin NU i

T

&b a

\\

w L a h

t Ca W

C U

1 3

ta

=

a.

=

k s

=

a e

w=

=

L sa w

e m

2 iT h

l a

==

~

t o

T L

C w

U e

I f

m.

o

=

b e.

a a.

k oo a

l e

im

.Se T

8 4

la t

i_

i O

0 5

0 5

0 5

0 3

(

4 3

3 2

2 1

1 0

l 0

0 O

0 0

0 0

0

%Id

~

j;If

!ll f'

Moss Point Leak at UCL & Moss Point Leak Colowbo Nuclect StoHon Unit 2 0.40 1

L 0.35 -

s 0.30 -

0.25 -

7

/

d ' O.20 -

O Y.

0.15 -

e

^

0.10 -.'

~~ ~

~-

~

~

O r

.i 0.05 -

f

,?.

.-._7..__.._-.

t i

o g)

O' 1

2 3

4 5

6 7

8 Time - Hours

Containment Mass Cotowba Nuclear Station Unit 2 17M30 175425 175420

/

t

,7u,5 175410

\\y/

A 7

L

,7-fis 175375

.* 4

%~f -

175390 175385

/ /V 175380

&~

ll 175375 175370

---

r 0

1 2

3 4

5 6

7 8

Time - Hours

. ~ _.. _..

Lower / Upper Cont. Average Pressure & Ice Condenser Average Pressure Cotowba Nuclear Station l we / Upper Cont Averoge Pressure Ice Condenser Average Pressure 27 29.26 -

29.25 -

29.24 -

29.23 1

~

~ -

~ ~

P 29.22 -

o

~

~

29.21 -

29.20 -

29.19 -

29.18 -

1 29 U i

r---

i 0

.1 2

3 4

5 6

7 8-Tirne - Hours

-._,--,.__,_.-,,..---..__s...,-...,.

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

84 k

O O

e9 M

O c

n.

c f

9 a

1 N

I I

o O

SO o

O I4 O

I' "

m l

/

u a

e C

5 O

8 O

t G

Q.

O.

DD G

M O.6 as Cl$

f sh

-,=

)jg w

mE n@b I

f k O

a. u O

n Q.

O e

e G

g O

o c

n S

5 s.

'f f.

C 3

0 4

O 8

m-CL k

l Q.

e 3

s D

e.

"t

-- o 3

2 2

3 2

2 o

S 8

B 8

O o

d d

6 6

6 6

o e

o o

a c.

<n C

I

h o

l q

9 9

9 q

9 q

q o

e c-

• 2 2

3 2

2 U

U 9

9

?

e t

I t

y t

t i

t J

C c

m

-3 Y

O,.

3 I

3

. b.,

l

~

G Q

.E

-~

G r

G O

e m

E S

2 o

us C

G

'O t

C O

.. ~ -

.o O

I t

@8

_0 %

e

@1 k'

2

,5 3

3 S

s m

O t

u ti t

gL, u i

O m

Q.

0 t

(

e O

O E

0

~

r C

g y

m

~

vi g

C g

~

-V C

o li O

g O

t e

O 2

y

=

f a

a 3

5 a

8 a

a 5

a O

N CO N

e e

e e

e e

e e

e e

CL e - O i

Lower / Upper Cont. Average Temperature Cotowba Nuclear Station Unit 2 -

75.0 74.8 -

74.6 -

74.4 -

74 2 ~

f' p

74.0 -

73.8 -

73.6 -

73.4 -

t 73.2 -

73.0 -

i 0

1 2

3 4

5 6

7 8

Time Hours

L Ice Condenser Average Temperature Cotowba Nuclear Station Unit 2 18 8 18.6 -

i 18.4 -

18.2 -

18.0 -

f

,,.8 -

17.6 -

17.4 -

i 17.2 -

i a -

17.0 -

16 8 i

e i

i O

1 2

3.

4 6~

O 7

0 Time. Hours

. ~ _ _.. _. -..._....,.._._..-__..._.._______..____:.

..... m --.-..~..

l Catawba Unit 2 APPENDIX C Verification Controlled Leakage Rate Test Data and Graphs i

Reading No. 239 to 277 l

Repons:

TotalTime Leak Rate Analysis Mass Point I2ak Rate Analysis Containment Calculated Values by Reading No.

Graphs:

Calculated Total Time Ixak I

Mass Point Leak Containment Mass Average Pressure Average Vapor Pressure and Average Dew Point Lower & Upper Containment Ice Condenser Average Temperature Lower & Upper Containment Ice Condenser

Verification Test Tctal Time Look Rota Analysis cm -smon unt 2 RDG TIME Newm Moss TT Meas IT Cole

%/ day

%/ooy i

239 0.00 1.000000 0.000000 0.000000 240 10.00 1 001108 4 109582 0.000000 241 24.43 0.999903 0.568849 0.568849 242 34.45 0999867 0.555943 0.667114 t

243' 44.45 0.999907 0.300636 0 528686 244 54 45 0 999879 0.319792 0 464382 245 64 47 0.999880 0.268146 0.399159 246 74 47 0.999829 0.330997 0.386241

^

247 B4 47 0 999832 0.285885 0 358705 248 94A8 0 999771 0.348766 0.362801 249 10428 0.999738 0.361220 0.369448 f

250 114.48 0.999743 0.323259 0.362025 251 124.50 0.999738 0.303130 0.350409 252 134.50 0 999705 0.315663 0.344802 253 144.52 0.999647 0.351274 0.349395 254 154 52 0.999666 0.311305 0.343339 a

255 164.53 0 999603 0.347545 0.346603 256 174.53 0.909616 0.316982 0.342631 257 1B4.53 0.999584 0.324629 0.340870 258 194 55 0.999571 0.317708 0.338026 259 204.55 0.999534 0.328047 0.337517 260 214.57 0 999542 0.307679 0.333461 L

261 224.57 0999550 0.258702 0.326779

[

262 234.57 0.999516 0.297118 0.322408 263 244.58 0.999407 0.349414 0.326794 264 254.60 0.999422 0.326775 0.327191 265 264.60 0.999390 0.331709 0.328243 266 274.62 0.999367 0.331875 0.329181 267 284.62 0.999387 0.310090 0.327057 l

268 294.62 0.999354 0.315695 0.325903 269 304.63 0.999322 0.320421 0 325471 270 314.63 0.999306 0.317752 0.324755 271 324.63 0.999295 0.312820 0.323524 l

272 334.65 0.999250 0.322739 0.323562 273 344.65 0.999234 0.319891 0.323275

~

274 354.67 0.999259 0.300766 0.320723 275 364.68 0.999165 0.329702 0.321870

(

276 374.68 0.999139 0.330763 0.322861 277 364.70 0.999133 0.324684 0.32312B h

I

Vcrification Test Moss Point Look Rota Analysis

1 c-uw s UnN2 l

RDG TIME Peorm Moss MP Leak

%/ day 239 0.00 1.000000 0.000000 240 10.00 1.000008

-0.109582 241 24.43 0.999903 0.602061 242 34.45 0.999867 0.628083 243 M.45 0.999907 0.430158 I

2M 54.45 0.999879 0.364049 245 64.47 0.999880 0.302351 246 74.47 0.999829 0.307913 a

247 84.47 0.999832 0.288585 t

248 94.48 0.999771 0.308567 249 104.48 0.999738 0.327070 250 114.48 0.999743 0.323315 251 124.50 0.999738 0.313092 252 134.50 0.999705 0.310942 253 1M.52 0.999647 0.322083 254 154.52 0.999666 0.317012 255 164.53 0.999603 0.324776 256 174.53 0.999616 0.321516 i

257 184.53 0.999584 0.321280 258 194 55 0.999571 0.319268 259 204.55 0.999534 0.320M9 260 214.57 0.999542 0.316334 261 224.57 0.999550 0.308541 262 234.57 0.999516 0.304273 263 2M.58 0.999407 0.312525 264 254.60 0.999422 0.31M75 265 264.60 0.999390

-0.317146 266 274.62 0.999367 0.319428 267 284.62 0.999387 0.317126 268 294.62 0.999354 0.316261 269 304.63 0.999322 0.316412 270 314.63 0.999306 0.316086 i

271 324.63 0.999295 0.314976 272 334.65 0.999250 0.315699 273 3M.65 0.999234 0.315874 274 354.67 0.999259 0.313007 i

275 364.68 0.999165 0.314999 276 374.68 0.999130 0.316942 277 384.70 0.999133 0.317733 i

1 Containm:nt Calculated Values Ccnowba Nuclear $ladon l

Unit 2 RDG TIME MASS TEMP VAPOR PRESS PRESSURE i

i 239 10:35:53 Lower / Upper Cont.

149368.60 74.353 0.0967 29.2004 i

ice Condenser 25971.04 18.106 0.0351 29 21c8

~

TOTAL 175339.72 240 10:45.53 Lower / Upper Cont.

149371.15 74.326 0.0967 29.20B4 Ice Condenser 25969.91 18.108 0.0351 29.2187 TOTAL 175341.06 241 11:00:19 Lower / Upper Cont.

149354.91 74.358 0.0965 29.2068 lee Condoneer 25967.59 18.118 0.0353 29.2173 TOTAL 175322.80 i

242 11:10:20 tower / upper Cont.

149349.07 74.364 0.0962 20.2057 Ice Condenser 25967.34 18.112 0.0353 29.2163 TOTAL 175316.40 243 11:20:20 tower / Upper Cont.

149356.27 74.343 0.0961 29 205B Ice Condenser 25967.18 18.113 0.0353 29.2161 i

TOTAL 175323.45 244 11:30 20 Lower / Upper Cont.

149352.24 74.346 0.0960 20 2051 I

Ice condenser 15966.28 18.121 0.C353 29 2156 TOTAL 175318.52 245 11.40:21 Lower / Upper Cont.

149352.85 74.338 0.0959 29 2C47 ice Condoneer 25965.83 18.121 0.0351 29 2149 TOTAL 175318.67 246 11:50:21 Lower / Upper Cont.

149344.91 74.365 0.0957 29 2C44 i

sco Condenser 25964.80 18.127 0.0358 29 2'49 TOTAL 175309.71 247 12:00:21 Lower / Upper Cont.

149347.18 74,350 0.0955 29 2CM ice Condoneer 25963.14 18.130 0.0371 29 2 ' da L

TOTAL 175310.32 248 12:10:22 Lower / Upper Cont.

149338.66 74.373 0.0955 29 2215 ice Condenser 25960.74 18.149 0.0382 20 : >J TOTAL 175299.60 249 12:20:22 tower / Upper Cont.

149333.54 74.392 0.0051 2;.

Ice Condenser 25960.23 18.155 0.0377 20 -

~!

TOTAL 175293.77 250 12:30:2'l Lower / Upper Cont.

149334.53 74.367 0.0951 2;.

Ice Condenser 25060.13 18.160 0.0367 2;.

TOTAL 175294.66 251 12:40:23 Lower / Upper Cont.

149333.71 74.367 0.0947 22, a Ice Condenser 25960.06 18.164 0.0360 20 ;.0 TOTAL 175293.77 252 12:50:23 Lower / Upper Cont.

149328.65 74.374 0.0948 2G.. )

Ice Condenser 25959.38 18.170 0.0357 20 TOTAL 175288.03 253 13:00:24 Lower / Upper Cont.

149318.55 74.411 0.0945 2; M Ice Condenser 25959.36 18.175 0.0354 20 TOTAL 175277.91 l

~

Containment Calculated Values Cotowbo Nuclear Slotton Unit 2 RDG TIME MASS

-TEMP VAPOR PRESS PRESSURE 254 13:10:24 tower / Upper Cont.

149322.79 74.397 0.0045 29.2007 Ice Condenser 25958.36 18.185 0.0355 29 2108 l

TOTAL 175281.15 255 13:20:25 Lower / Upper Cont.

149311.36 74A31 0.0943 29.2001 lee Condoneer 25958.74 18.172 0.0355 29.2105 - !

TOTAL 175270.10 256 13:30:25 Lower / Upper cont.

149314A6 74A11 0 0943 29.1996 !

Ice Condoneer 25957.90 18.179 0.0356 29.2100 TOTAL 175272.36 l

257 13:40:25 Lower / Upper Cont.

149310.14 74.420 0.0941 29.1990 1

les Condenser 25956.64 18.188 0.0355 29.2091 TOTAL 175266.78 258 13:50:26 Lower / Upper Cont.

149308.97 74 405 0.0940 29.1979 !

Ice Condoneer 25955A9 18.192 '

O.0355-29 2C80 TOTAL 175264A6 259 14 00:26 Lower / Upper Cont.

149303.58 74 407 0.0938 29 1967 t

ice Condenser 25954A3 18.196 0.0356 29 2071 TOTAL 175258.02 260 14:10:27 Lower / Upper Cont.

149305.36 74.399 0.0937 29.1966 [

Ice Condeneer 25953.97 18.200 0.0360 29.2073 '

TOTAL 175259.34 261 14:20:27 Lower / upper Cont.

149307A7 74.398 0.0934 29.1967 !

Ice Condenser 25953.31 18.1 %

0.0368 29.2071-TOTAL 175260.78 262 14:30.27 Lower / Upper Cont.

149303.34 74A07 0.0933 29.1963 i sco Condoneer 25951.52 18.200 0.0382 29 2067 TOTAL 175254.86 263 14AO:28 Lower / Upper Cont.

149285.83 74A45-0.0931 29 1947 l les Condenser 25949.84 18.213 0.0376 29 2051 TOTAL 175235.66 264 14:50:29 Lower / Upper Cont.

149288.87 74A26 0.0930 29,1942 l ice Condoneer 25949.55 18.228 0.0365 29.204o TOTAL 175238A2 265 1500:29 Lower / Upper cont.

149283.51 74435 0.0930 29.1936 Ice Condenser 25949.34 18.234 0.0360 29 2042 TOTAL 175232.85 266 15:10:30 tower / Upper Cont.

149279.60 74 454 0.0927 29.1935 ice Condoneer 25949.15 18.238 0.0358 20 2041 TOTAL 175228.75 267 15:20:30 tower / Upper Cont.

149282A4

- 74A32 0.0927 29.1920 lce Condonner 25949.82 18.217 0.0357 29 2033 TOTAL 175232.26 268 15:30.30 tower / Upper Cont.

149278.08 74.439 0.0924 29.1921 ice Condoneer 25948.39 18.230 0.0357 29203 TOTAL 175226 47

Catawba Unit 2 APPENDIX D Miscellaneous Information Graphs:

Average Pressure (Chronological Time Sequence)

Reports:

Configuration Data Sensor Information P

t b

v

' Lower / Upper Cont. Average Pressure Cotrywba Nuclear Stahon Unli2 32 30 Temperature Stabilization Verification Test T

T ND Containment Spray 23 Line B Pressurization ILRT Measurement 26 24 P

8 22 -

g Pressurization Depressurizationi 20 l

18 16 --

14

_-_7--

r..~ ~

q-- - -----

y~

y7 4 0

4 8

12 16 20 24 28 32 36 40 44 48 Ilmo - tiours

Configuration Data Catowba Nuclear Station Unli 2 Station Name - Cotowt>o Nuclet.t Station Unit Nome - Unit 2 Compartment 1 - Lower / Upper Cont.

Compartment 2 Ice Condenser Containment Volume = 1172618.00 cubic teet imposed Leak = 0.29748 %/ coy Lo (Lt) = 0.300 %/doy Test Pressure = 14.80 PSIG Compartment i Volume Fraction = 0.86567 Compartment 2 Volume Fraction = 0,13433 Total # Sensors = So Total # Press. = 3 Total # Dew Pt. = 6 Total # Temp. = 47 Comp.1 Total Sensors 44 - Press 2 Dew Poir'+ 5 Temp 37 Comp. 2 Toto! Sensors 12 - Press 1 Dew Point 1 Temp 10 Sto t Temp Stob Rdg

= 36. End Temo Stab Rdg

= 108 Start Leak Rote Test Rdg = 198. End teak Rote Test Rdg = 230 Start Vertt. Test Rdg = 237. End vertf. Test Rdc = 277 t

Row Data Flie - CNS20293.RDA Test Doto File - CNS20203.TDA.

• l

Sensor information CcWowba Nuclect Shmon UnN 2 Lower / Upper Cont.

Pressures NUM CHAN SERIAL VOL FRACT C0 C1 C2 C3 C4 1

1001 SNPRF40759 0.500000 0.0 1.0 l

2 1002 SNPRF40760 0.500000 0.0 1.0 l

Dew Points l

NUM CHAN SERIAL VOL FRACT CO C1 C2 C3 C4 j

1 1

SNPRF41101 0.156500 0.0 5000.0 l

2 2

SNPRF41102 0.156500 0.0 5000.0 3

3 SNPRF41103 0.229000 0.0 5000.0 1

4 4

SNPRF41104 0.229000 OD 5000.0 t

5 5

SNPRF41105 0 229000 0.0 50000 1

i h

Temperatures j

NUM CHAN SERIAL VOL FRACT CD C1 C2 C3 C4

{

1 101 SNPRF40121 0.016500

-408.62990 4.2167290 0.00191836 l

2 102 SNPRF40146 0.016600

-40829170 4 2114890 0.00195207

.J 3

103 SNPRF40149 0.016600

-408.9970 4 2239440 0.00187732 4

4 104 SNPRF40134 0.016600

-408A3490 4.2124350 0.00195137 5

105 SNPRF40161 0.016600

-408AB790

-4 2130740 0.00192354 '

I i

6 106 SNPRF40164 0.010200

-408.67140 4 2184910 0.00191446

'7 107 SNPRF40172 0.010200

-408.92020 4.2216210 0.00187524 8

108 SNPRF40131 0.010200

-408.86020 4.2220280 0.00191219 9

109 SNPRF40741 0.010200

-410.91670 4 2557330 0.00177455 10 110 SNPFR40140 0.016600

-415.52650 4.3442620 0.00132929 11 111 SNPRF40744 0.016600

-421.3190 4A500930

.0.00086886 12 112 SNPRF40152 0.016600 4 08.55520 4.2101920 0.00191637 13 113 SNPRF40126 0.016600

-408.92220 4.222380 0.001897 %

l

+

14 114 SNPRF40174 0.016600

-408A090 4.2096770 0.00193033 15 115 SNPRF40148 0.016600

-408.65240 4.2190480 0.00192272

'j 16 116 SNPRF40135 0.016600

-408.9440 4 2244420

.0.00189364 17 117 SNPRF40145 0.016600

-409.39730 4 2320340 0.00185750 18 118 SNPRF40156 0.003800

-408.59350 4 214210 -

0.00191360 j

19 119 SNPRF40136 0.003200

-408.32290 4 2127370 0.00194456 20 120 SNPRF40167 0.003600

-408.72930 4 2183320 0.00190023 i

21 121 SNPRF40160 0.003600

-40727330 4 2296740 0.00186045 t

i 22 122 SNPRF40391 0.013800

-408.51080 4 2148340 0.00192474 23 123 SNPRF40740 0.040500

-409.70710 4 2322020 0.00188870 l

24 124 SNPRF40124 0.030900

-409.04650 4 2244040 0.00190117 l

25 125 SNPRF40143 0.016700

-409.03310 4.2260050 - ' O.001BB570 1

l 26 126 SNPRF40742 0.013100

-414.17730 4.3155470 0.00149144 27 127-SNPRF40122 0.012500

-422.13490 4A696380 0.00075536 i

28 128 SNPRF40123 0.040500

-408.60850 4 21750 0.00192591

'{

29 129 SNPRF40129 0.040500

-408.95580 4 2214470 0.00189997 30 130 SNPRF40138 0.040500

-409.15460 4 2258840 0.00188314 31 131 SNPRF40120 0.040500

-408.54410 4 2162450 '

O.00193793 32 132 SNPRF40169 0.079000

-408.66690 4.2155340 0.00190349 33 133 SNPRF40142 0.079000

-408.56320 4 2154590 0.00193812 l

34 ~134 SNPRF40132 0.075600

-408.52070 4 2146660 0.00194594 l

35 135 SNPRF40117 0.075600 ~

-408.74710.

42170150 0.00192940 t'

36 136 SNPRF40168 0.065300

-408.60330 4.2156250 0.00192063 37 137' SNPRF40171 0.065300

-408A0620 4 2105550 0.00193378 I

.j

S:nsor Information Cokrwba Nuciocr Station UnR2 Ice Condenser Pressure NUM CHAN SERIAL VOL FRACT CO C1 C2 C3 CA 1

1003 SNPRF40761 1.000000 0.0 1.0 Dow Point NUM CHAN SERIAL VOL FRACT CD C1 C2 C3 C4 1

6 SNPRF41106 1.000000

-22.50 3125.0 '

Temperatures NUM CHAN' SERIAL VOL FRACT CD C1 C2 C3 C4 f

1 130 SNPRF40157 0.000000

-408.41120 4.2115390 0.00192392 l

2 140 SNPRF40154 0.000000

-411.74160

.4.2718740

' O.00164302 l

3 142 SNPRF40151 0.000000

-410.74850 4.2555690 0.00172052 -

l 4

144 SNPRF40119 0.000000

-413.52490.

4.3066460 0.00152238 5

146 SNPRF40133 0.000000

-421.52870.

4.4571950 0.00082750 6

148 SNPRF40165 0.200000

-409.31550 4.2268070.0.00187667 7

149

. SNPRF41125 0..M 4 08.62550 4.2100850 0.00196906 8

150 SNPRF40150 0.200000

-122.63770 4.4771530 0.00071576 9

151 SNPRF40386 0.200000 4 08.34760 4.210250 0.00193359 l

10 152 SNPRF403B2 0.200000

-410.77520 4.2561920 0.00173593 I

-)

?

I i

1 i

I I

1

i i

Catawba Unit 2 1

APPENDIX E Test Data Summary Repons:

Calibrated Instrument Data (by reading number)

I

Calibrated Instrum:nt Dato

{

Coiawba Nuch StoHon

]

Unit 2 1

Rooding # 198 - Feb 07 012.21 Pressures (PSIA) j Lower / Upper Cont.1 2 29.217 29.216 ice Condoneer 11 29.227 i

Dew Points (*F)

Lower /Uppor Cont.1 5 36.054 35.667 36 876 37.546 37.502 lee Condenser 1I 12.724 Temperatures (*O Lower / Upper Cont.1 10 70.199 76.277 75.302 76 967 76.964 73.528 73.998 74.779 74 882 B5.728 i

11 20 88.822 86.738 B5.056 78.082 77.617 77.91 77.674 73.194 76.738 74.211 21 30 72.966 68.007 75.51 72.758 73.129 73.561 74.424 71.876 72.217 72.519 31 37 72.576 72.372 72.474 72.319 71.92 72.282 72.241 ice Condenser 1 10 19 406 19.513 19 021 19.488 21.965 17.912 17.775 17 272 17.77 17.904 i

Rooding # 199 - Feb 07 01:15:32 Pressures (PSIA)

Lower / Upper Cont.1 2 29.217 29.216 ice Condenser 1I 29.227 Dew Points (*F)

Lower / Upper Cont.1 5 35 975 34.976 36 8 37 471 37 427 leo Condenser 1I 12.724 Temperatures (*F) j Lower / Upper Cont.1 10 70.209 76.295 75.302 76.962 76.969 73.524 73.984 74.769 74.882 85 202 11.20 88.794 86.789 85.051 78.11 77.668 77.966 77.67 73.218 76.844 74 225 21 30 72.98 67.989 75.794 72.767 73.097 73.538 74.424 71.89V 72.295 72 464 i

31 37 72.576 72.395 72.516 72.328 71.976 72.236 72.264 les Condenser 1 10 19.321 19.876 18.936 19.971 21.857 17.921 17.787 17.283 17.779 17 916 Rooding # 200 Feb 07 01:W.32

[

Pressures (P$lA)

Lower / Upper Cont.1 2 29.217 29.216 Ice Condenser 1I 29.227 Dew Points (*F) 4 Lower / Upper cont.1 5 35 897 35.978 36.64 37.398 37.348 ice Condenser 11 12.779 Temperatures (*F)

Lower / Upper Cont.1 10 70.25 76.291 75.307 76.98 76.997 73.514 74.026 74.797 74.928 M -:

+

11.20 88.845 86.817 85.111 78.04 77.547 77.929 77.711 73.213 76.622 t

21.30 72.957 67.989 75.566. 72.703 73.12 73.58 74.456 71.922 72.295 '. ~

31 37 72.618 72.34 72.757 72.319 72.055 72.259 72.287 ice Condenser 1 10 19.256 19.556 18.871 19 983 22.223 17.943 17.809 17.304 17.79 i

f i

l

(

i i

Calibrated instrument Data Catawbo Nuch Skalon l

Unit 2 I

i Pooding s 201 - Feb 07 01:45:33 i

Pressures (PSIA) i Lower / Upper Cont 1 2 29.216 29.216 Ice Condoneer 11 29.226 Dew Points (*O

{

Lower /Uppor Cont.1 5 35 821 33.711 36.561 37.313 37 269 les Condoneer 11 12.726 i

Temperatures rF)

[

Lower / Upper Cont.1 10 70.25 76.342 75.321 76.985 77.001 73.547 74.016 74.82 74.947 85.779 '

11 20 88 924 86.821 85.116 78 151 77.775 77.813 77.642 73.218 76.682 74.234 l

21 30 72.989 67.989 75.362 72.786 73.087 73.603 74.456 71.913 72.249 - 72.501 31 37 72.576 72.414 72.488 72.342 72.055 72.259 72.287 Ice Condoneer 1.10 19.332 19.717 18.829 20.142 22.02 17.974 17.809 17.326 17.801 17.G58,

Rooding # 202 - Feb 07 02T10:33 f

Pressures (PSIA)

Lower / Upper Cont.1. 2 29.216 29.215 ice Condenser 11 29.226 Dow Points CF) l Lower / Upper Cont.1. 5 35 667 36.136 36.486 37 235 37.188 ice Condonner 1I 12.778 I

i Temperatures CF)

]

Lower /Upcot Cont.1 10 70 25 76.342 75.344 76.994 77.024 73.621 74.063 74.82 74.966 85 788 11 20 88 873 86.812 85.148 78.087 77 538 77.804 77.781 73.222 76.765 74.243 21 30 72.98 68.002 75 631 72.735 73.106 73.626 74.456 71.945 72.272 72.528 31 37 72.613 72.423 72.409 72.351 72.055 72.245 72.287 lee Condenser I 10 19.556 20.231 18.84 19.616 21.835 17.974 17.818 17.335 17.833 17938 a

Reading # 203 - Feb 07 02:15:34 Pressures (PSIA)

Lower / Upper Cont.1 2 29.217 29.216 lee Condoneer II 29.226 Dew Points CF)

Lower / Upper cont.1 5 35.67 36.372 36 407 37.156 37.109 ice Condonner 11 13.218 Temperatures CF)

Lower / Upper cont.1 10 70.273 76.374 75.344 77.008 77.048 73.635 74.095 74.844 74.966 85.747 11 20 88.924 86.877 85.125 78.133 77.765 77.943 77.628 73.236 76.798 74 252 21 30 72.98 68.007 75.729 72.735 73.12 73 626 74.475 71.945 72.337 72 431 31 37 72.558 72.437 72.488 72.342 72.055 72.268 72.278 len Condenser 1 10 19.836 19.834 19.021 19 434 21.663 17.985 17.829 17.335 17 833 17 927 i

i

Calibrated Instrument Data Catawbo Nuclear Station

~

Unit 2 Rooding # 204 - Feb 07 02:30 34 Pressures (PSIA)

Lower / Upper Cont.1 2 29 216 29 216 Ice Condenser 1I 29 226 Dew Points CF)

Lower / Upper Cont.1 5 35.588 35.903 36.331 37 077 37.031 fee Condenser 1I 13.803 Tempe atures CF)

Lower / Upper Cont.1 10 70 297 76.36 75.367 77.073 77.057 73.677 74 072 74.867 74 979 S5 802 11.20 88.85 86.933 85269 78,151 77.747 78.073 77.716 73.245 76 854 74 266 21.30 72.998 68.002 75 687 72 842 73.129 73.645 74 466 71.955 72.337 72487 31.37 72 576 72 437 72.539 72.342 72.022 72.287 72 264 lee Condenser 1 10 19.997 19 437 19.237 19 392 21.76 17.974 17.829 17.347 17 833 17 947 Rooding # 205 - Feb 07 02 45:35 Pressures (PSIA)

Lower / Upper Cont,1 2 29 216 29.215 Ice Condenser 1I 29 226 Dew Points CO Lower / Upper Cont.1. 5 35.507 35.125 36.174 36 9c6 36 952 Ice Concenser 1I 13.668 Temperatures CD Lower / Upper Cont.1 10 70.306 76.36 75 399 77 059 77.08 73 635 74 049 74 853 74.959 e5.918 11.20 89.003 86.909 85.195 78 077 77.603 77.697 77.716 73 259 76.724 74 206 21.30 73 022 67.989 75 417 72.777 73.129 73.626 74.475 71.987 72.23 72 542 31.37 72.479 72.363 72.562 72.351 71.999 72.343 72.306 Ice Condenser 1 10 19.664 19.448 19.129 19.531 21.846 17.974 17.829 17.358 17,833 17 97 Rooding s 206 Feb 07 031Xr.35 Pressures (PSIA)

Lower / Upper Cont.1 2 29.216 29.215 Ice Condenser 1I 29.226 Dew Points CO Lower /Uppor Cont.1 5 35 434 35.746 36.252 36.923 36.876 lee Condenser 11 12.925 Temperatures PF)

Lower / Upper Cont.1 10 70.32 76.383 75.386 77.059 77.089 73.593 74.137 74 885 75 003 85 877 11 20 88.089 86.821 85.181 78 077 77.473 77.804 77.725 73.278 76.747 74 259 21 30 73.031 68.002 75.371 72.777 73.097 73.635 74.498 72.019 72.24 72 552 31 37 72.599 72.423 72.539 72.351 71.916 72.38 72.32 les Condenser 1 10 19.384 19.93 20.147 19 414 21.695 17.997 17 B61 17.38 17.866 17 ;7

Calibrated instrum nt Dato Ccncrwba Nuclear $tcWlon Urdt 2 Rooes e 207 - Feb 07 03:15 36 Pressures (PSIA)

Lower /Uppor Cont.1 2 29 217 29.216 Ice Condoneer 1I 29.227 Dew Points 00 Lower / Upper Cont.1 5 35.355 35.201 36.098 36 841 36.801 Ice Condoneer 11 12.778 Temperatures r0 Lower / upper Cont. l 10 70.329 76.439 75 409 77.124 77.112 73.667 74.114 74 907 75.033 85.932 11.20 89 022 86.951 85 204 78 142 77.594 77.878 77.799 73.301 77.025 74 289 21 30 73.022 68.CO2 75.677 72.777 73.152 73.645 74.512 72.019 72,434 72.561 31 37 72.655 72.437 72.613 72.384 72.064 72.31 72.32 Ice Condenser 1 10 19.213 20.177 20.521 19.51 22.083 18.017 17.852 17.369 17.909 17.958 Rooding a 206 - Feb 07 03-30-36 Pressures (PSIA)

Lower / Upper Cont.1.2 29.216 29.215 les Cor.3eneer 1I 29.226 Dew Points CO Lower / Upper cont.1 5 35.352 34 486 36.101 36.838 36.716 fee conoenser 11 12 775 Temperatures CF)

Lower / Upper Cont.1 10 70.338 76 416 75.409 77 124 77.112 73.69 74.146 74.918 75.003 85.909 f

11.20 88.989 86.984 85.204 78 184 77.515 77 878 77.813 73.301 76.928 74 276 i

21 30 73.031 68.002 75.817 72.758 73.152 73.677 74.512 72.019 72.393 72.505 31 37 72.618 72.446 72.553 72.374 72.152 72.301 72.352 ice Condoneer 1 10 19.137 20.007 19.481 19.735 22.428 18.04 17.926 17.401 17.918 17.97 Rooding # 209 - Feb 07 03:46:37 Pressures (PSIA)

Lower / Upper Cont.1 2 29.216 29.215 f

les Condonner II 29.226 i

Dew PoirWs CO l

Lower / Upper Cont.1 5 35.276 35.279 35.941 36.681 36.64 lee Condenser tI 12.529 Temporahres c0 i

Lower / Upper Cont.1 10 70.352 76.439 75.386 77.148 77.122 73.732 74.178 74.918 75.044 85 956

^

11 20 89.045 86.984 85.223 78.124 77.724 77.836 77.748 73.32 76.821 74.229 21 30 72.998 68.002 75.524 72.744 73.194 73.677 74.521 72.029 72.37 72.487 31 37 72.558 72.46 72.441 72.393 72.032 72.343 72.352 Ice Condenser 1 10 19.041 19.675 20.584 19627 21.792 18.051 18.011 17.412 17.929 17 97

+

1

?

l l

I

+

Calibrated instrument Data Cotowba Nuclear $lalton Unit 2 I

Reading # 210 Feb 07 OC00t37 i

Pressures (P$tA)

(

Lower / upper Cont.1 2 29216 29215 l

lee Condoneer 1I 29225 l

Dew Pcints CO Lower /Uppor Cont.1 5 35.197 34.177 35.783 36.002 36 558 i

les Condenser

1. 1 12.482 i

Temperatures CO Lower / Upper Cont.1 10 70.385 76.458 75 432 77.134 77.131 73 69 74.16 74 932 75.C44 B5.056 11 20 89.045 B6.951 55 246 78.184 77.612 78.04 77 823 73.32 77 016 74299 21.30 73.054 68.002 75 705 72.777 7324 73.691 74.521 72.029 72.36 72.616 31 37 72.641 72.502 72.636

<2.384 72 032 72.333 72.352 Ice Condonner 1 10 19.064 19.556 21 505 19 423 21.598 18.051 18.034 17 423 1794 1797 i

Rooding # 211 - Foo 07 04:15 2 Pressures (P$1A)

Lower /Uppor Cont.1 2 29 216 29 215 I

lee Condenser 1I 29.225 Dow Points CO I

Lower /uppor Cont.1 5 35.125 33.085 35S62 36.527 36.4B3 lee conooneer 1.. I 12.482 Temperatures CO Lower /Uppor Cont.1.10 70.385 76.481 75.464 77.18 77 145 73.741 74.178 74.964 75.031 B5 0B3 11.20 89.012 86 951 B5.195 78 221 77.775 78.073 77.823 73 343 77.058 74 299 21 30 73.054 68.002 75 631 72.721 73.162 73.677 74.531 72.029 72.444 72.52B t

31 37 72.655 72.502 72.562 72.384 72.078 72.301 72.343 l

lee Condonner 1 10 19.395 19.428 19.824 19295 21.352 18.04 18.015 17.423 17.962 17 97 Rooding # 212 Feb 07 nmu Pressures (PSLA)

's lower / Upper Cont.1. 2 29.216 29215 ice Condoneer 11 29226 Dew Pointe CD Lower /Uppor Cont.1 5 35.046 34.804 35.786 36.45 36 404 les Condenser 1I 12.385 Temperatures CF) tower / Upper Cont.1 10 70.394 76.458 75/.32 77.157 77.177 73.677 74202 74.983 75.063 B6 C!6 11.20 89.217 B7.016 B5279 78.142 77.547 78076 77.878 73.357 76 B54 74 322 21.30 73.063 67.989 75.324 72.777 73.138 73.691 74.554 72.07 72.37 72E61 31 37 72.739 72.423 72.562 72.402 71.999 72.38 72.352 Ice Condenser 1.10 19.352 19.856 19.333 19.221 21.62 18.051 18.011 17.444 17.951 17 cS1 1

1 i

)

l l

1 2

Calibratsd Instrument Dato Ccnowbc Nuclear Stanon Un22 Roosng # 213 - Feb 07 04:45:39 Pressures (PSIA)

Lower / Upper cont.1 2 29.216 29.215 Lee Condenser 11 29.225 Dew Points r0 Lower / upper Cont.1 $ 34.964 34 885 35.704 36.369 36.32S See Conooneer 1I 12.586 Temperatures CO Lower / Upper Cont.1 10 70.422 76.518 75 45 77 185 77.182 73.769 74.22 74 992 75.105 86.011 11 20 89.128 87.09 85.339 78.244 77.645 78.026 77.841 73.361 76.914 74.322 21 30 73.063 68.002 75.729 72.777 73.217 73.71 74.554 72.066 72 416 72.575 31 37 72.794 72.446 72.465 72.416 72.078 72.357 72.329 Ice Conooneer 1 10 19.245 20.058 19,11 B 19 252 22.126 18.051 17.98 17.455 17.962 18.044 Rooding # 214 - Feb 07 06:00:39 I

f Pressures (PSUQ Lower / Upper Cont.1 2 29.215 29.214

?

Ice Condenser

1. 1 29.224 f

Dew Points r0

[

Lower /Upoor Cont.1 5 34 962 33.627 35 551 26 369 36 252 tco Concenser 1.. I 12.677 Temperatures r0 Lower / Upper Cont.1 10 70.426 76.499 75 483 77 213 77.196 73.7 74.257 74.997 75.066 86 113 11 20 89.198 66.997 85 255 78 24 77.724 78.105 77.813 73.375 77.211 74 322 21 30 73.1 67.970 75.687 72.744 73.227 73.724 74.563 72.094 72.434 72 575 31 37 72.599 72.525 72.636 72.393 72.129 72.324 72.44 les Condoneer 1 10 19.256 20.103 19.064 19.23 21.88 18.0$2 17.968 17.466 17.951 18077 i

t Poodng # 215 - Feb 07 06:15A0 l

Prosauros (PSLA)

'{

Lower / Upper Cont.1 2 ??.215 29 214

)

Ice Condenser 1I 29.224 i

Dow Pointe r0 l

Lower /Uppor Cont.1 5 34.804 34.885 35.55 36.215 36.176 l

les Condenser 1I 12.726 Temperatures CD Lower / Upper Cont.1 10 70.426 76.569 75.538 77.157 77.21 73.774 74.234 75.02 75.086 B6 0S1 l

11 20 89.087 87.095 B5.39 78.272 77.B07 78.087 77.897 73.389 77.058 74 34 i

21 30 73.11 67.979 75.663 72.767 73.24 73.733 74.563 72.07 72.337 72 GB i

31 37. 72.59 72.534 72.594 72.416 72.138 72.384 72.417 lee Condonner 1 10 19.256 19.652 18.99 19.198 21.76 18 071 18.011 17.477 17.972 18 044 i

i k

i l

I i

h 1

1 l

l

Calibrated instrum:nt Dato Cotowba Nuclear Stanon Unit 2 f

Rooding a 216 - Feb 07 05:30A0 Pressures (PSIA)

Lower / Upper Cont.1 2 29215 29214 l

lee Condenser 11 29224 Dew Points (*F) l Lower /Uppor Cont.1 $ 34 804 34 337 35 474 36217 36.095 i

leo Con:sonner II 12.632 I

Temperatures CF) tower / Upper Cont.1.10 70 435 76.569 75.506 77268 77.219 73.718 74211 75.062 75.1 66.104 11.20 89.184 87.016 B5 376 78207 77.765 77.989 77 855 73A12 76.886 74 331 21 30 73.128 67.965 75 468 72.8 73227 73.747 74.572 72.094 72.393 72 575 i

31 37 72.688 72.534 72 497 72A02 72.032 72A4 72.362 fee Condoneer 1 10 19.279 19 459 19 097 19 209 21 686 18.082 18.045 17 498 17.972 18.034 Rooding s 217 - Feb 07 05:45:41 Pressures (PSIA)

Lower / Upper Cont.1 2 29215 29 214 Ice Condonner 11 29.225 i

Dew Points CF)

Lower / Upper Cos'it.1 5 34.731 34 099 35 393 36.1M 36 016 i

lee Condenser 11 12.531 Temperatures en lower / Upper Cont.1 10 70A49 76.569 75.515 77 254 77.219 73.755 74 243 75.038 75.119 66 113 11.20 89.263 87.104 85.39 78.221 77.886 78.064 77.897 73 417 76.905 74 24 21 30 73.128 67.979 75.729 72.735 7324 73.747 74.563 72.108 72A21 72.64 31 37 72.632 72.525 72.53 72.393 72.055 72.384 72.362 lee Condenser 1 10 19.321 19.309 19 472 19.113 21.555 18.082 18.034 17 498 17.994 18044 Rooding s 216 - Feb 07 06 0041 Pressures (PSIA)

Lower / Upper Cont.1 2 29.215 20214 les Condenser 11 29225 Dew Poires CF) tower / Upper Cont.1 5 34.649 33.314 35.235 36.06 36.016 les Condenser 11 13.365 Temperatures CF)

Lower / Upper cont.1 10 70 468 76.569 75.515 77287 77 242 73.811 74266 75.08 75.128 B6 i04 11 20 89.156 87.192 B5.376 78249 77.905 77.989 77.92 73A17 77285 74 24 21 30 73.161 67.965 75.705 72.75B 73227 73.765 74.554 72.126 72 434 72 107 31 37 72.697 72A69 72Ac7 72.425 72.078 72A21 72.375 ace Condenser 1 10 19A91 19.085 10.396 19.155 21.674 18.073 18.045 17.509 18.014 :! C34 l

l 1

l i

l i

Calibrated instrument Data Ccnowbo Nuclear $6chon Unit 2 Rooding s 219 - Feb 07 06:15:42 Pressures (PSIA)

Lower / Upper Cont.1 2 29.215 29 214 lee Condenser 11 29225 Dew Points 00 Lowe</ upper Cont.1 5 34.573 34.979 35.317 35.984 35.862 Ice Condoneer 1I 14 442 Temperatures CF)

Lower /Uppor Cont.1 10 70 468 76.611 75.529 77245 77251 73.788 74.308 75 08 75.161 86.113 11 20 89.156 87 299 85 441 7823 77.807 78.064 77.953 73 417 77.099 74 35 21 30 73.161 67.965 75 403 72.647 73217 73.756 74.595 72.117 72A16 72.575 31 37 72.715 72.525 72.636 72 416 72.013 72.421 72.3SS les Condenser 1 10 19.867 19.0CN 19.515 19.176 21.792 18.114 18.C34 17.509 18 014 18.066 Rooding s 220 - Feb 07 06:30 42 Pressures (PSIA)

Lower / Upper Cont.1 2 29.215 29.214 Ice Condenser 1I 29.225 Dew Points 00 Lower / Upper Cont.1 5 34A95 34 414 35.235 35.903 35.862 les Condenser 1I 13.413 Temperatures r0 Lower / Upper Cont. l 10 70.514 76.588 75.529 77 287 77 284 73.816 74.331 75.094 75.161 80.127 IL20 89207 87.169 85A18 78 263 77.886 78.138 77.934 73 431 77.137 74 364 21 30 73.175 67.956 75.631 72.703 73 25 73.765 74.609 72.126 72A67 72.616 31 37 72.711 72.525 72.771 72A39 72.152 72.38 72A26 Ice Condenser 1 10 20.19 19.063 19.557 19 241 23452 18.114 18.054 17.52 18.025 18.C36 Rooding a 221 - Feb 07 06A5A3 Pmasures (PSIA)

Lower / Upper Cord.1 2 29215 29.214 lee condoneer 1I 29.225 Dew Points 00 Lower / Upper Cont. L 5 34A16 32.772 35.081 35.826 35.783 ice Condenser 11 12.974 Temperatures 00 Lower / Upper Cont.1 10 70.524 76.597 75.562 77.268 77293 73.871 74.322 75.103 75.161 66225 11 20.89 254 87.169 85.515 78249 77.895 77.999 77.994 73A54 77.137 74 35 21 30 73.175 67.956 75.882 72.777 73.25 73.789 74.609 72.163 72 513 72.61c 31 37 72.688 72A73 72.659 72458 72.175 72A31 72A03 lee Condenser 1 10 19.652 19.193 19.053 19 434 23.612 18.141 18.054 17.541 18.025 18.0S$

t Calibrated Instrum:nt Dato i

Cokrwbo Nuclear station Unit 2 i

Rooding s 222 - Feb 07 07:00:43

[

Pressures (PSIA) j Lower / Upper cortt.1 2 29.215 29.214 Ice Condenser 11 29.225 l

Dew Points CF)

Lower /Uppor Cont.1 5 34.335 34 81 35.081 35145 35.704 les Conooneer II 12.777 l

Temperatures CO P

{

Lower / Upper Cont.1.10 70.524 76.597 75.613 77.333 77.293 73 871 74 331 75.117 75.184 86 202 11 20 89.296 87.178 85.562 78.346 77.919 78.161 77.985 73 454 77.252 74 35 21 30 73.175 67.956 75.663 72.8 73 25 73775 74.609 72.149 72.564 72 607 4

31 37 72.711 72.534 72.571 72 439 72.208 72A54 72.385 r

les Condoneer 1 10 19A06 19.332 19.021 19.392 21.977 18 178 18.022 17.541 18.025 18.077 Rooding # 223 Feb 07 07:15-44 Pressures (PSW Lower /Uppor Cont.1.2 29.215 29.214 lee Condoneer 1I 29.225 l

Dew Points c0 t

Lower /Uppor Cont. l 5 34.334 34.728 35.081 35 667 35.626 ice Condenser 1.1 12.224 i

Temperatures rF) l Lower / upper Cont. 1 10 -70.524 76.634 75.603 77 342 77.316 73.788 74.34 75.136 75.184 86.:6; l

11 20 89.328 87.257 85.539 78 318 78.039 78.064 77.943 73A72 77.188 74 364 21 30 73.207 67.947 75 422 72.689 73 268 73.798 74 628 72.172 72A58 72 575 s

31 37 72.836 72.576 72.511 72 458 72.12 72407 72.42$

ice Cor.deceer 1 10 19.268 19437 18.883 19.198 21.911 18.125 18.045 17.552 18.048 18 086 l

[

l Rooding # 224 - Feb 07 07:30A5 l

Presouros (PSLA)

{

Lower / Upper Cont.1 2 29.215 29.215 i

Ice Condoneer 1I 29.225 Dew Points 00 l

Lower / Upper Cont.1 5 34.256 33.627 34.854 35.667 35.551 I

ice Condenser 1I 12.725

-l Temperatures CD i

tower / upper Cont.1 10 70.533 76.643 75 603 77.366 77.326 73.871 74.354 75.168 75.207 86234 I

11 20 89.272 87.234 85.529 78.286 77.872 78.073 77.897 73A96 77.299 74 373 21 30 73.207 67.933 75.687 72.777 73.24 73.821 74.628 72.205 72A67 72 607-l 31 37 72.739 72.557 72.511 72 472 72.055 72 44 72A26 Ice Condenser 1 10. 19.225 19A71 18.764 19.798 22.C94 18.136 18.022 11.574 18.G48 1B 109 l

L i

i 4

Calibrot;d Instrum:nt Data Ccpowba Nuclear Sicplon i

f une2 Rooding 8 225 - Feb 07 07:45:45 Prosauros (PSIA)

Lower / Upper Cont.1 2 29 215 20.214 i

Ice Condonner 11 29225 Dew Pointe CO Lower / Upper Cont. L 5 34 178 34 568 34 778 35.515 35 472 3

lee Condenser 1I 12.583

?

Temperatures CO Lower / Upper Cont.1 10 70.556 76 666 75 613 77.384 77.326 73.8B5 74.364 75.168 75 226 86 29 11 20 89 282 87.225 85.529 78 286 77 919 78.105 77.934 73.509 77 123 71373 21 30 73226 67.933 75.696 72.721 73 259 73.83 74.651 72205 72.49 72.c26 31 37 72.762 72.608 72.627 72 458 72,138 72.398 72.44 ice Condenser 1 10 19.245 19.738 18.721 19.724 21.911 18.147 18.011 17.583 18.059 18.131

[

f Rooding 8 226 - Feb 07 08d302 Pressures (PS!A)

Lower /Uppor Cont.1 2 29 214 29.214

]

lee Conooneer 11 29.224 Dew Points CD Lower /Uoper Cont.1 5 34 177 34 41 31c96 35 512 35.389 les conooneer 1I 12.677 Temperatures CD Lower / Upper Cont.1 10 70.565 76.634 75 65 77.384 77.349 73.788 74.387 75201 75.239 5-.22 2

1 11 20 89.379 87.192 85.539 78.318 77.951 78212 78.031 73.509 77.146 74373

-21 30 73239 67.933 75 492 72 712 73259 73.821 74.637 72.214 72 444 72 647 31 37 72.711 72.534 72.553 72 458 71.916 72.463 72.45 l

les Condenser I 10 19.418 20.305 18.775 19.843 21.729 18.167 18.002 17.583 18.079 -19 007 l

Pooc9ng 8 227 - Feb 07 08:152 s

Pressures (PSIA)

Lower / Upper Cont.1 2 29215 29 214 l

lee Condenser 11 29.225 i

Dew Pointe CO l

)

Lower / Upper cont.1 5 34 099 32.924 34.696 35.43' 35.389 j

les Condenser 1I 13.218 Temporahmes CD Lower / Upper Cont.1 10 10.579 76.666 75.594 77.366 77.372 73.811 74.428 75.201 75226 ee.

(

11 20 E9 305 87267 85.506 78.337 77.984 78268 77.994 73.509 77.016 74 ~

21 30 73.226 67.91 75.775 72.689 73259 73.83 74.628 72.237 72.476 7--

31 37 72.739 72.576 72.594 72.481 72.12 72.454 72.44 i

les Condenser L10 19.76 19.919 18.914 19 531 21.609 18.178 18.022 17.606 18.079

't I

i 1

l 4

j n

i n

4 i

i Calibrot d instrumant Data Colowbo Nuclear 5kstion Urw 2 t

Rooding # 228 - Feb 07 08.30.47 i

Pressures (PSIA)

Lower / Upper Cont.1 2 29215 29.214 les Condonner I1 29225 i

Dew Points ("F)

I Lower / Upper cont. l 5 33 947 34.338 34 699 35.355 35.314 l

lee Condenser 1I 14 Oc6 Temperatures r0 Lower / Upper Cont.1 10 70.579 76208 75 636 77 417 77.372 73 862 74.405 75.233 75258 66 355 11.20 89 477 87.322 85.539 78.318 77.636 78.161 77.976 73.514 76 983 74 396 21 30 73.249 67.933 75 264 72.786 73.217 73 872 74.66 72214 72.434 72 649 31.37 72.674 72 479 72.669 72 49 72.022 72 496 72.491 ice Condoneer L10 19.953 19.556 19.172 19.423 21.695 18.178 18.098 17.606 18.079 18 151 5

Eeoding # 229 - Feb 07 06 454

+

Pressures (PSIA)

Lower / Upper Cont.1 2 29214 29213 les Condonner 11 29.224 i

Dew Points CF)

Lower / Upper Cont. L 5 33.941 33 469 34$96 35.276 35235 lee Concereer 1., i 13.555 Temperatures r0

[

Lower /Uppor Cont.1 10 70.598

1. 45 75 636 77 44 77.381 73.936 74.452 75224 75 258 66 299 l

11.20 89.412 87.if5 85.585 78 249 77.872 78.087 78.083 73.537 77.331 74 296 21 30 73226 67.901 75.111 72.767 73268 73 886 74.66 72.247 72.421 72 o4 31 37 72.715 72.557 72.539 72.481 72.064 72.496 72.44 ice Condoneer 1 10 19.644 19 556 10.064 19 466 21.674 18.167 18.118 17.626 18.079 1B U4 i

i t

peoding # 230 - Feb 07 OP904 Presouros (PSLA)

Lower / Upper Cont.1 2 29.215 29.214 i

tee Condoneer 1.. I 29225 l

Dew Points CF)

Lower / Upper Cont.1 5 33.865 33.711 34.46 35.276 35.159 see Condenser 1I 13.021 Temperatures 00 Lower / Upper Cont.1 10 70.612 76.75 75.66B 77.44 77.391 73.927 74.438 75.243 75 281

-: 4 11.20 89.477 87257 85.594 78221 77.506 78.073 78.073 73.537 77252 21 30 73.272 67.891 75264 72.744 7325 73.895 74.674 72279 72.421 31 37 72.664 72.567 72.562 72.504 72.078 72.56 72.459 lee Condenser 1 10 19.363 19.919 20.102 19.337 21.566 18201 18.13 17.638 18.122 2

l

-r r

h t

k I

1 l

Collbrated instrum:nt Data Colowba Nuclear Stollon Unit 2 j

f Roodng # 231 - Feb 07 09:15 49 Presouros (PSIA) l Lower / Upper Cont.1 2 29.215 29.214 lee Condenser 11 29.225 I

Dew Pen,s en Lower / Upper Cont.1 5 33.79 34 C2 34.382 35 201 35.084 i

les Condenser 1I 12.872 Temperatures c0 i

Lower / Upper Cont.1 10 70.621 76.741 75 659 77 449, 77.414 73.894 74.452 75.256 75.304 86.355 11 20 89.402 87 341 85.627 78.263 77.775 78.235 78.073 73.551 77.146 74 428 21 30 73.272 67.891 75.631 72.703 73.268 73.863 74.66 72.26 72.499 72.723 31 37 72.618 72.557 72.594 72.504 72.194 72.463 72.473 Ice Condenser 1 10 19.16 20.177 20.467 19.477 21.352 18.201 18.161 17.638 18.133 18.151 i

Rooding # 232 - Feb 07 09 30.49 Pressures (PSIA) j Lower / Upper Cont.1 2 29.214 29.213 lee Condoneer 1I 29.224 i

Dew Points (*O Lower / Upper Cont.1 5 33.708 34.02 34 381 35.118 35.008 I

Ice condenser 1I 12.824 i

Temperatures.00

[

Lower / Upper Cont.1 10 70 63 76.773 7E668 77.463 77.423 73.959 74.461 75.275 75.295 86.355 11.20 89.523 87.332 85.636 78.2S6 77.895 78.398 76.'8 73.57 77.178 74.419 21 30 73.281 67.882 75.580 72.703 73.24 73.872 74.674 72.26 72.476 72.802 I

31 37 72.808 72.641 72.585 72.49 72.152 72.454 72.482 l

les Condenser 1 10 19.106 20.134 19.515 19.605 21.954 18.21 18.13 17.66 18.144 18.174 Rooding 8 233 - Feb 07 09.35:40 I

Pressures (PSIA) l Lower / Upper Cont.1 2 29.214 29.213 Ice Condenser 1I 29.224 Dew Points c0 Lower / upper cord.1 5 33.708 32.615 34 302 35.043 35.008 leeCondenser 1I 12.726 Temperclures 00 I

Lower / Upper Cont.1 10 70.63 76.731 75.668 77.449 77.423 73.913 74.461 75.289 75.304 86 364 11 20 89.435 87.276 55.613 78.266 77.905 78.333 78.041 73.57 77.308 74 410 i 21 30 73.272 67.868 75.589 72.703 73.259 73.872 74.674 72.27 72.458 72802 l 31 37 72.808 72.641 72.511 72.504 72.11 72.463 72.459 r

Ice Condenser 1 10 19.095 19.995 19.515 19.639 21.943 18.21 18.13 17.669 18.153 18174 i

l l

f i

i i

3 I

I

1 Calibrated instrument Data Corowbo Nuclear Stanon I

UnN 2 Rooding 8 234 - Feb 07 09:45:51 Presouros (PSIM I

Lower / Upper Cont.1 2 29.212 29.212 lee Condoneer 11 29.222 i

)

oew Pants en Lower / Upper Cont.1 5 33.708 32.537 34.302 34 967 35.008 i

Ice Condenser 1I 12.628 Ternperatures r0 i

I Lower / Upper Cont.1 10 70.63 76.75 75.724 77 482 77 437 73.885 74.475 75.312 75.304 86.364 11 20 89.458 87.341 85 613 78.304 78 016 78.203 78.106 73.584 77.266 74 419 21 30 73.295 67.868 75 663 72.679 73.282 73.886 74.684 72.288 72.513 72.695 31 37 72.859 72.641 72.516 72.513 72.161 72.431 72.45 Ice Condoneer 1 10 18.999 19.76 19 835 19.434 22.277 18.201 18.141 17.68 18.153 18.14 i

Rooding 8 235 - Feb 07 09:55-51 Pressures (PSIN l

Lower / Upper Cont.1 2 29.211 29.211 i

les Condoneer 11 29.221 i

Dew Points CF)

Lower / Upper cont.1 5 33.63 33 34.143 34.97 34 932 Ice Condenser 1I 12.583 l

Temperatures CD I

Lower / Upper Cont.1 10 70.644 76.773 75 71 77.463 77.423 73.913 74 484 75.298 75 281 86.0 6 11.20 89.509 87.387 85.65 78 346 78.025 78.235 78.092 73.584 77.276 74 419 21 30 73.295 67 859 75.719 72.661 73.217 73.886 74.674 72.288 72.532 72.714 4

31 37 72.762 72.59 72.516 72.504 72.194 72.454 72.501

[

Ice Condoneer 1 10 18.976 19.621 20.382 19.392 22.029 18.19 18.161 17.68 18.153 1B 151 I

Roocang 8 236 - Feb 071095:52

[

Pressume (PSIA) f Lower / Upper Cont.1 2 29.211 29.21 i

les Condoneer 11 29.221 Dew Points CD Lower / Upper Cont.1 5 33.629 33.157 34.302 34.967 34.842 i

Ice Condoneer 1I 12.529 TempercWures CO Lower / Upper Cont.1 10 70.662 76.792 75.756 77.463 77.46 73.908 74.493 75.312 75.314 56 443 r

11.20 89.393 87.471 85.613 78.318 77.807 78.194 78.083 73.593 77.461 74 425 l

21 30 73.281 67.859 75.468 72.624 73.227 73.905 74.707 72.302 72.467 72 74$

[

31 37 72.808 72.576 72.585 72.504 72.12 72.496 72.473 les Condenser 1 10 19.137 19.578 20.638 19.295 21.652 18.201 18.184 17.68 18.175 18 151 l

l f

-l k

i

Calibrated instrum:nt Data Colawba Nuclear Staelon Unit 2 j

Roodng # 237 - Feb 0710:15.52 Pressures (PSIA) j Lower /Uppor Cont.1 2 29211 29.21 Ice Condenser II 29221 f

Dew Points PO Lower /Uppor Cont.1 5 33.551 33.0B5 34.064 34.894 34.842 I

Ice Condenser 1I 12.532 t

Temperatures CD I

Lower / Upper Cont.1 10 70.662 76.75 75.701 77.449 77.446 73.959 74.503 75.321 75.314 86.331 l

11 20 89.458 87.373 85.627 78.383 77.775 78212 78.073 73.607 77.308 74 428 t 21 30 73295 67.85 75.677 72.721 73 268 73.928 74.693 72.302 72.611 72.714 r

31 37 72.836 72.687 72.465 72.513 72259 72.496 72.491 Ice Condonner 1.10 19.341 19.502 19.708 19 252 21.383 18 21 18.184 17.68

'8.187 18.163 1

Rooding s 238 - Feb 0710:25:52 Pressures (PSIA)

Lower / Upper Cont.1 2 29.21 29209 les Condoneer 1I 29.22 Dew Points CD Lower / Upper Cont.1 5 33 551 33.863 34 143 34 891 34.761 Ice Condenser 11 12.432 Temperatures CD Lower / Upper Cont.1 10 70.662 76.773 75.677 77 482 77.469 73.913 74.516 75.321 75.314 86.3CB 11 20 89.477 87.503 85.659 78 346 78.039 78235 78.059 73.607 77299 74.t2B 21 30 73.314 67.85 75.608 72.721 73.259 73.919 74.684 72.325 72.513 72.672 31 37 72.859 72.608 72.488 72.523 72.161 72.528 72.459 Ice Condenser 1 10 19 375 19.76 10.268 19.187 21.577 18232 18.172 17.692 18.187 18 163 i

r Roodng # 239 - Feb 0710.35:53 Pressures (P$lA)

Lower / Upper Cont.1. 2 2921 29.209 1

tco Condenser 11 2922 Dew Points CD Lower / Upper Cont.1 5 33.475 33.866 33.988 34 816 34.763 I

Ice Condoneer 1.1 12.532 i

Temperatures CD i

l Lower / Upper Cont. 1 10. 70.695 76.787 75.728 77.5 77.483 73.908 74.498 75.359 75.342 86 438 11 20 89.43 87.434 85.72 78.379 78.053 78.277 77.99 73.621 77.174 74 428. l 21 30 73.314 67.85 75.687 72.665 7324 73.919 74.684 72.311 72.611 72 705 i I

31 37 72.771 72.631 72.692 72.513 72.152 72.486 72.482 Ice Condenser 1.10 19202 19.919 19.044 19.166 21.943 18.275 18.192 17.714 18.175 18.174 1

1

?

I i

+

l

Calibrated Instrument Dato Catawba Nuclear $loNon Unit 2 I

i Roosng e 240 - Feb 0710:45:53 Prosauros (PS!A) f Lower /Uppe-Cort 1 2 29.209 29208 5

lee Condoneer 1.1 29219 Dow Points CF) i Lower / Upper cont.1 5 33.475 33.629 34 066 34.734 34.681 Ice Condoneer 1I 12.531 Temperatures (*F)

Lower / Upper Cont.1 10 70.686 76.773 75.724 77.482 77.479 73.982 74.526 75.372 75.346 86.396 11 20 89.37 87.503 85.692 78.383 77.854 78 258 78.073 73.611 77243 74 428 21 30 73.323 67.836 75.589 72.624 73.259 73.928 74.674 72.311 72.522 72 681 e

31 37 72.808 72.608 72.516 72.513 72.161 72.496 72.459 l

les Condenser 1 10 19.18 20.069 18.925 19.133 22.137 18243 18.204 17.723 18.164 18205 i

I Rooding a 241 - Feb 0711:00-19 Pressures (P$lA)

Lower / Upper Cont.1 2 29207 29206 les Condenser 11 29217 Dew Points CD Lower / Upper Cont.1 5 33.393 33.714 33.985 34 734 34.681 Ice Condonner 1I 12.677 Temperatures CF)

Lower /Uppor Cont.1 10 70.7 76 806 75 756 77.561 77.502 73 894 74 526 75.354 75.346 86 406 11 20 89.556 87.364 85366 78 434 78.081 78.291 78.05 73.625 77.188 74 452 21.30 73.323 67.826 75.775 72.665 73 259 73.951 74.707 72.302 72.597 72.672 i

31 37 72.739 72.641 72.585 72.513 72236 72.477 72.482 les Condoneer 1 10 19.171 20.069 18.883 19.113 21.846 18.232 18204 17.734 18.175 18.248 Roaeng # 242 Feb 0711:1020 Pressures (P5tA)

[

Lower / Upper Cont.1 2 29.206 29205 Ice Condoneer 11 29.216 Dew Polnes CO Lower /'. spoor Cont.1 5 33.396 31.135 33 831 34.655 34.606 les Condoneer 1I 12.679 Temperatures (*F) f Lower / Upper Cont.1 10 70.7 76.815 75.733 77 496 77.511 73.959 74.526 75.372 75.356 86.42 11 20 69.5 87.517 85.757 78.443 78.155 78203 78.059 73.625 77.559 74 461 l

21 30 73.337 67.813 75.631 72303 7324 73.928 74.693 72.311 72.611 72.746 31 37 72.771 72.655 72.669 72.504 72.152 72.528 72.473

{

Ice Condenser 1 10 19.191 19.717 18.894 19.079 21.826 18.232 18.184 17.723 18.175 IB 248 l

f I

i l

Calibrated instrum':nt Dato

' "i Carowna sucioar swian

(

Unst2 Rooding e 243 - Feb 0711:2020 Pressures (P$tA)

Lower / Upper cont.1 2 29.206 29.205 les Condoneer 1I 29.216 i

Dew Points CF) l Lower / Upper Cont.1 5 33.32 33.714 33.S31 34.655 34.524 Ice Condoneer 1I 12.679 Temperatures 00 Lower / Upper Cont.1 10 70.709 76.561 75.733 77.514 77.511 74.006 74.581 75.41 75.346 86.485 11.20 89.556 87.452 85.734 78.392 77.951 78.245 78.059 73.648 77.415 74 47 I

21 30 73.346 67.803 75.663 72.624 73.25 73.928 74.707 72.335 72.444 72 746 31 37 72.771 72.599 72.571 72.523 72.097 72.542 72.491 les Condenser 1 10 19.268 19 533 18.797 19.09 21.663 18.232 18.184 17.734 18.187 18.227 i

Rooding # 244 - Feb 0711:3020 l

Pressures (PSIA)

Lower / Upper Cont.1 2 29.206 29.205 i

les Condonner

1. 1 29.216 l

Dew Points CF)

Lower / Upper Cont.1 f,

33 318 33 469 33 831 34.574 34.522 I

Ice Condenser 1I 12.679 Temperatures PF)

Lower / Upper Cont.1 10 70.727 76.871 75.756 77 561 77.534 74.024 74.558 75396 75.346 56 461 i

11.20 89.63 87.517 85.776 78.392 78.179 78.226 78.147 73.658 77.656 74 484 t

21 30 73

• 67.785 75.324 72.665 73.259 73.96 74.716 72.311 72.564 72.672 i

31 37 72.o u 72.599 72.571 72.537 72.138 72.505 72.491 Ice condoneer 1 10 19.31 19.395 18.979 19.036 21.M)9 18.243 18.204 17.734 18.198 18 227 l

l I

Rocctng # 245 - Feb 0711.4021 Prosauros (PSIA) l Lower / Upper Cont.1. 2 29.205 29.204 Ice Condonner

1. I 29.215 Dew Points CD k

Lower / upper Cont.1 5 33.242 33.469 33.831 34.576 34.524 l

Ice Condenser 1I 12.582 j

Temperatures c0

.I tower / Upper cont.1 10 70.741 76.838 75.766 77.505 77.544 74.08 74.572 75.428 75.379 86 485 l

11 20 89.5 87.517 85.799 78.369 "" '23 78.258 78.073 73.658 77.317 74 4B4 i

21 30 73.36 67.794 75.32 72 S

/3.' 1 73.97 74.716 72.335 72.49 72 oc3 l 31 37 72.729 72.599 72.565 72.

~~ o5 72.486 72.482 l

les Condenser 1 10~ 19.341 19.266 19.053 18.h 21.523 18.252 18.172 17.746 18.198 18.237

{

4 5

i l

i i

i l

4 l

Calibrated Instrum:nt Data Catowba Nuclear Sh: mon Unit 2 Rooding # 246 - Feb 0711:50:21 Pressures (PSIA)

Lower / Upper Cont.1.,2 29.205 29.204 i

les Condoneer 1I 29.215 I

Dow Points (*F)

Lower /Uppor Cont.1 5 33.242 33.396 33.754 34 498 34 448 Ice Condenser 11 12.974 Temperatures PF)

Lower / Upper Cont.1 10 70.75 76 88 75.775 77.537 77.544 74.057 74.549 75.428 75.356 86 54 11 20 89 533 87.471 85.799 7S.383 78.165 78.43 78.115 73.69 77.763 74 47 l

21 30 73.392 67.794 75.004 72.661 73.259 73.97 74.707 72.344 72.513 72 672 3137 72.B5 72.678 72.803 72.513 72.194 72.463 72.547 lee Condenser 1 10 19.18 19.213 19.376 19.102 21.589 18.264 18.192 17.746 18.218 18.216 Rooding # 247 - Feb 0712.90:21 Pressures (P$1A)

Lower / Upper Cont.1 2 29.204 29.203 ico Condonner 11 29.214 Dow Pomts CF)

Lower / Upper Cont.1 5 33.166 33.55 33.676 34.492 34.367 ico Condenser 11 13.655 Temperatures CF)

Lower /Uppor Cont.1 10 70.76 76.847 75.798 77.593 77.567 74.024 74 572 75.428 75.37 86 452 i

11 20 89.644 87.438 85 864 78.369 78.179 78.398 78.083 73.69 77.545 74 484 21 30 73.392 67.794 75.064 72 647 73.259 73 97 74.748 72.358 72.49 72.6c3 31 37 72.817 72.599 72.669 72.513 72.161 72.574 72.491 Ice Condonner 1 10 19.287 19.096 19.322 19.113 21.663 18.275 18.172 17.746 18.229 18 227 l

Rooding # 248 - Feb 0712:1022 Preneures (PSIA)

Lower / Upper Cont.1 2 29.204 29.203 leo condonner 11 29.214 Dew Points CO Lower / Upper Cont.1 5 33.167 33.627 33.755 34.417 34.367 Ice Condoneer 1I 14.21.4 TemperchJres CD Lower / Upper Cont.1 10 70.76 76.871 75.756 77.547 77.557 73.059 74.591 75.428 75.379 36 526 11 20 89.565 87.452 85.799 78.416 77.97 78.379 78.171 73.69 77.526 74 434 21 30 73.369 67.794 75.663 72.624 73.291 73.993 74.725 72.376 72.587 72 723 t

31 37 72.739 72.622 72.613 72.546 72.236 72.486 72.482 i

les Condenser 1 10 19.568 18.989 19.396 19.166 21.631 18.317 18.184 17.757 18.229 18 39 r

I i

I L

t i

Calibrated Instrum:nt Data Cotowba Nuclear Stenon Unit 2 Roodlng # 249 - Feb 0712 20-22 Preseufes (PSIA)

Lower / Upper Cort 1 2 29203 29203 Ice Condenser 1.1 29.213 Dew Points (*F)

Lower / Upper Cont.1 5 33.085 33.551 33 c04 34 341 34294 lee Condenser 1I 13.996 Temperatures (*D Lower / Upper Cont 1 10 70.75 76.903 75.789 77.57 77.567 74.033 74.6 75 451 75.393 86.471 11 20 89.607 87.517 85.799 78.443 78.1 78.333 78.138 73.681 77.415 74 493 21 30 73.378 67.785 75.687 72.703 73.259 73.96 74.707 72.358 72.62 72.723 I

31 37 72 827 72.655 72f.36 72.523 72.273 72.486 72.514 les Condenser 1 10 20.651 19 19 481 18.982 22.505 18306 18.1 B4 17.766 18229 18 29 Rooding # 250 - Feb 0712:30:22 Pressures (PSIA)

Lower / Upper Cont.1. 2 29.202 29.201 les Condeneer 11 29.212 Dew Points (*Q Lower / Upper Cont.1 5 33 G84 33.629 33 6 34 34 34291 l

Ice Condenser 11 13.46 Temperatures (*F)

Lower /Uppor Cont.1 10 70.783 76 88 75.766 77.602 77.576 74.047 74.614 75.437 75.421 B6 503 11.20 89.533 87.536 85 864 78.402 77.96 78.342 78.189 73.69 77.536 74.503 l

21 30 73.402 67.794 75.064 72.689 73.25 73.983 74.707 72.367 72.62 72.737 1

31 37 72.957 72.641 72.636 72.537 72.152 72.528 72.524 lee Condenser 1 10 20.136 19.053 19.665 19.176 23.515 18297 18.184 17.777 18.24 18 301 Rooding # 281 - Feb 0712:4023 Prosaures (ISA)

Lower /Uppor Cont.1 2 29202 29.201 lee Condoneer 11 29.212 Dew Points (*F)

Lower / Upper Cont.1 5 33.005 32.5 0 33.44 34 265 34209 leeCondonner 1I 13.069 Ternporatures (*F)

Lower / Upper Cont.1 10 7.774 76.903 75.789 77.593 77.585 74.006 74.655 75.461 75.421 86 54 11 20 89.672 87.55 85.808 78 402 78211 78291 78287 73.681 77.382 74 503 21 30 73.392 67.794 75.199 72.679 73.268 73.97 74.707 72.386 72.522 72.SC2 31 37 72.752 72.608 72.594 72.546 72.152 72.574 72.501 les Condenser 1 10 19.695 19.042 19.075 19 295 23.452 18297 18204 17.788 1824 1829

1 i

Calibrated Instrument Dato Cah:rwba Nuclear Station Une 2 Roodng 8 252 Feb 0712:5023 Pressures (PSIA) l Lower /UpperCont. l 2 29201 292 les Condoneer 1I 29211 Dew Points (*F)

Lower /Uppor Cont.1 $ 33.008 33.396 33.521 34.265 34209 6

Ice Condenser 1I 12.923 l

Temperatures (*O Lower / Upper Cont.1 10 70.783 76.912 75.812 77.635 77.585 74.057 74.632 75.47 75 435 86.517 11.20 89.686 87.605 85845 78.425 78.155 78.379 78.171 73.69 77.689 74.503 21 30 73.411 67.785 75.533 72.647 73268 74.007 74.748 72.4 72.499 72.737 31.37 '72.729 72.631 72.608 72.537 72.129 72.496 72.491 Ice Condoneer 1.10 19.406 19224 18.957 19.337 22299 18.34 18204 17.788 1824 18 279 5

i Rooding s 253 - Feb 07132024 Pressum (PS!A) tower / Upper Cont.1 2 29.201 29.2 Ice Condereer 1I 29.211 Dow Points (*O Lower / Upper Cont.1 5 32.927 32 846 33 44 34.18 34.13

?

Ice Condenser 1I 12.726 Temperatures (*F)

Lower / Upper Cont.1 10 70.797 76.936 75.812 77 602 77.585 74.08 74.646 75.47 75 421 86.526 11 20 89.621 87.559 85.845 78.49 78.1 78.3 78.212 73.704 77.591 74 503 21 30 73.392 67.771 75.677 72.689 7325 74.016 74.716 72.4 72 694 72.779 31 37 72.827 72.678 72.669 72.537 72236 72.505 72.524 l

les Condonner 1 10 19279 19 448 18.925 19.96 21.857 18.371 18226 17.788 18.24 18 248 l

Roodhg 8 254 - Feb 0713:1024 f

Pressures (PSIA) l Lower / Upper Cont.1 2 29.201 29 2 Ice Condenser 11 29211 Dew Points (*O Lower / Upper Cont.1 5 32.93 32.47 33.443 34.18 34.13 les Condenser 1I 12.777

(

Temperceures (*O tower / Upper Cont.1 10 70.797 76.936 75.844 77.602 77.599 74.089 74.614 75.484 75.453 86.517 11 20 89.556 87.517 85.864 78.457 78.016 78.407 78212 73.709 77.559 74 503

(

21 30 73.378 67.785 75.729 72.661 73259 74.025 74.748 72.386 72.611 72.793 31 37 72.85 72.696 72.511 72.537 72.161 72.56 72.524 i

lee Condenser 1 10' 19225 19.545 18.871 19.94 21.803 18.394 18.215 17.8 18249 18 27 t

l-I

-)

I I

i

Calibrotcd instrum:nt Dato Cotowba Nuclear Skmon Un#2 Roodng 8 255 - Feb 0713-2025 Pressures (PSIN Lower / Upper Cont.1 2 29201 29 2 tco Condenser 11 29.21 Dew Points (*O Lower / Upper Cont.1 5 32 854 33.239 33.364 34.18 34.055 lee Condenser

1. 1 12.777 Temperatures (*F)

Lower / Upper Cont. l 10 70.806 76.926 75B12 77.612 77 608 74.108 74.623 75.47 75 421 86 638 11 20 89.598 87.647 85 831 78.425 78.09 78.379 78.157 73.722 77.512 74.526 21 30 73.378 67.803 75 654 72.721 73.268 74.025 74.758 72.409 72.708 72.858 31 37 72.905 72.696 72.724 72.56 72.217 72.519 72.547 Ice Conooneer 1 10 19.149 19.717 18.818 20.164 21.9 18.328 18.192 17.811 18 26 18 27 Rooding s 256 - Feb 0713:30.'25 Presouros (PS14 Lower /Uppor Cont.1 2 29.2 29.199 Ice Condoneer 11 29.21 Dew Points (*F) tower / Upper Cont.1 5 32 855 33 315 33 443 34.102 34 052 ice Condenser

1. I 12.823 Temperatures (*F)

Lower / Upper Cont.1 10 70.825 76.926 75.83 77.635 77.608 74.057 74.646 75 507 75.453 B5.559 11 20 89 621 87.536 85.873 78 467 78.137 78.43 78.212 73.732 77.471 74 516 21 30 73.378 67.803 75.533 72.703 73.259 74.025 74.758 72.423 72.578 72.723 31.37 72.85 72.696 72.706 72.546 72.208 72.519 72.524 Ice Condoneer 1 10 19.16 19.437 18.764 19.874 22.223 18.306 18.184 17.82 18.2B3 18 3C' f

Rooding # 257 - Feb 0713:4(k25 Preneures (PSIA)

[

Lower / Upper Cont.1 2 29.2 29.198 Ice Condenser 11 29.209 Der Points (*O Lower / Upper Cont.1 5 32.851 33.239 33 286 34.102 33.976 les Condenser

1) 12.777 j

Tempercoures (*F) l Lower / Upper Cont.1 10 70.825 76.936 75.844 77.635 77.632 74.047 74.632 75.493 75 453 H-.

11 20 89.607 87.485 85.873 78.416 77.993 78.365 78.245 73.746' 77.536

'a - -

l 21 30 73.402 67.813 75.622 72.647 73.268 73.993 74.772 72.423 72.685 *: -a:

31 37 72.947 72.696 72.627 72.537 72.25 72.551 72.514 i

les Condenser 1 10 19.18 19.63 18.764 19.499 22.083 18.297 18.226 17.82 18.283 M

[

i i

l 1

k k

)

i

Calibrated instrument Dato Catowbo Nuclear Shztlon UnN 2 i

Reading # 254 - Feb 0713 5(t26 Pressures (PSIA)

Lower / upper Cont.1.,2 29.108 29.197 Ice Condenser 11 29.208 Dew Points ("O Lower / Upper cont. t $ 32.775 33.239 33 364 34.023 33.976 Ice Condenser 1I 12.777 Temperatures (*O Lowee/Uppor Cont.1 10 70.825 76.945 75 844 17.602 77.632 74 08 74.697 75.526 75 467 86.582 11 20 89.769 87.605 85.896 78.443 78.1 78.518 78.245 73.732 77.73 74.516 21 30 73.42 67.794 75.25 72.7B6 73 282 74.048 74.748 72.432 72 587 72.770 l

31 37 72.659 72.631 72.692 72.56 72.097 72.56 72.556 ice Condonner 1 10 19.256 19.834 18.786 19.317 21.8B 18.297 18.215 17.842 18.294 18.313 i

Rooding 8 259 - Feb 0714-(Xh26 Pressures (PSIA)

Lower / Upper Cont. l 2 29.197 29.196 Ice Condenser t1 29.207 Dew Points (*F)

Lower / Upper Cont.1 5 32.7 30 823 33.288 3 " '26 33.697 ice Concenser 1I 12.824 Temperatures PO Lower / Upper cent. l 10 70 848 76.959 75 854 77.635 77.664 73.982 74.655 75 526 75 49 B6 $47 11.20 89E7 87.559 85.906 78 425 78.146 78.477 78.268 73.732 77.763 74 535 21 30 73.443 67.794 75.185 72.712 73.301 74.058 74.79 72.441 72.541 72 B67 31 37 72.739 72.687 72.669 72.56 72.11 72.616 72.556 i

ice Condoneer 1 10 19.225 20.338 18.7B6 19.198 22.256 18.317 18.204 17.842 18.294 18 322 Rooding # 260 - Feb 0714:1027 Prosauros (PSIA)

Lower / Upper Cont.1 2 29.197 29.196 Ice Condoneer 11 29.207 Dew Points (*O Lower / Upper Cont.1 5 32.7 32.388 33.288 33.95 33.9

+

les Condoneer 1I 13.074 Temperatures (*O Lower / Upper Cont.1 10 70.839 76.968 75.854 77.658 77.673 74.057 74.697 75.567 75.476 M.

i 11 20 89.825 87.666 85.92 78.4?4 77.886 78.323 78.301 73.755 77.754

'4 t

21 30 73.42 67.794 75.273 72.689 73.324 74.048 74.781 72.464 72.564 ~

i 31 37 72.752 72.664 72.571 72.578 72.138 72.574 72.547 Ice Condonner 1 10 19.117 20.058 18.894 19.295 21.889 18.328 18.247 17.842 18.283 i

n

)

Calibrated Instrum:nt Dato Catawba Nuclear Statlon Unit 2 i

Roosng 8 261 - Feb 07142027 j

Pressures (PSIA) i Lower / Upper Cont.1 2 29.197 29.196 Ice Condenser 11 29.207 Dow Points CF)

Lower / Upper Cont.1 5 32.621 33.087 33 207 33.868 33.821 les Condenser 1I 13.508 Temperatures PO tower / Upper Cont.1 10 70.848 77.01 75.886 77.667 77.655 74.08 74.697 75.567 75.49 B6.615 i

11 20 89.76 87.452 85.92 78.402 78.025 78.379 78228 73.764 77.842 74.549 21 30 73.443 67.794 75.101 72.721 73.324 74.058 74.79 72.441 72.555 72.834 31 37 72.794 72.641 72.585 72.578 72.175 72.574 72.57 Ice Condoneer 1 10 19.321 19.802 19.033 19.349 21.738 18.328 18.226 17.842 18.2B3 18.301 i

Roosng 8 262 - Feb 0714:30:27 Pressures (PSLA)

Lowee/ Upper Cont.1 2 29.197 29.196 I

Ice Condoneer 11 29.207 Dew Points CD Lower /Uppor Cont.1 5 32624 32.93 33.131 33 868 33.821 s

Ice Condenser 1I 14 247 Temperatures CD I

Lower / Upper Cont.1 10 70.857 76.987 75.863 77 658 77.673 74.089 74.711 75 558 75.509 86 666 11 20 89.672 87.494 85.952 78.425 77.993 78.333 78.407 73.778 77.744 74.558 21 30 73.434 67.803 75 306 72.777 73.315 74.067 74.781 72.464 72.587 72.76 31 37 72.892 72.678 72.562 72.564 72.087 72.616 72.556 Ice Condoneer 1 10 19.536 19.621 19.183 19.369 21.803 18.306 18.226 17.842 18.294 18.333 l

Roosng # 263 - Feb 0714 4028 Pressures (PSIA)

Lower / Upper Cont.1 2 29.195 29.194 ice Condoneer 1I 29.205 Dew Points P0 t

Lower / upper cont.1 $ 32.622 33.006 33 05 33.793 33.746 Ice Condenser 1.1 13.951 Temperatures C0 Lower / Upper Cont.1 10 70.88 76.987 75.895 77.7 77.673 74.089 74.688 75.567 75.5 86.712 11 20 89.686 87.471 85.929 78.481 77.984 78.384 78.398 73.787 77.577 74 558 l

21 30 73.443 67.803 75.533 72.703 73.315 74.048 74.7bi 72.474 72.675 72.82 31.37 72A36 72.655 72.789 72.564 72.226 72.56 72.588 l

les Condenser 1 10 19.803 19.513 19.118 19.38 21.835 18.317 18.247 17.842 18.294 18367 i D

i h

i I

r I

Calibrotad instrument Dato Calowba Nuclear Station Unit 2 RoocSng # 264 - Feb 0714.50-29 Prosauros (PSIA)

Lower / Upper Cont.1 2 29.195 29.194 les Condoneer 1I 29.205 Dew Points CF)

Lower / Upper Cont.1 5 32.545 32.472 33.052 33.79 33.743 leeCondenser 1I 13.365 Temperatures CF)

Lower / Upper Cont.1 10 70.88 77.024 75 863 77.732 77.683 74.154 74.697 75.567 75.509 86 689 11 20 89.807 87.536 85.971 78.443 77.895 78.365 78.268. 73.778 77.6 74.558 21 30 73.467 67.813 75.306 72.665 73.356 74.09 74.79 72.474 72.578 72.858 31.37 72.836 72.687 72.669 72.546 72.152 72.639 72.579 Ice Condoneer 1 10 19.771 19.502 19.9 19.337 21.76 18.383 18.237 17.842 18.303 18.376 i

ReacSng # 265 - Feb 07159029 Preneures (PSIA)

Lower / Upper Cont.1 2 29.194 29.193 i

les Condoneer 11 29.204 Dew Points CF)

Lower /Uppor Cont.1 5 32.545 30.823 33.052 33.703 33.67 Ice Condonner 1I 13.072

+

Temperatures CF)

Lower / Upper cont.1 10 70,88 77 75 909 77.7 77.715 74.122 74.743 75.581 75.518 86 615 11.20 89.695 87.605 85 952 78 49 77.993 78.43 78.203 73.787 77.916 74.558 21.30 73,434 67.813 75.566 72.689 73.324 74.09 74.804 72.474 72.629 72.867 31 37 72.947 72.705 72.562 72.601 72.161 72.505 72.588 ice Condoneer 1 10 19.471 19.941 20.167 19.295 21.535 18.34 18.289 17.863 18.314 18 367 Rooding 8 266 - Feb 0715:10 30 Proesures (PSIA)

Lower / Upper Cont,1 2 29.194 29.193 Ice Condenser 1I 29.204 Dew Points CF)

[

Lower / Upper Cont.1 5 32.466 32.851 32.895 33.714 33.67 l

Ice Condoneer 1I 12.976 Temperatures CF)

Lower / Upper Cont.1 10 70.913 77.024 75.886 77.755 77.706 74.163 74.73 75.591 75.509 86 68 11 20 89.742 87.754 85.943 78.467 78.067 78.477 78.226 73.797 77.698 74 558 l

21 30 73.434 67.836 75.654 72.703 73.347 74.104 74.804 72.464 72.638' 72.211 31 37 72.905 72.719 72.608 72.588 72.226 72.574 72.556 4

+

Ice Condenser 1 10 19.279 20.112 20.34 19.221 21.501 18.306 18.311 17.874 18.325 18 376 l

1 t

6

1 i

Calibrated Instrum:nt Data Catawba Nuclear $tation Unit 2

)

Etatng a 267 - Feb 0715:20".30 i

Presouros (PSIA)

Lower / Upper Cont.1 2 29.193 29.192 i

Ice Condoneer 11 29 203 i

Dow Points CF)

Lower / Upper Cont.1 5 32.466 32.848 32 977 33.638 33.67 les Condenser 1I 12.876 Temperatures CF) f Lower / Upper Cont.1 10 70.922 77.042 75.919 77.7 77.715 74.154 74.73 75.591 75.541 86.656 l

11 20 89.686 87.712 85.943 78.49 77.928 78.463 78.254 73 806 77.86 74 558 21 30 73.443 67.836 75.403 72.679 73.315 74 039 74.804 72 464 72.652 72.703 31 37 73.003 72.696 72.553 72.564 72.175 72.574 72.57 lee Condenser 1 10 19.16 20.251 20.039 19.585 21.383 18.306 18.289 17.874 18.271 18.344 Roodlng 8 264 - Feb 0715:30:30 Pressures (PSIA)

Lower / Upper Cont.1 2 29.193 29.192 Sco Condoneer I1 29.203 Dew Points CF)

Lower / Upper Cont,1 5 32 3B8 32.848 32813 33 638 33.583 Ice Condenser 1I 12.921 Temperatures CF) f Lower / Upper cont.1 10 70.903 77.042 75.942 77,755 77.729 74.154 74 72 75 614 75.532 86 e89 l

11 20 89.769 87.647 85.952 78 481 78.234 78.463 78.301 73.806 77.842 74.558 1

21 30 73.467 67.85 75.273 72 661 73.356 74.09 74.823 72.506 72.587 72.746 31 37 72.873 72.696 72.715 72.588 72 138 72.551 72.588 ice Condoneer I 10 19.149 20.112 19.461 19.605 22.008 18.317 18.311 17.874 18.283 18.367 i

i DoocSng 8 269 - Feb 0715:40r.31 Pressures (P$lA)

[

Lower / Upper Cont.1 2 29.192 29.191 ice Condonner 11 29.202 Dew Points CD tower / Upper Cont.1 5 32.388 32.927 32.893 33.638 33.586 Ice Condenser 11 12.778 Temperatures CF) 4 tower / Upper Cont.1 10 70.913 77.024 75.951 77.742 77.729 74.154 74.73 75.632 75.551 86 666 I 11 20 89.825 87.703 85.985 78 481 78.253 78.583 78.426 73.82 77.707 74 581 i

21 30 73.49 67.836 75.283 72.679 73.356 74.104 74.855 72.506 72.611 72.876 i 31 37 72.808 72.655 72.669 72.564 72.138 72.625 72.579 ice Condenser 1 10 19.053 19.865 19.9 19.542 22.18 18.317 18.289 17.885 18.337 18 3t.4 1

i h

I l

l r

i

Calibrated Instrurnent Dceto Colowtm Nuclear Skmon Ur# 2 Roadng 8 270 Feb 0715:50:31 r

Pressurge (PSLA)

I Lower / Upper Cont.1 2 29.191 29.191 les Condenser 11 29.202 Dew Points CF)

Lower / Upper cont.1 5 32.313 32.697 32.893 33.557 33.507 ice Condenser tI 12.679 Temperatures 00 tower / Upper cont.1 10 70.913 77 042 75.919 77 755 77.738 74.177 74.767 75.646 75.541 86.68 11 20 89.793 87.666 85.985 78.443 78.146 78.463 78.366 73.82 77.73 74.558 21 30 73.457 67.836 75.362 72.661 73.403 74.081 74.846 72.506 72.597 72.82 31 37 72.794 72.631 72.715 72 564 72.194 72.658 72.602 les Condenser 1.10 18.987 19.706 20.649 19.326 22.417 18.328 18.28 17 c196 18.357 18.313 Roodng a 271 - Feb 071690:31 Pressures (PSLA)

Lower /Uppor Cont. l 2 29.191 29.19 Ice ( ondenser 11 29.201 Dew Points (*F)

Lowet/Uppor Cont.1 5 32.312 32.472 32.813 33 557 33.507 i

Ice conoonsor 1I 12.584 Temperatures CF)

Lower / Upper Cont.1 10 70.922 77.065 75 993 77.732 77.752 74.154 74.776 75.646 75.565 86 735 11 20 89.783 87.744 86.027 78.457 78.155 78.551 78.384 73.829 77.772 74.591 21 30 73 49 67.859 74.786 72.703 73.403 74.104 74.846 72.529 72.587 72.82 31 37 72.836 72.705 72.706 72.578 72.175 72.658 72.602 Ice condenser 1 10 18.956 19.545 21.377 19.272 21.729 18.317 18.28 17.908 18.357 18.322 I

Reading # 272 - Feb 0716:10:32 i

Lower / Upper Cort.1 2 29.19 29.189 lee Condenser I1 29.2 Dew Points CF)

Lower / Upper Cont. l 5 32.31 32.307 32.735 33.557 33.428 Ice Condenser 1I 12.587 l

Temperceures CF)

Lower / Upper Cont.1.10 70.936 77.084 75.951 77.755 77.761 74.177 74.818 75.656 75.574 86.745 11 20 89.881 87.624 86.05 78.467 78.058 78.439 78.449 73.852 77.99 74.581 21 30 73.49 67.859 75.241 72.689 73.435 74.C9 74.846 72.529 72.597 72.793 31 37 72.924 72.678 72.724 72.601 72.129 72.658 72.57 Ice Condenser 1.10 19.268 19.578 20.113 19.124 21.426 18.317 18.289 17.917 18.368 1B.322 i

e f

i k

8 I

t

Calibrotcd Instrument Data Catawba Nuclear Station Unit 2 i

Rooding # 273 Feb 0716 2032 Pressures (PSIA)

Lower / Upper Cont.1 2 29.19 29.180 Ice Condoneer 11 29.2 Dew Pointe (*F)

Lower / Upper Cont. l 5 32.234 32.228 32.659 33 4 33.428 I

see Condenser

1. I 12.532 i

i Temperatures (*O Lower / Upper Cont.1 10 70.945 77.084 75.928 77.797 77.78 74.205 74.794 75.656 75.565 S6.735 11 20 89.946 87.712 86.04 78.457 78.039 78.407 78.301 73.861 77.243 74.567 21.30 73.499 67.85 75 478 72.703 73.412 74.123 74.878 72.548 72.597 72.811 31 37 72.905 72.705 72.734 72.578 72.064 72.648 72.602 Ice Condenser 1 10 19.352 19A71 19.577 19.048 21 A8 18.349 18.3 17.917 18.368 18.322 i

t Rooding # 274 - Feb 0716.30.33 Pressures (P$lA) i Lower /Opper Cont.1 2 29.19 29.189 les Condoneer 1I 29.2 Dew Pointe (*F)

Lower /Uppor Cont.1 5 32.23 32.694 32.734 33 399 33.35 ice Concenser 1I 12 431 Temperatures (*F)

(

Lower / Upper Cont.1 10 70.954 77.098 75.96 77 797 77 794 74.163 74.785 75.679 75.565 86.689 f

11 20 89.825 87.754 86.082 78.467 77.83 78.398 78.505 73.852 77.559 74.581 21 30 73.522 67.868 75.143 72.721 73.403 74.123 74.878 72.548 72.629 72 779 J

31 37 72.762 72.687 72.636 72.601 72.226 72.639 72.588 les Condenses 1.10 19.245 19.845 19.333 19,059 21.674 18.394 18.269 17.917 18.368 18 344 I

Rooding # 275 - Feb 0716:42.34 Pressures (PSIA)

Lower /Uppor Cont.1 2 29.189 29.188

}

tco Condonner 11 29.199 j

Dew Pohls (*F) tower / upper cont.1 5 32.233 31.525 32.662 33.32 33.35 ice Condenser 1I 12.531 l

Temperatures (*F) tower / Upper Cont. I 10 70.954 77.098 75.983 77.765 77.78 74.251 74.794 75.665 75.597 86.819 i

11 20 89.816 87.615 86.003 78 499 77.993 78.43 78.384 73.852 77.967 74 567 2130 73A09 67.859 75.543 72.703 73A21 74.123 74.878 72.543 72.685 72 876 31 37 72.794 72.761 72.65 72.611 72.259 72.584 72.612 i

tee Condenser 1 10 19.137 19.952 19.129 19.133 22.234 18.436 18.258 17.917 18.368 18.333 I

I 4

4 r

i

~

i I

l

= ;

i Calibrot;d Instrum:nt Dato i

Colcrwbo Nuclear $leNon I

Unit 2 1

Deoding a 276 - Feb 0716:5(t34 i

Preneures (PstA)

Lower / Upper Cont.1 2 29.188 29.187 sco Condoneer 1I 29.198 Dow Points 00 Lower / Upper Cont.1. 5 32.152 30.051 32.581 33.321 33.272 I

lee Condenser 1I 12.63 i

Temperatures C0 Lower / Upper Cont.1.10 70.977 77.084 75.942 77.807 77.803 74.219 74.808 75.679 75.606 86.81 11 20 89.858 87.633 86.059 78 481 77.993 78.574 78.421 73.861 77.958 74 581 i

21 30 73.499 67.868 75.403 72.712 73.435 74 123 74.878 72.548 72.62 72.867 31 37 72.905 72.655 72.706 72.62 72.152 72.658 72.635 t

Ice Condoneer 1.10 19.149 20.2 19.053 19.113 21.997 18.403 18.289 17.939 18.368 18.398 l

f Deoding s 277 - Feb 0717:00 35 Pressures (PSIA) l Lower / Upper Cont.1 2 29.187 29.186 leeCondenser 11 29.197 Dow Points CD Lower / Upper Cont.1 5 32.076 30 284 32.507 33 323 33.272 Ice Condenser 1I 12.778 Temperatures CO

.i Lower / Upper Cont.1 10 70.991 77.098 75.942 77.779 77.803 74.261 74.794 75.665 75.606 86.745

}

11 20 89.839 87.68 86.027 78 481 77.798 78.481 78.398 73.852 77.999 74 591 s

21 30 73.522 67.859 75.143 72.661 73.444 74.137 74.887 72.562 72.652 72.793 j

31 37 72.817 72.6 % 72.78 72.611 72.226 72.648 72.676 Ice Condenser 1 10 19.171 20.145 19.021 19.113 21.9 18.349 18.311 17.939 18.368 18 378 i

I l

i

+

I 1

I r

i 4

i

~?

Catawba Unit 2 APPENDIX F Local Leakage Rate Testing Conducted Since Last ILRT Repons:

Local Leak Rate Test Summary EOC-3 Type B & C Leak Rate Test Repon EOC-4 Type B & C Leak Rate Test Repon EOC-5 Type B & C Leak Rate Test Repon I

F I

h t

h f

f

l

)

l Since the last Type A Test performed on Catawba Unit 2 in March of 1989, localleak rate testing was conducted in accordance with 10CFR50 Appendix J and the station Technical Specifications. During this time period, the summation of the Type B and C leakage rates averaged less than 11642 scem, which is well below the acceptance criterion of 82979 secm. The maximum Type B and C leakage rate j

over this time period was 14975 sccm, which still represents less than.11La.

l 1

Attached are three printouts listing leakage rates for all Type B and C penetrations: Printout #1 lists a i

summary of As-Left leakage rates for the Unit 2 EOC-3 refueling outage, Printout #2 lists the As-Left l

leakage rates for the Unit 2 EOC-4 refueling outage, and Printout #3 lists the As-Left leakage rates for j

the Unit 2 EOC-5 refueling outage. The " Reported Leakage" for each penetration is the Maximum Pathway leakage rate. When the measured leakage rate is less than the lower (threshold) limit for which the Volumetrics Leak Rate Monitor is calibrated, the calibrated lower limit is reported as the leakage rate.

j Acceptance Criterion 11.2 on Page 11 of the printouts addresses penetrations which are " Bypass Leakage Paths". (l.E., Any leakage through these penetrations would escape both the Containment Vessel and the Reactor Building, bypassing the Annulus.) Acceptance Criterion 11.3 addresses the I

Containment Purge System penetrations.

I Attached is a summary of the Type B and C penetrations which failed the local leak rate test since the l

last ILRT. However, t's Minimum Pathway Leakage Rates were always well below the acceptable i

limits. The list does not include failures of valves being retested following maintenance, or failures of l

the Containment Purge System valves after they had been opened. (These large butterfly valves, which are opened only during plant shutdown, have a 30% probability of leak rate test failure following cycling.

It is for this reason that an As-Found LRT on all of the purge valves was performed prior to opening -

l them.)

t I

a 4

1 a

li i

i 1

l j

A i

r Valve No. and Type Leakage Rate Date of Failure 2RN405(6* Check)

Unable to maintain test 6/26/90 l

pressure 2NC142(2" Gate)

Unable to maintain test 7/3/90 pressure i

2RN438(12* Check)

Unable to maintain test 7/19/90 pressure 2NM22A(1/2" Globe)

Unable to maintain test 8/13/90 i

pressure i

2NM26B(1/2" Globe)

Unable to maintain test 8/13/90 pressure 2WL321(3/4" Check)

Unable to maintain test 10/91 pressure 2NB262(3/4" Check)

Unable to maintain test 11/91 pressure i

2N1471(3/4" Check)

Unable to maintain test 11/91 pressure 2NI48(1" Check)

Unable to maintain test 11/91 pressure l

l 2NC142(2* Gate)

Unable to maintain test 2/11/93 i

pressure j

2Ni471(3/4" Check)

Unable to pass forward flow 3/10/93

[

i l

i i

?

I

)

I i

1 t

Printout n 000006

"^" 1 Jnit 2 EOC3 As-Left CATAWBA NUCLEAR STATION Leakage Rates CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAYAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

-=========

PT/2/A/4200/01C - Containment Isolation Valve LRT PT/2/A/4200/41B - VQ Valve LRT ( 2VQ2A & 2VQ16A only)

(TYPE C)

• M212 2NC54A 07/04/90 8.3 /

20.0 2.0 20.0 2NC53B 07/04/90 3.8s 20.0 2.0

• M215 2VB85 06/15/90 43.1 20.0 2.0 43.1 2VB83B 06/15/90 41.9<

20.0 2.0

• M216 2NC57 06/25/90 1.6 /

20.0 2.0 20.0

• M219 2VS56 06/25/90 3.5/

20.0 2.0 20.0 2VSS4B 06/25/90 0.0-2.0 0.2

• M220 2VI79 07/12/90 0.0' 10.0 1.0 58.5 2VI77B &

07/12/90 58.5 /

10.0 1.0 2VI312A

• M221 2WL868 06/15/90 218.0s# 200.0 20.0 218.0

• M240 2RN438 08/03/90 10.0 /

10.0 1.0 10.0

• M204 2VQ15B 06/29/90 8.0 /

20.0 2.0 20.0 2VQ16A 06/29/90

~ 1.5 20.0 2.0

• M230 2RN485 07/19/90 0.0 10.0 1.0 10.0

• M259 2NB262 07/02/90 2 9. 5.'

20.0 2.0 29.5 2NB260B 07/02/90 2.5-20.0 2.0

• M235 2NM7B 08/13/90

1. 8 ' -

10.0 1.0 20.0 2NM3A 09/01/90

0. 0 V 10.0 1.0 2NM6A &

08/13/90 0.6 10.0 1.0 2NM424

• M331 2NI48 07/01/90 10.2 20.0 2.0 25.0 2NI47A 07/01/90 25.0 20.0 2.0

• M310 2NM26B 08/22/90 0.6' 10.0 1.0 20.0 2NM22A 08/22/90

1. 5 '

10.0 1.0 2NM25A &

08/13/90 0.Os 10.0 1.0 2NM425

• M308 2RN430 06/25/90 2.6-20.0 2.0 20.0

j t

i-1 1-B 1

1 1

i s

d i

1 1i i

a e

t.

N i

1 1

i e

6

(

i I

s 2

s i

l' s

t l

l 2

i:

i..

L l;.

1.~

s.

s i

i l'

I.

i i

p.

1 l

l i

~

s 4

i' l ~;

l j, '.

9.~ww w-

-M1-ww+ w r Fww w tammw-w-t-'

Page 2 000007 CATAWBA NUCLEAR STATION i

CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS i'

PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED I

PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

=====.

• M316 2RF392 07/05/90 12.7v 20.0 2.0 20.0

{

• M323 2KC430A 07/05/90 48.5<

20.0 2.0 48.5 l

2KC429B &

07/05/90 43.6, 20.0 2.0 2KC47

• M322 2NI95A 08/29/90 32.0v 10.0 1.0 32.0 2NI96B &

07/25/90

0. 4 <

10.0 1.0 2NI120B

• M327 2NC141 07/03/90 8.3 V 20.0 2.0 20.0 2NC142 07/25/90 11.6 /

10.0 1.0

• M329 2NC196A 07/03/90

5. 4 '

20.0 2.0 20.0 2NC195B 07/03/90 14.0, 20.0 2.0

• M332 2VY16 06/16/90 104.9" 20.0 2.0 104.9 I

2VY15B 06/16/90 90.0#

20.0 2.0

• M337 2YM121 07/12/90 0.0 10.0 1.0 35.0 1

2YM119B 07/12/90 35.0 /

10.0 1.0

• M348 2WL450A 07/14/90 16.5

10.0 1.0 19.0

{

2WL451B 07/14/90 19.0/

10.0 1.0

• M361 2RF448 07/05/90 22.5' 20.0 2.0 22.5 i

• M356 2WE20 &

06/27/90 44.0 /

20.0 2.0 44.0 2WE22

• M377 2FW5 06/21/90

1. 0 '

20.0 2.0 20.0 2FW4 06/21/90 9.0' 20.0 2.0

• M358 2FW11 &

06/19/90 42.0-20.0 2.0 42.0 2FW13 l

• M373 2NF229 07/07/90 0.3p 10.0 1.0 110.0 2NF228A 07/07/90 110.0 100.0 10.0

• M386 2VQ3B 06/26/90 23.8, 20.0 2.0 23.8 2VQ2A 06/26/90 0.0 20.0 2.0

• M385 2RN405 07/07/90 1730.0 -

1000.0 100.0 1730.0 1

.Page 3 000008 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE-13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

=c

~==____=___-

_-==________===========_______=__-

.__======

• M372 2NF234A 07/07/90

0. 0 "

10.0 1.0 20.0 2NF233B 07/07/90

1. 0 '

10.0 1.0 2NF235 07/07/90 0.8v 10.0 1.0

• M328 2KC340 06/25/90 105.0 <

20.0 2.0 105.0 M228 2NV874 06/27/90

4. 5 <

20.0 2.0 56.4 2NV872A 06/26/90 56.4 /

20.0 2.0 M346 2VY17A 06/16/90 101.6-20.0 2.0 101.6 2VYl8B 06/16/90 97.2<

20.0 2.0 M256 2NV90 06/25/90

4. 8 '

20.0 2.0 20.0-M347 2NV15B &

07/27/90 810.0<'

100.0 10.0 810.0 2NV14 M345 2WL806 08/08/90

2. 0 '

10.0 1.0 10.0 M374 2WL321 07/03/90 9.2 /

20.0 2.0 20.0 M359 2WLA22 06/25/90 16.0 '

20.0 2.0 20.0 M236 2NM72B 07/10/90 0.O' 20.0 2.0 80.0 2NM75B 07/10/90 12.9' 20.0 2.0 2NM78B 07/10/90 10. 5 ',

20.0 2.0 2NM81B 07/10/90 7.5" 20.0 2.0 2NH82A &

07/10/90

0. 0

• 20.0 2.0 2NM69 M321 2KC279 06/25/90

2. 3 -

20.0 2.0 20.0 1 CNIP-2 mil ANALYZER 07/23/90 0.0 10.0 1.0 18.8

~

SAMPLE 07/23/90 18.8.

10.0 1.0 CNIP-2MI2 ANALYZER 07/23/90 19.0 10.0 1.0 32.2 i

SAMPLE 07/23/90 32.2<

10.0 1.0 CNIP-2MI3 ANALYZER 07/23/90 3.9-10.0 1.0 37.0 SAMPLE 07/23/90 37.0 10.0 1.0 CNIP-2MI4 ANALYZER 07/23/90

2. 0 '

10.0 1.0 10.0 l SAMPLE 07/23/90

9. 6 '

10.0 1.0 CNIP-2 MIS 2MIMV6480 06/14/90 0.0, 2.0 0.2 2.0 j

2MIMV6481 06/14/90 0.0 2.0 0.2 i

l j

Page 4 000009 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST RETORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAYAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

=-

--==========

=

CNIP-2MI6 2MIMV6490 06/14/90 0.0 2.0 0.2 2.0 2MIMV6491 06/14/90 0.0.

2.0 0.2 CNIP-2MI7 2MIMV6470 06/14/90 0.0' 2.0 0.2 2.0 2MIMV6471 06/14/90 0.0 2.0 0.2 CNIP-2 EMF 2MISVS230 07/12/90 0.0-20.0 2.0 20.0 f

<IN>

2MISV5231 07/12/90 0. 7.-

20.0 2.0 CNIP-2 EMF 2MISV5232 07/12/90 5.5 20.0 2.0 20.0

<OUT>

2MISV5233 07/12/90 3.5v 20.0 2.0 i

CNIP-2NS2 2NSPT5060 &O7/13/90 2.0 20.0 2.0 20.0 2NSPT5170 &

2NSPT5180 CNIP-2NS3 2NSPT5050 &O7/13/90 0.7-20.0 2.0 20.0 2NSPT5250 &

2NSPT5260 CNIP-2NS4 2NSPT5040 &O7/13/90 4.0 <

20.0 2.0 20.0 2NSPT5270 &

2NSPT5380 &

2NSPT5240 i

CNIP-2NS1 2NSPT5070 &O7/13/90

4. 3 '

20.0 2.0 20.0 2NSPT5160 &

2NSPT5190 &

2NSPT5370 Upper PAL 2IASV5080 08/11/90 4.4 J 20.0 2.0 20.0 Air Supply / 2IACV5340 08/11/90

6. 3 '

20.0 2.0 Equal. Pen. 2IACV5360 08/04/90 6.8.

20.0 2.0 211ACV5380 08/04/90 17. 3. '

20.0 2.0 Lower PAL 2IASV5160 08/17/90 1.0 /

10.0 1.0 42.7 Air Supply / 2IACV5350 08/17/90

1. 5 /

10.0 1.0 i

Equal. Pen. 2IACV5370 08/18/90 7.0/

10.0 1.0 2IACV5390 08/18/90 42.7e 10.0 1.0 4

i 3

i Page 5 000010 i

CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED i

PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

=,m.-,

= = = =---

___=====

- = = = = = = = = = = = = = = = =,

1"/2/A/4200/41A - Containment Purge Isolation Valve LRT (TYPE C)

/ *M213 2VP17A &

08/31/90 11.2 20.0 2.0 20.0 2VP18B

/ *M119 2VP15A &

08/31/90 20.0 20.0 2.0 20.0 2VP16B

/ *M140 2VP19A &

08/30/90 963.0 200.0 20.0 963.0 2VP20B

/ *M357 2VP6B &

08/30/90 302.0 200.0 20.0 302.0 2VP7A

/*M434 2VP8B &

08/30/90 235.0 200.0 20.0 235.0 2VP9A

/ *M368 2VP10A &

08/30/90 916.0 200.0 20.0 916.0 2VP11B

/ *M433 2VP12A &

08/30/90 259.0 200.0 20.0 259.0 2VP13B

/ *M456 2VP1B &

08/31/90 72.0 20.0 2.0 72.0 2VP2A

/ *M432 2VP3B &

08/30/90 67.6 20.0 2.0 67.6 2VP4A PT/2/A/4200/01B - Electrical Penetration 0-Ring Leak Rate Test (TYPE B)

E101 06/13/90 0.0 1.0 0.1 1.0 E102 06/13/90 0.0 1.0 0.1 1.0 E103 06/13/90 0.0 1.0 0.1 1.0 E104 06/13/90 0.0 1.0 0.1 1.0 E105 06/13/90 0.0 1.0 0.1 1.0 E106 06/13/90 0.0 1.0 0.1 1.0 i

Pago 6 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

===------===-

=-

_-=======

E107 06/13/90 0.0 1.0 0.1 1.0 E108 06/13/90 0.0 1.0 0.1 1.0 E109 06/13/90 0.0 1.0 0.1 1.0 Elli 06/13/90 0.0 1.0 0.1 1.0 E112 06/13/90 0.0 1.0 0.1 1.0 E114 06/13/90 0.0 1.0 0.1 1.0 E115 06/13/90 0.0 1.0 0.1 1.0 E116 06/13/90 0.0 1.0 0.1 1.0 E117 06/13/90 0.0 1.0 0.1 1.0 E118 06/13/90 0.0 1.0 0.1 1.0 E120 06/12/90 0.0 1.0 0.1 1.0 E122 06/12/90 0.0 1.0 0.1 1.0 E123 06/12/90 0.0 1.0 0.1 1.0 E124 06/12/90 0.0 1.0 0.1 1.0 E126 06/12/90 0.0 1.0 0.1 1.0 E127 06/12/90 0.0 1.0 0.1 1.0 E129 06/12/90 0.0 1.0 0.1 1.0 E130 06/12/90 0.0 1.0 0.1 1.0 E132 06/12/90 0.0 1.0 0.1 1.0 E133 06/12/90 0.0 1.0 0.1 1.0 E134 36/12/90 0.0 1.0 0.1 1.0 E135 06/12/90 0.0 1.0 0.1 1.0 E136 06/12/90 0.0 1.0 0.1 1.0 i

i

i Page 7 CATAWBA NUCLEAR STATION 000012 CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TEST 3 i

PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT i

MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

======-

---

=

====____=== ;

E137 06/12/90 0.0 1.0 0.1 1.0 E200 06/12/90 0.0 1.0 0.1 1.0 E202 06/12/90 0.0 1.0 0.1 1.0 E203 06/12/90 0.0 1.0 0.1 1.0 E205 06/12/90 0.0 1.0 0.1 1.0 E206 06/12/90 0.0 1.0 0.1 1.0 E208 06/12/90 0.0 1.0 0.1 1.0 E211 06/12/90 0.0 1.0 0.1 1.0 E222 06/12/90 0.0 1.0 0.1 1.0 E223 06/12/90 0.0 1.0 0.1 1.0 E224 06/12/90 0.0 1.0 0.1 1.0 L

E225 06/12/90 0.0 1.0 0.1 1.0 \\

E226 06/12/90 0.0 1.0 0.1 1.0 E231 06/12/90 0.0 1.0 0.1 1.0 E232 06/12/90 0.0 1.0 0.1 1.0 E233 06/12/90 0.0 1.0 0.1 1.0 E237 06/12/90 0.0 1.0 0.1 1.0 E238 06/12/90 0.0 1.0 0.1 1.0 E244 06/12/90 0.0 1.0 0.1 1.0 E245 06/12/90 0.0 1.0 0.1 1.0 f

E252 06/12/90 0.0 1.0 0.1 1.0 E268 06/12/90 0.0 1.0 0.1 1.0 E269 06/12/90 0.0 1.0 0.1 1.0

~.

Page 8 CATAWBA NUCLEAR STATION 000013 CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS i

PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

==

E270 06/12/90 0.0 1.0 0.1 1.0 E271 06/12/90 0.0 1.0 0.1 1.0 E311 06/12/90 0.0 1.0 0.1 1.0 E313 06/11/90 0.0 1.0 0.1 1.0 E364 06/11/90 0.0 1.0 0.1 1.0 E366 06/11/90 0.0 1.0 0.1 1.0 E379 06/11/90 0.0 1.0 0.1 1.0 E391 06/11/90 0.0 1.0 0.1 1.0 E392 06/11/90 0.0 1.0 0.1 1.0 E395 06/11/90 0.0 1.0 0.1 1.0 E398 06/11/90 0.0 1.0 0.1 1.0 E399 06/11/90 0.0 1.0 0.1 1.0 E3102 06/11/90 0.0 1.0 0.1 1.0 E402 06/13/90 0.0 1.0 0.1 1.0 E403 06/13/90 0.0 1.0 0.1 1.0 E412 06/11/90 0.0 1.0 0.1 1.0 E415 06/11/90 0.0 1.0 0.1 1.0 E418 06/13/90 0.0 1.0 0.1 1.0 E419 06/13/90 0.0 1.0 0.1 1.0 E420 06/13/90 0.0 1.0 0.1 1.0 E421 06/13/90 0.0 1.0 0.1 1.0 E424 06/11/90 0.0 1.0 0.1 1.0 E425 06/11/90 0.0 1.0 0.1 1.0

Page 9 000014 CATAWBA NUCLEAR STATION i

CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 1

TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TFST LEAK LOWER ERROR LEAKAGE T,

tE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

_ _ _ _ = -

- ___=________=___m========

E426 06/11/90 0.0 1.0 0.1 1.0 E427 06/11/90 0.0 1.0 0.1 1.0 E428 06/11/90 0.0 1.0 0.1 1.0 E429 06/11/90 0.0 1.0 0.1 1.0 E430 06/11/90 0.0 1.0 0.1 1.0 E431 06/11/90 0.0 1.0 0.1 1.0 E439 06/11/90 0.0 1.0 0.1 1

E440 06/11/90 0.0 1.0 0.1 1.0 E443 06/13/90 0.0 1.0 0.1 1.0 E444 06/13/90 0.0 1.0 0.1 1.0 E445 06/13/90 0.0 1.0 0.1 1.0 E446 06/13/90 0.0 1.0 0.1 1.0 E447 06/13/90 0.0 1.0 0.1 1.0 E448 06/13/90 0.0 1.0 0.1 1.0 E449 06/13/90 0.0 1.0 0.1 1.0 E450 06/13/90 0.0 1.0 0.1 1.0 PT/2/A/4200/01D - Fuel Transfer Tube LRT (TYPE B)

FUEL TRANSFER TUBE 08/23/90 2.4 20.0 2.0 20.0 PT/2/A/4200/01E - Upper Personnel Air Lock LRT (TYPE B)

/

UPPER PAL 08/28/90 645.6 220.0 22.0 645.6

Page 10 CATAWBA NUCLEAR STATION 000015 CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT l

MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

= - = _ -.

PT/2/A/4200/01F - Lower Personnel Air Lock LRT (TYPE B)

/

LOWER PAL 08/29/90 231.0 110.0 11.0 231.0 PT/2/A/4200/01H - Equipment Hatch LRT (TYPE B)

/

EQUIPMENT HATCH 08/29/90 2.1 20.0 2.0 20.0 PT/2/A/4200/01P - NF Penetration LRT (TYPE B) j t

M371 08/17/90 0.0 20.0 2.0 20.0 M394 08/17/90 0.0 20.0 2.0 20.0 PT/2/A/4200/01R - M301, M234, M452 Penetration LRT (TYPE B)'

i M234 08/17/90 0.0 20.0 2.0 20.0 M301 06/14/90 22.6 20.0 2.0 22.6 M452 08/17/90 0.0 20.0 2.0 20.0 PT/2/A/4200/01M - Incore Instr. LRT (TYPE B)

E121 07/30/90 0.6 10.0 1.0 10.0 E138 07/30/90 0.2 10.0 1.0 10.0 l

Page 11 i

000016 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS l

PT/2/A/4200/01L 1

ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT I

MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

==

==-

====.

-_--=====

i I

l l

i ACCEPTANCE CRITERIA VERIFICATION l

11.1 Combined leakage rate of less than 0.60 La for all penetrations-and valves sub]ect to Type B & C leak rate tests when pressurized to Pa (Error Adjusted leakage < 82,979 sccm).

{

t Total Type B & C Leakage:

8360.3 sccm

+ Root Sum Squared Instr. Error:

115.8 sccm

{

l Error Adjusted Leakage:

8476.1 sccm 11.2 Combined Bypass leakage of less than 0.07 La for all penetrations ',!

identified in Technical Specifications Table 3.6-1.when press-urized to Pa (Error Adjusted Leakage < 9,681 sccm).

Combined Bypass Leakage:

5805.4 sccm j

+ Root Sum Squared Instr. Error:

112.3 sccm f

Error Adjusted Leakage:

5917.7 sccm

• Identifies penetrations listed in Tech. Spec Table 3.6-1.

I 11.3 Combined leakage rate of less than 0.05 La for all upper / lower and instrument room Containment Purge penetrations when pressurized to Pa (Error Adjusted Leakage < 6,915 sccm).

{

Containment Purge Penet. Leakage:

2854.6 sccm

~

+ Root Sum Squared Instr. Error:

44.9 scem Error Adjusted Leakage:

2899.5 secm o***********************************************************************{

/ 7- [ d 8 Data Input By:

/

/' /

t Data Input Verified By: 1) h.

/ 9-2r 9 d v

v i

Printout 02 Unit 2 E0C4 Page 1 As-Left Leakage Rates CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

PT/2/A/4200/01C - Containment Isolation Valve LRT PT/2/A/4200/41B - VQ Valve LRT ( 2VQ2A & 2VQ16A only)

(TYPE C)

• M212 2NC54A 11/26/91 101.8 20.0 2.0 101.8 2NC53B 11/26/91 99.7 20.0 2.0

• M215 2VB85 10/22/91 3.5 20.0 2.0 20.0 2VB83B 10/22/91 7.0 10.0 1.0

• M216 2NC57 10/25/91 0.0 20.0 2.0 20.0

• M219 2VS56 11/22/91 0.0 20.0 2.0 431.0 2VS54B 11/22/91 431.0 100.0 10.0

• M220 2VI79 11/09/91 0.0 20.0 2.0 20.0 2VI778 &

11/09/91 0.0 10.0 1.0 2VI312A

• M221 2WL868 10/21/91 16.3 20.0 2.0 20.0

• M240 2RN438 10/27/91 17.8 20.0 2.0 20.0

• M204 2VQ15B 11/20/91 0.0 20.0 2.0 20.0 2VQ16A 11/20/91 11.4 20.0 2.0

• M230 2RN485 10/27/91 1.8 20.0 2.0 20.0

• M259 2NB262 11/25/91 0.0 20.0 2.0 44.5 2NB260B 11/08/91 44.5 20.0 2.0

• M235 2NM7B 12/04/91 0.0 20.0

- 2. 0 62.7 2NM3A 12/04/91 1.7 20.0 2.0 2NM6A &

12/04/91 42.7 20.0 2.0 2NM424

• M331 2NI48 11/26/91 4.0 20.0 2.0 20.0 2NI47A 11/22/91 0.0 20.0 2.0

• M310 2NM26B 10/28/91 1.0 20.0 2.0 74.0 l

2NM22A 10/28/91 54.0 20.0 2.0 l

2NM25A &

10/28/91 13.9 20.0 2.0 l

2NM425 i

• M308 2RN430 10/22/91 0.0 20.0 34), 2.0 20.0 l

Page 2 i

CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK IDWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

==

• M316 2RF392 12/07/91 0.0 20.0-2.0 20.0

• M323 2KC430A 12/09/91 7.0 20.0 2.0 20.0 2KC429B &

12/09/91 1.0 20.0 2.0 2KC47

• M322 2NI95A 12/14/91 1760.0 200.0 20.0 1760.0 l

2NI96B &

11/22/91 0.0 20.0 2.0 2NI120B

• M327 2NC141 10/30/91 0.0 20.0 2.0 20.0 2NC142 10/30/91 0.0 20.0 2.0

• M329 2NC196A 10/30/91 0.0 20.0 2.0 20.0 2NC195B 10/30/91 0.0 20.0 2.0 t

• M332 2VY16 10/29/91 51.5 10.0 1.0 68.8 2VY15B 10/30/91 68.8 20.0 2.0

• M337 2YM121 10/29/91 0.0 20.0 2.0 20.0 2YM119B 10/29/91 0.0 20.0 2.0

• M348 2WL450A 11/29/91 2.5 20.0 2.0 20.2 2WL451B 11/29/91 1.5 20.0 2.0

• M361 2RF448 11/07/91 18.0 20.0 2.0 20.0

• M356 2WE20 &

10/25/91 9.4 10.0 1.0 10.0 2WE22

• M377 2FW5 10/27/91 37.0 20.0 2.0 37.0 2FW4 10/27/91 29.0 20.0

- 2. 0

• M358 2FW11 &

10/23/91 1.8 20.0 2.0 20.0 2FW13

• M373 2NF229 10/22/91 0.0 10.0 1.0 17.0 2NF228A 10/22/91 17.0 10.0 1.0

• M306 2VQ3B 11/16/91 21.2 10.0 1.0 21.2 2VQ2A 11/16/91 9.2 10.0 1.0

• M385 2RN405 10/23/91 590.0 100.0 10.0 590.0 i

Page 3 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT l

MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

• M372 2NF234A 10/22/91 0.6 10.0 1.0 20.0 2NF233B 10/22/91 0.0 10.0 1.0 2NF235 10/22/91 0.0 10.0 1.0

• M328 2KC340 11/04/91 26.0 20.0 2.0 26.0 M228 21N874 10/21/91 0.6 20.0 2.0 23.7 21W872A 10/21/91 23.7 20.0 2.0 M346 2VY17A 10/29/91 47.5 10.0 1.0 47.5 2VYl8B 10/29/91 36.0 10.0 1.0 M256 21W90 10/25/91 0.0 20.0 2.0 20.0 M347 21N15B &

11/20/91 205.0 200.0 20.0 205.0 21W14 M345 2WL806 11/15/,1 0.0 20.0 2.0 20.0 M374 2WL321 12/04/91 0.0 20.0 2.0 20.0 M359 2WLA22 10/29/91 0.0 20.0 2.0 20.0 M236 2NM72B 10/28/91 1.5 20.0 2.0 80.0 2NM75B 10/28/91 0.0 20.0 2.0 2NM78B 10/2R/91 0.0 20.0 2.0 2NM81B 10/28/91 5.3 20.0 2.0 2NM82A &

10/28/91 0.0 20.0 2.0 2NM69 M321 2KC279 11/04/91 0.0 20.0 2.0 20.0 CNIP-2 mil ANALYZER 11/20/91 54.8 10.0 1.0 139.O SAMPLE 11/20/91 139.0 100.0 10.0 CNIP-2MI2 ANALYZER 11/20/91 16.0 10.0 1.0 126.0 SAMPLE 11/20/91 126.0 100.0 10.0 CNIP-2MI3 ANALYZER 11/20/91 0.0 0.0 0.0 0.0 SAMPLE 11/20/91 0.0 0.0 0.0 CNIP-2MI4 ANALYZER 11/20/91 0.0 0.0 0.0 0.0 SAMPLE 11/20/91 0.0 0.0 0.0 CNIP-2 MIS 2MIMV6480 11/05/91 0.0 20.0 2.0 20.0 2MIMV6481 11/05/91 0.0 20.0 2.0

Page 4 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.\\

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

.<SCCM>

<SCCM>

=====================

=

===-==============---

CNIP-2MI6 2MIMV6490 11/05/91 0.0 20.0 2.0 20.0 2MIMV6491 11/05/91 0.0 20.0 2.0 l

t CNIP-2MI7 2MIMV6470 11/05/91 0.0 20.0 2.0 20.0 l

2MIMV6471 11/05/91 0.0 20.0 2.0 CNIP-2 EMF 2MISV5230 10/29/91 2.5 10.0 1.0 119.0

<IN>

2MISV5231 10/29/91 119.0 100.0 10.0 CNIP-2 EMF 2MISV5232 10/29/91 2.6 10.0 1.0 10.0 i

<OUT>

2MISV5233 10/29/91 0.0 10.0 1.0

)

CNIP-2NS2 2NSPT5060 &11/08/91 0.0 2.0 0.2 2.0 2NSPT5170 &

2NSPT5180 CNIP-2NS3 2NSPT5050 &11/08/91 0.0 10.0 1.0 10.0 2NSPT5250 &

2NSPT5260 CNIP-2NS4 2NSPT5040 &11/08/91-2.0 10.0 1.0 10.0 2NSPT5270 &

2NSPT5380 &

2NSPT5240 CNIP-2NS1 2NSPT5070 &11/08/91 0.0 10.0 1.0 10.0 2NSPT5160 &

2NSPT5190 &

1 2NSPT5370 Upper PAL 2IASV5080 11/08/91 3.2 10.0

-1.0 10.0 Air Supply / 2IACV5340 11/08/91 7.2 10.0 1.0 Equal. Pen. 2IACV5360 11/08/91 4.5 10.0 1.0 21IACV5380 11/08/91 4.0 10.0 1.0 Lower PAL 2IASV5160 10/25/91 0.0 20.0 2.0 20.0 Air Supply / 2IACV5350 10/25/91 0.0 20.0 2.0 Equal. Pen. 2IACV5370 10/25/91 0.0 20.0 2.0 2IACV5390 10/25/91 10.0 20.0 2.0

Page 5

.l CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS

[

PT/2/A/4200/01L ENCLOSURE 13.1 i

TYPE B&C LEAK RATE TEST REPORT F

f

\\

MEAS.

RANCE INSTR.

-REPORTED f

PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE r

DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

i

<SCCM>

}

PT/2/A/4200/41A - Containment Purge Isolation Valve LRT-i (TYPE C) i i

' 1'. 0 f

• M213 2VP17A &

12/10/91

~ 3.3 10.0 1.0 0

2VP18B

• M119 2VP15A &

12/11/91 137.0 100.0 10.0 137.0 l

2VP16B

!l

• M140 2VP19A &

12/11/91 252.0 100.0 10.0 252.0 l

2VP20B l

t

• M357 2VP6B &

12/10/91 345.0 100.0 110.0 345.0

[

2VP7A

• M434 2VP8B &

12/10/91 228.0 100.0 10.0 228.0

.i 2VP9A

• M368 2VP10A &

12/10/91 335.0 100.0 10.0 335.0

[

2VP11B t

• M433 2VP12A &

12/10/91 613.0 100.0 10.0 613.0 2VP13B f

r

• M456 2VP1B &

12/11/91 115.0 100.0 10.0 115.0 l

2VP2A i

• M432 2VP3B &

12/10/91 57.6 10.0 1.0 57.6 f

2VP4A l

i PT/2/A/4200/01B - Electrical Penetration 0-Ring Leak Rate Test (TYPE B)

{

t I

E101 10/31/91 0.2 2.0 0.2 2.0 E102 10/31/91 0.2 2.0 0.2 2.0 E103 10/31/91 1.4 2.0 0.2 2.0 E104 10/31/91 0.5 2.0 0.2 2.0

-l E105 10/31/91 1.4 2.0

. 0. :2 2.0-E106 10/31/91 1.4 2.0 0.2 20 l

Page 6 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCI4SURE 13.1 TYPE B&C LEAK RATE TEST REPORT l

\\

MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK I4WER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

E107 12/05/91 0.0 20.0 2.0 20.0 E108 10/31/91 1.4 2.0 0.2 2.0 E109 10/31/91 0.0 2.0 0.2 2.0 Elli 10/31/91 0.0 2.0 0.2 2.0 E112 10/31/91 0.0 2.0 0.2 2.0 E114 10/31/91 0.0 2.0 0.2 2.0 E115 10/31/91 1.4 2.0 0.2 2.0 E116 10/31/91 0.5 2.0 0.2 2.0 E117 10/31/91 0.5 2.0 0.2 2.0 E118 10/31/91 0.5 2.0 0.2 2.0 E120 10/31/91 0.6 2.0 0.2 2.0

(

E122 10/31/91 0.8 2.0 0.2 2.0 E123 10/31/91 0.6 2.0 0.2 2.0 E124 10/31/91 0.6 2.0 0.2 2.0 E126 10/31/91 0.6 2.0 0.2 2.0 E127 10/31/91 0.8 2.0 0.2 2.0 E129 10/31/91 0.6 2.0 0.2 2.0 E130 10/31/91 0.6 2.0 0.2 2.0 E132 10/31/91 0.8 2.0 0.2 2.0 i

E133 10/31/91 0.6 2.0 0.2 2.0 E134 10/31/91 0.8 2.0 0.2 2.0 E135 10/31/91 0.6 2.0 0.2 2.0 E136 10/31/91 0.6 2.0 0.2 2.0 i

i Page 7 l

t CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT s

MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

E137 10/31/91 0.6 2.0 0.2 2.0 E200 10/31/91 0.5 2.0 0.2 2.0 E202 10/31/91 0.5 2.0 0.2 2.0 E203 12/05/91 0.6 20.0 2.0 20.0 E205 10/31/91 0.5 2.0 0.2 2.0 E206 10/31/91 0.5 2.0 0.2 2.0 E208 10/31/91 0.5 2.0 0.2 2.0 E211 10/31/91 0.5 2.0 0.2 2.0 E222 10/31/91 0.0 2.0 0.2 2.0 E223 10/31/91 0.6 2.0 0.2 2.0 E224 10/31/91 0.0 2.0 0.2 2.0 E225 10/31/91 0.0 2.0 0.2 2.0 E226 10/31/91 0.0 2.0 0.2 2.0 E231 10/31/91 0.6 2.0 0.2 2.0 E232 10/31/91 0.6 2.0 0.2 2.0 E233 10/31/91 0.0 2.0 0.2 2.0 E237 10/31/91 0.6 2.0 0.2 2.0 E238 10/31/91 0.6 2.0 0.2 2.0 E244 10/31/91 0.6 2.0 0.2 2.0 E245 10/31/91 0.6 2.0 0.2 2.0 E252 10/31/91 0.6 2.0 0.2 2.0 E268 10/31/91 0.5 2.0 0.2 2.0 E269 10/31/91 0.5 2.0 0.2 2.0 l

Page 8 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPF. B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAFAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

E270 10/31/91 0.5 2.0 0.2 2.0 E271 10/31/91 0.5 2.0 0.2 2.0 E311 10/31/91 0.6 2.0 0.2 2.0 E313 11/01/91 0.0 2.0 0.2 2.0 E364 11/01/91 0.0 2.0 0.2 2.0 E366 11/01/91 0.0 2.0 0.2 2.0 E379 11/01/91 0.0 2.0 0.2 2.0 E391 11/01/91 0.0 2.0 0.2 2.0 E392 11/01/91 0.0 2.0 0.2 2.0 E395 11/01/91 0.0 2.0 0.2 2.0 E398 11/01/91 0.5 2.0 0.2 2.0 E399 11/01/91 0.5 2.0 0.2 2.0 E3102 11/01/91 0.0 2.0 0.2 2.0 E402 10/31/91 0.0 2.0 0.2 2.0 E403 10/31/91 0.0 2.0 0.2 2.0 E412 11/01/91 0.5 2.0 0.2 2.0 E415

-11/01/91 0.5 2.0 0.2 2.0 E418 10/31/91 0.4 2.0 0.2 2.0 E419 10/31/91 0.4 2.0 0.2 2.0 E420 10/31/91 0.0 2.0 0.2 2.0 E421 10/31/91 0.0 2.0 0.2 2.0 E424 11/01/91 0.5 2.0 0.2 2.0 E425 11/01/91 0.5 2.0 0.2 2.0

-.~_

Page 9 l

CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOk TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE

. INSTR.

REPORTED-I PENET.

VALVE TEST

-LEAK LOWER ERROR-LEAKAGE' l

DATE

<SCCM>

LIMIT

<SCCM>

, <SCCM>

l

<SCCM>

i

============================================================

E426 11/01/91 0.5 2.0 0.2 2.0 E427 11/01/91 0.5 2.0 0.2 2.0 t

-i E428 11/01/91 0.5 2.0 0.2 2.0 l

E429 11/01/91 0.5 2.0 0.2

~2.0 E430 11/01/91 0.5 2.0 0.2 2.0 E431 11/01/91 0.5 2.0 0.2 2.0 i

E439 11/01/91 0.5 2.0 0.2-2.0 E440 11/01/91 0.5 2.0 0.2

- 2. 0 -

E443 10/31/91 0.0 2.0 0.2 2.0-i E444-10/31/91 0.0 2.0 0.2 2.0 l

E445; 10/31/91 0.0 2.0 0.2 2.0

[

E446 10/31/91 0.0 2.0 0.2 2.0

{

E447 10/31/91 0.0 2.0 0.2 20 t

E448 10/31/91 0.0 2.0 0.2 2.0 E449 10/31/91 0.0

'2.0 0.2 2.0 i

E450 10/31/91 0.0 2.0 0.2 -

2.0 l

PT/3/A/4200/01D - Puel Transfer Tube LRT (TYPE B) -

FUEL TRANSFER TUBE 12/03/91 0.0 10.0 1.0 10.0' j

PT/2/A/4200/01E - Upper Personnel Air Lock LRT (TYPE B)

UPPER PAL 07/18/91-2140.4 1010.0 101.0 2140.4 l

l I

'I

1 Page 10 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L j

ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT l

MEAS.

RANGE INSTR. \\ REPORTED.

PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE i

DATE

<SCCM>

LIMIT

<SCCM>.

<SCCM>

<SCCM>

= = = _ _.---

-=====------=====-

----======---=========================

PT/2/A/4200/01F - Lower Personnel Air Lock LRT (TYPE B)

LOWER PAL 07/22/91 2040.2 1010.0 101.0 2040.2

.I PT/2/A/4200/01H - Equipment Hatch LRT l

(TYPE B)

EQUIPMENT HATCH 12/09/91.

0.4 20.0 2.0 20.0 PT/2/A/4200/01P - NF Penetration LRT (TYPE B) i M371 12/06/91 12.0 10.0 1.0 13.0 l

M394 12/06/91 7.5 10.0 1.0 10.0 l

i PT/2/A/4200/01R - M301, M234, M452 Penetration LRT l

(TYPE B) l M234 11/27/91 4.1 10.0 1.0 10.0 M301 12/03/91 5.3 10.0 1.0 10.0 ~

t M452 11/27/91 2.5 10.0

- 1. 0 10.O

. PT/2/A/4200/01M - Incore Instr. LRT I

(TYPE B) i E121 12/11/91 0.0 2.0 0.2 2.0 E138 12/11/91 0.0 2.0 0.2 2.0 Prl z la i4 teel o s c,. m,,,s. 6. u-s s+,uta w*r*h W @1Pt 8)-

wa.

.y 5:2 2-o a,eu

1. *I4 f**c'cW l

h'.I.4 6<

A m p3 mis ta, no z.

a no i

l f

+

1

Page 11 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L l

ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED

[

PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE-t DATE

<SCCM>

LIMIT

<SCCM>

.<SCCM>

<SCCM>

l

=================================================================m

ACCEPTANCE CRITERIA VERIFICATION 11.1 Combined leakage rate of less than 0.60 La for all penetrations and valves subject to Type B & C leak rate tests when pressurized to Pa (Error Adjusted leakage < 82,979 sccm).

HS15 9 e rt *

• Total Type B & C Leakage:

--11103.4 sccm

+ Root Sum Squared Instr. Error:

150.3 sccm c*st Error Adjusted Leakage:

113G3.7 Tccm i

n M 7 %.7 11.2 Combined Bypass leakage of less than 0.07 La for all penetrations identified in Technical Specifications Table 3.6-1 when press-urized to Pa-(Error Adjusted Leakage < 9,681 secm).

$ssc h c **

a Combined Bypass Leakage:

5000.4*Sccm

+ Root Sum Squared Instr. Error:

37.6 scem Error Adjusted Leakage:

-57 '

.2 sccm 59 N.L **

• Identifies penetrations listed in Tech. Spec Table 3.6-1.

11.3 Combined leakage rate of less than 0.05 La for all upper / lower and instrument room Containment Purge penetrations when pressurized to Pa (Error Adjusted Leakage < 6,915 sccm).

[

i Containment Purge Penet. Leakage:

2092.6 sccm

+ Root Sum Squared Instr. Error:

26.5 scem Error Adjusted Leakage:

2119.1 sccm

• • • • • • • • • • • • • • • • • • • • +***************************************************

/de yb/

Data Input By:

/,

Data Input Verified By:

/ /l[#h/-

s

5 Printout #3 Unit 2 EOCS Page 1 As-Left eakage Rates-CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT l

MEAS.

RANGE INSTR.

REPORTED Pl' NET.

VALVE TEST LEAK LOWER ERROR ~

LEAKAGE j

DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

aSCCM>

====______

-

---=-

-==========----=============-

-_-__m=

PT/2/A/4200/01C - Containment Isolation Valve LRT PT/2/A/4200/41.B - VQ Valve LRT ( 2VQ2A & 2VQ16A only)

(TYPE C)

• M212 2NC54A 02/09/93 86.7 10.0 1.0 86.7 2NC53B O2/09/93 65.6 10.0 1.0

{

• M215 2VB85 02/08/93 1.0 10.0 1.0 70.0 2VB83B 42/08/93 0.0 20.0 2.0

• M216 2NC57 02/09/93 0.0 10.0 1.0 10.0

• M219 2VS56 03/09/93 0.0 10.0 1.0 22.8 2VS548 03/09/93 22.8 20.0 2.0

• M220 2VI79 02/17/93 0.0 10.0 1.0 39.3 2VI77B &

02/17/93 39.3 20.0 2.0 2VI312A

{

• M221 2WL868 03/21/93 0.0 10.0 1.0 10.0

• M240 2RN438 02/15/93 4.2 10.0 1.0 10.0 j

• M204 2VQ15B 02/02/93 5.5 10.0 1.0 20.0 l

2VQ16A 03/25/93 0.0 20.0 2.0 i

• M230 2RN485 03/08/93 162.0 100.0 10.0 162.0

• M259 2NB262 02/09/93 0.0 10.0 1.0 49.0 2NB260B O2/09/93 49.0 10.0 1.0 f

• M235 2NM7B 02/15/93 80.1 10.0 1.0 85.2 1

2NM3A 02/15/93 0.9 10.0 1.0 2NM6A &

02/15/93 75.2 10.0 1.0 l

2NM424

• M331 2NI48 02/09/93 21.4 10.0 1.0 48.7 4

2NI47A 02/09/93 48.7 10.0 1.0

• M310 2NM26B 02/12/93 1.3 10.0 1.0 71.1 2NM22A 02/12/93 1.1 10.0 1.0 2NM25A &

02/12/93 61.1 10.0 1.0 2NM425 s

• M308 2RN430 02/12/93 1.8 10.0 1.0 10.0 t

?

I i

Page 2 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L t

ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED 4

PENET.

VALVE TEST LEAK IDWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

I

<SCCM>

= = = = = = _ _ _ _ _ _ =--

• M316 2RF392 03/22/93 56.7 10.0 1.0 56.7

• M323 2KC430A 02/09/93 0.0 10.0 1.0 10.0 2KC429B &

02/09/93 0.0 10.0 1.0 2KC47

• M322 2NI95A 03/21/93 72.0 10.0 1.0 152.0 t

2NI96B &

03/09/93 152.0 100.0 10.0 2NI120B

• M327 2NC141 02/11/93 0.0 10.0 1.0 55.2 2NC142 03/03/93 55.2 10.0 1.0

• M329 2NC196A 02/12/93 1.1 10.0 1.0 10.0 2NC195B 02/12/93 4.1 10.0 1.0 l

• M332 2VY16 02/11/93 860.0 200.0 20.0 860.0 2VY15B 02/11/93 0.0 10.0 1.0

• M337 2YM121 03/11/93 190.0 100.0 10.0 230.0 2YM119B 03/11/93 230.0 100.0 10.0

• M348 2WL4 50A 02/09/93 1.6 10.0 1.0 10.0 2WL451B 02/09/93 2.0 10.0 1.0

• M361 2RF448 02/15/93 159.0 100.0 10.0 159.0

• M356 2WE20 &

02/11/93 64.2 20.0 2.0 64.2 2WE22

• M377 2FWS 02/08/93 4.3 10.0 1.0 15.3 2FW4 02/08/93 15.3 10.0 1.0

• M358 2FW11 &

02/02/93 3.9 10.0 1.0 10.0 2FW13

• M373 2NF229 03/21/93 1.5 20.0 2.0 49.6 2NF228A 03/21/93 49.6 20.0 2.0

• M386 2VQ3B 02/23/93 49.5 20.0 2.0 49.5 2VQ2A 02/23/93 4.8 20.0 2.0

• M385 2RN405 03/02/93 214.0 200.0 20.0 214.0

i Page 3 l

CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L l

ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT P

MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

____=_____=== -

=-

________=--

= _ _ _ _ _ _ = = = _ _ _ = = =--

• M372 2NF234A 03/21/93 0.0 20.0 2.0 40.0 2NF233B 03/21/93 0.0 20.0 2.0 2NF235 03/21/93 0.0 20.0 2.0

• M328 2KC340 02/15/93 199.0 100.0 10.0 199.0 M228 2NV874 03/03/93 0.0 10.0 1.0 10.0 2NV872A 03/03/93 0.0 10.0 1.0 M346 2VY17A 02/10/93 63.8 20.0 2.0 84.5 2VYl8B 02/10/93 84.5 20.0 2.0 M256 2NV90 02/22/93 110.0 100.0 10.0 110.0 M347 2NV15B &

03/03/93 360.0 100.0 10.0 360.0 2NV14 M345 2WL806 03/02/93 52.8 10.0 1.0 52.8 M374 2WL321 03/21/93 0.0 10.0 1.0 10.0 t

M359 2WLA22 02/17/93 4.4 10.0 1.0 10.0 M236 2NM72B 03/02/93 0.0 10.0 1.0 40.0 2NM75B 03/02/93 0.0 10.0 1.0 2NM78B 03/02/93 0.0 10.0 1.0 2NM81B 03/02/93 0.0 10.0 1.0 2NM82A &

03/02/93 0.0 10.0 1.0 l

2NM69 M321 2KC279 02/15/93 73.6 10.0 1.0 73.6 CNIP-2 mil ANALYZER 03/10/93 125.4 20.0 2.0 125.4 SAMPLE 03/10/93 22.4 20.0 2.0 CNIP-2MI2 ANALYZER 03/10/93 23.9 20.0 2.0 38.0 SAMPLE 03/10/93 38.0 20.0 2.0 CNIP-2MI3 ANALYZER 03/10/93 125.4 20.0 2.0 125.4 SAMPLE 03/10/93 22.4 20.0 2.0 CNIP-2MI4 ANALYZER 03/10/93 23.9 20.0 2.0 38.0 SAMPLE 03/10/93 38.0 20.0 2.0 CNIP-2 MIS 2MIMV6480 02/02/93 0.0 20.0 2.0 20.0 2MIMV6481 02/02/93 0.0 20.0 2.0 I

l I

Page 4 l

CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS i

PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT

[

i' MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAYAGE l

DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

i

<SCCM>

. = - - - -

---

==

___=--

=

r CMIP-2MI6 2MINV6490 02/02/93 0.0 20.0 2.0 20.0 2MIMV6491 02/02/93 0.0 20.0 2.0 t

CNIP-2MI7 2MIMV6470 02/02/93 0.0 20.0 2.0 20.0 2MIMV6471 02/02/93 0.0 20.0 2.0

+

l CNIP-2 EMF 2MISV5230 03/22/93 1.7 2.0 1.0 90.0

<IN>

2MISV5231.03/22/93 90.0 20.0 2.0 CNIP-2 EMF 2MISV5232 03/22/93 350.0 100.0 10.0 350.0

<OUT>

2MISV5233 03/22/93 1.4 10.0 1.0 CNIP-2NS2 2NSPT5060 &O2/11/93 0.0 20.0 2.0 20.0 2NSPT5170 &

2NSPT5180 CNIP-2NS3 2NSPT5050 &O2/11/93 2.0 20.0 2.0 20.0 2NSPT5250 &

2NSPT5260 CNIP-2NS4 2NSPT5040 &O2/11/93 3.0 20.0 2.0 20.0 t

2NSPT5270 &

2NSPT5380 &

2NSPT5240 t

CNIP-2NS1 2NSPT5070 &O2/11/93 0.0 20.0 2.0 20.0 2NSPT5160 &

l 2NSPT5190 &

2NSPT5370 Upper PAL 2IASV5080 03/12/93 6.6 20.0 2.0 20.0 Aig Supply / 2IACV5340 03/12/93 4.1 20.0 2.0 Equal. Pen. 2IACV5360 03/12/93 3.6 20.0 2.0 l

I 21IACV5380 03/12/93 2.6 20.0 2.0 Lower PAL 2IASV5160 03/20/93 0.0 2.0 1.0 2.0 Air Supply / 2IACV5350 03/20/93 0.0 2.0 1.0 Equal. Pen. 2IACV5370 03/21/93 0.6 2.0 1.0 l

1 2IACV5390 03/21/93 0.6 2.0 1.0 i

t'

)

i

Page 5 i

CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.-

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

=--

- --__===_____

PT/2/A/4200/41A - Containment Purge Isolation Valve LRT (TYPE C)

• M213 2VP17A &

03/24/93 15.5 20.0 2.0 20.0 2VP18B

• M119 2VP15A &

03/23/93 46.8 20.0 2.0 46.8 2VP16B

• M140 2VP19A &

03/21/93 460.0 200.0 20.0 460.0 2VP20B

• M357 2VP6B &

03/21/93 266.0 200.0 20.0 266.0 2VP7A i

• M434 2VP8B &

03/21/93 271.0 200.0 20.0 271.0 2VP9A

• M368 2VP10A &

03/21/93 159.9 20.0 2.0 159.9 2VP11B

• M433 2VP12A &

03/21/93 371.0 200.0 20.0 371.0 2VP13B

• M456 2VP1B &

03/21/93 122.5 20.0 2.0 122.5 2VP2A

• M432 2VP3B &

03/21/93 68.E-20.0 2.0 68.8 2VP4A PT/2/A/4200/01B - Electrical Penetration 0-Ring Leak Rate Test (TYPE B)

E101 02/16/93 0.0 2.0 1.0 2.0 E102 02/16/93 0.0 2.0 1.0 2.0 E103 02/16/93 0.0 2.0 1.0 2.0 E104 02/16/93 0.3 2.0 1.0 2.0 E105 02/16/93 0.0 2.0 1.0 2.0 E106 02/16/93 0.0 2.0 1.0 2.0 l

4

Page 6 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L i

ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

==

-=====

i E107 02/16/93 0.3 2.0 1.0 2.0 E108 02/16/93 0.0 2.0 1.0 2.0 E109 02/16/93 0.0 2.0 1.0 2.0 i

E111 02/16/93 0.0 2.0 1.0 2.0 E112 02/16/93 0.0 2.0 1.0 2.0 r

E114 03/17/93 0.6 2.0 1.0 2.0 i

E115 02/16/93 0.0 2.0 1.0 2.0 E116 02/16/93 0.3 2.0 1.0 2.0 E117 02/16/93 0.3 2.0 1.0 2.0 E118 02/16/93 0.0 2.0 1.0 2.0 E120 02/16/93 0.0 2.0 1.0 2.0 E122 02/16/93 0.0 2.0 1.0 2.0 E123 03/17/93 1.0 2.0 1.0 2.0 E124 02/16/93 0.0 2.0 1.0 2.0 E126 02/16/93 0.0 2.0 1.0 2.0 E127 02/16/93 0.0 2.0 1.0 2.0 E129 02/16/93 0.0 2.0 1.0 2.0 E130 02/16/93 0.0 2.0 1.0 2.0 E132 02/16/93 0.0 2.0 1.0 2.0 E133 02/16/93 0.0 2.0 1.0 2.0 E134 02/16/93 0.0 2.0 1.0 2.0 E135 02/16/93 0.0 2.0 1.0 2.0 l

E136 02/16/93 0.0 2.0 1.0 2.0 i

i i

Page 7 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYP3 B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE i

DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

=_--====---

--===____-====--------

=

E137 02/16/93 0.0 2.0 1.0 2.0 E200 02/16/93 0.0 2.0 1.0 2.0 f

E202 02/16/93 0.0 2.0 1.0 2.0

(

E203 02/16/93 0.0 2.0 1.0 2.0 E205 42/16/93 0.0 2.0 1.0 2.0 l

E206 02/16/93 0.0 2.0 1.0 2.0 E208 02/16/93 0.0 2.0 1.0 2.0 E211 02/16/93 0.0 2.0 1.0 2.0 E222 02/16/93 0.3 2.0 1.0 2.0 E223 02/16/93 0.3 2.0 1.0 2.0 l

E224 02/16/93 0.3 2.0 1.0 2.0 E225 02/16/93 0.3 2.0 1.0 2.0 i

E226 02/16/93 0.3 2.0 1.0 2.0 E231 02/16/93 0.2 2.0 1.0 2.0 E232 02/16/93 0.2 2.0 1.0 2.0 E233 02/16/93 0.2 2.0 1.0 2.0 f

E237 02/16/93 0.2 2.0 1.0 2.0 E238 02/16/93 0.2 2.0 1.0 2.0 E244 02/16/93 0.2 2.0 1.0 2.0 E245 02/16/93 0.2 2.0 1.0 2.0 E252 02/16/93 0.2 2.0 1.0 2.0 E268

'02/16/93 0.0 2.0 1.0 2.0 E269 02/16/93 0.0 2.0 1.0 2.0

l Page 8 l

CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

l

<SCCM>

l

--- -_____=_____======

__=======

E270 02/16/93 0.0 2.0 1.0 2.0 E271 02/16/93 0.0 2.0 1.0 2.0 E311 02/16/93 0.0 2.0 1.0 2.0 E313 02/16/93 0.7 1.0 0.1 1.0 E364 02/16/93 0.7 1.0 0.1 1.0 E366 02/16/93 0.7 1.0 0.1 1.0 E379 02/16/93 0.7 1.0 0.1 1.0 E391 02/16/93 0.7 1.0 0.1 1.0 E392 02/16/93 0.7 1.0 0.1 1.0 E395 02/16/93 0.7 1.0 0.1 1.0 E398 02/16/93 0.9 1.0 0.1 1.0 E399 02/16/93 0.9 1.0 0.1 1.0 E3102 02/16/93 0.7 1.0 0.1 1.0 E402 02/16/93 0.0 2.0 1.0 2.0 E403 02/16/93 0.0 2.0 1.0 2.0 E412 02/16/93 1.0 1.0 0.1 1.0 E415 02/16/93 1.0 1.0 0.1 1.0 E418 02/16/93 0.0 2.0 1.0 2.0 E419 03/17/93 1.0 2.0 1.0 2.0 E420 02/16/93 0.0 2.0 1.0 2.0 E421 02/16/93 0.0 2.0 1.0 2.0 E424 02/16/93 1.0 1.0 0.1 1.0 E425 02/16/93 1.0 1.0 0.1 1.0

Page 9 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS l

PT/2/A/4200/01L l

ENCIDSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK IDWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

i

<SCCM>-

=

- - - - - - _. _ _ _ = _ = -

=

E426 02/16/93 1.0 1.0 0.1 1.0

[

l E427 02/16/93 1.0 1.0 0.1 1.0 t

l E428 02/16/93 1.0 1.0 0.1 1.0 E429 02/16/93 1.0 1.0 0.1 1.0 E430

.02/16/93 0.9 1.0 0.1 1.0 E431 02/16/93 0.9 1.0 0.1 1.0 E439 02/16/93 0.9 1.0 0.1 1.0 E440 02/16/93 0.9 1.0 0.1 1.0 E443 02/16/93 0.0 2.0 1.0 2.0 E444 02/16/93 0.0 2.0 1.0 2.0 E445 02/16/93 0.0 2.0 1.0 2.0 E446 02/16/93 0.0 2.0 1.0 2.0 E447 02/16/93 0.0 2.0 1.0 2.0 E448 02/16/93 0.0 2.0 1.0 2.0 E449 02/16/93 0.0 2.0 1.0 2.0 E450 02/16/93 0.0 2.0 1.0 2.0 PT/2/A/4200/01D - Fuel Transfer Tube LRT (TYPE B)

FUEL TRANSFER TUBE 03/20/93 0.0 20.0 2.0 20.0 PT/2/A/4200/01E - Upper Personnel Air Lock LRT (TYPE B)

UPPER PAL 12/08/92 4480.0 1010.0 101.0 4480.0

1 Page 10 CATAWBA NUCLEAR STATION CONTROLLING PROCEDURE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L l

ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

=====._

====-

==

PT/2/A/4200/01F - Lower Personnel Air Lock LRT (TYPE B)

LOWER PAL 12/09/92 3484.9 1001.0 101.0 3484.9 PT/2/A/4200/01H - Equipment Hatch LRT (TYPE B)

EQUIPMENT HATCH 03/20/93 0.2 1.0 0.1 1.0 PT/2/A/4200/01P - NF Penetration LRT (TYPE B)

M371 03/18/93 9.8 20.0 2.0 20.0 M394 03/18/93 5.0 20.0 2.0 20.0 PT/2/A/4200/01R - M301, M234, M452 Penetration LRT (TYPE B)

M234 03/18/93 15.0 20.0 2.0 20.0 M301 03/18/93 0.0 20.0 2.0 20.0 M452 03/18/93 0.0 20.0 2.0 20.0 PT/2/A/4200/01M - Incore Instr. LRT (TYPE B)

E121 03/08/93 0.0 2.0 1.0 2.0 i

E138 03/08/93 0.0 2.0 1.0 2.0

,o7,64/gcx47g

-,71cen'. Maows mxm

^~w"W d7~

& rA rs.s )

ms me ra- ;

manc Q

g& g, 2m"%

'A EoCXK 4E m 66 cse w cew

+ 77//3

/

' hat 275

.-so_g_

/o 725

Page 11 CATAWBA NUCLEAR STATION CONTROLLING PROCEDLTRE FOR TYPE B&C LEAK RATE TESTS PT/2/A/4200/01L ENCLOSURE 13.1 TYPE B&C LEAK RATE TEST REPORT MEAS.

RANGE INSTR.

REPORTED PENET.

VALVE TEST LEAK LOWER ERROR LEAKAGE DATE

<SCCM>

LIMIT

<SCCM>

<SCCM>

<SCCM>

= _ _ _ -

____=====_____

________m======______====____--

ACCEPTANCE CRITERIA VERIFICATION 11.1 Combined leakage rate of less than 0.60 La for all penetrations and valves subject to Type B & C leak rate tests when pressurized to Pa (Error Adjusted leakage < 82,979 sccm).

/V'5'A 9 I

Total Type B & C Leakage:

145'". d ccm l

+ Root Sum Squared Instr. Error:

154.4 seem Error Adjnsted Leakage:

-14695.f,sccm j

/fff77~

11.2 Combined Bypass leakage of less than 0.07 La for all penetrations identified in Technical Specifications Table 3.6-1 when press-urized to Pa (Error Adjusted Leakage < 9,681 sccm).

l S'894.3 Combined Bypass Leakage.

-,~

..,,,isccm

______"j 54.5 scem

+ Root Sum Squared Instr. Error:

Error Adjusted Leakage:

- HW. u sccm V'?f'fd 7

• Identifies penetrations listed in Tech. Spec Table 3.6-1.

11.3 Combined leakage rate of less than 0.05 La for all upper / lower and instrument room Containment Purge penetrations when pressurized to Pa (Error Adjusted Leakage < 6,915 sccm).

Containment Purge Penet. Leakage:

1786.0 scem

+ Root Sum Squared Instr. Error:

40.2 sccm Error Adjusted Leakage:

1826.2 sccm oo**********************************************************************

Data Input By: //M M

/ d [S Data Input Verified By:

/.,#E(/Of I

....