1985 Integrated Leak Rate Test of Zion Unit 2 Reactor Containment Bldg

ML20155C984
Person / Time
Site:	Zion File:ZionSolutions icon.png
Issue date:	03/31/1986
From:	Cascarano R, Tiemann J COMMONWEALTH EDISON CO.
To:
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ML20155C977	List: ML20155C975 ML20155C984
References
0509A, 1065T, 509A, NUDOCS 8604170211
Download: ML20155C984 (104)
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Text

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1985 INTEGRATED LEAK RATE TEST l

t OF ZION UNIT 2 REACTOR CONTAINMENT BUILDING Written By: -_ ._ __

James A. Tiemann Technical Staff Engineer Approved By: d b R. N. Cascarano Technical Staff Supervisor l

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8604170211 860331 PDR ADOCK 05000304 P PDR

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TABLE OF CONTENTS SECTION TITLE PAGE

- 1. Abstract 3 -

2. Introduction 4

3. Test Procedure , 5

4. Instrumentation 6

5. Containment Pressurization 13

6. Figure of Merit Analysis 14

7. Containment Leak Rate Calculation 17

8. Supplemental Verification Test Calculation 21

9. Log of Significant Events 22

10. Sunnery Analysis of Type B and C Test Results 24

11. Test Results and Conclusions 31

12. Normal Test Figures 33

13. Verification Test Figures 45

14. Appendix A Summary of 24 Hour Test Data 54

15. Appendix B Summary of Verification Test Data 58

16. Appendix C Instrumentation Calibration Records 61 l

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i LIST OF FIGURES FIGURE T[TL1 PASGL

- 1. Instrumentation and Data Acquisition System Arrangement 9

2. -Instrumentation Locations Above 617' Elevation 10

3. Sensor. Locations Between the 590' and 617' Elevations 11

4. Sensor Locations Between the 568' and 590' Elevations 12

5. Normal Test Calculated Leak Rate Versus Time 34

6. Normal Test Total Containment Pressure Versus Time 35

7. Normal Test Containment Dry Air Pressure Versus Time 36

8. Normal Test Containment Dry Air Temperature Versus Time 37

9. Normal Test Containment Dry Air Nass Versus Time 38

10. Normal Test Containment Dewcell Temperature Versus Time .39

11. Normal Test Containment Vapor Pressure Versus Time 40

12. Normal Test Average Subvolume RTD Temperatures Versus Time 41

13. Normal Test Average Subvolume Dewcell Temperatures Versus Time 42

14. Normal Test Average Subvolume Vapor Pressures Versus Time 43

15. Normal Test Corrected Pressures Versus Time 44

16. Verification Test Calculated Leak Rate Versus Time 46

17. Verification Test Total Containment Pressure Versus Time 47

18. Verification Test Containment Dry Air Pressure Versus Time 48

19. Verification Test Containment Dry Air Temperature Versus Time 49

20. Verification Test Containment Dry Air Nass Versus Time 50

21. Verification Test Containment Dewcell Temperature Versus Time 51

22. Verification Test Containment Vapor Pressure Versus Time 52

23. Verification Test Corrected Pressures Versus Time 53 1065t 2 0509A a

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1. ABSTRACT Zion Station successfully completed the Primary Containment Integrated leak Rate Test (ILRT) on Unit 2 between September 15 and September 17, 1985. This represents the third ILRT performed on Unit 2 during the first 10 Year Inservice Inspection Interval. The test was verified by Station personnel and the NRC as being performed in accordance with 10CFR50, Appendix J and Zion Technical Specifications.

A full pressure test (61.972 psia) was performed for the first time since pre-operational testing was completed. Furthermore, the test was performed in the beginning of a refueling outage, for the first time, to obtain a more accurate representation of as-found containment leakage.

The total primary containment leak rate was measured to be 0.022 weight percent per day over a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period. The 95 percent upper confidence limit was calculated to be 0.02S weight percent per day. Both values are well within the acceptance criteria of 0.075, weight percent th per day.

A leak rate of 0.0957 weight percent per day was imposed for over 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> to verify the accuracy of the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test. The calculated leak rate of 0.1178 weight percent per day (0.0957 + 0.02215) was measured to be 0.1033 weight percent per day, a dif ference of 19.3%. This is within the allowable 25% error.

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2. INTRODUCTION ets This report details results of the Zion Station Unit 2 Primary Containment Integrated Leak Rate Test performed between September 15 and September 17, 1985. These results are reported in accordance with the requirements of 10CFR50, Appendix J. Subsections of this report discuss the Procedure, Instrumentation, local Leak Rate Results and the Chronology of Significant Events. Raw and calculated data arit included to further demonstrate the success of this test.

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3. TEST PROCEDURE The test was performed according to Zion Technical Staff Surveillance Procedure TSS 15.6.10. A. Revision 13, as amended. This procedure is in compliance with Zion Technical Specification 3.10, 10CFR50 Appendix J and ANSI N45.4-1972.

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4. INSTRUMENTATION The instrument and Data Acquisition System Arrangement are shown in Figure 1. Idealized cross sectional views of the Zion Containment, illustrating the relative placement of the temperature and humidity sensors are shown in Figures 2, 3 and 4. Initial instrumentation calibrations were performed by Volumetrics Corporation. Final signal conditioning adjustments were made by plant personnel with technical assistance from Volumetrics Corporation. Sensor placement and calibration documentation were reviewed by an NRC Region III representative prior to test initiation.

4.1 Temperature Sensors Twenty-nine platinum resistance thermometers (RTO's) (Burns Engineering Model RPI Al-5*/2-3A) were used for accurate measurement of containment temperature. All RTO's were suspended to prevent thermal influence from metal surfaces. Twenty-one of the RTD's were located symetrically throughout the upper 82 percent of the containment volume (subvolumes 1, 2 and 3). The eight remaining i

RTD's were placed in the lower 18 percent containment volume. Four

of these sensors were outside the missile barrier (subvolume 4) and four were inside the missile barrier (subvolume 5) at approximately symetrical locations.

Prior to the test, each RTO was calibrated against a platinum resistance reference standard traceable to the National Bureau of Standards. Accuracy was verified to be 10.01*F over the range 60*

to 120*F with a repeatability of 10 01*F. Additionally, an insitu test was performed on each RTD at ambient conditions which verified all instruments were within 11.0*F of ambient temperature.

l A temperature survey of the accessible subvolumes (3, 4 and 5) was performed to ensure sensors were placed in areas which are l

representative of the entire subvolume.

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__ ~ . _ _ _. . - _ . _ _ -__

s 4.2 Dewpoint Sensors Nine lithium chloride dewcells (Foxboro Model 2781-18-MGN) were used to accurately monitor containment dewpoint (i.e. partial pressure of water vapor). The dewcells were placed at symmetrical locations within containment. All dewcells were suspended to allow for full exposure of the sensing element. Seven dewcells were suspended in the upper 82 percent of the containment volume. The remaining two dewcells were placed in the lower 18 percent of containment, one outside the missile barrier (subvolume 4) and one inside the missile barrier (subvolume 5).

All dewcells were calibrated against a platinum resistance reference standard traceable to the National Bureau of Standards. Accuracy was certified to be i 1.5*F over a range 40* - 100*F, with a repeatability of 10 01*F. An insitu test was performed on each dewcell at ambient conditions which verified all sensors were within il.0*F of ambient dewpoint.

During the test, one dewcell input was deleted due to erratic readings. The affected dewcell was one of three from subvolume 3.

The remaining two dewcells are believed to have accurately measured a representative dewpoint.

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4 4.3 Pressure Sensors Two precision pressure gauges (mensor quartz bourdon tubes) were used to monitor containment pressure. These sensors were physically located in the data acquisition system console. Each gauge was linked to containment via 1/4 inch diameter stainless steel tubing connected to sensing lines of the containment pressure transmitters (See Figure 1).

The pressure gauges were calibrated over a range of 0 to 100 psia in 5 psi increments using a quartz bourdon tube reference transfer traceable to the National Bureau cf Standards. The gauges were certified accurate to within 10.015 percent of reading with an average repeatability of 10.002 psia.

4.4 Flowmeter (Verification Test)

A Rotometer (Fischer and Porter Model 10A3555S) was used to monitor induced leakage in the instrumentation verification phase of the test. The flowmeter was linked to containment via 3/8 inch diameter copper tubing connected to the sensing line of a containment pressure transmitter. The flowmeter was throttled at its inlet due to its calibration at atmospheric pressure.

The flowmeter was calibrated over a range of 0.8 to 10.2 SCFM at 14.7 PSIA with an accuracy of i 1.0 percent of full scale.

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D a-INSTRUMENTATION BLOCK DIAGRAM s.

PT-CS22 PT-Electrical Penetration CS20 _ l 1E6 or 2E16 lP2 l IPI I Junction Box Junction Box 617' Aux 617' Aux Data Acquisition Box #1r,8551 (Unit 1) System

1. 2RB551 (Unit 2)

Box #

29 IAB1090 (Unit 1)

Multiplexer 2AB794 (Unit 2)

RTO's E teak Dewcells . PT- t,VFM-1 Verification CS50 riowieter ,

Inside Outside Containment Containment

. FIGURE 1

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5. CONTAINMENT PRESSURIZATION 12 Diesel Driven oil free air compressors totaling 12,000 SCFH were used to pressurize containment. Output from the compressors was directed through 2 aftercoolers and 1 dryer to ensure relatively cool dry air was introduced into containment. .

The compressors were located by Unit I containment. Compressed air was directed to Unit 2 containment via the ILRT test connection to the Unit 2 pressure and vacuum relief line.

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. _ _ . - - . _ - . . _ _ _ _ _ _ _ _ _ _ - _ - . -- ~. _____ _ _ _ _ _ _ _ . . _ . - - . _ _ _ _ _

4 6.0 FIGURE OF MERIT (FDM) ANALYSIS The FOM analysis associated with the ability of the instrumentation to measure the Type A containment leakage rate is given by:

_ a/s FOM - (24) x (10') 2 ('nt) 2 +

2 ('av) 2 + 2 (*1) 2 h P P T Where:

FOM = Figure of merit associated with instrumentation in %/ day h . Test duration (Hours).

ept . error associated with the measurement of change in pressure (psia),

et - error associated with the measurement of change in absolute temperature (*R),

P - containment absolute total pressure (psia).

T - containment atmosphere weighted average absolute dry bulb temperature (*R).

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6.1 Total Pressure

, ,((Ept)

• IIpt) I No. of Sensors Where:

Ept - Average error associated with sensor repeatability 0.002 psia.

Ept - Error associated with total pressure readout (including circuitry, etc) = 0.0005 psia.

Number of sensors: 2

, , [(0.002)2 + (0.0005)23 - 0.0014 psia 2

6.2 Vapor Pressure 1/2 I

,pv , [(Epy)2 , ggpy)2)

No. of Sensors Where:

E py - Average error associated with sensor repeatability - 0.00013 psia, j E py Error associated with vapor pressure readout - 0.000007.

Number of sensors: 9 1/2

, , [(0.00013)2 + (0.000007)2I 0.00004 psia 1

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6.3 Temperature i

l 1/2

((Et )

• II t ) I

,t ,

No.ofSensori Where:

Et Error associated with sensor repeatability = 0.01*R.

Ept - Error associated with temperature readout - 0.0005*R.

Number of sensors: 29 1/2

((0.01)2 + (0.0005)23 - 0.00186*R

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' 29 6.4 Figure of Merit Calculation 24 (2(.0014)2 2(.00004)2 2(.00186)2)1/2 FOM - x 10 2 + +

24.38 61.97 61.97 542.38 FDM - 0.00371 %/ Day The calculated Figure of merit is less than 0.25 La (0.025 %/ Day) and is therefore acceptable.

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7.0 CONTAINMENT LEAK RATE CALCULATION The absolute method was selected to determine containment leak i rate. This method is based upon the ideal gas law by which containment dry air mass can be calculated as a function of time by measuring ,

containment temperature, pressure and vapor pressure. Containment leak  ;

rate is the rate of dry air mass loss.

Containment leak rate is assumed to be constant during the testing period and would ideally yield a straight line plot with a negative .

t l slope. Because of imperfect sampling techniques, test conditions and  !

! instrumentaton, a least squares fit statistical analysis must be l performed. The slope of the least squares fit line will represent a i

! statistically averaged leak rate.- [

l l Containment leak rate can be calculated f rom the equation:

l  !

W = At + 8 Where: W = Containment dry air mass at t (1bs).

l A = Calculated leak rate (1bs./Hr) l l

l t = Time (Hrs) l i

8 - Containment dry mass at t = 0 (Ibs.)

_B N Slope - A W(Ibs) i i

t(Hours) i i

r i

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4 CONTAINMENT LEAK RATE CALCULATIONS (continued)

The values for the least squares fit constants A and B are given by:

A=""* '

NX(ti)* - (Eti)*

8 = EWi - A Iti N

By definition, leakage out of containment is considered positive.

Therefore, the statistically averaged least squares containment leak rate is given by:

L = (-A)(2400)/8 (Weight %/ Day)

In order to calculate the 95% confidence limit of the least squares average leak rate, the standard deviation of the least squares slope and the student's T-Distribution function are used as follows:

1/2 1 /NZ(Wi)2 - (IWi)2 _3 \

2

[2400 Weight %/ Day

) (8 / 4 N-2 \NE (ti)2 - (Eti)2 -.

UCL = L + r(TE) 1.976 TE = 1.647 + 1.455 ,

N-2 (N-2)

Where: N = Number of data sets t

g

- Test duration at the i th data set (Hours)

Wg = Containment dry air mass at the i th data set (lbs.)

0" = Standard deviation of least squares slope (Weight %/ Day)

TE = Value of the single sided T-Oistribution function with 2 degrees of freedom L = Calculated leak rate (Weight %/ Day)

UCL = 95% upper confidence limit (Weight %/ Day)

B Containment dry air mass at t = 0 (lbs.)

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CDNTAINNENT LEAK RATE CALCULATIONS (continued)

Subvolume Temperatures and Vapor Pressures th Subvolum Tg - E All RTD Temperatures in the i Number of RTDs in i th Subvo h th Dg = ! All Dewcell Temperatures in i Subvolume Number of Dewcells in i th Subvolume Py3=Dj converted to P yg using Polynomial Equation Where: 1 g - Average temperature of the i th subvolum (*F)

- Average dewpoint temperature of the i th D

3 subvolum (*F) th Py,g Average vapor pressure of the i subvolume (psia)

Containment Temperature and Dry Air Pressure PT = Absolute Containment Pressure P, = f(F g)(Py g)

P =PT-P y T = E(Fg )(Tg )

Where: P = Volume weighted average containment vapor pressure (psia)

F = Volume weighted factor of the i th subvolume T = Volume weighted average containment temperature (*F)

P = Containment dry air pressure (psia) 1065t 19 0509A

.- CONTAINMENT LEAK RATE CALCULATIONS (continued)

Containment Dry Air Mass W = (M)(P)(V)

Ru T w , (28.97)(P)(2715000)(144)

(1545.33)(T + 459.67)

W - 7329250.8 P/(T + 459.67)

Where: W Containment dry air mass (Ibs.)

M - Molecular weight of air = 28.97 P = Containment dry air pressure (psia) 3 V = Containment volume - 2715000 Ft R, . Ideal gas constant = 1545.33 T = Volume weighted average containment temperature (*F) 1065t 20 0509A

8.0 SUPPLEMENTAL. VERIFICATION TEST CALCULATIONS A leak rate of 7.5 SCFM was induced from containment to verify the accuracy of the instrumentation and adequacy of containment modeling.

The acceptance criteria for this phase of the test is that the leak be measured within i 25% of the allowable leak rate.

The accuracy of the test is calculated by:

P= 'c ~ l o -L x 100 L

T p, 0.1033 - 0.0957 - 0.0221 x 100 - 19.3%.'. Supplemental test is 0.075 acceptable l Where: P= Percent difference between measured and calculated imposed leak rates. Must be less than 25%.

L - Total measured leak rate during imposed test c

(weight %/ Day)

L, = Imposed leak rate as measured by flowmeter (weight %/ Day)

L = Containment leak rate measured during 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test (weight %/ Day)

LT = Maximum allowable leak rate (weight %/ Day) l l

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9.0 LOG OF SIGNIFICANT EVENTS Date Time Description 9-13-85 2100 Temperature survey was completed. No significant temperature variations were observed within the subvolumes.

9-14-85 1900 Containment inspection was completed.

9-15-85 0330 Containment irtegrity was established.

l 0345 Compressors were started, unloaded.

l 0445 Pressurization was initiated.

0446 A gasket from the compressor main header was blown indicating the compression line was blocked somewhere.

0655 A blar.k flange was found and subsequently removed from the ILRT test connection.

0710 The compressors were restarted, unloaded.

i 0720 Pressurization was reinitiated.

1005 One 900 SCFM compressor failed.

I 1020 The 900 SCFM compressor was returned to service.

1357 Started filling the pressurizer from 10% level.

1428 Stopped filling the pressurizer at 50% level.

1618 Air leaks were detected from the upper and lower shaft

! seals of the inner personnel hatch door. The outer personnel hatch door was closed and the inner door equalization valve was opened.

1930 The operating department was advised to raise pressurizer level to 50%.

1954 Pressurization was ceased at 63.4 psia containment pressure.

1955 The Mechanical Maintenance Department was advised to

. remove blocks from 2RV0005 and 2RV0006.

l 2005 Pressurizer level was observed to be 48.3%.

I 2020 The four hour stabilization period was begun. Data sets from the OAS were reinitialized. Pressurization period data sets were saved.

2030 Blocks on 2RV0005 and 2RV0006 were removed and the valves were closed.

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9.0 LOG OF SIGNIFICANT EVENTS (Continued)

Date Time bescription I 9-15-85 2040 The pressure and vacuum relief line was vented downstream of 2RV0006.

2120 All service water discharge pressures to the reactor containment fan coolers were observed to be greater than 100 psig.

2145 Spectacle flange 2SF4 was installed.

2148 2RV0005 and 2RV0006 were stroked open and then closed to pressurize the line up to 2SF4.

9-16-85 0100 The 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test was initiated at data set #28.

Containment had stabilized per ANSI 56.8 criteria.

0130 The outer personnel hatch door was investigated for

leaks. None found.

0443 1 dewcell from subvolume 3 (channel #34) was found to be erratic and approximately 6 degrees lower than other descells in the same subvolume. This instrument was removed from the scan sequence and all calculations.

1154 Loss of power occurred at the DAS due to a tripped circuit breaker. Helium leak detection equipment was found to be operating on the same circuit.

1353 Power was restored to the OAS. The first data set (93) obtained after power restoration was rejected due to loss of temperature compensation in the pressure instruments.

9-17-85 0130 The 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test was completed at data set #161.

0200 A leak of 7.50 SCFM (at 1 ATM and 70*F) was imposed at data set #165.

0230 The imposed leak test was initiated at data set #168.

0330 Data scan frequency was increased to every 5 minutes.

0748 The imposed leak test was terminated at data set #226, 1142 Containment blowdown was commenced.

2130 Containment blowdown was completed.

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10.0

SUMMARY

ANALYSIS OF TYPE B AND C TEST RESULTS The following table summates periodic Type B and C tests that have been performed since the most recent Unit 2 Type A test, completed 6/19/80. The increase in Type B leakage in 1983 and 1984 was due, to a large extent, to leakage through the escape hatch seals and the personnel lock volume. Both areas received extensive maintenance attention upon completion of the subject 9-17-85 Type A test. Consequently, measured leakage in these areas is expected to return to historical levels. The total allowable leakage of all Type B and C tests, per refueling cycle, is 285 SCFH. '

1980 1981 1982 1983 1984 1985 Total Type B leakage (SCFH) 1.3 9.8 9.6 11.3 24.0 77.0 Total Type C leakage (SCFH) 1.2 1.4 11.1 16.2 The following list describes Type B and C leakages from individual components.

Type B Components Item Date Tested Leak Rate (SCFH) J Electrical Penetrations Zone 1 09-14-81 0.2 04-29-83 0.1 Zone 2 09-14-81 0.1 04-29-83 0.2 Zone 3 09-14-81 0.1 04-29-85 0.2 Zone 4 09-14-81 0.2 04-29-83 0.3 l

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+

Type B Components Item Date Tested Leak Rate (SCFH)

Mechanical Penetrations Zone 1J 09-16-81 0.0 03-07-83 0.2 Zone 2J 09-17-81 0.1 03-07-83 0.0 Zone 30 09-17-81 0.0 03-07-83 0.5 Zone 3K 09-17-81 0.1 03-07-83 0.0 Zone 48 09-17-81 0.1 03-07-83 0.3 Zone 4H 09-17-81 0.1 03-07-83 0.2 Zone 18 11-04-81 0.0 04-29-83 0.0 Personnel Lock Door Seal 01-08-81 0.0 08-10-81 0.0 11-06-81 0.0 06-14-82 0.0 01-05-83 0.7 06-27-84 0.0 1065t 25 0509A

t-l Item Date Tested Leak Rate (SCFH)

Volume 8etween Doors of Personnel Lock 01-08-81 0.1 08-21-81 8.3 11-06-81 0.0 06-14-82 5.0 01-05-83 2.5 06-23-84 7.0 12-27-84 3.0 09-04-85 26.0 Escape Lock Door Seal 10-10-80 0.2 08-19-81 0.0 10-28-81 0.2 06-14-82 1.6 01-07-83 1.5 06-22-84 5.0 10-03-84 4.3 12-28-84 13.0 09-04-85 37.0 Volume 8etween Doors l

of Escape Lock 10-10-80 0.4 08-21-81 0.0 10-27-81 0.0 06-03-82 3.0 01-06-83 4.0 06-02-84 1.8 12-26-84 4.0 09-04-85 14.0 1065t 26 0509A

Item Date Tested Leak Rate (SCFH)

Equipment Hatch Seal 10-10-80 0.7 08-19-81 0.0 11-05-81 0.3 06-11-82 0.0 01-07-83 0.6 06-25-84 0.0 l

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l 5 Type C Components

Item Date Tested Leak Rate (SCFH) 2MOV-CS0003 09-24-81 0.0 02-16-82 0.0 03-18-82 0.0 03-09-83 2.5 06-29-84 0.8 2MOV-CS0005 1 09-21-81 0.0 l 02-16-82 0.2 03-18-82 0.0 03-09-83 1.0 06-29-84 0.6 2MOV-CS0007 09-24-81 0.0 02-16-82 0.0 03-18-82 0.4 03-09-83 '

2.0 06-29-84 1.1 l

2PR0030 09-29-81 0.0 03-01-82 0.2 03-18-82 0.4 l 03-10-83 0.0 05-31-84 0.3 2PR0029 09-29-81 0.0 03-01-82 0.2 03-18-82 0.4 03-10-83 0.0 05-30-84 1.3 i

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6 Item Date Tested Leak Rate (SCFH) 2A0V-RV0001, RV0002 10-01-81 0.0 03-18-83 2.2 06-18-84 0.0 2A0V-RV0003, RV0004 10-01-81 0.0 03-18-83 1.3 04-30-83 0.2 06-18-84 9.0 2A0V-RC8033 10-29-81 0.0 04-08-83 0.0 05-29-84 0.0 2DT9157 09-24-81 0.0 03-17-83 0.6 06-12-84 0.4 250V-PR25A 03-24-83 0.0 06-18-84 0.2 2SOV-PR26A 03-24-83 0.0 06-18-84 0.3 2SOV-PR250 03-24-83 O.0 06-19-84 0.0 1065t 29 0509A

Item Date Tested Leak Rate (SCFH) i 2SOV-PR260 03-24-83 0.0 06-19-84 0.0 250V-PR258 03-24-83 0.0 06-19-84 0.0 2SOV-PR268 03-24-83 0.0 06-19-84 0.0 250V-PR26C-03-24-83 0.0 06-18-84 0.8 250V-PR25C 03-24-83 0.0 06-18-84 0.8 2FCV-IA01A and IA018 10-30-81 0.1 03-15-83 0.0 06-18-84 0.0 2FCV-PR24A&B 11-01-81 1.1 03-14-83 1.5 06-18-84 0.6 4

25I-8880 04-08-83 0.0 05-30-84 0.4 1065t 30 0509A I

O 11.0 TEST RESULTS AND CONCLUSIONS The 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> phase of the ILRT began at 0104 on 9-16-85 with data set

1. 28. The test was initiated approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> after containment pressurization was secured to permit an adequate period for stabilization. Approximately 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> after test initiation, the measured leak rate and the 95% UCL were observed to have stabilized well below the allowable leak rate of 0.075 weight %/ day. 24.3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> after test initiation, the measured leak rate had fully stabilized at 0.022 weight

%/ day and the test was terminated (0123, 09-17-85 at data set #161). The 95% UCL at this time was 0.023 weight %/ day.

One anomaly did occur during the performance of the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test.

Sometime af ter data set 92, at approximately 1155 on 9-16-85, power to the data acquisition system was lost due to circuit overload. Helium leak detection equipment was found to be operating on the same circuit as the DAS. Power was restored to the DAS by 1353 on 9-16-85. The first data set (#93) obtained after the power failure was deleted from the data base when it was determined that the pressure gauges had been reinitialized incorrectly. This problem was corrected in time for data set 94 at 1403. Data was lost for 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> and 8 minutes during the power failure.

The test was continued on the basis that conditions in containment had not altered significantly as evidenced by RTD and dewcell trends which occurred before the power failure and continued, after power was restored. A representative from NRC Region III concurred with this decision. The pressure sensors were found to have been temporarily adversely affected by the power failure. Upon restoration of power, P, read slightly higher than P, for approximately 2.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />.

This was contrary to the trend established before the power failure in which P, consistently read lower (=0.005 psi) than P,. This deviation was caused by the mechanics and individual characteristics of each pressure instrument.

1065t 31 0509A

s.

Each sensor is a quartz manometer with individual heaters. The heaters are electronically controlled and display different characteristics when first energized; some may undershoot, some overshoot their set temperature and then stabilize. This explains the apparent pressure increase indicated by P, after power was restored.

The supplemental verification phase of the test was initiated at 0233 on 9-17-85 at data set 168. The test began 50 minutes after completion of the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test and 30 minutes after imposing a leak of 7.50 SCFM (0.096 weight %/ day). The measured combined leak rate and the 95% UCL stabilized within acceptance criteria (+25% La) after approximately 3.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />. 5.25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> after test initiation, the combined measured leak rate stabilized at 0.103 weight %/ day and the test was terminated (0748, 9-17-85 DS 226). The final measured leak rate was within 19% La of the calculated leak rate, thus verifying results of the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test.

Upon completion of the test, it was observed that containment pressure transmitters 2PT-CS20 and 2PT-CS22 had inadvertently been removed from the Type A test boundary. These transmitters were subsequently leak rate tested locally. No leakage was observed during these tests, hence the reported Type A leak rate was not affected.

Results of the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and supplemental tests verify that leakage through Zion Unit 2 containment and systems and components penetrating primary containment does not exceed the allowable leak rate as specified by Technical Specifications. Furthermore, results of the Type B and C tests prove that proper maintenance and repairs are being made to reactor containment penetrations and isolation valves.

1065t 32 0509A

o NORMAL TEST FIGURES b

1065t 33 0509A

O ZION UNIT 2 INTEGRATED LEAKRATE TEST Plot Date WED. SEP 18 1985 ,

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1065t 34

/

. ZION UNIT 2 INTEGRATED LEAKRATE TEST Plot Date . WED, SEP 18 1985 Normal Test Plot Time 11;31;41 TOTAL CONTAINMENT PRESSURE vs TIME Base Dataset # 28 Plot Starting Dataset # 28 Plot Ending Dataset # 161 Relative Time (Hours) 62.60

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ZION UNIT 2 INTEGRATED LEAKRATE TEST Plot Date : WED, SEP 18 1985 Verification Test Plot Time : 14: 13: 14 CONTAINMEt1T ORY AIR PRESSURE vs TIME Base Dataset # 168 Plot Starting Dataset # 168 Plot Ending Dataset # 226 0.00 0.53 1.05 1.58 Relative2.10 Time (Hours) 62.02 .

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ZION UNIT 2 INTEGRATED LEAKRATE TEST Plot Date : WED, SEP 18 1985 Verification Test Plot Time : 15: 30: 22 CONTAINMENT DRY AIR TEMPERATURE vs TIME 8ase Dataset # 168 Plot Starting Dataset # 168 Plot Ending Dataset # 226 s.os 1.58 Relative Time (Hours)

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82.33 Descri_ption Units Symbol Base Dataset Time DRY AIR TEMPERATURE DEG F 0 260 02:33:04 FIGURE 19 1065t 49

ZION UNIT 2 INTEGRATED LEAKRATE TEST Plot Date : WED, SEP 18 1985 Verification Test Plot Time : 14: 25: 21 CONTAINMENT DRY AIR MASS vs TIME Base Dataset # 168 Plot Starting Dataset # 168 Plot Ending Dataset # 226 1.05 Relative Time (Hours) 0.8380E+06 0.00 0.53 1.58 2.10 2.63 3.15 3.68 4f20 4.73 5.26 0.8379E+06 0.8378E+06 0.8377E+06 0.8376E+06 0.8375E+06 0.8374E+06 m -

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0.0372E+06 0.8371E+06 0.8370E+06 Description Units Symbol Base Dataset Time DRY AIR MASS LBS O 260 02:33:04 '

FIGURE 20 1065t 50

ZION UNIT 2 INTEGRATED LEAKRATE TEST Plot Date : WED, SEP 18 1985 Verification Test Plot Time : 14: 29: 11 CONTAINHENT DEWCELL TEMPERATURE vs TIME 8ase Dataset # 168 Plot Starting Dataset # 168 Plot Ending Dataset # 226 59.45 '

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9 ZION UNIT 2 INTEGRATED LEAKRATE TEST Plot Date : WED, SEP 18 1985 Verification Test Plot Time : 14: 33: 23 CONTAINMENT VAPOR PRESSURE vs TIME Base Dataset # 168 Plot Starting Dataset # 168 Plot Ending Dataset # 226 1.05 1.5B Relative Time (Hours) g,g33, 0.00 0.53 2.10 2.63 3.15 3.se 4.20 4.73 5.26 0.2508 0.2505 o '

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, FIGURE 22 1065t 52

P ZION UNIT 2 INTEGRATED LEAKRATE TEST Plot Date : WED, SEP 18 1985 Verification Test Plot Time : 14: 37: 20 CORRECTED PRESSURES vs TIME Base Dataset # 168 Plot Starting Dataset # 168 Plot Ending Dataset # 226 Relative Time (Hours) 62.28 62.26 62.24 62.23 62.21 _ _ _

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4 APPENDIX A

SUMMARY

OF 24 HOUR TEST DATA 1

l 1065t 54 0509A

1 I

ZION UNIT 2 10:26:17 WED, 04 DEC 1985 INTEGRATED LEAK RATE TEST

• • • • SUMARY OF DATA SETS 28 TIEU 161 st**

• • • • NDRMA:. TEST ****

DATA TAPE TIME TEST CONT AVE CONT AVE CALCULATED  ?$ I UFFER SET DURATION DRT AIR TEMF DRY AIR PRES LEAK RATE CONF LIMIT M) (DAY Iff M SS) (HOURS) (DE6 R) (PSIA) (1 / DAT) (1/ MY) 28 259 01:04:44 0.00000000EM0 0.54497559EM3 0.62284134Ef02 0.00000000Et00 0.00000000EMO 29 259 01:14:44 0.16601563EM0 0.54491736EM3 0.62277916Ef02 0.00000000Ef00 0.00000000EMO 30 259 01:24:44 0.33300781EM0 0.54486389EM3 0.62271790Ef02 -0.49421959E41 0.95997825E-01 31 259 01:34:44 0.50000000EMO 0.54480164EM3 0.62265022Ef02 -0.52619606E-01 -0.14521517E-01 32 259 01:44:44 0.66601563EM0 0.54475671EM3 0.62258781Ef02 0.79272091E-02 0.9173996X-01 33 259 01:54:44 0.83300781Ef00 0.54470227EM3 0.62252419EM2 0.28422114E-01 0.84366441E-01 l 34 259 02:04:44 0.10000000Ef01 0.54445247EM3 0.62245903EM2 0. 2 1086E-01 0.10079971EMO 35 259 02:14:44 0.11660156EM1 0.54461267Ef03 0.62241631Ef02 0.54013945E-01 0.88097677E-01 36 259 02:24:44 0.13330078EMI 0.54456421EM3 0.62235733EM2 0.56272499E-01 0.82131997E-01 37 259 02:34:44 0.15000000Ef01 0.54451672Ef03 0.62230583Ef02 0.50711356E-01 0.71817115E-01 38 259 02:44:44 0.16660156Ef01 0.54446985&O3 0.62226517EM2 0.31909198E-01 0.58094406E-01 39 259 02:54:44 0.18330078EM1 0.54443396EM3 0.62220520EM2 0.36605306E-01 0.5kd91196E-01 40 259 03:04:44 0.20000000EH1 0.54440332Ef03 0.62215752Ef02 0.48013076E-01 0.69963798E-01 41 259 03:14:44 0.21660156Ef01 0.54435681EH3 0.62211609Ef02 0.46017416E-01 0 64785764E-01 42 259 03:24:44 0.23330078EH1 0.54432385EM3 0.62206726EM2 0.50067768E-01 0.66739842E-01 43 259 03:34:44 0.25000000EM1 0.54429297EM3 0.62202736Ef02 0.53994477E-01 0.69032997E-01 l 44 259 03:44:44 0.26460156EM1 0.54424915EM3 0.62198448Ef02 0.52389512E-01 0.65690324E-01 43 259 03:54:44 0.28330078Ef01 0.54421045EH3 0.62195503EM2 0.44310533f41 0.58422539E-01 46 259 04:04:44 0.30000000EH1 0.54417480EM3 0.6219107tEf02 0.39115012E-01 0.52895121E-01 47 259 04:14:44 0.31660156Ef01 0.54413855Ef03 0.62187004Ef02 0.34590617E-01 0.47754042E-01 48 259 04:24:44 0.33330078EM1 0.54410876EM3 0.62182274Ef02 0.34753405E41 0.46627253E41 49 259 04:34:44 0.35000000Ef01 0.54408130EH3 0.62178268EH2 0.36832735E-01 0.47794104E-01 50 259 04:44:44 0.36660156Ef01 0.54404895EM3 0.62176170Ef02 0.33998653E-01 0.44371635E-01 51 259 04:54:44 0.38330078EMI 0.54402319EM3 0.6217163SEM2 0.35128534E-01 0.44681437E-01 92 259 05:14:44 0.41660156EH1 0.54395447EM3 0.62163597EM2 0.3581529?E-01 0.44525802E-01 53 259 05:24:44 0.43330078EH1 0.54393420Ef03 0.62161560EM2 0.35424821E-01 0.43400452E41 54 259 05:34:44 0.45000000EH1 0.54391431EM3 0.62157890EM2 0.37485532E41 0.45067641E-01 53 259 05:44:44 0.46660156Ef01 0.54387927Ef03 0.62154388Ef02 0.37920482E-01 0.44932567E-01 56 259 05:54:44 0.48330078Ef01 0.54385925EM3 0.62151611Ef02 0.33802125E-01 0.45354515E-01 57 259 06:04:44 0.50000000Ef01 0.54382410EM3 0.62148521Ef02 0.37901625E-01 0.44055186E-01 58 259 06:14:44 0.51660156EH1 0.54379407EM3 0.62143959Ef02 0.38481608E-01 0.44248149E-01 59 259 06:24:44 0.53330078EH1 0.54376819EM3 0.62141695Ef02 0.37869333E-01 0.43295324E-01 60 259 06:34:44 0.55000000Ef01 0.54374121Ef03 0.62138939Ef02 0.36777422E-01 0.41973308E-01 62 259 06:44:44 0.56660156Ef01 0.54372778EM3 0.62136627Ef02 0.36564492E-01 0.41451670E-01 62 259 06:54:44 0.58330078EH1 0.54370288Ef03 0.6213414BEM2 0.35822317E-01 0.4048103EE-01 63 259 07:04:44 0.60000000EM1 0.54367468Ef03 0.62130119EM2 0.35855256E-01 0.40251032E-01 64 259 07:14:44 0.61660156Ef01 0.54364490Ef03 0.62127632EM2 0.34871116E-01 0.39136015E-01 65 259 07:24:44 0.63330078EH1 0.54362781EM3 0.62125252Ef02 0.34275748E-01 0.38355626E-01 66 259 07:34:44 0.65000000EM1 0.54359802Ef03 0.62121902Ef02 0.33600979E41 0.37525922E-01 67 259 07:44:44 0.66660156Ef01 0.54356921Ef03 0.62119583Ef02 0.32212859E-01 0.36115102E-01 55 l

68 259 07:54:44 0.6S330078Ef01 0.54355493EM3 0.62117477Ef02 0.31097583E-01 0 35031602E-01 69 259 06:04:44 0.70000000Ef01 0.54353577Ef03 0.62114082E402 0.31003986E-01 0.34751363E-01 70 259 08:14:44 0.71660156Ef01 0.51352063Ef03 0.62112007Ef02 0.31064149E-01 0.34637615E-01 71 259 08:24:44 0.73330078Ef01 0.54349963Ef03 0.62109528EM2 0.31082254E-01 0.34493402E-01 72 259 08:34:44 0.75000000Ef01 0.54347656Ef03 0.62107277Ef02 0.3076t554f-01 0.3404092EE-01 73 259 08:44:44 0.76660156Ef01 0.54345691Ef03 0.62104652Ef02 0.30642882E-01 0.33777602E 74 259 08:54:44 0.78330078Ef01 0.54343784403 0.621055'Ef02 0.30406468E-01 0.33417106E-01 75 259 09:04:44 0.80000000Ef01 0.54341675EM3 0.62100822Ef02 0.29739257E-01 0.3269796SE-01 76 259 09:14:44 0.81660154EMI 0.54340332EK3 0.62097687Ef02 0.2995412EE-01 0.32800414E-01 77 259 09:24:44 0.8333007BEMI 0.54337720Ef03 0.62095451EM2 0.296EE109E-01 0.3'>433450E-01 78 259 09:34:44 0.85000000Ef01 0.54337305Ef03 0.620'3124EiO2 0.303:28'3E-0: C.33020'.49E-01 79 259 09:44:44 0.86660156Ef01 0.54334914EM3 0.62091797EM2 0.30:763'95-01 0.32691061!-0!

80 259 09:54:44 0.88330078EMI 0.54333936Ef03 0.620S9157E402 0.30563433E-01 0.!3124760E-01 81 259 10:04:44 0.90000000Ef01 0.54331421Ef03 0.620E7402EfC 0.301379E0E-21 0.32908037E-01 82 259 10:14:44 0.91660156EM1 0.54309041Ef03 0.62085556EM2 0.29829550E-01 0.32329969E-01 83 259 10:24:44 0.93330078Ef01 0.54328064EM3 0.62083549EM2 0.29716462E-01 0.320763!9E-01 84 259 10:34:44 0.95000000Ef01 0.54326770E403 0.62030719Ef02 0.3054059E-01 0.323'5400E-01 85 259 10:44:44 0 96660156Ef01 0.54324304EM3 0.6207946EEf02 0.29696811E-01 0.31946'77E-01 86 259 10:54:44 0.98330078EMI 0.54323096Ef03 0.62077179E402 0.29666!29E-01 0.318400:3E-01 87 259 11:04:44 0.10000000Ef02 0.54321204Ef03 0.62074867Ef02 0.29653516E-01 0.31755775E-01 0 259 11:14:44 0.10166016Ef02 0.54319678Ef03 0.62072937EM2 0.29655!!EE-0! 0.3!6P9465E-01 89 259 11:24:44 0.10333008EM2 0.54318909EM3 0.62071594EM2 0.29773094E-01 0.317450E4E-01 90 259 11:34:44 0.10500000EM2 0.54317004Ef03 0.62070015EM2 0.2963978'E-01 0.3!553030E-01 91 259 11:44:44 0.10646016EM2 0.54315210Ef03 0.62069077Ef02 0.29114999E-01 0.3103f791E-01 l 92 259 11:54:44 0.10833008EM2 0.54313171EM3 0.62068130EM 0.28163213E-01 0.30246209E-01 93 259 14:03:04 0.12972656EM2 0.54303796EM3 0.62042180Ef02 0.245077B2E-01 0.27799222E-01 94 259 14:13:04 0.13138472Ef02 0.54303711EM3 0.62059464Ef02 0.22344'31E-01 0.25870249E-01 95 259 14:23:04 0.13305664EM2 0.54302600EM3 0.62058838EM2 0.20235E7E-01 0.02966E23E-01 96 259 14:33:04 0.13472656EM2 0.54302087Ef03 0.62056877EM2 0.18830046E-01 0.00569459E-01 97 259 14:43:04 0.13638672EM2 0.54301:50EM3 0.62054855Ef02 0.18022276E-01 0.216714E!E-01 98 259 14:33:04 0.13805664EM2 0.54300256Ef03 0.62052475Ef02 0.17556231E-01 0.21083600E-01 99 259 15:03:04 0.13972656Ef02 0.5429887E M 3 0.62051453EM2 0.16971510E-01 0.20409614E-01 100 259 15:13:04 0.14138672EM2 0.54297656Ef03 0.62048790Ef02 0.16769748E-01 0.20092655E-01 101 259 15:23:04 0.14305664EM2 0.54296765EM3 0.62047623EM2 0.16611740E-01 0.19825876E-01 102 259 15:33:04 0.14472656EM2 0.54295422Ef03 0.62046036Ef02 0.16464218E-01 0.19576456E-01 1 103 259 15:43:04 0.14638672EM2 0.54293970Ef03 0.62045647Ef02 0.16019486E-01 0.1905759SE-01 104 259 15:53:04 0.14805664EM2 0.54293274Ef03 0.62043770EfC2 0.15847851E-01 0.1E796772E-01 105 259 16:03:04 0.14972656Ef02 0.54290698EM3 0.62042259Ef02 0.15366914E-01 0.1225E721E-01 106 259 16:13:04 0.15138672EM2 0.54290210Ef03 0.62040337EM2 0.15199192E-01 0.1E011142E-01 107 259 16:23:04 0.15305664Ef02 0.542C?051EM3 0.62039047Ef02 0.15140237E-01 0.1727389EE-01 108 259 16:33:04 0.15472456Ef02 0.54288123Ef03 0.62037163Ef02 0.15125009E-01 0.17782815E-01 109 259 16:43:04 0.15638672EM2 0.54287170EM3 0.62036102Ef02 0.15003241E-01 0.17679699E-01 110 259 16:53:04 0.15805664EM2 0.54285974Ef03 0.62033722EM2 0.15234429E-01 0.1775d!75E-01 111 259 17:03:04 0.15972656Ef02 0.54285779Eh3 0.62033257Ef02 0.15393240E-01 0 17E54299E-01 112 259 17:13:04 0.16138672EM2 0.54283582fM3 0.620309 2EM2 0.15495217E-01 0.1789612K-01 113 259 17:23:04 0.16305664Ef02 0.54283435Ef03 0.62029427E402 0.15202123E-01, 0.18160824E-01 114 259 17:33:04 0.16472656Ef02 0.54282507Ef03 0.6202645SEK2 0.16060069E-01 0.18374100E-01 115 259 17:43:04 0.16638672Ef02 0.54281458EH3 0.62026466Ef02 0.16410280E-01 0.16602903E-01 116 259 17:53:04 0.16805664Ef02 0.54279248Ef03 0.62025612EM2 0.164'2891E-01 0.197030:N-01 117 259 18:03:04 0.16972656EM2 0.54278064EM3 0.62023552EM2 0.16623959E-01 0.18807609E-01 118 259 18:13:04 0.17138672Ef02 0.54278015EM3 0.62021690EM2 0.17015082E-01 0.191E1427E-01 119 259 18:23:04 0.17305664EM2 0.54276807EH3 0.62020012Ef02 0.17409164E-01 0.19540371E-01 56

120 259 18:33:H 0.17472656Et02 0.54275110EM3 0.62018936E+02 0.17648309E41 0.19764'45E-01 121 259 18:43:H 0.1763267K M 2 0.54274329Ef03 0.62016953EH2 0.18006377E-01 0 20105772E-01 122 259 18:53:H 0.17805664Et02 0.54272705Et03 0.62015549EM2 0.18271279E41 0.20341996E-01 123 259 19:03:04 0.17972656EM2 0.54272571EM3 0.62014473EM2 0.18627446E-01 0 20e83877E-01 124 259 19:13:H 0.18138672EM2 0.54271106EM3 0.62012665EM2 0.189684S?E-01 0.2100950!E-01 125 259 19:23:H 0.18305664Ef02 0.54269763Ef03 0.62011307EM2 0.19257315E-01 0.21276549E-01 126 259 19:33:04 0.18472656Et02 0.54269470Et03 0.62010277EM2 0.19600734E-01 0.2160'593E-01 127 259 19:43:04 0.18638672EM2 0.54268884E+03 0.62008E73EH2 0.19997209E-01 0.22002075E41 128 259 19:53:04 0.18805664EM2 0.54266895Ef03 0.62008377Ef02 0.20160757E-01 0.22133168E-01 129 259 20:03:04 0.18972656E+02 0.54265686EM3 0.62006813EM2 0.20323562E-01 0.72 64741E-01 130 259 20:13:M 0.19138672Ef02 0.54264978EM3 0.6200602E+02 0.20467602E-01 0.22377267E-01 131 259 20:23:H 0.19305664Et02 0.54264160EM3 0.62004890EM2 0.2061376E-01 0.22493236E-01 132 259 20:33:04 0.19472656Et02 0.54262891EM3 0.6200441E M2 0.20441379E41 0 22436363E41 133 259 20:43:H 0.19638672Ef02 0.5426159Et03 0.62002045Et02 0.20750038E-01 0 2?S64530E-01 134 259 20:53:04 0.19805664EM2 0.54260779EM3 0.62001137Et02 0.20841960E-01 0.22626057E-01 135 259 21:03:04 0.19972656Ef02 0.54260693EM3 0.62000694EM2 0.20952606E41 0.27708531E-01 136 259 21:13:H 0.20138672Ef02 0.54259473EM3 0.61999886Ef02 0.20992953E-01 0.22718240E41 137 259 21:23:H 0.20305664Ef02 0.54259143E+03 0.61997681Ef02 0.21193959E-01 0.22M0790E-01 138 259 21:33:04 0.20472656Ef02 0.54257056EM3 0.619965MEf02 0.21260105E-01 0 2293S795E-0:

139 259 21:43:04 0.20638672EM2 0.54256226EM3 0.61995575Ef02 0.21317925E-01 0 22968981E-01 140 259 21:53:04 0.20805664E+02 0.54255664E+03 0.61994019EM2 0.21445774E-01 0 23073927E-01 141 259 22:03:04 0.20972656Ef02 0.54255420EM3 0.619930BEEfC2 0.21616045E-01 0.23225952E-01 142 259 22:13:04 0.21138472EM2 0.54254!38EM3 0.61992294Ef02 0.2:712294E41 0.2330C178E41 143 259 22:23:M 0.21305664EM2 0.54253235EM3 0.61991325EM2 0.21792694E-01 0.23354977E-01 144 259 22:33:04 0.21472656E+02 0.54252466EM3 0.61989983E+02 0.21P?f268E41 0.224?9910E-0 145 259 22:43:H 0.21638672EM2 0.54250574EM3 0.61989258Ef02 0.21k?4350E-01 0 21390476E41 146 259 22:53:04 0.21805664Et02 0.54250464E+03 0.61988533E+02 0.21891624-01 0.2332339E41 147 259 23:03:H 0.21972656EM2 0.54249805Ef03 0.61996603EM2 0.21994043E-01 0.2.1466229E-01 10 259 23:13:H 0.22138672Et0? 0.54247839EM3 0.61985947EM2 0.21959051E-01 0.23409689E-01 149 259 23:23:04 0.22305664E+02 0.54247424E+03 0.61984428Ef02 0.21998E67E-01 0 23426654E-01 l 150 259 23:33:H 0.22472656Ef02 0.54246497EM3 0.61983353EM2 0.22030391E-01

! 0 23435662E-01 151 259 23:43:04 0.22638672Ef02 0.54245886EM3 0.61981613Et02 0.22132173E-01 0.77520827E-01 152 259 23:53:H 0.22805664Et02 0.54244104Et03 0.61981209EM2 0.22102680E-01 0.23470759E-01 153 260 00:03:04 0.22972656Et02 0.54244226Et03 0.61980110EM2 0.22157364E-01 0 23506135E-01 154 260 00:13:N 0.23138472EM2 0.51243237E+03 0.61979195EM2 0.22187697E41 0 23516852E-01 155 260 00:23:N 0.23305664EM2 0.54242053E+03 0.61978363Ef02 0.22172935E41 0 23482684E-01 156 260 00:33:H 0.23472656EM2 0.54240955EM3 0.61976860EM2 0.2216948!E-01 0 23460180E41 157 260 00:43:H 0.23638672EM2 0.5424H05EM3 0.61976089EM2 0.22169791E-01 0 23441862E-01 158 260 00:53:H 0.23805664Et02 0.54238928EM3 0.61974998Et02 0.22!2199eE-01 0.23376781E-01 159 260 01:03:H 0.23972656EM2 0.54238757Ef03 0.6197451K+02 0.22090092E-01 0.23327421E-01 160 260 01:13:04 0.24138672EM2 0.54238623EM3 0.61973434Ef02 0.22113178E-01 0.27333360E-01 161 260 01:23:H 0.24305664Ef02 0.54237573Et03 0.61971840EM2 0.22154756E-01 0.23358610E-01 STARTING MSS = 0.837630Ef06 L8S 57

9 o

APPENDIX B

SUMMARY

OF VERIFICATION TEST DATA e

1065t 58 0509A

N ZION Ipilf 2 10:22:39 KI4 M K C 1985 INTEORATD LEAK RATE TEST

• • tt

SUMMARY

OF MTA SETS 168 TEtl 226 8888 8s:: NORMAL TEST **ss MTA TAPE TIE TEST CONT AYE CONT AYE CALCILATD 95 215fER SET DURATION BRT AIR TEM 3RY AIR PRES LEAK RATE COE LIMIT (0) (NT 101 M $$) (NOES) (K6 R) (PSIA) (1 / MY) (2 / M Y) 168 260 02:33:M 0.00000000000 0.5423161EM3 0.61962761EM2 0.00000000000 0.00000000EM0 169 260 02:43:M 0 1660156Kf00 0.54230066EM3 0.61959994EM2 0.00000000D00 0.00000000000 260 02:53:M 170 0.33300781Et00 0.5422977E M3 0.61959702EM2 0.11068799000 0.45308059D00 171 260 03:03:M 0.50000000000 0.542282M D03 0.61958229EM2 0.48473209E-01 0.1832547EM0 172 260 03:13:04 0.66601563Et00 0.542265J8003 0.61956772EM2 0.1484821X42 0.91913149E-01

.n 173 260 03:23:M 0.83300781EM0 0.5422MIEM3 0.61955544EM2 0.2438039E-01 0.8517955X41 174 260 03:28:N 0.91601563EM0 0.54226477EM3 0.61955681Et02 0.29384952E41 0.7280M2X41 7 175 260 03:33:04 0.10000000EM1 0.5422673X M 3 0.61954735EM2 0.5351830X-01 0.1006219Ef00 176 260 03:38:04 0.10830078EMI 0.54225793EM3 0.61953773EH2 0.63M8718E41 0.10303374000 177 260 03:43:H 0.11660156EH1 0.5422561EM3 0.6195352X M2 0.4761595E41 0 10120299000 178 260 03:48:M 0.12500000EMI 0.54224475EM3 0.61953N4002 0.59241861E41 0.89687079E-01 179 2M 03:53:M 0.13330078EM1 0.5422479E M3 0.6195166EM2 0.70390701E41 0.10024694000 13 260 03:58:H . 0.14160156EMI 0.5422414E M3 0.61951401EM2 0.7221421E-01 0.98259419E-01 181 260 M:03:N 0.15000000EMI 0.5422384E M3 0.61950478EM2 0.76984569E-01 0.100599MEM0 182 260 N :08:04 0.15830078EH1 0.54223600EM3 0.41949722EM2 0.82885727E41 0 1M 9921 E t00 183 2 M M :13:04 0.16660156EMI 0.54223425EM3 0.61949242EM2 0 8790169N-01 0.10850921000 184 260 M:18:H 0.17500000EH1 0.54223608EM3 0.61948166EM2 0.98598599E-01 0.12096030EM0 185 260 M:23:04 0.18330078EH1 -0.54222M Ef03 0.61947701EM2 0.9774484E-01 0.11795087000 186 260 04:28:M 0.19160156EH1 0.54221692EM3 0.61947701EM2 0.93824565E-01 0.11268587EM0 187 260 M:33:04 0.20000000EH1 0.54221863003 0.61945992002 0.99251702E-01 0.11748861EH0 123 240 04:38:04 0.20830078EMI 0.54220667EM3 0.61945717EM2 0.97477734E-01 0.11427201000 189 260 M :43:N 0.21660156E+01 0.54221313EH3 0.61945366EM2 0.99807173E-01 0 1154355K H0 190 260 04:48:04 0.22500000EMI 0.'A220276Ef03 0.61944260D02 0.10048825Et00 0.11489949000 191 260 04:53:H 0.23330078EM1 0.54221143Ef03 0.61944260Ef02 0.10400975EMO 0.117k5984000 192 260 M:58:M 0.24160156001 0.54219849Ef03 0.61943100Ef02 0.10489148Ef00 0.11775820Ef00 193 260 05:03:04 0.25000000001 0.54219226Et03 0.61943138Ef02 0.10238700EMO 0.!!463453000 i

194 260 05:08:N 0.2583007EMI 0.54218860EM3 0.61942505EM2 0.10032287000 0.11193681EM0 i

195 260 05:13:04 0.26660156EH1 0.54219385EM3 0.61941635002 0.10228561000 0.!!332260EM0 196 260 05:18:04 0.27500000EMI 0.54218481EM3 0.61941505002 0.10033446000 0 111270220 00 197 260 05:23:M 0.28330078EH1 0.54218115EM3 0.61941078EM2 0.99069625E-01 0.10902393Ef00 198 260 05:28:04 0.29160156EMI 0.54217761Ef03 0.61940208Ef02 0.9E232502E-01 0.10762157Ef00 199 260 05:33:04 0.30000000EMI 0.54217859EM3 0.61939323002 0.99330ES7E-01 0.10S23758EMO 200 260 05:38:04 0.30630078001 0.54217078003 0.61938904002 0.98752156F-01 0.10716760EH0 201 260 05:43:04 0.31660156EMI 0.54217004Ef03 0.61938713D02 0.98052368E-0! 0.10602926Ef00 l 202 260 05:48:H 0.32500000E+0! 0.54216614Ef03 0.61937317Ef02 0.98905C3E41 0.10649772Ef00 203 260 05:53:H 0.33330078EM1 0.54216003EM3 0.61937027EH2 0.984497E2E-01 0 10565349E 00 204 260 05:58:H 0.34160156EMI 0.54215796Ef03 0.61936523002 0.98195314E-01 0.10503066EM0 205 260 06:03:04 0.35000000Ef01 0.54216504Ef03 0.61935913002 0.10001750EM0 0.!067650EEf00 206 260 06:08:M 0.3583007BEM1 0.5421539E M 3 0.61934906Ef02 010031664EM0 0.10728199D00 207 260 M :13:04 0.36660154001 0.54215430Ef03 0.61934677Ef02 0.10160400EMO 0.10780862Ef00 59

206 260 06:18:04 0.37500000EMI 0.54214197Et03 0.61933235E402 0.10201474Ef00 0.10794123Ef00 209 260 06:23:M 0.38330078Ef01 0.54213977E403 0.61933624E402 0.10113704Ef00 0.106858S3Ef00 210 260 06:28:04 0.39160154Et0! 0.54214526Ef03 0.61932426EM7 0.10256312EMO 0.10S21164 M0 all 260 06:33:H 0.40000000Et01 0.54213464EM3 0.61932312E402 0.10209267Ef 00 0.10'51204EM0 212 260 06:38:04 0.40830078EMI 0.54213867EM3 0.61931122Et02 0.10343457Ef00 0.10385303EMO 313 260 06:43:04 0.41660156Ef01 0.54213550Ef03 0.61930267Ef02 0.10502283EMO 0.11038859Ef00 214 260 06:48:04 0.42500000EMI 0.54212341Ef03 0.61929901EM2 0.10492752E400 0.11007136E400 215 260 06:53:M 0.43330078Ef01 0.54212678Ef03 0.61930084Ef02 0.10508695E400 0.11002472Ef00 216 260 06:58:04 0.44160156Ef01 0.54212720Ef03 0.61929543EM2 0.10537435Ef00 0.11012346EMO 217 260 07:03:04 0.45000000Ef01 0.54212390E+03 0.61928513Ef02 0.10606:52EM0 0.11067656Ef00 218 260 07:08:04 0.45830078Ef01 0.54211719Ef03 0.61927521E402 0.10667971E400 0.11115E52Ef00 219 260 07:13:04 0.46660156Ef01 0.54211011EM3 0.61927528E+02 0.10622151Ef00 0.1105554SE+00 220 240 07:18:04 0.47500000Ef01 0.b421099fE403 0.6!927345E+02 0.10576077E+00 0.10995'05E+00 221 260 07:23:04 0.48330078Ef01 0.54210449Ef03 0.6192c392Ef02 0.10545106E+00 0.10950829Ef00 222 260 07:28:04 0.49160156Ef01 0.54209778E+03 0.61925690E402 0.10490590E400 0.1088550$Ef00 223 260 07:33:04 0.50000000EH1 0.54209326Ef03 0.61725067Ef02 0.10429487Ef00 0.10815:54EMO 224 260 07:38:04 0.50830078Et01 0.54209351EM3 0.61924995E402 0.10366076Ef00 0.10743716Ef00 225 260 07:43:04 0.51660156E401 0.54208557EM3 0.61924058Ef02 0.10292901Ef00 0.10664766Ef00 226 260 07:48:04 0.52500000F.101 0.54209180E103 0.61923134E402 0.10334982Ef00 0.10696781EMO STARTING MSS = 0.S37413EM6 LPS 60

9 APPENDIX C INSTRUMENTATION CALIBRATION RECORDS

~

ee W

e 1065t 61  !

0509A l l

CERTIFIC A1 E OF C ALIQDR AllON MlE: 1, /11N<

RECALL: 12/r/Ns PURO4ASEE: bomaru Ainl/A L/. son fo- P.O. No.: 2422/W

'IEST TIR E: ree k ~ its u n to (>b OL Bl hEnn nCNph 4 Rift $feb'

}

• I MODEL # I68I JOB NO.: 12[Co9 SERIAL NO.: M 'M

, CON NO.: A/[4 DOC NO.: 4c:oo Trsog

• Ihis is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the performance of this test program as set for n in your Purchase Order.

In~strunentation used in obtaining this data has been calibrated using standards which are traceable to the National Bureau of Standards.

4 CAL 1BRATION PROCEDURE (S): OA# AN>A h ( - s Jo/9 fu f,*

i 2n2Q, % t/

TEST STANIMRDS USED:

CERTIFIED CALIBRATION DUE EQUIPMENT NO. ACCURACY tRTE CATE nirne W/ < it ons 2/ !erdtKS 2 2-df V

ff- 23 -M<

L/me W2O 1ArD A%f _S-C -t(S // E'T U/nd ~?/C- A L o. t

• C. /-/(, - W's*

_7. t&-b'S' .

m

- er 6

- _. l ENCIDSURES: DATA SHEEIS ( ( PACES)

QUALITl ASSURANCE APPROVAL.

A~-  !

V FORM-10024 REV. 3  !

62

VOL_ UMEE T 94 2 C S .T *L-ENERGY SCIENCE CENTER P.O.DOX 2084 PASO ROBLES, CA. 93446' (805) 239-0110 eeeee###eeeeeeeeeeeeeeeeeeeeeees .

1 CUSTOMER: COMMONWEALTH EDISON CO. DATE 06/21/85 GAGE S/N 2000 CAPSULE S/N 3269 RANGE O TO 100 PSIA RECALL DATE 12/21/85 ACCURACY +/-0.015% RDG +/-0.002% F.S.

ROOM TEMP. 74 F CAP. TEMP 49.8 C STANDARD NO. VMC B15 VMC JOB NO.02/8209 CUST ORDER 297318 CAL. BY D. ERGET

1. eeeeeeeeeee###eeeGeeeeeee###eee TRUE PRESS. = (GAUGE READING

• M) +C POINT TRUE PRESSURE GAUGE READING -M- -C-1 O.000 O.000 --- -

- -- ------ 1.02821 O.000 2 4.994 4.857 -

---

---- ---------< 1.01773 O.051

~

3 9.989 9.765 - - -

- - - - - - - - - - - - - - - - - - - - - - -- 1.01504 O.077 4 14.983 14.685 ---- -----------

---

~<

1.01401 ,

0.092 5 19.978 19.611 ---------------- -

---

--< 1.01257 0.120 6 24.972 24.543 - - - - - - - - - - - - - - - - - -

--- - - - - - - - - - - - - - - - -< 1.01134 0.151 7 29.967 29.482 -- - ==

________ _________________ _________< g,oo993 o,393 8 34.962 34.428 - - - - - --------

---

- - - = --- ----- -

==-< 1.00747 O.277 9 39.956 39.385 - ---

- - - - - - - - - - - - -- ---------< 1.00759 0.272 10 45.001 44.392 --------------- -

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - < 1.00848 0.232 11 49.995 49.344 - - - - - ----

---

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - < 1.00665 O.323 12 54.990 54.306 --------------------

---

< 1.00848 0.224 13 59.986 59.260 -----=-- -- - - - - - - - -

---

< 1.00564 O.392 e 14 64.981 64.227 - - - - - - - - - - - - - - - - - - -

---

----------------< 1.00503 0.431 15 69.975 69.196 --------------------

---

< 1.00120 O.696 16 74.970 74.185

---

< 1.00321 0.547 17 79.964 79.163 --------------------

---=- - =-------------------------------< 1.00020 0.785 18 84.959 84.157

==== - --------------------------------< 1.00140 0.684 -

19 89.953 89.144

- - - - - - - - - - - - - - - - - - --- - --------< 0.99881 0.915 20 94.998 94.195 - - - - - - - - - - - - - - -- --

-- -- - - - - - - - - - - - - - - - - - - - - - - - - - - -< 1.00040 0.765 21 99.993 99.188 - - - - - - - - - - - - - - - - - - -

U

ILRT SENSITIVITY REPORT swEETr or-nEoutsvon Commonwcolg Edison Co. cuarouEn P.o. no. 2e//I/(

uooEL no. ILRT 'E* ** Sa 6tloO w.o. no. oz/yzo9 pnocEovat no.ggp yoff, $g ,EulnEwEuTo O.00/ ACTUAL suc's g.00/

~

The equipment listed below has been tested for sensitivity of response in Cccordance with the above referenced procedure to demonstrate compliance eith ANSI /ANS-56.8-1981.

l INSTRUMENT TESTEo NOMIN AL oBSEnVEo TEST VALuE SENSITIVITY

~ P$rA Vmt 815 (Sla ncla<d )

~

<h 199; -3:? !

fo000 Oct

1. 000 ,se" S/n 2xo - BM 9 t'D. 000 .Oo(

l l

l

=

COWWENTS I

E ",9 2/,,,+

on o

s/w/yr

• io'hE" [ % dp-V-c-. ........,

s CHART 1

. Pl. t PI-2 :8ECONDARY B N M -D&Fl 8 / N 2@-3.M9 ,qAgag.

COUNTS' COUNTS S/N #md #/s CfAPSULE TEMRERATURE 6/ d 99,f"C 999'#C (svar et FIRST READING u .o V9 33Y So.oC7 Jg, inter e)

~ -

SECOND RE ADlNG (STEP 11) qq.gfy' 49 32S 50 08'l i:

1 CHART 2 PRESSURE REPEATABILITY GAUGE. VALUES O F-

'N O . STEP 12'.

PI-1 i 3/;;/ff -1248 g . 00/ PSI A SIN bb -3269 -

0 00/ PSI A SECONDARY GAUGE PSI A SIN O'000 -

65

CERTIFIC ATE OF C AllBR ATION

. 1 DATE: R /9 /R5 RECAU.: 2) /9 / PA PUROMSER: nmmon tLY>a Rh EAsnca 2 mP.o. NO.: Nso9lo nST TInz: lhi,brMm efhhsern Aame arW hw4ah,lifvSM

' ' Sensie v /4 y MODEL # TLET JOB NO.: Ml'&Q 9 GOV'T u-SERIAL NO.: Soo Edvff' CON. NO. : N4- DOC NO. : TSOd7697 This is to certify that the enclosed Test Data Sheet (s) contain correct and

~

true data obtained in the perfonnance of this test prograrn as set forth in your Purchase Order.

.t s In'trumentation used in obtaining this data has been calibrated using

'O standards which are traceable to the National Bureau of Standards.

CALIBRATION PROCEDURE (S): nD l Eon,S

.00,0lo A i i dol 9 -

, o O t_1 -

TEST STANDARDS USED:

CERTIFIED CALIBRATION DUE IDQUIPMENT NO. ACCURACY DATE D\TE ilM BIS 1,A15%N.cn*T/[ 0-33-95 8- 0 3- R 5 y mg. p2pg +gm4 O IDrnt 5-In - RS 1 t- to - M

=

ENCIDSURES: DATA SHEETS ( Y PAGES)

QUALITY ASSUPANCE APPROVAL

. xfp-v mRn-10024 REV. 3  !

66

l VOLUMETRICS ENERGY SCIENCE CENTER P.O. BOX 2084 PASO ROBLtS, CA. 93446 (805) 239-8110

-1 CUSTOMER: COMMONWEALTH EDISO AT ZIDN DATE 98/09/85 GAGE S/N 971 CAPSULE S/N 3318 RANGE B TO 1BB PSIA RECALL DATE 02/09/86 ACCURACY +/-B.015% RDG +/-B.982% F.S.

RDOM TEMP. 73.F CAP. TEMP 49.9 C STANDARD NO. VMC 815 VMC JOB NO.05/7699 CUST ORDER 745096 CAL. BY C MORDNES TRUE PRESS. =

(GAUGE READING

• M) +C POINT TRUE PRESSURE GAUGE READING -M- -C-1 B.BBB B.BBB -

< 1.91584 B.BBB 2 4.994 4.928 -

---< 1.99868 8.831

{ 3 9.989 9.872

-< 1.99999 B.927 4 14.983 14.821 1.BB746 B.051 5 19.978 19.779 -- -

---< 1.88564 B.007 6 24.972 24.745 --- ---------

1.08523 B.898 7 29.967 29.714 - - -- -

= - - - ________ _ -__

_______< g,gg422 B.128 8 34.962 34.688 --------------------

---

= = - - - - - = - - =-

---< 1.99684 B.964 9 39.956 39.652 ---------------- ,---

==- = =-

1.00759

= - - -

< 0.003 10 45.001 44.659 =

---

=- --- - ----- = - - - = --

-< 1.00584 0.081 11 49.995 49.624 - - --- -------------

- = = -

---

< 1.00726 B.011 12 54.990 54.583 ------------=--

---

=-- - - - - - - = - =---

--< 1.01011 -0.145 13 59.986 59.529 --------------------

=-==- - =-==- -= -

-< 1.00422 0.206 4-14 64.981 64.503 ------ - ----=------- -

== =------< 1.00201 0.349 15 69.975 69.487 --------------------

---

< 1.00080 0.432 16 74.970 74.478 --------------------

---

< 0.99880 0.581 17 79.964 79.478 --------------------

---

< 0.99860 0.597 18 84.959 84.400 --------------------

---

s 1.00000 0.479 19 89.953 89.474 --------------------

---

< 0.99941 0.532 20 94.998 94.522 --------------------

________________________________________( g,99900 0.571 21 99,993 99.522 --------------------

NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN 67 rwm a

ILRT SENSITIVITY REPORT SHEET]OFd

• I REQUESTOR pmmnnavn\fh Fdm y };m oUSTOuER P.O. NO 3,,5 9f, "00"' "0 H QT SER. NO. b r W , wo no os/pg,99 PROCEDt)RE NO, AN88 kt :1 REQUIREMENTS * ,00lPSA ACTUAL SPEC'S

• ODI Psin The equipment listed below has been tested for sensitivity of response in accordance with the above, referenced procedure to demonstrate compliance with ANSI /ANS-56.8-1981. -

INSTRUWENT TESTED

• WOMIN AL ^ OSSERVED TEST P*,iA VALUE SEN88TigITY "P"> I

{d ;q'&

m uY?>

r, n s 5)N 9 11 PlkrfY3 ^MI flT1C $15  % nela sN I 00 M *00f f

l COMMENTS TESTED BY IDATE APPR. BY Q\ ] (..q p p 3 ( g'l4lg'(

)

i IDATE ,0. Jef,,, ~,/- flq/M'T j

f V-C-6 *66.6-1981 68

HoS 'l CHART 1 PI- 1 PI - 2 TRANSFER S/N 971 S N DDl'? STANDARD COUNTS COUNTS S/N RlS (% pl CAPSULE TEMPERATURE 4/ 7, 9 4+9 99,4 (STEP 6)

FIRST

, RE ADING 4 9. bd 9- ^/ $ (p3 60.037 ISTEP 9) '

=.

SECOND RE ADING 49e 6/9 yg, & yo 50,087 (STEP 11)

/

g CHART 2

. PRESSURE REPE AT ABILIT GAUGE VALUES OF NO. STEP 12 PI- 1 '

S/N 971 COO 3 PI-2 5 / N ^On PSI A v COR '

TRAN8FER SN 9) S sum 69

CERTIFIC ATE OF C AllBR ATION l

DAu: '7 /6/Rs RECAU.: / /t3/R/, I PURORSER: Ovnervn,wa)4h FA,sen@2,nn P.O. NO.: 'Nsnq6 TEST TIRE: M 8vn614ivihr d Aetnrat r; b L;/'L hug [(

MODEL i Il N J)B NO.: OS/ ~E99 SERIAL NO.: oocr4 00N NO.: d/[4 DOC NO.: @C %0 7459 This is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the performance of this test progran as set forth in your Purchase Order.

In'strunentation used in. obtaining this data has been calibrated using standards diich are traceable to the National Bureau of Standards.

CALIBRATION PROCEDURE (S): OF@ 0015 Rou 3, ,009-1 Rm D .

TEST STANDARDS USED:

CERTIFIED CALIBRATION DUE EQUIPMENT NO. ACCURACY DATE DATE vmo 714 10eocB A 10~/7- Ri/ /o-n-SS Vme <0\l AQ'I.us f DD L- l')- B 4 l-l 2-85 Vme MDA rN7/d + 3 D LO-n-M l'l - n - 8 6 O

te e ENCIDSURES: DATA SHEETS ( 4 PACES)

QUALITY ASSURANCE APPROVAL V FORff-10024 REV. 3

_ _ _ _ _ _ _ .____._-_._70 . _ . . _ .-- , -- --

k t

i ILRT CALIBRATION REPORT sHEETloF3 h

"'*"" Ormmen ogaH h FAisone2 inn *"*"'" " * "' 7'/6'0 96 ,

l uoost no. m T san. no. & p g w.o. no. 06/ 76 99

^"

Paocuoune no.0014 hu ,2 aeEanens I DoO F ^cruAt sesc s:t Ic5 F Lic,L FUNCTIoM TESTED:QQ fhCC()rdW EOC' C* Ob Gll

Stordard. True stardard 7;ns ains eIl (caierboth ouwe RTI)

Resistonce A+O i

&ciM pgggg Terne. 3 +C-10 0 . -(or 3 (bhrysT u w4 hlte W Ehltsci

14 9 1i)om053 IBS R \IS M 1 D5tL55 OlL75 h

195/55) 14 9, 5 ids os .0lA4 7 TIL7V

! 135o 7)1 I Q % P; 135.OR SwtOR Sl7, 7V i

[

i Iss \ b 293 IO5o B 115o9 1 D64,,50 9J7,?E l05355I 14 R S 175,, os aloM7 Da 77 135,sT12 R6e B I 35,. OR nnn.32 na n DlO lif e.s OSR loS R l lS e 91 d54. '/9 S/7o/r8

) ids 551 14N S ID L 05 Slo. 40 al% 69 l

I M ,Y)2 19539, 13L 0% SRO, D9 D17. T)

D% l il~D53 lob B l l 5m 9 2- 65c/. 4 R D/7a 74 i

! lD L GS1 14 % 5 195. 05 D hh.. 'M D/7c JJ .

13L n1 19%B 1357. nB 2)pDe 35 Olll?

i i 077 II L% 353 Ios R l15M2 D,54., 49 3/7,49 i

(D5o55I I4B,5 IDS OS* cobb.3 J D n. ~7/

\

l 135 m 2. 195. B 1 3 5'. O B an & Dil 71 .

l '

1 -

1 V-c-1 *se.e-1981 COMPLETE OTHER e(DE 71

i 2 o f 5-i .

i U6 %2T-Oororar13 '

Ser Lin L 1 % m tl i

d Stardard Trce Siorderd. ' Ding 'h n3 ,

t0aiec W h c,oroe i

Serial M Rpgp jj,C, ,&

J Mo o Re6istana g rfm*,C

,t D3O ) \lo.sD53 IDS,B ll5M2. D54.Ao 41'1.7/

(DS SSI 14 R 5 (DL 05 Dhh 42 .S D 7/

~

j 135. ~n1 19seR 135 OB o go. n, an.72

.\l5 A'l 35V.5/ B/7.4 9 l DAl lilom 053 lob R

! lDSe SSI 14B 5 - IQSmDS 044. 6o D/7.4 9  ;

i 135m T)2 195,, R I3Se DB D9c a9 a>7. 49 l fn LIST 'OF STANDARDS TRACEASLE TO 9 DSS' l EQUIbENT SEhlAL ACCURACY CAL SR TED' j[

DA 00110 h $f bUnM __ QSnrnt"in art n _

I1 3oSe b

I(

I 5 I

i

i.  :--

WORK PEMPOfMED/COHedENTS I

t ah'i4 F : A l ADM h _

c h\no k O \

^

~ =E own -

,1,c w = ,E-sa,u 7 rw  :

l 72

ILRT CAllBRATION REPORT Page 3 op g

"'Y" Ocynrnnnia-a)4h FAFm02ioncusma P o No. N509 L, uOrEL NO. J ( g} SER. NO. k M rt W.O., NO. 05/ 7 6 9 9 PROCEDURE NO. dot 4 % 2 1 DoO F ACTUAL SPEC *S:[ /, g O F V CL FUNCTION TE S TEDi

)~

b ll si e ret Tru< St M Tins Dins bl8(, RTD (Daictboth Cufv<

gO* Qbg Temp Res's+60cc A O pq

(*r 3 (M wh+ Rit (*.< rs ell Io97 llh B53 )t i B I15n 91 D54.56 DO. 71 195.,5S1 14R:,5 tas.,os azol,. W an.72 135e TR 19So B l35,OR annm an.72

~100 illo,, D53 iDSA 1IL 91 354.,4/s D D. ~1/

4 I DS .,ssl 14B ,5 125.,0S Blek.3B D O., 7 2.

l 1S L 172 19SaB \350D% ogn,,on Dn. L2.

lli i llo,, 053 IOSo 8 I)S m 91 S54,.40 D ne70

\Ds ss) 14 B.,5 I DL O6 &lo 3h 4 0.,71 13 sot)2 196 r9s 135, oR 990 #3 ano71 4

4 l

I _

1

! I, J

n

- - - _ . - - - Am. -..-_.- -#-- -.-.A w._

l Sunf t'/ Or f ese e

i LIST 'OF STANDARDS TRACEASLE TO NSS' EQUIbENT SERIAL ACCURACY CAL SRATED 4

o 900 (hion Idico f Jinn nln nrvi n neto

~

1

~

, nod o

~

j 0 1

0 WORK PERFORMED / COMMENTS

ok,4 e =A ho r = C S cm g u = B TESTED SY APPR, SY

!DATE 0 Y MPDon 3ll 6) p S~ 10 ATE DAad 9/isN3 r !

74 i f

ILRT SENSITIVITY REPORT SHEET 5 OF 5

*""'""llnennymwa4h Ed,snn @ 26n *"*""'" " " - 7V5096 l uOOsi. NO. EL'r SER. NO. g lg W.O. NO. O$/ 7/p99 Ac wAL Spec's P OCEDURE NO. 00)5 3 EEUiREuENr8- Oo 6 F On /'f The equipment listed below has been tested for sensitivity of response in cecordance with the above, referenced procedure to demonstrate compliance eith ANSI /ANS-56.8-1981. .

• WOMINAL

• OSSERVEO INSTRUMENT TESTED TEST VALUE SENSITIVITY OF *f

. 14 9 IDD o DI ins IDD. n n,l al2 IDDA Od DDb IDD, a nd 33'1 IDB D O,l D36 .

IDn,6 04 n3/ /DDo o OA 697 /Do, o DJ 701 IDO, n ad 2// IDO n n., \

COMMENTS TESTED SY APPR. SY IDATE f (7h % f [) y llq fQS IDATE 7.// gff$

jh,']}a,f V-C-8 '66.8-1881 75

CERTIFIC ATE OF G ALIDR ATION DATE: _7 //9/B5 RECALL: /l9/E PUROiASE: fonrnen r>al+h o FW,m@2,tYY.O. NO.: -W5096 HST TITII: - DD BOA 9 T DeASIEIS4U d SCCUfdM>

MODEL # YLET J )B N O.

t O S / ~I A 9 9 ep GOV'T SEIAL NO.: ~Da y + 00N. NO.: hA- DOC NO.- 9E IO 24 99

'Ihis is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the performance of this test program as set forth in your Purchase Order.

In'strunentation used in obtaining this data has been calibrated using

~

standards Wich are traceable to the National Bureau of Standards.

e CALIBRATION PROCDURE(S): QQ@ M@ 9 e 21 l) DO. 9011_ h TEST STANDARDS USD:

CERTIFIED CALIBRATION DUE UNIPM WT NO. ACCURACY DATE DATE 4 rw- 3nb t (x r#/o Q Dr t -%- 85 I- D 4- g t, 9me ~)l4 1000D8^ -

10-1 ?- BS ID-17-M v m C. 000 Pr mold /ch. +-3D _ Q - n - B5 10-D- %.

e esamme e _ _ _

en eo ENCIDSURES: DATA SHELTS ( // PAGES)

QUALITY ASSURANCE APPROVAL et 4h-V FURM-10024 REV. 3  !

76

ILRT C AllBR ATION REPORT PAGE / OF //

RE@ESn Onnnerynmal4h Edeen02onCuSIDMER P.O. No.745D9[f WDEL NO. y-( y S EIAL NO. SEE BElfW W.O. NO.05/M 99 PROCEDURE NO. O gg 7 R,,, } @fdIRDOTIsf(b50F ACIUAL SPEC'S? On / F-FUNCTION him: RID SENSOR ACWRACY RID STANDARD INDICAHD N m WAh1}{ m Sarti.

NO. RES RE4 dim m e. Ra h RESISTANCE (mVDC) (*F) (Chms) f* g

/39- 79b irkm ons lod 55 loo,ao 10 loo 07 _ia inio_19 i 110, -)qs 91.01 90#n 110.53 mnD thas llCL 352 (01 AB I one m 11R 97 ,, 91 i 14_ D B 1 /39-6RS ~)olomDns loo,,D) /oDolh /o/o.C7 06 inin I'1 il D, ~195 QDm/co 9 dmo 5 //_7 53 ,, \ 3 \la to(,

)14.,352 1,00 97 /,ODea) .//R 97 m al i14mIR

/39 - um In/oAn; /,0,, sl /oomOD /obo 07 m11 int,_ig 110 ~)95 90.9R 903CD //Be 53 D) i i Da4 ll9as2 191e 3R / Dom (D //R,9 7 AD )\q 37

/39 - W2 Inlommos 60.09 loomen . lrLo7 eno t olomoq llad95 90,5V 90,00 1i0%53 miA t ia, los-(19,,333 /JL97 l 00, ao llR 9 7 ,, o I i14 i e 139 - W/, stLnns isD. I& Iconnb Intn o] os \nte tn 110m195 90. /e/ 90,09 i llDm 53 ml4 1 1,o, to7 119 352;/40.99 )<00, Q9 i llR 97 e30 l ict 19

! l 139- W7 trk JDS

~

/odeOS /co,,OD J Olo,,0 7 e00 tobn O7 110,195 l 96,99 9(L/7) lidL 53 c 1l IlDelA 1l 9 m 3 5 2I /,9 6 , 9 6

&L OS i //8. 97 nDD 119 m \ ~l V-C-1 '56.8-1981 NPIETE UlllER SIDE

PACE 2 OF in RE SENSOR ACWRACY STANDARD INDICAlw 'IRUE STANDARD RH) mim RE KID READING WAHRBADI WRVE RESISTANCE RE "-

SER E NO*

RESISTANCE (mVDC) HMP. RESISTANCE DEVIATION RESISTANCE (Ohns) (*F) (Ohms) (Ohns) (Ohns) 139 - VVp (OL, Dos I,D, D9 loo,87 IBleJ0 mo(c i nio_ i 3 113, ~195 9/G 5 Q/1In l10.53 m I to ya t,9 Il9. 352 1Dl D? IDDIY3 l}B 93 o23 ll4eDO I39- W 9 lblo. DOS loDo n5 //k m 'l d o i l ., o f I oln,,o B I)D. Bs Qom u7 QouCO llD,,53 .Io as ies

) 9.352 100.~1B (90.09 llR,97 ,, n liq,iu ,

ust Or srANDARDS DACEABLE E NBS EQUIPMENT SERIAL ACGRACY C HI)

E

-t 00 (b l o n 551005 .h OH NAOnnkd) 11 D O e 0 .

WORK PEREDRMED/OOHiENTS

,l TE.Yiw B h 1 \' DNIE APPR. BY DATE L' ' ) i nio n0A 7//7/ Sk- ..O 2 d si f  ? M/t's 78 r

ILRT C ALIBR ATlON REPORT PAGE 3 OF I/

REWESTOR bomrnmownl4h Edtson @2 ion CUSI0MER P.O. NO. ~l4509/o mDEL m. lLET. . SERIAL NO. SEE BEW W W.O. W. 05/ 7499 J

PROCMRE E. f)D3-) Rtu,1 {l@bIREMEMS f CoSof ACIUAL SPEC'S.f oo / or ,

MCTION TESTED:. RID SENSOR ACWRACY SERIAL RID STANDARD RID ~--'

.INDICAIED

" #-READIE MI

- M. H ..& t RESISTANCE D N

. . KID W- ' '.;p2C) (*F)i.,

% %% (Gus) s.

f0N 139- 450 l &,ans lono19 /,n,,co ! Inh,,m mod i i nl,,m ).1 lig 195-- +9f't-to-s * --90 goo ' -lloo53 - - ;M4- -north 119m 952 'lDim,n3i I,0nm oo l II&9 7 e 27 i e m409 i, ,..,  :.- .i .. ; .,  ; .. + -

y1 2. , _ tg , . , . _ _

,: . o., to e , . . . a . r.  : ,_

%.u_ 3 4.w _ ,,

~

139 '/6/: ioloeaos room"53 a6onm ' lolo',, o ; c ,,\'le '

t nl. i 9 llDe 795 4Ia )l 90m&3 Il9mS3 m04 n OmV) j,qa 851 M Oi g99 - -Wn nn- u A 9 1 -- - .R 9 t - . < -HA A1, 139- 453 1nlo,aos loom 17 leonm Iniom 0 ? ,,04 IDlo,,11 110.,-)95 90.1,3 90,,nn lloms3 .14 IID,, b'7 l 19 0 352 1DDm49 l e O ,s n n 11 A 9 ') m32 )19o 19 139- 9M lBIn, nos (rA,,Ilo l_nomrO I D(o ,, 07 .m o3 IDlom in llan -)95 90mlo3 9 0,,ry3 l lo,s 53 ml4 I IA, lo 7 1 19 ., 35-t 19l ., DS lOnnrn i193,,9 7 nD3 119,, 3 0 139-438 loto ,ans lo h D o inomnn i bin,, 0-) mns loin IQ l 19 s 795- 9 O,,Inq '

4Ofri3 11Dm63 JS 119,, /m B li9e as2 101 s nu 190,,rY3 : i l @,,s 9 7 eD3 114 20 1

i f 39 - 459 Into, Ons lonmn3 lonmno ! lblo., al mni \BIceDB 110m 795-l 9n, 64 _

4 n.srY3 t im'L S3 m19 1 )Dm lo5 __

h 9 ,, a s 2 I I D D ,, R 3 "

i l Arx(v3 i ii A97 .,1% 1 A ,, IS i l l V-C-1 '56.8-1981 COMPIEE UIHER SIDE 79

PACE i OF ll RID SENSOR ACCURACY D STANDARD INDICAlw IRUE SfANDARD RID CDRREtiw RID READING WATERBATH CURVE RESISTANCE RTD SERIAL RESISTANCE (mVDC) TEMP. RESISTANCE DEVIATION RESISTANCE (Otyns) (*F) (Ohms) (Otus) (Otus) iM 'M intn,Rns leDmp i loomm l/L b 7

,sn3 inl,,s11 110 795 cto_1,q q Dm rn lin,63 m is i to, /,R

\\9.,362 101_ n3 1,0nmno )\ %_9 7 m 22. 13 Cu )q 139 -h 10lomJns loo 19 loomrn iblo m 67 mD' ) blom Il 110 795 9 0 1,1, 90nno llOnS3 m -14 1)Q_L7 09eas2 i o L i t, ion nn iin m m2s 319 22 LIST OF STANDARDS TRACEABLE 10 NBS EQUIPMENT SERIAL ACCURACY C DATE IH)

CN of Polt 0 h R Toc h DA $$ &rndo- 1d a );Apr I

WORK PERFURMED/CDNENTS i

~1t.ylw DATE APPR. BY DATE l

YI 11 g %fCM/06 ]l19/ W Jh h 1 m ')l/4l8'S~

80

ILRT C AllBR ATION REPORT .s PAGE 5 OF //

REQUESTOR Cnmmonwa Rh FAm@2mn isruneR a e.o. NO. Nsoqb W DEL NO. Q g y SERIAL NO. SEE BELOW W.O. N0. OS / 7I,Q 9 PROCEMRE NO. 0D3 7 b n . I h$bbIRDONS' I On5* F- ACIUAL SPEC'SI O,, I F' l RMCTION TESIE: RID SENSOR ACQIRACY RTD STANDARD INDICATED SERIAL RID WA b 1H READING TDP.

NO. RES (mVDC) (*F) (Otus) 139 - M/S Info,, Dos Ln,,OS Inh,.,nn IDlon&7 e 01 lof n ,,07 119 ~)95 40,,55 QD.,nn 110.5 3 olO Il9M i19.3S2 la n,,9!A I00,00 11BA 1 o19 \ 19 e I t,

'~

139- V7o '10 6 Dos (dL 1 A I,0. GO IDloo 07 o04 )ota il t19e795 40o59, 9nnnn Il9a53 et% l 1 Oo I, to i19. 35 2 1 DOA9 )00,sen \IN9 l mD9 u 9.,19 H

l 139 - 47/ IDln,, O(% InD 17 lonmm I Dlom D7 nnd Iolon il i I(Do795 90o(o4 Romoo l ig.s 53 o14 i t 0,,1,7 II40 351 10 lm o'7 IDO,s on 114 97 n33 110l q30 139 - V 7V 10 6 005 len, X 7 60,,on lotoool o bf r i nlo a 3

))D,, ~)95 90r N 90000 11453 n llo \\Om LA 114 ,35 1 10Lo7 IDomon liga 7 002, giq nn 139- 476 lolo,. Dos Ln_ IS Iooe 00 106 0) nO3 into in __

119e i95 $0a too 4 0,/h i110,53 n I _3 \ 111 ole 119 m 351 l ol. no IDoooo i llR.9-) DR \19 19 I

i 139 -y77 tott,, ons Goo lq leCoCo  ! ol lo o o -) en4 \ Dl_co ll ilam195'90 lo9 90meo 119o53 nm i11 A _.

119. 352 19 Ic 11 i 90o oo : I /R 9 7_... ,,04 \19e31

i t i i  !

V-C-1 '56.8-1981 GEPLE3E UlilER SIDE 81

PAGE b OFil

, RID SDiSOR ACCURACY STANDARD INDICAlw IRUE STANDARD RID WRREttw RID READING WAT*iRBATH WRVE RESISTANCE RID SERIAL RESISTANCE (mVDC) TUiP. RESISTANCE DEVIATION

• RESISTANCE (Ohms) (*F) (Otus) (Otus) (Ohms) 139-# M i06 ans lertni too co 1otoeo 7 em intoeo 7 l lee ~195 9OJ45 9Omoo Ileo 53 m)D i )De l,3 Il9e M2 100. % lonem l ) A 9 -) ,, I 9 \ A , i t, l

l l

139-483 IDloo D05 60mos lcO OD IDlsoD~I .0c3 161,cn7

~_ .

i19o715 90.to4 90.00 l19o53 ,., id 11A,t,'7 119c352 iGoo91 1000C0 11%9~? o00 \19e n IlST OF STANDARDS TRACEABLE TO NBS IQUIPMENT SERIAL ACCURACY CAL TH) RECALL DATE O Dint 1Oh G %ku (91. JhD WI O & & _111s Ok o

) -

WORK PERFDRMED/00ffiENIS TEdit.D BY DAIE APPR. BY DATE O [\/\J 1C10170D 1/t9/ps ,0. s% d ,/19/vs 82

2 ILRT C AllBR ATION REPORT PAGE ') OF iff REINESTORfmmwnyh Q,p (4);m GS10MB P.O. to. '7450 9/f.

PODEL NO. h y SGIAL NO. SEE BEWW W.O. to. AS / 7/.c/9 PROCEIL'RE NO. fhp pf,, _ 1 kEddIRmmTS O,5#F ACIUAL SPEC'S.! A, /op- .j.

FUNCTION TESID: RID SMSOR ACWRACY =

RID STANTARD INDICATED N N E 00RRECIE S EIAL NO.

RTD RE3ISTANG READING imp A

& RESISTANCE

.M RE3M RfD ~

(nmd (mVDC) (*F) (Chms)

(Ohms) (Ohms) 139-495 IDlo,Dn3 /cD,,19 /eD,.ho /nA,A7 (L

.s n'/ /n/o, il 119,795 90./o9 9Dm/h ll0,,53 ,,15 llDm /nR [

ll9, M D ID l., n3 I D D.,m IIR,9 7 c DR. ll4,19 j 139- 4 %'1 I nIn , Dn5 l< D,,D I lod, no In/n, n7 ,, D 5 IDlo,12 LID, ] 95 9OsJ 90,,no I/2,,63 c, IS 119.,350 ' IDL nl IID,,/s h IDO ,m llR_97 ,,S 3 / /9,, /9 I39- HR9 Iblo, ob5 lod 24 len m IDla,DJ ,R S Idn,1.0 .?

112,.195 9 D., Iolo 9Amm 110.5 3 ,,14 112,,l,,'7 119 m 35 D. ID1.,nQ l DD,,m ,,24 119,, 0.1 i1 % 9 7 k

_L39- 4 R9 inlo Dn3 loo,, /D lod., m 1D/o, 07 ,, A3 Into.10 3

IlD,.i95 9D,,64 Q D,,m l lD.,53 m 13 llD lolv  ;

ll9 ,., %_ 4 ID!,.A_d I DD,-m l19,,9'? n ,04 l 19,, D I ,'*

R 139,'l91 l Ain, DO S loo D3 //),,m IDln.,D'? ,, n 3 /oA n2 is 119, 195 9n. 70 9DIY3 110,,5 3 ,,15 f lom /o8  :

119 c?>5 D- 101.09 iOnfO e 11 %,, 9 7 ,, D4 i19. DI  ;

i I39- 493 iOloc <3n5 lod,, I 3 fone,nn Inin,.n') nD3 Inloc /0 l I D. 195 90, 13 9Dmm i i10,.6 3 mllo iID,.lc9 i l I 9 .- 35,0 ,

101. Il I CD,,/'O 1I R,91 ,,D'l l19,.Di -

I  ! a I I _:

3

' i v-c-1 "

3s.8-1983 beers oDisa Sins z

83 f

ILRT SENSITIVITY REPORT SHEETk OF //

REOue8 TOR ggg (g)gg OUSTO68ER P.O. NO. ]q$gg uODELNO. g SER. NO. 6pgg W.O. NO. 05 /499 PROCEDURE NO. g { g . UIREMENTS* 001 F

^ c"^' *

• O, o f o F The equipment listed below has been tested for sensitivity of response in cccordance with the above, referenced procedure to demonstrate compliance oith ANSI /ANS-56.8-1981. -

1 INSTRUMENT TESTED WOMlHAL ^ 0SSERVED e ,

TEST

• VALUE SENSITIVITY

~

F or 1 3 9 - S cil, C DJb ,,o 1 l 139 - 435 90dT) 01 139 - 439, 90 CD ear 139 - yg.o l , 90CD ,, el 139 - squ 90m cn\

i ?A ) 9040 ent -

139 - qqq, QDoCO ni

)39 - 449 90oCO ,, nl I i39 - 450 9020 0,,1 139- 4si 90 2 nel 139- 9ss 9a>on oa 139 - 451, 90oO Oei COMMENTS 1

TESTED BY /

APPR. BY IDATE f -

QQD()&

Q l/lQ 3 IDATE h. Q pak 'If/4fff l

\

( /

V-C-8 *66.6-1961 84

ILRT SENSITIVITY REPORT SNEET/cor //

REoUESmR O,nmmmural4h IMsonO2M"*' "'" "' "

7499/o MOoEL No. 7 g SER. NO. ggf,y W.O. NO.

05/74W PROCEDURE NO. MM dj R UIREMENTS* hol F ^c " ^' '

Oool I-The equipment cccordance withlisted below has been tested for sensitivity of response in the above. referenced procedure to demonstrate compliance Uith ANSI /ANS-56.8-1981. .

INSTRUMENT TESTED WOMINAL " OSSERVED TEST g UE SENgTIVITY f l39 - 439, 90tn _ni 134 - 4sq ROLO ni 139 - 4to4 9/ LOD DI 139 - % 90/D mbi  !

139 - 41p, 90/D o bl 139 - LOD 9AfD , DI .

l39 - 471 90m Di 139- 4 14 90m ni 139 - 4llo 9Dln en1

) 39 - '-l T) 90 03 n)

~

139 - 4 71 90,09 e DI

)39 - 4Pa 90h7 41 COMMENTS I

TESTED BY q

/DATE APPR. BY

! Q Cy))(f)

- ] Jh 8$

/DATE

-[ 7,/f, g , <

/

7//9/[T /

i V-C-s *66.6-1981 85

ILRT SENSITIVITY REPORT sHEETllOFl:

"" """ " (!crn mnn,, wale FA ;vr@2 cM'" "'" " " ~N509 to uooEt No. n g sEn. No.g, g), w.o. No. 05/ % 49 PROCEDURE NO. ^

hh 31 UIREMEN T8

• bnl F

"^' '

• Ond) F The equipment listed below has been tested for sensitivity of response in accordance with the above, referenced procedure to demonstrate compliance with ANSI /ANS-56.8-1981. .

INSTRUMiNT TESTED 0

TEST VALUE SENSITIVITY

)39-4B5 9Dnen mnl 89 - 4c0 AnIn mol

) 39 - 4BR Aomm mot i39- 489 g o,,r0 mol 139 - Q 9 I 90mr0 00\

aq- 49 2 go,m ooi COMMENTS TESTED BY / /

/DATE f Qt @]()p 1 f l Q f Q35 APPR.

/DATE BY[ pj , m.,(

. //pT/RT l / /

V-C-6 *68.6-1961 86

CERTIFIC ATE OF C All8R ATION dan:

Y 7/s2/R5 REco.I.: _]h2/RL PUnmASa: SWi>melries e.o. 80.: nl /A usT TInz: _ Shna lso nhrmnefer -

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MODEL # _ fL A.,

SE IAL NO.: M00 FM QM. GOV'T R NO.: lYO!

NO.: Id / A i _

DOC W.

F 5~ % I I 3C4 "Ihis is to certify that true the enclosed Test Data Sheet (s) co t i in yourdata obtained Purchase Order.in the performance of this test n a n correct and program as set forth Instrunentation used in obtaining this data has been standards which are traceable to the National Bureau of Stcalibrated andards.

CALIBRATION PROGDURE(S):

__@ ) 9000 bur Y -

TEST STANDARDS USED:

EQUIPMENT NO. C E TIFIED CALIBRATION ACCURACY DlE

[MTE

_ Vme 810 A .

DAE

_vmo 7H &Lola/o'Ri.M _12-n-R4 _

in-17-95 t o. OAR ^ _ _lD-n-R4 lo-n-85

,\

ENCIDSURES:

DATA SHEETS ( E PAGES)

QUALITl ASSURANCE APPROVAL i V FDRM-10024 REV. 3 M4

/

i GENERAL CALIBRATION REPORT 888e / or 2

_ REQUESTER h } g y,',pq CUST. P.O. NO.

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1 WORK PERFORMED / COMMENTS

@OQQ DATE /, ,[gp

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l l ILRT CALIBRATION REPORT Page ( o, j

               "'*** " Ce m m n d su r- A t T W Ebisou "*' "'" "" ' "** 79 9M4 MODEL NO.                         .

SER.NO. W.O. NO. ANSI PROCEDURE NO. g, . + ,,op ACTUAL SPEC'S: . op _4 FUNCTION TESTED: g g g pgy p , , , 7 g, O AdWL 6E (?_ i AL. RRt;T LAST RIEMAT , NO- hlO - DAhd6-- 2E(sh 16 F 36 I49 6,9.634 69.5?5 4.edr

                                                                                        ,                                      i;, ,

L M 15 % f, 4 . 6 ;t n &cy.&p7 . d o'z 32 pay 69.676 6447e5 c5 - ES 7,L Td nls 7m Lo? - k =s

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                                                                       /

LA 22 7 76.477 7S.G7% . 6d4 85 2Ms 7d =+7- 7d =w dAv 36 2-31 4G.575 C9 SA? eA d 7 i 37 Ge7 69 72 A 69.7f4 _ . &/c *

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38 ~7 d 2. 76 :st7 70.5 =c s cfe66 . S) 7Il 76Acen 74.@cc -666 f i V-C-1 *56.8 1981 COMPLETE THER SIDE i

4 SHEET OF e i i

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h y e LIST 'CF STANDARDS TRACEASLN TO N88' EQUtPMENT SERIAL A,CCURACY CAL BR TED . 4 a O I WORK PERFORMEDICOMMENTS TESTED BY APPR. SY 13 ATE  % Cff, 9 o fgg IDATE  ! 6 f 91 .-

Page o, ILRT CALIBRATION REPORT REopESTOR

                        ,                    gym f-T ' S
                 * * ' "*-        ing. 2 3
                                                          **R    ***S w n n e.,,y      *******

I \l216 9 ANSI + . PROCEDURE MO. REWN* --f 6'O P ACTUAL SPEC *S: _ g a -- g FUNCTION TESTED: gy gg g , . G hael 6 MAL bc u) DN Cb , N.o. O Nic> . p e _. r thf 149 44993 4<< l EI (55 45. G l4 45 A P ?I2 45.685 45.5 33 22 (c. 4(, . 2J G 45.5 M h. M.b SS 23d> 4G .29 46c A, 23#  % .74 3 45 5 37 fe97 45 29/ 455 i M 762 4s.28( ss ! Sc) 7I! 45. Ps7 4M T-i i l l l v-C-1 se.s-iest COMPLET[bTHER SIDE

ILRT CALIBRATION REPORT PW l Or l U 8I "E" " " -

         "' Y.8 tor Cn m mnu um_ re           Ph,s ou                              299865 MODEL NO.                      SER. NO. g                        W.O. NO.                    g ANSI PROCEDURE NO.                   MQUl m m.      -t   g og         ACTUAL SPEC'8:                               ,ggo FUNCTION TESTED: g g p'g                                              .

G AtJNEL 6eg,g FiesT LAsc- REvcAr. , NO- hjo. READtNG RE Kt> MC, F l 39(o 9d dz6 96.62c) dd3 i z 4L5 96.065 98.O'65 d S A ?P> 99. 6'r4 96 &77 - d62 A 492. 96.6I9 96. d?6, 667 5 9% 96.688 94.692 664

                                                                                                                               .l G,           447      9e. 993      90.99d             6da'
                                                          /

7 448 9@. etsz 9 dam .d d a i i , 8 449 96.&% 96.dRt ,662 9 Asd> 96687 96.694 6d7

            'i6           _ 45 (    94. , as     96686             .665 iL             953     9d des       96. ds>         . dea 12             456     96.665       9d.d6d        - .6 6M                                                         i t3             45A     96.d24       96026            ddz I4            45e)    96.6:5        96 dr?           16 3                                                    -

15 ACA 9& fM 9&ddd d

             /G             46G     98 dzei      94.o m            .d4I I7          468     W.d6G        96. 6, (        -6 ds IS           A76      9d dos       9f d 91       -6da I9           47(     96dm         96.6IL            6 d ?.

2d 474 9d.<ter7 9f.697 6 2.l A7(o 96.677 9f677 d> V-C-1 *66.8-1981 COMPLETEqpTHER SIDE

SHEET OF CHA.NWEL 6ElR.i AL I@T- LACT PEPEAT Mo. Mo. READim REAbtNG "F  : 2 2. 477 96. r # 9 96.#24 .cd6 i t 2*> 979 94dM 96 67< , d d<. l

                                                                           . Mda                                     I 2.4          4 83        94 e od)  e 9A f P,7 r                      /                                     l 26            A P !=;     ?9 oc9              8 9.97I

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                                                                           .$d 3                                     t 27            4F6          96 gr i            96. d.c.4           -.667                                      ,

28 4s9 ed ,77 9 A i.2 3 .ddro 29 49i . 96. # :5:s 4d r ai - . d 4,2. LIST 'OF STANDARDS TRACEABLE TO NBS~ EQUlkMENT SERIAL ACCURACY CAL SRATED

                                                                                                 .                         i i

WORK PERFORMED / COMMENTS i TE'dTED BY / APPR. SY

       /DATE        M u,d* -
                           -                  eJ,[f       o /M         /DATE                                           .
                                                '         7 94                                                         ,

l J Page ILRT CAllBRATION REPORT \ or l

           "'M.*"(n m m n a toe-At T,.: Cmr#o "'T                         "'" ' *
                                                                                        "0 299FrA MODEL NO.                                 SER. NO.                    W.O. NO.

g , PROCEDURE NO. L RE N ilOF ACTUAL SPECN: _4_ g. ] FUNCTION TESTED: qq gg,g . I- A M M CL b O.,4 D 6TD ic M , es p - N, O . No. OF op I 396 76856 76. 5 1 2 42A 76.9#1 76-6

                &                438           7p; # 97>      7 7. F 4                  442           76 4os          76 5 5                  44fc          75.764          76.1

( 447 7G, Ads 7fe 5 7 448 74.sgy 7s i 6 449 74 ow 75.5 , 9 45d> 79 'T12_ 7K4 (4 45I 74 c.c7 7s.1 (( 455 74 MA TS I

              /2                  4%            77 +M             7CA i3,                 458           7/m . I'm        76 5 i+                  45q        752pi            7c,i 4

15 4/A 7 4 . # 4 d> 74.9 1

l I(o 44(o 77. c,56 78 2. I7 468 74.2#5 75 I iS 47d 72.92)1 73. ?- l9 A7I 72.994 75.2 2d 4 74 75 373 75.2, 2s 4rc 7s.dzI Ts. c, v-C-1 se.s-t es t COMPLETg50THER SIDE _ = _ - _ -

i SHEET OF

 @94EL &-e.i n t              MTD           stb .

hJO . T e t-t P 7enP Mc> c.7 op 22 477 7A . 26 f- 777 l 23 479 76.662 777 t 24 483 77 92p, 779 l i 25 4ef::> 77, 62 R 773  ;

     -2G           467         7 7. 7 7 F. 777                                    ,

27 968 77.9s4 77.7 , 26 469 756 c,6 76.I 29 49I . 77.697 78 &, LIST 'OF STANDARDS TRACEABLE TO M80' EouieuENT SERIAL ACCURACY ^ ' CAL BR TED j WORK PERFORMED / COMMENTS TEDTED SY APPR. 8Y

   /OATE         hfN-C)[/2./B7
                                                      /DATE am                                     ;

CERTIFIC ATE OF C AllBR ATION DATE: 7 /2v/fi RECALL: / /J#/4 PURWASER:h#fY\Mlaa%Mee 2 inn e.o. NO.: 7'/so9/, TEST TIR E: OalIhrafines @rro,.Aiw p Tor 4hermernpie hooni Aage ~ MODEL # II E J)B NO. - 09!7599 ShRIAL NO.: hpr1r (DN NO.: M 4- DOC NO.: 9 00 7(,93

                   'Ihis is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the performance of this test program as set forth in your Purchase Order.

In'strtsnentation used in obtaining this data has been calibrated using standards which are traceable to the National Bureau of Standards. CALIBRATION PROCEDURE (S): M 6)@ bM TEST STANDARDS USED: CERTIFIED CALIBRATION DUE EQUIPMENT NO. ACCURACY DATE DATE vmo RDO- 15n4 e los 5-/,-Rs n as FNCIDSURES: DATA SHEETS ( 2 PAGFS) QUAL.IlY ASSURANCF APPROVAL V 14)RM-1fC.'4 REV.  ?  ! GB

l j. GENERAL C ALIBRATION REPORT Jage . / or z aEOuE TEaf,nmmnnt,vnl+h FAsnn 02 inn *"* " " WSO96 uODELI Itg JEn:AL NO. & ] gjn,g w.O. 1 l NO. 05/ 7499

               "'"'^ N / A                 Dme rnro t t \0m+ @ in m+                     ' ' " " - 70*f MEASURED YALUES FUNCTION TESTED                 VW B2O slN                 SIM 5+andsd 33 GOOD 33 F D 13 ofV                          OV9          600        rCC B4mnsphere                       D4mns         Oimns       CHmns 4                  IDm4-                            lo m+         10 m4-     I D en+

8 J V-C-4 g gMER SIDE COMPT.ETE

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

9 4

• e SHEET 2 OF TL f

9 2 6

                                    ~

LIST OF STANDARDS TRACEABLE TO NBS' EausfuENT sERiAt '. ACCURACY CAL BR TED

         % m un skna  .

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                                        -  ManA o .noo n)    -

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     <                             WORK PE'ftFdRMED/ COMMENTS 1

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CERTIFIC ATE OF C AllBR ATION DAE: O /6 /86 RECALL: 2 /6 /86 PURC11ASER: _ COMMON WE4LTH EDI5o# - 2/ON P.O. NO.: 74SdS6 E ST TITLE. A -led D A.S - A /D AccaRAcy HDDEL R h -l 45 DA.S, yyg 99,. d5/76 99 SERIAL NO.: 70 M-/ 00N NO.: N!A DOC NO.- E9 LIA 7 5Ti

          'Ihis is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the performance of this test program as set forth in your Purchase Order.                                                                        {

i a In'strunentation used in obtaining this data has been calibrated using standards which are traceable to the National Bureau of Standards. CALIBRATION PROCEDURE (S): QAP 2#35 2eV h

         'IEST STANDARDS USED:

CERTIFIED CALIBRATION DUE-EQUIPMENT NO. ACCURACY DAE DAE VM C 2g L 2 4.e#7 % %. 12-I7-8 9 I 2-t 1 -85 l MO ENC 1JOSURES: DATA SHEETS ( 2. PAGES) QUALITV ASSUR K . APPROVAL

                                                                     ./

V IORM-10024 REV. 3 100

ILRT CAllBRATION REPORT Page l' op 1 REQpESTOR COMMON WFALTH EDISON - ZION CUSTOMER P.O. NO. '7 d/5 # 9 b MODEL NO. A - /pg Q AS. SER. NO. /fgg-/ W.O. NO. gy/7699

                                    ^"

PROCEDURE NO. Zg3S j gey 6 RE INTS* AI/A ACTUAL SPEC'8: j # g FUNCitON TESTEDT A /0 A cca RA cy A CTUAl- INDICATED AYU$l. ZAOICATED

                 .t.0-V Mje   1.$N Re*y O.I-v, %ge       G.l-V, Rang e (my)         (mv)         (m v)        (w v)
               +99p.%6       + 9$ct $$     + 99.666 + 99.6V$

_ +54 .## +5pv4/ + Sg.d # +43.995 p Vf $.4y p.#cd 5 056

               -5pf99       - 199.93      - 50 9ep - S$.ee t
               - 99###      - 999,99'     - 99. 9@    - 99.Gl7 I

I s i i ( 4

                                                                                             ),

e 1 1

SHEET 2 OF2. I I ' ~ i. i 4 LIST 'OF STANDARDS TRACEASLE TO M88' I

                   ~

EauspuEwT SER AL ACCURACY RECALL DATE C BRA m VN C 262. 112 78 24.or seg I2 -t 7-ev t z -I7 -85 WORK PERFORMED / COMMENTS 8 TEGTED SY

        /DATE      O/Md *         #

O'b '85 102 APPR.

                                                                             /DATE        S Y f" ' !A /j,u .

t> :4 a FISCHER PORIER Consonwealth Edison Co. i Date: 4 June 1985 ' P.O. Box 767

Subject:

CERTIFICATION l Chicago, Ill. 60690 Ref: 8505A0146Al I FLOWMETER CALIBRATION ACCURACY CERTIFICATE A. METER IDENTIFICATION: (1) Customer Purchase Order Number 501937 REL. E-3 . (2) F&P Serial Number 8505A0146Al . (3) Model Number 10A3555S - B. CALIBRATION SPECIFICATIONS: (1) Date: 4 June 1985 . (2) Flow Range __ 10.2 To 0.8 . Units SCFM . (3) Metering Fluid Air . (a) Viscosity 0.0181 CPS . (b) Specific Gravity 1.0 60/60 F. Density 0.0012 gms/ce. (c) Temperature 70"F . (d) Pressure 14.7 PSIA . C. ACCURACY: i 1% of Max. flow. D. CALIBRATION FACILITIES: (1) The equipment and associated procedures used in the calibration of said meter are in accordance with Mil-STD-45662. (a) Through establishment of valuee of physical constants for primary standards using tools of NBS accuracy pedigree. (b) Through direct, dynamic comparison of Fischer & Porter and NBS flow facilities using Fischer & Porter Turbine Flowmeters as transfer standards. NBS Test No. 213.31/193098. (c) Through inter-laboratory comparison of compatible Fischer & Porter flow facilities. Very truly yours,

                                                                        ]
                                                               /         t "; I-Charles J. /Rongione Sr. Flow Stds. Engineer CJRamdt FISCHER & PORTER COMPANY WARMINSTER. PA. U S A 18974 12158 bi4 6000 1 C ABLE; FISMPORT I TELEM: 045 215 103                                                          _}}