Forwards Documents Containing Background Info & Conclusions Re Containment Integrated Leak Rate Tests at Facility in 1980,1981,1983 & 1984 & Citizens Against Nuclear Power 840605 Petition.Some Petition Findings Valid

ML20140F916
Person / Time
Site:	Zion  File:ZionSolutions icon.png
Issue date:	08/29/1984
From:	Spessard R NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION III)
To:	James Keppler NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION III)
Shared Package
ML20140C940	List: IA-85-136, Forwards marked-up Draft Containment Sys Branch Response to Items in Affidavit Attached to Citizens Against Nuclear Power 840605 Petition Re Integrated Leak Rate Testing at Facility.Containment Integrity Confirmed.Matter Closed ML20140C933 ML20140C981 ML20140E041 ML20140F491 ML20140F558 ML20140F607 ML20140F916 ML20140F989 ML20140G009 ML20140G034
References
FOIA-85-136 NUDOCS 8507120243
Download: ML20140F916 (68)
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NUCLEAR REGULATORY COMMisslON REClON til 799 ROOSEVELT ROAD GLEN ELLYN, SLLINOIS 40137 AUG 2 01934 i T

E MEMORANDUM FOR: James G. Keppler, Regional Administrator FROM: R. L. Spessard, Director, Division of Reactor Safety

SUBJECT:

CONTAINMENT INTEGRATED LEAK RATE TESTING AT ZION The enclosures to this memorandum provide background information and conclusions reached concerning Containment Integrated Leak Rate Tests (CILRT's) performed at the Zion facility in 1980,1981,1983, and 1984 and a petition for Emergency Relief filed by the Citizens Against Nuclear Power on June 5,1984 Enclosure 1 provides a brief summary of applicable regulatory requirements. Enclosure 2 provides a brief history of testing and inspection activities at Zicn from 1980 to date.

Based on this information, we have reached the following conclusions:

1. The intergrated leak rates for both units at Zion are well within Technical Specification limits.

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2. Supplemental tests performed on Zion Unit 1 in 1981 and 1983 failed to demonstrate the accuracy of the CILRT's, therefore, these CILRT's were not performed in accordance with either the Technical Specfications or 10 CFR 50, Appendix J.

3. Some findings contained in the Petition for ' Emergency Relief were correct.

When verified by P.egion III, the licensee voluntarily shut down Zicn Unit 1 to conduct another CILRT. However, the conclusions reached by the petitioner were not valid.

wA R. L. Spessard, Director Division of Reactor Safety

Enclosures:

As Stated cc w/encls:

A. B. Davis -

C. E. Norelius W. S. Little F. Maura S. Hare j **.^ Goldemmd . f[ == f L. Reyes 8507120243 850412 B//3 TB -136 PDR

, ' Enclosure 1 R,egulatory Requirements  ;

Z.fon Technical Specifications 3.10.1 and 4.10.1 reouire the performance of periodic Primary Containment Integrated Leak Rate Tests (Type A tests) in accordance with 10 CFR 50, Appendix J and ANSI N45.4-1972. A maximum liakage rate of 0.1 volume % per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> is specified at peak accident pressure.

10 CFR 50, Appendix J, in addition to establishing requirements.for the performance of Type A tests, requires the. performance of a supplemental test to verify the accuracy of the Type A test. The supplemental test is performed by imposing a measured leakage (on the containment) through a calibrated flowmeter and comparing the calculated containment leakage from the instruments used during the Type A test (including the imposed leakage) to the calculated leakage from the Type A test. To be acceptable, the

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difference between the supplemental test data, after substraction of the superimposed leak rate, and the Type A test data must be within 25% of the maximum allowable leakage for the test pressure employed.

ANSI N45.4-1972, in addition to other requirements, states, "The leakage-rate test period, for any method, shall extend to 24h of retained internal pressure.

If it can be demonstrated to the satisfaction of those responsible for the acceptance of the containment structure that the leakage' rate can be accurately determined during a shorter test period, the agreed-upon shorter period may be I used." It is Region III's position, with the support of NRR, that NRR is the organization responsible for the acceptance of the containment structure and hence is the only crganization possessing the authority to approve a Type A test of less than 24h duration. This position was clearly established in a November 9, 1973 memorandum from Mr. B. H. Grier, Assistant Director for Construction and Operation, Directorate of Regulatory Operations to Mr. A. Giambusso, Deputy Director for Reactor Pro,iects, and Mr. J. M. Hendrie, Deputy Director for Technical Review, and reaffirmed since then in other internal memoranda as well as in correspondence with several licensees such as the June 25, 1982 letter from Mr. D. G. Eisenhut, Director, Division ~of Licensing NRR to Mr. C. W. Fay, Assistant Vice President of Wisconsin Electric Power Company (copies attached).

Both documents endorse a Bechtel Topical Report, BN-TOP-1, as the only approved l methodology for performing Type A tests of less than 24h duration, and the latter I

requires written commitments to BN-TCP-1 as a prerequisite to performing a test of less than 24h duration. It should be noted that Zion has not committed to BN-TOP-1.

Zion is required to perform Type A tests in accordance with 10 CFR 50, Appendix J I and ANSI N45.4-1972. Per Tecnnical Specifications these tests are to be conducted

! at reduced pressure. Per 10 CFR 50, Appendix J the tests must include a satisfactory supplemental test. Per ANSI N45.4-1972, and, in the absence of a commitment to Bechtel Topical Report BN-TOP-1, the tests, exclusive of sypplemental tests, must be at least 24h in duration.

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_E_nclosure 2 Zion Type A Test Expe,rience 1980 to Date A. Discussion I i 1. 1980 Testing: f I~

. In June 1980 a Type A test was performed on Zion Unit 2. The test was witnessed by Mr. J. Kohler, then the Senior Resident Inspector at the Zion facility. The results of the inspection were documented in Inspection Report 50-304/80-14 which states simply that, "the leak rate was well below the allowable limit of .0465 w/o day."

The licensee . independently provided the results of the test to NRR in a report dated October 22, 1980. This report indicated that the test was performed at reduced pressure for 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> of acceptable data and followed by a successful supplemental test. The report states in part, "The test was terminated at hour 12 test time. Since the test had already been runnirq nuch lenger than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, the requirement to keep the containment pressurized longer than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> had already been met. Twelve hours of data were sufficient to determine the leak rate of the containment."

The containment was at test pressure for approximately 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />. During the first 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> of the test, several manipulations of the containment

~ boundary were performed in order to determine the location of leaking panetrations so that corrective action could be taken prior to performing a satisfactory CILRT. It should be noted that while these manipulations are allowed, their effect must be quantified in order to accurately characterize the "as-found" leak tight integrity of the containment building.

2. 1981 Testing: .

In March 1981 a Type A test was performed on Zion Unit 1. The test was witnessed by Mr. J. Kohler, then the Senior Resident Inspector at the Zion facility. The results of the inspection were documented in Inspection Report 50-295/81-06 which states, " Inspector review of the procedure, the events log, the containment mass plots, and leakage calculation, and instrument calibration, as well as independent calculation made by the inspector indicates that all acceptance criteria were met....At the conclusion of the Type A test, a supple-mental test was conducted...at the conclusion of the supplemental test the licensee measured .0422 w/o/ day which, therefore, verified the accuracy of the Type A measurement."

The licensee independently r'eported the results of the test to NRR in a report dated June 19, 1981. This report indicated that the test was performed at reduced pressure for 13 hours1.50463e-4 days <br />0.00361 hours <br />2.149471e-5 weeks <br />4.9465e-6 months <br /> of acceptable data followed by a successful supplemental test. The containment i

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was at test pressure for approximately 10 days. During the first i, nine and a half days, many manipulations of the containment boundary were performed similar to those already noted for the 1980 Unit 2 test.

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The Events Log section of the licensee's report indicated that the supplemental test was commenced at 4:29 a.m. on March 12, 1981.

However, (at approximately 2:00 p.m.) the test was reinitialized to

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. 10:41 a.m. following discovery of a leaking valve on the hold up tank cover gas system which was allowing gas to leak into containment. At 5:00 p.m. the verification test was reinitialized for a second time to 10:21 a.m. with no reason given.

3. 1983 Testing:

Between November 26 and December 5, 1983 a Type A test was performed on Zion Unit 1. Portions of the test were witnessed by the Resident Inspectors including procedure review, instrument calibration records, procedure compliance, valve and system lineups, and containment post-test inspections. The results of this inspection were documented in Inspection Report 50-295/84-02.

The licensee independently provided the results of the test to NRR in a report dated May 8, 1984. This report indicated that the test was performed at reduced pressure. The Event Log portion of the report i states that the test was run until 11 hours1.273148e-4 days <br />0.00306 hours <br />1.818783e-5 weeks <br />4.1855e-6 months <br /> and 50 minutes of accept-able data were obtained. The supplemental test was performed prior to the Type A test of record. The containment was at test pressure for approximately 8 days. During the first seven and a half days, rumerous manipulations were performed to the containment boundary as previously noted for the 1980 Unit 2 test.

4. 1984 Receipt of a Petition for Emergency Relief:

l On June 5,1984, the Citizens Against Nuclear Power filed a Petition i

for Emergency Relief with the Commissioners. The purpose of the l petition was, "(1) To give formal notification to the NRC that the Zion Unit I reactor of the Commonwealth Edison Company is currently in violation of both NRC regulations and federal law, and presents a l grave and immediate health risk and danger to public safety. (2) To request emergency relief as appropriate."

I The petition alleged that the Type A test performed on Zion Unit 1 in 1981 was scientifically invalid and was not performed in accordance with ANSI N45.4-1972. The basis for the alleaation was that the

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I licensee only obtained a satisfactory supplemental test after two unsuccessful attempts and an extended period of . time during which the containment environment was modified by injection of some 44 gallons of water through a seal injection system. The petition concludes that j

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4 the difficulties in obtaining a. satisfactory supplemental test I demonstrated the inadequacy of the Type A test itself and requested the NRC to require and supervise an immediate retest of the Zion Unit I containment. The petition was forwarded to NRR for disposition.

1984 Region III Inspection:

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During the week of June 25, 1984, NRR requested that Region III per-form an inspection at Zion Unit 1 to determine the validity of the allegations contained in the petition.. This requested inspection was coupled with an inspection of a recent LER regarding a flow path left open between the Unit 2 containment and the auxiliary building, and commenced on July 2, 1984.

The initial thrust of the Region III inspection was to review the Zion Unit 1 1983 Type A test. The rationale was that if the 1983 test was valid, no immediate health and safety issues existed. If problems existed with the 1981 test, they could be handled through the normal review process.

Review of the 1983 test revealed the following deficiencies:

M. The test duration was only approximately 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. The methodology employed to perform the test and reduce the data was not that prescribed in BN-TOP-1.

t b. When that data was reduced using the BN-TOP-1 methodology, a calculated leakage of approximately 0.2 weight % per day was obtained. This exceeds the allowable value of approximately 0.07 weight % per day. -

c. The supplemental test was performed before the Type A test.

While test sequencing is not specified in the regulations, this is considered poor practice based on the fact that containment _ conditions may not have been well characterized at the time of the supplemental test.

d. The licensee applied the wrong calibration factor to the flow meter used to establish the imposed leakage rate during the supplemental test. When the correct calibration factor was applied, the agreement between the supplemental test results and the calculated leakage was 47%'of the maximum allowable leakage.rather than the required 25%.

Based on these deficiencies and the fact that the licensee, on September 21, 1982 placed on the docket a letter to J. G. Keppler acknowledging that the only acceptable methodology for performing a Type A test of less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> duration was BN-TOP-1, Region III concluded that the 1983 test was not performed in accordance with either the Technical Specifications or 10 CFR 50, Appendix J. Further, it was concluded that the error made in the supplemental test invalidated that test as the accuracy of the Type A test could not be verified. NRR concurred in these conclusions.

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I Based on these conclusions, Region III began a re-review of the Unit 1 1981 Type A test to assess its validity. This review revealed the following deficiencies: -

. a. The test duration was only approximately 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.i The methodology employed to perform the test and reduce the data was not that prescribed in BN-TOP-1.

b. When that data was reduced using BN-TOP-1, a calculated leakage of approximately 0.15 weight % per day was obtained. This exceeds the allowable value of approximately 0.07 weight % per day,

c. Two attempts were made to perform a satisfactory supplemental test. The first attempt yielded unacceptably low results. The second test yielded acceptable results only after a careful choice of test start time. The inspectors independently calcu-lated supplemental test results using two data points less than the licensee and obtained unacceptable results, indicating that a judicious choice of data can affect the statistical validity of test results.

Based on these ceficiencies Region III concluded that the 1981 test was not performed in accordance with either the Technical Specifications or 10 CFR 50, Appendix J. NRP, concurred in these conclusions.

! On July 17, 1984, a meeting was convened in Region III between members of the Region III, NRR, and licensee staffs. The purpose of the meeting was to present the inspection conclusions to the licensee, the basis for those conclusions, and to afford the licensee the opportunity to provide justification of the validity of either the 1981 or 1983 Zion Unit 1 Type A tests. As a result of the items discussed during the meeting, and on the basis of further discussions between the licensee, Region III, IE, and NRR staffs on July 18, 198.4, the conclusion was reached that the Zion Unit I leak rate test had not demonstrated compliance with Technical Specifications. The licensee voluntarily placed the unit in shutdown on July 18, 1984, and during the period July 27 - August 1, 1984, completed a satisfactory leak test on the Unit I containment. This test was witnessed by a Region III specialist inspector.

Because of the problems discovered with the 1981 and 1983 Type A l tests on Unit 1, Region III also re-reviewed the 1980 Type A test performed on Unit 2. The only deficiency discovered with this test was the duration - 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. Based on discussions with NRR, this test was judged acceptable for the following reasons:

a. The NRC had not, prior to 1982, clearly promulgated to the licensee t the requirements to use BN-TOP-1 for tests of less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> duration, and 4

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, b. The test was witnessed and approved by a Region III specialist i

inspector. This constituted tacit approval of the test duration,

c. NRC had been in possession of the test results since October 22, 1980 and had made no adverse findings with reshect to its

.. acceptability. [

1 B Conclusions

1. Type A tests performed on the Zion Unit 1 containment.in 1981 and 1983 failed to demonstrate that the integrated containment leakage rate was in compliance with Technical Specification requirements

. in that the tests were of shorter duration than required by ANSI N45.4-1972 and the supplemental tests failed to demonstrate the accuracy of the Type A tests. NRR concurred in these findings.

2. The findings with respect to the supplemental test performed following the 1981 Type A test were consistent with those contained in the Petition for Emergency Relief filed by the Citizens Against Nuclear Power; however, the conclusions reached in the petition are not valid.

Those conclusions were:

a. Failure of the first two supplemental tests proves that the Type A test itself was deficient. This was not the case.

10 CFR 50, Appendix J, paragraph III.A.3(b) allows for additional supplemental tests following a failure of a prior test.

b. Fourteen hours elapsed between the completion of the Type A test and completion of the " acceptable" supplemental test.

This time may have allowed for significant changes in the containment environment which could invalidate the supplemental test. While the concerns expressed by the petitions are not without merit, the regulation requires sufficient duration to establish the accuracy of the supplemental test. Furthermore, centainment conditions were continuously monitored throughout the period and changes in conditions were compensated for.

3. A satisfactory Type A test was performed on Zion Unit 1 during the period July 27-August 5, 1984 prior to returning the unit to power.

4 The Type A test performed on Unit 2 in 1980 was re-reviewed, and following discussions with NRR, judged to be acceptable.

E. Iniection of water through the penetration seal water system is allowed and in compliance with the Technical Specifications.

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f CECO IION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84

. h tt RAW AND PRIMARY DATA h;1.','

, ASET4 1 (@'

! .166666667 HRS. }

• • • RAW DATA *** -

\

PRESSURE DETECTORS Pi= 42.58 P2= 43.084 P. MANUAL- 0 ,#*

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TEMPERATlUtE CHANNELS 1 TO 36 UNITS =HV. (ST)-->S=SUBVOLUME,T= TYPE (0-00S,1-WB,2-DB) g g/ -

1 (12)= 89.736 2 (22)= 90.428 3 (42)- 77.597 4 (22)r 90.367 5 (32)= 89.95 6 (32)= 89.788 7 (12)= 90.31 8 (22)= 90.31 9 (22)= 90.248 10 (32)= 90.586 11 (32)= 90.205 12 (12)= 89.863 13 (22)'= 90.200 14 (22)- 90.179 [15 (32)= 89.5120001 16 (42)= 83.515 17 (12)= 90.103 18 (22)= 89.921 19 (22)= P,9.912 20 (32)= 90.034 E',

21 (32)= 89.836 22 (42)= 90.17 23 (42)= 81.317 24 (52)= 91.452 25 (52)= 89.866

• 26 (52)= 90.626'l 27 (52)= 90.1g/ 28 (21)= 72.47 29 (31)= 69.331- 30 (11)= 69.86 s 31 (11)= 72 065' 32 (21)= 72.032 33 (51)= 71.139 34 (21)= 71.957 35 (31)= 72.503. b 36 (41)= 72.091 ,

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C** PRIMARY UALUES *** ra SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .375175753 2 .390606461 3 .374596726 4 .389789371

, 5 .377429272 FtRAGE VAPOR PRESSURE = .381446333 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.) ,

1 90.003 2 90.196625 ,

3 89.9872858 4 83.14975 5 90.52925 AVERAGE CONTAINMENT TEMP = 89.4905014 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 71.44635 (DEG F.)

CORRECTED PRESSURES: Pi= 43.1149096 PSIA P2- 43.1141496 PSIA AVG. CORRECTED PRESS.= 13.1145296 PSIA CONT. DRY AIR PRESSURE- 42.7330833 PSIA CONT. DRY AIR M A S S == 570307.004 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM- 10 DRY ALARM = 10 PRESS ALARM = 10 SURE CALIBRATION CONSTANTS

= 1.01012 B1 .104 M2= .9994 B2= .056 /

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I ~.l 7i h -

.Of V7 v!l

= 5!: n. 1

CECO ZION STATION INTEGR6TED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA SETt 2

.333888889 HRS.

• • • RAW DATA *** -

PRESSURE DETECTORS Pl= 42.554 P2- 43.057 P. MANUAL = 0 TEMPERATURE CHANNELS 1 TO 36 UNITS =MV. (ST)-->S-SUBVOLUME,T= TYPE (0-00S41-WBr2-DB) 1 (12)= E9.178 2 (22)= 89.95 3 (42)= 77.616 4 (22)= 89.903 5 (32)- 89.473 6 (32)= 89.38700017 (12)= 89.799 8 (22)= 89.805 9 (22)= 89.776 10 (32)= 90.081 11 (32)= 89.796 12 (12)= 89.537 13 (22)= 89.769 14 (22)= 89.701 15 (32)- 88.868 16 (42)= 83.424 17 (12)= 89.543 18 (22)= 89.439 19 (22)= 89.578 20 (32)= 89.645 21 (32)= 89.573 22 (42)= 89.924 23 (42)= B1.283 24 (52)= 91.108 25 (52)- 89.685 26 (52)= 90.448 27 (52)= 59.961 28 (21)= 72.523 29 (31)= 49.354 30 (11)= 69.406 31 (11)= 71.472 32 (21)= 72.755 33 (51)- 70.828 34 (21)= 70.803 35 (31)- 71.453 36 (41)= 71.971

• • • PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .368560807 2 .38894749 3 .368115943 4 .388212149 5 .37'3466384 AVERAGE VAPOR PRESSURE = .377152312 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 89.51425 2 89.7401251 3 89.5461428 4 83.06175 5 90.3005 AVERAGE CONTAINMENT' TEMP = 89.0867733 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 71.10869 (DEG F.)

CORRECTED PRESSURES: Pim 43.0886465 PSIA P2- 43.0871658 PSIA AVG. CORRECTED PRESS.= 43.0879062 PSIA l

CONT. DRY AIR PRESSURE = 42.7107538 PSIA CONT. DRY AIR M A S S == 570428.349 LBS.

CHANNELS LOCKED OUT: NONE

, WET ALARM- 10 l DRY ALARM = 10 PRESS ALARM = 10 l

l SURE CALIBRATION CONSTANTS l = 1.01012 B1 .104 M2 .9994 B2 .056 l i 1

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CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

, SETS 3

.500555556 HRS.

I *** RAW DATA.*** ,

i PRESSURE DETECTORS Pi= 42.537 P2= 43.041 P. MANUAL: 0 1

TEMPERATORE CHANNELS 1 TO 36 UNITS =MV. (ST)-->S=SUBVOLUMErT= TYPE (0-005,1-WBe2-DB) 1 (12)= 58.893 2 (22)= 89.63700013 (41)= 77.488 4 (22)= 89.428 5 (32)= 89.247

6 (32)= 89.125 7 (12)=.89.685 8 (22)= 89.558 9 (22)= 89.563 10 (32)= 89.84 11 (32)= 89.48 12 (12)= 89.146 13 (22)= 89.506 14 (22)= 89.495 15 (32)= 88.803 l

16 (42)= 83.554 17 (12)= 89.263 18 (22)= 89.152 19 (22)= 89.218 20 (32)= 89.314 21 (32)= 89.108 22 (42)= 89.706 23 (42)= 81.341 24 (52)e 90.965 25 (52)= 09.572 26 (52)='90.208 27 (52)= 89.729000128 (21)= 71.797 29 (31)= 69.71 30 (11)= 70.326 l

g 31 (11)= 72.042 32 (21)= 72.58 33 (51)= 71.051 34 (21)= 70.838 35 (31)= 71.333 36 (41)= 72.05

• • • PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .378005712 l 2 .385169972

3 .369785036 4 .389249858 5 .37630423 l AVERAGE VAPOR PRESSURE = .378526499 l

SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 89.24675 2 89.444625 3 89.2738572 l 4 83.02225 I 5 90.1185 AVERAGE CONTAINMENT' TEMP = 88.8369968 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 71.2201567 (DEG F.)

CORRECTED PRESSURES: P1= 43.0714744 PSIA P2- 43.0711754 PSIA AVG. CORRECTED PRESS.= 43.0713249 PSIA CONT. DRY AIR PRESSURE = 42.6927984 PSIA CONT. DRY AIR MASS = 570448.183 LB9.

CHANNELS LOCKED DUT! NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10 SURE CALIBRATION CONSTANTS

= 1.01012 Bl= .104 M2= .9994 B2= .056 I

I I

I I

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA SETt 4

.667222222 HRS.

O** RAW DATA ***

i PRESSURE DETECTORS Pi= 42.523 P2= 43.028 P. MANUAL = 0 TEMPERATiRE CHANNELS 1 TO 36 UNITS =MV. (ST)-->S=SUBVOLUMErT= TYPE (0-00Skri-WBr2-DB) 1 (12)= 88.702 2 (22)= 89.47400013 (42)= 77.56 4 (22)= 89.317 5 (32)= 89.073 '

6 (32)= 88.858 7 (12)= 89.331 8 (22)= 89.343 9 (22)= 89.437 10 (32)= 89.683 11 (32)= 89.477 12 (12)= 89.006 13 (22)= 89.303 14 (22)- 89.259 15 (32)= 88.537 16 (42)= 83.425 17 (12)= 89.137000118 (22)= 89.067 19 (22)= 89.138 20 (32)= 89.16 21 (32)= 88.99 22 (42)= 89.521 23 (42)= 81.335 24 (52)= 90.747 25 (52)= 89.424 56 (52)= 90.119 27 (52)= 89.634 28 (21)= 72.335 29 (31)= 69.58 30 (11)v 69.493 31 (11)= 71.075 32 (21)= 71.913 33 (51)= 70.845 34 (21)= 71.64 35 (31)= 70.986 36 (41)= 71.698 O** PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .367871781 2 .388102827 3 .366609409 4 .381644727 5 .373682062 AVERAGE VAPOR PRESSURE = .375974247 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 89.044 2 C9.29225 3 89.1111429 4 82.96025 5 89.9810001 AVERAGE CONTAINMENT TEMP = 88.6817183 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 71.0166033 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0573328 PSIA P2= 43.0581832 PSIA AVG. CORRECTED PRESS.= 43 057758 PSIA CONT. DRY AIR PRESSURE = 42.6817838 PSIA j CONT. DRY AIR MASS = 570462.496 LBS.

l ...............................................................................

! CHANNELS LOCKED OUT N0HE l WET ALARM = 10 DRY ALARM = 10 i PRESS ALARM = 10 SURE CALIBRATION CONSTANTS

= 1.01012 Bl= .104 M2= .9994 B2= .056 Y,

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4 CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

, ASET4 5 .

L 1 .833888889 HRS.

• • • RAW DATA ***

! PRESSURE DETECTORS Pi= 42.516 P2= 43.019 P. MANUAL = 0 TEMPERATONE CHANNELS 1 TO 36 UNITS-HV. (ST)-->S-SUBVOLUME r T- TYPE (0-00 ,1-WB e 2-DB) 1 (12)= 88.58 2 (22)= 89.27 3 (42)= 77.473 4 (22)= 89.227 5 (32)= 89.032 6 (32)= 88.809 7 (12)= 89.006 8 (22)= 99.196 9 (22)= 89.199 10 (32)= 89.611 11 (32)= 89.407 12 (12)r 88.978 13 (22)r 89.26 14 (22)= 89.209 15 (32)= 88.394 l

14.(42)= 83.4 17 (12)= 88.822 18 (22)= 88.795 19 (22)= 89.016 20 (32)= 89.161 21 (32)= 89.149 22 (42)= 89.59 23 (42)= 81.381 24 (52)= 90.606 25 (52)- 89.3 24 (52)= 89.956 27 (52)= 89.506 28 (21)= 72.401 29 (31)- 49.56 30 (11)* 69.543 31 (11)= 71.136 32 (21)= 71.128 33 (51)= 71.369 34 (21)= 71.206 35 (31)= 70.565 36 (41)= 71.687 C** PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .36731512 2 .383090038 i 3 .363866586 4 .384501587 5 .380383614 x_-

AVERAGE VAPOR PRESSURE = .373982509 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.8465 2 89.1465 3 89.0804286 4 82.961 5 89.842 AVERAGE CONTAINMENT TEMP = 88.5772572 (DEG F.)

AVERAGE CONTAIhMENT DEWPOINT = 70.8612167 (DEG F.)

CORRECTED PRESSURES: Pie 43.0502619 PSIA P2- 43.0491886 PSIA AVG. CORRECTED PRESS.= 43.0497253 PSIA CONT. DRY AIR PRESSURE = 42.6757428 PSIA l

CONT. DRY AIR M A S S == 570490.43 LBS.

CNANNELS LOCKED OUT1 NONE WET ALARM' 10 DRY ALARM = 10 PRESS ALARM = 10

>fSURECALIBRATIONCONSTANTS s B1 .104 M2= .9994 B2= .056 y'l=1.01012

.e l

l l -

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA SET 4 6

1.00055556 HRS.

• • • RAW DATA *** ,

i PRESSURE DETECTORS Pl= 42.509 P2= 43.011 P. MANUAL = 0 TEMPERATU[RECHANNELS1TO36 UNITS =MV. (ST)-->S-SUBVOLUMErinTYPE(0-00Sii-WBe2-DB) 1 (12)= 88.461 2 (22)r 89.169 3 (42)= 77.439 4 (22)r 89.119 5 (32)= 88.919 4 (32)= 88.697 7 (12)= 88.955 8'(22)= 89.102 9 (22)= 89.102 10 (32)= 89.421 11 (32)= 89.12 12 (12)= 88.882000113 (22)= 89.181 14 (22)= 89.093 15 (32)= 88.333 16 (42)= 83.377 17 (12)= 88.769

~

18 (22)= 88.761 19 (22)= 88.89 20 (32)= 89.015 21 (32)= 89.099000122 (42)= 89.358 23 (42)= 81.422 24 (52)= 90.499 25 (52)= 89.204 26 (52)= 89.888 27 (52)= 89.444 28 (21)= 71.713 29 (31)= 69.455 30 (11)= 69.657 31 (11)= 71.669 32 (21)= 72.207 33 (51)r 70.938 34 (21)= 71.672 35 (31)= 70.835 36 (41)= 72.088 C** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .371378689 2 .386810499 3 .364890705 4 .389749872 5 .374863873 AVERAGE VAPOR PRESSURE = .376207786 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.7667501 2 89.052125 3 88.9434286 4 82.899 5 89.75875 AVERAGE CONTAINMENT TEMP = 88.4757897 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 71.03156 (DEG F.)

CORRECTED PRESSURES: Par 43.0431911 PSIA P2- 43.0411934 PSIA AVG. CORRECTED PRESS.= 43.0421923 PSIA CONT. DRY AIR PRESSUREn 42.6659845 PSIA CONT. DRY AIR M A S S == 570465.557 LBS.

CHANNELS LOCKED OUT! NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10

\

l ;SURE CALIBRATION CONSTANTS 3 , la 1.01012 Bl= .101 M2= .9994 B2= .056 Y-

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

' DATASETS 7 El 1.16722222 HRS.

• • • RAW DATA ***

i PRESSURE DETECTORS Pl= 42.504 P2- 43.005 P. MANUAL = 0 TEMPERATU{ECHANNELS1TO36 UNITS-HV. (ST)-->S-SUBVOLUMErT= TYPE (0-00S 1-WBe2-DB) 1(12)=8h.375 2 (22)= 89.065 3 (42)= 77.41 4 (22)= 89.016 5 (32)= 88.042 4 (32)= 88.717 7 (12)= 88.929 8 (22)= 89.041 9 (22)= 89.001 10 (32)= 89.389 11 (32)= 89.079 12 (12)= 88.757000113 (22)= 89.105 14 (22)= 89.119 15 (32)- 88.281 16 (42)= 83.386 17 (12)= 88.671 18 (22)= 88.629 19 (22)= 88.812 20 (32)= 88.971 21 (32)= 88.952 22 (42)r 89.399 23 (42)= 81.43 24 (52)= 90.44 25 (52)= 89.178 26 (52)= 89.83 27 (52)= 89.343 28 (21)= 72.09 29 (31)= 69.987 30 (11)= 70.069 31 (11)= 71.121 32 (21)= 72.151 33 (51)= 70.68 34 (21)= 71.858 35 (31)= 70.925 36 (41)= 71.624 O** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .370521277 2 .389026349 3 .368774007 4 .383682682 5 .371593312 ERAGE VAPOR PRESSURE = .377164783 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.683 2 88.973875 3 88.8901428 4 82.90625 5 89.6977501 AVERAGE CONTAINMENT TEMP = 88.4137858 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 71.11094 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0381405 PSIA P 2 r- 43.035197 PSIA AVG. CORRECTED PRESS.= 43.0364688 PSIA CONT. DRY AIR PRESSURE = 42.659504 PSIA CONT. DRY AIR M A S S == 570443.433 LBS. ,,

CHANNELS LOCKED OUT: NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10 PRESSURE CALIBRATION CONSTANTS

.101 M2= .9994 B2= .056 f1=1.01012 Bi

CECO ZIDH STATION IINTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA DATASET8 8 E 1.33388889 firs .

• • • RAW DATA ***

PRESSURE DETECTORS Pl= 42 498 P2= 43 P.HANUAL= 0 TEMPERATURE CHANNELS 1 TO 36 UNITS =MV. (ST)-->S=SUBVOLUME T-TYPE (0-00 ri-WBe2-DB) 1 (12)= BB.348 2 (22)= 89.061 3 (42)- 77.487 4 (22)= 88.954 5 (32)e 88.818 6 (32)= 88.569 7 (12)= 88.758 8 (22)= 88.961 9 (22)= 88.957 10 (32)= 89.244 11 (32)= 89.041 12 (12)= 88.743 13 (22)= 89.022000114 (22)= 88.923 15 (32)- 88.101 16 (42)= 83.354000117 (12)= 88.623 18 (22)= 88.63 19 (22)= 88.853 20 (32)= 88.932 21 (32)= 88.906 22 (42)= 89.3 23 (42)= 81.424 24 (52)= 90.37 25 (52)= 89.201 26 (52)= 89.735 27 (52)= 89.332 28 (21)= 71.794 29 (31)= 69.004 30 (11)= 69.436 31 (11)= 70.698 32 (21)= 72.898 33 (51)= 70.826 34 (21)= 71.841 35 (31)r- 70.61 36 (41)= 71.826 O** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .363922383 2 .390931955 3 .360710841 4 .386313782 5 .373441018 ERAGE VAPOR PRESSURE = .374409655 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.618 2 88.9201251 3 88.8015714 4 82.89125 5 89.6595 AVERAGE CONTAINMENT TEMP = 88.3517503 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.8858334 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0320798 PSIA P2- 43.0302 PSIA AVG. C0RRECTED PRESS.= 43.0311399 PSIA CONT. DRY AIR PRESSURE = 42.6567302 PSIA CONT. DRY AIR M A S S == 570470.909 LBS.

CHANNELS LOCKED OUT: NONE WET ALARMS 10 DRY ALARM = 10 PRESS ALARM = 10 PRESSURE CALIBRATION CONSTANTS 1= 1.01012 815 .104 M2 .9994 B2= .056

d CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

, SETI 9

1.50055556 HRS.

• • • RAW DATA ***

i PRESSURE DETECTORS Pl= 42.494 P2- 42.996 P. MANUAL = 0 TEMPERATURyCHANNELS1TO36 UNITS-HV. (ST)-->S-SUBVOLUMEeT-TYPE (0-00Sil-WBr2-DB) 1(12)=Bh'.305 2 (22)= 88.937 3 (42)= 77.418 4 (22)- 88.793 5 (32)= 88.775 6 (32)= 88.52200017 (12)= 88.801 8 (22)= 88.954 9 (22)= 88.911 10 (32)= 89.247 11 (32)= 88.931 12 (12)= 88.638 13 (22)= 88.983 14 (22)= 88.978 15 (32)r 8,1.209 16 (42)= 83.4 17 (12)= 88.548 18 (22)= 88.514 19 (22)= 88.71 20 (32)= 82.8870001 21 (32)= 88.897000122 (42)= 89.271 23 (42)= 81.52 24 (52)r 90.315 25 (52)- 88.992 26 (52)= 89.697 27 (52)= 89.253 28 (21)= 71.107 29 (31)= 69.749 30 (11)= 69.551 31 (11)= 71.392 32 (21)= 71.019 33 (51)= 70.768 34 (21)= 71.336 35 (31)= 70.562 36 (41)= 71.35 O** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .368968489 2 .377621334 3 .365021229 4 .380138796 5 .372706039 AVERAGE VAPOR PRESSURE: .371815983 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.573 2 88.8475 3 88.7811429 4 82.90225 5 89.56425 AVERAGE CONTAINMENT TEMP- 88.3062908 (DEG F.)

l AVERAGE CONTAINMENT DEWPOINT = 70.69453 (DEG F.)

i CORRECTED PRESSURES: Pl= 43.0280393 PSIA P2= 43.0262024 PSIA AVG. CORRECTED PRESS.= 43.0271208 PSIA CONT. DRY AIR PRESSURE = 42.6553049 PSIA l CONT. DRY AIR MASS = 570499.17 LBS.

l -------------------------------------------------------------------------------

CHANNELS LOCKED CUT: NONE i

WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10

! SURE CALIBRATION CONSTANTS

! = 1.01012 Bl= .104 M2 .9991 B2= .056 I

1 Ifv l

___ _ _ z_

5 CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA ASETt 10

1.66722222 HRS.

• • • RAW DATA *** _

i PRESSURE DETECTORS Pl= 42.491 P2= 42.992 P. MANUAL = 0 TEMPERATURE CHANNELS 1 TO 36 UNITS =MV. (ST)-->SaSUBVOLUME,T= TYPE (0-00S,I-WB,2-DB) 1(12)=88h22 2~(22)= 88.905 3 (42)- 77.471 4 (22)= 88.8 5 (32)r 88.748 6 (32)= 88.50700017 (12)= 88.621 8 (22)= 88.896 9 (22)= 88.879 10 (32)= 89.216 11 (32)= 89.016 12 (12)= 88.63 13 (22)r 88.935 14 (22)= 88.913 15 (32)= 88.05 16 (42)= 83.343 17 (12)= 88.528 18 (22)- 88.562 19 (22)= 88.769 20 (32)= 88.848 21 (32)= 88.935 22 (42)= 89.267000123 (42)= 81.471 24 (52)= 90.277 25 (52)- 89.067 26 (52)= 89.691 27 (52)= 89.218 28 (21)= 71.267 29 (31)= 69.429 30 (11)= 69.413 31 (11)= 71.336 32 (21)= 73.289 33 (51)= 70.616 34 (21)= 71.148 35 (31)r 70.985 36 (41)= 71.997 O** PRIMARY VALUES * * :(

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .367752882 2 .387299045 3 .365662004 4 .388553407 5 .37078588 AVERAGE VAPOR PRESSURE = .37548359 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.49975 2 88.8323751 3 88.76 4 82.888 5 89.5632501 AVERAGE CONTAINMENT TEMP = 88.2801275 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.9772467 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0250089 PSIA P2= 43.0222048 PSIA AUG. CORRECTED PRESS.= 43.0236069 PSIA CONT. DRY AIR PRESSURE- 42.6481233 PSIA CONT. DRY AIR M A S S == 570430.353 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10 SURE CALIBRATION CONSTANTS

= 1.01012 B1 .101 M2= .9994 B2= .056

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA ASETt 11

1.83388889 HRS.

• • • RAW DATA *** ,

i PRESSURE DETECTORS Pir 42.487 P2n 42.989 P.HANUALr 0 i

TEMPERATURE CHANNELS 1 TO 36 UNITS =MV. (ST)-->S=SUBVOLUME,T= TYPE (0-00Sel-WBr2-DB) 1 (12)= 88.192 2 (22)= 88.876 3 (42)= 77.465

. 4 (22)= 88.732 5 (32)= 88.578 6 (32)= 88.488 7 (12)= 88.774 'S (22)= 88.88 9 (22)= 88.879 10 (32)= 89.166 11 (32)= 88.801' 12 (12)= 88.485 13 (22)= 88.884 14 (22)= 88.909 15 (32)r 88.33 16 (42)= 83.525 17 (12)= 88.513 18 (22)= 88.423 19 (22)= 88.572 20 (32)= 88.635 21 (32)= 88.569 22 (42)r 89.083 23 (42)= 81.533 24 (52)= 90.339 25 (52)- 89.035 26 (52)= 89.668 27 (52)= 89.164 28 (21)= 71.246 29 (31)= 69.722 30 (11)= 69.187 31 (11)= 70.565 32 (21)= 72.273 33 (51)= 70.832 34 (21)n 71.92 35 (31)r 71.51 36 (41)= 71.855

• • • PRIMARY UALUES ***

SUBVOLUME AVO SUBV. VAPOR PRESSURE 1 .363414294 2 .38614398 3 .37078588 l 4 .386692805 5 .373517122 AVERAGE VAPOR PRESSURE = .376051022 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

l i

1 88.491 2 88.769375 l

3 88.6524286 4 82.9015 5 89.5515001 AVERAGE CONTAINMENT TEMP = 88.2241272 (DEG F.)

AVERAGE CONTAINNENT DEWPOINT = 71.02379 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0209685 PSIA P2= 43.0192066 PSIA l AVG. CORRECTED PRESS.= 43.0200875 PSIA CONT. DRY AIR PRESSURE = 42.6440365 PSIA CONT. DRY AIR M A S S == 570433.988 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10 l

\ g-SURE CALIBRATION

= 1.01012 Bl= .101 CONSTANTS H2= .9994 B2= .056

- - .- --__---_m_-m- u_.

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

, SET 4 12 2.00055556 HRS.

C** RAW DATA *** _

i PRESSURE DETECTORS Pi= 42.485 P2= 42.987 P.HANUAL- 0 UNITS =MV. (ST)-->S=SUBVOLUMErT= TYPE (0-00S 1-WB,2-DB)

TEMPERATUfECHANNELS1TO36 1 (12)= 85.232 2 (22)= 88.961 3 (42)r 77.574 4 (22)= 88.758 5 (32)= 88.534 6 (32)= 88.362 7 (12)= 88.658 8 (22)= 88.821 9 (22)= 88.902 10 (32)u 89.201 11 (32)= 89.013 12 (12)= 88.508 13 (22)= 88.8 14 (22)= 88.732 15 (32)= 87.992 14 (42)= 83.416 17 (12)= 88.56 la (22)= 88.52 19 (22)= 88 688 20 (32)= 88.755 21 (32)= 88.598 22 (42)= 88.992 23 (42)= B1.472 24 (52)n 90'.255 25 (52)= 88.996 26 (32)= 89.698 27 (52)= 89.181 28 (21)= 71.975 29 (31)= 69.139 30 (11)= 69.276 31 (11)= 71.409 32 (21)= 72.483 33 (51)= 70.947 34 (21)= 70.788 35 (31)= 70.539 36 (41)= 71.963 C** PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE ,

1 .367352625 2 .38530464 3 .361104765 4 .388107199 5 .374978415 AVERAGE VAPOR PRESSURE = .373652187 l SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

l t

1 88.4895 l 2 88.77275 l 3 88.6364286

! 4 82.8635 5 89.5325 AVERAGE CONTAINMENT TEMP = 88.2146872 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.8316034 (DEG F.)

CORRECTED PRESSURES: Pi= 43.0189482 PSIA P2r 43.0172078 PSIA AVG. CORRECTED PRESS.= 43.018078 PSIA CONT. DRY AIR PRESSURE = 42.6444258 PSIA CONT. DRY AIR M A S S == 570449.023 LBS.

CHANNELS LOCKED OUT NONE WET ALARM' 10 DRY ALARM = 10 PRESS ALARM = 10 SURE CALIBRATION CONSTANTS

[\ ,,}4 = 1.01012 Bi= .104 H2= .9994 B2= .056 1F

CECO ZIDH STATION INTEGRATED LEAKRATE' TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA ASET4 13 1 l 2.16722222 HRS.

C** RAW DATA ***

i PRESSURE DETECTORS Pl= 42.483 P2= 42.985 P. MANUAL = 0 TEMPERATURt CHANNELS 1 TO 36 UNITS =MV. (ST)-->S-SUBVOLUMEeT= TYPE (0-00S,1-WBr2-DB) 1 (12)= 88.159 2 (22)= 88.824 3 (42)= 77.4'78 4 (22)= 88.694 5 (32)- 88.661 6 (32)= 88.447 7 (12)= 88.578 8 (22)= 88.827 9 (22)= 88.806 10 (32)= 89.073 11 (32)= 88.766 12 (12)= 88.484000113 (22)= 88.855 14 (22)= 88.864000115 (32)= 88.188 16 (42)= 83.416 17 (12)= 88.423 18 (22)= 88.382000119 (22)= 88.581 20 (32)= 88.684 21 (32)= 88.684 22 (42)= 89.053 23 (42)= 81.576 24 (52)= 90.22 25 (52)- 88.993 26 (52)= 89.567 27 (52)= 89.141 28 (21)= 71.539 29 (31)= 68.193 30 (11)= 69.386 31 (11)= 70.573 32 (21)= 71.557 33 (51)= 70.529 34 (21)= 71.196 35 (31)= 71.356 36 (41)= 71.077 C** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .3628'38797 2 .381179147 3 .360311144

.4 .376636323 5 .369690738 L+2 RAGE VAPOR PRESSURE = .369757312 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.411 2 88.729125 3 88.6432857 4 82.88075 5 89.48025 AVERAGE CONTAINMENT TEMPn 88.1856414 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.5265034 (DEG F.)

CORRECTED PRESSURES: Pl= 43.016928 PSIA P2- 43.015209 PSIA AVG. CORRECTED PRESS.= 43.0160685 PSIA CONT. DRY AIR PRESSURE = 42.6463112 PSIA CONT. DRY AIR M A S S == 570504.488 LBS.

CHANNELS LOCKED OUT1 NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10

'"'lSURE CALIBRATION CONSTANTS

_;)-1.01012 Bl= .101 M2 .9994 B2= .056

CECO ZIDH STATION INTEGRATED LEAKRATE ILST UNIT 1 07/29/84 RAW AND PRIMARY DATA r ""' ASET 4 14

>;  :: 2.50055556 HRS.

O** RAW DATA ***

PRESSURE DETECTORS Pl= 42.479 P2" 42.982 P. MANUAL = 0 i

TEMPERATURE CHANNELS 1 TO 36 UNITS-HV. (ST)-->S=SUBVOLUME,T-TYPE (0-00S',1-WBr2-DB) 1 (12)= M.118 2 (22)= 88.761 3 (42)= 77 529 4 (22)= 88.696 6 (32)= 88.374 7 (12)= 88.656 5 (32)- 88.6090001 8 (22)= 88.743 9 (22)= 88.777 10 (32)= 89.083 11 (32)= 88.83 12 (12)= 88.475 13 (22)= 88.819 16 (42)= 83.346 14 (22)= 88.792 15 (32)= 87.988 17 (12)= 88.388 18 (22)= 88.343 19 (22)= 88.586 21 (32)= 8C.693 22 (42)= 89.119 20 (32)='88.691 23 (42)= 81.59 24 (52)= 90.17 25 (52)= 88.975 26 (52)= 89.588 27 (52)= 89.146 28 (21)= 71.467 29 (31)= 68.774 31 (11)= 70.739 32 (21)= 71.875 30 (11)= 69.392 33 (51)= 70.564 34 (21)= 69.827 35 (31)r 70.874 36 (41)= 71.559 O** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .363903783 2 .376372331 3 .360920066 4 .382839378

( 5 .370130972 AVERAGE VAPOR PRESSURE = .36920358 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.40925 2 88.689625 3 88.6097144 4 82.896 5 89.46975 AVERAGE CONTAINMENT TEMPr 88.1623711 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.4845667 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0128875 PSIA P2= 43.0122108 PSIA AVG. CORRECTED PRESS.= 43.0125491 PSIA CONT. DRY AIR PRESSURE = 42.6433456 PSIA CONT. DRY AIR M A S S == 570489.046 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10

'SURE CALIBRATION CONSTANTS

.= 1.01012 B1 .101 M2 .9991 B2= .056

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

• • =ASETt 15 i '1 2.66722223 HRS.

• • • RAW DATA *** -

PRESSURE DETECTORS Pl= 42.478 P2= 42.981 P. MANUAL = 0 TEMPERATURE CHANNELS 1 TO 36 UNITS =MU. (ST)-->S-SUBVOLUME, T : TYPE (0-00S e l-WB r 2-DB) 1 (12)= 88.14 2 (22)= 88.793 3 (42)- 77.584 4 (22)= 88.737 6 (32)= 88.36 5 (32)= 88.58 7 (12)= 88.581 8 (22)= 88.742 9 (22)= 88.78 10 (32)= 89.1 11 (32)= 88.879 12 (12)= 88.476 13 (22)= 88.742 14 (22)r 88.633 16 (42): 83.422 17 (12)' 88.398 15 (32)= B7.98 18 (22)= 88.378 19 (22)= 88.58i 20 (32)= 88.653 21 (32)= 88.661 22 (42)='88.935 23 (42)r 81.57 24 (52)r 90.165 26 (52)= 89.636 25 (52)= 88.952 27 (32)= 89.181 28 (21)= 72.473 29 (3t)= 68.598 30 (11): 69.822 31 (11)= 70.277 32 (21)= 71.946 33 (51)= 70.463 34 (211- 71.083 34 (41)= 71.35 35 (31)- 70.779 O** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .36370544 2 .386418308 3 .359255354

. 4 .380138796

, 5 .368861826 r

AVERAGE VAPOR PRESSURE = .371492407 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.39875 2 88.676125 3 88.6018572 4 82.87775 5 89.4835 AVERAGE CONTAINMENT TEMP = 88.1532418. (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.65928 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0118774 PSIA P2= 43.0112114 PSIA AVG. CORRECTED PRESS.= 43.0115444 PSIA CONT. DRY AIR PRESSURE = 42.6400518 PSIA CONT. DRY AIR M A S S == 570454.487 LBS.

CHANNELS LOCKED OUT! NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10

'SURE CALIBRATION CONSTANTS

= 1.01012 81= .104 M2= .9994 B2= .056 Y

I

CECO ZIDH STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

• • TASETt 16

( .: 2.83388889 HRS.

l C** RAW DATA *** -

PRESSURE DETECTORS Pl= 42.477 P2= 42.98 P. MANUAL - 0 TEMPERAT6RE CHAHHELS 1 TO 36 UNITS =MV.

I (ST)-->S-SUBVOLUME,T= TYPE (0-00S,1-WBe2-DB) 1 (12)= BB.101 2 (22)= 88.778 3 (42)= 77.604 4 (22)= 88.748 6 (32)= 88.38 7 (12)= 88.542 5 (32)r 88.534 8 (22)= 88.71 9 (22)= 88.734000110 (32)= 89.056 11 (32)= 88.829 12 (12)= 88.507000113 (22)= 88.768 14 (22)= 88.7 16 (42)= 83.499 17 (12)= 88.363 15 (32)= 87.904 18 (22)= 88.412 19 (22)= 88.629 20 (32)= 88.697 21 (32)= 88.78 22 (42)= 89.035 23 (42)= 81.573 24 (52)= 90.152 24 (52)=.89.613 25 (52)r 88.951 27 (52)= 89.151 28 (21)= 71.266 29 (31)= 48.733 30 (11)= 69.584 31 (11)= 70.468 32 (21)= 72.039 33 (51)= 70.695 34 (21)r 71.385 35 (31)= 71.443 36 (41)= 71.71 C** PRIMARY VALUES ***

SUBVOLUME AVO SUBV. VAPOR PRESSURE 1 .363414294 2 .382895548 3 .364182864 4 .384800932 5 .371782776 AVERADE VAPOR PRESSURE = .372572198 SUBVOLUME AVO. SUBVOLUME TFMP (DEG F.)

1 88.3782501 2 88.684875 3 88.5971429 4 82.92775 5 89.46675 AVERADE CONTAINMENT TEMP = 88.1538357 (DEO F.)

AVERAGE CONTAINHENT DEWPOINTu 70.7495567 (DEG F.)

CORRECTED PRESSURES: Pie 43.0108673 PSIA P2r 43.010212 PSIA AVG. CORRECTED PRESS.= 43.0105396 PSIA CONT. DRY AIR PRESSURE: 42.6379674 PSIA CONT. DRY AIR M A S S == 570425.903 LBS.

CHANNELS LOCKED OUT! NONE WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10

'SURE CALIBRATION CONSTANTS

, .' 1.01012 B1' .104 M2= .9994 B2= .056

. _ . . ~ _ . 1 __ ._.

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 1

RAW AND PRIMARY DATA DATASETt 17 rQlME: 3.00083334 HRS.

Q.))

• • • RAW DATA *** -

PRESSURE DETECTORS Pl= 42.476 P2= 42.979 P. MANUAL = 0 TEMPERATU[RECHANNELS1TO36 UNITS =MV. (ST)-->S=SUBVOLUME,T= TYPE (0-00Sel-WBr2-DB) 1 (12)= 88.105 2 (22)= 88.795 3 (42)= 77.642 4 (22)= 88.719 5 (32)= 88.536 6 (32)= 88.324 7 (12)= 88.56 8 (22)= 88.751 9 (22)= 88.728 10 (32)v 89.097 11 (32)= 88.827 12 (12)= 88.439 13 (22)= 88.748 14 (22)= 88.642000115 (32)e- 87.957 16 (42)= 83.509 17 (12)= 88.441 18 (22)= 88.421 19 (22)= 88.607 20 (32)= 88.67 21 (32)= 88.681 22 (42)= 89.061 23 (42)= 81.597 24 (52)r 90.15 25 (52)r 88.952 26 (52)= 89.604000127 (52)= 89.157 28 (21)= 71.92 29 (31)= 68 841 30 (11)= 69.508 31.(11)= 71.128 32 (21)= 71 862 33 (51)= 70.396 34 (21)r 70.909 35 (31)= 70.55 36 (41): 71.386

• • • PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .367046436 2 .382899869 3 .35934119 4 .380602778 5 .368022018 ERAGE VAPOR PRESSURE = .370961729 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.38625 2 88.6763751 3 88.5845714 4 82.95225 5 89.4657501 AVERAGE CONTAINMENT TEMP = 88.1506478 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.6205534 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0098572 PSIA P2= 43.0092126 PSIA AVG. CORRECTED PRESS.= 43.0095349 PSIA

{

' CONT. DRY AIR PRESSURE = 42.6385732 PSIA CONT. DRY AIR M A S S == 570437.406 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM- 10 DRY ALARM = 10 PRESS ALARM = 10 PRESSURE CALIBRATION CONSTANTS 1.01012 B1 .104 M2 .9994 B2= .056 Opt

s ~ 'i g ' -

h _

m. T .

" ~

, . ~;

CECO 72 ION STATION INTEGRATED LEAK ATE TEST MII 1 ' 07/29/84 t

RAW AND PRIMARYs. (D A Y A, +

J DATASET4 12 . T \

E: 3.1675 HRS. y

• • • RAW DATA *** s --

NN ,

i PRESSURE DETEC7CRS M g42,47'4 P2- 42.978 P.MAUllAL= 0

• s' '

i

_ r , J TEMPERATUR$ ChtsNNEllS l' W 36 UNI 1S=MV. M T)-->S-suBVOLUMEeT=IYgE(0-00Sel-WBe2-DB) s-

a - s 1 (12)r 88."128  ;[)(27)=138.78 3 (4h = 77 868 4 (22)= 28.525 5 (32)= 88.443 6 (32)= 88.25 / 7'(12)=.118.6 C (22)= 68.i49 9 (22)= 88.798 10 (32)= 89.1090001 11 (32)= 88.78 12.(12)" 88.342 13 (2H = 88.'708 14 (22)= 88.659 15 (32)= 88.182 16 (42)= 83.619 17'(12) 88.519 13 ('R) = 88,371 19 (22)= 88.45 20 (32)= 88.519 21 (32)u 88.371 22 (42)= 88.723 ; 23 (4?i=.81.630 24 (52)= 90.22 25 (52)= 88.972 26 (52)= 89.576 27 (52)= 89.093 J 28 !21)= 78.737 29 (31)= 69.178 30 (11)= 69.345 31 (11)= 70.863 32 (21)= 71.71 '33 451)= 70.581 34 (21)= 69.74 35 (31)= 69.874 6

36 (41)= 71.463' 4 s ,

C** PRIMARY'DALUE3 *** s

. y ,

SUBVOLUME 5hG SUBV. VAPOR PRESSURU w ,

V, 1 '.364381435 2 .'376457472 3 - ,357267783 4 -1 .381596845 5 .370344966 s s

, t ERAGE VAPOR PJESSURE= .368055503 ^ '

SUBVOLUME ,

AVG. SUBVOLUME TEMP /DEG F.) +

1 88.39725 .

2 88.63 3 ,788.5220001 ',

~

182.886

~

4 , , .

5 89.46525 .

5 AVERAGECONTAINh.NTTEMP= 88.11175M (DED F.)

AVERAGE CONTAINMLNT DEWPOINT = 70.30.114- N C'F.).

CORRECTED PRESSURES: Pl= 43.0078369 ' PSIA, Pfu 43.0082132 PSIA ,

AVG. CORRECTED PRESS.= 43.0080251 TSIA CONT. DRY AIR EntSSURE= 42.6399695 ' PSIA CONT. DRY AIR M A S S == 570496.586 LBS.

CHANNELS LOCKED CUT: nW1E 3 4

WET ALARM- 10 DRY ALARM = 10 PRESS ALARh= to .

PRESSURE CALIBkATION CONSTANTS 0" 2 ""' "" '"

" = l "" " 2 ' "' ~

s ,s Y- +

sk \ f 8

,d s .'M "

, = . . - - - .

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA DATASETt 19 ME: 3.33416667 HRS.

C** RAW DATA *** ,

PRESSURE DETECTORS Pl= 42.476 P2= 42.976 P. MANUAL = 0 TEMPERATURE CHANNELS 1 TO 36 UNITS =MV. (ST)-->S-SUBVOLUMErT= TYPE (0-00Sek-WBr2-DB) 1 (12)= 88.092 2 (22)= 88.784 3 (42)= 77.644 4 (22)= 88.736 5 (32)= 88.575 6 (32)= 88.281 7 (12)' 88.43 8 (22)= 88.716 9 (22)= 88.678 10 (32)= 89.021 11 (32)= 88.803 12 (12)= 88.459 13 (22)= 88.71 14 (22)= 88.615 15 (32)= 87.941 16 (42)= 83.506 17 (12)= 88.418 18 (22)= 88.415 19 (22)= 88.568 20 (32)= 88.62 21 (32)= 88.598 22 (42)r 88.942 23 (42)= 81.634 24 (52)= 90.126 25 (52)- 88.926 26 (52)s 89.587 27 (52)= 89.119 28 (21)= 71.223 29 (31)= 69.264 30 (11)r 69.493 31 (11)= 69.821 32 (21)= 71.64 33 (51)= 70.457 34 (21)= 70.82 35 (31)= 70.3870001 36 (11)= 71.397

• • • PRIMARY VALUES ***

SUBUOLUME AVG SUBV. VAPOR PRESSURE 1 .358869318 2 .378565808 3 .360938533 4 .380744649 5 .368786552 ERAGE VAPOR PRESSURES .368695674 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.34975 2 88.65275 3 88.5484286 4 82.9315 5 89.4395001 AVERAGE CONTAINMENT TEMP = 88.1207222 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.4421333 (DEG F.)

CORRECTED PRESSURES: Pi= 43.0098572 PSIA P2= 43.0062144 PSIA AVG. CORRECTED PRESS.= 43.0080358 PSIA

. CONT. DRY AIR PRESSURE = 42.6393401 PSIA CONT. DRY AIR MASS = 570478.829 LBS.

CHANNELS LOCKED OUT NONE WET ALARMa 10 DRY ALARM = 10 PRESS ALARM = 10 PRESSURE CALIBRATION CONSTANTS

{jdl-1.01012 81= .104 M2= .9994 B2= .056

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA SET 4 20

.c 3.50083333 HRS.

i

• • • RAW DATA ***

PRESSURE DETECTORS Pl= 42.473 P2= 42.975 P. MANUAL = 0 TEMPERATURE CHANNELS 1 TO 36 UNITS =MV. (ST)-->S-SUBVOLUME,T= TYPE (0-00S,1-WBr2-DB) 1 (12)= 88.284 2 (22)= 88.821 3 (42)= 77.682 4 (22)= 88.671 5 (32)= 88.5220001 6 (32)r 88.38200017 (12)= 88.597 8 (22)= 88.72 9 (22)= 88.754 JO (32)= 89.076 11 (32)= 88.765 12 (12)= 88.388 13 (22)- 88.76 14 (22)= 88.69 US (32)= 88.09 16 (42)= 83.541 17 (12)= 88.385 18 (22)= 88.34 19 (22)= 88.507000120 (32)= 88.584 21 (32)= 88.545 22 (42)= 88.888 23 (42)= 81.655 24 (52)= 90.185 25 (52)= 88.943 26 (52)- 89.625] 27 (52)= 89.102 28 (21)= 71.397 29 (31)= 69.2 30 (11)= 68.371 31 (11)= 71.424 32 (21)= 71.768 33 (51)= 70.623 34 (21)= 71.328 35 (31)= 70.301 36 (41)= 71.353

• • • PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .361825882 2 .382045131 s 3 .360016233 4 .380177442

[-_i?)

( ,, 5 .370874119 AVERAGE VAPOR PRESSURE = .370182936 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.4135 2 88.657875 3 88.5662858 4 82.9415 5 89.46375 l

1 AVERAGE CONTAINMENT TEMP = 88.1426339 (DEG F.)

AVERAGE CONTAIHMENT DEWPOINT = 70.5588033 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0068268 PSIA P2= 43.005215 PSIA AVG. CORRECTED PRESS.- 43.0060209 PSIA CONT. DRY AIR PRESSURE = 42.635838 PSIA CONT. DRY AIR M A S S == 570409.158 LBS.

CHANNELS LOCKED OUT NONE i

UET ALARM- 10 DRY ALARM = 10

, P SS ALARM: 10 l SURE CALIBRATION CONSTANTS l ,,M1- 1.01012 B1 .104 M2= .9994 B2= .056 i

e

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA SETt 21

3.6675 HRS.

• • • RAW DATA ***

I PRESSURE DETECTORS Pl= 42.472 P2= 42.975 P. MANUAL = 0 f TEMPERATURkCHANNELS1TO36 UNITS =MV. (ST)-->S=SUBVOLUME,T= TYPE (0-00 Sri-WBe2-DB) 1 (12)= 88.316 2 (22)= 88.829 3 (42)= 77.688 4 (22)= 88.681 5 (32)e- 88.549 6 (32)- 88.285 7 (12)= 88.716 8 (22)= 88.713 9 (22)= 88.716 10 (32)= 88.9840001 11 (32)= 88.723 12 (12)= 88.392000113 (22)= 88.734000114 (22)= 88.67 15 (32)= 88.023 16 (42)= 83.564 17 (12)= 88.423 18 (22)= 88.395 19 (22)= 88.533 20 (32)= 88.537 21 (32)= 88.478 22 (42)= 88.824 23 (42)= 81.68 24 (52)= 90.179 25 (52)= 88.926 26 (52)= 89.607 27 (52)= 89.117 28 (21)= 71.402 29 (31)= 49.14 30 (11)= 69.368 31 (11)= 71.707 32 (21)= 71.067 33 (51)= 70.62 34 (21)= 71.4 35 (31)= 70.7620001 36 (41)= 71.331

• • • PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .36979761 .

2 .379362305 3 .362486467

') 4 .379894116 b[/

\sj 5 .3708363 AVERAGE VAPOR PRESSURE = .371520914 .

SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.;

1 88.46175 ,

2 88.6626251 '

3 88.5112858 4 82.9390001 .

5 89.45725 AVERAGE CONTAINMENT TEMP = 88.1344289 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.6693534 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0058167 PSIA P2- 43.005215 PSIA AVG. CORRECTED PRESS.= 43.0055158 PSIA CONT. DRY AIR PRESSURE = 42.6339949 PSIA CONT. DRY AIR M A S S == 570393.043 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM = 10 DRY ALARM = 10 P9ESS ALARM = 10

(,_3;SURECALIBRATIONCONSTANTS

.,.,M1= 1.01012 B1 .104 M2= .9994 B2= .056

CECD ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA SET 6 22 1 3.83416667 HRS.

• • • RAW DATA ***

PRESSURE DEIECTORS Pl= 42.471 P2= 42.974 P. MANUAL = 0 i TEMPERATURE { CHANNELS 1TO36 UNITS =MV. (ST)-->S=SUBVOLUME T-TYPE (0-00 Sri-WB,2-DB) 1 (12)= 88.34 2 (22)= 88.826 3 (42)= 77.71 4 (22)= 88.673 5 (32)= 88.525 6 (32)= 88.287 7 (12)= 88.496 8 (22)= 88.725 9 (22)= 88.743 10 (32)= 89.073 11 (32)= 88.804 12 (12)= 88.406 13 (22)= 88.732 14 (22)= 88.673 15 (32)= 88.096 16 (42)= 83.549 17 (12)= 88.412 18 (22)= 88.34 19 (22)= 88.497 20 (32)= 88.56 21 (32)= 88.459 22 (42)= 88.885 23 (42)= 81.691 24 (52)= 90.171 25 (52)= 88.975 26 (52)= 89.59 27 (52)= 89.126 28 (21)= 71.868 29 (31)= 69.348 30 (11)= 70.06 31 (11)= 70.401 32 (21)= 71.658 33 (51)= 70.407 34 (21)= 71.315 35 (31)= 70.546 36 (ii)= 71.189

• • • PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .365954723.

2 .38354851 3 .362437041 4 .378069809 (N 5 .368159782 AVERAGE VAPOR PRESSURE .371747889 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.1135 2 88.651125 3 88.5434286 l 4 82.95875 l

5 89.4655 AVERAGE CONTAINHENT TEMP = 88.1348697 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.6845433 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0048065 PSIA P2= 43.0042156 PSIA AVG. CORRECTED PRESS.= 43.0045111 PSIA CONT. DRY AIR PRESSURE = 42.6327632 PSIA CONT. DRY AIR M A S S == 570376.105 LBS.

CHANNELS LOCKED OUT: NONE l

WET ALARM = 10 DRY ALARM = 10 PRESS ALARM = 10 f?

\ ryjSURE CALIBRATION CONSTANTS

,761- 1.01012 Bl= .104 M2= .9994 B2= .056

. - _____=___

~

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA gTASET8 23 HE: 4.33416667 HRS.

• • • RAW DATA *** b PRESSURE DEIECTORS Pl= 42.472 P2= 42.974 P.HANUALr 0 j TEMPERATURE 5EHANNELS1TO36 UNITS =MV.. (ST)-->S-SUBVOLUME,T= TYPE (0-00S,1-WB,2-DB) 1 (12)= 88.314 2 (22)= 88.845 3 (42)- 77.735 4 (22)= 88.688 5 (32)= 88.493 6 (32)= 88.243 7 (12)= 88.516 8 (22)= 88.732 9 (22)= 88.775 10 (32)= 89.065 11 (32)= 88.804 12 (12)= 88.407 13 (22)= 88.748 14 (22)= 88.671 QL5(32)=88.015 16 (42)= 83.549 17 (12)= 88.401 18 (22)= 88.378 19 (22)= 88.528 20 (32)= 88.60400'01 21 (32)= 88.568 22 (42)= 88.977 23 (42)= 81.707 24 (52)= 90.156 25 (52)= 88.923 26(52)=89.608} 27 (52)= 89.114000128 (21)= 71.437 29 (31)= 69.125 30 (11)= 69.053 31 (11)= 71.118 32 (21)= 71.939 33 (51)= 70.294 34 (21)= 71.275 35 (31)= 71.025 36 (41)= 71.2570001 C** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .364151846 2 .38272706 3 .364021595

.378942463

()

4 5 .366746712 AVERAGE VAPOR PRESSURE .3716,18928 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.4095 2 88.670625 3 88.5445714 4 82.992 5 89.45025 AVERAGE CONTAINMENT TEMP = 88.1423753 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.6750867 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0058167 PSIA P2- 43.0042156 PSIA AVG. CORRECTED PRESS.= 43.0050162 PSIA CONT. DRY AIR PRESSURE = 42.6333972 PSIA CONT. DRY AIR M A S S == 570376.773 LBS.

CHANNELS LOCKED OUT: NONE l

WET ALARM = 1 DRY ALARM = .5 PRESS ALARM = .2

{}SSSURECALIBRATIONCONSTANTS

,'is M 1.01012 81= .104 M2= .9994 B2= .056

-~.

.a_. _

_m .

I CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 l l

RAW AND PRIMARY DATA  !

TASETt 24 E: 4.50083333 HRS.  !

. -l

• • • RAW DATA *** i

)

PRESSURE DETECTORS Pi= 42.47 P2- 42.973 P. MANUAL = 0 j 1

TEMPERATURE CHANNELS 1 TO 36 UNITS =MV. (ST)-->S-SUBVOLUME,T= TYPE (0-00S 1-WBr2-DB) 1 (12)= 88.31 2-(22)= 88.838 3 (42)= 77.737 4 (22)r 88.645 5 (32)= 88.51 6 (32)= 88.317 7 (12)= 88.407 8 (22)= 88.72900019 (22)= 88.719 10 (32)= 89.041 11 (32)= 88.732 12 (12)= 88.375 13 (22)= 88.736 14 (22)= 88.673 15 (32)= 88.055 14 (42)= 83.552 17 (12)= 88.404 18 (22)= 88.366 19 (22)= 88.54 20 (32): 88.54 21 (32)= 88.476 22 (42)r 89.012000123 (42)= 81.73 24 (52)= 90.176 25 (52)= 88.96 26 (52)' 89.53 27 (52)= 89.108 28 (21)= 71.98 29 (31)= 68.634 30 (11)= 69.242 31 (11)= 70.565 32 (21)= 72.2 33 (51)= 70.33 34 (21)= 69.899 35 (31)= 70.886 36 (41)= 71.611 C** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .361899914 2 .380263335 3 .360132944 4 .383513891

() 5 .367196377 6VERAGE VAPOR PRESSURES .369632718

~

SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.374 2 88.65575 3 88.5244286 4 83.00775 5 89.4435 AVERAGE CONTAINMENT TEMP = 88.1255896 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.5156134 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0037964 PSIA P2= 43.0032162 PSIA AVG. CORRECTED PRESS.= 43.0035043 PSIA CONT. DRY AIR PRESSURE = 42.6338736 PSIA CONT. DRY AIR M A S S == 570400.623 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM = 1 DRY ALARM = .5 PRESS ALARM = .2 SSURE CALIBRATION CONSTANTS

, al= 1.01012 B1 .104 M2= .9991 B2= .056 W*-

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

~

'TASETt 25 ME: 4.6675 HRS.

C** RAW DATA *** i PRESSURE DETECTORS Pl= 42.47 P2= 42.973 P. M ANU Alr- 0 TEMPERATURf_ CHANNELS.1 TO 36 UNITS-MV. (ST)-->S=SUBVOLUMErT' TYPE (0-00S,1-WBe2-DB) 1 (12)= 88.295, 2 (22)= 88.833 3 (42)= 77.737 4 (22)= 88.652 5 (32)= 88.577 6 (32)= 88.324 7 (12)= 88.411 8 (22)= 80.736 9 (22)= 88.732 10 (32)' 88.978 11 (32)= 88.705 12 (12)= 88.377 13 (22)= 88.723 14 (22)= 88.661 15 (32)= 88.061 16 (42)= 83.606 17 (12)= 88.386 18 (22)= 88.36 19 (22)= 88.519 20 (32)= 88.601 21 (32)= 88.504 22 (42)= 88.865 23 (42)= 81.747 24 (52)= 90.182 25 (52)= 88.981 26 (52)= 89.624 27 (52)= 89.117 28 (21)= 71.016 29 (31)= 69.335 30 (11)= 68.533 31 (11)= 70.121 32 (21)= 71.678 33 (51)= 70.405 34 (21)= 70.117 35 (31)= 69.7 34 (41)= 71.112 C** PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .354846868 2 .374978415 3 .357164082 4 .377083777 (qffj 5 .368134731 AVERAGE VAPOR PRESSURE = .365227701 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.36725 2 88.652 3 88.5357143 4 82.98875 5 89.476 AVERAGE CONTAINMENT TEMP = 88.1280011 (DFG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.16403 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0037964 PSIA P2= 43.0032162 PSIA AVG. CORRECTED PRESS.= 43.0035063 PSIA CONT. DRY AIR PRESSURE = 42.6382786 PSIA CONT. DRY AIR M A S S == 570457.047 LBS.

CHANNELS LOCKED OUT NONE WET ALARM = 1 DRY ALARH= .5 PRESS ALARM = .2

~SSURE CALIBRATION CONSTANTS y, 1- 1.01012 Bi= .104 M2= .9994 B2= .056

. t _- _ _

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA OTASETt26 ME: 4.83416667 HRS.

• C* RAW DATA *** I PRESSURE DETECTORS Pl= 42.471 P2= 42.973 P.HANUAL= 0 j

! (ST)-->S-SUBVOLUME T= TYPE (0-00 Sri-WB,2-DB)

TEMPERATURE _ CHANNELS 1 TO 36 UNITS =MV.

1 (12)= 88.35900012 (22)= 88.855 3 (42)= 77.752 4 (22)r 88.636 5 (32)e 88.5070001 6 (32)= 88.243 7 (12)= 88.536 8 (22)= 88.749 9 (22)= 88.752 10 (32)= 89.059 11 (32)= 88.778 12'(12)= 88.383 13 (22)= 88.755 14 (22)= 88.69 15 (32)= 88.122 16 (42)= 83.634 17 (12)= 88.409 18 (22)= 88.359000119 (22)= 88.519 20 (32)= 88.577 21 (32)= 88.539 22 (42)= 88.94 23 (42)= 81.787 24 (52)= 90.19 25 (52)r 88.9840001 26 (52)= 89.54 27 (52)= 89.106 28 (21)= 71.679 29 (31)= 69.374 30 (11)= 69.175 31 (11)= 70.605 32 (21)= 70.024 33 (51)= 70.207 34 (21)= 70.428 33 (31)= 71.113 36 (41)= 71.371 CC* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .361733361 2 .371976537 3 .36611674 4 .380409392 5 .365662004 AVERAGE VAPOR PRESSURE = .368448279 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.42175 2 88.664375 i 3 88.5464286 4 83.02825 5 89.455 AVERAGE CONTAINMENT TEMP = 88.1468646 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.4274467 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0048065 PSIA P2= 43.0032162 PSIA AVG. CORRECTED PRESS.= 43.0040114 PSIA CONT. DRY AIR PRESSURE = 42.6355631 PSIA CONT. DRY AIR M A S S == 570401.075 LBS.

i CHANNELS LOCKED OUT NONE WET ALARMu 1 DRY ALARM = .5 PRESS ALARM = .2

'SSURE CALIBRATIDH CONSTANTS

, , 1= 1.01012 Bl= .104 M2= .9994 B2= .056

- . 2. _ ._. .__ .. . - _ _

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA TASET4 27 OME: 5.00083333 HRS.

C** RAW DATA *** i PRESSURE. DETECTORS Pl= 42.477 P2= 42.974 P. MANUAL = 0 j TEMPERATURK_ CHANNELS 1 TO 36 UNITS-MV. (ST)-->S-SUBVOLUMErT= TYPE (0-00 Sri-WBr2-DB) 1 (12)= 88.342 2 (22)= 88.851 3 (42)= 77.789 4 (22)= 88.693 5 (32)= 88.516 6 (32)= 88.362 7 (12)= 88.537 8 (22)= 88.731 9 (22)= 88.749 10 (32)= 89.028 11 (32)= 88.737 12 (12)= 88~4 . 13 (22)= 88.748 14 (22)= 88.661 DS (32)= 88.076 16 (42)= 83.65 17 (12)= 88.426 18 (22)= 88.351 19 (22)= 88.523 20 (32)= 88.569 21 (32)= 88.569 22 (42)= 88.908 23 (42)= 81.794 24 (52)= 90.182 25 (52)= 88.969 26 (52)= 89.593} 27 (52)= 89.119 28 (21)= 71.76 29 (31)= 68.922 30 (11)= 69.671' 31 (11)= 69.644 32 (21)= 71.415 33 (51)= 70.477 34 (21)= 71.769 35 (31)= 71.07

36 (41)= 71.2570001

• C* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .358875443 2 .383994466 3 .363042914 4 .378942463 5 .36903752 l AVERAGE VAPOR PRESSURE = .37096774 i

SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.) i l

! 1 88.42625 l

2 88.663375 3 88.551 4 83.03525 5 89.4657501 AVERAGE CONTAINMENT TEMP = 88.150415 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.62049 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0108673 PSIA P2= 43.0042156 PSIA AVG. CORRECTED PRESS.= 43.0075414 PSIA CONT. DRY AIR PRESSURE = 42.6365737 PSIA CONT. DRY AIR M A S S == 570410.899 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM = 1 DRY ALARM = .5 PRESS ALARM = .2 (i11=1.01012JSSURECALIBRATIONCONSTANTS Bi= .104 M2= .9994 B2= .056

, , , - y r - y

---

s, - - - -- r----

.. ~ . _ _ . _ . , .

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA TASETt 28 I ' *

1. h ME: 5.1675 HRS. p -l l ((1 M

• • • RAW DATA *** i PRESSURE DETECTORS Pl= 42.47 P2= 42.973 P. MANUAL = 0  ;

TEMPERATURE CHANHELS 1 TO 36 UNITS =HV.

(ST)-->S=SUBVOLUME,T= TYPE (0-00S,1-WB,2-DB) 1 (12)= 88.307 2 (22)= 88.833 3 (42)= 77.795 4 (22)= 88.674 5 (32)- 88.557 6 (32)= 88.31 7 (12)= 88 417 8 (22)= 88.73400019 (22)= 88.76 10 (32)= 89.044 11 (32)= 88.777 12 (12)= 88.406 13 (22)= 88.723 14 (22)= 88.676 15 (32)= 88.063 16 (42)= 83.714 17 (12)= 88.432 18 (22)= 88.385 19 (22)= 88.504 20 (32)= 88.6 21 (32)= 88.566 22 (42)= 88.891 23 (42)= B1.814 24 (52)= 90.193 25 (52)= 88.969 26 (52)= 89.637000127 (52)= 89.151 28 (21)= 72.07 29 (31)= 68.837 30 (11)= 69.039 31 (11)= 70.352 32 (21)= 71.762000133 (51)= 70.283 34 (21)= 70.179 35 (31)= 71.804 36 (41)= 71.276 C** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .35934119 2 .379971369 3 .367077669 4 .379186608 5 .366609409 AVERAGE VAPOR PRESSURE' .370858748 .

SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.3905 2 88.661125 3 88.5595715 4 83.0535 5 89.4875 AVERAGE CONTAINMENT TEMP = 88.1496028 (DEG F.)

AVERAGE CONTAIHMENT DEWPOINT- 70.6159 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0037964 PSIA P2= 43.0032162 PSIA AVG. CORRECTED PRESS.s 43.0035063 PSIA CONT. DRY AIR PRESSURE = 42.6326476 PSIA CONT. DRY AIR MASS = 570359.219 LBS.

CHANNELS LOCKED OUT: NONE WET ALARMw 1 DRY ALARM = .5 PRESS ALARM = .2

/~?ISSURE CALIBRATION CONSTANTS kIih1-1.01012 81, .104 M25 .9994 B2= .056 9

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA QASET629 E 5.50083333 HRS.

• C* RAW DATA *** I PRESSURED (TECTORS Pin 42.471 P2= 42.973 P. MANUAL = 0 j TEMPERATUR5, CHANNELS 1 TO 36 UNITS-HV. (ST)-->S=SUBVOLUME,T= TYPE (0-00S,1-WB,2-DB) 1 (12)= 88.342 2 (22)= 88.85900013 (42)e 77.854 4 (22)= 88.659 5 (32)re 88.539 6 (32)= 88.313 7 (12)= 88.482 8 (22)= 88.731 9 (22)= 88.784 10 (32)= 89.106 11 (32)= 88.859000112 (12)= 88.427 13 (22)= 88.76 14 (22)= 88.682 15 (32)= 88.089 14 (42)= 83.692 17 (12)= 88.443 18 (22)= 88.397000119 (22)= 88.58 20 (32)= 88.594 21 (32)= 88.589 22 (42)= 89.01 23 (42)= 81.852 24 (52)= 90.188 25 (52)= 88 952 26 (52)= 89.656 27 (52)- 89.126 28 (21)= 70.599 29 (31)= 68.829 30 (11)= 68.461 31 (11)= 70.919 32 (21)= 72.244 33 (51)= 70.309 34 (21)= 71.389 35 (31)= 70.651 36 (41)= 71.086 C** PRIMARY VALUES ***

SUBUOLUME AVG SUBV. VAPOR PRESSURE 1 .360501721 2 .380920977 3 .359887276 4 .376751339

()5 .366934014 AVERAGE VAPOR PRESSURE = .368880632 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.4235 2 88.6815 3 88.5841429 4 83.102 5 89.4805 AVERAGE CONTAINNENT TEMP = 88.1736608 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.4559633 (DEG F.)

l CORRECTED PRESSURES: P1- 43.0048065 PSIA P2= 43.0032162 PSIA AVG. CORRECTED PRESS.= 43.0040114 PSIA CONT. DRY AIR PRESSURE = 42.6351308 PSIA l CONT. DRY AIR M A S S == 570367.393 LBS.

CHANNELS LOCKED OUT: NONE WET ALARM = 1 DRY ALARM = .5 PRESS ALARM = .2 ESSURE CALIBRATION CONSTANTS MM1=1.01012 B1= .104 M2= .9991 B2= .056 Y.

. s . - . . - . . , . . .

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA TASET4 30 GME!5.6675 HRS.

CC* RAW DATA *** I PRESSURE DET_ECTORS Pl= 42.472 P2= 42.973 P. MANUAL = 0 .j

~

TEMPERATURE $HANNELS 1 TO 36 UNITS =MV. (ST)-->S-SUBVOLUMEsT= TYPE (0-00Srl-WB,2-DB) 1 (12)= 88.33 2 (22)= 88.85900013 (42)= 77.841 4 (22)= 88.693 5 (32)= 88.592 6 (32)= 88.343 7 (12)= 88.668 8 (22)= 88.766 9 (22)= 88.775 10 (32)= 89.0220001 11 (32)= 88.766 12 (12)= 88.43 13 (22)= 88.748 14 (22)= 88.674 15 (32)= 88.044 16 (42)= 83.674 17 (12)= 88.436 18 (22)= 88.372 19 (22)= 88.557 20 (32)= 88.626 21 (32)= 88.595 22 (42)= 89.013 23 (42)= 81.843 24 (52)= 90.222 25 (52)= 88.998 26 (52)= 89.619 27 (52)= 89.138 28 (21)= 71.003 29 (31)= 67.889 30 (11)= 69.139 31 (11)= 71.015 32 (21)= 71.463 33 (51)= 70.553 34 (21)n 70.986 35 (31)= 71.339 36 (41)= 71.362 CC* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .364046401 2 .377578646 3 .358342933

.380293402

()

4 5 .369992564 AVERAGE VAPOR PRESSURE = .368548995 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.466 2 88.68,05 3 88.5697143 4 83.09275 5 89.49425 AVERAGE CONTAINMENT TEMP = 88.1767786 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.4309033 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0058167 PSIA P2= 43.0032162 PSIA AVG. CORRECTED PRESS.= 43.0015164 PSIA CONT. DRY AIR PRESSURE = 42.6359474 PSIA CONT. DRY AIR M A S S == 570375.34 LBS.

CHANNELS LOCKED OUT: NONE WET ALARMn 2 DRY ALARM = 1 PRESS ALARM = .2 ESSURE CALIBRATION CONSTANTS

,;n1= 1.01012 Bis .104 M2= .9994 B2= .056

~

. o _ _ _ _ .

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA TASETt 31 HE: 6.1675 HRS.

• • • RAW DATA *** i PRESSURED (TECTORS Pi= 42.475 P2= 42.973 P. MANUAL = 0 j TEMPERATUR5 CHANNELS 1 TO 36 UNITS =MV. (ST)-->S=SUBVOLUME,T= TYPE (0-00S,1-WBr2-DB) 1 (12)= 88.394 2 (22)= 88.874 3 (42)= 77.905 4 (22)= 88.691 5 (32)r 88.54 6 (32)= 88.247 7 (12)= 88.443 8 (22)= 88.777 9 (22)= 88.793 10 (32)= 89.155 11 (32)= 88.89 12 (12)= 88.415 13 (22)= 88.751 14 (22)= 88.696 15 (32)= 88.188 14 (42)= 83.74 17 (12)= 88.452 18 (22)= 88.375 19 (22)= 88.571 20 (32)= 88.612 21 (32)= 88.589 22 (42)= 88.868 23 (42)= 81.906 24 (52)= 90.239000125 (52)= 89.01 24-(52)= 89.691 27 (32)= 89.167 28 (21)= 70.933 29 (31)= 68.025 30 (11)= 69.372 31 (11)= 70.651 32 (21)= 70.185 33 (51)e 70.407 34 (21)= 71.06 35 (31)e 70.259 36 (41)= 70.953 CO* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .363234752 2 .372174602 3 .352609144 4 .375054792 5 .368159782 AVERAGE VAPOR PRESSURE = .364202366 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.426 2 88.691 3 88.603 4 83.10475

( 5 89.52675 AVERAGE CONTAINMENT TEMP = 88.187595 (DEG F.)

r AVERAGE CONTAINMENT DEWPOINT = 70.08223 (DEG F.)

l CORRECTED PRESSURES: Pl= 43.008847 PSIA P2= 43.0032162 PSIA AVG. CORRECTED PRESS.= 43.0040316 PSIA l CONT. DRY AIR PRESSURE = 42.6418292 PSIA CONT. DRY AIR M A S S == 570442.496 LBS.

CHANNELS LOCKED OUT: NDHE l

l WET ALARM- 2 l DRY ALARM = 1 PRESS ALARM = .2 t

TSSURE CALIBRATION CONSTANTS l ,,d1' 1.01012 Bis .104 M2= .9994 B2= .056 l

i l

. s .,

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA TASETt 32 ME1 6.33416667 HRS.

• O* RAW DATA ***

PRESSURE DEIECTORS Pl= 42.472 P2= 42.974 P. MANUAL- 0 j TEMPERATURE 5 CHANNELS 1 TO 36 UNITS =MV. (ST)-->S-SUBVOLUMErT' TYPE (0-00 Sri-WBr2-DB) 1 (12)= 88.348 2 (22)= 88.874 3 (42)e 77.908 4 (22)= 88.722 5 (32):- 88.531 6 (32)= 88.342 7 (12)= 88.502 8 (22)= 88.78 9 (22)= 88.766 10 (32)= 89.053 11 (32)= 88.732 12 (12)= 88.43 13 (22)= 88.787 14 (22)- 88.734000115 (32)= 88.118 16 (42)= 83.663 17 (12)= 88.439 18 (22)= 88.403 19 (22)= 88.565 20 (32)= 88.6420001 21 (32)= 88.551 22 (42)= 88.987 23 (42)= 81.924 24 (52)= 90.239300125 (52)= 89.054 26 (52)= 89.656 27 (52)= 89.183 28 (21)= 71.421 29 (31)= 69.346 30 (11)= 69.175 31 (11)= 70.813 32 (21)= 71.595 33 (51)= 70.398 34 (21)= 71.112 35 (31)= 70.866 36 (41)= 71.298 CC* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .363018167' 2 .380473845 3 .364406263

.379469473 O5 4

.368047062 AVERAGE VAPOR PRESSURE = .370981393 SUBVOLUME AVG. SUBVOLUME' TEMP (DEO F.)

1 88.42975 2 88.7038751 3 88.567 4 83.1205 5 89.533 AVERAGE CONTAINMENT TEMP = 88.18285 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.6258 (DEO F.)

CORRECTED PRESSURES: Pi r- 43.0050167 PSIA P2= 43.0042156 PSIA AVG. CORRECTED PRESS.= 43.0050162 PSIA CONT. DRY AIR PRESSURE = 42.6340348 PSIA CONT. DRY AIR M A S S == 570343.164 LBS.

CHANNELS LOCKED OUT: NONE WET ALARH= 2 DRY ALARM = 1 PRESS ALARM = .2

/l?ISSURE CALIBRATION CONSTANTS

\Yht=1.01012 Bla .104 M2= .9994 B2= .056

. s ,

~~

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA  !

, TASETt 33 El 6.50083333 HRS.

CO* RAW DATA *** i PRESSURE DETECTORS Pl= 42.471 P2- 42.974 P. MANUAL = 0  ;

TEMPERATURE: CHANNELS 1 TO 36 UNITS =MV.

(ST)-->S-SUBVOLUME,T-TYPE (0-00S,1-WB,2-DB) 1 (12)= 88.374 2 (22)= 88.894 3 (42)= 77.961 4 (22)= 88.719 5 (32)= 88.543 6 (32)= 88.372 7 (12)= 88.48100018 (22)= 88.78 9 (22)= 88.789 10 (32)= 89.157 11 (32)= 88.888 12 (12)= 88.435 13 (22)= 88.786 14 (22)e 88.72 15 (32)= 88.139 16 (42)= 83.773 17 (12)= 88.502 18 (22)= 88.42 19 (22)= 88.591 20 (32)= 88.662-21 (32)= 88.633 22 (42)= 89.073 23 (42)= B1.933 24 (52)= 90.254 25 (52)r- 89.044 26 (52)= 89.741 27 (52)= 89.202 28 (21)= 71.563 29 (31)= 48.881 30 (11)= 68.873 31 (11)= 70.227 32 (21)= 71.983 33 (51)= 70.3 34 (21)= 70.126 35 (31)= 70.732 36 (41)= 71.231 CC* PRIMARY VALUES ***

SUBVOLUME AVO SUBV. VAPOR PRESSURE 1 .357560726 2 .37851875 3 .360704688 4 .378608594 5 .366821622 AVERAGE VAPOR PRESSURE = .36800115 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.44875 2 88.712375 3 88.6277143 4 83.185 5 89.56025 AVERAGE CONTAINMENT TEMP = 88.2166761 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.38655 (DEO F.)

CORRECTED PRESSURES: Pl= 43.0048065 PSIA P2= 43.0042156 PSIA AVG. CORRECTED PRESS.= 43.0045111 PSIA CONT. DRY AIR PRESSURE = 42.6365099 PSIA CONT. DRY AIR M A S S == 570341.063 LBS.

CHANNELS LOCKED 00T: NONE WET ALARMa 2 DRY ALARM = 1 PRESS ALARM = .2

.SSURE CALIBRATION CONSTANTS 15 1.01012 Bis .104 M2= .9994 B2= .056

't

. . ~ '

s CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA ASET6 34 E: 6.66777778 HRS.

CC* RAW DATA *** i PRESSURE DETECTORS P1= 42.466 P2e 42.974 P. MANUAL = 0 -

TEMPERATURE: CHANNELS 1 TO 36 UNITS'MV.

(ST)-->S-SUBVOLUME,T= TYPE (0-00Sel-WBe2-DB) 1 (12)= 88.39200012 (22)= 88.911 3 (42)= 77.94 4.(22)= 88.728 5 (32)n 88.559 6 (32)= 88.398 7 (12)= 88.674 8 (22)= 88.8 9 (22)= 88.822 10 (32)= 89.112 11 (32)= 88.78 12 (12)= 88.456 13 (22)= 88.806 14 (22)= 88.745 [15(32)=88.186 16 (42)= 83.792 17 (12)= 88.479000118 (22)= 88.395 19 (22)= 88.607 20 (32)= 88.664 21 (32)= 88.607, 22 (42)= 89.015 23 (42)= 81.962 24 (52)= 90.277 25 (52)= 89.038 26 (52)= 89.743J 27 (52)= 89.186 28 (21)= 71.244 29 (31)= 69.117 30 (11)= 68.693 31 (11)= 70.327 32 (21)= 71.165 33 (51)= 70.341 34 (21)= 69.744 35 (31)= 70.616 36 (41)= 71.159 C** PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .357072604 2 .372049237 3 .361443595 4 .377685372

()5 .367333872 AVERAGE VAPOR PRESSURES .366048907 ,

SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.5002501 2 88.72675 3 88.6151428 4 83.17725 *

5 89.561 AVERAGE CONTAINMENT TEMP = 88.2258933 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.2337334 (DEG F.)

CORRECTED PRESSURES: Pie 42 9997559 PSIA P2= 43.0042156 PSIA AVG. CORRECTED PRESS.= 43.0019858 PSIA CONT. DRY AIR PRESSURE = 42.6359369 PSIA CONT. DRY AIR MASS = 570323.804 LBS.

CHANNELS LOCKED OUT NONE WET ALARM' 2 DRY ALARM = 1 PRESS ALARM = .2

.'.SSURE CALIBRATION CONSTANTS Mia 1 01012 Bla .101 M2a .9994 B2= .056 l

I

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA DATASET4 33 HRS.

][HE!6.83444445

• • C RAW DATA *** I l l

PRESSURE DETECTORS Pl= 42.473 P2= 42.975 P.MANUALr 0  : I

_ l TEMPERATURE qHANNELS 1 TO 36 UNITS'MV. (ST)-->S-SUBVOLUMErT= TYPE (0-00S,1-WBr2-DB) I l

1 (12)= 88.39700012 (22)r 88.906 3 (42)= 77.944 4 (22)= 88.751 5 (32)= 88.621 l' 6 (32)= 88.357 7 (12)= 88.569 8 (22)= 88.807 9 (22)= 88.826 10 (32)= 89.152 11 (32)= 88.844 12 (12)= 88.478 13 (22)= 88.824 14 (22)= 88.758 15 (32)= 88.159 16 (42)= 83.824 17 (12)= 88.472 18 (22)= 88.388 19 (22)= 88.636 20 (32)= 88.678 21 (32)= 88.658 22 (42)= 88.867 23 (42)= 81.991 24 (52)n 90.274 25 (52)= 89.051 f 26 (52)= 89.732 27 (52)= 89.189 28 (21)= 71.675 29 (31)= 48.429 30 (11)= 69.277  ;

31 (11)= 70.426 32 (21)= 70.782 33 (51)= 69.989 34 (21)r 70.156 35 (31)= 71.33 '

36 (41)= 71.084 CCC PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE i

1 .361258745 2 .374012132 3 .361603867 4 I

4 .376725777 5 .362956307

, 3-  !

AVERAGE VAPOR PRESSURE = .366995081 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 08.479 2 88.737 3 88.6384286 4 83.1565001 5 89.5615 AVERAGE CONTAINMENT TEMP = 88.2309772 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.31 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0068268 PSIA P2a 43.005215 PSIA AVG. CORRECTED PRESS.= 43.0060209 PSIA CONT. DRY AIR PRESSURE = 42.6390258 PSIA CONT. DRY AIR M A S S == 570359.831 LBS.

CHANNELS LOCKED OUT! NONE WET ALARMS 2 DRY ALARM = 1 PRESS ALARM = .2 ECSURE CALIBRATION CONSTANTS

!= 1.01012 81= .104 M25 .9994 B2= .056

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA TASETt 36 ONE: 7.00111111 HRS.

• C* RAW DATA *** I PRESSURE DEIECTORS Pl= 42.482 P2= 42.975 P. MANUAL = 0 i TEMPERATURE [ CHANNELS 1TO36 UNITS =MV. (ST)-->S-SUBVOLUMErT" TYPE (0-00 Sri-WBr2-DB) 1 (12)= 88.388 2 (22)= 88.923 3 (42)= 77.996 4 (22)= 88.742 5 (32)= 88.63 6 (32)= 88.404 7 (12)= 88.587 8 (22)= 88.833 9 (22)= 88.838 10 (32)= 89.117 11 (32)= 88.858 12 (12)= 88.485 13 (22)= 88.827 14 (22)= 88.768 15 (32)= 88.131 16 (42)= 83.88 17 (12)= 88.465 18 (22)= 88.439 19 (22)= 88.626 20 (32)= 88.69 21 (32)= 88.673 22 (42)= 89.122 23 (42)= 82.012000124 (52)= 90.284 25'(52)= 89.051 26 (52)= 89.726 27 (52)u 89.218 28 (21)= 70.681 29 (31)= 69.189 30 (11)= 68.916 31 (11)= 70.071 32 (21)= 71.043 33 (51)= 70.831 34 (21)= 70.312 35 (31)= 70.428 36 (41)= 71.279

• C* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .356871424 2 .371576475 3 .360729297 4 .379225169

()5 .373504437 AVERAGE VAPOR PRESSURE = .364320368 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.48125 2 88.7495 3 88.6432858 4 83.2525 5 89.56975 AVERAGE CONTAINMENT TEMP = 88.246319 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.2546233 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0159178 PSIA P2= 43.005215 PSIA AVG. CORRECTED PRESS.s 43.0105664 PSIA l CONT. DRY AIR PRESSURE = 42.6442461 PSIA CONT. DRY AIR M A S S == 570413.688 LBS.

CHANNELS LOCKED OUT! NONE WET ALARMn 2 DRY ALARH= 1 PRESS ALARM = .2

(~7SSURECALIBRATIDHCONSTANTS gym 1- 1.01012 Bla .104 M25 .9994 B2= .056

. r,

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA TASETt 37 GME: 7.16777778 HRS.

CC* RAW DATA *** i PRESSURE DET,ECTORS Pl= 42.478 P2= 42.977 P.MANUALn 0 i TEMPERATURE 5 CHANNELS 1TO36 UNITS-MV. (ST)-->S'SUBVOLUMErT=TY-PE(0-00Sei-WB,2-DB) 1 (12)= 88.47 2 (22)= 88.94 3 (42)r 78.006 4 (22)= 88.682 5 (32)- 88.612 6 (32)= 88.372 7 (12)= 88.668 8 (22)= 88.847 9 (22)= 88.848 10 (32)= 89.161 11 (32)= 88.841 12 (12)= 88.497 13 (22)= 88.842 14 (22)= 88.778 15 (32)= 88.185 16 (42)s 83.886 17 (12)= 88.507000118 (22)= 88.447 19 (22)= 88.629 .0 (32)= 88 688 21 (32)= 88.653 22 (42)= 88.963 23 (42)e 82.019 24 (52)= 90.292 25 (52)= 89.006 26(52)=89.753 27 (52)= 89.239000128 (21)= 70.982 29 (31)= 68.55 30 (11)= 68.676 31 (11)= 70.117 32 (21)= 71.426 33 (51)= 70.44 34 (21)= 70.649 35 (31)= 70.817 36 (41)= 71.2570001

• C* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .355690729 2 .375895852 3 .359194055 4 .378942463 5 .368573345 AVERAGE VAPOR PRESSURES .366529524 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.5355 2 88.751625 3 88.6445715 4 83 2185 5 89.57175 AVERAGE CONTAINMENT TEMP = 88.2542954 (DEG F.)

AVERAGE CONTAlHMENT DEWPOINT = 70.2689 (DEG F.)

CORRECTED PRESSURES: Pl= 43.0118774 PSIA P2= 43.0072138 PSIA AVG. CORRECTED PRESS.= 43.0095156 PSIA CONT. DRY AIR PRESSURE = 42.6430161 PSIA CONT. DRY AIR MASS = 570388.932 LBS.

CHANNELS LOCKED OUT NONE WET ALARMn 2 DRY ALARM = 1 PRESS ALARM = .2

.SSURE CALIBRATION CONSTANTS 0, His 1.01012 81= .104 M2= .9991 B2= .056

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

- TASETt 38 ME: 7.33444445 HRS.

• C* RAW DATA *** i PRESSURE DETECTORS ,

Pi= 42.475 P2n 42.977 P. MANUAL = 0 j TEMPERATURE ~CHANHELS 1 TO 36 UNITSsMV. (ST)-->S=SUBVOLUME,T= TYPE (0-00Se!-WBr2-DB) 1 (12)= 88.446 2 (22)= 88.945 3 (42)= 78.047 4 (22)= 88.813 5 (32)= 88.61 6 (32)= 88.432 7 (12)= 88.676 8 (22)= 88.838 9 (22)= 88.815 10 (32)= 89.096 11 (32)= 88.865 12 (12)= 88.51 13 (22)= 88.83 14 (22)n 88 754 15 (32)= 88.192 16 (42)= 83.906 17 (12)= 88.543 18 (22)= 88.508 19 (22)= 88.63 20 (32)= 88.699 21 (32)= 88.674 22 (42)= 89.144 23 (42)= 82.049 24 (52)= 90.306 25 (52)= 89.108 26 (52)= 89.753 27 (52)= 89.256 28 (21)= 70.326 29 (31)= 68.681 30 (11)= 68.457 31 (11)= 70 549 32 (21)= 71.775 33 (51)= 70.05 34 (21)= 71 203 35 (.1)= 69.586 36 (41)= 71.293 CO* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .356987243 2 .376917361 3 .352506627 4 .379405168

.363711636 (J) x-5 AVERAGE VAPOR PRESSURE = .364563492 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.54375 2 88.770375 3 88.6525714 4 83.2865 5 89.60575 AVERAGE CONTAINMENT TEMPn 88.2735203 (DEG F.)

AVERAGE CONTAINMENT DEWPOINTa 70.1065567 (DEG F.)

CORRECTED PRESSURES: Pl= 43.008847 PSIA P2a 43.0072138 PSIA AVG. CORRECTED PRESS.= 43.0080304 PSIA CONT. DRY AIR PRESSUREn 42.6434669 PSIA CONT. DRY AIR M A S S == 570374.95 LBS.

CHANNELS LOCKED OUT: NONE WET ALARMS 2 DRY ALARM = 1 PRESS ALARM = .2

.SSURE CALIBRATION CONSTANTS

,1* 1.01012 Bis .101 M2s .9994 B2= .056 y

-~ . -s ... ._

CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA

'TASET4 39 ME: 7.50111111 HRS.

CC* RAW DATA *** I PRESSURE DETECTORS P1= 42.475 P2= 42.978 P.MANUAle 0  ;

TEMPERATURE CHANNELS 1 TO 36 UNITS =MV.

(ST)-->S-SUBVOLUMErT' TYPE (0-00 Sri-WBr2-DB) 1 (12)= 88.458 2 (22)= 88.97800013 (42)= 78.067 4 (22)= 88.717 5 (32)= 88.633 6 (32)= 88.416 7 (12)= 88.60400018 (22)= 88.873 9 (22)= 88.874 10 (32)= 89.173 11 (32)= 88.891 12 (12)= 88.494 13 (22)= 88.864000114 (22)n 88.81 15 (32)= 88 139 16 (42)= 83.902 17 (12)= 88.516 18 (22)= 88.156 19 (22)= 88.642000120 (32)= 88.728 21 (32)= 88.71 22 (42)= 89.131 23 (42)= 82.046 24 (52)= 90.315 25 (52)= 89.079 26 (52)= 89.793 27 (52)= 89.212 28 (21)= 71.627 29 (31)= 68.338 30 (11)= 69.421 31 (11)= 70.776 32 (21)= 71.65 33 (51)= 70.332 34 (21)= 70.907 35 (31)= 70.497 36 (41)= 70.909 CC* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .364313166 2 .380714551 3 .355946054

.374495

()

4 5 .367221374 AVERAGE VAPOR PRESSURE = .368062237 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.518 2 88.77625 3 88.6742858 4 83.2865 5 89.60725 AVERAGE CONTAINMENT TEMP = 88.2778489 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.3893133 (DEG F.)

CORRECTED PRESSURES: Pie 43.008847 PSIA P2= 43.0082132 PSIA AVG. CORRECTED PRESS.= 43.0085301 PSIA CONT. DRY AIR PRESSURE = 42.6404679 PSIA CONT. DRY AIR M A S S == 570330.332 LBS.

CHANNELS LOCKED OUT! NONE WET ALARMS 2 DRY ALARM = 1 PRESS ALARM = .2

.SSURE CALIBRATION CONSTANTS le 1.01012 81= .104 M2= .9994 B2= .056

r CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT ) 07/29/84 RAW AND PRIMARY DATA TASETt 40 E 7.66777778 HRS.

CC* RAW DATA *** i PRESSURE DETECTORS Pla 42.48 P2n 42.979 P.MANUALr 0 j TEMPERATUR([ CHANNELS 1TO36 UNITSsMV. (ST)-->S-SUBVOLUMEeTnTYPE(0-00Sel-WBr2-DB) 1 (12)= 88.49 2 (22)= 88.972 3 (42)= 78.064 4 (22)= 88.749 5 (32)= 88.627 6 (32)= 88.426 7 (12) 88.638 8 (22)= 88.877 9 (22)= 88.853 10 (32)= 89.122 11 (32)= 88.826 12 (12)= 88.526 13 (22)= 88.847 14 (22)= 88.784 [15 (32)= 88.148 16 (42)= 83.952 17 (12)= 88.54 18 (22)= 88.497 19 (22)= 88.461 20 (32)= 88.731 21 (32)= 88.723 22 (42)= 89.111 23 (42)r 82.075 24 (52)= 90.325 25 (52)= 89.093 26 (52)= 89.773) 27 (52)= 89.283 28 (21)= 71.058 29 (31)= 68.806 30 (11)= 69.169 31 (11)= 70.494 32 (21)= 71.385 33 (51)r 69.83 34 (2))= 70.085 35 (31)= 70.616 36 (41)* 71.064 CC* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .361012406 2 .373652452 3 .359531317 4 .376470245 5 .360993936 AVERAGE VAPOR PRESSURE = .365972816 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.5485 2 88.78 3 88.6575714 4 83.3005 5 89.6185 AVERAGE CONTAINMENT TEMP = 88.2814629 (DEO F.)

. AVERAGE CONTAINMENT DEWPOINT = 70.2273033 (DEO F.)

CORRECTED PRESSURES: Pir 43.0138976 PSIA P2r 43.0092126 PSIA AVG. CORRECTED PRESS.= 43.0115551 PSIA CONT. DRY AIR PRESSURE = 42.6455823 PSIA CONT. DRY AIR M A S S == 570394.977 LBS.

CHANNELS LOCKED OUT NONE WET ALARM' 2 DRY ALARM = 1 PRESS ALARM = .2 ESSURE CALIBRATION CONSTANTS M1' 1.01012 Bla .104 M2* .9994 B2= .056

e CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA (jm Ac[o jg ASET4 41 hge,,gy acha +cd on d El 7.83444445 HRS.

• II  %.4 % WWw 4 de &

CC* RAW DATA *** Y gh PRESSURE DETECTORS. Pi= 42.476 P2= 42.979 P. MANUAL = 0 i TEMPERATURE-CHANNELS 1 TO 36 UNITS =MV. (ST)-->S=SUBVOLUME,T TYPE (0-00S,1-WB,2-DB) 1 (12)= 88.455 2 (22)= 88.972 3 (42)= 78.059 4 (22)r- 88.822 5 (32)= 88.6090001 6 (32)= 88.35900017 (12)= 88.87 8 (22)= 88.873 9 (22)= 88.873 10 (32)= 89.2240001 11 (32)= BE,952 12 (12)= 88 52 13 (22)= 88.861 14 (22)= 88.79 15 (32)= 88.221 16 (42)= 84.002 17 (12)= 88.563 18 (22)= 88.485 19 (22)= 88.681 20 (32)= 88.742 21 (32)= 88.703 22 (42)= 89.097 23 (42)= 82.087 24 (52)= 90.348 25 (52)= 89.138 26 (52)= 89.823 27 (52)= 89.271 28 (21)= 71.42 29 (31)= 68.763 30 (11)= 68.588 31 (11)= 70.221 32 (21)r 70.723 33 (51)= 70.059 34 (21)= 70.216 35 (31)= 70.506 36 (41)= 71.075 CC* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .355787977 2 .372930223 3 .3585938 4 .376610768 5 .363823195 AVERAGE VAPOR PRESSURE = .36477114 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.602 2 88.794625 3 88.6871429 4 83.31125 5 89.645 AVERAGE CONTAINMENT TEMP = 88.3085883 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.1295367 (DEO F.)

l CORRECTED PRESSURES: Pl= 43.0098572 PSIA P2r 43.0092126 PSIA l AVG. CORRECTED PRESS.= 43.0095349 PSIA l CONT. DRY. AIR PRESSURE = 42.6447637 PSIA CONT. DRY AIR M A S S == 570355.795 LBS.

CHANNELS LOCKED CUT! NONE f

l WET ALARM, 2 DRY ALARM = 1 PRESS ALARMS .2 t 'SSURE CALIBRATION CONSTANTS M1- 1.01012 Bis .104 M2' .9994 B2= .056 l

l l

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CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA TASET6 42 OME: 8.00111112 NRS.

CC* RAW DATA *** I PRESSURE DETECTORS Pl= 42.477 P2- 42.98 P.MANUAle 0 j TEMPERATURE [ CHANNELS 1TO36 UNITS =HV. (ST)-->S=SUBVOLUMEeT= TYPE (0-00 Set-WBr2-DB) 1 (12)= 88.485 2 (22)r 88.987 3 (42)= 78.117 4 (22)= 88.842 5 (32)= 88.62 6 (32)= 88.429 7 (12)= 88.552 8 (22)= 88.896 9 (22)= 88.877 10 (32)= 89.187 11 (32)= 88.893 12 (12)= 88.533 13 (22)= 88.867 14 (22)= 88.819 [15 (32)= 88.252 16 (42)= 83.958 17 (12)= 88.54 18 (22)= 88.482 19 (22)= 88.485 20 (32)= 88.7290001 21 (32)= 88.65 22 (42)= 89.187 23 (42)= 82.139 24 (52)= 90.348 25 (52)= 89.131 24 (52)= 89.836] 27 (52)= 89.299 28 (21)= 71.577 29 (31)= 48.537 30 (11)= 68.466 31 (11)= 70 639 32 (21)= 70.858 33 (51)= 70.289 34 (21)= 70.315 35 (31)= 70.723 36 (41)= 70.777 CC* PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .357591252 2 .374592488 3 .358538718 g 4 .372820004

( j 5 .366684295 AVERAGE VAPOR PRESSURE = .365523798 i

SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 88.5275 2 88.806875 3 88.68 4 83 35025 5 09.6535 AVERAGE CONTAINMENT TEMP = 88.3010875 (DEG F.)

AVERAGE CONTAINMENT DEWPOINTa 70.1903233 (DEG F.)

CORRECTED PRESSURES! Pl= 43.0108673 PSIA P2w 43.010212 PSIA AVG. CORRECTED PRESS.= 43.0105394 PSIA CONT. DRY AIR PRESSURE = 42.6450158 PSIA CONT. DRY AIR M A S S a= 570366.973 LBS.

CHANNELS LOCKED OUit NONE WET ALARMn 2 DRY ALARM 4 1 PRESS ALARM = .2 O~.SSURECALIBRATIONCONSTANTS M1' 1.01012 81= .104 M2= .9991 B2= .056

- .c., - . . - . ,__ -

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CECO ZION STATION INTEGRATED LEAKRATE TEST UNIT 1 07/29/84 RAW AND PRIMARY DATA ASETt 43 El 8.16777778 HRS.

CC* RAW DATA *** I PRESSURE DEIECTORS Pl= 42.478 P2= 42.981 P. MANUAL = 0 f TEMPERATURE)HANNELS1TO36 UNITS =MV. (ST)-->S=SUBVOLUME TnTYPE(0-00S,1-WBr2-DB) 1 (12)= 88.51700012 (22)= 89.009 3 (42)n 78 12 4 (22)= 88.774 5 (32}n 88.638 4 (32)= 88.412 7 (12)= 88.758 8 (22)= 88.899 9 (22)= 88.902 10 (32)= 89.265 11 (32)= 89.004 12 (12)n 88.554 13 (22)= 88.9 14 (22)= 88.851 (15(32)n 88.2240001 16 (42)= 81.016 17 (12)= 88.516 18 (22)= 88.502 19 (22)= 88.702 20 (32)= 88.7570001 21 (32)= 88.707 22 (42)= 89.102 23 (42)n 82.139 24 (52)= 90 382000125 (52)= 89.19 26 (52)= 89.804] 27 (52)= 89.32 28 (21)= 71.473 29 (31)= 69.213 30 (11)= 68.478 31 (11)= 71.028 32 (21)r 71.742 33 (51)r 70.117 34 (21)= 70.986 35 (31)= 70.556 36 (41)= 70.906 GC* PRIMARY UALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .361277226 2 .380787649 3 .361665526 4 .37445686 5 .364542844 AVERAGE VAPOR PRESSURE = .36912489 SUBVOLUME AVG. SUBVOLUME TEMP (DF.G F.)

1 88.58625 2 88.817375 3 88.7152858 4 83.34425 5 89.674 AVERAGE CONTAINMENT TEMPc 88.327619 (DEG F.)

AVERAGE CONTAINMENT DEWPOINTS 70.4767567 (DEG F.)

CORRECTED PRESSURES: P1= 43.0118774 PSIA P2n 43.0112114 PSIA AVG. CORRECTED PRESS.= 43.0115444 PSIA CONT. DRY AIR PRESSURE = 42.6424195 PSIA CONT. DRY AIR H A S S == 570304.637 LBS.

CHANNELS LOCKED OUT: NONE WET ALARMn 2 DRY ALARM = 1 PRESS ALARM = .2

'!3SURE CALIBRATION CONSTANTS

(~7at'1.01012

g. B1= .101 M2= .9994 B2= .056

~

, CECO ZION STATION '- INTEGRATED LEAKRATE TEST UN11 1 07/30/84 RAW AND PRIMARY DATA iSET4 159 il 27.8361111 HRS.

• • • RAW DATA ***

J PRESSURE DETECTORS Pl= 42.571 P2n 43.076 P.MANUAle 0  :

TEMPERATURE CHANNELS 1 TO 36 UNITS =HV. (ST)-->SuSUBVOLUMEeTnTYPE(0-00S,1-WBe2-DB) 1 (12)= 89.863 2 (22)= 90.348 3 (42)e 79.785 4 (22)= 90.242 5 (32)r 89.91 6 (32)a 89.888 7 (12)' 90.17 8 (22)= 90.275 9 (22)= 90.254 10 (32)5 90.557 11 (32)= 90.261 12 (12)r 89.947 13 (22)e 90.255 14 (22)= 90.176 15 (32)r 89.607 16 (42)= 85.372 17 (12)' 89.846 18 (22)= 89.839 19 (22)= 90.095 20 (32)u 10.089 21 (32)= 90.01 22 (42)= 90.623 23 (42)= 83.761 24 (52)= 91.77 25 (52)= 90.544 26 (52)= 91.183 27 (52)= 90.754 28 (21)= 71.075 29 (31)= 69.216 30 (11)= 68.429 31 (11)= 70.683 32 (21)= 72.29 33 (51)r 69.471 34 (21)e 71.188 35 (31)= 69.642 34 (41)= 71.118

• • • PRIMARY VALUES ***

SUBVOLUME AVG SUBV. VAPOR PRESSURE 1 .357633994 2 .382303966 3 .356085942 4 .377160529

( 5 .356597247 AVERAGE VAPOR PRESSURE = .366697089 SUBVOLUME AVG. SUBVOLUME TEMP (DEG F.)

1 89.9615 2 90.1855 '

3 90.046 4 84.08525 5 91.06275 AVERAGE CONTAINMENT TEMP = 89.70247 (DEG F.)

AVERAGE CONTAINMENT DEWPOINT = 70.2760233 (DEO F.)

CORRECTED PRESSUREst Pl= 43.1058185 PSIA P 2 r- 43 1061544 PSIA AVG. CORRECTED PRESS.= 13.1059845 PSIA CONT. DRY AIR PRESSURE = 42.7392894 PSIA CONT. DRY AIR M A S S == 570169.76 LBS.

CHANNELS LOCKED OUT! NONE WET ALARM > 1 5 DRY ALARM = 1 PRESS ALARMS 7E-03

.SURE CALIBRATION CONSTANTS

..ni" 4.'

1.01012 B1* .104 M2= .9994 B2= .056

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

r-INTEGRATED LEAKRATE TEST UMIT 1 07/31/04 CECO IION STATION STATISTICAL LEAKRATE CALCULATIONS NORMAL TEST ,

i STARTING DATASETl............. 372 ENDING DATASET6............... 452 l STARTING TIME ................. 51.0877778 HOURS ENDING TIME .r................ 60. 3Q3 HOUP(

9555549 HOURS ;

TOTAL TEST. TIME ...............

i' HUMBER OF DATASETS.............

STARTING C0HTAIHMENT liASS (B).. 569884.845 LBS.

MAOS LEAKRATE PER HOUR (A)..... 6.99341817 LBS./HR APPROX. LEAK FLOWRATE.......... 1.61813083 SCFM ALLOWABLE LEAKRATE %/ DAY ...... .0729 %/ DAY TOTAL % LEAKRATE/ DAY (ASL)..... 294519211_L'.DA STANDARD DEVIATION ............ 6.20429586E-03 %/ DAY STUDENT T DISTRIBUTIOH........ 1.J4 %

95% UPPER CONFIDENCE LIMIT .... (3978662 p iAY g' . %ar re&6-Toeulay g g 4-8 kre.

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STARTING DATASETi............. 7 ENDING DATASETt............... 71 I STARTING TIhE ................. 1.33361111 HOURS ]

ENDING TIME!....~..s.............. 12.3475 HOURS <

9 TOTAL TEST TIHi.'.D............'./ 11.0138889 HOURS - Un NUMPER OF DATASFTS.,,.'.S......' 65 ..

STARTI?!G Cf)t!TAIMMENT MASS iPP.. 569795.944 LPS.

MASS LEAt;R ATE PER HOUR ( A) . .'. . . 25.6913001 LBS./HR ALLOWABLF LEAKRATE %/ DAY ...... .0729 %/ DAY

(

IMPOSED LEAK (SCFH).'.'...'...... ~

4.37245976 SCFM STARTING PRESSURE .i'~......... . 42.8348607 PSIA TOTAL %LEAKRATE/DAYl(IASL).... .106212635 *4/ DAY IMPOSED % LEAKRATE,'bSY (IL) . . . . 079 mat?2io *'!n A

% LKRATE OF NORMAL TEST ( ASL) .'.6m9fi3136?_%/. DAY IMPOSED LEAKRATE'% ERROR...... h .3492'35A D '

STANDARD DEVIATION ............ 5.53531644E-03 %/ DAY STUDENT T DISTRIBUTION......... 1.6705931 95% UPPER CONFILEV"C; LIMIT,d'.. 317459896 %/ LAY..

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NCECO - IION STATION INTEGRATED LEAKRATE TEST tlNIT 1 08/01/84 STATISTICAL LEAKRATE CALCULATIO S 24%.4s6 NORMAL TEST STARTING DATASETt............. 55 b '

b E ENDING DATASETt............... 143 j

STARTING TIME ................. 10.3347222' HOURS -

ENDING TIME .................. 25.1491667 HOURS TOTAL TEST T1HE .............. 11.8344415 H0tlR$

NUMBER OF DATASETS............ 89 STARTING CONTAINMENT MASS (B).. 570292.803 LBS.

MASS LEAKRATE PER HOUR (A)..... 4.82891036 LBS./HR APPROX. LEAK FLOWRATE.......... 1.11368391 SCFM ALLOWABLE LEAKRATE %/ DAY ...... 0729 %/ DAY TOTAL %LEAKRATE/ DAY (ASL).....h0321815%y/ DAD STANDARD DEVIATION ............ 3.57782381E-03 %/DnY STllDENT T DISTRIBUTI0H........ 1.6639852 93% UPPER CONFIDENCE LIMIT .... .0262752609 %/ DAY NORMAL TEST STARTING DATASETt............. 143 C7b 2 ENDING DATASETi............... 187 STARTING TIME ................. 25.1691667 HOURS ENDING TIME ................... 32.5030556 H0llRS TOTAL TEST TIME ............... 7.3338889 HallRS NUMBER OF DATASETS............ 45 STARTING CONTAIHMENT MASS (B).. 570226.361 LBS.

MASS LEAKRATE PER HOUR (A)..... 7.69749921 LBS./HR APPROX. L.EAK FLOWRATE.......... 1.77696921 SCFM ALLOWABLE LEAKRATE %/ DAY ...... .0729 2/ DAY TOTAL % 1.EA.< RATE / DAY (ASL)..... 0323976571 Z/t h STANDARD DEVIATION ............ B. A.30327E-03 %/ DAY - 0 3 2 <1 STUDENT T LtSTRIBtlTION.........' 1.6819059 93% UPPER CONFIDENCE LIMIT .... .0465980436 %/ DAY 0Y k',; #' .O 3

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Commonwealth Edison Co. Date: 15 June 1984 Quad City Nuclear Power Plt.

22710. 206th Ave.- North SuFiect: CERTIFICATION

• Cordov.5, Ill. 61242 Re : 8405A0348Al I I

FLOWMETER CALIBRATION ACCURACY CERTIFICATE J A. METER IDENTIFICATION:

(1) Customer Purchase Order Number 904572 .

(2) F&P Serial Number

• 8405A0348Al .

(3) Model Number 10A3555A

• l B. CALIBRATION SPECIFICATIONS:

' (1) Date: 14 June 1984 .

(2) Flow Range 11.1 To 1.1 . Units SCFM .

(3) Metering Fluid Air .

(a) Viscosity 0.0181 cps .

, (b) Specific Gravity _ l.0 60/60 F. Density O.0012

.C,,.f cms /ce.

t (c) Temperature 70* F .

, (d) Pressure 14_7 pqva .

C. ACCURACY i 1g of Max, flow.

D. _CALIBRATICU FACILITIES:

l (1) The equipment and associated procedures used'in the calibration of said meter are in accordance with Mil-STD-45662.

(a) Through establishment of values of physical constants for primary standards using tools of NBS accuracy pedigree.

(b) Through direct, dynamic comparison of Fischer & Porter and l

NBS flow facilities using Fischer & Porter Turbine Flowmeters as transfer standards. NES Test No. 213.31/193098.

(c) Through inter-laboratory comparison of compatible ~Fischer &

i Porter flow facilities.

l- , very truly yours',

V \t a Charles J. Rongione Sr. Flow Stds. Engineer 7

j/ CJR:mdt -

l FISCHER & PORTER COMPANY WARMINSTER. PA. U.S. A.1997 4 (2151 674-6000 4 CABLE: FISHPORT I . TELEX: 845 215 I

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ma afoug " UNITED STATES f Io, y[i) [ ,g NUCLEAR REGULATORY COMMisslON REGION W 3 { .. g (/ ! j

, ,, 799 ROOSEVELT ROAD

% a7 CLEN ELLYN, ILLINots 60137 AUG 2 91934 MEMORANDUM FOR: James G. Keppler, Regional Administrator FROM: R. L. Spessard, Director, Division of Reactor Safety

SUBJECT:

CONTAINMENT INTEGRATED LEAK RATE TESTING AT ZION The enclosures to this memorandum provide background information and conclusions reached concerning Containment Integrated Leak Rate Tests (CILRT's) performed at the Zion facility in 1980, 1981, 1983, and 1984 and a petition for Emergency Relief filed by trie Citizens Against Nuclear Power on June 5,1984. Enclosure 1 provides a brief sunnary of applicable regulatory requirements. Enclosure 2 provides a brief history of testing and inspection activities at Zion frem 1980 to date.

Based on this information, we have reached the following conclusions:

1. The intergrated leak rates for both units at Zion are well within Technical Specification limits.

2. Supplemental tests performed on Zion Unit 1 in 1981 and 1983 failed to demonstrate the accuracy of the CILRT's, therefore, these CILRT's were not performed in accordance with either the Technical Specfications or 10 CFR 50, Appendix J. .

3. Some findings contained in the Petition for Emergency Relief were correct.

When verified by Region III, the licensee voluntarily shut down Zion Unit 1 to conduct another CILRT. However, the conclusi.ons reached by the petitioner were not valid.

R. L. Spessard, Director Division of Reactor Safety

Enclosures:

As Stated cc w/encls: hp

-A. B. Davis

7 gfM C. E. Norelius , fj !

W. S. Little- M A r a Wi . [j wf ', j l F. Maura S. Hare W. Guldemond L. Reyes M k-O D. G. Eisenhut, NRR f R. H. Vollmer, NRR E. L. Jordan, IE [f

r Enclosure 1 Regulatory Requirements Zion Technical Specifications 3.10.1 and 4.10.1 reouire the performance of periodic Primary Containment Integrated Leak Rate Tests (Type A tests) in accordance with 10 CFR 50, Appendix J and ANSI N45.4-1972. A maximum leakage rate of 0.1 volume % per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> is specified at peak accident pressure.

10 CFR 50, Appendix J, in addition to establishing requirements for the performance of Type A tests, requires the performance of a supplemental test to verify the accuracy of the Type A test. The supplemental test is performed by imposing a measured leakage (on the containment) through a calibrated flowmeter and comparing the calculated containment leakage from the instruments used during the Type A test (including the imposed leakage) to the calculated leakage from the Type A test. To be acceptable, the difference between the supplemental test . data, after substraction of the superimposed leak rate, and the Type A test data must be within 25% of the maximum allowable leakage for the test pressure ~ employed.

ANSI N45.4-1972, in addition to other requirements, states, "The leakage-rate test period, for any method, shall extend to 24h of retained internal pressure.

If it can b'e demonstrated to the satisfaction of those responsible for the acceptance of the containment structure that the leakage rate can be accurately determined during a shorter test period, the agreed-upon shorter period may be used." It is Region III's position, with the support of NRR, that NRR is the organization responsible for the acceptance of the containment structure and hence is the only crganization possessing the authority to approve a Type A test of less than 24h duration. This position was clearly established in a November 9, 1973 memorandum from Mr. B. H. Grier, Assistant Director for Construction and Operation, Directorate of Regulatory Operations to Mr. A. Giambusso, Deputy Director for Reactor Proiects, and Mr. J. M. Hendrie, Deputy Director for Technical Review, and reaffirmed since then in other internal memoranda as well as in correspondence with several licensees such as the June 25, 1982 letter from Mr. D. G. Eisenhut, Director, Division of Licensing NRR to Mr. C. W. Fay, Assistant Vice President of Wisconsin Electric Power Company (copies attached).

t Both documents endorse a Bechtel Topical Report, BN-TOP-1, as the only approved' methodology for performing Type A tests of less than 24h duration, and the latter requires written commitments to BN-TCP-1 as a prerequisite to performing a test of less than 24h duration. It should be noted that Zion has not committed to BN-TOP-1.

Zion is required to perform Type A tests in accordance with 10 CFR 50, Appendix J and ANSI N45.4-1972. Per Technical Specifications these tests are to be conducted at reduced pressure. Per 10 CFR 50, Appendix J the tests must include a satisfactory supplemental test. Per ANSI N45.4-1972, and, in the absence of a commitment to Bechtel Topical Report BN-TOP-1, the tests, exclusive of supplemental tests, must be at least 24h in duration.

9.

A

. O e

_E_nclosure 2 Zion Type A Te_s LExp,e_rience 1980 to Date A. Discussion

1. 1980 Testing:

In June 1980 a Type A test was performed on Zion Unit 2. The test was witnessed by Mr. J. Kohler, then the Senior Resident Inspector at the Zion facility. The results of the inspection were documented in. Inspection Report 50-304/80-14 which states simply that, "the leak-rate was well below the allowable limit of .0465 w/o day."

The licensee independently provided the results of the test to NRR in a report dated October 22, 1980. This report indicated that the test was performed at reduced pressure for 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> of acceptable data and followed by a successful supplemental test. The report states in part, "The test was terminated at hour 12 test time. Since the test had already been running much longer than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, the

. requirement to keep the containment pressurized longer than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> had already been met. Twelve hours of data were sufficient to determine the leak rate of the containment."

The containment was at test pressure for approximately 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />. During the first 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> of the test, several manipulations of the containment boundary were performed in order to determine the location of leaking penetrations'so that corrective action could be taken prior to performing a satisfactory CILRT. It should be noted that while these manipulations are allowed, their effect must be quantified in order to accurately characterize the "as-found" leak tight integrity of the containment building.

2. 1981 Testing:

In March 1981 a Type A test was performed on Zion Unit 1. The test was i witnessed by Mr. J. Kohler, then the Senior Resident Inspector at the l Zion facility. The results of the inspection were documented in .

Inspection Report 50-295/81-06 which states, " Inspector review of the l procedure, the events log, the containment mass plots, and leakage l calculation, and instrument calibration, as well as independent calculation made by the inspector indicates that all acceptance criteria were met....At the conclusion of the Type A test, a supple-l mental test was conducted...at the conclusion of the supplemental test i

the licensee measured .0422 w/o/ day which, therefore, verified the accuracy of the Type A measurement."

l The licensee independently reported the results of the test to NRR

! in a report dated June 19, 1981. This report indicated that the l test was performed at reduced pressure for 13 hours1.50463e-4 days <br />0.00361 hours <br />2.149471e-5 weeks <br />4.9465e-6 months <br /> of acceptable l data followed by a successful supplemental test. The containment l

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O A was at test pressure for approximately 10 days. During the first nine and a half days, many manipulations of the containment boundary were performed similar to those already noted for the 1980 Unit 2 test.

i The Events Log section of the licensee's report indicated that the supplemental test was commenced at 4:29 a.m. on March 12, 1981.

However, (at approximately 2:00 p.m.) the test was reinitialized to 10:41 a.m. following discovery of a leaking valve on the hold up tank cover gas system which was allowing gas.to leak into containment. At 5:00 p.m. the verification test was reinitialized for a second time to 10:21 a.m. with no reason given.

3. 1983 Testing

- Between November 26 and' December 5, 1983 a Type A test was performed on Zion' Unit 1. Portions of the test were witnessed by the Resident Inspectors including procedure review, instrument calibration records, i

procedure compliance, valve and system lineups, and containment post-test

! inspections. The results of this inspection were documented in Inspection Report 50-295/84-02.

The' licensee independently provided the results of the test to NRR in a report dated May 8, 1984. This report indicated that the test was performed at reduced pressure. The Event Log portion of the report

, states that the test was run until 11 hours1.273148e-4 days <br />0.00306 hours <br />1.818783e-5 weeks <br />4.1855e-6 months <br /> and 50 minutes of accept-able data were obtained. The supple h test was perforiied prior to the. Type A test of record. The containment was at test pressure for

approximately 8 days. During the first seven and a half days, numerous manipulations were perfomed to the containment boundary as previously

- noted for.the 1980 Unit 2 test.

! 4. 1984 Receipt of a' Petition. for Emergency Relief:

On June 5, 1984, the Citizens Against Nuclear Power filed a Petition for Emergency Relief with the Comissioners. The purpose of the petition was, "(1) To give formal notification to the NRC that the l

Zion Unit I reactor of the Comonwealth Edison Company is currently ~

in violation of both NRC regulations and federal law, and presents a grave and immediate health risk and danger to public safety. (2) To i . request emergency relief as appropriate."

The petition alleged that the Type A test performed on Zion Unit 1 in 1981 was scientifically invalid and was not performed in accordance with ANSI N45.4-1972. The basis for the allegaticn was that the

! licensee only obtained a satisfactory supplemental test after two unsuccessful attempts and an extended period of time during which the i containment environment was modified by injection of some 44 gallons of water through a seal injection system. The petition concludes that l.

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i the difficulties in obtaining a satisfactory supplemental test demonstrated the inadequacy of the T9pe A test itself and requested the NRC to require and supervise an immediate retest of the Zion Unit 1 containment. The petition was forwarded to NRR for disposition.

5. 1984 Region III Inspection:

During the week of June 25, 1984, NRR requested that Region III per-form an inspection at Zion Unit 1 to determine the validity of the allegations contained in the petition. This requested inspection was coupled with an inspection of a recent LER regarding a flow path left open between the Unit 2 containment and the auxiliary building, and commenced on July 2, 1984.

The initial thrust of the Region III inspection was to review the Zion Unit 1 1983 Type A test. The ration?.le was that if the 1983 test was valid, no immediate health and safety issues existed. If problems existed with the 1981 test, they could be handled through the normal review process.

Review of the 1983 test revealed the following deficiencies:

a. The test duration was only approximately 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. The methodology employed to perform the test and reduce the data was not that prescribed in BN-TOP-1.

b. When that data was reduced using the BN-TOP-1 methodology, a calculated leakage of approximately 0.2 weight % per day was obtained. This exceeds the allowable value of approximately 0.07 weight % per day,

c. The supplemental test was performed before the Type A test.

While test sequencing is not specified in the regulations, this is considered poor practice based on the fact that containment conditions may not have been well characterized at the time of the supplemental test.

d. The licensee applied the wrong calibration factor to the flow meter used to establish the imposed leakage rate during the supplemental test. When the correct calibration factor was applied, the agreement between the supplemental test results and the calculated leakage was 47% of the maximum allowable leakage rather than the required 25%.

Based on these deficiencies and the fact that the licensee, on September 21, 1982 placed on the docket a letter to J. G. Keppler acknowledging that the only acceptable methodology for performing a Type A test of less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> duration was BN-TOP-1, Region III concluded that the 1983 test was not performed in accordance with either the Technical Specifications or 10 CFR 50, Appendix J. Further, it was concluded that the error made in the supplemental test invalidated that test as the accuracy of the T9pe A test could not be verified. NRR concurred in these conclusions.

3

O r Based on these conclusions, Region III began a re-review of the Unit 1 1981 Type A test to assess its validity. This review revealed the following deficiencies:

a. The test duration was only approximately 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. The methodology employed to perform the test and reduce the data was not that prescribed in BN-TOP-1.

b. When that data was reduced using BN-TOP-1, a calculated leakage of approximately 0.15 weight % per day was obtained. This exceeds the allowable value of approximately 0.07 weight % per day.

c. Two attempts were made to perform a satisfactory supplemental test. The first attempt yielded unacceptably low results. The second test yielded acceptable results only after a careful choice of test start time. The inspectors independently calcu-lated supplemental test results using two data points less than the licensee and obtained unacceptable results, indicating that a judicious choice of data can affect the statistical validity of test results.

Based on these deficiencies Region I.II concluded that the 1981 test was not performed in accordance with either the Technical Specifications or 10 CFR 50, Appendix J. NRR concurred in these conclusions.

On July 17, 1984, a meeting was convened in Region III between members of the Region III, NRR, and licensee staffs. The purpose of the meeting was to present the inspection conclusions to the licensee, the basis for those conclusions, and to afford the licensee the opportunity to provide justification of the validity of either the 1981 or 1983 Zion Unit 1 Type ~A tests. As a result of the items discussed during-the meeting, and on the basis of further discussions between the licensee, Region III, IE, and NRR staffs on July 18, 1984, the conclusion was reached that the Zion Unit I leak rate test had not demonstrated compliance with Technical Specifications. The licensee voluntarily placed the unit in shutdown on July 18, 1984, and during the period July 27 - August 1, 1984, completed a satisfactory leak test on the Unit 1 containment. This test was witnessed by a Region III specialist inspector.

f Because of the problems discovered with the 1981 and 1983 Type A tests on Unit 1, Region III also re-reviewed the 1980 Type A test performed on Unit 2. The only deficiency discovered with this test was the duration - 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. Based on discussions with NRR, this test was judged acceptable for the following reasons:

l l a. The NRC had not, prior to 1982, clearly promulgated to the licensee

! the requirements to use BN-TOP-1 for tests of less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> duration, and s.

4

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b. The test was wit.nessed and approved by a Region III specialist inspector. This constituted tacit approval of the test duration.

c. NRC had been in possession of the test results since October 4

22, 1980 and had made no adverse findings with respect to its acceptabili ty.

B. Conclusions

1. Type A tests performed on the Zion Unit I containment in 1981 and 1983 failed to demonstrate that the integrated containment leakage rate was in compliance with Technical Specification requirements in that the tests were of shorter duration than required by ANSI N45.4-1972 and the supplemental tests failed to demonstrate the accuracy of the Type A tests. NRR concurred in these findings.

2. The findings with respect to the supplemental test performed following the 1981 Type A test were consistent with those contained in the Petition for Emergency Relief filed by the Citizens Against Nuclear Power; however, the conclusions reached in the petition are not valid.

Those conclusions were:

a. Failure of the first two supplemental tests proves that the Type A test itself was deficient. This was not the case.

10 CFR 50, Appendix J, paragraph III.A.3(b) allows for additional supplemental tests following a failure of a prior test,

b. Fourteen hours elapsed between the completion of the Type A test and completion of the " acceptable" supplemental test.

This time may have allowed for significant changes in the containment environment which could invalidate the supplemental test. While the concerns expressed by the petitions are not without merit, the regulation requires sufficient duration to establish the accuracy of the supplemental test. Furthermore, containment conditions were continuously monitored throughout the period and changes in conditions were compensated for.

3. A satisfactory Type A test was performed on Zion Unit 1 during the

, period July 27-August 5, 1984 prior to returning the unit to power.

l 4. The Type A test performed on Unit 2 in 1980 was re-reviewed, and

! following discussions with NRR, judged to be acceptable.

5. Injection of water through the penetration seal water system is allowed and in compliance with the Technical Specifications.

5

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**e., M UNIT ED STATES b #

• ,)

,f . ), . g NUCLEAR REGULATORY COMMISSION / -

. WA$mNGTON, D. C. 20555 9 Y ..... [ June 25, 1982 #

Docket Nos. 50-266 m Q C m !.__s_ p n

' DIr I nIst and 50-301 3/D l gf.9 l n

Mr. C.W. Fay Assistant Vice President

[l 7my Mj lk's l Wisconsin Electric Power Company e  !

231 West Michigan Street  ;)gg.d  !: a,.!j@

Milwaukee, Wisconsin 53201

Dear Mr. ' Fay:

The Commission has issued the enclosed Exemption from certain requirements of Section 50.54(o) and Appendix J to 10 CFR Part 50 for the Point Beach Nuclear Plants Units 1 and 2 in response to your letter dated December 12, 1975 as supplemented by letters dated July 18, 1977 February 6,1978 and February 25, 1981. Tnis Exemption, which is being forwarded to the Office of the . Federal Register for publication, pertains to the Type C substitution for the Type A testing requirements of the service air supply system, hydro-static testing in lieu of Type C testing for the decay heat removal system and Type A test sequence and methodology.

m

1. The request for exemption to permit the Type A containment integrated ~ leak f rate test to be termir.ated in less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> was not evaluated since an exemption from this requirement is not needed if you commit, in writing, to conduct Type A tests in accordance with the staff-approved Eechtel Topical p

Resort BN-TOP 1, and the plant Technical Specifications reflect this commit- -

ment.

The proposed method of measuring the gas flow required to '

ah,.r,pon s tant test chamber pressure and the reverse-direction method f Type B ng of c ertain containment isokt-lon valy.gs were evaluated ahiu Tuund s meet the equirements of Appendix J to 10 CFR Part 60. Therefore, no exemptions from Appendix J are required.

Your requests for exemption from the airlock testing requirement ~s of section III.D.2 of Appendix J and for substitution of a hydraulic test from the re-quired pneumatic test of the containment spray isolation check valves are not acceptable and have been denied.

The bases for our findings and the disposition of all of your exemption 're-quests are contained in the enclosed Safety Evaluation. These ha.ve also been discussed by telephone with members of your staff.

M WO]'i 5 Y 2 00?

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With regard 'to your exemption requests that have been denied, we request  !

that you inform us within 45 days of receipt of this letter regarding your  ;

plans for meeting' the requirem'ents of Appendix J including submission of a !g Technical Specification change, as necessary. This request for information i affects fewer than 10 respondents, therefore OMB clearance is not required  ::

under P.L.96-511. I 1.

I Sincesely, Il s  :

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, Division of Licensing Enclosures

1. Exemption '%

2. Safety Evaluation cc: See next page i

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