ML20083D058
| ML20083D058 | |
| Person / Time | |
|---|---|
| Site: | Cooper  |
| Issue date: | 08/27/1983 |
| From: | Pilant J NEBRASKA PUBLIC POWER DISTRICT |
| To: | Office of Nuclear Reactor Regulation |
| References | |
| LQA8300018, NUDOCS 8312270178 | |
| Download: ML20083D058 (124) | |
Text
O COOPER NUCLEAR STATION SD0!ARY TECHNICAL REPORT ON PRIMARY CONTAINMENT INTEGRATED LEAK RATE TEST PERFORMED AUGUST 27, 1983 4
a 9
8312270178 830827 DR ADOCK 05000298 okq PDR
.e L
a O
TABLE OF CONTENTS
SUMMARY
TECHNICAL REPORT 1.
ANSI /ANS 56.8 - 1981 Data Table I
2.
Analysis and Interpretation 2
3.
Summary of Events 4
a.
ILRT Discrepancies
.4 b.
Local Leak Rate Test Discrepancies 4
A'TTACHMENTS A.
Test Instrumentation B.
Reference Chamber Test Data C.
1983 ILRT Summary and Data Sheets D.
1983 ILRT Interval Data Sets E.
1983 Composite Leak Test Data Sheets l
l l
i
a o
COOPER NUCLEAR STATION
SUMMARY
TECHNICAL REPORT ON PRIMARY CONTAINMENT INTEGRATED LEAK RATE TEST The following information is submitted in accordance with the format suggested in ANSI /ANS - 56.8-1981, " Containment System Leakage Testing Requirements".
General Data (a) Owner: Nebraska Public Power District (b) Docket No.: 50-298 (c) Location: Brownville, Nebraska (d) Containment
Description:
BWR, Mark I (e) Date Test Completed: August 27, 1983 Technical Data (a) Containment Free Volume (ft ): 242,550.0 (b) Design Pressure (psig):
56 psig (70.7 psia)
(c) Design Temperature (*F): 281 (d) Calculated Accident Peak Pressure, Pac (psig): 46.2 (e) Calculated Accident Peak Temperature (*F):
170 Test Data (a) Test Method: Absolute and Reference Chamber Methods (b) Data Analysis Technique: Mass Point (c) Test Pressure (psia): Start 72.100 End 71.996 (d) Maximum Allowable Leak Rate (La) (ut/%/24 hours): 0.635 (e) Calculated Leakage Rate at Upper Confidence Limit (wt/%/24 hours):
Absolute 0.353 Reference Chamber 0.193 (f) Measured Leak Rate"(wt/%/24 hours):
Absolute 0.258 Reference Chamber 0.142 Verification Tests
-(a) Calibrated Leak Superimposed (wt/%/24 hours):
Absolute 0.969 Reference Chamber 0.738 (Imposed Leak = 0.631 w/%/24 hours =.99 La)
(b) Mass Step Change Metered Volume (% La): Not Performed (c) Mass Step Change Measured by Type A: Not Performed (d) Test Instrumentation:
See Attachment "A" e
o Analysis and Interpretation A primary contairment integrated leak rate test was conducted at Cooper Nuclear Station on August 26-27, 1983, in accordance with station Technical Specifications and procedures. Data was taken at 20-minute intervals utilizing plant personnel and the plant process computer. General Electric Company provided consulting services. The data was analyzed using a desk computer and the GE Nuclear Services Department Integrated Leak Rate Test Program. Both the absolute and reference chamber methods were employed in the analysis.
The data analysis is a mass point analysis based on ANSI /ANS - 56.8-1981,
" Containment System Leakage Testing Requirements" and ANSI N45.4-1972,
" Leakage-Rate Testing of Containment Structures for Nuclear Reactors". This method consists of determining the mass of air in the containment utilizing the ideal gas law then using a straight-line least squares analysis to estimate the leak rate.
For the absolute method, the mass of air in the containment at time i, Wi, is:
gy, 144V (Pi-Pvi)
Ti R
where: V
= containment free volume (cu. ft.)
R
= gas constant for air Pi = absolute pressure at time 1 (psia)
Pvi = partial pressure of water vapor at time 1 (psia) and Ti = mean absolute temperature of the containment air (*R)
For the reference chamber method, Wi is:
[1 Ti-1 (api + Pvi)
(api-1 + Pvi-1)
W = Wi-1 i
Ti (Pi-1 Pvi-1)
(Pi Pvi-1).
where: Wi-1 = containment mass for the previous measurement (1bm)
T
= mean absolute temperature (*R)
P
= absolute pressure (psia)
Pv
= partial pressure of water vapor (psia) l AP
= pressure difference between the' reference chamber and the drywell (psid) i
= present measurement and 1-1
= previous measurement For both methods, the mass at time ti is fit to a least squares straight line, Wi = Ati + B and the leak rate is computed from the slope of the line, Lam = -2400 A/B, where A and B are defined above.
6 o
The ninety-fiv.e (95) percent upper confidence limit (UCL) is that leakage for which there is only a five (5) percent chance that the leakage exceeds the reported valve. An approximation formula is used:
UCL(95%) = Lam + 2400 c.95 where Lam and B are defined above, and
= 1.645 + 1.5 6 _ (n-2)2 (n-2)3 2.4 57.6 t.95 (n-2) n = number of measurements
^
b I\\
"(
cNI' 2
~
and Sa =
-A
(\\ n-2/.n(Iti ) - (Iti)2 q
?
J with Wi, ti and A defined above.
The computed leak races, 0.258 w/%/24 hours (absolute) and 0.142 w/%/24 hours (reference chamber), both fall below the Appendix J limit of 0.75 La (= 0.473 w/%/24 hours). The following data is provided:
1.
Reference chamber test data (Attachment "B").
2.
Leak rate test summary sheets and graphs (Attachment "C").
k-3.
Leak rate. test interval data sets (Attachment "D").
The integrated leak rate test (normally of 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> duration) was terminated after 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. This was done with the concurrence of all officiating parties (NPPD, GE, and the NRC).
The test method is verified using the superimposed test if:
lL'am-Lam l<0.25La L
where: L'am = composite leak rate l
Lam = test leak rate l
and La
= leak rate limit at 58 psig For a superimposed leak of 0.631 w/%/24 hours, the limits are 0.730 to 1.047 w/%/24 hours for the absolute method and 0.614 to 0.931 v/%/24 hours for the reference chamber method. For the absolute method the superimposed leak rate (0.969 w/%/24 hours) falls within the limits. The superimposed leak rate for the reference chamber method (0.738 w/%/24 hours) falls within the limits.
Data sheets for the composite leak rate test are included ir. Attachment "F".
The following test backup data is retained at the station:
l 1.
Containment penetration listing l
2.
System status (at time of test) 3.
Instrument validation data 4.
Data to verify temperature stabilization prior to starting test l I'. _
~
o 5.
Test procedure 6.
Local leak rate test data 7.
System P & ID's
SUMMARY
OF EVENTS I.
ILRT Discrepancies While pressurizing the drywell, only a few minor leaks were found.
The following valves were found to have packing leaks; PC-V-240, PC-V-108 CS-V-10, RHR-V-83, RHR-M0-39A, RHR-MO-15B, RHR-MO-16B.
RHR-MO-34B, and RHR-M0-39B. The packing was tightened on these valves at the time the leak was located and pressurizing was continued on the primary containnent.
No significant problems were encountered while pressurizing or at pressure (Pa) of the primary containment for the ILRT.
II.
Local Leak Rate Test:1 Since Last ILRT (Mav. 1980)
A.
Discussion With the exception of penetrations X9A and B, all containment isolation valves were tested by pressurizing the space between valves and observing pressure decay. By calculating the volume of the test space between valves, and observing the time rate of pressure decrease, leak rate in efh is computed.
Temperature correction was employed only on the main steam isolation valves since they were tested immediately following shutdown and the high temperatures were a significant factor in the calculations. Any leakage rate calculated without tempera-ture correction will yield larger indicated leakage, since all valves are above standard temperature. Thus from the stand-point of Technical Specifications for allowable leakage, the uncorrected data is more conservative.
All Type B and C tests were conducted in accordance with 10CFR50 Appendix J with the following exceptions:
1.
Main steam isolation valves were tested at 29 psig instead of Pa (58 psig).
2.
Feedwater check valves were tested with water instead of air or nitrogen in 1981 an 1982.
In 1983 the feedwater check valves were tested with air.
3.
Main steam and feedwater line expansion bellows were tested at 5 psig instead of Pa.
e 4.
The personnel airlock hatch to the drywell was tested at 3 psig, following each opening, instead of Pa.
However, a full pressure test at Pa is conducted at 12-month intervals. Since May, 1983, the airlock hatch is tested at full pressure test of Pa at 6-month intervals according to the Radiological Technical Specifications.
The volumes of the toroidal spaces in the double-gasketed seals and bellows are somewhat uncertain due to the presence of flexible rubber, and in all cases the volumes are very small.
For all seals and bellgws a test rig war used which contained a known volume of.25 ft' and the seal and bellows volume was considered insignificant.
The allowable local leakage rate as specified in the CNS Technical Specifications for all valves and penetrations other than the main steam isolation valves is.60 La.
Local Leakage Limit Calculations 3
Drywell Volume 132250 ft Total contained mass of air at Torus Volume 110300 ft, 58 psig (or 72.7 psia):
Primary Cont. Volume 242550 ft' M = (72.7)144(242550) 53.3(530) 2 9
in /ft' 144
= 89887 lbs.
Rankine 530 gas constant 53.3 The maximum allowable leakage for the integrated leak test is La =.635% of the contained weight of air per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.
La =.00635 (89887)
= 570.8 lb/ day
= 23.78 lb/hr Converting this flow to cubic feet per hour at standard conditions:
t,, (23.78)53.3(530)
,3 7,4, f 14.7(144)
The maximum allowable leakage for the local leakage tests is
.60 La.
.60 La = (317.4)(.6) = 190.4 scfh Local leak rate tests were performed in May 1981, July 1982, and August 1983. All primary containment double-gasketed seals, testable bellows, electrical penetrations, isolation valves, and airlock doors were tested in accordance with Technical Specification 4.7.A.F. -. -
p
[..
e The May 1981 test tested 93 penetrations of which 12 Type C penetrations were found to be leaking excessively and were repaired and retested. The July 1982 test tested 93 penetrations of which 7 Type C penetrations were found leaking excessively requiring repair and retest. The August 1983 test tested 93 penetrations of which 20 Type C penetrations were leaking excessively requiring repair and retest. No electrical penetrations or bellows leaked excessively.
B.
Penetrations Failing Local Leak Rate.ests Listed below is a summary of local. leak rate tests for primary containment penetrations found leaking excessively.
X-7A Main Steam Isolation Valves. MS-AO-80A (inboard isolation valve) and MS-AO-86A (outboard isolation valve).
In the August 1983 test, the initial leakage was found to be 13.42 cfh. The established limit is 5.0 scfh and the Technical Specification is 11.5 scfh per valve. MS-AO-86A was disassem-bled, the disc and seat of the msin and pilot valve were lapped. After repair, the leakage was reduced to.42 cfh.
'MS-AO-80A was not repaired or adjusted; therefore, primary containment would have been-maintained by the inboard isolation valve MS-AO-80A.
The leaking valve is a 24" air operated, angle globe valve manufactured by Rockwell.
X-7C Main Steam Isolation Valves. MS-AO-80C (inboard isolation valve) and MS-AO-86C (outboard isolation valve).
In the August 1983 test, the initial leakage was found to be 12.93 cfh. The established limit is 5.0 scfh and the Technical Specification is 11.5 scfh per valve. MS-AO-86C was disassem-bled, the disc and seat of the main and pilot valve were lapped. After repair, the leakage was reduced e.o 1.6 cfh.
MS-AO-80C was not repaired or adjusted; therefore, primary containment would have been maintained by the inboard isolation valve MS-AO-80C.
The leaking valve is a 24" air operated angle globe valve manufactured by Rockwell.
X-7D i
Main Steam Isolation Valves. MS-AO-80D (inboard isolation valve) and MS-AO-86D (outboard isolation valve).
In the August 1983 test, the initial leakage was found to be 20.2 cfh. The established limit is 5.0 sefh and the Technical i
Specification is 11.5 scfh per valve. Leakage was determined I m
s e
to be 6.92 cfh through MS-AO-80D and 13.28 cfh through MS-A0-86D.
MS-AO-80D and MS-AO-86D vere both disassembled, the discs and seats of the main and pilot valves were lapped.
Even though both valves were repaired, MS-AO-80D initial leakage was below the Technical Specification limit of 11.5 scfh. Both valves are a 24" air operated angle globe valve manufactured by Rockwell.
X-8 Main Steam Line Drain. MS-MO-74 (inboard isolation valve) and MS-MO-77 (outboard isolation valve).
In the May 1981 test, the initial leakage was found to be 18.28 cfh. The established limit is 1.5 scfh. MS-M0-74 was discssembled, the disc removed and lapped, the seats were cleaned, and the valve reassembled. After repair, the leakage was.23 scfh.
In the July 1982 test, the initial leckage was found to be 20.09 cfh. The established limit is 1.5 scfh. MS-M0-74 was disassembled, the disc and seat cleaned, and the valve reassem-bled. After repair, the leakage was 0 scfh.
In the August 1983 test, the initial leakage was found to be 9.19 cfh. The established limit is 1.5 scfh. MS-MO-74 was disassembled, the disc and seat were lapped, and the valve reassembled. MS-MO-77 was disassembled, the gate and seat were lapped, and the valve was reassembled. After repair, the leakage was 0 scfh. MS-MO-74 is an Anchor 3" gate valve and MS-M0-77 is an Anchor 3" gate valve.
X-9A Reactor Feedwater Supply Line. RF-16CV (inboard line A feed-water check valve).
In the August 1983 test, the initial leakage was found to be 1059.6 cfh. The established limit is 5.0 scfh. RF-16CV was disassembled and the seat was lapped. A new valve disc was installed with a soft seat ring. The hinge pins, bushings, pressure seals, and seal rings were replaced. After the repair, leakage was reduced to 0 scfh.
RF-16CV is an Anchor 18" tilting disc check valve.
X-9A Reactor Feedwater Supply Line. RF-15CV (outboard line A feedwater check valve), RCIC-AO-22 (RCIC pump discharge testable check valve), and RCIC-MO-17 (RCIC pump discharge testable check valve bypass)., _ _
e.
In the August 1983 test, the initial leakage could not be accurately measured, but it was determined to exceed established limits. The established limit is 7.0 scfh.
RF-15CV was disassembled and the seat was lapped. A new valve disc was installed with a soft seat ring. The hinge pins, bushings, pressure seals, and seal rings were replaced. After the repair, leakage was reduced to O scfh. RF-15CV is an Anchor 18" tilting disc check valve.
'X-9B Reactor Feedwater Supply Line. RF-14CV (inboard line B feed-water check valve).
In the August 1983 test, the initial leakage could not be accurately measured, but it was determined to exceed i
established limits. The established limit is 5.0 scfh.
RF-14CV was disassembled and the seat was lapped. A new valve disc was installed with a soft seat ring. The hinge pins, bushings, pressure seals, and seal rings were replaced. After the repair, leakage was reduced to O ccfh. RF-14CV is an
, Anchor 18" tilting disc check valve.
X-9B Reactor Feedvater Supply Line. RF-13CV (outboard line B feedwater check valve), HPCI-AO-18 (HPCI pump discharge testable check valve), and HPCI-MO-57 (HPCI pump discharge testable cheqk valve bypass).
In the August 1983 test, the initial leakage could not be accurately measured, but it was determined to exceed established limits. The established limit is 7.0 scfh.
4 RF-13CV was disassembled and the seat was lapped. A new valve disc was installed with a soft seat ring. The hinge pins, bushings, pressure seals, and seal rings were replaced.
HPCI-AO-18 was disassembled, the disc and seat were lapped, and the valve was reassembled. HPCI-MO-57 was disassembled, the disc and seat were lapped, and the valve was reassembled.
After the repair, leakage was reduced to 0 scfh. RF-13CV is an Anchor 18" tilting disc check valve, HPCI-AO-18 is an Atwood &
Morrill 14" testable check valve, and HPCI-MO-57 is a Conval 2" globe valve.
X-10 RCIC Turbine Steam Supply Line. RCIC-M0-15 (inboard isolation valve) and RCIC-MO-16 (outboard isolation valve).
In the July 1982 test, the initial leakage was found to be 17.79 cfh. The established limit is 2.0 scfh. RCIC-M0-15 was disassembled and the gate was lapped. After repair, the leakage was reduced to 1.87 cfh.
m,
-e In the August 1983 test, the initial leakage was found to be 7.74 cfh. The established limit is 2.0 scfh. RCIC-MO-16 was disassembled, the gate lapped, the seat cleaned, and the valve was reassembled. After repair, the leakage was reduced to.89 cfh. RCIC-MO-15 and RCIC-MO-16 are Anchor 3" gate valves with Limitorque motor operators.
X-13A RIIR Loop "A" Supply to RPV.
RHR-MO-25A (loop "A" inboard injection block) and RHR-MO-27A (loop "A'.' outbocrd injection block).
In the May 1981 test, the initial leakage.was found to be 34.12 cfh. The established limit is 10 scfh. RHR-MO-25A was disas-sembled and the seats were lapped, seal rings replaced and reassembled. After repair of RHR-M0-25A, the leakage was O scfh.
In the August 1983 test, the initial leakage was found to be 40.53 cfh. The established limit is 10 scfh. RHR-M0-25A was disassembled, found a hair line crack through the gate, welded the crack in the gate, and machined the gate seating surface.
The valve seat was lapped and the valve was reassembled.
RHR-MO-27A was not repaired or adjusted; therefore, primary containment would have been maintained by this valve. After repair, the leakage was reduced to 8.27 cfh.
RHR-MO-25A is an Anchor 24" gate valve.
X-14 RWCU, Inlet to RWCU System.
RWCU-MO-15 (supply inboard isolation) and RWCU-MO-18 (supply outboard isolation).
In the May 1981 test, the initial leakage was found to be 39.67 cfh. The established limit is 2.0 scfh.
RWCU-M0-15 and RWCU-MO-18 were disassembled and gates removed and lapped, seals cleaned and reassembled. After reassembly, tl.e leakage check was 39.6 sefh. The leakage was determined to be from RWCU-MO-15.
Even though the leakage was above the established limit, further repair was not initiated because of the safety margin in the established limits. Primary containment would be maintained by the outboard isolation valve.
In the July 1982 test, the initial leakage was found to be 75.38 cfh. The established limit is 2.0 scfh. RWCU-MO-15 was removed and replaced with a new valve identical to the original. After the new valve was installed, the leakage was
.99 sefh..
=...
In the August 1983 test, the initial leakage was found to be 14.28 cfh. The es:ablished limit is 2.0 scfh.
RWCU-MO-15 was disassembled, the r. eat and disc lapped, and the valve was reassembled. After repair, the leakage was reduced to.40 cfh.
RWCU-MO-15 and MO '.8 are Anchor 6" gate valves.
X-25 Purge and Vent Supply to Drywell. PC-232MV (inboard isolation valve) and PC-238AV (outboard isolation valve).
In the August 1983 test, the initial leakage was found to be 353.46 gfh. The established limit is 5.0 scfh. PC-232MV was disassembled and the rubber seating ring was replaced. After repair, the leakage was reduced to 1.73 cfh. PC-232MV and PC-238AV are Allis-Chalmers 24" butterfly valves.
X-26 Purge and Vent Exhaust from the Drywell. PC-231MV (inboard isolation valve), PC-306MV (inboard isolation valve bypass),
PC-246AV (outboard isolation valve), and ACAD-1310MV (ACAD drywell vent).
In the August 1983 test, the initial leakage was found to be 78.7 cfh. The established limit is 5.0 scfh. PC-306MV was disassembled, the seat and gate were lapped, and the valve was reassembled. After repair, the leakage was reduced to 4.83 cfh. PC-246AV and ACAD-1310MV were not repaired or adjusted; therefore, primary containment would have been maintained by the outboard isolation valves. PC-306MV is an Anchor 2" gate valve.
X-39B ACAD "B" Loop Supply to the Drywell. ACAD-1311MV inboard isolation valve) and ACAD-1312MV (outboard isolation valve),
t In the May 1981 test, the initial leakage was found to be.39 cfh. The established limit is 0.1 scfh. ACAD-1311 Limitorque motor operator was adjusted. After adjustment the leakage was reduced to.08 scfh.
In the August 1983 test, the initial leakage was found to be 0.46 cfh. The established limit is 0.1 scfh. ACAD-1311MV was replaced with a new valve identical to the old one.
After repair, the leakage was reduced to 0.09 cfh. ACAD-1311MV is an Anchor 1" gate valve.,
e X-205 ACAD Purge Supply Line to the Suppression Chamber, ACAD-1303MV (outboard isolation valve) and ACAD-1304MV (inboard isolation valve).
In the May 1982 test, the initial leakage was too rapid to determine an initial leak rate. The established limit is.1 scfh. The gate was removed and lapped, the seats were cleaned, and the valve reassembled. Retest indicated ACAD-1303MV was not shutting tightly. A new Limitorque was installed on the valve. After replacement of the Limitorque, the leak rate was reduced to.007 scfh. ACAD-1304MV was not repaired or adjusted; therefore, primary containment would have been maintained by the inboard isolation valve ACAD-1304MV. The leaking valve is an Anchor 1" gate valve with a Limitorque operator.
X-210B RHR Loop "B" Minimum Flow Line.
RHR-MO-16B (RHR pumps minimum flow bypass), RHR-llCV (RHR pump B minimum flow check valve),
and RHR-13CV (RHR pump D minimum flow check valve).
i In the August 1983 test, the initial leakage was found to be
-1704.49 cfh.
The established limit is'l.0 scfh. RHR-MO-16B was disassembled, the seat and disc was lapped, and the valve was reassembled.
RER-llCV and RHR-13CV were disassembled, the discs and seats were cleaned, and the valves were reassembled.
After repair, the leakage was reduced to 0.71 cfh.
RHR-MO-16B i
is an Anchor 4" gate valve. RHR-llCV and RHR-13CV are Anchor 3" check valves.
X-210B & 211B RHR to Suppression Pool, RHR-MO-34B (suppression pool cooling inboard isolation valve) - RHR-MO-38B (suppression pool inboard i
spray isolation valve) and RHR-M0-39B (suppression pool cooling and spray outboard isolation valve).
In the May 1981 test, the initial leakage was found to be 210 cfh. The established limit is 8.0 scfh. RHR-M039B was disas-l sembled, the seats and gate were lapped, and a new bonnet gasket installed. The valve was reassembled and tested. After repair of RHR-MO-39B, the leakage was 1.68 cfh. RHR-MV-34B and RHR-MO-38B were not repaired or adjusted.
4 In the July 1982 test, the initial leakage was found to be 126.12 cfh. The established limit is 8.0 scfh. RHR-M0-34B was disassembled, the seat was lapped, the disc seating surface was cut down on a lathe, and a new bonnet gasket installed.
RHR-MO-38B was disassembled, the seat and plug were cleaned. "
s e
and a new bonnet gasket installed. RHR-MO-39B was disassem-bled, the seat was lapped, and a new bonnet gasket installed.
After repairing these valves, the leakage was 13.0 cfh.
Even though the leakage was above the established limit, further repair was not initiated because of the safety margin in the established limits.
In the August 1983 test, the initial leakage was found to be 44.14 cfh. The established limits is 8.0 scfh. RHR-MO-34B was disassembled, the seat was machined, the disc seating surface was weld built up and machined, and the valve was reassembled.
RHR-MO-39B was disassembled, the seat and gate were machined, and the valve was reassembled. After repairing these valves, the leakage was reduced to 1.26 cfh.
RHR-MO-34B is an Anchor 18" globe valve, RHR-MO-39B is an Anchor 18" gate valve, and RHR-M0-34B is an Anchor 18" globe valve.
X-212 RCIC Turbine Exhaust to the Suppression Chamber, RCIC-15CV and RCIC-37.
In the May 1981 test, the initial leakage was found to be 9.3 cfh. The established limit is 1.0 scfh. RCIC-37 was disassem-bled for repair and indicated rough seating surfaces. The seats were lapped and the disc cleaned and the valve'reassem-bled. After repair to RCIC-37, the leakage rate was 2.3 scfh.
Even though the leakage was above established limit, further repair was not initiated because of the safety margin in the established limits.
In the July 1982 test, the initial leakage was found to be 9.87 cfh. The established limit is 1.0 scfh. RCIC-15CV was disas-sembled, the seat was lapped, the disc was cleaned, and a new gasket was installed.
RCIC-37 was disassembled, the seat and disc were cleaned, and a new bonnet gasket was installed.
After repairs, the leakage was reduced to 2.47 cfh.
Even though this value was above the established limit, further repair was not initiated because of the safety margin in the established limit.
In the August 1983 test, the initial leakage was found co be 48.86 cfh. The established limit is 1.0 scfh. RCIC-37 was replaced with a new valve identical to the old one.
RCIC-15CV was disassembled, the seat was lapped, the seating surface of the disc was machined, and the valve was reassembled. After repair, the leakage was reduced to 0.98 cfh. RCIC-15CV is an Anchor 8" check valve and RCIC-37 is an Anchor 8" globe valve.
L
., ~ _,
- - - _. - -, _,. - _.._ ~. -,.
_. ~
6 e:
.X-214 HPCI Turbine Exhaust to the Suppression Chamber, HPCI-15CV and HPCI-44.
In the July 1982 test, the initial leakage was found to be 10.11 cfh. The established limit is 2.0 scfh. HPCI-15CV was disassembled and the disc and seat were lapped. After repair, the leakage was 2.89 scfh. Even though the leakage was above the established limi:, further repair was not initiated because of the safety margin in the established limits. HPCI-15CV is an Anchor 20" check valve.
1 X-220 Primary Containment Purge and Vent Exhaust From Suppression Chamber. PC-MO-230 (inboard isolation valve) PC-AO-245 (outboard isolation valve). PC-57MV (inboard isolation bypass) and ACAD-1308MV (ACAD torus vent).
In the May 1981 test, the initial leakage was too rapid to determine an initial leak rate. The established limit is 5.0 l
scfh. PC-AO-245 was disassembled and the rubber seating ring replaced. After repair, the leakage was 2.8 scfh. PC-230MV i
and PC-57MV were not repaired or adjusted. Therefore, primary containment would have been maintained by the inboard isolation valves.
4 i
In the July 1982 test, the initial leakage was too rapid to determine an initial leak rate. The established limit is 5.0 s c fl.. PC-AO-245 was disassembled and the rubber seating ring replaced. After repair,_the leakage was 2.84 scfh. PC-MO-230 and PC-M0-305 were not repaired or adjusted; therefore, primary containment would have been maintained by the inboard isolation valves.
i l-In the August 1983 test, the initial leakage was found to be 113.8 cfh. The established limit is 5.0 scfh. PC-230MV was disassembled and the rubber seating ring replaced. After repair, the leakage was 4.55 cfh. PC-245AV was not repaired or adjusted; therefore, primary containment would have been maintained by the outboard isolation valve. PC-230MV and 4
PC-245AV are Allis-Chalmers 24" butterfly valves.
X-221 RCIC Vacuum Pump Dircharge to Suppression Chamber.
The test volume for this penetration is between RCIC-12CV and manual valve RCIC-42.
In the May 1981 test, initial leakage I...- -
-s
.9 was found to be 2.23 cfh. The established limit is.1 scfh.
RCIC-12CV was disassembled and was found to have a dirty seat causing improper seating. The seat was cleaned and the valve reassembled. After reassembly and ret'est, the leakage was.09 3
scfh. RCIC-12CV is an Anchor 2", 600// check valve.
X-223B Core Spray ? ump "B" Minimum Flow Recire Isolation.
1 The test volume for this penetration is between CS-MOV-MOSB and-CS-V-25.
In the May 1981 test, the initial leaking test showed a leak rate of 7.86 cfh. The established limit is 1.0 scfh.
CS-MO-5B and CS-V-25 were both disassembled. New seat rings were installed in CS-MOV-5B and the gate was lapped followed by blue check of seats. The stem and seats of CS-V-25 were cleaned and reassembled with new gasket. After repair to the two valves, the retest leakage was.13 scfh.
In the August 1983 test, the initial leakage was found to be 881.6 cfh. The established limit is 1.0 scfh.
CS-MO-5B was disassembled, a new seat installed, the gate was lapped, and the valve reassembled. After repair, the leakage was O cfh.
CS-MO-5B is an Anchor 3" gate valve and CS-V-25 is an Anchor 3" globe valve.
a X-225A RHR Pump "A" Suction from Torus. RHR-MO-13A (suction isolation valve).
In the August 1983 test, the initial leakage was found to be 4.61 cfh. The established limit is 3.0 scfh.
RHR-MO-13A was disassembled, the seat was lapped, a new disc installed, and the valve reassembled. After repair, the leakage was reduced to 3.0 cfh. RHR-M0-13A is an Anchor 20" gate valve.
X-226 HPCI Pump Suction from the Suppression Chamber, HPCI-M0-58.
L In the July 1982 test, th. initial leakage was found to be 15.96 cfh. The established limit is 3.0 scfh. HPCI-MO-58 was l
disassembled, the seat and gate were lapped, and a new bonnet gasket installed. After repair, the leakage was 3.755 cfh.
l Even though the leakage was above the established limit, further repair was not initiated because of the safety margin in the established limits.
[ i.
~
J i_-
In'the August 1983 test,' the initial-leakage was found to be 25.91 cfh. The established limit is 3.0 scfh. HPCI-MO-58 was disassembled, the_ gate and seat were polished, and the valve was reassembled. After repair, the leakage was 4.44 cfh.
Even though the leakage was above the established limit, further repair was not initiated because of the safety margin'in the established limits. HPCI-MO-58 is an Anchor 16" gate valve.
1 1
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0 4
ATTACHMENT A TEST INSTRIIMENTATION i
}
}
t A-1 i
s
4
.e Test Instrumentation Instruments used in the ILRT are listed below.
Table A-1:
Pressure, AP and Flow Instruments Manufacturer Model Use Heise (0-100 psig)
CMM Drywell Pressure Heise (0-100 psig)
CMM Ref. Chamber Pressure Texas Inst.
145-01 Drywell/Ref. Chamber AP Texas Inst.
145-01 Containment Absolute Pressure Fischer & Porter
' 10A3565 Superimposed Flow 6
I i
I l
A-2 l
e Table A-1: Temperature and Dew Cell Instruments Weighting Manufac-Instrument Location Factor turer (1)
TE-500A Dryve11-905' Level-Beside Fan Coil Unit A 0.0270
+
TE-5003 Drywell-905' Level-Beside Fan Coil Unit B 0.0270
+
TE-500C Drywell-905' Level-Beside Fan Coil Unit C 0.0270
+
TE-500D Drywell-905' Level-Boside Fan Coil Unit D 0.0270
+
-TE-501B Drywell-915' Level-Back Fan Coil Unit B 0.0270
+
TE-501C Drywell-915' Level-Back Fan Coil Unit C 0.0270
+
TE-501D Drywell-915' Level-Back Fan Coil Unit D 0.0270
+
TE-502A Drywell-901' Level-Near RR Pump A-Under 0.0750 0
Grating TE-502B Drywell-901' Level-Near RR Pump B-Under 0.0750
+
Grating TE-505A Drywell-959' Level-0*
0.0300 0
TE-5.05C Drywell-959' Level-144' O.0300 0
TE-505E Drywell-959' Level-288*
0.0300 0
TE-510A Drywell-976 ' Level-0*
0.0250 0
TE-510B Drywell-976' Level-72*
0.0250 0
TE-510C Drywell-976' Level-144*
0.0250 0
TE-510D Drywell-976' Level-216*
0.0250 0
TE-PC-1 Torus-North Side-Bay #7-0*
0.1180 TE-PC-2 Torus-West Side-Bay #2-90*
0.1180 TE-PC-3 Torus-South Side-Bay #16-180*
0.1480 TE-PC-4 Torus-East Side-Bay #10-270*
0.1180 ME-PC-5 Drywell-905' Level-Front of Personnel Hatch 0.1500 F
ME-PC-6 Drywell-910' Level-South Side Fan Coil 0.1500 F
Unit A ME-PC-7 Drywell-910' Level-West Side RR Pump B 0.1000 F
ME-PC-8 Drywell-938' Level-South East Side 0.1500 F
ME-PC-9 Torus-South Side-Bay #16-180*
0.2250 F
ME-PC-10 Torus-North Side-Bay #7-0*
0.2250 F
(1). * - Foxboro Platinum (1000)
+ - YSI Sostman Platinum (1000) 0 - YSI Sostman Nickel (1000)
F - Foxboro A-3
4 0
i
=
ATTACHMENT B REFERENCE CHAMBER TEST EATA B-1
a Reference Chamber Test From August 31, 1983 at 1400 hours0.0162 days <br />0.389 hours <br />0.00231 weeks <br />5.327e-4 months <br /> to September 1, 1983 at 2200 hours0.0255 days <br />0.611 hours <br />0.00364 weeks <br />8.371e-4 months <br />.
Hours Data from Press.
Average Total Set T=0 Abs.
Temp.
LR(%)*
1 0
75.482 107 2
1 75.500 107.25
.486 3
2 75.525 107.25
.154 4
3 75.561 107
.008 5
4 75.571 108
.004 6
5 75.587 107.75
.033 7
6 75.587 107.75
.027 8
7 75.592 107.75
.046 9
8 75.530 106.25
.588 10 9
75.509 106.25
.449 11 10 75.502 106.25
.382 12 11 75.515 106.25
.384 13 12 75.463 105
.657 14 13 75.426 104.25
.762 15 14 75.400 104
.725 16 15 75.388 103.75
.722 17 16 75.379 104.25
.525 18 17 75.378 104.25
.492 19 18 75.340 104.75
.279 20 19 75.352 104.50
.341 21 20 75.351 104.50
.322 22 21 75.310 103
.550 23 22 75.300 013.25
.460 24.
23 75.311 103.25
.457 25 24 75.330 103.75
.374 26 25 75.342 103.75
.374 27 26 75.356 104.50
.254 28 27 75.356 105
.166 29 28 75.39 105.25
.161 30 29 75.39 106
.045 31 30 75.39 105.5
.114 32.
31 75.388 105.75
.074 33 32 75.389 106
.046 1 -[I Ph l
2 (100) 24
- Percent Leak Rate =
Pj h
d2 y
T = Mean absolute temperature of the containment structure air at the g
beginning of the' test.
T = Mean absolute temperature of the containment structure air at the end of 2
each hourly test period.
P = Total absolute pressure in the containment structure at the beginning of y
the test.
P., = Total absolute pressure in the containment structure at the end of each 3
hourly test period, i
i h - I.ength of test interval (hours).
B-2
a e
ATTACHMENT C: 8 HOUR TEST
SUMMARY
DATA AND GRAPHS C-1
8 COOPER IPCLRT--STRBILIZRTION PERIOD B/25/83 s2..
m si..
g 0
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10 TIME FROM TEST STRRT CHR5)
- 72. EE..
m C_72.2E :
^
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Ln Ln L.d 71.7E..
ct 1
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9 12 TIME FROM TEST STRRT CHR5) m s 19.88..
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7 8
9 IB TIME FROM TEST STRRT CHR5)
C-2 l
i C
C00PER1 DATE:
8/
27/
83 IPCLFT--
SUMMARY
OF INPUT DATA DATA HRS.
REF. CONT CONT.
AVG.
AVG.
SET FROM DP PRESS.
TEMP.
DEWPOINT NO T=0 PSID PSIA DEG.F IN.H2O 1
0.00 0.9614 72.110 90.306 17.0680 2
0.33 0.9614 72.110 90.310 17.0732 3
0.67 0.9630 72.102 90.261 17.0603 4
1.00 0.9678 72.098 90.297 17.0823 5
1.33 0.9691 72.093 90.228 17.0748 6
1.67 0.9696
-72.088 90.236 17.0886 7
2.00 0.9705 72.083 90.245 17.0835 8
2.33 0.9765 72.076 90.225 17.0904 4
? 67 0.9750 72.074 90.220 17.0555 10 3.00 0.9750 72.070 90.249 17.0648 11 3.33 0.9741 72.064 90.220 17.1434 l'
' 67 0.9764 72.064 90.200 17.1088 13 4.00 0.9806 72.056 90.144 17.0861 14 4.33 0.9796 72.051 90.098 17.0946 15 4.67 0.9805 72.046 90.094 17.0539 16 5.00 0.9819 72.044 90.083 17.1119 17 5.33 0.9814 72.040 90.080 17.1176 18 5.67 0.9874 72.034 90.057 17.1094 19 6.00 0.9846 72.029 90.048 17.1064 20 6.33 0.9892 72.021 90.026 17.0888 21 6.67 0.9859 72.017 89.988 17.1026 22 7.00 0.9908 72.017 89.969*
17.1185 23 7.33 0.9870 72.008 89.978 17.1000 24 7.67 0.9937 72.001 89.915 17.1098 25 8.00 0.9958 71.996 89.889 17.0998 c-3
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4 0
C00PER1 DATE:
8/
27/
83 IPCLRT--
SUMMARY
OF REFERENCE VESSEL LEAK RATE CALCULATIONS DATA
. HRS.
CONT.
POINT-POINT TOTAL TIME PROJECTED 95%
SET FROM MASS LEAK LEA'M 24HR LEAK UCL NO.
T=0 LBS.
RATE RATE RATE 1
0.00 85097.81 0.060 0.000 0.000 0.000 2
0.33 85097.60 0.018 0.018 0.000 0.000 3
0.67 85096.08 0.128 0.073 0.000 0.000 4
1.00 85089.55 0.553 0.233 0.223 1.626 5
1.33 85088.08 0.124 0.206 0.233 0.580 6
1.37 85086.92 0.098 0.184 0.216 0.317 7
2.00 85086.10 0.070 0.165 0.195 0.212 8
2.33 85078.59 0.635 0.232 0.223 0.199 4
' 67 85081.86
-0:277 0.169 0.202 0.159
.0 3.00 85081.56 0.025 0.153 0.182 0.130 11
.3.33 85079.16 0.203 0.158 0.172 0.113 12 3.67 85077.83 0.112 0.154 0.164 0.100 13 4.00 85073.62 0.357 0.171 0.166 0.094 14 4.33 85074.28
-0.056 0.153 0.160 0.086 15 4.67 '
85074.94
-0.056 0.138 0.151, 0.078 16 5.00 85070.75 0.355 0.153 0.150 0.073 17 5.33 85071.09
-0.029 0.141 0.145 0.068 19 5.67 85064.22 0.581 0.167 0.150 0.067 19 6.00 85067.64
-0.290 0.142 0.146 0.063 20 6.33 85062.85 0.406 0.156 0.147 0.061 21 6.67 85066.05
-0.271 0.134 0.142 0.058 22 7.00 85059.46 0.558 0.154' O.144 0.057 23 7.33 85064.82
-0.453 0.127 0.138 0.053 24 7.67 85056.19 0.730 0.153 0.140 0.052 25 8.00 85054.03 0.183 0.154 0.142 0.052 c-10
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CE2 E52 (ESHhE,'!;1M) 3.!.BB MB31 1
s o
C00PER1 DATE:
8/
27/
83 IFCLRT--
SUMMARY
OF ABSOLUTE METHOD LEAK RATE CALCULATIONS DATA HR8.
CCHT.
FOINT-POINT TOTAL TIME PROJECTED 95%
SET FROM MASS LEAK LEAK 24HR LEAK UCL N O.,
T=0 LBS.
RATE RATE RATE 1
0.00 85097.81 0.000 0.000 0.000 0.000 n.33 85096.97 0.071 0.071 0.000 0.000 3
0.67 85095.54 0.121 0.096 0.000 0.000 4
1.00 85084.30 0.950 0.381 0.355 2.639 5
1.33 85089.31
-0.423 0.180 0.251 0.723 6
1.67 85081.54 0.657 0.275 0.279 0.437 7
2.00 85074.50 0.596 0.329 0.323 0.361 8
2.33 85068.93 0.471 0.349 0.354 0.319 9
2.67 85068.85 0.007 0.306 0.345 0.269 10 3.00 85059.14 0.822 0.364 0.367 0.255 11 3.33 85053.13 0.508 0.378 0.385 0.245 12 3.67 85057.72
-0.389 0.308 0.366 0.217 13 4.00 85057.80
-0.006 0.282 0.342 0.192 14 4 33
- 85058.69
-0.075 0.255 0.315 0.170 15 4.67 85054.97 0.315 0.259 0.297 0.153 16 5.00 85051.81 0.268 0.259 0.285 0.141 17 5.33 85047.34 0.378 0.267 0.278 0.131 18 5.67 85044.01 0.282 0.268 0.274 0.124 19 6.00 85039.63 0.370 0.273 0.272 0.118 20 6.33 85034.23 0.458 0.283 0.273 0.115 21 6.67 85034.75
-0.044 0.267 0.270 0.110 22 7.00 85037.02
-0.192 0.245 0.262 0.104 23 7.33 85025.77 0.953 0.277 0.264 0.101 24 7.67 85026.78
-0.085 0.261 0.261 0.098 25 8.00 85025.28 0.127 0.256 0.258 0.094 C-13
f o
4 1
l ATTACHMENT D: 8 HOUR TEST - INTERVAL DATA SETS Absolute Method.
D-2 Reference Chamber Method D-28 1
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INTERVAL DATA SETS - ABSOLUTE METiiCD 6
O O
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9 0
C00PER1 PR{ MARY CONTAINMENT ILRT-,--ABSOLUTE METHOD SET
'1
.1' o
I;rO;. DATA,.ha.HUMBER8Nb26A>'83\\.M.If..4 0 'W.7. : Ju.
t. 'tJ. t J l i #.-- - F %./.2 r".
DATE:
3l-T O!00 9 7JHOU S FROM T=0? i0700, i!
LAST'INTERVALM URSI '
i
,(-
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- p
~:(-
WT. FACT
', DEWPOINT.(DEG.F) ;WT.FAC, TOR, ";,
- SENSCR 4.:--- ----.
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[l 8 8'. 5I(.? O.' 00 )~
O.027
'.f9.420< 0.000) 0.150' L
>2
" 89!84(!0.00) 0.027 80.220(.0.000) 0.150
,~2 81.550('O.000)'
O.150 88.97(i0.00).
O.027 '
.i.79.500( 0.000)-
0.100:
3' 89.'65C.O.~00) 0.027 4-
. ' 0.225... S 6
' '7d'89.38('O.00)P 0.027 Y #.86.500<s0.000) 5' i
89.11<70.00) ' O.027.' '
'87.350(.0.000); ~ '"0.225'!
,4. "
7''l'89;38(.0.~00){0.027.
90.37( 0.00) 0.075' 8
9
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. 0.025'.
h 15
,90.03(.0.00) 0.025 16 90.37( 0.00) 0.025 i
'..' I 1T
.SO.92(,0.00) 0.118 18
- 91. 05 ('. 0.' 00 )
- 0.118 19 l91.33<r0.00) 0.118 20-
.90.37< 0.00)
- 0.118 t
a 4
i.
i DRiWELL PRESSURE =
72.1100 0,0000) PSI A AVG. CONT.. TEMP =
90.306
(
0.0000)
DEG. F.-
AVG. DEWPOINT PRESS =
0.616
(
0.0000)
PSIA.,
CONTAINMENT:TO.TAL. MASS (DRY' AIR.)='
85097.81 POUNDSi NO LEAKAGE RATE VALUE' CALCULATED.FOR DATA SET #1 4.;;, g. '
- ,. " c,
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C C00PER1 FRIMARY CONTAltir1ENT ILRT----RESOLUTE T1ETHOD DATA SET nut 1EER 2
DATE:
8/
26/
93 2000 L65T INTERVALS HOURS 0.33 HOURS FR0t1 T=0 0.33 SEN30R #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
58.56( 0.00) 0.027 79.500(.0.090) 0.150 2
58.84< 0.00) 0.027 79.900(-0.320) 0.150 3
58.97< 0.00) 0.027 81.550< 0.000) 0.150 4
69.65< 0.00) 0.027 79.500( 0.000) 0.100 5
59.52< 0.14) 0.027 86.700( 0.200) 0.225 6
29.52< 0.14) 0.027 87.350< 0.000) 0.225 7
$9.25< 0.14) 0.027 3
90.45< 0.08) 0.075 9
39.19( 0.00) 0.075 10 59.86( 0.00) 0.030 11 39.69< 0.00) 0.030 12 90.20( 0.00) 0.030 13 92.72< 0.00) 0.025 14 90.03< 0.00) 0.025 15 90.03( 0.00) 0.025 16 90.45< 0.0$)
0.025 17 90.92< 0.00) 0.118 13 90.92(-0.19) 0.119 19 91.33< 0.00) 0.118 20 90.37( 0.00) 0.118 DRYWELL PRESSURE =
72.1100
(
0.0000)
PSIA AVG. CONT. TEMP =
90.310
(
0.0040)
DEG.F AVG. DEWPOIt1T PRESS =
'O.616 0.0002.)
PSIA INTERVAL 1
LEAK RATE =
0.071 WT%/24 HRS TOTAL TIME LEAK RATE =
0.071 WT%/24HR$
MASS PLOT-CONTAIt1 MENT LEAKAGE RATE At1ALY3YS CONTAINMENT TOTAL MASS (DRf AIR)=
65096.97 POUNDS FROJECTED LEAK RATE t10T CALCULATED
<<4 DATA ?ET3) l r1AXIMUt1 ALLOWAELE LEAK RATE (0.75+LA)=
0.476 WT%/24HFS l
i D-4 l
e o
C00 PEP 1 PRIMARY CONTAINMEt4T ILRT----A550 LUTE METHOD DATA SET NUMEER 4
DATE:
8/
26/
33 2040 LPST INTERVAL, HOURS 0.32 HOURS FROM T=0 1.00 SENSOR #
TEMF(DEG.:)
WT. FACTOR DEWFOIt1T (DEG.F)
68.56( 0.00) 0.027 79.550( 0.030) 0.150 2
58.97< 0.13) 0.027 80.150( 0.150) 0.150 3
98.97( 0.00) 0.027 81.750( 0.030) 0.150 4
$9.79< 0.14) 0.027 79.530( 0.000) 0.100 5
89.52( 0.14) 0.027
?6.550( 0.050) 0.225 6
89.38( O'.00) 0.027 87.270( 0.000) 0.225 7
39.25( 0.14) 0.027 8
90.45< 0.00) 0.075 9
39.19( 0.00) 0.075 10 39.73< 0.00) 0.030 11 89.69( 0.00) 0.030 12 90.26< 0.08) 0.030 13 92.72< 0.00) 0.025 14 90.03< 0.00) 0.025 15 90.03( 0.00) 0.025 16 90.45< 0.08) 0.025 17 90.92< 0.00) 0.118 19 90.92< 0.00) 0.118 19 91.19< 0.00) 0.118 20 9G.37< 0.14:
0.118 2
DRYWELL FRES$URE=
72.0.480
( -0.0040)
PSIA AVG. C0tlT. TEMF=
90.297
(
0.0357)
DEG.F AVG. DEWP0 INT PRESS =
0.616
(
0.0008)
PSIA INTERVAL 3
LEAK RATE =
0.950 WT%/24 HRS TOTAL TIME LEAK RATE =
0.381 WTN/24 HRS -
MASS FLOT C0tITAINMENT LEAKAGE RATE At4ALYSYS CONTAIt1 MENT TOTAL MASS (DRY AIR)=
85054.30 POUtlDS FROJECTED LEAK RATE =
0.355 WT%/24HR$
95*. CONFIDENCE ItlTERVAL=
+/-
2.639 UT%/24 HRS 95': UPPER CONFIDENCE LEAK RATE =
2.993 UT%/24 HRS MANIMUM ALLCUASLE LEAK RATE (0.75+LA)=
0.476 WT*;/24HPS D-6
e f
C00PER1 FRIf1ARY CONTAINf1ENT ILRT----ABSOLUTE METHOD DATA SET NUMEER 3
DATE:
8/
26/
S3 2020 LABT INTERV9L HOURS 0.33 HOURS FROM T=0 0.67 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.56C 0.00) 0.027 79.500< 0.000) 0.150 2
88.84< 0.00) 0.027
?O.000( 0.100) 0.150 3
88.97( 0.00) 0.027 81.720( 0.170) 0.150 4
89.65< 0.00) 0.027 79.530< 0.000) 0.100 5
89.38(-0.14) 0.027 86.500(-0.200) 0.225 6
89.38(-0.14) 0.027 87.270(-0.030) 0.225 7
89.11(-0.14) 0.027 3
90.45( 0.00) 0.075 9
89.19< 0.00) 0.075 10 89.78(-0.08) 0.050 11 59.69< 0.00) 0.030 12 90.20< 0.00) 0.030 13 92.72< 0.00) 0.025 14 90.03( 0.00) 0.025 15 90.03< 0.00) 0.025 16 90.37(-0.08) 0.025 17 90.92< 0.00) 0.118 I?
90.92< 0.00) 0.118 19 91.19(-0.14) 0.118 20 90.23(-0.14) 0.113 DRYWELL PRESSURE =
72.1020
< -0.0080)
PSIA AVG. CONT. TEMP =
90.261
( -0.0487)
DEG.F AVG. DEWFOINT PRESS =
0.'615
( -0.0005)
PSIA INTERVAL 2
LEAK RATE =
O.121 WT%/2dHRS TOTAL TIME LEAK RATE =
0.096 UT'/24HPS MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAINf1EHT TOTAL MASS (DRY AIR)=
$5095.54 POUNDS FROJECTED LEAK RATE NOT CALCULATED
<<4 DATA SET 3) r MA;;IMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 UT'./24HES 1
D-5
e O.
COOPER 1 PRITIARY CONTAINMENT ILRT----A850LIJTE METHOD DATA SET NUMEER 5
DATE:
8/
26/
83 2100 LAST IllTERVAL, HOURS 0.33 HOURS FROM T=0 1.33 set 450R #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
$8.56< 0.00) 0.027 79.500(-0.030) 0.150 2
88.84(-0.13) 0.027 80.000(-0.150) 0.150 3
88.97< 0.00) 0.027 31.830< 0.080) 0.150 4
89.65(-0.14) 0.027 79.530< 0.000) 0.100 5
89.38(-0.14) 0.027 36.550( 0.000) 0.225 6
89.38( 0.00) 0.027 87.270< 0.000) 0.225 7
89.11(-0.14) 0.027 8
90.45< 0.00) 0.075 9
89.19( 0.00) 0.075 10 89.78C 0.00) 0.030 11 89.69< 0.00) 0.030 12 90.20(-0.08) 0.020 13 92.72( 0.00) 0.025 14 90.03< 0.00) 0.025 15 90.03< 0.00) 0.025 16 90.37(-0.08) 0.025 17 90.78(-0.14) 0.118 18 90.78(-0.14) 0.118 19 91.19( 0.00) 0.118 20 90.23(-0.14) 0.118 DRYWELL PRESSURE =
72.0930
( -0.0050)
PSIA AVG..C0t1T. TEMP =
90.229
( -0.0687)
DEG.F AVG. DEWPOINT PRESS =
0.616
( -0.0003)
PSIA INTERVAL 4
LEAK RATE =
-0.422 WT%/24 HRS TOTAL TIME LEAK RATE =
0.180 WT%/24 HRS MASS FLOT CONTAINMENT LEAKAGE RATE ANALYSYS C0t4 TAINT 1ENT TOTAL MASS (DRY AIR)=
$5089.31 POUT 4DS PROJECTED LEAK RATE =
0.251 WT%/24 HRS l
9 5 :. C 0 t4F I D E t1C E It1T E R V A L =
+/-
0.723 WT%'24 HRS l
95%' UPPER CONFIDENCE LEAK RATE =
0.974 WT%/24 HRS MANIMUt! ALLOWAELE LEAK RATE (0.75-LA)=
0.476 WT'.<2dHES i
l l
1 D-7 i
l I
e C00PER1 PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD DATA SET HUMBER 6
DATE:
8/
26/. 83 2120 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 1.6?
SENSOR # ~1.TEIN EiF[
T. FACTOR ~. 'IiEN' POINT 1 (DEG.F) 'NT. ACTOR'.
1 (88.56(f0. 0 0').
'O.027,
', 79.500( 0.000)
'O.'150't
~
2 88.97( 0.13)'
0.027
.. 80.220< 0.220) 0.'150 3
88.97('0.00) 0.027 81.700(-0.130) 0.150 (9.700< 0.170) 0.100 4
'89.65( 0.00) 0.02<
5 89.38( 0.00) 0.027
-86.550( 0.000) 0.225
~
6 89.38( 0.00).*. 0.027~
'37.270('O.000).
0.225 7
89.11(10.00) 0.027
~
~
^
~,.
~?
< 5 8
90.45(!O.00) :
0.075
-v.
3 ;.
9
~ 8 9.19 ( ' 0. 0 0 ) "- 0.075
~
'~
10 89.78(!0.00) 0.030 11-89.69( 0.00) 0.030 12
.J90.28('0.08) 0.030 92.72(c0.00).-L 0.025.
?-
13
~.
's:
14 "90.03(:0.00) ' O.025
'?
'~.
T.h 15 90.03C 0.00) 0.025 16 90.45( 0.08) 0.025 17 90.78( 0.00) 0.118 18 90.78C 0.00) 0.113 19 91.19('O.00) 0.118 20 90.23( 0.00) 0.118
^
DRYWELL PRESSURE =
~
72.0880
( -0.0050)
PSIA AVG. CONT. TEMP =
90.236
(
0.0079). DEG.F AVG. DEWPOINT PRESS =
0.616
(
0.0005) - PSIA INTERVAL 5
LEAK RATE =
.0.657 WT%/24 HRS TOTAL TIME LEAK. RATE =
0.275 WT%/24 HRS 4
%.: l HASS PLOT-CONTAIHMENT LEAKAGE-RATE ANALY$YS CONTAINMENT TOTAL. MASS.< DRY AIR)=
85081.54 POUNDS PROJECTED LEAK RATE =
0.279
'WT%/24 HRS 95% CONFIDEHCE INTERVAL =
+/-
0.437 WT%/24HR$
95% UPPER CONFIDENCE LEAK RATE =
0.716 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS
=
D-8
C00PER1 PRIMARY CONTAIMMENT ILRT----ABSOLUTE METHOD DATA SET NUMBER 7
DATE:
8/
26/
83 2140 LAST INTERVAL HOURS 0.33 HOURS FROM T=0 2.00 e
E SENSOR.!#
[ TEMP.(DEG.FI NT. FACTOR..
DEUP'I'HT ['(DEGiFE HT,FACTORi,l',qfN 0
A
~
~~
1 89.56( 0.00)".0.027 79'.530( 0.030) 0.150' 2
88.84(-0.13)f"70.027'
. 80.220( 0.000) 0.150 1
3 88.97< 0.00)*
0.027-
' 81.700(~ 0.000).
0.150 4
89.65( 0.00)
'O.027 79.530(-0.170) 0.100
.5 89.38( 0.00).
0.027 86.550( 0.000) 0.225 6
89.52( 0.14) 0.027 87.270( 0.000)
' 0.225
',J r 7
89.25( 0.14) s0.027
~~
6
, - 90. 45( ;0. 00). -;0. 075.
s"v. e,
9
-89.19('0.00) W 0.075 J
.' N 10 89.86(iO.08)
!0'.030
-J 11
.89.69( 0.00)
.0.030 12 90.28( 0.00) 0.030
' 3"u
'.13
'. '90.~03( 0.~00) c'O.025 x'
9 7 '.1/
92.80(.0.08) J..0.025
'14 15
,90.03( 0.00)'
O.025
?.
V 16 90.~45( 0.00) 0.025 17 90.78< 0.00) 0.118 18
.90.78( 0.00) 0.118 i
19 91.19( 0.00) 0.118 20 90.23< 0.00) 0.118 DRYWELL PRESSURE =
72.0830
( -0. 0050). ' PSI A AVG. CONT. TEMP =
90.245
(
- 0. 0034)
DEG.F '
AVG. DEWPOINT PRESS =
0.616
( -0.0002)
PSIA INTERVAL 6
LEAK RATE =
0.596 WT%/24 HRS TOTAL-TIME LEAK RATE =
'O.329 WT%/24 HRS
~
MASS PLOT CONTAIHMENT LEAKACE RATE ANALYSYS r -
COHTAIHMENT TOTAL MASS (DRY AIR)=
'85074.50 POUNDS'
~~
PROJECTED ~ LEAK RATE =
O.323 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.361 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.684 WT%/24 HRS MAXIMUM ALLOWABLE LEA ( RATE (0.75*LA)=
0.476 WT%/24 HRS h
D-9
l*
~
COOPER 1 "
,I
.. PRIMARY.CONTAIHMENT. ILRT"----ABSOLUTE METH0b ;' *..
.----- -.;--- ;T %,.;i.'}-}EI.
>.,.. (-
m r
--.------~------------L--'.:------.-
y DATA S5T'HUMBER
. S .8 " '.',;
,' " ;['
' 7 ',' [ '
~
~
DATE:
8/
26/. 83 2200 LAST INTERVAL:' HOURS' O.33,
.. HOURS.FROM.T=0' 2.33, - i',
.u.. c s
',, C.~ r SENSOR #
TEMP (DEG.F).WTsFACTOR DEWPOINT:.<DEG.F) ' WT. F A C.T OR 31
.1 88.560 0.'00)
' 0.027 79.700(LO.170)
O.150-2 88.97CO.13).
0.027 A 80.220('O.000).
0.150
'3 188.'97WO.00). '.0. 027 c 'r.81.650(-0.050) ', :0.150 e.y PC.F.
? ' '. C' 4
89.65( 0.00)-
- 0. 02 7.' "
- 79.700(z0.170)
J 0.100 5'
8 9. 52 (~.'O.14 )~
' O.027
'56,500(-0.050)
-0.225 t-6 89.52<.'O.00) 0.027 87.270( 0.000) 0.225 8 9.-11 <-0 '14) 0.027 -
"' A
.7 8
c90.~45(F0,00) 0.075a.<?* D. 3,* '..:.
T
'. c 4 -Nd6 M.Q(O
? *'
c '
09.190 0.00)'.1 0.075'
-9
+
10 89.78(-0.08)
'O.030 c".
a i-
.V -
11 89.69( 0.00) 0.030
. v.,
12 90.20(-0.08) 0.030
'L 13 92.72(-0.~08) 0.025 14 90.03(i0.00) 0.025 e-
~'
15 90.03(c0.00) 0.025 0.025 16 90.45(,0,00) _.0.118 17
.90.78C 0.00) 2
~
18 90.78(.0.00) 0.118 19 91.05(-0.14) 0.118..
20 90.23(.0.00) 0.118 DRYWELL PRESSURE =
72.0760
( -0.0070)
PSIA 90.225
( -0.0198)
DEG.F:
AVG. CONT. TEMP =
s 0.616
(- 0.0002)
PSIA _.
AVG. DEWPOINT PRESS =l I1 LEAK RATE = M'
- 0.'471 WT%/24 HRS.'
INTERVAL" 7
0.349.,
HTW24 HRS,
' TOTAL. TIME LERK RATE,-
~
NASS PLOT C0HTAIHMENT LEAKAGE RATE ANALYSYS CONTAIHMENT TOTAL MASS (DRY RIR)=-
- 85068.93 POUNDS PROJECTED LEAK RATE ='
l -
0.354 WT%/24 HRS-95% CONFIDENCE INTERVAL = ~
+/-
0.319 HT%/24 HRS 95% UPPER CONFIDEHCE LEAK RATE =
0.673' WT%/24 HRS
'.n MAXIMUM ALLOWABIE LEAK RATE (0.75*LA)=
-0.476 WT%/24 HRS
= *
- D-10
O C00PER1 PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD DATA SET HUMBER 9
DATE:. 8/- 26/
83
-2220 LAST INTERVAL: HOURS
.' 0. 33 HOURS FROM T=0' 2.67
} -
x-
. m: ~. ; A;.,. v. ; ;; i..
- 9., y. y, %, ;4. t y'. c. & _ =. ;,..
uM~,..gr,9 SENSOR #, 1 TEMP (DEG.F)
WT. FACTOR ' DEWPOINT - ( DEG. F)' 5. HT ; F ACTOR.
' t' 2__________;_______________~_________:
0.150,
1 88.56( 0.00)
,0.027
.79'330(-0.370). "-
'. < +
0.~150 2
188.97( 0. 00 )-
0.027
~80.220(.0.000):
3-
'88.97( 0.00) 0.027 81.830('O.180)-
0.150 4
,89.65('0.00) 0.027 '
79.530(-0.170) 0.'100-5 89.38(-0.1'4)-
0.027 86.330(-0.170) -
0.225 6
89.38(-0. 4)
.0.027 87.270(.0.000) 0.225
.c L
-..w i M..h '.;.c 7
- 89.11D,0.00). 2,0 t027
- ' ',
-l,
- ' ?.
,i J r-8 9 0.~45 ( 0.00)~.;0.075 '
9 89.19(l0.003 ?10.075' 10 89.78( 0.00) 0.~ 030 11 89.69( 0.00) 0.030
- .-J' k A.'.S.
e 12 90.28("'2.0.08) 70;030. -..
-14 90.03< 0.00) 0.025
' --.J' ';,l#!
13 92.72( 0. 00)' *10.025
'?-
4' T
~
15 90.03('O.00) 0.025
' J' V;
s.
16 90.45< 0.00) 0.025
-s 17 90.78( 0.00) 0.118.
. r. '
18 90.78( ~ 0.00) 0.118 19 91.05( 0.00)
'.0.118
~'
20
, 90.23< 0.00)
,0.118 t,-
..DRYWELL' PRESSURE =
72.0740
( -0.5020). PSIA AVG. CONT.. TEMP =
90.220
( -0.0052) 'DEG.F AVG. DEWPOINT PP:ESS=
.0.615
( -0.0013)
PSIA,
s
. INTERVAL'
~ 8 LERK.RRTE=
'O.007 WT%/24 HRS.,,-
L 0.306 WT%/24 HRS TOTAL TIME LEAK RATE = ^ -
MASS PLOT CONTAINMENT' LEAKAGE ~ RATE ANALYSYS
.,.7.h g,,
CONTAIHMENT.: TOTAL MASS (DRY AIR)='
85068.85.
POUNDS.
PROJECTED' LEAK RATE =~ '
O.345 WT%/24 HRS 95% CONFIDEHCE INTERVAL =
+/-
0.269 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.614 WT%/24 HRS p
MAXIMUM ALLOWABLE LEAK ' RATE (0.75*LA)=
0.476 WT%/24 HRS k
6 e
9 D-11
e i
C00PER1 PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD DATA SET HUMBER
.10 DATE:
8/
26/
83 2240 LAST INTERVAL ;. HOURS
.0.33 HOURS FROM.T=0 3.00 SEtiSOR N TEMPkDEG.Fi. WT.FAbkOR / DNP0'iHT.'<DEG.F)' ^ WT: FACTOR.tbi e
i 1
8 8. 56 '( : 0'. 00 )
0.027
~
79.700( 0.370).' ~ 0.150 2
88.84(-0.13),- 0.027
- 80.220( 0.000) 0.150'-
3
'88.97(IO.00)
'O.027-81.450(-0.380) - ' O.150 f C 'v. '
^
4 89.65( 0.00) 0.027.
79.700( 0.170)
-0.100 _
89.52< 0.14),' O.027 86.420( 0.090)~
0.225 -- -
5 6'
89.52(c.0/14)'
O.027 87.270( 0.000)=~
'0.225 7
89.25(.0.14)
- 0.027
,4 ire /d ??
8 90~45< 0,00):
0.'075. ' '
.'.'h'.
'T M. -
89.19(
0,' 0 0 )
2~0.075' 9
~
m E '#
10 89.86( 0.08)- -0.030
- j<'
11 89.78< 0.09) 0.030 12 90.28< OiOO) 0.030'
- t.r
~
~
~
' b"' m '? d. 'c, 13.
92.72<.0.00).
.O.025.
.q.
if' 't "i 14 90.03( 0.00)~ ';0.025 15 90.03< 0.00) 0.025
?'
'7 16 90.45('O.00) 0.025 17 90.78( 0.00) 0.118 18 90.78( 0.00) 0.118 m
19 91.19( 0.14)1 0.118 20
.90.23(,0,00) 0.118 t
"DRYWELL PRESSURE =
72.0700
-('-0.0040)
PSIA'-
RVG. CONT. TEMP =
90.249
(
0.0294)
DEG.F AVG. DEWPOINT PRESS =
0.615
(
0.0003)
PSIA INTERVAL 9
LEAK RATE =
0.822 WT%/24 HRS' TOTAL TIME LEAK. RATE =
0.364 WT%/24 HRS.
MASS PLOT CONTAINMENT LEAKAGE. RATE A'NALYS'YS CONTA!HMENT TOTAL MASS (DRY AIR)=
.85059.14 POUNDS.
PROJECTED LEAK RATE =
O.367 WT%/24 HRS' 95% CONFIDENCE:IHTERVAL=
+/-
0.255 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.622 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24HR$
0 D-12
4 0
COOPER 1 PRIMARY CONTAINMENT ILRT----ABSOLUTE METHOD DATA SET NUMBER 11 y
DATE:. 8/ :.-26/,.
83.
2300
.v-
- n. ; ;..
LAST INTERVAL,' HOURS'
- 0.33;L ' HOURS'FROM T=0-
~
3.33-3ENSOR #
TEMP (DEG.,F)
WT. FACTOR DEWPOINT ___(DEG.F)
WT. FACTOR
.I i
f 1
88.56( 0.'00) ' O.027 79.700< 0.000) 0.150 2
88.84< 0.00)
'O.027 80.330('O.110)'
O.150 3
88.97( 0.00) 0.027 81.920( 0.470) 0.150 4
89.65( 0.00)
.0.027 79.890( 0.190) 0.100 5
89.38(-0.14)>
'O.027 86.550(.0.130)-
0.225 6
789.52('O.00)
~0iO27 87.350(?,0.080) 0.225 sr :s t 7
89.11(-0.14).',0.027 6
90.450 0.00)
~0.075 9
99.19(-:0,00) 0.075
~'
10 89.78(-0.08) 0.030
^
11 89.'69(-0.09)- 70.030-iu-s 12 90.28('0.00) 0.030 J
13 92.72< 0.00) 0.025 14 90.03< 0.00) 0.025 15 90.03( 0.00) 0.025 16 90.45('0400) 0.025 17 90.78( 0.00) 0.118
~
18 90.78( 0.00) 0.118 20
'90.23< 0.00).
0.118 19 91.05(-0.14) 0.118 DRYWELL PRESSURE =
72.0640
( -0.0060)
PSIA AVG. CONT. TEMP =
90.220
< -0.0292)
DEG.F AVG. DEWPOINT PRESS =
0.618
(
0.0028)
PSIA TOTAL TIME _ LEAK RATE =
0.508 WT%/24 HRS INTERVAL 10 LEAK RATE =
0.373 WT%/24 HRS
(
MASS PLOT,CONTAINME'HT LEAKAGE RATE ANALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
85053.13 POUNDS PROJECTED LEAK RATE =
0.385 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.245 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.630 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-13
4 C00PER1 PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD DATA SET HUMBER 12
~
DATE:
13/
26/~. 83 2320' s
L8ST INTERVAL, H'0VRS ' ' O.33' ". Q.,0URS FROM T=0,73.67 f "I t. '^."
~
SENSOR # ". TEMP (DEG.#)
WT.FRCTO).' DEWPOINT- (DEG.F)- WT. FACTOR-
~-
e-_____-__--_-----
1 T"88.56(1 0.00) 0.027
' 79.700( 0.000) 0.150 2
88.97( 0.13) 0.027 80.330( 0.000) 0.150 3
88.84(-0.13) 0.027-
~81.700(-0.220) 0.150
^
~~
4 89.65( 0.003 0.027 79.700(-0.190) 0.100 5
89.52( 0.14) 0.02r
~86.550(.0.000).'
0.225 6
89.38(-0.14) 70.027 -
87.270(-0.080)'
x 0. 225..
'-V e
'. ~.l "5
7
' 89.11(-0.00) 0.027 9
90.37(-0.08) 0.075' 9
8 9.~ 19 ( 0.00) 0.075.
10 89.86( 0.08) 0.030 s l.
11 89.69(l0.00)-
0.030 d.
, q..c f.,!
g.,
12 90.28< 0.00) 0.030 13 92.72( 0.00) 0.025 "s
14 90.03( 0.00) 0.025 15 90.03< 0.00) 0.025 2
16 90.45( 0.00).
0.025 17 90.64(-0.14) 0.118 18 90.78( 0.00) 0.118 19 91.05(:0.00) 0.118 20 90.23(,0,00)-
0.118-DRYWELL PRESSURE =
72.0640 0.0000)
PSIR AVG.. CONT. TEMP =
90.200
( -0.0201)
DEG.F
~
AVG. DEWPOINT PRESS =
0.617
( -0.0012)
PSIA.
INTERVAL 11 LERK RATE =
-0.389 WT%/24 HRS WT%/24 HRS TOTAL TIME LEAK RATE 0.308
~
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS'
^
^
CONTAIB1ENT TOTAL MASS (DRY AIR)=
85057.72 POUNDS PROJECTED LEAK RATE =
0.366 WT%/24 HRS 95% CONFIDEHCE INTERVAL =
+/-
0.217 WT%/24 HRS
'95% UPPER CONFIDENCE LEAK RATE =
0.583 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-14 s.
O C00PER1
'FRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD h
. 13 -
[
~
DATA SET NUMBER g
.:.,:l)[.
DATE:
4 8? ;" 26N 83".':l2340 W -:." ~ 2 1. ' :~^..' n.
LAST INTERVAL ( HOURSS- :0. 33 * ;
HOURS FROM T=0
- 4.00-
- . g..
's s
SENSOR #~
- TEMP (DEG.F)
.WT. FACTOR DEWPOIHT (DEG.F)
WT. FACTOR s
~
1 88.43(-0.13) 0.'027 79.330(-0.370) 2
. 88.84(-0.13)'
0.027 80.330(.0.000).
0.150 0.150 3
. 88.84( 0.00)- :0.027 81.830( 0.130):
0.150 4
89.65(.0.00) _.0.027
'79.700( 0.000) 0.100 5
.. 8 9.' 2 5 ( - 0. 2 7.)
0.027 _
86.550(.0.000)r.c.
0.225 89.38((0.00);.m 0. 027 "87.180(-0.090)~,
0.225' n '.
6 7'
89.11(-0.00) ~.0.027-8 90.37( d.00) 0.075
~5 9
. 89.11(-0.08).
0.075 -
10 89.78(-0.08) 0.030
~
g.'
h
? NP
- 8 9. 61 (--0. 08 f 3..:0.030
~ 11'
~
12 90.20(-0.08) 0.030~
' t:e '
13 92.63(-0.09)
.0.025 14 89.95(-0.08) 0.025 4
15 89.95(-0.08) 0.025 16 90.37(-0.08)-
0.025 17 90.64< 0.00) 0.118 18
'90 78( 0.00) 0.118 19 91.05( 0.00) 20 90.06(-0.17).
0.118
^
0.118 DRYWELL PRESSURE =
72.0560
( -0.0080)
PSIA AVG. CONT. TEMP =
90.144
( -0.0558)
DEG.F AVG. DEWPOIN.T. PRESS =
B.616
( -0.0008)
PSIA INTERVAL - 1:2 LEAK RATE =
-0.006 WT%/24 HRS TOTAL TIME LEAK, RATE =
&.282 WT%/24 HRS mc c
7_
MASS PLOTcCONTAIHMENT LEAKAGE RATE ANALYSYS-CONTAIHMENT TOTAL MASS (DRY AIR)=
85057.80 POUNDS PROJECTED LEAK RATE =
0.342 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.192 WT%/24 HRS 95% UPPER CONFIDEHCE' LEAK RATE =
~
0.534 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS
+
e f
a D-15
i O
C00PER1-
.< ?! aG PRIMARY CONTAINMENT /ILRT----ABSOLUTE METHOD 14
~
g(-
r
- --_---__-___-_-___~-_--_------_----_----_----_-_-_--_ ---
DATA SET NUMBERE 2
-LAST INTERVALS' HOURS 0.33'
' HOURS FROM T=0 4.33.
'?,_
DATE:
8/-
26/ ' 83 2400
~
~
SENSOR # '-TEMP (DEG.F)
W'T. FACTOR DEWPOINT' (DEG.F)
WT. FACTOR
^
1 88.43( 0.00) 0.027 79.700( 0.370) 0.'150 2
83.84(;0.00) 0.027 80.220(-0.110).
0.150 3
.'88.84(~0,00)
'0.027
' ~.181.'830 (- 0. 000)
'O.150' e9 4
'89.52(-0.13) 0.027 79.700(.0.000) 0.100 5
89.25(-0.00) 0.027 86.420<-0.130) 0.225 6
89.38( 0.00) 0.027 87.270( 0.090) 0.225 7
'89.11< 0.00) 0.027
~
ci 4 :-
J "..;. ; - : p *:,
8.
', 9 0. 28 C-0.' 09 ) 7 0.075
-9 89.11( 0.00) 0.075
'.J 10 89.78C 0.00) 0.030 11 89.61< 0.00) 0.030 12 90.20< 0.00) 0.030 13
-92.63< 0.00) 0.025 14 89.86(-0.09) 0.025.
r 15 89.86(-0.09) 0.025 16 90.37( 0.00) 0.025 17 90.64( 0.00) 0.118 18 90.64(-0.14) 0.118 19
.90.92(-0.13)
-0.118 20 90.06< 0.00) 0.118 DRYMELL' PRESSURE =
72.0510
( -0.0050)
PSIA AVG. CONT.' TEMP =
90.098
( -0.0466)
DEG.F.
AVG. DEljPOINT PRESS =
0,617
(
0.0003)
PSIA INTERVAL 13 LEAK RATE ='
' -0.075 WT%/24 HRS j
TOTAL TIME LERK'RRTE=
0.255 WT%/24 HRS
.s NASS PLOT CONTAINMENT LERKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
85058.69 POUNDS PROJECTED LEAK RATE =
0.315 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.170 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.485 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 UT%/24 HRS D-16
i o
C00PER1 PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD DATA SET NUMBER 15 DATE:
8/
27/
83 2420 s..
,0.33 + HOURS FROM'T=0;.3.J.4.67, a.-
LAST INTERVALS _ HOURS ~
/
w SENSOR #
' TEMP (DEG.'F)
~WT. FACTOR DEWPOINT
<DEG.F)
WT. FACTOR
^3 '.
~
1 88.43(LO.00i. 0.027
.79.600(-01100)
~ 0.15 0 '
2 88.84( 0.00)
'O.027 80.000(-0.220)
.0.150 3
88.84(20.00) 0.027J 81.900( 0.070) 0.150 4
89.52< 0.00) ' O.027 79.700( 0.000) 0.100 5
89.25('O.00)
.0.027' 86.200(-0.220) 0.225 6
'89.52(00.14)-
0.027.
87.300( 0.030) 0.225
.. v. <.
~
89.110.0.00)-
'O.027
~
!3 7 -
"^
8
'90.28(?O.00) 0.075'
~
9 89.11< 0.00) 0.075 10 89.69(40.09)
- 0.030 11
.89.61( 0.00) 0.030
' 45-12 J 90. 20 <5'O 00)-
0.030
~"
13 92.55(-0.08) 0.025 14 89.86( 0.00) 0.025 15 89.86( 0.00) 0.025 16 90.28(-0.09) 0.025 17 90.64< 0.00) 0.118 18 90.64( 0.00) 0.118 19
'90.92( 0.00) 0.118 20 90.06( 0.00) 0.118 DRYWELL PRESSURE =
72.0460
( -0.0050)
PSIA 90.094
( -0.0032)
DEG.F AVG. COHT. TEMP =
AVG. DEWPOINT PRESS =
0.615
( -0.0015)
PSIA INTERVAL '14 LEAK RATE =
0.315 WT%/24 HRS TOTAL TIME LEAK RATE ='
0.259 WT%/24 HRS MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS CONTAIHMENT' TOTAL MASS (DRY' AIR)=
85054.97 POUNDS PROJECTED LEAK RATE =
0.297 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.153 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.451 WT%/24 HRS MAXIMUM' ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-17
-4 o
COOPER 1 PRIMARY CONTRIHMENT ILRT----ABSOLUTE METHOD
_______________________________________________________~r..
2' DATA SET NUMBER-!
~ -16 '
3' DATE:
8/ ~ 27/
83 0040 LAST INTERVAL: HOURS 0.33-
' HOURS FROM.T=0 5.00 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.43< 0.00) 0.027 79.700( 0.100) 0.150 2
~88.70(-0.14) 0.027-
- 80.330( 0.330) 0.150
~ _
81.830(-0.070)
.0.150-
- -.f 3
-88.84< 0.00).
0.027 6
-- 89. 52 < 0. 00);
0.027 79.800( 0.100) 0.100 5
89.25( 0.00) 0.027 86.550( 0.350) 0.225 ~
6 89.25(-0.27) 0.027 87.180(-0.120) 0.225 7
89.11( 0.00) 0.027 m.
8 90.28( 0.00)l,0.075 9
- 89.11(.0.00)
.0.075; "
10 89.69C 0.00) 0.030'
~?
11 89.61( 0.00) 0.030 12 90.20( 0.00) 0.030 13 92.55( 0.00) 0.025 14 89.86( 0.00) 0.025 iS 89.86( 0.00) 0.025 16 90.28( 0.00) 0.025 17 90.64< 0.00) 0.118
~18 90.64( 0.00) 0.118 19 90.92( 0.00) 0.118 20 90.06( 0.00) 0.118 DRYWELL PRESSURE =
72.0440
( -0.0020)
PSIA AVG. CONT. TEMP =
90.083
(.-0.0111)
DEG.F AVG. DEWPOINT PRESS =
O.617
(
0.0021). PSIA INTERVAL
- 15. L'EAK RATE =
.268 WT%/24 HRS TOTAL TIME LEAK RATE =
0.259 WT%/24 HRS
~.
MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
85051.81 POUNDS PROJECTED LEAK RATE =
0.285 WT%/24 HRS 0.141 WT%/24HR$
95% CONFIDENCE INTERVAL =
+/
95% UPPER CONFIDENCE LEAK RATE =
0.425 WT%/24 HRS MAXINUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-18
--y.
m y
,r--
_,.r---w v---
- = -
v-c
-T y e y vr-re--
-++-~w 7
=------ey
C00PER1 PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD
a-DATA SET'HUMEER 17 DATE:
8/
27/'. 03 0100-3 LAST INTERVAL).HOURSf.
J 0. 3 3 ?..?,. H O U R S,F R O M T = 0. b y 5. 3 3 ;,..,,; s. ;p 3
' ;:c..s
, y,.g-
- 1 c.,.. ;g
,p,
-c i,,
SENSOR W TEMP (DEG.F)-,
WT. FACTOR DEWPOINT (DEG.'F)
WT. FACTOR
.3 1
. 88. 43 (i. 'O ' 0 0 )-
02027
'79.700( 0.000) -
0.150-J 'l
~
t 2
88.70( 0.00)
'0.027 79.970(-0.360).
.0.150.
~
3 88.70(-0.14) 0.027 82.030( 0.200)~
0.150.
4 8Q.52<,0.00)'
O.027
'79.890< 0.090)-
0.100 ?
5 89.25(.0.00)'
0.027
- 86. 550 < 0. 000)'
-0.225 TI.,
,., ?, f" 4
,:0.225' f'(' E 6
't
.89.65( 0.40),
~0.027, r87.300( 0.120) 5a L., '
7:
"88.97(-0;14) C O.'027J V i T...
8
-90.28C'0;00). 0.075 9
89.02<-0.09) 0.075 10 89.69( 0.00).
0.030,
11 89.61(.0.00)." 'O.030 !
u.
12 790.20(-0.00) ' O.030 '
. 5.E :'. ' -
N' ', -
"X 13
- 92. 55 < -~ 0,00) 0.025 14 89.'86(.0.00) 0.025
. 23 15 89.S6(,0,00) 0.025 16 90.28< 0.00) 0.025 17 90.64( 0.00) 0.118 18
-90. 64 ( c0. 00) 0.118 19 90.92< 0.00) 0.118 20 90.06( 0.00) 0.118 72.0400
( -0.0040)
PSIA.
DRYWELL PRESSURE =
90.080
( -0.0035)
DEG.F AVG. CONT. TEMP =.
~
AVG. DEWPOINT PRESS =
,0.617
(
0.0002). PSIR
. INTERVAL 16 LERK RATE =
0.378 WT%/24 HRS TOTAL TIME LE,AK. RATE =.
0.267 WT%/24HR$ -
' MASS PLOT CONTAINMENT' LEAKAGE RATE ANALYSYS CONTAINMEN'T TOTAL' tiRSS (DRY AIR)=
85047.34 POUNDS I
PROJECTED LEAK RATE =
0.278 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.131 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
.0.410
.WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS
~
e D-19 t
r COOPER 1
' PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD DATA SET HUMBER 18 DATE:
8/
27/. 83 0120 LAST IHTERVAL, HOURS.
- 0. 33,.
HOURS FROM T=0-
.5. 67.
.. ~
SENSOR
';.,.:.;; m. y.:v
- c... -
,r- ;..;,; _, : n...;;' r...; %.,
+
TEMP (DEG-F) ' WT. FACTOR DEWPOINT:.(DEG.F)' WT. FACTOR-
+'
~
1
- i 'G 8'. 4 3'( 'O. 00 )I.
- 0. 027..
79.800('0.100)
'O.150 2
'O 88;70(f0,00) 0.027'
'80.330( 0.360) 0.150 -
3 88.84( 0.14) 0.027...
- 81.830(-0.200) 0.150.,
.r
{
4 89.52( 0.00) 0.027 79.890( 0.000) 0.100..
5 89.25('O.00) 0.027 -
C6.330(-0.220) 0.225 i c,
- ?
6 89.25(-0.40) 0.027 <
87.300( 0.000) 0.225
^. ';.f. p' '. '
0.027.:
..x..'. /...'
ch
,-s
.2 7
.I 88.9?(: 0.00)..0.075 8
90.28('O.00)
~
i-9
'.89.02(=0.00)
.'O.075 10 89.69(.0.00)-
0.030
- n.~.'
11-89.61U 0.00) 0.030
. P, 3; 12 9 90.20(ie.00) 0.030,
c..
~ ~ '
/ J "-
13
,192. 55(: 0.' 00)-
'O.025 -
E-14
~~ 89.86< 0.00) 0.025 15 89.86( 0.00) 0.025 16
.90.28( 0.00) 0.025 17 90.64('0.00) 0.118 90.64(.0.00) 0.118 18 19 9 0.' 9 2 ( 'O. 0 0 )
O.118 20 89.93.(.-0.13) 0.118
.DRYWELL PRES'SURE= ",
72.'0340
( -0.0060)- PSIA
( -0.0223)
DEG.F AVG. CONT. TEMP =,
90.057
. (--0.0003)
P,SIA.
AVG. DEWPOINT. PRESS =
O.617 INTERVAL
'17 LEAK RATE =
'O.282 WT%/24 HRS TOTAL TIME LEAK. RATE =~
~0.260 WT%/24 HRS
~
QRSS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS
+
COHTAIHMENT' TOTAL. MASS (DRY AIR)=
85044.01 POUNDS-0.274 WT%/24 HRS PROJECTED LEAK RATE =
~
'+d-0.124 WT%/24 HRS 95% CONFIDENCE INTERVAL =
95% UPPER CONFIDENCE LEAK RATE =
0.398 WT%/24 HRS' MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS X
e D-20 I
)
o C00PER1' PRIMARY CONTAINMENT ILRT----ABSOLUTE METHOD DATA SET HUMBER 19 '
DATE:
8/
27/
83 0140 e
LAST INTERVALS HOURS
'O.33
~
HOURS FROM T=0
' 6.~00 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPO' INT (DEG.F)
WT. FACTOR 1
88.29(-0.14)
.0.027 79.700(-0.100) 0.150 2
98.70('O.00) 0.027 80.220(-0.110) 0.150 3
88.70(-0.14) 0.027 81.920< 0.090) 0.150 4
89.52< 0.00) 0.027 79.800(-0.090) 0.100 5
89.25( 0.00) 0.027'
'86.500( 0.170) 0.225
~
6 89.25( 0.00) 0.027 87.200(-0.100).
0.225 7
88.97( 0.00) 0.027 8
90.20(-0.08) 0.075 9
89.02( 0.00) 0.075 10 89.61(-0.08) 0.030
.11 89.53(-0.08).
0.030-12 90.12(-0.08) 0.030
.s.
13 92.55( 0.00) 0.025 14 89.78(-0.08) 0.025 15 89.86< 0.00) 0.025 16 90.20(-0.08) 0.025 17 90.64( 0.00) 0.118 18 90.64< 0.00) 0.118
~
19 90.92( 0.00) 0.118 20
'90.06( 0.13) 0.118 DRYWELL PRESSURE =
72.0290
-(
-0.0050)
PSIA AVG. CONT. TEMP =
90.048
( -0.0094)
DEG.F AVG. DEWPOINT PRESS =
0.617
( -0.0001)
PSIA INTERVAL 18 LEAK RATE ='
O.370 WT%/24 HRS TOTAL TIME LEAK RATE =
0,.273 WT%/24 HRS MASS PLOT.. CONTAINMENT LEAKAGE RATE AHALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
85039.63 POUNDS PROJECTED LEAK RATE =
0.272 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.118 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.390 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75+LA)=
0.476 WT%/24 HRS D-21
C00PER1 FRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD DATA SET NUMBER 20 DATE:
8/
27/. 83 0200 LAST INTER'z3L HOURS 0.33 HOURS FROM T=0 6.33
..: ~c+..
SENSOR #.
TEMP (DEG;F).WT. FACTOR ~ DEWPOINT 2(DEG.F). WT. FACTOR W %u.
1.,-
n 1
__88.29(0.00) 0.0277 79.800( 0.100) 0.150 '-
0 2
88.70( 0.00):. 0.027 80.150(-0.070) 0.'150 b;,
P -
3 88.70( 0.00) 0.027_
82.030( 0.110) 0.-150..v 4
89.38(-0.14)
-0.027.
79.700(-0.100) 0.100 5
89.25( 0.00) 0.027
~
86.330(-0.170) 0.225
- i 6
89.11(-0.14).
0.027
'37.180(-0.020)'
0.225, 7
88.84(-0.13)- '0.0271 l.t 3
. g.j,N.f 8
90.20(.0.00)
- 0,075 s
.,x N'
,a.
9 88.94(-0.08)
O. 075 & ' '
3
- > f; & - s '-
10 89.61('O.00) 0.030 11 89~44(-0.09)'
O.030
/
12 90.12('O.00) 0.030 13 92.55(.0.00),
0.025 c.e c
14
'89.78(,0'00),
0.025',
.a.
i
~
15 89.78(-0.08) 0.025 16 90.20('0.00) 0.025 17 90.64( 0.00).
0.118 18 90.64( 0.00) 0.118 19 90.92( 0.00).
0.118 20 90.06( 0.00) 0.118 DRYWELL PRESSURE =
'72.0210
( -0.0080)' PSIA AVG. C0HT. TEMP =
90.026
( -0.0217)
DEG.F
-0.616
( -0.0006)
PSIA AVG. DEWPOINT PRESS =
INTERVAL 19 LEAK RATE =
0.458 WT%/24 HRS T01AL TIME LEAK RATE =
0.*283 WT%/24 HRS NASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY. AIR)=',
85034.23 POUNDS PROJECTED LEAK RATE =
0.273 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.115 WT%/24HR$
95% UPPER CONFIDENCE LEAK RATE =
0.388 WT%/24 HRS MAXIMUM ALLOWASLE LEAK RATE (0.75*LA)=
0.476 WT%/24HR$
D-22
C00PEk1 PRIMARY CCHTAIHMENT ILRT----ABSOLUTE METHOD DATA SET HUMBER 21 DATE:
,8/.
27/
83 0220 LAST INTERVAL, HOURS
,' 0. 3 3,
HOURS.FROM.T=0 6.,67
~
.s
,n
~
.c3.;
SENSOR #
TEMP (DEG.F)"lWT. FACTOR DEWPOINT. (DEG.F)
WT. FACTOR
.7 3.
1-88.29(.0.00) 0.027.
79.800( 0.000) 0.150-2
- '88.56'(-0.14) 0.027 80.150( 0.000) 0.150 3
88.56(-0.14).
0.027 81.S50(-0.180)~
0.150 4
89.38( 0.00)_
0,027 79'.900(.0.200) 0.100-5 89.11(-0.14)~
0.027 -
- 86.500(:0.170)-
0.225 6
89.11( 0.00)
'O.027 87.180( 0.000) 0.225 7
88.97( 0.13),
0.027
,(.:l.,.
1 8'
-9 0. 2 0 ( a 0. 0 0 ) ~, ' 0.' 0 7 5 !
-. J 9-88.94( 0.00) 0.075 10 89.61< 0.00)
'O.030 11 89.53('O.09) 0.030 12 90.12(iO,00) 0.030 2".
13 92.46(-0.09)
J0.025
~14 89.78(.0.00) 0.025 in.
15 89.78( ~ 0.00) 0.025 16 90.20(.0.00) 0.025 17 90.51(-0.13) 0.118
-18 90.64( 0.00) 0.118 19 90.92( 0.00) 0.118 20 89.93(-0.13) 0.118
~
DRYWELL PRESSURE =
72.0170
( -0.0040)
PSIA AVG. CONT. TEMP =
89.988
( -0.0380)
DEG.F 0.617
(
0.0005)
PSIA AVG. DEWPOINT PRESS =
INTERVAL 20 LEAK RATE =
-0.044 WT%/24 HRS 0.267 WT%/24HR$
TOTAL TIME LEAK RATE =
s.
MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS
~
CONTAINMENT TOTAL MASS (DRY AIR)=
85034.75 POUNDS
"...'s PROJECTED LEAK RATE =
~
0.270 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.110 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.380 WT%/24 HRS
(
MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24HR$
S D-23
O COOPER 1 PRIMARY CONTAIHMENT'ILRT----ABSOLUTE METHOD DATA SET NUMBER 22 DATE:
8/
27/. 83 0240
.LAST. INTERVAL, HOURS.
'O. 33,
'. HOURS fROM T=0
.I 7. 0 0,,.
.," A -
7',.. ~n. 'r..
- ...- p c<
. i, ' _.
n; SENSOR'#
(TEMP (DEG'F.);.HT. FACTOR' DEWPOINT'.<DEG.F). WT. FACTOR,#
-i.'.,
1
. '! 88. 29(10.~00)'
.s 0.027
,79.800( -0. 000) '
O.150 2
"88.56( 0.00) 0.027
-80.220('O.070)
J'. 0.150 3
- 88.56('O.00) 0.027 81.920( 0.070) 0.150 4
'89.38(.0.00) 0.027 79.900( 0.000) 0.100. -
5 89.11( 0.00)
'O.027
~
86.420(-0.080) 0.225
..s 6
89.11(.0.00) - 0.027 87.300('O.120) 0.225
.t."
M U
' \\.- : -
?
- 7. +.2 - 88.84(.0.'13)'1:0,0273 V:".-
- v 9
88.94(.0.00) 0.075
. S[E.:"
8 90.12(-0.08) 0.075'
1; 10 89.53(-0.08) 0.030
,~
-^
11 89.44(-0.09) 0.030 13 92.46< 0.00) 0.025
'.?
'st.4.% % -
12.
90;12(J0.00)
~0.030.
3
- c. '* ? -
14 89.69(-0.09)
'0.025 15 89.69(-0.09) 0.025 r
c 16 90.20( 0.00) 0.025 17
.90.51( 0.00) 0.118 18 90.64('0.00) 0.118 19 90.92(.0.00) ' O.118
~
20
.89.93( 0.00) 0.118
~
DRYWELL PRESSURE =-
72.0170
( ~0.0000)
PSIA ' '
AVG. DEWPOINT PRESS =
89.969
( -0.0191)
DEG.F' AVG. CONT. TEMP =
0.617-(
0,0006)
PSIA
~
INTERVAL 21 ' LEAK RATE =
-0.192 WT%/24 HRS 0.245 WT%/24 HRS
,J TOTAL TIME. LEAK RATE =
MASS PLOT CONTAINMENT LEAKAGE' RATE ANALYSYS CONTAIHMENT TOTAL' MASS'(DRY AIR)=
85037.02 POUNDS
-^
PROJECTED LEAK RATE =
0.262 WT%/24 HRS 95% CONFIDEHCE INTERVAL =
+/-
0.104 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.366 WT%/24 HRS
.L l
MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS '
D-24
C00PER1 PRIMARY CONTAINNENT'ILRT----ABSOLUTE METHOD DATA SET. NUMBER.
q.,23 J.t v.<
., Nc
'DATE:
28/. :27/L' 83
~
0300 O w:".g~4. c ~~~~ 5.f
^ ' '..
3 ?.
' ' L'.
- ~
'e LAST' INTERVALS. HOURS ~~.0.33 HOURS'FROM T=0-
'7.33 SENSOR #-
. TEMP (DEG.F.)'<WT. FACTOR; DEWPOINT.J<DEG'.F)
WT.' FACTOR:
. 's '
1 88.15(-O'.14) 0.027 79.800( 0.000) 0.150 L~
2 88.56(.0.00), 'O.027 80.220( 0.000) 0.150 s
3' 188'70(10,14)'
O.027 81.850(-0.070) 0.150 4'
c69.38(:0.00);
-0.027 79.700(-0.200)
-.0.100.
5^
,7 89.11CTO.00)1 ~0.0274'.-C 86.500C 0.080)"
'O.225' '
2.r.c 6
89;11(*0400)v.0.027
' ".87.180(-0.120) 0.225
~
7
.88.84( 0.00)
-0.027 8
-90.12<.0.00) 0.075 9
88.85(-0.09) 0.075,.
~ '
n c ~10 a 89. 53 (c. 0. 00 ). ' O. 0 3 0
.E e"+
- +C c,
~-'C. -
i 11'
'89.44( 0.00)'
O.030 9'*
12 90.'12( 0.00) 0.030
~ i; i
13 92.46( 0.00)-
0.025 14 89.69( 0.00) 0.025 15 89.69( 0.00) 0.025 16 90.20( 0.00) 0.025 17 90.64('O.13) 0.118 18 90.64(.0.00) 0.118
.19
'.90.92(20.00)'
'0.118 20
- 8 9. 93 < 0. 00)-
0.113 DRYWELL PRESSURE'=
72.0080
( -0.0090)
PSIA AVG. CONT. TEMP = ~
89.978
(
0.0086)
DEG.F~
AVG. DEWPOINT PRESS =
0.617
( -0.0007)
PSIA
^
LEAK RATE =,
0.953 WT%/24 HRS INTERVAL 22 I TOTAL TIME LERK RATE =, - ',.
0.277 WT%/24 HRS.
w
- y, NASS PLOT '_ CONTAINMENT LEAKAGE RATE ANALYSYS -
CONTAIHMENT TOTAL MASS (DRY AIR)=
85025.77 POUNDS PROJECTED LEAK-RATE =
0.264 WT%/24 HRS l
95% CONFIDEHCE INTERVAL =
+/-
0.101 WT%/24 HRS 95% UPPER CONFIDENCE.LERK RATE = ~
0.'365 WT%/24 HRS MAXIMUM ALL0HABLE LEAK RATE (0.75*LA)=.
0.476 WT%/24 HRS D-25
e C00PER1 PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD DATA SET NUMBER 24 DATE:
8/
27/.83 0320 LAST INTERVALS. HOURS 0.33 HOURS-FROM T=0 27.67'
'/...
t3, P.i %,
r 9..
.. =....
t
..j.
7
'..t.
~
N TEMP (DEG.F);g T.'FACTCR ' DEWPOINT,. (DEG.F)' -WT. FACTOR,
J'?
SENSOR #
l' 8 8.15 0.~ 0. 00) ?, ". 0. 027, 79.900( 0.100):'
O.150 2
88.56( 0.00)
'O.027
.80.220( 0.000) 0.150-f?d 3
88.56(-0.14)
,0.027 81.850( 0.000)-
0.150 4
89.25(-0.13) 0.027 79.800( 0.100) 0.100 r.-
~
5 89.11( 0.00) 0.027 86.500< 0.000) 0.225 6
89.11< 0.00)
.0.027 87.180( 0.000) 0.225'
/,;., ii.[ l 7
'88.84( 0.00)-
0.027-
,, ~
~
8' 9 0 '.' 12 (' O. 0 0 ) ~
0.075 ' ' 4 -
1"n 9
,88.85( 0.00) 0.075
~.
'e 10 89.53( ~ 0.00) 0.030 11 89.44( 0.00)u 0.030.
~l*
12 90.03(-0.09).
'O.030 c.
<w 13 92.38(-0.'08),'.0.025 f# J' "f ff' 'Ift '
'~
14 89.61(-0.08) 0.025 L
J' 15 89.69( 0.00) 0.025 16 90.12(-0.08) 0.025 e ;L 17 90.51(-0.13) 0.118 18 90.51(-0.13) 0.118 19 90.78(-0.14) 0.118 20 89.93< 0.00) 0.118 DRY'UELL PRESSURE =
72.0010
( -0.0070)
PSIA.
89.915
( -0.0631)
DEG.F >
AVG. CONT. TEMP =
RVG. DEWPOINT PRESS =
0.617
(
0.0004)
PSIA INTERVAL ~ 23 LEAK RATE =
/
TOTAL TIME LEAK RATE =
0.261 WT%/24H.RS
~
,,+
MASS PLOT.CONTAIHMENT LEAKAGE RATE ANALYSYS CONTAIHMENT TOTAL MASS-(DRY AIR)=
.85026.78 POUNDS PROJECTED LEAK RATE =
0.261 WT4/24HR$
95% CONFIDEHCE INTERVAL =
+/-
0.098 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.359 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476' HT%/24HFS l
Y l
l D-26
[
COCPER1 PRIMARY CONTAINMENT ILRT----ABSOLUTE METH0D DATA SET HUMBER 25 DATE:
8/
27/
83 0340 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 8.00
^
- =
SENSOR #,;+,, TEMP (DEG.E) gWT., FACTOR-D E W P O I,H T ~..< D E G. F ) a W T. F A C T O R.,.... ;j g
..,a...
y
-.___________ j____027
~
79.800(-0.100)-
0.150-.
. 88.15(;0.00).
0.
- ~
1 2
'.'88243(-0.13)
- 0. 027 ~.,
80.220( 0.000)
O.150,- :
t.
3 88.43(-0.13) 0.027" 81.920( 0. 070 F 0.150
.A a
- "" \\
4 89.25('O.00) 0.'027 79.800( 0.000) '
O.'100 5
89.11('0.00) 0.027 86.420(-0.080) 0.225".
O~'
6 88.97(-0,14) 0.027.
87.180( 0.000) 0.225 7
88.70(-0.14)
'0,027 8
90.03C-0.09) 0.075
.hd ~. ~, ~?
~
9 K."88.85(ie.00)c CO.075.,.
E-'
. i b ;i 10 89.44(-0.09)* 'O 030 1:.
9.f 3
?*'""
11 89.44< 0.00):~
0.030 12
-90.03< 0.00) 0.030
, 13 92.38(.0.00).
,0.025.
+
- ~
. s
'. g.
sj
.14
- 89. 610 0. 00) W. 0. 025 4.
.x;..
15 89.'61.(-0.08)
O.025 16 90.12( 0.00)'
O.025 17 90.~51< 0.00) 0.118 18 90.51( 0.00) 0.118 19 90.78< 0.00) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRESSURE =
71.9960
( -0.0050i ' PSIA AVG. CONT. TEMP =
89.889
. ( -0.0260)
DEG.F AVG. DEWPOINT PRESS =
0.617
( -0.0004)
PSIA INTERVAL.24 LEAK RATE =.
0.127 WT%/24 HRS TOTAL TIME LEAK RATE =
0.256 WT%/24 HRS
~
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS
.COHTAIHMENT' TOTAL MASS (DRY AIR)= ~
85025.28 POUNDS l
PROJECTED LEAK RATE =.
0.258 WT%/24 HRS 95% CONFIDENCE' INTERVAL =.
+/-
0.094 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.353 WT%/24 HRS i
MAXIMUM ALLOWABLE LEA'K RATE (0.75*LA)=
0.476 WT%/24 HRS l
D-27
.,g.
gg
.'-~-'P' - ' - -
r
,aw-_
s
_..~.
,n--.e4mm----
,w,s'5h A>,,,4LS+-,.a+
3
_W w4&&2A---,K-,W-- 46s
- J me2 6
sa_
m-eu.
m
--ww a s. a e.-
~
m
,,_,u,
,,ra m,_
o 9
0 j
1 1
?
4 f
INTERVAL DATA SETS - REFERENCE CHAMBER METHOD t
I l
I i
l
]
i i
I J
i l
4 i
9
- i D-28
-- - ~ ~..., _.. - _. - -.... _... _, _
e pa -
C'00F ER1
,o PRIMARY CONTAINMENT ILRT---REFEFENCE VEs5EL T1ETHOD DATA SET NUMEER 1
DATE:
8/
26/
83 1940 LAST INTERVAL, HOURS 0.00 HOURS FR0!1 T=0 0.00 SEN50R #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
UT. FACTOR 1
'88.56< 0.00) 0.027 79.420< 0.000) 0.150 2
88.84< 0.00) 0.027 80.220< 0.000) 0.150 3
88.97< 0.00) 0.027 81.550< 0.000) 0.150 4
89'. 65 < 0. 00) 0.027 79.500< 0.000) 0.100 5
89.38< 0.00) 0.027 86.500< 0.000) 0.225 6
89.38< 0.00) 0.027 87.350< 0.000) 0.225 7-89.11< 0.00) 0.027 5
90.07< C.00) 0.075 9
89.19(.0.00) 0.075
' m;;-
10 ~
"if'89.86< 0.00)
Or030 11 12
. 8 9. 69 < 0. 00 )
0.030
.90.20(c0.00) 0.030
~
- :' '"13 P T.92.72<~0.00) 0.025
'~'
~7 ?-
L 14 ifz90.03< 0.00) 0.025
'e-c.
15- -- - ' 2 90.03< 0.00) 0.025 16 D90. 37<. 0. 00) 0.025 17.
-90.92< 0.00) 0.118
~
18'
_ 91.'05< 0.00) 0.'118 19.
,91.33< 0.00) 1.118
~
i c '
20 a
- 90. 37 ( :<0. 00 )
0.118'.-
, u.-
DRYWELL PRESSURE =
72.1100 0.0000)
PSIA REFL' VE3SEL DP=
0.9614
(
0.0000)
PSID AVG. CONT. TEMP =
90.306 0.0000)
DEG.F AVG. DEUPOINT PRESS =
0.616
(
0.0000.
F5 A CONTAINMENT TOTAL MASS (DRY AIR)=
85097.61 POUND 5 NO LEAKAGE RATE VALUE CALCULATED FOR DATA SET #1 e
..s.
x s
t e
e 6
9 9
- 96
.We-D-29
- J%-
=
O C00FER1 PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMEER 2
DATE:
8/
26' 83 2000 LAST INTERVALS HOURS 0.33 HOURS FROM T=0 0.33 SEN5OR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1.
89.56( 0.00) 0.027 79.500( 0.080) 0.150 2
95.84( 0.0A>
0.027 79.900(-0.320) 0.150 3
$8.97< 0.00) 0.027 81.550< 0.000) 0.150 4
39.65( 0.00) 0.027 79.500( 0.000) 0.100 5
89.52< 0.14) 0.027 86.700< 0.200) 0.225 6
89.52( 0.14) 0.027 87.350< 0.000) 0.225 7
89.25< 0.14) 0.027 3
90.45( 0.08) 0.075 9
99.19( 0.00) 0.075 10 99.86< 0.00) 0.030 11 89.6-( 0.00) 0.030 12 90.20< 0.00) 0.030 13 92.72< 0.00) 0.025 14 90.03< 0.00) 0.025 15 90.03< 0.00) 0.025 16 90.45( 0.08) 0.025 17 90.92< 0.00) 0.118 13 90.92<-0.13) 0.118 19 91.33< 0.00) 0.118 20 90.37< 0.00) 0.118 DRYWELL PRE 5SURE=
72.1100
(
0.0000)
PSIA FE:. VEi3EL DP=
0.9614 0.0000)
PSID AVG. CONT. TEMP =
90.310
(
0.0040)
DEG.F AVG. DEWFOINT FRESS=
0.616
(
0.0002)
PSIR INTERVAL 1
LEAK RATE =
O.015 UT%/24HR$
TOTAL TIME LEAK RATE =
0.012 UT%/24 HRS NASS FLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
$5097.60 POUNDS FROJECTED LEAK RATE NOT CALCULATED <<4 DATA SETS)
MAXIMUM ALLOWAELE LEAK RATE (0.75+LA)=
0.476 WT%'24HR$
D-30
O C00PER1 FRIf1ARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD LATA SET NUMBER 3
DATE:
8/
26/
S3 2020 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 0.67 SENSOP5 #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.564 0.00) 0.027 79.500( 0.000) 0.150 2
88.84< 0.00) 0.027 80.000( 0.100) 0.150 3
88.97< 0.00) 0.027 81.720( 0.170) 0.150 4
89.65( 0.00) 0.027 79.530( 0.030) 0.100 5
89.38(-0.14) 0.027 86.500(-0.200) 0.225 6
89.38(-0.14) 0.027 87.270(-0.080) 0.225 7
89.11<-0.14) 0.027 S-90.45< 0.00) 0.075 9
89.19< 0.00) 0.075
'O 89.78(-0.08) 0.030 11 89.69(-0.00) 0.030 12 90.20< 0.00) 0.030 13 92.72( 0.00) 0.025 14 90.03< 0.00) 0.025 15 90.03< 0.00) 0.025 15 90.37(-0.08) 0.025 17 90.92< 0.00) 0.118 13 90.92< 0.00) 0.118 to 91.19(-0.14) 0.118 20 90.23(-0.14) 0.118 DRYWELL PRESSURE =
72.1'020
< -0.0080)
PSIA 0.9630 0.0016)
PSID REF. VESSEL DP=
AVG. CONT. TEMP =
90.261
( -0.0487)
DEG.F AVG. DEWPOINT PRESS =
0.615
( -0.0005)
PSIA INTERVAL 2
LEAK RATE =
0.128 WT%e24 HRS TOTAL TIME LEAK RATE =
0.073 WT%/24 HRS MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
85096.08 POUNDS PROJECTED LEAK RATE NOT CALCULATED (<4 DATA SETS)
MAXIMUM ALLOWAELE LEAK RATE (0.75+LA)=
0.476 WT*./24 HRS D-31
-O C00FER1 PRIMARY CONTAINMENT ILRT---FE:EFENCE VESSEL METHOD DATA SET NUMEER 4
DATE:
G/
26/
83 2040 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 1.00
?EN20R #
TEMP (DEG.F)
HT. FACTOR DEWPOINT (DEG.F)
WT.FRCTOR 1
58.56( 0.00) 0.027 79.*10( 0.030) 0.150 2
59.97( 0.13) 0.027 80.150( 0.150) 0.150 3
88.97( 0.00) 0.027 81.750( 0.030) 0.150 4
89.79C 0.14) 0.027 79.520( 0.000>
0.100 5
69.52( 0.14) 0.027 86.550( 0.050) 0.225 6
39.38( 0.00) 0.027 87.270( 0.000) 0.225 7
59.25( 0.14) 0.027 G
90.45< 0.00%
0.075 9
89.19( 0.00) 0.075 10 69.73< 0.00
O.030 11 59.69( 0.00) 0.030 12 90.25( 0.06) 0.030 13 92.72( 0.00) 0.025 14 90.03< 0.00) 0.025 15 90.03C 0.00) 0.025 li 90.45' O.08) 0.025 17 90.92( 0.00) 0.115 12 90.92( 0.00) 0.11?
19 91.19( 0.00) 0.118 20 30.37( 0.14) 0.113 DRYNELL PRE 550RE=
72.0980
( -0.0040)
PSIA" REF. VE35EL DP=
0.9679
(
0.0040)
PSID AVG. CONT. TEMP =
90.297
(
0.0357)
DEG.F AVG. DEWPOINT PFE39=
0 fi6
(
0.0003.3 PSIA INTERVAL 3
LERK RATE =
0.553 WT%'24HR$
TOTAL TIME LEAK RATE =
0.J'3 WT%/24HR5 MA35 FLOT CONTAINMENT LEAKAGE F. ATE ANALY3Y5 CONTAINMENT TOTAL MASS (DRY AIR)=
G5059.55 POUNDi FROJECTED LEAK RATE =
0.223 WTT.'23 HRS 95% CONFIDENCE INTERVAL =
+/-
1.625 WT%/24 HRS 95*. UPFER CONFIDENCE LEAK RATE =
1.849 WT%/24HR$
"A:(IMUM ALLOUABLE LEAK RATE (.0.75*LA>=
0.476 WT!.<24HR$
D-32
o C00PER1 PRIMARY CONTAIHMENT ILRT---REFEREt4CE VESSEL METHOD o-DATA SET NUMBER ____________________________________________
5 DATE:
8/
26/
83 2100 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 1.33 SENSOR #
TEf1P(DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACT
__________________ ________OR 1
88.56( 0.00) 0.02<
r9.500(-0.030) 0.150 2
88.84(-0.13) 0.027 80.000(-0.150) 0.150 3
88.97< 0.00) 0.027 81.830( 0.080) 0.150 4
89.65(-0.14) 0.027 79.530( 0.000) 0.100 5
89.38(-0.14) 0.027 86.550( 0.000) 0.225 6
89.38( 0.00) 0.027 87.270( 0.000) 0.225 7
89.11(-0.14) 0.027
?
90.45( 0.00) 0.075 9
89.19( 0.00) 0.075 10 89.78( 0.00) 0.030 11 89.69( 0.00) 0.030 12 90.20(-0.08) 0.030 13 92.72< 0.00) 0.025 14 90.03< 0.00) 0.025 15 90.03< 0.00) 0.025 16 90.37(-0.08) 0.025 17 90.78(-0.14) 0.118 18 90.78(-0.14) 0.118 19 91.19( 0.00) 0.118 20 90.23(-0.14) 0.118 DRYUELL PRESSURE =
REF. VESSEL DP=
72.0930
( -0.0050)
PSIA 0.9691 0.0013)
PSID AVG. C0t4T. TEMP =
AVG. DEUPOINT PRESS =
90.228
( -0.0687)
DEG.F 0.616
( -0.0003)
PSIA INTERVAL 4
LERK RATE =
TOTAL TIME LEAK RATE =
0 124 WT%/24HR$
0.206 WT%/24 HRS MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS COHTAIHMENT TOTAL MASS (DRY AIR)=
85083.08 POUNDS PROJECTED LEAK. RATE =
95% CONFIDENCE INTERVAL =
0.2 33 WT%/24 HRS
+/-
- 0. fi80 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0..S13 WT%/24HRd MAXIMUM ALLOMAELE LEAK RATE (0.75*LA)=
0.47g WTS/24 HRS l
D-33 1
?
.y
C00PER1 PR111ARY C0tlTAIHMEllT ILRT---REFEREllCE VESSEL METHOD DATA SET tlUMBER 6
DATE:
8/
26/
83 2120 LAST INTERVAL: HOURS 0.33 HOURS FR0t1 T=0 1.67 SENSOR #
TEliP(DEG.F)
HT. FACTOR DEHPOINT (DEG.F)
HT. FACTOR 1
88.56( 0.00) 0.02<
<9.500( 0.000) 0.150 2
. g.CS.97( 0.13) 0.027.
80.220( 0.220) 0.150 3
68.97( 0.00) 0.027 81.700(-0.130) 0.150 4
89.65( 0.00) 0.027 79.700( 0.170) 0.100 5
89.38( 0.00) 0.027 86.550( 0.000) 0.225
' ~
6 89.38< 0.00) 0.027 87.270( 0.000) 0.225 7
89.11< 0.00) 0.027 8
90.45( 0.00) 0.075 9
89.19( 0.00) 0.075 10 89.78( 0.00) 0.030 11 89.69( 0.00) 0.030 12 90.28( 0.08) 0.030 13 92.72( 0.00) 0.025 14 90.03( 0.00) 0.025 15 90.03( 0.00%
0.025 16 90.45( 0.08) 0.025 17 90.78( 0.00)
.0.118 18 90.78( 0.00) 0.118 19 91.19( 0.00) 0.118 20 90.23( 0.00) 0.118 IDRYHELL PRESSURE =
72.0880
( -0.0050)
PSIA i
REF. YESSEL DP=
O.9696
(
0.0005)
PSID t
AVG. C0 tit. TEt1P-90.236
(
0.0079)' DEG.F' AVG. DEHPOIllT PRESS =
0.61&
(
0.0005)
PSIA INTERVAL 5
LEAK RATE =
0.098 HT%/24 HRS TOTAL TIME LEAK RATE =
0.184 HT%/24 HRS MASS PLOT CONTAIHMENT LEAKAGE RATE AtlALYSYS C0HTAI!1MEllT TOTAL MASS (DRY AIR)=
85086.92 POUllDS PROJECTED LEAK RATE =
0.216 HT%/24 HRS 95% C0llFIDEtiCE IllTERVAL=
+/-
0.317 -
HT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.533 HT%/24HR$
4 MAXIMUM ALL0HABLE LEAK RATE (0.75*LA)=
0.476 HT%/24HR$
e e
D-34
a C00FER1 PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMBER 7
DATE:
8/
26/
83
<2140 LAST INTERVAL: HOURS.
'O.33 HOURS FROM T=0 2.00 SENSOR #
TEMP'<DEG'. F) r.WT.. FACTOR a DEWPOINT (DEG.F). WT. FACTOR..-
_4_________-
___;_____.________________-__________~..
1
- 88.56( 0.00)
'0.~027 c.79.530< 0.030),
' 0'.1'5 0'..
,3 2
88.84(-0.13)-
0.027~
' 80.220( 0.000) 0.150 C
3 88.97( 0.00)
' O.027.
- 81.700( 0.000).
0.150
^:=,
4 89.65( 0. 00 )'.
~0.027 79.530(-0.170) 0.100 5
89.38< 0.00) 0.027.
86.550< 0.000) 0.225 6
89.52( 0.14) 0.027 87.270( 0.000)
-0.225 7
89.25< 0.14) 0.027 8
- 90. 45(' O. 00)J:" 0. 075' 9
'. f89.19(.0.00)
'0.075 '"'e
.,,, t. -
10
'89.86( 0.08)
'O.030 4^
~
11 89.69C 0.00) 0.030 12-90.28( 0.00) 0.030 13 92.80< 0.08) iO.025 14 90.03 0 0.00).-;0.025 9:
/
.cf.
m-
~
15 90.03< 0.60)
"O.025-16
'90.45< 0.00)1 0.025 17 90.78( 0.00) 0.118 18 90.78< 0.00)'
O.118 19 91.19C 0.00) 0.118-20 90.23( 0.00) 0.118 72.0830
( -0.0050)
PSIA DRYWELL* PRESSURE =
REF.. VESSEL DP=
0.9705
(
0.0009)
PSID AVG. CONT. TEMP =
90.245
(
0.0084)
DEG.F AVG. DEWPOINT PRESS =~'
O.616
( -0.0002)
PSIA INTERVAL
- 6 LEAK RATE =
.0.070 WTN/24 HRS TOTAL TIME LEAK RATE =
0.165 WT%/24 HRS MASS PLOT CONTAINMENT LERKAGE RATE ANALY5YS CONTAINMENT TOTAL ^ MASS.(DRY AIR)=
85086.10 POUNDS PROJECTED CEAK -RATE = J 0.195 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.212 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.407 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-35
C00PER1 PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET HUMBER 8
DATE:
8/
26/
83 2200 0.33 HOURS FROM T=0-
- 2.33
~
.~ '.
LAST.INTERVALt? HOURS. -; c. '.
.fl:.;.i.. & &j. y e ;
' Q.p, ';( l q,.
A.
v.i - t? ' i.
SENSOR #'
TEMP (DEG.F)'3WT. FACTOR' DEWPOINT -(DEG.F)
WTtFACTOR,.;vi-l-
__________________ _________. 3 1,.
1..
88.56< 0.00).1 0.027 79.700( 0.170)._'
0.150 2
2-88.97(.0.13)' O.027.
80.220( 0.000)
O.'150 F '.1
' g'.
3 88.97(.0.00)3 0.027 81.650(-0.050)
. 0 150 3"
4 89.65C 0.00).
0.027' 79.700( 0.170)
. 0.100.
c'.
-wS 5
89.52< 0.14)'
O.027 86.500(-0.050)
- 0.225 6
89.52< 0.0.0).
0.027 87.270(-0.000)-
- 0.225
/
.i.
_.' : P ph.T :.M [f
's
.f.
- c.'
17 89.11(-0.14) 0.027 8
90;45(70.00):
0.075 '
' E' i. ~-9 V
2 M'
9 89.19( 0. 00)'
O.075 o
- i 10 89.78(-0.08) 0.~030
..i'
">Z T P*
11 89.69( 0. 00 )~
.,0.030 t.
\\
90.20(-0.08)M0.030;'.
12 c
'El'D'p-%
92.72(.-0,08)
O.025
~ "' - 8 +*.
. i
- OL.' #i. ' 7 s.'
13 14-90.03< 0.00)' iO.025 15 90.03< 0.00) 0.025 16 90.45( 0.00) 0.025
^
v 9.'-
- . v,,!
17 90.78< 0.00) 0.118 s
~ ~ > -
18 90.78( 0.00)-
0.118 19
'91.05(-0.14) 0.118
.g 20 90.23(:0.00) 0.118
~
- n
.. PSIA DRYWELL PRESSURE =
72.0760
< -0.0070)
REF. VESSEL DP=
0.9765
-(
0.0060)~ PSIDr ' C' AVG. CONT. TEMP =
90.225
( -0.0198)
DEG.F' ~
AVG. DEWPOINT PRESS =
0.616
(
0.0002)
PSIA INTERVAL 7
LERK RATE ='
O.635 WT%/24 HRS TOTAL TIME LEAK RATE =
0.232 WT%/24 HRS
'/
MASS PLOT'COHTAIHMENT LEAKAGE. RATE ANALYSYS
't!
, e CONTAINMENT TOTAL' MASS (DRY AIR)=
85078.59'
. POUNDS PROJECTED LEAK RATE =
0.223 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.199 WT%/24 HRS 95% UPPER. CONFIDENCE LEAK RATE =
0.422 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS A
e
~
D-36
l C00FER1 PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMBER 9
DATE:
8/
26/
83 2220 LAST INTERVAL HOURS 0.33 HOURS FROM T=0 2.67 SENSOR #-
'. TEMP (DEG.'F),WT. FACTOR.'DdWPOINT "(DEG.F)
'WT. FACT 0R
~
~
1.
W 88:56Q'5'.'00h' 'O.'527Oj2 f79.3301-0.'370) 80'220< 0.000),]'; 0.150[I.' # 4 '.
, O'.Y' 5 0' ;.
1
?
2 88.97( 0.'00).
0.027 r,
'\\..
'.4 3
8 8, 97 (.,0, 00 ) -
0.027 81.830< 0.180)
~ ' 0.15 0.- ~ ;-..
f 4-89.65(YO.00)
- s. 0. 027z ;?.' ?9. 530 <-0.170 )' '
O.100
- 7 5
89.38(-0.14)
~0. 027. -
w86.330<-0.170) 0.225 ~
6 89.3SC-0.14) 0.027.
87.270(.0.000) 0.225.
7
.89.11(:0,00) 0.027.
8 90.'45(0.00) 0.075~*
N 1
9
~
89.190.0.00): 'O.075 e c..
10
_;89.78(40.00)/ 10;030- f...'
3
- t?'
. m.. Y 6. '.". f.:;... P f
11
<89.69(".0.00)
"0.030' * "
12
-90.28(~0.08)~
70.030
'~
13
.92.72<.0.00) 0.025
/
'14
/-90.03(~~0.00) 0.025-1
- 15.
'490.03("0;00)-#,.0.025
.;"p.'. Mf.'....
s..
>;.3-Y s : ? i 16 r,'90.45("0.00) 0.025. -
fC.
5L
' ~~
t.e s-17 90.78( 0.00) 0.118 18 90.78('O.00) 0.118
-i
- r 19 91.05( 0.00) 0.118 20 90.23( 0.00) 0.118-e '
DRYWELL PRESSURE =
72.0740
( -0.0020) ~ PSIA REF.. VESSEL DP=
0.9750
( -0.0015)
PSID AVG. CONT.. TEMP =
90.220
( -0.0052)
.DEG.F~ c-AVG.. DEWPOINT PRESS =
'O.615
( -0.0013)
PSIA INTERVAL 8
LEAK' RATE =
-0.277 WT%/24 HRS TOTAL TIME LEAK RATE =
0.169 WT%/24 HRS MASS PLOT COH,TAINMENT LEAKAGE-RATEhANALYSYS L
CONTAINMENT TOTAL' MASS-(DRY AIR)='
85081.86 POUNDS PROJECTED LEAK RATE = '
o'-
0.202 WT%/24 HRS 95% CONFIDENCE :' INTERVAL =
'f' F+/- IO.159
~WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.361 WT%/24 HRS r
j MAXItiUM ALLOWABLE LEAK ' ~ ATE (0. 75*LA)= -
0.476 WT%/24HR$ '
~
R W
9 i
W D-37
e 4
p q
COOPER 1 PRIMARY CONTAIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMBER ~
~10
. DATE:
8/
26/.'-83' 2240
- v..
.LAST' INTERVAL: ' HOURS' ~ 'O.33
- HOURS: FROM :T=0 <.13i00
' e. L..
M -
~
4 3..
.. f.
,, y SENSOR #.
.' TEMP (DEG.F),
'WT. FACTOR-DEWPOINT.
(DEG.F)' WT. FACTOR,
' ^
--- ~-------' --------
.-?...
1
'88.56(L0.'00),"'O.'027 79.700< 0.370)'
2 0.150 4
w.-
2
~
88.84(-0.13)' -0.027 80.220( 0.000) 0.150
/'
3 88.97("0.00)
-0.027 81.450(-0.380) _
0.150 e
4 89.65< 0.00)
'0.027 79.700('O.170) 0.100 i-5 89.52< 0.14)
'0.027 96.420( 0.090) 0.225
. e...i*
6
-89.52(' O'14):
'0.027 2 m.87.270(.0.000)..
N
- ~
0.225, C ':; i '
7
- 89.25(-i0.14)"
0.027.' '
~
n.
8 90.45( 0.00)
.0.075' 9
89.19( 0.00) 0.075' 10 89.86( 0.08) - 0.030-j
,f.
/. '
.. mf 6"~0 11
- ,;89.78( O.09)a :0,030.
~
12 90.28('O.00)'
O.030 :
' ' Mb#h.
v
' ^ " ~ '
13 92.72( 0.00) 0.025
$C 14 90.03( 0.00) 0.025 15 90.03< 0.00) 0.025 e
16 90.45(.0.00) 0.025 17 90.78( 0.00) 0.118 18 90.78(:.0.00) 0.118 19 91.19('O.14) 0.118 20 90.23( 0.00)
'O.118 DRYWELL PRESSURE =
~
72.0700
( -0.0040)
FiIA REF. VESSEL DP=
0.9750
(-
0.0000)
PSID 9,0.249
(
0.0294)
DEG.F AVG. CONT. TEMP =
AVG. DEWPOINT PRESS =
0.615
(
0.0003). PSIA TOTAL TIME LEAK RATE =
-0.025 WT%/24 HRS INTERVAL 9' LEAK RATE =~.
F.153 WT%/24 HRS MASS PLOT C0'HTAINMENT LESKAGE RATE ANALYSYS.
CONTAIHMENT TOTAL MASS'(DRY AIR)=
85081.56 POUNDS PROJECTED LEAK RATE =
0.182 WT%/24 HRS 95% CONFIDEHCE IHTERVAL=
- +/-
0.130 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.313 WT%/24 HRS; MAXIMUM ALLOWABLE LEAK RATE (0.754LA)=
0.476 WT%/24 HRS D-38
COOPER 1 PRIMARY CONTAIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET HUMBER..
11 DATE:
C/
26/
83
.2300
.3.33.
LAST INTERVALr HOURS 0.33 HOURS FROM T=0 SENSOR #. ;-TEMP (DEG. F) ; W7. FACTOR; (DEWPOINT ',4DEG. F).' 'WT.' FACTOR
...:' u ; i.?.r.< +
- . ~i '...: 3 :. b ;.'.
. i 1.
i
..a c'
1 88.56(.0.00)~
0.027 79.700( 0.000) 0.150 c
88.e4(:0,00)-
0.027 80.330( 0.110) 0.150
- f. ~ ' ^
2~
3
'88.97('O.00)'
O.027 81.920( 0.470) 0.150
~.
4 89.65(: 0,00) 0.027 86.550( 0.130) 0.225' 79.890< 0.190) 0.100 s
5 89.38(-0.14)" 0.027 6
69.52(20.00)
'O.027 37.350( 0.080)
~0.225
.7 8 9.~ 11 <.-0,- 14 ) '
- 0.027.
y 8'
':90.'45C 0.00)
' O. 075 N J'
/
12.9
' ' ~ ' ' '
9 89.19(.0.00)
- 0. 075 ~ '
s 10 89.78(-0.08) 0.030 11 89.69(-0.09) 0.030.
'. 41 90.28( 0.00).
0.030 o.
2 12 O.025'-
s
~
?' ' ;.* - M' i 13
.92. 72(.0. 00)'
~
14
'9 0. 03 ( :,0 ; 00 )
0.025 15 90.03( 0.00) 0.025
~
16 90.45( 0.00) 0.025
's 17 90.78( 0.00) 0.118 19 90.78( 0.00) 0.118 19 91.05(-0.14) 0.118 20 90.23( 0.00) 0.118 w
DRYWELL. PRESSURE =
72.0640
( -0.0060)
PSIA REF. VESSEL DP=
O.9741
( -0.0009).PSID 90.220
( -0.0292)
DEG.F AVG. CONT.-TEMP =
AVG. DEWPOINT PRESS =
0.618
(
0.0028)
PSIR INTERVAL-10 LEAK RATE =
0.203 WT%/24 HRS TOTAL TIME LEAK RATE =-
O.158 WT%/24 HRS.
- 1 ASS PLOT...CONTAIHMENT LEAKAGE RATE ANALYSYS
--_---_--h---
CONTAIHMENT< TOTAL MASS (DRY RIR)=~
85079.16
- POUNDS PROJECTED LEAK R6 ten
'O.172 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.113 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.285 WT%/24 HRS IiAXIMUM ALLOWABLE LEAK RATE (0.75+LA)=
0.476 WT%/24 HRS E
9 D-39
C00PER1 PRIMARY CONTAIHMENT ILRT---REFEREHCE VESSEL METHOD DATA SET NUMBER 12 DATE:
8/
26/
83 2320 LAST INTERVALS HOURS 0.33 HOURS CROM T=0 3.67
~
1.
(DEG~.F) c.WT. FACTOR, SENSOR O,-TEMP (DEG.,Fp.JWT. FACTOR;-DEWPOINT,_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
y,,.
1
.88.566 0.00).
0.027
~ 79.700('O.000) 0.150-2 88.97( 0.13) 0.027 -
-80.330( 0.000) 0.150
,i?;;
- 1 3
88.34(-0.13)'
O.027;-
' 81.700(-0.220): -
0.150_
4 89.65( 0.00).
.0.027-
~.79.700(-0.190).
0.100 5
89.52( 0.14) 0.027 86.550(- 0.000)~
0.225 7
6 89.38(-0.14)
'O.027
- 87. 270 <-0. 080) 0.225 7
89.11(:0.00) 0.027-
.8 90.37(-0.08):.
0.075
" " P.'
i
' % # '. ;.a._ J. -
c t.
x.
- 8 9. 1 9 (.0 '. 0 0 )*
"0.075 t 9-
.;f?q:.;
10 89.86( 0.08),0.030
<3-~~
11 89.69( 0.00) 0.030 12 90.28< 0.00) 0.030
O
.,,; a 13 92.72('0.00). -0.025 n
,, ' "' + ?S ',YM
- 14
'90.03(10.00): 10.025 '
~
~
15
, 90.03(.0.00)~'
0.025 16 90.45( 0,00) 0.025 17 90.64(-0.14) 0.118 18 90.78< 0.00) 0.118 19 91.05( 0.00) 0.118 20 90.23< 0,00) 0.118 DRYWELL PRESSURE =
72.0640
(
0.0000)' ' PSIA
~
REF. VESSEL DP=.
0.9764
(
0.0023)
PSID 90.200
( -0.0201)
DEG.F AVG. CONT. TEMP =
AVG. DEWPOINT PRESS =
0.617
( -0.0012) : PSIA
~ INTERVAL 11 LEAK RATE =
0.112 WT%/24 HRS TOTAL TIME LEAK RATE =
0.154 WT%/24 HRS-
~
MASS PLOT CONTAIHMENT LEAKAGE. RATE ANALYSYS CONTAIHMENT. TOTAL MASS (DRY RIR)=
85077.83
_ POUNDS-PROJECTED LEAK RATE =
0.164 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.100 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.264 WT%/24 HRS
?
MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS.
l D-40 t.
COOPER 1 PRIMARY CONTRIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET HUMBER 13
.f _..'_
DATE:
. 8 /. 266. 83 2340 s.
LAST INTERVALi HOURS' - ~.0. 33 HOURS FROM-T=0
'4.00 SENSOR # ~
TEMP (DEG.F)
WT.' FACTOR q
1 88.43(.-0.13) 'O.027 79.330(-0.370) 0.150 2
88.84(-0.13) 0.027 80.330( 0.000)
O.150 3
88.84< 0.00) 0.027
.81.830< 0.'130) 0.150 4
.'89.65(~.0.00)
,0.027 79.700< 0.000).
0.100 5
'89.25(-0.2?)
0.027 86.550( 0.000)-
0.225
.c 6
.89.38( 0.00):
.0;027'U. <87.180(-0.090)
' O.' 2 2 5. -
14-7
'89.11< 0.00) 0.027
~
8 90.37< 0.00) 0.-075 9
89.11<-0.08) 0.075 10 89.78(-0.08).
0.030 11 u 09.61(-0.08) - ' O. 0 3 0 <
~
- - 7Y, 12 90.20(-0.08)'.
0.030' 13 92.63(-0.09) 0.025 14 89.95(-0.08)
'O.025 15 89.95(-0.08) 0.025 16 90.37(-0.08) 0.025 17 90.64< 0.00)
-0.118 13 90.78C 0.00) 0.118 19
- 91. 05< 0. 00) - 0.118
~
20 90.06(-0.17)
.0.118 DRYWELL PRESSURE ='
72.0560
( -0.0080)
PSIA REF. VESSEL DP=
0.9806
(
0.0042)
PSID RVG. CONT. TEMP =
90.144
( -0.0558)
DEG.F~
AVG. DEWPOINT, PRESS ='
O.616
( -0.0008)- PSIA
~
~
INTERVAL 12' - LEAK PATE=
E.357 WT%/24 HRS TOTAL TIME LEAK RATE =
0.171 WT%/24 HRS MASSPLOT CONT.AIHbENTLEAKAGE'RA'TEANALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
85073.62 POUNDS PROJECTED LEAK RATE =
0.166 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.094 WT%/24 HRS 95% UPPER CONFIDENCE LERK RATE =
0.260 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24HR$
D-41
O C00PER1 PRIMARY COHTAIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMDER 14 DATE:
8/
26/
83.
2400 4.33.
. LRST INTERVAL :. HOURS. A,0.33 i 4 HOURS FROM T=0 s
SENSOR TEMP (DEG.F)
~WT. FACTOR-DEWPOINT 4(DEG.F)
WT. FACTOR
~
0.0272 79.700( 0.370) 0.150 1
'88.43< 0.00) 80.220(-0.110) 0.150 2
S8.84(.0.00) 0.027 3
-8 8.' 84 ( "0 ~ 00) ~
0.027.
81.830( 0.000) 0.150 4
89.52(-0.13) 0.027 79.700( 0.000) 0.~100 5
89.25< 0.00)
.0.027.
86.420(-0.130) 0.225 6
89.38(10.00)-
30.027 87.270( 0.090).
0.225 7
89.11(~0.00) 0.027 N
L 8
90.28(-0.09) 0.075 9
89.11('O.00) 0.075 10 89.78( 0.00) 0.030 11 89.61< 0.00) 0.030 12
'90.20('0.00) ~ ;0.030
~
~~' -
13 92.63< 0.00) 0.025
~
14 89.86(-0.09) 0.025 15 89.86(-0.09) 0.025 16 90.37( 0.00) 0.025 17 90.64< 0.00) 0.118 18 90.64(-0.14) 0.118 19
-90.92(-0.13) 0.118 20 90.06( 0.00) 0.118 DRYWELL PRESSURE =
72.0510
( -0.0050)
PSIA REF. VESSEL DP='
O.9796
( -0.0010)
PSID RVG. CONT. TEMP =
90.098
( -0.0466)
DEG.F AVG. DEWPOINT PRESS =
0.617
(
0.0003)
PSIA INTERVAL-13 LEAK RATE =
-0.056 WT%/24 HRS TOTAL TIME LEAK RATE =
0.153 WT%/24 HRS MASS PLOT CONTAIHMENT LEAKAGE -RATE ANALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
85074.28 FOUNDS FROJECTED LEAK RATE =
0.160 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.086 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.246 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75'LA)=
0.476 WT%/24HR$
D-42
e C00PER1 PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMBER 15.
DATE:
8/
27/. 83.
2420
.0.33 HOURS.FROM T=0 4.67 LAST INTERVHLs1 HOURS,,
6
- p-(
__________________fWT.
FACTOR DEWPOINT (DEG.F)
SENSOR #
STEMP(DEG,.'F.)
WT. FACTOR 1
88.43(',0,00) 0.027.
79.600(-0.100) 0.150 2
- 88. 84 C O. 00) 0.027 80.000(-0.220) 0.150-3 88.84(10.00)~
0.027 81.900( 0.070) 0.150 4
89.52(,0,00)-
0.02<
<9.700( 0.000) 0.100 5
~S9.25( 0.00) 0.027 86.200(-0.220) 0.225 7
"89.11.<.0.00) 0.027.
' 0.030) 0.225 6
89.52('0.14) 0.027 87.300(
..s '
~
8 90.28(-0.-00)
' O. 075~
9
.89.11<.0.00)'
O.075
~
10 89.69(-0.09) 0.030 11 8 9. 6 1 (- 0. 0 0 )
~0.030 i
12 90.20( 0.00);
0.030 13
'92.55(-0.08)'
O.025
^
14 89.86(.'O.00) 0.025 15 89.86(-0.00) 0.025 16 90.28(-0.09) 0.025 17 90.64( 0.00) 0.118 18 90.64('O 00) 0.118
.19 90.92<.0.00) 0.118 20
-90.06( 0.00) 0.118 DRYWELL PRESSURE =
72.0460
( -0.~0050)
PSIA 0.9805
(
0.0009)
PSID REF. VESSEL DP=
90.094
( -0.0032)
DEG.F AVG. CONT. TEMP =
AVG. DEWPOINT PRESS =
0.615
( -0.0015)
PSIA INTERVAL 14 LEAK RATE =
-0.056 WT%/24 HRS TOTAL TIME LEAK RATE =
0,.138 WT%/24 HRS
~
l MASS PLOTiCONTAINMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
85074.94 POUNDS PROJECTED LEAK RATE =
0.151 WT%/24HR$
95% CONFIDENCE INTERVAL =
+/-
0.078 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.229.
WT%/24 HRS l
MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-43 L.
O COOPERI PRIMARY CONTAIHMENT ILRT---REFEREHCE VESSEL NETHOD
" ' ~
DATA SET HUMBER-
- 16..
DATE:
8/.'27M 83'
- 0040;
' E....-1~
~^.. ; '
ed
-i LAST INTERVAL: HOURS 0.33 HOURS FROM.-T=0 *
' 5. 00','
~
~
~
WT. FACTOR ' DEWPOINT.(DEG.F).__________________
uT. FACTOR ~
SENSOR #
TEMP (DEG.F)
~
1 88.43( 0.00) 0.027 79.700( 0.100) 0.150 2
88.70(-0.14)
.0.027 80.330( 0.330) 0.150 3
88.84( 0.00) 0.027 81.830(-0.070) 0.150-4 89.52(-0.00) 0.027 '
79.800( 0.100) 0.100 5-
' 89. 2C( r 0 ?00).
0.027'
~ ' :86. 550( 0.350) 0~225-
_ ~q.f ^.~
6
'89.25(-0.27).
0.027 87.180(-0.120) 0.225 7
89.11(.0.00) 0.027'
~
8
' 90.28( 0.00) 0.075
.9 89.11( 0.00) 0.075 10 89.69( ~ 0. 00)-
0.033 4 ~ _'.
v.,
11 89.61( 0.00) 0.030
~
~..
12 90.20( 0.00) 0.030 13 92.55( 0.00) 0.025 14 89.86( 0.00) 0.025 15 89.86( 0.00) 0.025 16 90.28< 0.00) 0.025 17 90.64( 0.00) 0.118
~
18 90.64( 0.00) 0.118 19 90.92( 0.00) 0.118 20 90.06(~0.00) 0.118 DRYWELL PRESSURE =
72.0440
( -0.0020)
PSIA 0.9819
(
0.0014)
PSID REF. VESSEL DP=
AVG. CONT. TEMP =
90.083
( -0.0111)
DEG.F AVG. DEWPOINT PRESS =
0.617
(
0.0021)
PSIA'"
INTERVAL 15 LEAK RATE =
TOTAL TIME L,EAK RATE =-
O'.355
'WT%/24 HRS
~
0.153
~WT%/24 HRS-2 MASS PLOT CONTAIHMENT LEAKAGE RATE RHALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
85070.75 POUNDS PROJECTED LEAK RATE =.
0.150 WT%/24 HRS 95% CONFIDEHCE INTERVAL =
+/-
0.073 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.223 WT%/24 HRS MAXIMUM ALL0HABLE LEAK RATE (0.75+LA)=
~0.476 WT%/24 HRS l
r D-44
1 e COOPER 1 l
PRIMARY COHTAIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMBER 17
~
0100 DATE:
. 8/
27/. 183.
'm s L AST : IHTERV A. Li'. HOUR. S T - 30.33.
. HOURS.FROM T=0
.5.33, l cs SENSOR #-
.. TEMP (DEG.F)'-WT. FACTOR. DEWPOINT _(DEG.F)_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
WT. FACTOR
~
~
2 O
'l 88.43(LO'00)? -0.027
~79.'700(.0.000) 0.'150 '
1-2
.88.70( 0.00) 0.027
- 79.970(-0.360) 0.150 3
88.70(-0.14) 0.027 82.030( 0.200) 0.150 4
.89.52( 0.00) 0.027
.79.890( 0.090) 0.100 -
5 89.25<-0.00) 0.027 86.550( 0.000) 0.225 7
" 88.97(-0214):
0.027
- 87.300( 0..'120)J 0.225 6'
.;.89.65(J0.40>5 0.027 2
8 90.28( 0.'00) 0.075 9
89.02(-0.09) 0.075 10 89.69(.0.00) 0.030
- 11
. 8 9. 61 <:.0. 00 ) ~
,0,030 f.J
- 12'
'90.20( 0.00):
'O.030 s
13 92.55(:0.00) 0.025 14 89.86< 0.00).
0.025 15 89.86( 0.00) 0.025 16 90.28( 0.00) 0.025 17 90.64( 0.00)
~0.118 18 90.64('O.00)
!0.118 19 90.92( 0.00)
-0.118 20 90.06( 0.00):.0.118 -
DRYWELL-PRESSURE =
72.0400
( -0.0040)
PSIA REF. VESSEL DP=
0.9814
( -0.0005) 'PSID AVG. CONT. TEMP =
90.080
-(
-0.0035)
DEG.F AVG. DEWPOINT PRESS =
- 0.617
(
0.0002)
PSIA INTERVAL-16.L'EAK RATE =
-0.029 WT%/24 HRS TOTAL TIME LEAK.R8TE=s 0.141 WT%/24 HRS s,
NASS PLOT CONTAINMEi1T LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
85071.09 POUNDS PROJECTED LEAK RATE =
0.145 WT%/24 HRS 95% CONFIDENCE INTERVAL'=
+/-
0.068 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.213 WT%/24HPS 3
MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-45
C00PER1 FRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET HUMBER 18 DATE:
8/
27/
83 0120 LAST INTERVAL HOURS
. 0.33 HOURS FROM T=0 5.67 SENSOR #
TEMP (DEG.F)I.WT. FACTOR. DEWPOINT [.(DEGIF) !WT. FACTOR
.r-
_ _ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ l _ p _ _ _ -. 4 p; -> rz 1
88.43(1 0.00)~. 0.027' 79'. 800 ( ' 0.:10 0 ) ' ' ' ' 0.15 0. '
~ ~
80.333< 0.360)~
' 0.150 2
88.70(.0.00)~
0.027 0.150 e 3
-88.84(~0.14) 0.027 81.830(-0.200) 4 8 9. 52 ( ~. 0. 00 )
'0.027: ~
79.890(i.0.000)'
'O.100 '
2.
5
.89.25< 0.00)
'O.027 86.330(-0.220)~.c,0.225 6
89.25(-0.40) 0.027 87.300( 0.000) 0.225
~s 7
88.97(.0.00) 0.027 8
_90.28('O.00)
,0.075
^
". r' 9
' -89.02( 0.00)
.0.075 "
c0
'. l.
m
~ 0:00)
'O.030 10 89.69(
' 7.f '
~
11 89.61('0.00)
'O.030 12 90.20( 0.00) 0.030
~
13 92.53< 0,00) 0.025 7 :'71 14
-89.86( 0.00)~
0.025-15 89.86( 0.00)
=0.025 4
c. s"..
y ft 7
16 90.28( 0.00) 0.025 17 90.64( 0.00) 0.118 18 90.64(-0.00) 0.118 19 90.92< 0.00) 0.118-20 89.93(.0.13) 0.118 DRYUELL PRESSURE =
72.0340
( -0.0060)
PSIA REF. VESSEL DP=
0.9874
(
0.0060)
PSID AVG. CONT. TEMP =
90.057
( -0.0223)
DEG.F AVG. DEWPOINT PRESS =-
0.617
.( -0.0003)- PSIA.
INTERVAL 17 LEAK RAT'E=
.0.581 WT%/24 HRS TOTAL TIME LEAK RATE =
0.167 WT%/24 HRS MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
85064.22 POUNDS PROJECTED LEAK-RATE =
0.150 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.067 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.217 WT%/24HR$
NAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS t
I
~
,D-46 l
COOPER 1 PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DRTA SET NUMBER 19 DATE:
8/
27/
83 0140 LAST INTERVA.Ls HOURS 0.33 ^
HOURS FROM T=0 6.00
....i-...
' SENSOR # L j TEMP (DEG. F-> f WT. FACTOR '.;DEWP.0 INT _ --(DEG. F);.. WT. FACTOR;,.;.,73], ;
1 88.29(-0.14) ' O 027-79.700(-0.100) 0.150,
O e
t 2
.88.70(.0.00) 0.027-;.
' 81. 920( ~ 0. 090) 80.220(-0.-110)
., 0.150 4
89.52( 0.00)~
0.027
'79.800(-0.090)'
O.100.'-
- ' 'J 3
88.70(-0.14) 50.027.
O.150
- 0. 2 25 '
']
5 89.25( 0.00) 0 0.027 86.500( 0.170) 6 89.25(.0.00) 0.027 87.200(-0.100)
.0.225 7
88.97( 0.00) 0.027 8
9 0. 2 0 ( - 0.'0 8 )~i ' ' O. 0 7 5 J"-
,.9-4 89. 02( ;0. 00) L :x0. 075
' M.
^4.
1.I Y*
'."~ '
'?
'T r
' <^
10'
' 89.61(-0.08) 0.030
~.
m 11 89.53(-0~.08) 0.030 12 90.12<-0.08) 0.030
~
13 92.55(:, 0.00).. 0.025.
' 9,, ~
15
'89.86(U0.00) O.025
~
"'i.
14
'489.78('-0.08) 7 0.025'..,^Y -
~
u
.,'5.5.
16 90.20(-0.08) 0.025 17 90.64(-0.00) 0.118 18 90.64< 0.00) 0.118 19 90.92( 0.00) 0.118 20 90.06< 0.13)
-0.118 DRYWELL' PRESSURE =
72.0290
( -0.0056)
PSIA '
REF. VESSEL DP=
O.9846
( -0.0028)
PSID AVG. CONT. TEMP =
'90.048
.(
-0.0094)
DEG.F AVG. DEWPOINT PRESS =
-~
^
- 0. 6 1 7
( -0.0001)
PSIA
.INTERVALJ 18 fLEAK' RATE =
.-0.290 WT%/24 HRS TOTAL TIME LEAK: RATE =.-
0.142 WT%/24 HRS s,
MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS'< DRY RIR)=
~ 85067.64 POUNDS PROJECTED LEAK' RATE =~
0.146 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.063 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.209 WT%/24 HRS 9
~
MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-47
PSID s
..ov.v-C00FEP1 PRIMARY CONTAIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET HUMBER 20 DATE:
S/
27/. 83 0200 LAST IHTERVALs HOURS 0.33 HOURS FROM T=0 6.33
'WT. FACTOR DEWPOINT.,[(DEG.F ( WT. FACTOR _______________________
, p 4,.p SENSOR #
.' TEMP (DEG.F) 0.150- ~
. 'f'-
1 88.29('O.00)
'0.027 79.800(70.100) 2 88.70( O.00) 0.027 80.150(-0,070)-
O.150
- '^
3
.88.70( 0.00) 0.027 82.030( 0.110)
'.0.150 ~
4 89.38(-0.14) 0.027.
~79.-700(-0.100)'
0.100
^
?b.
5
-89.25C 0.00)
-0.027 86.330(-0.170) 0.225 s
6 89.11(-0.14) 0.027 87.180(-0.020) 0.225 7
88.84(-0.13)..
0.027 8
90.20(-0.00) 0.075
.C
.:( %d4 w,
10.075 ' "
.J 9
l88.94(-0.08)'
3.'
10 89.61( 0.00) 0.030 11 89.44(-0.09) 0.030
.E 12 90.12( 0.00) 0.030
.J 13
_92.55C 0.00)
.0.025 7,.
J-;~;7&.
'89.'700'O.'00)".'0.025 14 15 89.78(-0.08)~
0.025
~.
16 90.20('O.00) 0.025 17 90.64< 0.00) 0.118 18 90.64(.0.00) 0.118 19 90.92( 0.00) 0.118
~
20 90.0C( 0.00) 0.118
'J.
DRYWELL PRESSURE =-
72.0210
( -0.0080) PSIA
~
REF. VESSEL DP=
0.9892
(
0.0046)
PSID AVG. CONT. TEMP =
90.026
('-0.0217)
DEG.F AVG. DEWPOINT PRESS =
0.616
( -0.0006)
PSIA
INTERVAL 19 LEAK RATE =
0.'406 WT%/24 HRS TOTAL TIME LEAK RATE =-
0.156 WT%/24 HRS MASSPLOTCONTAINMENTLEAKAGE'.RATEAilALYSYS CONTAIHMENT TOTAL" MASS'(DRY, AIR)=
85062.85.
POUNDS PROJECTED LEAK RATE =
0.147 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.061 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.209 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS
/
/
i
/
//
I D-48
!u
COOPER 1 PRIMARY CONTAIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET HUMBER 21 DATE:
8/
27/
83 0220 LAST. INTERVAL,. HOURS 0.33 '
. HOURS FROM T=0 6.67-
< o. e -pp-
._5 ;,. ;i..: r2, Q
' t.
r n., : ~ _ % =. ;; :' :> g
.y + y V-SENSOR #i TEP.P ( DEG.'F),.WT.FRCTOR DEWPOINT.(DEG.F). CWT. FACTOR.- '
_________-______.:._____________a______?
2
.88.56(-0.14) 4 0.'027:
- J80.150('0.000) ~
JO.150,I 1.
'88.29(.0;00).' 'O.027?
79.800( 0.000) -
~
0.~ 15 0.-
J - 0:
3
- 88. 56(-0.14 )-
O.027
.. 81.850(-0.180).
- O.150 -
c-T.
~4 89.38( 0.00)
LO; 027. '- 7 ~ 79. 900( 10. 200) '
O.100~
O.027
. . 8 6. 5 0 0 ( z 0. 1 7 0 )~
' O.225 J,.,
.5 89.11 GO.14>,, 0.027
.. 4 P'0.225. 4 4 'E'M..
6
.89.11C 0.00)
-. 87.180(. 0.000) 5,f.1. ~.. e
?
- 88. 97 G.O.13 ) ~ 0.'027. r w '.
? 6..;.
~
8 90.20( 0. 0 0 )'
O.075
'..x J ~ #
"'?
n
- S.: N
-MF 1 9
8 8.~94 ( 0.00)
'O.075
~
'1 4
. ~
10 89.61(.0.00)' O.030-
.~
11 89.53(J0.09)-
0.030
. ~
A. n. >c.. La W. -
12
. 790.12(<0.00).d.0.030
. ~.
13 9 2.'4 6 C-0. 09) e - 0. 025 N " ' 4. ~ '. T f N'c
' " ' J. '
14
~89.78(,0.00)~
0.025 4
15 89.78C 0.00).
0.025 16
'90.200 0.00) 0.025 17
.90.51(-0.13) 0.118,
18 90.64C O.00). 0.118 5,s 19 90.92< 0.00) 0.118
,20 89.93<-0,13) 0.118
^
c
^
DRYWELL PRESSURE =
-72.0170
< -0.0040)
PSIA-REF. VESSEL DP=
0.9859
( -0.0033)
PSID AVG. CONT.-TEMP =
89.988
(--0.0380)
DEG.F
~
AVG. DEWPOINT PRESS =
0.617
(
0.0005)
PSIA INTERVAL' 20 LEAK RATE =
-0.271 WT%/24 HRS 0 ~134 WT%/24 HRS TOTAL ~ TIME LEAK. RATE
~
NASS PLOT'CONTAIHMENT' LEAKAGE RATE ANALYSYS
- c h CONTAINMENT TOTAL MASS (DRY AIR)=-
85066.05 POUNDS PROJECTED LEAK RATE =
0.142 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.058 WT%/24 HRS 95% IJPPER CONFIDENCE. LEAK. RATE =
0.200 WT%/24 HRS es.
MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476~
WT%/24 HRS e
4 W
4 e
D-49 a._.
y
, ~.., _ - - - -
C00PER1 PRIMARY CONTAIHMENT ILRT----REFERENCE VESSEL METHOD DATA SET NUMBER 22.
DATE:
8/
27/
83 0240 LAST INTERVALS HOURS.
0.33 HOURS FROM T=0 7.00 SENSOR #
- TEMR(DEGlF). 'WT. FACTOR DEWPOINT..<DEGiF)
W T. F FtC T O R K '~ ;' b I
~
j____'_____2_
/____2____.____;_____________ _________ /',
"g,- g
~1 88.29( 0.00) 0.027 79.800('O.000) 0.150
u 2
- 88.56( 0; 00).c. 0.027..
. 80.220( 0. 070 )' -
' 0 '.15 0 ' ", 'T t
88.56<10.00) ( O'027'
. 81.920(.0.070) 0.150..',i.'..fl 3
.4
,89.38(~0.00) ' O.027-79.900( 0.000)-
'0.100 5
' 89.~ 11( '0; 00) 0.027..,
86.420(-0.080),
0.225..).l.
6 89.11<.0.00).
0.027
' 87.300('O.120)
- 0.225~
7-88&84(-0.13) 0.027 4..
's I-l90.12(-0. 08) #'. 0. 075 8
' e y
. l.....M " "1 0? V
~ ~~
Y'r'
'88.~94( 0.00)
- 0.075:
9 9-i 10 89.53(-0.08) 0.030
~
?'
11 89.44(-0.09) 0.030 JT;. 3 12 90.12(~0.00)
.0.030
,.t 92.46(;0.00).
0.025 ;
13
,4,,.
. %. aft; g 14
- 89/69(-0;09) O.025
,..,f i4 '-]h V 4 -
15
'89.69(-0.09) 0.025 16
'90.20< 0.00) 0.025
" 'c -
17 90.51< 0.00) 0.118 18 90.64(10.00) 0.118
~~
19 90.92( 0.00) 0.118 20 89.93( 0.00) 0.118 e '
~
DRYWELL PRESSURE-72.0170 0.0000). PSIA!,:.
REF. VESSEL DP=-
^
0.9908
(
0.0049)
PSID AVG. CONT. TEMP =
89.969
( -0.0191) 'DEG.F -
AVG. DEWPOINT PRESS =
0.617
(
0.0006)
PSIA INTERVAL 21 LEAK RATE =
0.558 WT%/24 HRS ~~<
TOTAL TIME LEAK RATE =
0.154 WT%/24 HRS
.~.
- ~
MASS PLOT CONTAIHMENT LEAKAGE-RATE ANALYSYS
..g CONTAIMMENT TOTAL MASS (DRY AIR)=
85059.46 POUNDS,'.
PROJECTED LEAK RATE =
0.144 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.057 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.200 WT%/24 HRS
,i MAXIMUM ALLOWABLE CEAK RATE (0.75*LA)=
0.476 WT%/24 HRS 4
x I
4
?
D-50
PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET' NUMBER 23 DATE:
8/
27/
83 0300 LAST INTERVAL: HOURS 0.33 HOURS FROM T=0 7.33
~.
SENSOR #
TEMP (DEG.F) J.WT. FACTOR. DEWPOINT. (DEG.F) 2WTJFACTOR.
+. m -
U -- :
___________ni
~
1 88.15(-0.1'4)
'O.027 79.800( 0.000)
-f 0.~ 150 '
~
~
~0.150-
- J 2
8 8. 56 (.~ 0. 00). :0.027.'
80.220( 0.000)-
s 3
88.70( 0.14)
' 0.027--
.81.850(-0.070) 0.150.4 4
~89.38('O.00) - 0.027'
'79.700(-0~200).
0.100 5
- 89.11< 0.00) 0.027 86.500( 0.080) 0.225 6
89.11(~0.00) J0.027
- 87.180(-0.120).
0.225 7
88.84(:0.00)~
0.027
h
'w
,. /..
8 190.12<-0.00);l. 0.075.
'.. +
c, r.
~-
9 88.85(-0.09) ~'O.075-10 89.53('O.00)'
O.030 c
11 89.44( 0.00) 0.030
~
12 90.12('O.00) 0.030
~
13 92.46(30.00),
0.025 14 89.69( 0'00)
~0.025
- i' d'. (.
..s',
.o....
15 89.69( 0.00) ~IO.025 16 90.20( 0.00)-
0.025~
17 90.64( 0.13) 0.118 18 90.64(-0.00) 0.118 19 90.92<.0.00) 0.118 20 89.93< 0.00).
0.118 DRYWELL PRESSURE =
72.0080
( -0.0090)
PSI'A REF. VESSEL DP=
0.9870
( -0.0038)
PSID AVG. DEWPOIHT PRESS =
^
89.978
(
0.0086)
DEG.F AVG. CONT. TEMP =
0.617
( -0.0007)
PSIA
~
INTERVAL 22 LEAK RATE =
-0.453
. WT%/24 HRS ~
TOTAL TIME LEAK' RATE =
0.127 WT%/24 HRS MASS PLOT CONTAINMENT. LEAKAGE. RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
85064.82-POUNDS-PROJECTED LEAK RATE =
0.128 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.053 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.192 WT%/24 HRS l
l MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 UT%/24 HRS f
I e
D-51
C00PER1 PPTMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMBER 24 DATE:
8/
27/
83 0320 LAST INTERVALi: HOURS 0.33 HOURS FROM T=0 7.67 y yk.,. -
SENSOR #, l. TEMP (i)EG F) JW.T. FACTOR DE'WPOINTy(DEG.F)f ~WT. FACTOR 7, 1
88.15( 0.00)
-0.027r 79.900( 0.100) 0.'150' 2
88.56(j0.00) 0.027 80.2200 0.000) ~
. 0.15 0 " *r -
3
'88.56C-0.14) 0.027 81.850( 0.000) 0.150- ~
~
i 4
89.25(-0~.13) '10.02<
<9.800( 0.100) 0.100 2
~
'?
5 89.11( 0. 0 0 )'.
0.027 86.500( 0.000) 0.225
~
6 89.11< 0.00).
0.027
.87.180( 0.000)'
O.225 7
88.84('0.00)'
O.027 8
.90.12(iO.00)J 0.075 -
..; 5 f,, r
' t.,, ; c-9
'788.85(~0.00)l.LO.075s d-e.-
10
. 89.53( ~ 0.00) 0.030
~
' ~
..i /
r 11 89.44( 0.00) 0.030 0.030
'i 12 90.03(-0.09). :0.025 13
,u 92.38(-0.08.)
.-f 5 ' 'c,3[N-14
-89.61(-0.08);.0.025 15 89.69(;0.00)-
~.0.025 16 90.12(-0.08) 0.025 -
'T 17 90.51(-0.13) 0.118 18 90.51(-0.13).
0.118 19 90.78(-0.14) 0.118 20 89.93( 0.00) 0.118
,g m
DRYWELL PRESSURE = '
72.0010
( -0.0070). FMS I A REF. VESSEL DP=
O.9937
(
0.0067) "PSID AVG. CONT. TEMP =
89.915
( -0.0631)
DEG.F AVG. DEWPOINT PRESS =
0.617
(
0.0004)
PSIA INTERVAL 23 LEAK RATE =
0.730 WT%/24 HRS TOTAL TIME LEAK RATE =
0.153 WT%/24HR$
NASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY. AIR)=
85056.19
- POUNDS PROJECTED LERK' RATE =-
0.140 WT%/24 HRS 95% CONFIDENCE INTERVAL =
+/-
0.052 WT%/24 HRS 95% UPPER CONFIDENCE LEAK RATE =
0.192 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS D-52
s y-C00PER1 PRIMARY CONTAIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET HUMBER 25 DATE:
8/
27/
83 0340 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 8.00 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.15< 0.00) 0.027
'79.800C-0.100) 0.150 c
2 88.43(-0.13) 0.027 B0.220( 0.000) 0.150 7
3 88.43(-0.13) 0.027 81.920( 0.070) 0.150 4
89.25( 0.00) 0.027 79.800( 0.000) 0.100 5
89.11< 0.00) 0.027 86.420(-0.080) 0.225 6
88.97(-0.14) 0.027 87.180( 0.000) 0.225 g
7 88.70(-0.14) 0.027 c
8 90.03(-0.09) 0.075 r
i~
9 88.95< 0.00) 0.075 3:7. 5-10 89.44(-0.09) 0.030 13 7.\\'
11 89.44( 0.00) 0.030
'.s,
12 90.03( 0.00) 0.030 -.-
13 92.38( 0.00) 0.025 14
____.89.61( 0.00) 0.025 15 89.61(-0.08) 0.025-16 90.12( 0.00) 0.025 17 90.51< 0.00) 0.118 18 90.51( 0.00) 0.118 19 90.78( 0.00) 0.118 20 89.934 0.00) 0.118 1
1 DRYWELL PRESSURE =
71.3960
( -0.0050)
PSIA t
REF. VESSEL DP=
0.9958
(
0.0021)
PSID 1
AVG. CONT. TEMP =
8'9.889
( -0.0260)
DEd.F t
~
AVG. DEWPOINT PRESS =
0.617
( -0.0004)
PSIA 1
O.183 WT%/24 HRS
{
INTERVAL 24 LEAK RAT,E=
TOTAL TIME LEAK RATE =
O.154 WT%/24 HRS 1
1 2
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS 2
e 2.
CONTAIHMENT TOTAL MASS (DRY AIR)=
85054.03 POUNDS i
2 l
PROJECTED LEAK RATE =
0.142 WT%/24 HRS L
2-95% CONFIDENCE INTERVAL =
+/-
0.052 WT%/24 HRS 2:
95% UPPER CONFIDENCE LEAK RATE =
0.193 WT%/24 HRS MAXIMUM ALLOWABLE LEAK RATE (0.75*LA)=
0.476 WT%/24 HRS i
l I
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o C00FER1 PRIMARY CONTAIHMENT ILRT-- *-ASSOLUTE METHOD DATA SET NUMBER 1
DATE:
8/
27/
83 0420 LAST INTERVAL HOURS 0.00 HOURS FROM T=0 0.00 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1-88.15( 0.00) 0.027 79.800( 0.000) 0.150 2
88.43< 0.00) 0.027 80.220( 0.000) 0.150 3
88.56( 0.00) 0.027 81.920( 0.000) 0.150 4
'89.25( 0.00) 0.027 79.900( 0.000) 0.100 5
88.97< 0.00) 0.027 86.500( 0.000) 0.225 6
89.11< 0.00) 0.027-87.180( 0.000) 0,225 7
88.84( 0.00) 0.027 8
90.03< 0.00) 0.075 9
88.77( 0.00) 0.075 10 99.44< 0.00) 0.030 11 89.44( 0.00) 0.030 12 90.03< 0.00) 0.030 13 92.30( 0.00) 0.025 14 89.61< 0.00) 0.025 15 89.61< 0.00) 0.025 i
16 90.12( 0.00) 0.025 17 90.51< 0.00) 0.118 18 90.64( 0.00) 0.118 19 90.92( 0.00) 0.118 20 89.93< 0.00) 0.118 DRYMELL PRESSURE =
71.9800
(
0.0000)
PSIA AVG. CONT. TEMP =
89.920
(
0.0000)
DEG.F AVG. DEWPOINT PRESS =
0.617
(
0.0000)
PSIA CONTAINMENT TOTAL MASS (DRY AIR)=
85000.84 POUNDS HO LEAKAGE RATE VALUE CALCULATED FOR DATA SET #1
~.
e N
i E-4
G I.
C00PER1 PRIMARY CONTAIHMENT ILRT----ASSOLUTE METHOD DATA SET HUMBER 2
DATE:
8/
27/
83 0440 LAST INTERVALS HOURS 0.33 HOURS FROM T=0 0.33 SENSOR #
TEMP (DEC.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.15( 0.00) 0.027 79.900( 0.100) 0.150 2
88.43( 0.00) 0.027 80.330( 0.110) 0.150 3
88.56( 0.00) 0.027 82.030( 0.110) 0.150 4
89.25( 0.00) 0.027 79.900( 0.000) 0.100 5
89.97( 0.00) 0.027 86.330(-0.170) 0.225 6
89.11< 0.00) 0.027 87.180< 0.000) 0.225 7
88.70(-0.14) 0.027 8
90.03< 0.00) 0.075 9
88.77( 0.00) 0.075 10 89.44( 0.00) 0.030 11 89.44( 0.00) 0.030 12 90.03< 0.00) 0.'030 13 92.30( 0.00) 0.025 14 89.53(-0.08) 0.025 15 89.53(-0.08) 0.025 16 90.12( 0.00) 0.025 17 90.51< 0.00) 0.118 18 90.64< 0.00) 0.118 19 90.92< 0.00) 0.118 20 89.93< 0.00) 0.118
~
DRYWELL PRESSURE =
71.9800
( '0.0000)
PSIA AVG. CONT. TEMP =
89.912
( -0.0078)
DEG.F AVG. DEWPOINT PRESS =
- 0.617
(
0.0001)
PSIA INTERVAL 1
LEAK RATE =
-0.090 WT%/24 HRS TOTAL TIME LEAK RATE =
-0.090 WT%/24 HRS i
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
85001.90 POUNDS FROJECTED LEAK RATE NOT CALCULATED
<<4 DATA SETS) i E-5
C00PER1 PRIMARY C0tlTAIHMENT ILRT----ABSOLUTE METHOD DATA SET NUMBER 3
DATE:
8/
27/
83 0500 LAST ItiTERVAL HOURS 0.33 HOURS FROM T=0 0.67 l
SEtiSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOIt4T (DEG.F)
WT. FACTOR 1
88.02<-0.13) 0.027 79.900< 0.000) 0.150 2
88.43( 0.00) 0.027 80.220(-0.110) 0.150 3
88.43(-0.13) 0.027 81.850(-0.180) 0.150 4
99.11(-0.14) 0.027 79.800(-0.100) 0.100 l
5 88.97( 0.00) 0.027 86.500( 0.170) 0.225 6
88.97(-0.14) 0.027 87.180( 0.000) 0.225 7
88.70< 0.00) 0.027 8
88.95(-1.08) 0.075 9
88.77< 0.00) 0.075 10 89.36(-0.08) 0.030 11 89.36(-0.08) 0.030 12 89.95(-0.08) 0.030 13 92.30( 0.00) 0.025 14 89.53< 0.00) 0.025 15 89.53( 0.00) 0.025 16 90.03(-0.09) 0.025 17 90.51< 0.00) 0.118 18 90.51(-0.13) 0.118 19 90.78(-0.14) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRES 5URE=
71.9570
( -0.0230)
FSIA AVG. C0tlT. TEMP =
89.775
( -0.1368)
DEG.F AVG. DEWPOIt4T PRESS =
0.617
( -0.0003)
PSIA INTERVAL 2
LEAK RATE =
0.503 WT%/24HR$
TOTAL TIME LEAK RATE =
'O.206 WT%/24 HRS MASS PLOT C0tiTAINMENT LEAKAGE RATE ANALYSYS C0tiTAlt4 MENT TOTAL MASS (DRY AIR)=
84995.97 POUT 1DS PROJECTED LEAK RATE t40T CALCULATED <<4 DATA SET 3)
E-6 i
s l
O C00PER1 PRIMARY CONTAIHMENT ILRT----ABSOLIJTE METHOD DATA SET NUMEER 4
DATE:
8/
27/
83 0520 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 1.00 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.02( 0.00) 0.027 79.900( 0.000) 0.150 2
88.43< 0.00) 0.027 80.330( 0.110) 0.150 3
88.43( 0.00) 0.027 82.030< 0.130) 0.150 4
39.11< 0.00) 0.02<
<9.900< 0.100) 0.100 5
55.97< 0.00) 0.027 86.420(-0.0*0) 0.225 6
88.84(-0.13) 0.027 87.300( 0.120) 0.225 7
88.56(-0.14) 0.027 8
89.95( 1.00) 0.075 9
88.77( 0.00) 0.075 10 89.44( 0.08) 0.030 11 89.36( 0.00) 0.030 12 89.95( 0.00) 0.030 13 92.21(-0.09) 0.025 14 89.44(-0.09) 0.025 15 39.53< 0.00) 0.025 16 90.03( 0.00) 0.025 17 90.51< 0.00) 0.118 18 90.64< 0.13) 0.118 19 90.92(-0.14) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRESSURE =
71.9450
< -0.0120)
PSIA AVG. CONT. TEMP =
89.873
(
0.0974)
DEG.F 0.618
(
0,0011)
PSIA AVG. DEWPOINT PRESS =
INTERVAL 3
LEAK RATE =
2.601 WT%/24 HRS TOTAL TIME LEAK RATE =
.1.005 WT%/i4HR$
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
8'965.26 POUNDS
-LOJER SUPERIMPOSED ACCEPTANCE LIMIT =
0.730 WT*./24 HRS COMPOSITE PROJECTED 24HR LEAK RATE =
0.954 WT%/24 HRS UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
1.047 WT%/24HR$
E-7
L l
6 ll*
C00PER1
(
PRIMARY CONTAIHMENT ILRT----ABSOLUTE METHOD i
DATA SET HUMEER 5
DATE:
8/
27/
83 0540 LAST INTERVAL HOURS 0.33 HOURS FROM T=0 1.33 SEH10R #
TEMP (DEG.F)
WT.FACTOP DEWPOINT (DEG.F)
WT. FACTOR 1
88.02< 0.00) 0.027 79.800(-0.'100) 0.150 2
SS.43< 0.00) 0.027 80.330( 0.000) 0.150 3
S8.43< 0.00) 0.027 81.920<-0.110) 0.150 4
89.11< 0.00) 0.027 79.900( 0.000) 0.100 5
88.97( 0.00) 0.027 86.500( 0.080) 0.225 6
88.84( 0.00) 0.027 87.180(-0.120) 0.225 7
88.56( 0.00) 0.027 8
89.86(-0.09) 0.075 9
$8.6S(-0.09) 0.073 10 89.36(-0.08) 0.0$0 11 89.?6< 0.00) 0.030 12 89.95( 0.00) 0.030 13 92.21< 0.00')
0.025 14 89.44< 0.00) 0.025 15 89.44(-0.09) 0.025 16 89.95(-0.08) 0.025 17 90.51< 0.00) 0.118 18 90.51(-0.13) 0.118 19 90.78(-0.14) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRESSURE =
71.9300
( -0.0150)
PSIA AVG. CONT. TEMP =
89.821
( -0.0520)
DEG.F AVG. DEWFOINT PRESS =
0.617
( -0.0007)
P5IA INTERVAL 4
LEAK RATE =
0.761 WT%/24 HRS TOTAL TIME LEAK RATE =
0.944 WT%/24 HRS MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
84956.28 POUNDS LOWER SUPEFIMPOSED ACCEPTANCE LIMIT =
0.730 WT%/24HR$
COMPOSITE FROJECTED 24HR LEAK RATE =
1.065 WT%/24 HRS UPPER SUFERIMPOSED ACCESTANCE LIMIT =
1.047 WT4/24 HRS E-8
.~
_ __=_~ _
_~
s 4
C00PER1 PRIt!ARY CONTAINTIENT ILRT----ABSOLUTE METHOD DATA SET NUMBER 6
DATE:
8/
27/
83 0600 LAST-IHTERVAL HOURS 0.33 HOURS FROH T=0 1.67 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.02( 0.00) 0.027 79.800( 0.000>
0.150 2
88.29(-0.14) 0.027 80.220(-0.110) 0.150 i
3 88.43< 0.00) 0.027 81.920( 0.000) 0.150 4
89.11< 0.00) 0.027 79.900( 0.000) 0.100 5
88.97< 0.00) 0.027 86.500( 0.000) 0.225 1
6 88.84( 0.00) 0.027 87.180( 0.000) 0.225 7
88.56< 0.00) 0.027 8
89.86( 0.00) 0.075 9
88.68( 0.00) 0.075 10 89.36( 0.00) 0.030 11 89.27(-0.09) 0.030 12 89.95< 0.00) 0.030 13 92.21< 0.00) 0.025 14 89.44( 0.00) 0.025 15 89.44( 0.00) 0.025 7
16 89.95( 0.00) 0.025 17 90.51< 0.00) 0.115 18 90.51< 0.00) 0.118 19 90.92( 0.14) 0.116 20 89.93< 0.00) 0.118 I
vRYWELL PRESSURE =
71.9150
( -0.0120)
PSIA AVG. CONT. TEMP =
89.831
(
0.0100>
DEG.F AVG. DEWPOINT PRES $=
0.617
( -0.000?)
PSIA INTERVAL 5
LEAK RATE =
1.?10 UT%/24HR$
TOTAL TIME LEAK RATE =
,1.017 WT%/24HR$
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS 1
CONTAINMENT TOTAL MASS (DRY AIR)=
84940.82 POUNDS LOWER SUPERIMPOSED ACCEPTANCE lit 1IT=
0.730 UT%/24 HRS COMPOSITE PROJECTED 24HR LEAK RATE =
1.132 WT%/24 HRS UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
1.047 WT%/24 HRS 4
E-9
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COOPER 1 PRIMARY CONTAIHMENT ILRT----ABSOLIJTE METHOD DATA SET NUMBER 7
DATE:
8/
27/
83 0620 LAST INTERVALS HOURS 0.33 HOURS FROM T=0 2.00 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.02( 0.00) 0.027 79.900( 0.100) 0.150 2
88.43< 0.14) 0.027 80.330( 0.110) 0.150 3
88.43< 0.00) 0.027 81.920( 0.000) 0.150 4
89.11< 0.00) 0.027 79.900( 0.000) 0.100 5
55.84(-0.13) 0.027 86.330(-0.170) 0.225 6
88.97< 0.13) 0.027 87.180( 0.000) 0.225 7
88.56( 0.QO) 0.027 8
89.86< 0.00) 0.075 9
88.68( 0.00) 0.075 10 89.36< 0.00) 0.030 11 89.27< 0.00) 0.030 12 89.86(-0.09) 0.030 13 92.13(-0.08) 0.025 14 89.44< 0.00) 0.025 15 89.44< 0.00) 0.025 16 89.95C 0.00) 0.025 17 90.64( 0.13) 0.118 18 90.64( 0.13) 0.118 19 90.92( 0.00) 0.118 20 89.93< 0.00)
U.118 DRYWELL FRESSURE=
71.9060
( -0.0120)
PSIA AVG. C0HT. TEMP =
89.860 0.0297)
DEG.F AVG. DEWPOINT PRESS =
O.617
( -0.0002)
PSIA INTERVAL 6
LEAK RATE =
1.580 WT%/24 HRS TOTAL TIME LEAK RATE =
1.111 WT%/24 HRS MASS PLOT CONTAIHMENT LEAKAGE RATE AHALYSYS CONTAINMENT TOTAL MAS 5 (DRY AIR)=
84922.18 POUNDS LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.730 WT%/24 HRS COMPOSITE PROJECTED 24HR LEAK RATE =
1.203 WT%/24 HRS UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
1.047 WT%/24 HRS E-10
C00PER1 FRIMARY C0HTAIHMENT ILRT----ABSOLUTE METHOD DATA SET NUMBER 8
DATE:
0/
27/
83 0640 LAST INTERVAL HOURS 0.33 HOURS FROM T=0 2.33 3'+
SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
UT. FACTOR 1
88.02( 0.00) 0.027 79.900( 0.000) 0.150 2
88.29(-0.14) 0.027 80.150<-0.180) 0.150 3
88.43< 0.00) 0.027 81.920( 0.000) 0.150 4
89.11< 0.00) 0.027 79.900( 0.000) 0.100 5
88.84< 0.00) 0.027 86.550< 0.220) 0.225 6
88.84(-0.13) 0.027 87.180( 0.000) 0.225 7
88.56( 0.00) 0.027 8
89.78(-0.08) 0.075 9
88.60(-0.08) 0.075 10 89.27(-0.09) 0.030 11 89.27( 0.00) 0.030 12 89.86( 0.00) 0.030 i
13 92.13< 0.00) 0.025 14 89.36(-0.08) 0.025 15-89.44C 0.00) 0.025 16 89.86(-0.09) 0.025 17 90.51(-0.13) 0.118 18 90.51(-0.13) 0.118 l
l 19 90.78(-0.14) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRESSURE =
71.8960
( -0.0100)
PSIA,!*
AVG. CONT. TEMP =
89.787
( -0.0734)
DEG.F.
AVG. DEWPOINT PRESS =
0.617
(
0.0004)
PSIA ':
INTERVAL 7
LEAK RATE =
0.091 WT%/24 HRS
/
' TOTAL TIME LEAK RATE =
0.965 WT%/24HPS
'f MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAIHMENT TOTAL MASS (DRY AIR)=
84921.10 POUNDS LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.730 WT%/24 HRS..
COMFOSITE PROJECTED 24HR LEAK RATE =
1.141 WT%/24 HRS UPPER SUPERItiPOSED ACCEFTANCE LIMIT =
1.047 WT%/24 HRS i.%,
a E-11
e
.. _ v i ti METHOD 9
la e-27/
83 0700 fl
_nor INTERVAL, HOURS 0.33 HOURS FROM T=0 2.67 j
SENSOR #
TEMP (DEG.F)
WT.FRCTOR DEWPOINT (DEG.F)
WT. FACTOR
[jg 1
87.83<-0.14) 0.027 79.900< 0.000) 0.150 J:
2 88.29( 0.00) 0.027 80.330< 0.180) 0.150 8
3 88.29(-0.14)
~04027 81.920( 0.000) 0.150 h.l f
4 88.?7(-0.14) 0.02r (9.800(-0.100) 0.100 5
88.64( 0.00) 0.027 86.500(-0.050) 0.225 6
88.84( 0.00) 0.027 87.200( 0.120'>
0.225 t,
7 88.56( 0,00) 0.027 8
89.78< 0.00) 0.075 i3 9
88.52(-0.08) 0.075 L.
10 89.27( 0.00) 0.030
- H 11 89.19(-0.08) 0.030
'7 12 89.86( 0.00) 0.030 gj 13 92.13< 0.00) 0.025 i"
14 89.36( 0.00) 0.025 i,..
15 89.36(-0.08) 0.025 16 89.86( 0.00) 0.025 17 90.51< 0.00)
,0.118 18 90.51< 0.00) 0.118 19 90.78< 0.00) 0.118' 20 89.93< 0.00) 0.118 DRYWELL PRE'i3URE=
71.8810
( -0.015,0)
PSIA AVG. CONT. TEMP =
89.765
( -0.0217)
DEG.F AVG. DEWPOINT FRESS=
0.618
(
0.0007)
PSIA INTERVAL 8
LEAK RATE =
1.297 WT'./24HR$
TOTAL TIME LEAK RATE =
1.006 WT%/24 HRS i
MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
84905.80 POUNDS LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.730 WT'./24HR$
COMPOSITE PROJECTED 24HR LEAK RATE =
1.122 WT!./24 HRS UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
1.047 UT:/24HR$ '
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C00PER1 PRIMARY CONTAINMENT ILRT----ABSOLUTE METHOD
- .V g
DATA SET NUMBER 10
,0:
DATE:
8/
27/
83.
0720 W
LAST INTERVAL:. HOURS' 0.33 HOURS FROM T=0 3.00 v -.,p
~
SENSOR #
WT. FACTOR DEWPOINT (DEG.F)
WT.FRCTOR T
e 1
87.88( 0.00) 0.027 79.900( 0.000) 2 88.29( 0,00) 0.027 80.150(-0.180) '
0.150 1
3
'88.29( 0.00)- -0.027 81.920( 0.0001 0.150 -
diI-O.150 4
88.97(-0.00) 0.027 79.980( 0.180) 0.100' 5
88.70(-0.14) 0.027 86.330<-0.170) 0.225 G
6 88.70(-0.14) 0.027 S7.130<-0.120) 0.225 by 7
88.03(-0.53) 0.027 8
89.78< 0.00) 0.075
!,jy 9
88.52< 0.00) 0.075 t
10 89.19(-0.08) 0.030 11 89.19( 0.00) 0.030.
12 89.78(-0.08) 0.030 j;.
13 92.05(-0.08)
.0.025 14 89.27(-0.09) 0.025 y
15 89.36( 0.00) 0.025
- q 16 89.86< 0.00) 0.025
-h..
17 90.51( 0.00)
O.118 18 90.51< 0.00) 0.118 id 1 7{;
19 90.78( 0.00) 0.118 20 89.93< 0.00) 0.118 q
~
t2 DRYWELL PRESSURE =
71.8700
( -0.0110)
PSIA % !
RVG. CONT.' TEMP =
89.734
( -0.0309)
DEG.F6 AVG. DEWPOINT PRESS =
0.616
( -0.0015)
PSIA t.',
D INTERVAL 9
LEAK RATE =
0.554 WT%/24 HRS TOTAL TIME LEAK RATE =
0.956 WT%/24 HRS ~ M 14
- !i' e
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS j
CONTAINMCHT TOTAL MASS (DRY AIR)=
84899.26 POUNDS Pl
.q LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.720 WT%/24HRSf'l.
WT%/24HRSh COMPOSITE PROJECTED 24HR LEAK RATE =
1.081 UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
1.047 WT%/24 HRS<!
d Pi't L.1 E-13
- y. J
. h!
- G st COOPER 1 iE PRIMARY CONTAINMENT ILRT----ABSOLUTE, METHOD g ;
DATA SET NUMBER
. 11
,)
if DATE:
8/
27/
83 0740
- 3.33 f
4
. HOURS FROM T=0...
LAST,IHTERVAL, HOURSn:',0.33 a
A.
+
n:p ;
2L a:m,
.4
,.k SENSOR'(.ETEMP(DEG.F):..'WT. FACTOR ' DEWPOINT'~(DEG.F) y WT.FRCTOR 'l J
7--.------
1-87.88(c0.00).' <0.027 79.900( 0.000):
.0.150-f* l
'2 88.15(-0.14)
+0.027
-80.300('O.150)'
I'0.~150 5
3 88.15(-0.14) ! 0.027' 82.100( 0.180) 0.150 3
4 88.97( 0.00) 0.027
~79.900(-0.080).
0.100
?
5 88.84( 0.14) 0.027
~86.400( 0.070) 0.225 d
6 88.70( 0. 00) -
0.027 86.200(-0.980) 0'225 t
7 88.43(.0.40Y
-0.027-
.h '... '
j 8
109.69C-0.09).
0.075 a.
5 9
88.52( 0.00)-
0.075' is 10 89.19(.0.00) 0.030
[y.
11 89.19('O 00)'. 0.030
. s.
J ;p 12 ~
.. ;8 9.'7 8 ( 0,00F.
0.030 i
m 13 -
- 92. 05( J.0. 00T C 0. 025
.,J l :!
14 89.27( 0.00T
'O.025 15
~89.27(-0.09) 0.025 16 89.78(-0.08) 0.025 E'
17
'90.51(,0,00) 0.118 3
18 90.51< 0.00) 0.118 Q
19
-90.78( 0.00) 0.118 i4 -
20 89.93< 0.00) 0.118 s4 -
s.
DRYWELL PRESSURE =
71.8600
( -0.0100)
PSIA AVG. CONT. TEMP =
89.730
-( ~ -0. 0 040 ) 'DEG.
i 5
AVG. DEWPOINT PRESS =
O.613
( -0.0031)
PSIR
~
-$?
INTERVAL-10 LEAK RATE =
0.646
. WT%/24HR$
g)
TOTAL TIME LEAK RATE =
0.925 WT%/24 HRS nt-
~
[?[
hsd.,
MASS PLOT.CONTAINNENT LEAKAGE RATE ANALYSYS
)
CONTAIHMENT TOTAL MASS (DRY AIR)=
84891.64 POUNDS M
LOWER-SUPERIMPOSED ACCEPTANCE LIMIT =
0.730 UT%'/24 HRS 5N COMPOSITE PROJECTED 24HR LEAK RATE =
1.039 WT%/24HRSN#
UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
1.047 WT%224HRSWf
. m..
e4
@M N
F3 Ubn
>-4
~h
~
2 f': }
42
[5$
E-14
O 3
c00FERI d
PRIMARY CONTAINMENT ILRT----ABSOLUTE METHOD h3 i
DATA SET NUMBER 12 rj DATE:
8/
27/
83 0800 g
.E.
LAST. INTERVALS. HOURS,.
0.33 HOURS FROM T=0.'
3.67
- 3..}$I.
l, SENSOR #
TEMP (DEG.F)
NT. FACTOR, DEWPOINT (DEG.7)
WT. FACTOR
,;g i
87.88C 0.00) 0.027 79.900< 0.000) 0.150
, :hl 2
88.15< 0.00) 0.027 80.300( 0.000) 0.150
.P 3
88.15( 0.00) 0.027-81.900(-0.200) 0.'150
' /}* -
4 88.97( 0.00) 0.027.
79.800(-0.100) 0.100 5
88.70(-0.14) 0.027 86.200(-0.200) 0.225 E
6 88.70( 0.00) 0.027 87.100( 0.900) 0.225
' *S, 7
88.43< 0.00)'
0.027 P
8 e89.61<-0.08) 0.075 i
9 88.43(-0.09) 0.07S c4 10 89.19( 0.00) 0.030
, 01 11 89.11(-0.08)
'O.030 12 89.78C.O.00) 0.030 i."1g s
13 92.05< 0.00) 0.025
- % c' 1
14 89.27( 0.00) 0.025
?"
15 89.27( 0.00) 0.025 N' '
16 89.78< 0.00) 0.025 i;p 17 90.51< 0.00) 0.118 m
18 90.51< 0.00) 0.118 19 90.78< 0.00) 0.118 F '
d 20 89.79(-0.14) 0.118 5(
DRYWELL PRESSURE =
71.8480
( -0.0120)
PSIAp't.
AVG. CONT. TEMP =
89.695
( -0.0354)
DEG.F AVG. DEWPOINT PRESS =
0.616
(
0.0023)
PSIA j
INTERVAL 11 LEAK RATE =
0.979 WT%/24 HRS TOTAL TIME LEAK RATE =
~
0.930 UT%'24 HRS-p nM MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS t'j y
CONTAINMENT TOTAL MASS (DRY AIR)=
84880.10 POUNDS
{
LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.730 UT%/24 HRS 1 COMPOSITE PROJECTED 24HR LEAK RATE =
1.013 WT%/24 HRS 7@
UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
1.047 WT%/24 HRS u
b a
m 3
,1 rs d3
~
C P
m[1 d
E-15
C00PER1 PRIMARY CONTAINMENT ILRT----PBSOLUTE METHOD DATA SET NUM8ER. E 113
-.. e.
DATE:.
8/
27/ - 83 '; '
0820 N ' + T v.
' t,.. d. J. ', P.M s.'E.
m
. l
. LASTi!RTERVA R.'. HOURS 150.33 6 G IOURS FROM T=.0f S4.00 W.
~.SENSORNgn.:.g._ x.2 ; h.c..c:.7: 'TO'R 3
+-
w.4.:.5:n g % y & y m.Y c 7
.F
..,c_.
=.y
_ _ _ _ _ __. M...T. Ei1P2 D EWi F )N.. W T. FR..C.
_._ _. ft CT O.'R. 7.,
g%
q________,,,..__
s 80!.900(ie.~000)<.W 0.5150;fDr< ' V,
1.
't": 8 ?. 88 (! O. 00 )A. ; 0. 027 gN: 79.
220(-0.'080) Y. F 9.~150 9 8 iO '
88 415(e.IO. 00) ~~'-0. 027 2
'. p#
88.15(ie.~00)9. 0. 0271 'M81.920(" 0 020):; d's! 0.'f 50ZE+!" y '
'3 4; ' :.88. 97C 0. 00) : ' O.027,2 "
d0.'100.'hi ~ 3.4
~~
.4 e 88. 70( 0;00) 2 0. 027 Y.@%79. 900CO.100)., " 6.225 N % '~
5'
- 86. 300 G'O.100 F
~
C 0iO27? N ':87100( O.00071 f.kOk225 M W 's
- e.,-
6.
~,M88.'700.0.00)W 0,027Wuvf.f.i.W9.WY.C#Mr W u 88.43C 0?00) 2 W 7:
0.075 MMFMJ3G/ i
. MS D'.h
', - 8,CK$89. 69 C,.0;08)T.:
~'#
00)r.'O. 075 ?;;. g. ' / % 4.e.@^. ?IMW M J. L @
'9
- ? Mff W
,;88.'43(
. 89.19(50.'.00)' 8 0.030!:
n 11 G '.@L
-0.
,0.030
.d-wU M.
'10
- 4 89'.'11 d 0.'00).
XN
- U M ~'i. I ', N '
i 012. hM89. 78 F.0 ; 00 )$( 0. 030 MW['iM.n..".'.V f
- ./1
" J 13
' 6
- 92. 05 ($ 0'. 00)';;
0.025 %,c 't.M " 6' 3'/?/M 2:jt' O R M IT.y
...i. f ;. Wl d'W.7
'14 -:' v -89.19(.-OiO8) 9 0.025 3s f.@q ? e~ J.' F M s.
1 15
.'. -89.27(Y0.00)..
0.025 3. b.?;
u E..
.U.M :'.cN
~
i 16 f.4. ; 8 9. 78 (i 0. 00 ). ' 0. 025. '.'.
.. -J W w ?
.., N.d.E. n.. @K nw.
. o,. r a e.,.-. -
17 790.51(.0.00).. 0.118
~-
g
.<m.
t,s 18 90.51(i0.'00)
. 0.1'18..I ". ' s JW L " f - M i,J'3 Ml Y.'H L
~
d..s
' 19 '. ~
' 9 0.' 78 (. 0. 00).
0.116 ' l f L.. ' 2-l% - M C,
'M.
- ~
.20
".... 89.934 0.14).e.
~;
. i.. --. m..
.=
c.., v. :.~
-,;5.E.
,r, 7 f u? W ', 3 DRYWELL-PRESSURE ='gT.7
." - +.. ~..
0.1.18
~
s,..
w
+
2
.71.8360
. ( c-0. 0120).:. PS IR V.-s.t w
3
.AVGi' CONT.' TEMP =
- 1.. c -
-.. C.
$ 9. 71~ 6 -
(...
0.0205)+ DEG.F.
0. 0 0 0 4 ) ~'i P S I 6..
2 J.
- A V G. D E W P O I N T.E P R E S S.=,t,..
-
- 0.6.16 i..v.
(.
. ~,
~.
.. ; i. ?
INTERVAL 12.-LEAK RATE =
.,b l'.521' WT%/24 HRS).c.g TOTAL LTIME LEA.K R. AT. E.=
.. T. e..2.
0.979 WT%/24 HRS w.'A w.
s yy 3,
..#.~..
. ;- g...s..%..
v,...,1.m...,.
a
.....s, g-
.s,y
- g. /j.,g,f 3,
t.. 3, - e-s
-8
,i n.
MASSPLOT.lC0_HTAIHMENT: LEAKAGE' RATE'AHALYSYS W O ';
W 4, I.!3. VM;'N,,-
,__q____ _____ ___ __.:. h r:r. ; N, s CONTAIH'MERTYTOTAL MASS $(DRY AI'R)F V'.84862.16~.,T'&' D. y.p;..
p d
POUNDS WE.
LOWER SUPERIMPOSED ~ ACCEPTANCE LIMIT =
J0J730- ^
WT%/24 HRS '
i
- COMPOSITE PROJECTED 24HR LEAK RATE =
~1.013 WT%/24 HRS WT%/24 HRS UPPER. SUPERIMPOSED'ACCEP.TANCE LIMIT =
11047-
+
s.. -
. ~ c,
. :v.n'.:.
~
~
~
- y.
.K.
, :.g p., p,...,. c..y 9 ?.,4.
.c. ?.
. _ *.'c'. :f i. 'y...' i;.-
j y.-
m -
,-x..,g
.P f,
.s.
- g..,
s
-s s,.
I
% 1
.g g
t'.
t
(
s.
e
- *- s a
r>
lf
},I.,-
,P s.
-J
~
1
.j E-16
C00PER1 FRIMARY CONTAIHMENT ILRT----A8 SOLUTE METHOD DATA SET NUMBER 14
^
DATE:.
8/. 27/
83 0840 s
LAST..INTERVALW.. HOURS
-0.33
- HOURS :FROM T=0." ;4'. 33 SENSOR lm'hid@H D W1;.%in,.s. Witi &
.r...:,.') e '1i U% ?.,FBCTO.R
' M ?.43.8 2...
l.
%.3
.4.
TEMP (DEC. F) ';;WT. FRCTO,R ;.. DEWPOINT?_ ': < DEGL. F)QWT.
f
.c 5
1,mf?.'87.88C O.00) % 0'027./
- 79. 900'(d O 4 000), '. U. 01150 M' ' cU.1 i'i..fy.i,.-
- 0.150
'2- 'c.F 88.15(10.00i. ?0'027
..J80.2200 0.000),.
. O.?15 0 '.l4
.2 79.800(-2.120)%
. ^
. O. 027 t :f 7 J 79. 800(-0,100).. NO.100 f ;.' ':-
.3 88.15( 0.~00)-
5 O,027 *
. ;.r
'L 88.97( 0.00)..
. 74 N'
?88. 70(. 0. 00) ' :0. 027. *
' n 86'. 200(-0.100) ~
. 0.225 W 5
70.027. < 3 '87,100( 0.000).L /"O'.225 %,.
. ?.;. "
' 6 4. ' '..88.70(60.00)- ti O'. 027.; f U.i fi. d;.6; D4. N'Q.v y >. '.'.4.M;~
7 M.) 88.430.0iOO).'89.61(.-O08) ~70.'075 S :f4Q,j' Ne;.:
k -
91 % '
'~
yw' cs.5 9,..s 7;'-
9
188443(. 0.00)~ -l0.075
- 4..
Jr. ~
i 3 ".,
- 1. a - '~.'
~ 10
'89.11(-0.08) 0.030 4
11
~83.11(40.00)?
0.030; M ' 1
.3
'4'3d M': 9 U-
,yc g: #.
t - C f:d,.,>:
f 13. L.I. li89. 69(- 0. 09 TA 0.'030 ^ Am,91,96'(-0. 09 Y cg O'. 0 12.
d
.v u, ~.....
f
' P.
9 8. F ' *
- c t&
". Y f-14 Y
.89.1900.00)..0.025
~.
't.,
^
~
b 15 89.27< 0.00)
'0.025
. ;J ^ ' N
.17 90.51< 0.00) m0.118 V
i.;
"3 16
,!89.78( 0.00).
'O.025-
" ~ ". ?.,
~ ' '
^r 18
,. 90.37('O.14)'
0.118 mp
..~.
' ~
/
d
?
4' i
, J.%.n
~90.78( 0.00) 0.'118
~ 19
'. 2 0
'89.93( 0.00)- 'O.118
! 1.. '
' ff e. ?.
,p
?
.p 1DRYWELL PRESSURE = '
'71.8260
'(.-0.0100)'. PSIA._..J AV5. CONT. TEMP =
89.686
,(:-0.0298);DEG.F:
. AVG.JDEWPOINT' PRESS.
0.610.'
< -0.0065)j PSIA.
'~
. g c
.\\.
.-0.039
'WTN/24 HRS ' i
~
INTERVALS 13 ? LEAK RATE =.
N-TOTAL TIME LEAK RATE '-
o-
. J 0.901
~
,-c....-
"q.
a1 9
.- C MASS PL0TiCO)lTAINMENT LEAKAGE 1 RATE ANALYSYS'* -
+
"^
-__-.--- ~-
.s
..CONTAINMENTtTOTAL MRSS (DRY RIR)='.:,,
.84862.62
.. POUNDS;:i'..
LOWER SUPERIMPOSED ACCEPTANCE LIMIT.=
' '0.730
- WT):/24 HRS:;
COMPOSITE' PROJECTED 24HR LEAK RATE =
0.984 WT>./24 HRS UPPER SUPERIMPOSED ACCEPTANCE' LIMIT =
.. v,
- s...
.Dg.
g_
g g
P b4 g
s 9%
4
+
_?
0 0
6 E-17
l C00PER1 PRIMARY CONTAINNENT ILRT-----ABSOLUTE METHOD l
DATA SET HUMBER
- 15 l
' D A TE :... 8 /.
277 83 e/, 0900
. HOURSiFROM.T=0' g 4 67,s..
<;.i. e.c i
< LAST.. !NTERVALi..' HOURS.;.x 0.33.: ' '
/
"_' TEMP (DEG.F)-D; -. W ;j $
"'.su 5 ; W g V..;' q g4-([DEG.F).',
,l. 7-Y.?.. ".)g q t
... e '::
WT. FACTOR ~
>2
. WT FRCT,0PJ:' DEWPOINT i
SENSOR #'
- y..,
2 'n;.7 '87.88('0.00f [<0.027. ' 4 79l900(: 0.'000).
0.150'_',
~
1
}
.- . 88.15( 0. 00).
'.0.027
.c80.300( 0.'080)
? 0.150 5
~1.
3
~88.15(!0.00)
'0.027 81*900( 2;100)'
. ~ 0.150 ' '.'.
c
' O.1000.7
'H79.900(-0.100) 0.225f',,',0 4
'88.84(-0.13)3 l0.027.. - '
~
-5
' 88. 70(' O. 00) '
O.027
.86.300(.0.100) 6 88.70<,.0.00) 8.027
- 87.100(.0.000)
I-0.225.e..
c
..,?
~ ' 7:'.i?~'88.43 CO.'002..)8.027 X 9'KT W Jd':;/.cc:.:..,.>e y. g W" y ' ~
C
~
g
' * ~., '.. ",, Q,4.
9 88.43<'O 00).
- 0. 075 D. v. -
8 ~-
m 89.61(.'.0.00),M.O.075 "' T.
110 89.11(~0.00)
'O.030. ~
~
- !,.G.
2 s
1 1..f,.; -
89.11( 0.00).. 1 0;030
. A.
Y: C:9-
~
' :12 'c 8 9.* 69 (.R.O. 00 ) ' : i O. 030' % C.. Yk;cW.
s
< %.? ";, l t:: N.
13 '. '... ' : 91. 96( "0; 00) J
- 0. 025 ' -
-i './....
J.R',.
%s-14
- 89.19( 0.00)-.0.025
- 16
~89.69(-0.09) ~
O.025
~.. '
". f,_. - 7.^. '
-89.19(-0.08).
.~
15 0.025
.90.51< 0.00)
'O.118 17 18
- 90. 37(' O. 00) - ;0.118
~ %'@-
,1 ~
19 90.78/. 0.00). 0.118 20. -
89.93( 0. 00), :.0.118 c.
-y.
. DRYWELL PRESSURE =
~ '
.71.3200
< -0.0060)
PSIA AVG.' C0HT., TEMP =
.89.678
/ -0.0078)" DEG.F-RVG. DEWPOINT' PRESS =
O.616.
(~ 0.0067)' PSIA.
'f l.
t
- 1.180 WT%/24 HRS INTERVAL 14. L'EAK RATE =
0.920 ;.-
WT%/24HRSs.
TOTAL TIMELLEAK RATE = ' ".
.~
+,.,;
.A.
fg.,.
.a -
- MASS PLOTJCONTAINMENT LE6KAGE RATE ANALYSYS'
.:-- g-------_--- -_--___---j----------
CONTAIHMENT TOTAL MASS (DRY. AIR)=
. 84048.72 POUNDS.
LOUER SUPERIMPOSED ACCEPTANCE LIMIT =
0.730 WT';/24 HRS COMPOSITE PROJECTED 24HR LEAK RATE =.
0.969 WT%/24 HRS.
UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
1.047 WT%/24 HRS
- s '. s.
. %. 'j.
e n
E-18
)
m--use-l i =
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PRIMARY CONTAIHMENT ILRT---REFERENCE VESSEL METHOD DATA SET HUMBER 1
DATE:
8/
27/
83 0420 LAST INTERVAL: HOURS 0.00 HOURS FROM T=0 0.00 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
HT. FACTOR 1
88.15( 0.00) 0.027 79.800( 0.000) 0.150 2
88.43< 0.00) 0.027 S0.220( 0.000) 0.150 3
88.56< 0.00) 0.027 S1.920( 0.000) 0.150 4
89.25( 0.00) 0.027 79.900( 0.000) 0.100 5
88.97( 0.00) 0.027 86.500( 0.000) 0.225 6
89.11< 0.00) 0.027 87.180( 0.000) 0.225 7
88.84( 0.00) 0.027 8
90.03( 0.00) 0.075 9
??.77( 0.00) 0.075 10 89.44( 0.00) 0.030 11 89.44(~0700) 0.030 12.'
90.03( 0.00) 0.030 13 92.30(+0.00) 0.025 14
- 89. 6 f( 0.00) 0.025
' I' 15 89.61( 0.00) 0.025 16 90.12( 0.00) 0.025 17 90.51( 0.00) 0.118 18 90.64( 0.00) 0.118
^ h.
~
19 90.92< 0.00) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRESSURE =
71.9800
(
0.0000)
PSIR
+
REF. VESSEL DP=
AVC. COHT. TEMP =~
1.0075
(
0.0000)
PSID 89.920
(
0.'0000)
DEG.F AVG. DEMPOINT PRESS =
0.617
(
0.0000)
PSIR COHTAIHMENT TOTAL MASS (DRY AIR)=
85000.84 POUNDS HO LEAKAGE RATE VALUE CALCULATED' f0R DATA SET #1 I
s
?
D k
~9 o
O E-21 e n
C00PER1 PRIMARY CONTAItlMENT ILPT---REFEREt4CE VESSEL METHOD DATA SET NUMBER 2
i DATE:
8/
27/
83 0440 LAST ItiTERVAL, HOURS 0.33 HOURS FROM T=0 0.33 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT- (DEG.F)
HT. FACTOR 1
88.15( 0.00) 0.027 79.900( 0.100) 0.150 2
88.43( 0.00) 0.027 80.330< 0.110) 0.150 3
88.56< 0.00) 0.027 82.030( 0.110) 0.150 4
69.25( 0.00) 0.027 79.900( 0.000) 0.100 5
88.97< 0.00) 0.027 86.330(-0.170) 0.225 6
89.11< 0.00) 0.027 87.180( 0.000) 0.225 7
88.70(-0.14) 0.027 8
90.03( 0.00) 0.075 9
88.77( 0.00) 0.075 10 89.44( 0.00) 0.030 11 89.44< 0.00) 0.030 12 90.03( 0.00) 0.030 13 92.30( 0.00) 0.025 14 89.53(-0.08) 0.025 15 89.53(-0.08) 0.025 16 90.12< 0.00) 0.025 17 90.51< 0.00) 0.118 18 90.64( 0.00) 0.118 19 90.92( 0.00) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRESSURE =
71.9800 0.0000)' PSIA REF. VESSEL DP=
1.0091 0.0016)
PSID AVG. CONT. TEMP =
$9.912
( -0.0078)
DEG.F AVG. DEWPOIrlT PRESS =
0.617
(
0.0001)
PSIA INTERVAL 1
LEAK ' RATE =
0.175 WT%/24 HRS TOTAL TIME LEAK RATE =
0.175 UT%/24HR$
MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAlt1 MENT TOTAL MASS (DRY AIR)=
S4998.77 FOUNDS PROJECTED LEAK RATE NOT CALCULATED (<4 DATA SETS) e E-22
e o
COOPER 1 PRIMARY C0tiTAIHMEtiT ILRT---REFEFEtiCE VESSEL METHOD
___________________________________2_____________________
DATA SET HUMEER 3
DATE:
8/
27/
83 0500 LAST INTERVAL, HOURS 0.33 HOURS FR0f1 T=0 0.67 SEtiSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.02(-0.13) 0.027 79.900( 0.000) 0.150 2
88.43< 0.00) 0.027 80.220(-0.110) 0.150 3
88.43/-0.13) 0.027 81.850(-0.180) 0.150 4
89.11(-0.14) 0.027 79.800(-0.100) 0.100 5
88.97( 0.00) 0.027 86.500( 0.170) 0.225 i
88.97(-0.14) 0.027 87.180< 0.000) 0.225 7
88.70< 0.00) 0.027 8
88.95(-1.08) 0.075 9
88.77( 0.00) 0.075 10 89.36(-0.08) 0.030 11 89.36(-0.08) 0.030 12 89.95(-0.08) 0.030 13 92.30( 0.00) 0.025 14 89.53( 0. 00 )'
O.025 15 89.53< 0.00) 0.025 16 90.03(-0.09) 0.025 17 90.51( 0.00) 0.118 13 90.51(-0.13) 0.118 19 90.78(-0.14) 0.118 20 89.93( 0.00) 0.118' LRYWELL FRESSURE=
71.9570
< -0.0230)
PSIA REF. VESSEL DP=
1.0236
-(-
0.0145)
PSID AVG. C0 tit. TEMP =
89.775
( -0.126F>
DEG.F AVG. DEWPOItiT PRESS =
0.617
( -0.0003)
PSIA INTERVAL 2
LEAK RATE =
1.475 WT%/24HR$
TOTAL TIME LEAK RATE =
4.827 WT%/24 HRS MASS PLOT CONTAIt1 MENT LEAKAGE RATE AtlALYSYS 00HTAIHMEllT TOTAL MASS (DP,Y AIR)=
84981.33 POUtIDS FROJECTED LEAK RATE t10T CALCULATED
<<4 DATA SETS)
E-23
4 C00PER1 PRIMARY C0tiTA!tlMEllT ILRT---REFEREt1CE VESSEL METHOD DATA SET HUMBER 4
DATE:
8/
27/
83 0520 LAST ItiTERVAL: HOURS 0.33 HOURS FROM T=0 1.00 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOIllT (DEG.F)
WT. FACTOR 1
88.02( 0.00) 0.027 79.900( 0.000) 0.150 2
88.43< 0.00) 0.027 80.330( 0.110) 0.150 3
88.43< 0.00) 0.027 82.000< 0.180) 0.150 4
89.11( 0.00) 0.027 79.900< 0.100) 0.100 5
88.97( 0.00) 0.027 86.420(-0.080) 0.225 6
88.84(-0.13) 0.027 87.300< 0.120) 0.225 7
88.56(-0.14) 0.027 5
89.95< 1.00) 0.075 9
88.77< 0.00) 0.075 10 89.44< 0.08) 0.030 11 89.36( 0.00) 0.030 12 89.95( 0.00) 0.030 13 92.21(-0.09) 0.025 14 89.44(-0.09) 0.025 15 89.53( 0.00) 0.025 16 90.03( 0.00) 0.025 17 90.51( 0.00) 0.118 18 90.64< 0.13) 0.118 19 90.92( 0.14) 0.118 20 89.93( 0.00) 0.118 DRYWELL PRESSURE =
71.9450
( -0.0120i PSIA REF. VESSEL DP=
1.0249
(~
0.0013)
PSID AVG. C0tlT. TEMP =
$9.873
(
0.0974)
DEG.F AVG. DEWPOIllT PRESS =
0.619
(
0.0011)
PSIA 0.217 UTE'24HR$
IrlTERVAL 3
LEAK RATE =
TOTAL TIME LEAK RATE =
0.623 WT%/24 HRS MASS PLOT C0tiTAINMENT LEAKAGE RATE AtlAL SYS C0tiTAIllMENT TOTAL MASS (DRY AIR)=
84975.77 POUtlDS LOWER SUPERIMPOSED ACCEPTAtlCE LIMIT =
0.614 WT%/24HR$
COMPOSITE PROJECTED 24HR LEAK RATE =
0.709 WT%/24 HRS UPPER SUPERIMPOSED ACCEPTAtlCE LIMIT =
0.931 UT%/24HR$
E-24
o C00PER1 PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMEER 5
DATE: ~
8/
27/
83 0540 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 1.33 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.02( 0.00) 0.02<
<9.800(-0.100) 0.150
'2 88.43< 0.00) 0.027 80.330( 0.000) 0.150 3
88.43< 0.00) 0.027 81.920(-0.110) 0.150 4
89.11< 0.00) 0.027 79.900( 0.000) 0.100 5
88.97( 0.00) 0.027 86.500( 0.080) 0.225 6
58.84( 0.00) 0.027 87.180<-0.120) 0.225 7
88.56< 0.00) 0.027 8
89.86(-0.09) 0.075 9
88.68(-0.09) 0.075 10 89.36(-0.08) 0.030 11 89.36( 0.00) 0.030 12 89.95( 0.00) 0.030 13 92.21( 0.00) 0.025 14 89.44< 0.00) 0.025 15 89.44(-0.09) 0.025 16 89.95(-0.08) 0.025 17 90.51( 0.00) 0.118 18 90.51(-0.13) 0.118 19 90.78(-0.14) 0.115 20 89.93< 0.00) 0.118 DRYWELL PRESSURE =
71.9300
( -0.0150)
PSIA REF. VESSEL DP=
1.0345
(
0.0096)
PSID AVG. CONT. TEMP =
89.821
( -0.0520)
DEG.F AVG. DEWPOINT PRESS =
0.617
( -0.0007)
PSIA INTERVAL 4
LEAK RATE =
0.915 WT%/24 HRS TOTAL TIME LEAK RATE =
0.695 WT%/24HR$
MASS PLOT CONTAINMENT LEAKAGE RATE ANALYSYS
~
CONTAINMENT TOTAL MASS (DRY AIR)=
84968.00 POUNDS LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.614 WTS/24 HRS COMPOSITE PROJECTED 24HR LEAK RATE =
0.726 UT%/24HPS UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
0.931 WT%/24 HRS 4
E-25
o r..
ner.
<use--
m-C00FER1 PRIMARY CONTAIllMENT ILRT---REFEREt1CE VESSEL METHOD DATH SET NUMBER 6
DATE:
8/
27/
83 0600 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 1.67 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOIllT (DEG.F)
WT. FACTOR 1
88.02< 0.00) 0.027 79.800( 0.000) 0.150 2
88.29(-0.14) 0.027 80.220(-0.110) 0.150 3
88.43( 0.00) 0.027 81.920( 0.000) 0.150 4
89.11< 0.00) 0.027 79.900( 0.000) 0.100 5
88.97( 0.00) 0.027 86.500( 0.000) 0.225 6
88.84( 0.00) 0.027 87.180( 0.000) 0.225 7
38.56< 0.00) 0.027 8
89.86( 0.00) 0.075 9
88.68( 0.00) 0.075 10 89.36( 0.00) 0.030 11 89.27(-0.09) 0.030 12 89.95< 0.00) 0.030 13 92.21( 0.00) 0.025 14 89.44( 0.00) 0.025 15 89.44( 0.00) 0.025 16 89.95< 0.00) 0.025 17 90.51< 0.00) 0.118 18 90.51( 0.00) 0.118 19 90.92< 0.14) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRESSURE =
71.9180
( -0.0120)
PSIA PEF. VESSEL DP=
1.0414
(
0.0069)
PSID AVG. Cot 4T. TEMP =
89.831
(
0.0100)
DEG.F AVG. DEWPOINT PRESS =
0.617
( -0.0003)
PSIA INTERVAL 5
LEAK RATE =
0.661 WT%/24HR$
TOTAL TIME LERK RATE =
0.688 WT%/24 HRS MASS PLOT CONTAIHMENT LEAKAGE RATE At4ALYSYS C0t4TAIHMEt4T TOTAL MASS (DRY AIR)=
84960.20 POUNDS LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.614 WT%/24 HRS COMPOSITE PROJECTED 24HR LEAK RATE-0.721 WT%/24HR$
UPPER SUPERIMPOSED ACCEPTAt4CE LIMIT =
0.931 WT%/24HR$
1 E-26
J C00FER1 o
FRIMARY C0t1TAIHMENT ILET---REFEREt4CE VESSEL METHOD DATA SET NUMBER 7
DATE:
8/
27/
83 0620 LAST It4TERVFL. HOURS 0.33 HOURS FROM T=0 2.00 set 4SOR #
TEMP (DEG.F)
WT. FACTOR DEWFOIt1T (DEG.F)
WT. FACTOR 1
88.02( 0.00) 0.027 79.900( 0.100) 0.150 2
88.43< 0.14) 0.027 S0.330< 0.110) 0.150 3
88.43< 0.00) 0.027 81.920( 0.000) 0.150 4
89.11< 0.00) 0.027 79.900( 0.000) 0.100 5
88.S4(-0.13) 0.027 86.330(-0.170) 0.225 6
88.97< 0.13) 0.027 87.180( 0.000) 0.225 7
88.56( 0.00) 0.027 5
39.86( 0.00) 0.075 9
88.68( 0.00) 0.075 10 89.36( 0.00) 0.030 11 89.27< 0.00) 0.030 12 39.86(-0.09) 0.030 13 92.13(-0.08) 0.025 14 89.44( 0.00) 0.025 15 89.44< 0.00) 0.025 16 89.95< 0.00) 0 025 17 90.64< 0.13) 0,118 19 90.64< 0.13) 0.118 19 90.92( 0.00) 0.118 20 89.93< 0.00) 0.118 DRYWELL FRESSURE=
71.9060
( -0.0120)
PSIA 1.0496
(
0.0082)
PSID FEF. VESSEL DP=
x 89.360 0.0297)
DEG.F AVG. C0tlT. TEMP =
AVG. DEWPOIt4T PRESS =
0.617
( -0.0002)
PSIA INTERVAL 6
LEAK RATE =
0.798 UTN/24HR$
TOTAL TIME LERK RATE =
0.707 WT%/24HR$
MASS FLOT CONTAIHMEtli LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
84950.78 POUNDS LOWER SUPERIMPOSED ACCEPTAtlCE LIMIT =
0.614 WT%/24HR$
COMPOSITE PROJECTED 24HR LEAK RATE =
0.729 WT%/24HR$
UPPER SUFERIMPOSED ACCEPTANCE LIMIT =
0.931 WT%/24HR$
E-27
4 COOPER 1 FRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD DATA SET NUMBER S
DATE:
8/
27/
S3 0640 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 2.33 SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
88.02< 0.00) 0.027 79.900( 0.000) 0.150 2
88.29(-0.14) 0.027 80.150(-0.180) 0.150 3
88.43< 0.00) 0.027 81.920( 0.000) 0.150 4
89.11< 0.00) 0.027 79.900( 0.000) 0.100 3
88.84( 0.00) 0.027 86.550( 0.220) 0.225 6
88.84(-0.13) 0.027 87.180( 0.000) 0.225 7
88.56( 0.00) 0.027 8
89.78(-0.08) 0.075 9
$8.60(-0.08) 0.075 10 89.27(-0.09) 0.030 11 89.27< '0.00) 0.0?0 12 89.86( 0.00) 0.030 13 92.13( 0.00) 0.025 14 89.?6(-0.08) 0.025 15 89.44( 0.00) 0.025 16 89.86(-0.09) 0.025 17 90.51(-0.13) 0.118 18 90.51(-0.13) 0.118 19 90.78(-0.14) 0.118 20 89.93< 0.00) 0.118 DRYWELL PRE 53URE=
71.8960
( -0.0100)
PSIA '.;i REF. VE55EL DP=
1.0548
(
0.0052)
PSID 'i AVG. CONT. TEMP =
89.737
( -0.0734)
DEG.R !
AVG. DEWPOINT PRESS =
0.617
(
0.0004)
PSIA!
INTERVAL T
LEAK RATE =
0.590 WT./24HR$ i TOTAL TIME LEAK RATE =
,0.690 WT%e24 HRS t
e MAS 3 PLOT CONTAINMENT LEAKAGE RATE ANALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
84943.82 POUNDS LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.614 WT%/24HR$
COMPOSITE PPOJECTED 24HR LEAK RATE =
0.719 WT%/24HR$
UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
0.931 WT%/24 HRS r
i E-28
a o
- d C00PER1 Uj}!
PRIMARY CONTAIHMENT ILRT---REFERENCE VESSEL METHOD 33 DATA SET NUMBER 9
2 r
,./'4 DATE:
.8/
27/
83 0700 LAST INTERVALt HOURS;,. 0.33' HOURS FROM'T=0
'2. 67 -
..tg SENSOR #
TEMP (DEG.F)
WT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR t3 1
87.8S(-0.14) 0.027-79.900( 0.000) 0.150 hi 2
88.29( 0.00) 0.027 80.330< 0.180) 0.150
. Fj 3
88.29(-0.14) 0.027 81.920< 0.000) 0.150 i; j 4
88.97(-0.14) 0.027 79.800(-0.100) 0.100 i.%
5 88.84< 0.00) 0.027 86.500(-0.050) 0.225
.. J) 6 88.84(,0.00) 0.027
- 87.300( 0.120) 0.225
', g e p3 7
88.56('O.00) 0.027 F'i s
8 89.78( 0.00) 0.075 s
9 88.52(-0.08) 0.075 jf 10 89.27< 0.00) 0.030
.gj.
11 89-19(-0.08) 0.030
," ', p }4.
c 12 89.86< 0.00) 0.030 13 92.13< 0;00) 0.025 14 89.36( 0.00) 0.025 6)f tr 15 89.36(-0.08) 0.025 16 89.86( 0.00) 0.025 2d 17 90.51< 0.00) 0.118
. til 18 90.51( 0.00) 0.118
'l'(pq f
19 90.78( 0.00) 0.118 20 89.93( 0. 0.0 )
0.118 vt DRYWELL PRESSURE =
71.8810
( -0.0150)
PSI A '3(
REF. VESSEL DP=
1.0706
(
0.0158)
P S I D ', '
AVG. CONT. TEMP =
89.765
( -0.0217)
DEG.FU jen AVG. DEWPOINT PRESS =
0.618
(
0.0007)
PSIA INTERVAL 8
LEAK RATE =
1.669 WT%/24 HRS El TOTAL. TIME LEAK RATE =
0.812 WT%/24HR$
Jp Y.j Ia],
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS CONTAIHMENT-TOTAL MASS (DRY AIR)=
84924.12 POUNDS fj LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.614 WT%/24HR$r' COMPOSITE PROJECTED 24HR LEAK RATE =
0.778 WT%/24HRSIM UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
0.931 WT%/24HR$'~
T.:,
- ]
- e!
lM a
')
ti z
N i.
f'y.
- t.
i E-29
.i
4 e
..... h, vuGPER1 if i PRIMARY CONTAIHMENT;ILRT---REFEREtiCE VE3SEL METHOD _______
s
, ' ~, _ ~
It DATA SET NUM8ER l'O DATE:
8/
27/
83 0720 I
-Q LAST INTERVALi HOURS 0.33 '
HOURS FROM T=0-3.00 y
HT. FACTOR E!
SENSOR #
TEMP (DEG.F)
WT. FACTOR, DEMPOINT (DEG.F) sp 1
' 87.88( l0.00)'
O.027 79.900( 0.000) 0.150 T,
2 88.29( 0.00) 0.027 80.150(-0.180) 0.150 jL 3
88.29(l0.00)'
0.027 81.?20('O.000).
0.150' - ~'O$
A 4
~
88.97( 0.00)
O.027 79.980('0.180):
0.100 5
88.70(-0.14) 0.027 86.330(-0.170) 0.225 6
88.70(-0.14) 0.027 87.180(-0.120)'
O.225
.d-7 88.03(-0.53) 0.027 8
89.78( 0.00)
,0.075 9
' 80.52( 0.00)'
O.075' e.
10 89.19(-0.08) 0.030 11 89.19( 0. 00) ~
0.030 13 92.05(-0.08) 0.025 hj 12 89.78(-0.08) 0.030 i
rhi 14 89.27(-0.09) 0.025 15 89.36( 0.00) 0.025 t$
16 89.86( 0.00) 0.025 F1 18 90.51( 0. 00).
0.118
)k}l 17 90.51< 0.00) 0.118 19 90.78< 0.00) 0.118 pg 20 89.93< 0.00) 0.118 g;
DRYWELL PRESSURE =
71.8700
( -0.0110)
PSIA REF. VESSEL DP=
1.0740
(
0.0034)
PSID 4' 89.734
( -0.0309)
D EG. F-d AVG. CONT. TEMP =
0.616
( -0.0015)
PSI A ij AVG. DEWPOINT PRESS =
INTERVAL 9
LEAK RATE ='
O.200 UT%/24HR$
0.744 WT%/24 HRS [k TOTAL TIME LERK RATE =
'N
[';
MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS g.
POUNDS 1
CONTAIHMENT TOTAL MASS (DRY RIR)=
84921.76 WT%/24 HRS *'4 LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.614 s
COMPOSITE PROJECTED 24HR LEAK RATE =
0.777 WT%/24 HRS ~i UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
0.p31 WT%/24 HRS lj 4
E-30
Q r
DT N
,(d COOPER 1 PRIMARY CONTAIHMENT ILRT---REFERENCE VESSEL METHOD
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ '~,.<l y.
DATA SET HUMBER.
11
~.
^'
4.
i DATE:
8/
27/
18 3 0740 LAST INTERVAL: HOURS 0.33 HOURS FROM T=0 3.33
,4
- '!i.f SENSOR #
, TEMP (DEG.F). WT. FACTOR. DEWPOINT. (DEG.F) :WT. FACTOR' gg.
' 4' 1
87.88< 0.00) 0.027 79.900( 0.000) 0.150
$f.
2 88.15(-0.14) 0.027
,80.300( 0.150)
.0.150 4
fg{.1 h
3 88.15(-0.14) 0.027 82.100( 0.180) 0.150 0.100 4
88.97( 0.00)'
O.027 79.900(-0.080) 5 88.84( 0.14) 0.027 86.400( 0.070) 0.225 la i
. Fj 6
88.70( 0.00) 0.027 86.200(-0.980) 0.225 if; 7
88.43< 0.40) 0.027 F?
8 89.69(-0.09) 0.075 Aih 9
'88.52( c.00)
'O.075 4.>o 10 89.19( 0.00) 0.030
%j 11 89.19( 0.00) 0.030 st. -
12 89.78( 0.00) 0.030 R
13 92.05< 0.00) 0.025 p,;
14 89.27( 0.00) 0.025 v;
15 89.27(-0.09) 0.025 g?
16 89.78(-0.08) 0.025 c
17 90.51( 0.00) 0.118 18 90.51( 0.00)
- 0. f18 19 90.78( 0.00) 0.118 20 89.93< 0.00) 0.118 q,
p.
.71.8600
( -0.0100)
PSIA b DRYWELL PRESSURE =
1.0836
(
0.0096)
PSID G DEG. N[",1 REF. VESSEL DP=
$9.730
( -0.0040)
AVG. CONT. TEMP =
,0.613
( -0.0031)
PSIA AVG. DEWPOINT PRESS =
INTERVAL 10 LEAK RATE ='
O.659 WT%/24 HRS r$
0.736 WT%/24 HRS 3"
TOTAL TIME LERK RATE =
k MASS PLOT CONTAIHMENT LEAKAGE RATE ANALYSYS y;
_______________________________R)=
84913.99 POUNDS
.D CONTAIHMENT TOTAL MASS (DRY AI WT%/24HRSR 0.614 LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
WT%/24 HRS j 0.771 COMPOSITE PROJECTED 24HR LEAK RATE =
0.931 WT%/24HR 2
UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
L;
,g
.c 4 O@v.
N
+,
h:&
IM:s l!!
I
[{ i E-31
4 e
~ -.
7 2
COOPER 1 b
PRIMARY CONTAINMENT ILRT---REFERENCE VESSEL METHOD 9
E DATA SET NUMBER 12
?@
LATE:
8/c'27/ '83
.0800 LAST. INTERVALC. HOUR.S -
J.33
' HOURS FROMlT.=0; 3.67.s q,.g ; g,
~
n
- 7:
.7.
SENSOR f JTEMP(DEG.F)
WT. FACTOR DEWPOINT! (DEG.F)
WT. FACTOR
.;; f,
l' 87.88(.0.00)-
0.027 79.900( 0.000)'
O.150 f '.',:
2 88.15(-0.00) 0.027 80.300(-0.000) 0.150 3
88.15( 0.00) 0.027 81.900(-0.200) 0.150 2 }j 4
88.97( 0.00) 0.027 79.800(-0.100) 0.100,
- 7 5
- 88.70(-0.14) 0.027 86.200(-0.200) 0.225 6
88.70(.0.00) 40.027
' 87.100( 0.900) 0.225 88.43< 0;00) ^.0.027
'f 7
x 8
89.61(-0.08)'
O.075 9
-88.43(-0.09) 0.075 I,;,f 10 89.19( O.00) 0.030 11 89.11(-0.08)..
0.030 3; ~ W
. 4 ',
d.
12
'*89.78<'0.00) ' 0.030I 13 92.05( 0.00) 0.025 3
14 89.27(-0.00) 0.025 15
.89.27( 0.00) 0.025 16 89.78( 0.00) 0.025 17 90.51< 0.00) 0.118 18 90.51< 0.00) 0.118 19 90.78( 0. 00)' 'O.118 20 89.79(-0.14) 0.118 s
1 DRYWELL' PRESSURE ='
71.8480
.'(
-0.0120)
PSIA I
REF. VESSEL DP=
1.0857'
(
0.0021)
PSID 1
AVG. CONT. TEMP =
89.695
( -0.0354)
DEG.
l AVG.' DEWPOINT PRESS =
0.616
(
0.0023)
- PSIA,
(
en v24 HRS %:f INTERVAL 11 ' LEAK' RATE =
TOTAL TIME LEAK RATE =
0.710 e :
J 4
' MASS" PLOT (CONTAINMENT LEAKAGE RATE ANALYSYS
(; {:
w CONTAINMENT TOTAL MASS (DRY AIR)=
84908.63 POUNDS
'O LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.614 WTi:/24 HRS.:
~
COMPOSITE PROJECTED 24HR LEAK RATE =
0.755 WT:/24 HRS UPPER SUPERIMPOSED. ACCEPTANCE LIMIT =
3 M
O#
5 u
ti B
?
D-t I.
h'l E-32 l'd
)
s C00PER1 e
PR8 MARY CONTA!HMENT 8LRT---REFERENCE VESSEL METHOD DATA SET NUM8ER 13 DATE:
8/
27./. 83 0820 LAST INTERVAL). HOURS 0.33
.gHOURS FROM T=0 4.00
~
.9 m
.. +.
o.
.v.
9,.
.--------s;..
- p;..;- =..:.Qq--- M yl.y :--- a4((DEG.F)4'WT. FACTOR.s---,
.:a,. ;;-.:.- :. =--,,.. : %"
SENSOR #'sTEMP(DEG.F)
WT.FACTORV. DEWPOINT
-l1 '
' . 87. 88 ( ' 0 J 00)?/. '. 0. 027.' -A " 79. 900 ( Ot000F w0;150,;
AN 2,
88.~15(i0.00) f 0.027 w *.80.220(-0.080)g.
'. 0.'15 0 * ?.
. 3 ' ~ ;r - 8 8.15 U O'. 00)'i'/ 0.' 027 9 R.
'81.920( 0.020)a
- 0.150c
..a
i
' "S8.97( 0.'00) ".:0.0271. " c'.79.900( 0.100f
- 0.100 [
~
4 4. 1, 5%*
~83.700 0~~00) b;0f027 *.
86.300(c0.100)".
- .0.225 <
~
-6 ~ ' >
- 188.70 0 0'.00) 7 0.027i,
- 87.100( 0.000):
0.225 -d ';Jr t7 3 '-. - 88. 43 (. 0. 00 ) l ~. 0. 027,0 q. '
...... 42
.t l
~
- & r..%
4 1.v-! <.9 s '8 9. 69 C.0.'08 )
' O. 075.'..'[. P.T.7 -
8.,
o C.' yJ.djZd'-.W.9 ' ' "" "/-
7.'. 9e @A..?,88.43(*Oi00)esx0.0759:
.0."00) P O.030 "i' 94 @i W~ M./f'.S ALT;'f 4; l@%N24@T
~'
~ 7
,10 ', ' 'h,8 9 T 19 (7
?
^-
_0.030'.r 2"
~
's!
11 i '.e
~. 8 9,1 1 (l-O '. 00 )'
12..
89.78(>0.00) ?0.030F 47 /
~
.'.' '.~,; '
Js
.-f;' l i
N u 92. 05( ' O. 00)h :.0. 025 13
+ 15 9.?g'lf,89.'19.(? O. 00) O' O. 025'(1;3 dg";.., ' cd.[c. '; $. ['. e. ' Q.),,p~
d
-143,-
-0 08 )'. c.
N 89.27(
0i025?=,.'
-1.
- L 16;
- -;, 89. 78(1.0. 00). '30. 025 t ^ ~
.c -
'ri'^
f. ". f ;> ' (
- 17. ~ r ' :.90.51('.0.00) C,0.118-w
- ?
' 90.51<y'90.78(.0.00)fy 0.00);
0.118~.
~' '
~
18 n
19
.9 0.'116
! i. -
20
+ 89.93(.0.l'4) 0.118 -u ~Jf'
,3 DRYWEEL PRESSURE-
..I
~ '_,
g, w -.
. :p 7:
- 71.8360
("-0.0126)", PSIA ()
REF. VESSEL'DP=
'~4"q 7. ^' -
J 21.0905
'.!('.'O 0048)
PSID l
'~S9.716
' (.
0.-0205)TDEG.F.
't AVG. CONT.iTEMP=
AVG. DEWPOINT PRESS =."v,F 0.616 C 0.0004)
PSIA A.
0.518 -
WT%d24 HRS
/'
' INTERVAL I2 LEAK' RATE =
(. c.
.;, 7,.,,
'h 0.694^;
TOTAL TIME LERK RATE =
WT%/24' IRS *
..e.,
, ' 1..
MASSPL'OT'COHTA!'HMENTIEpKbGNk,ATEANAl'YSYS 5
i
_---__------_g--__,.-_---------------------
CONTAINMENT-TOTAL NASS/(DRF AIR)=: -;, S4902.52 '
POUNDS LOWER SUPERIMPOSED: ACCEPTANCE. LIMIT =.
- 0.614 WT%/24 HRS COMPOSITE-PROJECTED '24HR LEAK' RATE = '
O.738
~
WT%724 HRS UPPER SUPERIMPOSED. ACCEPTANCE LIMIT =
0.931 WT%/24 HRS 7
I,.b.'
J
'. e,,,.'f'
..>.tt-'
v'-
t v
i
/-
i 1
~;p.i.
,' [-
w E-33
"~
W C00PER1 PRIMARY CONTA8HMENT ZLRT---REFERENCE VESSEL METHOD l '
DATA SET HUMBER.
14 l
DATE:
8/- 27/
83 0840 LAST INTERVAL, HOURSa.' 0.33
~ HOURS FR.OM.T=0' 4.33
~
c
.7 SENSOR!#1 TEMP (DEG.F)._,WT. FACTOR DEWPOINT'-(DEG.F)/ WT. FACTOR
il d--~~%-.~%?t,-4:- *--
- rii ~ ~- ~ ~ ~.--?.'--- & h i--- r.,- @;
- .P
- Y~
j
. -.9,-171.i K87#. 88(j'0,00F LO. 027.}M
".7. ;.79. 900 < ;.0. 000)W g. 0(150 f. $yg 2.l*-
- 88.15("0.00). D0.027
' 80. 220( 'O. 000) t ::., 0.'150 R: M.% -
- r..79,800<k2.120). G;"<L.0.150?>9 b.'.
3,
- M 88.15(EO.00)f.7O.027a t
~
~f j
79.800<-0.100)s.;..!.0.'100 M 4., :. ' 2 88.97< 0,00)? 5 S 'i :. ~. 8 8 ' 70(. 0. 00)Y 40. 027c ":0. 027' ' N. :
86,200_(-0.100).g O!225 ',. %.d M4 6
L88~.70(RO 00)..
90.~027
. 87.100('.0.000)S: 4'0i225.[fr'+N~
M'
~
' } ' ? f * '
a ". L J'
, M. E".L '
7 ' G rjla8.~43 de.00) C O.02789.61<60508) $!O.075!:N -4 '
%' 4 3." '! N '
8
,N-l i ? :4,. Nd.,;. :
... ~.c'i' M -
f, T h!?nJ M.
.-9.d-88;43(de.' 00)T60,0757:.D,.W c'
lJ
'116' gy,S; g9511($0' 086!0.t030I.iOff:dW.i a C
T
.F/;yff t e.c A "'.,89.69(-0.09)-89.1'10. 0. 00) M.O.'030 WA~
..f,,:. # 'W4;.~ V.;f'W!
- h.:.:$
p j
. M V..-g't - 1.:J'.7-
^
.0.030 D
~~ '
12 13-
.'., i.91.96f-0. 09) frJ0. 025 ;
J%
- "-/Tr
C
- 'c '- d '0 ~. k.)..
m wwg.15 : :-Fc M.89.19 (4 0. 00 r d,0,025 p.'.'.
ey 14.m n d:
...Y...e tlc Q.,W
'l~ie
- <h-I&M"Wi
, d './fl %. f.
16'. %:,89. 27.A.0' 00) ^q0. 025WWlO';M'*
'%. [' ' 'i' P
- 89'.178(E 0?00)%?0.'025 P.F '
.17
' @.9 0. 510 0. 00 ). '.E O.118 b -,'"nv W.;. f 3 's, f.'-
, N ' ~
".V. M h 18 l' - J9 0.~37 C-0.14 ). 3c.0.119 0*'
P'
.a.
' ' 90.78(10.00).% 0.l'18'
~19
. ~..
,.c.
F.,. I. ' ' -
. 89.9.3( 0.00) 0.118..
20 A
J 1 :. --
- v. n.
.2
- e
..n. '.
M."..U.,..-?..~~,371.8260
(-O'.0100)'yPSiR'."
DRYWEL1.' PRES 5UR =
JC ' ' ' '.'
REF.tVESSEL DP=,
A'
- 141060
( ' O. 0155)'. : PSID AVG.: ' CONT.. TEMP =
1.
.. U ~ ~-.
P. J f89.686
( - 0. 029 8 ) 1.f' D E G. F."
, AVG J EDEWPO, INT, P..R.E. SS=. 0..
~
'0.610
.(
,0,.0065)
PSIA
~:
3 3,
.f;..
t a.-
. INTERVAL; 13 LEAK RATEe- '
+.
-[0.918 WT%/24 HRS')'
.. TOTAL" TIME' LEAK RATE =.
0.711
'WT*/24 HRS' g
- d..;.. r e, 5. -, \\
.:S' 1L-F
' W-l : -
?-
.w:
yr.7: :a ;
MAS $ PLOT.iCONTAINMENTELEAK8CE RATE ANALYSYS
.,..3 M., ;--
t i
c CONTAINMENT' TOTAL?. MAS O (DRYfAIR)=
" l84891.70 i POUNDS.
' COMPOSITE. PROJECTED'24HR'LEAKTRATE=
-" 0.732 'f" w;
. LOWER. SUPERIMPOSED zRCCEP.TANCE LIMIT =.'
O.614 -
WT%/24HRSC
..,r
~WT%/24 HRS'
-UPPER. SUPERIMPOSED.ACCEP.TANCE LIMIT =
0.931 WT%/24 HRS i
g j
\\[
, ~; Q.. -'; s-
}
'? e
.Ql<.;;a l
n3;..,f".
~
r T
4 L
e
)
D t,
~
4 e
-4 g#
I
=.
er E-34
3 d.
/
.C00PERL PRIMARY CONTAIllMENT ILRT---REFEREllCE VESSEL METHOD DATA SET NUMBER 15 DATE:
8/
27/
83 0900 LAST INTERVAL, HOURS 0.33 HOURS FROM T=0 4.67 SENSOR #
TEMP (DEG.F)
UT. FACTOR DEWPOINT (DEG.F)
WT. FACTOR 1
87.88( 0.00)'
O.027 79.900( 0.000) 0.150 2
88.15( 0.00) 0.027 80.300( 0.080) 0.150 3
88.15( 0.00) 0.027 81.900( 2.100) 0.150 5
88.70( 0.00) 0.027
~
79.900( 0.100) 0.100 4
88.84(-0.13) 0.027
. 86.300( 0.100) 0.225 6
88.70( 0.00).
0.'027. --
'87.100( 0.000) 0.225 7
88.43< 0.00) 0.027'l' ^.' -
c 2'
~
8 89.61( 0.00) 0.075 T.' -
- .s -. ~.
~
9..
'.;. 88.43< 0.00) 0.075. - :
10
' 89.11'(~0.00) 0.030~ 2 ?,.
':?',
.c 11.
89.11C 0.00) 0.030 z;(..~.
- .2...-
~.s.
.A-12 89.69( 0.00) 0.030
-.c.
~
13 ~
-91.96( 0.00)
'O.025 Li% 5 '.-
'T
'" W.
. 14 89.19( 0.00) 0.025'_.O '.V -?
7.' i
$~
. ',7 t
15_
09.19(-0.08) 0.025 17 90.51( 0.00).,-0.118.
71
- Mh 16 89.69('-0.09) 0.025
/ C-
. e-
-J'.
18 90.37( 0.00) 0.118. ' - F:C U -
~ ~
90.78C'O.00)
. O.118 '.,
?-
19
. 89.93( 0.00) 0.118'.
5, '
20
)
..:.7,; y ' (l -
DRYWELL PRESSURE =
.t*".
~ '71.8200 C -0.0060)
PSIA 1.1105
(
0.0045)
PSID REF. VESSEL DP=
- .
- . 4 AVG. CONT. TEMP =
".a 89.678
( -0.0078)
DEG.F AVG. DEWPOINT PRESS =
O.616
(
0.0067)
PSIA INTERVAL 14 LEAK. RATE =
1.132 WT%/24 HRS 0.741 WT%/24 HRS TOTAL TIME LEAK RATE =
?-
e
-T.
- ~
2 MASS PLOT CONTAIHMENT LEAKAGE RATE RHALYSYS CONTAINMENT TOTAL MASS (DRY AIR)=
84878.35 P0f)HDS LOWER SUPERIMPOSED ACCEPTANCE LIMIT =
0.614' WT%/24 HRS 3
' COMPOSITE PROJECTED 24HR LEAK RATE =
0.738 WT%/24 HRS UPPER SUPERIMPOSED ACCEPTANCE LIMIT =
0.931 WT%/24 HRS 1
c'.'i;.. -
e, 1
M
- s 9
e E-35 w
,y-
,g.~_
-e, e
,e
. +.~
Nebraska Public Power District
"'" bbb!$hhhfb$h^ "'
LQA8300018 December 15, 1983 Director, Nuclear Reactor Regulation Attention: Document Control Desk U.S. Nuclear Regulatory Commission Washington, D.C.
20555
Subject:
Reactor Containment Building Integrated Leak Rate Test Cooper Nuclear Station NRC Docket No. 50-298, DPR-46
Dear Sirs:
Pursuant to Appendix J of 10CFR Part 50, the results of the "R actor Contain-ment Building Integrated Leak Rate Test" conducted on August 27, 1983 are submitted in the enclosure.
If you have any questions or desire further information, please contact rae.
Sincerely, W
J. M. Pilant Technical Staff Manager Nuclear Power Group JMP: MAW:lb Enclosure f
0\\'
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t 7