ML20073S786
| ML20073S786 | |
| Person / Time | |
|---|---|
| Site: | Comanche Peak  |
| Issue date: | 12/31/1983 |
| From: | TEXAS UTILITIES SERVICES, INC. |
| To: | |
| Shared Package | |
| ML20073S780 | List: |
| References | |
| NUDOCS 8305100135 | |
| Download: ML20073S786 (33) | |
Text
-
COMANCHE PEAK STEAM ELECTRIC STATION o REACTOR CONTAINMENT BUILDI!!G UNIT ONE PREOPERATIONAL INTEGRATED LEAK RATE TEST 1983 DOCKET NUMBER 50-445 TEXAS UTILITIES GENERATING COMPANY h
0305100135 030506 PDR ADOCK 05000445 R, PDR
ILRT Test Summary 1.0 Introduction 1.1 General Data:
The Comanche Peak Steam Electric Station (CPSES) Unit 1 preoperational Containment Integrated Leakage Rate Test was conducted during the period from January 18, 1983 to February 2, 1983. Both a reduced pressure and a peak pressure test were conducted in accordance with 10CFR50, Appendix J, Reactor Containment Leakage Testing for Water Cooled Power Reactors.
1.2 Technical Data:
The containment building at CPSES is a reinforced concrete structure with a carbon steel liner. The structure contains a net free volume of 2,919,893 cubic feet. The design pressure is 50 psig and the calculated peak accident pressure is 48.1 psig. The design temperature is 120'F and the calculated peak accident temperature is 280*F. The Technical Specification limit for the containment leakage (La) is 0.1 percent by weight of the containment air per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> at pressure Pa (48.1 psig).
2.0 Test Summary The Comanche Peak Steam Electric Station Unit One preoperational containment Integrated Leak Rate Test (ILRT) was conducted concurrently with the Structural Integrity Test (SIT) as shown on Figure 1. Immediately prior to closing the containment building for the SIT /ILRT test, a pre-test containment survey was conducted to ensure the building was properly prepared for the tests. No deficiencies were found during this inspection. The containment was pressurized for the SIT in five (5) increments to a peak pressure of 57.5 psig.
The containment was subsequently depressurized to 12.5 psig to allow personnel entry to check for leakage on the steam generators. A number of instrument valves were found to be leaking and were reclosed to better seat the valves and stop the leakage.
- After completing the entry, the containment was pressurized to Pt (24.05 psig) for the reduced pressure test. Both reduced pressure and full pressure tests were conducted to meet 10CFR50, Appendix J requirements. A temperature stabilization period of approximately five hours preceded the reduced pressure leakage measurement. Leakage data was taken for 25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> at Pt to ensure sufficient data was contained for a reliable test indication. The resultant leakage rate Lem was 0.02026%/ day and the upper confidence limit (UCL) was 0.02559%/ day. At the end of the reduced pressure test, a verification test was performed by superimposing a known leak of Lt for approximately eight hours.
1 L
w
~
The containment pressure was next increased to Pa (48.1 psig) for the peak pressure ILRT. A temperature stabilization period of five hours was allowed prior to taking leakage data. The leakage measurement was started but was terminated after about nina hours when it became apparent the leakage rate was excessive. The containment was again depressurized to 12.5 psig to allow entry. A number of valves, packings, and fittings on the steam generators were found to be leaking and were tightened.
The containment was repressurized to Pa to start another leakage measurement.
Another five hour temperature stabilization preceded the leakage measurement and the test was once again terminated af ter about 20 hours2.314815e-4 days <br />0.00556 hours <br />3.306878e-5 weeks <br />7.61e-6 months <br /> due to an excessive leakage rate. The containment was completely depressurized this time to allow more time for leak repairs. All four steam generators were thoroughly checked and various leaks repaired on instrument lines on the generators. Also, the ventilation penetrations were local tested to ensure that leakage through them was not the problem.
After about sixteen hours at atmospheric pressure, all checks and repairs were completed and the containment once again pressurized to Pa. This time a six hour temperature stabilization period preceded the leakage measurement. The leakage data was taken for 25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> and the resultant leakage rate Lam was 0.05579%/ day and the UCL was 0.05936%/ day. Then the verification test was started by super-imposing a known leakage of La. The verification test was delayed about three hours due to a computer software error which incorrectly limited the superimposed leak. This error was found and corrected and the verification test completed after six hours. Jhe containment was then depressurized to 5 psig for a Hydrogen Purge System preoperational test and then to atmospheric pressure to complete the ILRT.
After complete depressurization of containment, a post-test survey was conducted to check for any possible damage or abnormal conditions. No deficiencies were found during this inspection.
During the reduced pressure test, an electrical penetration was observed to be leaking excessively and its vent path was isolated. This penetration was left isolated during the peak pressure test also. Additionally, two more electrical penetrations were found leaking during the peak pressure test and their vent paths isolated. After the ILRT, the penetrations were pre-repair local leak tested. Penetrations E-49 and E-68 showed a minimal leakage rate, while penetration E-62 was 118 SCCM. Penetration E-62 was repaired and the post-repair leakage was less than 2 SCCM, which is acceptable. Penetrations E-49 and E-68 low leakage rates indica:e a uni-directional leakage path since the local leak rate test is conducted in the opposite direction of the ILRT.
These two penetrations have high voltage power cables in them whereas the other penetration, E-62, which was repaired, has smaller control cables in it. A determination of the leakage mechanism in these two penetrations has as yet not been determined. Further testing is forth coming and the results and necessary repairs will be a supplement to this report. No other penetrations, electrical or mechanical, required isolation during the conduct of the ILRT.
2
3.0 Plant Conditions During the ILRT, the plant was maintained in a mode similar to that which would be expected during a periodic ILRT. To simulate post accident conditions, all systems that would not be expected to be fluid filled post accident were drained and vented to the containment atmosphere. The containment recirculation cooling units were in service to support ILRT testing and their corresponding penetrations were not drained or vented. The local leakage rate values for these two penetrations are additions to the measured UCL.
The reactor coolant system (RCS) was filled to a level of 35 percent in the pressurizer and the RCS was vented to containment through the pressurizer power operated relief valves. One train of the residual heat removal (RHR) system was in recirculation to the RCS to simulate core cooling and to provide letdown for the reactor coolant pump seal injection system which was in service.
During the entire test, the containment recirculation fans, whose blade pitch had been reset for the denser air, were in operation to provide containment atmosphere mixing. This resulted in a very small variation between temperature and dewpoint readings throughout the containment. To prevent the introduction of temperature variances during the ILRT, the chillers for the cooling water to the containment recirculation fans were secured.
All pressurized tanks, i.e. accumulators were depressurized and vented during the ILRT. Also, all compressed gas sources were removed from the containment, including fire extinguishers.
The electrical penetrations, which normally have 60 psig nitrogen gas applied between their seals, were depressurized to ensure no leakage of the nitrogen into the containment building. Each penetration was vented to atmosphere to provide a leakage path should the seals in the penetration assembly leak.
! As an added precaution against possible fires, all equipment in the containment building not needed for the test was de-energized from outside the containment building. Also, all lighting in containment was turned off during the test.
4.0 Pressurization System The containment was pressurized through an ILRT dedicated penetration, MIII-30.
This is a twelve inch penetration through which the containment was both l
pressurized and depressurized. See Figure 2 for an illustration of the l pressurization system.
1 .
l A fleet of air compressors was used to supply the pressurization air. The air compressors were arranged in two banks, each of which connected to a coalescing filter for hydrocarbon removal. These were connected to a pair of air dryers which conditioned the incoming air to maintain a 40*F dewpoint. The two dryers l were connected to a common desister and then through an eight inch line to l penetration MIII-30. Also attached to this eight inch line is a blowdown silencer for use when depressurizing the containment. Inside the containment, a flow diverter was attached to the penetration to prevent the high velocity air flow from impinging on any equipment.
3 i
r 5.0 Instrumentation System The instrumentation system for ILRT was based around a mini-computer controlled data acquisition system (DAS), see Figure 3. The DAS is capable of reading all sensors rapidly, storing the information and then outputting to the mini-computer for conversions and calculations on the data.
A system of 13 deweells and 42 resistance thermometer devices (RTD) was installed throughout the containment as shown on Figures 4 through 8. These locations were selected to provide thorough coverage of the containment in order to provide an accurate representation of wet bulb and dry bulb temperatures. Each sensor was assigned a volume fraction and the containment average wet bulb and dry bulb temperatures were then computed. Just prior to closing the containment building for the ILRT, a temperature survey was conducted. This survey verified that the location of the temperature sensors was correct for each of the assigned volume fractions.
Connected to containment penetration MV-7 were two precision quartz pressure gauges to provide the containment total pressure. The total pressure less the vapor pressure, with temperature corrections, provides a corrected containment pressure.
Also connected to the DAS were an RTD, a dewcell and a barometer for monitoring the atmospheric conditions outside the containment building.
Two mass flowmeters were connected to the DAS to provide an indication of the-superimposed leakage during the flow verification test, see Figure 9.
There were no instrument failures during the ILRT.
6.0 Instrument Selection Guide The guidelines of ANSI /ANS-56.8-1981, Containment System Leakage Testing Requirements, were used to select the instruments for the ILRT. In addition, the formula from the Instrumentation Selection Guide (ISG) was used during the ILRT to ensure that the data acquisition system accuracy was sufficient to provide reliable test results. This formula utilizes the systematic error of each sensor to determine an overall value for the system. At the start and end of each test, the ISG value was acceptable if it did not exceed 0.25 La.
7.0 Calculation of Leakage Rate 7.1 Leakage Rate Test:
l The method chosen for leakage rate calculation was the Absolute Method as t
recommended by both ANSI N45.4-1972 and ANSI /ANS-56.8-1981. This
- calculational technique was applied to the " mass-plot method" to determine l the containment leakage rate.
l l
l l
4
In the mass-plot method the' air mass inside containment is determined absolutely, utilizing the ideal gas law, at each time point and a least squares analysis is used to estimate the leakage rate. For each time point (ti), the corresponding mass of contained air (Wi) is determined directly from the ideal gas law:
Wi = 144V (Pi - Pvi)
R T1 V - Containment free air volume R - Gas constant for air P - Containment total absolute pressure Pv - Containment water vapor partial pressure T - Containment mean absolute temperature The linear least squares fit of the total number (n) of mass points is given by:
Wi = Ati + B Where the slope (A) and intercept (B) are given by:
n (EWi tg ) - (EW ;) (Et ,)
n(It2 )( _ (gg ;)2 and (IW ) (EtE ; ) - (It W g g g ) (Et y) n(Et [) - (It )2g The leakage rate is then expressed as the ratio of the rate of change of s mass and the mass in containment at time ti=0; Lam = (-2400) (A/B) %/ day A = Mass rate of change B = Initial contained mass
- 2400 Converts to %/ day The Upper Confidence Limit (UCL) is established such that there is only a five percent probability that the actual leakage rate exceeds the UCL value. This value is approximated by:
UCL = Lam + 2400 t.95 SA/B t.95 = 95th percentile of Student's t distribution SA = Estimate of the standard deviation of A i
5
7.2 Supplemental Test:
The supplement test was conducted by superimposing a known leak onto the existing leak. The known leak (Lo) was in the range of Lt or La as appropriate. The supplemental test is acceptable provided that the composite leakage (Lc) is within 0.25Lt or !0.25La of the sum of the measured leakage Ltm or Lam and the superimposed leakage Lo.
8.0 Data Analysis The results of both the reduced pressure and peak pressure ILRT's are tabulated in Appendix A and B respectively.
During the test, data was taken at fifteen minute intervals to provide sufficient data for a good confidence level.
8.1 Reduced Pressure Test:
After pressurization to 24.05 + 1.0 - 0.0 psig a temperature stabilization period was started which lasted approximately five hours. The containment atmosphere was considered to be stable when the last hourly average temperature was less than 10.5*F different from the average temperature over the last four hours. The ILRT measurement was begun and lasted for 25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br />.
The reduced pressure test resulted in a measured leakage rate (Ltm) of 0.02026%/ day with an upper confidence limit (UCL) of 0.02559%/ day. Adding the penalty leakages, Appendix D, does not alter the UCL since the penalty leakages are so small. The UCL of 0.02559%/ day is less than the allowable leakage 0.0272%/ day (0.75Lt).
Lt was determined by the formula from 10CFR50, Appendix J:
Lt = La (Ltm/ Lam)
Lt = 0.1%/ day (0.02026/0.05579)
Lt = 0.036315%/ day The reduced pressure test is therefore acceptable since the UCL is less than 75 percent of the allowable reduced pressure leakage (Lt).
l A verification test was subsequently performed by superimposing a leakage rate (Lo) of approximately Lt. The resulting to was 0.06864%/ day with a composite leakage (Lc) of 0.09482%/ day.
The acceptance criteria for the composite leakage (Lc) is:
1 Lc = (Lo + Ltm) ! 0.25Lt %/ day Lc = (0.06864 + 0.02026) ! 0.25 (0.036315) %/ day Lc = 0.08890 0.0091%/ day or l 0.07982 6 Lc 6 0.09798 6
The verification test is therefore acceptable since the composite leakage Lc (0.09482%/ day) is within the required values, and this then provides confidence that the data acquisition system is functioning properly.
8.2 Peak Pressure Test:
The containment was pressurized to 48.1 + 1.4 - 0.0 psig for the peak pressure test. The first test was terminated early due to excessive steam system boundary leakage. The containment was again pressurized and during the conduct of the second peak pressure test it was noted that there were large variations in containment air mass occurring. Upon examining the raw data, it was observed that humidity element (HE) number 10 was varying several degrees. These changes were occurring at the same times as the large air mass changes. Upon checking the volume fraction assignments, it was noted that HE-10 was assigned 56.8 percent of the total containment volume. This large volume fraction was causing the large air mass changes to occur in accordance with HE-10 changes. The volume fraction was reassigned such that four other groups received a portion of the volume fraction leaving HE-10 with a m:te representative volume. The computer program was updated to reflect these changes and no further problems were observed. See Appendix C for the volume fractions.
The second peak test was also terminated early due to an excessive leak rate. After complete depressurization for repairs, the containment was again repressurized to peak test pressure and the temperature stabilization period begun. The containment atmosphere was considered to be stable after approximately eight hours. The extra time for stabilization was allowed to ensure a good mixing of the containment atmosphere because of the prior depressurization to zero'psig. The average temperature change at this time was less than 0.l*F.
The peak pressure leakage rate measurements lasted for approximately 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> resulting in a measured leakage rate (Lam) of 0.05579%/ day and a UCL of 0.05936%/ day. The allowable leakage rate (La) is 0.075%/ day so the leakage rate is acceptable. The penalty leakage, Appendix D, has not been added to the UCL pending the results of the post-repair leakage rate for the three electrical penetration.= which were isolated during the conduct of testing. However, the test results appear acceptable since the difference between La and UCL is 0.01564%/ day which is greater than 3.8E06 SCCM. This is far more leakage than would be added since each electrical penetration is allowed only about 2 SCCM leakage.
7
b
-v PAGE. 1 1-EP-P T- 75-02 REDUEI D PRESGUkE (24.05 PSIG) TEMPENAIURE SIAh!L12ATION RfAL T1h0 0301:21 03:54:tu
- 1EMPe* . ********* TEMPERA 1HRL CHANGE ********* _ _ . , _ _ . ,
y ************* 11ME ************** $ PRESSURE * ***** PRESGURE EHANGE ****** ___ _ _ _ ,
~
DAIA ELAPUID INTENVAL PHfSSUHE 4HN AVE 1HR AVE 4HR - 1HR DHY bULD 4HH AVE 1HR AVE 4 Hit - 1HR ERIIERIA ~
g, SE I NLAL (HRG) (MIN) (PSIA) (PSI /HR) (PGI/HR) (P SI/IIR ) (DIC l') (br/HR) ( DF /IIR ) ( DF/itR ) (DF/HR) 1 01:20 10:00:54 000 000 00.000 025.245 000.000 000.000 000.000 064.Y67 000.000 000.00 000.00 ( 000.500 g, 2 01 20 80 24 10 000.250 15.000 025.247 000.009 000.000 000.000 064.VV6 000.000 000.00 000.00 ( 000.500 _
3 01:20 10:39 10 000.500 15.000 025.251 000.0's0 000.000 000.000 065.007 000.000 000.00 000.00 < 000.500 ___
4 01 20:10 54i17 000.750 15.000 025.263 000.000 000.000 000.000 065.260 000.000 000.00 000.00 ( 000.500 g, 5 01 20: 19:09it? 001.000 15.000 025.271 000.000 000.026 000.000 065,427_ 000.000 000.46 000 00 < 000.500 $ .a 6 01:20 19 24 17 001.250 15.000 025.334 000.000 000.007 000.000 065.533 __000.000 000.54 000 00 ( 000.500 _
7 01:20 19 37i10 001.500 15.000 026.337 000.000 001.0H6 000.000 060.120 000.000 003.12 000.00 4 000.500 __ .._
g, H Ot.20 1YiS4 17 001.750 15.000 027.250.000.000 001.907 000.000 069.063 _ 000.000 003.00 000.00 < 000.500 __ __,
V 01420i20:096 17 00?.000 15,000 020.1-31 000.000 002.060 000.000 06V.565_ 000.000 _ 004.14 000.00 ( 000.500 _ _ _ _ _ _
10 01:20 20:24 10 002.250 15.000 02U.990 000.000 003.656 000.000 069.013 000.000 . 004.20 000.00 ( 000.500 _ _
g, 11 01:20 20:39 17 002.500 15.000 029.017 ,000.000 003.539 000.000 _ 070.104. 000.000 _ 001.90 000.00 ( 000.500 _ _
12 01 20:20:54 17 002.750 15.000 030.794 000.000 003.543 000.000 070.411 000.000 001.35 000.00 ( 000.500 13 01 20 21 09:17 003.000 15.0u0 031.717 000.000 003.506 000.000 070.627 000.000 001.06 000.00 ( 000 500 g, 14 01 20:21:24 10 003.250 15.000 032.650 000.000 003.660 000.000 070.U23 000.000 001.01 000.00 ( 000.500
- 15 01 20:21 39 10 003.500 15.000 033.571 000.000 003.695 000.000 070.966 000.000 000.06 000.00 ( 000.500 16 01:20 21:54 17 003.750 15.000 034.503 000.000 003.709 000.000 071.090 000.000 000.6u 000.00 ( 000.500 ~
g, 17 01 20 22:09:17 004.000 15.000 035.430 002.546 003.713 -01.167 071.215 001.562 000.59 000.97 (( 000.500 000.500 .,
pj' 10 01:20:22:24s17 004.250 15.000 036.359 002.77P 003.709 -00.931 071.333 001.504 000.51 001.07 19 01:20:22:39 10 004.500 15.000 037.202 003.000 003.711 -00.703 071.410 001.603 000.45 001.15 ( 000.500 t3
- g, ?0 01:20:22:54 17 004.750 15.000 030.205 003.236 003.703 -00.467 071.490 001.557 000.40 001.16 ( 000.500 {j __ _
21 01 20 ?3 09:17 005.000 15.000 039.133 003.465 003.703 -00.237 071.502 001.539 000.37 001.17 ( 000.500 22 01 20 21 24 17 005.250 15.000 039.526 003.540 003.167 000.301 070.766 001.300 -00.57 001.00 ( 000.500 >n
(, .' 3 01 20:23:37 17 005.500 15.000 03V.425 003.272 002.143 001.129 069.227 000.275 -02.19 002.47 ( 000.500 24 01:20 23 54.10 005.750 15.000 039.375 003.031 001.169 001.062 060.503 -00.140 -02.99 002.05 ( 000.500 25 01:21 00 09:17 006.000 15.000 039.340 ,002.004 _ 000.216 002.Su9 060.145 -00.355 __ -03.44 003.00 ( 000.500 g, 26 01 21:00624 17 006.250 15.000 039.332 002.5U6 -00.194 002.779 067.93u._.-00.469 __ 702.33 002.36 ( 000.500 27 01 21:00:39 17 006.500 15.000 039.320 '002.361 -90.105 ~~ 002.466 067.771 -00.503 ~ -01.46 000.07 ( 000.500 20 01:21 00:54 17 006.750 15.000 039.312 '002.130' 002.1V2 067.627 ""-00.696 ' ~
-00.00 000,10 ( 000.500 g, 2V 01 21 01:09:10 007.000 15.000 039.304 -,001.097 ~ ' -00.062 -
00.044 ~ 001.941 067.504 -00.701__" -00.64 -00.14 ( 000.500 30 01:21:01:24:17 007.250 15.000 039.2VU 001.662 .-00.034 001.6Y6 067.423, .-00.050 _. -00.51 -00.34 ( 000.500 31 01 21 01:39:17 007.500 15.000 03V.292 001.430 -00.020 001.450 067.367 __-00.900 -00.40 -00.50 ( 000.500 g, 32 01 21:01 54 17 007.750 15.000 039.200 001.196 .-00.024 001.221 067.330.,_-00.930_ -00.29 -00.65 ( 000.500 33 01 21:02 09 10 000.000 15.000 039.2U6 000.964 -00.010 000.902 067.274 _ .-00.905 , -00.23 -00.76 ( 000,500 34 01 21:02 24 10 000.250 15.000 03V.202 000'.731 -00.016 000.747 067.240_ _-01.023 __ -00.10 -00.04 ( 000.500 g, 35 01 21 02:39 17 000.500 15.000 039.200 000.499 -00.012 000.511 067.206__ -01.053 _ -00.16 -00.09 ( 000.500 36 01:21 02:54 17 000.750 15.000 039.270 000.260 -00.010 000.270 067.192 _-01.075 -00.15 -00.93 ( 000.500 37 01:21:03 09 17 009.000 15.000 03V.276 000.036 -00.010 000.046 067.174 -01.102 -00.10 -01.00 ( 000.500 g, 3H 01 21 03:24 17 009.250 15 000 039.276 -00.062 -00.006 -00.056 067.152 _-00.903 -00.0Y -00.02 ( 000.500 39 01:2103:39:17 009.500 15.000 039.274 W00.030 -00.006 -00.032 067.134..-00.523 -00.07 -00.45 ( 000.500 40 01 21 03 54 10 009.750 15.000 03V.274 -00 025 -00.004 -09.021 ___067.136_ _-00.342___-00.06 -00.29 ( 000.500 As _ _ _ _ . ... . . . _ . _ _ ._. - _ _ . . . _ _.
G _ .__ . . ~ _ . . . . . . - . . . .
. - .. - ~. .. _ -. _ . .
5# . . . _ _ _ . . - _...._-.p . .___y.-.. . .. .,
I t
l l
! 1 tti p ,
o! " i(l{' I
- I"
- 9 ggt v gg > 1 O
\
- j. .
. O .
" " 9
- M " 9 A, * . S 9 9 % ^ 9 9 S 9 9
._ .'l .
J m
4 ) oo1 7Yt V3S66 s '. 617.soa7 u4 1 ?0/ n n7Y67d1 4 0 H Y # u 6 5
4 M be7 uu2e tJ.3O 1 Su3U 466SY4uud1 c
t 5 J s
u n J c . %. '.v 5
- t. ovuyo1 1 - Va/l 1 h r/ LbS432t h 0 p 'a V u u 7 7 .
4 bSl o ; i.
s.
. 5 ;D 4
C/
b064u4u9YU/u 2 S. 40 6% S b032t b4 411 a1333aJ/dP232JP2?n1 l at 1 u i! 1 1t 1O O000 uU ue000c0W0ucD 0uOa 00 GG00 u0Ob o0 O 1
i u0 -
l (
l
- l
)
it u01 4 6 6 s 't 0 H 6 0 7 3 0 P Y 7 4 4 217 V 0 S. 1 J 4 / 4 6 3 $. 67 6 *,v uo40t 70 61t3P7Y4 0 Y 5. 6,7 v 7 5.V S 4 S 3 7 m .
6 t A
H . LIm u06U30HH71u01 S1 4uS701 0S000'i6Yct 0356V6/Su.0 6 7 u v9HS3U u $.
4 2 V 4 7 6 ri2t 32 t L/ u0uHY3V434 0733302/Yu0 1D76bt43JJt 1 1 t : 1 1 'l n2a2a
'l H G. 0 J V 2 2 0 010 0 0 0 0 0 0 0 0 u O 1 0 b 0 D. Gu0DWkU00o00cO L HdU u e
R l
% s a 0t - - - - - -
(
i W
N .* -
- )
. L L Y 007u6271701 1 Y2771045700440t uuL4 l.S71 4 J 2 6 ? $.3Y6 00i3L61 467576Y40u0Y%Y127Y1
. D / 60 tS337 .
0 044V0730620V75750t 1 3V 2/12nu0 nt3* V 3 utV v1U0a 4tL S s06 b'V 90 Y000 $ S 0u0 6 A, u0v0S451 J407467366350/4771 nh0h6V 022 h
_ A N
6t/
KlI AA 0 0. U 0 0 0 0 2 21210.
0 0 0 0 0. u 0 0 O U 9 u 0 O u. 0 .
- u. O 0 0 0 u u. 0 0 6 0 0 0D U L LH% 00 - - - - - - - - - - - - - - - - - - - - - - - - - -
l G t (
i
! A C K
. I A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -
512YV0G.
C I n 7 */ 7 4 4 3 o S 12 5 9t79401Su7V67Vt 44l5 .5
,CI L . H) t 1DJY51 t u (434t t 2S1 A 5 NGtr.
I 76t 7667Ht s 6U7h7606S66th76767Ht 44i44444444444444444t444 44 44444444444i444444 Y4573Uu 7 3 S 3 5 J JH675 u. h v. 726 47 S 5412/SY 0 6 12767676u66 N 4 At l.t L uHuiO8 0O11 1 H0t uH00Ot OuOOOOta HOiOHHt O0HHuH0HOUO l f l i W(
6 t h
4
$ SSSSS55S$SS5SSS$5SSSSSSSSSSLLSSSSL5SSSS5SS$S A
E
( $ D D
$ L) 07V0t 3$u12220y0427J74*/27Jd50Y7'/ uS$62SJ'/ 5 *. v V S
. HI 4737S70 t37461325S642261 13l 60044bYS5/e5 17 2 $. a 44
' L C i t 5
- u. 8,6 5. Y. ?. 0. v. 0 1. S.1 4,7 6 4 1 u 3.4.7 0 6 1 3.G. 6 7 1 31 u.3. Y.6 4. v,1 9 2 3 1 42 I
W G , .
A l
t fL t 1t 001 0 '/ Y t / 0t 00Ytit 0r10 10 t 0Vt Vt 000n Ut 11 12t 1 1 W
G l
A
-i D W( S5S55SS44S4' SS5S4SSSSbS555SS4S4S555SSS5555S55 C W L
_ IN P t I M iL) 1 1 6vu447203JV%Y16S702S121 4667S7S4SU30065.S45 6
_ C 1f 4 4 3. 2 u S 6 5 4 3 4 3 5 J3S7707663222J0J2S641SV132$0u30u
) T 1 G
I G .1 1 0 0 0 0 0 0 0 0 0. U.0 U.0 0 0.h 0 0,0 0 0 0 U 0 0 1.2 3 4 5, S. S. 6 5 5. S. 5. S. 6 7 6 I
G
$ Yt ND 77777777777/77777777777777777777777777777777 P
$ 11 ( 66666666666666666666666666666666666666666666 A
5 1 0 A $
D $ )
7l 4 1 it36J4uYY0SV1 47702710522400S7u6421(. 1 016Y604 4 4 NA 40Yt 14 6 3 7 6 S 4 '/ 7 2 2 4 5 o 7 4 Y 5 2 5 0 S 2 635l 04/1 4171 6 $. S76 2 D $ HI 18 1 1 F
( L T C l'G AP 1 11 YHu8 t1
.1 . 11 0u77u770H070v110i t t11 1
.t 1 11 t .1 1
- t. 1 1 11 S s 1 1 00Du07070uH1 1 1 1 t2 1 I 1 n1 1 S tt t 0YHYUYu00 1 1
_ L U W V(
009000000000000080(
l R P li 000000000000000c000000000 H,
1 t G _
t u i t. ~ .
, *d C ,
C tt ) 440l N
i P LA 77766666666666t t 66664442?4466t66666444222242/O60460t, 6666666b6670YY0000 u00 011 11 46000 44 P. Al D
$ fu 2 2 2 2 2 2.P. 2 2 2.P.2 2 2. P.2 2 2 2 2 2 2 2.? J.?. P 2 2 2. P.2 3 5 33J3333333 _ . ,
$ iP n v Y Y V 9 9 Y 9 V V Y V V Y Y V Y Y 9 */ v 9 Y 9 / 9 */ 999 .
L C ,
I( a33333333J3333333J333333l'. 9 v Y Y Y3333S 33333333335 9 9 9 V 9 9 9 V /'.3 3 3 _
- U ~
) ~
^
~ ~
~~ ~
~
~
l
_ ~
C
- L ' ~ ~
~~
N. . t A
_ ~ ~~~' .
_ 000000000000000000000'00'0000000000000000000
~
4 V) 00 2 NN 4
000000000,00000009000000000000000,000000000000 . _.
0 4 L! ,
- t S
/
4 4
4 IN(
I P
0555SS555S555555S95555SS55555u55555s55555555.
111I1 1 11 111 111 1111111 S 111 1 1 1 111 11 t 1111
'11 11 _ _
{ 4 4
~ ~ -
l .
P 4 N P
- . 4 4 .l u )
0000000000n0 0 000000000 0u000000o00000000"0000000000000 u00u000000 u000000000 000000 000 0 00 00 00 C
- -' 4 4
INfS AR 0000,00. 0 0 0 0 u,9 0.O.0 0 0. 000D00090000000000000000000 . , . . .
1 4 MR4 t ti0t 0t i 5 1 1 HUUHut 0HuuU3UuUU8Uu1 uH0uUHUtt HuHH08Uu0u l
1 4 U(
_ 8 4
D C
0 M D u0DO00G00Uu0000O0D0o00eG00u000 000O u000 000G 00 3 1 E) 05US05uS0Su50S0 S0S0S05uS05u50S0S0 SeS050S0 S05
- 1 GG
- 3 '
l W 0 2 S. 7 0 2 S 7 0 ?. S. 7 0 2. S. k 0 U S 7 0 2 S. */ 02S70US70 J S,7 0 2.S 7 0 P S 7 0
- AH b0O01 1 1 1 222J53334 444SSSSt,666?7/70u0uvV9900 00 t L( b0G0000000O0 00000000Duu0 u0 0 up0900 u0nu0 0 01 1 11 5 9 ( u0u0000000b0 00000000Upu0u00uu000 0OuoH,00000 00
_ 0 4 1
2 4
4 30HY1 0000uu900H00YHYu090U0vuvHV/09vHH9HHH00Y J 6 1
. 33323333l 333335 313. i.3 3 3 5 53333355'.3 3 3 3 3 3. J 5 J35 . . 3
- 4 i . - 4 i i i . .
_ t
+ 4 4 5 0t34t u5 03u1 :
t 3401 03HtH3H5 L401 l 3H305 t 340t14013401340 04 U50 3 0 $.6305) 1 3030303053 6 0 6 l A
4 i . i . . i . . : . . . . e - t 3 4 u. 1 3401 1 401 34 1
1 v t 1444SSSS66t 0006GO0O00 o0 00H0000GO0 dot 67777400uY9YYuo001 1 112?221331 t 1 1 11 11 1 ! 11 11 11 11 44 44 1 1 4
- R <
6 t ! 1 11 !t iJ*1?' ?.?J2?2P2' '. ?*n 2P2" c222?27J2a t t 1 )1 1 t t ) 1 1 1 ) 1 1 1 1 t ! 1 t 1 t11 11 ! 1 1 t 1 t
_ 0 C 9 J P P ' .1 2 **t v ? P 2 ? ?'
% h 6 4 t i i
_ 3 l 4 T 6 1t 1 1 1n 1 1 1 1 1 t 1 n 11 1 1 1 tt f 41 11 1 1 1 1 t1 1 n 11 1ns 6 11 1 1
__ )
0O0#0O00000O0o000G0auo000000h0 p00O00 0oO0 00 0 0
_ L L A
_ G A T (
A 0 t:? 34567HvO) 25 4St 7Hv0 A :t 14E3' E .
- 1' 6?0Y0 1?. 5 4
'l H DS t25 4St 7HY1 .
S1 11 1 1 1 l t?'* 2 J 2 2 P *. '
- 33l 4 ( 34 444 44 e 9 g $ e e ( f P f' ( f P P P r r f ( F
,l .I T ! ;1l1 i11){ Il! al] ,j {i! ,:{ji{;1 !i* ;l3'
e,
.m. *
'>:. ,O r i *
' l. ,-e
- f. 'e.
, , . :.g.. . .- g , . . &w.bs.GGMj. \ ;.; . - d. ;t 'a >
' g" ' ' '.g .. .'
t.
g.
g,p gg;y.g,&
o '
--- ~ ' '
e 1t. N G M,W O.,
PACE: 351 '~[~'~~~11 CPjP T '75202~REDUC (;D' PRt.C'JUNEl(P4,0*i PSIG I.,1NRGlWED. Lt;AK' RAIE_ll ST .' .' 3-
- i.Q
'(:.)
WCAL 11tW 5 03,01 :22idSiU3 30 ~~~ _____ ,. _ CUMPUTED DAIA [ . ~
O ****************** IInt: ********************- **** ewessuwE ****~~***~1EttPER Alul(EC* * ., 9 4 5* iEAK AGLI AND LRitutt PAN AttElt'NG * *
- 4
~
.S .
tt it4 .
O 11A I A El Al"JLD
' A1W ' LLAKACC '
DURATION It4T E R VAL luiAL 'VAPuN ~ DNY l< ul. la WL T liULie ' WCIGHT NATC i
LLT RfAL (ldd ) ull ILG . S (URS) ' (( ( til N ) [ ~~ ( P ti t A )
, ( psi A ) '_,, ( Dt G f~ ) _ (DCG F) _ ( Liitt ) , (% / DAY) (1 / DAY) (% /O.*V)
~]
O 45 01 + P t 15.113 30 011.000 U.000 _ ,15.00 46 01:21 1%itui*u 011.250 U.000 15.00
.39.314, _ 0.1073_
3v.314 67.674 _ i S1.37S ._.,5046Y1 g . 00303 ,,,, UJ21s . .u1640 .9* ...
01i21-IS.'33,3v 011.500 0.1060 67.6u4 51. t u'/ . S u 4 t, Y V . .002Y0 .02110 47 0.000 ~~'15.00 ~ 3 7. 3 t t, ~ ~ 0.1972 67.720
.03611 .3
O. 4u Gi.2s.ts.42 au 011.7so , u.000 ts.Ou 52.779 Su4521 gm. 010S7_ _, . 0 2Y4G . .k 3v.3th 0.to23
.uasu6 . . 01 t01S76 4 2. _ _ '__. ___ _ -_ _}"
4V 67.711 5 0 . t,S6 su47s3.;. w .007ss 01i21.16i03 3'/ 012.000 .u.000 15.00 .y
- 0>
01 31 16:1U:3:1 012.J50 11.000 15.00 31.310 3Y . 31 tl ._ 0.104(e.
0.1077 ,_ 67.731 _ 50.990 _ 604720 4 p00590 _ . 0 2 3S2 ...__. . u t S 10 _. _ji Q O
67.751 51.4.52 t04660.' - .0070S . tl23YY , .0147Y St ut 21 16 33630 01J.500 U.000 15.00 39.320
=
S.
's 2 55 01 21: 16:411.39 012.750 U.600 15.00 3Y.320 0.1924 0.20u3 67.75f.
67.7S4 52.114 _ 504613, St.htu 504677.-
,' 0 0vt10 \, , _,0 J627 _ . 014 '. u .. ..
.00V91 .02574 .014/1
_.^ f
- 01. E.'t .17 u 3 . JY d13.000 ,u.0U0 ~ 15.00 ~ .5V.3?0 __0.1961 _' 67.750 ] $2 627 ~ [ 5114G56.$_ ' ,01417 '
O si . .62VVo . 01.1v 4 S',
01 ri tv.ili Ju utJ.2s0 01 21 17.51 5u ut.1 500 u.000 0.000 15.00 15.00 av . .s2 0 3Y.320
- 0. t utiv 0.1V73 67.vsu 67.700 St.6sv S2.7tul su4663.
.S04514.
.01440 .02vs4 .0136u "o w,
- 6 ut 21 17. 4 u . .uj u t .5. 7S O U 000 15.00
.01934 .03464 .01342 %
0.tvi2
- 67.754 51.v30 504633. ..b2004 . 03 4ti d .0131u . , _ . .'n Q 57 01 P1 - t t:i n 3. 30 014 000 0.000 - ^15.00~ 3Y.320 39.320 0.tuS7 67.7t.2 51.'15S Lt!470 6.
01046 ,_.03J77 i 5 11
. 9 ut.?! tu tu .59 014.2",0 01 Pt.10 33 39 014.500
~
11.000 15.00 39.310 0.tV60 67.749 L2.607 Su4S30. .02 06 .0.5604 ..01.*72 014Y4 _[ _,D.
' U.000' '15.00~ ~39.310 ~ ~ 0.1903 ' ~ 67.713 ~ 51.006' " Su4663.' " .02141 .0125d Q t. 0 01. 21 - 116. 4U . 30 U14.750 O.000' ~ 15.'00 0 . 1I17 1 ~ L t . .$ 4 6 ~ ~~bu4 f.7V .
61 01 2t 19.0.li3d OtS.uce ~~ ~ ~ u.000~'~'t5.00 39.316~ ' ~ 3'/.316 0.tuut 67.714 ~~ 51.4YV ~'~ SO46u6.
.0205.5
.019S2 '
~ .0.5230
.~.
0 3.57dV .5S 0120u t t ~ ".Gt22V~- ~ 'M Q
I.?
63 01 ?t.19 1 t' 3 '/ 015 01 Pt.tv 35 .iil 015 500 250 D.000 15'.00 .591316 ' ~~ 0 ilt /1 -~67.6V4 67.6u0 ~St.347 tu4700. . u t t.;0 3 .0305S .0Anuu
~le
[
k qs
- f. 4 11 000 ~~ 15.00 -~'39.516 '~ 0 t uf,7 67.61Y S1.300 504701. .016uo .u.uy7 . d t t f.y 'A*
Ot.Pt l 's 40 3.1 015.750 U.000 15.00"'~~ 3v.316 0.1Yu3 67.66/ S t. tiuS 'tu4 tut. . u t t.14 . 0.*7Y5 "a 171 F
I.9
- t. 6 01 23 ?ps 032.$ ' t 016 000 U.000 -~'1S.00 39 316 0.t941 67.6u3 S2.346 SO 4 t,0 9. .03717 . 0/us..S
.01 51 h
01-23 20 lu IV 016 250 u.000 15.00 ' 39.316 0.1Y4U 67.6uu L2.44Y bu15V2. . 01u4 6 . . 0.*v65
.ut t ls ,.
9 g
67 ut 21 20 3 5,.59 016.suo 0.000 ' 15 .5Y.316
.0111% M 1.11 O n . J t . J u 4 u . .h s u t h . 7 .0
.,0 0.107V ' 67.690 51.46J SO46V4. .01741[ . 0 /tl l t .01u/0 f f.9 01.21 21 H.5..lu U17.000 u.000 0 000 15.0G((] av.3th
'15.0u 3Y.316 O.tV36 0.1060 67.607 67,70S
- 2. 271 ] tu4613 d. ; ; . 01u14 '
.02074 .utuud 70 01 Pt 21.tu.5u 017.250 St.IVS :50470S.3 . 016vo , .u27PS ,.01066 , 9 0.000 SS 00 G .1159 3 f.7 . 716 51.663 5u4644.
71 01 21 i 21. 5 t : .59 017 500
- u. 0 0 0 ' ~ 15.00 ~ ' 3V.3th ^.016Y5* .0P701 .01051
( 72 01:21.21 41 2Y ut? 750 'u.000 ~'15.00 ~~39.3'/.3510 t ti 0.1950 67.703' ~ 52.500 ' Su4SY1'. - 017YV . 027 tit . d 10.56 ~
U . t Y.56 67.74S LJ.275 504L77.
75 01 21 .*J . 0 5 3'/ 0111.000 0.000 ' .01920 .UPOut 01021 9 "1S.00 ~ 39.3?0 0.1037 67.764 S0.uS3 Su4735. .01741 Ot 21 ?2 1Hi.Su 010 250 74 u.000 . n?t,9 0 .d1007 15.00 3 / . 3?2 0 .10 Y.5 67 77d T L1. 67.5 504671. .u16u7 C. 75 01 21 22:35 30 010.S00 'O 000 ~~15.00 39.3J4
.bP612 .UUW3 76 03'21.J'i40.1Y'Utu.750 U.000 0 . t1102 ^ 67.000 ' 51.507 ~"SO46uu. .01606 . u;"io V .uo771 9 15.00 3y.324 '0.190.5 67 UU4'l~ Lt.utt 't046St. . u t b'/2 77 01:21 25 01.30 utY 000 u.000 0.1930 67.007E S2.tV6 ~ 504600.
.u2471 .uuv66
( 7U 01 2 n . 2 5 i t u . 3Y 019. 2L0 u.000~~'"15.00' 15.00 ~ 39.324 3Y.324 0.1911 "67.002 T Lt.Y24 Su4642.~
.01649 .02507 .0uy54 77 01 21.25 33 3u Olv.500 .01646 .U24HJ . 0 t4 41 - -9 11.000 is 00 ' 39.JJ4 0.1974 '(37.7v7 '52 006 Su4SS3. . d t */ud .0J6us 00/2V 11 0 01.? tid'.4u.30 niv.750 et.000 15.00 39.324 u.tv2u 67.003 $
F ut 01 **iGO.Hii3Y H20.000 0 000 ~~ 1S.00 -'~ 37 324 0.1902 f,7.776
- L2.17t S2.vnt ~ Lu4S6S.
Lu46;S. .Ginov
.utydu
.02o1.5
.u2cv/
.DuYtu
.uovon 7
. N U? 01 2d.00 10..sv 020.2'.0 0.000 IS U O ' ~ 39. 524 0.1Y64 f,7.7vS ~ 52.672 LH4569 . Y.
ut 01.J'-00.53.31 u2o.tuu 11 Quo 15.00
.utYvt . 027t.5 . u u t.W (1p P 04 0.194Y ~ 67.702 52.464 ~5046u7. .02014 .027/0 '
01 J*.nu.40 3u p20.7LO u.000 - '15.00 ~~~ 3'/ 3v.. 524 3J 4 0.tV70 67.77.5 L2.7b6 SutSUS.
.uuude f*
US ut 22 01 03 33 021.000 .02063 .02002 .bou/3 7 06 0t.??.01.tu 3Y 021.250 0.000 15.00"39.322 0.1937 ' 67.766 52.k9t 7 504613. 02u70 .uJ79J . 0 0'Jh 5
- P U.000 15.00 3v.320 0 . i v.* 0 67.7/6 52.051 . t?
C 07 01 22.01i33 30 021.500 Su4652. . u 2 0 2.5 .02730 . 0 L 1%.9 *'
uu 0.000 ~ 15.00 39.3.*0 0.1967 67 .7.11 SJ.713 504S76. .0?u?6 9 ;*
01 *
- 01 4U : 30 021.750 ~
0.000 15.00 3Y diu 0.19011 67 J.Y 7 St,uu4 '.lj i67 d . .0200J
.u2760 0260J edJ43 u ui ..la Y
}
O "" tsT00 si!'s t 6 01' ??
N'.0?' 03..su 022.250 022 000 " u 000 0.tuv2 67.67t st.656 su46vs. -- a 90 01 02 10,3u 'u 000 15:00 ~ 39. 314 ' ~ 0.tV4u 67.652 S2.43Y~- 504603.
.0tv0s
.01922
.02sys
.U2S7U
.000tS ' ~ -', e l
.00u24 Y1 On.?2 HJ. 3 5.3u 022.500 O.000 '~15.00 3v.314 u.1921 '67.666 504627.
O v? Oi.?2 02 4u.3v 022.vs0 .01vov .0JSbt .0uuds j 93 01:2?.03 0.5 au 023.0u3
- u . m -- 15 : n w a t 4 0. tv23 '67.647 -~5J.072 52.0ve su646: nuiuv4 .uasu2 -m 0.000'-~ 15.00 ~ 3Y.312'O.tv29'" 67.629 52.174~Lu4627.
94 01 ?? nl.tu'3Y 025.250 u 000 39.312 0.1940 '- f,7.62S 52.43V
.01061 .02476 . 0 0m ["
.Du/uu l.
O F. 01.??.03.33130,0?3.500' ~ U.000 -~ 15.00 15.00--' 39. 312 ' O .1 Y73 67.60t,~~'"52'7U9' ' '504506.' 5U4603.* .0n074 . GJ475 ' ' . o u /uo' .
v6 ~
.01903 .0J413 .0u771 9 01 ?2~03 4 U . 3Y 10 21. 75 0 ~ ~ 0.000 ~ 15.00~- 39.312 ~~ 0 .19S t ' ~ ' 67. 59.5 52.4Y2 L U 4 t,3 3. .021',7 97 01 ?2.04 03:30 n24.000 U.000 15.00 39.312 0. t v.56 ' 67. f,10 ~ '52. 27tt ' 'bu4637.
.01tu:0
.01u52
. 0 u 74..! 4 ,
D 90 .U?41u . 0 u 7%
Yv 01iP2 04 1u.5V U24.250 01i?2iO4 33 33 024.500 - "u.000 ~~ " U.000 ~ 15.00~
15.00
~ ~ 37.312 0.2027 67.L97 ~ ' 53.5.1/ ~~ Su4514. .utv50 .0J512 .00/47 5 37.310 0.1928 52.166 504624 . u 19.51 .004c2 100 01.PJ 04:4U.30 ,024.750' .0u740 D 101 ,01 22 05:03 30 025.000 ,
u.000 15.00 3v.310 0.197V 67.605
'67.SV6 S2.u/V bu4550. .01v70 .u25tv .u0732
~ ',
D.000,,_,15.00 39.310 0.tvY6 67.579[ [ 53i102;_ ,,5u4SSt.' .02u26 .02$5v .0072 % , .. i .S
. -- . 8
....e 4 = ' ' * "
O . . . . . _ . . . -
m
)
gjgO%
i g >
1
^
D " ~ ,.
F )
4 (
4 5
- I..
4 y 6 6g 71t d *. s 4 2 )i t
/
'I. t 4vn u71 i ". 6 u *. *, /
4/ht V ,'
6,4) us .' i. ' /, n *,.
4 u/,
n
,5 i 3 i .vS 'Y l H u90p up u d 0 u u u u 'H d' v0vuuno9 6 '
4 4
D l
k n u ev k
/ e a ut 1 '.l s. 3 n l 4 4 e S- -, f.. t . s '..6'.. e is ', i U u u h' uuu1 t 1 1 1 t 1 t 1 11 t l s 1 a i 1 t n l i l 1 1 1 l 9 9 u i
4 4 i 4
4 4
t(%
H e _
4 t 4 ( - - * = =
A
( (
e s f e,
(- ( a * = . a = & (*-(=4(
( t ( ( ( ( ( (
s .
- o t
a - a - 4 . - - a
( t t t t ( C t ( t t i(
) up ,5 u !. 1 n 6 V *. S S a 7 s I
U b?4 e d, n H
- p u 'S 2 7 6 0 t4 4 % u, *H. H. G b o 4 . p 6V oiy'i :
4 1 1 u '.
/
6 / '. 2, (A Y a661
- l. 1.1 7t 1/ ". i t44 '. b
'1 .
up *. 73f4, )1 16/6S?vt '. 7t ui l 3oSi4 l l
4' .-
l l
8D op1 pu5 1
7J?3 23 1 l t S 1 7 bvl c. 0 S: 'o 3 1 n 1 i 1 1 t t t ou p bub 1 1 1
. 3 4 h 'u 'u v / -
A( ( d0 D )
N I A L ' = 4 * = = = 4 = * '- = a . s. s. 6 s* : - - = e r - e -
- a a. - : 2 4
-w S ( < ( ( ( ( ( ( < ( ( ( t ( ( ( ( ( $ ( t ( ( ( ( ( ( ( ( ( ( ( ( (
SI t L G J )Y / l 4l u1 5 4 4 7 b s. 1 S. S4 v0 'a 4 V *.1 07 o1 1 Jn 1 ,'
7 7 46Vi4 It. .
G y34 S,6$. 6
/ t 67t S.
0 d 0 uuuh t 1 1 1?
- n. 4 '. b?dvu4'1 I
- AD Y 4 v 71h '
A.
4 A tr/
ua5ti6*
/ t 1, ut '. S S s, 66t 6Ls t s 66t
- n6h777v 7l V / 7/7//
HUv/VYvb0
' L.L 1 d uuhG uu0ODU Uduu0 upo9 uH U9ubuDu90 9uU A 8 fL%
K I (
A 4 H L 4 t L 4 (
4 e
r 4 4 )
lu 4 Y l 4 A i.16213S66H84 DSS /61 *. d06U4 $7Y/l 54Jnd4 .
A 4 UD P41 -
- . 5 Sd t 0 / 1 V5*/03( hd21 567t Vu1 21 4 SSo :
C u1 1 47Y1 d5 54,4 S S 1
4 4
4 / 4 u34S5S6666 4 66666 t
66677777777G.8 u6666t : on6t t 6 at t d. 4 4
- t. U. li. Ho 9
1 4
4
(
d00 U0U 0000gh 0 u00uuU U0 u01 u0 up 0 up ibuh t N
L V 4
)
4 )
6 6,3 *. 3 1 5/V12 t 7 2 S 7 ;
- 5. S 4 0 0 6 0 1 *- 00 1 Y '.176 /S7Y n -
4 (A H sv 'Y Y h 9 Y4d?l 9 u Y S4 *i y 0o6v47Y4/4 1 4 1 YL 9 c$ 7n /1 a ;
G 4 /
Y '1 u99Y0 V0 Yd D Y '/ / u Y 9 o i / v l I t PS' i S 1 J1 3 1 '. 1 1 l 21 l 1 1 1 P121 P, P 1 1 1' P1 1 211' t Id*
l' A
< W(
l u
t l
00000 u00uug000G0u0U 0000 O0h0bUoG0U d
% l, i
0 4 D S.
t 4 N ) 0 0 d 0 0 6 6,6 4 4 2 2 0 0 O U d l U 0 0 2 J 2 4 6 6 :t H u o 0 *, P i
? b P 1 A
( t l 4 6t J
t 1 i1 0 0 00 004
- i. 3 l. 35 33J31
. 3,H3 0 3 30YY/VV00 P *. ". / J 5 33J5 Uo0033333'.i.5 9 0 D d ut 1 13'I .
10l JYW119/Y917/99
. l L 4 '/ Y/V'/ YY171'/ V9Y9VYyY*/V/
I' H
W l M
4 4
1 ( . 3 3' i. 335 3'33l. 3 3' 333s. 35 3331 J3JS *.$ 33 "
S ll S C <
~t 4 l )
k 4
li Y . d. 4 Suil t Y67611 % t>5 l 8 1 71 s 1 M.
'ph d 4 4Ps 7 S't Jf 4 '. eSS41 $ 5/
0 1 44 04 49 955 l.P341 '/ S76664717 77 S3 'i u'/. ' VPD61 i 6'Va/W7SH 1 :
l t l D
L H
l i
U. 7. ' . 1. 3 '/f .
't l
l I G4 t
- . *.S'32?/t '.2/3?21 ?2t 3?5 25 5 3?$ 1 ??S t * '
C l it 1 Si S*
- S S S $ $ $ S S S S 5 S 5 b 5 S S S S S S S S $ S S S *,
O A L (
p H t C t
.p. .
P
- a. __
. i. )
1 H*.u771 21 757YY1 5 1721 l 4 V7/4'dli H5H8464Y?70 '. 5679v4 f
il l 6 t l Y/8 7766S5 1 / t /766791uOP1 1
.D 1
- _ IG S. S' 5. S. S. $ S. S S. S 4' S 4 4 4 4 4 4 4 S S S 5.*. S 6 6 6 f .
( 6667 -
.7 -
4 4
4 Y t ND D(
7666666666d f 7777777777,77777666666066(,777777777777777766 6666l 661 66i 77 T
P
- 4 L P 4 A 0p0 000 0000d0 d04 ud0 0 n0 U0 00 uuuo0 0 po0 C
- 4 4
V)a Hf 0 p 0 0 0 0 0 0 0 0 0 u00 00 0 0 0 1 1
u0 u0 0 uu0 0 u0 O 0 0 0 uab u0 up u0 n0 H00 HO 0 0 u0 H 0 00 p G U d H 0ud0 1 4 l ! . .
4 4
i N 0 51 % S 5 5 S 5 5 5 $ S % 5 5 S S S 5 S S b % S ' S S 5 S 5 5 'l 55 4 IN( 1 i 1 1 1 1 1 1 1 1 1 1 1 1 1 S 1 t I l 1 1 l I 1 1 1 1 1 1 1 4
4 4
1 4 D 0O0 0h 0 0 u0 0 0 o0 u00 o u5d00 0uu0h S0D o D. no9 0 0 u 5
- D.0 S0%G 50 S70 U S 7 U ': 57J5 u ". S70 u 5 u " dS70 1. S V 0PSS 4 1 ) 0 S0 S 4
4 4 SS I'.
i l
H* u u't '. uS050 $ 7 0 '
1
'e l I d 1 1 1 1 222*.5, 331 444 4SSSS666677771 d 1 i
t i
. i (
$. t 4 1 t
- . 2?2211 1 t 2
2 l
4 Y11 4 5 5 333 3 3
. t t 1 1 1 ? 1 3 3 '. i i. L 33 3 5 3341 in 31 $.
1'.
t li 3 /. 5 5 3i3A 1 1 JL 1 l an 4
t u, 4 4 lt 414 i
34 0 1 .
91340V4 1 i9n 4 749 5 4' ht 41 3 1 /) v4 vn 1-
- 4V4vt /
pt 34 ut i Y4YT7) vT 4D 1 ' 4 H a '
8 .
. ( 6/I 7? Hti 0i 9v,1uoao1 1 1 1 o'. C'd' iDI 0 (9dGG6 0 D p 4 d 0 uu0
- t. i 3 8 i.
?J*. . . l
- tt l t 1 1 1 1 1 1 1 l 1i 1 U 4 L 4 ?
I u a 4
? i r 5 J 4 t 4 1 I 4 d1 )u01 uHIC ld0 s 1U0161 1 1001t Ud i 1 00 1 H1 41 p0 0 D h U 0 4 u4t 1 001 tu01 b)
) 1 1 i1 t 1 1 l A
ct At I A t A ;*4 1
't e l D n
% 4 S 6 Y ll 't u1 ?4 4S67dY ut -' '* ?$
t 1 t 1 1 t 11 t t ' ' ' ' ' ? i. 54 4S6lHV0l 4 i4 '
O $ e S f f I f f ( f f f f I f V f f f
- . . ~ = . . w. - - a . - - , . - - - - - - - . . - . . . - -- ~ ~ . .
1 APPENDZX B C, . ( t t t < c r t .
r ( e) t e 4 e ma omosommosomo cocoomsommossoonoooosmoooooooomsao ss amomooms omeconocomma e 23 e w ?. @. e. #. @. @. @ l J. e. p @ D. D. @ s D. O. D. @ @ P. e. @. A. A. @. @. @. f. @ D. O.D.
e as memoooconomemosomooooooooooosemomo .
e =w easowococaesmosamooooooooomscoccom e
e 22 uw mooooooooooooooooooooooooooooooooo
- ww vvwwwwwwww wwww ww vv ww wwwwwwwwwwww W 2 0 == comosomosomosommem owc 4=>N4@eccT@ m
=
q mz
= o. o o. o. o. o. o. o. o. o. o. o o. o. o o. w. M N. *. o. o. o. o. o. o. m. o. n. o o. o. @o. o.
coconommmenoseconommoooooooomammes
= i s y
23 w soconoconomococcoooooooooooooooooo ocooooooooooooomi a a e e ,e u :* - e t_ I a t 6 i e 6 : I 2
O 2 -
O a
C Wa a c o m PJ e S o w o *
- o o S N W M 4 0 3 4 m 3 3 > > O 4 N a @ g m m
z 03 y 4; o. c.o o. omo. @wo.oh.m@. @. T. M. M. cJ. f4 . =. m. m. a. rd. m. a. m. o. o. o. o. o. o. o. m. m. o. n.
C s m
% e m o = m o me o m m e no c o n o ce m o s o m o t
N
" W E TL 22 emooommemooooooooooooooooooooooooo anooat t i i e I l l i E l i t 4 i e e i l a 8 ee i l e i t I q
J > ww j =
i 3 e 4 e
- e Wa o o o o o o o o o o o o m m o o 4 M & M c N e @ M e N > 2 0omops e PJ o S
@ e >m sommooom=mosommodepo4N>NAgMm
, y e
o
<=g s c. o. o. o. o. o. o. o. o. o. o. o. o. o. o. o. A. T. M. M. c4. CJ. . . a . .*
- m e. a. w. .a. w a. c. o.
3 e
e 26 Ca moommoooommewooooooooooooooooooose comomommoososommooooooooooooooooom a e Tw ooooooooooooooom e - g a s e g i e3 e e i 6 i s a t C
2 w e &
L E
1 a
6 S 4 M @ f d e
- N M N 4 M 4 @ c rJ p S M Q 4 M N e 3 c c aJ e m m e @
W E & 3Me44&SN@>M4@> 4 f m 4 e A ?J o > N e w o O O d e M e
- e y o D. M. & 4. T. N. *. o. d. 2 3. b. b. 4 4 4 4 4 A. v. f. T. M. M. M. M. M. cJ. rJ. N. f4. N. fJ. 0J.
- > ud e e M M M M M M N N N PJ eJ PJ N N rJ PJ N N N N PJ PJ N PJ ?J N N PJ N N N N
- 22 SbSNNNNNSbhhSNSSNSSNSSSSSSSNhhNNNb e Gw mooooooooooooooooooooooooooooooooo f
e se e 22 e
e
= oooooooooooommenbacog>cN>She@4,4MM N coconoconome= moo @fNNeoomomooooooom e f
a Q
e a o. c o. o o. o. o. o. o. o. o. o. o o o. o o. o. o o o. o. o. o o. o. o. o. o. o o. o. o. o.
XL ococcoommonaccommemmasocomeSoomeno t
= W Zw oconomoooooooooooooooooooooooooooo M J V b Z ooooooooooooooome e e I s 1 1 i e 4 e I a e s a e i
< Wa e I >2 U CI o O
T W
= o cmom a ce M S o@s w 4@ = Se fv4MeMf oeJeNmNoacrJo rJ mrJeJeJeJrJomc m em e rJ me w rd me ew eJmo m Nm f4 j
w z
=
ao c o. m.e e m w o o o.o.o.o.o.o o.o.o.o.o o.o.o.o.o.o.o.o.o o o o. o.o.
emoomosomosommmemooooooooooooooooo T IL W
E 4
O aw accooooooooooooooooooooooooooooooo como4 8 4 4 0 0 t i i l 4 l l 1 e i i $ i t i l t t t t 6 i 8 B
+
0 W i
m a Wa M L >2 W C2 comococooconocochoce4*cWMwocS444@@
m
- N m o = c o o = m o c o m m o o c S A e
- M M N rJ cJ b e
.. e ap= c o c o n. o c. o. o. n. s. o o. o o. o. o o. o. o o.. o.
. , o o.o.o.o.o
- o. o o. N mo =o,m. ******
M e CL onomooooooooooooooooooSoooooooooom 4
W e
Tw mocommoooooooooooooooooooooooomoom oooooooooooooooot I 1 8 4 6 4 l e 4 e f 4 a s I a t t 8 w W '
PJ' 8 m ma o @ M S N o PJ c 4 4 4 3 rJ 4 PJ N w h
- N o @ m > p * > @ M m S W * > i o D 3G M @ e 4 w h o m h 4 ; w t M M tJ *J *
- o > > > 3 : = 5 5 S 5 4 4 4 @
l W @m
@ m og C. h. h. 4 4 4 4 @ @ @ . . .@. @ @ @ . .@ . .p. @ . .@ . p @ w t. w. t. s. w. w. w. M. w. w. t. s. t.
h w wt MMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMM i a Mw l
a & 4444444444444444444444444444444444 moooooooooooooooooooooommooooooooo
- A e 6
& # J U
e e
e da
>Z ocoooooooooooooooooococoooooooooom cocoaccoconococconoccooooooooooooo e e m=
e wg o o. o. o. o. o o. o o. o. o. o o. o o. o. o J. o c. c o o. o o. o o o. o o o. o. o m w
~w 2
o@@@@@@@@@@ .
on m.m.m...f.B@@@@@@@?@f@@@@@@be@@@
m wwwm**** =w .wwmmmm .w e
o e
o Me e O w= moooooooooooooooooooooooooo=ocosmo oeotopoAmfo@ceopo@o@ofobo@oAm/o@o@
- MM Lx o. f4. @. h o N @ h o. N. @. h. o. N J b. e. f4. #. S. o. f4. @ N. c. N. W. h. o ?J. @, S O N
@W vg
<=
aw m o c o m - m m N rJ eJ rJ M M M M e e e e @ 4444NdSS c o o c o m m o o o o o o o = o m o o c @o o @m @o m o o c c o m m am =3 i~
-w ew e
w occoccooooooooooooooooooooooo=como *
- e eMcMe*MMfegMMeMMMeMcMeeMTeMffMMMMM ce T. T. T. f. f. f. g T. T. T T. T. T, T. T. T. T. T. e f v. T T. T w T T. T. T 9. T. T.- -g f No . . .
-e we o@o@eDe@ coo @edoOmAo#o@c#ade@o@m/m@
oo J M. e. o. - M e. o. . M. e. m - M e =.
M. e. o. - M. e. c. a m. e. o. . M. e. m. . M e.
4 OOd * *
- PJ?J?J(eM
- M M o m a o m m *
- N ?J?J?J M M M M W e 9 9 ee end e g f.J PJ r.J N. fJ. P.J 04 f4 N.f.df.4 N.PJO.J o. o o e o a o o. e o. o. o o a,o. o.o. e. o o
-e .. . .
c We go NSShhSSNNSNSNSC***""OUC..m . 3OOOOO 4 N. N. 04 N. N r.J 74 f4 N f4 TJ N N. N. N. N. f4 fd f.d 4. c.4 CJ h N 04 PJ N. f 4 N f4 N. O.J N. P.J -
we We * *wmmmm*mmeenmmmm*@ mm***M m monmm*mm emoococooooooooooooooooooooooooogo I' O 4 >>
< W 44 !
1 2 Qu erJMemes: y .m . N. *M. e @...4 S. . 3 > o w ?J M e @ 4 N 3 > o w N M e NNNNeJNc,NNrJMMMMM r
- - . , . . - - . . -, . . . - - - - - - , - - - - - , . - - - - - --- - -- - e ~ - - - - - - ~ - ,
O e
PAGL. 326 1-CP-PT-75-02 PEAK PRESSURE (40 i PSIG)
() INTEGRATED LEAK WALE ILUT NLAL TINEeL3,01i2Y 05 0Yi07 COMPUILD bA1A O
() *********o********
TINC ******************** **** PREGSURE **** $$$ TLMPENA1URE ** * *
- 4 LLAN ACC AND E NROR PAR ANCIL WS * * *
- dD HIN AlH LEANA6C
() DA1A LLAPSLD DONATION INURVAL IuTAL VAPUN DNY Luth WCT DuLb WLICui NAIC SEI kEAL (URS) (URS) UCL IbG 8%
(NIN) (PUIA) (PUlA) (DLG f) (DL G f) ( L lin ) (% / DAY) (% / DAY) (% / DAY)
F 1 01.20.04 53,56 000 000 H 000 0.00 63.457 0.2412 72.215 50.323 Y36615. 0.00000 0.00000 0.00000 "%
2 01 215. 0 5 OY:06 000 250 0 000 15.00 63 4SS 0.23Y4 72.1u6 50.114 v36b63. 0 00000 0 00000 0.00000 J 01 20 05 24>06 000 500 0.000 15.00 6.5.453 0 2365 P 4 72.190 57.772 YJ666Y. .2764Y .0391S .20021 01.20.05 39-07 000 750 0.000 15 00 63 451 0. 2.55 0 72.157 S 01 00 0S 54 06 001.000 57.5Y7 Y.56721. .35021 .24022 .1Y214 "%
0.000 15.00 6.5.44Y 0.234Y 72.101 57 500 Y3664Y. .1209Y .04u17 .14411 6 01 20 06 0Y 07 001.250 0 000 15.00 63.451 0.2363 72.211 57 751 Y36606. .00VY4 .16700 .11520 F 7 01 20.06 24.06 001.500 H.000 0
15.00 63.44Y 0.2.543 72.197 57.50Y YJ6631. .031u3 .13YO3 .0Y607 "%
01.20:06 39,06 001.750 0 000 15.00 63.447 0.2316 72.166 57.195 v366Y4. .015Yu .0712Y .00235 9 01:20.06:54.06 002 000 0.000 15.00 63.447 0.235Y 72.155 57.704 Y36651. .00764 .05u66 .07205 P to 01.20 07 0Y.07 002.250 0 000 15.00 63 44Y 0.23.54 72.206 57.406 Y366Ju.
11 01 20.07 24 06 002.500 .01007 .06421 .06405 "*
0 000 15.00 63.447 0.2290 72.100 56.004 V366Y3. .0113Y .03605 .05764 12 01 20.07 JV 06 002.750 u 000 15.00 63 447 0.2200 F 72.107 56.757 Y36712. .030$0 .utlYY .0S240 13 01 20:07 54 06 003 000 0.000 15 00 63 44S 0.2373 72.102 57.067 V36552. .01200 .06502 .04U04 "%
14 15 01 20.00 0Y 06 003.250 0.000 15.00 63.44S 0 2343 72.202 57. sty Ys6561. .036Yu .00627 .04434 f}
01 20.00 24 06 n03.500 0 000 15.00 63.447 0.23Y3 72.206 50.106 V36510. .11421 to P 16 01 20-00..lv-06 001 750 0 000 15 00 63.445
.06500 .04117 t4 0.236u 72 201 S7.u06 v36527. .07031 .1227.5 .03045 "%
17 01 20.0054 06 004 000 0 000 15 09 6.5.445 0.2302 72 226 57.030 Y365uu. gj 10 01.20.69 DY.06 004 250 0 000 15 00
.07S46 .11453 .0.5603 P 63.443 0 2364 72 211 57.763 Y364us. .0HYto .12S7Y .035Y1 r4 tY 01120.0Y 24:07 004.500 0 000 15.00 63.443 0.2371 72.170 57.040 Y36533.
20 01.2u.0Y.37.06 004.7bo 0 000 15 00 63.443
.0uY74 .12244 05202 "%
0 22Y6 72.244 S6.YS3 YJ6S27. .00Vul .itYt4 .03034 bJ 21 01:20 09 54 06 00S 000 0 000 15 00 63.445 0.2344 P 22 72 225 57.524 Y36520. .00963 .11600 .02002 01 20.10:09.u7 005 250 0 000 15.00 63.443 0.2300 72.23S 57.Y40 Y3641Y.
23 01:20 10 24:06 00S 500 0 000 15.00
.10061 .1265Y .0274S "%
63.443 0.22YY 72.221 56.Yu? Y36564. .0Y174 .11674 02620 24 01.20:10.39.06 00S 750 0 000 15.00 63.437 F 25 0 234S 72.190 57.53Y Y36460. .0Y46S .11765 .02506 01.20:10.54:07 006 000 U 000 15.00 63.431 0.23.50 72 142 57.450 936465.
26 01.20.St:0Y.06 006 250 .0YL61 .11676 .02402 "%
0 000 1S.00 63.427 0 232% 72.0Vu 57.305 936503.
27 01.20 11 24 06 006 500 0 000 15.00 63 423
.0Y221 111Y4 .02.506 F 0.236Y 72.0bu 57.015 YJ6 5YS . .0Y754 .11641 02217 20 01 UU 11a3Y.06 006.750 0.000 15.00 63 42.5 0 2400 72 000 Su 100 v363SO .104S4 .12317 .02t3% "%
29 01 20.11 54 07 007 000 u 000 15 00 30 01.2H 12 0Y.07 007.250 63.421 0.2355 72.0b3 57.660 v363YS. .1060u .12360 .0205Y F
0.000 15.00 63 41Y 0.22Y1 72.052 56.uu/ Y36S15. .0YV07 .1165u 31 01-20.12.24 06 007 500 0 000 15.00 .utYuu 63.417 c.220Y 72.067 56.865 936461. .0YS00 .11250 .0tY22 9 32 01 20.12.39 07 007.750 0 000 15.00 63 415 0 233Y 72.03Y 57.461 V36407. .0VSu/ .11143 33 01.20 12.54.07 000.000 0 000 15.00 63.415 0.2300
.01060 F 34 72.046 57.00Y YJ63St. .0Yu41 .11320 .01U02 01 20.13.0Y.06 00U.250 0 000 15.00 63 4?3 0.23YY 72.123 50.173 Y362YO. 9 35 08.20.13.24 07 000 500 .10320 .1177Y .01747 0 000 15.00 63.431 0.2311 72.156 57.135 Y364u1.
36 01.2H.13.3Y.06 000 750 0 000 .0Y740 .11215 .016Y6 15.00 63.435 0.2364 72.1Y6 57.764 Y363Y2. .UY620 F 3/ 01 20.13 54 06 00Y 000 0 000 15.00
.11017 .01647 63.441 0.2353 72.261 57.630 936303. .0Y515 .10u30 ~4 lu ot.2u.14.0Y.06 CQY 250 0.000 15.00 63 445 0.2366 72.30Y 57.70Y Y36330.
.01601 JV 01 20.14.24.06 00Y 500 .0YS72 .10H26 .015Su 0.000 15.00 63.447 0.2322 72.325 57.262 Y36406.
F 40 01620 14 33 06 009.750 .0Y317 .19520 .01517 0.000 15.00 63.447 0 . 2 32t'l 72.34S 57.340 936362.
41 01.20 14 54 06 010 000 0 000 15 00 63.447 0.2409
.0VJ20 .10302 01470 'T 42 01 20 15.UY.06 010 250 U.000 15,06 72.326 50.2u6 Y36275. .0Y432 .10S4S .u1441
- 63.447 0.2310 72.334 57.120 V3640Y. .0Y121 43 01.20 15.24.06 010 500 0 000 .10210 .01406 15.00 63.451 0.2324 72.382 57.20Y 936.563. .0U972 44 01 2H 15.3Y: 06 010.750 0 000 .10027 .01372 9 15.00 63.451 0.2355 72.37S 57.654 Y36320. .0uY22 .0VY2Y .01341
m . ~ . mm . _ - . _ . _ . - . . _ . _m. . . _.
() , .
f% 3 PACE. 327 1-CP-PT-75-02. PEAK P2 ESSURE (40.1 PSIC)- ' INTEGRATED LEAK R ATE TEST l..% '
()
- REAL TINCiO3 01:29 05iO9 07 6
EuMPuiED DATA P
j ses***ssess**ese** TIME ******************** s*** PRESSUWE **** *** TEMPERAiuME **~' * * *
- LE AK AGE AND Ek ROH P Ak AME T EN S * * * * #5 l MIN. AIR
' r DAIA ELAPSED DURATION INTERVAL TOTAL LEAKAGE SLT REAL (HRS)
VAPOR DRY BULB WET bulb ~ WEIGHT RATE UCL ISC "i (HRS) (MIN) . (PSIA) (PSIA) (DEC f) (LbH)
^
(DL'C f) (% / DAY) (% / DAY) (% / DAY) r 45 ~ 01 20 15 54 06 011.000 0.000 15.00 '~ 63.44Y 46 01:20 16 09 06 011 250 0.2333 72.362 57.401 .Y36354 .0u777 .0Y74u .01310 *)
0.000 15.00 63.453 0.2355 72.412 57.650 Y362v5. .0u?v4 .09723 47 Ols2ni16,24206 011.500 0.000 15.00 63.451 .01201
! r 01:20:16:39.07 011.750 0.2301 72.392 57.014 .00550 .0V473 .01253 4
40 49 01:20 16 54 07 012.000 u.000 0,000 15.00' ' 63.451 0.2359 72.302 '57.704 ' 936370 936311. .00504 .09302 .01226 ' "%
63.453 0,2346 72.415 57.540 V36301. .0Y303 i
50 01:20:17109 07 012.250 0.000 ' 15.00 15,00 ~' 63.455 0.2340
.00460 .01201
(' 51 01 20 17:24i07 012.500 0.000 15.00 _ 63.457 0.2409 72.440 72.43v ^
57.479 50.200' Y36203.
936225
.00446 .0Y255 .01176 52 01:20:17239 06 012.750 0.000 .00$40 .0Y331 .01153 . "4 15.00 63.457 0.235u 72.463 57.691 936260 .00543 .09296 53 01 20tt7:54:06 013.000 0.000 15.00 63.459 .31130 r 54 01:20 1u 09 06 013.250 0.2336 72.476 57.433 936290. .00439 .0V169 .01100 H 000 15.00 63.459 0.2330 72.506 57.362 936254. .00419 .0Y122 55 01:20 10:24 06 013.500 0.000 15.00 63.461
.01000 "i 56 0.22u7 72.402 56.044 936390. .00153 .00048 01 20 1H539 06 013.750 0.000 15.00 63.45V 0.2324 72.493 57.2Y1 Y362H7.
.08047 r 57 01:20 10 54 06 014.000 0.000 15.00 .00024 .00737 .0104u
! 50 01:20 1Y:09:07 014.250 0.000 63.463 0.2369 72,507. 57.020 .07YuS 00674 .0102Y '%
15.00 63.463 0.2320 72.500 57.332 _ YJ6256 936315.
I 59 01:2Hitvi24 06 014.500 0.000 15.00
.07032 .00512 .01011 63.463 0.2342 72.509 57.501 936292. .07719 .003H4 C 60 01 2G:19:39i06 014.750 U.000 15.00 63.463
.009y4 61 01:20 19:54 07 015.000 0.2295 72.510 56.Y42 936346. .07514 .001U5 .00977 "%
0.000 15.00 _ 63.465 0,2370 _ 57.0J1 62 01:20 20:09:07 015.250 72.550 VJ6tv5. .07562 .00212 .00961
( 63 a.n00 t$.00 63.46Y 0.232u 72.599 57.33Y V36243. .07519 .00149 01 20i20:24 06 015 500 0.000 15.00 63.469 0 233Y 72.5Y4 57.464
. 0 0 Y 4'. !
01 20 20 39 06 015 750 V36237. .07477 S 64 65 01:20 20 54 06 016.000 u.000 0.000 15.00 15.00 63.46v 63.469 0.2296 0.2351 72.5HL 56.957 V36314. .07315
.00000
.07926
.00930
.00915 g
( 66 01:20:21:09.06 016.250 72.500 57.612 VJ6242. .07260 07H54 .00101 "#
0.000 15.00 63.469 0.230u 72.5Y5 57.0Y5 Y36201.
67 01:20:21 24206 016.500 H.000 15.00 .07145 07731 .00007 % *
- 63.471 0.2340 72.612 57.474 V36233.
"I 60 01:2Hi21 39 07 016.750 0.000 15.00 63,475 0.2294 72.637
.07096 .07667 .000/3 v F 6v 01 20 21 54 06 017.000 8.000 15.00 56.922 936317. .06YJ2- .07506 .00060 "d 63.477 0.2306 72.6u2 57.071 936249.
- i 70 01 20-22 07 06 017.250 0.000 15.00
.06060; .07422 .00040 63.477 0.2.153 71 01 20 22:24 06 017.500 72.6H6 57.636 936173. .06079' .07425 .00035 0.000 15.00 63.477 0.2304 72.603 57.040 936251.
D3 I 72 01.20 22 39 07 017.750 0.000 15.00 .067v5 .07331 .00023 73 09.20 22 54 06 OtH.000 0,000 63.477 0.2360 72.666 57.713 V361Y7. .06773 .07295 .00U12 9 15.0a 63.475 0.2344 72.653 57.527 936214.
74 01:2H 23:07 07 Otu.250 u.000 15.00 63.477 .06727 07236 .00000
,f 75 0.2383 72.673 57.156 936255. .06631 07134 Ot:2u.23:24.06 010.500 0.000 15.00 63.477 0.2291 72.605 56.uu6
.00701 76 01:2H:23 39i06 010.750 0.000 15.00 Y36267. .06523 .07023 .00779 '
77 63.477 0.2305 72.600 57.064 V36241. .06444 .06936 l 01 20 23.54.07 019.000 0.000 15.00 63.479 0.2353 72.712 57.629
.00760
.C 70 0142V 00 0V>07 019 250 9J6150. .06449 .06Y2v .00750 0.000 15.00 63.401 0.2336 72.722 57.436 Y36194.
7Y 01:29:00i24 07 019.500 0.000 15.00 63,401 .06412 .060H1 .00740 '
00 01 29.00:39.06 019.750 0.2310 72.720 57.217 936224. 46342 .06003 . 0 0 7.tv
.'(
. Ut 01 29.00654 07 020.000 0.000 H.000 15.00 15.00 63.401 63.445 0.2354 0.2255 72.749 72.775 57.642 56.449 936120.
V36201.
.06370 .06H2O .007JO U2 01.29.01:09.06 020.250 u.000 15.00 63.407 06241 066Y7 .00720 U3 01 2Yi0t>24s06 020.500 0.2374 72.700 57.0u3 936126 .06256 .06700 .00711
- C 0.000 15.00 63.4H7 0.2340 72.777 '57.402 936101.
04 01 29 01,37 07 020.750 0.000 15.00 .06216 .06651 .00703 H5 63.4H7 0.2271 72.767 56.652 Y363CO. .06071 .06517
- 01 29 01 54 06 021.000 0.000 15.00 63 447 0.2302 72.744 57.022
.00694 H6 01:2Y 022 09 06.021.250 0.000 15.00 9362V6. .05Y34 .063Hu 00606
( 07 63.4u7 0. 2.11 7 72.7vt 57.203 v361Y2.
01 29.02i24607.021.500 0.000 15.00 .050cu .06334 .00670 '
00 01 29 02:39:07 021.750 63.491 0.2347 72.U25 57.566 V36146. .f5077 .06312 .00670 '
0.000 15.00 63.491 0.2450 72.U34 1m 09 01 2Y.02iS4:06 022.000 0.000 57.602 936125. 05u79 .06304 .00662 15.00 63.491 0.229u 72.utu 56.971 90 Ot 29.03 0ViO6 022.250 0.000 15.00 936231. 05794 .06210 00655 *%
91 63 491 0.2.100 72.H27 57.099 936200. .05735 01 29.0.1 24.06 022.500 0.000 15.00 6J.493 0.2340 72.05u $7.17u
.06152 0 0 t.4 u e YJ 01.29 03 3Y.06 022.750 0.000 Y3612u. .05720 .06tJ6 .00640 15.00 63.4v5 0.2362 72.u67 57.73V 93610V.
q V3 Ot 2V 03 54.07 023.000 0.000 15.00 .05731 .061J0 00633 S 94 63.4YS 0.2321 72.074 57.247 9J6160 .056Y4 .060H6 l 01 2V.04 09 06 023.250 0.000 15.00 63.495 0.2327 72.067 57.329
.00626
}r V5 01:29.04 24 06 023 500 0.000 936162. .05654 .06040 .00620 j V6 01 29.04 3Y.07 023.750 15.00 _ _ 63.4YS 0.2342 72.077 57.505 936122. .05640 .0601u .00613 m U.000 15.00 63.499 0.2349 72.?t5 57.506 V36105.
97 01:29 04 54 06 024.000 u.000 15.00 63.501 .05635 06005 .00607 r 90 0.2316 72.Y32 57.100 936153. .05595 .05YLV .00600 01 29 05 09 07 024.250 0.000 15.00 63. Sui 0.2376 72.904 57.902 936114. .05579 .05Y36 .005v4 '
r .
1
! ~% l f .
P e
. W j
(
PAGE: 52
.$ . 1-CP-PT-75-02 PEAK PRESSURE (40.1 PSIG) VERIFICATION LEAKACE TEST m .]*
H L'AL TIMEiU3 01:29613:39 05 3
COMPHIED DATA ~
u .
seasses***** IInE ****s***ss***** *** ICHPERATURE ** **** PRESCUNE $$$$ "%4 a
e40**$$$$$$$$ LEAK AGE AND CR I l[ R I A * * *
- s t e s e s * *
- s e w DAIA ELAPGED INIERVAL DN Y 14UL Es WET ftOLit IUTAL VAPOR LO (LueLAtt-0.25LA)
SLI REAL ( H'( S ) (MitO (DLC F) (DLG F ) (PSIA)
LC (LutLAMt0.25LA) .q',
(PSIA) (% / DAY) (% / DAY) (% DAY) (% / DAY) ._ f
,. t 01 29 07:23:57 0.000 0.000 73.005 57.162 63.505 2 0.2313 .0Y613 .126V2 (= 0.00000 (=
01:2Y:07:39 05 .250 15 000 73.009 57.369 63.505 0.2331 .0Y617
.176V2 3 01 29 07:54 05 .500 15.000 73.006
.126V5 (a 0.00000 (= .176v5 =
57.311 63.505 0.2326 . 0Vf,20 .42699 (=
v 4 01 29:00 09406 .750 15.000 73.012 57.455 63.505
.10305 (= .17679 3'
- . 01 29.0H 24605 1.000 0.2330 .0Y620 .12697 (= .00327 (= .t?6YV =
15.000 73.025 56.02Y 63.505 0 . 220fa .99622 6 08 29.0H:39 05 1.250 15,000 73.051 57.431
.10701 (= .01112 (= .17701
- 63.507 0.2336 .09623. .12702 (= .0v464 (=
y 7 01:29 00 54 05 1.500 15.000 73.040 57.010 .17702
- 63.505 0.23u1 .09622 .12701 (= .07674 (=
u 01 29 09.09 05 1.750 15.000 73.042 57.043 63.5u5 0.2304 .0Y623 .12701 (= .06900 (=
.17701 . 3'=
V 01 0V 09 24i06 2.000 15 000 73.066 57.165 6.5.507 0.2314 .1770s 4 10 01 29 09.39 06 2.250 15,000 7.(.0HS
.09625 .12704 (= .07922 (= .17704 * ]'
57.999 63.507 0.2304 .99624 .12703 ( =
11 01:2V 09:54505 2.500 15.000 73.072 57,000 . 4 57 0 3 ( = .17703 ,f 1
12 63.507 0.2307 .09625 .12703 (= .12v17 (= .17703 01 29 10 0Y 05 2.750 15.000 73.000 57.V16 63.507 0.2377 _?
5 w 13 01:29 10:24 05 3.000 15.000 73.100
.09625. .12704 (= .15417 (= .17704 '
4 57.424 63.507 0.2335 .09627 (=
14 01 2Y 10:39 06 3.250 15 000 73.127 57.574 63.50Y 0.2340
. _ .12706 .15525 (= .17706 M8 *1, 15 01:29610 54:05 3.500 15.000
.0Y627 .12706 (= .16245 (= .17706 M .
' 16 17 01 29 11 09:05 01 2V 11:24 05 3.750 4.000 15 000 15.000 73.140 73.115 73.100 50.205 57.073 57.599 63.509 63.509 0.2402 0.2374
.0Y627
.0Y625
.12706
.12704
(=
(=
.18921 (=
.18331 (=
.17706
.17704 M.a H
_f
=
63.509 0.2350 .09626 .12704 (= (=
tu tv 01 2Y.tt:39:06 4.250 15.000 73.130 57.745 63.50V 0.2363 .99627 .12705 (=
.16635
.16191 (=
.17704
.17705 M )'
01:29:11 54 05 4.500 15.000 73.172 57.4YS g _.?
20 01:2Y 12 09 06 4,750 63.511 0.2341 .09627 .12706 (= .15H06 (= .17706 15 000 73.170 50.252 64.511 0.2406 w ,
21 Ot 2Vil2 24 05 5.000 15.000 73.103
.09623 .12706 (= .36050 (= .17706 ..a 57.5v0 63.511 0.2350 .09630 (= h
! 22 Ot 2Yi12 39 06 5.250 15.000 73.106 57.506 63.511
.12709 .16419 (= .1/70Y 23 0.2349 .07630 .12709 (= .tLY52 (= .1770Y Oli?Y 12 54 05 5.500 15.000 73.tvt 63.511 24 01.29:13 09 05 57.0/2 0.2373 .09632 .12713 (= .15933 (= _,s 5.750 15.000 73.214 57.419 63.511 0.2335 .09633 (=
.17710 25 Ut.?Yi13 24:06 6.000 15.000 73,216 .12712 .15574 (= .17712
- 26 57.211 63.511 0.2310 .09634 ,12713 ( = .14YS4 (= \
01:29 13 3Y 05 6.250 15.000 73.216 57.656 63.511 0.2355
.17713
.09635 .12714 (= .14u21 (= .17714 ,
.}C ~
. . . . . . . . . . ~ , _ .
3C
+ . - .
-. -C 3-~
- .. =
-)-
- e
4 d
REDISTRIBtlTED Vi>Lutil DNAClluNS VOI 11 6 bC l l uteS , VOLut1C FNACilON fur IE 1 = 13653 Vol Ohi I N AC l lute I ON ll 1 = 33653 . VOLUME FNACTION F OR TE 2 = 25704 VIH llNE f H ACIiUN i UN 10 2 = 257U4 , l VOLUNE FRACIlON IOR 1E 3 = 37390 VOs util I R Af f lHN F UR IL 3 = 37390 ,' VOL11NE I NACflON FOR TE 4 = 3UYS3 vill unt I N AC l lON f ON II; 4 = juvs3 VOLUNC FRACTION FOR TE 5 = 43202 V8 ti lettf I lmf i lOl3 I ON IL 5 43202 VOLUME INACTION FOR TE 6 = 15456 VOltihi I N ACl lON 1 OM IL 6 = 154 % ,
VOLut1C fMACTION IOR TE 7 = 36456 vot uht i kM lloff I UR II: 7 = 36456 VOLuhE INACilON ION TE 8 = 45Y19 Vul litti 19 ACl lHN I ON 10 11 = 4SV19 VOL UME FW AC TION + 0N lE 9 = 1Y403 Vol tini I H Ari lDrl I ON IL Y = 19403 VOLUME I N ACT ION f OR 10 10 = 16000 Vul HN4 iRACilllN IUR IL in = l e>U G O VOLUt1E FNAcil0N FOR TE 11 = 28325 Vol Ont i U AC I IUti i DH IL 11 = 20325 VOLut1C FRACTION 1OM l E 12 = 19403
' VIH unt tRACilllN lON IL 12
- 1Y403 '
VOLut1E FNACTION IUR IE 13 = 1Y403 Vol Uni INAC11DN IOlt 10 13 = 1V403 -
bOLut'.E l'NACilON iOR TE 14 = 24105 Vol unt i t! At:110t8 I ON 88 14 = 24105 . .! VOLut1E F W AC T IUte f uM TE 15 = 19402 VIH ilN! T Whf I l ON l OR IE 15 a tV402 VOLut1E I NACTION # 0R IE 16 = 15603 VIH Uttt iRACllON TOR IL 66 = 1%ll3 VOLUME & WACTION F OR TE.17 = 42005 Vol Ont iRACIION iUN IL 17 + 42005 *
. VOLUME FNACTIUf4 iUR lE 10 = 40103 y vol Hite IN At: Illite D ON li' its = 40103 VOLunE fitACTION FOR TE 19 = H0500 VOl utir I R Ariluta l ON IL 1Y = 041$00 VOLut1E F N ACT ION F OR fE 20 = 55.193 VsH ttnf IMACilON 04Hf IL Jh %3Y3 VOLUME fkACIIOteION 1E 21 = 50052 g Voi tini IRAriliitt ION li 21 = 51:052 VOLUME INACTION IUR TE 22 = 40103 Vul ilML IRAClioteIOR IL 2a = 4Ht03 VOLut1C FWACilON 6 0R TE 23 = 110011 VOI Ottt I M AC ! l Oli i Ol* IL 23 = 110011 VOLUME FRAC 110N FOR 1E 24 = 19403 T .
1Y403 g Vul sInt iPAtlION IllW 11 24 u Up! Unt lin.ClIDH I04 IL ;" = SY403 VOLut1E FRACilON FDM IE 25 VOLut1E FNACilON fOR TE 26 =
= tv403 16000 h
t3 Vul tlnt IPACllON t ilN 11 26 = l t.0 0 0 VOLut1E FRACIION DUR IE 27 = ' 1Y403 H
,, YUt Unl i k..I'l litst i UN IL 27 = ,1 Y 4 0.5 VOLuf1E F N AC f lON f 0R IE 20 = 207249 Vol Uni i PACI tilN I ON [E 281 = 20724Y VOLUME FRACIION FUN IE 29 = 211Y05
- Vot ont IPArilot4 IttN li = 211YG5 n 1* Y VOLut1C FRACIl0N FOR TE 30 = 211YO5 21190$
VOI tiht ( Fat:llott I H4 IL 30 =
g VOLut1E F NACilON F OR TE 31 = 206606 f
' VO! Ont F R AC i l uti S OR IC 31 4 206606 VOLUML f NACTION FOR TE 32 = 170076 VHe utti. l eACIIOta I UR IC 32 = 17U076 VOLUNE FRACilON IOR 1E 33 = 17H076
% volHMC INACllON IGN Il 33 s. 17H076 VOLut1E INACiluN fou IE 34 uu! Hnt I P AC l l HN I ON IL 34 = 170076
=
' 170076 VOLift1E FNAC TION FOR TE 35 = 170076 4
VOl linr I RACllON S UN It 35 = 1',11076
- VOLUME INACTION FOR TE 36 = 91891 s Vill Oril IRACllON ItlH IL 36 = Y1U91 ..
VOLUME INACllON f0W lE 37 a ' 7.5465 Vol tine I N AClllHe I ON lE 37 = V.14 %
vol UML f M ACl itita f uN I E 311 = 73465 VOLUME INACllON FOR 1E 3u = 73465 VOLUt1C fRACilON FON IE 39 = 1416Y
, Vol linF iNAUlluta iUH IL 3Y = 1416Y VIH ilnl I N AC i l t iti I HR In 40 4 1416Y VOLUt1E INAC110N fOR lE 40 _= 1416Y VOIOnt I N Ar l l pli I ON ll 41 = V10Y1 i VOLUNE INACilON FOR 1E 41 ~= YsH91 VOLUt1C I N ACT !UN f uW IE 42 = 73465 g Vl41 tint I C AC l l ure f uN IL 42 = ' 734 t,5 VOLUME FNACilON SUN DE 1 = 13653 Vill iH11 i pal:llute I ON I/L 1 = 13653 , VOLUt1E iRACTION FUN DE 2 = 631U2 Vill llhi INACilOtalON DC 2 = 63102 .,
VOLUrtE THAC110N fun DE 3 = O2155 g VOI Ont I R ACi tuti S UN let 3 = U2155 **
VOLUhE tHACTION SUN DE 4 =
l Vol Otti: IRACilllN FUN DL 4 = 201325 20325 VOLut1C I NACTION ION DC 5 = 82375 Voi t ti l' I N ACl lOli t uR DE 5 = U2.575 - VOLut1E i NACilute i UN DE 6 Vtli 4thC i RAC I ION i UN OL 6 = 0 % 75 * # *
= 06575 j
VOI IINL f H ArilON l ON DL 7 = V1701 VULUME FNACilON fOR DE 7 = v170s t _ VOLut1E INACilON F UM DE O = 647070 VulHitr lHACllON ION Dl: 0 = 31 % 61 ._ VOLUME FRACTION IUR DE Y = 15456 y VoI Hnl i t' ACl lleti l uk DE Y = 15456 _
VOLUt1C FRACilON l'OR DE 10 = 331507 VOi Util 0FACllON ION OL 10 = 1.657S43t'*6 VOLUME FNACTION FON DE 11 = 643795 Vol latir i H AC 110:4 i ON DS: 1i = 312206 , , VOLut1E FHACIIUN TOR DE 12 = 406304 y Voti1ME IRACilON IUR Dt' 12 = 747YS , ,_.
l VOLUNE F R AC T ION F OR DE 13 = 427715 VD Util INACllON FOR Dl' 1.5 =. Y6006 , , ,
e N1 = 42, NPV= 13 NP= 1 NI= 42 Hl* V 2 13 tJP = 1 __ _ , . , _ , ,
s, _ ,
- - . . . . - - . 2 . - . . _. . . . _ .,
^-
i APPENEIX D PENALTY LEAKAGE LIST Pentration Service Type C Leakage (SCCM)
MV-12 Chilled Water Supply 80 to Containment Coolers MV-13 Chilled Water Return 500 from Containment Coolers
! MIII-30 ILRT Pressurization 20 Pipe Penetration MV-7 ILRT Pressure Sensing 10 Penetration I
E-49 Electrical
- i k
E-62 Electrical 2 E-68 Electrical *
- To be determined after further evaluation l
l l
I i
I l
P r
i r
7 - y . . . - _ _ - - - _ _ - , . _ , , , . _ . . - . . ..-.,m ,,_,_,.._.m ,_.
I e
l DOCUVIENT -
=
~
PAGE~ .
PU_ LED ANO.mse=o NO. OF PAGES
\
l REASON D PASE lLLEGfBl.
OTHER
! /
D BETTER COP ( REQUESTED ON _
b PApE 100 LARGE TO FILM.
l HARD. COP ( FILED A1: PDR h OTHER -
O b FILMED ON APERTURE CARD NO DOS \O s
/
1 l
~' " ~~ ~ ~~ ~ ' ' ' "~
- .c - .
o -
ILRT AIR DRYER Figure 2 j '
O i, el [ a.......i., 3 m 1
( /
- c. .i. .ei. . /
I c . .. . .
+'i+' c. A w .e .,
-w.... { O.il.a 1 hP) 4.i.e.,
g i
.f II Y I f . .
~
f \
( )
s.p.. . i .,
k h ,, qj ,,,.
I _g -j _ g; >.jg.__ l.o,,,,
i
- ai, i.e. u..ir ia a.:. on .i.
-d<1-d, 8t,, Lg. w ,,,.
ii/ ... .. . . ... ... ..... -
ci, ovn.i .
per.,,M -M - ,
l [* *- * * $4 =7
- A = = i a, t+
- a..........c........
[sS -
e
+ _ (Tfvaiv a9=9. !!as . ~
.. Q ....-.....-_----...---- h g
. : rui.,
ui.: 1., e a so u.. u.. !
E Hmi.. t .,
l -
H..t E s c her... j h), E- &4 b---- ~~'
-~~Pej~~-- I l --O.,-
rue l; ; ; ;
c . p e . . . .. * ,,,,,,,,,,,,,,,,,,,,,,,,.
j _
l l !....___g... gkg, ,. ., ,. .,.,.,
-- j 1..... ,---
- . T h.,m.8 E spa..le. V.tv. ] l
(
- t....__-_..........................-.--..........-..-t>q...-.--t.h...i
'o H.I O. Opp...
g s.p.e.e., H k j a. . o,
, ~ - {%) ~ (~}-l $~- , . . i.
(
i.c........
Q[ +x (y . . . ..
- {+
k l
I
9 Figure 3 INTEGRATED LEAK RATE TEST DATA ACQUISITION SYSTEM T.I. WEED GENERAL KTRZ MODEL 145 INSTRUMENT EASTERN MODEL 505-9 PRESSURE MDL. SP 101-1B MODEL 653/611A MASS FLOW GAUGES RTD'S DEW CELLS METERS HEWLETT PACKARD MODEL 3497A DATA ACQUISITION CONTROL UNIT HEWLETT PACKARD MODEL 3456A DIGITAL VOLTMETER HEWLETT PACKARD MODEL 9826 MICROCOMPUTER LINE H.P. MODEL DISK PRI!TEER 82901M STORACE (2631-G) DISK DRIVE (9826)
-3 _ - _ . _ - _. _ . _ , _ _ _ _ _ _ _ , . _ . _ __ _
l ; jl 0
( ~
9
~
O
~
2 6 o E
- =2Z[E=E 8 7
1 T ;
d
}
Ge { .
g{ a n
S D T 0"
~
G
.j 8
0 R
k.
o 8 L O 0
- E S o o -
t a
N Jh .$o
. 4 n
- a g j E l
P E1 T ST D{
a _ l I oT.o O U_E,T y T N U N
s@}l;L1 O l I
3 O-N I
H (U 0 P O.
4 g I I T
l l
H l
' W A.
E T.
l
'o D S._
? 1
- ' c= j
&I R C
T 4 E C RE e r UL E u -
~
T g
, AMi F .
h RA
' ~
u E TE
.,k t,
=
PS M K EA
- ;- TE P
'j dI F E 6'
o - OHC y 7
- 79
- -L .NN A
_.E
. ~
~
C
]o t a
- na l
O M_
I TOC P
A E C O
k.3
> L f
0 Mf
[ -
, o o l u
I'I --'
- q j ,
4
^
l HE-5 P 'N 's
\ '
E TE-8
)
(
==l: ;eceD R* , w c -
hh
~~
O a n ,,
===. net,-- > o -
70 o o ee d o o 7b _
OO *
- Itil I ll gl l o o J m I O gu]
PR o '
D id l [}lNU so P ===" J o.
u E
=C a a o "
I- = 0 i
}^ ~
ll ~~~ -^5aat a sar-s a s 2-s- ~
l-LOCATION OF TEMPERATURE & DEW POINT SENSORS I -
CQMANCHE PEAK STEAM ELECTRIC STATION UNIT ,1
. Figure 5
~ .
Q d! $
o' "
- s a y
. TE-17
~
TCCh_ ,
}
~
! I I 00
.l Il_. __IM, ,
) == l lj h- -
TE-190 oJC FA :
44 f"t's""r 210'""r 4 ,
TE.15 i O
O
~
=ua is o O h O o -
f { _-
r i =
[i5J 7* C: l C:U:a _;:-)
a g _
.s k./
3 ~3
~
"r 6 _
2 catW i Wyar Al E
_ L .
O L ll i, e -
U
~ "
- LI IJ M _ . . =
- < >J gogh khg Phn at EL 857-6* A 86&-r LOCATION OF.. TEMPERATURE & DEW POINT SENSORS COMANCHE PEAK STEAM ELECTRIC STATION - UNIT 1 Figure 6
l1ll l)
\,~_u l
N l
l
- e q S
%o
- 4 6'-
9 R
8 O
9.
~
9" S
N1 9
- =
0 9
L E T E SI mg t a
s T U-
.N QN n
la P N N I
l 4 OIO (e I l
a PT A
T
~ [
WS E C .
i DI R
& T C 7 y E LE re RE u g U M i F
T A AE RTS E
O PK MAE EP T E
. = F HC h2 1 E_
2
/ -
s ONA NM
- . oT 8
~.
"w e.
OO T C I
A E
"r p' 6 t t
u O p{E 3 2
T s
~%,
f
" e.
R' L
\l l
LOCATION OF TEMPERATURE & DEW POINT SENSORS COMANCHE PEAK STEAM ELECTRIC STATION Figure 8 i ,
TI l
TE'b42 HE-11 ,
TE-37 TE-38 ! '
TE-36 i C
D s ~y 2 7 (' T % %%
EL 1000 TE-34 TE-35 TE-32.i TE-33f
~
TE-41 C HE w -
v EL 950 J\
a /1
~
/ TE-30 TE-31 TE-28 -%
TE-29 g E
T
~ __
b EL 905 J
~
F _
[ q #
.A A b
g i nnM f .
4 E u
!is x .
d
]
j Q._sL b ]
m .
a .
=
i h j!
i c=-
i . _ t ;
3 TJ c r ,
l iac i / 1 e
a l _2.
Cross Section D-0 '
Safeguarc But!ctng s
<,ontaintnent Butiding w
I N
O I S T M R A OI RE _
C I R A RY FW I
F D .
> # x 1 T
s '
I u N
- i a '
U E N N N O I
L T I
A T T "m 4 S S E
I N R LE \ f FM - - N T 9 r
- O I
T OC I
e R A T E WE Z L r
u OT I R
A E g LE FM U C i S I M F h .
_ S
_ E F
I A R R E
- P E T
'8 V S WKA d
b OE L P
' F 4 =
E
~ ' H C
N A
M O
C
_\ f_
N O
TI 0 A3 OR l T T i l E M N
E P
i
FIGURE 10 SE I
i .
I I'
- t I ;
i
" , 992b','_?_7
. a I
l i
e - l IdCE2'81 Ui
- c. I t
in i U ,
d 2GB29'vl N i di I f r, b E l
3 s
.I q nus ei 3 4 '
i
- c. .
i !
W t
O M r.n *
' j ,
d g
/ -j 992614'9
, t G.
A '
w l U l'" I O ,
w -d,EbI298'2 g ____
iI a
l l I I. ! ! ! !
!.g_
rp rri r3 F- ry t; t ';- en rm fp r7 GJ ,--i OJ CU T L* t ( 71 e H tle G Ils Y Oj H B54
,-1 y e - -
= a e a w
l 3 Ca
= lg a.
w ,2a i -, lsi, ,,
- ssD
E l
, FIGURE 11
_ p.--
- w 3 C- )
i s
t t i
- o I
o <
1
- 8
- 1 L w,' O.6
-
- i ew7 i >
l l 3 p I !
.I .
3
-~ 0.. =.,. -C' L . i i t-ct C l cn f ;
e J t
9 I
. j
.e -
e.g -
,.nL.,,..
- P.
m -- 's &
e-f
/
a 4.! !
M e .m Ci [ i 'N
[ ,
,1 -
w,' c .+c1 n.;:8 s5 n. 7 vi ae :-
t g ,a , a n- >
b <
.' be-a.C .
,i ; y U1 y () , ,
-' %TL w,e. c:.m i:;_
~
a- . !"D _.
- I sr=*= 1 U "- .
. 1-Q., .. 1 o
___~.r*
===, G ej m
- *>. .., e e.,.
-K-
- J -
","L .
e i
L _
33 _ _ _ _ f s,
l l i ! I Ie I !
{ > ,
P G C f.O M G "-' M 'U C C C -
i .- L9 7 Ci -' O C T'- ' ~ '
- $ s' i,i"i ,T C: . t." C r- ;
e ,'*.
C ~
T C I" - r w [j*, Is f.f*; M IE8 1,"* !
- e. J T (:j -
L:~e O tI.i "r.
i f5 Q C' *
~ - 1, tj
'b t t '
7., i ;a %4M 7.
-. .*g .
pi ow
.';.i'#. a ~, 9.- I ,-
e L