ML17291A457
| ML17291A457 | |
| Person / Time | |
|---|---|
| Site: | Columbia  |
| Issue date: | 10/21/1994 |
| From: | Parrish J WASHINGTON PUBLIC POWER SUPPLY SYSTEM |
| To: | NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM) |
| References | |
| GO2-94-244, NUDOCS 9410280125 | |
| Download: ML17291A457 (156) | |
Text
WASHINGTON PUBLIC POWER SUPPLY SYSTEM WNP-2 PRIMARY REACTOR CONTAINMENT 1994 INTEGRATED LEAKAGE RATE TEST FINAL REPORT 9410280125
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE OF CONTENTS Title Page 1.0 Introduction 2.0 Summary 2.1 Type A Test 2.2 Type B & C Test 3.0 Methodology 3.1 Leakage Rate Calculation 3.2 Test Measurements 4.0 Procedures 8 4.1 Plant Status 8 4.2 Prerequisite Activities 8 4.3 Pressurization 8 4.4 Stabilization 9 4.5 TypeATest 10 4.6 Verification Test 10 4.7 Depressurization & Restoration 11 5.0 Results 11 5.1 Corrections 11 5.2 As-Left Leakage Rate 12 5.3 As-Found Leakage Rate 13 5.4 Verification Test 13 5.5 Mass Point Results 14 6.0 References 15 Tables and Figures 16 Appendix I - Containment Description 34 Appendix II - Computer Program Discussion 36 Appendix III - Type A Test Data 38 Appendix IV - Local Leakage Rate (Type B & C) 140 Test Results Summary Report
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated, Leakage Rate Test Final Report
1.0 INTRODUCTION
The containment integrated leakage rate test (ILRT) is performed as required by 10 CFR 50/Appendix J (Reference 1) to demonstrate that leakage across the containment boundary at design basis accident pressure does not exceed the Technical Specification limit. Test methods and procedures are specified in ANSI N45.4-1972 (Reference 2), ANSI/ANS 56.8-1987 (Reference 3) and BN-TOP-1 (Reference 4). Both of the ANSI documents are referenced in Appendix J. BN-TOP-1 defines an alternative methodology which is acceptable to the Nuclear Regulatory Commission. The conduct of the ILRT follows a plant surveillance procedure (Reference 5) which contains detailed instructions for all test phases. The procedure incorporates the requirements and acceptance criteria identified in the plant Final Safety Analysis Report (FSAR) and Technical Specifications.
Leakage rate is determined using the calculational methods identified by reference in the FSAR. For a test duration of at least 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, but less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, the FSAR specifies the methods cited in ANSI N45.4. Actual test duration was 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and, therefore, the ANSI N45.4 total time method was used to determine leakage rate.
The ILRT is described in detail in the following sections of this report. Section 2, Summary, gives a synopsis of test activities and results. Section 3, IVlethodology, discusses measurements and calculations. Section 4, Procedures, describes how the test was conducted. Section 5, Results, presents the parameters calculated during the ILRT and the associated acceptance criteria. Section 6 lists references and Section 7 includes all tables and figures cited in the text. The Appendix contains a description of the containment, a discussion of the computer program used to calculate leakage rate, and a tabulation of all Type B and C local leakage rate testing results obtained since the previous ILRT. All data recorded during the ILRT is archived with the Official Test Copy of Ref. 5.
2.0
SUMMARY
2.1 Type A Test The ILRT was conducted on July 18-20, 1994. Pressurization commenced at 5:05 AM on July 18, following the completion of all prerequisite activities, but was interrupted a short time later by a half scram signal. It was restarted at 9:54 AM and the containment was isolated at approximately 8:30 PM when containment pressure had reached 38.7 psig.
The temperature stabilization period started at 8:45 PM.
Numerical temperature stabilization criteria were met by 12:45 AM on July 19. However, the formal start of the Type A test was delayed since calculated leakage during the latter part of the stabilization period was in excess of La. Significant leakage was found at a loose instrument tube fitting, which was tightened following an evaluation. The Type A test was started at 4:00 AM on July 19, and was successfully concluded in 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> at 4:00 PM.
A containment air sample was taken at the conclusion of the Type A test to ensure that the air released during the verification test and final depressurization would not contain
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report radioactive particulates and gasses in excess of allowable limits. The verification test imposed flow was initiated at 5:10 PM on July 19, following the completion of air sample analysis. The verification test was started at 5:15 PM and successfully concluded in 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> at 9:15 PM.
Containment depressurization commenced at about 12:15 AM on July 20 and was complete by about 8:30 PM on the same day.
Test results are listed below:
95 % UCL on total time leakage rate plus corrections 0.302 %/day Acceptance limit (0.75 La) 0.375 %/day Verification test upper acceptance limit 0.862 %/day Verification test total time calculated leakage rate 0.666 %/day Verification test lower acceptance limit 0.612 %/day The above listed as-left leakage rate of 0.302 %/day includes corrections of 0.010 %/day for suppression pool rise, 0.002 %/day for reactor vessel level increase, 0.020 %/day for sump level increase, and 0.011 %/day for minimum pathway leakage through penetrations not vented and drained for the test.
The computed as-found leakage rate is 0.330%/day. This is the sum of the 0.302%/day as-leff leakage rate and the 0.028 %/day penetration minimum pathway leakage rate improvements made during the 1994 refueling outage.
2.2 Type B & C Tests Type B & C local leak rate testing was performed during each of the three annual spring outages since the last ILRT conducted in 1991. The last test period occurred just prior to the 1994 ILRT. The leakage rates listed below represent a summation of as-left maximum pathway penetration leakages applying single failure criteria to active containment boundary valves. The allowable leakage rate for the sum of each Type B & C test sequence is 56,600 sccm (0.5 La) as modified by Reference 7. The summation of the as-found maximum pathway leakage rates exceeded 0.6 La. An analysis and interpretation of the as-found test results is included in Appendix IV of this report. Additionally, Appendix IV includes a supplement outlining the unique aspects of the WNP-2 Type B &
C testing program as delineated by Reference 7.
Spring 1992 Outage The measured leak rate for the sum of the as-left Type B & C tests was 17,414 sccm (0.15 La).
Spring 1993 Outage The measured leak rate for the sum of the as-left Type B & C tests was 11,184 sccm (0.10 La).
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report Spring 1994 Outage The measured leak rate for the sum of the as-left Type B & C tests was 14,336 sccm (0.13 La).
3.0 METHODOLOGY 3.1 Leakage Rate Calculation Integrated leakage rate is determined by pressurizing the containment to design basis accident pressure and calculating the average rate of loss of dry air from the structure over a specified time period. The quantity of dry air in the containment is computed using the ideal gas law and measurements of drybulb temperature, dewpoint temperature, and absolute pressure.
A single average drybulb temperature, T, is calculated from the 18 measured temperatures and their associated weighting factors (discussed below) using the procedure described in Ref. 3. Individual dewpoint temperatures (6) are converted to vapor pressures using the ASME Steam Tables saturation line algorithm. A single average vapor pressure is calculated as the sum of the products of the individual vapor pressures and their weighting factors. Dry air partial pressure, P, is measured total pressure less average vapor pressure.
The quantity of air in the containment is:
M = PV/RT where M is quantity in mass units, V is containment free air volume, R is the gas constant for air and P and T are defined above. Containment free air volume used for ILRT calculations is 343,040 cubic feet. R, in English units, is 53.35 pounds force-feet/pounds mass-degrees Rankine. The partial pressure of dry air is used in the computation so that pressure changes resulting from evaporation of liquid water and condensation of vapor do not affect calculated leakage rate.
Leakage rate is calculated using the total time method described in Ref. 2. The following computations are performed to determine the total time leakage rate:
- The Measured Leakage Rate is computed for each data set except the first.
This leakage rate is the difference between initial air mass and current air mass divided by the time elapsed between the initial and current data sets.
- The slope and intercept of a line fitted to the Measured Leakage Rate/time data sets are computed using the method of least squares.
- Calculated Leakage Rate is computed as the end of test ordinate of the fitted line.
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report
- The 95% Upper Confidence Limit (UCL) on the Calculated Leakage Rate is computed using standard regression analysis techniques as described in Ref. 3 and in the statistics texts referenced therein.
The UCL on the leakage rate, plus adjustments for leakage through penetrations not isolated by normal means and changes in containment water inventory, must not exceed 75 % of La. La (0.5 %/day) is the maximum allowable leakage rate defined in the Technical Specifications. When leakage rate is determined using the above described total time calculations, test duration must be at least 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> as specified in the FSAR.
Following the determination of leakage rate, the calculational method is verified by imposing an additional leak on the containment and determining the new rate. The new rate must equal the previously calculated rate plus the imposed rate plus or minus a tolerance of La/4. The imposed leak, vented from the containment through a flow meter, is approximately equal to La. This supplemental or verification test also provides a rough check on pressure measurement since a significant error in the measurement of pressure change will result in a calculated leakage rate which is outside the acceptance band.
3.2 Test Measurements Leakage rate calculations are based on data taken from drybulb and dewpoint temperature sensors located inside the containment, as well as absolute pressure transducers ported to the containment through piping penetrations. Eighteen drybulb temperature sensors and 6 dewpoint temperature sensors were installed. Of these, 4 drybulb and 2 dewpoint sensors were located in the wetwell. One drywell drybulb sensor was placed in the head space. Temperature sensors were wired to the data acquisition system (see below) through containment electrical penetrations.
As-installed sensor locations and weighting factors (volume fractions) are listed in Table
- 1. Sensor locations and weighting factors were established by considering the spatial pattern of temperature changes determined during past tests. Since temperature changes tend to vary principally with elevation, drywell sensors were set at approximately equally spaced elevations. Those in the wetwell were set at about the midheight of the air space above the suppression pool. Temperatures and dewpoints at this level are considered to be representative of the relatively uniform conditions in the wetwell.
While there is no evidence that containment atmospheric conditions vary significantly with plan location at a fixed elevation, the possibility of an unusual in-plane temperature distribution was provided for by horizontally offsetting vertically adjacent sensors.
Containment geometry is described, for reference, in Appendix I.
Drybulb temperatures were measured using 100 Ohm platinum resistance temperature detectors (RTD's). Dewpoint temperatures were measured by chilled mirror dew cells.
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report These devices use a thermoelectric junction to cool a small mirror. An LED focuses a beam on the mirror, which reflects the beam to a photodetector. The intensity of the reflected light changes when the mirror cools to the dewpoint and collects condensation. A small RTD senses mirror temperature, which is controlled at the dewpoint by the photodetector circuit. The dewpoint temperature sensors are completely self-contained units requiring 24 VDC input power. The RTD sensing mirror temperature provides the output (a resistance). The RTD's and dew cells were connected to the data acquisition system through containment electrical penetrations.
Three 24 VDC power supplies provided operating power to the dew cells through containment electrical penetrations.
Absolute pressure was measured by 2 vibrating cylinder manometers, one sensing drywell pressure and the other, wetwell pressure (essentially the same pressure since both chambers were vented together through a blocked open vacuum breaker valve).
This type of manometer uses an electronic circuit to determine a modal frequency of a cylinder subjected to vacuum on one side and test pressure on the opposite side. The detected frequency varies approximately linearly with pressure. An internal microprocessor is programmed during calibration to convert frequency to true absolute pressure in engineering units. The manometer has a resolution of 0.0001 psi and a stability of 0.001 psi. The stability figure is based on recorded deviations between the indications of 2 manometers over the test duration.
A digital data acquisition system was used to collect drybulb temperature, dewpoint temperature and pressure data, and transferred that data to the ILRT computer over an IEEE-488 (parallel bit transmission) bus. The data system included the conditioning circuitry for the RTD's used to sense drybulb and dewpoint temperatures. RTD resistance was converted to temperature with a 0.006 deg C resolution.
The manometers were supplied with 24 bit (6-digit resolution) BCD output lines. Since data acquisition system resolution is 5 digits, the manometer output was converted into two decimal numbers. The first represented the first 5 digits of the manometer indication. The second represented the 6th digit. These two numbers were combined by the computer program to recreate the 6-digit manometer indication.
Timing was controlled by the data acquisition system, which was set to scan all inputs at 15-minute intervals and send the acquired data to the ILRT computer. The computer used was a small IBM compatible running a compiled BASIC program. The program is described in Appendix II. I Other temporary instrumentation included a thermal mass flowmeter (connected to a containment piping penetration) used to measure imposed leakage during the verification test and two indicators used to measure drywell and wetwell gage pressures. All temporary instrumentation was calibrated to the requirements of Reference 5 prior to the ILRT and performed well during the test.
Permanent plant instrumentation was used to measure reactor vessel and suppression pool water levels (sump level was measured manually before and after the test). The
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report water level data were used to correct calculated leakage rate for changes in containment water inventory.
4.0 PROCEDURES 4.1 Plant Status Plant systems were aligned for the ILRT, as specified in Ref. 5, which incorporates both FSAR (Final Safety Analysis Report) and operational requirements. Isolation valves were set in post-accident positions, except where the opposite positions were required to maintain the reactor in a safe shutdown condition and to satisfy operational readiness needs. Piping was vented and drained to expose valve seats to containment and outside atmospheres per FSAR requirements.
Type B and C local leakage rate tests were completed prior to the start of the ILRT. All compressed gas sources were either vented or removed from the containment.
Containment fans and lighting were shut off prior to the start of pressurization. One loop of shutdown cooling was in operation throughout the test to remove core decay heat and the second was maintained in standby. The Official Test Copy of Ref. 5 documents plant status, including all exceptions to specified conditions.
4.2 Prerequisite Activities System lineups, containment cleanup, and ILRT instrument installation were performed over a period of several days prior to the start of pressurization.
After instruments were connected in the containment, these were checked to verify correct response. The drybulb temperature sensors were placed, one at a time, in an ice bath and a data system response of 32 deg F (+/- a tolerance of 1 deg F) was veriTied. Dewpoint temperature sensor performance was evaluated using an independent instrument. The data system indication and that of the independent instrument were verified to agree to within 5 deg F.
The containment examination specified in Ref. 1 was completed prior to the start of pressurization. No adverse indications were found.
C The completion'of all prerequisite activities is documented in the Official Test Copy of Ref. 5.
4.3 Pressurization The containment was pressurized using diesel driven, oil free compressors having an aggregate capacity of 1,800 SCFM. The compressors discharged through a water cooled aftercooler and a desiccant air dryer and thence, through a temporary
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report connection, into the nitrogen inerting system piping. Cooling water to the aftercooler was provided by a temporary pump submerged in one of the spray ponds. The water was returned to the pond.
Pressurization commenced at 5:05 AM on July 18, but was interrupted a short time later by a half scram signal. The signal was initiated by output from a containment pressure monitor. Responses to monitor output should have been defeated for the ILRT. This was done following an evaluation, and pressurization was resumed at 9:54 AM. The containment was isolated at about 8:30 PM when pressure had reached 38.7 psig.
The increase in pressure with time is illustrated in Figure 1. This plot commences at 9:00 AM on July 18, 45 minutes before the pressurization restart. At this time, pressure was about 16.1 psia (or 1.7 psig) which is the level attained prior to the interruption.
The pressure increase follows two linear segments. During the initial segment, from 9:45 AM to 6:30 PM, pressurizing air was provided by two compressors. One compressor was stopped at 6:30 PM to ensure a more controlled approach to final test pressure. Pressurization system piping was vented after the containment was isolated.
During pressurization, piping vents and outside containment pressure boundaries were examined for evidence of isolation valve or other boundary leakage. No significant leakage was detected during this examination.
4.4 Stabilization The stabilization period mandated by Ref. 5 commenced at 8:45 PM on July 18, and all numerical stabilization criteria specified therein were met within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> (minimum stabilization period duration). However, a preliminary calculation showed the leakage rate to be greater than La during the final part of the stabilization period (the rate calculated for the initial phase of stabilization is usually not meaningful). The stabilization period was continued until the source of the excessive leakage had been located and evaluated.
The source of the leakage was located at an instrument tubing connection. The tubing had been disconnected to support an outage task and was not tightened after being reconnected (Reference 6). After an evaluation, the tubing connection was tightened.
The stabilization period was continued until it was verified that tightening the fitting had reduced leakage rate to less than 0.375 %/day (0.75 La). The stabilization period ended at 3:45 AM and the Type A test started at 4:00 AM on July 19. Stabilization period duration was 7 hours8.101852e-5 days <br />0.00194 hours <br />1.157407e-5 weeks <br />2.6635e-6 months <br />. Temperature variation over the stabilization period is illustrated in Figure 2. Average temperature varied smoothly. The rate of temperature change decreased with time, as is typical.
Table 2 is a stabilization report. This table lists the mean temperatures, temperature changes, and related numbers required to demonstrate stability, as defined by the numerical criteria specified in References 3 and 4 and restated in Ref. 5. These criteria are listed below:
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report
- The rate of change of temperature averaged over the last four hours less the rate of change of temperature averaged over the last hour does not exceed 0.5 deg F/hr (an ANSI/ANS 56.8-1987 criterion).
- The rate of change of temperature averaged over the last two hours does not exceed 1 deg F/hr (a BN-TOP-1 criterion).
- The rate of change of temperature change averaged over the last two hours does not exceed 0.5 deg F/hr (a BN-TOP-1 criterion).
4.5 Type A Test The Type A test commenced at 4:00 AM on July 19. All of the acceptance criteria for an 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> (minimum required duration) test were met by 12:00 noon. However, the UCL on total time leakage rate plus known corrections (for reactor vessel level increase, suppression pool rise and minimum pathway leakage through penetrations not vented/drained) was relatively close to the acceptance limit of 0.375 %/day (0.75 La).
To allow a reasonable margin for sump level correction, it was decided to extend the Type A test to a 12-hour duration. The UCL on leakage rate drops significantly at 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. This is the result of using the Ref. 2 calculational method when test duration is at least 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> (and less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />). For a test duration of less than 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, the more conservative calculational method derived in Ref. 4 must be used to determine the UCL. The Type A test ended at 4:00 PM on July 19.
Containment atmospheric condition data were recorded at 15-minute intervals during the Type A test, as well as during stabilization and the verification test. Suppression pool and reactor vessel levels were recorded hourly to provide the data needed to establish containment water inventory. An increasing inventory is equivalent to a negative leakage and requires a correction to the UCL on leakage rate.
Suppression pool level increased slowly throughout the Type A test. The level change over the Type A test period is equivalent to a correction of 0.010 %/day. Reactor vessel level fluctuated within a narrow range during the test period. Reported level at the end of the Type test was 0.1 inch above that at the beginning. This is equivalent to a correction of 0.002 %/day.
4.6 Verification Test The leakage rate calculated for the Type A test (Lam) is verified by venting air from the containment at a measured rate, Lo, approximately equal to La. The calculated composite leakage rate must equal the sum of Lam and Lo plus or minus a tolerance of 0.25 La. The induced leak, Lo, is measured by venting the air through a flowmeter. A thermal mass flow meter was used.
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Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report An induced leak of 4.13 SCFM, equivalent to 0.495 %/day (0.99 La), was initiated at 5:10 PM on July 19. The time between the end of the Type A test and the initiation of the induced leak was used to collect and analyze a containment air sample for radioactive particulates and gasses (a step needed to ensure that the verification flow and final depressurization discharges meet limits on airborne contamination).
The verification test was started at 5:15 PM on July 19, and concluded at 9:15 PM. The duration of the verification test was 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />, the minimum required by Ref. 5.
4.7 Depressurization and Restoration Depressurization commenced at about 12:15 AM on July 20, and was complete at about 8:30 PM on the same day. Figure 3 illustrates the decrease in pressure with time. The containment was depressurized by venting to the Standby Gas Treatment System.
The containment and the various systems and components modified for ILRT performance were restored to normal operational configurations following the completion of depressurization.
5.0 RESULTS 5.1 Corrections The final as-left leakage rate is the sum of the calculated UCL, the correction for containment water inventory change and the correction for penetrations not isolated by the normal post-accident means (not vented/drained per post-accident scenarios). The computed as-found leakage rate'is the as-left rate plus corrections for penetration minimum pathway leakage improvements made during the current outage and prior to the test. These corrections are tabulated below:
Suppression pool level correction:
Level increase over the Type A test period = 0.04 inches Factor = 432 cubic feet/inch Water inventory increase = 0.04 x 432 = 17.3 cubic feet Containment free air volume = 343,040 cubic feet Correction = 17.3/343,040 x 24 hr/12 hr x 100 % = 0.010 %/day Reactor vessel level correction:
Level increase over the Type A test period = 0.10 inches Factor = 26.7 cubic feet/inch Water inventory increase = 0.10 x 26.7 = 2.7 cubic feet Correction = 2.7/343,040 x 24 hr/12 hr x 100% = 0.002 %/day 11
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report Sump correction:
Level increase between measurements = 2.5 inches Factor = 26.8 cubic feet/inch Water inventory increase = 2.5 x 26.8 = 67.0 cubic feet Time for increase > 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />. Use 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> for conservatism.
Correction = 67.0/343,040 x 24 hr/24 hr x 100% = 0.020 %/day Correction for penetrations not vented/drained:
Sum of minimum pathway leakages (per Ref. 5) = 0.011 %/day Total as-left correction (sum of the above) = 0.043 %/day Correction for penetration minimum pathway leakage improvements:
Sum of minimum pathway improvements (see p. 147) = 0.028 %/day As-found correction = as-left correction plus minimum pathway improvements = 0.043 %/day + 0.028 %/day = 0.071 %/day 5.2 As-Left Leakage Rate The results of the Type A test are listed below:
Calculated total time leakage rate 0.242 %/day 95 % UCL on total time leakage rate 0.259 %/day Corrections per 5.1 0.043 %/day Final as-left leakage rate (UCL) 0.302 %/day Acceptance limit on the above as-left rate 0.375 %/day The acceptance limit is 75% of the maximum allowable leakage rate (La) of 0.5 %/day set forth in the Technical Specifications.
Complete total time calculations are documented in Table 3 and plotted in Figure 4. As noted above, the UCL drops significantly between the 3:45 PM and 4:00 PM entries.
This results from the change in the calculational method at a 12 hour1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> test duration. For durations less than 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, the conservative BN-TOP-1 (Ref. 4) method is used to determine UCL. For durations of 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and longer, the total time calculation follows the guidelines of ANSI N45.4 (Ref. 2). The FSAR identifies duration and calculational requirements.
Containment conditions during the Type A test were reasonably typical. Air mass, mean temperature, total pressure, and mean vapor pressure are plotted on Figures 5, 6, 7, and 8, respectively.
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Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report Air mass follows a generally linear trend with a negative slope, as expected.
Containment mean temperature decreases throughout most of the test period, then remains essentially constant for several hours and finally starts to trend up. The pressure trend is similar to that of temperature, but pressure drops more on a percentage basis due to leakage.
Vapor pressure, which is plotted in Figure 8, varies almost linearly with time and increased 0.020 psi over the course of the test. This increase is due largely to evaporation suppression pool water and is reasonable for a BWR containment.
The leakage rates listed in Table 3, as well as in Tables 4 and 5, are stated to four significant figures. The fourth figure is not considered to be meaningful. For this reason, rates restated in the text of this report are rounded off to three significant figures.
5.3 As-Found Leakage Rate The leakage rate, which would have been found if the test had been conducted at the beginning of the outage and prior to isolation valve repairs, can be estimated by summing the Type A test UCL and the as-found correction developed in 5.1. The as-found leakage rate is calculated below:
Type A test total time UCL 0.259 %/day Correction 0.071 %/day As-found leakage rate 0.330 %/day 5,4 Verification Test The verification test induced leak was imposed after the completion of the Type A test (and following collection and analysis of a containment air sample) and adjusted to a flowmeter indication of 4.13 SCFM. At the pressure and temperature conditions listed for the end of the Type A test(52.91 psia and 544.1 deg R), this is equivalent to a leakage rate of 0.495 %/day. Test duration was four hours, which is the minimum required by Ref. 5. Results are listed in Table 4 and summarized below:
Upper limit on total time calculated leakage rate 0.862 %/day Total time calculated leakage rate 0.666 %/day Lower limit on total time calculated leakage rate 0.612 %/day The calculated rate is within the acceptance band, which is the sum of Type A test total time rate (0.242 %/day) and the induced rate (0.495 %/day) plus or minus 0.125 %/day (0.25 La). Figure 9 illustrates the verification test results graphically.
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Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report 5.5 Mass Point Results The ANSI/ANS 56.8 (Ref. 3) mass point method was used, in addition to the total time method, to calculate leakage rates and UCL's. The mass point leakage rates (Type A and verification tests) are shown for information in Table 5 and 6. The variations in mass point rate and UCL over the Type A test period are illustrated graphically in Figure 10.
The end of test mass point calculated leakage rate, 0.221 %/day, is reasonably close to the total time rate of 0.242 %/day, as expected. The mass point UCL of 0.225 %/day is quite close to the calculated rate as is expected for well ordered test data. The spread between the total time rate and the total time UCL is considerably greater than the mass point spread. This is normal and is the result of the basis for the total time calculation.
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Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report REFERENCES
- 1. Code of Federal Regulations, Title 10, Part 50, Appendix J, Reactor Containment Leakage Testing For Water Cooled Power Reactors.
- 2. ANSI N45.4-1972, Leakage Rate Testing Of Containment Structures For Nuclear Reactors.
- 3. ANSI/ANS 56.8-1987, Containment System Leakage Testing Requirements.
- 4. Bechtel Topical Report BN-TOP-1, Testing Criteria For Integrated Leakage Rate Testing Of Primary Containment Structures For Nuclear Power Plants, Revision 1, 1972.
- 5. Washington Public Power Supply System, Plant 2, Surveillance Test Procedure 7.4.6.1.2.1, Integrated Leakage Rate Test, Revision 4.
- 6. Washington Public Power Supply System, Plant 2, Problem Evaluation Report 294-0721.
- 7. Exemption to Appendix J Testing, issued by NRC with Amendment No.41 to Operating License NPF-2, dated April 29, 1987.
15
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE 1 SENSOR LOCATIONS AND WEIGHTING FACTORS Distance from Sensor Elevation, Ctmt Wall, Bearing, Weighting Feet Feet Degrees Factor Drywell RTD's TE-01 574(1) 6 090(1) 0.020 TE-02 545 10 240 0.039 TE-03 590(2) 3 180 0.040 TE-04 507 16 120 0.055 TE-05 554 10 120 0.039 TE-06 511 16 005 0.055 TE-07 532 15 040 0.046 TE-08 516 15 250 0.046 TE-09 521 15 180 0.046 TE-10 563 10 000 0.039 TE-11 570 6 270 0.020 TE-12 527 15 110 0.046 TE-13 538 15 325 0.046 TE-14 503 16 240 0.055 Wetwell RTD's TE-15 485 270 0.102 TE-16 485 195 0.102 TE-17 485 000 0.102 TE-18 485 090 0.102 Drywell Dew Cells ME-01 525 10 125 0.115 ME-02 550 10 090 0.197 ME-03 505 16 240 0.165 ME-04 525 15 005 0.115 Wetwell Dew Cells ME-05 485 270 0.204 ME-06 485 090 0.204 Notes: 1. Elevations are referenced to mean sea level. Bearings are referenced to plant North.
- 2. RTD TE-03 located in the drywell head space.
16
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE 2 TEMPERATURE STABILIZATIONREPORT
(* stabilization criterion satisfied)
- ANSI- -- BN-TOP-1 data elapsed temperature dT1 dT4 dT1-dT4 dT or d(dT) set time, hr T,degF avg dT avg dT avg avg (1 hr) (4 hr) (2 hr) (2 hr) 1 0.00 85.741 2 0.25 85.487 3 0.50 85.387 4 0.75 85.326 5 1.00 85.273 -0.468 6 1.25 85.228 -0.258 7 1.50 85.203 -0.184 8 1.75 85.169 -0.158 9 2.00 85.120 -0.153 -0.310* 0.412*
10 2.25 85.094 -0.134 -0.196* 0.148*
11 2.50 85.069 -0.134 -0.159* 0.070*
12 2.75 85.049 -0.120 -0.139* 0.067*
13 3.00 85.020 -0.100 -0.127* 0.031*
14 3.25 84.995 -0.099 -0.117* 0.001*
15 3.50 84.969 -0.100 -0.117* 0.016*
16 3.75 84.936 -0.113 -0.117* 0.030*
17 4.00 84.914 -0.106 -0.207 0.101* -0.103* 0.009*
18 4.25 84.895 -0.100 -0.148 0.048* -0.100* 0.012*
19 4.50 84.866 -0.103 -0.130 0.027* -0.101* -0.018*
20 4.75 84.844 -0.091 -0.121 0.029* -0.102* 0.014 21 5.00 84.824 -0.091 -0.112 0.022* -0.098* 0.008*
22 5.25 84.789 -0.106 -0.110 0.004* -0.103* -0.016*
23 5.50 84.774 -0.092 -0.107 0.015* -0.098* 0.036*
24 5.75 84.755 -0.089 -0.103 0.014* -0.090* 0.005*
25 6.00 84.730 -0.093 -0.097 0.004* -0.092* -0.011*
26 6.25 84.704 -0.085 -0.098 0.012* -0.096* 0.005*
27 6.50 84.679 -0.095 -0.098 0.003* -0.094* -0.007*
28 6.75 84.666 -0.089 -0.096 0.007* -0.089* 0.015*
29 7.00 84.651 -0.080 -0.092 0.013* -0.086* 0.039*
17
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE 3 TOTAL TIME LEAKAGE RATE REPORT data time date elapsed dry air measured calculated ucl set time hr mass Ibm rate %/day rate %/day %/day 4 445 719 0.75 89520.05 0.0767 0.0706 0.2155 5 500 719 1.00 89518.42 0.1014 0.0809 0.2238 6 515 719 1.25 89517.66 0.0973 0.0840 0.1857 7 530 719 1.50 89512.17 0.1792 0.1289 0.2735 8 545 719 1.75 89510.42 0.1804 0.1554 0.2827 9 600 719 2.00 89507.83 0.1926 0.1766 0.2886 10 615 719 2.25 89504.45 0.2115 0.1973 0.2981 11 630 719 2.50 89501.31 0.2239 0.2154 0.3069 12 645 719 2.75 89499.14 0.2248 0.2281 0.3120 13 700 719 3.00 89496.91 0.2260 0.2374 0.3159 14 715 719 3.25 89493.57 0.2361 0.2468 0.3208 15 730 719 3.50 89490.92 0.2396 0.2546 0.3253 16 745 719 3.75 89487.24 0.2499 0.2628 0.3305 17 800 719 4.00 89486.31 0.2405 0.2670 0.3342 18 815 719 4.25 89484.36 0.2386 0.2697 0.3373 19 830 719 4.50 89483.54 0.2303 0.2699 0.3397 20 845 719 4.75 89478.45 0.2469 0.2731 0.3422 21 900 719 5.00 89478.09 0.2365 0.2737 0.3439 22 915 719 5.25 89476.68 0.2324 0.2733 0.3450 23 930 719 5.50 89473.37 0.2380 0.2737 0.3459 24 945 719 5.75 89472.43 0.2321 0.2730 0.3464 25 1000 719 6.00 89472.08 0.2239 0.2709 0.3463 26 1015 719 6.25 89469.73 0.2251 0.2692 0.3458 27 1030 719 6.50 89468.15 0.2229 0.2673 0.3451 28 1045 719 6.75 89466.41 0.2216 0.2654 0.3440 29 1100 719 7.00 89463.72 0.2240 0.2640 0.3430 30 1115 719 7.25 89461.55 0.2243 0.2626 0.3418 31 1130 719 7.50 89460.19 0.2216 0.2611 0.3404 32 1145 719 7.75 89459.24 0.2178 0.2592 0.3389 33 1200 719 8.00 89457.29 0.2175 0.2574 0.3373 34 1215 719 8.25 89454.90 0.2187 0.2558 0.3357 35 1230 719 8.50 89452.81 0.2188 0.2544 0.3341 36 1245 719 8.75 89450.67, 0.2191 0.2531 0.3326 37 1300 719 9.00 89449.36 0.2170 0.2517 0.3309 38 1315 719 9.25 89444.71 0.2246 0.2512 0.3297 39 1330 719 9.50 89442.42 0.2251 0.2507 0.3286 40 1345 719 9.75 89441.17 0.2228 0.2501 0.3274 41 1400 719 10.00 89437.94 0.2259 0.2497 0.3263 18
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE 3 (cont.)
TOTAL TIME LEAKAGE RATE REPORT data time date elapsed dry air measured calculated ucl set time hr mass Ibm rate %/day rate %/day %/day 42 1415 719 10.25 89437.17 0.2224 0.2490 0.3251 43 1430 719 10.50 89437.28 0.2168 0.2479 0.3237 44 1445 719 10.75 89435.05 0.2173 0.2469 0.3223 45 1500 719 11.00 89432.09 0.2196 0.2461 0.3210 46 1515 719 11.25 89429.20 0.22'l6 0.2455 0.3199 47 1530 719 11.50 89430.39 0.2140 0.2443 0.3184 48 1545 719 11.75 89429.59 0.2113 0.2430 0.3169 49 1600 719 12.00 89427.93 0.2106 0.2417 0.2585 Calculated Leakage Rate 0.2417 %/day UCL 0.2585 %/day 0.75 La 0.3750 %/day 19
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE 4 VERIFICATIONTEST REPORT data time date elapsed dry air measured leakage set time mass rate rate (hrs) (Ibm) (%/day) (%/day) 1 1715 719 0.00 89414.03 0.0000 0.0000 2 1730 719 0.25 89408.84 0.5574 0.5574 3 1745 719 0.50 89402.85 0.5999 0.5999 4 1800 719 0.75 89396.34 0.6330 0.6346 5 1815 719 1.00 89389.27 0.6645 0.6668 6 1830 719 1.25 89384.57 0.6327 0.6605 7 1845 719 1.50 89377.30 0.6572 0.6690 8 1900 719 1.75 89371.36 0.6545 0.6719 9 1915 719 2.00 89364.74 0.6615 0.6760 10 1930 719 2.25 89359.75 0.6475 0.6730 11 1945 719 2.50 89353.66 0.6481 0.6707 12 2000 719 2.75 89346.41 0.6600 0.6726 2015 719 3.00 89341.33 0.6505 0.6710 14 2030 719 3.25 89334.53 0.6565 0.6713 15 2045 719 3.50 89329.90 '.6452 0.6684 16 2100 719 3.75 89322.96 0.6518 0.6676 17 2115 719 4.00 89317.62 0.6469 0.6658 Upper limit on leakage rate 0.8620 %/day Total time leakage rate 0.6658 %/day Lower limit on leakage rate 0.6120 %/day 20
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE 5 MASS POINT LEAKAGE RATE REPORT data time date elapsed dry air calculated ucl set time hr mass Ibm rate %/day %/day 4 445 719 0.75 89520.05 0.0731 0.1305 5 500 719 1.00 89518.42 0.0890 0.1232 6 515 719 1.25 89517.66 0.0924 0.1131 7 530 719 1.50 89512.17 0.1468 0.2115 8 545 719 1.75 89510.42 0.1728 0.2277 9 600 719 2.00 89507.83 0.1920 0.2385 10 615 719 2.25 89504.45 0.2111 0.2528 11 630 719 2.50 89501.31 0.2271 0.2648 12 645 719 2.75 89499.14 0.2366 0.2692 13 700 719 3.00 89496.91 0.2425 0.2704 14 715 719 3.25 89493.57 0.2494 0.2742 15 730 719 3.50 89490.92 0.2548 0.2769 16 745 719 3.75 89487.24 0.2615 0.2819 17 800 719 4.00 89486.31 0.2630 0.2809 18 815 719 4.25 89484.36 0.2630 0.2788 19 830 719 4.50 89483.54 0.2603 0.2747 20 845 719 4.75 89478.45 0.2624 0.2754 21 900 719 5.00 89478.09 0.2610 0.2729 22 915 719 5.25 89476.68 0.2587 0.2697 23 930 719 5.50 89473.37 0.2580 0.2680 24 945 719 5.75 89472.43 0.2559 0.2653 25 1000 719 6.00 89472.08 0.2522 0.2616 26 1015 719 6.25 89469.73 0.2493 0.2584 27 1030 719 6.50 89468.15 0.2464 0.2553 28 1045 719 6.75 89466.41 0.2436 0.2523 29 1100 719 7.00 89463.72 0.2416 0.2500 30 1115 719 7.25 89461.55 0.2400 0.2479 31 1130 719 7.50 89460.19 0.2381 0.2457 32 1145 719 7.75 89459.24 0.2358 0.2433 33 1200 719 8.00 89457.29 0.2337 0.2410 34 1215 719 8.25 89454.90 0.2321 0.2391 35 1230 719 8.50 89452.81 0.2307 0.2375 36 1245 719 8.75 89450.67 0.2295 0.2360 37 1300 719 9.00 89449.36 0.2281 0.2344 38 1315 719 9.25 89444.71 0.2280 0.2340 39 1330 719 9.50 89442.42 0.2280 0.2337 40 1345 719 9.75 89441.17 0.2277 0.2330
'41 1400 719 10.00 89437.94 0.2278 0.2329 42 1415 719 10.25 89437.17 0.2274 0.2323 21
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE 5 (cont.)
MASS POINT LEAKAGE RATE REPORT data time date elapsed dry air calculated ucl set time hr mass Ibm rate %/day %/day 43 1430 719 10.50 89437.28 0.2263 0.2311 44 1445 719 10.75 89435.05 0.2254 0.2300 45 1500 719 11.00 89432.09 0.2249 0.2293 46 1515 719 11.25 89429.20 ~ 0.2247 0.2289 47 1530 719 11.50 89430.39 0.2235 0.2278 48 1545 719 11.75 89429.59 0.2222 0.2264 49 1600 719 12.00 89427.93 0.2209 0.2252 Calculated Leakage Rate = 0.2209 %/day UCL 0.2252 %/day 0.75 La 0.3750 %/day 22
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report TABLE 6 MASS POINT VERIFICATION TEST REPORT data time date elapsed dry air leakage set time mass rate (hrs) (Ibm) (%/day) 1 1715 719 0.00 89414.03 0.0000 2 1730 719 0.25 89408.84 0.5574 3 1745 719 0.50 89402.85 0.5999 4 1800 719 0.75 89396.34 0.6339 5 1815 719 1.00 89389.27 0.6657 6 1830 719 1.25 89384.57 0.6519 7 1845 719 1.50 89377.30 0.6607 8 1900 719 1.75 89371.36 0.6625 9 1915 719 2.00 89364.74 0.6665 10 1930 719 2.25 89359.75 0.6614 11 1945 719 . 2.50 89353.66 0.6583 12 2000 719 2.75 89346.41 0.6611 2015 719 3.00 89341.33 0.6590 l4 2030 719 3.25 89334.53 0.6597 15 2045 719 3.50 89329.90 0.6561 16 2100 719 3.75 89322.96 0.6557 17 2115 719 4.00 89317.62 0.6537 Upper limit on leakage rate = 0.8410 %/day Mass point leakage rate = 0.6537%/day Lower limit on leakage rate = 0.5910 %/day 23
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Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report APPENDIX I CONTAINMENTDESCRIPTION 34
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report l
APPENDIX I CONTAINMENT DESCRIPTION The WNP-2 containment is a steel Mark II structure with an upper conical drywell and a lower cylindrical wetwell. The drywell and wetwell are separated by a concrete slab which is supported at its inner edge by the reactor vessel pedestal. The outer edge of the slab is supported by columns. The top of the slab is covered by a steel liner which is tied to the containment shell by a flexible steel seal.
The top of the drywell is closed by a cylindrical/elliptical head which is removed for refueling of the reactor. The bottom of the wetwell is elliptical. The wetwell is maintained approximately half full of water. The drywell is connected to the wetwell through numerous vertical vent pipes which terminate below the water surface. Several of these vertical vents are provided with vacuum breakers which maintain wetwell pressure at or above that in the drywell. During the ILRT, equal pressures were ensured by blocking open one vacuum breaker.
There are numerous penetrations through both the drywell and wetwell walls. These penetrations, which are sealed by isolation valves, gasket covers and welded caps (spares),
provide access for personnel and equipment as well as feedthrough for piping and electrical conductors.
Principal dimensions (in feet) of the containment are listed below:
Wetwell Inside Radius 42.9 ft Elevation, Top of Wetwell Fill Concrete 435.2 ft Elevation, Nominal Wetwell Water Surface 466.4 ft Elevation, Cylinder/Cone Transition 492.9 ft Elevation, Top of Slab between Wetwell and Drywell 499.5 ft Slab Thickness 2.0 ft Elevation, Drywell Head Flange Parting 583.1 ft Drywell Head Inside Radius 15.8 ft Elevation, Top of Drywell Head 598.7 ft Wetwell Free Air Volume 143,634 cubic ft Drywell Free Air Volume 199,406 cubic ft 35
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report APPENDIX II COMPUTER PROGRAM DISCUSSION 36
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report APPENDIX II COMPUTER HARDWARE AND SOFTWARE BCP's Leakage Rate BASIC Program, developed by Robert E. Blum, runs on an IBM PC or compatible computer that interfaces with the data acquisition system (DAS) via an RS-232C or IEEE-488 serial data bus. BCP provides two computers, with the second serving as a backup unit.
The program calculates both mass point (ANSI 56.8) and total time (BN-TOP-1) leakage rates.
A 95% upper confidence limit (UCL) for the measured total-time leakage rate is determined using the BN-TOP-1 if the test duration is less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. This procedure is generally required by the NRC if test duration is less than the 24-hour minimum established in ANSI 45.4. However, if the test is 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or longer, then a 95% UCL is determined using a procedure similar to that described in ANSI 56.8.
Raw data from the DAS are automatically stored on disk. The ILRT program converts raw data to engineering units and calculates the volume-weighted mean drybulb temperature, vapor pressures from individual dew point temperatures, and volume-weighted mean vapor pressure.
The program then computes containment air mass using these weighted mean atmospheric conditions. Air mass and time data are used as input for the routines that calculate mass point and total time leakage rates. Manual data entry and correction options are included in the program so that failure of the DAS serial output will not delay the test.
Job-specific predata loaded into the program include pressure transducer calibration constants, sensor volume fractions, and containment free-air volume. The volume fraction and free-air volume data can be changed during the test to compensate for sensor failure and changes in containment water inventory.
Program output includes printed reports and plots. Printed reports listing raw data, engineering unit conversions, weighted mean conditions, and air mass are generated for each data set immediately following data input. Diagnostic reports and plots are generated on command during the test. These include listings of leakage rates and UCLs calculated for each incremental data set, plots of this information, plots of weighted mean atmospheric conditions and air mass, and plots of individual sensor data. These lists and plots, when generated after the test, provide final documentation of leakage rate.
The program is validated prior to each use by loading a standard test data set and verifying that the calculation results agree with those obtained by a manual calculation.
37
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report APPENDlX ill TYPE A TEST DATA 38
PRE-DATA REPORT t'e = WNP2 1994 ILRT Stabilization volume = 343040 leap year : no La = 0.5000 t perature volume fractions ( sum = 1.0000 )
=0.0200 t( 2)=0.0390 t( 3) =0. 0400 t( 4) =0. 0550 t( 5)=0.0390 t( 1)6)=0.0550 t( t( 7)=0.0460 t ( 8) =0. 0460 t ( 9) =0. 0460 t(10)=0.0390 t(11)=0.0200 t(12)=0.0460 t(13)=0.0460 t (14) =0. 0550 t(15)=0.1020 t(16)=0.1020 t(17)=0.1020 t(18)=0.1020 dewpoint volume fractions ( sum = 1.0000 )
dp( 1)=0-1150 dp( 2)=0.1970 dp( 3)=0.1650 dp( 4)=0.1150 dp( 5)=0 2040 ~
dp( 6)=0 2040
~
pressure volume fractions ( sum = 1.0000 )
p( 1)=1.0000 p( 2)=0.0000 39
WNP2 1994 XLRT Stabilization DATA
SUMMARY
REPORT data time date temperature pressure vapor dry air set deg F psia pressure mass psia ibm 1 2045 718 85.7411 53.1261 0.3188 89648.46 2 2100 718 85.4868 53.1065 0.3250 89646.44 3 2115 718 85.3869 53.0960 0.3263 89642.88 4 2130 718 85.3264 53.0882 0.3278 89637.05 5 2145 718 85.2729 53.0806 0.3282 89632.24 6 2200 718 85.2285 53.0747 0.3298 89626.80 7 2215 718 85.2032 53.0678 0.3299 89618.94 8 2230 718 85.1688 53.0619 0.3310 89612.81 9 2245 718 85.1204 53.0579 0.3318 89612.58 10 2300 718 85.0943 53.0517 0.3323 89605.54 11 2315 718 85.0689 53.0472 0.3333 89600.24 12 2330 718 85.0489 53.0433 0.3338 89596.12 13 2345 718 85.0199. 53.0380 0.3347 89590.40 14 0 719 84.9954 53.0311 0.3356 89581.15 15 15 719 84.9692 53.0256 0.3361 89575.27 16 30 719 84.9357 53.0214 0.3368 89572.43 17 45 719 84.9143 53.0166 0.3375 89566.60 18 100 719 84.8951 53.0117 0.3381 89560.40 19 115 719 84.8661 53.0066 0.3389 89555.21 20 130 719 84.8443 53.0017 0.3390 89550.21 21 145 719 84.8236 52.9988 0.3397 89547.50 22 200 719 84.7892 52.9952 0.3406 89545.43 215 719 84.7736 52.9929 0.3414 '9542.82 24 230 719 84.7548 52.9893 0.3418 89539.08 25 245 719 84.7304 52.9847 0.3424 89534.24 26 300 719 84.7038 52.9819 0.3427 89533.29 27 315 719 84.6787 52.9802 0.3441 89532.18 28 330 719 84.6658 52.9781 0.3447 89529.77 29 345 719 84.6507 52.9741 0.3453 89524.42 40
WNP2 1994 ILRT Stabilization data set 1 time = 2045 date = 718 sensor raw data value temperature 1 ( 107.360 107. 360 deg. F temperature 2 ( 92.620 92. 620 deg. F temperature 3 ( 107.040 107. 040 deg. F temperature 4 ( 83.920 83.920 deg. F temperature 5 ( 98.610 98.610 deg. F temperature 6 ( 84.400 84.400 deg. F temperature 7 ( 87.610 87.610 deg. F temperature 8 ( 85.490 85.490 deg. F temperature 9 ( 86.700 86.700 deg. F temperature 10 ( 101.950 101.950 deg. F temperature 11 ( 103.420 103.420 deg. F temperature 12 ( 86.930 86.930 deg. F temperature 13 ( 87 '00 87.300 deg. F temperature 14 ( 82.560 82.560 deg. F temperature 15 ( 78.840 78.840 deg. F temperature 16 ( 78.820 78.820 deg. F temperature 17 ( 78.790 78.790 deg. F temperature 18 ( 79.010 79.010 deg. F dewpoint 55.930 55.930 deg. F , 0.2213 psia dewpoint 58.710 58.710 deg. F , 0.2446 psia dewpoint 53.480 53.480 deg. F , 0.2024 psia dewpoint 59.380 59.380 deg. F , 0.2505 psia dewpoint 77.200 77.200 deg. F , 0.4622 psia dewpoint 75.350 75.350 deg. F , 0.4347 psia pressure 1 ( 53. 1261 53.1261 psia pressure 2 ( 53. 1212 53.1212 psia weighted averages, volume and air mass temperature 85.74108 deg. F pressure 53.12610 psia vapor pressure 0.31880 psia volume 343040 cu. ft.
dry air mass 89648.46 ibm 41
WNP2 1994 ILRT Stabilization data set 2 time = 2100 date = 718 sensor raw data value temperature 1 ( 107.250 107.250 deg. F temperature 2 ( 92.610 92 '10 deg. F temperature 3 ( 107.010 107 '10 deg. F temperature 4 ( 83.780 83.780 deg. F temperature 5 ( 98.560 98.560 deg. F temperature 6 ( 84.230 84.230 deg. F temperature 7 ( 87.450 87.450 deg. F temperature 8 ( 85.390 85.390 deg. F temperature 9 ( 86.610 86.610 deg. F temperature 10 ( 101.940 101 '40 deg. F temperature 11 ( 103.360 103.360 deg. F temperature 12 ( 86.720 86.720 deg. F temperature 13 ( 87.080 87.080 deg. F temperature 14 ( 82.430 82.430 deg. F temperature 15 ( 78.370 78.370 deg. F temperature 16 ( 78.400 78.400 deg. F temperature 17 ( 78.370 78.370 deg. F temperature 18 ( 78.530 78.530 deg. F dewpoint 56.870 56.870 deg. F , 0.2289 psia dewpoint 58.500 58.500 deg. F , 0.2427 psia dewpoint 55.990 55.990 deg. F , 0.2217 psia dewpoint 59.220 59.220 deg. F , 0 2491 psia dewpoint 77.100 77.100 deg. F , 0.4607 psia dewpoint 76.340 76.340 deg. F , 0.4492 psia pressure 1 ( 53.1065 53.1065 psia pressure 2 ( 53.1015 53.1015 psia weighted averages, volume and air mass temperature 85.48677 deg. F pressure 53.10650 psia vapor pressure 0.32501 psia volume 343040 cu. ft.
dry air mass 89646.44 ibm 42
WNP2 1994 ILRT Stabilization data set 3 time = 2115 date = 718 sensor raw data value temperature 1 ( 107.220 107.220 deg. F temperature 2 ( 92.630 92.630 deg. F temperature 3 ( 107.020 107.020 deg. F temperature 4 ( 83.730 83.730 deg. F temperature 5 ( 98.580 98.580 deg. F temperature 6 ( 84.200 84.200 deg. F temperature 7 ( 87.450 87.450 deg. F temperature 8 ( 85.360 85.'360 deg. F temperature 9 ( 86.650 86.650 deg. F.
temperature 10 ( 101.950 101.950 deg. F temperature 11 ( 103.360 103.360 deg. F temperature 12 ( 86.720 86.720 deg. F temperature 13 ( 87.020 87.020 deg. F temperature 14 ( 82 '00 82.400 deg. F temperature 15 ( 78.170 78.170 deg. F temperature 16 ( 78.160 78.160 deg. F temperature 17 ( 78.150 78.150 deg. F temperature 18 ( 78.300 78.300 deg. F dewpoint 57.200 57.200 deg. F, 0. 2317 psia dewpoint 58.350 58.350 57.250 deg. F, 0. 2414 0.2321 psia psia dewpoint 57.250 deg. F ,
dewpoint 59.040 59.040 deg. F , 0.2475 psia dewpoint 77.020 77.020 deg. F , 0.4595 psia dewpoint 76.320 76.320 deg. F , 0.4490 psia pressure 1 ( 53.0960 53.0960 psia pressure 2 ( 53.0911 53.0911 psia weighted averages, volume and air mass temperature 85.38687 deg. F pressure 53.09600 psia vapor pressure 0.32628 psia volume 343040 cu. ft.
dry air mass 89642.88 ibm 43
WNP2 1994 ILRT Stabilization data set 4 time = 2130 date = 718 sensor raw data value temperature 1 ( 107.220 107.220 deg. F temperature 2 ( 92.680 92.680 deg. F temperature 3 ( 107.010 107.010 deg. F temperature 4 ( 83.720 83.720 deg. F temperature 5 ( 98.630 98.630 deg. F temperature 6 ( 84.170 84.170 deg. F temperature 7 ( 87;420 87.420 deg. F temperature 8 ( 85.320 85.320 deg. F temperature 9 ( 86.600 86.600 deg. F temperature 10 ( 101.950 101.950 deg. F temperature 11 ( 103.380 103.380 deg. F temperature 12 ( 86.660 86.660 deg. F temperature 13 ( 86.980 86.980 deg. F temperature 14 ( 82.370 82.370 deg. F temperature 15 ( 78.080 78.080 deg. F temperature 16 ( 78.030 78.030 deg. F temperature 17 ( 78.030 78.030 deg. F temperature 18 ( 78.160 78.160 deg. F dewpoint 57.720 57.720 deg. F, 0. 2360 psia dewpoint 58.260 58.260 deg. F, 0. 2407 psia dewpoint 57.760 57.760 deg. F, 0. 2364 psia dewpoint 59.130 59.130 deg. F , 0.2483 psia dewpoint 76.990 76.990 deg. F , 0.4590 psia dewpoint 76.460 76.460 deg. F , 0.4510 psia pressure 1 ( 53.0882 53.0882 psia pressure 2 ( 53.0833 53.0833 psia weighted averages, volume and air mass temperature 85.32635 deg. F pressure 53.08820 psia vapor pressure 0.32777 psia volume 343040 cu. ft.
dry air mass 89637.05 ibm 44
WNP2 1994 ILRT Stabilization data set 5 time = 2145 date = 718 sensor raw data value temperature 1 ( 107.150 107.150 deg. F temperature 2 ( 92.710 92.710 deg. F temperature 3 ( 106.990 106.990 deg. F temperature 4 ( 83.660 83.660 deg. F temperature 5 ( 98 '70 98.670 deg. F temperature 6 ( 84.140 84.140 deg. F temperature 7 ( 87.380 87.380 deg. F temperature 8 ( 85.270 85.270 deg. F temperature 9 ( 86.520 86.520 deg. F temperature 10 ( 101.990 101.990 deg. F temperature 11 ( 103.380 103 '80 deg. F temperature 12 ( 86.610 86.610 deg. F temperature 13 ( 86.930 86.930 deg. F temperature 14 ( 82.380 82.380 deg. F temperature 15 ( 77.990 77.990 deg. F temperature 16 ( 77.930 77.930 deg. F temperature 17 ( 77.940 77.940 deg. F temperature 18 ( 78.070 78. 070 deg. F dewpoint 58.210 58.210 deg. F 0.2402 psia dewpoint 58.280 58.280 deg. F 0.2408 psia dewpoint 58.120 58.120 deg. F 0.2395 psia dewpoint 59.100 59.100 deg. F 0.2480 psia dewpoint 76.850 76.850 deg. F 0.4569 psia dewpoint 76.410 76.410 deg. F 0.4503 psia pressure 1 ( 53.0806 53.0806 psia pressure 2 ( 53.0757 53.0757 psia weighted averages, volume and air mass temperature 85.27293 deg. F pressure 53.08060 psia vapor pressure 0.32818 psia volume 343040 cu. ft.
dry air mass 89632.24 ibm 45
WNP2 1994 ILRT Stabilization data set 6 time = 2200 date = 718 sensor raw data value temperature 1 ( 107.110 107.110 deg. F temperature 2 ( 92.740 92.740 deg. F temperature 3 ( 106.980 106.980 deg. F temperature 4 ( 83.610 83.610 deg. F temperature 5 ( 98.700 98.700 deg. F temperature 6 ( 84.100 84.100 deg. F temperature 7 ( 87.350 87.350 deg. F temperature 8 ( 85.240 85.240 deg. F temperature 9 ( 86.540 86.540 deg. F temperature 10 ( 102.010 102.010 deg. F temperature 11 ( 103.360 103.360 deg. F temperature 12 ( 86.580 86.580 deg. F temperature 13 ( 86.910 86.910 deg. F temperature 14 ( 82.340 82.340 deg. F temperature 15 ( 77.900 77.900 deg. F temperature 16 ( 77.840 77.840 deg. F temperature 17 ( 77.860 77.860 deg. F temperature 18 ( 78.000 78.000 deg. F dewpoint .( 58.520 58.520 deg. F , 0.2429 psia dewpoint ( 58.380 58.380 deg. F , 0.2417 psia dewpoint ( 58.590 58.590 deg. F , 0.2435 psia dewpoint ( 59.180 59.180 deg. F , 0.2487~ psia dewpoint ( 76.900 76.900 deg. F , 0.4577 psia dewpoint ( 76.480 76.480 deg. F , 0.4513 psia pressure 1 ( 53.0747 53.0747 psia pressure 2 ( 53.0697 53.0697 psia weighted averages, volume and air mass temperature 85.22848 deg. F pressure 53.07470 psia vapor pressure 0.32978 psia volume 343040 cu. ft.
dry air mass 89626.80 ibm 46
WNP2 1994 ILRT Stabilization data set 7 time = 2215 date = 718 sensor raw data value.
temperature 1 ( 107. 130 107 ~ 130 deg. F temperature 2 ( 92.800 92.800 deg. F temperature 3 ( 106.970 106.970 deg. F temperature 4 ( 83.600 83.600 deg. F temperature 5 ( 98.760 98.760 deg. F temperature 6 ( 84.090 84.090 deg. F temperature 7 ( 87.330 87.330 deg. F temperature 8 ( 85.230 85.230 deg. F temperature 9 ( 86.540 86.540 deg. F temperature 10 ( 102 '20 102.020 deg. F temperature 11 ( 103.370 103 '70 deg. F temperature 12 ( 86.580 86.580 deg. F temperature 13 ( 86.910 86.910 deg. F temperature 14 ( 82.290 82.290 deg. F temperature 15 ( 77.850 77.850 deg. F temperature 16 ( 77.780 77.780 deg. F temperature 17 ( 77.800 77.800 deg. F temperature 18 ( 77.930 77.930 deg. F dewpoint 58.790 58.790 deg. F , 0.2453 psia dewpoint 58.470 58.470 deg. F , 0.2425 psia dewpoint 58.700 58.700 deg. F , 0.2445 psia dewpoint 59.320 59.320 deg. F , 0.2500 psia dewpoint 76.730 76.730 deg. F, 0. 4i551 psia dewpoint 76.470 76.470 deg. F, 0. 4512 psia pressure 1 ( 53.0678 53.0678 psia pressure 2 ( 53.0627 53.0627 psia weighted averages, volume and air mass temperature 85.20318 deg. F pressure 53.06780 psia vapor pressure 0.32995 psia volume 343040 cu. ft.
dry air mass 89618.94 ibm 47
WNP2 1994 ILRT Stabilization data set 8 time = 2230 date = 718 sensor raw data value temperature 1 ( 107. 110 107.110 deg. F temperature 2 ( 92.840 92.840 deg. F temperature 3 ( 106.980 106.980 deg. F temperature 4 ( 83.570 83.570 deg. F temperature 5 ( 98.790 98.790 deg. F temperature 6 ( 84.050 84.050 deg. F temperature 7 ( 87.310 87.310 deg. F temperature 8 ( 85.180 85.180 deg. F temperature 9 ( 86.480 86.480 deg. F temperature 10 ( 102.080 102.080 deg. F temperature 11 ( 103.400 103.400 deg; F temperature 12 ( 86 '40 86.540 deg. F temperature 13 ( 86.880 86.880 deg. F temperature 14 ( 82.280 82.280 deg. F temperature 15 ( 77.770 77.770 deg. F temperature 16 '( 77.720 77.720 deg. F temperature 17 ( 77.740 77.740 deg. F temperature 18 ( 77.880 77.880 deg. F dewpoint 59.080 59.080 deg. F , 0.2478 psia dewpoint 58.610 58.610 deg. F , 0.2437 psia dewpoint 58.950 58.950 deg. F , 0.2467 psia dewpoint 59.460 59.460 deg. F , 0.2512 psia dewpoint 76.780 76.780 deg. F , 0.4559 psia dewpoint 76.420 76.420 deg. F , 0.4504 psia pressure 1 ( 53.0619 53.0619 psia pressure 2 ( 53.0569 53.0569 psia weighted averages, volume and air mass temperature 85.16875 deg. F pressure 53.06190 psia vapor pressure 0.33099 psia volume 343040 cu. ft.
dry air mass 89612.81 ibm 48
WNP2 1994 ILRT Stabilization data set 9 time = 2245 date = 718 sensor raw data value temperature 1 ( 107.060 107.060 deg. F temperature 2 ( 92.880 92.880 deg. F temperature 3 ( 106.930 106.930 deg. F temperature 4 ( 83.500 83.500 deg. F temperature 5 ( 98.830 98.830 deg. F temperature 6 ( 84.000 84.000 deg. F temperature 7 ( 87.270 87.270 deg. F temperature 8 ( 85 '30 85.130 deg. F temperature 9 ( 86.400 86.400 deg. F temperature 10 ( 102.070 102.070 deg. F temperature 11 ( 103.360 103.360 deg. F temperature 12 ( 86.480 86.480 deg. F temperature 13 ( 86.830 86.830 deg. F temperature 14 ( 82.210 82.210 deg. F temperature 15 ( 77.720 77.720 deg. F
,temperature 16 ( 77.660 77.660 deg. F temperature 17 ( 77 '80 77.680 deg. F temperature 18 ( 77.820 77.820 deg. F dewpoint 59.280 59.280 deg. F , 0.2496 psia dewpoint 58.740 58.740 deg. F , 0.2448 psia dewpoint 59.360 59.360 deg. F , 0.2503 psia dewpoint 59.610 59.610 deg. F , 0.2526 psia dewpoint 76.700 76.700 deg. F , 0.4546 psia dewpoint 76.380 76.380 deg. F , 0.4498 psia pressure 1 ( 53.0579 53.0579 psia pressure 2 ( 53.0528 53.0528 psia weighted averages, volume and air mass temperature 85.12038 deg. F pressure 53.05790 psia vapor pressure 0.33181 psia volume 343040 cu. ft.
dry air mass 89612.58 ibm 49
WNP2 1994 XLRT Stabilization data set 10 time = 2300 date = 718 sensor raw data value temperature 1 ( 107.040 107.040 deg. F temperature 2 ( 92.920 92.920 deg. F temperature 3 ( 106.890 106.890 deg. F temperature 4 ( 83.490 83.490 deg. F temperature 5 ( 98.860 98.860 deg. F temperature 6 ( 83.970 83.970 deg. F temperature 7 ( 87.260 87.260 deg. F temperature 8 ( 85.100 85.100 deg. F temperature 9 ( 86.430 86.430 deg. F temperature 10 ( 102.090 102.090 deg. F temperature 11 ( 103.360 103.360 deg. F temperature 12 ( 86.460 86.460 deg. F temperature 13 ( 86.820 86.820 deg. F temperature 14 ( 82.220 82.220 deg. F temperature 15 ( 77.660 77.660 deg. F temperature 16 ( 77.600 77.600 deg. F temperature 17 ( 77.620 77.620 deg. F temperature 18 ( 77.770 77.770 deg. F dewpoint 59.530 59.530 deg. F , 0.2519 psia dewpoint 58.880 58.880 deg. F , 0.2461 psia dewpoint 59.470 59.470 deg. F , 0.2513 psia dewpoint 59.660 59.660 deg. F , 0.2530 psia dewpoint 76.590 76.590 deg. F , 0.4530 psia dewpoint 76.410 76.410 deg. F , 0.4503 psia pressure 1 ( 53.0517 53.0517 psia pressure 2 ( 53.0466 53.0466 psia weighted averages, volume and air mass temperature 85.09429 deg. F pressure 53.05170 psia vapor pressure 0.33228 psia volume 343040 cu. ft.
dry air mass 89605.54 ibm 50
WNP2 1994 ILRT Stabilization data set 11 time = 2315 date = 718 sensor raw data value temperature 1 ( 107.090 107.090 deg. F temperature 2 ( 92.950 92.950 deg. F temperature 3 ( 106.960 106.960 deg. F temperature 4 ( 83.440 83.440 deg. F temperature 5 ( 98.920 98.920 deg. F temperature 6 ( 83.950 83.950 deg. F temperature 7 ( 87.260 87.260 deg. F temperature 8 ( 85.090 85.090 deg. F temperature 9 ( 86.380 86.380 deg. F temperature 10 ( 102.100 102.100 deg. F temperature temperature ll 12
(
(
103.400 86.450 103.400 86.450 deg.
deg.
F F
temperature 13 ( 86.810 86.810 deg. F temperature 14 ( 82.170 82 '70 deg. F temperature 15 ( 77.610 77.610 deg. F temperature 16 ( 77.540 77.540 deg. F temperature 17 ( 77.570 77.570 deg. F temperature 18 ( 77 '10 77.710 deg. F dewpoint 59 '10 59.710 deg. F , 0.2535 psia dewpoint 59.100 59.100 deg. F , 0.2480 psia dewpoint 59.660 59.660 deg. F , 0.2530 psia dewpoint 59.960 59.960 deg. F , 0.2557 psia dewpoint 76.540 76.540 deg. F , 0.4522 psia dewpoint 76.430 76.430 deg. F , 0.4506 psia pressure 1 ( 53. 0472 53.0472 psia pressure 2 ( 53.0421 53.0421 psia weighted averages, volume and air mass temperature 85.06894 deg. F pressure 53.04720 psia vapor pressure 0.33335 psia volume 343040 cu. ft.
dry air mass 89600.24 ibm 51
I WNP2 1994 ILRT Stabilization data set 12 time = 2330 date = 718 sensor raw data value temperature 1 ( 107.040 107.040 deg. F temperature 2 ( 93.000 93.000 deg. F temperature 3 ( 106.900 106.900 deg. F temperature 4 ( 83.420 83.420 deg. F temperature 5 ( 98.950 98.950 deg. F temperature 6 ( 83.910 83.910 deg. F temperature 7 ( 87.230 87.230 deg. F temperature 8 ( 85.100 85.100 deg. F temperature 9 ( 86.410 86.410 deg. F temperature 10 ( 102.130 102.130 deg. F temperature 11 ( 103.410 103.410 deg. F temperature 12 ( 86.440 86.440 deg. F temperature 13 ( 86.810 86.810 deg. F temperature 14 ( 82.170 82.170 deg. F temperature 15 ( 77.570 77.570 deg. F temperature 16 ( 77.500 77.500 deg. F temperature 17 ( 77.530 77.530 deg. F temperature 18 ( 77.660 77.660 deg. F dewpoint 59.860 59.860 deg. F , 0.2548 psia dewpoint 59.220 59.220 deg. F , 0.2491 psia dewpoint 59.890 59.890 deg. F , 0.2551 psia dewpoint 59.980 59.980 deg. F , 0.2559 psia dewpoint 76.500 76.500 deg. F , 0.4516 psia dewpoint 76.380 76.380 deg. F , 0.4498 psia pressure 1 ( 53.0433 53.0433 psia pressure 2 ( 53.0383 53.0383 psia weighted averages, volume and air mass temperature 85.04893 deg. F pressure 53.04330 psia vapor pressure 0.33381 psia volume 343040 cu. ft.
dry air mass 89596.12 ibm 52
WNP2 1994 ILRT Stabilization data set 13 time = 2345 date = 718 sensor raw data value temperature 1 ( 107.070 107 070 deg.
~ F, temperature 2 ( 93.030 93.030 deg. F temperature 3 ( 106 '90 106.890 deg. F temperature 4 ( 83.380 83.380 deg. F temperature 5 ( 98.990 98.990 deg. F temperature 6 ( 83.890 83.890 deg. F temperature 7 ( 87.220 87.220 deg. F temperature 8 ( 85.090 85.090 deg. F temperature 9 ( 86.400 86.400 deg. F temperature 10 ( 102.150 102.150 deg. F temperature 11 ( 103.420 103.420 deg. F temperature 12 ( 86.410 86.410 deg. F temperature 13 ( 86.790 86.790 deg. F temperature 14 ( 82.140 82.140 deg. F temperature 15 ( 77.510 77.510 deg. F temperature 16 ( 77.440 77.440 deg. F temperature 17 ( 77.480 77.480 deg. F temperature 18 ( 77.600 77.600 deg. F dewpoint (1 60.040 60.040 deg. F , 0.2565 psia dewpoint 2 59.360 59.360 deg. F , 0.2503 psia dewpoint 3 60.060 60.060 deg. F , 0.2567 psia dewpoint 4 60.240 60.240 deg. F , 0.2583 psia dewpoint 5 76.500 76.500 deg. F , 0.4516 psia dewpoint 6 76.350 76.350 deg. F , 0.4494 psia pressure 1 ( 53. 0380 53.0380 psia pressure 2 ( 53.0327 53.0327 psia weighted averages, volume and air mass temperature 85.01992 deg. F pressure 53.03800 psia vapor pressure 0.33468 psia volume 343040 cu. ft.
dry air mass 89590.40 ibm 53
WNP2 1994 ILRT Stabilization data set 14 time = 0 date = 719 sensor raw data value temperature 1 ( 107.060 107.060 deg. F temperature 2 ( 93.080 93.080 deg. F temperature 3 ( 106.900 106.900 deg. F temperature 4 ( 83.340 83.340 deg. F temperature 5 ( 99.030 99.030 deg. F temperature 6 ( 83.860 83.860 deg. F temperature 7 ( 87.220 87.220 deg. F temperature 8 ( 85.060 85.060 deg. F temperature 9 ( 86.290 86.290 deg. F temperature 10 ( 102.150 102.150 deg. F temperature 11 ( 103.450 103.450 deg. F temperature 12 ( 86.350 86.350 deg. F temperature 13 ( 86.800 86.800 deg. F temperature 14 ( 82.170 82.170 deg. F temperature 15 ( 77.470 77.470 deg. F temperature 16 ( 77.390 77.390 deg. F temperature 17 ( 77.440 77.440 deg. F temperature 18 ( 77.560 77.560 deg. F dewpoint 60. 170 60.170 deg. F , 0.2577 psia dewpoint 59.550 59.550 deg. F , 0.2520 psia dewpoint 60.300 60.300 deg. F , 0.2589 psia dewpoint 60.320 60.320 deg. F , 0.2590 psia dewpoint 76.520 76.520 deg. F , 0.4519 psia dewpoint 76.330 76.330 deg. F , 0.4491 psia pressure 1 ( 53 '311 53.0311 psia pressure 2 ( 53.0262 53.0262 psia weighted averages, volume and air mass temperature 84.99537 deg. F pressure 53.03110 psia vapor pressure 0.33560 psia volume 343040 cu. ft.
dry air mass 89581.15 ibm 54
WNP2 1994 ILRT Stabilization data set 15 time = 15 date = 719 sensor raw data value temperature 1 ( 106.980 106.980 deg. F temperature 2 ( 93.130 93.130 deg. F temperature 3 ( 106.860 106.860 deg. F temperature 4 ( 83.300 83.300 deg. F temperature 5 ( 99.060 99.060 deg. F temperature 6 ( 83.840 83.840 deg. F temperature 7 ( 87.210 87.210 deg. F temperature 8 ( 85.030 85.030 deg. F temperature 9 ( 86.290 86.290 deg. F temperature 10 ( 102 '90 102.190 deg. F temperature 11 ( 103 '20 103.420 deg. F temperature 12 ( 86.400 86.400 deg. F temperature 13 ( 86.780 86.780 deg. F temperature 14 ( 82.090 82.090 deg. F temperature 15 ( 77.420 77.420 deg. F temperature 16 ( 77.350 77.350 deg. F temperature 17 ( 77.390 77.390 deg. F temperature 18 ( 77.520 77.520 deg. F dewpoint ( 60.360 60.360 deg. F , 0.2594 psia dewpoint ( 59.680 59.680 deg. F , 0.2532 psia dewpoint ( 60.300 60.300 deg. F , 0.2589 psia dewpoint ( '60.490 60.490 deg. F , 0.2606 psia dewpoint ( 76.490 76.490 deg. F , 0.4515 psia dewpoint ( 76.320 76.320 deg. F , 0.4490 psia pressure 1 ( 53.0256 53.0256 psia pressure 2 ( 53.0204 53.0204 psia weighted averages, volume and air mass temperature 84.96915 deg. F pressure 53.02560 psia vapor pressure 0.33609 psia volume 343040 cu. ft.
dry air mass 89575.27 ibm 55
WNP2 1994 ILRT Stabilization data set 16 time = 30 date = 719 sensor raw data value temperature 1 ( 106.920 106.920 deg. F temperature 2 ( 93.150 93.150 deg. F temperature 3 ( 106.820 106.820 deg. F temperature 4 ( 83.260 83.260 deg. F temperature 5 ( 99.080 99.080 deg. F temperature 6 ( 83.800 83.800 deg. F temperature 7 (87-160 87.160 deg. F temperature 8 ( 85.010 85.010 deg. F temperature 9 ( 86.300 86.300 deg. F temperature 10 ( 102.170 102.170 deg. F temperature 11 ( 103.410 103.410 deg. F temperature 12 ( 86.350 86.350 deg. F temperature 13 ( 86.760 86.760 deg. F temperature 14 ( 82.070 82.070 deg. F temperature 15 ( 77.370 77.370 deg. F temperature 16 ( 77.300 77.300 deg. F temperature 17 ( 77.350 77.350 deg. F temperature 18 ( 77.470 77.470 deg. F dewpoint ( 60.540 60.540 deg. F / 0.2611 psia dewpoint ( 59.840 59.840 deg. F , 0.2547 psia dewpoint ( 60.420 60.420 deg. F , 0.2600 psia dewpoint ( 60.650 60.650 deg. F , 0.2621 psia dewpoint ( 76.460 76.460 deg. F , 0.4510 psia dewpoint ( 76.310 76.310 deg. F , 0.4488 psia pressure 1 ( 53. 0214 53.0214 psia pressure 2 ( 53. 0163 53.0163 psia weighted averages, volume and air mass temperature 84.93573 deg. F pressure 53.02140 psia vapor pressure 0.33680 psia volume 343040 cu. ft.
dry air mass 89572.43 ibm 56
WNP2 1994 ILRT Stabilization data set 17 time = 45 date = 719 sensor raw data value temperature 1 ( 106.890 106.890 deg. F temperature 2 ( 93.190 93.190 deg. F temperature 3 ( 106.800 106.800 deg. F temperature 4 ( 83.220 83.220 deg. F temperature 5 ( 99.100 99.100 deg. F temperature 6 ( 83.770 83.770 deg. F temperature 7 ( 87.160 87.160 deg. F temperature 8 ( 84.980 84.980 deg. F temperature 9 ( 86.240 86.240 deg. F temperature 10 ( 102.210 102.210 deg. F temperature 11 ( 103.420 103.420 deg. F temperature 12 ( 86.340 86.340 deg. F temperature 13 ( 86.750 86.750 deg. F temperature 14 ( 82.080 82.080 deg. F temperature 15 ( 77.340 77.340 deg. F temperature 16 ( 77.260 77.260 deg. F temperature 17 ( 77 '10 77.310 deg. F temperature 18 ( 77.430 77.430 deg. F dewpoint 60.660 60.660 deg. F , 0.2622 psia dewpoint 59.980 59.980 deg. F , 0.2559 psia dewpoint 60.710 60.710 deg. F , 0.2627 psia dewpoint 60.850 60.850 deg. F , 0.2640 psia dewpoint 76.390 76.390 deg. F , 0.4500 psia dewpoint, 76.270 76.270 deg. F , 0.4482 psia pressure 1 ( 53.0166 53.0166 psia pressure 2 ( 53.0114 53.0114 psia weighted averages, volume and air mass temperature 84.91425 deg. F pressure 53.01660 psia vapor pressure 0.33750 psia volume 343040 cu. ft.
dry air mass 89566.60 ibm 57
WNP2 1994 ILRT Stabilization data set 18 time = 100 date = 719 sensor raw data value temperature 1 ( 106.860 106.860 deg. F temperature 2 ( 93.220 93.220 deg. F temperature 3 ( 106.790 106.790 deg. F temperature 4 ( 83.220 83.220 deg. F temperature 5 ( 99.140 99.140 deg. F temperature 6 ( 83.750 83.750 deg. F temperature 7 ( 87.160 87.160 deg. F temperature 8 ( 84.940 84.940 deg. F temperature 9 ( 86.280 86.280 deg. F temperature 10 ( 102.210 102.210 deg. F temperature 11 ( 103.420 103.420 deg. F temperature 12 ( 86.310 86.310 deg. F temperature 13 ( 86.730 86.730 deg. F temperature 14 ( 82.050 82.050 deg. F temperature 15 ( 77.300 77.300 deg. F temperature 16 ( 77.230 77.230 deg. F temperature 17 ( 77.270 77.270 deg. F temperature 18 ( 77.390 77.390 deg. F dewpoint ( 60.780 ). 60.780 deg. F , 0.2633 psia dewpoint ( 60.120 ) 60.120 deg. F , 0.2572 psia dewpoint ( 60.810 ) 60.810 deg. F , 0.2636 psia dewpoint ( 61.050 ) 61.050 deg. F , 0.2659 psia dewpoint ( 76.410 ) 76.410 deg. F , 0.4503 psia dewpoint ( 76.200 ) 76.200 deg. F , 0.4472 psia pressure 1 ( 53. 0117 53.0117 psia pressure 2 ( 53.0066 53.0066 psia weighted averages, volume and air mass temperature 84.89513 deg. F pressure 53.01170 psia vapor pressure 0.33810 psia volume 343040 cu. ft.
dry air mass 89560.40 ibm 58
WNP2 1994 ILRT Stabilization data set 19 time = 115 date = 719 sensor raw data value temperature 1 ( 106 '30 106.830 deg. F temperature 2 (93-260 93.260 deg. F temperature 3 ( 106.770 106.770 deg. F temperature 4 ( 83.160 83.160 deg. F temperature 5 ( 99 '70 99.170 deg. F temperature 6 ( 83.720 83.720 deg. F temperature 7 ( 87.130 87.130 deg. F temperature 8 ( 84.920 84.920 deg. F temperature 9 ( 86.270 86.270 deg. F temperature 10 ( 102.190 102.190 deg. F temperature 11 ( 103.440 103.440 deg. F temperature 12 ( 86.310 86.310 deg. F temperature 13 ( 86.690 86.690 deg. F temperature 14 ( 82 '20 82.020 deg. F temperature 15 ( 77.260 77.260 deg. F temperature 16 (77-180 77.180 deg. F temperature 17 ( 77.230 77.230 deg. F temperature 18 ( 77.340 77.340 deg. F dewpoint 61.020 61.020 deg. F, 0. 2656 psia dewpoint 60.280 60.280 deg. F , 0.2587 psia dewpoint 60.950 60.950 deg. F , 0.2649 psia dewpoint 61.160 61.160 deg. F , 0.2669 psia dewpoint 76.330 76.330 deg. F , 0.4491 psia dewpoint 76.240 76.240 deg. F , 0.4478 psia pressure 1 ( 53.0066 53.0066 psia pressure 2 ( 53.0016 53.0016 psia weighted averages, volume and air mass temperature 84.86606 deg. F pressure 53.00660 psia vapor pressure 0.33886 psia volume 343040 cu. ft.
dry air mass 89555.21 ibm 59
WNP2 1994 ILRT Stabilization data set 20 time = 130 date = 719 sensor raw data value temperature 1 ( 106.800 106.800 deg. F temperature 2 ( 93.300 93.300 deg. F temperature 3 ( 106.720 106.720 deg. F temperature 4 ( 83.130 83.130 deg. F temperature 5 ( 99.180 99.180 deg. F temperature 6 ( 83.690 83.690 deg. F temperature 7 ( 87.130 87 '30 deg. F temperature 8 ( 84.890 84.890 deg. F temperature 9 ( 86.270 86.270 deg. F temperature 10 ( 102.200 102.200 deg. F temperature 11 ( 103.430 103.430 deg. F temperature 12 ( 86.290 86.290 deg. F temperature 13 ( 86.690 86.690 deg. F temperature 14 ( 82.000 82.000 deg. F temperature 15 ( 77.220 77.220 deg. F temperature 16 ( 77.150 77.150 deg. F temperature 17 ( 77.190 77.190 deg. F temperature 18 ( 77.310 77.310 deg. F dewpoint 61. 100 61.100 deg. F , 0.2663 psia dewpoint 60.420 60.420 deg. F , 0.2600 psia dewpoint 61.030 61.030 deg. F , 0.2657 psia dewpoint 61.230 61.230 deg. F , 0.2676 psia dewpoint 76.280 76.280 deg. F , 0.4484 psia dewpoint 76.160 76.160 deg. F , 0.4466 psia pressure 1 ( 53.0017 53.0017 psia pressure 2 ( 52.9966 52.9966 psia weighted averages, volume and air mass temperature 84.84428 deg. F pressure 53.00170 psia vapor pressure 0.33901 psia volume 343040 cu. ft.
dry air mass 89550.21 ibm 60
WNP2 1994 ILRT Stabilization data set 21 time = 145 date = 719 sensor raw data value temperature 1 ( 106.740 106.740 deg. F temperature 2 ( 93.340 93.340 deg. F temperature 3 ( 106.680 106.680 deg. F temperature 4 ( 83.090 83.090 deg. F temperature 5 ( 99.200 99.200 deg. F temperature 6 ( 83.660 83.660 deg. F temperature 7 ( 87.110 87.110 deg. F temperature 8 ( 84.870 84.870 deg. F temperature 9 ( 86.320 86.320 deg. F temperature 10 ( 102.210 102.210 deg. F temperature 11 ( 103.410 103 '10 deg. F temperature 12 ( 86.240 86.240 deg. F temperature 13 ( 86 '70 86.670 deg. F temperature 14 ( 82.000 82.000 deg. F temperature 15 ( 77.190 77.190 deg. F temperature 16 ( 77 '20 77.120 deg. F temperature 17 ( 77.150 77.150 deg. F temperature 18 ( 77.280 77.280 deg. F dewpoint ,( 61. 210 61.210 deg. F , 0.2674 psia dewpoint ( 60.570 60.570 deg. F , 0.2614 psia dewpoint ( 61.150 61.150 deg. F , 0.2668 psia dewpoint ( 61.410 61.410 deg. F , 0.2693 psia dewpoint ( 76.260 76.260 deg. F , 0.4481 psia dewpoint ( 76.150 76.150 deg. F , 0.4464 psia pressure 1 ( 52.9988 52.9988 psia pressure 2 ( 52 '940 52.9940 psia weighted averages, volume and air mass temperature 84.82364 deg. F pressure 52.99880 psia vapor pressure 0.33969 psia volume 343040 cu. ft.
dry air mass 89547.50 ibm 61
WNP2 1994 ILRT Stabilization data set 22 time = 200 date = 719 sensor raw data value temperature 1 ( 106.720 106.720 deg. F temperature 2 ( 93.370 93.370 deg. F temperature 3 ( 106.620 106.620 deg. F temperature 4 ( 83 '40 83.040 deg. F temperature 5 ( 99.220 99.220 deg. F temperature 6 ( 83 '30 83.630 deg. F temperature 7 ( 87 '80 87.080 deg. F temperature 8 ( 84.850 84.850 deg. F temperature 9 ( 86.160 86.160 deg. F temperature 10 ( 102.210 102 '10 deg. F temperature 11 ( 103.410 103 '10 deg. F temperature 12 ( 86.210 86.210 deg. F temperature 13 ( 86.660 86.660 deg. F temperature 14 ( 82.000 82.000 deg. F temperature 15 ( 77.150 77.150 deg. F temperature 16 ( 77 080 F 77.080 deg. F temperature 17 ( 77.110 77.110 deg. F temperature 18 ( 77.230 77.230 deg. F dewpoint 61.380 61.380 deg. F , 0.2690 psia dewpoint 60.690 60.690 deg. F , 0.2625 psia dewpoint 61.380 61.380 deg. F , 0.2690 psia dewpoint 61.520 61.520 deg. F , 0.2703 psia dewpoint 76.290 76.290 deg. F , 0.4485 psia dewpoint 76 '40 76.140 deg. F , 0.4463 psia pressure 1 ( 52.9952 52.9952 psia pressure 2 ( 52.9905 52.9905 psia weighted averages, volume and air mass temperature 84.78923 deg. F pressure 52.99520 psia vapor pressure 0.34064 psia volume 343040 cu. ft.
dry air mass 89545,43 ibm 62
WNP2 1994 ILRT Stabilization data set 23 time = 215 date = 719 sensor raw data value temperature 1 ( 106.690 106.690 deg. F temperature 2 ( 93.390 93.390 deg. F temperature 3 ( 106.610 106.610 deg. F temperature 4 ( 83.070 83.070 deg. F temperature 5 ( 99.260 99.260 deg. F temperature 6 ( 83.620 83.620 deg. F temperature 7 ( 87.090 87.090 deg. F temperature 8 .( 84.820 84.820 deg. F temperature 9 ( 86.150 86.150 deg. F temperature 10 ( 102.210 102.210 deg. F temperature 11 ( 103.420 103.420 deg. F temperature 12 (, 86.210 86.210 deg. F temperature 13 ( 86.650 86.650 deg. F temperature 14 ( 81.950 81.950 deg. F temperature 15 ( 77.120 77.120 deg. F temperature 16 ( 77.040 77.040 deg. F temperature 17 ( 77.080 77.080 deg. F temperature 18 ( 77.200 77.200 deg. F dewpoint 1 61.490 61.490 deg. F 0.2700 psia dewpoint 2 60.830 60.830 deg. F 0.2638 psia dewpoint 3 61.530 61.530 deg.. F 0.2704 psia dewpoint 4 61.670 61.670 deg. F 0.2718 psia dewpoint 5 76.270 76.270 deg. F 0.4482 psia dewpoint 6 76.150 76.150 deg. F 0.4464 psia pressure 1 ( 52.9929 52.9929 psia pressure 2 ( 52.9881 52.9881 psia weighted averages, volume and air mass temperature 84.77360 deg. F pressure 52.99290 psia vapor pressure 0.34139 psia volume 343040 cu. ft.
dry air mass 89542.82 ibm 63
WNP2 1994 ILRT Stabilization data set 24 time = 230 date = 719 sensor raw data value temperature 1 ( 106.660 106.660 deg. F temperature 2 ( 93.450 93.450 deg. F temperature 3 ( 106.610 106.610 deg. F temperature 4 ( 83.030 83.030 deg. F temperature 5 ( 99.280 99.280 deg. F temperature 6 ( 83.610 83.610 deg. F temperature 7 ( 87.040 87.040 deg. F temperature 8 ( 84.780 84.780 deg. F temperature 9 ( 86- 180 86.180 deg. F temperature 10 ( 102.200 102.200 deg. F temperature 11 ( 103.410 103.410 deg. F temperature 12 ( 86.200 86.200 deg. F temperature 13 ( 86.640 86.640 deg. F temperature 14 ( 81.920 81.920 deg. F temperature 15 ( 77.080 77.080 deg. F temperature 16 ( 77.020 77.020 deg. F temperature 17 ( 77.050 77.050 deg. F temperature 18 ( 77.170 77.170 deg. F dewpoint ( 61.670 61.670 deg. F / 0. 2718 psia dewpoint ( 60.970 60.970 deg. F I 0 2651 psia dewpoint ( 61.640 61.640 deg. F / 0.2715 psia dewpoint ( 61.720 61.720 deg. F , 0.2722 psia dewpoint (76-200 76.200 deg. F , 0.4472 psia dewpoint ( 76.130 76.130 deg. F , 0.4461 psia pressure 1 ( 52.9893 52.9893 psia pressure 2 ( 52.9846 52.9846 psia weighted averages, volume and air mass temperature 84.75479 deg. F pressure 52.98930 psia vapor pressure 0.34180 psia volume 343040 cu. ft.
dry air mass 89539.08 ibm 64
WNP2 1994 ILRT Stabilization data set 25 time = 245 date = 719 sensor raw data value temperature 1 ( 106.630 106.630 deg. F temperature 2 ( 93.490 93.490 deg. F temperature 3 ( 106.590 106.590 deg. F temperature 4 ( 82.990 82.990 deg. F temperature 5 ( 99.300 99.300 deg. F temperature 6 ( 83.570 83.570 deg. F temperature 7 ( 87.030 87.030 deg. F temperature 8 ( 84.760 84.760 deg. F temperature 9 ( 86.130 86.130 deg. F temperature 10 ( 102.210 102.210 deg. F temperature 11 ( 103.430 103.430 deg. F temperature 12 ( 86.170 86.170 deg. F temperature 13 ( 86.620 86.620 deg. F temperature 14 ( 81.920 81.920 deg. F temperature 15 ( 77.050 77.050 deg. F temperature 16 ( 76.980 76.980 deg. F temperature 17 ( 77.000 77.000 deg. F temperature 18 ( 77.140 77.140 deg. F dewpoint 61.780 61.780 deg. F , 0.2728 psia dewpoint 61.120 61.120 deg. F , 0.2665 psia dewpoint 61.740 61.740 deg. F , 0.2724 psia dewpoint 62.010 62.010 deg. F , 0.2750 psia dewpoint 76.090 76.090 deg. F , 0.4455 psia dewpoint 76.150 76.150 deg. F , 0.4464 psia pressure 1 ( 52.9847 52.9847 psia pressure 2 ( 52.9798 52.9798 psia weighted averages, volume and air mass temperature 84.73040 deg. F pressure 52.98470 psia vapor pressure 0.34241 psia volume 343040 cu. ft.
dry air mass 89534.24 ibm 65
WNP2 1994 ILRT Stabilization data set 26 time = 300 date = 719 sensor raw data value temperature 1 ( 106.560 106.560 deg. F temperature 2 ( 93.520 93.520 deg. F temperature 3 ( 106.520 106.520 deg. F temperature 4 ( 82.920 82.920 deg; F temperature 5 ( 99.320 99.320 deg. F temperature 6 ( 83.540 83.540 deg. F temperature 7 ( 87.030 87.030 deg. F temperature 8 ( 84.720 84.720 deg. F temperature 9 ( 86.090 86.090 deg. F temperature 10 ( 102.240 102.240 deg. F temperature 11 ( 103.430 103.430 deg. F temperature 12 ( 86.130 86.130 deg. F temperature 13 ( 86.580 86.580 deg. F temperature 14 ( 81.880 81.880 deg. F temperature 15 ( 77.030 77.030 deg. F temperature 16 ( 76.960 76.960 deg. F temperature 17 ( 76.980 76.980 deg. F temperature 18 ( 77.100 77.100 deg. F dewpoint 61.900 61.900 deg. F, 0. 2740 psia dewpoint 61.240 61.240 deg. F, 0. 2676 psia dewpoint 61.870 61.870 deg. F , 0.2737 psia dewpoint 61.930 61.930 deg. F , 0.2743 psia dewpoint 76.080 76.080 deg. F , 0.4454 psia dewpoint 76.110 76.110 deg. F , 0.4458 psia pressure 1 ( 52. 9819 52.9819 psia pressure 2 ( 52.9768 52.9768 psia weighted averages, volume and air mass temperature 84.70383 deg. F pressure 52.98190 psia vapor pressure 0.34274 psia volume 343040 cu. ft.
dry air mass 89533.29 ibm 66
WNP2 1994 ILRT Stabilization data set 27 time = 315 date = 719 sensor raw data value temperature 1 ( 106.510 106.510 deg. F temperature 2 ( 93.570 93.570 deg. F temperature 3 ( 106.500 106.500 deg. F temperature 4 ( 82 '10 82 '10 deg. F temperature 5 ( 99.330 99.330 deg. F temperature 6 ( 83.520 83.520 deg. F temperature 7 ( 87.030 87.030 deg. F temperature 8 ( 84.690 84.690 deg. F temperature 9 ( 85.980 85.980 deg. F temperature 10 ( 102.210 102.210 deg. F temperature 11 ( 103.400 103.400 deg. F temperature 12 ( 86.120 86.120 deg. F temperature 13 ( 86.560 86.560 deg. F temperature 14 ( 81.880 81.880 deg. F temperature 15 ( 76.990 76.990 deg. F temperature 16 ( 76.920 76.920 deg. F temperature 17 ( 76.950 76.950 deg. F temperature 18 ( 77.070 77 '70 deg. F dewpoint 62. 030 62.030 deg. F , 0.2752 psia dewpoint 61. 360 61.360 deg. F , 0.2688 psia dewpoint 62.050 62.050 deg. F , 0.2754 psia dewpoint 62.120 62.120 deg. F , 0.2761 psia dewpoint 76.200 76.200 deg. F , 0.4472 psia dewpoint 76.160 76.160 deg. F , 0.4466 psia pressure 1 ( 52.9802 52.9802 psia pressure 2 ( 52.9750 52.9750 psia weighted averages, volume and air mass temperature 84.67872 deg. F pressure 52.98020 psia vapor pressure 0.34412 psia volume air 343040 cu. ft.
dry mass 89532.18 ibm 67
WNP2 1994 ILRT Stabilization data set 28 time = 330 date = 719 sensor raw data value temperature 1 ( 106.480 106.480 deg. F temperature 2 ( 93.590 93.590 deg. F temperature 3 ( 106.490 106.490 deg. F temperature 4 ( 82.890 82.890 deg. F temperature 5 ( 99.350 99.350 deg. F temperature 6 ( 83.520 83.520 deg. F temperature 7 ( 87.010 87.010 deg. F temperature 8 ( 84.670 84.670 deg. F temperature 9 ( 86.020 86.020 deg. F temperature 10 ( 102.210 102.210 deg. F temperature 11 ( 103.400 103.400 deg. F temperature 12 ( 86.080 86.080 deg. F temperature 13 ( 86.560 86.560 deg. F temperature 14 ( 81.860 81.860 deg. F temperature 15 ( 76.970 76.970 deg. F temperature 16 ( 76.900 76.900 deg. F temperature 17 ( 76.920 76.920 deg. F temperature 18 ( 77.050 77.050 deg. F dewpoint 1 62.210 62.210 deg. F 0.2770 psia dewpoint 2 61.480 61.480 deg. F 0.2699 psia dewpoint 3 62.150 62.150 deg. F 0.2764 psia dewpoint 4 62.180 62.180 deg. F 0.2767 psia dewpoint 5 76.080 76.080 deg. F 0.4454 psia dewpoint 6 76.250 76.250 deg. F 0.4479 psia pressure 1 ( 52. 9781 52.9781 psia pressure 2 ( 52.9727 52.9727 psia weighted averages, volume and air mass temperature 84.66582 deg. F pressure 52.97810 psia vapor pressure 0.34469 psia volume dry air mass 343040 cu.
89529.77 ibm ft.
68
WNP2 1994 ILRT Stabilization data set 29 time = 345 date = 719 sensor raw data value temperature 1 ( 106.470 106.470 deg. F temperature 2 ( 93.620 93.620 deg. F temperature 3 ( 106.480 106.480 deg. F temperature 4 ( 82.890 82.890 deg. F temperature 5 ( 99.370 99.370 deg. F temperature 6 ( 83.500 83.500 deg. F temperature 7 ( 87.000 87.000 deg. F temperature 8 ( 84.660 84.660 deg. F temperature 9 ( 85.990 85.990 deg. F temperature 10 ( 102 '10 102 '10 deg. F temperature 11 ( 103.400 103 '00 deg. F temperature 12 ( 86.100 86.100 deg. F temperature 13 ( 86.580 86.580 deg. F temperature 14 ( 81 '20 81.820 deg. F temperature 15 ( 76.930 76.930 deg. F temperature 16 ( 76.870 76.870 deg. F temperature 17 ( 76.900 76 '00 deg. F temperature 18 ( 77 '20 77.020 deg. F dewpoint ( 62.290 62.290 deg. F 0.2778 psia dewpoint ( 61.610 61.610 deg. F 0.2712 psia dewpoint ( 62.250 62.250 deg. F 0.2774 psia dewpoint ( 62.460 62.460 deg. F 0.2794 psia dewpoint ( 76.070 76.070 deg. F 0.4452 psia dewpoint ( 76.190 76. 190 aeg. Ps, 0.4470 psia pressure 1 ( 52 ~ 9741 52.9741 psia pressure 2 ( 52.9688 52.9688 psia weighted averages, volume and air mass temperature 84.65074 deg.
pressure 52.97410 psia vapor pressure 0.34529 psia volume 343040 cu.
dry air mass 89524.42 ibm 69
PRE-DATA REPORT le = WNP2 1994 ZLRT volume = 343040 La = 0.5000 leap year : no t perature volume fractions ( sum = 1.0000 )
t( 1) =0. 0200 t ( 2) =0. 0390 t( 3) =0. 0400 t( 4)=0.0550 tt(10)=0.0390
( 5) =0. 0390 t( 6) =0. 0550 t( 7) =0.0460 t ( 8) =0. 0460 t( 9)=0.0460 t(11)=0.0200 t(12) =0. 0460 t (13) =0 0460 t(14)=0.0550 t(15)=0.1020 t(16)=0.1020 t (17) =0. 1020
~
t(18)=0.1020 dewpoint volume fractions ( sum = 1.0000 )
dp( 1)=0.1150 dp( 2)=0.1970 dp( 3)=0.1650 dp( 4)=0.1150 dp( 5)=0.2040 dp( 6)=0.2040 pressure volume fractions ( sum = 1.0000 )
p( 1)=1.0000 p( 2)=0.0000 70
~Jlg NNP2 1994 ILRT DATA
SUMMARY
REPORT data time date temperature pressure vapor dry air set deg F psia pressure mass psia ibm 1 400 719 84.6315 52.9715 0.3459 89522.20 2 415 719 84.6199 52.9702 0.3465 89520.78 3 430 719 84.6018 52.9686 0.3469 89520.41 4 445 719 84.5954 52.9681 0.3472 89520.05 5 500 719 84.5886 52.9673 0.3480 89518.42 6 515 719 84.5839 52.9665 0.3481 89517.66 7 530 719 84.5859 52.9639 0.3486 89512.17 8 545 719 84.5704 52.9618 0.3490 89510.42 9 600 719 84.5546 52.9598 0.3500 89507.83 10 615 719 84.5450 52.9573 0.3504 89504.45 11 630 719 84. 5295 52.9549 0.3514 89501.31 12 645 719 84 '099 52.9514 0.3511 89499.14 13 700 719 84.4985 52.9497 0.3518 89496.91 14 715 719 84.4823 52.9476 0.3532 89493.57 15 730 719 84.4756 52.9456 0.3534 89490.92 16 745 719 84.4697 52.9433 0.3538 89487.24 17 800 719 84.4503 52.9413 0.3543 89486.31 18 815 719 84.4440 52.9396 0.3543 89484.36 19 830 719 84.4307 52.9377 0.3542 89483.54 20 845 719 84.4329 52.9357 0.3550 89478.45 21 900 719 84.4149 52.9340 0.3552 89478.09 22 915 719 84.4076 52.9326 0.3553 89476.68 23 930 719 84.4024 52.9309 0.3561 89473.37 24 945 719 84.3919 52.9296 0.3564 89472.43 25 1000 719 84.3830 52.9285 0.3563 89472.08 26 1015 719 84.3760 52.9270 0.3569 89469.73 27 1030 719 84.3677 52.9254 0.3570 89468.15 28 1045 719 84.3647 52.9246 0.3575 89466.41 29 1100 719 84.3666 52.9235 0.3578 89463.72 30 1115 719 84.3597 52.9223 0.3586 89461.55 31 1130 719 84.3513 52.9211 0.3590 89460.19 32 1145 719 84.3460 52.9201 0.3590 89459.24 33 1200 719 84.3456 52.9193 0.3594 89457.29 34 1215 719 84.3488 52.9186 0.3598 89454.90 35 1230 719 84.3483 52.9177 0.3602 89452.81 36 1245 719 84.3541 52.9175 0.3607 89450.67 37 1300 719 84.3550 52.9169 0.3608 89449.36 38 1315 719 84.3605 52.9152 0.3613 89444.71 39 1330 719 84.3574 52.9139 0.3616 89442.42 40 1345 719 84.3529 52.9128 0.3617 89441.17 41 1400 719 84.3594 52.9121 0.3623 89437.94 42 1415 719 84.3534 52.9115 0.3627 89437.17 43 1430 719 84.3496 52.9118 0.3633 89437.28 44 1445 719 84.3587 52.9116 0.3635 89435.05 45 1500 719 84.3572 52.9102 0.3640 89432.09 46 1515 719 84.3571 52.9086 0.3641 89429.20 47 1530 719 84.3547 52.9095 0.3646 89430.39 48 1545 719 84.3632 52.9104 0.3651 89429.59 49 1600 719 84.3713 52.9106 0.3655 89427.93 71
WNP2 1994 ILRT data set 1 time = 400 date = 719 sensor raw data value temperature 1 ( 106.460 106.460 deg. F temperature 2 ( 93.670 93.670 deg. F temperature 3 ( 106.400 106.400 deg. F temperature 4 ( 82.870 82.870 deg. F temperature 5 ( 99.420 99.420 deg. F temperature 6 ( 83.500 83.500 deg. F temperature 7 ( 86.990 86.990 deg. F temperature 8 ( 84.640 84.640 deg. F temperature 9 ( 85.940 85.940 deg. F temperature 10 ( 102.230 102.230 deg. F temperature 11 ( 103.430 103.430 deg. F temperature 12 ( 86.070 86.070 deg. F temperature 13 ( 86.540 86.540 deg. F temperature 14 ( 81.830 81.830 deg. F temperature 15 ( 76.910 76.910 deg. F temperature 16 ( 76.840 76.840 deg. F temperature 17 ( 76.860 76.860 deg. F temperature 18 ( 76.980 76.980 deg. F dewpoint 62.410 62.410 deg. F , 0.2789 psia dewpoint 61.730 61.730 deg. F , 0.2723 psia dewpoint 62.350 62.350 deg. F , 0.2784 psia dewpoint 62.420 62.420 deg. F , 0.2790 psia dewpoint 76.150 76.150 deg. F , 0.4464 psia dewpoint 76.140 76.140 deg. F , 0.4463 psia pressure 1 ( 52.9715 52.9715 psia pressure 2 ( 52.9664 52.9664 psia weighted averages, volume and air mass temperature 84.63150 deg. F pressure 52.97150 psia vapor pressure 0.34586 psia volume air 343040 cu. ft.
dry mass 89522.20 ibm 72
WNP2 1994 ILRT data set 2 time = 415 date = 719 sensor raw data value temperature 1 ( 106.430 106.430 deg. F temperature 2 ( 93.710 93.710 deg. F temperature 3 ( 106.370 106.370 deg. F temperature 4 ( 82.880 82.880 deg. F temperature 5 ( 99.440 99.440 deg. F temperature 6 ( 83.490 83.490 deg. F temperature 7 ( 86.970 86.970 deg. F temperature 8 ( 84.610 84.610 deg. F temperature 9 ( 85.950 85.950 deg. F temperature 10 ( 102.240 102.240 deg. F temperature 11 ( 103.420 103.420 deg. F temperature 12 ( 86.060 86.060 deg. F temperature 13 ( 86.550 86.550 deg. F temperature 14 ( 81.810 81.810 deg. F temperature 15 ( 76.880 76.880 deg. F temperature 16 ( 76.820 76.820 deg. F temperature 17 ( 76.840 76.840 deg. F temperature 18 ( 76.960 76.960 deg. F dewpoint 1 62.540 62.540 deg. F , 0.2802 psia dewpoint 2 61.840 61.840 deg. F , 0.2734 psia dewpoint 3 62.550 62.550 deg. F , 0.2803 psia dewpoint 4 62.580 62.580 deg. F , 0.2806 psia dewpoint 5 76.120 76.120 deg. F , 0.4460 psia dewpoint 6 76.100 76.100 deg. F , 0.4457 psia pressure 1 ( 52.9702 52.9702 psia pressure 2 ( 52.9649 52.9649 psia weighted averages, volume and air mass temperature 84. 61991 deg. F pressure 52.97020 psia vapor pressure 0.34651 psia volume air 343040 cu. ft.
dry mass 89520.78 ibm 73
WNP2 1994 XLRT data set 3 time = 430 date = 719 sensor raw data value temperature 1 ( 106.380 106.380 deg. F temperature 2 ( 93.740 93.740 deg. F temperature 3 ( 106.370 106.370 deg. F temperature 4 ( 82.880 82.880 deg. F temperature 5 ( 99.460 99.460 deg. F temperature 6 ( 83.480 83.480 deg. F temperature 7 ( 86.980 86.980 deg. F temperature 8 ( 84.590 84.590 deg. F temperature 9 ( 85.900 85.900 deg. F temperature 102.220 102.220 deg.
temperature temperature ll 10 (
12
(
(
103.430 86.070 103.430 86.070 deg.
deg.
F F
F temperature 13 ( 86.530 86.530 deg. F temperature 14 ( 81.790 81.790 deg. F temperature 15 ( 76.850 76.850 deg. F temperature 16 ( 76.780 76.780 deg. F temperature 17 ( 76.810 76.810 deg. F temperature 18 ( 76.930 76.930 deg. F dewpoint, 1 62.580 62.580 deg. F, 0.2806 psia dewpoint 2 61.960 61.960 deg. F, 0.2746 psia dewpoint 3 62.690 62.690 deg. F, 0. 2817 psia dewpoint 4 62.730 62.730 deg. F , 0.2821 psia dewpoint 5 76.010 76.010 deg. F , 0.4443 psia dewpoint 6 76.110 76.110 deg. F , 0.4458 psia pressure 1 ( 52.9686 52.9686 psia pressure 2 ( 52.9634 52.9634 psia weighted averages, volume and air mass temperature 84.60181 deg. F pressure 52 '6860 psia vapor pressure 0.34688 psia volume dry air mass 343040 cu.
89520.41 ibm ft.
74
WNP2 1994 ILRT data set 4 time = 445 date = 719 sensor raw data value temperature 1 ( 106.370 106. 370 deg. F temperature 2 ( 93.770 93.770 deg. F temperature 3 ( 106.330 106.330 deg. F temperature 4 ( 82.860 82.860 deg. F temperature 5 ( 99.480 99.480 deg. F temperature 6 ( 83.470 83.470 deg. F temperature 7 ( 86.960 86.960 deg. F temperature 8 ( 84.590 84.590 deg. F temperature 9 ( 85.950 85.950 deg. F temperature 10 ( 102.250 102.250 deg. F temperature 11 ( 103.410 103.410 deg. F temperature 12 ( 86.040 86.040 deg. F temperature 13 ( 86.530 86.530 deg. F temperature 14 ( 81.820 81.820 deg. F temperature 15 ( 76.830 76.830 deg. F temperature 16 ( 76.770 76.770 deg. F temperature 17 ( 76.790 76.790 deg. F temperature 18 ( 76.910 76.910 deg. F dewpoint 62.700 62.700 deg. F, 0. 2818 psia dewpoint 62.070 62.070 deg. F , 0.2756 psia dewpoint 62.800 62.800 deg. F , 0.2828 psia dewpoint 62.770 62.770 deg. F , 0.2825 psia dewpoint 76.020 76.020 deg. F , 0.4445 psia dewpoint 76.020 76.020 deg. F , 0.4445 psia pressure 1 ( 52. 9681 52.9681 psia pressure 2 ( 52.9629 52.9629 psia weighted averages, volume and air mass temperature 84.59539 deg. F pressure 52.96810 psia vapor pressure 0.34721 psia volume dry air mass 343040 cu.
89520.05 ibm ft.
75
WNP2 1994 ZLRT data set 5 time = 500 date = 719 sensor raw data value temperature 1 ( 106.330 106.330 deg. F temperature 2 ( 93.810 93.810 deg. F temperature 3 ( 106.300 106.300 deg. F temperature 4 ( 82.920 82.920 deg. F temperature 5 ( 99.510 99.510 deg. F temperature 6 ( 83.480 83.480 deg. F temperature 7 ( 86.960 86.960 deg. F temperature 8 ( 84.600 84.600 deg. F temperature 9 ( 85.900 85.900 deg. F temperature 10 ( 102.250 102.250 deg. F temperature 11 ( 103 '30 103.430 deg. F temperature 12 ( 86.040 86.040 deg. F temperature 13 ( 86.530 86.530 deg. F temperature 14 ( 81.810 81.810 deg. F temperature 15 ( 76.810 76.810 deg. F temperature 16 ( 76.740 76.740 deg. F temperature 17 ( 76.770 76.770 deg. F temperature 18 ( 76.890 76.890 deg. F dewpoint 1 62.830 62.830 deg. F, 0. 2831 psia dewpoint 2 62.210 62.210 deg. F , 0.2770 psia dewpoint 3 62.870 62.870 deg. F , 0.2835 psia dewpoint 4 62.860 62.860 deg. F , 0.2834 psia dewpoint 5 76.060 76.060 deg. F , 0.4451 psia dewpoint 6 76.040 76.040 deg. F , 0.4448 psia pressure 1 ( 52.9673 52.9673 psia pressure 2 ( 52.9621 52.9621 psia weighted averages, volume and air mass temperature 84.58860 deg. F pressure 52.96730 psia vapor pressure 0.34803 psia volume 343040 cu. ft.
dry air mass 89518.42 ibm 76
WNP2 1994 ILRT data set 6 time = 515 date = 719 sensor raw data value temperature 1 ( 106.340 106.340 deg. F temperature 2 ( 93.860 93.860 deg. F temperature 3 ( 106.290 106.290 deg. F temperature 4 ( 82.930 82.930 deg. F temperature 5 ( 99.550 99.550 deg. F temperature 6 ( 83.490 83.490 deg. F temperature 7 ( 86.940 86.940 deg. F temperature 8 ( 84.610 84.610 deg. F temperature 9 ( 85.920 85.920 deg. F temperature 10 ( 102.260 102.260 deg. F temperature 11 ( 103.470 103.470 deg. F temperature 12 ( 86.040 86.040 deg. F temperature 13 ( 86.540 86.540 deg. F temperature 14 ( 81.820 81.820 deg. F temperature 15 ( 76.790 76.790 deg. F temperature 16 ( 76.720 76.720 deg. F temperature 17 ( 76.730 76.730 deg. F temperature 18 ( 76.860 76.860 deg. F dewpoint 62. 980 ) 62.980 deg. F, 0. 2846 psia dewpoint 62.330 ) 62.330 deg. F , 0.2782 psia dewpoint 62.960 ) 62.960 deg. F , 0.2844 psia dewpoint 62.940 62.940 deg. F , 0.2842 psia dewpoint 75.940 75.940 deg. F , 0.4433 psia dewpoint 75.980 75.980 deg. F , 0.4439 psia pressure 1 ( 52.9665 52.9665 psia pressure 2 ( 52.9612 52.9612 psia weighted averages, volume and air mass temperature 84.58387 deg. F pressure 52.96650 psia vapor pressure 0.34813 psia volume 343040 cu. ft.
dry air mass 89517.66 ibm 77
WNP2 1994 ILRT data set 7 time = 530 date = 719 sensor raw data value temperature 1 ( 106.360 106.360 deg. F temperature 2 ( 93.920 93.920 deg. F temperature 3 ( 106.300 106.300 deg. F temperature 4 ( 82.900 82.900 deg. F temperature 5 ( 99.590 99.590 deg. F temperature 6 ( 83.490 83.490 deg. F temperature 7 ( 86.960 86.960 deg. F temperature 8 ( 84.610 84.610 deg. F temperature 9 ( 85.970 85.970 deg. F temperature 10 ( 102.300 102.300 deg. F temperature 11 ( 103.520 103.520 deg. F temperature 12 ( 86.050 86.050 deg. F temperature 13 ( 86.550 86.550 deg. F temperature 14 ( 81.840 81.840 deg. F temperature 15 ( 76.770 76.770 deg. F temperature 16 ( 76.700 76.700 deg. F temperature 17 ( 76.720 76.720 deg. F temperature 18 ( 76.830 76.830 deg. F dewpoint 63.080 63.080 deg. F , 0.2856 psia dewpoint 62.440 62.440 deg. F , 0.2792 psia dewpoint 63.080 63.080 deg. F , 0.2856 psia dewpoint 63.140 63.140 deg. F , 0.2862 psia dewpoint 75.860 75.860 deg. F , 0.4421 psia dewpoint 75.950 75.950 deg. F , 0.4435 psia pressure 1 ( 52.9639 52.9639 psia pressure 2 ( 52.9585 52.9585 psia weighted averages, volume and air mass temperature 84.58595 deg. F pressure 52.96390 psia vapor pressure 0.34855 psia volume dry,air mass 343040 cu.
89512.17 ibm ft.
78
WNP2 1994 ILRT data set 8 time = 545 date = 719 sensor raw data value temperature 1 ( 106.340 106.340 deg. F temperature 2 ( 93.960 93.960 deg. F temperature 3 ( 106.300 106.300 deg. F temperature 4 ( 82.910 82.910 deg. F temperature 5 ( 99.620 99.620 deg. F temperature 6 ( 83.480 83.480 deg. F temperature 7 ( 86.940 86.940 deg. F temperature 8 ( 84.600 84.600 deg. F temperature 9 ( 85 '40 85.940 deg. F temperature 10 ( 102.280 102.280 deg. F temperature 11 ( 103.540 103 '40 deg. F temperature 12 ( 86.050 86.050 deg. F temperature 13 ( 86.540 86.540 deg. F temperature 14 ( 81.830 81.830 deg. F temperature 15 temperature 16
(, 76.730 76.660 76.730 76.660 deg. F
( deg. F temperature 17 ( 76.690 76.690 deg. F temperature 18 ( 76.810 76.810 deg. F dewpoint ( 63.180 63.180 deg. F , 0.2866 psia dewpoint ( 62.540 62.540 deg. F , 0.2802 psia dewpoint ( 63.190 63.190 deg. F , 0.2867 psia dewpoint ( 63.160 63.160 deg. F , 0.2864 psia dewpoint ( 75.790 75.790 deg. F , 0.4411 psia dewpoint ( 75.990 75.990 deg. F , 0.4441 psia pressure 1 ( 52.9618 52.9618 psia pressure 2 ( 52.9564 52.9564 psia weighted averages, volume and air mass temperature 84.57043 deg. F pressure 52.96180 psia vapor pressure 0.34898 psia volume dry air mass 343040 cu.
89510.42 ibm ft.
79
WNP2 1994 ILRT data set 9 time = 600 date = 719 sensor raw data value temperature 1 ( 106.310 106. 310 deg. F temperature 2 ( 94.010 94.010 deg. F temperature 3 ( 106.280 106.280 deg. F temperature 4 ( 82.900 82.900 deg. F temperature 5 ( 99.650 99.650 deg. F temperature 6 ( 83.480 83.480 deg. F temperature 7 ( 86.950 86.950 deg. F temperature 8 ( 84.590 84.590 deg. F temperature 9 ( 85.830 85.830 deg..F temperature 10 ( 102.300 102.300 deg. F temperature 11 ( 103.520 103.520 deg. F temperature 12 ( 86.000 86.000 deg. F temperature 13 ( 86.530 86.530 deg. F temperature 14 ( 81.810 81.810 deg. F temperature 15 ( 76.710 76.710 deg. F temperature 16 ( 76.650 76.650 deg. F temperature 17 ( 76.670 76.670 deg. F temperature 18 ( 76.780 76.780 deg. F dewpoint 1 63.320 63.320 deg. F , 0.2880 psia dewpoint 2 62.680 62.680 deg. F , 0.2816 psia dewpoint 3 63.400 63.400 deg. F , 0.2888 psia dewpoint 4 63.210 63.210 deg. F , 0.2869 psia dewpoint 5 75.840 75.840 deg. F , 0.4418 psia dewpoint 6 76.010 76.010 deg. F , 0.4443 psia pressure 1 ( 52.9598 52.9598 psia pressure 2 ( 52.9547 52.9547 psia weighted averages, volume and air mass temperature 84.55463 deg. F pressure 52.95980 psia vapor pressure 0.35003 psia volume dry air mass 343040 cu.
89507.83 ibm ft.
80
WNP2 1994 ILRT data set 10 time = 615 date = 719 sensor raw data value temperature 1 ( 106.300 106.300 deg. F temperature 2 ( 94.030 94.030 deg. F temperature 3 ( 106.210 106.210 deg. F temperature 4 ( 82.920 82.920 deg. F temperature 5 ( . 99.670 99.670 deg. F temperature 6 ( 83.460 83.460 deg. F temperature 7 ( 86.940 86.940 deg. F temperature 8 ( 84.550 84.550 deg. F temperature 9 ( 85.880 85.880 deg. F temperature 10 ( 102.310 102.310 deg. F temperature 11 ( 103.540 103.540 deg. F temperature 12 ( 86.010 86.010 deg. F temperature 13 ( 86.530 86.530 deg. F temperature 14 ( 81.790 81.790 deg. F temperature 15 ( 76.690 76.690 deg. F temperature 16 ( 76.620 76.620 deg. F temperature 17 ( 76.660 76.660 deg. F temperature 18 ( 76.760 76.760 deg. F dewpoint 1 63.390 63.390 deg. F , 0.2887 psia dewpoint 2 62.740 62.740 deg. F , 0.2822 psia dewpoint 3 63.400 63.400 deg. F , 0.2888 psia dewpoint 4 63.290 63.290 deg. F , 0.2877 psia dewpoint 5 75.950 75.950 deg. F , 0.4435 psia dewpoint 6 75.940 75.940 deg. F , 0.4433 psia pressure 1 ( 52.9573 52.9573 psia pressure 2 ( 52.9528 52.9528 psia weighted averages, volume and air mass temperature 84.54504 deg. F pressure 52.95730 psia vapor pressure 0.35044 psia volume dry air mass 343040 cu.
89504.45 ibm ft.
81
WNP2 1994 ZLRT data set 11 time = 630 date = 719 sensor raw data value temperature 1 ( 106.280 106. 280 deg. F temperature 2 ( 94.060 94.060 deg. F temperature 3 ( 106.190 106.190 deg. F temperature 4 ( 82.890 82.890 deg. F temperature 5 ( 99.690 99.690 deg. F temperature 6 ( 83.450 83.450 deg. F temperature 7 ( 86.930 86.930 deg. F temperature 8 ( 84.540 84.540 deg. F temperature 9 ( 85.930 85.930 deg. F temperature 10 ( 102.320 102.320 deg. F temperature 11 ( 103.540 103.540 deg. F temperature 12 ( 85.990 85.990 deg. F temperature 13 ( 86.490 86.490 deg. F temperature 14 ( 81.800 81.800 deg. F temperature 15 ( 76.660 76.660 deg. F temperature 16 ( 76.590 76.590 deg. F temperature 17 ( 76.620 76.620 deg. F temperature 18 ( 76.730 76.730 deg. F dewpoint 1 63.480 63.480 deg. F , 0.2896 psia dewpoint 2 62.860 62.860 deg. F , 0.2834 psia dewpoint 3 63.560 63.560 deg. F , 0.2905 psia dewpoint 4 63.530 63.530 deg. F , 0.2901 psia dewpoint 5 76.020 76.020 deg. F , 0.4445 psia dewpoint 6 75.890 75.890 deg. F , 0.4426 psia pressure 1 ( 52.9549 52.9549 psia pressure 2 ( 52.9506 52.9506 psia weighted averages, volume and air mass temperature 84.52946 deg. F pressure 52.95490 ps 3.a vapor pressure 0.35139 psia volume dry air mass 343040 cu.
89501.31 ibm ft.
82
WNP2 1994 ILRT data set 12 time = 645 date = 719 sensor raw data value temperature 1 ( 106.290 106.290 deg. F temperature 2 ( 94.120 94.120 deg. F temperature 3 ( 106.160 106.160 deg. F temperature 4 ( 82.850 82.850 deg. F temperature 5 ( 99.710 99.710 deg. F temperature 6 ( 83.420 83.420 deg. F temperature 7 ( 86.910 86.910 deg. F temperature 8 ( 84.520 84.520 deg. F temperature 9 ( 85.830 85.830 deg. F temperature 10 ( 102 '30 102 '30 deg. F temperature 11 ( 103.540 103.540 deg. F temperature 12 ( 85.960 85.960 deg. F temperature 13 ( 86.520 86.520 deg. F temperature 14 ( 81.760 81.760 deg. F temperature 15 ( 76.640 76.640 deg. F temperature 16 ( 76.570 76.570 deg. F temperature 17 ( 76.600 76.600 deg. F temperature 18 ( 76.700 76.700 deg. F dewpoint 63.580 63.580 deg. F, 0. 2907 psia dewpoint 62.970 62.970 deg. F , 0.2845 psia dewpoint 63.650 63.650 deg. F , 0.2914 psia dewpoint 63.420 63.420 deg. F , 0.2890 psia dewpoint 75.810 75.810 deg. F , 0.4414 psia dewpoint 75.870 75.870 deg. F , 0.4423 psia pressure 1 ( 52. 9514 52.9514 psia pressure 2 ( 52.9470 52.9470 psia weighted averages, volume and air mass temperature 84.50995 deg. F pressure 52.95140 psia vapor pressure 0.35106 psia volume 343040 cu. ft.
dry air mass 89499.'14 ibm 83
WNP2 1994 ILRT data set 13 time = 700 date = 719 sensor raw data value temperature 1 ( 106.280 106. 280 deg. F temperature 2 ( 94.140 94.140 deg. F temperature 3 ( 106.080 106.080 deg. F temperature 4 ( 82.840 82.840 deg. F temperature 5 ( 99.730 99.730 deg. F temperature 6 ( 83.410 83.410 deg. F temperature 7 ( 86.890 86.890 deg. F temperature 8 ( 84.500 84.500 deg. F temperature 9 ( 85.870 85.870 deg. F temperature 10 ( 102.320 102.320 deg. F temperature 11 ( 103.540 103 '40 deg. F temperature 12 ( 85 950 ) 85.950 deg. F temperature 13 ( 86.510 ) 86.510 deg. F temperature 14 ( 81.760 ) 81.760 deg. F temperature 15 ( 76.620 ) 76.620 deg. F temperature 16 ( 76.550 ) 76.550 deg. F temperature 17 ( 76.580 ) 76.580 deg. F temperature 18 ( 76.690 ) 76.690 deg. F dewpoint 1 ( 63.670 ) 63.670 deg. F, 0. 2916 psia dewpoint 2 ( 63.060 ) 63.060 deg. F , 0.2854 psia dewpoint 3 ( 63.670 ) 63.670 deg. F , 0.2916 psia dewpoint 4 ( 63.580 ) 63.580 deg. F , 0.2907 psia dewpoint 5 ( 75.880 ) 75.880 deg. F , 0.4424 psia dewpoint 6 ( 75.870 ) 75.870 deg. F , 0.4423 psia pressure 1 ( 52.9497 ) 52.9497 psia pressure 2 ( 52.9450 ) 52.9450 psia weighted averages, volume and air mass temperature 84.49854 deg. F pressure 52.94970 psia vapor pressure 0.35177 psia volume dry air mass 343040 cu.
89496.91 ibm ft.
84
WNP2 1994 ILRT data set 14 time = 715 date = 719 sensor raw data value temperature 1 ( 106.230 106. 230 deg. F temperature 2 ( 94.190 94.190 deg. F temperature 3 ( 106.100 106.100 deg. F temperature 4 ( 82.810 82.810 deg. F temperature 5 ( 99.750 99.750 deg. F temperature 6 ( 83.390 83.390 deg. F temperature 7 ( 86.900 86.900 deg. F temperature 8 ( 84.470 84.470 deg. F temperature 9 ( 85.810 85.810 deg. F temperature 10 ( 102.320 102 '20 deg. F temperature 11 ( 103.560 103.560 deg. F temperature 12 ( 85.950 85.950 deg. F temperature 13 ( 86.480 86.480 deg. F temperature 14 ( 81.710 81.710 deg. F temperature 15 ( 76.600 76.600 deg. F temperature 16 ( 76.530 76.530 deg. F temperature 17 ( 76.560 76.560 deg. F temperature 18 ( 76.670 76. 670 deg. F dewpoint 63.770 63.770 degas F , 0.2926 psia dewpoint 63.170 63.170 deg>> F , 0.2865 psia dewpoint 63.860 63.860 deg~ F , 0.2935 psia dewpoint 63.850 63.850 deg F , 0.2934 psia dewpoint 76.090 76.090 degas F , 0.4455 psia dewpoint 75.810 75.810 deg~ F , 0.4414 psia pressure 1 ( 52.9476 52.9476 psia pressure 2 ( 52.9428 52.9428 psia weighted averages, volume and air mass temperature 84.48234 deg. F pressure 52.94760 psia vapor pressure 0.35320 psia volume dry air mass 343040 cu.
89493.57 ibm ft.
85
WNP2 1994 ILRT data set 15 time = 730 date = .719 sensor raw data value temperature 1 ( 106.280 106.280 deg. F temperature 2 ( 94 '30 94.230 deg. F temperature 3 ( 106.070 106.070 deg. F temperature 4 ( 82.800 82.800 deg. F temperature 5 ( 99.780 99.780 deg. F temperature 6 ( 83.380 83.380 deg. F temperature 7 ( 86.870 86.870 deg. F temperature 8 ( 84.470 84.470 deg. F temperature 9 ( 85.830 85.830 deg. F temperature 10 ( 102.350 102.350 deg. F temperature 11 ( 103.590 103.590 deg. F temperature 12 ( 85.940 85.940 deg. F temperature 13 ( 86.480 86.480 deg. F temperature 14 ( 81.740 81.740 deg. F temperature 15 ( 76.590 76.590 deg. F temperature 16 ( 76.500 76.500 deg. F temperature 17 ( 76.530 76.530 deg. F temperature 18 ( 76.640 76.640 deg. F dewpoint 1 63.900 63.900 deg. F , 0.2939 psia dewpoint 2 63.290 63.290 deg. F , 0.2877 psia dewpoint 3 63.980 63.980 deg. F , 0.2948 psia dewpoint 4 63.800 63.800 deg. F , 0.2929 psia dewpoint 5 76.010 76.010 deg. F , 0.4443 psia dewpoint 6 75.780 75.780 deg. F , 0.4410 psia pressure 1 ( 52.9456 52.9456 psia pressure 2 ( 52.9407 52.9407 psia weighted averages, volume and air mass temperature 84.47562 deg. F pressure 52.94560 psia vapor pressure 0.35341 psia volume air 343040 cu. ft.
dry mass 89490.92 ibm 86
WNP2 1994 ILRT data set 16 time = 745 date = 719 sensor raw data value temperature 1 ( 106.240 106.240 deg. F temperature 2 ( 94.260 94.260 deg. F temperature 3 ( 106.050 106.050 deg. F temperature 4 ( 82.810 82.810 deg. F temperature 5 ( 99.800 99.800 deg. F temperature 6 ( 83.370 83.370 deg. F temperature 7 ( 86.880 86.880 deg. F temperature 8 ( 84.460 84.460 deg. F temperature 9 ( 85.870 85.870 deg. F temperature 10 ( 102.360 102.360 deg. F temperature 11 ( 103.580 103.580 deg. F temperature 12 ( 85.930 85.930 deg. F temperature 13 ( 86.480 86.480 deg. F temperature 14 ( 81.730 81.730 deg. F temperature 15 ( 76.570 76.570 deg. F temperature 16 ( 76.490 76.490 deg. F temperature 17 ( 76.510 76.510 deg. F temperature 18 ( 76 '20 76.620 deg. F dewpoint 64.000 64.000 deg. F , 0.2950 psia dewpoint 63.380 63.380 deg. F , 0.2886 psia dewpoint 64.030 64.030 deg. F , 0 '953 psia dewpoint 63.850 63.850 deg. F , 0.2934 psia dewpoint 75.980 75.980 deg. F , 0.4439 psia dewpoint 75.810 75.810 deg. F , 0.4414 psia pressure 1 ( 52.9433 52.9433 psia pressure 2 ( 52.9386 52.9386 psia weighted averages, volume and air mass temperature 84.46965 deg. F pressure 52.94330 psia vapor pressure 0.35385 psia
~
volume dry air mass 343040 cu.
89487.24 ibm ft.
87
WNP2 1994 ILRT data set 17 time = 800 date = 719 sensor raw data value temperature 1 ( 106.270 106.270 deg. F temperature 2 ( 94.290 94.290 deg. F temperature 3 ( 106.000 106.000 deg. F temperature 4 ( 82.760 82.760 deg. F temperature 5 ( 99.830 99.830 deg. F temperature 6 ( 83.360 83.360 deg. F temperature 7 ( 86.890 86.890 deg. F temperature 8 ( 84.450 84.450 deg. F temperature 9 ( 85.750 85.750 deg. F temperature 10 ( 102.360 102.360 deg. F temperature 11 ( 103.600 103.600 deg. F temperature 12 ( 85.900 85.900 deg. F temperature 13 ( 86.460 86.460 deg. F temperature 14 ( 81.690 81.690 deg. F temperature 15 ( 76.540 76.540 deg. F temperature 16 ( 76.480 76.480 deg. F temperature 17 ( 76.500 76.500 deg. F temperature 18 ( 76.600 76.600 deg. F dewpoint 64.060 64.060 deg. F , 0.2956 psia dewpoint 63.460 63.460 deg. F , 0.2894 psia dewpoint 64.100 64.100 deg. F , 0.2960 psia dewpoint 63.980 63.980 deg. F , 0.2948 psia dewpoint 75.950 75.950 deg. F , 0.4435 psia de, oint 75.810 75.810 deg. F , 0.4414 psia pressure 1 ( 52. 9413 52.9413 psia pressure 2 ( 52.9364 52.9364 psia weighted averages, volume and air mass temperature 84.45032 deg. F pressure 52 '4130 psia vapor pressure 0.35426 psia volume air 343040 cu. ft.
dry mass 89486.31 ibm 88
WNP2 1994 XLRT data set 18 time = 815 date = 719 sensor raw data value temperature 1 ( 106.230 106.230 deg. F temperature 2 ( 94.320 94.320 deg. F temperature 3 ( 106.020 106.020 deg. F temperature 4 ( 82.790 82.790 deg. F temperature 5 ( 99.840 99.840 deg. F temperature 6 ( 83.350 83.350 deg. F temperature 7 ( 86.900 86.900 deg. F temperature 8 ( 84.440 84.440 deg. F temperature 9 ( 85.770 85.770 deg. F temperature 10 ( 102.370 102.370 deg. F temperature 11 ( 103.590 103.590 deg. F temperature 12 ( 85.880 85.880 deg. F temperature 13 ( 86.460 86.460 deg. F temperature 14 ( 81.660 81.660 deg. F temperature 15 ( 76.530 76.530 deg. F temperature 16 ( 76.450 76.450 deg. F temperature 17 ( 76.480 76.480 deg. F temperature 18 ( 76.590 76.590 deg. F dewpoint 64. 150 64.150 deg. F , 0.2965 psia dewpoint 63.530 63.530 deg. F , 0.2901 psia dewpoint 64.200 64.200 deg. F , 0.2970 psia dewpoint 64.000 64.000 deg. F , 0.2950 psia dewpoint 75.880 75.880 deg. F , 0.4424 psia dewpoint 75.750 75.750 deg. F , 0.4405 psia pressure 1 ( 52.9396 52.9396 psia pressure 2 ( 52.9346 52.9346 psia weighted averages, volume and air mass temperature 84.44405 deg. F pressure 52.93960 psia vapor pressure 0.35431 psia volume 343040 cu. ft.
dry air mass 89484.36 ibm 89
WNP2 1994 ILRT data set 19 time = 830 date = 719 sensor raw data value temperature 1 ( 106.250 106.250 deg. F temperature 2 ( 94.350 94.350 deg. F temperature 3 ( 105.930 105.930 deg. F temperature 4 ( 82.760 82.760 deg. F temperature 5 ( 99.870 99.870 deg. F temperature 6 ( 83.330 83.330 deg. F temperature 7 ( 86.850 86.850 deg. F temperature 8 ( 84.420 84.420 deg. F temperature 9 ( 85.770 85.770 deg. F temperature 10 ( 102 '80 102.380 deg. F temperature 11 ( 103.600 103.600 deg. F temperature 12 ( 85.890 85.890 deg. F temperature 13 ( 86.440 86.440 deg. F temperature 14 ( 81.690 81.690 deg. F temperature 15 ( 76.500 76.500 deg. F temperature 16 ( 76.440 76.440 deg. F temperature 17 ( 76.460 76.460 deg. F temperature 18 ( 76.570 76.570 deg. F dewpoint 1 64. 260 64.260 deg. F , 0.2977 psia dewpoint 2 63.650 63.650 deg. F , 0.2914 psia dewpoint 3 64.290 64.290 deg. F , 0.2980 psia dewpoint 4 64.100 64.100 deg. F , 0.2960 psia dewpoint 5 75.620 75.620 deg. F , 0.4386 psia dewpoint 6 75.750 75.750 deg. F , 0.4405 psia pressure 1 ( 52.9377 52.9377 psia pressure 2 ( 52.9327 52.9327 psia weighted averages, volume and air mass temperature 84.43074 deg. F pressure 52.93770 psia vapor pressure 0.35418 psia volume dry air mass 343040 cu.
89483.54 ibm ft.
90
WNP2 1994 ILRT data set 20 time = 845 date = 719 sensor raw data value temperature 1 ( 106.240 106.240 deg. F temperature 2 (* 94.390 94.390 deg. F temperature 3 ( 105.930 105.930 deg. F temperature 4 ( 82.760 82.760 deg. F temperature 5 ( 99.890 99.890 deg. F temperature 6 ( 83.320 83.320 deg. F temperature 7 ( 86.880 86.880 deg. F temperature 8 ( 84.420 84.420 deg. F temperature 9 ( 85.790 85.790 deg. F temperature-10 ( 102.400 102.400 deg.
temperature ll ( 103.620 temperature 12 ( 85.870 103.620 85.870 deg.
deg.
F F
F temperature 13 ( 86.460 86.460 deg. F temperature 14 ( 81.660 81.660 deg. F temperature 15 ( 76.500 76.500 deg. F temperature 16 ( 76.430 76.430 deg. F temperature 17 ( 76.460 76.460 deg. F temperature 18 ( 76.570 76.570 deg. F dewpoint 1 64.300 64.300 deg. F , 0.2981 psia dewpoint 2 63.720 63.720 deg. F , 0.2921 psia dewpoint 3 64.450 64.450 deg. F , 0.2996 psia dewpoint 4 64.290 64.290 deg. F , 0.2980 psia dewpoint 5 75.720 75.720 deg. F , 0.4401 psia dewpoint 6 75.680 75.680 deg. F , 0.4395 psia pressure 1 ( 52.9357 52.9357 psia pressure 2 ( 52.9308 52.9308 psia weighted averages, volume and air mass temperature 84.43291 deg. F pressure 52.93570 psia vapor pressure 0.35496 psia volume 343040 cu. ft.
dry air mass 89478.45 ibm 91
WNP2 1994 ILRT data set 21 time = 900 date = 719 sensor raw data value temperature 1 ( 106.240 106.240 deg. F temperature 2 ( 94.430 94.430 deg. F temperature 3 ( 105.890 105.890 deg. F temperature 4 ( 82.710 82.710 deg. F temperature 5 ( 99.910 99.910 deg. F temperature 6 ( 83.300 83.300 deg. F temperature 7 ( 86.860 86.860 deg. F temperature 8 ( 84.400 84.400 deg. F temperature 9 ( 85.730 85.730 deg. F temperature 10 ( 102.380 102.380 deg. F temperature 11 ( 103.610 103.610 deg. F temperature 12 ( 85.890 85.890 deg. F temperature 13 ( 86.440 86.440 deg. F temperature 14 ( 81.680 81.680 deg. F temperature 15 ( 76.470 76.470 deg. F temperature 16 ( 76.420 76.420 deg. F temperature 17 ( 76.430 76.430 deg. F temperature 18 ( 76.540 76.540 deg. F dewpoint 64. 410 64.410 deg. F , 0.2992 psia dewpoint 63.840 63.840 deg. F , 0.2933 psia dewpoint 64.500 64.500 deg. F , 0.3002 psia dewpoint 64.290 64.290 deg. F , 0.2980 psia dewpoint 75.640 75.640 deg. F , 0.4389 psia dewpoint 75.690 75.690 deg. F , 0.4396 psia pressure 1 ( 52.9340 52.9340 psia pressure 2 ( 52.9292 52.9292 psia weighted averages, volume and air mass temperature 84.41492 deg. F pressure 52.93400 psia vapor pressure 0.35521 psia volume air 343040 cu. ft.
dry mass 89478.09 ibm 92
WNP2 1994 ILRT data set 22 time = 915 date = 719 sensor raw data value temperature 1 ( 106.250 106.250 deg. F temperature 2 ( 94.460 94.460 deg. F temperature 3 ( 105.830 105.830 deg. F temperature 4 ( 82.710 82.710 deg. F temperature 5 ( 99.930 99.930 deg. F temperature 6 ( 83.300 83.300 deg. F temperature 7 ( 86.850 86.850 deg. F temperature 8 ( 84.390 84 '90 deg. F temperature 9 ( 85.740 85.740 deg. F temperature 10 ( 102.400 102.400 deg. F temperature 11 ( 103.620 103.620 deg. F temperature 12 ( 85.910 85.910 deg. F temperature 13 ( 86.440 86.440 deg. F temperature 14 ( 81.660 81.660 deg. F temperature 15 ( 76.460 76.460 deg. F temperature 16 ( 76.390 76.390 deg. F temperature 17 ( 76.420 76.420 deg. F temperature 18 ( 76.520 76.520 deg. F dewpoint 1 64.500 ) 64.500 deg. F , 0.3002 psia dewpoint 2 63.900 ) 63.900 deg. F , 0.2939 psia dewpoint 3 64.550 ) 64.550 deg. F , 0.3007 psia dewpoint 4 64.330 ) 64.330 deg. F , 0.2984 psia dewpoint 5 75.560 ) 75.560 deg. F , 0.4377 psia dewpoint 6 75.690 ) 75.690 deg. F , 0.4396 psia pressure 1 ( 52.9326 ) 52.9326 psia pressure 2 ( 52.9275 ) 52.9275 psia weighted averages, volume and air mass temperature 84.40765 deg. F pressure 52.93260 psia vapor pressure 0.35534 psia volume dry air mass 343040 cu.
89476.68 ibm ft.
93
WNP2 1994 ILRT data set 23 time = 930 date = 719 sensor raw data value temperature 1 ( 106.220 106.220 deg. F temperature 2 ( 94.510 94.510 deg. F temperature 3 ( 105.820 105.820 deg. F temperature 4 ( 82 '20 82.720 deg. F temperature 5 ( 99.960 99.960 deg. F temperature 6 ( 83.290 83.290 deg. F temperature 7 ( 86.840 86.840 deg. F temperature 8 ( 84.390 84.390 deg. F temperature 9 ( 85.780 85.780 deg. F temperature 10 ( 102.400 102.400 deg. F temperature 11 ( 103.620 103.620 deg. F temperature 12 ( 85.880 85.880 deg. F temperature 13 ( 86.430 86.430 deg. F temperature 14 ( 81.650 81.650 deg. F temperature 15 ( 76.450 76.450 deg. F temperature 16 ( 76.370 76.370 deg. F temperature 17 ( 76.400 76.400 deg. F temperature 18 ( 76.510 76.510 deg. F dewpoint 64.610 64.610 deg. F, 0.3013 psia dewpoint 64.020 64.020 deg. F , 0.2952 psia dewpoint 64.680 64.680 deg. F , 0.3021 psia dewpoint 64.460 64.460 deg. F , 0.2997 psia dewpoint 75.590 75.590 deg. F , 0.4382 psia dewpoint 75.660 75.660 deg. F , 0.4392 psia pressure 1 ( 52.9309 52.9309 psia pressure 2 ( 52.9261 52.9261 psia weighted averages, volume and air mass temperature 84.40237 deg. F pressure 52'93090 psia vapor pressure 0.35610 psia volume dry air mass 343040 cu.
89473.37 ibm ft.
94
WNP2 1994 XLRT data set 24 time = 945 date = 719 sensor raw data value temperature 1 ( 106.230 106.230 deg. F temperature 2 ( 94.530 94.530 deg. F temperature 3 ( 105.810 105.810 deg. F temperature 4, ( 82.700 82.700 deg. F temperature 5 ( 99.970 99.970 deg. F temperature 6 ( 83.290 83.290 deg. F temperature 7 ( 86.840 86.840 deg. F temperature 8 ( 84.370 84.370 deg. F temperature 9 ( 85.730 85.730 deg. F temperature 10 ( 102.420 102.420 deg. F temperature 11 ( 103.620 103.620 deg. F temperature 12 ( 85.870 85.870 deg. F temperature 13 ( 86.430 86.430 deg. F temperature 14 ( 81.650 81.650 deg. F temperature 15 ( 76.430 76.430 deg. F temperature 16 ( 76.360 76.360 deg. F temperature 17 ( 76.380 76.380 deg. F temperature 18 ( 76.490 76.490 deg. F dewpoint 1 64.690 64.690 deg. F, 0. 3022 psia dewpoint 2 64.100 64.100 deg. F , 0.2960 psia dewpoint 3 64.740 64.740 deg. F , 0.3027 psia dewpoint 4 64.500 64.500 deg. F , 0.3002 psia dewpoint 5 75.560 75.560 deg. F , 0.4377 psia dewpoint 6 75.640 75.640 deg. F , 0.4389 psia pressure 1 ( 52.9296 52.9296 psia pressure 2 ( 52.9246 52.9246 psia weighted averages, volume and air mass temperature 84.39194 deg. F pressure 52.92960 psia vapor pressure 0.35636 psia volume dry air mass 343040 cu.
89472.43 ibm ft.
95
WNP2 1994 ILRT data set 25 time = 1000 date = 719 sensor raw data value temperature 1 ( 106.190 106. 190 deg. F temperature 2 ( 94.560 94.560 deg. F temperature 3 ( 105.780 105.780 deg. F temperature 4 ( 82.710 82.710 deg. F temperature 5 ( 99.990 99.990 deg. F temperature 6 ( 83.270 83.270 deg. F temperature 7 ( 86.820 86.820 deg. F temperature 8 ( 84 '10 84.410 deg. F temperature 9 ( 85.700 85.700 deg. F temperature 10 ( 102.420 ) 102.420 deg. F temperature 11 ( 103.620 ) 103.620 deg. F temperature 12 ( 85.880 ) 85.880 deg. F temperature 13 ( 86.440 ) 86.440 deg. F temperature 14 ( 81.660 ) 81.660 deg. F temperature 15 ( 76.400 ) 76.400 deg. F temperature 16 ( 76.340 ) 76.340 deg. F temperature 17 ( 76 '60 ) 76.360 deg. F temperature 18 ( 76.470 ) 76.470 deg. F dewpoint 1 64 ~ 740 ) 64.740 deg. F, 0. 3027 psia dewpoint 2 64.150 ) 64.150 deg. F , 0.2965 psia dewpoint 3 64.820 ) 64.820 deg. F , 0.3035 psia dewpoint 4 64.690 ) 64.690 deg. F , 0.3022 psia dewpoint 5 75.410 ) 75.410 deg. F , 0.4356 psia dewpoint 6 75.600 ) 75.600 deg. F , 0.4383 psia pressure 1 ( 52.9285 ) 52.9285 psia pressure 2 ( 52 '236 ) 52.9236 psia weighted averages, volume and air mass temperature 84.38297 deg. F pressure 52.92850 psia vapor pressure 0.35633 psia volume dry air mass 343040 cu.
89472.08 ibm ft.
96
WNP2 1994 ILRT data set 26 time = 1015 date = 719 sensor raw data value temperature 1 ( 106.170 106. 170 deg. F temperature 2 ( 94 '10 94.610 deg. F temperature 3 ( 105.730 105.730 deg. F temperature 4 ( 82.680 82.680 deg. F temperature 5 ( 100-010 100.010 deg. F temperature 6 ( 83.280 83.280 deg. F temperature 7 ( 86.830 86.830 deg. F temperature 8 ( 84.390 84.390 deg. F temperature 9 ( 85.750 85.750 deg. F temperature 10 ( 102.430 102.430 deg. F temperature 11 ( 103.620 103.620 deg. F temperature 12 ( 85.860 85.860 deg. F temperature 13 ( 86.440 86.440 deg. F temperature 14 ( 81.620 81.620 deg. F temperature 15 ( 76.390 76.390 deg. F temperature 16 ( 76.330 76.330 deg. F temperature 17 ( 76.350 76.350 deg. F temperature 18 ( 76.450 76.450 deg. F dewpoint 1 ( 64.870 64.870 deg. F, 0. 3041 psia dewpoint 2 ( 64.240 64.240 deg. F , 0.2975 psia dewpoint 3 ( 64.920 64.920 deg. F , 0.3046 psia dewpoint ( 64 '20 64.720 deg. F , 0.3025 psia dewpoint 5 ( 75.440 75.440 deg. F , 0.4360 psia dewpoint 6 ( 75.570 75.570 deg. F , 0.4379 psia pressure 1 ( 52.9270 52.9270 psia pressure 2 ( 52.9221 52.9221 psia weighted averages, volume and air mass temperature 84.37601 deg. F pressure 52.92700 psia vapor pressure 0.35688 psia volume 343040 cu. ft.
dry air mass 89469.73 ibm 97
WNP2 1994 ILRT data set 27 time = 1030 date = 719 sensor raw data value temperature 1 ( 106.160 106. 160 deg. F temperature 2 ( 94.630 94.630 deg. F temperature 3 ( 105.730 105.730 deg. F temperature 4 ( 82.700 82.700 deg. F temperature 5 ( 100.030 100.030 deg. F temperature 6 ( 83.280 83.280 deg. F temperature 7 ( 86.850 86.850 deg. F temperature 8 ( 84.370 84.370 deg. F temperature 9 ( 85.730 85.730 deg. F temperature 10 ( 102.430 102.430 deg. F temperature 11 ( 103.610 103.610 deg. F temperature 12 ( 85.810 85.810 deg. F temperature 13 ( 86.430 86.430 deg. F temperature 14 ( 81.630 81.630 deg. F temperature 15 ( 76.380 76.380 deg. F temperature 16 ( 76.310 76.310 deg. F temperature 17 ( 76.330 76.330 deg. F temperature 18 ( 76.430 76.430 deg. F dewpoint 64.870 64.870 deg. F, 0. 3041 psia dewpoint 64.340 64.340 deg. F , 0.2985 psia dewpoint 64.990 64.990 deg. F , 0.3053 psia dewpoint 64.750 64.750 deg. F , 0.3028 psia dewpoint 75.370 75.370 deg. F , 0.4350 psia dewpoint 75.560 75.560 deg. F , 0.4377 psia pressure 1 ( 52.9254 52.9254 psia pressure 2 ( 52.9206 52.9206 psia weighted averages, volume and air mass temperature 84.36774 deg. F pressure 52.92540 psia vapor pressure 0.35701 psia volume air 343040 cu. ft.
dry mass 89468.15 ibm 98
WNP2 1994 ILRT data set 28 time = 1045 date = 719 sensor raw data value temperature 1 ( 106. 170 106. 170 deg. F temperature 2 ( 94. 670 94.670 deg. F temperature 3 ( 105.640 105.640 deg. F temperature 4 ( 82.700 82.700 deg. F temperature 5 ( 100.060 100.060 deg. F temperature 6 ( 83.270 83.270 deg. F temperature 7 ( 86.840 86.840 deg. F temperature 8 ( 84.380 84.380 deg. F temperature 9 ( 85.730 85.730 deg. F temperature 10 ( 102.430 102.430 deg. F temperature 11 ( 103.630 103.630 deg. F temperature 12 ( 85.830 85.830 deg. F temperature 13 ( 86.450 86.450 deg. F temperature 14 ( 81.630 81.630 deg. F temperature 15 ( 76.360 76.360 deg. F temperature 16 ( 76.300 76.300 deg. F temperature 17 ( 76.320 76.320 deg. F temperature 18 ( 76.430 76.430 deg. F dewpoint ( 64.990 64.990 deg. F , 0.3053 psia dewpoint ( .64.380 64.380 deg. F , 0.2989 psia dewpoint ( 65.080 65.080 deg. F , 0.3063 psia dewpoint ( 64.880 64.880 deg. F , 0.3042 psia dewpoint ( 75.390 75.390 deg. F , 0.4353 psia dewpoint ( 75.530 75.530 deg. F , 0.4373 psia pressure 1 ( 52.9246 52.9246 psia pressure 2 ( 52.9194 52.9194 psia weighted averages, volume and air mass temperature 84.36472 deg. F pressure 52.92460 psia vapor pressure 0.35753 psia volume 343040 cu. ft.
dry air mass 89466.41 ibm 99
WNP2 1994 ILRT data set 29 time = 1100 date = 719 sensor raw data value temperature 1 ( 106. 180 106. 180 deg. F temperature 2 ( 94.690 94.690 deg. F temperature 3 ( 105.660 105.660 deg. F temperature 4 ( 82.700 82.700 deg. F temperature 5 ( 100.070 100.070 deg. F temperature 6 ( 83.270 83.270 deg. F temperature 7 ( 86.890 86.890 deg. F temperature 8 ( 84.400 84.400 deg. F temperature 9 ( 85.750 85.750 deg. F temperature 10 ( 102.450 102.450 deg. F temperature 11 ( 103.630 103.630 deg. F temperature 12 ( 85.840 85.840 deg. F temperature 13 ( 86.470 86.470 deg. F temperature 14 ( 81.630 81.630 deg. F temperature 15 ( 76.350 76.350 deg. F temperature 16 ( 76.280 76.280 deg. F temperature 17 ( 76.310 76.310 deg. F temperature 18 ( 76.410 76.410 deg. F dewpoint 1 65- 120 65.120 deg. F , 0.3067 psia dewpoint 2 64.470 64.470 deg. F , 0.2999 psia dewpoint 3 65. 170 65.170 deg. F , 0.3073 psia dewpoint 4 64.880 64.880 deg. F , 0.3042 psia dewpoint 5 75.320 75.320 deg. F , 0.4343 psia dewpoint 6 75.530 75.530 deg. F , 0.4373 psia pressure 1 ( 52-9235 52.9235 psia pressure 2 ( 52.9184 52.9184 psia weighted averages, volume and air mass temperature 84.36665 deg. F pressure 52.92350 psia vapor pressure 0.35782 psia volume 343040 cu. ft.
dry air mass 89463.72 ibm 100
WNP2 1994 ILRT data set 30 time = 1115 date = 719 sensor raw data value temperature 1 ( 106. 170 106. 170 deg. F temperature 2 ( 94.750 94.750 deg. F temperature 3 ( 105.600 105.600 deg. F temperature 4 ( 82.700 82.700 deg. F temperature 5 ( 100.100 100.100 deg. F temperature 6 ( 83.270 83.270 deg. F temperature 7 ( 86.870 86.870 deg. F temperature 8 ( 84.400 84.400 deg. F temperature 9 ( 85.770 85.770 deg. F temperature 10 ( 102.440 102.440 deg. F temperature 11 ( 103.630 103.630 deg. F temperature 12 ( 85.860 85.860 deg. F temperature 13 ( 86.460 86.460 deg. F temperature 14 ( 81.600 81.600 deg. F temperature 15 ( 76.340 76.340 deg. F temperature 16 ( 76.270 76.270 deg. F temperature 17 ( 76.280 76.280 deg. F temperature 18 ( 76.400 76.400 deg. F dewpoint 65.250 65.250 deg. F, 0. 3081 psia dewpoint, 64.600 64.600 deg. F , 0.3012 psia dewpoint 65.310 65.310 deg. F , 0.3088 psia dewpoint 65.030 65.030 deg. F , 0.3058 psia dewpoint 75.310 75.310 deg. F , 0.4341 psia dewpoint 75.500 75.500 deg. F , 0.4369 psia pressure 1 ( 52.9223 52.9223 psia pressure 2 ( 52.9170 52.9170 psia weighted averages, volume and air mass temperature 84.35975 deg. F pressure 52.92230 psia vapor pressure 0.35856 psia volume 343040 cu. ft.
dry air mass 89461.55 ibm 101
WNP2 1994 ILRT data set 31 time = 1130 date = 719 sensor raw data value temperature 1 ( 106.160 106.160 deg. F temperature 2 ( 94.780 94-780 deg. F temperature 3 ( 105.570 105.570 deg. F temperature 4 ( 82.690 82.690 deg. F temperature 5 ( 100 '20 100.120 deg. F temperature 6 ( 83.270 83 '70 deg. F temperature 7 ( 86.880 86.880 deg. F temperature 8 ( 84.390 84.390 deg. F temperature 9 ( 85 '80 85.680 deg. F temperature 10 ( 102.450 102.450 deg. F temperature 11 ( 103.620 103 620 deg. F temperature 12 ( 85.830 85.830 deg. F temperature 13 ( 86.460 86.460 deg. F temperature 14 ( 81.620 81.620 deg. F temperature 15 ( 76.330 76.330 deg. F temperature 16 ( 76.260 76.260 deg. F temperature 17 ( 76.280 76.280 deg. F temperature 18 ( 76.380 76.380 deg. F dewpoint 65. 280 65.280 deg. F , 0.3084 psia dewpoint 64. 680 64.680 deg. F , 0.3021 psia dewpoint 65.380 65.380 deg. F , 0.3095 psia dewpoint 65.050 65.050 deg. F , 0.3060 psia dewpoint 75.340 75.340 deg. F , 0.4345 psia dewpoint 75.490 75.490 deg. F , 0.4367 psia pressure 1 ( 52.9211 52.9211 psia pressure 2 ( 52 '159 52.9159 psia weighted averages, volume and air mass temperature 84.35135 deg. F pressure 52.92110 psia vapor pressure 0.35897 psia volume 343040 cu. ft.
dry air mass 89460.19 ibm 902
WNP2 1994 ILRT data set 32 time = 1145 date = 719 sensor raw data value temperature 1 ( 106. 170 106. 170 deg. F temperature 2 ( 94.800 94.800 deg. F temperature 3 ( 105.580 105.580 deg. F temperature 4 ( 82.700 82.700 deg. F temperature 5 ( 100.140 100.140 deg. F temperature 6 ( 83.280 83.280 deg. F temperature 7 ( 86.870 86.870 deg. F temperature 8 ( 84.400 84.400 deg. F temperature 9 ( 85.680 85.680 deg. F temperature 10 ( 102.450 102.450 deg. F temperature 11 ( 103.610 103.610 deg. F temperature 12 ( 85 '70 85.870 deg. F temperature 13 ( 86.460 86.460 deg. F temperature 14 ( 81.590 81.590 deg. F temperature 15 ( 76.310 76.310 deg. F temperature 16 ( 76.240 76.240 deg. F temperature 17 ( 76.260 76.260 deg. F temperature 18 ( 76 '60 76.360 deg. F dewpoint 65 '10 65.310 deg. F , 0.3088 psia dewpoint 64.760 64.760 deg. F , 0.3029 psia dewpoint 65.490 65.490 deg. F , 0.3107 psia dewpoint 65.070 65.070 deg. F , 0.3062 psia dewpoint 75.250 75.250 deg. F , 0.4332 psia dewpoint 75.460 75.460 deg. F , 0.4363 psia pressure 1 ( 52.9201 52.9201 psia pressure 2 ( 52.9150 52.9150 psia weighted averages, volume and air mass temperature 84.34604 deg. F pressure 52.92010 psia vapor pressure 0.35904 psia volume 343040 cu. ft.
dry air mass 89459.24 ibm 103
WNP2 1994 ILRT data set 33 time = 1200 date = 719 sensor raw data value temperature 1 ( 106.150 106.150 deg. F temperature 2 ( 94.840 94.840 deg. F temperature 3 ( 105.560 105.560 deg. F temperature 4 ( 82.730 82.730 deg. F temperature 5 ( 100.150 100.150 deg. F temperature 6 ( 83.280 83.280 deg. F temperature 7 ( 86.870 86.870 deg. F temperature 8 ( 84.390 84'.390 deg. F temperature 9 ( 85.670 85.670 deg. F temperature 10 ( 102 '60 102.460 deg. F temperature temperature ll 12
(
(
103.620 85.850 103.620 85.850 deg.
deg.
F F
temperature 13 ( 86.480 86.480 deg. F temperature 14 ( 81.640 81 '40 deg. F temperature 15 ( 76.290 76.290 deg. F temperature 16 ( 76.230 76.230 deg. F temperature 17 ( 76.250 76.250 deg. F temperature 18 ( 76.350 76.350 deg. F dewpoint 65.460 65.460 deg. F, 0. 3104 psia dewpoint 64.820 64.820 deg. F, 0.3035 psia dewpoint 65.530 65.530 deg. F, 0. 3111 psia dewpoint 65.150 65.150 deg. F, 0. 3071 psia dewpoint 75.230 75.230 deg. F , 0.4330 psia dewpoint 75.450 75.450 deg. F , 0.4361 psia pressure 1 ( 52.9193 52.9193 psia pressure 2 ( 52.9142 52.9142 psia weighted averages, volume and air mass temperature 84.34559 deg. F pressure 52.91930 psia vapor pressure 0.35944 psia volume 343040 cu. ft.
dry air mass 89457.29 ibm 104
WNP2 1994 ILRT data set 34 time = 1215 date = 719 sensor raw data value temperature 1 ( 106. 140 106. 140 deg. F temperature 2 ( 94 ~ 870 94.870 deg. F temperature 3 ( 105.480 105.480 deg. F temperature 4 ( 82.790 82.790 deg. F temperature 5 ( 100.180 100.180 deg. F temperature 6 ( 83.300 83.300 deg. F temperature 7 ( 86.880 86.880 deg. F temperature 8 ( 84.420 84.420 deg. F temperature 9 ( 85.680 85.680 deg. F temperature 10 ( 102.480 102.480 deg. F temperature 11 ( 103.620 103.620 deg. F temperature 12 ( 85.850 85.850 deg. F temperature 13 ( 86.510 86.510 deg. F temperature 14 ( 81.630 81.630 deg. F temperature 15 ( 76.280 76.280 deg. F temperature 16 ( 76.220 76.220 deg. F temperature 17 ( 76.240 76.240 deg. F temperature 18 ( 76.340 76.340 deg. F dewpoint 65.490 65.490 deg. F / 0. 3107 psia dewpoint 64.890 64.890 deg. F , 0.3043 psia dewpoint 65.620 65.620 deg. F , 0.3121 psia dewpoint 65.280 65.280 deg. F , 0.3084 psia dewpoint 75.220 75.220 deg. F , 0.4328 psia dewpoint 75.420 75.420 deg. F , 0.4357 psia pressure 1 ( 52. 9186 52.9186 psia pressure 2 ( 52.9136 52.9136 psia weighted averages, volume and air mass temperature 84.34883 deg. F pressure 52.91860 psia vapor pressure 0.35982 psia volume 343040 cu. ft.
dry air mass 89454.90 ibm 105
WNP2 1994 ILRT data set 35 time = 1230 date = 719 sensor raw data value temperature 1 ( 106. 150 106. 150 deg. F temperature 2 ( 94.900 94.900 deg. F temperature 3 ( 105.480 105.480 deg. F temperature 4 ( 82.770 82 '70 deg. F temperature 5 ( 100.200 100.200 deg. F temperature 6 ( 83.300 83.300 deg. F temperature 7 ( 86.890 86.890 deg. F temperature 8 ( 84.430 84.430 deg. F temperature 9 ( 85.750 85.750 deg. F temperature 102.480 102.480 deg. F temperature temperature ll 10 (
12
(
(
103 '30 85.850 103.630 deg. F 85.850 deg. F temperature 13 ( 86 '10 86.510 deg. F temperature 14 ( 81 '40 81.640 deg. F temperature 15 ( 76.270 76.270 deg. F temperature 16 ( 76.200 76.200 deg. F temperature 17 ( 76.220 76.220 deg. F temperature 18 ( 76.330 76.330 deg. F dewpoint 65.590 65.590 deg. F , 0.3118 psia dewpoint 64.990 64.990 deg. F , 0.3053 psia dewpoint 65.640 65.640 deg. F , 0.3123 psia dewpoint 65.340 65.340 deg. F , 0.3091 psia dewpoint 75.190 75.190 deg. F , 0.4324 psia dewpoint 75.430 75.430 deg. F , 0.4359 psia pressure 1 ( 52 9177
~ 52.9177 psia pressure 2 ( 52. 9129 52.9129 psia weighted averages, volume and air mass temperature 84.34828 deg. F pressure 52.91770 psia vapor pressure 0.36021 psia volume 343040 cu. ft.
dry air mass 89452.81 ibm .
106
WNP2 1994 ILRT data set 36 time = 1245 date = 719 sensor raw data value temperature 1 ( 106.160 106.160 deg. F temperature 2 ( 94.940 94.940 deg. F temperature 3 ( 105.420 105.420 deg. F temperature 4 ( 82.800 82.800 deg. F temperature 5 ( 100.220 100.220 deg. F temperature 6 ( 83.320 83.320 deg. F temperature 7 ( 86.920 86.920 deg. F temperature 8 ( 84.450 84.450 deg. F temperature 9 ( 85.750 85.750 deg. F temperature 10 ( 102.500 102.500 deg. F temperature 11 ( 103.640 103.640 deg. F temperature 12 ( 85.890 85.890 deg. F temperature 13 ( 86.530 86.530 deg. F temperature 14 ( 81.680 81.680 deg. F temperature 15 ( 76.250 76.250 deg. F temperature 16 ( 76.190 76 '90 deg. F temperature 17 ( 76.210 76.210 deg. F temperature 18 ( 76.320 76.320 deg. F dewpoint 65.640 65.640 deg. F, 0. 3123 psia dewpoint 65.060 65.060 deg. F / 0.3061 psia dewpoint 65.780 65.780 deg. F , 0.3139 psia dewpoint 65 '10 65.410 deg. F , 0.3098 psia dewpoint 75.180 75.180 deg. F , 0.4322 psia dewpoint 75.420 75.420 deg. F , 0.4357 psia pressure 1 ( 52.9175 52.9175 psia pressure 2 ( 52.9128 52.9128 psia weighted averages, volume and air mass temperature 84.35413 deg. F pressure 52.91750 psia vapor pressure 0.36070 psia volume 343040 cu. ft.
dry air mass 89450.67 ibm 107
WNP2 1994 ILRT data set 37 time = 1300 date = 719 sensor raw data value temperature 1 ( 106. 190 106. 190 deg. F temperature 2 ( 94.980 94.980 deg. F temperature 3 ( 105.420 105.420 deg. F temperature 4 ( 82.800 82.800 deg. F temperature 5 ( 100.240 100.240 deg. F temperature 6 ( 83;350 83.350 deg. F temperature 7 ( 86.940 86.940 deg. F temperature 8 ( 84.460 84.460 deg. F temperature 9 ( 85.780 85.780 deg. F temperature 10 ( 102.510 102.510 deg. F temperature 11 ( 103.650 103.650 deg. F temperature 12 ( 85.870 85.870 deg. F temperature 13 ( 86.540 86.540 deg. F temperature 14 ( 81.640 81.640 deg. F temperature 15 ( 76.250 76.250 deg. F temperature 16 ( 76.180 76.180 deg. F temperature 17 ( 76.200 76.200 deg. F temperature 18 ( 76.300 76.300 deg. F dewpoint 65.690 65.690 deg. F, 0. 3129 psia dewpoint 65.140 65.140 deg. F , 0.3069 psia dewpoint 65.790 65.790 deg. F , 0.3140 psia dewpoint 65.450 65.450 deg. F , 0.3103 psia dewpoint 75.120 75.120 deg. F , 0.4314 psia dewpoint 75.410 75.410 deg. F , 0.4356 psia pressure 1 ( 52.9169 52.9169 psia pressure 2 ( 52.9121 52.9121 psia weighted averages, volume and air mass temperature 84.35500 deg. F pressure 52.91690 psia vapor pressure 0.36079 psia volume air 343040 cu. ft.
dry mass 89449.36 ibm 108
WNP2 1994 ILRT data set 38 time = 1315 date = 719 sensor raw data value temperature 1 ( 106.170 106. 170 deg. F temperature 2 ( 95.020 95.020 deg. F temperature 3 ( 105.410 105.410 deg. F temperature 4 ( 82.840 82.840 deg. F temperature 5 ( 100.280 ) 100.280 deg. F temperature 6 ( 83 '70 ) 83.370 deg. F temperature 7 ( 86.980 ) 86.980 deg. F temperature 8 ( 84.470 84.470 deg. F temperature 9 ( 85.780 85.780 deg. F temperature 10 ( 102.520 102.520 deg. F temperature 11 ( 103.650 103.650 deg. F temperature 12 ( 85.890 85.890 deg. F temperature 13 ( 86.550 86.550 deg. F temperature 14 ( 81.680 81.680 deg. F temperature 15 ( 76.230 76.230 deg. F temperature 16 ( 76.160 76.160 deg. F temperature 17 ( 76.190 76.190 deg. F temperature 18 ( 76.290 76.290 deg. F dewpoint 1 65.780 65.780 deg. F, 0. 3139 psia dewpoint 2 65.210 65.210 deg. F, 0. 3077 psia dewpoint 3 65.910 65.910 deg. F , 0.3153 psia dewpoint 65.610 65.610 deg. F, 0. 3120 psia dewpoint 5 75.080 75.080 deg. F , 0.4308 psia dewpoint 6 75.390 75.390 deg. F , 0.4353 psia pressure 1 ( 52.9152 52.9152 psia pressure 2 ( 52.9103 52.9103 psia weighted averages, volume and air mass temperature 84.36047 deg. F pressure 52.91520 psia vapor pressure 0.36129 psia volume air 343040 cu. ft.
dry mass 89444. 71 ibm 109
WNP2 1994 ZLRT data set 39 time = 1330 date = 719 sensor raw data value temperature 1 ( 106.150 106.150 deg. F temperature 2 ( 95.040 95.040 deg. F temperature 3 ( 105.370 105.370 deg. F temperature 4 ( 82.830 82.830 deg. F temperature 5 ( 100.280 100.280 deg. F temperature 6 ( 83.370 83.370 deg. F temperature 7 ( 86.990 86.990 deg. F temperature 8 ( 84.490 84.490 deg. F temperature 9 ( 85.720 85.720 deg. F temperature 10 ( 102.550 102.550 deg. F temperature 11 ( 103.660 103.660 deg. F temperature 12 ( 85.930 85.930 deg. F temperature 13 ( 86.550 86.550 deg. F temperature 14 ( 81.660 81.660 deg. F temperature 15 ( 76.220 76.220 deg. F temperature 16 ( 76.170 76.170 deg. F temperature 17 ( 76.180 76.180 deg. F temperature 18 ( 76.280 76.280 deg. F dewpoint dewpoint 1 65.850 65.850 deg. F, 0. 3146 psia 2 65.280 65.280 deg. F , 0.3084 psia dewpoint 3 66.010 66.010 deg. F , 0.3164 psia dewpoint 4 65.670 65.670 deg. F , 0.3127 psia dewpoint 5 75.030 75.030 deg. F , 0.4301 psia dewpoint 6 75.390 75.390 deg. F , 0.4353 psia pressure 1 ( 52. 9139 52.9139 psia pressure 2 ( 52.9092 52.9092 psia weighted averages, volume and air mass temperature 84.35738 deg. F pressure 52.91390 psia vapor pressure 0.36163 psia volume air 343040 cu. ft.
dry mass 89442.42 ibm 110
WNP2 1994 ILRT data set 40 time = 1345 date = 719 sensor raw data value temperature 1 ( 106.120 106.120 deg. F temperature 2 ( 95.070 95.070 deg. F temperature 3 ( 105.300 105.300 deg. F temperature 4 ( 82.840 82.840 deg. F temperature 5 ( 100.300 100.300 deg. F temperature 6 ( 83.370 83.370 deg. F temperature 7 ( 86.990 86.990 deg. F temperature 8 ( 84.480 84.480 deg. F temperature 9 ( 85.750 85.750 deg. F temperature 10 ( 102.540 102.540 deg. F temperature 11 ( 103.640 103.640 deg. F temperature 12 ( 85.890 85.890 deg. F temperature 13 ( 86.560 86.560 deg. F temperature 14 ( 81.710 81.710 deg. F temperature 15 ( 76 '10 76 '10 deg. F temperature 16 ( 76.150 76.150 deg. F temperature 17 ( 76.170 76.170 deg. F temperature 18 ( 76.270 76.270 deg. F dewpoint dewpoint 1 ( 65.920 65.920 deg. F, 0. 3154 psia 2 ( 65.380 65.380 deg. F , 0.3095 psia dewpoint 3 ( 66.070 66.070 deg. F , 0.3170 psia dewpoint 4' 65.630 65.630 deg. F 0.3122 psia dewpoint 5 ( 74.970 74.970 deg. F , 0.4292 psia dewpoint 6 ( 75.350 75.350 deg. F , 0.4347 psia pressure 1 ( 52. 9128 52.9128 psia pressure 2 ( 52.9083 52.9083 psia weighted averages, volume and air mass temperature 84.35290 deg. F pressure 52.91280 psia vapor pressure 0.36170 psia volume dry air mass 343040 cu.
89441.17 ibm ft.
111
WNP2 1994 ILRT data set 41 time = 1400 date = 719 sensor raw data value temperature 1 ( 106. 110 106. 110 deg. F temperature 2 ( 95. 090 95.090 deg. F temperature 3 ( 105.290 105.290 deg. F temperature 4 ( 82.890 82.890 deg. F temperature 5 ( 100.310 100.310 deg. F temperature 6 ( 83.380 83.380 deg. F temperature 7 ( 87.010 87.010 deg. F temperature 8 ( 84.480 84.480 deg. F temperature 9 ( 85.770 85.770 deg. F temperature 10 ( 102.550 102.550 deg. F temperature 11 ( 103.630 103.630 deg. F temperature 12 ( 85.950 85.950 deg. F temperature 13 ( 86.580 86.580 deg. F temperature 14 ( 81.730 81.730 deg. F temperature 15 ( 76.200 76.200 deg. F temperature 16 ( 76.140 76.140 deg. F temperature 17 ( 76.160 76.160 deg. F temperature 18 ( 76.260 76.260 deg. F dewpoint 66.020 66.020 deg. F, 0. 3165 psia dewpoint 65.460 65.460 deg. F, 0. 3104 psia dewpoint 66.130 66.130 deg. F, 0. 3177 psia dewpoint 65.670 65.670 deg. F, 0. 3127 psia dewpoint 75.020 75.020 deg. F , 0.4299 psia dewpoint 75.340 75.340 deg. F , 0.4345 psia pressure 1 ( 52 ~ 9121 52.9121 psia pressure 2 ( 52.9074 52.9074 psia weighted averages, volume and air mass temperature 84.35944 deg. F pressure 52.91210 psia vapor pressure 0.36227 psia volume 343040 cu. ft.
dry air mass 89437.94 ibm 112
WNP2 1994 ILRT data set 42 time = 1415 date = 719 sensor raw data value temperature 1 ( 106.080 106.080 deg. F temperature 2 ( 95.130 95.130 deg. F temperature 3 ( 105.290 105.290 deg. F temperature 4 ( 82.870 82.870 deg. F temperature 5 ( 100.320 100.320 deg. F temperature 6 ( 83.390 83.390 deg. F temperature 7 ( 87.010 87.010 deg. F temperature 8 ( 84.520 84.520 deg. F temperature 9 ( 85.760 85.760 deg. F temperature 10 ( 102.540 102.540 deg. F temperature 11 ( 103.620 103.620 deg. F temperature 12 ( 85.900 85.900 deg. F temperature 13 ( 86.590 86.590 deg. F temperature 14 ( 81.740 81.740 deg. F temperature 15 ( 76.190 76.190 deg. F temperature 16 ( 76.130 76.130 deg. F temperature 17 ( 76.140 76.140 deg. F temperature 18 ( 76.240 76.240 deg. F dewpoint ( 66.060 66.060 deg. F, 0. 3169 psia dewpoint (. 65.530 65.530 deg. F I 0- 3111 psia dewpoint ( 66.220 66.220 deg. F , 0.3187 psia dewpoint ( 65.750 65.750 deg. F , 0.3135 psia dewpoint ( 75.040 75.040 deg. F , 0.4302 psia dewpoint ( 75.310 75.310 deg. F , 0.4341 psia pressure 1 ( 52.9115 52.9115 psia pressure 2 ( 52.9069 52.9069 psia weighted averages, volume and air mass temperature 84.35341 deg. F pressure 52.91150 psia vapor pressure 0.36270 psia volume air
~ 343040 cu. ft.
dry mass 89437.17 ibm 113
WNP2 1994 ILRT data set 43 time = 1430 date = 719 sensor raw data value temperature 1 ( 106.090 106.090 deg. F temperature 2 ( 95.170 95.170 deg. F temperature 3 ( 105.250 105.250 deg. F temperature 4 ( 82.880 82.880 deg. F temperature 5 ( 100.330 100.330 deg. F temperature 6 ( 83.400 83.400 deg. F temperature 7 ( 87.000 87.000 deg. F temperature 8 ( 84.520 84.520 deg. F temperature 9 ( 85.820 85 '20 deg. F temperature 10 ( 102.530 102 '30 deg. F temperature 11 ( 103.610 103.610 deg. F temperature 12 ( 85.930 85.930 deg. F temperature 13 ( 86.600 86.600 deg. F temperature 14 ( 81.690 81.690 deg. F temperature 15 ( 76.170 76.170 deg. F temperature 16 ( 76.110 76.110 deg. F temperature 17 ( 76.130 76.130 deg. F temperature 18 ( 76.230 76.230 deg. F dewpoint 66.130 66.130 deg. F, 0. 3177 psia dewpoint 65.590 65.590 deg. F, 0. 3118 psia dewpoint 66.280 66.280 deg. F, 0. 3193 psia dewpoint 65.880 65.880 deg. F, 0. 3149 psia dewpoint 75.090 75.090 deg. F, 0. 4309 psia dewpoint 75.300 75.300 deg. F , 0.4340 psia pressure 1 ( 52. 9118 52.9118 psia pressure 2 ( 52. 9071 52.9071 psia weighted averages, volume and air mass temperature 84.34956 deg. F pressure 52 '1180 psia vapor pressure 0.36331 psia volume air 343040 cu. ft.
dry mass 89437.28 ibm 114
WNP2 1994 ILRT data set 44 time = 1445 date = 719 sensor raw data value temperature 1 ( 106.100 106.100 deg. F temperature 2 ( 95.190 95.190 deg. F temperature 3 ( 105.220 105.220 deg. F temperature 4 ( 82.900 82.900 deg. F temperature 5 ( 100.350 100.350 deg. F temperature 6 ( 83.410 83.410 deg. F temperature 7 ( 87.050 87.050 deg. F temperature 8 ( 84.540 84.540 deg. F temperature 9 ( 85.830 85 '30 deg. F temperature 10 ( 102.540 102.540 deg. F temperature 11 ( 103.640 103.640 deg. F temperature 12 ( 85.980 85.980 deg. F temperature 13 ( 86.610 86.610 deg. F temperature 14 ( 81.740 81.740 deg. F temperature 15 ( 76.160 76.160 deg. F temperature 16 ( 76.110 76.110 deg. F temperature 17 ( 76 '20 76.120 deg. F temperature 18 ( 76.220 76.220 deg. F dewpoint 66. 180 66.180 deg. F , 0.3182 psia dewpoint 65.630 65.630 deg. F , 0.3122 psia dewpoint 66.360 66.360 deg. F , 0.3202 psia dewpoint 65.890 65.890 deg. F , 0.3151 psia dewpoint 75.060 75.060 deg. F , 0.4305 psia dewpoint 75.300 75.300 deg. F , 0.4340 psia pressure 1 ( 52.9116 52.9116 psia pressure 2 ( 52.9068 52.9068 psia weighted averages, volume and air mass temperature 84.35875 deg. F pressure 52.91160 psia vapor pressure 0.36353 psia volume air 343040 cu. ft.
dry mass 89435.05 ibm 115
WNP2 1994 ILRT data set 45 time = 1500 date = 719 sensor raw data value temperature 1 ( 106.120 106.120 deg. F temperature 2 ( 95.230 95 '30 deg. F temperature 3 ( 105.180 105.180 deg. F temperature 4 ( 82.920 82.920 deg. F temperature 5 ( 100.380 100 '80 deg. F temperature 6 ( 83.420 83.420 deg. F temperature 7 ( 87 '70 87 '70 deg. F temperature 8 ( 84.540 84.540 deg. F temperature 9 ( 85.830 85.830 deg. F temperature 10 ( 102.560 102.560 deg. F temperature 11 ( 103.650 103.650 deg. F temperature 12 ( 85.960 85.960 deg. F temperature 13 ( 86.640 86.640 deg. F temperature 14 ( 81 '10 81 '10 deg. F temperature 15 ( 76.150 76.150 deg. F temperature 16 ( 76 '90 76.090 deg. F temperature 17 ( 76.110 76.110 deg. F temperature 18 ( 76.210 76 '10 deg. F dewpoint ( 66. 300 66.300 deg. F / 0. 3196 psia dewpoint ( 65 '30 65.730 deg. F I 0 ~ 3133 psia dewpoint ( 66.430 66.430 deg. F I 0.3210 psia dewpoint ( 65.910 65.910 deg. F , 0.3153 psia dewpoint ( 75.080 75.080 deg. F , 0.4308 psia dewpoint ( '5.270 75.270 deg. F , 0.4335 psia pressure 1 ( 52.9102 52.9102 psia pressure 2 ( 52.9055 52.9055 psia weighted averages, volume and air mass temperature 84.35717 deg. F pressure 52 '1020 psia vapor pressure 0 '6402 psia volume 343040 cu. ft.
dry air mass 89432.09 ibm 116
WNP2 1994 ILRT data set 46 time = 1515 date = 719 sensor raw data value
-temperature 1 ( 106.110 106.110 deg. F temperature 2 ( 95.270 95.270 deg. F temperature 3 ( 105.120 105.120 deg. F temperature 4 ( 82.950 82.950 deg. F temperature 5 ( 100.390 100.390 deg. F temperature 6 ( 83.420 83.420 deg. F temperature 7 ( 87.070 87.070 deg. F temperature 8 ( 84.560 84.560 deg. F temperature 9 ( 85.840 85.840 deg. F temperature 10 ( 102.570 102.570 deg. F temperature 11 ( 103.660 103.660 deg. F temperature 12 ( 85.980 85.980 deg. F temperature 13 ( 86.630 86.630 deg. F temperature 14 ( 81.720 81.720 deg. F temperature 15 ( 76.140 76.140 deg. F temperature 16 ( 76.080 76.080 deg. F temperature 17 ( 76 '00 76.100 deg. F temperature 18 ( 76.200 76.200 deg. F dewpoint 66.300 66.300 deg. F, 0. 3196 psia dewpoint 65.810 65.810 deg. F, 0. 3142 psia dewpoint 66.470 66.470 deg. F , 0.3215 psia dewpoint 66 '30 66.030 deg. F , 0.3166 psia dewpoint 74.970 74.970 deg. F , 0.4292 psia dewpoint 75.280 75.280 deg. F , 0.4337 psia pressure 1 ( 52.9086 52.9086 psia pressure 2 ( 52.9038 52.9038 psia weighted averages, volume and air mass temperature 84.35713 deg. F pressure 52.90860 psia vapor pressure 0.36412 psia volume 343040 cu. ft.
dry air mass 89429.20 ibm 117
WNP2 1994 ILRT data set 47 time = 1530 date = 719 sensor raw data value temperature 1 ( 106.100 106. 100 deg. F temperature 2 ( 95.300 95.300 deg. F temperature 3 ( 105-110 105.110 deg. F temperature 4 ( 82 '10 82.910 deg. F temperature 5 ( 100.420 100.420 deg. F temperature 6 ( 83.420 83.420 deg. F temperature 7 ( 87.090 87.090 deg. F temperature 8 ( 84.570 84.570 deg. F temperature 9 ( 85.820 85.820 deg. F temperature 10 ( 102.600 102.600 deg. F temperature 11 ( 103.630 103 '30 deg. F temperature 12 ( 85.970 85.970 deg. F temperature 13 ( 86.660 86.660 deg. F temperature 14 ( 81.710 81. 710 deg. F temperature 15 ( 76.130 76 130 deg.
~ F temperature 16 ( 76.080 76.080 deg. F temperature 17 ( 76.090 76.090 deg. F temperature 18 ( 76.190 76.190 deg. F dewpoint 66.410 66.410 deg. F , 0.3208 psia dewpoint 65.850 65.850 deg. F , 0.3146 psia dewpoint 66.530 66.530 deg. F , 0.3221 psia dewpoint 66.060 66.060 deg. F , 0.3169 psia dewpoint 75.000 75.000 deg. F , 0.4296 psia dewpoint 75.270 75.270 deg. F , 0.4335 psia pressure 1 ( 52.9095 52.9095 psia pressure 2 ( 52.9045 52.9045 psia weighted averages, volume and air mass temperature 84.35472 deg. F pressure 52.90950 psia vapor pressure 0.36455 psia volume 343040 cu. ft.
dry air mass 89430.39 ibm 118
WNP2 1994 ILRT data set 48 time = 1545 date = 719 sensor raw data value temperature 1 ( 106 '00 106.100 deg. F temperature 2 ( 95.320 95.320 deg. F temperature 3 ( 105.070 105.070 deg. F temperature 4 ( 82.970 82.970 deg. F temperature 5 ( 100.430 100.430 deg. F temperature 6 ( 83.460 83.460 deg. F temperature 7 ( 87.120 87.120 deg. F temperature 8 ( 84.590 84.590 deg. F temperature 9 ( 85.880 85.880 deg. F temperature 10 ( 102.570 102.570 deg. F temperature 11 ( 103.630 103.630 deg. F temperature 12 ( 86.020 86.020 deg. F temperature 13 ( 86.700 86.700 deg. F temperature 14 ( 81.700 81.700 deg. F temperature 15 ( 76.130 76.130 deg. F temperature 16 ( 76.060 76.060 deg. F temperature 17 ( 76.080 76.080 deg. F temperature 18 ( 76.180 76.180 deg. F dewpoint ( 66.450 66.450 deg. F, 0. 3212 psia dewpoint ( 65.940 65.940 deg. F , 0.3156 psia dewpoint ( 66.640 66.640 deg. F , 0.3234 psia dewpoint ( 66.120 66.120 deg. F , 0.3176 psia dewpoint ( 75.060 75.060 deg. F , 0.4305 psia dewpoint ( 75.220 75.220 deg. F , 0.4328 psia pressure 1 ( 52.9104 52.9104 psia pressure 2 ( 52.9056 52.9056 psia weighted averages, volume and air mass temperature 84.36320 deg. F pressure 52.91040 psia vapor pressure 0.36511 psia volume 343040 cu. ft.
dry air mass 89429.59 ibm 119
WNP2 1994 ILRT data set 49 time = 1600 date = 719 sensor raw data value temperature 1 ( 106.100 106.100 deg. F temperature 2 ( 95.350 95.350 deg. F temperature 3 ( 105.040 105.040 deg. F temperature 4 ( 83.000 83.000 deg. F temperature 5 ( 100.440 100.440 deg. F temperature 6 ( 83.470 83.470 deg. F temperature 7 ( 87.140 87.140 deg. F temperature 8 ( 84.620 84.620 deg. F temperature 9 ( 85.950 85.950 deg. F temperature 10 ( 102.600 102.600 deg. F temperature 11 ( 103.670 103.670 deg. F temperature 12 ( 86. 040 86.040 deg. F temperature 13 ( 86.720 86.720 deg. F temperature 14 ( 81.730 81.730 deg. F temperature 15 ( 76 120
~ 76 120
~ deg. F temperature 16 ( 76.060 76.060 deg. F temperature 17 ( 76.060 76.060 deg. F temperature 18 ( 76.160 76.160 deg. F dewpoint 66.560 66.560 deg. F , 0.3225 psia dewpoint 65.970 65.970 deg. F , 0.3159 psia dewpoint 66.690 66.690 deg. F , 0.3239 psia dewpoint 66.240 66.240 deg. F , 0.3189 psia dewpoint 75.020 75.020 deg. F , 0.4299 psia dewpoint 75.240 75.240 deg. F , 0.4331 psia pressure 1 ( 52.9106 52.9106 psia pressure 2 ( 52.9060 52.9060 psia weighted averages, volume and air mass temperature 84.37133 deg. F pressure 52.91060 psia vapor pressure 0.36550 psia volume 343040 cu. ft.
dry air mass 89427.93 ibm 120
PRE-DATA REPORT t'e = WNP2 1994 ILRT Verification volume = 343040 leap year : no La = 0.5000 t . erature volume fractions ( sum = 1.0000 )
t( 1)=0.0200 t( 2) =0. 0390 t( 3) =0. 0400 t( 4) =0. 0550 t( 5) =0. 0390 t( 6)=0.0550 t ( 7) =0. 0460 t( 8) =0. 0460 t( 9) =0.0460 t(10) =0. 0390 t(11)=0.0200 t(12)=0.0460 t(13)=0.0460 t(14)=0.0550 t (15) =0. 1020 t (16) =0. 1020 t(17)=0.1020 t(18)=0.1020 dewpoint volume fractions ( sum = 1.0000 )
dp( 1)=0 '150 dp( 2)=0.1970 dp( 3)=0.1650 dp( 4)=0.1150 dp( 5)=0.2040 dp( 6)=0.2040 pressure volume fractions ( sum = 1.0000 )
p( 1)=1.0000 p( 2)=0.0000 121
WNP2 1994 ILRT Verification DATA
SUMMARY
REPORT e data set time date temperature deg F pressure psia vapor pressure dry air mass psia ibm 1 1715 719 84.3848 52.9056 0. 3674 89414.03 2 1730 719 84.3709 52.9015 0.3677 89408.84 3 1745 719 84.3662 52.8977 0.3678 89402.85 4 1800 719 84.3622 52.8937 0.3680 89396.34 5 1815 719 84.3630 52.8900 0.3684 89389.27 6 1830 719 84.3536 52.8864 0.3685 89384.57 7 1845 719 84.3590 52.8829 0.3687 89377.30 8 1900 719 84.3532 52.8794 0.3693 89371.36 9 1915 719 84.3538 52 '760 0 '697 89364.74 10 1930 719 84.3469 52.8725 0.3698 89359.75 11 1945 719 84.3465 52.8689 0.3698 89353.66 12 2000 719 84.3502 52.8655 0.3703 89346.41 13 2015 719 84.3433 52.8622 0.3707 89341.33 14 2030 719 84.3450 52.8587 0.3710 89334.53 15 2045 719 84.3363 52.8553 0.3712 89329.90 16 2100 719 84.3382 52 '518 0.3716 89322.96 17 2115 719 84.3360 52.8484 0.3715 89317.62 122
WNP2 1994 ILRT Verification data set 1 time = 1715 date = 719 sensor raw data value temperature 1 ( 106.250 106.250 deg. F temperature 2 ( 95.560 95.560 deg. F temperature 3 ( 104.930 104.930 deg. F temperature 4 ( 83.040 83.040 deg. F temperature 5 ( 100.580 100.580 deg. F temperature 6 ( 83.540 83.540 deg. F temperature 7 ( 87.260 87.260 deg. F temperature 8 ( 84.650 84.650 deg. F temperature 9 ( 85.890 85.890 deg. F temperature 10 ( 102.690 102.690 deg. F temperature 11 ( 103.740 103.740 deg. F temperature 12 ( 86.140 86.140 deg. F temperature 13 ( 86.810 86.810 deg. F temperature 14 ( 81.700 81.700 deg. F temperature 15 ( 76.070 76.070 deg. F temperature 16 ( 76.000 76.000 deg. F temperature 17 ( 76.020 76.020 deg. F temperature 18 ( 76.120 76.120 deg. F dewpoint 1 66.780 66.780 deg. F , 0.3249 psia dewpoint 2 66.340 66.340 deg. F , 0.3200 psia dewpoint 3 67.060 67.060 deg. F , 0.3281 psia dewpoint 66.520 66.520 deg. F , 0.3220 psia dewpoint 5 75.030 75.030 deg. F , 0.4301 psia dewpoint 6 75.140 75.140 deg. F , 0.4317 psia pressure 1 ( 52.9056 52.9056 psia pressure 2 ( 52.9008 52.9008 psia weighted averages, volume and air mass temperature 84.38480 deg. F pressure 52.90560 psia vapor pressure 0.36737 psia volume 343040 cu. ft.
dry air mass 89414.03 ibm 123
WNP2 1994 XLRT Verification data set 2 time = 1730 date = 719 sensor raw data value temperature 1 ( 106. 130 106. 130 deg. F temperature 2 ( 95.560 95.560 deg. F temperature 3 ( 104.900 104.900 deg. F temperature 4 ( 83.010 83.010 deg. F temperature 5 ( 100.580 100.580 deg. F temperature 6 ( 83.520 83.520 deg. F temperature 7 ( 87.260 87.260 deg. F temperature 8 ( 84.650 84.650 deg. F temperature 9 ( 85.890 85.890 deg. F temperature 10 ( 102.680 102.680 deg. F temperature 11 ( 103.720 103.720 deg. F temperature 12 ( 86.100 86.100 deg. F temperature 13 ( 86.810 86.810 deg. F temperature 14 ( 81.700 81.700 deg. F temperature 15 ( 76.050 76.050 deg. F temperature 16 ( 75.990 75.990 deg. F temperature 17 ( 76.010 76.010 deg. F temperature 18 ( 76.110 76.110 deg. F dewpoint 66.870 66.870 deg. F , 0.3259 psia dewpoint 66.380 66.380 deg. F , 0.3205 psia dewpoint 67.120 67.120 deg. F , 0.3288 psia dewpoint 66.480 66.480 deg. F, 0. 3216 psia dewpoint 75.030 75.030 deg. F , 0.4301 psia dewpoint 75.150 75.150 deg. F , 0.4318 psia pressure 1 ( 52.9015 52.9015 psia pressure 2 ( 52.8969 52.8969 psia weighted averages, volume and air mass temperature 84.37088 deg. F pressure 52.90150 psia vapor pressure 0.36766 psia volume 343040 cu. ft.
dry air mass 89408.84 ibm 124
WNP2 1994 ILRT Verification data set 3 time = 1745 date = 719 sensor raw data value temperature 1 ( 106.090 106.090 deg. F temperature 2 ( 95.570 95.570 deg. F temperature 3 ( 104.850 104.850 deg. F temperature 4 ( 83.000 83.000 deg. F temperature 5 ( 100.580 100.580 deg. F temperature 6 ( 83.520 83.520 deg. F temperature 7 ( 87.260 87.260 deg. F temperature 8 ( 84.670 84.670 deg. F temperature 9 ( 85.890 85.890 deg. F temperature 10 ( 102.670 102.670 deg. F temperature 11 ( 103.690 103 '90 deg. F temperature 12 ( 86.130 86 '30 deg. F temperature 13 ( 86.820 86.820 deg. F temperature 14 ( 81.710 81.710 deg. F temperature 15 ( 76.050 76.050 deg. F temperature 16 ( 75.980 75 '80 deg. F temperature 17 ( 76.000 76.000 deg. F temperature 18 ( 76.090 76.090 deg. F dewpoint 1 ( 66.960 66.960 deg. F , 0.3270 psia dewpoint 2 ( 66.450 66.450 deg. F , 0.3212 psia dewpoint 3 ( 67.140 67.140 deg. F , 0.3290 psia dewpoint 4 ( 66.620 66.620 deg. F , 0.3231 psia dewpoint 5 ( 74.920 74.920 deg. F , 0.4285 psia dewpoint 6 ( 75.150 75.150 deg. F , 0.4318 psia pressure 1 ( 52.8977 52.8977 psia pressure 2 ( 52.8930 52.8930 psia weighted averages, volume and air mass temperature 84.36623 deg. F pressure 52.89770 psia vapor pressure 0.36783 psia volume 343040 cu. ft.
dry air mass 89402.85 ibm 125
WNP2 1994 ILRT Verification data set 4 time = 1800 date = 719 sensor raw data value temperature 1 ( 106.020 106. 020 deg. F temperature 2 ( 95.580 95.580 deg. F temperature 3 ( 104.830 104.830 deg. F temperature 4 ( 83.030 83.030 deg. F temperature 5 ( 100.580 100.580 deg. F temperature 6 ( 83.540 83.540 deg. F temperature 7 ( 87.270 87.270 deg. F temperature 8 ( 84.660 84.660 deg. F temperature 9 ( 85.890 85.890 deg. F temperature 10 ( 102.660 102.660 deg. F temperature 11 ( 103.660 103.660 deg. F temperature 12 ( 86.140 86.140 deg. F temperature 13 ( 86.820 86.820 deg. F temperature 14 ( 81.700 81.700 deg. F temperature 15 ( 76.030 76. 030 deg. F temperature 16 ( 75.970 75.970 deg. F temperature 17 ( 75.990 75.990 deg. F temperature 18 ( 76.090 '6.090 deg. F dewpoint 1 66.990 66.990 deg. F , 0.3273 psia dewpoint 2 66.490 66.490 deg. F , 0.3217 psia dewpoint 3 67.210 67.210 deg. F , 0.3298 psia dewpoint 4 66.610 66.610 deg. F , 0.3230 psia dewpoint 5 74.890 74.890 deg. F , 0.4281 psia dewpoint 6 75.170 75.170 deg. F , 0.4321 psia pressure 1 ( 52.8937 52.8937 psia pressure 2 ( 52.8893 52.8893 psia weighted averages, volume and air mass temperature 84.36217 deg. F pressure 52.89370 psia vapor pressure 0.36804 psia volume air 343040 cu. ft.
dry mass 89396.34 ibm 126
WNP2 1994 ILRT Verification data set 5 time = 1815 date = 719 sensor raw data value temperature 1 ( 105.960 ) 105.960 deg. F temperature 2 ( 95.590 ) 95.590 deg. F temperature 3 ( 104.820 104.820 deg. F temperature 4 ( 83.030 ) 83.030 deg. F temperature 5 ( 100.590 100.590 deg. F temperature 6 ( 83.540 ) 83.540 deg. F temperature 7 ( 87.280 87.280 deg. F temperature 8 ( 84.660 ) 84.660 deg. F temperature 9 ( 85.960 ) 85.960 deg. F temperature 10 ( 102.650 ) 102.650 deg. F temperature 11 ( 103.650 ) 103.650 deg. F temperature 12 ( 86.120 86.120 deg. F temperature 13 ( 86.840 ) 86.840 deg. F temperature 14 ( 81.710 81.710 deg. F temperature 15 ( 76.030 ) 76.030 deg. F temperature 16 ( 75.970 75.970 deg. F temperature 17 ( 75.980 ) 75.980 deg. F temperature 18 ( 76.080 ) 76.080 deg. F dewpoint 1 67.070 ) 67.070 deg. F , 0.3282 psia dewpoint 2 66.550 ) 66.550 deg. F , 0.3223 psia dewpoint 3 67.310 ) 67.310 deg. F , 0.3309 psia dewpoint 66.710 ) 66.710 deg. F , 0.3241 psia dewpoint 5 74.880 ) 74.880 deg. F , 0.4279 psia dewpoint 6 75.120 ) 75.120 deg. F , 0.4314 psia pressure 1 ( 52.8900 ) 52.8900 psia pressure 2 ( 52.8857 ) 52.8857 psia weighted averages, volume and air mass temperature 84.36295 deg. F pressure 52.89000 psia vapor pressure 0.36842 psia volume dry air mass 343040 cu.
89389.27 ibm ft.
127
NNP2 1994 ILRT Verification data set 6 time = 1830 date = 719 sensor raw data value temperature 1 ( 105 '10 105.910 deg. F temperature -2 ( 95.610 95.610 deg. F temperature 3 ( 104.760 104.760 deg. F temperature 4 ( 83.040 83.040 deg. F temperature 5 ( 100.570 100.570 deg. F temperature 6 ( 83.550 83.550 deg. F temperature 7 ( 87.290 87.290 deg. F temperature 8 ( 84.650 84.650 deg. F temperature 9 ( 85.930 85.930 deg. F temperature 10 ( 102.630 102.630 deg. F temperature 11 ( 103.640 103.640 deg. F temperature 12 ( 86.160 86.160 deg. F temperature 13 ( 86.850 86.850 deg. F temperature 14 ( 81.710 81.710 deg. F temperature 15 ( 76.020 76.020 deg. F temperature 16 ( 75.950 75.950 deg. F temperature 17 ( 75.960 75.960 deg. F temperature 18 ( 76.060 76.060 deg. F dewpoint 67.100 67.100 deg. F , 0.3285 psia dewpoint 66.610 66.610 deg. F , 0.3230 psia dewpoint 67.280 67.280 deg. F , 0.3306 psia dewpoint 66.700 66.700 deg. F , 0.3240 psia dewpoint 74.880 74.880 deg. F , 0.4279 psia dewpoint 75.110 75.110 deg. F , 0.4312 psia pressure 1 ( 52. 8864 52.8864 psia pressure 2 ( 52. 8821 52.8821 psia weighted averages, volume and air mass temperature 84.35355 deg. F pressure 52.88640 psia vapor pressure 0.36849 psia volume 343040 cu. ft.
dry air mass 89384.57 ibm 128
WNP2 1994 ILRT Verification data set 7 time = 1845 date = 719 sensor raw data value temperature 1 ( 105.890 105.890 deg. F temperature 2 ( 95.630 95.630 deg. F temperature 3 ( 104-710 104.710 deg. F temperature 4 ( 83.060 83.060 deg. F temperature 5 ( 100.590 100.590 deg. F temperature 6 ( 83.570 83.570 deg. F temperature 7 ( 87.310 87.310 deg. F temperature 8 ( 84.640 84.640 deg. F temperature 9 ( 85.970 85.970 deg. F temperature 10 ( 102.640 102 '40 deg. F temperature 11 ( 103.630 103.630 deg. F temperature 12 ( 86.150 86.150 deg. F temperature 13 ( 86.870 86.870 deg. F temperature 14 (81-710 81.710 deg. F temperature 15 ( 76.010 76.010 deg. F temperature 16 ( 75.960 75.960 deg. F temperature 17 ( 75.970 75.970 deg. F temperature 18 ( 76.060 76.060 deg. F dewpoint 67.140 67.140 deg. F , 0.3290 psia dewpoint 66.660 66.660 deg. F , 0.3236 psia dewpoint 67.350 67.350 deg. F , 0.3314 psia dewpoint 66.820 66.820 deg. F , 0.3254 psia dewpoint 74.810 74.810 deg. F , 0.4269 psia dewpoint 75.110 75.110 deg. F , 0.4312 psia pressure 1 ( 52.8829 52.8829 psia pressure 2 ( 52.8784 52.8784 psia weighted averages, volume and air mass temperature 84.35899 deg. F pressure 52.88290 psia vapor pressure 0.36874 psia volume 343040 cu. ft.
dry air mass 89377.30 ibm 129
WNP2 1994 ILRT Verification data set 8 time = 1900 date = 719 sensor raw data value temperature 1 ( 105.880 105.880 deg. F temperature 2 ( 95.660 95.660 deg. F temperature 3 ( 104 '10 104.710 deg. F temperature 4 ( 83.060 83.060 deg. F temperature 5 ( 100.590 100.590 deg. F temperature 6 ( 83.570 83.570 deg. F temperature 7 ( 87.320 87.320 deg. F temperature 8 ( 84.650 84.650 deg. F temperature 9 ( 85.890 85.890 deg. F temperature 10 ( 102.630 102.630 deg. F temperature 11 ( 103.610 103.610 deg. F temperature 12 ( 86.150 86.150 deg. F temperature 13 ( 86.880 86.880 deg. F temperature 14 ( 81.720 81.720 deg. F temperature 15 ( 76.000 76.000 deg. F temperature 16 ( 75.940 75.940 deg. F temperature 17 ( 75.960 75.960 deg. F temperature 18 ( 76.060 76.060 deg. F dewpoint 67.220 67.220 deg. F , 0.3299 psia dewpoint 66.730 66.730 deg. F , 0.3244 psia dewpoint 67.380 67.380 deg. F , 0.3317 psia dewpoint 66.910 66.910 deg. F , 0.3264 psia dewpoint 74.840 74.840 deg. F , 0.4274 psia dewpoint 75.120 75.120 deg. F , 0.4314 psia pressure 1 ( 52.8794 52.8794 psia pressure 2 ( 52.8747 52.8747 psia weighted averages, volume and air mass temperature 84.35320 deg. F pressure 52.87940 psia vapor pressure 0.36929 psia volume 343040 cu. ft.
dry air mass 89371.36 ibm 130
WNP2 1994 ILRT Verification data set 9 time = 1915 date = 719 sensor raw data value temperature 1 ( 105. 860 105.860 deg. F temperature 2 ( 95.680 95.680 deg. F temperature 3 ( 104.670 104.670 deg. F temperature 4 ( 83.060 83.060 deg. F temperature 5 ( 100.600 100.600 deg. F temperature 6 ( 83.570 83.570 deg. F temperature 7 ( 87.330 87.330 deg. F temperature 8 ( 84.630 84.630 deg. F temperature 9 ( 85.980 85.980 deg. F temperature 10 ( 102.630 102.630 deg. F temperature 11 ( 103.610 103.610 deg. F temperature 12 ( 86.180 86.180 deg. F temperature 13 ( 86.880 86.880 deg. F temperature 14 ( 81.710 81.710 deg. F temperature 15 ( 76.000 76.000 deg. F temperature 16 ( 75.930 75.930 deg. F temperature 17 ( 75.950 75.950 deg. F temperature 18 ( 76.050 76.050 deg. F dewpoint 67.260 67.260 deg. F , 0.3304 psia dewpoint 66.800 66.800 deg. F , 0.3251 psia dewpoint 67.570 67.570 deg. F , 0.3339 psia dewpoint 66.940 66.940 deg. F , 0.3267 psia dewpoint 74.780 74.780 deg. F , 0.4265 psia dewpoint 75.120 75.120 deg. F , 0.4314 psia pressure 1 ( 52.8760 52.8760 psia pressure 2 ( 52.8714 52.8714 psia weighted averages, volume and air mass temperature 84.35383 deg. F pressure 52.87600 psia vapor pressure 0.36972 psia volume 343040 cu. ft.
dry air mass 89364.74 ibm 131
WNP2 1994 ILRT Verification data set 10 time = 1930 date = 719 sensor raw data value temperature 1 ( 105.830 105.830 deg. F temperature 2 ( 95.690 95.690 deg. F temperature 3 ( 104.650 104.650 deg. F temperature 4 ( 83.050 83.050 deg. F temperature 5 ( 100.590 100.590 deg. F temperature 6 ( 83.580 83.580 deg. F temperature 7 ( 87.350 87.350 deg. F temperature 8 ( 84.610 84.610 deg. F temperature 9 ( 86.010 86.010 deg. F temperature 10 ( 102.620 102.620 deg. F temperature 11 ( 103.590 103.590 deg. F temperature 12 ( 86.150 86.150 deg. F temperature 13 ( 86.900 86.900 deg. F temperature 14 ( 81.700 81.700 deg. F temperature 15 ( 75.980 75.980 deg. F temperature 16 ( 75.930 75.930 deg. F temperature 17 ( 75.940 75.940 deg. F temperature 18 ( 76.030 76.030 deg. F dewpoint 1 67.330 67.330 deg. F, 0. 3312 psia dewpoint 2 66.860 66.860 deg. F , 0.3258 psia dewpoint 3 67.500 67.500 deg. F , 0.3331 psia dewpoint 66.970 66.970 deg. F , 0.3271 psia dewpoint 5 74.790 74.790 deg. F , 0.4266 psia dewpoint 6 75.100 75.100 deg. F , 0.4311 psia pressure 1 ( 52.8725 52.8725 psia pressure 2 ( 52.8680 52.8680 psia weighted averages, volume and air mass temperature 84.34686 deg. F pressure 52.87250 psia vapor pressure 0.36982 psia volume air 343040 cu. ft.
dry mass 89359.75 ibm 132
WNP2 1994 ILRT Verification data set 11 time = 1945 date = 719 sensor raw data value temperature 1 ( 105.820 105.820 deg. F temperature 2 ( 95.720 95.720 deg. F temperature 3 ( 104.620 104.620 deg. F temperature 4 ( 83.070 83.070 deg. F temperature 5 ( 100.610 100.610 deg. F temperature 6 ( 83.590 83.590 deg. F temperature 7 ( 87.370 87.370 deg. F temperature 8 ( 84.610 84.610 deg. F temperature 9 ( 85.970 85.970 deg. F temperature 10 ( 102.610 102.610 deg. F temperature 11 ( 103.580 103.580 deg. F temperature 12 ( 86.170 86.170 deg. F temperature 13 ( 86.910 86.910 deg. F temperature 14 ( 81.730 81.730 deg. F temperature 15 ( 75.970 75.970 deg. F temperature 16 ( 75.920 75.920 deg. F temperature 17 ( 75.930 75.930 deg.. F temperature 18 ( 76.020 76.020 deg. F dewpoint 1 ( 67.360 67.360 deg. F , 0.3315 psia dewpoint 2 ( 66.890 66.890 deg. F , 0.3262 psia dewpoint 3 ( 67.580 67.580 deg. F , 0.3340 psia dewpoint 4 ~
( 66.940 66.940 deg. F , 0.3267 psia dewpoint. 5 ( 74.760 74.760 deg. F , 0.4262 psia dewpoint 6 ( 75.060 75.060 deg. F , 0.4305 psia pressure 1 ( 52.8689 52.8689 psia pressure 2 ( 52.8644 52.8644 psia weighted averages, volume and air mass temperature 84.34649 deg. F pressure 52.86890 psia vapor pressure 0.36983 psia volume dry air mass 343040 cu.
89353.66 ibm ft.
133
WNP2 1994 ILRT Verification data set 12 time = 2000 date = 719 sensor raw data value temperature 1 ( 105.800 105.800 deg. F temperature 2 ( 95.750 95.750 deg. F temperature 3 ( 104.580 104.580 deg. F temperature 4 ( 83.100 83.100 deg. F temperature 5 ( 100.610 100.610 deg. F temperature 6 ( 83.600 83.600 deg. F temperature 7 ( 87.390 87.390 deg. F temperature 8 ( 84.620 84.620 deg. F temperature 9 ( 85.950 85.950 deg. F temperature 10 ( 102.620 102.620 deg. F temperature 11 ( 103.590 103.590 deg. F temperature 12 ( 86.190 86.190 deg. F temperature 13 ( 86.930 86.930 deg. F temperature 14 ( 81.720 81.720 deg. F temperature 15 ( 75.980 75.980 deg. F temperature 16 ( 75.910 75.910 deg. F temperature 17 ( 75.930 75.930 deg. F temperature 18 ( 76.020 76.020 deg. F dewpoint 67.420 67.420 deg. F , 0.3322 psia dewpoint 66.960 66.960 deg. F , 0.3270 psia dewpoint 67.660 67.660 deg. F , 0.3349 psia dewpoint 67.050 67.050 deg. F , 0.3280 psia dewpoint 74.760 74.760 deg. F , 0.4262 psia dewpoint 75.050 75.050 deg. F , 0.4304 psia pressure 1 ( 52.8655 52.8655 psia pressure 2 ( 52.8610 52.8610 psia weighted averages, volume and air mass temperature 84.35021 deg. F pressure 52.86550 psia vapor pressure 0.37033 psia volume 343040 cu. ft.
dry air mass 89346.41 ibm 134
WNP2 1994 ILRT Verification data set 13 time = 2015 date = 719 sensor raw data value temperature 1 ( 105.800 105.800 deg. F temperature 2 ( 95.760 95 '60 deg. F temperature 3 ( 104-520 104.520 deg. F temperature 4 ( 83.070 83.070 deg. F temperature 5 ( 100.620 100.620 deg. F temperature 6 ( 83.600 83.600 deg. F temperature 7 ( 87.390 87.390 deg. F temperature 8 ( 84.610 84.610 deg. F temperature 9 ( 86.010 86. 010 deg. F temperature 10 ( 102.600 102.600 deg. F temperature 11 ( 103.560 103.560 deg. F temperature 12 ( 86.190 86.190 deg. F temperature 13 ( 86.930 86.930 deg. F temperature 14 ( 81.710 81.710 deg. F temperature 15 ( 75.960 75.960 deg. F temperature 16 ( 75.910 75.910 deg. F temperature 17 ( 75.920 75.920 deg. F temperature 18 ( 76.010 76.010 deg. F dewpoint 67. 450 67.450 deg. F , 0.3325 psia dewpoint 67.010 67.010 deg. F , 0.3275 psia dewpoint 67.660 67.660 deg. F , 0.3349 psia dewpoint 67. 140 67.140 deg. F , 0.3290 psia dewpoint 74.770 74.770 deg. F , 0.4264 psia dewpoint 75.070 75.070 deg. F , 0.4306 psia pressure 1 ( 52.8622 52.8622 psia pressure 2 ( 52.8576 52.8576 psia weighted averages, volume and air mass temperature 84.34328 deg. F pressure 52.86220 psia vapor pressure 0.37069 psia volume 343040 cu. ft.
dry air mass 89341.33 ibm 135
WNP2 1994 ILRT Verification data set 14 time = 2030 date = 719 sensor raw data value temperature 1 ( 105.770 105.770 deg. F temperature 2 ( 95.780 95.780 deg. F temperature 3 ( 104.530 104.530 deg. F temperature 4 ( 83.100 83.100 deg. F temperature 5 ( 100.620 100.620 deg. F temperature 6 ( 83.610 83.610 deg. F temperature 7 ( 87.400 87.400 deg. F temperature 8 ( 84.610 84.610 deg. F temperature 9 ( 86 '80 86. 080 deg. F temperature 10 ( 102.610 102.610 deg. F temperature 11 ( 103.550 103.550 deg. F temperature 12 ( 86.210 86.210 deg. F temperature 13 ( 86.930 86.930 deg. F temperature 14 ( 81.700 81.700 deg. F temperature 15 ( 75.950 75.950 deg. F temperature 16 ( 75.890 75.890 deg. F temperature 17 ( 75.910 75.910 deg. F temperature 18 ( 76.000 76.000 deg. F dewpoint 1 67.560 67.560 deg. F , 0.3338 psia dewpoint 2 67.050 67.050 deg. F , 0.3280 psia dewpoint 3 67.760 67.760 deg. F , 0.3361 psia dewpoint 4 67.110 67.110 deg. F , 0.3287 psia dewpoint 5 74.760 74.760 deg. F , 0.4262 psia dewpoint 6 75.060 75.060 deg. F , 0.4305 psia pressure 1 ( 52.8587 52.8587 psia pressure 2 ( 52.8543 52.8543 psia weighted averages, volume and air mass temperature 84.34497 deg. F pressure 52.85870 psia vapor pressure 0.37102 psia volume air 343040 cu. ft.
dry mass 89334.53 ibm 136
WNP2 1994 ILRT Verification data set 15 time = 2045 date = 719 sensor raw data value temperature 1 ( 105.750 105.750 deg. F temperature 2 ( 95.810 95.810 deg. F temperature 3 ( 104.460 104.460 deg. F temperature 4 ( 83.100 83.100 deg. F temperature 5 ( 100.630 100.630 deg. F temperature 6 ( 83.610 83.610 deg. F temperature 7 ( 87.410 87.410 deg. F temperature 8 ( 84.600 84.600 deg. F temperature 9 ( 85.990 85.990 deg. F temperature 10 ( 102.600 102.600 deg. F temperature 11 ( 103.550 103.550 deg. F temperature 12 ( 86.200 86.200 deg. F temperature 13 ( 86.950 86.950 deg. F temperature 14 ( 81.700 81.700 deg. F temperature 15 ( 75.940 75.940 deg. F temperature 16 ( 75.880 75.880 deg. F temperature 17 ( 75.900 75.900 deg. F temperature 18 ( 76.000 76.000 deg. F dewpoint 67.570 67.570 deg. F , 0.3339 psia dewpoint 67.130 67.130 deg. F , 0.3289 psia dewpoint 67.780 67.780 deg. F , 0.3363 psia dewpoint 67.170 67.170 deg. F , 0.3293 psia dewpoint 74.720 74.720 deg. F , 0.4256 psia dewpoint 75.050 75.050 deg. F , 0.4304 psia pressure 1 ( 52.8553 52.8553 psia pressure 2 ( 52.8508 52.8508 psia weighted averages, volume and air mass temperature 84.33629 deg. F pressure 52.85530 psia vapor pressure 0.37118 psia volume 343040 cu. ft.
dry air mass 89329.90 ibm 137
WNP2 1994 ILRT Verification data set 16 time = 2100 date = 719 sensor raw data value temperature 1 ( 105.750 105.750 deg. F temperature 2 ( 95.840 95.840 deg. F temperature 3 ( 104 '70 104.470 deg. F temperature 4 ( 83.090 83.090 deg. F temperature 5 ( 100.640 100.640 deg. F temperature 6 ( 83.610 83.610 deg. F temperature 7 ( 87.430 87.430 deg. F temperature 8 ( 84.600 84.600 deg. F temperature 9 ( 86.010 86.010 deg. F temperature 10 ( 102.600 102.600 deg. F temperature 11 ( 103.550 103.550 deg. F temperature 12 ( 86.200 86.200 deg. F temperature 13 ( 86.970 86.970 deg. F temperature 14 ( 81.680 81.680 deg. F temperature 15 ( 75.940 75.940 deg. F temperature 16 ( 75.880 75.880 deg. F temperature 17 ( 75.900 75.900 deg. F temperature 18 ( 75.990 75.990 deg. F dewpoint ( 67. 640 67. 640 degas F , 0.3347 psia dewpoint ( 67. 170 67. 170 degas F , 0.3293 psia dewpoint ( 67.870 67.870 deg~ F , 0.3374 psia dewpoint ( 67.240 ~ 67.240 deg~ F , 0.3301 psia dewpoint ( 74.700 74.700 dego F , 0.4254 psia dewpoint ( 75.050 75.050 degas F , 0.4304 psia pressure 1 ( 52.8518 52.8518 psia pressure 2 ( 52.8474 52.8474 psia weighted averages, volume and air mass temperature 84.33818 deg. F pressure 52.85180 psia vapor pressure 0.37157 psia volume air 343040 cu. ft.
dry mass 89322.96 ibm 138
WNP2 1994 ILRT Verification data set 17 time = 2115 date = 719 sensor raw data value temperature 1 ( 105.730 105.730 deg. F temperature 2 ( 95.860 95.860 deg. F temperature 3 ( 104.400 104.400 deg. F temperature 4 ( 83.110 83.110 deg. F temperature 5 ( 100.650 100.650 .deg. F temperature 6 ( 83.620 83.620 deg. F temperature 7 ( 87.440 87.440 deg. F temperature 8 ( 84.610 84.610 deg. F temperature 9 ( 86.010 86.010 deg. F temperature 10 ( 102.600 102.600 deg. F temperature 11 ( 103.540 103.540 deg. F temperature 12 ( 86.210 86.210 deg. F temperature 13 ( 86.970 86.970 deg. F temperature 14 ( 81.700 81.700 deg. F temperature 15 ( 75.930 75.930 deg. F temperature 16 ( 75.870 75.870 deg. F temperature 17 ( 75.890 75.890 deg. F temperature 18 ( 75.980 75.980 deg. F dewpoint 1 67.640 67. 640 deg. F , 0.3347 psia dewpoint 2 67.230 67.230 deg. F , 0.3300 psia dewpoint 3 67.880 67.880 deg. F , 0.3375 psia dewpoint 4 67.280 67.280 deg. F , 0.3306 psia dewpoint 5 74.620 74.620'eg. F , 0.4242 psia dewpoint 6 75.040 75.040 deg. F , 0.4302 psia pressure 1 ( 52.8484 52.8484 psia pressure 2 ( 52.8440 52.8440 psia weighted averages, volume and air mass temperature 84.33604 deg. F pressure 52.84840 psia vapor pressure 0.37151 psia volume dry air mass 343040 cu.
89317.62 ibm ft.
139
Washington Public Power Supply System WNP-2 Primary Reactor Containment 1994 Integrated Leakage Rate Test Final Report APPENDIX IV TYPE B & C TEST RESULTS
SUMMARY
REPORT 140
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report TYPE B 8 C TEST RESULTS SUlNMARY REPORT TABLE OF CONTENTS Section Page 1.0 Introduction 143 2.0 Discussion (Type B & C Testing) 143 2.1 Test Methods 143 2.2 Specific Testing Categories, Acceptance Criteria, & Results 143 3.0 Type B & C As-Found Testing 145 3.1 Main Steam Isolation Valves 147 4.0 TypeATest 147 5.0 Type B & C Containment Penetration Test Schedule 149 141
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report TYPE B & C TEST RESULTS
SUMMARY
REPORT LIST OF TABLES Table Page
- 3. LLRT Results for Secondary Bypass Leakage Sources 144
- 5. 1992 Outage - Isolation Valves Repaired/Adjusted 146
- 6. 1993 Outage - Isolation Valves Repaired/Adjusted 146
- 7. 1994 Outage - Isolation Valves Repaired/Adjusted 146
- 8. As-Found Leak Rates for MSIV's 147
- 9. Minimum Pathway Leak Rates for As-Found Type A Adjustment 148
- 10. Containment Penetration Schedule for Type B 8 C Tests 150 142
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report INTRODUCTION During each annual spring outage in 1992, 1993 and 1994, Type B and C local leak rate testing was performed on Primary Containment Isolation Valves as prescribed by Appendix J, WNP-2 FSAR and Plant Technical Specifications. Leak testing is initially performed with valves in their "as-found" condition, i.e. prior to any adjustments or repairs which would affect a valve's leakage characteristics. Each Type C penetration is analyzed for total leakage using single failure criteria to arrive at the 'maximum pathway'eakage rate total for that containment penetration. The total penetration leakage reported is the largest leak rate calculated from considering all possible single failures of active isolation boundaries.
The Primary Containment Integrated Leak Rate Test (PCILRT) was conducted at the end of the 1994 outage, after Type B and C testing was complete. Several isolation valves were repaired prior to the PCILRT due to excessive leakage detected from LLRT's or due to scheduled maintenence on resilient seals. The ILRT results (as-left) are adjusted by the difference in minimum pathway leakage rates before and after repairs or maintenence activities to arrive at the Type A "as-found" value.
The totals for Type B and C testing for the 1992, 1993 and 1994 outages yielded as-found values less than 0.6 La.
Zo DISCUSSION (Type B & C Tests) 2.1 Methods The pneumatic Type B and C tests were performed utilizing the Pressure Decay and Flow Makeup Methods. Hydrostatic Type C testing on water sealed valves was accomplished using the Flow Makeup Method.
2.2 Specific Testing Categories, Acceptance Criteria, and Results The first category consists of air and nitrogen - tested Type B 8 C penetrations. During the 1992, 1993 and 1994 outages, Type B 8 C testing was performed in accordance with Exemption to Appendix J Testing issued by the NRC with Amendment No. 41 to Facility Operating License NPF-21. This allowed testing of approximately half of the Type B 8 C penetrations during each shutdown for refueling. For determining the Type B 8 C summations, those penetrations not tested have leakage values applied from the previous outage as-left condition.
The measured As-Left Type B & C Leakage Rate summations are tabulated in the following Table 1.
143
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report Outage Year Sum of Type B Sum of Type C Sum of Type B8 C Allowable Limit 1992 2,646 sccm 14,768 sccm 17,414 sccm 56,600 sccm (0.5 La) 1993 410 sccm 10,774 sccm 11,184 sccm 56,600 sccm (0.5 La) 1994 3,148 sccm 11,188 sccm 14,336 sccm 56,600 sccm (0.5 La)
Table 1. LLRT As-Left Results for Type B & C Testing Performed Since 1991 ILRT Outage Year Sum of Type B Sum of Type C Sum of Type B & C Allowable Limit 1992 2,627 sccm 15,301 sccm 17,928 sccm 56,600 sccm (0.5 La) 1993 689 sccm 13,558 sccm 14,247 sccm 56,600 sccm (0.5 La) 1994 774 sccm 13,489 sccm 14,263 sccm 56,600 sccm (0.5 La)
Table 2. LLRT As-Found Results for Type B & C Testing Performed Since 1991 ILRT The second category is a subset of the above Type C tests, being the measured leakage rates on the secondary containment bypass lines that must be included in the sum of the Type B & C tests. The allowable leakage rate from these secondary containment bypass sources is 349.2 sccm. The total is derived by employing minimum pathway analysis for these specific penetrations with exception of the penetration yielding the largest leakage from a single component failure"'. The results are tabulated in Table 3.
Notes: 1. Passive components are considered exempt.
Penetration Service Leakage Rate (SCCM) 1992 1993 1994 X-14 RWCU from RPV 0.0 30.7 7.5 X-22 MS Drain 11.9 11.9 1.0 X-27f TIP Line 4.0 62.9 0.2 X-53 Drywell HVAC Supply 52.5 27.2 0.8 X-56 CIA to SRV Accumulators *18.6 17.7 *95 6 X-66 Wetwell HVAC Supply 19.0 1.7 9.4 X-77Aa RRC Sample Line 12.0 1.0 28.3 X-92 DW Service to Drywell 9.5 0.4 1.5 X-93 Air to Drywell for Maintenence 0.0 1.2 3.9
- Failed TOTALS 127.5 154.7 148.2 Com onent Table 3. LLRT Results for Secondary Bypass Leakage Sources A third category applies to the Main Steam Isolation Valves (MSIV's). they are similar to the second category in that any process line leakage passes directly from the PRC to the Turbine Building, thereby "bypassing" the SGT system. The line leakage is not 144
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report added to the sum of the Type C leakage rates because the Main Steam Leakage Control System intercepts all leakage past the inboard CIV up to the allowable limit.
The allowable leakage rate per Technical Specifications is 5,428 sccm per valve at test pressure of 25 psig. The as-left test results are tabulated in Table 3.
As-Left Leakage Rate (SCCM)
Penetration 1992 1993 1994 X-18A 2,285 3,903 3,291 X-18B 3,715 344 500 X-18C 3,719 656 1,594 X-18D 5,137 344 3,251 Table 4. As-Left LLRT Results for MSIV's The fourth and final category pertains to Containment Isolation Valves (CIV) sealed with fluid from a seal system. Hydrostatic tests were performed on water sealed valves required to maintain Primary Reactor Coolant System integrity during an accident event. Leak rate testing was performed at a pressure equal to 1.1 Pa using the flow makeup method with water. The maximum allowable leakage rate per Technical Specifications is 1.0 gpm times the total number of valves (currently, there are seven penetrations and nine valves in this category). The total number of valves greatly decreased with the exclusion of vent and drain connections from the leak rate program in 1990. The total measured leakage from all valves was 0.070 gpm for the 1992 outage, 0.050 gpm for the 1993 outage, and 3.204 gpm for the 1994 outage.
3.0 TYPE B & C AS-FOUND TESTING During the 1992, 1993 and 1994 testing sequences, the total Type B 8 C As-Found leakage rates were below the allowable limit of 0.6 La (67,920 sccm). Tables 5,6 and 7 list the isolation valves repaired or otherwise adjusted due to excessive as-found leakage and includes a description of the deficiency which caused the excessive leakage and the corrective action taken to reduce the leakage.
145
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report Pen ¹ Valve No. As-Found As-Left Deficiency/Corrective Action SCCM SCCM X-5 RCC-V-5 15,662 451 REWORK VALVESEAT X-13 SLC-V-7 870 35.2 MACHINEDVALVESEAT X-25A RHR-V-27A 11.0 0.0 LAP VALVESEAT X-48 RHR-FCV-64B 4,780 8.5 REPAIR VALVESEAT X-56 CIA-V-21 244 5.0 REPAIR SOFT SEAT X-83A PSR-V-X83/1 184.1 113.4 LAP VALVESEAT X-96 CAC-FCV-2A >20,000 192.8 REWORK VALVE INTERNALS X-98 CAC-FCV-2B 1,643 143.0 REWORK VALVE INTERNALS X-102 CAC-FCVQA >20,000 70.7 REWORK VALVE INTERNALS X-103 CAC-FCV-4B 4,787 1,110 REWORK VALVE INTERNALS X-117 RHR-V-134A 38.0 575 LAP VALVESEAT Table 5. 1992 Outage - Isolation Valves Repaired/Adjusted Pen ¹ Valve No. As-Found As-Left Deficiency/Corrective Action SCCM (SCCM X-5 RCC-V-5,-104 4,200 0.0 FLUSHED W/ WATER X-56 CIA-V-20 1,530 17.7 MOVATS X-56 CIA-V-21 6,950 18.7 REPAIR SOFT SEAT X-83A P SR-V-X83/1 274 35.6 FLUSHED W/ WATER X-99 CAC-V-6 5,200 826 REWORK VALVE INTERNALS CAC-FCV-1A X-103 CAC-V-13 1,330 0.5 MOVATS CAC-FCV-4B Table 6. 1993 Outage - Isolation Valves Repaired/Adjusted Pen ¹ Valve No. As-Found As-Left Deficiency/Corrective Action SCCM (SCCM X-17B RFW-V-10B 14,130 3,243 REWORK VALVE INTERNALS X-21 RCIC-V-76 202 12.4 REWORK VALVE INTERNALS X-64 RCIC-V-28 799 167.5 REWORK VALVE INTERNALS X-73E PI-EFC-X73E 282 0.1 REPLACE VALVE X-73F PSR-V-X73/2 165.1 133 REWORK VALVE INTERNALS X-77Ac PSR-V-X77A/1 244 67.8 REWORK VALVE INTERNALS X-89B CIA-V-31A 279 33.5 REWORK VALVE INTERNALS X-102 CAC-V-4 2,250 433.3 REWORK VALVE INTERNALS X-117 RHR-V-73A 432 168 REWORK VALVE INTERNALS Table 7. 1994 Outage - Isolation Valves Repaired/Adjusted 146
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report 3.1 Main Steam Isolation Valves (MSIV's)
The as-found leak rates for the MSIV's are shown in Table 8 below. These valves are tested at 25 psig in accordance with Plant Technical Specifications and are not included in the sum of Type B and C testing. However, these isolation boundaries are subject to the Type A test and as such, their leak rates are reflected in the total Type A results. The allowable leak rate per Technical Specifications is 5,427 sccm per valve.
As-Found Leakage Rate (SCCM)
Penetration 1992 1993 1994 X-18A 1,568 3,903 3,291 X-18B 500 X-18C 485 656 1,594 X-18D 5,172 344 3,251 Table 8. As-Found LLRT Results for MSIV's 4.0 TYPE A TEST The as-left Type A test results were corrected to include the minimum pathway leak rate differential for Type B and C containment isolation boundaries which were repaired or otherwise adjusted during the refueling outage just prior to the 1994 PCILRT. This corrected value is referred to as the As-Found Type A leak rate. The containment boundaries which were repaired or adjusted during the 1994 outage and their as-found and as-left minimum pathway leak rates are listed in Table 9.
The total adjustment for repaired or adjusted Type B and C penetrations from Table 7 was 6,691.8 sccm (0.028 wt%/day). Adding this figure to the as-left Type A leak rate of 0.3016 wt%/day, yields a total As-Found Type A leak rate of 0.3296 wt%/day. This does not exceed the maximum allowable leakage rate, La, of 0.5 wt%/day (Ref.1) or the As-Found acceptance criteria set forth in NRC I.E., Information Notice 85-71 of 0.75 La (0.375 wt%/day).
147
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report Pen ¹ Valve No.l As-Found As-Left Penalties Descri tion SCCM SCCM SCCM X-000 DRYWELL HEAD 15.4 4.5 X-53 CSP-V-1,-2 2711 2688.5 X-66 CSP-V-3,-4 4023 91 3932 X-67 CEP-V-3A,-4A,-3B,-4B 725 92 -633 X-101 D ELECT. PENETRATION 31.98 0.0 31.98 X-105B ELECT. PENETRATION 38.95 0.0 38.95 X-47 RHR-FCV-64A 667 750 -82.5 X-63 LPCS-RV-18 1.3 0.0 1.3 X-11A RHR-V-16A,-17A 10.31 16.36 -6.05 X-11B RHR-V-16B,-17B 4.65 23.65 -19.0 X-14 RWCU-V-1,-4 8.9 3.75 5.15 X-17A RFW-V-65A,-65B 43.2 -42 X-17B RWCU-V-40 X-21 RCIC-V-63,-64,-8,-76 101 6.2 95 X-22 MS-V-1 6 -19 X-25B RHR-V-27B 2.5 31.3 -28.8 X-43B RRC-V-16B 0.46 8.5 -8.04 X-46 RCC-V-40,-21 663 160 503 X-77Ac P SR-V-X77A11 106 68 38 X-89B CIA-V-30A 92 20 72 X-117 RHR-V-1 34A 552 355.7 196.3 RHR-V-73A X-118 RHR-V-134B 7.8 20.6 -12.8 X-119 CSP-V-9,-1 0 108 199.2 -91.2 TOTAL 6691.8 Table 9. 1994 Nlinimum Pathway Leak Rates for As-Found Type A Adjustment 148
Washington Public Power Supply System WNP-2 Primary Containment 1994 Integrated Leakage Rate Test Final Report 5.0 TYPE B 8 C CONTAINMENT PENETRATION TEST SCHEDULE On April 29, 1987, the NRC granted an exemption to a provision of Appendix J to WNP-2 (issued by the NRC with Amendment No.41 to Facility Operating License NPF-2). this exemption allowed containment isolation boundaries to be tested at a frequency of every 24 months rather than every refueling outage as required by Appendix J (Ref. 7)..
Certain conditions were agreed upon between the NRC and WNP-2 Plant Staff regarding the exceptions to the 24 month duration between leak rate tests. Of greatest significance is the requirement to establish leakage limits for each containment barrier.
Barriers which exceed this leakage limit are required to be retested during the next refueling outage.
One of the conditions of the granted exemption is that the reporting requirements of Appendix J be augmented to include the information associated with the unique aspects of the WNP-2 Type B & C testing program. In particular, a tabulation of leakage limits established for each barrier is required. This tabulation must also indicate those barriers which were tested during the 1994 outage, those which exceeded their leakage limits and must be retested during the 1995 outage, and those penetrations/valves not tested in 1994 and thus being scheduled for testing during the 1995 refueling outage.
The information required under the conditions of the granted exemption to Appendix J is presented in Table 10.
149
TABLE 10 CONTAINMENTPENETRATION SCHEDULE FOR TYPE B & C TESTS Page1 of5 TESTED IN 1994 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKLIMITYES PASSED FAILED 1996 NOTES gs?!NM!>!g!g Ig@?gM>I??!N??NNgggg'?!M>Mi'(!?1c>?>><<g'gM(::I:::N '3N!<i?:(i%:I!Ig?!g>I'?N>'%8>I IMg? >?P);;IM?;A/it? .,"g?<)c?g(@!,! g>>>gag?Mggg@;!
X4-1 CEP-V-1 A,18,2A,28 2125 X CCC?CCRMS RCIC-V%8,M 1475 X NN@M!NhN ?I!gs@?!?NM!g eIMP>MI?N?!N!'.NNNNN~+!?4'NRN!;?c!m?N!?'NI!:NZ3MI(c)!'!M! .eN!<Ncggc?<B'B!:>>?>>>M!M RCC-V-5,-1 04 1475 X S@ggkgg?>>I!g >M!g?CCRC!h!MMR!IRN!!<CMCICIC!:-'Mggg!3C!I?<!!!g?!>>g?Cgg?3:i!?',!g?! g!CI?3MIR:!33iM? g<CM NI!:.NN. :M?? g'."M?g?M>CM SNN??Y<CMCN? S!?RNM<NM>
X-11A X-11A-1 RHR-V-17A,-16A 1415 X X g!!!N!!hM!NM!!NMM!MM!8!NMM!MR!iiiiNM!M!Mh>>KK>>N!MN!N mMCCN?Mcgcgh!M X-118 X-118-1 RHR-V-168,-178 1415 X X X-13 X-13-1
?!?.
SLC-V-7
- 5. >>>?>I>>>>>.. NIIg?I!?>>>?>>!???>. 3!>> <I.>>>I >Y>!. >N> . > ...) .! ? >> >? ~ 3>>> (?g3+>)
N??'N'!',"'"I! >N!?Qj"@)'EIN>'>@PM?
X-13 X-13-2 SLC-VAA,AB X X Mg!<<gg?>?.": '"::::',RC??!g!MSM?! '.'M,'Sgc?..Mgg: <g!g?Mcg.:I!?NSM'g'!Cgg CRS( M i!'<gcg? .M<9M>>N?Ng>>I > <g?i >g g"'jI'gc<N X-14 X-14-1 RWCU-V-1,4 885 X X
?:IF>eu>3;N<pM'Ig<>N,NN!:Ng;N:N>>:,:,MM!:>IMI'?NI?@@@)y>INNNN <I::.:!jMNNMg:i",,N??Ice! i!".Iq+,"N,.:h?!? P X-17A X-17A-1 RFW-V-10A 2125 X X-17A X-17A-2 RFW-V%58,45A, RWCU-VM 2125 X X X-17A X-17AM RFW-V42A 2125 X X X X-178 X-178-1 RFW-V-108 2125 X X X-178 X-178-2 RFW-V428 2125 X X
- NMRMRSMCC RRRRK)N!CNN MM!MRMC?!MMM!g!N!N?MCMMM><~M!MMMM!MN!!N!!M!NM!NNNNN %MMMM!MMMM !'.".!N! !c!MN .?R!MMMMMM'! SMMRRM!g?!!
X-21 X-21-1 RCIC-V@4,43;76,4 1475 X
@?C>5655?Cgg X-22 X-22-1 MS-V-16,-19 442 ~ X X
??c CM!SM?g!>>!M<MCICRN.:!Mggg!CSCC X-23 X-23-1 EDR-V-20 442 X X-23 X-23-2 EDR-V-19 442 X b?I?>><g!g? gh1! ?!.:%5:!!N>%".%6?Ã?NI?:?Y?!!.:??k?gg)ggggg?3?g?.:g>??;NggMg?g? Ng>%1?>g??g!g? g <?<3?I?3 ?.."..:.S?.:.::><N>.: g!!gg>Im?I?C g??gII>>gg!Ng!>>!5 X-24 X-24-1 FDR-V-4 442 X X-24 X-24-2 FDR-V4 442 X X
,CMM?S!Mg( >M?c?cggc,'?Cg!N?Mggg<,'!,:;;"'g?g!;Mg!CI<!CM?CCM?,'.?3MSR?Cg 'g)<3CMSCC!Cg <Mcg N?!NM gg<Mgg?!M M?gggjMCI; <~gggggj?3>>gg?
X-25A X-25A-1 RHR-V-27A 885 X Ng!ii,'I!NNN! '!N!',!N?Mp hMNM!N!hhY?MMcMMN')N<N:N:;; """,",".!'.M.'j!I!? M!'g>!?'!!??pQ>> ?'6?!??
X-258 X-2584 RHR-V-278 885 X X S)M%%%CM! gc'M?3(pj???C<g'g<<MI'MC<< (g?M jj"'" 'MI>";"<?;:<<<cc>>>><?<>>>>"c'Nc'(>>:<c<g <!<<<<<? c<g!g <<cg>><<!g.<< <<'gcc!!< "<$pI;:gc? <<<<<g<(<<" <<
X-26 X-26-1 RHR-FCVMC X X-26 X-2M RHR-V-21 1595 X X X-27A X-27A-2 TIP-V-1 X X X-278 X-278-2 TIP-V-2 X-27C X-27C-2 TIP-VQ X X-27D X-27D-2 TIP-VA X X X-27E X-27E-2 TIP-V-5 X X-27F X-27F-2 TIP-V-15 AND THREADED UNION 148 X X X-27F TIP-V4 74 X PNNh%MMNNM X-27'-29ac-1 SM!".N!N>!.::>M!!g!NN!NI::>N!N::N)N!MIN?gKINNCC>.?%>>?..".'>>! N?c'NM?>>??!>>>> NM!Nc!h)<N?? '.@?RPc? N!?N c X-29alc PI-VX-257 148 X X X-29a/c X-29ac-2 Pl-VX-256 148 X X g!!M?3S!Mggg CCCS?>>CCCCCCMMg! CI>M>MC!N!g!Cgg!!CMgggiggIC!M g??3CMM?3'?3I ICMC X-'42d X42d-1 PI-VX42d, Pl-VX-21 6 148 X X
?!MN!?<!!i!g ."!g!RMNMM<':!NMN<!'>M!ci?!!:;.,"!
XMA X43A-1 RRC-V-13A 110 X X~A X%A-2 RRC-V-16A 110 X c;; < gc'.gyM:Mc!!;@(QM: '.Sgg!Mgg?Cg 150
TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B & C TESTS Page 2 of 5 TESTED IN 1994 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKLIMITYES NO PASSED FAILED xc "
1995 NOTES
>Igni!Cl;;;3%5 >3?p>NN?:CCN:?S(%<, )IR>g?R'<I3>33>>N>>~> q<N?NR?N>!ah~.
X-43B XWB-1 RRC-V-16B 110 X X X~B X~BN RRC-V-13B 110 X X
>!R!CCCCCI<g<L<'N<NR<hlkSi~ii!I;.i!i'NNN!CRICNCN!N!!ii!<<3!!i3 SN 'CR!
ROC-V&,-21 1475 X O'S<R!Wag!.::.:::: 'SR!P>e?@RID !N3,'Spp!!4!R<<'SN +!S gh'". x>x<< "N?N<R<S'Rp!3>>3313 <1>!RRNR<<RSP. I ~xR<SN 3@a>>>4k .>> .333>333>>><k>> >3<>> b .........
X<7 RHR-FCVMA 442 X X X<7 X<7% RHR-V-121,-120 885 X X X<7 XA7-9 RHR-V-24A;11A 1595 X SpRSpSN'.SSS! NRC!NS<ggj~g!Rc~<S!RSSSN!NNNCC ?c!RRSRSNNRN R/RS RSCC<ICSX g@R!N?NCN CNRRCCNR<ghO:!i.':;:R!RNCR' RHR-V-11B, -24B 1595 X RHR-FCVMB 442 X X RR><<<3NRIISN!@<>ICE>i!A'?Y<<<NC<i?l>q>g<?i><i?133!!3>!I!k>iiiiia>i? :3338..:.:%%I?%NN g?C>NS:!p>>!31:393!~<g?333>NC !%<IIIC>?Ig<R>g>I m>CSI!i>g?IN!
HPCS-V-23 1062 X X HPCS-V-12 590 X X c
ICNCN!NghgN! '.!NRNINLCC!CI @NINNNSNRN;Spx NNpSggg~pglg!CINQUE!CNNNCC<N@< CCL!NCNRCN?!N!i!!ANNI ga!Ca!Ngg<SN RRCNNRC<N X%3 CSP-V-96 148 X X X%3 X%3-2 CSP-V-97 148 X PPM 7.4.6.1.8.3- CSP-V-1,-2 X h!h!Nq@QN@ %<'%(..3'if<3 N')Q>!a<x>egg R;!R!; S.;,.
XMAa XMAa-1 RCIC-V-184, -740 148 X X RNS!SCCA!Cl!~CRISIS;;Rg!!!!!!!!!!NKNR)RINRNR!Ng!RNR!NNNNNCC!:(SR!! gpk!
XMBf XMBf-1 PI-VX44Bf, Pl-VX-218 148 X X 1MM>RNNSR <'!'13' '!S!<< '3S 'R<RPX4j!ccg c<p?c!>><<@
X%6-1 CIA-V-21 110 X X CIA-V-20 110 X
- egg! Cgglgagggg(gcgg@cgig!C,'.i'Clmggga>cgggggg!CIR NNCICCCCN mii,'.:<Ilia."ia ICCCNCCICCCI ":Camgg?NR X41f X@1 f-1 PI-VX-219, Pl-VX@1 f 148 X R<NNhiRSWANN SRSRSNRNhg :Ngl<li@N? lc<<li!RSg(~I!<lx?NNN!h;<~l?QR'apl!!cgl!R<Rig<", IR<N<'.SR>'.R'! S 4!!!S X42f-1 PI-VX42f, Pl-VX-220 148 X xc<<<cc <<c<<c;c;<'.c<<<c;c<<ccc<c;<<cSc<<<<<c<<<<<<c<;<<<<<<c<<<<<< cpc;<< <c<<<<<<<<<<<<<<!<c!c! <<<<< Rc<<<c! c
'M>>N? ">>Cg!INN!?:Cggg?Ic>C>% Cgg!C<3<NC3!Cl<> !Clcg>g?g?g!3:
X-63 LPCS-V-1 2 1062 X X LPCS-FCV-11 442 X X Rg!>Rigg<RI!> Yj>i!SR!S NRS<ii;"'RRRRR R!pR!!N<":!:i X%4-1 RCIC-V%9, -28 X
",sg?. C?CIIIagg?INC<!. glgk95! Ig>clx'Ig>lgglg>>%@>IC<?RSC>R'9 ! 'I33)j?IR<c<)cclc<3! <!cN")p j'<<<c! ~!~xp'!(;3!NIp.'N; 3!N?pN ?hN3!>?h>p.',N>!,3 3>3>,.h?3>>>:.
X%5 X<5-1 RCIC-V-19 295 X
!SSSNS! S!@5!Nh!RN N<NO@!NN1R!!Ch!Cga!NiNi@Nigg!NggggglgpgNN!Cgg >RLR<RSN!CON NNCN <RNNR NR3@Q<1CS! .!,"Cg!;.diC! g,"NS!NCR!R<RRR S!SSSS CSP-V-98 148 X X X%6 X%6-2 CSP-V-93 148 X X X%6-3 CSP-V-5, -7 2124 X CSP-V4,4 2124 X xc <g<<I<<<(<<$ <<c 'RC'x!cgc<<<<<<<el x<<<c<<c<<>>xc><<<<<<<<<'<<<<c <<<<<<cccc<<j<cc<<<<<<<!<<<<<<N!<<!<<<ccc<<c<c<<<(c <gg<<IN<gc!<<3<<j< Rcgccc <<<<<<< !ccpx!<<<Nccc<<:<I< <<<<!<<Ccg N<<cyg<gcc!! .c.lpf !<<<:C Rh?>>3 X%7-1 CSP-V4, 4 2124 X X-67 PPM 7.4.6.1.8.2- CEP-VGA,3B,4A,4B 5660 X
- NNNNRRNRNRRSRCRN;RR!R!j iS!!!RN!Ngcgggg<SSSRNR C!Cc!C<CCCSNN! !g!CS NS! )RIS<CN<i!C ".C!C!cR!K!i!.'NN.:!NNCR!!N!R.SNI."d+R':.3 X49c X49c-1 PI-VX49c, Pl-VX-221 148 X X L:<333>>?I>3<R?.'.k!3C!.'!.".<3?!.:!>3:!3?<%%NO.:IN?II?Y? I? l3!C>1>:353 NS/CMN¹3>g>31 %3?1>! I>ix 3! '3!313<<>>3>g?h 93>R?S313>>!3!3 c!S3! C>>ch.',<>R>
<>< @~a<>>g<>><<3+'.<;
X-72f X-72f-1 Pl-VX-253 148 X X-72f X-72f-2 Pl-EFC-X72f/ PI-V-X72f/1 148 X X
~C4@%%%5N:gael@ SN<<<4@:"::@@>%%%<<c>R:".. Rc<<<<x<<3/
X-73e X-73e-1 Pl-VX-259 148 X X X-73e X-73e-2 Pl-EFC-X-73e / Pl-V-X73e/1 148 X X X
!RNRRRS>S<<S SNSNRRRS <0z'.<Rl<h<INIIR x>)NR<R<R(N <<INRRC<3;!;N.;!.R>S!!3R<<?! S>:
151
TABLE 10 CONTAINMENTPENETRATION SCHEDULE FOR TYPE B & C TESTS Page3of5 ?
TESTED IN 1884 TEST IN PENIS TEST ID 5 DESCRIPTION LEAKUMIT YES NO PASSED FAILED 1886 NOTES ghj!I??M<gc'.>? @(gg!s?gs?N$ ',:;;:,',!',,;;Ng<gg>>? 13'sg%NII<'.;:??g!/?3;,sg>>gg!~?ga?g!I?9<gs<?~lg':.","gg? .:;,,'??Ng?3g! QNR gg!gg !<g<p<< ?<<<c Ig<?pg 'I (!<g'9<<cf:ggc X-73f X-73f-1 P SR-V-X73-1 X-73f X-73f-2 P SR-V-X73-2 X X X NNc?N!!N!!!???g i;SM??<Nggg!<<N ',"g?~i<>g?g!)Ng?!?N!!SIN!!!?Pgig<MNag??<!NNNNN?'.!N!NNNI:k@N:cga?N!NN'3!i!?h??? I?Ng>>: NNN NNL>>!!Ngg!?> tg!NN<<M'.!?
X-TTAa X-77Aa-1 RRC-V-20 X X-77Aa X-77Aa-2 RRC-V-19 X X egg@<I!?3!!g?c?g!? INN'!!I<gg!?3?<>'>?<N!;;?i?i!S?g?x~x',!,'3N?%wag??!?!h'(!!!NN!!<Ng h??p>?iyg>183>>>/NN a(<?? <i@iM?>>>N!mg?!!? 5%55'4>. 3 'ml!INI>N@ w!ÃC@%
X-77Ac X-77Ac-1 PSR-V-X77A-1 X X-77Ac X-77Ac-2 PSR-V-XTTA-2 X X
?!IgM??g!<N?<N 'm!Sh?N!M?<<?N>>'?g?'N!?! '<g?'?~??a?NM?N?!N'm'<"!!gg?N???Ngg?NN'Migga 'N?K~NNhghg?N?N ;N?jj~ii '.!!,'Ig!Njg<!g> q!<!a!Ng<!g; Nggag?M?!!<hg? 45!NM!QI X-77Ad X-77Ad-1 PSR-V-XTTA4 X-77Ad X-77Ad-2 PSR-V-XTTAQ Q';;.c:;g!~!g<,?I? <<<?>>< m?M?!?!>i@!m Ngg<NI!g!g
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X-78d X-78d-1 LPCS-V46, 47 X N!N?N?NM!gsc<<%<S?Ig!<MNN!!!!NNN?.!?1?g?!.'i,'Mg!M?M?NI!!!NNNN!h!!N!<<<N!!!!!!N!NN!SN?M g<gg<< '<<"I<<??<<'<< '"CI3<<g'>><< ;.<,,>>Sh;k???IN '<:N<<?<..;.;;;..
X-78e X-78e-1 HPCS-V45, 48 X
@!!>?!!@h?m!4?)N! Sp!hg!?S?"!I!<>N<p?3!3)0%?!!mh'3?3IY?!I!!;,"1smhc)! I?!I!g30<m!>>>>I !>>>>)'!sc!!ht?msg!!?I )??!!?p? !I??NN? !3?!N"'??!Sig!'. ')'".:is?!?>>I!8 ?L;,?';?!?;I;?8????>> h!!m?Qh!N??:
X40b X40b-1 P SR-V-X80-1 X X40b X40b-2 PSR-V-X80-2 X X SNN?NNM".?",M':!MNNN?!<<>>NMNNI!MM?NMI!!!3M?g!NMNN(83M!NNM!:NMMNNNNM cg?cM mggg MM<%?Ng!::NIP'I<"gg (N?g!?MN!!g!g! NI??ININNM X42d X42d-1 PSR-V-X82-1 X42d X42d-2 P SR-V-X82-2 X X
?>>?I?'!????3??????>>:'>>??????>>')cc!??c?a!h>>>>?)?<?N???!>>?>>??>>?>>?<????????>>!>>c!?93?3>>??q'. '!?'?39?303<!c!p?!?<8 ?1I??4!!
X42e X42e-1 CAS-VX42e, CAS-V-730 X p <<pc< <(< t "<<:<<: t "3<?<c! '.c "j'c st cp>>g<< pg 'gcc?<<<<3<<!<<Nc>>c(<gcj< 'cscg<cc!<<<c<<<:cg<<<'p<pcc<cgp?g gg?N! gg<>><<<>>h?(?Ngggg ?sg!I;S?hg<ggg qgcggcc<gc;.?a<9 X42t X42f-1 PSR-V-X82-7 X X42f X42f4 PSR-V-X824 X h!ma!i!ma?k?!! 33)!NN3!!!!3N!!>?;N!>j!!gg?i:8 X43a X43a-1 PSR-V-X83-1 X X43a X43a4 PSR-V-X83-2 X
'8$ <<cg<<g<<<g<gc@ t<j!<?<gg<< Q?g( 'cp!?<?(gggS<<<I <S<<'cc"(qwjg?S<)$ (g(<4agpg<h<<:p<<'<<cgg<<g<g<g '
Ng?N Igg?!!? ?Ng>(<gg?NNI." ?Ngg??Mg sg@C!NNM?INN ?Ngg!UNNN X44f X44f-1 P SR-V-X84-1 X X44f X44f4 PSR-V-X84-2 X X 8!!N?!?<38?c,:;,c...g<;!:',Ns,!N!g,:!!;;;,;<3?3?ga?3!N?,"::8!!3M!<N!Sc;.~38!?!s!?h?1?,!!y,;/M<;!?1 M!?9',M3!egj N!?M ;'M!!!!N?NM Nigg!!'.!YN X45alc X45ac-1 PI-VX-251 X45alc X45ac-2 PI-VX-250 X X ccs!3.'M3!h>>N?h?:g!3?@3>glom?<!?4%??gh!Page>egjgg?g'.jh?Nlj?h?N??syc>s!!mh? gs?N?A'%%mj, h?e ;?>>S?>":. '9Mh!SNS>> gc'?egg!<!>>NNc N!3!35!N!MNN b8?!-'.!N".N!?
X48-1 P SR-V-X88-1 X PSR-V-X88-2 X X NNggghg!83N? 8Ã4!M?!NW!Sh!K'!!8<!AM!!>>S?ii!N?N!!!8!!!!8!!g!h!!ig::!iii'?K?!Nigig!!?! ,!;8;!;?3:!:,g?:!!h!!NN!!,:,;N !u!!!3!?mc 83!!3!33 .>>;83<gg<gg??
X49B X49B-1 CIA-V40A 74 X X X X49B X49B-2 CIA-V41A 74 X X g?NNN!!N>>c>>??N t??333?3???333 S?N?g??gse?g?3!.::.:..:.:333~333!!sS?ss??sgs?g3<sS!<!!!s!3!s?3 <<'333?i%."?333!??i??3 33333333 X-91 X-91-1 CIA-VQOB 74 X X-91 X-914 CIA-VQIB 74 X NiY<.'<<h?h!?M?t 3!?N!?83'!!g!8!<N ! -"3 g?QN!33!?g)gS'!N!S?s'.NN!!'!'3<?33833!6>83!N!gg?8!3:!N? t:!<3'.!&N<!!?!8?8 <<mal !!>>!3!<3g?MS NN??8!:g! m!ih>><<N? "3!8?33N>< .>>hgg!>?NN>!?!3:
X-92 X-92-1 DW-V-1 56,-157
!gg>>j;?g?3g!g .'g?!3333333>3<3g?gg?g?3N?g?333;M!g?g?%3?g?N?g(g??c??g?,".3?ggg!33 g>3M??g>?!?gs?g??'g g?g?g'? !.:3gg??33?g>3g3 8333!N33N!>>'3 X-93 X-93-1 SA-V-109 AND PIPE CAP c<<?Nh<g<p!<3@c<! gg3!i!M!NgM3? Ng??g?N<i','::g >',gag?N3!?1<h?i"His?1 gg>g?3:x.'.g>'g<h?pgg????g> g?g?33 X-94 X-94-1 MWR-V-124 110 X X X-94 X-94-2 X-94 PIPE CAP 0 X X gg?<<?<gpss<<N. @&+;:?4<<<,;~gS<5Ãs<<c~?,g'NI?.',':::,::; 'gc:;::,,:j?gx,',g<9?N<<gc>>'j'&c?84>%9gkg 'z+ggg<N9Pj:N g'".39@:;
X-95 X-95-1 MWR-V-125 110 X-95 X-95-2 X-95 PIPE CAP 0 Ng? 18333.'!g?'>W g!!Nfggg?ggN??g?3;:?g?3g?NM!g?ggishs;gI?gg?a@$ >>?'.??gg!,;f8<< gggggg(gg?g??3 g(g3g g<g>g>cg,".ggg?? ??33.@(ggg? I g'?Ig<gggs?? g gc.'ggs?3ggg 152
TABLE 10 CONTAINMENTPENETRATION SCHEDULE FOR TYPE B & C TESTS Page 4 of 5 TESTED IN 1894 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKUMIT YES NO PASSED FAILED
<'>h~<>> >R?>>((k<>>
1985 NOTES
).?>>R????st;:s .s>.'@>."..";hh.'assss',",; >('('<<'>ssss>'R(e><<<<(...ss>s>>?>?R<<(h?(<<?se? Rssss',.R R>, 4?<& tS,RS > S >S((?S>>S s SS X-96 X-96-1 CAC-V-2, CAC-FCV-2A X
!S!!!!!!S!!!c!c'Sc !ala!Ã(!<s!!!!h?.:!!:c!."ahs;;s!!!!!s!%!><!s! N%: s!!s>%!!Ra!!%!s&%;;R!!s!!4!aasÃsa? 'S!S!a!R!s!s!!K<<! <!S<!R', >S<< <<< s<!Rs!!!s!!!!!at:!!: s!s!?ha, %!!!<!<'.!!!'<?R!!'!'(!!a!h!a<@
X-97 X-97-1 CAC-V-15, CAC-FCV-1 B X X X-98 X-98-1 CAC-V-11, CAC-FCV-2B X
??'.N????<';??> &???"a?S"< ?<N??N? '4RN? '?"NR????;((? ~
X99 X-99-1 CAC-V4, CAC-FCV-1 A X X
<>s a . >s>(<<<ss '. <?>. s<h>><<as&? + > ? > ':.. sE.s(?s %?:;. sss. s'ss<sss <ss&((&w R>sssssss: >.:...<Nss , <S?<S;:~? >SS <M ".SSSS .'SS:Sb::x".SS."~ ?':S???SM>.."..0::: SS<>% .'N%> R X-101 X-101-1 FPC-V-156;149 X X
!ss!!! t!s!<sss!<!> !<!":!!N!hs!N!R!h!R8!: .::;::!:h;:;??'!>ssssR!ss!ss!!ass;:ssNssss!!s:ssa!N!Nsss."!!ss!?: <<!!.";N!!!S!!!> !!!!!:"a!!."N !Ra:!!:.:!!<<N!S!."'! '! R!!&N!;:!!?t X-102 X-102-1 CAC-VA, CAC-FCVQA 590 X X NNNR!!!!? .?ii!:i??.'.is<<?a !!!a!!!R!!!!Na!!;::!i!!a!!Rs??!i?
X-103 X-103-1 CAC-V-13, CAC-FCVAB X c" (N<,'?????<?<???:;??<????RS,'<M?R???<R?NRN?RM <?NR? ?R?M??????R?NR<&?MM >NMR c ?R?NM X-104 X-1041 CAC-V-17, CAC-FCVQB X X t>3S&><<RSSS(?SNS as><<s('&'s'? Rs<'((?:s?s(<:>>s(<<ss(?<<s3>s'<<5>M(::(R N':" <<?<<sssssss?:Scabs(<ss>s>sss>s<?> '. R> s 's> s>ssa S<<SSSS& S(<R?O'"" S?S:;><:S .<><< ?SS(?SSSSRSSSS;,?RS,.; NSh<S(?,SS;,<S X-105 X-105-1 CAC-V4, CAC-FCVQA X
- !<!!."i!(h!?W!?! ??!!:!!':?!!!!!!N:!.:!!!??!!i!%!!?(!!SS?4!i! (?!S!R!S(i(i(!R?"::!!!!!ai!a!!!S?Si!.i!i':!S!a!!!!.",",".i'::?'.<?a?i!?!ca?? ":"3?!! <<! ':: i!!!."."(!?!sss."!!'!!!!%!?!':%?.!;8::<<h<!Rs?s(',!?.'s X-117 X-117-1 RHR-V-124A,-124B X X-117 X-117-2 RHR-V-134A X X-117 X-1174 RHR-V-73A X X
?MRMRN?'?R ??M?R?ROM?R:N>?? t '.+RM?&<RMctc <?>,'?t?R>??N?e?<SR<?&N?a?'e><<>'<<)'??SS? ?R<M??'.;?R;RMR X-118 X-118-1 RHR-V-125A,-125B X-118 X-118-2 RHR-V-134B X X X-118 X-11M RHR-V-738
!!!!'.<<s."%!!!!.">> !'::::s"sa!!(<<!as:!!h<<!a!!!!a<!!!!sa<N!s!!a<(<!!h!ha!!!!<s. <<s!!s!?s!!'.sss's(<>! t>>>~ssss'h'!'!! e!t<s!!!'!s!!s% <N SS(< ?c>> t<> c',sg&s!!'.S!s! >:!SS!(<s!! s(<s!'s s ss?!!s!s!! g!!(<<<!:.<!!ss!!!a@!
X-119 X-119-1 CSP-V-9, -10 2124
- " I;Is;;@@~!,,I I?,'ss,'! ",'I?Isa;s??!,'g?!;!!! I)>!);>a>".)';'1!I>>>'".",>)
- s'1>>s>>>>>R??
II@>s <??>?,'R?: eh?RI>! ?>';IsgS>?s!?>y, 4!>!>>???>I?l @IS?'S>II>'.?!,I>:i,.?! l!."."...':
TYPE B TESTS TESTED IN 1994 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKUMIT YES NO PASSED FAILED 1996 NOTES 3<<S<9'S< & M?<?? h'h?hS>?<<?;,"? Rh?? ()ShS.'.@4 R?"<?<?S'>R?
BX~ DRYWELL HEAD BX-1A INSPECTION PORT X X BX-1 B INSPECTION PORT X BX-1 C INSPECTION PORT X BX-1 D INSPECTION PORT X X BX-1 E INSPECTION PORT X X BX-1F INSPECTION PORT X BX-1 G INSPECTION PORT BX-1 H INSPECTION PORT X BX-15 EQUIPMENT HATCH BX-16 PERSONNEL AIRLOCK-PPM 7.4.6.1.3.2 5664 X X BX-27A BX-27A-1 TIP DRIVE FLANGE X X BX-27B BX-27B-1 TIP DRIVE FLANGE X X BX-27C BX-27C-1 TIP DRIVE FLANGE X BX-27D BX-27D-1 TIP DRIVE FLANGE X BX-27E BX-27E-1 TIP DRIVE FLANGE X X BX-27F BX-27F-1 TIP PURGE FLANGE X BX-28 CRD REMOVAL HATCH BXW1 SUPPRESSION CHAMBER HATCH X X BX-100A NEUTRON MONITORING X BX-100B NEUTRON MONITORING X BX-100C NEUTRON MONITORING
& tc>S<<?R<R&?<<? << ..>?.-.c??'.<?<??R?N?& '???M?RR&?&?????S'????????? "."R< N&M'cN&' "':: N<?N<<&c <<<<<< &<<Me??c&NR> <R'.R &R?R<'c',"?R <<<?M<
&?"'53
TABLE 10 CONTAINMENTPENETRATION SCHEDULE FOR TYPE B 8 C TESTS Page 5of5 TESTED IN 1994 TEST IN PENS TEST IDO DESCRIPTION LEAKUMIT YES No PASSED FAILED 1996 NOTES g!g?;g!,".Ij~+I~)!'g.ii';:.'Iac!g !g??!I;??g???,'?
BX-100D NEUTRON MONITORING BX-101 A CONTROL ROD POSITION INDICATOR X BX-101 B THERMOCOUPLE AND RTD X X BX-101 C THERMOCOUPLE AND RTD X X BX-101 D THERMOCOUPLE AND RTD X X BX-102A THERMOCOUPLE AND RTD X BX-102B THERMOCOUPLE AND RTD X BX-103A MEDIUMVOLTAGE POWER X BX-103B MEDIUMVOLTAGE POWER X X BX-103C MEDIUMVOLTAGE POWER X BX-103D MEDIUMVOLTAGE POWER X BX-104A LOW VOLTAGE POWER X BX-104B LOW VOLTAGE POWER BX-104C LOW VOLTAGE POWER X X BX-104D LOW VOLTAGE POWER X BX-105A CONTROL AND INDICATION X BX-105B CONTROL AND INDICATION X BX-105C CONTROL AND INDICATION BX-105D CONTROL AND INDICATION BX-106C WIDE RANGE NEUTRON MONITORING X BX-106D WIDE RANGE NEUTRON MONITORING X BX-107A LOW VOLTAGE PWR. AND CTL. IND. X X BX-107B LOW VOLTAGE PWR. AND CTL. IND X g!gg."k;~?; g<!? ~i??Ig!!I?,,',@gP mggg(j"?!34%'."?? g!4<!!a?',<gag! ~?!:," ',',ggggggjgggjggigi? g?i!?gggggggg?! '?~g!?i% ."?Iggg g?gm!g'.!!g! ' Ig!g??i!li~!! g?ggg! I:,"::.":-!?;:g::g BX-26 BX26RV-1 RHR-Rv-25C DISCHARGE FLANGE BX-26 BX26RV-2 RHR-RV48C DISCHARGE FLANGE X BX<7 BX47RV-1 RHR-RV-1A DISCHARGE FLANGE BX<7 BX47RV-2 RHR-RV-25A DISCHARGE FLANGE X X BX<7 BX47RVQ RHR-RV~A DISCHARGE FLANGE BX~ BX48RV-1 RHR-RV-1B DISCHARGE FLANGE X BX~ BX48RV-2 RHR-RVN DISCHARGE FLANGE BX-48 BX48RVQ RHR-RV-25B DISCHARGE FLANGE X BXM BX48RV-4 RHR-RV4SB DISCHARGE FLANGE X BX~ BX48RV-5 RHR-RV40 DISCHARGE FLANGE 50 X BX<9 BX49RV-1 HPCS-RV-14 DISCHARGE FLANGE X X BX~ BX49RV-2 HPCS-Rv~ DISCHARGE FLANGE X X BX43 BX63RV-1 LPCS-RV-18 DISCHARGE FLANGE X X BX43 BX63RV-2 LPCS-RV41 DISCHARGE FLANGE X
!g!?!!ggg>N!~g? Iggggg??!!'g<g g!!g!g?ig?Ig!ii'.i'.!g!g?i%?ii! ..gg?!gI?gg?MÃhg?g?!I? g!!!ggg!!!ig NOTES: 1. Containment Purge butterfly valves; tested every 6 months per Plant Technical Specifications. Leakage limit defined by Technical Spec.'s
- 2. Airlock tested every 6 months per Plant Technical Specifications Leakage limit defined by Technical Specifications
- 3. Component will be leak tested if opened during the 1995 outage
- 4. Feedwater check valve soft seat. Tested every refueling outage per conditions of granted exemption.
154