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{{#Wiki_filter:WASHINGTON PUBLIC POWER SUPPLY SYSTEM WNP-2 PRIMARY CONTAINVKNT 1991 INTEGRATED LEAKAGE RATE TEST FINAL REPORT 5'f10160226 9iiOi0 PDR ADOCK 05000397~P PDR Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE OF CONTENTS SECTION PAGE 1.0 Introduction
{{#Wiki_filter:WASHINGTON PUBLIC POWER SUPPLY SYSTEM WNP-2 PRIMARY CONTAINVKNT 1991 INTEGRATED LEAKAGE RATE TEST FINAL REPORT 5'f10160226 9iiOi0 PDR   ADOCK 05000397
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P               PDR


===2.0 Summary===
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE OF CONTENTS SECTION                                                  PAGE 1.0   Introduction 2.0    Summary 2.1     Type A Test 2.2     Type B & C Tests 3.0   Methodology 3.3    Leakage Rate Calculation 3.2    Test Measurements 4.0    Procedures 4.1    Plant Status                                      9 4.2    Prerequisite Activities                          10 4.3    Pressurization                                  10 4.4    Stabilization                                    11 4.5    Type A Test                                      12 4.6    Verification Test                                12 5.0    Results                                                  13 5.1    Type  A Test                                    13 5.2    As-Found Leakage Rate                            16 5.3    Verification Test                                16 5.4    Mass Point Results                              17 6.0    References                                              18 Tables and Figures                                              19 - 31 Containment Description                            APPENDIX I  32 Computer Program Description                      APPENDIX II  34 Type A Test Data                                  APPENDIX III 36 Type B and C Test Results Summary Report          APPENDIX IV  114
2.1 Type A Test 2.2 Type B&C Tests 3.0 Methodology


===3.3 Leakage===
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report
Rate Calculation 3.2 Test Measurements


==4.0 Procedures==
==1.0 INTRODUCTION==
4.1 4.2 4.3 4.4 4.5 4.6 Plant Status Prerequisite Activities Pressurization Stabilization Type A Test Verification Test 9 10 10 11 12 12 5.0 Results 5.1 Type A Test 5.2 As-Found Leakage Rate 5.3 Verification Test 5.4 Mass Point Results 13 13 16 16 17 6.0 References Tables and Figures Containment Description Computer Program Description Type A Test Data Type B and C Test Results Summary Report 18 19-31 APPENDIX I 32 APPENDIX II 34 APPENDIX III 36 APPENDIX IV 114 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report


==1.0 INTRODUCTION==
The containment integrated leakage rate test (ILRT) is performed as required by 10CFR50/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) which is cited by Appendix J, and in BN-TOP-1 (Reference 3) which defines an alternative methodology acceptable to the Nuclear Regulatory Commission. The conduct of the ILRT follows a plant surveillance procedure (Reference 4) which contains detailed instructions for all test phases.
References    1 and 3 provide two distinct options for the performance of the ILRT. The WNP-2 licensing documents provide a third option. If the Type A test (that part of the ILRT during which data used to calculate the basic leakage rate is gathered) has a duration of at least 24 hours, Ref. 1 allows leakage rate calculations to be performed using the mass point method defined in ANSI/ANS 56.8 (Reference 5). If the Type A test has a duration of less than 24 hours, leakage rate calculations must be performed using the total time method described in Ref. 3. However, the foregoing requirements are modified by the WNP-2 licensing documents so that if test duration is 12 to 24 hours, leakage rate may be calculated using the total time method described in Reference 2. The Reference 3 requirements apply only if test duration is between 8 and 12 hours. The 95% upper confidence limit calculation derived in Ref. 3 provides a very conservative (relative to the mass point UCL defined in Ref. 5) upper bound on leakage rate. Since the Type A test reported herein had a duration of 8 hours, total time calculations as defined in Ref. 3 were used to determine leakage rate and UCL. Mass point calculation results are listed in Section 5, but are provided for information only. Had the test duration been between 8 and 12 hours, a less conservative total time calculation (Ref. 2) would have been used to determine leakage rate and UCL. However, since the test duration was 8 hours, the alternative total time method was not applicable.
The WNP-2 1991 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, Methodology, 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 the Appendix contains a description of the containment, a discussion of the computer program used to calculate leakage rate, a tabulation of all Type B and C local leakage rate testing results obtained since the previous ILRT and listing of all containment atmospheric condition data recorded from the start of stabilization to the end of the verification test.


The containment integrated leakage rate test (ILRT)is performed as required by 10CFR50/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)which is cited by Appendix J, and in BN-TOP-1 (Reference 3)which defines an alternative methodology acceptable to the Nuclear Regulatory Commission.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Leakage rates and UCLs presented in the text of this report are rounded off to the nearest 0.001 %/day while the tables, generated by the ILRT computer program, list rates and UCLs to the nearest 0.0001 %/day, Considering all pertinent factors, leakage rates and UCLs are probably accurate to no better than the 0.001 %/day presented in the text.
The conduct of the ILRT follows a plant surveillance procedure (Reference 4)which contains detailed instructions for all test phases.References 1 and 3 provide two distinct options for the performance of the ILRT.The WNP-2 licensing documents provide a third option.If the Type A test (that part of the ILRT during which data used to calculate the basic leakage rate is gathered)has a duration of at least 24 hours, Ref.1 allows leakage rate calculations to be performed using the mass point method defined in ANSI/ANS 56.8 (Reference 5).If the Type A test has a duration of less than 24 hours, leakage rate calculations must be performed using the total time method described in Ref.3.However, the foregoing requirements are modified by the WNP-2 licensing documents so that if test duration is 12 to 24 hours, leakage rate may be calculated using the total time method described in Reference 2.The Reference 3 requirements apply only if test duration is between 8 and 12 hours.The 95%upper confidence limit calculation derived in Ref.3 provides a very conservative (relative to the mass point UCL defined in Ref.5)upper bound on leakage rate.Since the Type A test reported herein had a duration of 8 hours, total time calculations as defined in Ref.3 were used to determine leakage rate and UCL.Mass point calculation results are listed in Section 5, but are provided for information only.Had the test duration been between 8 and 12 hours, a less conservative total time calculation (Ref.2)would have been used to determine leakage rate and UCL.However, since the test duration was 8 hours, the alternative total time method was not applicable.
2.0  
The WNP-2 1991 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, Methodology, 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 the Appendix contains a description of the containment, a discussion of the computer program used to calculate leakage rate, a tabulation of all Type B and C local leakage rate testing results obtained since the previous ILRT and listing of all containment atmospheric condition data recorded from the start of stabilization to the end of the verification test.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Leakage rates and UCLs presented in the text of this report are rounded off to the nearest 0.001%/day while the tables, generated by the ILRT computer program, list rates and UCLs to the nearest 0.0001%/day, Considering all pertinent factors, leakage rates and UCLs are probably accurate to no better than the 0.001%/day presented in the text.2.0  


==SUMMARY==
==SUMMARY==
2.1 Type A Test The WNP-2 1991 ILRT was conducted on June 7-9, 1991.Pressurization commenced at 3:18 AM (all times in PDT)on June 7 following the completion of all prerequisite activities, and the containment was isolated at 7;00 PM on the same day when pressure had reached 35,2 psig.Pressurization was suspended for several hours starting at 7:30 AM for repair work on the pressurization line.Service air was used to continue pressurization during a part of the time that repairs were underway.During the latter stages of pressurization, suppression pool level was observed to be dropping at a rate of about 0.04 inches/hour, The start of the formal stabilization period and the start of the Type A test were delayed while the cause of pool level loss was investigated.
Stabilization commenced at 3:00 PM on June 8 and the Type A test was started five hours later, at 8:00 PM.Stabilization criteria were met in four hours.The start of the Type A test was delayed for an additional hour to allow time for replacing the data acquisition system with a backup unit.The Type A test was successfully concluded at 4:00 AM on June 9.Test duration was 8 hours.The verification test imposed leak was initiated between 4:00 AM and 4:15 AM and the verification test commenced at 5: 15 AM, following the one hour stabilization period required by Ref.3.The verification test was successfully completed in 4 hours, at 9:15 AM.Depressurization began at 12:57 AM following evaluation of an air sample by HP/Chemistry.
Test results are listed below: 95%UCL on total time leakage rate Acceptance limit (0.75 La)0.211%/day 0.375%/day Extrapolated total time calculated leakage rate Acceptance limit (0.75 La)0.168%/day 0.375%/day Mean of the measured leakage rates Acceptance limit (La)0.180%/day 0.500%/day Verification test total time calculated leakage rate Upper acceptance limit Lower acceptance limit 0.636%/day 0.790%/day 0.540%/day Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report The final as-left leakage rate (UCL)is 0.254%/day since penalties for penetrations in non-standard alignment and water inventory increase are 0.043%/day.The calculated as-found leakage rate (UCL)is 0.281%/day, This is the sum of the 0.254%/day as-left UCL and the 0.027%/day minimum pathway leakage improvements made during the Type B and C local leakage rate testing program.2.2 Type B&C Tests Type B&C local leak rate testing was performed during each of the four annual spring outages since the last ILRT conducted in 1987.The last test period occurred just prior to the 1991 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 6.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 6.o Spring 1988 Outage The measured leak rate for the sum of the as-left Type B&C tests was 19,218 sccm (0.17 La).0 Spring 1989 Outage The measured leak rate for the sum of the as-left Type B&C tests was 28,921 sccm (0.26 La), o Spring 1990 Outage The measured leak rate for the sum of the as-left Type B&C tests was 27,783 sccm (0.25 La).o Spring 1991 Outage The measured leak rate for the sum of the as-left Type B&C tests was 12,833 sccm (0.12 La).
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 3.0 METHODOLOGY


===3.1 Leakage===
2.1   Type A Test The WNP-2 1991 ILRT was conducted on June 7-9, 1991. Pressurization commenced at 3:18 AM (all times in PDT) on June 7 following the completion of all prerequisite activities, and the containment was isolated at 7;00 PM on the same day when pressure had reached 35,2 psig. Pressurization was suspended for several hours starting at 7:30 AM for repair work on the pressurization line. Service air was used to continue pressurization during a part of the time that repairs were underway. During the latter stages of pressurization, suppression pool level was observed to be dropping at a rate of about 0.04 inches/hour, The start of the formal stabilization period and the start of the Type A test were delayed while the cause of pool level loss was investigated.
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 period of time.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 as the sum of the products of 18 measured temperatures and their associated weighting factors (discussed below).Individual dewpoint temperatures (6)are converted to vapor pressures using the ASME Steam Tables saturation line algorithm.
Stabilization commenced at 3:00 PM on June 8 and the Type A test was started five hours later, at 8:00 PM. Stabilization criteria were met in four hours. The start of the Type A test was delayed for an additional hour to allow time for replacing the data acquisition system with a backup unit. The Type A test was successfully concluded at 4:00 AM on June 9. Test duration was 8 hours. The verification test imposed leak was initiated between 4:00 AM and 4:15 AM and the verification test commenced at 5: 15 AM, following the one hour stabilization period required by Ref. 3. The verification test was successfully completed in 4 hours, at 9:15 AM. Depressurization began at 12:57 AM following evaluation of an air sample by HP/Chemistry.
A single average vapor pressure is calculated in the same manner as is average temperature.
Test results are listed below:
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 calculation to eliminate pressure changes resulting from evaporation of liquid water and condensation of vapor.If leakage rate is constant, it is best defined as the slope of a line fitted to a series of air mass/time data sets.This is the mass point determination defined in Ref.5.Reference 3 derives a very different leakage rate calculation.
95% UCL on total time leakage rate                              0.211 %/day Acceptance limit (0.75 La)                                      0.375 %/day Extrapolated total time calculated leakage rate                 0.168 %/day Acceptance limit (0.75 La)                              0.375 %/day Mean  of the measured leakage rates                            0.180 %/day Acceptance  limit (La)                                0.500 %/day Verification test total time calculated leakage rate           0.636 %/day Upper acceptance limit                                  0.790 %/day Lower acceptance limit                                  0.540 %/day
The total time leakage rate described in Ref.3 is based on the assumption that rate varies linearly with time.A so-called measured leakage rate is computed for each data set (except the first)by subtracting the mass determined for that data set from initial mass and dividing by elapsed time.A straight line is fitted to the measured rate/time data by the method of least squares.The calculated total time leakage rate is defined as the ordinate of this line at the end of the test.Since the duration of the test was 8 hours, the total time method defined in Ref.3 was used to calculate leakage rate and UCL.The total time calculation described in Ref.2 was not applicable.
 
Since there is always some scatter of individual data points about a fitted line, there is always some uncertainty regarding the true slope of the line.The uncertainty is quantified statistically by calculating confidence limits on the slope (and, in case of the total time calculation, the intercept) of the line.The confidence limits on leakage rate are Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report determined at the 95%confidence level.Typically, the mass point calculated leakage rate and the associated 95%UCL are quite close to each other.Due to the way in which the total time UCL is formulated, it tends to be considerably greater than the mass point UCL.As a result, the total time UCL usually provides a very conservative upper bound on leakage rate.Reference 3 specifies three acceptance criteria.First, the upper 95%UCL on the end of test calculated leakage rate must be less than the maximum acceptable as-left leakage rate.The maximum acceptable as-left leakage rate is, per Ref.1, 75%of La or, 0.375%/day (The Technical Specification identifies La as 0.5%/day).Second, the calculated leakage rate extrapolated to a 24 hour duration must be less than 0.75 La.Finally, the mean of the measured leakage rates, determined using data accumulated during the final five hours of the test, must be less than La.The test may be terminated when all three criteria are met and test duration is at least 6 hours (8 hours per Ref.4).Following the conclusion of the Type A test, the calculational method is verified by imposing an additional leak on the containment and calculating the new rate.The new calculated rate must equal the sum of the previously calculated rate and the imposed rate plus or minus a tolerance of La/4.The imposed rate, vented from the containment through a flow meter, is approximately equal to La.This supplemental 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 and absolute pressure transducers connected to the containment through a piping penetration.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report The final as-left leakage rate (UCL) is 0.254 %/day since penalties for penetrations in non-standard alignment and water inventory increase are 0.043 %/day.
Eighteen drybulb temperature sensors and 6 dewpoint temperature sensors were installed in the containment at five approximately equally spaced elevations.
The calculated as-found leakage rate (UCL) is 0.281 %/day, This is the sum of the 0.254 %/day as-left UCL and the 0.027 %/day minimum pathway leakage improvements made during the Type B and C local leakage rate testing program.
Sensor locations and weighting factors (volume fractions) are listed in Table 1.Fourteen drybulb sensors and 4 dewpoint sensors were installed in the drywell.The remaining 4 drybulb sensors and 2 dewpoint sensors were installed in the wetwell.Drybulb temperatures were measured using 100 Ohm platinum resistance temperature detectors (RTD's).Dewpoint temperatures were measured by chilled mirror dew cells.These devices use a thermoelectric junction to cool a small mirror.The amount of light reflected by the mirror from a light source to a photodetector changes when the mirror cools to the dewpoint and collects condensation.
2.2    Type B & C Tests Type B & C local leak rate testing was performed during each of the four annual spring outages since the last ILRT conducted in 1987. The last test period occurred just prior to the 1991 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 6. 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 6.
A small RTD senses mirror temperature which is controlled at the dewpoint by the photodetector circuit.The RTD sensing mirror temperature provides the output (a resistance).
o      Spring 1988 Outage The measured leak rate for the sum of the as-left Type B & C tests was 19,218 sccm (0.17 La).
The RTD's and dew cells were connected to Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report the data acquisition system and 24 V power supply through containment electrical penetration s.Absolute pressure was measured by a vibrating cylinder manometer.
0      Spring 1989 Outage The measured leak rate for the sum of the as-left Type B & C tests was 28,921 sccm (0.26 La),
This device 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 8 hour test duration.A digital data acquisition system was used to collect data at 15 minute intervals and transfer that data to the ILRT computer over a serial (bit by bit transmission) link.The data system included the conditioning circuitry for the RTD's used to sense drybulb and dewpoint temperatures.
o      Spring 1990 Outage The measured leak rate for the sum of the as-left Type B & C tests was 27,783 sccm (0.25 La).
RTD resistance was converted to temperature with a 0.01 deg.C resolution.
o      Spring 1991 Outage The measured leak rate for the sum of the as-left Type B & C tests was 12,833 sccm (0.12 La).
One manometer provided a six digit binary coded decimal output to the data system.The six digit manometer output was converted into a five digit decimal number (XX.XXX)and a single digit decimal number (0.000X)by the data system and passed to the computer as two separate channels of data, The two numbers were recombined into a single six digit decimal number by the computer.Splitting the manometer data into two parts was done to overcome the 80000 count limit on data system output.The data system generated a printed tape record of each data set transmitted to the computer.The second manometer was connected directly to the computer parallel (IEEE 488)port.Pressure data from the second manometer was not recorded by the data acquisition system.The ILRT computer is a small IBM compatible running a compiled BASIC program.The program is described in the Appendix II.Other instrumentation included a thermal mass flowmeter (connected to a containment instrument penetration) to measure imposed leakage during the supplemental test, two analog indicators used to measure containment gage pressure, a barometer used to measure reactor building pressure and an RTD used to measure reactor building temperature.
 
All temporary instrumentation was calibrated to the requirements of Reference 4 prior to the ILRT and performed well during the test.Permanent plant instrumentation was used to measure RCS level, suppression pool level and various other parameters.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 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 period of time. 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 as the sum of the products of 18 measured temperatures and their associated weighting factors (discussed below). Individual dewpoint temperatures (6) are converted to vapor pressures using the ASME Steam Tables saturation line algorithm. A single average vapor pressure is calculated in the same manner as is average temperature. Dry air partial pressure, P, is measured total pressure less average vapor pressure. The quantity of air in the containment is:
Water level data are used to correct calculated leakage rate if level rises significantly during the test.Other data, such as reactor coolant temperature and suppression pool temperature are used, if at all, only for diagnostic purposes.
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.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 4.0 PROCEDURI<A
The partial pressure of dry air is used in the calculation to eliminate pressure changes resulting from evaporation of liquid water and condensation of vapor.
If leakage  rate is constant, it is best defined as the slope of a line fitted to a series of air mass/time data sets. This is the mass point determination defined in Ref. 5. Reference 3 derives a very different leakage rate calculation. The total time leakage rate described in Ref. 3 is based on the assumption that rate varies linearly with time. A so-called measured leakage rate is computed for each data set (except the first) by subtracting the mass determined for that data set from initial mass and dividing by elapsed time. A straight line is fitted to the measured rate/time data by the method of least squares.
The calculated total time leakage rate is defined as the ordinate of this line at the end of the test. Since the duration of the test was 8 hours, the total time method defined in Ref.
3 was used to calculate leakage rate and UCL. The total time calculation described in Ref. 2 was not applicable.
Since there is always some scatter of individual data points about a fitted line, there is always some uncertainty regarding the true slope of the line. The uncertainty is quantified statistically by calculating confidence limits on the slope (and, in case of the total time calculation, the intercept) of the line. The confidence limits on leakage rate are
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report determined at the 95% confidence level. Typically, the mass point calculated leakage rate and the associated 95 % UCL are quite close to each other. Due to the way in which the total time UCL is formulated, it tends to be considerably greater than the mass point UCL. As a result, the total time UCL usually provides a very conservative upper bound on leakage rate.
Reference 3 specifies three acceptance criteria. First, the upper 95% UCL on the end of test calculated leakage rate must be less than the maximum acceptable as-left leakage rate. The maximum acceptable as-left leakage rate is, per Ref. 1, 75 % of La or, 0.375
        %/day (The Technical Specification identifies La as 0.5 %/day). Second, the calculated leakage rate extrapolated to a 24 hour duration must be less than 0.75 La. Finally, the mean of the measured leakage rates, determined using data accumulated during the final five hours of the test, must be less than La. The test may be terminated when all three criteria are met and test duration is at least 6 hours (8 hours per Ref. 4).
Following the conclusion of the Type A test, the calculational method is verified by imposing an additional leak on the containment and calculating the new rate. The new calculated rate must equal the sum of the previously calculated rate and the imposed rate plus or minus a tolerance of La/4. The imposed rate, vented from the containment through a flow meter, is approximately equal to La. This supplemental 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 and absolute pressure transducers connected to the containment through a piping penetration. Eighteen drybulb temperature sensors and 6 dewpoint temperature sensors were installed in the containment at five approximately equally spaced elevations.
Sensor locations and weighting factors (volume fractions) are listed in Table 1. Fourteen drybulb sensors and 4 dewpoint sensors were installed in the drywell. The remaining 4 drybulb sensors and 2 dewpoint sensors were installed in the wetwell.
Drybulb temperatures were measured using 100 Ohm platinum resistance temperature detectors (RTD's). Dewpoint temperatures were measured by chilled mirror dew cells. These devices use a thermoelectric junction to cool a small mirror. The amount of light reflected by the mirror from a light source to a photodetector 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 RTD sensing mirror temperature provides the output (a resistance). The RTD's and dew cells were connected to
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report the data acquisition system and 24 V power supply through containment electrical penetration s.
Absolute pressure was measured by a vibrating cylinder manometer. This device 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 8 hour test duration.
A digital data acquisition system was used to collect data at 15 minute intervals and transfer that data to the ILRT computer over a serial (bit by bit transmission) link. 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 0.01 deg. C resolution. One manometer provided a six digit binary coded decimal output to the data system. The six digit manometer output was converted into a five digit decimal number (XX.XXX)and a single digit decimal number (0.000X) by the data system and passed to the computer as two separate channels of data, The two numbers were recombined into a single six digit decimal number by the computer. Splitting the manometer data into two parts was done to overcome the 80000 count limit on data system output. The data system generated a printed tape record of each data set transmitted to the computer. The second manometer was connected directly to the computer parallel (IEEE 488) port.
Pressure data from the second manometer was not recorded by the data acquisition system.
The ILRT computer is a small IBM compatible running a compiled BASIC program. The program is described in the Appendix II.
Other instrumentation included a thermal mass flowmeter (connected to a containment instrument penetration) to measure imposed leakage during the supplemental test, two analog indicators used to measure containment gage pressure, a barometer used to measure reactor building pressure and an RTD used to measure reactor building temperature. All temporary instrumentation was calibrated to the requirements of Reference 4 prior to the ILRT and performed well during the test. Permanent plant instrumentation was used to measure RCS level, suppression pool level and various other parameters. Water level data are used to correct calculated leakage rate if level rises significantly during the test.
Other data, such as reactor coolant temperature and suppression pool temperature are used, if at all, only for diagnostic purposes.


===4.1 Plant===
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 4.0 PROCEDURI<A 4.1 Plant Status The systems were placed in the following four broad categories:
Status The systems were placed in the following four broad categories:
A.     Systems filled with water and not vented to the Primary Reactor Containment atmosphere.
A.Systems filled with water and not vented to the Primary Reactor Containment atmosphere.
              ~     Reactor Closed Cooling (RCC)
~Reactor Closed Cooling (RCC)~Control Rod Drive (CRD)~Reactor Recirculation (RRC), Seal Injection B.C.Systems filled with water but vented to the Primary Reactor Containment atmosphere.
              ~     Control Rod Drive (CRD)
Residual Heat Removal (RHR)High Pressure Core Spray (HPCS)Low Pressure Core Spray (LPCS)Standby Liquid Control (SLC)Reactor Water Cleanup (RWCU)Reactor Feed Water (RFW)Reactor Core Isolation Cooling (RCIC), Water-filled
              ~     Reactor Recirculation (RRC), Seal Injection B. Systems filled with water but vented to the Primary Reactor Containment atmosphere.
'portions Post Accident Sampling (PSR), Water-filled Portions Fuel Pool Cooling (FPC), Supply Systems On-line Control Rod Drive (CRD)Reactor Recirculation (RRC), Seal Injection Residual Heat Removal (RHR), A and B Loops Reactor Water Cleanup (RWCU)Containment Atmosphere Control (CAC)*Sampling Handling Equipment Hydrogen Oxygen Monitors Reactor Closed Cooling (RCC)*CIV's open but air pumps not running Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report D.All other systems penetrating the PRC were drained and vented to the PRC atmosphere as well as to the Reactor Building atmosphere.
Residual Heat Removal (RHR)
High Pressure Core Spray (HPCS)
Low Pressure Core Spray (LPCS)
Standby Liquid Control (SLC)
Reactor Water Cleanup (RWCU)
Reactor Feed Water (RFW)
Reactor Core Isolation Cooling (RCIC), Water-filled
                    'portions Post Accident Sampling (PSR), Water-filled Portions Fuel Pool Cooling (FPC), Supply C.      Systems On-line Control Rod Drive (CRD)
Reactor Recirculation (RRC), Seal Injection Residual Heat Removal (RHR), A and B Loops Reactor Water Cleanup (RWCU)
Containment Atmosphere Control (CAC)*
Sampling Handling Equipment Hydrogen Oxygen Monitors Reactor Closed Cooling (RCC)
* CIV's open but air pumps not running
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report D.     All other systems penetrating the PRC were drained and vented to the PRC atmosphere as well as to the Reactor Building atmosphere.
Isolation valves were set in the post-LOCA positions except where the opposite positions were required to maintain the reactor in a safe shutdown condition.
Isolation valves were set in the post-LOCA positions except where the opposite positions were required to maintain the reactor in a safe shutdown condition.
Piping was vented and drained to expose valve seats to containment and outside atmospheres.
Piping was vented and drained to expose valve seats to containment and outside atmospheres. All sources of gas at pressure above test pressure were isolated to prevent leakage into the containment. All Type B and C local leakage rate tests, except those on penetrations used for pressurization, pressure sense and verification test outflow, were completed prior to the start of the ILRT. The containment sumps were drained down before the start of pressurization. One RHR loop was in operation throughout the test to remove core decay heat.
All sources of gas at pressure above test pressure were isolated to prevent leakage into the containment.
Containment lights were turned off when the containment was closed to eliminate point sources of heat. The drywell was vented to the suppression chamber by blocking open a vacuum breaker valve. The official test copy of Ref. 4 documents plant status including all exceptions to specified conditions.
All Type B and C local leakage rate tests, except those on penetrations used for pressurization, pressure sense and verification test outflow, were completed prior to the start of the ILRT.The containment sumps were drained down before the start of pressurization.
4.2 Prerequisite Activities System lineups, protecting equipment against test pressure, 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 verified.
One RHR loop was in operation throughout the test to remove core decay heat.Containment lights were turned off when the containment was closed to eliminate point sources of heat.The drywell was vented to the suppression chamber by blocking open a vacuum breaker valve.The official test copy of Ref.4 documents plant status including all exceptions to specified conditions.
Dewpoint temperature sensor performance was verified by an independent temperature-humidity probe. A temperature survey was conducted to confirm the containment temperature distribution assumed when RTD layout and weighting factor calculations were done. The containment examination specified in Ref. 1 was performed following the completion of the final Type C test. No adverse indications were found during this examination.
All prerequisite activities are documented in the official test copy of Reference 4.
4.3 Pressurization The containment was pressurized using diesel driven, oil free compressors having an aggregate capacity of 1800 SCFM. The compressed air was cooled and dried by an aftercooler and a refrigerated air dryer. The dryer'outlet was connected by hose to a flanged opening in the nitrogen purge line which discharged into the containment purge supply just outboard of the isolation valves.
10


===4.2 Prerequisite===
P II ~
Activities System lineups, protecting equipment against test pressure, 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 verified.Dewpoint temperature sensor performance was verified by an independent temperature-humidity probe.A temperature survey was conducted to confirm the containment temperature distribution assumed when RTD layout and weighting factor calculations were done.The containment examination specified in Ref.1 was performed following the completion of the final Type C test.No adverse indications were found during this examination.
All prerequisite activities are documented in the official test copy of Reference 4.4.3 Pressurization The containment was pressurized using diesel driven, oil free compressors having an aggregate capacity of 1800 SCFM.The compressed air was cooled and dried by an aftercooler and a refrigerated air dryer.The dryer'outlet was connected by hose to a flanged opening in the nitrogen purge line which discharged into the containment purge supply just outboard of the isolation valves.10 P II~
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pressurization commenced at 3:18 AM on June 7 and was stopped at 6:50 PM on the same day when pressure had reached 35.2 PSIG.Pressurization was interrupted for several hours starting at about 7:30 AM when a crack was found in the containment purge supply line opposite the nitrogen purge inlet.Planning and execution of repair work required about 9 hours and pressurization using the diesel driven compressors resumed at 4:15 PM.Service air was used to continue pressurizing during the latter stages of repair activities.
Leak surveys were commenced when containment pressure was just over 10 psig.With the exception of the crack in the purge line, no significant air leakage paths were found.However, a steady decrease in wetwell water level was noted starting between 2:00 and 3:00 PM.Level was dropping at a rate of about 0.04 inches per hour.Locating and isolating the water leakage required about 24 hours.The leakage was eventually stopped , by shutting RHR suction valve 4C.The formal temperature stabilization period commenced when suppression pool level was stabilized.


===4.4 Stabilization===
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pressurization commenced at 3:18 AM on June 7 and was stopped at 6:50 PM on the same day when pressure had reached 35.2 PSIG. Pressurization was interrupted for several hours starting at about 7:30 AM when a crack was found in the containment purge supply line opposite the nitrogen purge inlet. Planning and execution of repair work required about 9 hours and pressurization using the diesel driven compressors resumed at 4:15 PM. Service air was used to continue pressurizing during the latter stages of repair activities.
The stabilization period mandated by Ref.3 commenced at 3:00 PM on June 8, after the suppression pool leakage path had been identified.
Leak surveys were commenced when containment pressure was just over 10 psig. With the exception of the crack in the purge line, no significant air leakage paths were found.
The numerical stabilization criteria specified in Ref.4 were met at the end of four hours, the minimum required duration of the stabilization period.However, the stabilization period was continued for an extra hour (until 8:00 PM)to allow time for replacing the data acquisition system with a backup unit.The data system was replaced after a number of large spurious temperature indications were observed.A damaged system component (possibly resulting from a power surge following a bus loss of power test)was presumed to be the source of the spurious indications.
However, a steady decrease in wetwell water level was noted starting between 2:00 and 3:00 PM. Level was dropping at a rate of about 0.04 inches per hour. Locating and isolating the water leakage required about 24 hours. The leakage was eventually stopped
There were no significant spikes in temperature data following data system replacement.
    , by shutting RHR suction valve 4C. The formal temperature stabilization period commenced when suppression pool level was stabilized.
The temperature data recorded during the final four hours of stabilization were used to verify acceptable rate of change of temperature.
4.4 Stabilization The stabilization period mandated by Ref. 3 commenced at 3:00 PM on June 8, after the suppression pool leakage path had been identified. The numerical stabilization criteria specified in Ref. 4 were met at the end of four hours, the minimum required duration of the stabilization period. However, the stabilization period was continued for an extra hour (until 8:00 PM ) to allow time for replacing the data acquisition system with a backup unit. The data system was replaced after a number of large spurious temperature indications were observed. A damaged system component (possibly resulting from a power surge following a bus loss of power test) was presumed to be the source of the spurious indications. There were no significant spikes in temperature data following data system replacement.
The calculated rates and acceptance limits are listed on the following page.Average rate of change over the final 2 hours Acceptance limit 0.036 deg F/hr (+/-)1.000 deg F/hr Average rate of change over the final 4 hours Average rate of change over the final hour Difference Acceptance limit on difference 0.036 deg F/hr 0.035 deg F/hr-0.001 deg F/hr (+/-)0.500 deg F/hr Table 2 lists containment temperatures and differences over the full five hours of 11 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report stabilization.
The temperature data recorded during the final four hours of stabilization were used to verify acceptable rate of change of temperature. The calculated rates and acceptance limits are listed on the following page.
Figure 1 illustrates temperature variation over the same period.Average temperature increased smoothly as is typical for Mark I and Mark II BWR containments.
Average rate of change over the final 2 hours               0.036 deg F/hr Acceptance limit                            (+/-)   1.000 deg F/hr Average rate of change over the final 4 hours               0.036 deg F/hr Average rate of change over the final hour                   0.035 deg F/hr Difference                                        - 0.001 deg F/hr Acceptance limit on difference              (+/-) 0.500   deg F/hr Table 2 lists containment temperatures and differences over the full five hours of 11
The small temperature excursions evident between 6:15 and 7:15 PM are spurious and probably result from electromagnetic interference or a cable fault (intermittent conductor or shield ground).Table 3 lists, for information, containment pressure, average vapor pressure and calculated air mass during the stabilization period.4.5 Type A Test The Type A test commenced at 8:00 PM on June 8 and was completed without incident in eight hours, which is the minimum duration permitted by Ref.4.Containment atmospheric condition data were recorded at 15 minute intervals during this period as well as during the pressurization, stabilization and verification phases.Reactor vessel and suppression pool levels were recorded hourly to establish the basis for the leakage rate correction required if containment water inventory increases during the type A test (initial and final sump levels are also included in the correction).
The Type A test was ended at 4:00 AM on June 9.4.6 Verification Test and Depressurization The induced leak of 3.86 SCFM (0.499%/day)was imposed between 4:00 and 4:15 AM on June 9.The one hour stabilization period stipulated in Ref.3 commenced at 4:15 AM and the verification test was started at 5: 15 AM.The test was completed without incident at 9:15 AM.Verification test duration was 4 hours which is the minimum required by Ref.4.Depressurization commenced at 12:57 PM on April 9 following evaluation of a containment air sample by HP/Chemistry.
The containment was vented through the standby gas treatment system.12 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 5.0 RESULTS 5.1 Type A Test The acceptance criteria specified in Reference 4 were met well before the completion of the 8 hour test.The end of test leakage rate values and acceptance limits are listed below.95%UCL on total time leakage rate Acceptance limit 0.211%/day 0.375%/day Total time calculated leakage rate extrapolated to 24 hours Acceptance limit 0.168%/day 0.375%/day Mean of the measured leakage rates Acceptance limit 0.180%/day 0.500%/day Total time rates computed for each incremental data set are listed in Table 4 and the variation in calculated rate and UCL are plotted in Figure 2.Reference 3 specifies that the final five hours of results be used to establish the extrapolated leakage rate.The total time calculated rate initially decreased, then oscillated and finally increased at a slow, but relatively steady, rate during the last 3.75 hours of the test, The average rate of increase over the final 5 hours was used to extrapolate the calculated leakage rate to a 24 hour value of 0.168%/day.Acceptance limits are based on the maximum allowable leakage rate of 0.5%/day set forth in the Technical Specification.
For return to power, Ref.1 stipulates that containment leakage rate must be less than 75%of the maximum allowable rate.The remaining 25%provides a margin for deterioration of the leakage boundary during the subsequent operating cycle.The 75%criterion is applied by Ref.3 to both the UCL and extrapolated rate values.Test acceptance is generally governed by the total time UCL which converges to the calculated value very slowly.Occasionally, calculated leakage rate increases with test duration and extrapolated rate may, in these instances, govern acceptance.
The mean of the measured rates is almost always less than the UCL.Since the mean has a larger allowable limit (La vs.0.75 La)than the UCL, it seldom, if ever, governs acceptance.
The final as-left leakage rate is equal to the above UCL rate plus additions for minimum pathway leakage through penetrations in non-standard alignment and increases in containment water inventory.
The additions caused by improper valve lineup are tabulated in the following Table 1.13 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Penetration Number X-3 X-5 X-11A X-11B X-13 X-14 X-17A X-17B X-25A X-25B X-26 X43A XQ3B XA6 XP7 X-48 XA9 X-63 X-65 X-77Aa X-77Ac X-77Ad X-82d X-88 X-117 X-118 Function Drywell purge exhaust RCC inlet header Drywell spray loop A Drywell spray loop B SLC to Reactor RWCU from Reactor RFW line A RFW line B Wetwell spray loop A Wetwell spray loop B RHR loop C test line RRC pump A seal water RRC pump B seal water RCC outlet header RHR loop A test line RHR loop B test line HPCS test line LPCS test line RCIC pump minimum flow RRC sample line Post accident sample Post accident sample Post accident sample Post accident sample RHR loop A CP drain RHR loop B CP drain Exception Discussion Note 2 Note 3 Note 4 Note 4 Note 4 Note 3 Note 4 Note 4 Note 4 Note 4 Note 4 Note 3 Note 3 Note 3 Note 4 Note 4 Note 4 Note 4 Note 4 Note 4 Note 4 Note 4 Note 4 Note 4 Note 4 Note 4 Leakage Rate'SCCM) 312.5 262.5 488.69 0.0 0.0 39.0 0.0 0.0 0.0 0.0 179.7 1.0 1.0 4.17 728.48 411.8 51.0 856.0 63.0 12.0 3.7 28.3 0.0 1.3 6.0 10.0 TOTAL 3462 SCCM Table 1 Valve Lineup Exceptions During ILRT 14


Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Valve Lineup Exceptions During the PCILRT NOTES: 1.Obtained from LLRT Program 2.Flanged due to maintenance 3.Line filled with water and CIV's open during both PCILRT and LRVT 4.Line filled with water and CIV's closed but accident fluid is a gas.Combining all of the factors from table 1 and net increases in containment water inventory yields the following.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report stabilization. Figure 1 illustrates temperature variation over the same period. Average temperature increased smoothly as is typical for Mark I and Mark II BWR containments.
Minimum pathway leakage through penetrations in non-standard alignment Equivalent to Increase in sump content 3462 SCCM=0.1223 SCFM 0.016'%/day over 72 hours Equivalent to 240.25 cu.ft.0.07%/day Total additions 0.086%/day The final as-left leakage rate is calculated below.95%UCL on total time leakage rate Additions for penetrations in non-standard alignment and increase in water inventory Final as-left leakage rate 0.211%/day 0.086%/day 0.297%/day Containment conditions during the Type A test were reasonably typical.Air mass, mean temperature, total pressure and mean vapor pressure are plotted on Figures 3 through 6, respectively.
The small temperature excursions evident between 6:15 and 7:15 PM are spurious and probably result from electromagnetic interference or a cable fault (intermittent conductor or shield ground). Table 3 lists, for information, containment pressure, average vapor pressure and calculated air mass during the stabilization period.
The air mass (Figure 3)decreased linearly as expected.The maximum scatter of the individual calculated mass points is on the order of 3 Lbm, which is reasonable for Mark I and Mark II BWR containments.
4.5 Type A Test The Type A test commenced at 8:00 PM on June 8 and was completed without incident in eight hours, which is the minimum duration permitted by Ref. 4. Containment atmospheric condition data were recorded at 15 minute intervals during this period as well as during the pressurization, stabilization and verification phases. Reactor vessel and suppression pool levels were recorded hourly to establish the basis for the leakage rate correction required if containment water inventory increases during the type A test (initial and final sump levels are also included in the correction). The Type A test was ended at 4:00 AM on June 9.
The plot also shows the straight line fitted to the mass/time data sets and a straight line with a slope equivalent to 0.75 La.15 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Containment mean temperature (Figure 4)increased slowly, but smoothly, during the test.This increase is typical for Mark I and Mark II BWR containments.
4.6 Verification Test and Depressurization The induced leak of 3.86 SCFM (0.499 %/day) was imposed between 4:00 and 4:15 AM on June 9. The one hour stabilization period stipulated in Ref. 3 commenced at 4:15 AM and the verification test was started at 5: 15 AM.
Total pressure (Figure 5)followed the same trend as temperature.
The test was completed without incident at 9:15 AM. Verification test duration was 4 hours which is the minimum required by Ref. 4.
Mean vapor pressure is plotted in Figure 6.Vapor pressure increased more than total pressure, reflecting evaporation of water from open surfaces (suppression pool and sumps).All plots presented in this report represent discrete values of the plotted parameters.
Depressurization commenced at 12:57 PM on April 9 following evaluation of a containment air sample by HP/Chemistry. The containment was vented through the standby gas treatment system.
The time interval between discrete points is 15 minutes in all cases.The straight line segments connecting adjacent points are created by the plotting software and do not represent actual variation in the parameters plotted.5.2 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 adding minimum pathway penetration improvements to the as-left leakage rate.The total value for minimum pathway improvements made during the Type B and C local leakage rate testing program is listed below.Individual tabulation all Type B and C As-found and As-left results obtained since the last ILRT are tabulated in Appendix IV.Minimum pathway improvements made during the Type B and C testing program 4690 SCCM=239 SCFD At the end of the Type A test, mean temperature and absolute pressure were 88.23 deg F and 49.517 PSIA, respectively (see Appendix data list).At these conditions, and for a containment volume of 343,040 cubic feet, 239 SCFD is equivalent to a leakage rate of 0.022/day.
12
The estimated as-found leakage rate (UCL)is determined as shown below.As-left UCL leakage rate Minimum pathway improvements As-found leakage rate 0.297%/day 0.022%/day 0.319%/day 5.3 Verification Test The verification test induced leak was imposed after the completion of the Type A test and adjusted to a flowmeter indication of 3.86 SCFM.At the initial (4:15 AM)test conditions of 88.24 deg F and 49.516 psia (see Appendix data list)3.86 SCFM is equivalent to 0.499%/day.Following imposition of the induced leak, conditions were allowed to stabilize for 1 hour as required by Ref.3, A successful four hour test was performed after stabilization.
 
Results are detailed in Table 5 and summarized below.Upper limit on total time calculated leakage rate Total time calculated leakage rate Lower limit on total time calculated leakage rate 0.790%/day 0.636%/day 0,540%/day 16 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report The calculated rate is within the limits.Limits are established, per Ref.3, as the theoretical rate+/-0.25 La.The theoretical rate is the total time rate calculated for the end of the Type A test plus the induced rate.Figure 7 illustrates the verification test results graphically, The line fitted to the air mass/time data sets is essentially centered between the limits as is expected.This is consistent with the mass point calculation results discussed in the next section.The upper and lower limits on the calculated verification leakage rate shown on Table 5 round off to 0.791%/day and 0.541%/day, respectively.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 5.0 RESULTS 5.1 Type A Test The acceptance criteria specified in Reference 4 were met well before the completion of the 8 hour test. The end of test leakage rate values and acceptance limits are listed below.
The limits shown above differ from the table values by 0.001%/day since rounding off of the verification flow and the total time calculated leakage rate is done prior to calculating the limits.5.4 Mass Point Results Type A test mass point calculation results are listed in Table 6.The end of test calculated leakage rate is reasonably close to the end of test calculated total time rate-0.176%/day vs.0.166%/day.In fact, the mass point calculated rate, the total time calculated rate and the total time measured rate (0.180%/day)are quite close to the same value.This is expected for well ordered data.The mass point upper confidence limit of 0.178%/day is close to the calculated rate which is consistent with the low level of air mass data scatter illustrated in Figure 3, Table 7 lists mass point verification test results.The calculated leakage rate of 0.627%/day is close to the total time calculated rate of 0.636%/day.Again, the close correspondence is as expected for well ordered data.17 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report  
95 %  UCL on total time leakage rate                                0.211 %/day Acceptance limit                                            0.375 %/day Total time calculated leakage rate extrapolated to 24 hours                                            0.168 %/day Acceptance limit                                            0.375 %/day Mean  of the measured leakage rates                                0.180 %/day Acceptance limit                                            0.500 %/day Total time rates computed for each incremental data set are listed in Table 4 and the variation in calculated rate and UCL are plotted in Figure 2. Reference 3 specifies that the final five hours of results be used to establish the extrapolated leakage rate. The total time calculated rate initially decreased, then oscillated and finally increased at a slow, but relatively steady, rate during the last 3.75 hours of the test, The average rate of increase over the final 5 hours was used to extrapolate the calculated leakage rate to a 24 hour value of 0.168 %/day.
Acceptance limits are based on the maximum allowable leakage rate of 0.5 %/day set forth in the Technical Specification. For return to power, Ref. 1 stipulates that containment leakage rate must be less than 75 % of the maximum allowable rate. The remaining 25 % provides a margin for deterioration of the leakage boundary during the subsequent operating cycle. The 75 % criterion is applied by Ref. 3 to both the UCL and extrapolated rate values. Test acceptance is generally governed by the total time UCL which converges to the calculated value very slowly. Occasionally, calculated leakage rate increases with test duration and extrapolated rate may, in these instances, govern acceptance. The mean of the measured rates is almost always less than the UCL.
Since the mean has a larger allowable limit (La vs. 0.75 La) than the UCL, it seldom, if ever, governs acceptance.
The final as-left leakage rate is equal to the above UCL rate plus additions for minimum pathway leakage through penetrations in non-standard alignment and increases in containment water inventory. The additions caused by improper valve lineup are tabulated in the following Table 1.
13
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Penetration                                                        Leakage Number Rate'SCCM)
Function            Exception Discussion X-3            Drywell purge exhaust                  Note 2            312.5 X-5            RCC inlet header                        Note 3            262.5 X-11A          Drywell spray loop A                    Note 4            488.69 X-11B          Drywell spray loop B                    Note 4              0.0 X-13            SLC to Reactor                          Note 4              0.0 X-14            RWCU from Reactor                      Note 3            39.0 X-17A          RFW line A                             Note 4              0.0 X-17B          RFW line B                              Note 4              0.0 X-25A          Wetwell spray loop A                    Note 4              0.0 X-25B          Wetwell spray loop B                    Note 4              0.0 X-26            RHR loop C test line                    Note 4            179.7 X43A            RRC pump A seal water                  Note 3              1.0 XQ3B            RRC pump B seal water                  Note 3              1.0 XA6            RCC outlet header                      Note 3            4. 17 XP7            RHR loop A test line                    Note 4          728.48 X-48            RHR loop B test line                    Note 4            411.8 XA9            HPCS test line                          Note 4            51.0 X-63            LPCS test line                          Note 4            856.0 X-65            RCIC pump minimum flow                  Note 4            63.0 X-77Aa          RRC sample line                        Note 4            12.0 X-77Ac          Post accident sample                    Note 4              3.7 X-77Ad          Post accident sample                    Note 4            28.3 X-82d          Post accident sample                    Note 4              0.0 X-88            Post accident sample                    Note 4              1.3 X-117          RHR loop A CP drain                    Note 4              6.0 X-118          RHR loop B CP drain                    Note 4            10.0 TOTAL  3462 SCCM Table 1 Valve Lineup Exceptions During ILRT 14
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Valve Lineup Exceptions During the PCILRT NOTES:      1.      Obtained from LLRT Program
: 2.      Flanged due to maintenance
: 3.      Line filled with water and CIV's open during both PCILRT and LRVT
: 4.      Line filled with water and CIV's closed but accident fluid is a gas.
Combining all of the factors from table    1 and net increases in containment water inventory yields the following.
Minimum pathway leakage through penetrations in non-standard alignment                3462 SCCM    =  0.1223 SCFM Equivalent to                  0.016'%/day Increase in sump content over 72 hours                          240.25 cu. ft.
Equivalent to                  0.07 %/day Total additions                                0.086 %/day The final as-left leakage rate is calculated below.
95% UCL on total time leakage rate                            0.211 %/day Additions for penetrations in non-standard alignment and increase in water inventory                    0.086 %/day Final as-left leakage rate                                    0.297 %/day Containment conditions during the Type A test were reasonably typical. Air mass, mean temperature, total pressure and mean vapor pressure are plotted on Figures 3 through 6, respectively. The air mass (Figure 3) decreased linearly as expected. The maximum scatter of the individual calculated mass points is on the order of 3 Lbm, which is reasonable for Mark I and Mark II BWR containments. The plot also shows the straight line fitted to the mass/time data sets and a straight line with a slope equivalent to 0.75 La.
15
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Containment mean temperature (Figure 4) increased slowly, but smoothly, during the test. This increase is typical for Mark I and Mark II BWR containments. Total pressure (Figure 5) followed the same trend as temperature. Mean vapor pressure is plotted in Figure 6. Vapor pressure increased more than total pressure, reflecting evaporation of water from open surfaces (suppression pool and sumps).
All plots presented in this report represent discrete values of the plotted parameters. The time interval between discrete points is 15 minutes in all cases. The straight line segments connecting adjacent points are created by the plotting software and do not represent actual variation in the parameters plotted.
5.2 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 adding minimum pathway penetration improvements to the as-left leakage rate. The total value for minimum pathway improvements made during the Type B and C local leakage rate testing program is listed below. Individual tabulation all Type B and C As-found and As-left results obtained since the last ILRT are tabulated in Appendix IV.
Minimum pathway improvements made during the Type B and C testing program                    4690 SCCM      = 239 SCFD At the  end of the Type A test, mean temperature and absolute pressure were 88.23 deg F and 49.517 PSIA, respectively (see Appendix data list). At these conditions, and for a containment volume of 343,040 cubic feet, 239 SCFD is equivalent to a leakage rate of 0.022/day. The estimated as-found leakage rate (UCL) is determined as shown below.
As-left UCL leakage rate                                    0.297 %/day Minimum pathway improvements                                0.022 %/day As-found leakage rate                                      0.319 %/day 5.3 Verification Test The verification test induced leak was imposed after the completion of the Type A test and adjusted to a flowmeter indication of 3.86 SCFM. At the initial (4:15 AM) test conditions of 88.24 deg F and 49.516 psia (see Appendix data list) 3.86 SCFM is equivalent to 0.499 %/day. Following imposition of the induced leak, conditions were allowed to stabilize for 1 hour as required by Ref. 3, A successful four hour test was performed after stabilization. Results are detailed in Table 5 and summarized below.
Upper limit on total time calculated leakage rate          0.790 %/day Total time calculated leakage rate                          0.636 %/day Lower limit on total time calculated leakage rate          0,540 %/day 16
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report The calculated rate is within the limits. Limits are established, per Ref. 3, as the theoretical rate +/- 0.25 La. The theoretical rate is the total time rate calculated for the end of the Type A test plus the induced rate. Figure 7 illustrates the verification test results graphically, The line fitted to the air mass/time data sets is essentially centered between the limits as is expected. This is consistent with the mass point calculation results discussed in the next section.
The upper and lower limits on the calculated verification leakage rate shown on Table 5 round off to 0.791 %/day and 0.541 %/day, respectively. The limits shown above differ from the table values by 0.001 %/day since rounding off of the verification flow and the total time calculated leakage rate is done prior to calculating the limits.
5.4 Mass Point Results Type A test mass point calculation results are listed in Table 6. The end of test calculated leakage rate is reasonably close to the end of test calculated total time rate
: 0. 176 %/day vs. 0.166 %/day. In fact, the mass point calculated rate, the total time calculated rate and the total time measured rate (0.180 %/day) are quite close to the same value. This is expected for well ordered data. The mass point upper confidence limit of 0.178 %/day is close to the calculated rate which is consistent with the low level of air mass data scatter illustrated in Figure 3, Table 7 lists mass point verification test results. The calculated leakage rate of 0.627
      %/day is close to the total time calculated rate of 0.636 %/day. Again, the close correspondence is as expected for well ordered data.
17
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report


==6.0 REFERENCES==
==6.0 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.      Bechtel Topical Report BN-TOP-1, Testing Criteria For Integrated Leakage Rate Testing Of Primary Containment Structures For Nuclear Power Plants, Revision 1, 1972.
: 4.      Washington Public Power Supply System, WNP-2 Surveillance Test Procedure No. 7.4.6.1.2.1, Primary Containment Integrated Leakage Rate Test, May 23, 1991.
ANSI/ANS 56.8-1987, Containment System Leakage Testing Requirements.
: 6.      Exemption to Appendix J Testing, issued by the NRC with Amendment No. 41 to Operating Licence NPF-2, dated 04-29-87.
18


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.3.4.6.Bechtel Topical Report BN-TOP-1, Testing Criteria For Integrated Leakage Rate Testing Of Primary Containment Structures For Nuclear Power Plants, Revision 1, 1972.Washington Public Power Supply System, WNP-2 Surveillance Test Procedure No.7.4.6.1.2.1, Primary Containment Integrated Leakage Rate Test, May 23, 1991.ANSI/ANS 56.8-1987, Containment System Leakage Testing Requirements.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 2 SENSOR LOCATIONS AND WEIGHTING FACTORS Sensor                             Elevation,   Bearing,       Distance     Weighting No.        Type                  Feet          Degrees        From         Factor Liner, Feet TE-01       Drybulb              572 (1)        90            6          0.0265 TE-02       Drybulb                50          240            10          0.0402 TE-03       Drybulb                25            5            15          0.0398 TE-04       Drybulb                05          120            16          0.0563 TE-05       Drybulb                50          120            10          0.0402 TE-06       Drybulb                05            0            16          0.0563 TE-07       Drybulb                25            75            15          0.0398 TE-08       Drybulb                25          235            15          0.0398 TE-09       Drybulb                25          180            15          0.0398 TE-10       Drybulb                50            0            10          0.0402 TE-11       Drybulb                72          270            6          0.0265 TE-12       Drybulb                25          125            15          0.0398 TE-13       Drybulb                25          315            15          0.0398 TE-14       Drybulb                05          240            16          0.0563 TE-15       Drybulb (2)             85          270            5          0.1047 TE-16      Drybulb (2)             85          195            5          0.1047 TE-17      Drybulb (2)             85            0            5          0.1047 TE-18      Drybulb (2)             85            90            5          0.1046 ME-01      Dewpoint (2)         525            125            15          0.1194 ME-02      Dewpoint (2)         550            90            10          0.1737 ME-03      Dewpoint (2)         505            240            16          0.1688 ME-04      Dewpoint   (2) .       525              5            15          0.1194 ME-05      Dewpoint   (2)         485            270            5          0.2094 ME-06      Dewpoint   (2)         485             90             5           0.2093 Notes:           Elevation reference-Drywell head flange parting at El. 576.8 ft.
Exemption to Appendix J Testing, issued by the NRC with Amendment No.41 to Operating Licence NPF-2, dated 04-29-87.18 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 2 SENSOR LOCATIONS AND WEIGHTING FACTORS Sensor No.Type Elevation, Feet Bearing, Degrees Distance Weighting From Factor Liner, Feet TE-01 TE-02 TE-03 TE-04 TE-05 TE-06 TE-07 TE-08 TE-09 TE-10 TE-11 TE-12 TE-13 TE-14 TE-15 TE-16 TE-17 TE-18 ME-01 ME-02 ME-03 ME-04 ME-05 ME-06 Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb Drybulb (2)Drybulb (2)Drybulb (2)Drybulb (2)Dewpoint (2)Dewpoint (2)Dewpoint (2)Dewpoint (2).Dewpoint (2)Dewpoint (2)572 (1)50 25 05 50 05 25 25 25 50 72 25 25 05 85 85 85 85 525 550 505 525 485 485 90 240 5 120 120 0 75 235 180 0 270 125 315 240 270 195 0 90 125 90 240 5 270 90 6 10 15 16 10 16 15 15 15 10 6 15 15 16 5 5 5 5 15 10 16 15 5 5 0.0265 0.0402 0.0398 0.0563 0.0402 0.0563 0.0398 0.0398 0.0398 0.0402 0.0265 0.0398 0.0398 0.0563 0.1047 0.1047 0.1047 0.1046 0.1194 0.1737 0.1688 0.1194 0.2094 0.2093 Notes: Elevation reference-Drywell head flange parting at El.576.8 ft.Bottom of diaphragm slab at El.497.5 ft.Wetwell water surface at El.466.4 ft.(nominal)(2)Wetwell sensors 19 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 3 WNP-2 1991 ILRT STABILIZATION TEMPERATURE STABILIZATION REPORT Start Time=1500 608*=stabilization criterion satisfied data elapsed set time, hr temperature dT1 T, deg F avg dt (1 hr)-ANSI-dT4 dT1-dT4 avg Dt (4 hr)--BN-TOP-1--Dt or d(Dt)avg avg (2 hr)(2 hr)1 0.00 2 0.25 3 0.50 4 0.75 5 1.00 6 1.25 7 1.50 8 1.75 9 2.00 10 2.25 11 2.50 12 2.75 13 3.00 14 3.25 15 3.50 16 3.75 17 4.00 18 4.25 19 4.50 20 4.75 21 5.00 87.759 87.771 87.771 87.781 87.791 87.796 87.807 87.816 87.826 87.835 87.844 87.854 87.863 87.845 87.897 87.895 87.899 87.888 87.917 87.926 87.934 0.032 0.025 0.035 0.034 0.035 0.039 0.038 0.038 0.037 0.010 0.053 0.041 0.036 0.043 0.019 0.032 0.035 0.035 0.029 0.036 0.036 0.036 0.001*0.014*-0.017*-0.005*-0.001*0.034*0.032*0.037*0.036*0.036*0.025*0.045*0.040*0.037*0.027*0.036~0.036*0.036*-0.005*0.0188-0.001*-0.000*0.007+-0.056*0.086*-0.025*-0.010*-0.041*0.038~0.001*0.050+20 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 4 WNP-2 1991 ILRT STABILIZATION DATA  
Bottom of diaphragm slab at El. 497.5 ft.
Wetwell water surface at El. 466.4 ft. (nominal)
(2)   Wetwell sensors 19
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 3 WNP-2 1991 ILRT STABILIZATION TEMPERATURE STABILIZATIONREPORT Start Time = 1500 608
                                * = stabilization criterion satisfied
                                                              - ANSI- - BN-TOP data   elapsed     temperature      dT1            dT4      dT1-dT4 Dt    or d(Dt) set     time, hr     T, deg F         avg dt         avg Dt            avg      avg (1 hr)         (4 hr)           (2 hr)   (2 hr) 1     0.00         87.759 2     0.25         87.771 3     0.50         87.771 4     0.75         87.781 5     1.00         87.791          0.032 6     1.25        87.796          0.025 7     1.50         87.807          0.035 8     1.75         87.816          0.034 9      2.00         87.826          0.035                            0.034*    -0.005*
10      2.25         87.835          0.039                            0.032*    0.0188 11      2.50        87.844          0.038                            0.037*    -0.001*
12      2.75        87.854           0.038                            0.036*    -0.000*
13      3.00        87.863          0.037                            0.036*    0.007+
14      3.25        87.845          0.010                            0.025*    -0.056*
15      3.50        87.897          0.053                           0.045*    0.086*
16      3.75        87.895          0.041                            0.040*    -0.025*
17      4.00        87.899          0.036         0.035      0.001* 0.037*   -0.010*
18      4.25        87.888          0.043        0.029      0.014* 0.027*   -0.041*
19      4.50        87.917          0.019        0.036      -0.017* 0.036~     0.038~
20      4.75        87.926          0.032        0.036     -0.005* 0.036*    0.001*
21      5.00        87.934          0.035        0.036      -0.001* 0.036*     0.050+
20
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 4 WNP-2 1991 ILRT STABILIZATION DATA  


==SUMMARY==
==SUMMARY==
REPORT data time set 1 1500 2 1515 3 1530 4 1545 5 1600 6 1615 7 1630 8 1645 9 1700 10 1715 11 1730 12 1745 13 1800 14 1815 15 1830 16 1845 17 1900 18 1915 19 1930 20 1945 21 2000 date temperature deg F 608 87,7586 608 87.7714 608 87.7714 608 87.7814 608 87.7906 608 87.7960 608 87.8069 608 87.8156 608 87.8257 608 87.8348 608 87.8444 608 87.8535 608 87.8627 608 87.8453 608 87.8972 608 87.8948 608 87.8990 608 87.8882 608 87.9165 608 87.9263 608 87.9341 pressure psia 49.5147 49.5138 49.5131 49.5125 49.5122 49.5115 49.5104 49.5106 49.5106 49.5106 49.5109 49.5111 49.5108 49.5107 49.5114 49.5111 49.5107 49.5113 49.5115 49.5117 49.5119 vapor pressure psia 0.3814 0.3813 0.3816 0.3819 0.3822 0.3825 0.3828 0.3831 0.3833 0.3836 0.3840 0.3840 0.3841 0.3838 0.3847 0.3850 0.3852 0.3854 0.3853 0.3854 0.3859 dry all mass ibm'3103.93 83100.59 83098.84 83095.79 83093.41 83090.92 83086.84 83085.50 83083.61 83081.74 83079.99 83079.03 83076.87 83079.96 83071.62 83071.10 83069.43 83071.68 83067.83 83066.52 83064.94 21 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 4 WNP-2 1991 ILRT TYPE A TEST TOTAL TIME LEAKAGE RATE REPORT data set 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 time 2000 2015 2030 2045 2100 2115 2130 2145 2200 2215 2230 2245 2300 2315 2330 2345 0 15 30 45 100 115 130 145 200 215 230 245 300 315 330 345 400 date 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 609 609 609 609 609 609 609 609 609 609 609 609 609 609 609 609 609 elapsed time (hrs)0.00 0.25 0.50 0.75 1.00 1.25 1.50 1.75 2.00 2.25 2.50 2.75 3.00 3.25 3.50 3.75 4.00 4.25 4.50 4.75 5.00 5.25 5.50 5.75 6.00 6.25 6.50 6.75 7.00 7.25 7.50 7.75 8.00 dry Rlr mass (ibm)83064.94 83062.36 83060.62 83060.28 83057.99 83056.47 83054.94 83053.51 83051.97 83050.94 83049.07 83046.89 83045.86 83044.54 83042.35 83041.82 83039.55 83040.70 83036.30 83035.05 83033.91 83032.29 83030.69 83029.37 83027.95 83026.74 83024.51 83023.04 83021.38 83020.35 83018.19 83017.53 83015.19 measured rate (%/day)0.0000 0.2990 0.2497 0.1795 0.2008 0.1960 0.1928 0.1888 0.1874 0.1798 0.1834 0.1897 0.1838 0.1814 0.1865 0.1781 0.1834 0.1648 0.1839 0.1818 0.1794 0.1797 0.1800 0.1787 0.1781 0.1766 0.1797 0.1794 0.1798 0.1777 0.1801 0.1768 0.1797 leakage rate (%/day)0.0000 0.2990 0.2497 0.1830 0.1776 0.1740 0.1717 0.1694 0.1680 0.1646 0.1640 0.1659 0.1657 0.1652 0.1662 0.1652 0.1657 0.1622 0.1633 0.1639 0.1640 0.1643 0.1646 0.1647 0.1647 0.1645 0.1649 0.1652 0.1655 0.1656 0.1660 0.1659 0.1663 ucl rate (%/day)0.0000 0.2990 0.2497 0.2656 0.3316 0.2983 0.2785 0.2641 0.2546 0.2438 0.2390 0.2389 0.2356 0.2320 0.2313 0.2276 0.2264 0.2202 0.2206 0.2201 0.2190 0.2181 0.2174 0.2165 0.2155 0.2143 0.2140 0.2135 0.2132 0.2125 0.2123 0.2116 0.2113 Allowable leakage rate, La=75%La Total time leakage rate Total time UCL 0.5000%/day 0.3750%/day 0.1663%/day 0.2113%/day 22 l 4f Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 5 WNP-2 1991 ILRT VERIFICATION TOTAL TIME LEAKAGE RATE REPORT VERIFICATION data time date elapsed set time (hrs)dry Rlr mass (ibm)measured rate (%/day)leakage rate (%/day)1 515 2 530 3 545 4 600 5 615 6 630 7 645 8 700 9 715 10 730 11 745 12 800 13 815 14 830 15 845 16 900 17 915 609 0.00 609 0.25 609 0.50 609 0.75 609 1.00 609 1.25 609 1.50 609 1.75 609 2.00 609 2.25 609 2.50 609 2.75 609 3.00 609'.25 609 3.50 609 3.75 609 4.00 82989.17 82984.48 82978,81 82972.83 82967.41 82962.64 82955.97 82951.66 82946.39 82940.62 82934.65 82930.66 82923.56 82918.37 82912.14 82907.68 82904.48 0.0000 0.5424 0.5994 0.6300 0.6294 0.6139 0.6401 0.6199 0.6186 0.6240 0.6307 0.6153 0.6325 0.6300 0.6365 0.6284 0.6123 0.0000 0.5424 0.5994 0.6344 0.6440 0.6376 0.6471 0.6426 0.6388 0.6381 0.6396 0.6356 0.6376 0.6383 0.6405 0.6401 0.6360 Upper limit on leakage rate=0.7906%/day Total time leakage rate=0.6360%/day Lower limit on leakage rate=0.5406%/day 23 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 6 WNP-2 1991 ILRT TYPE A TEST MASS POINT LEAKAGE RATE REPORT data set 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 time 2000 2015 2030 2045 2100 2115 2130 2145 2200 2215 2230 2245 2300 2315 2330 2345 0 15 30 45 100 115 130 145 200 215 230 245 300 315 330 345 400 date 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 609 609 609 609 609 609 609 609 609 609 609 609 609 609 609 609 609 elapsed time (hrs 0.00 0.25 0.50 0.75 1.00 1.25 1.50 1.75 2.00 2.25 2.50 2.75 3.00 3.25 3.50 3.75 4.00 4.25 4.50 4.75 5.00 5.25 5.50 5.75 6.00 6.25 6.50 6.75 7.00 7.25 7.50 7.75 8.00 dry alI'ass (ibm)83064.94 83062.36 83060.62 83060.28 83057.99 83056.47 83054.94 83053.51 83051.97 83050.94 83049.07 83046.89 83045.86 83044.54 83042.35 83041~82 83039.55 83040.70 83036.30 83035.05 83033.91 83032.29 83030.69 83029.37 83027.95 83026.74 83024.51 83023.04 83021.38 83020.35 83018.19 83017.53 83015.19 leakage rate (%/day)0.0000 0.2990 0.2497 0.1816 0.1846 0.1843 0.1834 0.1815 0.1803 0.1764 0.1760 0.1788 0.1785 0.1775 0.1788 0.1771 0.1775 0.1724 0.1741 0.1749 ,0.1749 0.1751 0.1753 0.1752 0.1751 0.1747 0.1750 0.1752 0.1755 0.1754 0.1757 0.1755 0.1758 ucl rate (%/day)0.0000 0.2990 0.4934 0.3032 0.2410 0.2177 0.2058 0.1977 0.1927 0.1869 0.1845 0.1863 0.1848 0.1830 0.1837 0.1817 0.1816 0.1787 0.1799 0.1802 0.1797 0.1794 0.1792 0.1788 0.1784 0.1777 0.1779 0.1779 0.1780 0.1777 0.1780 0.1776 0.1777 Allowable leakage rate, La=75%La Mass point leakage rate Mass point UCL 0.5000%/day 0.3750%/day 0.1758%/day 0.1777%/day 24 Washington Public Power Supply System WbP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 7 WNP-2 1991 ILRT VERIFICATION MASS POINT LEAKAGE RATE REPORT VERIFICATION data set 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 time 515 530 545 600 615 630 645 700 715 730 745 800 815 830 845 900 915 date 609 609 609 609 609 609 609 609 609 609" 609 609 609 609 609 609 609 elapsed time (hrs)0.00 0.25 0.50 0.75 1.00 1.25 1.50 1.75 2.00 2.25 2,50 2.75 3.00 3.25 3.50 3.75 4.00 dry Rll mass (ibm)82989.17 82984.48 82978.81 82972.83 82967.41 82962.64 82955.97 82951,66 82946.39 82940.62 82934.65 82930.66 82923,56 82918.37 82912.14 82907.68 82904.48 leakage rate (%/day)0.0000 0.5424 0.5994 0.6326 0.6383 0.6275 0.6391 0.6322 0.6275 0.6273 0.6300 0.6251 0.6286 0.6300 0.6332 0.6327 0,6273 Upper limit on leakage rate Mass point leakage rate Lower limit on leakage rate 0.8001%/day 0.6273%/day 0.5501%/day 25 T H P E e R g A T F ll R HNP-2 1991 ILRT STAHILIRATIOH pg g o R g.$g fnf R CD~txt~g~EM M>QQ CD B CD 5.87,588 158 688 8 DATE TIHE 2888 688 FIGURE 1 COHTAIHHEHT AVERAGE TEHPERATURE VARIATIOH MRIHG STAHILIRATIOH T O T A L I/T (I H A E WNP-2 i99i ILRT TYPE A TEST (8,375//lay)UGL.HATE 5 (8 g o 9 E,g a 8-.V'V tn>OO p CD B CD 5.TINE MTE FIClJHE 2 VARIATIOH IH TOTAL TINE.LEAXAGE HATE AHD HGL S3878 A I H L H I3 A M HHP-2 i99i ILRT TYPE A TEST HE(HESSIOH LINE I I le CD Q&#x17d;~O Eg'd fnf Fp CD 5 (m p CD~8,75 La 82978 2888 TINE DATE FIGURE 3 AIH MASS vs, TINE-TYPE A TEST  
REPORT data   time         date    temperature        pressure vapor    dry all set                         deg F              psia    pressure mass psia    ibm
                                                                        '3103.93 1     1500         608    87,7586            49.5147  0.3814 2     1515         608    87.7714            49.5138  0.3813  83100.59 3    1530        608    87.7714            49.5131  0.3816  83098.84 4      1545         608    87.7814            49.5125  0.3819  83095.79 5      1600        608    87.7906            49.5122  0.3822  83093.41 6    1615         608    87.7960            49.5115  0.3825  83090.92 7      1630        608    87.8069            49.5104  0.3828  83086.84 8    1645        608     87.8156            49.5106  0.3831  83085.50 9    1700        608     87.8257            49.5106  0.3833  83083.61 10      1715        608     87.8348             49.5106  0.3836  83081.74 11      1730        608     87.8444             49.5109  0.3840  83079.99 12      1745        608     87.8535             49.5111  0.3840  83079.03 13      1800        608   87.8627             49.5108  0.3841  83076.87 14      1815        608   87.8453             49.5107  0.3838  83079.96 15      1830        608   87.8972             49.5114  0.3847  83071.62 16      1845        608   87.8948             49.5111  0.3850  83071.10 17      1900        608   87.8990             49.5107  0.3852  83069.43 18      1915        608   87.8882              49.5113  0.3854  83071.68 19      1930        608    87.9165              49.5115 0.3853  83067.83 20      1945        608    87.9263              49.5117  0.3854  83066.52 21    2000          608    87.9341              49.5119  0.3859  83064.94 21
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 4 WNP-2 1991 ILRT TYPE A TEST TOTAL TIME LEAKAGE RATE REPORT data  time    date  elapsed        dry Rlr        measured    leakage  ucl set                  time          mass          rate        rate    rate (hrs)          (ibm)          (%/day)      (%/day)  (%/day) 1    2000    608  0.00            83064.94      0.0000      0.0000  0.0000 2    2015    608  0.25            83062.36      0.2990      0.2990  0.2990 3    2030    608  0.50            83060.62      0.2497      0.2497  0.2497 4    2045    608  0.75            83060.28      0.1795      0.1830  0.2656 5    2100    608  1.00            83057.99      0.2008      0.1776  0.3316 6    2115    608  1.25            83056.47      0.1960      0.1740  0.2983 7    2130    608    1.50          83054.94      0.1928      0.1717  0.2785 8    2145    608    1.75          83053.51      0.1888      0.1694  0.2641 9    2200    608  2.00            83051.97      0.1874      0.1680  0.2546 10    2215    608  2.25            83050.94      0.1798      0.1646  0.2438 11    2230    608  2.50            83049.07      0.1834      0.1640  0.2390 12     2245    608  2.75            83046.89      0.1897      0.1659  0.2389 13     2300    608  3.00            83045.86      0.1838      0.1657  0.2356 14    2315    608  3.25           83044.54      0.1814      0.1652  0.2320 15     2330    608  3.50            83042.35      0.1865      0.1662  0.2313 16    2345    608   3.75            83041.82      0. 1781      0.1652  0.2276 17        0  609   4.00            83039.55      0.1834      0.1657  0.2264 18      15  609  4.25           83040.70      0.1648      0.1622  0.2202 19      30  609  4.50           83036.30      0.1839      0.1633  0.2206 20        45  609  4.75           83035.05      0.1818        0.1639  0.2201 21      100  609  5.00           83033.91      0. 1794      0.1640  0.2190 22      115  609  5.25           83032.29      0. 1797      0.1643  0.2181 23      130  609  5.50           83030.69      0.1800      0.1646  0.2174 24      145  609  5.75            83029.37      0.1787      0.1647  0.2165 25      200  609    6.00          83027.95      0.1781      0.1647  0.2155 26      215  609    6.25          83026.74      0.1766      0.1645  0.2143 27      230  609    6.50          83024.51      0.1797      0.1649  0.2140 28      245  609    6.75          83023.04      0. 1794      0.1652  0.2135 29      300  609  7.00            83021.38       0. 1798      0.1655  0.2132 30      315  609  7.25            83020.35      0. 1777      0.1656  0.2125 31      330  609    7.50          83018.19      0.1801      0.1660  0.2123 32      345  609    7.75          83017.53      0.1768      0.1659  0.2116 33      400  609    8.00          83015.19      0.1797      0.1663  0.2113 Allowable leakage rate, La = 0.5000 %/day 75% La                        0.3750 %/day Total time leakage rate        0.1663 %/day Total time UCL                0.2113 %/day 22
 
l 4f Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 5 WNP-2 1991 ILRT VERIFICATION TOTAL TIME LEAKAGE RATE REPORT VERIFICATION data    time  date    elapsed      dry Rlr      measured  leakage set                  time          mass        rate      rate (hrs)        (ibm)        (%/day)   (%/day) 1      515  609    0.00         82989.17    0.0000    0.0000 2      530  609    0.25          82984.48    0.5424    0.5424 3      545  609    0.50          82978,81    0.5994    0.5994 4      600  609    0.75          82972.83    0.6300    0.6344 5      615  609    1.00          82967.41    0.6294    0.6440 6      630  609    1.25          82962.64    0.6139    0.6376 7      645  609    1.50          82955.97    0.6401    0.6471 8      700  609    1.75          82951.66    0.6199    0.6426 9      715  609    2.00          82946.39    0.6186    0.6388 10      730  609    2.25          82940.62    0.6240    0.6381 11      745  609    2.50          82934.65    0.6307    0.6396 12      800  609    2.75          82930.66    0.6153    0.6356 13      815  609    3.00          82923.56    0.6325    0.6376 14      830  609  '.25            82918.37    0.6300    0.6383 15      845  609    3.50          82912.14    0.6365    0.6405 16      900  609    3.75          82907.68    0.6284    0.6401 17      915  609    4.00          82904.48    0.6123    0.6360 Upper limit on leakage rate =   0.7906 %/day Total time leakage rate       = 0.6360 %/day Lower limit on leakage rate =  0.5406 %/day 23
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 6 WNP-2 1991 ILRT TYPE A TEST MASS POINT LEAKAGE RATE REPORT data   time     date       elapsed       dry  alI'ass leakage      ucl set                         time                           rate        rate (hrs         (ibm)           (%/day)     (%/day) 1     2000    608        0.00          83064.94        0.0000      0.0000 2     2015    608        0.25          83062.36        0.2990      0.2990 3     2030    608        0.50          83060.62        0.2497      0.4934 4     2045    608        0.75          83060.28        0.1816      0.3032 5    2100    608          1.00          83057.99        0.1846      0.2410 6    2115    608          1.25         83056.47        0.1843      0.2177 7    2130    608          1.50         83054.94        0.1834      0.2058 8    2145    608          1.75         83053.51        0.1815      0.1977 9    2200    608        2.00          83051.97        0.1803      0.1927 10    2215    608        2.25          83050.94        0.1764      0.1869 11    2230    608        2.50          83049.07        0.1760      0.1845 12      2245    608        2.75          83046.89        0.1788      0.1863 13      2300    608        3.00          83045.86        0.1785      0.1848 14      2315    608        3.25          83044.54        0.1775      0.1830 15      2330    608        3.50          83042.35        0. 1788      0.1837 16      2345    608        3.75          83041 82    ~  0.1771      0.1817 17          0   609        4.00          83039.55        0.1775      0.1816 18        15    609        4.25          83040.70        0.1724      0.1787 19        30    609        4.50          83036.30        0. 1741      0. 1799 20        45    609        4.75          83035.05        0.1749      0.1802 21        100    609        5.00          83033.91      ,0. 1749      0.1797 22        115    609        5.25          83032.29        0.1751      0.1794 23       130    609        5.50          83030.69        0.1753      0.1792 24        145    609        5.75          83029.37        0.1752      0.1788 25      200    609        6.00          83027.95        0.1751      0.1784 26      215    609        6.25          83026.74      0.1747        0.1777 27       230    609        6.50          83024.51      0.1750        0. 1779 28      245    609        6.75          83023.04      0.1752        0. 1779 29      300     609        7.00          83021.38      0.1755        0. 1780 30      315     609        7.25          83020.35      0.1754        0.1777 31      330     609        7.50            83018.19      0.1757        0.1780 32      345     609        7.75            83017.53      0.1755        0.1776 33      400    609         8.00          83015.19      0.1758        0.1777 Allowable leakage rate, La =      0.5000 %/day 75% La                            0.3750 %/day Mass point leakage rate          0. 1758 %/day Mass point UCL                    0.1777 %/day 24
 
Washington Public Power Supply System WbP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 7 WNP-2 1991 ILRT VERIFICATION MASS POINT LEAKAGE RATE REPORT VERIFICATION data            time        date            elapsed        dry Rll  leakage set                                        time          mass    rate (hrs)          (ibm)    (%/day) 1              515        609            0.00          82989.17 0.0000 2             530        609            0.25          82984.48 0.5424 3             545        609            0.50           82978.81 0.5994 4             600        609            0.75          82972.83 0.6326 5             615        609            1.00           82967.41 0.6383 6             630        609            1.25           82962.64 0.6275 7             645        609            1.50          82955.97 0.6391 8              700        609            1.75           82951,66 0.6322 9              715        609            2.00          82946.39 0.6275 10              730        609  "
2.25          82940.62 0.6273 11              745        609            2,50          82934.65 0.6300 12              800        609            2.75          82930.66 0.6251 13              815        609            3.00          82923,56 0.6286 14              830        609            3.25          82918.37 0.6300 15              845        609            3.50          82912.14 0.6332 16              900        609            3.75          82907.68 0.6327 17              915        609            4.00          82904.48 0,6273 Upper limit on leakage rate        0. 8001 %/day Mass point leakage rate            0.6273 %/day Lower limit on leakage rate         0.5501 %/day 25
 
HNP-2 1991 ILRT STAHILIRATIOH                      pg  g o R
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                                                  . HATE TINE MTE FIClJHE 2 VARIATIOH IH TOTAL TINE. LEAXAGE HATE AHD HGL
 
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88.388 T E H P (I E e R g A T F 0 R E HNP-2 199i ILRT TYPE A TEST Img B Qq PqgO 9 Kg A CD'O oft K R CD CD g.V Cn~O.M Qg r%CD CD K 87,888 288 TIME MTE FIGURE 4 AVERAGE TEHPERATIIRE vs, TIME-TYPE A TEST 49,528 WHP-2 i99i II HT TYPE A TEST P H E P S S I'0 A H 49,5i8 2888 TINE MTE FIGURE 5 TOTAL PRESSURE vs.TINE-TYPE A TEST IP-2 13)i IIRT TYPE A TEST P'R I E A ll R F 8,385 2888 TIHE DATE FIGURE 6 HEAH VAPOR PRESSURE vs, TIHE TYPE-A TEST Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report APPENDIX I CONTAINMENT DESCRIj.TION 32 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report CONTAINMENT DESCRIPTION The WNP-2 containment is a steel Mark II with a conical drywell above a cylindrical suppression chamber.The upper end of the drywell consists of a flanged head which is removed for refueling the reactor.The drywell and suppression chamber are separated by a concrete diaphragm slab which is supported off the chamber bottom by the reactor pedestal and a number of columns.The reactor pedestal is a concrete cylinder, concentric with the containment, which extends through the diaphragm slab and supports both the reactor and the primary shield.The suppression is approximately half flied with water which is used to quench steam released by the main steam safety valves and which would be released by the primary system in the event of a LOCA.The safety valve discharge lines and a number of open ended vertical vent pipes penetrate the diaphragm slab.Principal dimensions of the containment are listed below.Drywell height from top of diaphragm slab to refueling head flange parting line Drywell inside diameter at top of diaphragm slab Drywell inside diameter at refueling head flange Diaphragm slab thickness Suppression chamber height from center invert (1)Suppression chamber inside diameter Normal suppression chamber water depth 77.3 ft.85.8 ft.31.7 ft.2.0 ft.66.2 ft.85.8 ft.31.1 ft.Drywell/suppression chamber free air volume at normal water level 343,040 cu.ft.(1)The bottom head of the suppression chamber is elliptical.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report APPENDIX I CONTAINMENTDESCRIj. TION 32
The steel containment is surrounded by a concrete shield.There is an air gap between the shield and the containment wall.There are a number of openings in the containment wall.The drywell wall is penetrated by an equipment hatch with a flanged head, a personnel air lock and many piping and electrical feed-throughs.In addition the drywell wall has flanged openings for CEDM replacement and stabilizer truss (a steel structure which laterally braces the upper end of the containment) inspection.
 
The suppression chamber wall is penetrated by a flanged personnel access port, air space ventilation piping, electrical feed-throughs and numerous pipes which take suction from, or discharge to, the suppression pool.33 APPENDIX II COMPUTER PROGRAM DESCRIPTION 34 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 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 97.5%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 hours.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 hours 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.
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report CONTAINMENTDESCRIPTION The WNP-2 containment is a steel Mark II with a conical drywell above a cylindrical suppression chamber. The upper end of the drywell consists of a flanged head which is removed for refueling the reactor. The drywell and suppression chamber are separated by a concrete diaphragm slab which is supported off the chamber bottom by the reactor pedestal and a number of columns. The reactor pedestal is a concrete cylinder, concentric with the containment, which extends through the diaphragm slab and supports both the reactor and the primary shield. The suppression is approximately half flied with water which is used to quench steam released by the main steam safety valves and which would be released by the primary system in the event of a LOCA. The safety valve discharge lines and a number of open ended vertical vent pipes penetrate the diaphragm slab. Principal dimensions of the containment are listed below.
The program then computes containment air mass using these weighted mean atmospheric conditions.
Drywell height from top of diaphragm slab to refueling head flange parting line                                 77.3 ft.
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.
Drywell inside diameter at top of diaphragm slab                   85.8 ft.
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 Anal 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.
Drywell inside diameter at refueling head flange                   31.7 ft.
35 APPENDIX III TYPE A TEST DATA 36 PRE-DATA REPORT volume=343040 leap year: no title=WNP-'2 1991 ILRT STABILIZATION perature volume fractions (sum=1.0000)t(1)=0.0265 t(2)=0.0402 t(3)=0.0398 t(4)=0.0563 t(6)=0.0563 t(7)=0.0398 t(8)=0.0398 t(9)=0.0398 t(11)=0.0265 t(12)=0.0398 t(13)=0.0398 t(14)=0.0563 t(16)=0.1047 t(17)=0.1047 t(18)=0.1046 t (5)=0.0402 t(10)=0.0402 t(15)=0.1047 dewpoint volume fractions (sum=1.0000)dp(1)=0.1194 dp(2)=0.1737 dp(3)=0.1688 dp(4)=0.1194 dp(5)=0.2094 dp(6)=0.2093 pressure volume fractions (sum=1.0000)p(1)=1.0000 p(2)=0.0000 La=0.5000 37 WNP-2 1991 ILRT STABIZIZATION DATA  
Diaphragm slab thickness                                           2.0 ft.
Suppression chamber height from center invert (1)                 66.2 ft.
Suppression chamber inside diameter                                85.8 ft.
Normal suppression chamber water depth                            31.1 ft.
Drywell/suppression chamber free air volume at normal water level                                             343,040 cu. ft.
(1) The bottom head     of the suppression chamber is elliptical.
The steel containment is surrounded by a concrete shield. There is an air gap between the shield and the containment wall.
There are a number of openings in the containment wall. The drywell wall is penetrated by an equipment hatch with a flanged head, a personnel air lock and many piping and electrical feed-throughs. In addition the drywell wall has flanged openings for CEDM replacement and stabilizer truss (a steel structure which laterally braces the upper end of the containment) inspection. The suppression chamber wall is penetrated by a flanged personnel access port, air space ventilation piping, electrical feed-throughs and numerous pipes which take suction from, or discharge to, the suppression pool.
33
 
APPENDIX II COMPUTER PROGRAM DESCRIPTION 34
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 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 97.5% 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 hours. 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 hours 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 Anal 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.
35
 
APPENDIX III TYPE A TEST DATA 36
 
PRE-DATA REPORT title = WNP-'2 1991 ILRT STABILIZATION           volume =
leap year : no 343040      La = 0.5000 perature volume fractions   ( sum = 1.0000 )
t( 1)=0.0265 t( 2)=0.0402 t( 3)=0.0398 t( 4)=0.0563       tt(10)=0.0402
(  5) =0. 0402 t( 6)=0.0563 t( 7)=0.0398 t( 8)=0.0398 t( 9)=0.0398 t(11)=0.0265 t(12)=0.0398 t(13)=0.0398 t(14)=0.0563         t(15)=0.1047 t(16)=0.1047 t(17)=0.1047    t(18)=0.1046 dewpoint volume fractions (   sum = 1.0000   )
dp( 1)=0.1194 dp( 2)=0.1737 dp( 3)=0.1688 dp( 4)=0.1194 dp( 5)=0.2094 dp( 6)=0.2093 pressure volume fractions ( sum = 1.0000 )
p( 1)=1.0000 p( 2)=0.0000 37
 
WNP-2 1991 ILRT STABIZIZATION DATA  


==SUMMARY==
==SUMMARY==
REPORT data time date temperature set deg F pressure psia vapor pressure psia dry air mass 1bm (e 1 1500 2 1515 3 1530 4 1545 5 1600 6 1615 7 1630 8 1645 9 1700 10 1715 11 1730 12 1745 13 1800 14 1815 15 1830 16 1845 17 1900 18 1915 19 1930 20 1945 21 2000 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 608 87.7586 87.7714 87.7714 87.7814 87.7906 87.7960 87.8069 87.8156 87.8257 87.8348 87.8444 87.8535 87.8627 87.8453 87.8972 87.8948 87.8990 87.8882 87'165 87.9263 87.9341 49'147 49.5138 49.5131 49.5125 49.5122 49.5115 49.5104 49.5106 49.5106 49'106 49.5109 49.5111 49.5108 49.5107 49.5114 49.5111 49.5107 49.5113 49'115 49'117 49.5119 0~3814 0.3813 0.3816 0.3819 0.3822 0.3825 0.3828 0.3831 0.3833 0.3836 0.3840 0.3840 0.3841 0.3838 0.3847 0.3850 0.3852 0.3854 0.3853 0.3854 0.3859 83103.93 83100.59 83098.84 83095.79 83093'1 83090.92 83086.84 83085.50 83083.61 83081.74 83079.99 83079.03 83076.87 83079.96 83071.62 83071.10 83069.43 83071.68 83067.83 83066.52 83064.94 38 WNP-2 1991 data set 1 time=1500 date=608 XLRT STABXLIZATXON sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (109.450 (99.510 (92.910 (88.250 (101.370 (89.190 (92.680 (92.750 (92.920 (100.800 (108.990 (92.540')92.840 89.050 78.140 (78.000 (78.040 (78.070 109.450 99.510 92.910 88.250 101.370 89.190 92.680 92.750 92.920 100.800 108.990 92.540 92.840 89.050 78.140 78.000 78.040 78.070 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 (67.750 (67.030 (66.930 (67.200 (76.810 (76.420 67.750 deg.67.030 deg.66.930 deg.67.200 deg.76.810 deg.76.420 deg.F , 0.3360 F , 0.3277 F I 0.3266 F , 0.3297 F , 0.4563 F , 0.4504 psia psia psia psia psia psia pressure pressure weighted 1 (49.5147 2 (49.5201 averages, volume temperature pressure vapor pressure volume dry air mass and 49.5147 psia 49.5201 psia air mass 87.75864 deg.F 49.51470 psia 0.38137 psia 343040 cu.ft.83103.93 ibm 39 f'k WNP-2 1991 ILRT STABILIZATION data set 2 time=1515 date=608 sensor temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 raw data (109.500)(99.570)(92.910)(88.250)(101.420)(89.190)(92.720)(92.790)(92.940 (100.850)(109.090)(92.560)(92.870)(89.060)78.120 (77.990)(78.030)(78.070 value deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F 109.500 99.570 92.910 88.250 101.420 89.190 92.720 92.790 92.940 100.850 109.090 92.560 92.870 89.060 78.120'77.990 78.030 78.070 dewpoint dewpoint dewpoint dewpoint dewpoint.dewpoint pressure pressure (67.840)(67.030)(67.010)(67.240)(76.790)(76.310)1 (49.5138)2 (49.5202)67.840 deg.67.030 deg.67.010 deg.67.240 deg.76.790 deg.76.310 deg.49.5138 psia 49.5202 psia F , 0.3370 F , 0.3277 F , 0.3275 F , 0.3301 F , 0.4560 F , 0.4488 psia psia psia psia psia psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass.87.77139 deg..F 49.51380 psia 0.38129 psia 343040 cu.ft.83100.59 ibm 40 J C 1f 8 WNP-2 1991 data set 3 time=1530 date=608 ILRT STABILIZATION sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14.temperature 15 temperature 16 temperature 17 temperature 18 (109.520 (99.620 (92'10 88.250 101.460 89.190 92.720 92.790 92.940 100.890 109.080 92.570 92.880 89.060 78.090 77.970 78.020 78.070 109.520 99.620 92.910 88.250 101.460 89.190 92.720 92.790 92.940 100.890 109.080 92.570 92.880 89.060 78.090 77.970 78.020 78.070 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 3 (4 5 (6 67.880 67.080 67.070 67.290 76.780 76.320 67.880 deg.67.080 deg.67.070 deg.67.290 deg.76.780 deg.76.320 deg.F i 0.3375 F i 0.3283 F , 0.3282 F , 0.3307 F , 0.4559 F , 0.4490 psia psia psia psia psia psia pressure pressure weighted 1 (49.5131 2 (49'192 averages, volume and 49.5131 psia 49.5192 psia air mass temperature pressure vapor pressure volume dry air mass 87.77139 49.51310 0.38163 343040 83098.84 deg.F psia psia cu.ft.ibm 41
REPORT data time date temperature   pressure      vapor  dry  air set                   deg F       psia pressure       mass psia       1bm 1 1500 608     87.7586     49 '147    0 ~ 3814 83103.93 2  1515  608    87.7714     49.5138    0. 3813  83100.59 3 1530  608    87.7714    49.5131    0.3816  83098.84 4  1545  608    87.7814    49.5125    0.3819  83095.79 5
6 1600 1615 608 608 87.7906 87.7960 49.5122 49.5115 0.3822 0.3825 83093 '1 83090.92 7  1630  608    87.8069    49.5104    0.3828  83086.84 8  1645  608    87.8156    49.5106    0.3831  83085.50 9  1700  608    87.8257    49.5106    0.3833  83083.61 10 1715  608     87.8348    49 '106    0.3836  83081.74 11  1730  608    87.8444    49.5109    0.3840  83079.99 12  1745  608    87.8535    49.5111    0.3840  83079.03 13  1800  608    87.8627    49.5108    0.3841  83076.87 14  1815  608    87.8453    49.5107    0.3838  83079.96 15  1830  608    87.8972    49.5114    0.3847  83071.62 16  1845  608    87.8948    49.5111    0.3850  83071.10 17 1900  608    87.8990    49.5107    0.3852  83069.43 18  1915  608    87.8882    49.5113    0.3854  83071.68 19  1930  608     87 '165    49 '115    0.3853  83067.83 20  1945  608    87.9263    49 '117    0.3854  83066.52 21  2000  608    87.9341    49.5119    0.3859  83064.94 (e
38


WNP-2 1991 ILRT STABILIZATION data set 4 time=1545 date=608 sensor temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 raw data (109.560 (99.670 (92.930 (88.250 (101'20)(89.200)(92.740)(92.800 (92.940 100.930)109.110 (92.590)(92.900)89.080)78.090)77.960)(78.010)(78.060 value 109.560 99.670 92.930 88.250 101.520 89.200 92.740 92.800 92.940 100'30 109.110 92.590 92.900 89.080 78.090 77.960 78.010 78.060 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint 1 (67.920)dewpoint 2 67.120)dewpoint 3 67.100)dewpoint 4 67.350)dewpoint 5 (76.770)dewpoint 6 (76.340)67.920 deg.67.120 deg.67.100 deg.67.350 deg.76.770 deg.76.340 deg.F, 0.3380 F , 0.3288 F , 0.3285 F , 0.3314 F , 0.4557 F , 0.4492 psia psia psia psia psia psia pressure 1 pressure 2 (49.5125)(49.5186)49.5125 psia 49.5186 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 87.78141 deg.F 49.51250 psia 0.38193 psia 343040 cu.ft.83095.79 ibm 42 WNP-2 1991 data set 5 time=1600 date=608 ILRT STABILIZATION sensor temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 raw data (109.580 (99.700 (92.960 (88.260 (101.560 (89.220 (92.760 (92.820 (92.970 (100.980 (109.170 (92.600 (92.920 (89.090 (78.070 (77.950 (78.000 (78.050 value 109.580 99.700 92.960 88.260 101.560 89.220 92.760 92.820 92.970 100.980 109.170 92.600 92.920 89.090 78.070 77.950 78.000 78.050 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (67.980 (67.170 (67.170 (67.370 (76.800 (76.290 67.980 deg.67.170 deg.67.170 deg.67.370 deg.76.800 deg.76.290 deg.F , 0.3387 F , 0.3293 F , 0.3293 F , 0.3316 F , 0.4562 F , 0.4485 psia psia psia psia psia psia pressure pressure weighted 1 (49.5122 2 (49.5175 averages, volume temperature pressure vapor pressure volume dry air mass and 49.5122 psia 49.5175 psia air mass 87.79055 deg.F 49.51220 psia 0.38222 psia 343040 cu.ft.83093.41 ibm 43 WNP-2 1991 XLRT STABXLXZATION data set 6 time=1615 date=608 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (109.630 (99.760 (92.970 (88.270 (101.600 (89.230 (92.780 (92.830 (92.990 (101.020 (109.180 (92.610 (92.940 (89.050 (78.060 (77.940 (77.990 (78.040 109.630 99'.760 92.970 88.270 101.600 89.230 92.780 92.830 92.990 101.020 109.180 92.610 92.940 89.050 78.060 77.940 77.990 78.040 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure 1 (2 (C 4 (5 (6 (68.010)67.220)67.200)67.410)76.790)76.310 1 (49.5115)2 (49.5171)68.010 deg.F 67.220 deg.F 67.200 deg.F 67.410 deg.F 76.790 deg.F 76.310 deg.F 49.5115 psia 49.5171 psia 0.3390 0.3299 0.3297 0.3321 0.4560 0.4488 psia psia psia psia psia psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 87.79604 deg.F 49.51150 psia 0.38250 psia 343040 cu.ft.83090.92 ibm 44 WNP-2 1991 ILRT STABILIZATION data set 7 time=1630 date=608 sensor temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 raw data (109.660)(99.790 (92.980)(88.280)(101.650)(89.240)(92.770)(92.830)(93.010)(101.080)(109.220)(92.640)(92.950)(89.140)(78.050)(77.920)(77.980)(78.030 value 109.660 99.790 92.980 88.280 101.650 89.240 92.770 92.830 93.010 101.080 109.220 92.640 92.950 89.140 78.050 77.920 77.980 78.030 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 (68.050)(67'10)(~67.220)(67.460)(76.770)(76.330)68.050 deg.67.310 deg.67.220 deg.67.460 deg.76.770 deg.76.330 deg.F , 0.3395 F , 0.3309 F , 0.3299 F , 0.3326 F , 0.4557 F , 0.4491 psia psia psia psia psia psia pressure pressure 1 (49.5104)2 (49.5165)49.5104 psia 49.5165 psia weighted averages, volume and air mass temperature pressure'apor pressure volume dry air mass 87.80686 49.51040 0.38284 343040 83086.84 deg.F psia psia cu.ft.ibm 45
WNP-2 1991 XLRT STABXLIZATXON data set   1 time = 1500    date = 608 sensor             raw data          value temperature 1 ( 109.450          109.450  deg. F temperature 2 ( 99.510              99.510  deg. F temperature 3 ( 92.910              92.910  deg. F temperature 4 ( 88.250              88.250 deg. F temperature 5 ( 101.370          101.370  deg. F temperature 6 ( 89.190              89.190  deg. F temperature 7 ( 92.680              92.680  deg. F temperature 8 ( 92.750              92.750  deg. F temperature 9 ( 92.920              92.920  deg. F temperature 10 ( 100.800          100.800  deg. F temperature 11 ( 108.990          108.990  deg. F temperature 12 ( 92. 540 ')        92.540  deg. F temperature 13      92.840        92.840  deg. F temperature 14      89.050         89.050 deg. F temperature 15      78.140        78.140  deg. F temperature 16 ( 78.000            78.000  deg. F temperature 17 ( 78.040            78.040  deg. F temperature 18 ( 78.070            78.070  deg. F dewpoint 1      (   67.750        67.750  deg. F , 0.3360 psia dewpoint 2       (   67.030        67.030  deg. F , 0.3277 psia dewpoint 3       (   66.930        66.930  deg. F I 0.3266 psia dewpoint 4       (   67.200         67.200 deg. F , 0.3297 psia dewpoint 5      (  76.810        76.810  deg. F , 0.4563 psia dewpoint 6       (   76.420        76.420  deg. F , 0.4504 psia pressure 1       ( 49.5147        49.5147 psia pressure 2       ( 49.5201        49.5201 psia weighted averages, volume and   air   mass temperature             87.75864 deg. F pressure               49.51470 psia vapor pressure           0.38137 psia volume dry   air mass 343040 cu.
83103.93 ibm ft.
39


HNP-2 1991 data set 8 time=1645 date=608 ILRT STABILIZATION sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (109.700 (99.840 (92.990 (88.280 (101.700 (89.250 (92.820 (92.880 (93.030 (101.120 (109.250 (92.640 (92.960 89.090 78.040 (77.920 77.980 (78.020 109.700 99.840 92.990 88.280 101.700 89.250 92.820 92.880 93.030 101.120 109.250 92.640 92.960 89.090 78.040 77.920 77.980 78.020 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F'ewpoint, dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 68.110 67.310 67.300 67'10 76.780 76.290 68.110 deg.67.310 deg.67.300 deg.67.510 deg.76.780 deg.76.290 deg.F , 0.3402 F , 0.3309 F , 0.3308 F , 0.3332 F , 0.4559 F , 0.4485 psia psia psia psia psia psia pressure pressure weighted 1 (49.5106 2 (49.5166 averages, volume temperature pressure vapor pressure volume dry air mass and 49.5106 psia 49.5166 psia air mass 87.81557 deg.F 49.51060 psia 0.38305 psia 343040 cu.ft.83085.50 ibm 46 Ib a')
f
WNP-2 1991 ILRT STABILIZATION data set 9 time=1700 date=608 sensor raw data value temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature 13 (14 (15 (16 17 (18 (92.980 89'30 78.040 77'10 77.960 78.010 1 (109.710 2 (99.890 3 (93.010 4 88.290 5 101.750 6 89.260 7 92.840 8 (92.880 9 (93.040 10 (101.170 11 (109.290 12 (92.660 109.710 99.890 93.010 88.290 101.750 89.260 92.840 92.880 93.040 101.170 109.290 92.660 92.980 89.130 78.040 77.910 77.960 78.010 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (68.140 (67.360 (67.300 (67.560 (76.780 (76.290 68.140 deg.F 67.360 deg.F 67.300 deg.F 67.560 deg.F 76.780 deg.F 76.290 deg.F 0.3402 0.3309 0.3408 0.3332 0.4559 0.4485 psia psia psia psia psia psia pressure pressure 1 (49.5106)=49.5106 psia 2 (49.5167)=49.5167 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 87'2571 49.51060 0.38326 343040 83083'1 deq.F psza psia cu.ft.ibm 47
'k


WNP-2 199 1 data set 10 time=1715 date=608 ILRT STABILIZATION sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 temperature 9 (temperature 10 (temperature 11 temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (109'90 99.940 93.030 88.300 101.790 89.270 92.850 92.900 93.040 101.220 109.270 92.670 92.990 89.150 78.020 77.910 77.960 78.000 109.790 99.940 93.030 88.300 101.790 89.270 92.850 92.900 93.040 101.220 109.270 92.670 92.990 89'50 78.020 77.910 77.960 78.000 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (68.170 (67'90 (67.350 (67.580 (76.770 (76.320 68.170 deg.67.390 deg.67.350 deg.67.580 deg.76.770 deg.76.320 deg.F , 0.3409 F , 0.3318 F , 0.3314 F , 0.3340 F , 0.4557 F , 0.4490 psia psia psia psia psia psia pressure pressure weighted 1 (49.5106 2 (49'168 averages, volume temperature pressure vapor pressure volume dry air mass and 49.5106 psia 49.5168 psia air mass 87.83482 deg.F 49.51060 psia 0.38355 psia 343040 cu.ft.83081.74 ibm 48 NNP-2 1991 data set 11 time=1730 date=608 ILRT STABILIZATION sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (109.790 99.980 93.030 88.300 101.840 89.270 92.860 92.910 93.070 101.260 109.360 92.680 93.020 89.140 78.020 77.900 77.960 78.000 109.790 99.980 93.030 88.300 101.840 89.270 92.860 92.910 93.070 101.260 109.360 92.680 93.020 89.140 78.020 77.900 77.960 78.000 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 (3 (4 (5 (6 (68.240 67.430 67.450 67.630 76.790 76.310 68.240 67.430 67.450 67.630 76.790 76.310 degas deg, degas degas degas deg~F, 0.3417 F , 0.3323 F , 0.3325 F , 0.3346 F , 0.4560 F , 0.4488 psia psia psia psia psia psia pressure ,pressure weighted 1 (49.5109 2 (49.5170 averages, volume and.49.5109 psia 49.5170 psia air mass temperature pressure vapor pressure volume dry air mass 87.84440 deg.F 49.51090 psia 0.38402 psia 343040 cu.ft.83079.99 ibm 49
WNP-2 1991 ILRT STABILIZATION data set   2 time = 1515    date = 608 sensor             raw data         value temperature 1 ( 109.500 )        109.500    deg. F temperature 2 ( 99.570 )            99.570  deg. F temperature 3 ( 92.910 )            92.910   deg. F temperature 4 ( 88.250 )            88.250  deg. F temperature 5 ( 101.420 )        101.420    deg. F temperature 6 ( 89.190 )            89.190  deg. F temperature 7 ( 92.720 )           92.720  deg. F temperature 8 ( 92.790 )           92.790  deg. F temperature 9 ( 92.940              92.940  deg. F temperature 10 ( 100.850 )        100.850    deg. F temperature 11 ( 109.090 )       109.090    deg. F temperature 12 ( 92.560 )           92.560  deg. F temperature 13 ( 92.870 )           92.870  deg. F temperature 14 ( 89.060 )          89.060  deg. F temperature 15      78.120        78.120  deg. F temperature 16 ( 77.990 )          '77.990  deg. F temperature 17 ( 78.030 )          78.030  deg. F temperature 18 ( 78.070            78.070  deg. F dewpoint         (   67. 840 )     67.840  deg. F , 0.3370 psia dewpoint        (   67. 030 )      67.030  deg. F , 0.3277 psia dewpoint        (   67. 010 )     67.010  deg. F , 0.3275 psia dewpoint        (   67. 240 )     67.240  deg. F , 0.3301 psia dewpoint.       (   76.790 )       76.790  deg. F , 0.4560 psia dewpoint        (  76.310 )      76.310  deg. F , 0.4488 psia pressure 1       ( 49. 5138 )       49.5138 psia pressure 2       ( 49.5202 )       49.5202 psia weighted averages, volume and   air mass temperature             87.77139 deg.. F pressure                49.51380 psia vapor pressure          0.38129 psia volume                    343040 cu. ft.
~~
dry air mass.          83100.59 ibm 40
WNP-2 1991 ILRT STABILIZATION data set 12 time=1745 date=608 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (109.820)(100.020)(93.060)(88.320 (101.880)(89.280)(92.900)(92.910)(93.100)101.310)109.340)(92.710)(93.030)(89.150)(78.010 (77.890)(77.950)(77.990 109.820 100.020 93.060 88.320 101.880 89.280 92.900 92.910 93.100 101.310 109.340 92.710 93.030 89.150 78.010 77.890 77.950 77.990 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (68.270)(67.470)(67.430)(67.670)(76.770)(76.270)68.270 67.470 67.430 67.670 76.770 76.270 degas degas deg, deg deg deg~F, 0.F, 0.F, 0.F, 0~F, 0.F, 0.3421 psia 3328 psia 3323 psia 3351 psia 4557 psia 4482 psia pressure pr'essure 1 (49.5111)2 (49.5170)49.5111 psia 49.5170 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 87.85353 deg.F 49.51110 psia 0.38397 psia 343040 cu.ft.83079.03 ibm 50 W I NNP-2 1991 ILRT STABILIZATION data set 13 time=1800 date=608 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (109.870)(100.070)(93.070 (88.330 (101.920 (89.290 (92.890 (92.930 (93.100 (101.350 (109.390, (92.710 (93.050 89.180 (78 F 000 (77.890 (77.940 (77.980 109.870 100.070 93.070 88.330 101.920 89.290 92.890 92.930 93.100 101.350 109.390 92.710 93.050 89.180 78.000 77.890 77.940 77.980 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (68.300)67.530)67.480)67.710)(76.740)(76.250 68.300 deg.67.530 deg.67.480 deg.67.710 deg.76.740 deg.76.250 deg.F , 0.3424 F , 0.3334 F , 0.3329 F , 0.3355 F , 0.4552 F , 0.4479 psia psia psia psia psia psia pressure pressure 1 (49.5108)2 (49.5172)49.5108 psia 49.5172 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 87.86266 deg.F 49.51080 psia 0.38413 psia 343040 cu.ft.83076.87 ibm P 1'*i WNP-2 1991 ILRT STABILIZATION data set 14 time=1815 date=608 sensor raw data value temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature 1 (109.870 2 (100.080 3 (93.060 4 (88.310 5 (101.940 6 (89.280 7 (92.880)8 (92.940 9 (93.070 10 (101.360 11 (109.430 12{92.690 13 (93.030 14 (89'70 15 (77.970 16 (77.840 17{77.910 18 (77.950 109.870 100.080 93.060 88.310 101.940 89.280 92.880 92.940 93.070 101.360 109.430 92.690 93.030 89.170 77.970 77.840 77.910 77.950 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint'dewpoint (68.280)(67.500)(67.480)(67.690)(76.700)(76.210 68.280 deg.67.500 deg.67.480 deg.67.690 deg.76.700 deg.76.210 deg.F , 0.3422 psia F , 0.3331 psia F , 0.3329 psia F , 0.3353 psia F , 0.4546 psia F , 0.4473 psia pressure pressure 1 (49.5107)2 (49.5174)49.5107 psia 49.5174 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 87.84525 deg.F 49.51070 psia 0.38376 psia 343040 cu.ft.83079.96 ibm 52


WNP-2 1991 ILRT STABILIZATION data set 15 time=1830 date=608 sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 109.920 100.170 93'30 88.360 102.020)89.330)92.930 92.980 93.150 101.460 109.500 92.780 93.100 89.200 78.000 77.890 77.940 77.980 109.920 100'70 93.130 88.360 102.020 89.330 92.930 92.980 93.150 101.460 109.500 92.780 93.100 89.200 78.000 77.890~77.940 77.980 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure (68.380)67.650)67.610)67.800)(76.740)(76.210)1 (49.5114)2 (49.5168)68.380 deg.67.650 deg.67.610 deg.67.800 deg.76.740 deg.76.210-deg.
J C
49.5114 psia 49.5168 psia F , 0.3433 F , 0.3348 F , 0.3344 F , 0.3366 F , 0.4552 F , 0.4473 psia psia psia psia psia psia weighted averages, volume and temperature pressure vapor pressure volume dry air mass air mass 87.89718 deg.F 49.51140 psia 0.38473 psia 343040 cu.ft.83071.62 ibm 53 a~
1f 8
WNP-2 1991 data set 16 time=1845 date=608 ILRT STABILIZATION sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14'(temperature 15 (temperature 16 (temperature 17 (temperature 18 (109.950 100.210 93.130 88.350 102.050 89.330 92.940 93.000 93.150 101.500 109.510))))))))))92.780)93.110)89.190)77.990 77.860 77.920)77.960)109.950 100.210 93.130 88.350 102.050 89.330 92.940 93.000 93.150 101.500 109.510 92.780 93.110 89.190 77.990 77.860 77.920 77.960 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.-F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 (68.420 (67.670 (67.610 (67.850 (76.740 (76.230 68.420 deg.67.670 deg.67.610 deg.67.850 deg.76.740 deg.76.230 deg.F , 0.3438 F , 0.3351 F , 0.3344 F , 0.3371 F , 0.4552 F , 0.4476 psia psia psia psia psia psia pressure pressure weighted 1 (49.5111 2 (49.5195 averages, volume and 49.5111 psia 49.5195 psia air mass temperature pressure vapor pressure volume dry air mass 87.89475 49.51110 0.38496 343040 83071.10 deg.F psia psia cu.ft.ibm 54
!
WNP-2 1991 data set 17 time=1900 date=608 ILRT STABXLXZATXON sensor raw data value temperature 1 (temperature 2 (temperature 3 temperature 4 (temper'ature 5 (temperature 6 (temperature 7 (temperature 8 (.temperature 9 (temperature 10 (temperature 11 temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (109.990 100.240 93.140 88.350 102.110 89.340 92.940 93.010 93'70 101.520 109.520 92.790 93.110 89.230 77.980 77.850 77.900 77.940 109.990 100.240 93.140 88.350 102.110 89.340 92.940 93.010 93.170 101.520 109'20 92.790 93.110 89.230 77.980 77.850 77.900 77.940 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (68.480 (67.700 (67.650 (67.880 (76.750 (76.200 68.480 67.700 67.650 67.880 76.750 76.200 deg.F deg.F deg.F deg.F deg.F deg.F 0.3445 0.3354 0.3348 0.3375 0.4554 0.4472 psia psia psia psia psia psia pressure pressure weighted 1 (49.5107 2 (49.5209 averages, volume and 49.5107 psia 49.5209 psia air mass temperature pressure vapor pressure volume dry air mass I 87.89902 49.51070 0.38517 343040 83069.43 deg.F psia psia cu.ft.ibm 55 g'.)I WNP-2 1991 data set 18 time=1915 date=608 ILRT STABILIZATION sensor raw data value temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature 92.960 93.010 93.170 101-560 109'40 92.780 93.110 89.180 77.950 77.820 77.880 77.930 7 (8 (9 (10 (11 (12 (13 (14 (15 (16 (17 (18 (1 (109.960 2 (100.270 3 (93.110 4 (88.330 5 (102.130 6 (89.340 109.960 100.270 93.110 88.330 102.130 89.340 92.960 93.010 93.170 101.560 109.540 92.780 93.110 89.180 77.950 77.820 77.880 77.930 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 (68.510 (67.790 (67.710 (67.920 (76.720 (76.180 68.510 deg.67.790 deg.67.710 deg.67.920 deg.76.720 deg.76.180 deg.F , 0.3449 F , 0.3364 F , 0.3355 F , 0.3380 F , 0.4549 F , 0.4469 psia psia psia psia psia psia pressure pressure weighted 1 (49.5113 2 (49.5192 averages, volume temperature pressure vapor pressure volume dry air mass and 49.5113 psia 49.5192 psia air mass 87.88821 deg.F 49.51130 psia 0.38540 psia 343040 cu.ft.83071.68 ibm 56 C,$;-o r~II\I'I"l F, l' WNP-2 1991 data set 19 time=1930 date=608 ILRT STABILIZATION sensor temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 raw data (110.030 (100.330 (93.160 (88.370 (102.180 (89.370 (92.980 (93.030 (93.190 (101.610 (109.590 (92.820 (93.140 (89.240 (77.970 (77.830 (77.890 (77.930 value 110.030 100.330 93.160 88.370 102.180 89.370 92.980 93.030 93.190 101.610 109.590 92.820 93.140 89.240 77.970 77.830 77.890 77.930 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 3 (4 5 (6 (68.550 67.770 67.700 67.970 76.700 76.160 68.550 deg.67.770 deg.67.700 deg.67.970 deg.76.700 deg.76.160 deg.F , 0.3454 F , 0.3362 F , 0.3354 F , 0.3385 F , 0.4546 F , 0.4466 psia psia psia psia psia psia pressure pressure weighted 1 (49.5115 2 (49.5188 averages, volume and 49.5115 psia 49.5188 psia air mass temperature pressure vapor pressure volume dry air mass 87.91650 deg.F 49.51150 psia 0.38535 psia 343040 cu.ft.83067.83 ibm 57 C k IP P$
NNP-2 1991 data set 20 time=1945 date=608 ZLRT STABXLXZATION sensor temperature 1 (temperature 2 temperature 3 temperature 4 temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 temperature 10 (temperature 11 temperature 12 temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (raw data 110.060 100.370 93.180 88.380 102.230 89.370 93.020)93.050)93.220 101.660 109.610 92.840 93.160 89.230 77.960 77.830 77.880 77.920 value 110.060 100.370 93.180 88.380 102.230 89.370 93.020 93.050 93.220 101.660 109.610 92.840 93.160 89.230 77.960 77.830 77.880 77.920 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 (68.600 (67.780 (67.810 (68.000 (76.670 (76.110 68.600 deg.67.780 deg.67.810 deg.68.000 deg.76.670 deg.76.110 deg.F , 0.3459 F , 0.3363 F I 0.3367 F ,0.3389 F , 0.4542 F , 0.4458 psia psia psia psia psia psia pressure pressure weighted 1 (49.5117 2 (49.5187 averages, volume temperature pressure vapor pressure volume dry air mass and 49.5117 psia 49.5187 psia air mass 87.92627 deg.F 49.51170 psia 0.38544 psia 343040 cu.ft.83066.52 ibm ti WNP-2 1991 data set 21 time=2000 date=608 ILRT STABILIZATION sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 temperature 11 temperature 12 temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (110.080 100.420 93.210 88.390 102.270 89.390 93.000 93.080 93.230 101.700 109.630 92.840 93.160 89.210 77.960 77.820 77.880 77.920 110.080 100.420 93.210 88.390 102.270 89.390 93.000 93.080 93.230 101.700 109.630 92.840 93.160 89.210 77.960 77.820 77.880 77.920 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure weighted (68.630 (67.850 (67.870 (68.030 76.670 (76.140 1 (49.5119 2 (49.5187 averages, volume and 68.630 deg.67.850 deg.67.870 deg.68.030 deg.76.670 deg.76.140 deg.49.5119 psia 49.5187 psia air mass F , 0.3463 F , 0.3371 F , 0.3374 F , 0.3392 F , 0.4542 F , 0.4463 psia psia psia psia psia psia temperature pressure vapor pressure volume dry air mass 87.93407 deg.F 49.51190 psia 0.38588 psia 343040 cu.ft.83064.94 ibm 59


PRE-DATA REPORT title=WNP-2 1991 ILRT TYPE A TEST volume=343040 leap year: no La=0.5000 erature volume fractions t(1)=0".0265 t(2)=0.0402 t(6)=0~0563 t(7)=0~0398 t(11)=0.0265 t(12)=0.0398 t(16)=0~1047 t(17)=0.1047 (sum=1.0000)t(3)=0.0398 t(4)=0.0563 t(8)=0.0398 t(9)=0.0398 t (13)=0.0398 t (14)=0.0563 t(18)=0.1046 t(5)=0.0402 t(10)=0.0402 t(15)=0.1047 dewpoint volume fractions (sum=1.0000)dp(1)=0.1194 dp(2)=0.1737 dp(3)=0.1688 dp(4)=0.1194 dp(5)=0.2094 dp(6)=0.2093 pressure volume fractions (sum=1.0000)p(1)=1.0000 p(2)=0.0000 e 60 I f, WNP-2 1991 ILRT TYPE A TEST data set DATA  
WNP-2 1991 ILRT STABILIZATION data set    3 time = 1530    date = 608 sensor              raw data          value temperature 1 ( 109.520          109.520    deg. F temperature 2 ( 99.620              99.620  deg. F temperature 3 ( 92 '10              92.910  deg. F temperature 4        88.250        88.250  deg. F temperature 5      101.460      101.460    deg. F temperature 6        89.190        89.190  deg. F temperature 7        92.720        92.720  deg. F temperature 8        92.790        92.790  deg. F temperature 9        92.940        92.940  deg. F temperature 10      100.890      100.890    deg. F temperature 11      109.080      109.080    deg. F temperature 12      92.570        92.570  deg. F temperature 13      92.880        92.880  deg. F temperature 14.      89.060        89.060  deg. F temperature 15      78.090        78.090  deg. F temperature 16      77.970        77.970  deg. F temperature 17      78.020        78.020  deg. F temperature 18      78.070        78.070  deg. F dewpoint 1      (  67.880        67.880  deg. F i 0.3375 psia dewpoint 2          67.080        67.080  deg. F i 0.3283 psia dewpoint 3      (  67.070        67.070  deg. F , 0.3282 psia dewpoint 4          67.290        67.290  deg. F , 0.3307 psia dewpoint 5      (  76.780        76.780  deg. F , 0.4559 psia dewpoint 6          76.320        76.320  deg. F , 0.4490 psia pressure 1      ( 49. 5131        49.5131 psia pressure 2      ( 49 '192          49.5192 psia weighted averages, volume and    air  mass temperature            87.77139 deg. F pressure                49.51310 psia vapor pressure          0.38163 psia volume dry air mass 343040 cu.
83098.84 ibm ft.
41
 
WNP-2 1991 ILRT STABILIZATION data set    4 time = 1545      date = 608 sensor              raw data          value temperature 1 ( 109.560            109.560  deg. F temperature 2 ( 99.670              99.670  deg. F temperature 3 ( 92.930              92.930  deg. F temperature 4 ( 88.250              88.250  deg. F temperature 5 ( 101 '20 )          101.520  deg. F temperature 6 ( 89.200 )            89.200  deg. F temperature 7 ( 92.740 )            92.740  deg. F temperature 8 ( 92.800              92.800  deg. F temperature 9 ( 92.940              92.940  deg. F temperature 10      100.930 )    100 '30  deg. F temperature 11      109.110      109.110  deg. F temperature 12 ( 92.590 )            92.590  deg. F temperature 13 ( 92.900 )            92.900  deg. F temperature 14        89.080 )      89.080  deg. F temperature  15      78.090 )      78.090  deg. F temperature 16        77.960 )    77.960  deg. F temperature 17 ( 78.010 )          78.010  deg. F temperature 18 ( 78.060              78.060  deg. F dewpoint 1        (    67.920 )      67.920  deg. F,    0.3380 psia dewpoint 2            67. 120 )    67.120  deg. F ,  0.3288 psia dewpoint 3            67.100 )      67.100  deg. F ,  0.3285 psia dewpoint 4            67.350 )      67.350  deg. F ,  0.3314 psia dewpoint 5        (    76.770  )    76.770  deg. F ,  0.4557 psia dewpoint 6        (    76.340 )      76.340  deg. F ,  0.4492 psia pressure 1        ( 49.5125 )        49.5125 psia pressure 2        ( 49.5186 )        49.5186 psia weighted averages, volume and    air  mass temperature            87.78141 deg. F pressure                49.51250 psia vapor pressure          0.38193 psia volume                    343040 cu. ft.
dry air    mass        83095.79 ibm 42
 
WNP-2 1991 ILRT STABILIZATION data set    5 time = 1600    date = 608 sensor              raw data          value temperature 1 ( 109.580            109.580  deg. F temperature 2 ( 99.700              99.700  deg. F temperature 3 ( 92.960              92.960  deg. F temperature 4 ( 88.260              88.260  deg. F temperature 5 ( 101.560            101.560  deg. F temperature 6 ( 89.220              89.220  deg. F temperature 7 ( 92.760              92.760  deg. F temperature 8 ( 92.820              92.820  deg. F temperature 9 ( 92.970              92.970  deg. F temperature 10 ( 100.980          100.980  deg. F temperature 11 ( 109. 170          109.170  deg. F temperature 12 ( 92.600              92.600  deg. F temperature 13 ( 92.920              92.920  deg. F temperature 14 ( 89.090              89.090  deg. F temperature 15 ( 78.070              78.070  deg. F temperature 16 ( 77.950              77.950  deg. F temperature 17 ( 78.000              78.000  deg. F temperature 18 ( 78.050              78.050  deg. F dewpoint          (    67. 980      67.980  deg. F ,  0.3387 psia dewpoint          (    67. 170      67.170  deg. F ,  0.3293 psia dewpoint          (    67. 170      67.170  deg. F ,  0.3293 psia dewpoint          (    67. 370      67.370  deg. F ,  0.3316 psia dewpoint          (    76.800        76.800  deg. F ,  0.4562 psia dewpoint          (    76. 290      76.290  deg. F ,  0.4485 psia pressure 1        ( 49.5122          49.5122 psia pressure 2        ( 49.5175          49.5175 psia weighted averages, volume and    air  mass temperature            87.79055 deg. F pressure                49.51220 psia vapor pressure          0.38222 psia volume                    343040 cu. ft.
dry  air  mass        83093.41 ibm 43
 
WNP-2 1991 XLRT STABXLXZATION data set    6 time = 1615    date = 608 sensor              raw data          value temperature 1 ( 109.630          109. 630  deg. F temperature 2 ( 99.760              99'.760  deg. F temperature 3 ( 92.970              92.970  deg. F temperature 4 ( 88.270              88.270  deg. F temperature 5 ( 101.600          101.600    deg. F temperature 6 ( 89.230              89.230  deg. F temperature 7 ( 92.780              92.780  deg. F temperature 8 ( 92.830              92.830  deg. F temperature 9 ( 92.990              92.990  deg. F temperature 10 ( 101.020          101.020    deg. F temperature 11 ( 109.180          109.180    deg. F temperature 12 ( 92.610            92.610  deg. F temperature 13 ( 92.940            92.940  deg. F temperature 14 ( 89.050            89.050  deg. F temperature 15 ( 78.060            78.060  deg. F temperature 16 ( 77.940            77.940  deg. F temperature 17 ( 77.990            77.990  deg. F temperature 18 ( 78.040            78.040  deg. F dewpoint 1      (  68.010 )      68.010  deg. F  0.3390 psia dewpoint 2      (  67.220 )      67.220  deg. F  0.3299 psia dewpoint        C  67.200 )      67.200  deg. F  0.3297 psia dewpoint 4      (  67.410 )      67.410  deg. F  0.3321 psia dewpoint 5      (  76.790 )      76.790  deg. F  0.4560 psia dewpoint 6      (  76.310        76.310  deg. F  0.4488 psia pressure 1      ( 49.5115 )      49.5115 psia pressure 2      ( 49.5171 )      49.5171 psia weighted averages, volume and  air  mass temperature            87.79604 deg. F pressure                49.51150 psia vapor pressure          0.38250 psia volume air 343040 cu. ft.
dry      mass          83090.92 ibm 44
 
WNP-2 1991 ILRT STABILIZATION data set    7 time = 1630        date = 608 sensor                      raw data        value temperature 1 ( 109.660 )                109.660  deg. F temperature 2 ( 99.790                    99.790  deg. F temperature 3 ( 92.980 )                  92.980  deg. F temperature 4 ( 88.280 )                  88.280  deg. F temperature 5 ( 101.650 )                101.650  deg. F temperature 6 ( 89.240 )                  89.240  deg. F temperature 7 ( 92.770 )                  92.770  deg. F temperature 8 ( 92.830 )                  92.830  deg. F temperature 9 ( 93.010 )                  93.010  deg. F temperature 10 ( 101.080 )              101.080  deg. F temperature 11 ( 109.220 )              109.220  deg. F temperature 12 ( 92.640 )                  92.640  deg. F temperature 13 ( 92.950 )                  92.950  deg. F temperature 14 ( 89.140 )                  89.140  deg. F temperature 15 ( 78.050 )                  78.050  deg. F temperature 16 ( 77.920 )                  77.920  deg. F temperature 17 ( 77.980 )                  77.980  deg. F temperature 18 ( 78.030                    78.030  deg. F dewpoint 1              (      68.050 )    68.050  deg. F , 0.3395 psia dewpoint 2              (      67 '10 )    67.310  deg. F , 0.3309 psia dewpoint 3              (  ~  67.220 )    67.220  deg. F , 0.3299 psia dewpoint 4              (      67.460 )    67.460  deg. F , 0.3326 psia dewpoint 5              (      76.770 )    76.770  deg. F , 0.4557 psia dewpoint 6              (      76.330 )    76.330  deg. F , 0.4491 psia pressure 1              ( 49.5104 )        49.5104 psia pressure 2              ( 49.5165 )        49.5165 psia weighted averages, volume and          air  mass temperature                  87.80686 deg. F pressure'apor 49.51040 psia pressure      0.38284 psia volume                          343040 cu. ft.
dry        air    mass      83086.84 ibm 45
 
HNP-2 1991 ILRT STABILIZATION data set    8 time = 1645      date = 608 sensor              raw data          value temperature 1 ( 109.700            109.700  deg. F temperature 2 ( 99.840              99.840  deg. F temperature 3 ( 92.990              92.990  deg. F temperature 4 ( 88.280              88.280  deg. F temperature 5 ( 101.700            101.700  deg. F temperature 6 ( 89.250              89.250  deg. F temperature 7 ( 92.820              92.820  deg. F temperature 8 ( 92.880              92.880  deg. F temperature 9 ( 93.030              93.030  deg. F temperature 10 ( 101.120          101.120  deg. F temperature 11 ( 109.250          109.250  deg. F temperature 12 ( 92.640            92.640  deg. F temperature 13 ( 92.960            92.960  deg. F temperature 14        89.090      89.090  deg. F temperature 15        78.040      78.040  deg. F temperature 16 ( 77.920            77.920  deg. F temperature 17        77.980      77.980  deg. F temperature 18 ( 78.020            78.020  deg. F
'ewpoint,  1          68.110        68.110  deg. F , 0.3402 psia dewpoint 2            67.310        67.310  deg. F , 0.3309 psia dewpoint 3            67.300        67.300  deg. F , 0.3308 psia dewpoint 4            67 '10        67.510  deg. F , 0.3332 psia dewpoint 5            76.780      76.780  deg. F , 0.4559 psia dewpoint 6            76.290      76.290  deg. F , 0.4485 psia pressure 1        ( 49.5106        49.5106 psia pressure  2      ( 49.5166        49.5166 psia weighted averages, volume and    air  mass temperature            87.81557 deg. F pressure              49.51060 psia vapor pressure          0.38305 psia volume                    343040 cu. ft.
dry air  mass        83085.50 ibm 46
 
Ib a')
 
WNP-2 1991 ILRT STABILIZATION data set    9 time = 1700      date = 608 sensor                raw data          value temperature    1 ( 109. 710        109.710 deg. F temperature    2 (    99.890        99.890 deg. F temperature    3 (    93.010        93.010 deg. F temperature    4      88.290        88.290 deg. F temperature    5    101.750        101.750 deg. F temperature    6      89.260        89.260 deg. F temperature    7      92.840        92.840 deg. F temperature    8 (    92.880        92.880 deg. F temperature    9 (    93.040        93.040 deg. F temperature 10 ( 101.170            101. 170 deg. F temperature 11 ( 109.290            109.290 deg. F temperature 12 ( 92.660              92.660 deg. F temperature 13 ( 92.980              92.980 deg. F temperature 14 ( 89 '30              89.130 deg. F temperature 15 ( 78.040              78.040 deg. F temperature 16        77 '10        77.910 deg. F temperature 17 ( 77.960              77.960 deg. F temperature 18 ( 78.010              78.010 deg. F dewpoint          (  68. 140        68.140 deg. F  0.3402 psia dewpoint          (  67.360        67.360 deg. F  0.3309 psia dewpoint          (  67.300        67.300 deg. F  0.3408 psia dewpoint          (  67.560        67.560 deg. F  0.3332 psia dewpoint          (  76.780        76.780 deg. F  0.4559 psia dewpoint          (  76.290        76.290 deg. F  0.4485 psia pressure 1        ( 49.5106 )  =    49.5106 psia pressure 2        (  49.5167  ) =    49.5167 psia weighted averages, volume and air mass temperature              87 '2571 deq. F pressure                49.51060 psza vapor pressure            0.38326 psia volume                      343040 cu. ft.
dry  air  mass          83083  '1  ibm 47
 
WNP-2 199 1 ILRT STABILIZATION data set 10 time = 1715    date = 608 sensor            raw data            value temperature 1 ( 109 '90            109.790    deg. F temperature 2 ( 99.940              99.940  deg. F temperature 3 ( 93.030              93.030    deg. F temperature 4 ( 88.300              88.300    deg. F temperature 5 ( 101.790            101.790    deg. F temperature 6 ( 89.270              89.270    deg. F temperature 7 ( 92.850              92.850    deg. F temperature 8      92.900          92.900    deg. F temperature 9 ( 93.040              93.040    deg. F temperature 10 ( 101.220          101.220    deg. F temperature 11    109.270        109.270    deg. F temperature 12 ( 92.670            92.670    deg. F temperature 13 ( 92.990            92.990    deg. F temperature 14 ( 89.150            89  '50  deg. F temperature 15 ( 78.020            78.020    deg. F temperature 16 ( 77.910            77.910    deg. F temperature 17 ( 77.960            77.960    deg. F temperature 18 ( 78.000            78.000    deg. F dewpoint        (  68.170          68.170    deg. F , 0.3409 psia dewpoint        (  67 '90          67.390    deg. F , 0.3318 psia dewpoint        (  67.350          67.350    deg. F , 0.3314 psia dewpoint        (  67.580          67.580    deg. F , 0.3340 psia dewpoint        (  76.770          76.770    deg. F , 0.4557 psia dewpoint        (  76.320          76.320  deg. F  , 0.4490 psia pressure 1      ( 49.5106          49.5106 psia pressure 2      ( 49 '168          49.5168 psia weighted averages, volume and    air  mass temperature              87.83482 deg. F pressure                  49.51060 psia vapor pressure            0.38355 psia volume dry air mass 343040 cu.
83081. 74 ibm ft.
48
 
NNP-2 1991 ILRT STABILIZATION data set 11 time = 1730    date = 608 sensor              raw data          value temperature 1 ( 109.790          109.790  deg. F temperature 2 ( 99.980            99.980  deg. F temperature 3 ( 93.030            93.030  deg. F temperature 4 ( 88.300            88.300  deg. F temperature 5 ( 101.840          101.840  deg. F temperature 6 ( 89.270            89.270  deg. F temperature 7 ( 92.860            92.860  deg. F temperature 8 ( 92.910            92.910  deg. F temperature 9 ( 93.070            93.070  deg. F temperature 10 ( 101.260          101.260  deg. F temperature 11 ( 109.360          109.360  deg. F temperature 12 ( 92.680            92.680  deg. F temperature 13 ( 93.020            93.020  deg. F temperature 14 ( 89.140            89.140  deg. F temperature 15 ( 78.020            78.020  deg. F temperature 16 ( 77.900            77.900  deg. F temperature 17 ( 77.960            77.960  deg. F temperature 18 ( 78.000            78.000  deg. F dewpoint 1      (    68.240      68.240 degas 67.430 deg, F,    0. 3417 0.3323 psia psia dewpoint 2      (    67.430                    F ,
dewpoint  3    (    67.450      67.450 degas  F ,  0.3325  psia dewpoint 4      (    67.630      67.630 degas  F ,  0.3346  psia dewpoint 5      (  76.790        76.790 degas  F ,  0.4560  psia dewpoint 6      (  76.310        76.310 deg~  F ,  0.4488  psia pressure 1      ( 49.5109        .49.5109 psia
,pressure 2      ( 49.5170        49.5170 psia weighted averages, volume and    air  mass temperature            87.84440 deg. F pressure                49.51090 psia vapor pressure          0.38402 psia volume                    343040 cu. ft.
dry air mass            83079.99 ibm 49
 
~ ~
WNP-2 1991 ILRT STABILIZATION data set 12 time = 1745    date = 608 sensor            raw data          value temperature 1 ( 109.820 )        109.820  deg. F temperature 2 ( 100.020 )        100.020  deg. F temperature 3 ( 93.060 )            93.060  deg. F temperature 4 ( 88.320              88.320  deg. F temperature 5 ( 101.880 )        101.880  deg. F temperature 6 ( 89.280 )            89.280  deg. F temperature 7 ( 92.900 )          92.900  deg. F temperature 8 ( 92.910 )          92.910  deg. F temperature 9 ( 93.100 )          93.100  deg. F temperature 10    101.310 )      101.310  deg. F temperature 11    109.340 )      109.340  deg. F temperature 12 ( 92.710 )          92.710  deg. F temperature 13 ( 93.030 )          93.030  deg. F temperature 14 ( 89.150 )          89.150  deg. F temperature 15 ( 78.010            78.010  deg. F temperature 16 ( 77.890 )          77.890  deg. F temperature 17 ( 77.950 )          77.950  deg. F temperature 18 ( 77.990            77.990  deg. F dewpoint        (  68.270 )      68.270  degas F,  0. 3421 psia dewpoint dewpoint
(  67.470 )
67.430 67.470 67.430 degas deg, F,
F,
: 0. 3328 psia
: 0. 3323 psia
(          )
dewpoint dewpoint
(  67. 670 )
76.770 )
67.670 76.770 deg deg F,
F, 0 ~ 3351 psia
: 0. 4557 psia
(
dewpoint        (  76. 270 )      76.270  deg~  F,  0. 4482 psia pressure 1      ( 49.5111 )        49.5111 psia pr'essure 2    ( 49.5170 )        49.5170 psia weighted averages, volume and  air  mass temperature              87.85353 deg. F pressure                49.51110 psia vapor pressure            0.38397 psia volume dry  air mass 343040 cu.
83079.03 ibm ft.
50
 
W I NNP-2 1991 ILRT STABILIZATION data set 13 time = 1800    date = 608 sensor            raw data          value temperature 1 ( 109.870 )        109.870  deg. F temperature 2 ( 100.070 )        100.070  deg. F temperature 3 ( 93.070            93.070  deg. F temperature 4 ( 88.330            88.330  deg. F temperature 5 ( 101.920          101.920  deg. F temperature 6 ( 89.290            89.290  deg. F temperature 7 ( 92.890            92.890  deg. F temperature 8 ( 92.930            92.930  deg. F temperature 9 ( 93.100            93.100  deg. F temperature 10 ( 101.350        101.350  deg. F temperature 11 ( 109.390,        109.390  deg. F temperature 12 ( 92.710          92.710  deg. F temperature 13 ( 93.050          93.050  deg. F temperature 14      89.180        89.180  deg. F temperature 15 ( 78 000F          78.000  deg. F temperature 16 ( 77.890          77.890  deg. F temperature 17 ( 77.940          77.940  deg. F temperature 18 ( 77.980          77.980  deg. F dewpoint        ( 68.300 )        68.300  deg. F , 0.3424 psia dewpoint            67. 530 )    67.530  deg. F , 0.3334 psia dewpoint            67.480 )      67.480  deg. F , 0.3329 psia dewpoint            67.710 )      67.710  deg. F , 0.3355 psia dewpoint        (  76.740 )      76.740  deg. F , 0.4552 psia dewpoint        (  76.250        76.250  deg. F , 0.4479 psia pressure 1      ( 49.5108 )      49.5108 psia pressure 2      ( 49.5172 )      49.5172 psia weighted averages, volume and  air  mass temperature            87.86266 deg. F pressure                49.51080 psia vapor pressure          0.38413 psia volume dry  air mass 343040 cu.
83076.87 ibm ft.
 
P 1'
i
 
WNP-2 1991  ILRT STABILIZATION data set 14 time = 1815    date = 608 sensor            raw data            value temperature 1 ( 109.870            109.870  deg. F temperature 2 ( 100.080            100.080  deg. F temperature 3 ( 93.060              93.060  deg. F temperature 4 ( 88.310              88.310  deg. F temperature 5 ( 101.940            101.940  deg. F temperature 6 ( 89.280              89.280  deg. F temperature 7 ( 92.880 )            92.880  deg. F temperature 8 ( 92.940              92.940  deg. F temperature 9 ( 93.070              93.070  deg. F temperature 10 ( 101. 360          101.360  deg. F temperature 11 ( 109.430          109.430  deg. F temperature 12 { 92.690            92.690  deg. F temperature 13 ( 93.030            93.030  deg. F temperature 14 ( 89 '70            89.170  deg. F temperature 15 ( 77.970            77.970  deg. F temperature 16 ( 77.840            77.840  deg. F temperature 17 { 77.910            77.910  deg. F temperature 18 ( 77.950            77.950  deg. F dewpoint        ( 68.280 )          68.280  deg. F ,  0.3422 psia dewpoint        (  67.500 )        67.500  deg. F ,  0.3331 psia dewpoint        (  67.480 )        67.480  deg. F ,  0.3329 psia dewpoint        (  67.690  )      67.690  deg. F ,  0.3353 psia dewpoint        (  76.700 )        76.700  deg. F ,  0.4546 psia
'dewpoint        (  76.210          76.210  deg. F ,  0.4473 psia pressure 1      ( 49.5107 )        49.5107 psia pressure 2      ( 49.5174 )        49.5174 psia weighted averages, volume and    air  mass temperature              87.84525 deg. F pressure                49.51070 psia vapor pressure            0.38376 psia volume dry air  mass 343040 cu.
83079.96 ibm ft.
52
 
WNP-2 1991 ILRT STABILIZATION data set 15 time = 1830    date = 608 sensor            raw data          value temperature 1 ( 109.920          109.920 deg. F temperature 2 ( 100.170          100 '70 deg. F temperature 3 ( 93 '30              93. 130 deg. F temperature 4 ( 88.360              88.360 deg. F temperature 5 ( 102.020 )        102.020 deg. F temperature 6 ( 89.330 )            89.330 deg. F temperature 7 ( 92.930              92.930 deg. F temperature 8 ( 92.980              92.980 deg. F temperature 9 ( 93.150              93.150 deg. F temperature 10 ( 101.460          101.460 deg. F temperature 11 ( 109.500          109.500 deg. F temperature 12 ( 92.780            92.780 deg. F temperature 13      93.100          93.100 deg. F temperature 14      89.200          89.200 deg. F temperature 15      78.000          78.000 deg. F temperature 16      77.890          77.890 deg. F temperature 17      77.940        ~ 77.940 deg. F temperature 18      77.980          77.980 deg. F dewpoint        ( 68. 380 )        68.380  deg. F , 0.3433 psia dewpoint            67. 650 )      67.650  deg. F , 0.3348 psia dewpoint            67.610 )        67.610  deg. F , 0.3344 psia dewpoint            67.800 )        67.800  deg. F , 0.3366 psia dewpoint        (  76.740 )        76.740  deg. F , 0.4552 psia dewpoint        ( 76.210 )          76.210-deg. F , 0.4473 psia pressure 1      ( 49.5114 )        49.5114 psia pressure 2      ( 49.5168 )        49.5168 psia weighted averages, volume and  air  mass temperature              87.89718 deg. F pressure                49.51140 psia vapor pressure            0.38473 psia volume dry air  mass 343040 cu.
83071.62 ibm ft.
53
 
a ~
WNP-2 1991 ILRT STABILIZATION data set 16 time = 1845    date = 608 sensor            raw data          value temperature 1 ( 109.950 )        109.950  deg. F temperature 2 ( 100.210 )        100.210  deg. F temperature 3 ( 93.130 )          93.130  deg. F temperature 4 ( 88.350 )          88.350  deg. F temperature 5 ( 102.050 )        102.050  deg. F temperature 6 ( 89.330 )          89.330  deg. F temperature 7 ( 92.940 )          92.940  deg. F temperature 8 ( 93.000 )          93.000  deg. F temperature 9 ( 93.150 )          93.150  deg. F temperature 10 ( 101.500 )      101.500  deg. F temperature 11 ( 109.510        109.510  deg. F
                                                -F temperature 12 ( 92.780 )          92.780  deg.
temperature 13 ( 93.110 )          93.110  deg. F temperature 14 '( 89.190 )        89.190  deg. F temperature 15 ( 77.990          77.990  deg. F temperature 16 ( 77.860          77.860  deg. F temperature 17 ( 77.920 )        77.920  deg. F temperature 18 ( 77.960 )        77.960  deg. F dewpoint 1      (  68.420        68.420  deg. F  ,  0.3438 psia dewpoint 2      (  67.670        67.670  deg. F  ,  0.3351 psia dewpoint 3      (  67.610        67.610  deg. F  ,  0.3344 psia dewpoint 4      (  67.850        67.850  deg. F  ,  0.3371 psia dewpoint 5      (  76.740        76.740  deg. F  ,  0.4552 psia dewpoint 6      (  76.230        76.230  deg. F  ,  0.4476 psia pressure 1      ( 49.5111        49.5111 psia pressure 2      ( 49.5195        49.5195 psia weighted averages, volume and  air  mass temperature            87.89475 deg. F pressure                49.51110 psia vapor pressure          0.38496 psia volume air 343040 cu. ft.
dry      mass          83071.10 ibm 54
 
WNP-2 1991 ILRT STABXLXZATXON data set 17 time = 1900    date = 608 sensor              raw data          value temperature 1 ( 109.990            109.990  deg. F temperature 2 ( 100.240            100.240  deg. F temperature 3        93.140        93.140  deg. F temperature 4 ( 88.350              88.350  deg. F temper'ature 5 ( 102.110          102.110  deg. F temperature 6 ( 89.340              89.340  deg. F temperature 7 ( 92.940              92.940  deg. F temperature 8 ( 93.010              93.010  deg. F
. temperature 9 ( 93 '70              93.170  deg. F temperature 10 ( 101.520          101.520  deg. F temperature 11      109.520        109 '20  deg. F temperature 12 ( 92.790            92.790  deg. F temperature 13 ( 93.110            93.110  deg. F temperature 14 ( 89.230            89.230  deg. F temperature 15 ( 77.980            77.980  deg. F temperature 16 ( 77.850            77.850  deg. F temperature 17 ( 77.900            77.900  deg. F temperature 18 ( 77.940            77.940  deg. F dewpoint        (    68. 480        68.480  deg. F    0.3445 psia dewpoint        (    67. 700        67.700  deg. F    0.3354 psia dewpoint        (    67. 650        67.650  deg. F    0.3348 psia dewpoint        (    67. 880        67.880  deg. F    0.3375 psia dewpoint        (    76.750        76.750  deg. F    0.4554 psia dewpoint        (    76.200        76.200  deg. F    0.4472 psia pressure 1      ( 49.5107          49.5107 psia pressure 2      ( 49.5209          49.5209 psia weighted averages, volume and    air  mass temperature              87.89902 deg. F pressure                49.51070 psia vapor pressure            0.38517 psia volume                      343040 cu. ft.
dry air    mass          83069.43 ibm I
55
 
g'.
    )
I
 
WNP-2 1991 ILRT STABILIZATION data set 18 time = 1915  date = 608 sensor            raw data          value temperature 1 ( 109.960          109.960  deg. F temperature 2 ( 100.270          100.270  deg. F temperature 3 ( 93.110            93.110  deg. F temperature 4 ( 88.330            88.330  deg. F temperature 5 ( 102.130          102. 130  deg. F temperature 6 ( 89.340            89.340  deg. F temperature 7 ( 92.960            92.960  deg. F temperature 8 ( 93.010            93.010  deg. F temperature 9 ( 93.170            93.170  deg. F temperature 10 ( 101-560        101.560  deg. F temperature 11 ( 109 '40        109.540  deg. F temperature 12 ( 92.780          92.780  deg. F temperature 13 ( 93.110          93.110  deg. F temperature 14 ( 89.180          89.180  deg. F temperature 15 ( 77.950          77.950  deg. F temperature 16 ( 77.820          77.820  deg. F temperature 17 ( 77.880          77.880  deg. F temperature 18 ( 77.930          77.930  deg. F dewpoint 1      (    68.510      68.510  deg. F , 0.3449 psia dewpoint 2      (    67.790      67.790  deg. F , 0.3364 psia dewpoint 3      (    67.710      67.710  deg. F , 0.3355 psia dewpoint 4      (    67.920      67.920  deg. F , 0.3380 psia dewpoint 5      (    76.720      76.720  deg. F , 0.4549 psia dewpoint 6      (    76. 180      76.180  deg. F , 0.4469 psia pressure 1      ( 49.5113        49.5113 psia pressure 2      ( 49.5192        49.5192 psia weighted averages, volume and  air  mass temperature            87.88821 deg. F pressure                49.51130 psia vapor pressure          0.38540 psia volume                    343040 cu. ft.
dry  air  mass        83071.68 ibm 56
 
C, $
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WNP-2 1991 ILRT STABILIZATION data set 19 time = 1930  date = 608 sensor            raw data        value temperature 1 ( 110.030        110.030  deg. F temperature 2 ( 100.330        100.330  deg. F temperature 3 ( 93.160            93.160  deg. F temperature 4 ( 88.370            88.370  deg. F temperature 5 ( 102.180        102.180  deg. F temperature 6 ( 89.370            89.370  deg. F temperature 7 ( 92.980            92.980  deg. F temperature 8 ( 93.030            93.030  deg. F temperature 9 ( 93.190            93.190  deg. F temperature 10 ( 101.610        101.610  deg. F temperature 11 ( 109.590        109.590  deg. F temperature 12 ( 92.820          92.820  deg. F temperature 13 ( 93.140          93.140  deg. F temperature 14 ( 89.240          89.240  deg. F temperature 15 ( 77.970          77.970  deg. F temperature 16 ( 77.830          77.830  deg. F temperature 17 ( 77.890          77.890  deg. F temperature 18 ( 77.930          77.930  deg. F dewpoint 1      (    68.550      68.550  deg. F ,  0.3454 psia dewpoint 2          67.770      67.770  deg. F ,  0.3362 psia dewpoint 3      (    67.700      67.700  deg. F ,  0.3354 psia dewpoint 4          67.970      67.970  deg. F ,  0.3385 psia dewpoint 5      (    76.700      76.700  deg. F ,  0.4546 psia dewpoint 6      (    76.160      76.160  deg. F ,  0.4466 psia pressure 1      ( 49.5115        49.5115 psia pressure 2      ( 49.5188        49.5188 psia weighted averages, volume and  air  mass temperature            87.91650 deg. F pressure              49.51150 psia vapor pressure          0.38535 psia volume                    343040 cu. ft.
dry  air  mass        83067.83 ibm 57
 
C k
IP P
 
NNP-2 1991 ZLRT STABXLXZATION data set 20 time = 1945    date = 608 sensor            raw data          value temperature 1 ( 110.060          110.060  deg. F temperature 2      100.370      100.370  deg. F temperature 3        93.180      93.180  deg. F temperature 4        88.380      88.380  deg. F temperature 5 ( 102.230          102.230  deg. F temperature 6 ( 89.370            89.370  deg. F temperature 7 ( 93.020 )          93.020  deg. F temperature 8 ( 93.050 )          93.050  deg. F temperature 9        93.220      93.220  deg. F temperature 10 ( 101.660        101.660  deg. F temperature 11    109.610      109.610  deg. F temperature 12      92.840      92.840  deg. F temperature 13 ( 93.160          93.160  deg. F temperature 14 ( 89.230          89.230  deg. F temperature 15 ( 77.960          77.960  deg. F temperature 16 ( 77.830          77.830  deg. F temperature 17 ( 77.880          77.880  deg. F temperature 18 ( 77.920          77.920  deg. F dewpoint 1      (    68.600      68.600  deg. F , 0.3459 psia dewpoint 2      (    67.780      67.780  deg. F , 0.3363 psia dewpoint 3      (    67.810      67.810  deg. F I 0.3367 psia dewpoint 4      (    68.000      68.000  deg. F , 0.3389 psia dewpoint 5      (    76.670      76.670  deg. F , 0.4542 psia dewpoint 6      (    76.110      76.110  deg. F , 0.4458 psia pressure 1      ( 49.5117        49.5117 psia pressure 2      ( 49.5187        49.5187 psia weighted averages, volume and  air  mass temperature            87.92627 deg. F pressure                49.51170 psia vapor pressure          0.38544 psia volume                    343040 cu. ft.
dry air    mass        83066.52 ibm
 
ti WNP-2 1991 ILRT STABILIZATION data set 21 time = 2000    date = 608 sensor            raw data          value temperature 1 ( 110.080          110.080  deg. F temperature 2 ( 100.420          100.420  deg. F temperature 3 ( 93.210            93.210  deg. F temperature 4 ( 88.390            88.390  deg. F temperature 5 ( 102.270          102.270  deg. F temperature 6 ( 89.390            89.390  deg. F temperature 7 ( 93.000            93.000  deg. F temperature 8 ( 93.080            93.080  deg. F temperature 9 ( 93.230            93.230  deg. F temperature 10    101.700      101.700  deg. F temperature 11    109.630      109.630  deg. F temperature 12      92.840        92.840  deg. F temperature 13 ( 93.160            93.160  deg. F temperature 14 ( 89.210            89.210  deg. F temperature 15 ( 77.960            77.960  deg. F temperature 16 ( 77.820            77.820  deg. F temperature 17 ( 77.880            77.880  deg. F temperature 18 ( 77.920            77.920  deg. F dewpoint        (    68. 630      68.630  deg. F , 0.3463 psia dewpoint        (    67.850        67.850  deg. F , 0.3371 psia dewpoint        (    67.870        67.870  deg. F , 0.3374 psia dewpoint        (    68.030        68.030  deg. F , 0.3392 psia dewpoint            76.670        76.670  deg. F , 0.4542 psia dewpoint        (  76. 140        76.140  deg. F , 0.4463 psia pressure 1      ( 49.5119          49.5119 psia pressure 2      ( 49.5187          49.5187 psia weighted averages, volume and  air  mass temperature            87.93407 deg. F pressure                49.51190 psia vapor pressure          0.38588 psia volume                    343040 cu. ft.
dry  air  mass        83064.94 ibm 59
 
PRE-DATA REPORT title = WNP-2 1991   ILRT TYPE A TEST             volume =
leap year 343040
: no La = 0.5000 erature volume fractions   ( sum  = 1.0000  )
t( 1)=0".0265   t( 2)=0.0402 t( 3)=0.0398 t( 4)=0.0563 t( 5)=0.0402 t( 6)=0 0563 t( 7)=0 0398 t( 8) =0. 0398 t( 9) =0.0398 t(10)=0.0402 t(11)=0.0265 t(12)=0.0398 t (13) =0. 0398 t (14) =0. 0563 t(15)=0.1047
          ~              ~
t(16)=0 ~ 1047 t(17)=0.1047  t(18) =0. 1046 dewpoint volume fractions ( sum = 1.0000 )
dp( 1)=0.1194 dp( 2)=0.1737 dp( 3)=0.1688 dp( 4)=0.1194 dp( 5)=0.2094 dp( 6)=0.2093 pressure volume fractions ( sum = 1.0000 )
p( 1)=1.0000 p( 2)=0.0000 e
60
 
I f, WNP-2 1991 ILRT TYPE A TEST DATA  


==SUMMARY==
==SUMMARY==
REPORT time date temperature pressure vapor deg F psia
REPORT data  time  date  temperature    pressure      vapor  dry  air set                      deg F        psia  pressure      mass psia      ibm 1 2000                        49.5119    0.3859  83064.94 2 2015    608      87.9478    49.5119    0.3862  83062.36 3 2030    608      87.9590    49.5121    0.3864  83060.62 4 2045    608      87.9693    49.5129    0.3865  83060.28 5
6 2100 2115 608 608 '7.9341 87.9807 87.9885 49.5129 49.5131 0.3868 0.3872 83057.99 83056.47 7 2130    608      87.9979    49.5132    0.3874  83054.94 8 2145    608      88.0070


WNP-2 1991 ILRT T'ZPE A TEST data set 15 time=2330 date=608 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.500 (101.000 (93.420 (88.530 (102'60 (89.530 (93.250 (93.280 (93.470 (102.300 (110.050 (93.070 (93.390 (89.390 (77.880 (77.750 (77.800 (77.850 110.500 101.000 93.420 88.530 102'60 89.530 93.250 93.280 93.470 102.300 110.050 93.07,0 93.390 89.390 77.880 77.750 77.800 77.850 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F.deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 (69.180 (68.470 (68.380 (68.600 (76.'610 (76.060 69.180 deg.68.470 deg.68.380 deg.68.600 deg.76.610 deg.76.060 deg.F , 0.3529 F , 0.3444 F , 0.3433 F , 0'459 F , 0.4533 F , 0.4451 psia psia psia psia psia psia pressure pressure weighted 1 (49.5147 2 (49.5209 averages, volume temperature pressure vapor pressure volume dry air mass and 49.5147 psia 49.5209 psia air mass 88.07612 deg.F 49.51470 psia 0.38930 psia 343040 cu.ft.83042.35 ibm 76 U 1 l'E t WNP-2 1991 ILRT TYPE A TEST data set 16 time=2345 date=608 sensor temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 raw data (110.530 (101.050 (93.420 (88.540 (102.890 (89.530 (93.250 (93.300 (93.480 (102.330 (110.070 (93.090 (93.400 (89.390 (77.870 (77.750 (77.800 (77.840 value 110.530 101.050 93.420 88.540 102.890 89.530 93.250 93.300 93.480 102.330 110.070 93.090 93.400 89.390 77.870 77.750 77.800 77.840 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 (3 ((5 (6 (69.220)68.420)68.420)68.630)76.580')76.040)69.220 deg.68.420 deg.68.420 deg.68.630 deg.76.580 deg.76.040 deg.F , 0.3534 F , 0.3438 F , 0.3438 F , 0.3463 F , 0.4528 F , 0.4448 psia psia psia psia psia psia pressure pressure 1 (49.5149)2 (49.5210)weighted averages, volume and temperature pressure vapor pressure volume dry air mass 49.5149 psia 49.5210 psia air mass 88.08272 deg.F 49.51490 psia 0.38922 psia 343040 cu.ft.83041.82 ibm 77 fl l t l~1 l't WNP-2 1991 ZLRT TYPE A TEST data set 17 time=0 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.550 (101.090 (93.440 (88.560 (102.940)(89.540)(93.270)(93.320)(93.500)102.370 110'20)93.090 93.420)89.390 (77.870 (77.740 (77.790 (77.840 110.550 101.090 93.440 88.560 102.940 89.540 93.270 93.320 93.500 102.370 110.120 93.090 93.420 89.390 77.870 77.740 77.790 77.840 deg.F deg.F deg.F deg.F*deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.P dewpoint dewpoint dewpoint dewpoint.dewpoint dewpoint (69.270)(68'80 (68.470)(68.670)(76.570 (76'30 69.270 deg.68.480 deg.68.470 deg.68.670 deg.76.570 deg.76.030 deg.F I 0.3540 F , 0.3445 F , 0.3444 F , 0.3468 F , 0.4527 F , 0.4446 psia psia psia psia psia psia pressure pressure 1 (49.5148)2 (49.5210)49.5148 psia 49.5210 psia weighted averages, volume and temperature pressure vapor pressure volume dry air mass air mas's 88.09338 49.51480 0.38951 343040 83039.55 deg.F psia psia cu.ft.ibm 78 I ,1 WNP-2 1991 ZLRT TYPE A TEST data set 18 time=15 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.560 (101.110 (93.440 (88.550 102.970 89.540 (93.300 93.310 (93.500 (102.410 (110.160 (93.090 (93'10 89.400 77.850 77.730 77.770 77.810 110.560 101.110 93.440 88.550 102.970 89.540 93.300 93.310 93.500 102.410 110.160 93.090 93.410 89.400 77.850 77.730 77.770 77.810 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure weighted (69~260 (68.500 (68.480 (68.670 (76.560 (75.990 1 (49.5151 2 (49.5210 averages, volume and 69.260 deg.68.500 deg.68.480 deg.68.670 deg.76.560 deg.75.990 deg.49.5151 psia 49.5210 psia air mass F , 0.3539 F , 0.3448 F , 0.3445 F , 0.3468 F , 0.4525 F , 0.4441, psia psia psia psia psia psia temperature pressure vapor pressure volume dry air mass 88.09033 deg.F 49.51510 psia 0.38940 psia 343040 cu.ft.83040.70 ibm 79 0 P 4 Jl WNP-2 1991 ZLRT TYPE A TEST data set 19 time=30 date=609 sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (110.590)101.160)93.470)88.550 103.010)89.560)93.320)93.330 93.510)102.470)110.170 93.130)93.450)89.430)77.870 77.740)77.790)77.830 110.590 101.160 93.470 88.550 103.010 89.560 93.320 93.330 93.510 102.470 110.170 93.130 93.450 89.430 77.870 77.740 77.790 77.830 deg~degas deg deg degas degas degas degas deg degas degas degas deg degas degas degas deg.deg~F F F F F F F F F F F F F F F F F F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 (6 (69.330)68.560)68.510)68.750)76.600)76'10 69.330 deg.68.560 deg.68.510 deg.68.750 deg.76.600 deg.76.010 deg.F , 0.3547 F , 0.3455 F , 0.3449 F , 0.3477 F , 0'531 F i 0.4443 psia psia psia psia psia psia pressure pressure 1 (49.5152)2 (49.5211)49.5152 psia 49.5211 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.11395 deg.F 49.51520 psia 0.38999 psia 343040 cu.ft.83036.30 ibm 80 1~f WNP-2 1991 ILRT TYPE A TEST data set 20 time=45 date=609 sensor raw data value temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature 110.190)93.130)93.460)89.390)77.850)77.730)77.770 77.820 11 (12 (13 (14'(15 (16 (17 (18 (1 (110'610 2 (101.210 3 (93.490 4 (88'70)5 (103.040)6 (89.560)7 (93.290)8 (93'40)9 (93.550)10 (102.490)110-610 101.210 93.490 88.570 103.040 89.560 93.290 93.340 93.550 102.490 110'90 93.130 93.460 89.390 77.850 77.730 77.770 77.820 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (69.370)(68.630)(68.580)(68.770)(76.590)(76.020)69.370 deg.68.630 deg.68.580 deg.68.770 deg.76.590 deg.76.020 deg.F , 0.3552 F , 0.3463 F , 0.3457 F , 0.3480 F , 0.4530 F , 0.4445 psia psia psia psia psia psia pressure pressure 1 (49.5148)2 (49.5206)49.5148 psia 49.5206 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.11360 deg.F 49.51480 psia 0.39036 psia 343040 cu.ft.83035.05 ibm 81
WNP-2 1991 XLRT TYPE A TEST data set 30 time = 315    date = 609 sensor             raw data           value temperature 1 ( 110.850 )        110.850   deg. F temperature 2 ( 101.590 )        101.590    deg. F temperature 3 ( 93.630 )          93.630  deg. F temperature 4 ( 88.660 )          88.660  deg. F temperature 5 ( 103.430 )        103.430    deg. F temperature 6 ( 89.630            89.630  deg. F temperature 7 ( 93.470 )          93.470   deg. F temperature 8 ( 93.480 )          93.480   deg. F temperature 9 ( 93.690            93.690  deg. F temperature 10 ( 102.890 )      102.890    deg. F temperature 11 ( 110.430 )       110.430    deg. F temperature 12 ( 93.250 )         93.250  deg. F temperature 13 ( 93.600 )         93.600  deg. F temperature 14 ( 89.530 )         89.530  deg. F temperature 1S ( 77.800 )          77.800  deg. F temperature 16 ( 77.710 )         77.710  deg. F temperature 17 ( 77.730 )         77.730  deg. F temperature 18 ( 77.770           77.770   deg. F dewpoint        (  69.760 )      69.760 deg F   , 0.3600 psia dewpoint       ( 68.990 )        68.990 degas F , 0.3506 psia dewpoint       (   68.930 )       68.930 degas F , 0.3499 psia dewpoint        ( 69.160 )         69.160 deg F   , 0.3527 psia dewpoint       (   76.500 )       76.500 degas F , 0.4516 psia dewpoint        (  75.910  )      75.910 deg F   , 0.4429 psia pressure 1     ( 49.5165 )       49.516S psia pressure 2     ( 49.5226 )       49.5226 psia weighted averages, volume and   air mass temperature             88.20773 deg. F pressure                49.51650 psia vapor pressure          0.39231 psia volume air 343040 cu. ft.
dry      mass          83020.35 ibm 91


WNP-2 1991 ILRT TYPE A TEST data set 21 time=100 date=609 sensor raw data value temperature 1{temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10{temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (110.660)101.240 93.510 88.580 103.090 89.570 93.350 93.370 93.550 102.530 110.200 93.140 93.470 89.440 77.840 77.720 77.770 77.810 110.660 101.240 93.510 88.580 103.090 89.570 93.350 93.370 93.550 102.530 110.200 93.140 93.470 89.440 77.840 77.720 77.770 77.810 deg.F deg.F degas F deg.F deg.F degas F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6)))(69.420)68.670)68.630)68'20 76.580 (76.010 69.420 deg.68.670 deg.68.630 deg.68.820 deg.76.580 deg.76.010 deg.F , 0.3558 F , 0.3468 F , 0.3463 F , 0 3486 F , 0.4528 F , 0.4443 psia psia psia psia psia psia pressure pressure 1 (49-5155)2 (49.5214)49.5155 psia 49.5214 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.1259S 49.51550 0.39062 343040 83033.91 deg.F psia psia cu.ft.ibm 82
II WNP-2 1991 ZLRT TYPE A TEST data set 31 time = 330      date = 609 sensor             raw data         value temperature 1 ( 110.870 )        110. 870  deg. F temperature 2 ( 101.620 )        101.620    deg. F temperature 3 ( 93.640 )            93.640  deg. F temperature 4 ( 88.660 )           88.660  deg. F temperature 5      103.460 )    103.460    deg. F temperature 6        89.640 )      89.640  deg. F temperature 7        93.450 )      93.450  deg. F temperature 8 ( 93.510 )            93.510  deg. F temperature 9 ( 93.690 )            93.690  deg. F temperature 10 ( 102.920 )        102.920    deg. F temperature 11 ( 110.430 )        110.430    deg. F temperature 12 ( 93.270 )          93.270  deg. F temperature 13 ( 93.590 )          93.590  deg. F temperature 14 ( 89.510            89.510  deg. F temperature 15 ( 77.800 )          77.800  deg. F temperature 16 ( 77.700 )          77.700  deg. F temperature 17 ( 77.730 )          77.730  deg. F temperature 18      77.770        77.770  deg. F dewpoint 1      (  69.810 )      69.810  deg. F , 0.3606 psia dewpoint 2      (  69.010 )      69.010  deg. F , 0.3508 psia dewpoint3     (   68.990  )     68.990  deg. F , 0.3506 psia dewpoint;  4    (   69.190  )      69.190  deg. F , 0.3530 psia dewpoint  5    (  76.500  )      76.500  deg. F , 0.4516 psia dewpoint  6    (  75.930        75.930  deg. F , 0.4432 psia pressure 1       ( 49.5159 )       49.5159 psia pressure 2       ( 49.5226 )       49.5226 psia weighted averages, volume and   air mass temperature             88.21146 deg. F pressure                49.51590 psia vapor pressure          0.39266 psia volume air 343040 cu. ft.
dry      mass          83018.19 ibm 92


WNP-2 1991 ZLRT TYPE A TEST data set 22 time=115 date=609 sensor raw data value temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature
I NNP-2 1991 ILRT TYPE A TEST data set 32 time = 345    date = 609 sensor             raw data           value temperature 1 ( 110,.890          110.890 deg. F temperature 2 ( 101.650           101.650 deg. F temperature 3 ( 93.630              93.630 deg. F temperature 4 ( 88.670              88.670 deg. F temperature 5 ( 103 '00           103.500 deg. F temperature 6 ( 89.650              89.650 deg. F temperature 7 ( 93.470 )           93.470 deg. F temperature 8 ( 93.510 )           93.510 deg. F temperature 9 ( 93.710 )           93.710 deg. F temperature 10 ( 102.950 )       102.950 deg. F temperature 11 ( 110.450 )       110.450 deg. F temperature 12 ( 93.280            93.280 deg. F temperature 13 ( 93.610             93.610 deg. F temperature 14 ( 89.540            89.540 deg. F temperature 15 ( 77.800             77.800 deg. F temperature 16 ( 77.690            77.690 deg. F temperature 17 ( 77.730            77.730 deg. F temperature 18 ( 77.770            77.770 deg. F dewpoint       (   69.840 )       69.840 deg. F , 0.3609 psia dewpoint       (   69.050 )       69.050 deg. F , 0.3513 psia dewpoint           69.030 )       69.030 deg. F , 0.3511 psia dewpoint            69.230 )       69.230 deg. F , 0.3535 psia dewpoint           76.510 )       76.510 deg. F , 0 '518 psia dewpoint       (   75.920 )       75.920 deg. F , 0.4430 psia pressure 1     ( 49.5166 )         49.5166 psia pressure 2     ( 49.5227  )       49.5227 psia weighted averages, volume and azr mass temperature             88.22069 deg. F pressure                49.51660 psia vapor pressure            0.39292 psia volume                      343040 cu. ft.
'5 (6 (7 (8 (9 (10 (11 (12 (13 (14 (15 (16 (17 (18 (103.130)89.580)93.330)93.370)93.570)102.570)110.190)93.150 93.480)89.410)77.840)77.720)77.770)77.810)1 (110.670)2 (101.290)3 (93'20)4 (88.590)110.670 101.290 93.520 88.590 103.130 89.580 93.330 93.370 93.570 102.570 110.190 93.150 93.480 89'10 77.840 77.720 77.770 77.810 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 (69.450)(68.690)(68.650)(68.840)(76.570)(75.980 69.450 deg.68.690 deg.68.650 deg.68.840 deg.76.570 deg.75.980 deg.F , 0.3562 F , 0.3470 F , 0.3465 F , 0.3488 F , 0.4527 F , 0.4439 psia psia psia psia psia psia pressure pressure 1 (49.5151)2 (49.5216)49.5151 psia 49.5216 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.13185 deg.F 49.51510 psia 0.39065 psia.343040 cu.ft.83032.29 ibm 83 i v~wC WNP-2 1991 ILRT TYPE A TEST data set 23 time=130 date=609 sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15{temperature 16 (temperature 17 (temperature 18 (110.700 101.320 93.530 88.590)103.170)89.580)93.360)93.390)93.580 102.610 110.240 93.170 93'00 89.440 77.840 77.720 77.760 77.800 110.700 101.320 93.530 88.590 103.170 89.580 93.360 93.390 93.580 102.610 110.240 93.170 93.500 89.440 77.840 77.720 77.760 77.800 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 69.500)68.740)68.690)68.900)76.590)75.980)69.500 deg.68.740 deg.68.690 deg.68.900 deg.76.590 deg.75.980 deg.F, 0.3568 F , 0.3476 F , 0.3470 F , 0.3495 F , 0.4530 F , 0.4439 psia psia psia psia psia psia pressure pressure 1 (49.5155)2 (49'219)49.5155 psia 49.5219 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.14236 deg.F 49.51550 psia 0.39106 psia 343040 cu.ft.83030.69 ibm 84 f'I 1 I C WNP-2 1991 ZLRT TYPE A TEST data set 24 0ime=145 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110'10)101.360)93.540)88.600 103.210)89.590)93.370)(93.410 (93.600)(102.660)(110.300 (93.170)(93.510)(89.440)(77.830 (77.710)(77.760)(77.800)110.710 101.360 93.540 88.600 103.210 89.590 93.370 93.410 93.600 102.660 110.300 93.170 93.510 89.440 77.830 77.710 77.760 77.800 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (69.530)(68.780)(68.750)68.920)(76.570)(75.970)69.530 deg.68.780 deg.68.750 deg.68.920 deg.76.570 deg.75.970 deg.F, 0.3571 F , 0.3481 F , 0.3477 F , 0.3498 F , 0.4527 F , 0.4438 psia psia psia psia psia psia pressure pressure 1 (49.5157)2 (49.5220)49.5157 psia 49.5220 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.15126 deg.F 49.51570 psia 0.39124 psia 343040 cu.ft.83029.37 ibm 85 P/'%rl WNP-2 1991 ILRT TYPE A TEST data set 25 time=200 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.730 (101.390 (93.560 (88.610 (103.240 (89.590 (93.380 (93.420 (93.610 (102.690 (110.330 (93.200 (93.520 (89.480 (77.830 (77.710 (77.750 (77.790 110.730 101.390 93.560 88.610 103.240 89.590 93.380 93.420 93.610 102.690 110.330 93'00 93.520 89.480 77.830 77.710 77.750 77.790 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 (3 (4 (C 6 (69.570 68.780 68.760 68.960 76.560 75.940 69.570 deg.68.780 deg.68.760 deg.68.960 deg.76.560 deg.75.940 deg.F , 0.3576 F , 0.3481 F , 0.3479 F , 0.3502 F , 0.4525 F , 0.4433 psia psia psia psia psia psia pressure pressure weighted 1 (49.5157 2 (49.5220 averages, volume temperature pressure vapor pressure volume dry air mass and 49.5157 psia 49.5220 psia air mass 88.16051 deg.F 49.51570 psia 0.39125 psia 343040 cu.ft.83027.95 ibm 86 F I I'p RNP-2 1991 ILRT TYPE A TEST data set 26 time=215 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12'temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.740 (101.440 (93.580 (88.610 (103.270 8'9.600 93.390)93.430)(93.630 (102.730 110.320 93.210 93.530 89.480 77.830 77.710 77.750 (77.790 110.740 101.440 93.580 88.610 103.270 89.600 93.390 93.430 93.630 102.730 110.320 93.210 93.530 89.480 77.830 77.710 77.750 77.790 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 (69.590)(68.810)(68.800)(69.010)(76.560)(75.940 69.590 deg.68.810 deg.68.800 deg.69.010 deg.76.560 deg.75.940 deg.F , 0.3579 F , 0.3485 F , 0.3483 F , 0.3508 F , 0.4525 F , 0.4433 psia psia psia psia psia psia pressure pressure 1 (49.5160)2 (49.5222)49.5160 psia 49.5222 psia weighted averages<volume and air mass temperature pressure vapor pressure volume dry air mass 88.16908 deg.F 49.51600 psia 0.39149 psia 343040 cu.ft.83026.74 ibm 87 WNP-2 1991 XLRT TYPE A TEST data set 27 time=230 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.770)(101.470 (93.580 (88.640 (103.320 (89.620 (93.400 (93.440 (93.650 (102.770 (110.330 (93.220 (93.550 (89.480 (77.820 (77.720 (77.740 (77.790 110.770 101.470 93.580 88.640 103.320 89.620 93.400 93.440 93.650 102.770 110.330 93.220 93.550 89.480 77.820 77.720 77.740 77.790 deg.P deg.F deg.F deg.F deg.F deg.F deg.F deg.P deg.F deg.F deg.F deg.F deg.F deg.P deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure (69.640)(68.860)(68.830)(69.040)(76.530)(75.940)1 (49.5158)2 (49.5223)69.640 deg.68.860 deg.68.830 deg.69.040 deg.76.530 deg.75.940 deg.49.5158 psia 49.5223 psia F , 0.3585 P , 0.3490 F , 0.3487 F I'.3512 F , 0.4521 F , 0.4433 psia psia psia psia psia psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.17952 deg.F 49.51580 psia 0.39168 psia 343040 cu.ft.83024.51 ibm 88 WNP-2 1991 ZLRT TYPE A TEST data set 28 time=245 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.810 (101.500 (93.580 (88.640 (103.350 (89.630 (93.420 (93.460 (93.650 (102.800 (110.360 (93.230 (93.570 (89.510 (77.820 (77.710 (77.740 (77.780 110.810 101.500 93.580 88.640 103.350 89.630 93.420 93.460 93.650 102.800 110.360 93.230 93.570 89.510 77.820 77.710 77.740 77.780 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure weighted (69.680 (68.870 (68.910 (69.090 (76.530 (75.940 1 (49.5160 2 (49.5224 averages, volume and 69.680 deg.68.870 deg.68.910 deg.69.090 deg.76.530 deg.75.940 deg.49.5160 psia 49.5224 psia air mass F , 0.3590 F , 0.3492 F , 0.3496 F , 0.3518 F , 0.4521 F , 0.4433 psia psia psia psia psia psia temperature pressure vapor pressure volume dry air mass 88.18794 deg.F 49.51600 psia 0.39199 psia 343040 cu.ft.83023.04 ibm 89 I IP ,a I'I I re WNP-2 1991 ILRT TYPE A TEST data set 29 time=300 date=609 sensor raw data value temperature 1 temperatur'e 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.840 (101.550 (93.620 (88.640 (103.390 (89.620 (93.440 (93.460 (93.660)(102.840)(110.430)(93.250 (93.580 (89.510 (77.800 (77.710 (77.740 (77.780 110.840 101.550 93.620 88.640 103.390 89.620 93.440 93.460 93.660 102.840 110.430 93.250 93.580 89.510 77.800 77.710 77.740 77.780 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (69.720)(68.950)(68.930)(69.120)(76.480)(75.910)69.720 deg.68.950 deg.68.930 deg.69.120 deg.76.480 deg.75.910 deg.F , 0.3595 F , 0.3501 F , 0.3499 F , 0.3522 F , 0.4513 F , 0.4429 psia psia psia psia psia psia pressure pressure 1 (49.5159)2 (49.5225)49.5159 psia 49.5225 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.19714 49.51590 0.39205 343040 83021.38 deg.F psia psia cu.ft.ibm 90 4 C e P~~r I WNP-2 1991 XLRT TYPE A TEST data set 30 time=315 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 1S temperature 16 temperature 17 temperature 18 (110.850)(101.590)(93.630)(88.660)(103.430)(89.630 (93.470)(93.480)(93.690 (102.890)(110.430)(93.250)(93.600)(89.530)(77.800)(77.710)(77.730)(77.770 110.850 101.590 93.630 88.660 103.430 89.630 93.470 93.480 93.690 102.890 110.430 93.250 93.600 89.530 77.800 77.710 77.730 77.770 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (69.760)(68.990)(68.930)(69.160)(76.500)(75.910)69.760 68.990 68.930 69.160 76.500 75.910 deg degas degas deg degas deg F , 0.3600 F , 0.3506 F , 0.3499 F , 0.3527 F , 0.4516 F , 0.4429 psia psia psia psia psia psia pressure pressure 1 (49.5165)2 (49.5226)49.516S psia 49.5226 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.20773 49.51650 0.39231 343040 83020.35 deg.F psia psia cu.ft.ibm 91 II WNP-2 1991 ZLRT TYPE A TEST data set 31 time=330 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110.870)(101.620)(93.640)(88.660)103.460)89.640)93.450)(93.510)(93.690)(102.920)(110.430)(93.270)(93.590)(89.510 (77.800)(77.700)(77.730)77.770 110.870 101.620 93.640 88.660 103.460 89.640 93.450 93.510 93.690 102.920 110.430 93.270 93.590 89.510 77.800 77.700 77.730 77.770 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint: dewpoint;dewpoint dewpoint 1 (2 (3 (4 (5 (6 (69.810)69.010)68.990)69.190)76.500)75.930 69.810 deg.69.010 deg.68.990 deg.69.190 deg.76.500 deg.75.930 deg.F , 0.3606 F , 0.3508 F , 0.3506 F , 0.3530 F , 0.4516 F , 0.4432 psia psia psia psia psia psia pressure pressure 1 (49.5159)2 (49.5226)49.5159 psia 49.5226 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.21146 deg.F 49.51590 psia 0.39266 psia 343040 cu.ft.83018.19 ibm 92 I
dry  air mass          83017.53 ibm 93
NNP-2 1991 ILRT TYPE A TEST data set 32 time=345 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (110,.890 (101.650 (93.630 (88.670 (103'00 (89.650 (93.470)(93.510)(93.710)(102.950)(110.450)(93.280 (93.610 (89.540 (77.800 (77.690 (77.730 (77.770 110.890 101.650 93.630 88.670 103.500 89.650 93.470 93.510 93.710 102.950 110.450 93.280 93.610 89.540 77.800 77.690 77.730 77.770 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure (69.840)(69.050)69.030)69.230)76.510)(75.920)1 (49.5166)2 (49.5227)69.840 deg.69.050 deg.69.030 deg.69.230 deg.76.510 deg.75.920 deg.49.5166 psia 49.5227 psia F , 0.3609 F , 0.3513 F , 0.3511 F , 0.3535 F , 0'518 F , 0.4430 psia psia psia psia psia psia weighted averages, volume and temperature pressure vapor pressure volume dry air mass azr mass 88.22069 deg.F 49.51660 psia 0.39292 psia 343040 cu.ft.83017.53 ibm 93
~r WNP-2 1991 ILRT TYPE A TEST data set, 33 time=400 date=609 sensor raw data value temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature 6 (7 (8 (9 (10 (ll{12 (13 (14 (15 (16 (17 (18 (89.650)93'90)93.530)93.730)103.000)110.500 93.300 , 93.630)89.510;77.800 77.710 77.720 77.770 1 (110.900)2 (101.720)3 (93.670)4 (88.690)5 (103'40)110.900 101.720 93.670 88.690 103.540 89.650 93.490 93.530 93.730 103.000 110.500 93.300 93.630 89.510 77.800 77.710 77.720 77.770 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 (3{4 (5 ((69.870)69.090)69.060)69.270)76.480)75.910)69.69.69.69.76.75.870 deg.F 090 deg.F 060 deg.F 270 deg.F 480 deg.F 910 deg.F 0.3613 0.3518 0.3514 0.3540 0'513 0.4429 psia psia psia psia psia psia pressure pressure 1 (49.5166)2 (49.5228)49.5166 psia 49.5228 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.23477 deg.F 49.51660 psia 0.39305 psia 343040 cu.ft.83015.19 ibm 94


PRE-DATA REPORT volume=343040 leap year: no title=NNP-2 1991 ILRT VERZFICATXON perature volume fractions (sum=1.0000)t(1)=0.0265 t(2)=0~0402 t(3)=0.0398 t(4)=0.0563 t(6)=0.0563 t(7)=0.0398 t(8)=0.0398 t(9)=0.0398 t(11)=0.0265 t(12)=0.0398 t(13)=0.0398 t(14)=0.0563 t(16)=0.1047 t(17)=0~1047 t(18)=0.1046 t(5)=0.0402 t(10)=0.0402 t(15)=0.1047 dewpoint volume fractions (sum=1.0000)dp (1)=0.1194 dp (2)=0.1737 dp (3)=0.1688 dp (4)=0.1194 dp (5)=0.2094 dp (6)=0.2093 pressure volume fractions (sum=1.0000)p(1)=1.0000 p(2)=0.0000 La=0.5000 95 WNP-2 1991 ILRT UERIFICATION DATA  
~ r WNP-2 1991 ILRT TYPE A TEST data set, 33 time = 400      date =  609 sensor            raw data          value temperature 1 ( 110.900 )        110.900  deg. F temperature 2 ( 101.720 )        101.720  deg. F temperature 3 ( 93.670 )          93.670  deg. F temperature 4 ( 88.690 )          88.690  deg. F temperature 5 ( 103 '40 )        103.540  deg. F temperature 6 ( 89.650 )          89.650  deg. F temperature 7 ( 93 '90 )          93.490  deg. F temperature 8 ( 93.530 )          93.530  deg. F temperature 9 ( 93.730 )          93.730  deg. F temperature 10 ( 103.000 )        103.000  deg.
temperature  ll  { 110.500 temperature 12 ( 93.300 110.500 93.300 deg.
deg.
F F
F temperature 13 ( , 93.630 )        93.630  deg. F temperature 14 ( 89.510            89.510  deg. F temperature 15 ( ;77.800          77.800  deg. F temperature 16 ( 77.710            77.710  deg. F temperature 17 ( 77.720            77.720  deg. F temperature 18 ( 77.770            77.770  deg. F dewpoint 1      (  69. 870 )      69. 870 deg. F    0. 3613 psia dewpoint 2      (  69.090 )      69. 090 deg. F    0.3518  psia dewpoint 3      {  69.060 )      69. 060 deg. F    0.3514  psia dewpoint 4      (  69.270  )    69. 270 deg. F    0.3540  psia dewpoint 5      (  76.480 )      76. 480 deg. F    0 '513 psia dewpoint        ( 75.910 )        75. 910 deg. F    0.4429 psia pressure 1      ( 49.5166 )      49.5166 psia pressure 2      ( 49.5228 )      49.5228 psia weighted averages, volume and  air  mass temperature            88.23477 deg. F pressure              49.51660 psia vapor pressure          0.39305 psia volume                    343040 cu. ft.
dry air mass          83015. 19 ibm 94
 
PRE-DATA REPORT title = NNP-2   1991 ILRT VERZFICATXON                     volume =
leap year 343040
: no La = 0.5000 perature   volume fractions ( sum = 1.0000       )
t( 1)=0.0265     t( 2)=0 0402 t( 3)=0.0398 t( 4)=0.0563 t( 5) =0. 0402 t( 8)=0.0398 t( 9)=0.0398 t(10)=0.0402
                          ~
t( 6)=0.0563 t(     7)=0.0398 t(11)=0.0265 t(12)=0.0398 t(13)=0.0398 t(14)=0.0563 t(15)=0.1047 t(16)=0.1047 t(17)=0 1047 ~      t(18)=0.1046 dewpoint volume fractions (       sum =   1.0000 )
dp ( 1) =0. 1194 dp ( 2) =0. 1737 dp ( 3) =0. 1688 dp ( 4) =0. 1194 dp ( 5) =0. 2094 dp ( 6) =0. 2093 pressure volume fractions ( sum = 1.0000 )
p( 1)=1.0000 p( 2)=0.0000 95
 
WNP-2 1991 ILRT UERIFICATION DATA  


==SUMMARY==
==SUMMARY==
REPORT data time date temperature set deg F pressure psia vapor pressure psia dry air mass ibm 1 515 609 2 530 609 3 545 609 4 600 609 5 615 609 6 630 609 7 645 609 8 700 609 9 715 609 10 730 609 11 745 609 12 800 609 13, 815 609 14 830 609 15 845 609 16 900 609 17 915 609 88.2693 88.2729 88.2852 88.2932 88.2952 88.3026 88.3130 88'150 88'176 88.3299 88'408 88.3335 88.3528 88.3532 88'671 88.3663 88.3582 49.5055 49.5032 49.5010 49.4985 49.4957 49.4938.49.4908 49.4887 49.4860 49.4837 49.4816 49.4788 49.4765 49.4740 49.4715 49.4689 49.4666 0.3942 0.3944 0.3945 0.3948 0.3950 0.3953 0.3953 0.3956 0.3957 0.3957 0.3962 0.3964 0.3966 0.3971 0.3971 0.3972 0.3975 82989.17 82984.48 82978.81 82972.83 82967.41 82962.64 82955.97 82951.66 82946.39 82940.62 82934.65 82930.66 82923.56 82918.37 82912.14 82907.68 82904.48 96 sA e\r-: t kI WNP-2 1991 ILRT VERIFICATION data set 1 time=515 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature S temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 1S temperature 16 temperature 17 temperature 18 (110.990 (101.870 (93.730 (88.710 (103.700 (89.680 (93.590 (93.580 (93.770 (103.170 (110.590 (93.360 (93.690 (89.570 (77.770 (77.690 (77.700 (77.740 110.990 101.870 93.730 88.710 103.700 89.680 93.590 93.580 93.770 103.170 110.590 93.360 93.690 89.570 77.770 77.690 77.700 77.740 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure (70.060)(69.310 (69.240)(69.440 (76.450 (75.890)1 (49.5055)2 (49.5121)70.060 deg.69.310 deg.69.240 deg.69.440 deg.76.450 deg.75.890 deg.49.5055 psia 49.5121 psia F, 0.3637, F , 0.354S F , 0.3536 F , 0.3560 F , 0.4509 F , 0.4426 psia psia psia psia psia psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.26929 49.50550 0.39425 343040 82989.17 deg.F psia psia cu.ft.ibm 97 WNP-2 1991 ILRT VERIFICATION data set 2 time=530 date=609 sensor raw data e value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (111.000)(101 910)(93'40)(88.720)103.730)89.690)93.590)93.600)93.800)103'00)110'80)93.360)(, 93.670)89.570)(77.760 (77.680 (77.700 (77.730 111.000 101.910 93.740 88.720 103.730 89.690 93.590 93.600 93.800 103.200 110.580 93.360 93.670 89.570 77.760 77.680 77.700 77.730 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (70~080)(69-310)(69~310)(69~490)(76.420)(75.890 70.080 deg.69.310 deg.69.310 deg.69.490 deg.76.420 deg.75.890 deg.F , 0.3639 F , 0.3545 F , 0.3545 F , 0.3567 F , 0.4504 F , 0.4426 psia psia psia psia psia psia pressure pressure 1 (49.5032)2 (49.5098)49.5032 psia~49.5098 psia weighted averages, volume and air mass ,temperature pressure vapor pressure volume dry air mass 88.27290 deg.F 49.50320 psia 0.39440 psia 343040 cu.ft.82984.48 ibm 98 I I'i~
REPORT data time date temperature   pressure      vapor  dry  air set                   deg F         psia pressure     mass psia       ibm 1   515 609     88.2693     49.5055     0.3942 82989.17 2   530 609     88.2729    49.5032     0.3944  82984.48 3   545 609     88.2852    49.5010     0.3945  82978.81 4   600 609     88.2932    49.4985    0.3948  82972.83 5    615  609    88.2952    49.4957    0.3950  82967.41 6  630 609    88.3026    49.4938    0.3953  82962.64 7   645  609    88.3130    .49.4908    0.3953  82955.97 8    700  609    88 '150     49.4887    0.3956  82951.66 9    715  609    88 '176    49.4860    0.3957  82946.39 10    730  609    88.3299    49.4837    0.3957  82940.62 11    745  609     88 '408    49.4816    0.3962  82934.65 12    800  609    88.3335    49.4788    0.3964  82930.66 13,   815  609    88.3528    49.4765    0.3966  82923.56 14    830  609     88.3532    49.4740    0.3971  82918.37 15    845  609    88 '671    49.4715    0.3971  82912.14 16    900  609    88.3663    49.4689    0.3972  82907.68 17    915  609    88.3582     49.4666    0.3975  82904.48 96
WNP-2 1991 XLRT VERIFICATION data set 3 time=545 date=609 sensor temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (raw data 111.020)101.950)93.760)88.730)103.780)89.710)93.570)93.600)93.820)103.240)110.610)93.370)93.700)89.600 77.770)77.680)77.690.)77.730 value 111.020 deg.F , 101.950 deg.F 93.760 deg.F 88.730 deg.F 103.780 deg.F 89.710 deg.F 93.570 deg.F 93.600 deg.F 93.820 deg.F 103.240 deg.F 110.610 deg.F 93.370 deg.F 93.700 deg.F 89.600 deg.F 77.770 deg.F 77.680 deg.F 77.690 deg.F 77.730 deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 (3 (4 (5 (6 (70.120 69.350 69.350 69.500 76.390 75.860 70.120 deg.69.350 deg.69.350 deg.69.500 deg.76.390 deg.75.860 deg.F , 0.3644 F , 0.3S50 F , 0.3550 F , 0.3S68 F , 0.4500 F , 0.4421 psia psia psia psia psia psia pressure pressure 1 (49.5010 2 (49.5072 49.5010 psia 49.5072 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.28520 deg.F 49.50100 psia 0.39445 psia 343040 cu.ft.82978.81 ibm I k I 4 II NNP-2 1991 ILRT VERIFICATION data set 4 time=600 date=609 sensor raw data value temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature 89.700)93.610)93.620)93.830)103.270)110.650)93.380)93'10)89.630)77.750)77.680)77.690)77.730 6 (7 (8 (9 (10 (11 (12 (13 (14 (15 (16 (17 (18 (1 (111.060)2 (101.970)3 (93.760)4 (88.730)5 (103.810)111.060 101.970 93.760 88.,730 103.810 89.700 93.610 93.620 93'30 103'70 110.650 93.380 93.710 89.630 77.750 77.680 77.690 77.730 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 (3 (4 (5 (6 (70.150)69.370)69.370)69.550)76.410)75.880 70.150 deg.69.370 deg.69.370 deg.69.550 deg.76.410 deg.75.880 deg.F, 0.3648 F , 0.3552 F , 0.3552 F , 0.3574 F , 0.4503 F , 0.4424 psia psia psia psia psia psia pressure pressure 1 (49.4985)2 (49.5047)49.4985 psia 49.5047 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.29315 deg.F 49.49850 psia 0.39478 psia 343040 cu.ft.82972.83 ibm 100 S
WNP-2 1991 ILRT VERIFICATION data set 5 time=615 date=609 sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (111.060)102.000)93.790)88.740)103.840)89.700)93.600)93.620)93.830)103.310)110.670)93.380)93.710)89.580 77.760)77.670)77.690)77.720 111.060 102.000 93.790 88.740 103.840 89.700 93.600 93.620 93.830 103.310 110.670 93.380 93.710 89.580 77.760 77.670 77.690 77.720 deg.F deg.'F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (70.190)(69.400 (69.370)(69.580)(76.430)(75.880)70.190 deg.69.400 deg.69.370 deg.69.580 deg.76.430 deg.75.880 deg.F, 0.3653 F , 0.3556 F , 0.3552 F , 0.3578 F , 0.4506 F , 0.4424 psia psia psia psia psia psia=-pressure pressure 1 (49.4957)2 (49'022)49.4957 psia 49.5022 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.29519 deg.F 49.49570 psia 0.39500 psia 343040 cu.ft.82967.41 ibm 101 I I data set 6 WNP-2 1/91 ILRT VERIFICATION time=630 date=609 sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (111.090)102.040)93.770)88.750)103.870)89'10)93.620)93.630)93.830)103'40)110.660)93.390)93.730)89.620 77.750)77.670)77.680)77.720 111.090 102.040 93.770 88.750 103.870 89'10 93.620 93.630 93.830 103.340 110.660 93.390 93.730 89.620 77.750 77.670 77.680 77.720 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure (70.210)(69.500)(69.440)(69.620)(76.390)(75.860 1 (49.4938)2 (49.4990)70.210 deg.69.500 deg.69.440 deg.69.620 deg.76.390 deg.75.860 deg.49.4938 psia 49.4990 psia F , 0.3655 F , 0.3568 F , 0.3560 F , 0.3582 F , 0.4500 F , 0.4421 psia psia psia psia psia psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.30263 deg.F 49.49380 psia 0.39526 psia 343040 cu.ft.82962.64 ibm 102


WNP-2 1991 ELRT VEREFECATEON data set 7 time=645 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (111.090 (102.080 (93.780)(88.750 (103.910)(89.720)(93.630 93.650)93.850 103.380)(110.680 (93.400 (93'30 (89.650 (77.750 (77.670 (77.680 (77.720 111.090 102.080 93.780 88.750 103.910 89.720 93.630 93.650 93.850 103.380 110.680 93.400 93.730 89.650 77.750 77.670 77.680 77.720 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (70.260)(69.470)(69.450)(69.670)(76.370)(75.850 70.260 deg.69.470 deg.69.450 deg.69.670 deg.76.370 deg.75.850 deg.F , 0.3662 F , 0.3S64 F , 0.3562 F , 0.3S89 F , 0.4497 F , 0.4420 psia psia psia psia psia psia pressure pressure 1 (49.4908)2 (49.4972)49.4908 psia 49.4972 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.31302 deg.F 49.49080 psia 0.39527 psia 343040 cu.ft.829S5.97 ibm 103 I I WNP-2 1991 data set 8 time=700 date=609 ZLRT VERIFICATION sensor raw data value temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (111.110 102.110 93.800 88.760 103.940 89.720 93.620 93.670 93.860 103.410 110.690 93.410 93.750 89.640 77.740 77.670 77.660 77.700 111.110 102.110 93.800 88.760 103.940 89.720 93.620 93.670 93.860 103'10 110.690 93.410 93.750 89.640 77.740 77.670 77.660 77.700 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure weighted (70.280 (69.540 (69.470 (69.690 (76.360 (75.870 1 (49.4887 2 (49.4946 averages, volume and 70.280 deg.69.540 deg.69.470 deg.69.690 deg.76.360 deg.75.870 deg.49.4887 psia 49.4946 psia air mass F , 0.3664 F , 0.3573 F , 0.3564 F , 0.3591 F , 0.4495 F , 0.4423 psia psia psia psia psia psia temperature pressure vapor pressure volume dry air mass 88.31498 deg.F 49.48870 psia 0.39555 psia 343040 cu.ft.82951.66 ibm 104 e
sA e\
WNP-2 1991 ZLRT VERIFICATION data set 9 time=715 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperatuxe 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (111~120 (102.130 (93.810)(88.760 (103.960)(89.740)(93.640)(93'70)(93.870)103.440)(110.640 (93.440 (93.770 89.590 (77.740 (77.670 (77.650 (77.700 111.120 102.130 93.810 88.760 103.960 89.740 93.640 93.670 93.870 103.440 110.640 93.440 93.770 89.590 77.740 77.670 77.650 77.700 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (70.350)(69.560)(69.550)(69.730 (76.330)(75.840 70.350 deg.69.560 deg.69.550 deg.69.730 deg.76.330 deg.75.840 deg.F , 0.3673 F , 0.3575 F , 0.3574 F , 0.3596 F , 0.4491 F , 0.4418 psia psia psia psia psia psia pressuxe pressure 1 (49-4860)2 (49.4921)49.4860 psia 49.4921 psia weighted avexages, volume and air mass temperature pressure vapor pressuxe volume dry air mass 88.317S8 deg.F 49.48600 psia 0.39574 psia 343040 cu.ft.82946.39 ibm 105 Ar b'~
r-:
WNP-2 199 1 data set 10 time=730 date=609 ILRT VERIFICATION sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (111.120 (102.180 (93.830 (88.760 (103.990 89.740 (93.660 (93.680 (93.870 (103.480 (110.720 (93.460 (93.760 (89.680 (77.740 (77.660 (77.650 (77.690 111.120 102.180 93.830 88.760 103.990 89.740 93.660 93.680 93.870 103.480 110.720 93.460 93.760 89.680 77.740 77.660 77.650 77.690 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (70.360 (69.600 (69.540 (69.770 (76.290 (75.840 70.360 deg.69.600 deg.69.540 deg.69.770 deg.76.290 deg.75.840 deg.F , 0.3674 F , 0.3580 F , 0.3573 F , 0.3601 F , 0.4485 F , 0.4418 psia psia psia psia psia psia pressure pressure weighted 1 (49.4837 2 (49.4898 averages, volume and 49.4837 psia 49.4898 psia air mass temperature pressure vapor pressure volume dry air mass 88.32989 49.48370 0.39575 343040 82940.62 deg.F psia psia cu.ft.ibm 106 l i I' WNP-2 199 1 data set 11 time=745 date=609 ILRT VERIFICATION sensor raw data value temperature 1 (temperature 2 (temperature 3 temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 (temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (111.150 102.220 93.840 88.780 104.040 89.750 93.670 93.700 93.910 103.510 110.750 93.460 93.780 89.640 77.740 77.650 77.660 77.700 111.150 102.220 93.840 88.780 104.040 89.750 93.670 93.700 93.910 103'10 110.750 93.460 93.780 89.640 77.740 77.650 77.660 77.700 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (70.420 (69.600 (69.630 (69.810 (76.340 (75.830 70.420 deg.69.600 deg.69.630 deg.69.810 deg.76.340 deg.75.830 deg.F , 0.3682 F , 0.3580 F , 0.3584 F , 0.3606 F , 0.4492 F , 0.4417 psia psia psia psia psia psia pressure pressure weighted 1 (49.4816 2 (49.4874 averages, volume and 49.4816 psia 49.4874 psia air mass temperature pressure vapor pressure volume dry air mass 88.34077 deg.F 49.48160 psia 0.39621 psia 343040 cu.ft.82934.65 ibm 107 V I' WNP-2 1991 ILRT VERIFICATION data set 12 time=800 date=609 sensor temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 raw data (111.140 (102.220 (93.840 (88.780 (104.050)(89.750)(93.680)(93.690)(93.890)(103.530 (110'30 (93.450 (93.770)(89.680 (77.720 (77.640 (77.640 (77.670 value 111.140 102.220 93.840 88.780 104.050 89.750 93.680 93.690 93.890 103.530 110.730 93.450 93.770 89.680 77.720 77'40 77.640 77.670 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint pressure pressure 70.440)69.660)(69.630)(69.830)(76.340)(75.840 1 (49.4788)2 (49.4849)70.440 deg.69.660 deg.69.630 deg.69.830 deg.76.340 deg.75.840 deg.49.4788 psia 49.4849 psia F, 0.3684 F , 0.3587 F , 0.3584 F , 0.3608 F , 0.4492 F , 0.4418 psia psia psia psia psia psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.33347 49.47880 0.39643 343040 82930.66 deg.P psia psia cu.ft.ibm 108 n'l WNP-2 1991 ILRT VERIFICATION data set 13 time=815 date=609 sensor temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 raw data (111.200)(102.270)(93.860)(88.790)(104.090)(89.760)(93.700)(93.710)(93.910)(103.570)(110.780)(93.470)(93.790)(89.700)(77.730)(77.650)(77.650)(77.680)value deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F 111.200 102.270 93.860 88.790 104.090 89.760 93.700 93.710 93.910 103.570 110.780 93.470 93.790 89.700 77.730 77.650 77.650 77.680 dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (70.480)(69.690 (69.690)(69.880)(76.300 (75.830 70.4SO deg.69.690 deg.69.690 deg.69.880 deg.76.300 deg.75.830 deg.F , 0.3689 F , 0.3591 F , 0.3591 F , 0.3614 F , 0.4487 F , 0.4417 psia psia psia psia psia psia pressure pressure 1 (49.4765)2 (49.4825)49.4765 psia 49.4825 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.35281 deg.F 49.47650 psia 0.39659 psia 343040 cu.ft.82923.56 ibm 109
t k I


NNP-2 1991 ILRT VERIFICATION data set 14 time=830 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (111.190)(102.300)(93.870)(88.800)(104.120)(89 770)(93.680)(93.710)93.930)103-590)110.790 93.490)93.800)89.620)77.720 (77.650)(77.650)(77.680)111.190 102.300 93.870 88.800 104.120 89.770 93.680 93.710 93.930 103.590 110.790 93.490 93.800 89.620 77.720 77.650 77.650 77.680 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint (70.500)(69.740)(69.710)(69.910)(76.420)(75.810 70.500 deg.69.740 deg.69.710 deg.69.910 deg.76.420 deg.75.810 deg.F , 0.3692 F , 0.3597 F , 0.3593 F , 0.3618 F , 0.4504 F , 0.4414 psia psia psia psia psia psia pressure pressure 1 (49-4740)2 (49.4801)49.4740 psia 49.4801 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.35320 deg.F 49.47400 psia 0.39713 psia 343040 cu.ft.82918.37 ibm 1'10 WNP-2 1991 ILRT VERIFICATION data set 15 time=845 date=609 sensor raw data value temperature 1 temperature 2 temperature 3 temperature 4 temperature 5 temperature 6 temperature 7 temperature 8 temperature 9 temperature 10 temperature 11 temperature 12 temperature 13 temperature 14 temperature 15 temperature 16 temperature 17 temperature 18 (111.200)(102.340)(93.890)(88.810)(104.150)(89.770)(93.700)(93.730 (93.950)(103.630 (110.810 (93.500)(93.820 (89.630 (77.730 (77.650 (77.660 77.690 111.200 102.340 93.890 88.810 104'50 89.770 93.700 93.730 93.950 103.630 110.810 93.500 93.820 89.630 77.730 77.650 77.660 77.690 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 2 3 4 5 6 70.530)69.770)69.740)69.950)76.310)75.830)70.530 deg.69,770 deg.69.740 deg.69.950 deg.76.310 deg.75.830 deg.F, 0~3695 F, 0.3601 F , 0.3597 F , 0'623 F , 0.4488 F , 0.4417 psia psia psia psia psia psia pressure pressure 1 (49.4715)2 (49.4776)49.4715 psia 49.4776 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.36707 deg.F 49.47150 psia 0.39708 psia 343040 cu.ft.82912.14 ibm 111 WNP-2 1991 ILRT VERIFICATION data set 16 time=900 date=608 sensor raw data value temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature temperature dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 3 (4 (5 (6 (7 (8 (9 (10 (11 12 (13 (14 (15 16 17 18 (93.900 88'.810 104.180 89.780 93.730 93.750 93.950 103.670 110.810 93.510 93.820 89.600 77.720 77.630 77.640 77.680 70.580 69.790 69.770 69.960 76.300 75.810 1 (111.210 2 (102'60))))111.210 102.360 93.900 88.810 104.180 89.780 93.730 93.750 93.950 103.670 110'10 93'10 93.820 89.600 77.720 77.630 77.640 77.680 70.580 69.790 69'70 69.960 76.300 75.810 deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F 0.3402 0.3309 0.3408 0.3332 0.4559 0.4485 psia psia psia psia psia psia pressure pressure 1 (49.4689)=49.4689 psia 2 (49.4752)=49.4752 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.36633 49.46890 0.39718 343040 82907.68 deq.F psia psia cu.ft.ibm 112 WNP-2 1991 data set 17 time=915 date=609 ILRT VERIFICATION sensor raw data value dewpoint dewpoint dewpoint dewpoint dewpoint dewpoint 1 (2 (3 4 5 6 (temperature 1 (temperature 2 (temperature 3 (temperature 4 (temperature 5 (temperature 6 (temperature 7 (temperature 8 (temperature 9 ('temperature 10 (temperature 11 (temperature 12 (temperature 13 (temperature 14 (temperature 15 (temperature 16 (temperature 17 (temperature 18 (111.200 102.370 93'70 88.790 104.180 89.750 93.720 93.740 93'30 103.680 110.770 93.510 93.830 89.650 77.700 77.620 77'30 77.670 I 70.600 69'60 69.810 70.000 76.290 75.820 111.200 102.370 93.870 88.790 104.180 89.750 93.720 93.740 93.930 103.680 110.770 93.510 93.830 89.650 77.700 77.620 77.630 77.670 70.600 69.860 69.810 70.000 76.290 75.820 deg deg, deg deg degas deg, F, 0.F, 0.F, 0.F, 0.F, 0.F, 0.deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F deg.F 3704 psia 3612 psia 3606 psia 3629 psia 4485 psia 4415 psia pressure 1 pressure 2 (49.4666 (49.4729 49.4666 psia 49.4729 psia weighted averages, volume and air mass temperature pressure vapor pressure volume dry air mass 88.35818 deg.F 49.46660 psia 0.39750 psia 343040 cu.ft.82904.48 ibm 113 Agg l APPENDIX IV TYPE B AM)C TEST RESULTS SMIMARY REPORT 114 TYPE B AND C TEST RESULTS  
WNP-2 1991 ILRT VERIFICATION data set   1 time = 515      date = 609 sensor             raw data           value temperature 1 ( 110.990            110.990  deg. F temperature 2 ( 101.870            101.870  deg. F temperature 3 ( 93.730              93.730  deg. F temperature 4 ( 88.710              88.710  deg. F temperature S ( 103.700            103.700  deg. F temperature 6 ( 89.680              89.680  deg. F temperature 7 ( 93.590              93.590  deg. F temperature 8 ( 93.580              93.580  deg. F temperature 9 ( 93.770              93.770  deg. F temperature 10 ( 103.170            103.170  deg. F temperature 11 ( 110.590            110.590  deg. F temperature 12 ( 93.360              93.360  deg. F temperature 13 ( 93.690              93.690  deg. F temperature 14 ( 89.570              89.570  deg. F temperature 1S ( 77.770              77.770  deg. F temperature 16 ( 77.690              77.690  deg. F temperature 17 ( 77.700              77.700  deg. F temperature 18 ( 77.740              77.740  deg. F dewpoint dewpoint
(  70.060 )
69.310
: 70. 060 69.310 deg.
deg.
F, F
0.3637, 0.354S psia psia
(                                  ,
dewpoint        (  69.240 )        69.240  deg. F , 0.3536  psia dewpoint        (  69.440          69.440  deg. F , 0.3560  psia dewpoint        (  76.450          76.450  deg. F , 0.4509  psia dewpoint        (  75.890  )      75.890  deg. F , 0.4426  psia pressure 1      ( 49.5055 )        49.5055 psia pressure 2      ( 49.5121 )        49.5121 psia weighted averages, volume and    air  mass temperature              88.26929 deg. F pressure                49.50550 psia vapor pressure            0.39425 psia volume dry  air mass 343040 cu.
82989.17 ibm ft.
97
 
WNP-2 1991 ILRT VERIFICATION data set    2 time = 530      date = 609 e
sensor              raw data          value temperature 1 ( 111.000 )         111.000  deg. F temperature 2 ( 101 910 )         101.910   deg. F temperature 3 ( 93 '40 )            93.740  deg. F temperature 4 ( 88.720 )            88.720  deg. F temperature 5      103.730 )      103.730  deg. F temperature 6        89.690 )      89.690  deg. F temperature 7        93.590 )      93.590  deg. F temperature 8        93.600 )      93.600  deg. F temperature 9        93.800 )      93.800  deg. F temperature 10      103 '00 )      103.200  deg. F temperature 11      110 '80 )      110.580  deg. F temperature 12      93.360 )       93.360  deg. F temperature 13 (, 93.670 )         93.670  deg. F temperature 14      89.570 )      89.570  deg. F temperature 15 ( 77.760            77.760  deg. F temperature 16 ( 77.680            77.680  deg. F temperature 17 ( 77.700            77.700  deg. F temperature 18 ( 77.730            77.730  deg. F dewpoint        (   70 080 )
                        ~          70.080  deg. F  ,  0.3639 psia dewpoint        (   69-310 )       69.310  deg. F  ,  0.3545 psia dewpoint        (   69 310 )
                        ~          69.310  deg. F  ,  0.3545 psia dewpoint        (   69 490 )
                        ~          69.490  deg. F    ,  0.3567 psia dewpoint        (   76.420 )      76.420  deg. F    ,  0.4504 psia dewpoint        (  75.890         75.890  deg. F    ,  0.4426 psia pressure 1      ( 49.5032 )        49.5032 psia    ~
pressure 2      ( 49.5098 )        49.5098 psia weighted averages, volume and    air  mass
            ,temperature            88.27290 deg.     F pressure                49.50320 psia vapor pressure          0.39440 psia volume dry  air mass 343040 cu.
82984.48 ibm ft.
98
 
I I
'i ~
 
WNP-2 1991 XLRT VERIFICATION data set    3 time = 545      date = 609 sensor              raw data          value temperature 1 ( 111.020 )          111.020  deg. F temperature 2 ( 101.950 )        , 101.950  deg. F temperature 3 ( 93.760 )            93.760  deg. F temperature 4 ( 88.730 )            88.730  deg. F temperature 5 ( 103.780 )          103.780  deg. F temperature 6 ( 89.710 )            89.710  deg. F temperature 7 ( 93.570 )            93.570  deg. F temperature 8 ( 93.600 )            93.600  deg. F temperature 9 ( 93.820 )           93.820  deg. F temperature 10 ( 103.240 )         103.240  deg. F temperature 11 ( 110.610 )         110.610  deg. F temperature 12 ( 93.370 )          93.370  deg. F temperature 13 ( 93.700 )          93.700  deg. F temperature 14 ( 89.600            89.600  deg. F temperature 15 ( 77.770 )          77.770  deg. F temperature 16 ( 77.680 )          77.680  deg. F temperature 17 ( 77.690.)          77.690  deg. F temperature 18 ( 77.730            77.730  deg. F dewpoint 1      (   70. 120        70.120  deg. F ,  0.3644 psia dewpoint 2      (  69.350        69.350  deg. F 0.3S50 psia dewpoint 3      (  69.350        69.350  deg. F  ,  0.3550 psia dewpoint 4      (  69.500        69.500  deg. F  ,  0.3S68 psia dewpoint 5       (   76.390        76.390  deg. F  ,  0.4500 psia dewpoint 6       (   75.860        75.860  deg. F  ,  0.4421 psia pressure 1      ( 49.5010          49.5010 psia pressure 2      ( 49.5072          49.5072 psia weighted averages, volume and    air  mass temperature            88.28520 deg. F pressure                49.50100 psia vapor pressure          0.39445 psia volume air 343040 cu. ft.
dry      mass          82978.81 ibm
 
I k
I 4
II
 
NNP-2 1991 ILRT VERIFICATION data set  4 time = 600    date = 609 sensor              raw data          value temperature 1 ( 111.060 )         111.060 deg. F temperature 2 ( 101.970 )        101.970 deg. F temperature 3 ( 93.760 )            93.760 deg. F temperature 4 ( 88.730 )            88.,730 deg. F temperature 5 ( 103.810 )        103.810 deg. F temperature 6 ( 89.700 )            89.700 deg. F temperature 7 ( 93.610 )            93.610 deg. F temperature 8 ( 93.620 )            93.620 deg. F temperature 9 ( 93.830 )            93 '30 deg. F temperature 10 ( 103.270 )        103 '70 deg. F temperature 11 ( 110.650 )        110.650 deg. F temperature 12 ( 93.380 )          93.380 deg. F temperature 13 ( 93 '10 )          93.710 deg. F temperature 14 ( 89.630 )          89.630 deg. F temperature 15 ( 77.750 )          77.750 deg. F temperature 16 ( 77.680 )          77.680 deg. F temperature 17 ( 77.690 )          77.690 deg. F temperature 18 ( 77.730            77.730 deg. F dewpoint 1      (    70. 150 )    70.150 69.370 deg.
deg.
F,  0. 3648 0.3552 psia psia dewpoint 2      (   69.370 )                    F ,
dewpoint 3      (    69.370 )     69.370  deg. F , 0.3552  psia dewpoint 4      (   69.550 )     69.550  deg. F , 0.3574  psia dewpoint 5      (    76.410 )      76.410  deg. F , 0.4503  psia dewpoint 6      (    75.880        75.880  deg. F , 0.4424  psia pressure 1      ( 49.4985 )        49.4985 psia pressure 2       ( 49.5047 )        49.5047 psia weighted averages, volume and    air  mass temperature             88.29315 deg. F pressure                49.49850 psia vapor pressure            0.39478 psia volume                    343040 cu. ft.
dry  air  mass          82972.83 ibm 100
 
S WNP-2 1991  ILRT VERIFICATION data set    5 time = 615      date  =  609 sensor              raw data            value temperature 1 ( 111.060 )            111.060  deg. F temperature 2 ( 102.000 )            102.000  deg.'F temperature 3 ( 93.790 )              93.790  deg. F temperature 4 ( 88.740 )              88.740  deg. F temperature 5 ( 103.840 )            103.840  deg. F temperature 6 ( 89.700 )              89.700  deg. F temperature 7 ( 93.600 )              93.600  deg. F temperature 8 ( 93.620 )              93.620  deg. F temperature 9 ( 93.830 )              93.830   deg. F temperature 10 ( 103.310 )          103.310  deg. F temperature 11 ( 110.670 )          110.670  deg. F temperature 12 ( 93.380 )            93.380  deg. F temperature 13 ( 93.710 )            93.710  deg. F temperature 14 ( 89.580              89.580  deg. F temperature 15 ( 77.760 )            77.760  deg. F temperature 16 ( 77.670 )            77.670   deg. F temperature 17 ( 77.690 )            77.690  deg. F temperature 18 ( 77.720              77.720  deg. F dewpoint dewpoint
(  70. 190 )
69.400
: 70. 190 69.400 deg.
deg.
F, F
0.3653 0.3556 psia psia
(                                    ,
dewpoint        (  69.370 )        69.370  deg. F , 0.3552 psia dewpoint        (  69.580  )      69.580  deg. F , 0.3578 psia dewpoint        (  76.430 )        76.430  deg. F , 0.4506 psia dewpoint        (  75.880 )        75.880  deg. F , 0.4424 psia
=-
pressure 1      ( 49.4957 )          49.4957 psia pressure 2       ( 49 '022 )          49.5022 psia weighted averages, volume and      air  mass temperature              88.29519 deg. F pressure                  49.49570 psia vapor pressure            0.39500 psia volume                      343040 cu. ft.
dry air mass              82967.41 ibm 101
 
I I
 
WNP-2  1/91 ILRT VERIFICATION data set    6 time = 630      date = 609 sensor              raw data            value temperature 1 ( 111.090 )          111.090    deg. F temperature 2 ( 102.040 )          102.040    deg. F temperature 3 ( 93.770 )              93.770  deg. F temperature 4 ( 88.750 )              88.750  deg. F temperature 5 ( 103.870 )          103.870    deg. F temperature 6 ( 89 '10 )              89 '10  deg. F temperature 7 ( 93.620 )              93.620  deg. F temperature 8 ( 93.630 )              93.630  deg. F temperature 9 ( 93.830 )              93.830  deg. F temperature 10 ( 103 '40 )          103.340    deg. F temperature 11 ( 110.660 )          110.660    deg. F temperature 12 ( 93.390 )            93.390  deg. F temperature 13      93.730 )        93.730  deg. F temperature 14 ( 89.620              89.620  deg. F temperature 15 ( 77.750 )            77.750  deg. F temperature 16 ( 77.670 )            77.670  deg. F temperature 17 ( 77.680 )            77.680  deg. F temperature 18 ( 77.720              77.720  deg. F dewpoint        (  70.210 )        70.210  deg. F , 0.3655 psia dewpoint        (  69.500 )        69.500  deg. F , 0.3568 psia dewpoint        (  69.440 )        69.440  deg. F , 0.3560 psia dewpoint        (  69.620 )        69.620  deg. F , 0.3582 psia dewpoint        (  76.390 )        76.390  deg. F , 0.4500 psia dewpoint        (  75.860          75.860  deg. F , 0.4421 psia pressure 1      ( 49.4938 )          49.4938 psia pressure 2      ( 49.4990 )          49.4990 psia weighted averages, volume and    air    mass temperature              88.30263 deg. F pressure                  49.49380 psia vapor pressure              0.39526 psia volume                      343040 cu. ft.
dry air mass              82962.64 ibm 102
 
WNP-2 1991 ELRT VEREFECATEON data set    7 time = 645      date = 609 sensor              raw data          value temperature 1 ( 111.090            111.090  deg. F temperature 2 ( 102.080            102.080  deg. F temperature 3 ( 93.780 )            93.780  deg. F temperature 4 ( 88.750              88.750  deg. F temperature 5 ( 103.910 )          103.910  deg. F temperature 6 ( 89.720 )            89.720  deg. F temperature 7 ( 93.630              93.630  deg. F temperature 8        93.650 )        93.650  deg. F temperature 9        93.850          93.850  deg. F temperature 10      103.380 )      103.380  deg. F temperature 11 ( 110.680          110.680  deg. F temperature 12 ( 93.400              93.400  deg. F temperature 13 ( 93 '30              93.730  deg. F temperature 14 ( 89.650              89.650  deg. F temperature 15 ( 77.750              77.750  deg. F temperature 16 ( 77.670              77.670  deg. F temperature 17 ( 77.680              77.680  deg. F temperature 18 ( 77.720              77.720  deg. F dewpoint        (  70.260 )        70.260  deg. F ,  0.3662 psia dewpoint        (  69.470 )        69.470  deg. F ,  0.3S64 psia dewpoint        (  69.450 )        69.450  deg. F , 0.3562  psia dewpoint        (  69.670 )        69.670  deg. F , 0.3S89  psia dewpoint        (  76.370 )        76.370  deg. F , 0.4497  psia dewpoint        ( 75.850          75.850  deg. F , 0.4420  psia pressure 1      ( 49.4908 )        49.4908 psia pressure 2      ( 49.4972 )        49.4972 psia weighted averages, volume and    air  mass temperature              88.31302 deg. F pressure                49.49080 psia vapor pressure            0.39527 psia volume dry  air mass 343040 cu.
829S5.97 ibm ft.
103
 
I I
 
WNP-2 1991 ZLRT VERIFICATION data set    8 time = 700      date = 609 sensor              raw data          value temperature 1 ( 111.110            111.110  deg. F temperature 2 ( 102.110            102.110  deg. F temperature 3 ( 93.800              93.800  deg. F temperature 4 ( 88.760              88.760  deg. F temperature 5 ( 103.940            103.940  deg. F temperature 6 ( 89.720              89.720  deg. F temperature 7 ( 93.620              93.620  deg. F temperature 8 ( 93.670              93.670  deg. F temperature 9 ( 93.860              93.860  deg. F temperature 10 ( 103.410          103 '10  deg. F temperature 11 ( 110.690          110.690  deg. F temperature 12 ( 93.410            93.410  deg. F temperature 13 ( 93.750            93.750  deg. F temperature 14 ( 89.640            89.640  deg. F temperature 15 ( 77.740            77.740  deg. F temperature 16 ( 77.670            77.670  deg. F temperature 17 ( 77.660            77.660  deg. F temperature 18 ( 77.700            77.700  deg. F dewpoint          (  70.280      70.280  deg. F ,  0.3664 psia dewpoint          (  69.540        69.540  deg. F ,  0.3573 psia dewpoint          (  69.470        69.470  deg. F ,  0.3564 psia dewpoint          (  69.690        69.690  deg. F ,  0.3591 psia dewpoint          (  76.360        76.360  deg. F ,  0.4495 psia dewpoint          (  75.870        75.870  deg. F ,  0.4423 psia pressure 1        ( 49.4887        49.4887 psia pressure  2      ( 49.4946        49.4946 psia weighted averages, volume and    air  mass temperature            88.31498 deg. F pressure              49.48870 psia vapor pressure          0.39555 psia volume                    343040 cu. ft.
dry air  mass        82951.66 ibm 104
 
e WNP-2 1991 ZLRT VERIFICATION data set    9 time = 715      date = 609 sensor              raw data          value temperature 1 ( 111 120 ~        111.120    deg. F temperature 2 ( 102.130          102.130    deg. F temperature 3 ( 93.810 )            93.810  deg. F temperature 4 ( 88.760              88.760  deg. F temperature 5 ( 103.960 )        103.960    deg. F temperature 6 ( 89.740 )            89.740  deg. F temperature 7 ( 93.640 )            93.640  deg. F temperature 8 ( 93 '70 )            93.670  deg. F temperature 9 ( 93.870 )            93.870  deg. F temperatuxe 10      103.440 )    103.440    deg. F temperature 11 ( 110.640          110.640    deg. F temperature 12 ( 93.440            93.440  deg. F temperature 13 ( 93.770            93.770  deg. F temperature 14      89.590        89.590  deg. F temperature 15 ( 77.740            77.740  deg. F temperature 16 ( 77.670            77.670  deg. F temperature 17 ( 77.650            77.650  deg. F temperature 18 ( 77.700            77.700  deg. F dewpoint        (  70.350 )      70.350  deg. F ,  0.3673 psia dewpoint        (  69.560 )      69.560  deg. F ,  0.3575 psia dewpoint        (  69.550 )      69.550  deg. F ,  0.3574 psia dewpoint        (  69.730        69.730  deg. F ,  0.3596 psia dewpoint        (  76.330  )      76.330  deg. F ,  0.4491 psia dewpoint        (  75.840        75.840  deg. F ,  0.4418 psia pressuxe 1      ( 49-4860 )        49.4860 psia pressure 2      ( 49.4921 )        49.4921 psia weighted avexages, volume and    air  mass temperature            88.317S8 deg. F pressure                49.48600 psia vapor pressuxe          0.39574 psia volume                    343040 cu. ft.
dry air mass            82946.39 ibm 105
 
A r
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WNP-2 199 1 ILRT VERIFICATION data set 10 time = 730    date = 609 sensor            raw data          value temperature 1 ( 111.120          111.120  deg. F temperature 2 ( 102.180          102.180  deg. F temperature 3 ( 93.830            93.830  deg. F temperature 4 ( 88.760            88.760  deg. F temperature 5 ( 103.990          103.990  deg. F temperature 6        89.740        89.740  deg. F temperature 7 ( 93.660            93.660  deg. F temperature 8 ( 93.680            93.680  deg. F temperature 9 ( 93.870            93.870  deg. F temperature 10 ( 103.480          103.480  deg. F temperature 11 ( 110.720          110.720  deg. F temperature 12 ( 93.460            93.460  deg. F temperature 13 ( 93.760            93.760  deg. F temperature 14 ( 89.680            89.680  deg. F temperature 15 ( 77.740            77.740  deg. F temperature 16 ( 77.660            77.660  deg. F temperature 17 ( 77.650            77.650  deg. F temperature 18 ( 77.690            77.690  deg. F dewpoint        (    70. 360      70.360  deg. F ,  0.3674 psia dewpoint        (    69.600        69.600  deg. F ,  0.3580 psia dewpoint        (    69.540        69.540  deg. F ,  0.3573 psia dewpoint        (    69.770        69.770  deg. F ,  0.3601 psia dewpoint        (    76. 290      76.290  deg. F ,  0.4485 psia dewpoint        (    75.840        75.840  deg. F ,  0.4418 psia pressure 1      ( 49.4837          49.4837 psia pressure 2      ( 49.4898          49.4898 psia weighted averages, volume and    air  mass temperature              88.32989 deg. F pressure                49.48370 psia vapor pressure            0.39575 psia volume                    343040 cu. ft.
dry  air  mass          82940.62 ibm 106
 
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I '
 
WNP-2 199 1 ILRT VERIFICATION data set 11 time = 745    date = 609 sensor            raw data          value temperature 1 ( 111.150          111.150  deg. F temperature 2 ( 102.220          102.220  deg. F temperature 3      93.840        93.840  deg. F temperature 4 ( 88.780            88.780  deg. F temperature 5 ( 104.040          104.040  deg. F temperature 6 ( 89.750            89.750  deg. F temperature 7 ( 93.670            93.670  deg. F temperature 8 ( 93.700            93.700  deg. F temperature 9 ( 93.910            93.910  deg. F temperature 10 ( 103.510          103 '10  deg. F temperature 11 ( 110.750          110.750  deg. F temperature 12 ( 93.460            93.460  deg. F temperature 13 ( 93.780            93.780  deg. F temperature 14 ( 89.640            89.640  deg. F temperature 15 ( 77.740            77.740  deg. F temperature 16 ( 77.650            77.650  deg. F temperature 17 ( 77.660            77.660  deg. F temperature 18 ( 77.700            77.700  deg. F dewpoint        (  70.420        70.420  deg. F , 0.3682 psia dewpoint        (  69.600        69.600  deg. F , 0.3580 psia dewpoint        (  69.630        69.630  deg. F , 0.3584 psia dewpoint        (  69.810        69.810  deg. F , 0.3606 psia dewpoint        (  76.340        76.340  deg. F , 0.4492 psia dewpoint        (  75.830        75.830  deg. F , 0.4417 psia pressure 1      ( 49.4816          49.4816 psia pressure 2      ( 49.4874          49.4874 psia weighted averages, volume and    air  mass temperature              88.34077 deg. F pressure                49.48160 psia vapor pressure            0.39621 psia volume dry  air mass 343040 cu.
82934.65 ibm ft.
107
 
V I'
 
WNP-2 1991 ILRT VERIFICATION data set 12 time = 800    date = 609 sensor            raw data          value temperature 1 ( 111. 140          111. 140  deg. F temperature 2 ( 102.220          102.220  deg. F temperature 3 ( 93.840            93.840  deg. F temperature 4 ( 88.780            88.780  deg. F temperature 5 ( 104.050 )        104.050    deg. F temperature 6 ( 89.750 )          89.750  deg. F temperature 7 ( 93.680 )          93.680  deg. F temperature 8 ( 93.690 )          93.690  deg. F temperature 9 ( 93.890 )          93.890  deg. F temperature 10 ( 103.530        103.530    deg. F temperature 11 ( 110 '30        110.730    deg. F temperature 12 ( 93.450            93.450  deg. F temperature 13 ( 93.770 )          93.770  deg. F temperature 14 ( 89.680            89.680  deg. F temperature 15 ( 77.720            77.720  deg. F temperature 16 ( 77.640            77 '40 deg. F temperature 17 ( 77.640            77.640 deg. F temperature 18 ( 77.670            77.670 deg. F dewpoint            70.440 )      70.440  deg. F,    0. 3684 psia dewpoint            69.660 )      69.660  deg. F ,  0.3587  psia dewpoint        (  69.630 )      69.630  deg. F ,  0.3584  psia dewpoint        (  69.830 )      69.830  deg. F ,  0.3608  psia dewpoint        (  76.340 )      76.340  deg. F ,  0.4492  psia dewpoint        ( 75.840          75.840  deg. F ,  0.4418  psia pressure 1      ( 49.4788 )        49.4788 psia pressure 2      ( 49.4849 )        49.4849 psia weighted averages, volume and  air  mass temperature            88.33347 deg. P pressure                49.47880 psia vapor pressure          0.39643 psia volume dry  air mass 343040 cu.
82930.66 ibm ft.
108
 
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WNP-2 1991 ILRT VERIFICATION data set  13 time = 815      date =    609 sensor              raw data          value temperature 1 ( 111.200 )          111.200    deg. F temperature 2 ( 102.270 )          102.270    deg. F temperature 3 ( 93.860 )            93.860  deg. F temperature 4 ( 88.790 )            88.790  deg. F temperature 5 ( 104.090 )          104.090    deg. F temperature 6 ( 89.760 )            89.760  deg. F temperature 7 ( 93.700 )            93.700  deg. F temperature 8 ( 93.710 )            93.710  deg. F temperature 9 ( 93.910 )            93.910  deg. F temperature 10 ( 103.570 )        103.570    deg. F temperature 11 ( 110.780 )        110.780    deg. F temperature 12 ( 93.470 )            93.470  deg. F temperature 13 ( 93.790 )            93.790  deg. F temperature 14 ( 89.700 )            89.700  deg. F temperature 15 ( 77.730 )            77.730  deg. F temperature 16 ( 77.650 )            77.650  deg. F temperature 17 ( 77.650 )            77.650  deg. F temperature 18 ( 77.680 )            77.680  deg. F dewpoint          (  70.480 )      70.4SO deg. F , 0.3689  psia dewpoint          (  69. 690        69.690  deg. F , 0.3591 psia dewpoint          (  69.690 )      69.690  deg. F , 0.3591 psia dewpoint          (  69.880 )      69.880  deg. F , 0.3614 psia dewpoint          (  76.300        76.300  deg. F , 0.4487 psia dewpoint          (  75.830        75.830  deg. F , 0.4417 psia pressure 1        ( 49.4765 )        49.4765 psia pressure 2        ( 49.4825 )        49.4825 psia weighted averages, volume and    air  mass temperature            88.35281 deg. F pressure                49.47650 psia vapor pressure          0.39659 psia volume                      343040 cu. ft.
dry air mass            82923.56 ibm 109
 
NNP-2 1991 ILRT VERIFICATION data set 14 time = 830    date =    609 sensor            raw data            value temperature 1 ( 111. 190 )        111. 190  deg. F temperature 2 ( 102. 300 )        102.300  deg. F temperature 3 ( 93.870 )            93.870  deg. F temperature 4 ( 88.800 )            88.800  deg. F temperature 5 ( 104.120 )          104.120  deg. F temperature 6 ( 89 770 )            89.770  deg. F temperature 7 ( 93.680 )            93.680  deg. F temperature 8 ( 93.710 )            93.710  deg. F temperature 9      93.930 )        93.930  deg. F temperature 10    103-590 )      103.590  deg. F temperature 11    110.790        110.790  deg. F temperature 12      93.490 )        93.490  deg. F temperature 13      93.800 )        93.800  deg. F temperature 14      89.620 )        89.620  deg. F temperature 15      77.720          77.720  deg. F temperature 16 ( 77.650 )            77.650  deg. F temperature 17 ( 77.650 )          77.650  deg. F temperature 18 ( 77.680 )          77.680  deg. F dewpoint        (  70.500 )        70.500  deg. F , 0.3692 psia dewpoint        (  69.740 )        69.740  deg. F , 0.3597 psia dewpoint        (  69.710 )        69.710  deg. F , 0.3593 psia dewpoint        (  69.910 )        69.910  deg. F , 0.3618 psia dewpoint        (  76.420 )        76.420  deg. F , 0.4504 psia dewpoint        (  75.810          75.810  deg. F , 0.4414 psia pressure 1      ( 49-4740 )        49.4740 psia pressure 2      ( 49.4801 )        49.4801 psia weighted averages, volume and  air    mass temperature              88.35320 deg. F pressure                  49.47400 psia vapor pressure            0.39713 psia volume dry  air mass 343040 cu.
82918.37 ibm ft.
1'10
 
WNP-2 1991 ILRT VERIFICATION data set 15 time = 845    date = 609 sensor            raw data          value temperature 1 ( 111.200 )      111.200    deg. F temperature 2 ( 102.340 )      102.340    deg. F temperature 3 ( 93.890 )          93.890  deg. F temperature 4 ( 88.810 )          88.810  deg. F temperature 5 ( 104.150 )      104  '50  deg. F temperature 6 ( 89.770 )          89.770  deg. F temperature 7 ( 93.700 )          93.700  deg. F temperature 8 ( 93.730            93.730  deg. F temperature 9 ( 93.950 )          93.950  deg. F temperature 10 ( 103.630        103.630    deg. F temperature 11 ( 110.810        110.810    deg. F temperature 12 ( 93.500 )        93.500  deg. F temperature 13 ( 93.820          93.820  deg. F temperature 14 ( 89.630          89.630  deg. F temperature 15 ( 77.730          77.730  deg. F temperature 16 ( 77.650          77.650  deg. F temperature 17 ( 77.660          77.660  deg. F temperature 18    77.690        77.690  deg. F dewpoint 1        70.530 )      70.530  deg. F,  0 ~ 3695 psia dewpoint 2        69.770 )      69,770  deg. F,  0.3601 psia dewpoint 3        69.740 )      69.740  deg. F , 0.3597 psia dewpoint 4        69.950 )      69.950  deg. F , 0 '623 psia dewpoint 5        76.310 )      76.310  deg. F , 0.4488 psia dewpoint 6        75.830 )      75.830  deg. F , 0.4417 psia pressure 1      ( 49.4715 )      49.4715 psia pressure 2      ( 49.4776 )      49.4776 psia weighted averages, volume and  air  mass temperature            88.36707 deg. F pressure              49.47150 psia vapor pressure          0.39708 psia volume                    343040 cu. ft.
dry air mass          82912.14 ibm 111
 
WNP-2 1991 ILRT VERIFICATION data set 16 time = 900      date = 608 sensor              raw data          value temperature    1 ( 111. 210        111.210 deg. F temperature    2 ( 102 '60        102.360 deg. F temperature    3 (    93.900        93.900 deg. F temperature    4 (    88'.810      88.810 deg. F temperature    5 ( 104.180        104.180 deg. F temperature    6 (    89.780        89.780 deg. F temperature    7 (  93.730        93.730 deg. F temperature    8 (    93.750        93.750 deg. F temperature    9 (    93.950        93.950 deg. F temperature 10 ( 103.670            103.670 deg. F temperature 11      110.810        110 '10 deg. F temperature 12 ( 93.510              93 '10 deg. F temperature 13 ( 93.820              93.820 deg. F temperature 14 ( 89.600              89.600 deg. F temperature 15        77.720        77.720 deg. F temperature 16        77.630        77.630 deg. F temperature 17        77.640        77.640 deg. F temperature 18 ( 77.680              77.680 deg. F dewpoint              70.580 )      70. 580 deg. F  0. 3402 psia dewpoint              69.790 )      69.790 deg. F  0.3309  psia dewpoint              69.770 )      69 '70 deg. F  0.3408  psia dewpoint              69.960 )      69.960 deg. F  0.3332  psia dewpoint              76.300        76.300 deg. F  0.4559  psia dewpoint              75.810        75.810 deg. F  0.4485  psia pressure 1        ( 49.4689 )  =    49.4689 psia pressure 2        ( 49.4752 )  =    49.4752 psia weighted averages, volume and air mass temperature              88.36633 deq. F pressure                49.46890 psia vapor pressure            0.39718 psia volume                    343040 cu. ft.
dry  air mass            82907.68 ibm 112
 
WNP-2 1991 ILRT VERIFICATION data set 17 time = 915    date = 609 sensor            raw data          value temperature 1 ( 111.200          111.200  deg. F temperature 2 ( 102.370          102.370  deg. F temperature 3 ( 93 '70            93.870  deg. F temperature 4 ( 88.790            88.790  deg. F temperature 5 ( 104.180          104.180  deg. F temperature 6 ( 89.750            89.750  deg. F temperature 7 ( 93.720            93.720  deg. F temperature 8 ( 93.740            93.740  deg. F temperature 9 ( 93 '30            93.930  deg. F
'temperature 10 ( 103.680        103.680  deg. F temperature 11 ( 110.770        110.770  deg. F temperature 12 ( 93.510            93.510  deg. F temperature 13 ( 93.830            93.830  deg. F temperature 14 ( 89.650            89.650  deg. F temperature 15 ( 77.700            77.700  deg. F temperature 16 ( 77.620            77.620  deg. F temperature 17 ( 77 '30            77.630  deg. F temperature 18 ( 77.670            77.670  deg. F I
dewpoint 1      (    70. 600      70.600  deg  F,  0. 3704 psia dewpoint 2      (    69 '60        69.860 69.810 deg,  F, F,
: 0. 3612
: 0. 3606 psia psia dewpoint 3          69.810                deg dewpoint 4          70.000        70.000 76.290 deg  F, F,
: 0. 3629
: 0. 4485 psia psia dewpoint 5          76.290                degas dewpoint 6      (    75.820        75.820  deg,  F,  0. 4415 psia pressure 1      ( 49.4666          49.4666 psia pressure 2      ( 49.4729          49.4729 psia weighted averages, volume and  air  mass temperature            88.35818 deg. F pressure                49.46660 psia vapor pressure          0.39750 psia volume                    343040 cu. ft.
dry air     mass       82904.48 ibm 113
 
Agg l APPENDIX IV TYPE B AM) C TEST RESULTS SMIMARYREPORT 114
 
TYPE B AND C TEST RESULTS


==SUMMARY==
==SUMMARY==
REPORT TABLE OF NTENTS SECTION 1.0 Introduction
REPORT TABLE OF       NTENTS SECTION                                                                 PAGE 1.0   Introduction                                                       117 2.0  Discussion  (Type B & C Testing)                                  117 2.1 Test Methods                                                  117 2.2 Specific Testing Categories, Acceptance Criteria, and Results  117 3.0  Type B  &C    As-Found Testing                                    119 3.1 Main Steam Isolation Valves                                    128 4.0  Type A Test                                                        128 5.0  Type B  &C    Containment Penetration Test Schedule                131 115


===2.0 Discussion===
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TYPE B AND C TEST RESULTS
(Type B&C Testing)2.1 Test Methods 2.2 Specific Testing Categories, Acceptance Criteria, and Results 3.0 Type B&C As-Found Testing 3.1 Main Steam Isolation Valves PAGE 117 117 117 117 119 128 4.0 Type A Test 5.0 Type B&C Containment Penetration Test Schedule 128 131 115 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TYPE B AND C TEST RESULTS  


==SUMMARY==
==SUMMARY==
REPORT~SA SS PAGE 1.LLRT Results for Type B&C Testing Performed Since 1987 ILRT 2.LLRT Results for Secondary Bypass Leakage Sources 3.As-left LLRT Results for MSIV's 4.1988 Outage-Isolation Valves Repaired/Adjusted 5.1989 Outage-Isolation Valves Repaired/Adjusted 6.1990 Outage-Isolation Valves Repaired/Adjusted 7.1991 Outage-Isolation Valves Repaired/Adjusted 8.As-Found Leak Rates for MSIV's 9.Minimum Pathway Leak Rates for As-Found Type A Adjustment 10.Containment Penetration Schedule for Type B&C Tests 118 118 119 121 122 124 126 128 129 132 116 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report
REPORT
                                      ~SA             SS PAGE
: 1. LLRT Results for Type B & C Testing Performed Since 1987 ILRT 118
: 2. LLRT Results for Secondary Bypass Leakage Sources             118
: 3. As-left LLRT Results for MSIV's                               119
: 4. 1988 Outage - Isolation Valves Repaired/Adjusted               121
: 5. 1989 Outage - Isolation Valves Repaired/Adjusted               122
: 6. 1990 Outage - Isolation Valves Repaired/Adjusted               124
: 7. 1991 Outage - Isolation Valves Repaired/Adjusted               126
: 8. As-Found Leak Rates for MSIV's                                 128
: 9. Minimum Pathway Leak Rates for As-Found Type A Adjustment     129
: 10. Containment Penetration Schedule for Type B   & C Tests       132 116


==1.0 INTRODUCTION==
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report
 
==1.0   INTRODUCTION==
 
During each annual spring outage in 1988, 1989, 1990, and 1991, 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 1991 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 maintenance on resilient seals, The ILRT results (as-left) are adjusted by the difference in minimum pathway leakage rates before and after repairs or maintenance activities to arrive at the Type A "as-found" value.
The totals for Type B and C testing for the 1988, 1989, 1990 and 1991 outages yielded as-found values greater than 0.6 La. The deficiencies which led to the excessive leakages and the corrective actions taken to reduce the total leakage to below 0.6 La are included in the as-found testing section of this report.
2.0  DISCUSSION (Type B & C Tests) 2.1    Methods The pneumatic Type B & 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 & C penetrations.
During the 1988, 1989, 1990 and 1991 outages, Type B & C testing was performed in accordance with Exemption to Appendix J Testing issued by the NRC with Amendment No. 41 to Facility Operating Licence NPF-21. This allowed testing of approximately half of the Type B & C penetrations during each shutdown for refueling. For determining the Type B & C summations, those penetrations not tested have leakage values applied from the previous outage as-left condition.
The measured Type B      & C Leakage  rate summations are tabulated in the following Table 1.
117
 
II Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Outage Year      Sum of Type B          Sum of Type C        Sum of TypeB  &C        Allowable Limit 1988          2,499 sccm            16,718 sccm          19,217 sccm        56,600 sccm (0.5 La) 1989          3, 170 sccm            25,751 sccm          28,921 sccm        56,600 sccm (0.5 La) 1990          2,056 sccm            25,726 sccm          27,782 sccm        56,600 sccm (0.5 La) 1991            252 sccm              12,580 sccm          12,832 sccm        56,600 sccm (0.5 La)
Table 1 LLRT Results for Type B & C Testing Performed Since 1987 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 k 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 2.
N~te: i. Passive components are considered exempt Leakage Rate (SCCM)
Penetration                Service 1988        1989          1990            1991 X-14        RWCU from RPV                        40.3/2      56.8  d        4.3 X-22        MS Drain                              32/2        4.3/2        14.25 X-27f        TIP Line                              5.0                      18.2 X-53        Drywell HVAC Supply                    7.0        9.7          9.7            52.5 X-56        CIA to SRV Accumulators.              4.6        43.9          43.9            65 +
X-66        Wetwell HVAC Supply                  72.2 +
X-77Aa        RRC Sample Line                        6.3        26.9        26.9 +            12 X-92        DW Service to Drywell                4.0/2        4.5          4.5            19/2 X-93        Air to Drywell for Maintenance        2.4/2                                    22.3/2 d'ailed component                    TOTALS        134.35      130.8        113.28          153.15 Table 2 LLRT Results for Secondary Bypass Leakage Sources 118
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 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 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 5428 sccm per valve at test pressure of 25 psig. The as-left test results are tabulated in Table 3.
Leakage Rate (SCCM)
Penetration 1988          1989          1990        1991 X-18A            344            173          3275        2343 X-18B            688                          158          703 X-18C            375            341                        406 X-18D            290                          126        1322 Table 3 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. 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
      .053 gpm for the 1988 outage, .058 gpm for the 1989 outage, .014 gpm for the 1990 outage, and 1.13 gpm for the 1991 outage.
3.0  TYPE B & C AS-FOUND TESTING During the 1988, 1889, 1990 and 1991 testing sequences, the total Type B & C As-Found leakage rates exceed 0.6 La (67,920 sccm). Several valves had leakage rates in excess of the measuring capabilities of the testing instruments used or could not be pressurized to the required test pressure (Pa). For these valves, the as-found leakage rate is conservatively reported as greater than 0.6 La.
119
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report During the 1991 outage testing sequence, significant efforts were made to establish the leakage quantity of each isolation valve in series when tested simultaneously by pressurizing between two valves. In this way, the as-found minimum pathway leakage rate for a given penetration could be established for use in arriving at the As-Found Type A leakage rate.
Tables 4, 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, thus lowering the overall Type B and C leak rate below 0.5 La.
120
 
Pen  &#xb9;          Valve    Size                Function            As-Found  As-Left        Deficiency/Corrective No.                                                (SCCM)    (SCCM)                  Action X-13  SLC-V-4B            1'/i"  SLC Injection                          2.2      26.5 Replaced internals, Squib type valve X-22  MS-V-19              3N    Main Steam Header                    1508        32  Disassembled, lapped seats and wedge X-24  FDR-V-3              3N    Containment floor drain header        4940      335  Flushed debris with deminerized water X-27A  TIP-V-1                    TIP Containment Isolation              6.7      2.67  Scheduled replacement  of ball valves TIP-V-2              /s"  TIP Containment Isolation              6.4            Scheduled replacement  of ball valves X-27C  TIP-V-3            Ve"    TIP Containment Isolation              6.4            Scheduled replacement  of ball valves X-27D  TIP-V-4            Vs"    TIP Containment Isolation              6.4            Scheduled replacement  of ball valves X-27E  TIP-V-5            Ve"    TIP Containment Isolation              4.4            Scheduled replacement  of ball valves X-27F  TIP-V-15            Vs"    TIP Containment Isolation          >  0.6 La        Scheduled replacement  of ball valves X<2C  PI-V-X42C2                  Process Instrument line Isolation    415            Disassembled, lapped seats X-46  RCC-VRO, RCC-V-21    10"    Reactor Closed Cooling Return      > 0.6 La          Flushed debris with air X-47  RHR-V-134A          2N    RHR loop  A pump  test line        862        16 Flushed with deminerized water X48    RHR-FCV-64B                RHR loop B pump test line            6850        102 Flushed and cycled valve X%6    CSP-V-5            24"    Wetwell HVAC supply                > 0.6 La      3.3 Replaced seat X-67  CSP-V-6, CSP-V-8    24"    Wetwell HVAC exhaust              >  0.6 La    1930 Replaced seat and seal X-77Aa RRC-V-20                    RRC sample line                    > 0.6 La    348.3 Disassembled and cleaned X-83a  PSR-V-X83-2                Post accident sample (wetwell)                      Flushed with air and cycled valve X-96  CAC-V-2, CAC-FCV-2A  4N    CAC discharge to drywell                        499  Flushed valves with deminerized water X-99  CAC-V-6, CAC-FCV-1A  4"    CAC suction from drywell            1981        115 Flushed and stroked valves X-103  CAC-V-13, CAC-FCVAB  4w    CAC suction from wetwell            17,090      380  Flushed valves with deminerized water Table 4 1988  Outage - Isolation Valves Repaired/Adjusted
 
Pen &#xb9;          Valve      Size                Function            As-Found  As-Left          Deficiency/Corrective No.                                                (SCCM)    (SCCM)                    Action X-3    CEP-V-1A, CEP-V-2A  30"    Drywell HVAC exhaust              2303.3    1890  Replaced elastomer seals XP    RCIC-VQO              10N    RCIC turbine exhaust            > 0.6 La      440  Replaced soft seat X-13  SLC-V4A                      SLC to Reactor                      26.5      3.5  Replaced internals, Squib type valve X-14  RWCU-V-1              6"    RWCU from Reactor                    40.1    56.8  Operator grease changeout X-17A  RFW-V-10A            24"    RFW line A                            4.8      171  Replaced soft seat (EQ)
X-17A  RFW-V-32A            24"    RFW line  A                        347.47    1188.39 Replaced soft seat (EQ)
X-17A  RFW-VISA            24"    RFW line  A                      >  0.6 La 9460.42  Disassembled, lapped disc/seat X-17B  RFW-V-32B            24 N    RFW line B                          93.13  5376.91  Replaced soft seat (EQ)
X-17B  RFW-V-10B                    RFW line B                      > 0.6 La  6111.34  Replaced soft seat/corrected clearance X-21                            ~
RCIC-V-76              1    RHR condensing mode stm supply  > 0.6 La      12.2  Repacked/Movats X-21  RCIC-V-63            10N    kHR condensing mode stm supply  > 0.6 La      12.2  Movats X-22  MS-V-16, MS-V-19      3N    MS line                              1180      4.3  Operator grease changeout X-24  FDR-V-3              3N    Drywell floor drain                7660      6390  Flushed with deminerized water X-27F  TIP-V4              VB      TIP lines                        >  0.6 La          Disassembled/cleaned  internals XM    RCC-VRO              10N    RCC outlet header                  426.7      2.3  Operator grease changeout X49    HPCS-V-23            12N    HPCS test line                    934.5      557  Movats X49    HPCS-V-83, HPCS-V-84        HPCS test line vent                                  Replaced valves X-53  CSP-V-1, CSP-V-2    30"    Drywell HVAC supply                48.2      3.86  Replaced elastomer seals X-66  CSP-V-S, CSP-V-7    24"    Wetwell HVAC supply                  3.3      139  Replaced elastomer seals (EQ)
X-66  CSP-V-3, CSP-V4      24"    Wetwell HVAC supply                642.9      219  Replaced elastomer seals (EQ)
Table 5 1989 Outage    - Isolation Valves Repaired/Adjusted
 
Pen  &#xb9;          Valve  Size                  Function          As-Found    As-Left        Ddiciency/Corrective No.                                              (SCCM)    (SCCM)                  Action X-66  CSP-V-800-11              Wetwell HVAC supply vent        2543.33      15.9 Lapped seat X-67  CSP-VA, CSP-V-8  24"      RB/Wetwell vacuum breakers          1930      33.33 Replaced elastomer seals (EQ)
X%7    CEP-V-3A, CEP-VAA 24"      Wetwell HVAC exhaust                720        12.9 Replaced elastomer seals (EQ)
X-72F  PI-EFC-X72f                Process instrument line            4720        6.2  Cleaned internals X-73e  PI-EFC-X73e        1N    Process instrument line            287        58  Cleaned internals X-77Aa RRC-V-20                  RRC sample line                    348.3      81.2 Replaced valve X-77Ac PSR-V-X77A1                Post accident sample return        5103      4400  Lapped internals X-77Ac PSR-V-X77A2                Post accident sample return      5476.6      3300  Lapped internals X-91  CIA-V-31B          'h"    CIA line B for ADS accumulators  >  0.6 La  56.33 Cleaned/lapped internals X-119  CSP-V-9, CSP-V-10 24"      RB/Wetwell vacuum breakers          1592        74  Replaced elastomer seals (EQ)
X-119  CSP-V-800-16      ~4"    RB/Wetwell vacuum bkr line vent      566      15.66 Lapped internals Table 5 (CONTIN%M))
1989 Outage - Isolation Valves Repaired/Adjusted
 
Pen  &#xb9;          Valve    Size                Function            As-Found  As-Left          Deficiency/Corrective No.                                                (SCCM)    (SCCM)                    Action X-5    RCC-V-104            10"    RCC inlet header                    102.3      483  Movats X-14  RWCU-V-1            6N    RWCU from Reactor                    15        4.3  Repacked valve X-17A  RFW-VISA, RFW-V-65B 24"    RFW line A                        ) 0.6 La  1510.56 Repacked valves/Movats X-21  RCIC-V-8            4 II  RHR condensing mode stm supply    >  0.6 La  1510.56 Grease changeout/Repack/Movats X-21  RCIC-V-76                  RHR condensing mode stm supply    >  0.6 La  1510.56 Grease changeout/Repack/Movats II X-22  MS-V-16, MS-V-19    3      MS line                              102      14.25  Repack/Movats XM    RCC-VPO, RCC-V-21    10"    Reactor Closed Cooling Return        41        8.3  Movats XR9    HPCS-V-23            12"    HPCS test line                      142        51  Disassemble/corrected operator problem XP9    HPCS-V-12            4w    HPCS test line                      375        175  Repack/Movats X-53  CSP-V-1, CSP-V-2    30"    Drywell HVAC supply                4510      103.33 Replaced seats X-56  CIA-V-20                    CIA supply to SRV accumulators                69.5  Operator grease changeout/Movats X-63  LPCS-V-12            12"    LPCS test line                    202.33      636  Repack X%3    LPCS-FCV-11          3 II  LPCS test line                      110.6      220  Grease changeout/Repack X%4    RCIC-V-69          1'h"    RCIC vacuum pump discharge        113.33      218  Grease changeout X-65  RCIC-V-19            2N    RCIC pump minimum flow line          167      3.3  Grease changeout X%7    CEP-V-3A7 CEP-VPA  24"    Wetwell HVAC exhaust              ) 0.6 La      322  Adjusted linkage X-72f  PI-EFC-X72f          IN    Radiation monitoring return line    1185      134.3 Disassembled and cleaned internals X-89B  CIA-V-30A            'h"    CIA line A for ADS accumulators                  47  Grease changeout X-91  CIA-V-30B                  CIA line B for ADS accumulators                2.67  Grease changeout Table 6 1990 Outage    - Isolation Valves Repaired/Adjusted
 
1 'C Pen  &#xb9;          Valve                          Function          As-Found  As-Left        Deficiency/Corrective No.                                                (SCCM)    (SCCM)                    Action X-96  CAC-V-2                      CAC discharge to drywell          180      364  Grease changeout X-97  CAC-V-15, CAC-V-1B    4r    CAC suction from drywell          2570      713.8 Clean seats/grease  changeout X-98  CAC-V-11              4w    CAC discharge to drywell          387    279.75 Grease changeout X-99  CAC-VA, CAC-FCV-1A    4r    CAC suction from drywell          8600            Clean seats/grease changeout X-102  CAC-VA                4%    CAC discharge to wetwell                    257.6 Grease changeout X-103  CAC-V-13, CAC-FCV-4B  4 II  CAC suction from wetwell                    348  Cleaned seats/ grease changeout X-104  CAC-V-17                    CAC discharge to wetwell          352.3      73.3 Grease changeout X-105  CAC-V-8              4N    CAC suction from wetwell          568      2.66 Grease changeout X-119  CSP-V-10            24"    RB/WetweH vacuum breakers          718      820  Adjusted disc turnbuckle Table 6 (CONTINUED) 1990 Outage  - Isolation Valves Repaired/Adjusted
 
Pen &#xb9;          Valve    Size                Function          As-Found  As-Left        Deficiency/Corrective No.                                            (SCCM)    (SCCM)                  Action X-3    CEP-V-1A, CEP-V-2A 30"    Drywell HVAC exhaust              4585      625  Adjusted linkage X4    RCIC-V-68          IQII    RCIC turbine exhaust              470      177  Refurbishment/movats X-5    RCC-V-S, RCC-V-104 lola    RCC inlet header                  483            Refurbishment/movats X-11A  RHR-V-16 A        16"    Drywell spray loop A            1074.14    977.37 Refurbishment/movats X-11B  RHR-V-16B          16"    Drywell spray loop B              221            Refurbishment/clean seats/movats X-13  SLC-VAA                    SLC Injection                                    Replaced internals, squib type valve X-14  RWCU-V-1, RWCU-V-4  6 II  RWCU from Reactor                  78            Refurbishment/movats X-17A  RWCU-VCO                  RFW line A                        1229            Refurbishment/movats X-17B  RFW-V-32B          24"    RFW line B                      53089    546.67 Replaced soft seat X-21  RCIC-V-76                  RHR condensing mode stm supply    6730      89.9  Packing replacement X-21  RCIC-V-8            4N    RHR condensing mode stm supply    6730      89.9  Packing replacement MS-V-16              II X-22                      3      Main Steam Header                  12            Replaced disc/movats X-24  FDR-V-3, FDR-VA    3N    Containment floor drain header                    Replaced both valves with new design X-25B  RHR-V-27B          6      Wetwell spray loop B          >  0.6 La        Refurbishment/movats XP3A  RRC-V-16A                  RRC pump A seal water            3.66    35.33  Refurbishment/repack/movats
                            'N KGB    RRC-V-16B                  RRC pump B seal water                            Refurbishment/repack/movats X47    RHR-V-73 A                RHR loop A pump test line                  29.93  Refurbishment/movats X48    RHR-V-73B          2N    RHR loop B pump test line                        Refurbishment/movats X48    RHR-V-134B        2N      RHR loop B pump test line                  30.8  Refurbishment/movats X49    HPCS-V-12          4N    HPCS test line                    34.3            Refurbishment/movats Table 7 1991 Outage - Isolation Valves Repaired/Adjusted
 
Pen  &#xb9;          Valve    Size                Function          As-Found As-Left          Deficiency/Corrective No.                                            (SCCM)  (SCCM)                    Action X-53  CSP-V-2            30"    Drywell HVAC supply                90    550    Adjusted linkage X%3    LPCS-V-12          12"  LPCS test line                    1405    1620    Movats X%6    CSP-V-5            24"    Wetwell HVAC supply            > 0.6 La  84.3    Adjusted linkage X%6    CSP-V-93                  Wetwell HVAC supply                8300            Replaced o-ring seat X-67  CSP-V-3A, CSP-V-4A 24"    Wetwell HVAC exhaust              3860    40    Replaced soft seat in both X-73f  PSR-V-X73-2              Post accident sample (drywell)  1538.33  132.75  Flushed debris with air X-83a  PSR-V-X83-1              Post accident sample (wetwell)    153.13  131.33  Flushed with air and cycled valve X-84f  PSR-V-X84-2              Post accident sample (wetwell)    2580            Flushed with air X-89B  CIA-V-31A                CIA line A for ADS accumulators    665    156    Replaced soft seat insert X-89B  CIA-V-30A                CIA line A for ADS accumulators                    Movats X-91  CIA-V-30B                CIA line B for ADS accumulators              0  .
Movats X-101  FPC-V-149          6"    Wetwell cleanup return                      47    Refurbishment/movats X-101  FPC-V-156          6"    Wetwell cleanup return                      47    Refurbishment/movats X-119  CSP-V-10          24"    RB/Wetwell vacuum breakers        1250    2008    Adjusted disc linkage Table 7 (CONTINU19))
1991 Outage - Isolation Valves Repaired/Adjusted
 
'4 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 3.1    Main Steam Isolation Valves (MSIV's) tested I The as-found leak rates for the MSIV's are shown in Table 7. These valves are 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'ype A results. The allowable leak rate per Technical Specifications is 5427 sccm per valve.
Penetration        Valve                    As-Found Leakage Rates (SCCM)
Number          Number 1988          1989              1990                      1991 18A        MS-V-22A            344          173.4            3275            2343.19 MS-V-28A 18B        MS-V-22B            687.8                          157.47                  703.21 MS-V-28B 18C        MS-V-22C          375.22        341.29                                    405.88 MS-V-28C 18D        MS-V-22D          290.2                              126              1321.46 MS-V-28D Table 8 As-Found Leak Rates 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 1991 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 1991 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 & C penetrations from Table 6 was 4,935 sccm. Adding this figure to the as-left Type A leak rate (total time 95%
UCL value of 0.2973 %/day, yields a total as-found Type A leak rate of 0.320
      %/day. This does not exceed the maximum allowable leakage rate (La) of 0.5
      %/day (Ref. 1) or the As-Found acceptance criteria set forth in NRC I.E.,
Information Notice 85-71 of 0.75 La.
128
 
f Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pen  &#xb9;            Valve            Deficiency/Corrective    As-Found As-Left Penalties No.                      Action        (SCCM)  (SCCM)
X-3      CEP-V-1A, CEP-V-2A    Adjusted linkage            2292.5    312.5    1980 KA      RCIC-V48              Refurbishment/movats                    88.5  146.5 X-5      RCC-V-5, RCC-V-104    Refurbishment/movats                  262.5  -262.5 X-11A    RHR-V-16A              Refurbishment/movats        537.07  488.69  48.38 X-11B    RHR-V-16B              Refurbishment/clean            221              221 seats/movats X-13    SLC-V4A                Replaced internals, squib type valve X-14    RWCU-V-1, RWCU-V-4    Refurbishment/movats            39              39 X-17A    RWCU-VAO              Refurbishment/movats X-17B    RFW-V-32B              Replaced soft seat            1229              1229 X-22    MS-V-16                Replaced disc/movats X-24    FDR-V-3, FDR-VP        Replaced both valves with new design X<3B    RRC-V-16B              Refurbishment/repack/movats X-47    RHR-V-73 A            Refurbishment/movats        242.55  217.62 X-48    RHR-V-73B              Refurbishment/movats X<8      RHR-V-134              Refurbishment/movats          386    411.8  -25.8 X-49    HPCS-V-12              Refurbishment/movats          85.3    51.0    34.3 X-53    CSP-V-2                Adjusted linkage              97.5    327.5    -230 X-63    LPCS-V-12              Movats                        1625    1840    -215 Table 9 1991 Minimum Pathway Leak Rates for As-Found Type A Adjustment 129
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pen //'alve      No.
Deficiency/Corrective Action As-Found (SCCM)
As-Left (SCCM)
Penalties X-66    CSP-V-5              Adjusted linkage X-66    CSP-V-93              Replaced o-ring seat        397.2  175.65        221.55 X-67    CSP-V-3A, CSP-V-4A    Replaced soft seat in both  2089.5    179.5          1910 X-84f  PSR-V-X84-2          Flushed debris with air      8.33    5.0          3.33 X-101  FPC-V-149            Refurbishment/Movats X-101  FPC-V-156            Refurbishment/Movats                                -23.5 X-119  CSP-V-10              Adjusted disc linkage                              -379 Total    4690 Table 9 1991 Minimum Pathway Leak Rates for As-Found Type A Adjustment (CONTINUED) 130
 
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 5.0  TYPE B    4  C CONTAINMENTPENETRATION 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 Licence 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.
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 1991 outage, those which exceeded their leakage limits and must be retested during the 1992 outage, and those penetrations/valves not tested in 1991 and thus being scheduled for testing during the 1992 refueling outage.
The table that follows includes the information required under the conditions of the granted exemption to Appendix J.
131
 
TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B                                                                                                            5      C TESTS Page    1  of 5 TESTED IN 1991                                                TEST IN PEN  &#xb9;              TEST ID                &#xb9;                                        DESCRIPTION r",.h>hr,',.:,v''.r'h>?~".ex'>;Px'xgxr'x,".'.x:crr';rrr>P,rrrr,            r,x: ':x<>'':
LEAKLIMIT YES NO PASSED FAILED A:r<>,"Ir''r'rrx.">.;,
1992        NOTES h::aK<K>8%4          i&~Sk'&<                    x X-3                  STEP A6                        PPM 7.4.6.1.8.3 - CEP-V-1A,1B,2A,2B                                                              5660          X                                X X-4                    X-4-4                        RCIC-V-68,-40                                                                                    1475          X
'h;%XhhqhXC.?X
                                                      ;; >xh x::.'i;;q:.?:.,'>:i:>:<c'h'.;h '.@<gh>Ppg>.;.:;,:>:::.!'4s:c!g  ':.'g<m):"c!:.:@>  NK$QF@PN:i;j<%''
X-5-4
                '-5 RCC-V-5,-104                                                                                    1475          X MKMPRk&r<S 8>;r>>
X-11A                  X-11A-1                      RHR-V-17A,-1 6A                                                                                  1415          X                                X
                                                                                                                                                  >;RN~YN~$-:'4::.:!~~i      .<<4% h.'.~BSMi:>                          'xh(,".@hxh,'.?    '>.".4%'4rl% >.c:SV!>N X-11 B-1                      R HR-V-1 68,-1                      7B,                                                        1415          X                                                                                                    '-11B
:;.'.hhh.: ."':;h,.c:x+44m'xh~<Px.gAx<~44$ x>;-:a~'xV"<>'';(%c                    (K<4  c>:'C."'hh4&#xc3;k4 K88~x        IhSh pxxx4muN X-13                  X-13-1                          SLC-V-7                                                                                          221                      X X-13                  X-13-2                          SLC-V-4A,-4B                                                                                      221          X p+'ghrAhhx>pg  l":Sx.'r,,q. (Cgh%
X-14                  X-14-1                          RWCU-V-1,-4                                                                                      885          X                                X rc,'::vch<hhg::>    4,":?<re':>&,>:h><:>r,'-17A
                                                      >><%4".-:4$ 4344mggg@pg@mr3i:.::~%%i'.'."PA::;:<'.-"'.:i:':.">                                                                &Pxhh',:,':'.>w''i?x?:<r.";.
                                                                                                                                                                                                                  "Xc >x
                                                                                                                                                                                                                                    ".:.'.c p':Q:?('.re    .':hc<.':::::,j X-17A-1                        RFW-V-10A                                                                                        2125          X                                                                            X X-17A                  X-17A-2                        RFW-V-65B,-65A, RWCU-V-40                                                                        2125          X X-17A                  X-17A-4                        RFW-V-32A                                                                                        2125          X                                                                            X X-17B                X-17B-1                        RFW-V-10B                                                                                        2125          X X-17B                X-179-2                        RFW-V-32B                                                                                        2125          X                                                          X                X
                                                                                                                                                                                      @c.:;.c            ';      5:(    (P>j!;'rc'4g'ji    (58$&#xc3;Ki'':;:>4 Si&#xc3;&h&#xc3;s X-21                X-21-1                          RCIC-V-64,-63,-76,-8                                                                              1475          X                                                                            X
                                                      ><%NB ' . xX< 'h<
I %K+<h$h?..:          . Xc cN<X.@5+)%%          hh:::
                                                                                                                                          $ gacx X-22                X-22-1                          MS-V-16,-19                                                                                      442            X m::@ging>hhh,".'ig>a:kg<.."..,'.:;i',:          W;:N~N-:~~r< P'4@<%("';.
X-23                X-23-1                          EDR-V-20                                                                                          442            X X-23                X-23-2                          EDR-V-19                                                                                          442            X                                X aa<'jy~jr'.;h,'',xj~'..",. '> gx."xc >??xP>g>Xhxh)hj)XQxgPP~4',;.:.'<                                                            ::?6?re>'.>'.":.A' X-24                X-24-1                          FDR-V-4                                                                                          442            X X-24                X-24-2                          FOR-V-3                                                                                          442            X X-25A                X-25A-1                        RHR-V-27A                                                                                        885                      X X-25B                X-25B-3                        RHR-V-27B                                                                                        885            X chxhxe >. xc<>
X-26                X-26-1                          RHR.FCV-64C                                                                                      442                                                                                        X X-26                X-26-3                          RHR-V-21                                                                                        1595
                                                    ., 'jg@gxjgg(P .c.<:;:, .h&'?:c:. > .'?P .',,'>>.',:::>..:.,'., xx:,rgb:;,:;::,.@~
X-27A                X-27 A-2                      TIP-V-1                                                                                            50            X                                X X-27B                X-27B-2                        TIP-V-2                                                                                            50                                            X X-27C                X-27C-2                        TIP-V-3                                                                                            50            X                                X X-27D                X-27D-2                        TIP-V-4                                                                                            50                                            X X-27E                X-27E-2                        TIP-V-5                                                                                            50            X                                X X-27F                X-27F-2                        TIP-V-15 AND THREADED UNION                                                                      148            X                                X X-27F                X-27F-3                        TIP-V-6                                                                                            74            X                                X X-29a/c              X-29ac-1                        PI-VX-257                                                                                        148          X X-29alc              X-29 ac-2                      PI-VX-256                                                                                          148          X S?jh<X,"c'j?PPXrhx<$ Q ) jdrggjNPP'c<F<x?:j>) >:(4'r'.>':ecx:>c.':h~..                                                                                              g>: &#xc3;p>k:":.
c$
X-42<j              X-42d-1                        PI-VX-42d, PI-VX-21 6                                                                              148          X                                X
                                                    '>@'ec-'!:;:>  M';"::.P,:,":.:,',>;;gg>i>.'":;:i~WaWiij%~+4$ <j>@x@@i:c';r<                4<>CMX4354 %FF4 Nkii"'.
X-43A                X-43 A-1                      RRC-V-13A                                                                                          110          X                                X X-43A                X-43 A-2                      RRC-V-16A                                                                                          110          X hk &8':.".r:<k:>:<kcr:;.';1>:.,"hec: .;:'ac:::.:i)?:            >) >:::.r)::>~:$ (N'."xc                                    S~.B@3<4 132
 
TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B 8. C TESTS Paga 2        cf 5 TESTED IN 1991                                TEST IN PEN      &#xb9;      TEST ID        &#xb9;                              DESCRIPTION                                                          LEAKLIMIT YES NO PASSED FAILED                                                            1992                NOTES
,><+~K)qc  Q>cQk                    4p .(4@%eyA:.<ygyp$ )>x}.d<:.>g>>/y4::.<.; .~p?.                                                <.  <r'.< .(      ><; >. $    <0><
                    %45%?mmS'-43B-1 X-43B                                RRC-V-16B                                                                                                  110                    X  !<?<I.'<i%g>>"
X-43B              X-43B-3          RRC-V-13B                                                                                                  110                    X k@%?:-?'"':?'kcW~j'>@R%4q?3AA%5%siBX>)5484% <-"??8:A%".< Nx<
X .:-"                                  .iy'j .:I."-'?((4>3!<N N-''<V''?)~?.:<@ii X-46              X-46-1            RCC-V-40.-21                                                                                            1475 4''""'<c:                                    5>:-'&#xc3;j'jmP"                                                    8jg4:g<~~';~',
4"::"cVk 4<:: ><8"..'i;:'."<M@6~k4444~44'?%4>~(<%5:.:4SNiMR)K%?: 'R~ 4                                                                                          !".: g;::<<:,>.'4 i!.;'4::?'?';.<k5:.>
X-47                X-47-1            RHR-V-134A                                                                                                295                            X X-47                X-47-3            RHR.FCV-64A                                                                                              442                            X                                                      X X-47                X-47-6            RHR-V-1 21,-120                                                                                          885                                                                                    X X-47                X-47-9            RHR-V-24A,-11A                                                                                          1595                      X X-47                X-47-11          RHR-V-73A                                                                                                  295                    X yx.?<< ~      g<,q,                  .":.'4%>><:: ':" '?'. """>444"'::0>. i@S<4%4'?I?:",":%4525,';?                                      <'?:.'::."'"''? <I.";:?3: &j4            a'??4~%    Sk:    MS<;."Ni~<".:!:AN@>:?P>k'''<
X-48              X-48-4            RHR-V-11 6, -24B                                                                                        1595 X-48              X-48-5            RHR-FCV-64B                                                                                                442 X-48              X-48-6            RHR-V-1 34B                                                                                              295                    X X-48              X-48-8            RHR-V-73B                                                                                                  295                    X                  X
                                                                                                                                                                                            .'.<jelly.
X-49              X-49-1            HPCS-V-23                                                                                                1062                            X X-49                X-49-3            HPCS-V-12                                                                                                  590                    X
                                                                                                                                                                                    @:;:                gj+qg>."?><?<  <:?j~jg@~~Fg<'i'~
g>+5%"i'-53 X-53-1            CSP-V-96                                                                                                  148                    X X-53                X-53-2            CSP-V-97                                                                                                  148                    X                  X X-53                X-53-5            PPM 7.4.6.1.8.3 - CSP-V-1,-2                                                                            5660                      X
                                        >+~j~I'<<?<"" 'q>''? f<i? ~':9" +%+i?'"""::<"':".<<,"'< Kp~?(:""?                                                            l ''<Ns            <<:??I<ra<>..jq  <.":<@@+><<      <><.'.'<4'<';~+&#xc3;<::;@4:<
X-54Aa            X-54Aa-1          RCIC-V-184, -740                                                                                          148                    X Nk~&#xc3;%                                I?<j@j.'.,g; ?',,?g;:; >...,.':??;?hj/<?<m'yg?jajvy                I?,'?<r<~<..,'p            .'(?c;'.(?'c:;k?:,"<'? <.,'?<~'z<;
X-54Bf            X-54Bf-1          PI-VX-54Bf, PI-VX-218                                                                                      148                    X                  X MiFPN<4~A          ::<>-.ps~?r<k,:,'i?:,":j,,': V" ?<,'N,.:,'.j,'.      p'@%$4 < 'i%,;:,i:...'<; @" p >p'.p@%pj (g@                                    ??:;> y                                                                  4:i.:'c<.:iF< 4 X-56              X-56-1            CIA-V-21                                                                                                  110                    X X-56              X-56-3            CIA-V-20                                                                                                  110                    X
                                      '<a'.~%~-:::;i?:!5.:?."K~%%<:?:<'::4N1MR'l@eR<44@.-Pi%a<?                                      MPNSK".4i                    ~KN~A X-61 f              X-61 f-1          PI-VX-219, PI-VX-61f                                                                                      148                    X                  X z~~~+ @:<,."...'ix?;:::;ipc;jc< c+yQgc~<xg'p ><<: ~''<M;:.>NW<j',                            .".j".'<jjKj@~<XS?:.                  $?('?    g~gyg;?>:Pv<:'?<'<:@):c.'.,:M X-62f              X-62f-1          PI-VX-62f, PI-VX-220                                                                                      148                    X
                      .<<<<<><c <K'SP. i%>". <Y:.:.::?<?::.".:<1?:!:;:::;4<%<%~:NSRj?mII.P>
                    .<"                                                                          .::.':<9@":.'.;:";:.".':::.".".'.<<:. NVP~PPN. :F"'':"'.                                                                                            g~+?'?<)>,o?~~
X-63                X-63-1            LPCS-V-12                                                                                                1062                      X                                                            X X-63                X-63-4            LPCS-FCV-1              1                                                                                442                            X
                                                                                                                                                                                                                                                    ?h.'?Ig?~$ '?."g X-64                X-64-1            RCIC-V-69, -28                                                                                            221                                                                                  X X-65                X-65-1            RCIC-V-19                                                                                                  295                    X X-66                X-66-1            CSP-V-98                                                                                                  148                    X X-66                X-66-2            CSP-V-93                                                                                                  148                    X X-66                X-66-3            CSP-V-5, -7                                                                                            2124                      X                                                            X X-66                                  PPM 7.4.6.1.8.2 - CSP-V-3,-4                                                                            5660                      X p, <...aY<~ ... '.,@><:..r.:,      >+,: ><<>k(??(? <,%"..".,."jg@j<$<;%'?<;?q>                            >?  <.", ..'gq;py X-67                X-67-1            CSP-V-6, -8                                                                                            2124                      X X-67                                  PPM 7.4.6.1.8.2 - CEP-V-3A,35,4A,4B                                                                    5660                      X X-69c              X-69c-1          PI-VX-69c, Pl-VX-221                                                                                      148 i:,,;?S":gi~gjqj                      re?.;".sr?i?; y<:p>,"<p?;xp>>???g          >??? ':.'<:'.,:s;:.',.<<:..-.y;-;.;:,'.?>@            rgzo;,@;",,;;:;:,.:::::::::?i:.":.
b3rA4: w%
X-72f              X-72f-1          PI-VX-253                                                                                                  148                    X                  X X-72f              X-72f-2          PI.EFC-X72f                                                                                                148                    X                  X FN5@3>
                                                                                                                    .      133
 
TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B 8( C TESTS Page 3 of 5 TESTED IN 1991                                    TEST IN PEN    &#xb9;        TEST ID      &#xb9;                                  DESCRIPTION                                                      LEAKLIMIT YES NO PASSED m(<gg<.g>:.'AILED 1992  NOTES RN<~>('"'>i'>:akk:FN": ':""<&#xc3;sj5@k~k':<k':.i:>'?N4<??:.!::<'"::!.'>
X-73e                X-73e-1          PI-VX-259                                                                                                148              X X-73e                X-73e-2          Pl-EFC-X-73e                                                                                            148              X                                                    X X-73f                X-73f-1          P    SR-V-X73-1                                                                                          148              X X-73f                X-73f-2          PSR-V-X73-2                                                                                              148              X                                                    X i%>~R"'@48 %@>4-'488                  !1&#xc3;%$:::'"<:: "'<:>.:IN@Si<>'": i": 4>$ ">@4%                                                                                                                  ."
                                                                                                                                                                                                              <:::>><~k": M'p"'/%K@ ':.: Kj:9&#xc3;::<
X-77Aa              X-77Aa-1          RRC-V-20                                                                                                  148            ~ X X-77As              X-77As-2          RRC-V-19                                                                                                  148              X
                                                                                                                                                              'ii:442'~>>>N.'KCNI:><
                                      '%XXC%C>>>>><%ii@N':">."""X'4>':>>>>i%4.'::NN'k(4>; M(%@ENx<'>;                                                                                  (<,.'()gal(<:m X-77Ac              X-77Ac-1 PS R-V-X77A-1                                                                                                      148                          X X-77 Ac              X-77Ac-2 PSR-V-X77A-2                                                                                                      148 NF<<'>>)>>.'< >4<'>k': >pp? Np?>>:>Sr'?p'><                      " .:<?>>()4>:>>':      $ :,'>:>>,'<>>>>4@gg>'.
X-77Ad                X-77 A(I-1 PSR-V-X77A-3                                                                                                    148 X-77A(I              X-77Ad-2 PSR-V-X77A-4                                                                                                      148                          X                                                  X g>>>.'>>''jI',":: j<YA X-78d                X-78d-1          LPCS-V-66, -67                                                                                          148              X X-78e                X-78e-1          HPCS-V-65, -68                                                                                          148              X                          X X-80b                X-80b-1          PSR-V-XSO-1                                                                                              148              X X-80b                X-80b-2          PS R-V-X80-2                                                                                              148 K<>>x~'<.'?> >.".<lk?>>:(:):(>>>>aKCA'::,::>>:5'>>PXC?'M?v".',"4s11 X-82(I                X-82d-1          PS R-V-X82-1                                                                                              148                          X X-82d                X-82d-2          PS R-V-X82-2                                                                                              148 X-82e                X-82e-1          CAS-VX-82e, CAS-V-730                                                                                    148              X
                                      ;.(,;.<g, ?><:;;,'>.;:,, x<x<egur?>>>r>>y>~>'~ z;.>>;;<<;;:.,;.< w>>>>:..f >< <
X-82f                X-82f-1          PSR-V-X82-7                                                                                              148              X X-82f                X-82f-4          PSR-V-X82-8                                                                                              148              X                          X Ma4$$K~<:          YN4?? 54<m X-83a                X-83 a-1          PSR-V-X83-1                                                                                              148              X                                                              X X-83a                X-83 a-4          PS    R-V-X83-2                                                                                          148              X                          X X-84f                X-84f-1          PS R-V-X84-1                                                                                              148              X X-84f                X-84f-4          PSR-V-X84-2                                                                                              148              X                                                    X
<>gij <i::: <>',:phd gh<?,">gg;;:>@I >> N...>>><(<j%%>>>><<)+j(~:,.;>p@Ng<+%,                e jq$,:''; .;~~::)::,'f? x~>>>+<8~>> >
X-85s/c              X-85 ac-1        PI-VX-251                                                                                                148              X X-85a/c              X-85sc-2        PI-VX-250                                                                                                148              X
                                                                                                                                                                                    .jy&#xc3;(xj>>:::,p g~>x$:"; +>,"'i::-':::,'.>;<::<;:;i:;>',>x,><?.'ix. ij ( . i':;,gi"?:j>,.'>, > g>',.",ay.> '? ~
X-88                X-88-1          PSR-V-X88-1                                                                                              148                                                                              X X-88                X-88.4            PSR-V-X88-2                                                                                              148                                                                              X X-89B                X-89B-1          CIA-V-30A                                                                                                74 X-89B                X-89B-2          CIA-V-31A                                                                                                74
                                      <'>>1>>>&#xc3;5<g&#xc3;NS'N"".'f>~d>.",.'>'j>g::, js<<>'ag3~~Y(.".'.;".?<',,::, Y(>v'>@~                                                                gp>>>P.(<V+<
X-91                X-91-1          CIA-V-30B                                                                                                  74              X X-91                X-91-3          CIA-V-31 B                                                                                                74                                                    'NXMMN
                                      .'k@'i;,':; <>>> ',: '":%>><@b;s>>>>> +-'"<                                    >>>? >K@>>@Y X-92                  X-92-1          DW-V-156.-157                                                                                            295              X                          X
.,>;% 'p,A:<,?<.>(  '<>>:$ ,<g ?':;<<:>(?'?>??<.'<,:<:;?p&#xc3;<$                                                                                                ? '>>;.>,:K';< >>.;.;Xi 5$AN!4>'I X-93                  X-93-1          SA-V-109 AND PIPE CAP                                                                                    295              X N4N>>::YRV4 NFF'".:>><:((43>::
X-94                X-94-1          MWR-V-124                                                                                                110              X                          X X-94                X-94-2          X-94 PIPE CAP                                                                                                0 Fi@4N%'::                ;?J,";:?.,53<K<
134
 
I' TABLE 10 .
CONTAINMENT PENETRATION SCHEDULE FOR TYPE B 5. C TESTS Pago 4 of 5 TESTED IN 1991                        TEST IN PEN      &#xb9;      TEST ID          &#xb9;                              DESCRIPTION                                                        LEAKLIMIT YES NO PASSED FAILED                                        1992          NOTES X-95 X-95-1
                              <CM'~':: n)i.;.',5:Rk)kelt"(<".?%~:::::Ngx>:'.<5@k~&#xc3;x~':;:: .".<':?:.'N:
MWR-V-1 25                                                                                            110            X X-95                  X-95-2              X-95 PIPE CAP                    ~                                                                      0
                        >."4N 'xM k.">,'.x: r,"""::x<<4''<r'."i:>><.'>>'.">x0."<><<@<~jfh>>g":!:i"      .<'.: g''4:."".  '. 4%:< ~      "."
X-96                  X-96-1              CAC-V-2, CAC-FCV-2A                                                                                                        X y,.:;.><I,xpp)
X-97                  X-97-1              CAC-V-15, CAC-FCV-1B                                                                                590            X                  X j
                        ":a~@'j''g@@': j('.<p" "> '::<.'<:."."YjY@<<&xgiri'.::~.;:,ra?'r.:>..,';";:                    <;.4m X-98                  X-98-1              CAC-V-11, CAC-FCV-2B                                                                                590                  X                                            X X-99                  X-99-1              CAC-V-6, CAC-FCV-1A                                                                                  590            X                  X
                                                                                                                                                                                              @>j<<":.jNF" ?::,x."!>NFL~~:>ra>
><>xxpij%q%$ %(  8$    N4R4~'<% xRi%~S: >IS.':>.':4%>N@ <"AN%"'Nx%4~PxiN4&#xc3;4~%.                                                                                      <)kYx<g 'N~~"<%<%4>.
X-101                  X-101-1            FPC-V-156,-149                                                                                        885            X
'::::,:","x~x.>IN >?';                                                                                                                    'j~>:>.:ax!:."<4m'~;",'<r X-102                  X-102-1            CAC-V-4, CAC-FCV-4A                                                                                  590            X                                                  X 4'5",FA'SAN a.'Nl X-103                  X-103-1            CAC-V-13, CAC.FCV-4B                                                                                  590            X                  X
                        +<pe>"j@'+''x'x:x<':,'.,","..';%'xr:>              .';'.I:.";;:;                            >'.+v"      .'< Frx xIe)x 0xx@$          >x'> 4 e".Sg)&#xc3;l4<::?>:r,;'l                                                                rr>rrrr'>)>>'r'?<
X-104                  X-104-1            CAC-V-17, CAC-FCV-3B                                                                                  590
                        <4"?';! ":i:">i 'x@ @~ "44Y<<<          <:'.%@'+'"""""""'>':<,<<<e>A~@                                                                                              ?;
X-105                  X-105-1            CAC-V-S, CAC-FCV-3A                                                                                  590                  X                                            X X-117                  X-117-1            RHR-V-124A, -124B                                                                                    221 e:,'",P,'/@~I:<'<<'<",
X-118                  X-118-1            RHR-V-125A, -125B                                                                                    221                  X                                            X X-119                  X-119-1            CSP-V-9, -10                                                                                        2124              X                  X
.><x>;;gx(      .'(go TYPE B TESTS TESTED IN 1991                        TEST IN PEN      &#xb9;      TEST ID          &#xb9;                              DESCRIPTION                                                        LEAKLIMIT YES NO PASSED FAILED                                        1992          NOTES
                                                                          ',X .'::;'r.".:,,".'x:.'<<.":;:.':<%8<idrX:>f)r.'.:;:."<:.':xX". Y'rxrfrr.'."<~AN',:<.'<
BX-000                                      DRYWELL HEAD                                                                                            50            X                  X                                                3 BX-1 A                                      INSPECTION PORT                                                                                        50 BX-1B                                      INSPECTION PORT                                                                                        50 BX-1C                                      INSPECTION PORT                                                                                        50 BX-1D                                      INSPECTION PORT                                                                                        50            X                  X BX-1E                                      INSPECTION PORT                                                                                        50                                X BX-1F                                      INSPECTION PORT                                                                                        50            X BX-1G                                      INSPECTION PORT                                                                                        50 BX-1H                                      INSPECTION PORT                                                                                        50                                X BX-15                                      EQUIPMENT HATCH                                                                                        50            X                  X BX-16                                      PERSONNEL AIRLOCK - PPM 7.4.6.1.3.2                                                                5664 BX-27A BX-27A-1 TIP DRIVE FLANGE                                                                                                                  50                                                                X BX-27B                  BX-27B-1 TIP DRIVE FLANGE                                                                                                  50                  X                                            X BX-27C                  BX-27C-1 TIP DRIVE FLANGE                                                                                                  50                  X BX-27D                  BX-27D-1 TIP DRIVE FLANGE                                                                                                  50 BX-27E                  BX-27E-1 TIP DRIVE FLANGE                                                                                                  50                                                                X BX-27F                  BX-27F-1 TIP PURGE FLANGE                                                                                                  50            X BX-28                                      CRD REMOVAL HATCH                                                                                      50 BX-51                                      SUPPRESSION CHAMBER HATCH                                                                              50 BX-100A                                    NEUTRON MONITORING                                                                                    50 BX-100B                                    NEUTRON MONITORING                                                                                    50 BX-100C                                    NEUTRON MONITORING                                                                                    50            X
 
TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B                                              L C TESTS Page 5 of 5 TESTED IN 1991    TEST IN PEN  &#xb9;    TEST ID &#xb9;                DESCRIPTION                              LEAKLIMIT YES No PASSED FAILED                1992  NOTES BX-100 D                NEUTRON MONITORING                                            50              X        X BX-101 A                CONTROL ROD POSITION INDICATOR                                50              X        X BX-101 B                THERMOCOUPLE AND RTD                                          50              X BX-101C                THERMOCOUPLE AND RTD                                          50                        X BX-101 D                THERMOCOUPLE AND RTD                                          50 BX-102A                THERMOCOUPLE AND RTD                                          50 BX-102B                THERMOCOUPLE AND RTD                                          50                        X BX-103A                MEDIUM VOLTAGE POWER                                          50              X BX-103 B                MEDIUM VOLTAGE POWER                                          50              X BX-103 C                MEDIUM VOLTAGE POWER                                          50              X BX-103D                MEDIUM VOLTAGE POWER                                          50              X BX-104A                LOW VOLTAGE POWER                                              50 BX-104B                LOW VOLTAGE POWER                                              50 BX-104C                LOW VOLTAGE POWER                                              50                        X BX-104D                LOW VOLTAGE POWER                                              50              X        X BX-105A                CONTROL AND INDICATION                                        50                        X BX-105B                CONTROL AND INDICATION                                        50 BX-105C                CONTROL AND INDICATION                                        50 BX-105D                CONTROL AND INDICATION                                        50              X BX-106C                WIDE RANGE NEUTRON MONITORING                                  50              X        X BX-106D                WIDE RANGE NEUTRON MONITORING                                  50 BX-107A                LOW VOLTAGE PWR. AND CTL. IND.                                50              X        X BX-107B                LOW VOLTAGE PWR. AND CTL. IND                                  50              X BX-26        BX26RV-1  RHR-RV-25C DISCHARGE FLANGE                                    50 BX-26        BX26RV-2  RHR.RV-SSC DISCHARGE FLANGE                                    50                                      X BX-47        BX47RV-1  RHR-RV-1A DISCHARGE FLANGE                                    50                  X BX-47        BX47RV-2  RHR-RV-25A DISCHARGE FLANGE                                    50                  X BX-47        BX47RV-3  RHR-RV-88A DISCHARGE FLANGE                                  50                                        X BX-48        BX48RV-1  RHR-RV-'I B DISCHARGE FLANGE                                  50                                        X BX-48        BX48RV-2  RHR-RV-5 DISCHARGE FLANGE                                      50                  X BX-48        BX48RV-3  RHR.RV-25B DISCHARGE FLANGE                                    50                        X BX-48        BX48RV-4  RHR-RV-88B DISCHARGE FLANGE                                    50 BX-48        BX48RV-5  RHR-RV-30 DISCHARGE FLANGE                                    50                  X                    X BX-49        BX49RV-1  HPCS-RV-14 DISCHARGE FLANGE                                    50                  X BX-63        BX63RV-1  LPCS.RV-18 DISCHARGE FLANGE                                    50                                      X BX-63        BX63RV-2  LPCS.RV-31 DISCHARGE FLANGE                                    50              X 4~+Cigg+~%"~%          k%i%%4%i%NQM'<."FCCAXO.<<~l~:i'!'";:!<8:'i<%":<%%:::.k5 k@4!,8:;;:<,"<:i:,';: 0@
NOTES:        1. Containment Purge butterfly valves; tested every 6 months per Plant Technical Specifications. Leakage limit defined by Technical Specifications
: 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 1992 outage
: 4. Feedwater check valve soft seat. Tested every refueling outage per conditions of granted exemption.
                                                                    '36


During each annual spring outage in 1988, 1989, 1990, and 1991, 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 1991 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 maintenance on resilient seals, The ILRT results (as-left)are adjusted by the difference in minimum pathway leakage rates before and after repairs or maintenance activities to arrive at the Type A"as-found" value.The totals for Type B and C testing for the 1988, 1989, 1990 and 1991 outages yielded as-found values greater than 0.6 La.The deficiencies which led to the excessive leakages and the corrective actions taken to reduce the total leakage to below 0.6 La are included in the as-found testing section of this report.2.0 DISCUSSION (Type B&C Tests)2.1 Methods The pneumatic Type B&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&C penetrations.
During the 1988, 1989, 1990 and 1991 outages, Type B&C testing was performed in accordance with Exemption to Appendix J Testing issued by the NRC with Amendment No.41 to Facility Operating Licence NPF-21.This allowed testing of approximately half of the Type B&C penetrations during each shutdown for refueling.
For determining the Type B&C summations, those penetrations not tested have leakage values applied from the previous outage as-left condition.
The measured Type B&C Leakage rate summations are tabulated in the following Table 1.117 II Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Outage Year Sum of Type B Sum of Type C Sum of TypeB&C Allowable Limit 1988 1989 1990 1991 2,499 sccm 3, 170 sccm 2,056 sccm 252 sccm 16,718 sccm 25,751 sccm 25,726 sccm 12,580 sccm 19,217 sccm 28,921 sccm 27,782 sccm 12,832 sccm 56,600 sccm (0.5 La)56,600 sccm (0.5 La)56,600 sccm (0.5 La)56,600 sccm (0.5 La)Table 1 LLRT Results for Type B&C Testing Performed Since 1987 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 k 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 2.N~te: i.Passive components are considered exempt Leakage Rate (SCCM)Penetration Service 1988 1989 1990 1991 X-14 X-22 X-27f X-53 X-56 X-66 X-77Aa X-92 X-93 RWCU from RPV MS Drain TIP Line Drywell HVAC Supply CIA to SRV Accumulators.
Wetwell HVAC Supply RRC Sample Line DW Service to Drywell Air to Drywell for Maintenance 40.3/2 32/2 5.0 7.0 4.6 72.2+6.3 4.0/2 2.4/2 56.8 d 4.3/2 9.7 43.9 26.9 4.5 4.3 14.25 18.2 9.7 43.9 26.9+4.5 52.5 65+12 19/2 22.3/2 d'ailed component TOTALS 134.35 130.8 113.28 153.15 Table 2 LLRT Results for Secondary Bypass Leakage Sources 118 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 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 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 5428 sccm per valve at test pressure of 25 psig.The as-left test results are tabulated in Table 3.Leakage Rate (SCCM)Penetration 1988 1989 1990 1991 X-18A X-18B X-18C X-18D 344 688 375 290 173 341 3275 158 126 2343 703 406 1322 Table 3 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.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.053 gpm for the 1988 outage,.058 gpm for the 1989 outage,.014 gpm for the 1990 outage, and 1.13 gpm for the 1991 outage.3.0 TYPE B&C AS-FOUND TESTING During the 1988, 1889, 1990 and 1991 testing sequences, the total Type B&C As-Found leakage rates exceed 0.6 La (67,920 sccm).Several valves had leakage rates in excess of the measuring capabilities of the testing instruments used or could not be pressurized to the required test pressure (Pa).For these valves, the as-found leakage rate is conservatively reported as greater than 0.6 La.119 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report During the 1991 outage testing sequence, significant efforts were made to establish the leakage quantity of each isolation valve in series when tested simultaneously by pressurizing between two valves.In this way, the as-found minimum pathway leakage rate for a given penetration could be established for use in arriving at the As-Found Type A leakage rate.Tables 4, 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, thus lowering the overall Type B and C leak rate below 0.5 La.120 Pen&#xb9;Valve No.Size Function As-Found (SCCM)As-Left (SCCM)Deficiency/Corrective Action X-13 SLC-V-4B 1'/i" SLC Injection 2.2 26.5 Replaced internals, Squib type valve X-22 X-24 X-27A MS-V-19 FDR-V-3 TIP-V-1 3N 3N Main Steam Header Containment floor drain header TIP Containment Isolation 1508 4940 6.7 32 335 2.67 Disassembled, lapped seats and wedge Flushed debris with deminerized water Scheduled replacement of ball valves X-27C X-27D X-27E X-27F X<2C X-46 X-47 X48 X%6 X-67 X-77Aa X-83a TIP-V-2 TIP-V-3 TIP-V-4 TIP-V-5 TIP-V-15 PI-V-X42C2 RCC-VRO, RCC-V-21 RHR-V-134A RHR-FCV-64B CSP-V-5 CSP-V-6, CSP-V-8 RRC-V-20 PSR-V-X83-2 2N RHR loop A pump test line RHR loop B pump test line 24" Wetwell HVAC supply 24" Wetwell HVAC exhaust RRC sample line Post accident sample (wetwell)/s" TIP Containment Isolation Ve" TIP Containment Isolation Vs" TIP Containment Isolation Ve" TIP Containment Isolation Vs" TIP Containment Isolation Process Instrument line Isolation 10" Reactor Closed Cooling Return 6.4 6.4 6.4 4.4>0.6 La 415>0.6 La 862 6850 16 102>0.6 La 3.3>0.6 La 1930>0.6 La 348.3 Scheduled replacement of ball valves Scheduled replacement of ball valves Scheduled replacement of ball valves Scheduled replacement of ball valves Scheduled replacement of ball valves Disassembled, lapped seats Flushed debris with air Flushed with deminerized water Flushed and cycled valve Replaced seat Replaced seat and seal Disassembled and cleaned Flushed with air and cycled valve X-96 X-99 X-103 CAC-V-2, CAC-FCV-2A CAC-V-6, CAC-FCV-1A CAC-V-13, CAC-FCVAB 4N CAC discharge to drywell 4w CAC suction from wetwell 4" CAC suction from drywell 1981 17,090 499 115 380 Flushed valves with deminerized water Flushed and stroked valves Flushed valves with deminerized water Table 4 1988 Outage-Isolation Valves Repaired/Adjusted Pen&#xb9;Valve No.Size Function As-Found (SCCM)As-Left (SCCM)Deficiency/Corrective Action X-3 CEP-V-1A, CEP-V-2A 30" Drywell HVAC exhaust 2303.3 1890 Replaced elastomer seals XP X-13 X-14 RCIC-VQO SLC-V4A RWCU-V-1 10N 6" RCIC turbine exhaust SLC to Reactor RWCU from Reactor>0.6 La 26.5 40.1 440 3.5 56.8 Replaced soft seat Replaced internals, Squib type valve Operator grease changeout X-21 X-21 X-22 X-24 RCIC-V-76 RCIC-V-63 MS-V-16, MS-V-19 FDR-V-3 X-17A RFW-V-10A X-17A RFW-V-32A X-17A RFW-VISA X-17B RFW-V-32B X-17B RFW-V-10B 24" 24" 24" 24 N 1~10N 3N 3N RFW line A RFW line A RFW line A RFW line B RFW line B RHR condensing mode stm supply kHR condensing mode stm supply MS line Drywell floor drain 4.8 347.47>0.6 La 93.13>0.6 La>0.6 La>0.6 La 1180 7660 171 Replaced soft seat (EQ)12.2 12.2 4.3 Repacked/Movats Movats Operator grease changeout 6390 Flushed with deminerized water 1188.39 Replaced soft seat (EQ)9460.42 Disassembled, lapped disc/seat 5376.91 Replaced soft seat (EQ)6111.34 Replaced soft seat/corrected clearance XM RCC-VRO X-27F TIP-V4 VB 10N TIP lines RCC outlet header>0.6 La 426.7 2.3 Disassembled/cleaned internals Operator grease changeout X49 X49 X-53 X-66 X-66 HPCS-V-23 HPCS-V-83, HPCS-V-84 CSP-V-1, CSP-V-2 CSP-V-S, CSP-V-7 CSP-V-3, CSP-V4 12N 30" 24" 24" HPCS test line HPCS test line vent Drywell HVAC supply Wetwell HVAC supply Wetwell HVAC supply 934.5 48.2 3.3 642.9 557 3.86 139 219 Movats Replaced valves Replaced elastomer seals Replaced elastomer seals (EQ)Replaced elastomer seals (EQ)Table 5 1989 Outage-Isolation Valves Repaired/Adjusted Pen&#xb9;Valve No.Size Function As-Found (SCCM)As-Left (SCCM)Ddiciency/Corrective Action X-66 X-67 X%7 X-72F CSP-V-800-11 CSP-VA, CSP-V-8 CEP-V-3A, CEP-VAA PI-EFC-X72f Wetwell HVAC supply vent 24" RB/Wetwell vacuum breakers 24" Wetwell HVAC exhaust Process instrument line 2543.33 1930 720 4720 6.2 Cleaned internals 15.9 Lapped seat 33.33 Replaced elastomer seals (EQ)12.9 Replaced elastomer seals (EQ)X-73e PI-EFC-X73e 1N Process instrument line 287 58 Cleaned internals X-77Aa X-77Ac X-77Ac X-91 X-119 X-119 RRC-V-20 PSR-V-X77A1 PSR-V-X77A2 CIA-V-31B CSP-V-9, CSP-V-10 CSP-V-800-16
'h" RRC sample line Post accident sample return Post accident sample return CIA line B for ADS accumulators 24" RB/Wetwell vacuum breakers~4" RB/Wetwell vacuum bkr line vent 348.3 5103 5476.6>0.6 La 1592 566 74 Replaced elastomer seals (EQ)15.66 Lapped internals 81.2 Replaced valve 4400 Lapped internals 3300 Lapped internals 56.33 Cleaned/lapped internals Table 5 (CONTIN%M))
1989 Outage-Isolation Valves Repaired/Adjusted Pen&#xb9;Valve No.Size Function As-Found (SCCM)As-Left (SCCM)Deficiency/Corrective Action X-5 X-14 RCC-V-104 RWCU-V-1 6N RWCU from Reactor 10" RCC inlet header 102.3 15 483 4.3 Movats Repacked valve X-17A RFW-VISA, RFW-V-65B 24" RFW line A)0.6 La 1510.56 Repacked valves/Movats X-21 X-21 X-22 RCIC-V-8 RCIC-V-76 MS-V-16, MS-V-19 4 II 3 II RHR condensing mode stm supply RHR condensing mode stm supply MS line>0.6 La>0.6 La 102 1510.56 Grease changeout/Repack/Movats 1510.56 Grease changeout/Repack/Movats 14.25 Repack/Movats XM XR9 RCC-VPO, RCC-V-21 HPCS-V-23 10" Reactor Closed Cooling Return 12" HPCS test line 41 142 8.3 51 Movats Disassemble/corrected operator problem XP9 X-53 HPCS-V-12 CSP-V-1, CSP-V-2 4w HPCS test line 30" Drywell HVAC supply 375 4510 175 Repack/Movats 103.33 Replaced seats X-56 X-63 X%3 X%4 CIA-V-20 LPCS-V-12 LPCS-FCV-11 RCIC-V-69 3 II LPCS test line 1'h" RCIC vacuum pump discharge CIA supply to SRV accumulators 12" LPCS test line 202.33 110.6 113.33 69.5 636 220 218 Operator grease changeout/Movats Repack Grease changeout/Repack Grease changeout X-65 X%7 RCIC-V-19 CEP-V-3A7 CEP-VPA 2N RCIC pump minimum flow line 24" Wetwell HVAC exhaust 167)0.6 La 3.3 Grease changeout 322 Adjusted linkage X-91 CIA-V-30B X-72f PI-EFC-X72f X-89B CIA-V-30A IN'h" Radiation monitoring return line CIA line A for ADS accumulators CIA line B for ADS accumulators 1185 47 Grease changeout 2.67 Grease changeout 134.3 Disassembled and cleaned internals Table 6 1990 Outage-Isolation Valves Repaired/Adjusted 1'C Pen&#xb9;X-96 CAC-V-2 Valve No.Function CAC discharge to drywell As-Found (SCCM)180 As-Left (SCCM)364 Deficiency/Corrective Action Grease changeout X-97 X-98 X-99 X-102 CAC-V-15, CAC-V-1B CAC-V-11 CAC-VA, CAC-FCV-1A CAC-VA 4r 4w 4r 4%CAC suction from drywell CAC discharge to drywell CAC suction from drywell CAC discharge to wetwell 2570 387 8600 713.8 Clean seats/grease changeout 279.75 Grease changeout Clean seats/grease changeout 257.6 Grease changeout X-103 CAC-V-13, CAC-FCV-4B 4 II CAC suction from wetwell 348 Cleaned seats/grease changeout X-104 X-105 X-119 CAC-V-17 CAC-V-8 CSP-V-10 4N CAC discharge to wetwell CAC suction from wetwell 24" RB/WetweH vacuum breakers 352.3 568 718 73.3 Grease changeout 820 Adjusted disc turnbuckle 2.66 Grease changeout Table 6 (CONTINUED) 1990 Outage-Isolation Valves Repaired/Adjusted Pen&#xb9;Valve No.Size Function As-Found (SCCM)As-Left (SCCM)Deficiency/Corrective Action X-3 CEP-V-1A, CEP-V-2A 30" Drywell HVAC exhaust 4585 625 Adjusted linkage X4 X-5 RCIC-V-68 RCC-V-S, RCC-V-104 IQII lola RCIC turbine exhaust RCC inlet header 470 483 177 Refurbishment/movats Refurbishment/movats X-11A RHR-V-16 A X-11B RHR-V-16B X-13 X-14 X-17A RWCU-VCO X-17B RFW-V-32B SLC-VAA RWCU-V-1, RWCU-V-4 16" 16" 6 II 24" Drywell spray loop A Drywell spray loop B SLC Injection RWCU from Reactor RFW line A RFW line B 1074.14 221 78 1229 53089 977.37 Refurbishment/movats Refurbishment/clean seats/movats Replaced internals, squib type valve Refurbishment/movats Refurbishment/movats 546.67 Replaced soft seat X-21 X-21 X-22 X-24 RCIC-V-76 RCIC-V-8 MS-V-16 FDR-V-3, FDR-VA 4N 3 II 3N RHR condensing mode stm supply RHR condensing mode stm supply Main Steam Header Containment floor drain header 6730 6730 12 89.9 89.9 Packing replacement Packing replacement Replaced disc/movats Replaced both valves with new design X-25B RHR-V-27B XP3A RRC-V-16A KGB RRC-V-16B X47 RHR-V-73 A 6'N Wetwell spray loop B RRC pump A seal water RRC pump B seal water RHR loop A pump test line>0.6 La 3.66 Refurbishment/movats 35.33 Refurbishment/repack/movats Refurbishment/repack/movats 29.93 Refurbishment/movats X48 X48 X49 RHR-V-73B RHR-V-134B HPCS-V-12 2N 2N 4N RHR loop B pump test line RHR loop B pump test line HPCS test line 34.3 30.8 Refurbishment/movats Refurbishment/movats Refurbishment/movats Table 7 1991 Outage-Isolation Valves Repaired/Adjusted Pen&#xb9;Valve No.Size Function As-Found (SCCM)As-Left (SCCM)Deficiency/Corrective Action X-53 CSP-V-2 30" Drywell HVAC supply 90 550 Adjusted linkage X%3 X%6 X%6 LPCS-V-12 CSP-V-5 CSP-V-93 12" LPCS test line 24" Wetwell HVAC supply Wetwell HVAC supply 1405>0.6 La 8300 1620 Movats 84.3 Adjusted linkage Replaced o-ring seat X-67 CSP-V-3A, CSP-V-4A 24" Wetwell HVAC exhaust 3860 40 Replaced soft seat in both X-73f X-83a PSR-V-X73-2 PSR-V-X83-1 Post accident sample (drywell)Post accident sample (wetwell)1538.33 153.13 132.75 Flushed debris with air 131.33 Flushed with air and cycled valve X-84f X-89B X-89B PSR-V-X84-2 CIA-V-31A CIA-V-30A Post accident sample (wetwell)CIA line A for ADS accumulators CIA line A for ADS accumulators 2580 665 156 Flushed with air Replaced soft seat insert Movats X-91 X-101 X-101 X-119 CIA-V-30B FPC-V-149 FPC-V-156 CSP-V-10 6" 6" CIA line B for ADS accumulators Wetwell cleanup return Wetwell cleanup return 24" RB/Wetwell vacuum breakers 1250 0.Movats 47 47 Refurbishment/movats Refurbishment/movats 2008 Adjusted disc linkage Table 7 (CONTINU19))
1991 Outage-Isolation Valves Repaired/Adjusted
'4 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 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 7.These valves are tested I 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'ype A results.The allowable leak rate per Technical Specifications is 5427 sccm per valve.Penetration Number Valve Number 1988 1989 1990 As-Found Leakage Rates (SCCM)1991 18A 18B 18C 18D MS-V-22A MS-V-28A MS-V-22B MS-V-28B MS-V-22C MS-V-28C MS-V-22D MS-V-28D 344 687.8 375.22 290.2 173.4 341.29 3275 157.47 126 2343.19 703.21 405.88 1321.46 Table 8 As-Found Leak Rates 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 1991 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 1991 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&C penetrations from Table 6 was 4,935 sccm.Adding this figure to the as-left Type A leak rate (total time 95%UCL value of 0.2973%/day, yields a total as-found Type A leak rate of 0.320%/day.This does not exceed the maximum allowable leakage rate (La)of 0.5%/day (Ref.1)or the As-Found acceptance criteria set forth in NRC I.E., Information Notice 85-71 of 0.75 La.128 f
Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pen&#xb9;Valve No.Deficiency/Corrective Action As-Found (SCCM)As-Left Penalties (SCCM)X-3 KA X-5 CEP-V-1A, CEP-V-2A RCIC-V48 RCC-V-5, RCC-V-104 Adjusted linkage Refurbishment/movats Refurbishment/movats 2292.5 312.5 88.5 262.5 1980 146.5-262.5 X-11A RHR-V-16A X-11B RHR-V-16B Refurbishment/movats Refurbishment/clean seats/movats 537.07 221 488.69 48.38 221 X-13 SLC-V4A Replaced internals, squib type valve X-14 X-17A RWCU-VAO RWCU-V-1, RWCU-V-4 Refurbishment/movats Refurbishment/movats 39 39 X-17B X-22 X-24 RFW-V-32B MS-V-16 FDR-V-3, FDR-VP Replaced soft seat Replaced disc/movats Replaced both valves with new design 1229 1229 X<3B RRC-V-16B Refurbishment/repack/movats X-47 X-48 X<8 X-49 X-53" X-63 RHR-V-73 A RHR-V-73B RHR-V-134 HPCS-V-12 CSP-V-2 LPCS-V-12 Refurbishment/movats Refurbishment/movats Refurbishment/movats Refurbishment/movats Adjusted linkage Movats 242.55 386 85.3 97.5 1625 217.62 411.8 51.0 327.5 1840-25.8 34.3-230-215 Table 9 1991 Minimum Pathway Leak Rates for As-Found Type A Adjustment 129 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pen//'alve No.Deficiency/Corrective Action As-Found (SCCM)As-Left (SCCM)Penalties X-66 CSP-V-5 X-66 CSP-V-93 X-67 CSP-V-3A, CSP-V-4A X-84f PSR-V-X84-2 X-101 FPC-V-149 X-101 FPC-V-156 X-119 CSP-V-10 Adjusted linkage Replaced o-ring seat Replaced soft seat in both Flushed debris with air Refurbishment/Movats Refurbishment/Movats Adjusted disc linkage 397.2 2089.5 8.33 175.65 179.5 5.0 221.55 1910 3.33-23.5-379 Total 4690 Table 9 1991 Minimum Pathway Leak Rates for As-Found Type A Adjustment (CONTINUED) 130 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 5.0 TYPE B 4 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 Licence 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.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 1991 outage, those which exceeded their leakage limits and must be retested during the 1992 outage, and those penetrations/valves not tested in 1991 and thus being scheduled for testing during the 1992 refueling outage.The table that follows includes the information required under the conditions of the granted exemption to Appendix J.131 Page 1 of 5 TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B 5 C TESTS PEN&#xb9;TEST ID&#xb9;h::aK<K>8%4 i&~Sk'&<x DESCRIPTION r",.h>hr,',.:,v''.r'h>?~".ex'>;Px'xgxr'x,".'.x:crr';rrr>P,rrrr, r,x: ':x<>'': TESTED IN 1991 PASSED A:r<>,"Ir''r'rrx.">.;, FAILED LEAKLIMIT YES NO TEST IN 1992 NOTES X-3 STEP A6 PPM 7.4.6.1.8.3
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BX-000 BX-1 A BX-1B BX-1C BX-1D BX-1E BX-1F BX-1G DRYWELL HEAD INSPECTION PORT INSPECTION PORT INSPECTION PORT INSPECTION PORT INSPECTION PORT INSPECTION PORT INSPECTION PORT 50 50 50 50 50 50 50 50 X X X X X X 3 BX-1H BX-15 BX-16 50 INSPECTION PORT EQUIPMENT HATCH 50 PERSONNEL AIRLOCK-PPM 7.4.6.1.3.2 5664 X X X BX-27A BX-27A-1 BX-27B BX-27B-1 BX-27C BX-27C-1 BX-27D BX-27D-1 BX-27E BX-27E-1 BX-27F BX-27F-1 BX-28 BX-51 BX-100A BX-100B BX-100C TIP DRIVE FLANGE TIP DRIVE FLANGE TIP DRIVE FLANGE TIP DRIVE FLANGE TIP DRIVE FLANGE TIP PURGE FLANGE CRD REMOVAL HATCH SUPPRESSION CHAMBER HATCH NEUTRON MONITORING NEUTRON MONITORING NEUTRON MONITORING 50 50 50 50 50 50 50 50 50 50 50 X X X X X X X Page 5 of 5 TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B L C TESTS PEN&#xb9;TEST ID&#xb9;DESCRIPTION LEAKLIMIT YES TESTED IN 1991 PASSED FAILED No TEST IN 1992 NOTES BX-100 D BX-101 A BX-101 B BX-101C BX-101 D BX-102A BX-102B BX-103A BX-103 B BX-103 C BX-103D BX-104A BX-104B BX-104C BX-104D BX-105A BX-105B BX-105C BX-105D BX-106C BX-106D BX-107A BX-107B NEUTRON MONITORING CONTROL ROD POSITION INDICATOR THERMOCOUPLE AND RTD THERMOCOUPLE AND RTD THERMOCOUPLE AND RTD THERMOCOUPLE AND RTD THERMOCOUPLE AND RTD MEDIUM VOLTAGE POWER MEDIUM VOLTAGE POWER MEDIUM VOLTAGE POWER MEDIUM VOLTAGE POWER LOW VOLTAGE POWER LOW VOLTAGE POWER LOW VOLTAGE POWER LOW VOLTAGE POWER CONTROL AND INDICATION CONTROL AND INDICATION CONTROL AND INDICATION CONTROL AND INDICATION WIDE RANGE NEUTRON MONITORING WIDE RANGE NEUTRON MONITORING LOW VOLTAGE PWR.AND CTL.IND.LOW VOLTAGE PWR.AND CTL.IND 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 X X X X X X X X X X X X X X X X X X X X X BX-26 BX-26 BX-47 BX-47 BX-47 BX-48 BX-48 BX-48 BX-48 BX-48 BX-49 BX26RV-1 BX26RV-2 BX47RV-1 BX47RV-2 BX47RV-3 BX48RV-1 BX48RV-2 BX48RV-3 BX48RV-4 BX48RV-5 BX49RV-1 RHR-RV-25C DISCHARGE FLANGE RHR.RV-SSC DISCHARGE FLANGE RHR-RV-1A DISCHARGE FLANGE RHR-RV-25A DISCHARGE FLANGE RHR-RV-88A DISCHARGE FLANGE RHR-RV-'I B DISCHARGE FLANGE RHR-RV-5 DISCHARGE FLANGE RHR.RV-25B DISCHARGE FLANGE RHR-RV-88B DISCHARGE FLANGE RHR-RV-30 DISCHARGE FLANGE HPCS-RV-14 DISCHARGE FLANGE 50 50 50 50 50 50 50 50 50 50 50 X X X X X X X X X X BX-63 BX-63 4~+Cigg+~%"~%
BX63RV-1 BX63RV-2 LPCS.RV-18 DISCHARGE FLANGE LPCS.RV-31 DISCHARGE FLANGE 50 50 X k%i%%4%i%NQM'<."FCCAXO.<<~l~:i'!'";:!<8:'i<%":<%%:::.k5 k@4!,8:;;:<,"<:i:,';:
0@'X NOTES: 1.Containment Purge butterfly valves;tested every 6 months per Plant Technical Specifications.
Leakage limit defined by Technical Specifications 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 1992 outage 4.Feedwater check valve soft seat.Tested every refueling outage per conditions of granted exemption.
'36
~'}}

Latest revision as of 07:44, 4 February 2020

Primary Containment 1991 Integrated Leakage Rate Test Final Rept.
ML17286B089
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Issue date: 10/10/1991
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WASHINGTON PUBLIC POWER SUPPLY SYSTEM WNP-2 PRIMARY CONTAINVKNT 1991 INTEGRATED LEAKAGE RATE TEST FINAL REPORT 5'f10160226 9iiOi0 PDR ADOCK 05000397

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Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE OF CONTENTS SECTION PAGE 1.0 Introduction 2.0 Summary 2.1 Type A Test 2.2 Type B & C Tests 3.0 Methodology 3.3 Leakage Rate Calculation 3.2 Test Measurements 4.0 Procedures 4.1 Plant Status 9 4.2 Prerequisite Activities 10 4.3 Pressurization 10 4.4 Stabilization 11 4.5 Type A Test 12 4.6 Verification Test 12 5.0 Results 13 5.1 Type A Test 13 5.2 As-Found Leakage Rate 16 5.3 Verification Test 16 5.4 Mass Point Results 17 6.0 References 18 Tables and Figures 19 - 31 Containment Description APPENDIX I 32 Computer Program Description APPENDIX II 34 Type A Test Data APPENDIX III 36 Type B and C Test Results Summary Report APPENDIX IV 114

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report

1.0 INTRODUCTION

The containment integrated leakage rate test (ILRT) is performed as required by 10CFR50/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) which is cited by Appendix J, and in BN-TOP-1 (Reference 3) which defines an alternative methodology acceptable to the Nuclear Regulatory Commission. The conduct of the ILRT follows a plant surveillance procedure (Reference 4) which contains detailed instructions for all test phases.

References 1 and 3 provide two distinct options for the performance of the ILRT. The WNP-2 licensing documents provide a third option. If the Type A test (that part of the ILRT during which data used to calculate the basic leakage rate is gathered) has a duration of at least 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, Ref. 1 allows leakage rate calculations to be performed using the mass point method defined in ANSI/ANS 56.8 (Reference 5). If the Type A test has a duration of less than 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, leakage rate calculations must be performed using the total time method described in Ref. 3. However, the foregoing requirements are modified by the WNP-2 licensing documents so that if test duration is 12 to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, leakage rate may be calculated using the total time method described in Reference 2. The Reference 3 requirements apply only if test duration is between 8 and 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. The 95% upper confidence limit calculation derived in Ref. 3 provides a very conservative (relative to the mass point UCL defined in Ref. 5) upper bound on leakage rate. Since the Type A test reported herein had a duration of 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />, total time calculations as defined in Ref. 3 were used to determine leakage rate and UCL. Mass point calculation results are listed in Section 5, but are provided for information only. Had the test duration been between 8 and 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, a less conservative total time calculation (Ref. 2) would have been used to determine leakage rate and UCL. However, since the test duration was 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />, the alternative total time method was not applicable.

The WNP-2 1991 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, Methodology, 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 the Appendix contains a description of the containment, a discussion of the computer program used to calculate leakage rate, a tabulation of all Type B and C local leakage rate testing results obtained since the previous ILRT and listing of all containment atmospheric condition data recorded from the start of stabilization to the end of the verification test.

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Leakage rates and UCLs presented in the text of this report are rounded off to the nearest 0.001 %/day while the tables, generated by the ILRT computer program, list rates and UCLs to the nearest 0.0001 %/day, Considering all pertinent factors, leakage rates and UCLs are probably accurate to no better than the 0.001 %/day presented in the text.

2.0

SUMMARY

2.1 Type A Test The WNP-2 1991 ILRT was conducted on June 7-9, 1991. Pressurization commenced at 3:18 AM (all times in PDT) on June 7 following the completion of all prerequisite activities, and the containment was isolated at 7;00 PM on the same day when pressure had reached 35,2 psig. Pressurization was suspended for several hours starting at 7:30 AM for repair work on the pressurization line. Service air was used to continue pressurization during a part of the time that repairs were underway. During the latter stages of pressurization, suppression pool level was observed to be dropping at a rate of about 0.04 inches/hour, The start of the formal stabilization period and the start of the Type A test were delayed while the cause of pool level loss was investigated.

Stabilization commenced at 3:00 PM on June 8 and the Type A test was started five hours later, at 8:00 PM. Stabilization criteria were met in four hours. The start of the Type A test was delayed for an additional hour to allow time for replacing the data acquisition system with a backup unit. The Type A test was successfully concluded at 4:00 AM on June 9. Test duration was 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. The verification test imposed leak was initiated between 4:00 AM and 4:15 AM and the verification test commenced at 5: 15 AM, following the one hour stabilization period required by Ref. 3. The verification test was successfully completed in 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />, at 9:15 AM. Depressurization began at 12:57 AM following evaluation of an air sample by HP/Chemistry.

Test results are listed below:

95% UCL on total time leakage rate 0.211 %/day Acceptance limit (0.75 La) 0.375 %/day Extrapolated total time calculated leakage rate 0.168 %/day Acceptance limit (0.75 La) 0.375 %/day Mean of the measured leakage rates 0.180 %/day Acceptance limit (La) 0.500 %/day Verification test total time calculated leakage rate 0.636 %/day Upper acceptance limit 0.790 %/day Lower acceptance limit 0.540 %/day

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report The final as-left leakage rate (UCL) is 0.254 %/day since penalties for penetrations in non-standard alignment and water inventory increase are 0.043 %/day.

The calculated as-found leakage rate (UCL) is 0.281 %/day, This is the sum of the 0.254 %/day as-left UCL and the 0.027 %/day minimum pathway leakage improvements made during the Type B and C local leakage rate testing program.

2.2 Type B & C Tests Type B & C local leak rate testing was performed during each of the four annual spring outages since the last ILRT conducted in 1987. The last test period occurred just prior to the 1991 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 6. 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 6.

o Spring 1988 Outage The measured leak rate for the sum of the as-left Type B & C tests was 19,218 sccm (0.17 La).

0 Spring 1989 Outage The measured leak rate for the sum of the as-left Type B & C tests was 28,921 sccm (0.26 La),

o Spring 1990 Outage The measured leak rate for the sum of the as-left Type B & C tests was 27,783 sccm (0.25 La).

o Spring 1991 Outage The measured leak rate for the sum of the as-left Type B & C tests was 12,833 sccm (0.12 La).

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 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 period of time. 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 as the sum of the products of 18 measured temperatures and their associated weighting factors (discussed below). Individual dewpoint temperatures (6) are converted to vapor pressures using the ASME Steam Tables saturation line algorithm. A single average vapor pressure is calculated in the same manner as is average temperature. 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 calculation to eliminate pressure changes resulting from evaporation of liquid water and condensation of vapor.

If leakage rate is constant, it is best defined as the slope of a line fitted to a series of air mass/time data sets. This is the mass point determination defined in Ref. 5. Reference 3 derives a very different leakage rate calculation. The total time leakage rate described in Ref. 3 is based on the assumption that rate varies linearly with time. A so-called measured leakage rate is computed for each data set (except the first) by subtracting the mass determined for that data set from initial mass and dividing by elapsed time. A straight line is fitted to the measured rate/time data by the method of least squares.

The calculated total time leakage rate is defined as the ordinate of this line at the end of the test. Since the duration of the test was 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />, the total time method defined in Ref.

3 was used to calculate leakage rate and UCL. The total time calculation described in Ref. 2 was not applicable.

Since there is always some scatter of individual data points about a fitted line, there is always some uncertainty regarding the true slope of the line. The uncertainty is quantified statistically by calculating confidence limits on the slope (and, in case of the total time calculation, the intercept) of the line. The confidence limits on leakage rate are

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report determined at the 95% confidence level. Typically, the mass point calculated leakage rate and the associated 95 % UCL are quite close to each other. Due to the way in which the total time UCL is formulated, it tends to be considerably greater than the mass point UCL. As a result, the total time UCL usually provides a very conservative upper bound on leakage rate.

Reference 3 specifies three acceptance criteria. First, the upper 95% UCL on the end of test calculated leakage rate must be less than the maximum acceptable as-left leakage rate. The maximum acceptable as-left leakage rate is, per Ref. 1, 75 % of La or, 0.375

%/day (The Technical Specification identifies La as 0.5 %/day). Second, the calculated leakage rate extrapolated to a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> duration must be less than 0.75 La. Finally, the mean of the measured leakage rates, determined using data accumulated during the final five hours of the test, must be less than La. The test may be terminated when all three criteria are met and test duration is at least 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> (8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> per Ref. 4).

Following the conclusion of the Type A test, the calculational method is verified by imposing an additional leak on the containment and calculating the new rate. The new calculated rate must equal the sum of the previously calculated rate and the imposed rate plus or minus a tolerance of La/4. The imposed rate, vented from the containment through a flow meter, is approximately equal to La. This supplemental 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 and absolute pressure transducers connected to the containment through a piping penetration. Eighteen drybulb temperature sensors and 6 dewpoint temperature sensors were installed in the containment at five approximately equally spaced elevations.

Sensor locations and weighting factors (volume fractions) are listed in Table 1. Fourteen drybulb sensors and 4 dewpoint sensors were installed in the drywell. The remaining 4 drybulb sensors and 2 dewpoint sensors were installed in the wetwell.

Drybulb temperatures were measured using 100 Ohm platinum resistance temperature detectors (RTD's). Dewpoint temperatures were measured by chilled mirror dew cells. These devices use a thermoelectric junction to cool a small mirror. The amount of light reflected by the mirror from a light source to a photodetector 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 RTD sensing mirror temperature provides the output (a resistance). The RTD's and dew cells were connected to

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report the data acquisition system and 24 V power supply through containment electrical penetration s.

Absolute pressure was measured by a vibrating cylinder manometer. This device 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 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> test duration.

A digital data acquisition system was used to collect data at 15 minute intervals and transfer that data to the ILRT computer over a serial (bit by bit transmission) link. 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 0.01 deg. C resolution. One manometer provided a six digit binary coded decimal output to the data system. The six digit manometer output was converted into a five digit decimal number (XX.XXX)and a single digit decimal number (0.000X) by the data system and passed to the computer as two separate channels of data, The two numbers were recombined into a single six digit decimal number by the computer. Splitting the manometer data into two parts was done to overcome the 80000 count limit on data system output. The data system generated a printed tape record of each data set transmitted to the computer. The second manometer was connected directly to the computer parallel (IEEE 488) port.

Pressure data from the second manometer was not recorded by the data acquisition system.

The ILRT computer is a small IBM compatible running a compiled BASIC program. The program is described in the Appendix II.

Other instrumentation included a thermal mass flowmeter (connected to a containment instrument penetration) to measure imposed leakage during the supplemental test, two analog indicators used to measure containment gage pressure, a barometer used to measure reactor building pressure and an RTD used to measure reactor building temperature. All temporary instrumentation was calibrated to the requirements of Reference 4 prior to the ILRT and performed well during the test. Permanent plant instrumentation was used to measure RCS level, suppression pool level and various other parameters. Water level data are used to correct calculated leakage rate if level rises significantly during the test.

Other data, such as reactor coolant temperature and suppression pool temperature are used, if at all, only for diagnostic purposes.

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 4.0 PROCEDURI<A 4.1 Plant Status The systems were placed in the following four broad categories:

A. Systems filled with water and not vented to the Primary Reactor Containment atmosphere.

~ Reactor Closed Cooling (RCC)

~ Control Rod Drive (CRD)

~ Reactor Recirculation (RRC), Seal Injection B. Systems filled with water but vented to the Primary Reactor Containment atmosphere.

Residual Heat Removal (RHR)

High Pressure Core Spray (HPCS)

Low Pressure Core Spray (LPCS)

Standby Liquid Control (SLC)

Reactor Water Cleanup (RWCU)

Reactor Feed Water (RFW)

Reactor Core Isolation Cooling (RCIC), Water-filled

'portions Post Accident Sampling (PSR), Water-filled Portions Fuel Pool Cooling (FPC), Supply C. Systems On-line Control Rod Drive (CRD)

Reactor Recirculation (RRC), Seal Injection Residual Heat Removal (RHR), A and B Loops Reactor Water Cleanup (RWCU)

Containment Atmosphere Control (CAC)*

Sampling Handling Equipment Hydrogen Oxygen Monitors Reactor Closed Cooling (RCC)

  • CIV's open but air pumps not running

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report D. All other systems penetrating the PRC were drained and vented to the PRC atmosphere as well as to the Reactor Building atmosphere.

Isolation valves were set in the post-LOCA positions except where the opposite positions were required to maintain the reactor in a safe shutdown condition.

Piping was vented and drained to expose valve seats to containment and outside atmospheres. All sources of gas at pressure above test pressure were isolated to prevent leakage into the containment. All Type B and C local leakage rate tests, except those on penetrations used for pressurization, pressure sense and verification test outflow, were completed prior to the start of the ILRT. The containment sumps were drained down before the start of pressurization. One RHR loop was in operation throughout the test to remove core decay heat.

Containment lights were turned off when the containment was closed to eliminate point sources of heat. The drywell was vented to the suppression chamber by blocking open a vacuum breaker valve. The official test copy of Ref. 4 documents plant status including all exceptions to specified conditions.

4.2 Prerequisite Activities System lineups, protecting equipment against test pressure, 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 verified.

Dewpoint temperature sensor performance was verified by an independent temperature-humidity probe. A temperature survey was conducted to confirm the containment temperature distribution assumed when RTD layout and weighting factor calculations were done. The containment examination specified in Ref. 1 was performed following the completion of the final Type C test. No adverse indications were found during this examination.

All prerequisite activities are documented in the official test copy of Reference 4.

4.3 Pressurization The containment was pressurized using diesel driven, oil free compressors having an aggregate capacity of 1800 SCFM. The compressed air was cooled and dried by an aftercooler and a refrigerated air dryer. The dryer'outlet was connected by hose to a flanged opening in the nitrogen purge line which discharged into the containment purge supply just outboard of the isolation valves.

10

P II ~

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pressurization commenced at 3:18 AM on June 7 and was stopped at 6:50 PM on the same day when pressure had reached 35.2 PSIG. Pressurization was interrupted for several hours starting at about 7:30 AM when a crack was found in the containment purge supply line opposite the nitrogen purge inlet. Planning and execution of repair work required about 9 hours1.041667e-4 days <br />0.0025 hours <br />1.488095e-5 weeks <br />3.4245e-6 months <br /> and pressurization using the diesel driven compressors resumed at 4:15 PM. Service air was used to continue pressurizing during the latter stages of repair activities.

Leak surveys were commenced when containment pressure was just over 10 psig. With the exception of the crack in the purge line, no significant air leakage paths were found.

However, a steady decrease in wetwell water level was noted starting between 2:00 and 3:00 PM. Level was dropping at a rate of about 0.04 inches per hour. Locating and isolating the water leakage required about 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. The leakage was eventually stopped

, by shutting RHR suction valve 4C. The formal temperature stabilization period commenced when suppression pool level was stabilized.

4.4 Stabilization The stabilization period mandated by Ref. 3 commenced at 3:00 PM on June 8, after the suppression pool leakage path had been identified. The numerical stabilization criteria specified in Ref. 4 were met at the end of four hours, the minimum required duration of the stabilization period. However, the stabilization period was continued for an extra hour (until 8:00 PM ) to allow time for replacing the data acquisition system with a backup unit. The data system was replaced after a number of large spurious temperature indications were observed. A damaged system component (possibly resulting from a power surge following a bus loss of power test) was presumed to be the source of the spurious indications. There were no significant spikes in temperature data following data system replacement.

The temperature data recorded during the final four hours of stabilization were used to verify acceptable rate of change of temperature. The calculated rates and acceptance limits are listed on the following page.

Average rate of change over the final 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> 0.036 deg F/hr Acceptance limit (+/-) 1.000 deg F/hr Average rate of change over the final 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> 0.036 deg F/hr Average rate of change over the final hour 0.035 deg F/hr Difference - 0.001 deg F/hr Acceptance limit on difference (+/-) 0.500 deg F/hr Table 2 lists containment temperatures and differences over the full five hours of 11

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report stabilization. Figure 1 illustrates temperature variation over the same period. Average temperature increased smoothly as is typical for Mark I and Mark II BWR containments.

The small temperature excursions evident between 6:15 and 7:15 PM are spurious and probably result from electromagnetic interference or a cable fault (intermittent conductor or shield ground). Table 3 lists, for information, containment pressure, average vapor pressure and calculated air mass during the stabilization period.

4.5 Type A Test The Type A test commenced at 8:00 PM on June 8 and was completed without incident in eight hours, which is the minimum duration permitted by Ref. 4. Containment atmospheric condition data were recorded at 15 minute intervals during this period as well as during the pressurization, stabilization and verification phases. Reactor vessel and suppression pool levels were recorded hourly to establish the basis for the leakage rate correction required if containment water inventory increases during the type A test (initial and final sump levels are also included in the correction). The Type A test was ended at 4:00 AM on June 9.

4.6 Verification Test and Depressurization The induced leak of 3.86 SCFM (0.499 %/day) was imposed between 4:00 and 4:15 AM on June 9. The one hour stabilization period stipulated in Ref. 3 commenced at 4:15 AM and the verification test was started at 5: 15 AM.

The test was completed without incident at 9:15 AM. Verification test duration was 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> which is the minimum required by Ref. 4.

Depressurization commenced at 12:57 PM on April 9 following evaluation of a containment air sample by HP/Chemistry. The containment was vented through the standby gas treatment system.

12

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 5.0 RESULTS 5.1 Type A Test The acceptance criteria specified in Reference 4 were met well before the completion of the 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> test. The end of test leakage rate values and acceptance limits are listed below.

95 % UCL on total time leakage rate 0.211 %/day Acceptance limit 0.375 %/day Total time calculated leakage rate extrapolated to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> 0.168 %/day Acceptance limit 0.375 %/day Mean of the measured leakage rates 0.180 %/day Acceptance limit 0.500 %/day Total time rates computed for each incremental data set are listed in Table 4 and the variation in calculated rate and UCL are plotted in Figure 2. Reference 3 specifies that the final five hours of results be used to establish the extrapolated leakage rate. The total time calculated rate initially decreased, then oscillated and finally increased at a slow, but relatively steady, rate during the last 3.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> of the test, The average rate of increase over the final 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> was used to extrapolate the calculated leakage rate to a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> value of 0.168 %/day.

Acceptance limits are based on the maximum allowable leakage rate of 0.5 %/day set forth in the Technical Specification. For return to power, Ref. 1 stipulates that containment leakage rate must be less than 75 % of the maximum allowable rate. The remaining 25 % provides a margin for deterioration of the leakage boundary during the subsequent operating cycle. The 75 % criterion is applied by Ref. 3 to both the UCL and extrapolated rate values. Test acceptance is generally governed by the total time UCL which converges to the calculated value very slowly. Occasionally, calculated leakage rate increases with test duration and extrapolated rate may, in these instances, govern acceptance. The mean of the measured rates is almost always less than the UCL.

Since the mean has a larger allowable limit (La vs. 0.75 La) than the UCL, it seldom, if ever, governs acceptance.

The final as-left leakage rate is equal to the above UCL rate plus additions for minimum pathway leakage through penetrations in non-standard alignment and increases in containment water inventory. The additions caused by improper valve lineup are tabulated in the following Table 1.

13

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Penetration Leakage Number Rate'SCCM)

Function Exception Discussion X-3 Drywell purge exhaust Note 2 312.5 X-5 RCC inlet header Note 3 262.5 X-11A Drywell spray loop A Note 4 488.69 X-11B Drywell spray loop B Note 4 0.0 X-13 SLC to Reactor Note 4 0.0 X-14 RWCU from Reactor Note 3 39.0 X-17A RFW line A Note 4 0.0 X-17B RFW line B Note 4 0.0 X-25A Wetwell spray loop A Note 4 0.0 X-25B Wetwell spray loop B Note 4 0.0 X-26 RHR loop C test line Note 4 179.7 X43A RRC pump A seal water Note 3 1.0 XQ3B RRC pump B seal water Note 3 1.0 XA6 RCC outlet header Note 3 4. 17 XP7 RHR loop A test line Note 4 728.48 X-48 RHR loop B test line Note 4 411.8 XA9 HPCS test line Note 4 51.0 X-63 LPCS test line Note 4 856.0 X-65 RCIC pump minimum flow Note 4 63.0 X-77Aa RRC sample line Note 4 12.0 X-77Ac Post accident sample Note 4 3.7 X-77Ad Post accident sample Note 4 28.3 X-82d Post accident sample Note 4 0.0 X-88 Post accident sample Note 4 1.3 X-117 RHR loop A CP drain Note 4 6.0 X-118 RHR loop B CP drain Note 4 10.0 TOTAL 3462 SCCM Table 1 Valve Lineup Exceptions During ILRT 14

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Valve Lineup Exceptions During the PCILRT NOTES: 1. Obtained from LLRT Program

2. Flanged due to maintenance
3. Line filled with water and CIV's open during both PCILRT and LRVT
4. Line filled with water and CIV's closed but accident fluid is a gas.

Combining all of the factors from table 1 and net increases in containment water inventory yields the following.

Minimum pathway leakage through penetrations in non-standard alignment 3462 SCCM = 0.1223 SCFM Equivalent to 0.016'%/day Increase in sump content over 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> 240.25 cu. ft.

Equivalent to 0.07 %/day Total additions 0.086 %/day The final as-left leakage rate is calculated below.

95% UCL on total time leakage rate 0.211 %/day Additions for penetrations in non-standard alignment and increase in water inventory 0.086 %/day Final as-left leakage rate 0.297 %/day Containment conditions during the Type A test were reasonably typical. Air mass, mean temperature, total pressure and mean vapor pressure are plotted on Figures 3 through 6, respectively. The air mass (Figure 3) decreased linearly as expected. The maximum scatter of the individual calculated mass points is on the order of 3 Lbm, which is reasonable for Mark I and Mark II BWR containments. The plot also shows the straight line fitted to the mass/time data sets and a straight line with a slope equivalent to 0.75 La.

15

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Containment mean temperature (Figure 4) increased slowly, but smoothly, during the test. This increase is typical for Mark I and Mark II BWR containments. Total pressure (Figure 5) followed the same trend as temperature. Mean vapor pressure is plotted in Figure 6. Vapor pressure increased more than total pressure, reflecting evaporation of water from open surfaces (suppression pool and sumps).

All plots presented in this report represent discrete values of the plotted parameters. The time interval between discrete points is 15 minutes in all cases. The straight line segments connecting adjacent points are created by the plotting software and do not represent actual variation in the parameters plotted.

5.2 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 adding minimum pathway penetration improvements to the as-left leakage rate. The total value for minimum pathway improvements made during the Type B and C local leakage rate testing program is listed below. Individual tabulation all Type B and C As-found and As-left results obtained since the last ILRT are tabulated in Appendix IV.

Minimum pathway improvements made during the Type B and C testing program 4690 SCCM = 239 SCFD At the end of the Type A test, mean temperature and absolute pressure were 88.23 deg F and 49.517 PSIA, respectively (see Appendix data list). At these conditions, and for a containment volume of 343,040 cubic feet, 239 SCFD is equivalent to a leakage rate of 0.022/day. The estimated as-found leakage rate (UCL) is determined as shown below.

As-left UCL leakage rate 0.297 %/day Minimum pathway improvements 0.022 %/day As-found leakage rate 0.319 %/day 5.3 Verification Test The verification test induced leak was imposed after the completion of the Type A test and adjusted to a flowmeter indication of 3.86 SCFM. At the initial (4:15 AM) test conditions of 88.24 deg F and 49.516 psia (see Appendix data list) 3.86 SCFM is equivalent to 0.499 %/day. Following imposition of the induced leak, conditions were allowed to stabilize for 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> as required by Ref. 3, A successful four hour test was performed after stabilization. Results are detailed in Table 5 and summarized below.

Upper limit on total time calculated leakage rate 0.790 %/day Total time calculated leakage rate 0.636 %/day Lower limit on total time calculated leakage rate 0,540 %/day 16

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report The calculated rate is within the limits. Limits are established, per Ref. 3, as the theoretical rate +/- 0.25 La. The theoretical rate is the total time rate calculated for the end of the Type A test plus the induced rate. Figure 7 illustrates the verification test results graphically, The line fitted to the air mass/time data sets is essentially centered between the limits as is expected. This is consistent with the mass point calculation results discussed in the next section.

The upper and lower limits on the calculated verification leakage rate shown on Table 5 round off to 0.791 %/day and 0.541 %/day, respectively. The limits shown above differ from the table values by 0.001 %/day since rounding off of the verification flow and the total time calculated leakage rate is done prior to calculating the limits.

5.4 Mass Point Results Type A test mass point calculation results are listed in Table 6. The end of test calculated leakage rate is reasonably close to the end of test calculated total time rate

0. 176 %/day vs. 0.166 %/day. In fact, the mass point calculated rate, the total time calculated rate and the total time measured rate (0.180 %/day) are quite close to the same value. This is expected for well ordered data. The mass point upper confidence limit of 0.178 %/day is close to the calculated rate which is consistent with the low level of air mass data scatter illustrated in Figure 3, Table 7 lists mass point verification test results. The calculated leakage rate of 0.627

%/day is close to the total time calculated rate of 0.636 %/day. Again, the close correspondence is as expected for well ordered data.

17

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report

6.0 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. Bechtel Topical Report BN-TOP-1, Testing Criteria For Integrated Leakage Rate Testing Of Primary Containment Structures For Nuclear Power Plants, Revision 1, 1972.
4. Washington Public Power Supply System, WNP-2 Surveillance Test Procedure No. 7.4.6.1.2.1, Primary Containment Integrated Leakage Rate Test, May 23, 1991.

ANSI/ANS 56.8-1987, Containment System Leakage Testing Requirements.

6. Exemption to Appendix J Testing, issued by the NRC with Amendment No. 41 to Operating Licence NPF-2, dated 04-29-87.

18

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 2 SENSOR LOCATIONS AND WEIGHTING FACTORS Sensor Elevation, Bearing, Distance Weighting No. Type Feet Degrees From Factor Liner, Feet TE-01 Drybulb 572 (1) 90 6 0.0265 TE-02 Drybulb 50 240 10 0.0402 TE-03 Drybulb 25 5 15 0.0398 TE-04 Drybulb 05 120 16 0.0563 TE-05 Drybulb 50 120 10 0.0402 TE-06 Drybulb 05 0 16 0.0563 TE-07 Drybulb 25 75 15 0.0398 TE-08 Drybulb 25 235 15 0.0398 TE-09 Drybulb 25 180 15 0.0398 TE-10 Drybulb 50 0 10 0.0402 TE-11 Drybulb 72 270 6 0.0265 TE-12 Drybulb 25 125 15 0.0398 TE-13 Drybulb 25 315 15 0.0398 TE-14 Drybulb 05 240 16 0.0563 TE-15 Drybulb (2) 85 270 5 0.1047 TE-16 Drybulb (2) 85 195 5 0.1047 TE-17 Drybulb (2) 85 0 5 0.1047 TE-18 Drybulb (2) 85 90 5 0.1046 ME-01 Dewpoint (2) 525 125 15 0.1194 ME-02 Dewpoint (2) 550 90 10 0.1737 ME-03 Dewpoint (2) 505 240 16 0.1688 ME-04 Dewpoint (2) . 525 5 15 0.1194 ME-05 Dewpoint (2) 485 270 5 0.2094 ME-06 Dewpoint (2) 485 90 5 0.2093 Notes: Elevation reference-Drywell head flange parting at El. 576.8 ft.

Bottom of diaphragm slab at El. 497.5 ft.

Wetwell water surface at El. 466.4 ft. (nominal)

(2) Wetwell sensors 19

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 3 WNP-2 1991 ILRT STABILIZATION TEMPERATURE STABILIZATIONREPORT Start Time = 1500 608

  • = stabilization criterion satisfied

- ANSI- - BN-TOP data elapsed temperature dT1 dT4 dT1-dT4 Dt or d(Dt) set time, hr T, deg F avg dt avg Dt avg avg (1 hr) (4 hr) (2 hr) (2 hr) 1 0.00 87.759 2 0.25 87.771 3 0.50 87.771 4 0.75 87.781 5 1.00 87.791 0.032 6 1.25 87.796 0.025 7 1.50 87.807 0.035 8 1.75 87.816 0.034 9 2.00 87.826 0.035 0.034* -0.005*

10 2.25 87.835 0.039 0.032* 0.0188 11 2.50 87.844 0.038 0.037* -0.001*

12 2.75 87.854 0.038 0.036* -0.000*

13 3.00 87.863 0.037 0.036* 0.007+

14 3.25 87.845 0.010 0.025* -0.056*

15 3.50 87.897 0.053 0.045* 0.086*

16 3.75 87.895 0.041 0.040* -0.025*

17 4.00 87.899 0.036 0.035 0.001* 0.037* -0.010*

18 4.25 87.888 0.043 0.029 0.014* 0.027* -0.041*

19 4.50 87.917 0.019 0.036 -0.017* 0.036~ 0.038~

20 4.75 87.926 0.032 0.036 -0.005* 0.036* 0.001*

21 5.00 87.934 0.035 0.036 -0.001* 0.036* 0.050+

20

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 4 WNP-2 1991 ILRT STABILIZATION DATA

SUMMARY

REPORT data time date temperature pressure vapor dry all set deg F psia pressure mass psia ibm

'3103.93 1 1500 608 87,7586 49.5147 0.3814 2 1515 608 87.7714 49.5138 0.3813 83100.59 3 1530 608 87.7714 49.5131 0.3816 83098.84 4 1545 608 87.7814 49.5125 0.3819 83095.79 5 1600 608 87.7906 49.5122 0.3822 83093.41 6 1615 608 87.7960 49.5115 0.3825 83090.92 7 1630 608 87.8069 49.5104 0.3828 83086.84 8 1645 608 87.8156 49.5106 0.3831 83085.50 9 1700 608 87.8257 49.5106 0.3833 83083.61 10 1715 608 87.8348 49.5106 0.3836 83081.74 11 1730 608 87.8444 49.5109 0.3840 83079.99 12 1745 608 87.8535 49.5111 0.3840 83079.03 13 1800 608 87.8627 49.5108 0.3841 83076.87 14 1815 608 87.8453 49.5107 0.3838 83079.96 15 1830 608 87.8972 49.5114 0.3847 83071.62 16 1845 608 87.8948 49.5111 0.3850 83071.10 17 1900 608 87.8990 49.5107 0.3852 83069.43 18 1915 608 87.8882 49.5113 0.3854 83071.68 19 1930 608 87.9165 49.5115 0.3853 83067.83 20 1945 608 87.9263 49.5117 0.3854 83066.52 21 2000 608 87.9341 49.5119 0.3859 83064.94 21

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 4 WNP-2 1991 ILRT TYPE A TEST TOTAL TIME LEAKAGE RATE REPORT data time date elapsed dry Rlr measured leakage ucl set time mass rate rate rate (hrs) (ibm) (%/day) (%/day) (%/day) 1 2000 608 0.00 83064.94 0.0000 0.0000 0.0000 2 2015 608 0.25 83062.36 0.2990 0.2990 0.2990 3 2030 608 0.50 83060.62 0.2497 0.2497 0.2497 4 2045 608 0.75 83060.28 0.1795 0.1830 0.2656 5 2100 608 1.00 83057.99 0.2008 0.1776 0.3316 6 2115 608 1.25 83056.47 0.1960 0.1740 0.2983 7 2130 608 1.50 83054.94 0.1928 0.1717 0.2785 8 2145 608 1.75 83053.51 0.1888 0.1694 0.2641 9 2200 608 2.00 83051.97 0.1874 0.1680 0.2546 10 2215 608 2.25 83050.94 0.1798 0.1646 0.2438 11 2230 608 2.50 83049.07 0.1834 0.1640 0.2390 12 2245 608 2.75 83046.89 0.1897 0.1659 0.2389 13 2300 608 3.00 83045.86 0.1838 0.1657 0.2356 14 2315 608 3.25 83044.54 0.1814 0.1652 0.2320 15 2330 608 3.50 83042.35 0.1865 0.1662 0.2313 16 2345 608 3.75 83041.82 0. 1781 0.1652 0.2276 17 0 609 4.00 83039.55 0.1834 0.1657 0.2264 18 15 609 4.25 83040.70 0.1648 0.1622 0.2202 19 30 609 4.50 83036.30 0.1839 0.1633 0.2206 20 45 609 4.75 83035.05 0.1818 0.1639 0.2201 21 100 609 5.00 83033.91 0. 1794 0.1640 0.2190 22 115 609 5.25 83032.29 0. 1797 0.1643 0.2181 23 130 609 5.50 83030.69 0.1800 0.1646 0.2174 24 145 609 5.75 83029.37 0.1787 0.1647 0.2165 25 200 609 6.00 83027.95 0.1781 0.1647 0.2155 26 215 609 6.25 83026.74 0.1766 0.1645 0.2143 27 230 609 6.50 83024.51 0.1797 0.1649 0.2140 28 245 609 6.75 83023.04 0. 1794 0.1652 0.2135 29 300 609 7.00 83021.38 0. 1798 0.1655 0.2132 30 315 609 7.25 83020.35 0. 1777 0.1656 0.2125 31 330 609 7.50 83018.19 0.1801 0.1660 0.2123 32 345 609 7.75 83017.53 0.1768 0.1659 0.2116 33 400 609 8.00 83015.19 0.1797 0.1663 0.2113 Allowable leakage rate, La = 0.5000 %/day 75% La 0.3750 %/day Total time leakage rate 0.1663 %/day Total time UCL 0.2113 %/day 22

l 4f Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 5 WNP-2 1991 ILRT VERIFICATION TOTAL TIME LEAKAGE RATE REPORT VERIFICATION data time date elapsed dry Rlr measured leakage set time mass rate rate (hrs) (ibm) (%/day) (%/day) 1 515 609 0.00 82989.17 0.0000 0.0000 2 530 609 0.25 82984.48 0.5424 0.5424 3 545 609 0.50 82978,81 0.5994 0.5994 4 600 609 0.75 82972.83 0.6300 0.6344 5 615 609 1.00 82967.41 0.6294 0.6440 6 630 609 1.25 82962.64 0.6139 0.6376 7 645 609 1.50 82955.97 0.6401 0.6471 8 700 609 1.75 82951.66 0.6199 0.6426 9 715 609 2.00 82946.39 0.6186 0.6388 10 730 609 2.25 82940.62 0.6240 0.6381 11 745 609 2.50 82934.65 0.6307 0.6396 12 800 609 2.75 82930.66 0.6153 0.6356 13 815 609 3.00 82923.56 0.6325 0.6376 14 830 609 '.25 82918.37 0.6300 0.6383 15 845 609 3.50 82912.14 0.6365 0.6405 16 900 609 3.75 82907.68 0.6284 0.6401 17 915 609 4.00 82904.48 0.6123 0.6360 Upper limit on leakage rate = 0.7906 %/day Total time leakage rate = 0.6360 %/day Lower limit on leakage rate = 0.5406 %/day 23

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 6 WNP-2 1991 ILRT TYPE A TEST MASS POINT LEAKAGE RATE REPORT data time date elapsed dry alI'ass leakage ucl set time rate rate (hrs (ibm) (%/day) (%/day) 1 2000 608 0.00 83064.94 0.0000 0.0000 2 2015 608 0.25 83062.36 0.2990 0.2990 3 2030 608 0.50 83060.62 0.2497 0.4934 4 2045 608 0.75 83060.28 0.1816 0.3032 5 2100 608 1.00 83057.99 0.1846 0.2410 6 2115 608 1.25 83056.47 0.1843 0.2177 7 2130 608 1.50 83054.94 0.1834 0.2058 8 2145 608 1.75 83053.51 0.1815 0.1977 9 2200 608 2.00 83051.97 0.1803 0.1927 10 2215 608 2.25 83050.94 0.1764 0.1869 11 2230 608 2.50 83049.07 0.1760 0.1845 12 2245 608 2.75 83046.89 0.1788 0.1863 13 2300 608 3.00 83045.86 0.1785 0.1848 14 2315 608 3.25 83044.54 0.1775 0.1830 15 2330 608 3.50 83042.35 0. 1788 0.1837 16 2345 608 3.75 83041 82 ~ 0.1771 0.1817 17 0 609 4.00 83039.55 0.1775 0.1816 18 15 609 4.25 83040.70 0.1724 0.1787 19 30 609 4.50 83036.30 0. 1741 0. 1799 20 45 609 4.75 83035.05 0.1749 0.1802 21 100 609 5.00 83033.91 ,0. 1749 0.1797 22 115 609 5.25 83032.29 0.1751 0.1794 23 130 609 5.50 83030.69 0.1753 0.1792 24 145 609 5.75 83029.37 0.1752 0.1788 25 200 609 6.00 83027.95 0.1751 0.1784 26 215 609 6.25 83026.74 0.1747 0.1777 27 230 609 6.50 83024.51 0.1750 0. 1779 28 245 609 6.75 83023.04 0.1752 0. 1779 29 300 609 7.00 83021.38 0.1755 0. 1780 30 315 609 7.25 83020.35 0.1754 0.1777 31 330 609 7.50 83018.19 0.1757 0.1780 32 345 609 7.75 83017.53 0.1755 0.1776 33 400 609 8.00 83015.19 0.1758 0.1777 Allowable leakage rate, La = 0.5000 %/day 75% La 0.3750 %/day Mass point leakage rate 0. 1758 %/day Mass point UCL 0.1777 %/day 24

Washington Public Power Supply System WbP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TABLE 7 WNP-2 1991 ILRT VERIFICATION MASS POINT LEAKAGE RATE REPORT VERIFICATION data time date elapsed dry Rll leakage set time mass rate (hrs) (ibm) (%/day) 1 515 609 0.00 82989.17 0.0000 2 530 609 0.25 82984.48 0.5424 3 545 609 0.50 82978.81 0.5994 4 600 609 0.75 82972.83 0.6326 5 615 609 1.00 82967.41 0.6383 6 630 609 1.25 82962.64 0.6275 7 645 609 1.50 82955.97 0.6391 8 700 609 1.75 82951,66 0.6322 9 715 609 2.00 82946.39 0.6275 10 730 609 "

2.25 82940.62 0.6273 11 745 609 2,50 82934.65 0.6300 12 800 609 2.75 82930.66 0.6251 13 815 609 3.00 82923,56 0.6286 14 830 609 3.25 82918.37 0.6300 15 845 609 3.50 82912.14 0.6332 16 900 609 3.75 82907.68 0.6327 17 915 609 4.00 82904.48 0,6273 Upper limit on leakage rate 0. 8001 %/day Mass point leakage rate 0.6273 %/day Lower limit on leakage rate 0.5501 %/day 25

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Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report APPENDIX I CONTAINMENTDESCRIj. TION 32

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report CONTAINMENTDESCRIPTION The WNP-2 containment is a steel Mark II with a conical drywell above a cylindrical suppression chamber. The upper end of the drywell consists of a flanged head which is removed for refueling the reactor. The drywell and suppression chamber are separated by a concrete diaphragm slab which is supported off the chamber bottom by the reactor pedestal and a number of columns. The reactor pedestal is a concrete cylinder, concentric with the containment, which extends through the diaphragm slab and supports both the reactor and the primary shield. The suppression is approximately half flied with water which is used to quench steam released by the main steam safety valves and which would be released by the primary system in the event of a LOCA. The safety valve discharge lines and a number of open ended vertical vent pipes penetrate the diaphragm slab. Principal dimensions of the containment are listed below.

Drywell height from top of diaphragm slab to refueling head flange parting line 77.3 ft.

Drywell inside diameter at top of diaphragm slab 85.8 ft.

Drywell inside diameter at refueling head flange 31.7 ft.

Diaphragm slab thickness 2.0 ft.

Suppression chamber height from center invert (1) 66.2 ft.

Suppression chamber inside diameter 85.8 ft.

Normal suppression chamber water depth 31.1 ft.

Drywell/suppression chamber free air volume at normal water level 343,040 cu. ft.

(1) The bottom head of the suppression chamber is elliptical.

The steel containment is surrounded by a concrete shield. There is an air gap between the shield and the containment wall.

There are a number of openings in the containment wall. The drywell wall is penetrated by an equipment hatch with a flanged head, a personnel air lock and many piping and electrical feed-throughs. In addition the drywell wall has flanged openings for CEDM replacement and stabilizer truss (a steel structure which laterally braces the upper end of the containment) inspection. The suppression chamber wall is penetrated by a flanged personnel access port, air space ventilation piping, electrical feed-throughs and numerous pipes which take suction from, or discharge to, the suppression pool.

33

APPENDIX II COMPUTER PROGRAM DESCRIPTION 34

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 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 97.5% 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 Anal 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.

35

APPENDIX III TYPE A TEST DATA 36

PRE-DATA REPORT title = WNP-'2 1991 ILRT STABILIZATION volume =

leap year : no 343040 La = 0.5000 perature volume fractions ( sum = 1.0000 )

t( 1)=0.0265 t( 2)=0.0402 t( 3)=0.0398 t( 4)=0.0563 tt(10)=0.0402

( 5) =0. 0402 t( 6)=0.0563 t( 7)=0.0398 t( 8)=0.0398 t( 9)=0.0398 t(11)=0.0265 t(12)=0.0398 t(13)=0.0398 t(14)=0.0563 t(15)=0.1047 t(16)=0.1047 t(17)=0.1047 t(18)=0.1046 dewpoint volume fractions ( sum = 1.0000 )

dp( 1)=0.1194 dp( 2)=0.1737 dp( 3)=0.1688 dp( 4)=0.1194 dp( 5)=0.2094 dp( 6)=0.2093 pressure volume fractions ( sum = 1.0000 )

p( 1)=1.0000 p( 2)=0.0000 37

WNP-2 1991 ILRT STABIZIZATION DATA

SUMMARY

REPORT data time date temperature pressure vapor dry air set deg F psia pressure mass psia 1bm 1 1500 608 87.7586 49 '147 0 ~ 3814 83103.93 2 1515 608 87.7714 49.5138 0. 3813 83100.59 3 1530 608 87.7714 49.5131 0.3816 83098.84 4 1545 608 87.7814 49.5125 0.3819 83095.79 5

6 1600 1615 608 608 87.7906 87.7960 49.5122 49.5115 0.3822 0.3825 83093 '1 83090.92 7 1630 608 87.8069 49.5104 0.3828 83086.84 8 1645 608 87.8156 49.5106 0.3831 83085.50 9 1700 608 87.8257 49.5106 0.3833 83083.61 10 1715 608 87.8348 49 '106 0.3836 83081.74 11 1730 608 87.8444 49.5109 0.3840 83079.99 12 1745 608 87.8535 49.5111 0.3840 83079.03 13 1800 608 87.8627 49.5108 0.3841 83076.87 14 1815 608 87.8453 49.5107 0.3838 83079.96 15 1830 608 87.8972 49.5114 0.3847 83071.62 16 1845 608 87.8948 49.5111 0.3850 83071.10 17 1900 608 87.8990 49.5107 0.3852 83069.43 18 1915 608 87.8882 49.5113 0.3854 83071.68 19 1930 608 87 '165 49 '115 0.3853 83067.83 20 1945 608 87.9263 49 '117 0.3854 83066.52 21 2000 608 87.9341 49.5119 0.3859 83064.94 (e

38

WNP-2 1991 XLRT STABXLIZATXON data set 1 time = 1500 date = 608 sensor raw data value temperature 1 ( 109.450 109.450 deg. F temperature 2 ( 99.510 99.510 deg. F temperature 3 ( 92.910 92.910 deg. F temperature 4 ( 88.250 88.250 deg. F temperature 5 ( 101.370 101.370 deg. F temperature 6 ( 89.190 89.190 deg. F temperature 7 ( 92.680 92.680 deg. F temperature 8 ( 92.750 92.750 deg. F temperature 9 ( 92.920 92.920 deg. F temperature 10 ( 100.800 100.800 deg. F temperature 11 ( 108.990 108.990 deg. F temperature 12 ( 92. 540 ') 92.540 deg. F temperature 13 92.840 92.840 deg. F temperature 14 89.050 89.050 deg. F temperature 15 78.140 78.140 deg. F temperature 16 ( 78.000 78.000 deg. F temperature 17 ( 78.040 78.040 deg. F temperature 18 ( 78.070 78.070 deg. F dewpoint 1 ( 67.750 67.750 deg. F , 0.3360 psia dewpoint 2 ( 67.030 67.030 deg. F , 0.3277 psia dewpoint 3 ( 66.930 66.930 deg. F I 0.3266 psia dewpoint 4 ( 67.200 67.200 deg. F , 0.3297 psia dewpoint 5 ( 76.810 76.810 deg. F , 0.4563 psia dewpoint 6 ( 76.420 76.420 deg. F , 0.4504 psia pressure 1 ( 49.5147 49.5147 psia pressure 2 ( 49.5201 49.5201 psia weighted averages, volume and air mass temperature 87.75864 deg. F pressure 49.51470 psia vapor pressure 0.38137 psia volume dry air mass 343040 cu.

83103.93 ibm ft.

39

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WNP-2 1991 ILRT STABILIZATION data set 2 time = 1515 date = 608 sensor raw data value temperature 1 ( 109.500 ) 109.500 deg. F temperature 2 ( 99.570 ) 99.570 deg. F temperature 3 ( 92.910 ) 92.910 deg. F temperature 4 ( 88.250 ) 88.250 deg. F temperature 5 ( 101.420 ) 101.420 deg. F temperature 6 ( 89.190 ) 89.190 deg. F temperature 7 ( 92.720 ) 92.720 deg. F temperature 8 ( 92.790 ) 92.790 deg. F temperature 9 ( 92.940 92.940 deg. F temperature 10 ( 100.850 ) 100.850 deg. F temperature 11 ( 109.090 ) 109.090 deg. F temperature 12 ( 92.560 ) 92.560 deg. F temperature 13 ( 92.870 ) 92.870 deg. F temperature 14 ( 89.060 ) 89.060 deg. F temperature 15 78.120 78.120 deg. F temperature 16 ( 77.990 ) '77.990 deg. F temperature 17 ( 78.030 ) 78.030 deg. F temperature 18 ( 78.070 78.070 deg. F dewpoint ( 67. 840 ) 67.840 deg. F , 0.3370 psia dewpoint ( 67. 030 ) 67.030 deg. F , 0.3277 psia dewpoint ( 67. 010 ) 67.010 deg. F , 0.3275 psia dewpoint ( 67. 240 ) 67.240 deg. F , 0.3301 psia dewpoint. ( 76.790 ) 76.790 deg. F , 0.4560 psia dewpoint ( 76.310 ) 76.310 deg. F , 0.4488 psia pressure 1 ( 49. 5138 ) 49.5138 psia pressure 2 ( 49.5202 ) 49.5202 psia weighted averages, volume and air mass temperature 87.77139 deg.. F pressure 49.51380 psia vapor pressure 0.38129 psia volume 343040 cu. ft.

dry air mass. 83100.59 ibm 40

J C

1f 8

WNP-2 1991 ILRT STABILIZATION data set 3 time = 1530 date = 608 sensor raw data value temperature 1 ( 109.520 109.520 deg. F temperature 2 ( 99.620 99.620 deg. F temperature 3 ( 92 '10 92.910 deg. F temperature 4 88.250 88.250 deg. F temperature 5 101.460 101.460 deg. F temperature 6 89.190 89.190 deg. F temperature 7 92.720 92.720 deg. F temperature 8 92.790 92.790 deg. F temperature 9 92.940 92.940 deg. F temperature 10 100.890 100.890 deg. F temperature 11 109.080 109.080 deg. F temperature 12 92.570 92.570 deg. F temperature 13 92.880 92.880 deg. F temperature 14. 89.060 89.060 deg. F temperature 15 78.090 78.090 deg. F temperature 16 77.970 77.970 deg. F temperature 17 78.020 78.020 deg. F temperature 18 78.070 78.070 deg. F dewpoint 1 ( 67.880 67.880 deg. F i 0.3375 psia dewpoint 2 67.080 67.080 deg. F i 0.3283 psia dewpoint 3 ( 67.070 67.070 deg. F , 0.3282 psia dewpoint 4 67.290 67.290 deg. F , 0.3307 psia dewpoint 5 ( 76.780 76.780 deg. F , 0.4559 psia dewpoint 6 76.320 76.320 deg. F , 0.4490 psia pressure 1 ( 49. 5131 49.5131 psia pressure 2 ( 49 '192 49.5192 psia weighted averages, volume and air mass temperature 87.77139 deg. F pressure 49.51310 psia vapor pressure 0.38163 psia volume dry air mass 343040 cu.

83098.84 ibm ft.

41

WNP-2 1991 ILRT STABILIZATION data set 4 time = 1545 date = 608 sensor raw data value temperature 1 ( 109.560 109.560 deg. F temperature 2 ( 99.670 99.670 deg. F temperature 3 ( 92.930 92.930 deg. F temperature 4 ( 88.250 88.250 deg. F temperature 5 ( 101 '20 ) 101.520 deg. F temperature 6 ( 89.200 ) 89.200 deg. F temperature 7 ( 92.740 ) 92.740 deg. F temperature 8 ( 92.800 92.800 deg. F temperature 9 ( 92.940 92.940 deg. F temperature 10 100.930 ) 100 '30 deg. F temperature 11 109.110 109.110 deg. F temperature 12 ( 92.590 ) 92.590 deg. F temperature 13 ( 92.900 ) 92.900 deg. F temperature 14 89.080 ) 89.080 deg. F temperature 15 78.090 ) 78.090 deg. F temperature 16 77.960 ) 77.960 deg. F temperature 17 ( 78.010 ) 78.010 deg. F temperature 18 ( 78.060 78.060 deg. F dewpoint 1 ( 67.920 ) 67.920 deg. F, 0.3380 psia dewpoint 2 67. 120 ) 67.120 deg. F , 0.3288 psia dewpoint 3 67.100 ) 67.100 deg. F , 0.3285 psia dewpoint 4 67.350 ) 67.350 deg. F , 0.3314 psia dewpoint 5 ( 76.770 ) 76.770 deg. F , 0.4557 psia dewpoint 6 ( 76.340 ) 76.340 deg. F , 0.4492 psia pressure 1 ( 49.5125 ) 49.5125 psia pressure 2 ( 49.5186 ) 49.5186 psia weighted averages, volume and air mass temperature 87.78141 deg. F pressure 49.51250 psia vapor pressure 0.38193 psia volume 343040 cu. ft.

dry air mass 83095.79 ibm 42

WNP-2 1991 ILRT STABILIZATION data set 5 time = 1600 date = 608 sensor raw data value temperature 1 ( 109.580 109.580 deg. F temperature 2 ( 99.700 99.700 deg. F temperature 3 ( 92.960 92.960 deg. F temperature 4 ( 88.260 88.260 deg. F temperature 5 ( 101.560 101.560 deg. F temperature 6 ( 89.220 89.220 deg. F temperature 7 ( 92.760 92.760 deg. F temperature 8 ( 92.820 92.820 deg. F temperature 9 ( 92.970 92.970 deg. F temperature 10 ( 100.980 100.980 deg. F temperature 11 ( 109. 170 109.170 deg. F temperature 12 ( 92.600 92.600 deg. F temperature 13 ( 92.920 92.920 deg. F temperature 14 ( 89.090 89.090 deg. F temperature 15 ( 78.070 78.070 deg. F temperature 16 ( 77.950 77.950 deg. F temperature 17 ( 78.000 78.000 deg. F temperature 18 ( 78.050 78.050 deg. F dewpoint ( 67. 980 67.980 deg. F , 0.3387 psia dewpoint ( 67. 170 67.170 deg. F , 0.3293 psia dewpoint ( 67. 170 67.170 deg. F , 0.3293 psia dewpoint ( 67. 370 67.370 deg. F , 0.3316 psia dewpoint ( 76.800 76.800 deg. F , 0.4562 psia dewpoint ( 76. 290 76.290 deg. F , 0.4485 psia pressure 1 ( 49.5122 49.5122 psia pressure 2 ( 49.5175 49.5175 psia weighted averages, volume and air mass temperature 87.79055 deg. F pressure 49.51220 psia vapor pressure 0.38222 psia volume 343040 cu. ft.

dry air mass 83093.41 ibm 43

WNP-2 1991 XLRT STABXLXZATION data set 6 time = 1615 date = 608 sensor raw data value temperature 1 ( 109.630 109. 630 deg. F temperature 2 ( 99.760 99'.760 deg. F temperature 3 ( 92.970 92.970 deg. F temperature 4 ( 88.270 88.270 deg. F temperature 5 ( 101.600 101.600 deg. F temperature 6 ( 89.230 89.230 deg. F temperature 7 ( 92.780 92.780 deg. F temperature 8 ( 92.830 92.830 deg. F temperature 9 ( 92.990 92.990 deg. F temperature 10 ( 101.020 101.020 deg. F temperature 11 ( 109.180 109.180 deg. F temperature 12 ( 92.610 92.610 deg. F temperature 13 ( 92.940 92.940 deg. F temperature 14 ( 89.050 89.050 deg. F temperature 15 ( 78.060 78.060 deg. F temperature 16 ( 77.940 77.940 deg. F temperature 17 ( 77.990 77.990 deg. F temperature 18 ( 78.040 78.040 deg. F dewpoint 1 ( 68.010 ) 68.010 deg. F 0.3390 psia dewpoint 2 ( 67.220 ) 67.220 deg. F 0.3299 psia dewpoint C 67.200 ) 67.200 deg. F 0.3297 psia dewpoint 4 ( 67.410 ) 67.410 deg. F 0.3321 psia dewpoint 5 ( 76.790 ) 76.790 deg. F 0.4560 psia dewpoint 6 ( 76.310 76.310 deg. F 0.4488 psia pressure 1 ( 49.5115 ) 49.5115 psia pressure 2 ( 49.5171 ) 49.5171 psia weighted averages, volume and air mass temperature 87.79604 deg. F pressure 49.51150 psia vapor pressure 0.38250 psia volume air 343040 cu. ft.

dry mass 83090.92 ibm 44

WNP-2 1991 ILRT STABILIZATION data set 7 time = 1630 date = 608 sensor raw data value temperature 1 ( 109.660 ) 109.660 deg. F temperature 2 ( 99.790 99.790 deg. F temperature 3 ( 92.980 ) 92.980 deg. F temperature 4 ( 88.280 ) 88.280 deg. F temperature 5 ( 101.650 ) 101.650 deg. F temperature 6 ( 89.240 ) 89.240 deg. F temperature 7 ( 92.770 ) 92.770 deg. F temperature 8 ( 92.830 ) 92.830 deg. F temperature 9 ( 93.010 ) 93.010 deg. F temperature 10 ( 101.080 ) 101.080 deg. F temperature 11 ( 109.220 ) 109.220 deg. F temperature 12 ( 92.640 ) 92.640 deg. F temperature 13 ( 92.950 ) 92.950 deg. F temperature 14 ( 89.140 ) 89.140 deg. F temperature 15 ( 78.050 ) 78.050 deg. F temperature 16 ( 77.920 ) 77.920 deg. F temperature 17 ( 77.980 ) 77.980 deg. F temperature 18 ( 78.030 78.030 deg. F dewpoint 1 ( 68.050 ) 68.050 deg. F , 0.3395 psia dewpoint 2 ( 67 '10 ) 67.310 deg. F , 0.3309 psia dewpoint 3 ( ~ 67.220 ) 67.220 deg. F , 0.3299 psia dewpoint 4 ( 67.460 ) 67.460 deg. F , 0.3326 psia dewpoint 5 ( 76.770 ) 76.770 deg. F , 0.4557 psia dewpoint 6 ( 76.330 ) 76.330 deg. F , 0.4491 psia pressure 1 ( 49.5104 ) 49.5104 psia pressure 2 ( 49.5165 ) 49.5165 psia weighted averages, volume and air mass temperature 87.80686 deg. F pressure'apor 49.51040 psia pressure 0.38284 psia volume 343040 cu. ft.

dry air mass 83086.84 ibm 45

HNP-2 1991 ILRT STABILIZATION data set 8 time = 1645 date = 608 sensor raw data value temperature 1 ( 109.700 109.700 deg. F temperature 2 ( 99.840 99.840 deg. F temperature 3 ( 92.990 92.990 deg. F temperature 4 ( 88.280 88.280 deg. F temperature 5 ( 101.700 101.700 deg. F temperature 6 ( 89.250 89.250 deg. F temperature 7 ( 92.820 92.820 deg. F temperature 8 ( 92.880 92.880 deg. F temperature 9 ( 93.030 93.030 deg. F temperature 10 ( 101.120 101.120 deg. F temperature 11 ( 109.250 109.250 deg. F temperature 12 ( 92.640 92.640 deg. F temperature 13 ( 92.960 92.960 deg. F temperature 14 89.090 89.090 deg. F temperature 15 78.040 78.040 deg. F temperature 16 ( 77.920 77.920 deg. F temperature 17 77.980 77.980 deg. F temperature 18 ( 78.020 78.020 deg. F

'ewpoint, 1 68.110 68.110 deg. F , 0.3402 psia dewpoint 2 67.310 67.310 deg. F , 0.3309 psia dewpoint 3 67.300 67.300 deg. F , 0.3308 psia dewpoint 4 67 '10 67.510 deg. F , 0.3332 psia dewpoint 5 76.780 76.780 deg. F , 0.4559 psia dewpoint 6 76.290 76.290 deg. F , 0.4485 psia pressure 1 ( 49.5106 49.5106 psia pressure 2 ( 49.5166 49.5166 psia weighted averages, volume and air mass temperature 87.81557 deg. F pressure 49.51060 psia vapor pressure 0.38305 psia volume 343040 cu. ft.

dry air mass 83085.50 ibm 46

Ib a')

WNP-2 1991 ILRT STABILIZATION data set 9 time = 1700 date = 608 sensor raw data value temperature 1 ( 109. 710 109.710 deg. F temperature 2 ( 99.890 99.890 deg. F temperature 3 ( 93.010 93.010 deg. F temperature 4 88.290 88.290 deg. F temperature 5 101.750 101.750 deg. F temperature 6 89.260 89.260 deg. F temperature 7 92.840 92.840 deg. F temperature 8 ( 92.880 92.880 deg. F temperature 9 ( 93.040 93.040 deg. F temperature 10 ( 101.170 101. 170 deg. F temperature 11 ( 109.290 109.290 deg. F temperature 12 ( 92.660 92.660 deg. F temperature 13 ( 92.980 92.980 deg. F temperature 14 ( 89 '30 89.130 deg. F temperature 15 ( 78.040 78.040 deg. F temperature 16 77 '10 77.910 deg. F temperature 17 ( 77.960 77.960 deg. F temperature 18 ( 78.010 78.010 deg. F dewpoint ( 68. 140 68.140 deg. F 0.3402 psia dewpoint ( 67.360 67.360 deg. F 0.3309 psia dewpoint ( 67.300 67.300 deg. F 0.3408 psia dewpoint ( 67.560 67.560 deg. F 0.3332 psia dewpoint ( 76.780 76.780 deg. F 0.4559 psia dewpoint ( 76.290 76.290 deg. F 0.4485 psia pressure 1 ( 49.5106 ) = 49.5106 psia pressure 2 ( 49.5167 ) = 49.5167 psia weighted averages, volume and air mass temperature 87 '2571 deq. F pressure 49.51060 psza vapor pressure 0.38326 psia volume 343040 cu. ft.

dry air mass 83083 '1 ibm 47

WNP-2 199 1 ILRT STABILIZATION data set 10 time = 1715 date = 608 sensor raw data value temperature 1 ( 109 '90 109.790 deg. F temperature 2 ( 99.940 99.940 deg. F temperature 3 ( 93.030 93.030 deg. F temperature 4 ( 88.300 88.300 deg. F temperature 5 ( 101.790 101.790 deg. F temperature 6 ( 89.270 89.270 deg. F temperature 7 ( 92.850 92.850 deg. F temperature 8 92.900 92.900 deg. F temperature 9 ( 93.040 93.040 deg. F temperature 10 ( 101.220 101.220 deg. F temperature 11 109.270 109.270 deg. F temperature 12 ( 92.670 92.670 deg. F temperature 13 ( 92.990 92.990 deg. F temperature 14 ( 89.150 89 '50 deg. F temperature 15 ( 78.020 78.020 deg. F temperature 16 ( 77.910 77.910 deg. F temperature 17 ( 77.960 77.960 deg. F temperature 18 ( 78.000 78.000 deg. F dewpoint ( 68.170 68.170 deg. F , 0.3409 psia dewpoint ( 67 '90 67.390 deg. F , 0.3318 psia dewpoint ( 67.350 67.350 deg. F , 0.3314 psia dewpoint ( 67.580 67.580 deg. F , 0.3340 psia dewpoint ( 76.770 76.770 deg. F , 0.4557 psia dewpoint ( 76.320 76.320 deg. F , 0.4490 psia pressure 1 ( 49.5106 49.5106 psia pressure 2 ( 49 '168 49.5168 psia weighted averages, volume and air mass temperature 87.83482 deg. F pressure 49.51060 psia vapor pressure 0.38355 psia volume dry air mass 343040 cu.

83081. 74 ibm ft.

48

NNP-2 1991 ILRT STABILIZATION data set 11 time = 1730 date = 608 sensor raw data value temperature 1 ( 109.790 109.790 deg. F temperature 2 ( 99.980 99.980 deg. F temperature 3 ( 93.030 93.030 deg. F temperature 4 ( 88.300 88.300 deg. F temperature 5 ( 101.840 101.840 deg. F temperature 6 ( 89.270 89.270 deg. F temperature 7 ( 92.860 92.860 deg. F temperature 8 ( 92.910 92.910 deg. F temperature 9 ( 93.070 93.070 deg. F temperature 10 ( 101.260 101.260 deg. F temperature 11 ( 109.360 109.360 deg. F temperature 12 ( 92.680 92.680 deg. F temperature 13 ( 93.020 93.020 deg. F temperature 14 ( 89.140 89.140 deg. F temperature 15 ( 78.020 78.020 deg. F temperature 16 ( 77.900 77.900 deg. F temperature 17 ( 77.960 77.960 deg. F temperature 18 ( 78.000 78.000 deg. F dewpoint 1 ( 68.240 68.240 degas 67.430 deg, F, 0. 3417 0.3323 psia psia dewpoint 2 ( 67.430 F ,

dewpoint 3 ( 67.450 67.450 degas F , 0.3325 psia dewpoint 4 ( 67.630 67.630 degas F , 0.3346 psia dewpoint 5 ( 76.790 76.790 degas F , 0.4560 psia dewpoint 6 ( 76.310 76.310 deg~ F , 0.4488 psia pressure 1 ( 49.5109 .49.5109 psia

,pressure 2 ( 49.5170 49.5170 psia weighted averages, volume and air mass temperature 87.84440 deg. F pressure 49.51090 psia vapor pressure 0.38402 psia volume 343040 cu. ft.

dry air mass 83079.99 ibm 49

~ ~

WNP-2 1991 ILRT STABILIZATION data set 12 time = 1745 date = 608 sensor raw data value temperature 1 ( 109.820 ) 109.820 deg. F temperature 2 ( 100.020 ) 100.020 deg. F temperature 3 ( 93.060 ) 93.060 deg. F temperature 4 ( 88.320 88.320 deg. F temperature 5 ( 101.880 ) 101.880 deg. F temperature 6 ( 89.280 ) 89.280 deg. F temperature 7 ( 92.900 ) 92.900 deg. F temperature 8 ( 92.910 ) 92.910 deg. F temperature 9 ( 93.100 ) 93.100 deg. F temperature 10 101.310 ) 101.310 deg. F temperature 11 109.340 ) 109.340 deg. F temperature 12 ( 92.710 ) 92.710 deg. F temperature 13 ( 93.030 ) 93.030 deg. F temperature 14 ( 89.150 ) 89.150 deg. F temperature 15 ( 78.010 78.010 deg. F temperature 16 ( 77.890 ) 77.890 deg. F temperature 17 ( 77.950 ) 77.950 deg. F temperature 18 ( 77.990 77.990 deg. F dewpoint ( 68.270 ) 68.270 degas F, 0. 3421 psia dewpoint dewpoint

( 67.470 )

67.430 67.470 67.430 degas deg, F,

F,

0. 3328 psia
0. 3323 psia

( )

dewpoint dewpoint

( 67. 670 )

76.770 )

67.670 76.770 deg deg F,

F, 0 ~ 3351 psia

0. 4557 psia

(

dewpoint ( 76. 270 ) 76.270 deg~ F, 0. 4482 psia pressure 1 ( 49.5111 ) 49.5111 psia pr'essure 2 ( 49.5170 ) 49.5170 psia weighted averages, volume and air mass temperature 87.85353 deg. F pressure 49.51110 psia vapor pressure 0.38397 psia volume dry air mass 343040 cu.

83079.03 ibm ft.

50

W I NNP-2 1991 ILRT STABILIZATION data set 13 time = 1800 date = 608 sensor raw data value temperature 1 ( 109.870 ) 109.870 deg. F temperature 2 ( 100.070 ) 100.070 deg. F temperature 3 ( 93.070 93.070 deg. F temperature 4 ( 88.330 88.330 deg. F temperature 5 ( 101.920 101.920 deg. F temperature 6 ( 89.290 89.290 deg. F temperature 7 ( 92.890 92.890 deg. F temperature 8 ( 92.930 92.930 deg. F temperature 9 ( 93.100 93.100 deg. F temperature 10 ( 101.350 101.350 deg. F temperature 11 ( 109.390, 109.390 deg. F temperature 12 ( 92.710 92.710 deg. F temperature 13 ( 93.050 93.050 deg. F temperature 14 89.180 89.180 deg. F temperature 15 ( 78 000F 78.000 deg. F temperature 16 ( 77.890 77.890 deg. F temperature 17 ( 77.940 77.940 deg. F temperature 18 ( 77.980 77.980 deg. F dewpoint ( 68.300 ) 68.300 deg. F , 0.3424 psia dewpoint 67. 530 ) 67.530 deg. F , 0.3334 psia dewpoint 67.480 ) 67.480 deg. F , 0.3329 psia dewpoint 67.710 ) 67.710 deg. F , 0.3355 psia dewpoint ( 76.740 ) 76.740 deg. F , 0.4552 psia dewpoint ( 76.250 76.250 deg. F , 0.4479 psia pressure 1 ( 49.5108 ) 49.5108 psia pressure 2 ( 49.5172 ) 49.5172 psia weighted averages, volume and air mass temperature 87.86266 deg. F pressure 49.51080 psia vapor pressure 0.38413 psia volume dry air mass 343040 cu.

83076.87 ibm ft.

P 1'

i

WNP-2 1991 ILRT STABILIZATION data set 14 time = 1815 date = 608 sensor raw data value temperature 1 ( 109.870 109.870 deg. F temperature 2 ( 100.080 100.080 deg. F temperature 3 ( 93.060 93.060 deg. F temperature 4 ( 88.310 88.310 deg. F temperature 5 ( 101.940 101.940 deg. F temperature 6 ( 89.280 89.280 deg. F temperature 7 ( 92.880 ) 92.880 deg. F temperature 8 ( 92.940 92.940 deg. F temperature 9 ( 93.070 93.070 deg. F temperature 10 ( 101. 360 101.360 deg. F temperature 11 ( 109.430 109.430 deg. F temperature 12 { 92.690 92.690 deg. F temperature 13 ( 93.030 93.030 deg. F temperature 14 ( 89 '70 89.170 deg. F temperature 15 ( 77.970 77.970 deg. F temperature 16 ( 77.840 77.840 deg. F temperature 17 { 77.910 77.910 deg. F temperature 18 ( 77.950 77.950 deg. F dewpoint ( 68.280 ) 68.280 deg. F , 0.3422 psia dewpoint ( 67.500 ) 67.500 deg. F , 0.3331 psia dewpoint ( 67.480 ) 67.480 deg. F , 0.3329 psia dewpoint ( 67.690 ) 67.690 deg. F , 0.3353 psia dewpoint ( 76.700 ) 76.700 deg. F , 0.4546 psia

'dewpoint ( 76.210 76.210 deg. F , 0.4473 psia pressure 1 ( 49.5107 ) 49.5107 psia pressure 2 ( 49.5174 ) 49.5174 psia weighted averages, volume and air mass temperature 87.84525 deg. F pressure 49.51070 psia vapor pressure 0.38376 psia volume dry air mass 343040 cu.

83079.96 ibm ft.

52

WNP-2 1991 ILRT STABILIZATION data set 15 time = 1830 date = 608 sensor raw data value temperature 1 ( 109.920 109.920 deg. F temperature 2 ( 100.170 100 '70 deg. F temperature 3 ( 93 '30 93. 130 deg. F temperature 4 ( 88.360 88.360 deg. F temperature 5 ( 102.020 ) 102.020 deg. F temperature 6 ( 89.330 ) 89.330 deg. F temperature 7 ( 92.930 92.930 deg. F temperature 8 ( 92.980 92.980 deg. F temperature 9 ( 93.150 93.150 deg. F temperature 10 ( 101.460 101.460 deg. F temperature 11 ( 109.500 109.500 deg. F temperature 12 ( 92.780 92.780 deg. F temperature 13 93.100 93.100 deg. F temperature 14 89.200 89.200 deg. F temperature 15 78.000 78.000 deg. F temperature 16 77.890 77.890 deg. F temperature 17 77.940 ~ 77.940 deg. F temperature 18 77.980 77.980 deg. F dewpoint ( 68. 380 ) 68.380 deg. F , 0.3433 psia dewpoint 67. 650 ) 67.650 deg. F , 0.3348 psia dewpoint 67.610 ) 67.610 deg. F , 0.3344 psia dewpoint 67.800 ) 67.800 deg. F , 0.3366 psia dewpoint ( 76.740 ) 76.740 deg. F , 0.4552 psia dewpoint ( 76.210 ) 76.210-deg. F , 0.4473 psia pressure 1 ( 49.5114 ) 49.5114 psia pressure 2 ( 49.5168 ) 49.5168 psia weighted averages, volume and air mass temperature 87.89718 deg. F pressure 49.51140 psia vapor pressure 0.38473 psia volume dry air mass 343040 cu.

83071.62 ibm ft.

53

a ~

WNP-2 1991 ILRT STABILIZATION data set 16 time = 1845 date = 608 sensor raw data value temperature 1 ( 109.950 ) 109.950 deg. F temperature 2 ( 100.210 ) 100.210 deg. F temperature 3 ( 93.130 ) 93.130 deg. F temperature 4 ( 88.350 ) 88.350 deg. F temperature 5 ( 102.050 ) 102.050 deg. F temperature 6 ( 89.330 ) 89.330 deg. F temperature 7 ( 92.940 ) 92.940 deg. F temperature 8 ( 93.000 ) 93.000 deg. F temperature 9 ( 93.150 ) 93.150 deg. F temperature 10 ( 101.500 ) 101.500 deg. F temperature 11 ( 109.510 109.510 deg. F

-F temperature 12 ( 92.780 ) 92.780 deg.

temperature 13 ( 93.110 ) 93.110 deg. F temperature 14 '( 89.190 ) 89.190 deg. F temperature 15 ( 77.990 77.990 deg. F temperature 16 ( 77.860 77.860 deg. F temperature 17 ( 77.920 ) 77.920 deg. F temperature 18 ( 77.960 ) 77.960 deg. F dewpoint 1 ( 68.420 68.420 deg. F , 0.3438 psia dewpoint 2 ( 67.670 67.670 deg. F , 0.3351 psia dewpoint 3 ( 67.610 67.610 deg. F , 0.3344 psia dewpoint 4 ( 67.850 67.850 deg. F , 0.3371 psia dewpoint 5 ( 76.740 76.740 deg. F , 0.4552 psia dewpoint 6 ( 76.230 76.230 deg. F , 0.4476 psia pressure 1 ( 49.5111 49.5111 psia pressure 2 ( 49.5195 49.5195 psia weighted averages, volume and air mass temperature 87.89475 deg. F pressure 49.51110 psia vapor pressure 0.38496 psia volume air 343040 cu. ft.

dry mass 83071.10 ibm 54

WNP-2 1991 ILRT STABXLXZATXON data set 17 time = 1900 date = 608 sensor raw data value temperature 1 ( 109.990 109.990 deg. F temperature 2 ( 100.240 100.240 deg. F temperature 3 93.140 93.140 deg. F temperature 4 ( 88.350 88.350 deg. F temper'ature 5 ( 102.110 102.110 deg. F temperature 6 ( 89.340 89.340 deg. F temperature 7 ( 92.940 92.940 deg. F temperature 8 ( 93.010 93.010 deg. F

. temperature 9 ( 93 '70 93.170 deg. F temperature 10 ( 101.520 101.520 deg. F temperature 11 109.520 109 '20 deg. F temperature 12 ( 92.790 92.790 deg. F temperature 13 ( 93.110 93.110 deg. F temperature 14 ( 89.230 89.230 deg. F temperature 15 ( 77.980 77.980 deg. F temperature 16 ( 77.850 77.850 deg. F temperature 17 ( 77.900 77.900 deg. F temperature 18 ( 77.940 77.940 deg. F dewpoint ( 68. 480 68.480 deg. F 0.3445 psia dewpoint ( 67. 700 67.700 deg. F 0.3354 psia dewpoint ( 67. 650 67.650 deg. F 0.3348 psia dewpoint ( 67. 880 67.880 deg. F 0.3375 psia dewpoint ( 76.750 76.750 deg. F 0.4554 psia dewpoint ( 76.200 76.200 deg. F 0.4472 psia pressure 1 ( 49.5107 49.5107 psia pressure 2 ( 49.5209 49.5209 psia weighted averages, volume and air mass temperature 87.89902 deg. F pressure 49.51070 psia vapor pressure 0.38517 psia volume 343040 cu. ft.

dry air mass 83069.43 ibm I

55

g'.

)

I

WNP-2 1991 ILRT STABILIZATION data set 18 time = 1915 date = 608 sensor raw data value temperature 1 ( 109.960 109.960 deg. F temperature 2 ( 100.270 100.270 deg. F temperature 3 ( 93.110 93.110 deg. F temperature 4 ( 88.330 88.330 deg. F temperature 5 ( 102.130 102. 130 deg. F temperature 6 ( 89.340 89.340 deg. F temperature 7 ( 92.960 92.960 deg. F temperature 8 ( 93.010 93.010 deg. F temperature 9 ( 93.170 93.170 deg. F temperature 10 ( 101-560 101.560 deg. F temperature 11 ( 109 '40 109.540 deg. F temperature 12 ( 92.780 92.780 deg. F temperature 13 ( 93.110 93.110 deg. F temperature 14 ( 89.180 89.180 deg. F temperature 15 ( 77.950 77.950 deg. F temperature 16 ( 77.820 77.820 deg. F temperature 17 ( 77.880 77.880 deg. F temperature 18 ( 77.930 77.930 deg. F dewpoint 1 ( 68.510 68.510 deg. F , 0.3449 psia dewpoint 2 ( 67.790 67.790 deg. F , 0.3364 psia dewpoint 3 ( 67.710 67.710 deg. F , 0.3355 psia dewpoint 4 ( 67.920 67.920 deg. F , 0.3380 psia dewpoint 5 ( 76.720 76.720 deg. F , 0.4549 psia dewpoint 6 ( 76. 180 76.180 deg. F , 0.4469 psia pressure 1 ( 49.5113 49.5113 psia pressure 2 ( 49.5192 49.5192 psia weighted averages, volume and air mass temperature 87.88821 deg. F pressure 49.51130 psia vapor pressure 0.38540 psia volume 343040 cu. ft.

dry air mass 83071.68 ibm 56

C, $

- o r ~ II

\

I

'I "l

F, l '

WNP-2 1991 ILRT STABILIZATION data set 19 time = 1930 date = 608 sensor raw data value temperature 1 ( 110.030 110.030 deg. F temperature 2 ( 100.330 100.330 deg. F temperature 3 ( 93.160 93.160 deg. F temperature 4 ( 88.370 88.370 deg. F temperature 5 ( 102.180 102.180 deg. F temperature 6 ( 89.370 89.370 deg. F temperature 7 ( 92.980 92.980 deg. F temperature 8 ( 93.030 93.030 deg. F temperature 9 ( 93.190 93.190 deg. F temperature 10 ( 101.610 101.610 deg. F temperature 11 ( 109.590 109.590 deg. F temperature 12 ( 92.820 92.820 deg. F temperature 13 ( 93.140 93.140 deg. F temperature 14 ( 89.240 89.240 deg. F temperature 15 ( 77.970 77.970 deg. F temperature 16 ( 77.830 77.830 deg. F temperature 17 ( 77.890 77.890 deg. F temperature 18 ( 77.930 77.930 deg. F dewpoint 1 ( 68.550 68.550 deg. F , 0.3454 psia dewpoint 2 67.770 67.770 deg. F , 0.3362 psia dewpoint 3 ( 67.700 67.700 deg. F , 0.3354 psia dewpoint 4 67.970 67.970 deg. F , 0.3385 psia dewpoint 5 ( 76.700 76.700 deg. F , 0.4546 psia dewpoint 6 ( 76.160 76.160 deg. F , 0.4466 psia pressure 1 ( 49.5115 49.5115 psia pressure 2 ( 49.5188 49.5188 psia weighted averages, volume and air mass temperature 87.91650 deg. F pressure 49.51150 psia vapor pressure 0.38535 psia volume 343040 cu. ft.

dry air mass 83067.83 ibm 57

C k

IP P

NNP-2 1991 ZLRT STABXLXZATION data set 20 time = 1945 date = 608 sensor raw data value temperature 1 ( 110.060 110.060 deg. F temperature 2 100.370 100.370 deg. F temperature 3 93.180 93.180 deg. F temperature 4 88.380 88.380 deg. F temperature 5 ( 102.230 102.230 deg. F temperature 6 ( 89.370 89.370 deg. F temperature 7 ( 93.020 ) 93.020 deg. F temperature 8 ( 93.050 ) 93.050 deg. F temperature 9 93.220 93.220 deg. F temperature 10 ( 101.660 101.660 deg. F temperature 11 109.610 109.610 deg. F temperature 12 92.840 92.840 deg. F temperature 13 ( 93.160 93.160 deg. F temperature 14 ( 89.230 89.230 deg. F temperature 15 ( 77.960 77.960 deg. F temperature 16 ( 77.830 77.830 deg. F temperature 17 ( 77.880 77.880 deg. F temperature 18 ( 77.920 77.920 deg. F dewpoint 1 ( 68.600 68.600 deg. F , 0.3459 psia dewpoint 2 ( 67.780 67.780 deg. F , 0.3363 psia dewpoint 3 ( 67.810 67.810 deg. F I 0.3367 psia dewpoint 4 ( 68.000 68.000 deg. F , 0.3389 psia dewpoint 5 ( 76.670 76.670 deg. F , 0.4542 psia dewpoint 6 ( 76.110 76.110 deg. F , 0.4458 psia pressure 1 ( 49.5117 49.5117 psia pressure 2 ( 49.5187 49.5187 psia weighted averages, volume and air mass temperature 87.92627 deg. F pressure 49.51170 psia vapor pressure 0.38544 psia volume 343040 cu. ft.

dry air mass 83066.52 ibm

ti WNP-2 1991 ILRT STABILIZATION data set 21 time = 2000 date = 608 sensor raw data value temperature 1 ( 110.080 110.080 deg. F temperature 2 ( 100.420 100.420 deg. F temperature 3 ( 93.210 93.210 deg. F temperature 4 ( 88.390 88.390 deg. F temperature 5 ( 102.270 102.270 deg. F temperature 6 ( 89.390 89.390 deg. F temperature 7 ( 93.000 93.000 deg. F temperature 8 ( 93.080 93.080 deg. F temperature 9 ( 93.230 93.230 deg. F temperature 10 101.700 101.700 deg. F temperature 11 109.630 109.630 deg. F temperature 12 92.840 92.840 deg. F temperature 13 ( 93.160 93.160 deg. F temperature 14 ( 89.210 89.210 deg. F temperature 15 ( 77.960 77.960 deg. F temperature 16 ( 77.820 77.820 deg. F temperature 17 ( 77.880 77.880 deg. F temperature 18 ( 77.920 77.920 deg. F dewpoint ( 68. 630 68.630 deg. F , 0.3463 psia dewpoint ( 67.850 67.850 deg. F , 0.3371 psia dewpoint ( 67.870 67.870 deg. F , 0.3374 psia dewpoint ( 68.030 68.030 deg. F , 0.3392 psia dewpoint 76.670 76.670 deg. F , 0.4542 psia dewpoint ( 76. 140 76.140 deg. F , 0.4463 psia pressure 1 ( 49.5119 49.5119 psia pressure 2 ( 49.5187 49.5187 psia weighted averages, volume and air mass temperature 87.93407 deg. F pressure 49.51190 psia vapor pressure 0.38588 psia volume 343040 cu. ft.

dry air mass 83064.94 ibm 59

PRE-DATA REPORT title = WNP-2 1991 ILRT TYPE A TEST volume =

leap year 343040

no La = 0.5000 erature volume fractions ( sum = 1.0000 )

t( 1)=0".0265 t( 2)=0.0402 t( 3)=0.0398 t( 4)=0.0563 t( 5)=0.0402 t( 6)=0 0563 t( 7)=0 0398 t( 8) =0. 0398 t( 9) =0.0398 t(10)=0.0402 t(11)=0.0265 t(12)=0.0398 t (13) =0. 0398 t (14) =0. 0563 t(15)=0.1047

~ ~

t(16)=0 ~ 1047 t(17)=0.1047 t(18) =0. 1046 dewpoint volume fractions ( sum = 1.0000 )

dp( 1)=0.1194 dp( 2)=0.1737 dp( 3)=0.1688 dp( 4)=0.1194 dp( 5)=0.2094 dp( 6)=0.2093 pressure volume fractions ( sum = 1.0000 )

p( 1)=1.0000 p( 2)=0.0000 e

60

I f, WNP-2 1991 ILRT TYPE A TEST DATA

SUMMARY

REPORT data time date temperature pressure vapor dry air set deg F psia pressure mass psia ibm 1 2000 49.5119 0.3859 83064.94 2 2015 608 87.9478 49.5119 0.3862 83062.36 3 2030 608 87.9590 49.5121 0.3864 83060.62 4 2045 608 87.9693 49.5129 0.3865 83060.28 5

6 2100 2115 608 608 '7.9341 87.9807 87.9885 49.5129 49.5131 0.3868 0.3872 83057.99 83056.47 7 2130 608 87.9979 49.5132 0.3874 83054.94 8 2145 608 88.0070 49.5135 0.3877 83053.51 9 2200 608 88.0163 49.5136 0.3879 83051.97 10 2215 608 88.0234 49.5139 0.3881 83050.94 11 2230 608 88.0363 49.5141 0.3883 83049.07 12 2245 608 88.0469 49.5141 0.3886 83046.89 13 2300 608 88.0546 49.5143 0.3888 83045.86 14 2315 608 88.0642 49.5146 0.3890 83044.54 15 2330 608 88.0761 49.5147 0.3893 83042.35 16 2345 608 88.0827 49.5149 0.3892 83041.82 17 0 609 88.0934 49.5148 0.3895 83039.55 18 15 609 88.0903 49.5151 0.3894 83040.70 19 30 609 88.1140 49.5152 0.3900 83036.30 20 45 609 88.1136 49.5148 0.3904 83035.05 21 100 609 88.1260 49.5155 0.3906 83033.91 22 23 400'08 115 130 609 609 88.1319 88.1424 49.5151 49.5155 0.3907 0.3911 83032.29 83030.69 24 145 609 88.1513 49.5157 0.3912 83029.37 25 200 609 88.1605 49.5157 0.3913 83027.95 26 215 609 88.1691 49.5160 0.3915 83026.74 27 28 230 245 609 609 88.1795 88.1879 49.5158 49.5160 0.3917 0.3920 83024 '1 83023.04 29 300 609 88.1971 49.5159 0.3921 83021.38 30 315 609 88.2077 49.5165 0.3923 83020.35 31 330 609 88.2115 49.5159 0.3927 83018.19, 32 345 609 88.2207 49.5166 0.3929 83017" 53 33 ~

609 88.2348 49.5166 0.3930 83015.19 61

WNP-2 1991 ILRT TYPE A TEST data set 1 time = 2000 date = 608 sensor raw data value temperature 1 ( 110.080 ) 110.080 deg. F temperature 2 ( 100.420 ) 100.420 deg. F temperature 3 ( 93.210 ) 93.210 deg. F temperature 4 ( 88.390 ) 88.390 deg. F temperature 5 ( 102.270 ) 102.270 deg. F temperature 6 ( 89.390 ) 89.390 deg. F temperature 7 ( 93.000 ) 93.000 deg. F temperature 8 ( 93.080 ) 93.080 deg. F temperature 9 ( 93.230 ) 93.230 deg. F temperature 10 ( 101.700 ) 101.700 deg. F temperature 11 ( 109.630 109.630 deg. F temperature 12 ( 92.840 ) 92.840 deg. F temperature 13 ( 93.160 ) 93.160 deg. F temperature 14 ( 89.210 ) 89.210 deg. F temperature 15 ( 77.960 ) 77.960 deg. F temperature 16 ( 77.820 ) 77.820 deg. F temperature 17 ( 77.880 ) 77.880 deg. F temperature 18 ( 77.920 ) 77.920 deg. F dewpoint 1 ( 68.630 ) 68.630 deg. F, 0. 3463 psia dewpoint 2 ( 67.850 ) 67.850 deg. F , 0.3371 psia dewpoint 3 ( 67.870 ) 67.870 deg. F i 0.3374 psia dewpoint 4 ( 68.030 ) 68.030 deg. F , 0.3392 psia dewpoint 5 ( 76.670 ) 76.670 deg. F , 0.4542 psia dewpoint 6 ( 76.140 76.140 deg. F , 0.4463 psia pressure 1 ( 49.5119 ) 49.5119 psia pressure 2 ( 49.5187 ) 49.5187 psia weighted averages, volume and air mass temperature 87.93407 deg. F pressure 49.51190 psia vapor pressure 0.38588 psia volume dry air mass 343040 cu.

83064.94 ibm ft.

62

O WNP-2 1991 ILRT TYPE A TEST data set 2 time = 2015 date = 608 sensor raw data value temperature 1 ( 110.110 110.110 degas F temperature 2 ( 100.460 100 '60 degas F temperature 3 ( 93.210 93.210 degas F temperature 4 ( 88 '10 88.410 deg F temperature 5 ( 102.310 102.310 degas F temperature 6 89.400 89.400 degas F temperature 7 ( 93.040 93.040 degas F temperature 8 ( 93.080 93.080 deg F temperature 9 ( 93.250 93.250 degas F temperature 10 ( 101.740 101.740 dego F temperature 11 ( 109.690 109.690 deg. F temperature 12 92.880 92.880 degas F temperature 13 93.190 93 '90 degas F temperature 14 ( 89.260 89.260 degas F temperature 15 ( 77.950 77.950 degas F temperature 16 ( 77.820 77.820 degas F temperature 17 ( 77.870 77.870 degas F temperature 18 ( 77.910 77.910 deg F dewpoint ( 68. 700 68.700 deg. F I 0 ~ 3471 psia dewpoint ( 67.890 67.890 deg. F 0.3376 psia dewpoint ( 67.880 67.880 deg. F 0.3375 psia dewpoint ( 68.100 68.100 deg. F 0.3401 psia dewpoint ( 76.660 76.660 deg. F 0.4540 psia dewpoint ( 76.150 76.150 deg. F 0.4464 psia pressure 1 ( 49 '119 49.5119 psia pressure 2 ( 49.5189 49.5189 psia weighted averages, volume and air mass temperature 87.94781 deg. F pressure 49.51190 psia vapor pressure 0.38618 psia volume 343040 cu. ft.

dry air mass 83062.36 ibm 63

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WNP-2 1991 ZLRT TYPE A TEST data set 3 time = 2030 date = 608 sensor raw data value temperature 1 ( 110.140 ) 110. 140 deg. F temperature 2 ( 100.510 ) 100.510 deg. F temperature 3 ( 93.240 ) 93.240 deg. F temperature 4 ( 88.420 ) 88.420 deg. F temperature 5 ( 102.370 ) 102.370 deg. F temperature 6 ( 89 '10 ) 89.410 deg. F temperature 7 ( 93.040 ) 93.040 deg. F temperature 8 ( 93.090 ) 93.090 deg. F temperature 9 ( 93 '60 ) 93.260 deg. F temperature 10 ( 101.800 ) 101.800 deg. F temperature 11 ( 109.690 ) 109.690 deg. F temperature 12 ( 92.890 ) 92.890 deg. F temperature 13 ( 93.190 ) 93.190 deg. F temperature 14 ( 89.280 ) 89.280 deg. F temperature 15 ( 77.950 ) 77.950 deg. F temperature 16 ( 77.810 ) 77.810 deg. F temperature 17 ( 77.870 ) 77.870 deg. F temperature 18 ( 77.910 ) 77.910 deg. F dewpoint ( 68.720 ) 68.720 deg. F , 0.3474 psia dewpoint ( 67.940 ) 67.940 deg. F , 0.3382 psia dewpoint ( 67.910 ) 67.910 deg. F , 0.3378 psia dewpoint ( 68.120 ) 68.120 deg. F , 0.3403 psia dewpoint ( 76.680 ) 76.680 deg. F , 0.4543 psia dewpoint ( 76.130 ) 76.130 deg. F , 0.4461 psia pressure 1 ( 49. 5121 ) 49.5121 psia pressure 2 ( 49.5190 ) 49.5190 psia weighted averages, volume and air mass temperature 87.95904 deg. F pressure 49.51210 psia vapor pressure 0.38639 psia volume 343040 cu. ft.

dry air mass 83060.62 ibm 64

I WNP-2 1991 ILRT TYPE A TEST data set 4 time = 2045 date = 608 sensor raw data value temperature 1 ( 110.170 110. 170 deg. F temperature 2 ( 100 '40 ) 100.540 deg. F temperature 3 ( 93 '60 ) 93.260 deg. F temperature 4 ( 88.430 ) 88.430 deg. F temperature 5 ( 102.410 ) 102.410 deg. F temperature 6 ( 89.420 ) 89.420 deg. F temperature 7 ( 93. 080 93.080 deg. F temperature 8 ( 93.110 93.110 deg. F temperature 9 ( 93.300 93.300 deg. F temperature 10 101.830 101.830 deg. F temperature 11 109.750 109.750 deg. F temperature 12 92.890 92.890 deg. F temperature 13 93.220 93.220 deg. F temperature 14 89.260 89.260 deg. F temperature 15 77.940 77.940 deg. F temperature 16 ( 77.810 77.810 deg. F temperature 17 77.870 77.870 deg. F temperature 18 77.900 77.900 deg. F dewpoint 1 ( 68.760 68.760 deg. F , 0.3479 psia dewpoint 2 ( 67.940 67.940 deg. F , 0.3382 psia dewpoint 3 ( 67.940 67.940 deg. F , 0.3382 psia dewpoint 4 ( 68.160 68.160 deg. F , 0.3408 psia dewpoint 5 ( 76.670 76.670 deg. F , 0.4542 psia dewpoint 6 ( 76.110 76.110 deg. F , 0.4458 psia pressure 1 ( 49 '129 49.5129 psia pressure 2 ( 49 '190 49.5190 psia weighted averages, volume and air mass temperature 87.96932 deg. F pressure 49.51290 psia vapor pressure 0.38647 psia volume 343040 cu. ft.

dry air mass 83060.28 ibm h

65

lf 8 WNP-2 1991 ILRT TYPE A TEST data set 5 time = 2100 date = 608 sensor raw data value temperature 1 ( 110.190 ) 110. 190 deg. F temperature 2 ( 100.590 ) 100.590 deg. F temperature 3 ( 93.270 ) 93 '70 deg. F temperature 4 ( 88.440 ) 88.440 deg. F temperature 5 ( 102.440 ) 102.440 deg. F temperature 6 ( 89.430 ) 89.430 deg. F temperature 7 ( 93.100 ) 93.100 deg. F temperature 8 ( 93.140 ) 93.140 deg. F temperature 9 ( 93.310 ) 93.310 deg. F temperature 10 ( 101.870 ) 101.870 deg. F temperature 11 ( 109.750 ) 109.750 deg. F temperature 12 ( 92.890 92.890 deg. F temperature 13 ( 93.230 ) 93.230 deg. F temperature 14 ( 89.310 ) 89.310 deg. F temperature 15 ( 77.940 ) 77.940 deg. F temperature 16 ( 77.810 ) 77.810 deg. F temperature 17 ( 77.860 ) 77.860 deg. F temperature 18 ( 77.900 77.900 deg. F dewpoint 1 ( 68.780 ) 68.780 deg. F, 0.3481 psia dewpoint 2 ( 68.040 ) 68.040 deg. F , 0.3394 psia dewpoint 3 ( 67.970 ) 67.970 deg. F , 0.3385 psia dewpoint 4 68 '90 ) 68.190 deg. F , 0.3411 psia dewpoint 5 76.660 ) 76.660 deg. F , 0.4540 psia dewpoint 6 76.120 76.120 deg. F , 0.4460 psia pressure 1 ( 49.5129 ) 49.5129 psia pressure 2 ( 49.5187 ) 49.5187 psia weighted averages, volume and air mass temperature 87.98074 deg. F pressure 49.51290 psia vapor pressure 0.38680 psia volume 343040 cu. ft.

dry air mass 83057.99 ibm 66

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WNP-2 1991 ILRT TYPE A TEST data set 6 time = 2115 date = 608 sensor raw data value temperature 1 ( 110.240 110.240 deg. F temperature 2 ( 100.630 100.630 deg. F temperature 3 ( 93.280 93.280 deg. F temperature 4 ( 88.450 88.450 deg. F temperature 5 ( 102.490 102.490 deg. F temperature 6 ( 89.440 89.440 deg. F temperature 7 ( 93.100 93.100 deg. F temperature 8 ( 93.150 93.150 deg. F temperature 9 ( 93.330 93.330 deg. F temperature 10 ( 101.920 101.920 deg. F temperature 11 ( '109.780 109.780 deg. F temperature 12 92.920 92.920 deg. F temperature 13 ( 93.240 93.240 deg. F temperature 14 ( 89.270 89.270 deg. F temperature 15 ( 77.920 77.920 deg. F temperature 16 ( 77 '10 77.810 deg. F temperature 17 ( 77.860 77.860 deg. F temperature 18 ( 77.900 77.900 deg. F dewpoint 1 ( 68.840 68.840 deg. F , 0.3488 psia dewpoint 2 ( 68.050 68.050 deg. F , 0.3395 psia dewpoint 3 ( 68.040 68.040 deg. F , 0.3394 psia dewpoint 4 ( 68.240 68.240 deg. F , 0.3417 psia dewpoint 5 ( 76.690 76.690 deg. F , 0.4545 psia dewpoint 6 ( 76 '20 76.120 deg. F , 0.4460 psia pressure 1 ( 49.5131 49.5131 psia pressure 2 ( 49.5194 49.5194 psia weighted averages, volume and air mass temperature 87.98846 deg. F .

pressure 49.51310 psia.

vapor pressure 0.38721 psia volume air 343040 cu. ft.

dry mass 83056.47 ibm 67

L WNP-2 1991 ZLRT TYPE A TEST data set 7 time = 2130 date = 608 sensor raw data value temperature ,1 ( 110.260 110.260 deg. F temperature 2 ( 100.670 100.670 deg. F temperature 3 ( 93.290 93.290 deg. F temperature 4 ( 88.460 88.460 deg. F temperature 5 ( 102.530 102 '30 deg. F temperature 6 ( 89.450 89.450 deg. F temperature 7 ( 93.130 93.130 deg. F temperature 8 ( 93. 170 93 ~ 170 deg. F temperature 9 ( 93.340 93.340 deg. F temperature 10 ( 101.960 101.960 deg. F temperature 11 ( 109.830 109.830 deg. F temperature 12 ( 92.950 92.950 deg. F temperature 13 ( 93.260 93.260 deg. F temperature 14 ( 89.270 89.270 deg. F temperature 15 ( 77.920 77.920 deg. F temperature 16 ( 77.800 77.800 deg. F temperature 17 ( 77.850 77.850 deg. F temperature 18 ( 77.890 77.890 deg. F dewpoint 1 ( 68.880 68.880 deg. F , 0.3493 psia dewpoint 2 ( 68.070 68.070 deg. F , 0.3397 psia dewpoint 3 ( 68.090 68.090 deg. F , 0.3399 psia dewpoint 4 ( 68.280 68.280 deg. F , 0.3422 psia dewpoint 5 ( 76.660 76.660 deg. F , 0.4540 psia dewpoint 6 ( 76.120 76.120 deg. F , 0.4460 psia pressure 1 ( 49 5132

~ 49.5132 psia pressure 2 ( 49 5197

~ 49.5197 psia weighted averages, volume and air mass temperature 87.99790 deg. F pressure 49.51320 psia ~

vapor pressure 0.38737 psia volume 343040 cu. ft.

dry air mass 83054.94 ibm 68

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WNP-2 1991 ILRT TYPE A TEST data set 8 time = 2145 date = 608 sensor raw data value temperature 1 ( 110.300 ) 110.300 deg. F temperature 2 ( 100.720 ) 100.720 deg. F temperature 3 ( 93.310 ) 93.310 deg. F temperature 4 ( 88.460 ) 88.460 deg. F temperature 5 ( 102.580 ) 102.580 deg. F temperature 6 ( 89.450 ) 89.450 deg. F temperature 7 ( 93 '40 ) 93.140 deg. F temperature 8 ( 93.170 ) 93.170 deg. F temperature 9 ( 93.350 ) 93.350 deg. F temperature 10 ( 102.000 ) 102.000 deg. F temperature 11 ( 109.860 ) 109.860 deg. F temperature 12 ( 92.980 ) 92.980 deg. F temperature 13 ( 93.280 ) 93.280 deg. F temperature 14 ( 89.290 ) 89.290 deg. F temperature 15 ( 77.910 77.910 deg. F temperature 16 ( 77.790 ) 77.790 deg. F temperature 17 ( 77.850 ) 77.850 deg. F temperature 18 ( 77.880 77.880 deg. F dewpoint ( 68.920 ) 68.920 deg~ F , 0.3498 psia dewpoint ( 68.160 ) 68.160 degas F , 0.3408 psia dewpoint ( 68.100 ) 68.100 deg. F , 0.3401 psia dewpoint ( 68.310 ) 68.310 deg~ F , 0.3425 psia dewpoint ( 76.670 ) 76.670 deg F , 0.4542 psia dewpoint ( 76.120 76.120 deg~ F , 0.4460 psia pressure 1 ( 49. 5135 ) 49.5135 psia pressure 2 ( 49. 5198 ) 49.5198 psia weighted averages, volume and air mass temperature 88.00696 deg. F pressure 49.51350 psia vapor pressure 0.38770 psia volume dry air mass 343040 cu.

83053.51 ibm ft.

69

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WNP-2 1991 ILRT TYPE A TEST data set 9 time = 2200 date = 608 sensor raw data value temperature 1 ( 110.340 110. 340 deg. F temperature 2 ( 100.760 100.760 deg. F temperature 3 ( 93.330 93.330 deg. F temperature 4 ( 88.470 88.470 deg. F temperature 5 ( 102.610 ) 102.610 deg. F temperature 6 ( 89.470 ) 89.470 deg. F temperature 7 ( 93.130 ) 93.130 deg. F temperature 8 ( 93.190 93.190 deg. F temperature 9 ( 93.370 93.370 deg. F temperature 10 ( 102.050 102.050 deg. F temperature 11 ( 109.880 109.880 deg. F temperature 12 ( 92.980 92.980 deg. F temperature 13 ( 93.300 93.300 deg. F temperature 14 ( 89.300 89.300 deg. F temperature 15 ( 77.900 77.900 deg. F temperature 16 ( 77.790 77.790 deg. F temperature 17 ( 77.840 77.840 deg. F temperature 18 ( 77.880 77.880 deg. F dewpoint 1 ( 68.950 ) 68.950 deg. F , 0.3501 psia dewpoint 2 ( 68.190 ) 68.190 deg. F , 0.3411 psia dewpoint 3 ( 68.160 ) 68.160 deg. F , 0,3408 psia dewpoint 4 ( 68.360 ) 68.360 deg. F , 0.3431 psia dewpoint 5 ( 76.660 ) 76.660 deg. F , 0.4540 psia dewpoint 6 ( 76.090 ) 76.090 deg. F , 0.4455 psia pressure 1 ( 49.5136 ) 49.5136 psia pressure 2 ( 49.5200 ) 49.5200 psia weighted averages, volume and air mass temperature 88.01632 deg. F pressure 49.51360 psia vapor pressure 0.38787 psia volume dry air mass 343040 cu.

83051.97 ibm ft.

70

L WNP-2 1991 ILRT TYPE A TEST 1

data set 10 time = 2215 date = 608 sensor raw data value temperature 1 ( 110 '70 110.370 deg. F temperature 2 ( 100 '10 100.810 deg. F temperature 3 ( 93 '20 93.320 deg. F temperature 4 ( 88.480 88.480 deg. F temperature 5 ( 102.650 102.650 deg. F temperature 6 ( 89.470 89.470 deg. F temperature 7 ( 93.150 93.150 deg. F temperature 8 ( 93.220 93.220 deg. F temperature 9 ( 93.400 93.400 deg. F temperature 10 ( 102 '90 102.090 deg. F temperature 11 ( 109.890 109.890 deg. F temperature 12 ( 93.000 93.000 deg. F temperature 13 ( 93.320 93.320 deg. F temperature 14 ( 89.300 89.300 deg. F temperature 15 ( 77.900 77.900 deg. F temperature 16 ( 77.770 77.770 deg. F temperature 17 ( 77.830 77.830 deg. F temperature 18 ( 77.870 77.870 deg. F dewpoint ( 69. 010 69.010 deg. F , 0.3508 psia dewpoint ( 68.220 68.220 deg. F , 0.3415 psia dewpoint ( 68.190 68.190 deg. F , 0.3411 psia dewpoint ( 68 '10 68.410 deg. F , 0.3437 psia dewpoint ( 76.650 76.650 deg. F , 0.4539 psia dewpoint ( 76.100 76.100 deg. F , 0.4457 psia pressure 1 ( 49.5139 49.5139 psia pressure 2 ( 49.5203 49.5203 psia weighted averages, volume and air mass temperature 88.02337 deg. F pressure 49.51390 psia vapor pressure 0.38815 psia volume 343040 cu. ft.

dry air mass 83050.94 ibm 71

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WNP-2 1991 ILRT TYPE A TEST data set 11 time = 2230 date = 608 sensor raw data value temperature 1 ( 110.380 110.380 deg. F temperature 2 ( 100.850 100.850 deg. F temperature 3 ( 93.360 93.360 deg. F temperature 4 ( 88.490 88.490 deg. F temperature 5 ( 102.700 102.700 deg. F temperature 6 ( 89.480 89.480 deg. F temperature 7 ( 93.200 93 '00 deg. F temperature 8 ( 93.220 93.220 deg. F temperature 9 ( 93.420 93.420 deg. F temperature 10 ( 102.130 102.130 deg. F temperature 11 ( 109.950 109.950 deg. F temperature 12 ( 93. 000 93.000 deg. F temperature 13 93.330 93.330 deg. F temperature 14 89.300 89 '00 deg. F temperature 15 77.900 77.900 deg. F temperature 16 ( 77.770 77.770 deg. F temperature 17 ( 77.830 77.830 deg. F temperature 18 ( 77.870 77.870 deg. F dewpoint 1 ( 69. 040 69.040 deg. F , 0.3512 psia dewpoint 2 ( 68. 230 68.230 deg. F , 0.3416 psia dewpoint 3 ( 68. 230 68.230 deg. F , 0.3416 psia dewpoint 4 ( 68.430 68.430 deg. F , 0.3439 psia dewpoint 5 ( 76.650 76.650 deg. F , 0.4539 psia dewpoint 6 ( 76.090 76.090 deg. F , 0.4455 psia pressure 1 ( 49. 5141 49.5141 psia pressure 2 ( 49.5203 49.5203 psia weighted averages, volume and air mass temperature 88. 03635 deg. F pressure 49.51410 psia vapor pressure 0.38829 psia volume dry air mass 343040 cu.

83049.07 ibm ft.

72

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WNP-2 1991 ILRT TYPE A TEST data set 12 time = 2245 date = 608 sensor raw data value temperature 1 ( 110.430 ) 110.430 deg. F temperature 2 ( 100.880 ) 100.880 deg. F temperature 3 ( 93.370 ) 93.370 deg. F temperature 4 ( 88.490 ) 88.490 deg. F temperature 5 ( 102.740 102.740 deg. F temperature 6 ( 89.490 ) 89.490 deg. F temperature 7 ( 93.240 ) 93.240 deg. F temperature 8 ( 93 '50 ) 93.250 deg. F temperature 9 ( 93.420 ) 93.420 deg. F temperature 10 ( 102 '70 ) 102.170 deg. F temperature 11 ( 110.000 ) 110.000 deg. F temperature 12 ( 93.010 ) 93 010 deg. F temperature 13 ( 93.350 ) 93.350 deg. F temperature 14 89.330 ) 89.330 deg. F temperature 15 ( 77.890 ) 77.890 deg. F temperature 16 77.770 ) 77.770 deg. F temperature 17 ( 77.820 ) 77.820 deg. F temperature 18 77.860 77.860 deg. F dewpoint 1 69.070 ) 69.070 deg. F I 0 3516 psia dewpoint 2 68.310 ) 68.310 deg. F , 0.3425 psia dewpoint 3 68.250 ) 68.250 deg. F , 0.3418 psia dewpoint ( 68.480 ) 68.480 deg. F , 0.3445 psia dewpoint 5 76.650 ) 76.650 deg. F , 0.4539 psia dewpoint 6 ( 76.100 76.100 deg. F I 0.4457 psia pressure 1 ( 49. 5141 ) 49. 5141 psia pressure 2 ( 49.5204 ) 49.5204 psia weighted averages, volume and air mass temperature 88.04691 deg. F pressure 49.51410 psia vapor pressure 0.38863 psia volume 343040 cu. ft.

dry air mass 83046.89 ibm 73

+~rk~ 4 WNP-2 1991 ILRT TYPE A TEST data set 13 time = 2300 date = 608 sensor raw data value temperature 1 ( 110. 450 110.450 deg. F temperature 2 ( 100.920 100.920 deg. F temperature 3 ( 93.400 93.400 deg. F temperature 4 ( 88.520 88.520 deg. F temperature 5 ( 102.770 102.770 deg. F temperature 6 ( 89.510 89.510 deg. F temperature 7 ( 93.220 93.220 deg. F temperature 8 ( 93.260 93.260 deg. F temperature 9 ( 93.420 93.420 deg. F temperature 10 ( 102.210 102.210 deg. F temperature 11 ( 110.010 110.010 deg. F temperature 12 ( 93.030 93.030 deg. F temperature 13 ( 93.350 93.350 deg. F temperature 14 ( 89.370 89.370 deg. F temperature 15 ( 77.880 77.880 deg. F temperature 16 ( 77.750 77.750 deg. F temperature 17 ( 77.820 77.820 deg. F temperature 18 ( 77.850 77.850 deg. F dewpoint ( 69. 100 69.100 deg. F , 0.3519 psia dewpoint ( 68.330 68.330 deg. F , 0.3428 psia dewpoint ( 68.310 68.310 deg. F , 0.3425 psia dewpoint ( 68.510 68.510 deg. F , 0.3449 psia dewpoint ( 76.630 76.630 deg. F , 0.4536 psia dewpoint ( 76.080 76.080 deg. F , 0.4454 psia pressure 1 ( 49.5143 49.5143 psia pressure 2 ( 49.5205 49.5205 psia weighted averages, volume and air mass temperature 88.05460 deg. F pressure 49.51430 psia vapor pressure 0.38876 psia volume 343040 cu. ft.

dry air mass 83045.86 ibm 74

WNP-2 1991 ILRT TYPE A TEST data set 14 time = 2315 date = 608 sensor raw data value temperature 1 ( 110.470 110.470 deg. F temperature 2 ( 100.970 100.970 deg. F temperature 3 ( 93.400 93.400 deg. F temperature 4 ( 88.530 88.530 deg. F temperature 5 ( 102.820 102.820 deg. F temperature 6 ( 89.520 89.520 deg. F temperature 7 ( 93.220 93.220 deg. F temperature 8 ( 93.270 93.270 deg. F temperature 9 ( 93.450 93.450 deg. F temperature 10 ( 102.250 102.250 deg. F temperature 11 ( 110.040 110.040 deg. F temperature 12 ( 93.060 93.060 deg. F temperature 13 ( 93.370 93.370 deg. F temperature 14 ( 89.370 89.370 deg. F temperature 15 ( 77.880 77.880 deg. F temperature 16 ( 77.750 77.750 deg. F temperature 17 ( 77.800 77.800 deg. F temperature 18 ( 77.850 77.850 deg. F dewpoint ( 69.150 69.150 deg. F , 0.3525 psia dewpoint ( 68.330 68.330 deg. F , 0.3428 psia dewpoint ( 68.370 68.370 deg. F , 0.3432 psia dewpoint ( 68.550 68.550 deg. F , 0.3454 psia dewpoint ( 76.630 76.630 deg. F , 0.4536 psia dewpoint ( 76.070 76.070 deg. F , 0.4452 psia pressure 1 ( 49.5146 49.5146 psia pressure 2 ( 49.5202 49.5202 psia weighted averages, volume and air mass temperature 88.06417 deg. F pressure 49.51460 psia vapor pressure 0.38897 psia volume 343040 cu. ft.

dry air mass 83044.54 ibm 75

WNP-2 1991 ILRT T'ZPE A TEST data set 15 time = 2330 date = 608 sensor raw data value temperature 1 ( 110.500 110.500 deg. F temperature 2 ( 101.000 101.000 deg. F temperature 3 ( 93.420 93.420 deg. F temperature 4 ( 88.530 88.530 deg. F temperature 5 ( 102 '60 102 '60 deg. F temperature 6 ( 89.530 89.530 deg. F temperature 7 ( 93.250 93.250 deg. F temperature 8 ( 93.280 93.280 deg. F temperature 9 ( 93.470 93.470 deg. F temperature 10 ( 102.300 102.300 deg. F temperature 11 ( 110.050 110.050 deg. F temperature 12 ( 93.070 93. 07,0 deg. F temperature 13 ( 93.390 93.390 deg. F temperature 14 ( 89.390 89.390 deg. F temperature 15 ( 77.880 77.880 deg. F temperature 16 ( 77.750 77.750 deg. F temperature 17 ( 77.800 77.800 deg. F.

temperature 18 ( 77.850 77.850 deg. F dewpoint 1 ( 69. 180 69.180 deg. F , 0.3529 psia dewpoint 2 ( 68.470 68.470 deg. F , 0.3444 psia dewpoint 3 ( 68.380 68.380 deg. F , 0.3433 psia dewpoint 4 ( 68.600 68.600 deg. F , 0 '459 psia dewpoint 5 ( 76.'610 76.610 deg. F , 0.4533 psia dewpoint 6 ( 76.060 76.060 deg. F , 0.4451 psia pressure 1 ( 49.5147 49.5147 psia pressure 2 ( 49.5209 49.5209 psia weighted averages, volume and air mass temperature 88.07612 deg. F pressure 49.51470 psia vapor pressure 0.38930 psia volume 343040 cu. ft.

dry air mass 83042.35 ibm 76

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WNP-2 1991 ILRT TYPE A TEST data set 16 time = 2345 date = 608 sensor raw data value temperature 1 ( 110. 530 110.530 deg. F temperature 2 ( 101.050 101.050 deg. F temperature 3 ( 93.420 93.420 deg. F temperature 4 ( 88.540 88.540 deg. F temperature 5 ( 102.890 102.890 deg. F temperature 6 ( 89.530 89.530 deg. F temperature 7 ( 93.250 93.250 deg. F temperature 8 ( 93.300 93.300 deg. F temperature 9 ( 93.480 93.480 deg. F temperature 10 ( 102.330 102.330 deg. F temperature 11 ( 110.070 110.070 deg. F temperature 12 ( 93.090 93.090 deg. F temperature 13 ( 93.400 93.400 deg. F temperature 14 ( 89.390 89.390 deg. F temperature 15 ( 77.870 77.870 deg. F temperature 16 ( 77.750 77.750 deg. F temperature 17 ( 77.800 77.800 deg. F temperature 18 ( 77.840 77.840 deg. F dewpoint 1 ( 69.220 ) 69.220 deg. F , 0.3534 psia dewpoint 2 ( 68.420 ) 68.420 deg. F , 0.3438 psia dewpoint 3 ( 68.420 ) 68.420 deg. F , 0.3438 psia dewpoint ( 68.630 ) 68.630 deg. F , 0.3463 psia dewpoint 5 ( 76.580 ') 76.580 deg. F , 0.4528 psia dewpoint 6 ( 76.040 ) 76.040 deg. F , 0.4448 psia pressure 1 ( 49.5149 ) 49.5149 psia pressure 2 ( 49.5210 ) 49.5210 psia weighted averages, volume and air mass temperature 88.08272 deg. F pressure 49.51490 psia vapor pressure 0.38922 psia volume 343040 cu. ft.

dry air mass 83041.82 ibm 77

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WNP-2 1991 ZLRT TYPE A TEST data set 17 time = 0 date = 609 sensor raw data value temperature 1 ( 110.550 110.550 deg. F temperature 2 ( 101.090 101.090 deg. F temperature 3 ( 93.440 93.440 deg. F F*

temperature 4 ( 88.560 88.560 deg.

temperature 5 ( 102.940 ) 102.940 deg. F temperature 6 ( 89.540 ) 89.540 deg. F temperature 7 ( 93.270 ) 93.270 deg. F temperature 8 ( 93.320 ) 93.320 deg. F temperature 9 ( 93.500 ) 93.500 deg. F temperature 10 102.370 102.370 deg. F temperature 11 110 '20 ) 110.120 deg. F temperature 12 93.090 93.090 deg. F temperature 13 93.420 ) 93.420 deg. F temperature 14 89.390 89.390 deg. F temperature 15 ( 77.870 77.870 deg. F temperature 16 ( 77.740 77.740 deg. F temperature 17 ( 77.790 77.790 deg. F temperature 18 ( 77.840 77.840 deg. P dewpoint ( 69.270 ) 69.270 deg. F I 0.3540 psia dewpoint ( 68 '80 68.480 deg. F , 0.3445 psia dewpoint ( 68.470 ) 68.470 deg. F , 0.3444 psia dewpoint. ( 68.670 ) 68.670 deg. F , 0.3468 psia dewpoint ( 76.570 76.570 deg. F , 0.4527 psia dewpoint ( 76 '30 76.030 deg. F , 0.4446 psia pressure 1 ( 49. 5148 ) 49.5148 psia pressure 2 ( 49.5210 ) 49.5210 psia weighted averages, volume and air mas's temperature 88.09338 deg. F pressure 49.51480 psia vapor pressure 0.38951 psia volume air 343040 cu. ft.

dry mass 83039.55 ibm 78

I ,1 WNP-2 1991 ZLRT TYPE A TEST data set 18 time = 15 date = 609 sensor raw data value temperature 1 ( 110.560 110.560 deg. F temperature 2 ( 101.110 101.110 deg. F temperature 3 ( 93.440 93.440 deg. F temperature 4 ( 88.550 88.550 deg. F temperature 5 102.970 102.970 deg. F temperature 6 89.540 89.540 deg. F temperature 7 ( 93.300 93.300 deg. F temperature 8 93.310 93.310 deg. F temperature 9 ( 93.500 93.500 deg. F temperature 10 ( 102.410 102.410 deg. F temperature 11 ( 110.160 110.160 deg. F temperature 12 ( 93.090 93.090 deg. F temperature 13 ( 93 '10 93.410 deg. F temperature 14 89.400 89.400 deg. F temperature 15 77.850 77.850 deg. F temperature 16 77.730 77.730 deg. F temperature 17 77.770 77.770 deg. F temperature 18 77.810 77.810 deg. F dewpoint ( 69 260

~ 69.260 deg. F , 0.3539 psia dewpoint ( 68.500 68.500 deg. F , 0.3448 psia dewpoint ( 68.480 68.480 deg. F , 0.3445 psia dewpoint ( 68.670 68.670 deg. F , 0.3468 psia dewpoint ( 76.560 76.560 deg. F , 0.4525 psia dewpoint ( 75.990 75.990 deg. F , 0.4441, psia pressure 1 ( 49.5151 49.5151 psia pressure 2 ( 49.5210 49.5210 psia weighted averages, volume and air mass temperature 88.09033 deg. F pressure 49.51510 psia vapor pressure 0.38940 psia volume air 343040 cu. ft.

dry mass 83040.70 ibm 79

0 P

4 Jl

WNP-2 1991 ZLRT TYPE A TEST data set 19 time = 30 date = 609 sensor raw data value temperature 1 ( 110.590 ) 110.590 deg~ F temperature 2 ( 101.160 ) 101.160 degas F temperature 3 ( 93.470 ) 93.470 deg F temperature 4 ( 88.550 88.550 deg F temperature 5 ( 103.010 ) 103.010 degas F temperature 6 ( 89.560 ) 89.560 degas F temperature 7 ( 93.320 ) 93.320 degas F temperature 8 ( 93.330 93.330 degas F temperature 9 ( 93.510 ) 93.510 deg F temperature 10 ( 102.470 ) 102.470 degas F temperature 11 ( 110.170 110.170 degas F temperature 12 ( 93.130 ) 93.130 degas F temperature 13 ( 93.450 ) 93.450 deg F temperature 14 ( 89.430 ) 89.430 degas F temperature 15 ( 77.870 77.870 degas F temperature 16 ( 77.740 ) 77.740 degas F temperature 17 ( 77.790 ) 77.790 deg. F temperature 18 ( 77.830 77.830 deg~ F dewpoint 1 69.330 ) 69.330 deg. F , 0.3547 psia dewpoint 2 68.560 ) 68.560 deg. F , 0.3455 psia dewpoint 3 68.510 ) 68.510 deg. F , 0.3449 psia dewpoint 4 68.750 ) 68.750 deg. F , 0.3477 psia dewpoint 5 ( 76.600 ) 76.600 deg. F , 0 '531 psia dewpoint 6 ( 76 '10 76.010 deg. F i 0.4443 psia pressure 1 ( 49.5152 ) 49.5152 psia pressure 2 ( 49.5211 ) 49.5211 psia weighted averages, volume and air mass temperature 88.11395 deg. F pressure 49.51520 psia vapor pressure 0.38999 psia volume 343040 cu. ft.

dry air mass 83036.30 ibm 80

1

~ f

WNP-2 1991 ILRT TYPE A TEST data set 20 time = 45 date = 609 sensor raw data value temperature 1 ( 110'610 110-610 deg. F temperature 2 ( 101.210 101.210 deg. F temperature 3 ( 93.490 93.490 deg. F temperature 4 ( 88 '70 ) 88.570 deg. F temperature 5 ( 103.040 ) 103.040 deg. F temperature 6 ( 89.560 ) 89.560 deg. F temperature 7 ( 93.290 ) 93.290 deg. F temperature 8 ( 93 '40 ) 93.340 deg. F temperature 9 ( 93.550 ) 93.550 deg. F temperature 10 ( 102.490 ) 102.490 deg. F temperature 11 ( 110.190 ) 110 '90 deg. F temperature 12 ( 93.130 ) 93.130 deg. F temperature 13 ( 93.460 ) 93.460 deg. F temperature 14 '( 89.390 ) 89.390 deg. F temperature 15 ( 77.850 ) 77.850 deg. F temperature 16 ( 77.730 ) 77.730 deg. F temperature 17 ( 77.770 77.770 deg. F temperature 18 ( 77.820 77.820 deg. F dewpoint ( 69.370 ) 69.370 deg. F , 0.3552 psia dewpoint ( 68.630 ) 68.630 deg. F , 0.3463 psia dewpoint ( 68.580 ) 68.580 deg. F , 0.3457 psia dewpoint ( 68.770 ) 68.770 deg. F , 0.3480 psia dewpoint ( 76.590 ) 76.590 deg. F , 0.4530 psia dewpoint ( 76.020 ) 76.020 deg. F , 0.4445 psia pressure 1 ( 49. 5148 ) 49.5148 psia pressure 2 ( 49.5206 ) 49.5206 psia weighted averages, volume and air mass temperature 88.11360 deg. F pressure 49.51480 psia vapor pressure 0.39036 psia volume 343040 cu. ft.

dry air mass 83035.05 ibm 81

WNP-2 1991 ILRT TYPE A TEST data set 21 time = 100 date = 609 sensor raw data value temperature 1 { 110.660 ) 110.660 deg. F temperature 2 ( 101.240 101.240 deg. F temperature 3 ( 93.510 93.510 degas F temperature 4 ( 88.580 88.580 deg. F temperature 5 ( 103.090 103.090 deg. F temperature 6 ( 89.570 89.570 degas F temperature 7 ( 93.350 93.350 deg. F temperature 8 ( 93.370 93.370 deg. F temperature 9 ( 93.550 93.550 deg. F temperature 10 { 102.530 102.530 deg. F temperature 11 ( 110.200 110.200 deg. F temperature 12 ( 93.140 93.140 deg. F temperature 13 ( 93.470 93.470 deg. F temperature 14 ( 89.440 89.440 deg. F temperature 15 ( 77.840 77.840 deg. F temperature 16 ( 77.720 77.720 deg. F temperature 17 ( 77.770 77.770 deg. F temperature 18 ( 77.810 77.810 deg. F dewpoint 1 ( 69.420 ) 69.420 deg. F , 0.3558 psia dewpoint 2 68.670 ) 68.670 deg. F , 0.3468 psia dewpoint 3 68.630 ) 68.630 deg. F , 0.3463 psia dewpoint 4 68 '20 ) 68.820 deg. F , 0 3486 psia dewpoint 5 76.580 ) 76.580 deg. F , 0.4528 psia dewpoint 6 ( 76.010 ) 76.010 deg. F , 0.4443 psia pressure 1 ( 49-5155 ) 49.5155 psia pressure 2 ( 49.5214 ) 49.5214 psia weighted averages, volume and air mass temperature 88.1259S deg. F pressure 49.51550 psia vapor pressure 0.39062 psia volume air 343040 cu. ft.

dry mass 83033.91 ibm 82

WNP-2 1991 ZLRT TYPE A TEST data set 22 time = 115 date = 609 sensor raw data value temperature 1 ( 110.670 ) 110.670 deg. F temperature 2 ( 101.290 ) 101.290 deg. F temperature 3 ( 93 '20 ) 93.520 deg. F temperature '54 ( 88.590 ) 88.590 deg. F temperature ( 103.130 ) 103.130 deg. F temperature 6 ( 89.580 ) 89.580 deg. F temperature 7 ( 93.330 ) 93.330 deg. F temperature 8 ( 93.370 ) 93.370 deg. F temperature 9 ( 93.570 ) 93.570 deg. F temperature 10 ( 102.570 ) 102.570 deg. F temperature 11 ( 110.190 ) 110.190 deg. F temperature 12 ( 93.150 93.150 deg. F temperature 13 ( 93.480 ) 93.480 deg. F temperature 14 ( 89.410 ) 89 '10 deg. F temperature 15 ( 77.840 ) 77.840 deg. F temperature 16 ( 77.720 ) 77.720 deg. F temperature 17 ( 77.770 ) 77.770 deg. F temperature 18 ( 77.810 ) 77.810 deg. F dewpoint 1 ( 69.450 ) 69.450 deg. F , 0.3562 psia dewpoint 2 ( 68.690 ) 68.690 deg. F , 0.3470 psia dewpoint 3 ( 68.650 ) 68.650 deg. F , 0.3465 psia dewpoint 4 ( 68.840 ) 68.840 deg. F , 0.3488 psia dewpoint 5 ( 76.570 ) 76.570 deg. F , 0.4527 psia dewpoint 6 ( 75.980 75.980 deg. F , 0.4439 psia pressure 1 ( 49.5151 ) 49.5151 psia pressure 2 ( 49.5216 ) 49.5216 psia weighted averages, volume and air mass temperature 88.13185 deg. F pressure 49.51510 psia vapor pressure 0.39065 psia volume air

. 343040 cu. ft.

dry mass 83032.29 ibm 83

i v~wC WNP-2 1991 ILRT TYPE A TEST data set 23 time = 130 date = 609 sensor raw data value temperature 1 ( 110.700 110.700 deg. F temperature 2 ( 101.320 101.320 deg. F temperature 3 ( 93.530 93.530 deg. F temperature 4 ( 88.590 ) 88.590 deg. F temperature 5 ( 103.170 ) 103.170 deg. F temperature 6 ( 89.580 ) 89.580 deg. F temperature 7 ( 93.360 ) 93.360 deg. F temperature 8 ( 93.390 ) 93.390 deg. F temperature 9 ( 93.580 93.580 deg. F temperature 10 ( 102.610 102.610 deg. F temperature 11 ( 110.240 110.240 deg. F temperature 12 ( 93.170 93.170 deg. F temperature 13 ( 93 '00 93.500 deg. F temperature 14 ( 89.440 89.440 deg. F temperature 15 { 77.840 77.840 deg. F temperature 16 ( 77.720 77.720 deg. F temperature 17 ( 77.760 77.760 deg. F temperature 18 ( 77.800 77.800 deg. F dewpoint 1 69.500 ) 69.500 deg. F, 0.3568 psia dewpoint 2 68.740 ) 68.740 deg. F , 0.3476 psia dewpoint 3 68.690 ) 68.690 deg. F , 0.3470 psia dewpoint 4 68.900 ) 68.900 deg. F , 0.3495 psia dewpoint 5 76.590 ) 76.590 deg. F , 0.4530 psia dewpoint 6 75.980 ) 75.980 deg. F , 0.4439 psia pressure 1 ( 49.5155 ) 49.5155 psia pressure 2 ( 49 '219 ) 49.5219 psia weighted averages, volume and air mass temperature 88.14236 deg. F pressure 49.51550 psia vapor pressure 0.39106 psia volume 343040 cu. ft.

dry air mass 83030.69 ibm 84

f' I

1 I

C

WNP-2 1991 ZLRT TYPE A TEST data set 24 0ime = 145 date = 609 sensor raw data value temperature 1 ( 110 '10 ) 110.710 deg. F temperature 2 101.360 ) 101.360 deg. F temperature 3 93.540 ) 93.540 deg. F temperature 4 88.600 88.600 deg. F temperature 5 103.210 ) 103.210 deg. F temperature 6 89.590 ) 89.590 deg. F temperature 7 93.370 ) 93.370 deg. F temperature 8 ( 93.410 93.410 deg. F temperature 9 ( 93.600 ) 93.600 deg. F temperature 10 ( 102.660 ) 102.660 deg. F temperature 11 ( 110.300 110.300 deg. F temperature 12 ( 93.170 ) 93.170 deg. F temperature 13 ( 93.510 ) 93.510 deg. F temperature 14 ( 89.440 ) 89.440 deg. F temperature 15 ( 77.830 77.830 deg. F temperature 16 ( 77.710 ) 77.710 deg. F temperature 17 ( 77.760 ) 77.760 deg. F temperature 18 ( 77.800 ) 77.800 deg. F dewpoint ( 69. 530 ) 69.530 deg. F, 0. 3571 psia dewpoint ( 68.780 ) 68.780 deg. F , 0.3481 psia dewpoint ( 68.750 ) 68.750 deg. F , 0.3477 psia dewpoint 68.920 ) 68.920 deg. F , 0.3498 psia dewpoint ( 76.570 ) 76.570 deg. F , 0.4527 psia dewpoint ( 75.970 ) 75.970 deg. F , 0.4438 psia pressure 1 ( 49.5157 ) 49.5157 psia pressure 2 ( 49.5220 ) 49.5220 psia weighted averages, volume and air mass temperature 88.15126 deg. F pressure 49.51570 psia vapor pressure 0.39124 psia volume dry air mass 343040 cu.

83029.37 ibm ft.

85

P /'

%rl

WNP-2 1991 ILRT TYPE A TEST data set 25 time = 200 date = 609 sensor raw data value temperature 1 ( 110.730 110.730 deg. F temperature 2 ( 101.390 101.390 deg. F temperature 3 ( 93.560 93.560 deg. F temperature 4 ( 88.610 88.610 deg. F temperature 5 ( 103.240 103.240 deg. F temperature 6 ( 89.590 89.590 deg. F temperature 7 ( 93.380 93.380 deg. F temperature 8 ( 93.420 93.420 deg. F temperature 9 ( 93.610 93.610 deg. F temperature 10 ( 102.690 102.690 deg. F temperature 11 ( 110.330 110.330 deg. F temperature 12 ( 93.200 93 '00 deg. F temperature 13 ( 93.520 93.520 deg. F temperature 14 ( 89.480 89.480 deg. F temperature 15 ( 77.830 77.830 deg. F temperature 16 ( 77.710 77.710 deg. F temperature 17 ( 77.750 77.750 deg. F temperature 18 ( 77.790 77.790 deg. F dewpoint 1 ( 69.570 69.570 deg. F , 0.3576 psia dewpoint 2 ( 68.780 68.780 deg. F , 0.3481 psia dewpoint 3 ( 68.760 68.760 deg. F , 0.3479 psia dewpoint 4 ( 68.960 68.960 deg. F , 0.3502 psia dewpoint C 76.560 76.560 deg. F , 0.4525 psia dewpoint 6 ( 75.940 75.940 deg. F , 0.4433 psia pressure 1 ( 49.5157 49.5157 psia pressure 2 ( 49.5220 49.5220 psia weighted averages, volume and air mass temperature 88.16051 deg. F pressure 49.51570 psia vapor pressure 0.39125 psia volume dry air mass 343040 cu.

83027.95 ibm ft.

86

F I

I

'p

RNP-2 1991 ILRT TYPE A TEST data set 26 time = 215 date = 609 sensor raw data value temperature 1 ( 110.740 110.740 deg. F temperature 2 ( 101.440 101.440 deg. F temperature 3 ( 93.580 93.580 deg. F temperature 4 ( 88.610 88.610 deg. F temperature 5 ( 103.270 103.270 deg. F temperature 6 8'9. 600 89.600 deg. F temperature 7 93.390 ) 93.390 deg. F temperature 8 93.430 ) 93.430 deg. F temperature 9 ( 93.630 93.630 deg. F temperature 10 ( 102.730 102.730 deg. F temperature 11 110.320 110.320 deg. F temperature 12 93.210 93.210 deg. F

'temperature 13 93.530 93.530 deg. F temperature 14 89.480 89.480 deg. F temperature 15 77.830 77.830 deg. F temperature 16 77.710 77.710 deg. F temperature 17 77.750 77.750 deg. F temperature 18 ( 77.790 77.790 deg. F dewpoint 1 ( 69.590 ) 69.590 deg. F , 0.3579 psia dewpoint 2 ( 68.810 ) 68.810 deg. F , 0.3485 psia dewpoint 3 ( 68.800 ) 68.800 deg. F , 0.3483 psia dewpoint 4 ( 69.010 ) 69.010 deg. F , 0.3508 psia dewpoint 5 ( 76.560 ) 76.560 deg. F , 0.4525 psia dewpoint 6 ( 75.940 75.940 deg. F , 0.4433 psia pressure 1 ( 49.5160 ) 49.5160 psia pressure 2 ( 49.5222 ) 49.5222 psia weighted averages< volume and air mass temperature 88.16908 deg. F pressure 49.51600 psia vapor pressure 0.39149 psia volume air 343040 cu. ft.

dry mass 83026.74 ibm 87

WNP-2 1991 XLRT TYPE A TEST data set 27 time = 230 date = 609 sensor raw data value temperature 1 ( 110.770 ) 110.770 deg. P temperature 2 ( 101.470 101.470 deg. F temperature 3 ( 93.580 93.580 deg. F temperature 4 ( 88.640 88.640 deg. F temperature 5 ( 103.320 103.320 deg. F temperature 6 ( 89.620 89.620 deg. F temperature 7 ( 93.400 93.400 deg. F temperature 8 ( 93.440 93.440 deg. P temperature 9 ( 93.650 93.650 deg. F temperature 10 ( 102.770 102.770 deg. F temperature 11 ( 110.330 110.330 deg. F temperature 12 ( 93.220 93.220 deg. F temperature 13 ( 93.550 93.550 deg. F temperature 14 ( 89.480 89.480 deg. P temperature 15 ( 77.820 77.820 deg. F temperature 16 ( 77.720 77.720 deg. F temperature 17 ( 77.740 77.740 deg. F temperature 18 ( 77.790 77.790 deg. F dewpoint ( 69.640 ) 69.640 deg. F , 0.3585 psia dewpoint ( 68.860 ) 68.860 deg. P , 0.3490 psia dewpoint ( 68.830 ) 68.830 deg. F , 0.3487 psia dewpoint ( 69.040 ) 69.040 deg. F I'.3512 psia dewpoint ( 76.530 ) 76.530 deg. F , 0.4521 psia dewpoint ( 75.940 ) 75.940 deg. F , 0.4433 psia pressure 1 ( 49.5158 ) 49.5158 psia pressure 2 ( 49.5223 ) 49.5223 psia weighted averages, volume and air mass temperature 88.17952 deg. F pressure 49.51580 psia vapor pressure 0.39168 psia volume dry air mass 343040 cu.

83024.51 ibm ft.

88

WNP-2 1991 ZLRT TYPE A TEST data set 28 time = 245 date = 609 sensor raw data value temperature 1 ( 110.810 110.810 deg. F temperature 2 ( 101.500 101.500 deg. F temperature 3 ( 93.580 93.580 deg. F temperature 4 ( 88.640 88.640 deg. F temperature 5 ( 103.350 103.350 deg. F temperature 6 ( 89.630 89.630 deg. F temperature 7 ( 93.420 93.420 deg. F temperature 8 ( 93.460 93.460 deg. F temperature 9 ( 93.650 93.650 deg. F temperature 10 ( 102.800 102.800 deg. F temperature 11 ( 110.360 110.360 deg. F temperature 12 ( 93.230 93.230 deg. F temperature 13 ( 93.570 93.570 deg. F temperature 14 ( 89.510 89.510 deg. F temperature 15 ( 77.820 77.820 deg. F temperature 16 ( 77.710 77.710 deg. F temperature 17 ( 77.740 77.740 deg. F temperature 18 ( 77.780 77.780 deg. F dewpoint ( 69. 680 69.680 deg. F , 0.3590 psia dewpoint ( 68.870 68.870 deg. F , 0.3492 psia dewpoint ( 68.910 68.910 deg. F , 0.3496 psia dewpoint ( 69.090 69.090 deg. F , 0.3518 psia dewpoint ( 76.530 76.530 deg. F , 0.4521 psia dewpoint ( 75.940 75.940 deg. F , 0.4433 psia pressure 1 ( 49.5160 49.5160 psia pressure 2 ( 49.5224 49.5224 psia weighted averages, volume and air mass temperature 88.18794 deg. F pressure 49.51600 psia vapor pressure 0.39199 psia volume air 343040 cu. ft.

dry mass 83023.04 ibm 89

I IP

,a I'I I

re

WNP-2 1991 ILRT TYPE A TEST data set 29 time = 300 date = 609 sensor raw data value temperature 1 ( 110.840 110.840 deg. F temperatur'e 2 ( 101.550 101.550 deg. F temperature 3 ( 93.620 93.620 deg. F temperature 4 ( 88.640 88.640 deg. F temperature 5 ( 103.390 103.390 deg. F temperature 6 ( 89.620 89.620 deg. F temperature 7 ( 93.440 93.440 deg. F temperature 8 ( 93.460 93.460 deg. F temperature 9 ( 93.660 ) 93.660 deg. F temperature 10 ( 102.840 ) 102.840 deg. F temperature 11 ( 110.430 ) 110.430 deg. F temperature 12 ( 93.250 93.250 deg. F temperature 13 ( 93.580 93.580 deg. F temperature 14 ( 89.510 89.510 deg. F temperature 15 ( 77.800 77.800 deg. F temperature 16 ( 77.710 77.710 deg. F temperature 17 ( 77.740 77.740 deg. F temperature 18 ( 77.780 77.780 deg. F dewpoint ( 69.720 ) 69.720 deg. F , 0.3595 psia dewpoint ( 68.950 ) 68.950 deg. F , 0.3501 psia dewpoint ( 68.930 ) 68.930 deg. F , 0.3499 psia dewpoint ( 69.120 ) 69.120 deg. F , 0.3522 psia dewpoint ( 76.480 ) 76.480 deg. F , 0.4513 psia dewpoint ( 75.910 ) 75.910 deg. F , 0.4429 psia pressure 1 ( 49. 5159 ) 49.5159 psia pressure 2 ( 49.5225 ) 49.5225 psia weighted averages, volume and air mass temperature 88. 19714 deg. F pressure 49.51590 psia vapor pressure 0.39205 psia volume dry air mass 343040 cu.

83021.38 ibm ft.

90

4 C

e P

~ ~

r I

WNP-2 1991 XLRT TYPE A TEST data set 30 time = 315 date = 609 sensor raw data value temperature 1 ( 110.850 ) 110.850 deg. F temperature 2 ( 101.590 ) 101.590 deg. F temperature 3 ( 93.630 ) 93.630 deg. F temperature 4 ( 88.660 ) 88.660 deg. F temperature 5 ( 103.430 ) 103.430 deg. F temperature 6 ( 89.630 89.630 deg. F temperature 7 ( 93.470 ) 93.470 deg. F temperature 8 ( 93.480 ) 93.480 deg. F temperature 9 ( 93.690 93.690 deg. F temperature 10 ( 102.890 ) 102.890 deg. F temperature 11 ( 110.430 ) 110.430 deg. F temperature 12 ( 93.250 ) 93.250 deg. F temperature 13 ( 93.600 ) 93.600 deg. F temperature 14 ( 89.530 ) 89.530 deg. F temperature 1S ( 77.800 ) 77.800 deg. F temperature 16 ( 77.710 ) 77.710 deg. F temperature 17 ( 77.730 ) 77.730 deg. F temperature 18 ( 77.770 77.770 deg. F dewpoint ( 69.760 ) 69.760 deg F , 0.3600 psia dewpoint ( 68.990 ) 68.990 degas F , 0.3506 psia dewpoint ( 68.930 ) 68.930 degas F , 0.3499 psia dewpoint ( 69.160 ) 69.160 deg F , 0.3527 psia dewpoint ( 76.500 ) 76.500 degas F , 0.4516 psia dewpoint ( 75.910 ) 75.910 deg F , 0.4429 psia pressure 1 ( 49.5165 ) 49.516S psia pressure 2 ( 49.5226 ) 49.5226 psia weighted averages, volume and air mass temperature 88.20773 deg. F pressure 49.51650 psia vapor pressure 0.39231 psia volume air 343040 cu. ft.

dry mass 83020.35 ibm 91

II WNP-2 1991 ZLRT TYPE A TEST data set 31 time = 330 date = 609 sensor raw data value temperature 1 ( 110.870 ) 110. 870 deg. F temperature 2 ( 101.620 ) 101.620 deg. F temperature 3 ( 93.640 ) 93.640 deg. F temperature 4 ( 88.660 ) 88.660 deg. F temperature 5 103.460 ) 103.460 deg. F temperature 6 89.640 ) 89.640 deg. F temperature 7 93.450 ) 93.450 deg. F temperature 8 ( 93.510 ) 93.510 deg. F temperature 9 ( 93.690 ) 93.690 deg. F temperature 10 ( 102.920 ) 102.920 deg. F temperature 11 ( 110.430 ) 110.430 deg. F temperature 12 ( 93.270 ) 93.270 deg. F temperature 13 ( 93.590 ) 93.590 deg. F temperature 14 ( 89.510 89.510 deg. F temperature 15 ( 77.800 ) 77.800 deg. F temperature 16 ( 77.700 ) 77.700 deg. F temperature 17 ( 77.730 ) 77.730 deg. F temperature 18 77.770 77.770 deg. F dewpoint 1 ( 69.810 ) 69.810 deg. F , 0.3606 psia dewpoint 2 ( 69.010 ) 69.010 deg. F , 0.3508 psia dewpoint: 3 ( 68.990 ) 68.990 deg. F , 0.3506 psia dewpoint; 4 ( 69.190 ) 69.190 deg. F , 0.3530 psia dewpoint 5 ( 76.500 ) 76.500 deg. F , 0.4516 psia dewpoint 6 ( 75.930 75.930 deg. F , 0.4432 psia pressure 1 ( 49.5159 ) 49.5159 psia pressure 2 ( 49.5226 ) 49.5226 psia weighted averages, volume and air mass temperature 88.21146 deg. F pressure 49.51590 psia vapor pressure 0.39266 psia volume air 343040 cu. ft.

dry mass 83018.19 ibm 92

I NNP-2 1991 ILRT TYPE A TEST data set 32 time = 345 date = 609 sensor raw data value temperature 1 ( 110,.890 110.890 deg. F temperature 2 ( 101.650 101.650 deg. F temperature 3 ( 93.630 93.630 deg. F temperature 4 ( 88.670 88.670 deg. F temperature 5 ( 103 '00 103.500 deg. F temperature 6 ( 89.650 89.650 deg. F temperature 7 ( 93.470 ) 93.470 deg. F temperature 8 ( 93.510 ) 93.510 deg. F temperature 9 ( 93.710 ) 93.710 deg. F temperature 10 ( 102.950 ) 102.950 deg. F temperature 11 ( 110.450 ) 110.450 deg. F temperature 12 ( 93.280 93.280 deg. F temperature 13 ( 93.610 93.610 deg. F temperature 14 ( 89.540 89.540 deg. F temperature 15 ( 77.800 77.800 deg. F temperature 16 ( 77.690 77.690 deg. F temperature 17 ( 77.730 77.730 deg. F temperature 18 ( 77.770 77.770 deg. F dewpoint ( 69.840 ) 69.840 deg. F , 0.3609 psia dewpoint ( 69.050 ) 69.050 deg. F , 0.3513 psia dewpoint 69.030 ) 69.030 deg. F , 0.3511 psia dewpoint 69.230 ) 69.230 deg. F , 0.3535 psia dewpoint 76.510 ) 76.510 deg. F , 0 '518 psia dewpoint ( 75.920 ) 75.920 deg. F , 0.4430 psia pressure 1 ( 49.5166 ) 49.5166 psia pressure 2 ( 49.5227 ) 49.5227 psia weighted averages, volume and azr mass temperature 88.22069 deg. F pressure 49.51660 psia vapor pressure 0.39292 psia volume 343040 cu. ft.

dry air mass 83017.53 ibm 93

~ r WNP-2 1991 ILRT TYPE A TEST data set, 33 time = 400 date = 609 sensor raw data value temperature 1 ( 110.900 ) 110.900 deg. F temperature 2 ( 101.720 ) 101.720 deg. F temperature 3 ( 93.670 ) 93.670 deg. F temperature 4 ( 88.690 ) 88.690 deg. F temperature 5 ( 103 '40 ) 103.540 deg. F temperature 6 ( 89.650 ) 89.650 deg. F temperature 7 ( 93 '90 ) 93.490 deg. F temperature 8 ( 93.530 ) 93.530 deg. F temperature 9 ( 93.730 ) 93.730 deg. F temperature 10 ( 103.000 ) 103.000 deg.

temperature ll { 110.500 temperature 12 ( 93.300 110.500 93.300 deg.

deg.

F F

F temperature 13 ( , 93.630 ) 93.630 deg. F temperature 14 ( 89.510 89.510 deg. F temperature 15 ( ;77.800 77.800 deg. F temperature 16 ( 77.710 77.710 deg. F temperature 17 ( 77.720 77.720 deg. F temperature 18 ( 77.770 77.770 deg. F dewpoint 1 ( 69. 870 ) 69. 870 deg. F 0. 3613 psia dewpoint 2 ( 69.090 ) 69. 090 deg. F 0.3518 psia dewpoint 3 { 69.060 ) 69. 060 deg. F 0.3514 psia dewpoint 4 ( 69.270 ) 69. 270 deg. F 0.3540 psia dewpoint 5 ( 76.480 ) 76. 480 deg. F 0 '513 psia dewpoint ( 75.910 ) 75. 910 deg. F 0.4429 psia pressure 1 ( 49.5166 ) 49.5166 psia pressure 2 ( 49.5228 ) 49.5228 psia weighted averages, volume and air mass temperature 88.23477 deg. F pressure 49.51660 psia vapor pressure 0.39305 psia volume 343040 cu. ft.

dry air mass 83015. 19 ibm 94

PRE-DATA REPORT title = NNP-2 1991 ILRT VERZFICATXON volume =

leap year 343040

no La = 0.5000 perature volume fractions ( sum = 1.0000 )

t( 1)=0.0265 t( 2)=0 0402 t( 3)=0.0398 t( 4)=0.0563 t( 5) =0. 0402 t( 8)=0.0398 t( 9)=0.0398 t(10)=0.0402

~

t( 6)=0.0563 t( 7)=0.0398 t(11)=0.0265 t(12)=0.0398 t(13)=0.0398 t(14)=0.0563 t(15)=0.1047 t(16)=0.1047 t(17)=0 1047 ~ t(18)=0.1046 dewpoint volume fractions ( sum = 1.0000 )

dp ( 1) =0. 1194 dp ( 2) =0. 1737 dp ( 3) =0. 1688 dp ( 4) =0. 1194 dp ( 5) =0. 2094 dp ( 6) =0. 2093 pressure volume fractions ( sum = 1.0000 )

p( 1)=1.0000 p( 2)=0.0000 95

WNP-2 1991 ILRT UERIFICATION DATA

SUMMARY

REPORT data time date temperature pressure vapor dry air set deg F psia pressure mass psia ibm 1 515 609 88.2693 49.5055 0.3942 82989.17 2 530 609 88.2729 49.5032 0.3944 82984.48 3 545 609 88.2852 49.5010 0.3945 82978.81 4 600 609 88.2932 49.4985 0.3948 82972.83 5 615 609 88.2952 49.4957 0.3950 82967.41 6 630 609 88.3026 49.4938 0.3953 82962.64 7 645 609 88.3130 .49.4908 0.3953 82955.97 8 700 609 88 '150 49.4887 0.3956 82951.66 9 715 609 88 '176 49.4860 0.3957 82946.39 10 730 609 88.3299 49.4837 0.3957 82940.62 11 745 609 88 '408 49.4816 0.3962 82934.65 12 800 609 88.3335 49.4788 0.3964 82930.66 13, 815 609 88.3528 49.4765 0.3966 82923.56 14 830 609 88.3532 49.4740 0.3971 82918.37 15 845 609 88 '671 49.4715 0.3971 82912.14 16 900 609 88.3663 49.4689 0.3972 82907.68 17 915 609 88.3582 49.4666 0.3975 82904.48 96

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WNP-2 1991 ILRT VERIFICATION data set 1 time = 515 date = 609 sensor raw data value temperature 1 ( 110.990 110.990 deg. F temperature 2 ( 101.870 101.870 deg. F temperature 3 ( 93.730 93.730 deg. F temperature 4 ( 88.710 88.710 deg. F temperature S ( 103.700 103.700 deg. F temperature 6 ( 89.680 89.680 deg. F temperature 7 ( 93.590 93.590 deg. F temperature 8 ( 93.580 93.580 deg. F temperature 9 ( 93.770 93.770 deg. F temperature 10 ( 103.170 103.170 deg. F temperature 11 ( 110.590 110.590 deg. F temperature 12 ( 93.360 93.360 deg. F temperature 13 ( 93.690 93.690 deg. F temperature 14 ( 89.570 89.570 deg. F temperature 1S ( 77.770 77.770 deg. F temperature 16 ( 77.690 77.690 deg. F temperature 17 ( 77.700 77.700 deg. F temperature 18 ( 77.740 77.740 deg. F dewpoint dewpoint

( 70.060 )

69.310

70. 060 69.310 deg.

deg.

F, F

0.3637, 0.354S psia psia

( ,

dewpoint ( 69.240 ) 69.240 deg. F , 0.3536 psia dewpoint ( 69.440 69.440 deg. F , 0.3560 psia dewpoint ( 76.450 76.450 deg. F , 0.4509 psia dewpoint ( 75.890 ) 75.890 deg. F , 0.4426 psia pressure 1 ( 49.5055 ) 49.5055 psia pressure 2 ( 49.5121 ) 49.5121 psia weighted averages, volume and air mass temperature 88.26929 deg. F pressure 49.50550 psia vapor pressure 0.39425 psia volume dry air mass 343040 cu.

82989.17 ibm ft.

97

WNP-2 1991 ILRT VERIFICATION data set 2 time = 530 date = 609 e

sensor raw data value temperature 1 ( 111.000 ) 111.000 deg. F temperature 2 ( 101 910 ) 101.910 deg. F temperature 3 ( 93 '40 ) 93.740 deg. F temperature 4 ( 88.720 ) 88.720 deg. F temperature 5 103.730 ) 103.730 deg. F temperature 6 89.690 ) 89.690 deg. F temperature 7 93.590 ) 93.590 deg. F temperature 8 93.600 ) 93.600 deg. F temperature 9 93.800 ) 93.800 deg. F temperature 10 103 '00 ) 103.200 deg. F temperature 11 110 '80 ) 110.580 deg. F temperature 12 93.360 ) 93.360 deg. F temperature 13 (, 93.670 ) 93.670 deg. F temperature 14 89.570 ) 89.570 deg. F temperature 15 ( 77.760 77.760 deg. F temperature 16 ( 77.680 77.680 deg. F temperature 17 ( 77.700 77.700 deg. F temperature 18 ( 77.730 77.730 deg. F dewpoint ( 70 080 )

~ 70.080 deg. F , 0.3639 psia dewpoint (69-310 ) 69.310 deg. F , 0.3545 psia dewpoint ( 69 310 )

~ 69.310 deg. F , 0.3545 psia dewpoint ( 69 490 )

~ 69.490 deg. F , 0.3567 psia dewpoint ( 76.420 ) 76.420 deg. F , 0.4504 psia dewpoint ( 75.890 75.890 deg. F , 0.4426 psia pressure 1 ( 49.5032 ) 49.5032 psia ~

pressure 2 ( 49.5098 ) 49.5098 psia weighted averages, volume and air mass

,temperature 88.27290 deg. F pressure 49.50320 psia vapor pressure 0.39440 psia volume dry air mass 343040 cu.

82984.48 ibm ft.

98

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WNP-2 1991 XLRT VERIFICATION data set 3 time = 545 date = 609 sensor raw data value temperature 1 ( 111.020 ) 111.020 deg. F temperature 2 ( 101.950 ) , 101.950 deg. F temperature 3 ( 93.760 ) 93.760 deg. F temperature 4 ( 88.730 ) 88.730 deg. F temperature 5 ( 103.780 ) 103.780 deg. F temperature 6 ( 89.710 ) 89.710 deg. F temperature 7 ( 93.570 ) 93.570 deg. F temperature 8 ( 93.600 ) 93.600 deg. F temperature 9 ( 93.820 ) 93.820 deg. F temperature 10 ( 103.240 ) 103.240 deg. F temperature 11 ( 110.610 ) 110.610 deg. F temperature 12 ( 93.370 ) 93.370 deg. F temperature 13 ( 93.700 ) 93.700 deg. F temperature 14 ( 89.600 89.600 deg. F temperature 15 ( 77.770 ) 77.770 deg. F temperature 16 ( 77.680 ) 77.680 deg. F temperature 17 ( 77.690.) 77.690 deg. F temperature 18 ( 77.730 77.730 deg. F dewpoint 1 ( 70. 120 70.120 deg. F , 0.3644 psia dewpoint 2 ( 69.350 69.350 deg. F , 0.3S50 psia dewpoint 3 ( 69.350 69.350 deg. F , 0.3550 psia dewpoint 4 ( 69.500 69.500 deg. F , 0.3S68 psia dewpoint 5 ( 76.390 76.390 deg. F , 0.4500 psia dewpoint 6 ( 75.860 75.860 deg. F , 0.4421 psia pressure 1 ( 49.5010 49.5010 psia pressure 2 ( 49.5072 49.5072 psia weighted averages, volume and air mass temperature 88.28520 deg. F pressure 49.50100 psia vapor pressure 0.39445 psia volume air 343040 cu. ft.

dry mass 82978.81 ibm

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II

NNP-2 1991 ILRT VERIFICATION data set 4 time = 600 date = 609 sensor raw data value temperature 1 ( 111.060 ) 111.060 deg. F temperature 2 ( 101.970 ) 101.970 deg. F temperature 3 ( 93.760 ) 93.760 deg. F temperature 4 ( 88.730 ) 88.,730 deg. F temperature 5 ( 103.810 ) 103.810 deg. F temperature 6 ( 89.700 ) 89.700 deg. F temperature 7 ( 93.610 ) 93.610 deg. F temperature 8 ( 93.620 ) 93.620 deg. F temperature 9 ( 93.830 ) 93 '30 deg. F temperature 10 ( 103.270 ) 103 '70 deg. F temperature 11 ( 110.650 ) 110.650 deg. F temperature 12 ( 93.380 ) 93.380 deg. F temperature 13 ( 93 '10 ) 93.710 deg. F temperature 14 ( 89.630 ) 89.630 deg. F temperature 15 ( 77.750 ) 77.750 deg. F temperature 16 ( 77.680 ) 77.680 deg. F temperature 17 ( 77.690 ) 77.690 deg. F temperature 18 ( 77.730 77.730 deg. F dewpoint 1 ( 70. 150 ) 70.150 69.370 deg.

deg.

F, 0. 3648 0.3552 psia psia dewpoint 2 ( 69.370 ) F ,

dewpoint 3 ( 69.370 ) 69.370 deg. F , 0.3552 psia dewpoint 4 ( 69.550 ) 69.550 deg. F , 0.3574 psia dewpoint 5 ( 76.410 ) 76.410 deg. F , 0.4503 psia dewpoint 6 ( 75.880 75.880 deg. F , 0.4424 psia pressure 1 ( 49.4985 ) 49.4985 psia pressure 2 ( 49.5047 ) 49.5047 psia weighted averages, volume and air mass temperature 88.29315 deg. F pressure 49.49850 psia vapor pressure 0.39478 psia volume 343040 cu. ft.

dry air mass 82972.83 ibm 100

S WNP-2 1991 ILRT VERIFICATION data set 5 time = 615 date = 609 sensor raw data value temperature 1 ( 111.060 ) 111.060 deg. F temperature 2 ( 102.000 ) 102.000 deg.'F temperature 3 ( 93.790 ) 93.790 deg. F temperature 4 ( 88.740 ) 88.740 deg. F temperature 5 ( 103.840 ) 103.840 deg. F temperature 6 ( 89.700 ) 89.700 deg. F temperature 7 ( 93.600 ) 93.600 deg. F temperature 8 ( 93.620 ) 93.620 deg. F temperature 9 ( 93.830 ) 93.830 deg. F temperature 10 ( 103.310 ) 103.310 deg. F temperature 11 ( 110.670 ) 110.670 deg. F temperature 12 ( 93.380 ) 93.380 deg. F temperature 13 ( 93.710 ) 93.710 deg. F temperature 14 ( 89.580 89.580 deg. F temperature 15 ( 77.760 ) 77.760 deg. F temperature 16 ( 77.670 ) 77.670 deg. F temperature 17 ( 77.690 ) 77.690 deg. F temperature 18 ( 77.720 77.720 deg. F dewpoint dewpoint

( 70. 190 )

69.400

70. 190 69.400 deg.

deg.

F, F

0.3653 0.3556 psia psia

( ,

dewpoint ( 69.370 ) 69.370 deg. F , 0.3552 psia dewpoint ( 69.580 ) 69.580 deg. F , 0.3578 psia dewpoint ( 76.430 ) 76.430 deg. F , 0.4506 psia dewpoint ( 75.880 ) 75.880 deg. F , 0.4424 psia

=-

pressure 1 ( 49.4957 ) 49.4957 psia pressure 2 ( 49 '022 ) 49.5022 psia weighted averages, volume and air mass temperature 88.29519 deg. F pressure 49.49570 psia vapor pressure 0.39500 psia volume 343040 cu. ft.

dry air mass 82967.41 ibm 101

I I

WNP-2 1/91 ILRT VERIFICATION data set 6 time = 630 date = 609 sensor raw data value temperature 1 ( 111.090 ) 111.090 deg. F temperature 2 ( 102.040 ) 102.040 deg. F temperature 3 ( 93.770 ) 93.770 deg. F temperature 4 ( 88.750 ) 88.750 deg. F temperature 5 ( 103.870 ) 103.870 deg. F temperature 6 ( 89 '10 ) 89 '10 deg. F temperature 7 ( 93.620 ) 93.620 deg. F temperature 8 ( 93.630 ) 93.630 deg. F temperature 9 ( 93.830 ) 93.830 deg. F temperature 10 ( 103 '40 ) 103.340 deg. F temperature 11 ( 110.660 ) 110.660 deg. F temperature 12 ( 93.390 ) 93.390 deg. F temperature 13 93.730 ) 93.730 deg. F temperature 14 ( 89.620 89.620 deg. F temperature 15 ( 77.750 ) 77.750 deg. F temperature 16 ( 77.670 ) 77.670 deg. F temperature 17 ( 77.680 ) 77.680 deg. F temperature 18 ( 77.720 77.720 deg. F dewpoint ( 70.210 ) 70.210 deg. F , 0.3655 psia dewpoint ( 69.500 ) 69.500 deg. F , 0.3568 psia dewpoint ( 69.440 ) 69.440 deg. F , 0.3560 psia dewpoint ( 69.620 ) 69.620 deg. F , 0.3582 psia dewpoint ( 76.390 ) 76.390 deg. F , 0.4500 psia dewpoint ( 75.860 75.860 deg. F , 0.4421 psia pressure 1 ( 49.4938 ) 49.4938 psia pressure 2 ( 49.4990 ) 49.4990 psia weighted averages, volume and air mass temperature 88.30263 deg. F pressure 49.49380 psia vapor pressure 0.39526 psia volume 343040 cu. ft.

dry air mass 82962.64 ibm 102

WNP-2 1991 ELRT VEREFECATEON data set 7 time = 645 date = 609 sensor raw data value temperature 1 ( 111.090 111.090 deg. F temperature 2 ( 102.080 102.080 deg. F temperature 3 ( 93.780 ) 93.780 deg. F temperature 4 ( 88.750 88.750 deg. F temperature 5 ( 103.910 ) 103.910 deg. F temperature 6 ( 89.720 ) 89.720 deg. F temperature 7 ( 93.630 93.630 deg. F temperature 8 93.650 ) 93.650 deg. F temperature 9 93.850 93.850 deg. F temperature 10 103.380 ) 103.380 deg. F temperature 11 ( 110.680 110.680 deg. F temperature 12 ( 93.400 93.400 deg. F temperature 13 ( 93 '30 93.730 deg. F temperature 14 ( 89.650 89.650 deg. F temperature 15 ( 77.750 77.750 deg. F temperature 16 ( 77.670 77.670 deg. F temperature 17 ( 77.680 77.680 deg. F temperature 18 ( 77.720 77.720 deg. F dewpoint ( 70.260 ) 70.260 deg. F , 0.3662 psia dewpoint ( 69.470 ) 69.470 deg. F , 0.3S64 psia dewpoint ( 69.450 ) 69.450 deg. F , 0.3562 psia dewpoint ( 69.670 ) 69.670 deg. F , 0.3S89 psia dewpoint ( 76.370 ) 76.370 deg. F , 0.4497 psia dewpoint ( 75.850 75.850 deg. F , 0.4420 psia pressure 1 ( 49.4908 ) 49.4908 psia pressure 2 ( 49.4972 ) 49.4972 psia weighted averages, volume and air mass temperature 88.31302 deg. F pressure 49.49080 psia vapor pressure 0.39527 psia volume dry air mass 343040 cu.

829S5.97 ibm ft.

103

I I

WNP-2 1991 ZLRT VERIFICATION data set 8 time = 700 date = 609 sensor raw data value temperature 1 ( 111.110 111.110 deg. F temperature 2 ( 102.110 102.110 deg. F temperature 3 ( 93.800 93.800 deg. F temperature 4 ( 88.760 88.760 deg. F temperature 5 ( 103.940 103.940 deg. F temperature 6 ( 89.720 89.720 deg. F temperature 7 ( 93.620 93.620 deg. F temperature 8 ( 93.670 93.670 deg. F temperature 9 ( 93.860 93.860 deg. F temperature 10 ( 103.410 103 '10 deg. F temperature 11 ( 110.690 110.690 deg. F temperature 12 ( 93.410 93.410 deg. F temperature 13 ( 93.750 93.750 deg. F temperature 14 ( 89.640 89.640 deg. F temperature 15 ( 77.740 77.740 deg. F temperature 16 ( 77.670 77.670 deg. F temperature 17 ( 77.660 77.660 deg. F temperature 18 ( 77.700 77.700 deg. F dewpoint ( 70.280 70.280 deg. F , 0.3664 psia dewpoint ( 69.540 69.540 deg. F , 0.3573 psia dewpoint ( 69.470 69.470 deg. F , 0.3564 psia dewpoint ( 69.690 69.690 deg. F , 0.3591 psia dewpoint ( 76.360 76.360 deg. F , 0.4495 psia dewpoint ( 75.870 75.870 deg. F , 0.4423 psia pressure 1 ( 49.4887 49.4887 psia pressure 2 ( 49.4946 49.4946 psia weighted averages, volume and air mass temperature 88.31498 deg. F pressure 49.48870 psia vapor pressure 0.39555 psia volume 343040 cu. ft.

dry air mass 82951.66 ibm 104

e WNP-2 1991 ZLRT VERIFICATION data set 9 time = 715 date = 609 sensor raw data value temperature 1 ( 111 120 ~ 111.120 deg. F temperature 2 ( 102.130 102.130 deg. F temperature 3 ( 93.810 ) 93.810 deg. F temperature 4 ( 88.760 88.760 deg. F temperature 5 ( 103.960 ) 103.960 deg. F temperature 6 ( 89.740 ) 89.740 deg. F temperature 7 ( 93.640 ) 93.640 deg. F temperature 8 ( 93 '70 ) 93.670 deg. F temperature 9 ( 93.870 ) 93.870 deg. F temperatuxe 10 103.440 ) 103.440 deg. F temperature 11 ( 110.640 110.640 deg. F temperature 12 ( 93.440 93.440 deg. F temperature 13 ( 93.770 93.770 deg. F temperature 14 89.590 89.590 deg. F temperature 15 ( 77.740 77.740 deg. F temperature 16 ( 77.670 77.670 deg. F temperature 17 ( 77.650 77.650 deg. F temperature 18 ( 77.700 77.700 deg. F dewpoint ( 70.350 ) 70.350 deg. F , 0.3673 psia dewpoint ( 69.560 ) 69.560 deg. F , 0.3575 psia dewpoint ( 69.550 ) 69.550 deg. F , 0.3574 psia dewpoint ( 69.730 69.730 deg. F , 0.3596 psia dewpoint ( 76.330 ) 76.330 deg. F , 0.4491 psia dewpoint ( 75.840 75.840 deg. F , 0.4418 psia pressuxe 1 ( 49-4860 ) 49.4860 psia pressure 2 ( 49.4921 ) 49.4921 psia weighted avexages, volume and air mass temperature 88.317S8 deg. F pressure 49.48600 psia vapor pressuxe 0.39574 psia volume 343040 cu. ft.

dry air mass 82946.39 ibm 105

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WNP-2 199 1 ILRT VERIFICATION data set 10 time = 730 date = 609 sensor raw data value temperature 1 ( 111.120 111.120 deg. F temperature 2 ( 102.180 102.180 deg. F temperature 3 ( 93.830 93.830 deg. F temperature 4 ( 88.760 88.760 deg. F temperature 5 ( 103.990 103.990 deg. F temperature 6 89.740 89.740 deg. F temperature 7 ( 93.660 93.660 deg. F temperature 8 ( 93.680 93.680 deg. F temperature 9 ( 93.870 93.870 deg. F temperature 10 ( 103.480 103.480 deg. F temperature 11 ( 110.720 110.720 deg. F temperature 12 ( 93.460 93.460 deg. F temperature 13 ( 93.760 93.760 deg. F temperature 14 ( 89.680 89.680 deg. F temperature 15 ( 77.740 77.740 deg. F temperature 16 ( 77.660 77.660 deg. F temperature 17 ( 77.650 77.650 deg. F temperature 18 ( 77.690 77.690 deg. F dewpoint ( 70. 360 70.360 deg. F , 0.3674 psia dewpoint ( 69.600 69.600 deg. F , 0.3580 psia dewpoint ( 69.540 69.540 deg. F , 0.3573 psia dewpoint ( 69.770 69.770 deg. F , 0.3601 psia dewpoint ( 76. 290 76.290 deg. F , 0.4485 psia dewpoint ( 75.840 75.840 deg. F , 0.4418 psia pressure 1 ( 49.4837 49.4837 psia pressure 2 ( 49.4898 49.4898 psia weighted averages, volume and air mass temperature 88.32989 deg. F pressure 49.48370 psia vapor pressure 0.39575 psia volume 343040 cu. ft.

dry air mass 82940.62 ibm 106

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WNP-2 199 1 ILRT VERIFICATION data set 11 time = 745 date = 609 sensor raw data value temperature 1 ( 111.150 111.150 deg. F temperature 2 ( 102.220 102.220 deg. F temperature 3 93.840 93.840 deg. F temperature 4 ( 88.780 88.780 deg. F temperature 5 ( 104.040 104.040 deg. F temperature 6 ( 89.750 89.750 deg. F temperature 7 ( 93.670 93.670 deg. F temperature 8 ( 93.700 93.700 deg. F temperature 9 ( 93.910 93.910 deg. F temperature 10 ( 103.510 103 '10 deg. F temperature 11 ( 110.750 110.750 deg. F temperature 12 ( 93.460 93.460 deg. F temperature 13 ( 93.780 93.780 deg. F temperature 14 ( 89.640 89.640 deg. F temperature 15 ( 77.740 77.740 deg. F temperature 16 ( 77.650 77.650 deg. F temperature 17 ( 77.660 77.660 deg. F temperature 18 ( 77.700 77.700 deg. F dewpoint ( 70.420 70.420 deg. F , 0.3682 psia dewpoint ( 69.600 69.600 deg. F , 0.3580 psia dewpoint ( 69.630 69.630 deg. F , 0.3584 psia dewpoint ( 69.810 69.810 deg. F , 0.3606 psia dewpoint ( 76.340 76.340 deg. F , 0.4492 psia dewpoint ( 75.830 75.830 deg. F , 0.4417 psia pressure 1 ( 49.4816 49.4816 psia pressure 2 ( 49.4874 49.4874 psia weighted averages, volume and air mass temperature 88.34077 deg. F pressure 49.48160 psia vapor pressure 0.39621 psia volume dry air mass 343040 cu.

82934.65 ibm ft.

107

V I'

WNP-2 1991 ILRT VERIFICATION data set 12 time = 800 date = 609 sensor raw data value temperature 1 ( 111. 140 111. 140 deg. F temperature 2 ( 102.220 102.220 deg. F temperature 3 ( 93.840 93.840 deg. F temperature 4 ( 88.780 88.780 deg. F temperature 5 ( 104.050 ) 104.050 deg. F temperature 6 ( 89.750 ) 89.750 deg. F temperature 7 ( 93.680 ) 93.680 deg. F temperature 8 ( 93.690 ) 93.690 deg. F temperature 9 ( 93.890 ) 93.890 deg. F temperature 10 ( 103.530 103.530 deg. F temperature 11 ( 110 '30 110.730 deg. F temperature 12 ( 93.450 93.450 deg. F temperature 13 ( 93.770 ) 93.770 deg. F temperature 14 ( 89.680 89.680 deg. F temperature 15 ( 77.720 77.720 deg. F temperature 16 ( 77.640 77 '40 deg. F temperature 17 ( 77.640 77.640 deg. F temperature 18 ( 77.670 77.670 deg. F dewpoint 70.440 ) 70.440 deg. F, 0. 3684 psia dewpoint 69.660 ) 69.660 deg. F , 0.3587 psia dewpoint ( 69.630 ) 69.630 deg. F , 0.3584 psia dewpoint ( 69.830 ) 69.830 deg. F , 0.3608 psia dewpoint ( 76.340 ) 76.340 deg. F , 0.4492 psia dewpoint ( 75.840 75.840 deg. F , 0.4418 psia pressure 1 ( 49.4788 ) 49.4788 psia pressure 2 ( 49.4849 ) 49.4849 psia weighted averages, volume and air mass temperature 88.33347 deg. P pressure 49.47880 psia vapor pressure 0.39643 psia volume dry air mass 343040 cu.

82930.66 ibm ft.

108

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WNP-2 1991 ILRT VERIFICATION data set 13 time = 815 date = 609 sensor raw data value temperature 1 ( 111.200 ) 111.200 deg. F temperature 2 ( 102.270 ) 102.270 deg. F temperature 3 ( 93.860 ) 93.860 deg. F temperature 4 ( 88.790 ) 88.790 deg. F temperature 5 ( 104.090 ) 104.090 deg. F temperature 6 ( 89.760 ) 89.760 deg. F temperature 7 ( 93.700 ) 93.700 deg. F temperature 8 ( 93.710 ) 93.710 deg. F temperature 9 ( 93.910 ) 93.910 deg. F temperature 10 ( 103.570 ) 103.570 deg. F temperature 11 ( 110.780 ) 110.780 deg. F temperature 12 ( 93.470 ) 93.470 deg. F temperature 13 ( 93.790 ) 93.790 deg. F temperature 14 ( 89.700 ) 89.700 deg. F temperature 15 ( 77.730 ) 77.730 deg. F temperature 16 ( 77.650 ) 77.650 deg. F temperature 17 ( 77.650 ) 77.650 deg. F temperature 18 ( 77.680 ) 77.680 deg. F dewpoint ( 70.480 ) 70.4SO deg. F , 0.3689 psia dewpoint ( 69. 690 69.690 deg. F , 0.3591 psia dewpoint ( 69.690 ) 69.690 deg. F , 0.3591 psia dewpoint ( 69.880 ) 69.880 deg. F , 0.3614 psia dewpoint ( 76.300 76.300 deg. F , 0.4487 psia dewpoint ( 75.830 75.830 deg. F , 0.4417 psia pressure 1 ( 49.4765 ) 49.4765 psia pressure 2 ( 49.4825 ) 49.4825 psia weighted averages, volume and air mass temperature 88.35281 deg. F pressure 49.47650 psia vapor pressure 0.39659 psia volume 343040 cu. ft.

dry air mass 82923.56 ibm 109

NNP-2 1991 ILRT VERIFICATION data set 14 time = 830 date = 609 sensor raw data value temperature 1 ( 111. 190 ) 111. 190 deg. F temperature 2 ( 102. 300 ) 102.300 deg. F temperature 3 ( 93.870 ) 93.870 deg. F temperature 4 ( 88.800 ) 88.800 deg. F temperature 5 ( 104.120 ) 104.120 deg. F temperature 6 ( 89 770 ) 89.770 deg. F temperature 7 ( 93.680 ) 93.680 deg. F temperature 8 ( 93.710 ) 93.710 deg. F temperature 9 93.930 ) 93.930 deg. F temperature 10 103-590 ) 103.590 deg. F temperature 11 110.790 110.790 deg. F temperature 12 93.490 ) 93.490 deg. F temperature 13 93.800 ) 93.800 deg. F temperature 14 89.620 ) 89.620 deg. F temperature 15 77.720 77.720 deg. F temperature 16 ( 77.650 ) 77.650 deg. F temperature 17 ( 77.650 ) 77.650 deg. F temperature 18 ( 77.680 ) 77.680 deg. F dewpoint ( 70.500 ) 70.500 deg. F , 0.3692 psia dewpoint ( 69.740 ) 69.740 deg. F , 0.3597 psia dewpoint ( 69.710 ) 69.710 deg. F , 0.3593 psia dewpoint ( 69.910 ) 69.910 deg. F , 0.3618 psia dewpoint ( 76.420 ) 76.420 deg. F , 0.4504 psia dewpoint ( 75.810 75.810 deg. F , 0.4414 psia pressure 1 ( 49-4740 ) 49.4740 psia pressure 2 ( 49.4801 ) 49.4801 psia weighted averages, volume and air mass temperature 88.35320 deg. F pressure 49.47400 psia vapor pressure 0.39713 psia volume dry air mass 343040 cu.

82918.37 ibm ft.

1'10

WNP-2 1991 ILRT VERIFICATION data set 15 time = 845 date = 609 sensor raw data value temperature 1 ( 111.200 ) 111.200 deg. F temperature 2 ( 102.340 ) 102.340 deg. F temperature 3 ( 93.890 ) 93.890 deg. F temperature 4 ( 88.810 ) 88.810 deg. F temperature 5 ( 104.150 ) 104 '50 deg. F temperature 6 ( 89.770 ) 89.770 deg. F temperature 7 ( 93.700 ) 93.700 deg. F temperature 8 ( 93.730 93.730 deg. F temperature 9 ( 93.950 ) 93.950 deg. F temperature 10 ( 103.630 103.630 deg. F temperature 11 ( 110.810 110.810 deg. F temperature 12 ( 93.500 ) 93.500 deg. F temperature 13 ( 93.820 93.820 deg. F temperature 14 ( 89.630 89.630 deg. F temperature 15 ( 77.730 77.730 deg. F temperature 16 ( 77.650 77.650 deg. F temperature 17 ( 77.660 77.660 deg. F temperature 18 77.690 77.690 deg. F dewpoint 1 70.530 ) 70.530 deg. F, 0 ~ 3695 psia dewpoint 2 69.770 ) 69,770 deg. F, 0.3601 psia dewpoint 3 69.740 ) 69.740 deg. F , 0.3597 psia dewpoint 4 69.950 ) 69.950 deg. F , 0 '623 psia dewpoint 5 76.310 ) 76.310 deg. F , 0.4488 psia dewpoint 6 75.830 ) 75.830 deg. F , 0.4417 psia pressure 1 ( 49.4715 ) 49.4715 psia pressure 2 ( 49.4776 ) 49.4776 psia weighted averages, volume and air mass temperature 88.36707 deg. F pressure 49.47150 psia vapor pressure 0.39708 psia volume 343040 cu. ft.

dry air mass 82912.14 ibm 111

WNP-2 1991 ILRT VERIFICATION data set 16 time = 900 date = 608 sensor raw data value temperature 1 ( 111. 210 111.210 deg. F temperature 2 ( 102 '60 102.360 deg. F temperature 3 ( 93.900 93.900 deg. F temperature 4 ( 88'.810 88.810 deg. F temperature 5 ( 104.180 104.180 deg. F temperature 6 ( 89.780 89.780 deg. F temperature 7 ( 93.730 93.730 deg. F temperature 8 ( 93.750 93.750 deg. F temperature 9 ( 93.950 93.950 deg. F temperature 10 ( 103.670 103.670 deg. F temperature 11 110.810 110 '10 deg. F temperature 12 ( 93.510 93 '10 deg. F temperature 13 ( 93.820 93.820 deg. F temperature 14 ( 89.600 89.600 deg. F temperature 15 77.720 77.720 deg. F temperature 16 77.630 77.630 deg. F temperature 17 77.640 77.640 deg. F temperature 18 ( 77.680 77.680 deg. F dewpoint 70.580 ) 70. 580 deg. F 0. 3402 psia dewpoint 69.790 ) 69.790 deg. F 0.3309 psia dewpoint 69.770 ) 69 '70 deg. F 0.3408 psia dewpoint 69.960 ) 69.960 deg. F 0.3332 psia dewpoint 76.300 76.300 deg. F 0.4559 psia dewpoint 75.810 75.810 deg. F 0.4485 psia pressure 1 ( 49.4689 ) = 49.4689 psia pressure 2 ( 49.4752 ) = 49.4752 psia weighted averages, volume and air mass temperature 88.36633 deq. F pressure 49.46890 psia vapor pressure 0.39718 psia volume 343040 cu. ft.

dry air mass 82907.68 ibm 112

WNP-2 1991 ILRT VERIFICATION data set 17 time = 915 date = 609 sensor raw data value temperature 1 ( 111.200 111.200 deg. F temperature 2 ( 102.370 102.370 deg. F temperature 3 ( 93 '70 93.870 deg. F temperature 4 ( 88.790 88.790 deg. F temperature 5 ( 104.180 104.180 deg. F temperature 6 ( 89.750 89.750 deg. F temperature 7 ( 93.720 93.720 deg. F temperature 8 ( 93.740 93.740 deg. F temperature 9 ( 93 '30 93.930 deg. F

'temperature 10 ( 103.680 103.680 deg. F temperature 11 ( 110.770 110.770 deg. F temperature 12 ( 93.510 93.510 deg. F temperature 13 ( 93.830 93.830 deg. F temperature 14 ( 89.650 89.650 deg. F temperature 15 ( 77.700 77.700 deg. F temperature 16 ( 77.620 77.620 deg. F temperature 17 ( 77 '30 77.630 deg. F temperature 18 ( 77.670 77.670 deg. F I

dewpoint 1 ( 70. 600 70.600 deg F, 0. 3704 psia dewpoint 2 ( 69 '60 69.860 69.810 deg, F, F,

0. 3612
0. 3606 psia psia dewpoint 3 69.810 deg dewpoint 4 70.000 70.000 76.290 deg F, F,
0. 3629
0. 4485 psia psia dewpoint 5 76.290 degas dewpoint 6 ( 75.820 75.820 deg, F, 0. 4415 psia pressure 1 ( 49.4666 49.4666 psia pressure 2 ( 49.4729 49.4729 psia weighted averages, volume and air mass temperature 88.35818 deg. F pressure 49.46660 psia vapor pressure 0.39750 psia volume 343040 cu. ft.

dry air mass 82904.48 ibm 113

Agg l APPENDIX IV TYPE B AM) C TEST RESULTS SMIMARYREPORT 114

TYPE B AND C TEST RESULTS

SUMMARY

REPORT TABLE OF NTENTS SECTION PAGE 1.0 Introduction 117 2.0 Discussion (Type B & C Testing) 117 2.1 Test Methods 117 2.2 Specific Testing Categories, Acceptance Criteria, and Results 117 3.0 Type B &C As-Found Testing 119 3.1 Main Steam Isolation Valves 128 4.0 Type A Test 128 5.0 Type B &C Containment Penetration Test Schedule 131 115

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report TYPE B AND C TEST RESULTS

SUMMARY

REPORT

~SA SS PAGE

1. LLRT Results for Type B & C Testing Performed Since 1987 ILRT 118
2. LLRT Results for Secondary Bypass Leakage Sources 118
3. As-left LLRT Results for MSIV's 119
4. 1988 Outage - Isolation Valves Repaired/Adjusted 121
5. 1989 Outage - Isolation Valves Repaired/Adjusted 122
6. 1990 Outage - Isolation Valves Repaired/Adjusted 124
7. 1991 Outage - Isolation Valves Repaired/Adjusted 126
8. As-Found Leak Rates for MSIV's 128
9. Minimum Pathway Leak Rates for As-Found Type A Adjustment 129
10. Containment Penetration Schedule for Type B & C Tests 132 116

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report

1.0 INTRODUCTION

During each annual spring outage in 1988, 1989, 1990, and 1991, 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 1991 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 maintenance on resilient seals, The ILRT results (as-left) are adjusted by the difference in minimum pathway leakage rates before and after repairs or maintenance activities to arrive at the Type A "as-found" value.

The totals for Type B and C testing for the 1988, 1989, 1990 and 1991 outages yielded as-found values greater than 0.6 La. The deficiencies which led to the excessive leakages and the corrective actions taken to reduce the total leakage to below 0.6 La are included in the as-found testing section of this report.

2.0 DISCUSSION (Type B & C Tests) 2.1 Methods The pneumatic Type B & 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 & C penetrations.

During the 1988, 1989, 1990 and 1991 outages, Type B & C testing was performed in accordance with Exemption to Appendix J Testing issued by the NRC with Amendment No. 41 to Facility Operating Licence NPF-21. This allowed testing of approximately half of the Type B & C penetrations during each shutdown for refueling. For determining the Type B & C summations, those penetrations not tested have leakage values applied from the previous outage as-left condition.

The measured Type B & C Leakage rate summations are tabulated in the following Table 1.

117

II Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Outage Year Sum of Type B Sum of Type C Sum of TypeB &C Allowable Limit 1988 2,499 sccm 16,718 sccm 19,217 sccm 56,600 sccm (0.5 La) 1989 3, 170 sccm 25,751 sccm 28,921 sccm 56,600 sccm (0.5 La) 1990 2,056 sccm 25,726 sccm 27,782 sccm 56,600 sccm (0.5 La) 1991 252 sccm 12,580 sccm 12,832 sccm 56,600 sccm (0.5 La)

Table 1 LLRT Results for Type B & C Testing Performed Since 1987 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 k 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 2.

N~te: i. Passive components are considered exempt Leakage Rate (SCCM)

Penetration Service 1988 1989 1990 1991 X-14 RWCU from RPV 40.3/2 56.8 d 4.3 X-22 MS Drain 32/2 4.3/2 14.25 X-27f TIP Line 5.0 18.2 X-53 Drywell HVAC Supply 7.0 9.7 9.7 52.5 X-56 CIA to SRV Accumulators. 4.6 43.9 43.9 65 +

X-66 Wetwell HVAC Supply 72.2 +

X-77Aa RRC Sample Line 6.3 26.9 26.9 + 12 X-92 DW Service to Drywell 4.0/2 4.5 4.5 19/2 X-93 Air to Drywell for Maintenance 2.4/2 22.3/2 d'ailed component TOTALS 134.35 130.8 113.28 153.15 Table 2 LLRT Results for Secondary Bypass Leakage Sources 118

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 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 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 5428 sccm per valve at test pressure of 25 psig. The as-left test results are tabulated in Table 3.

Leakage Rate (SCCM)

Penetration 1988 1989 1990 1991 X-18A 344 173 3275 2343 X-18B 688 158 703 X-18C 375 341 406 X-18D 290 126 1322 Table 3 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. 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

.053 gpm for the 1988 outage, .058 gpm for the 1989 outage, .014 gpm for the 1990 outage, and 1.13 gpm for the 1991 outage.

3.0 TYPE B & C AS-FOUND TESTING During the 1988, 1889, 1990 and 1991 testing sequences, the total Type B & C As-Found leakage rates exceed 0.6 La (67,920 sccm). Several valves had leakage rates in excess of the measuring capabilities of the testing instruments used or could not be pressurized to the required test pressure (Pa). For these valves, the as-found leakage rate is conservatively reported as greater than 0.6 La.

119

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report During the 1991 outage testing sequence, significant efforts were made to establish the leakage quantity of each isolation valve in series when tested simultaneously by pressurizing between two valves. In this way, the as-found minimum pathway leakage rate for a given penetration could be established for use in arriving at the As-Found Type A leakage rate.

Tables 4, 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, thus lowering the overall Type B and C leak rate below 0.5 La.

120

Pen ¹ Valve Size Function As-Found As-Left Deficiency/Corrective No. (SCCM) (SCCM) Action X-13 SLC-V-4B 1'/i" SLC Injection 2.2 26.5 Replaced internals, Squib type valve X-22 MS-V-19 3N Main Steam Header 1508 32 Disassembled, lapped seats and wedge X-24 FDR-V-3 3N Containment floor drain header 4940 335 Flushed debris with deminerized water X-27A TIP-V-1 TIP Containment Isolation 6.7 2.67 Scheduled replacement of ball valves TIP-V-2 /s" TIP Containment Isolation 6.4 Scheduled replacement of ball valves X-27C TIP-V-3 Ve" TIP Containment Isolation 6.4 Scheduled replacement of ball valves X-27D TIP-V-4 Vs" TIP Containment Isolation 6.4 Scheduled replacement of ball valves X-27E TIP-V-5 Ve" TIP Containment Isolation 4.4 Scheduled replacement of ball valves X-27F TIP-V-15 Vs" TIP Containment Isolation > 0.6 La Scheduled replacement of ball valves X<2C PI-V-X42C2 Process Instrument line Isolation 415 Disassembled, lapped seats X-46 RCC-VRO, RCC-V-21 10" Reactor Closed Cooling Return > 0.6 La Flushed debris with air X-47 RHR-V-134A 2N RHR loop A pump test line 862 16 Flushed with deminerized water X48 RHR-FCV-64B RHR loop B pump test line 6850 102 Flushed and cycled valve X%6 CSP-V-5 24" Wetwell HVAC supply > 0.6 La 3.3 Replaced seat X-67 CSP-V-6, CSP-V-8 24" Wetwell HVAC exhaust > 0.6 La 1930 Replaced seat and seal X-77Aa RRC-V-20 RRC sample line > 0.6 La 348.3 Disassembled and cleaned X-83a PSR-V-X83-2 Post accident sample (wetwell) Flushed with air and cycled valve X-96 CAC-V-2, CAC-FCV-2A 4N CAC discharge to drywell 499 Flushed valves with deminerized water X-99 CAC-V-6, CAC-FCV-1A 4" CAC suction from drywell 1981 115 Flushed and stroked valves X-103 CAC-V-13, CAC-FCVAB 4w CAC suction from wetwell 17,090 380 Flushed valves with deminerized water Table 4 1988 Outage - Isolation Valves Repaired/Adjusted

Pen ¹ Valve Size Function As-Found As-Left Deficiency/Corrective No. (SCCM) (SCCM) Action X-3 CEP-V-1A, CEP-V-2A 30" Drywell HVAC exhaust 2303.3 1890 Replaced elastomer seals XP RCIC-VQO 10N RCIC turbine exhaust > 0.6 La 440 Replaced soft seat X-13 SLC-V4A SLC to Reactor 26.5 3.5 Replaced internals, Squib type valve X-14 RWCU-V-1 6" RWCU from Reactor 40.1 56.8 Operator grease changeout X-17A RFW-V-10A 24" RFW line A 4.8 171 Replaced soft seat (EQ)

X-17A RFW-V-32A 24" RFW line A 347.47 1188.39 Replaced soft seat (EQ)

X-17A RFW-VISA 24" RFW line A > 0.6 La 9460.42 Disassembled, lapped disc/seat X-17B RFW-V-32B 24 N RFW line B 93.13 5376.91 Replaced soft seat (EQ)

X-17B RFW-V-10B RFW line B > 0.6 La 6111.34 Replaced soft seat/corrected clearance X-21 ~

RCIC-V-76 1 RHR condensing mode stm supply > 0.6 La 12.2 Repacked/Movats X-21 RCIC-V-63 10N kHR condensing mode stm supply > 0.6 La 12.2 Movats X-22 MS-V-16, MS-V-19 3N MS line 1180 4.3 Operator grease changeout X-24 FDR-V-3 3N Drywell floor drain 7660 6390 Flushed with deminerized water X-27F TIP-V4 VB TIP lines > 0.6 La Disassembled/cleaned internals XM RCC-VRO 10N RCC outlet header 426.7 2.3 Operator grease changeout X49 HPCS-V-23 12N HPCS test line 934.5 557 Movats X49 HPCS-V-83, HPCS-V-84 HPCS test line vent Replaced valves X-53 CSP-V-1, CSP-V-2 30" Drywell HVAC supply 48.2 3.86 Replaced elastomer seals X-66 CSP-V-S, CSP-V-7 24" Wetwell HVAC supply 3.3 139 Replaced elastomer seals (EQ)

X-66 CSP-V-3, CSP-V4 24" Wetwell HVAC supply 642.9 219 Replaced elastomer seals (EQ)

Table 5 1989 Outage - Isolation Valves Repaired/Adjusted

Pen ¹ Valve Size Function As-Found As-Left Ddiciency/Corrective No. (SCCM) (SCCM) Action X-66 CSP-V-800-11 Wetwell HVAC supply vent 2543.33 15.9 Lapped seat X-67 CSP-VA, CSP-V-8 24" RB/Wetwell vacuum breakers 1930 33.33 Replaced elastomer seals (EQ)

X%7 CEP-V-3A, CEP-VAA 24" Wetwell HVAC exhaust 720 12.9 Replaced elastomer seals (EQ)

X-72F PI-EFC-X72f Process instrument line 4720 6.2 Cleaned internals X-73e PI-EFC-X73e 1N Process instrument line 287 58 Cleaned internals X-77Aa RRC-V-20 RRC sample line 348.3 81.2 Replaced valve X-77Ac PSR-V-X77A1 Post accident sample return 5103 4400 Lapped internals X-77Ac PSR-V-X77A2 Post accident sample return 5476.6 3300 Lapped internals X-91 CIA-V-31B 'h" CIA line B for ADS accumulators > 0.6 La 56.33 Cleaned/lapped internals X-119 CSP-V-9, CSP-V-10 24" RB/Wetwell vacuum breakers 1592 74 Replaced elastomer seals (EQ)

X-119 CSP-V-800-16 ~4" RB/Wetwell vacuum bkr line vent 566 15.66 Lapped internals Table 5 (CONTIN%M))

1989 Outage - Isolation Valves Repaired/Adjusted

Pen ¹ Valve Size Function As-Found As-Left Deficiency/Corrective No. (SCCM) (SCCM) Action X-5 RCC-V-104 10" RCC inlet header 102.3 483 Movats X-14 RWCU-V-1 6N RWCU from Reactor 15 4.3 Repacked valve X-17A RFW-VISA, RFW-V-65B 24" RFW line A ) 0.6 La 1510.56 Repacked valves/Movats X-21 RCIC-V-8 4 II RHR condensing mode stm supply > 0.6 La 1510.56 Grease changeout/Repack/Movats X-21 RCIC-V-76 RHR condensing mode stm supply > 0.6 La 1510.56 Grease changeout/Repack/Movats II X-22 MS-V-16, MS-V-19 3 MS line 102 14.25 Repack/Movats XM RCC-VPO, RCC-V-21 10" Reactor Closed Cooling Return 41 8.3 Movats XR9 HPCS-V-23 12" HPCS test line 142 51 Disassemble/corrected operator problem XP9 HPCS-V-12 4w HPCS test line 375 175 Repack/Movats X-53 CSP-V-1, CSP-V-2 30" Drywell HVAC supply 4510 103.33 Replaced seats X-56 CIA-V-20 CIA supply to SRV accumulators 69.5 Operator grease changeout/Movats X-63 LPCS-V-12 12" LPCS test line 202.33 636 Repack X%3 LPCS-FCV-11 3 II LPCS test line 110.6 220 Grease changeout/Repack X%4 RCIC-V-69 1'h" RCIC vacuum pump discharge 113.33 218 Grease changeout X-65 RCIC-V-19 2N RCIC pump minimum flow line 167 3.3 Grease changeout X%7 CEP-V-3A7 CEP-VPA 24" Wetwell HVAC exhaust ) 0.6 La 322 Adjusted linkage X-72f PI-EFC-X72f IN Radiation monitoring return line 1185 134.3 Disassembled and cleaned internals X-89B CIA-V-30A 'h" CIA line A for ADS accumulators 47 Grease changeout X-91 CIA-V-30B CIA line B for ADS accumulators 2.67 Grease changeout Table 6 1990 Outage - Isolation Valves Repaired/Adjusted

1 'C Pen ¹ Valve Function As-Found As-Left Deficiency/Corrective No. (SCCM) (SCCM) Action X-96 CAC-V-2 CAC discharge to drywell 180 364 Grease changeout X-97 CAC-V-15, CAC-V-1B 4r CAC suction from drywell 2570 713.8 Clean seats/grease changeout X-98 CAC-V-11 4w CAC discharge to drywell 387 279.75 Grease changeout X-99 CAC-VA, CAC-FCV-1A 4r CAC suction from drywell 8600 Clean seats/grease changeout X-102 CAC-VA 4% CAC discharge to wetwell 257.6 Grease changeout X-103 CAC-V-13, CAC-FCV-4B 4 II CAC suction from wetwell 348 Cleaned seats/ grease changeout X-104 CAC-V-17 CAC discharge to wetwell 352.3 73.3 Grease changeout X-105 CAC-V-8 4N CAC suction from wetwell 568 2.66 Grease changeout X-119 CSP-V-10 24" RB/WetweH vacuum breakers 718 820 Adjusted disc turnbuckle Table 6 (CONTINUED) 1990 Outage - Isolation Valves Repaired/Adjusted

Pen ¹ Valve Size Function As-Found As-Left Deficiency/Corrective No. (SCCM) (SCCM) Action X-3 CEP-V-1A, CEP-V-2A 30" Drywell HVAC exhaust 4585 625 Adjusted linkage X4 RCIC-V-68 IQII RCIC turbine exhaust 470 177 Refurbishment/movats X-5 RCC-V-S, RCC-V-104 lola RCC inlet header 483 Refurbishment/movats X-11A RHR-V-16 A 16" Drywell spray loop A 1074.14 977.37 Refurbishment/movats X-11B RHR-V-16B 16" Drywell spray loop B 221 Refurbishment/clean seats/movats X-13 SLC-VAA SLC Injection Replaced internals, squib type valve X-14 RWCU-V-1, RWCU-V-4 6 II RWCU from Reactor 78 Refurbishment/movats X-17A RWCU-VCO RFW line A 1229 Refurbishment/movats X-17B RFW-V-32B 24" RFW line B 53089 546.67 Replaced soft seat X-21 RCIC-V-76 RHR condensing mode stm supply 6730 89.9 Packing replacement X-21 RCIC-V-8 4N RHR condensing mode stm supply 6730 89.9 Packing replacement MS-V-16 II X-22 3 Main Steam Header 12 Replaced disc/movats X-24 FDR-V-3, FDR-VA 3N Containment floor drain header Replaced both valves with new design X-25B RHR-V-27B 6 Wetwell spray loop B > 0.6 La Refurbishment/movats XP3A RRC-V-16A RRC pump A seal water 3.66 35.33 Refurbishment/repack/movats

'N KGB RRC-V-16B RRC pump B seal water Refurbishment/repack/movats X47 RHR-V-73 A RHR loop A pump test line 29.93 Refurbishment/movats X48 RHR-V-73B 2N RHR loop B pump test line Refurbishment/movats X48 RHR-V-134B 2N RHR loop B pump test line 30.8 Refurbishment/movats X49 HPCS-V-12 4N HPCS test line 34.3 Refurbishment/movats Table 7 1991 Outage - Isolation Valves Repaired/Adjusted

Pen ¹ Valve Size Function As-Found As-Left Deficiency/Corrective No. (SCCM) (SCCM) Action X-53 CSP-V-2 30" Drywell HVAC supply 90 550 Adjusted linkage X%3 LPCS-V-12 12" LPCS test line 1405 1620 Movats X%6 CSP-V-5 24" Wetwell HVAC supply > 0.6 La 84.3 Adjusted linkage X%6 CSP-V-93 Wetwell HVAC supply 8300 Replaced o-ring seat X-67 CSP-V-3A, CSP-V-4A 24" Wetwell HVAC exhaust 3860 40 Replaced soft seat in both X-73f PSR-V-X73-2 Post accident sample (drywell) 1538.33 132.75 Flushed debris with air X-83a PSR-V-X83-1 Post accident sample (wetwell) 153.13 131.33 Flushed with air and cycled valve X-84f PSR-V-X84-2 Post accident sample (wetwell) 2580 Flushed with air X-89B CIA-V-31A CIA line A for ADS accumulators 665 156 Replaced soft seat insert X-89B CIA-V-30A CIA line A for ADS accumulators Movats X-91 CIA-V-30B CIA line B for ADS accumulators 0 .

Movats X-101 FPC-V-149 6" Wetwell cleanup return 47 Refurbishment/movats X-101 FPC-V-156 6" Wetwell cleanup return 47 Refurbishment/movats X-119 CSP-V-10 24" RB/Wetwell vacuum breakers 1250 2008 Adjusted disc linkage Table 7 (CONTINU19))

1991 Outage - Isolation Valves Repaired/Adjusted

'4 Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 3.1 Main Steam Isolation Valves (MSIV's) tested I The as-found leak rates for the MSIV's are shown in Table 7. These valves are 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'ype A results. The allowable leak rate per Technical Specifications is 5427 sccm per valve.

Penetration Valve As-Found Leakage Rates (SCCM)

Number Number 1988 1989 1990 1991 18A MS-V-22A 344 173.4 3275 2343.19 MS-V-28A 18B MS-V-22B 687.8 157.47 703.21 MS-V-28B 18C MS-V-22C 375.22 341.29 405.88 MS-V-28C 18D MS-V-22D 290.2 126 1321.46 MS-V-28D Table 8 As-Found Leak Rates 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 1991 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 1991 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 & C penetrations from Table 6 was 4,935 sccm. Adding this figure to the as-left Type A leak rate (total time 95%

UCL value of 0.2973 %/day, yields a total as-found Type A leak rate of 0.320

%/day. This does not exceed the maximum allowable leakage rate (La) of 0.5

%/day (Ref. 1) or the As-Found acceptance criteria set forth in NRC I.E.,

Information Notice 85-71 of 0.75 La.

128

f Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pen ¹ Valve Deficiency/Corrective As-Found As-Left Penalties No. Action (SCCM) (SCCM)

X-3 CEP-V-1A, CEP-V-2A Adjusted linkage 2292.5 312.5 1980 KA RCIC-V48 Refurbishment/movats 88.5 146.5 X-5 RCC-V-5, RCC-V-104 Refurbishment/movats 262.5 -262.5 X-11A RHR-V-16A Refurbishment/movats 537.07 488.69 48.38 X-11B RHR-V-16B Refurbishment/clean 221 221 seats/movats X-13 SLC-V4A Replaced internals, squib type valve X-14 RWCU-V-1, RWCU-V-4 Refurbishment/movats 39 39 X-17A RWCU-VAO Refurbishment/movats X-17B RFW-V-32B Replaced soft seat 1229 1229 X-22 MS-V-16 Replaced disc/movats X-24 FDR-V-3, FDR-VP Replaced both valves with new design X<3B RRC-V-16B Refurbishment/repack/movats X-47 RHR-V-73 A Refurbishment/movats 242.55 217.62 X-48 RHR-V-73B Refurbishment/movats X<8 RHR-V-134 Refurbishment/movats 386 411.8 -25.8 X-49 HPCS-V-12 Refurbishment/movats 85.3 51.0 34.3 X-53 CSP-V-2 Adjusted linkage 97.5 327.5 -230 X-63 LPCS-V-12 Movats 1625 1840 -215 Table 9 1991 Minimum Pathway Leak Rates for As-Found Type A Adjustment 129

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report Pen //'alve No.

Deficiency/Corrective Action As-Found (SCCM)

As-Left (SCCM)

Penalties X-66 CSP-V-5 Adjusted linkage X-66 CSP-V-93 Replaced o-ring seat 397.2 175.65 221.55 X-67 CSP-V-3A, CSP-V-4A Replaced soft seat in both 2089.5 179.5 1910 X-84f PSR-V-X84-2 Flushed debris with air 8.33 5.0 3.33 X-101 FPC-V-149 Refurbishment/Movats X-101 FPC-V-156 Refurbishment/Movats -23.5 X-119 CSP-V-10 Adjusted disc linkage -379 Total 4690 Table 9 1991 Minimum Pathway Leak Rates for As-Found Type A Adjustment (CONTINUED) 130

Washington Public Power Supply System WNP-2 Primary Containment Building 1991 Integrated Leakage Rate Test Final Report 5.0 TYPE B 4 C CONTAINMENTPENETRATION 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 Licence 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.

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 1991 outage, those which exceeded their leakage limits and must be retested during the 1992 outage, and those penetrations/valves not tested in 1991 and thus being scheduled for testing during the 1992 refueling outage.

The table that follows includes the information required under the conditions of the granted exemption to Appendix J.

131

TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B 5 C TESTS Page 1 of 5 TESTED IN 1991 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION r",.h>hr,',.:,v.r'h>?~".ex'>;Px'xgxr'x,".'.x:crr';rrr>P,rrrr, r,x: ':x<>:

LEAKLIMIT YES NO PASSED FAILED A:r<>,"Irr'rrx.">.;,

1992 NOTES h::aK<K>8%4 i&~Sk'&< x X-3 STEP A6 PPM 7.4.6.1.8.3 - CEP-V-1A,1B,2A,2B 5660 X X X-4 X-4-4 RCIC-V-68,-40 1475 X

'h;%XhhqhXC.?X

>xh x
.'i;;q:.?:.,'>:i:>:<c'h'.;h '.@<gh>Ppg>.;.:;,:>:::.!'4s:c!g ':.'g<m):"c!:.:@> NK$QF@PN:i;j<%

X-5-4

'-5 RCC-V-5,-104 1475 X MKMPRk&r;r>>

X-11A X-11A-1 RHR-V-17A,-1 6A 1415 X X

>;RN~YN~$-:'4::.:!~~i .<<4% h.'.~BSMi:> 'xh(,".@hxh,'.? '>.".4%'4rl% >.c:SV!>N X-11 B-1 R HR-V-1 68,-1 7B, 1415 X '-11B

.'.hhh.
."':;h,.c:x+44m'xh~<Px.gAx<~44$ x>;-:a~'xV"<>;(%c (K<4 c>:'C."'hh4Ãk4 K88~x IhSh pxxx4muN X-13 X-13-1 SLC-V-7 221 X X-13 X-13-2 SLC-V-4A,-4B 221 X p+'ghrAhhx>pg l":Sx.'r,,q. (Cgh%

X-14 X-14-1 RWCU-V-1,-4 885 X X rc,'::vch<hhg::> 4,":?<re':>&,>:h><:>r,'-17A

>><%4".-:4$ 4344mggg@pg@mr3i:.::~%%i'.'."PA::;:<'.-"'.:i:':."> &Pxhh',:,':'.>wi?x?:<r.";.

"Xc >x

".:.'.c p':Q:?('.re .':hc<.':::::,j X-17A-1 RFW-V-10A 2125 X X X-17A X-17A-2 RFW-V-65B,-65A, RWCU-V-40 2125 X X-17A X-17A-4 RFW-V-32A 2125 X X X-17B X-17B-1 RFW-V-10B 2125 X X-17B X-179-2 RFW-V-32B 2125 X X X

@c.:;.c '; 5:( (P>j!;'rc'4g'ji (58$ÃKi:;:>4 SiÃ&hÃs X-21 X-21-1 RCIC-V-64,-63,-76,-8 1475 X X

><%NB ' . xX< 'h<

I %K+<h$h?..: . Xc cN<X.@5+)%% hh:::

$ gacx X-22 X-22-1 MS-V-16,-19 442 X m::@ging>hhh,".'ig>a:kg<.."..,'.:;i',: W;:N~N-:~~r< P'4@<%("';.

X-23 X-23-1 EDR-V-20 442 X X-23 X-23-2 EDR-V-19 442 X X aa<'jy~jr'.;h,,xj~'..",. '> gx."xc >??xP>g>Xhxh)hj)XQxgPP~4',;.:.'<  ::?6?re>'.>'.":.A' X-24 X-24-1 FDR-V-4 442 X X-24 X-24-2 FOR-V-3 442 X X-25A X-25A-1 RHR-V-27A 885 X X-25B X-25B-3 RHR-V-27B 885 X chxhxe >. xc<>

X-26 X-26-1 RHR.FCV-64C 442 X X-26 X-26-3 RHR-V-21 1595

., 'jg@gxjgg(P .c.<:;:, .h&'?:c:. > .'?P .',,'>>.',:::>..:.,'., xx:,rgb:;,:;::,.@~

X-27A X-27 A-2 TIP-V-1 50 X X X-27B X-27B-2 TIP-V-2 50 X X-27C X-27C-2 TIP-V-3 50 X X X-27D X-27D-2 TIP-V-4 50 X X-27E X-27E-2 TIP-V-5 50 X X X-27F X-27F-2 TIP-V-15 AND THREADED UNION 148 X X X-27F X-27F-3 TIP-V-6 74 X X X-29a/c X-29ac-1 PI-VX-257 148 X X-29alc X-29 ac-2 PI-VX-256 148 X S?jh<X,"c'j?PPXrhx<$ Q ) jdrggjNPP'c<F<x?:j>) >:(4'r'.>':ecx:>c.':h~.. g>: Ãp>k:":.

c$

X-42<j X-42d-1 PI-VX-42d, PI-VX-21 6 148 X X

'>@'ec-'!:;:> M';"::.P,:,":.:,',>;;gg>i>.'":;:i~WaWiij%~+4$ <j>@x@@i:c';r< 4<>CMX4354 %FF4 Nkii"'.

X-43A X-43 A-1 RRC-V-13A 110 X X X-43A X-43 A-2 RRC-V-16A 110 X hk &8':.".r:<k:>:<kcr:;.';1>:.,"hec: .;:'ac:::.:i)?: >) >:::.r)::>~:$ (N'."xc S~.B@3<4 132

TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B 8. C TESTS Paga 2 cf 5 TESTED IN 1991 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKLIMIT YES NO PASSED FAILED 1992 NOTES

,><+~K)qc Q>cQk 4p .(4@%eyA:.<ygyp$ )>x}.d<:.>g>>/y4::.<.; .~p?. <. <r'.< .( ><; >. $ <0><

%45%?mmS'-43B-1 X-43B RRC-V-16B 110 X  !<?<I.'<i%g>>"

X-43B X-43B-3 RRC-V-13B 110 X k@%?:-?'"':?'kcW~j'>@R%4q?3AA%5%siBX>)5484% <-"??8:A%".< Nx<

X .:-" .iy'j .:I."-'?((4>3!<N N-<V?)~?.:<@ii X-46 X-46-1 RCC-V-40.-21 1475 4""'<c: 5>:-'Ãj'jmP" 8jg4:g<~~';~',

4"::"cVk 4<:: ><8"..'i;:'."<M@6~k4444~44'?%4>~(<%5:.:4SNiMR)K%?: 'R~ 4  !".: g;::<<:,>.'4 i!.;'4::?'?';.<k5:.>

X-47 X-47-1 RHR-V-134A 295 X X-47 X-47-3 RHR.FCV-64A 442 X X X-47 X-47-6 RHR-V-1 21,-120 885 X X-47 X-47-9 RHR-V-24A,-11A 1595 X X-47 X-47-11 RHR-V-73A 295 X yx.?<< ~ g<,q, .":.'4%>><:: ':" '?'. """>444"'::0>. i@S<4%4'?I?:",":%4525,';? <'?:.'::."'"? <I.";:?3: &j4 a'??4~% Sk: MS<;."Ni~<".:!:AN@>:?P>k'<

X-48 X-48-4 RHR-V-11 6, -24B 1595 X-48 X-48-5 RHR-FCV-64B 442 X-48 X-48-6 RHR-V-1 34B 295 X X-48 X-48-8 RHR-V-73B 295 X X

.'.<jelly.

X-49 X-49-1 HPCS-V-23 1062 X X-49 X-49-3 HPCS-V-12 590 X

@:;: gj+qg>."?><?< <:?j~jg@~~Fg<'i'~

g>+5%"i'-53 X-53-1 CSP-V-96 148 X X-53 X-53-2 CSP-V-97 148 X X X-53 X-53-5 PPM 7.4.6.1.8.3 - CSP-V-1,-2 5660 X

>+~j~I'<<?<"" 'q>? f<i? ~':9" +%+i?'"""::<"':".<<,"'< Kp~?(:""? l <Ns <<:??I<ra<>..jq <.":<@@+><< <><.'.'<4'<';~+Ã<::;@4:<

X-54Aa X-54Aa-1 RCIC-V-184, -740 148 X Nk~Ã% I?<j@j.'.,g; ?',,?g;:; >...,.':??;?hj/<?<m'yg?jajvy I?,'?<r<~<..,'p .'(?c;'.(?'c:;k?:,"<'? <.,'?<~'z<;

X-54Bf X-54Bf-1 PI-VX-54Bf, PI-VX-218 148 X X MiFPN<4~A  ::<>-.ps~?r<k,:,'i?:,":j,,': V" ?<,'N,.:,'.j,'. p'@%$4 < 'i%,;:,i:...'<; @" p >p'.p@%pj (g@  ??:;> y 4:i.:'c<.:iF< 4 X-56 X-56-1 CIA-V-21 110 X X-56 X-56-3 CIA-V-20 110 X

'<a'.~%~-:::;i?:!5.:?."K~%%<:?:<'::4N1MR'l@eR<44@.-Pi%a<? MPNSK".4i ~KN~A X-61 f X-61 f-1 PI-VX-219, PI-VX-61f 148 X X z~~~+ @:<,."...'ix?;:::;ipc;jc< c+yQgc~<xg'p ><<: ~<M;:.>NW<j', .".j".'<jjKj@~<XS?:. $?('? g~gyg;?>:Pv<:'?<'<:@):c.'.,:M X-62f X-62f-1 PI-VX-62f, PI-VX-220 148 X

.<<<<<><c <K'SP. i%>". <Y:.:.::?<?::.".:<1?:!:;:::;4<%<%~:NSRj?mII.P>

.<" .::.':<9@":.'.;:";:.".':::.".".'.<<:. NVP~PPN. :F":"'. g~+?'?<)>,o?~~

X-63 X-63-1 LPCS-V-12 1062 X X X-63 X-63-4 LPCS-FCV-1 1 442 X

?h.'?Ig?~$ '?."g X-64 X-64-1 RCIC-V-69, -28 221 X X-65 X-65-1 RCIC-V-19 295 X X-66 X-66-1 CSP-V-98 148 X X-66 X-66-2 CSP-V-93 148 X X-66 X-66-3 CSP-V-5, -7 2124 X X X-66 PPM 7.4.6.1.8.2 - CSP-V-3,-4 5660 X p, <...aY<~ ... '.,@><:..r.:, >+,: ><<>k(??(? <,%"..".,."jg@j<$<;%'?<;?q> >? <.", ..'gq;py X-67 X-67-1 CSP-V-6, -8 2124 X X-67 PPM 7.4.6.1.8.2 - CEP-V-3A,35,4A,4B 5660 X X-69c X-69c-1 PI-VX-69c, Pl-VX-221 148 i:,,;?S":gi~gjqj re?.;".sr?i?; y<:p>,"<p?;xp>>???g >??? ':.'<:'.,:s;:.',.<<:..-.y;-;.;:,'.?>@ rgzo;,@;",,;;:;:,.:::::::::?i:.":.

b3rA4: w%

X-72f X-72f-1 PI-VX-253 148 X X X-72f X-72f-2 PI.EFC-X72f 148 X X FN5@3>

. 133

TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B 8( C TESTS Page 3 of 5 TESTED IN 1991 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKLIMIT YES NO PASSED m(<gg<.g>:.'AILED 1992 NOTES RN<~>('"'>i'>:akk:FN": ':""<Ãsj5@k~k':<k':.i:>'?N4<??:.!::<'"::!.'>

X-73e X-73e-1 PI-VX-259 148 X X-73e X-73e-2 Pl-EFC-X-73e 148 X X X-73f X-73f-1 P SR-V-X73-1 148 X X-73f X-73f-2 PSR-V-X73-2 148 X X i%>~R"'@48 %@>4-'488 !1Ã%$:::'"<:: "'<:>.:IN@Si<>'": i": 4>$ ">@4% ."

<:::>><~k": M'p"'/%K@ ':.: Kj:9Ã::<

X-77Aa X-77Aa-1 RRC-V-20 148 ~ X X-77As X-77As-2 RRC-V-19 148 X

'ii:442'~>>>N.'KCNI:><

'%XXC%C>>>>><%ii@N':">."""X'4>':>>>>i%4.'::NN'k(4>; M(%@ENx<'>; (<,.'()gal(<:m X-77Ac X-77Ac-1 PS R-V-X77A-1 148 X X-77 Ac X-77Ac-2 PSR-V-X77A-2 148 NF<<'>>)>>.'< >4<'>k': >pp? Np?>>:>Sr'?p'>< " .:<?>>()4>:>>': $ :,'>:>>,'<>>>>4@gg>'.

X-77Ad X-77 A(I-1 PSR-V-X77A-3 148 X-77A(I X-77Ad-2 PSR-V-X77A-4 148 X X g>>>.'>>jI',":: j<YA X-78d X-78d-1 LPCS-V-66, -67 148 X X-78e X-78e-1 HPCS-V-65, -68 148 X X X-80b X-80b-1 PSR-V-XSO-1 148 X X-80b X-80b-2 PS R-V-X80-2 148 K<>>x~'<.'?> >.".<lk?>>:(:):(>>>>aKCA'::,::>>:5'>>PXC?'M?v".',"4s11 X-82(I X-82d-1 PS R-V-X82-1 148 X X-82d X-82d-2 PS R-V-X82-2 148 X-82e X-82e-1 CAS-VX-82e, CAS-V-730 148 X

.(,;.<g, ?><
;;,'>.;:,, x<x<egur?>>>r>>y>~>'~ z;.>>;;<<;;:.,;.< w>>>>:..f >< <

X-82f X-82f-1 PSR-V-X82-7 148 X X-82f X-82f-4 PSR-V-X82-8 148 X X Ma4$$K~<: YN4?? 54<m X-83a X-83 a-1 PSR-V-X83-1 148 X X X-83a X-83 a-4 PS R-V-X83-2 148 X X X-84f X-84f-1 PS R-V-X84-1 148 X X-84f X-84f-4 PSR-V-X84-2 148 X X

<>gij <i::: <>',:phd gh<?,">gg;;:>@I >> N...>>><(<j%%>>>><<)+j(~:,.;>p@Ng<+%, e jq$,:; .;~~::)::,'f? x~>>>+<8~>> >

X-85s/c X-85 ac-1 PI-VX-251 148 X X-85a/c X-85sc-2 PI-VX-250 148 X

.jyÃ(xj>>:::,p g~>x$:"; +>,"'i::-':::,'.>;<::<;:;i:;>',>x,><?.'ix. ij ( . i':;,gi"?:j>,.'>, > g>',.",ay.> '? ~

X-88 X-88-1 PSR-V-X88-1 148 X X-88 X-88.4 PSR-V-X88-2 148 X X-89B X-89B-1 CIA-V-30A 74 X-89B X-89B-2 CIA-V-31A 74

<'>>1>>>Ã5<gÃNS'N"".'f>~d>.",.'>'j>g::, js<<>'ag3~~Y(.".'.;".?<',,::, Y(>v'>@~ gp>>>P.(<V+<

X-91 X-91-1 CIA-V-30B 74 X X-91 X-91-3 CIA-V-31 B 74 'NXMMN

.'k@'i;,':; <>>> ',: '":%>><@b;s>>>>> +-'"< >>>? >K@>>@Y X-92 X-92-1 DW-V-156.-157 295 X X

.,>;% 'p,A:<,?<.>( '<>>:$ ,<g ?':;<<:>(?'?>??<.'<,:<:;?pÃ<$  ? '>>;.>,:K';< >>.;.;Xi 5$AN!4>'I X-93 X-93-1 SA-V-109 AND PIPE CAP 295 X N4N>>::YRV4 NFF'".:>><:((43>::

X-94 X-94-1 MWR-V-124 110 X X X-94 X-94-2 X-94 PIPE CAP 0 Fi@4N%'::  ;?J,";:?.,53<K<

134

I' TABLE 10 .

CONTAINMENT PENETRATION SCHEDULE FOR TYPE B 5. C TESTS Pago 4 of 5 TESTED IN 1991 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKLIMIT YES NO PASSED FAILED 1992 NOTES X-95 X-95-1

<CM'~':: n)i.;.',5:Rk)kelt"(<".?%~:::::Ngx>:'.<5@k~Ãx~':;:: .".<':?:.'N:

MWR-V-1 25 110 X X-95 X-95-2 X-95 PIPE CAP ~ 0

>."4N 'xM k.">,'.x: r,"""::x<<4<r'."i:>><.'>>'.">x0."<><<@<~jfh>>g":!:i" .<'.: g4:."". '. 4%:< ~ "."

X-96 X-96-1 CAC-V-2, CAC-FCV-2A X y,.:;.><I,xpp)

X-97 X-97-1 CAC-V-15, CAC-FCV-1B 590 X X j

":a~@'jg@@': j('.<p" "> '::<.'<:."."YjY@<<&xgiri'.::~.;:,ra?'r.:>..,';";: <;.4m X-98 X-98-1 CAC-V-11, CAC-FCV-2B 590 X X X-99 X-99-1 CAC-V-6, CAC-FCV-1A 590 X X

@>j<<":.jNF" ?::,x."!>NFL~~:>ra>

><>xxpij%q%$ %( 8$ N4R4~'<% xRi%~S: >IS.':>.':4%>N@ <"AN%"'Nx%4~PxiN4Ã4~%. <)kYx<g 'N~~"<%<%4>.

X-101 X-101-1 FPC-V-156,-149 885 X

'::::,:","x~x.>IN >?'; 'j~>:>.:ax!:."<4m'~;",'<r X-102 X-102-1 CAC-V-4, CAC-FCV-4A 590 X X 4'5",FA'SAN a.'Nl X-103 X-103-1 CAC-V-13, CAC.FCV-4B 590 X X

+<pe>"j@'+x'x:x<':,'.,","..';%'xr:> .';'.I:.";;:; >'.+v" .'< Frx xIe)x 0xx@$ >x'> 4 e".Sg)Ãl4<::?>:r,;'l rr>rrrr'>)>>'r'?<

X-104 X-104-1 CAC-V-17, CAC-FCV-3B 590

<4"?';! ":i:">i 'x@ @~ "44Y<<< <:'.%@'+'"""""""'>':<,<<<e>A~@  ?;

X-105 X-105-1 CAC-V-S, CAC-FCV-3A 590 X X X-117 X-117-1 RHR-V-124A, -124B 221 e:,'",P,'/@~I:<'<<'<",

X-118 X-118-1 RHR-V-125A, -125B 221 X X X-119 X-119-1 CSP-V-9, -10 2124 X X

.><x>;;gx( .'(go TYPE B TESTS TESTED IN 1991 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKLIMIT YES NO PASSED FAILED 1992 NOTES

',X .'::;'r.".:,,".'x:.'<<.":;:.':<%8<idrX:>f)r.'.:;:."<:.':xX". Y'rxrfrr.'."<~AN',:<.'<

BX-000 DRYWELL HEAD 50 X X 3 BX-1 A INSPECTION PORT 50 BX-1B INSPECTION PORT 50 BX-1C INSPECTION PORT 50 BX-1D INSPECTION PORT 50 X X BX-1E INSPECTION PORT 50 X BX-1F INSPECTION PORT 50 X BX-1G INSPECTION PORT 50 BX-1H INSPECTION PORT 50 X BX-15 EQUIPMENT HATCH 50 X X BX-16 PERSONNEL AIRLOCK - PPM 7.4.6.1.3.2 5664 BX-27A BX-27A-1 TIP DRIVE FLANGE 50 X BX-27B BX-27B-1 TIP DRIVE FLANGE 50 X X BX-27C BX-27C-1 TIP DRIVE FLANGE 50 X BX-27D BX-27D-1 TIP DRIVE FLANGE 50 BX-27E BX-27E-1 TIP DRIVE FLANGE 50 X BX-27F BX-27F-1 TIP PURGE FLANGE 50 X BX-28 CRD REMOVAL HATCH 50 BX-51 SUPPRESSION CHAMBER HATCH 50 BX-100A NEUTRON MONITORING 50 BX-100B NEUTRON MONITORING 50 BX-100C NEUTRON MONITORING 50 X

TABLE 10 CONTAINMENT PENETRATION SCHEDULE FOR TYPE B L C TESTS Page 5 of 5 TESTED IN 1991 TEST IN PEN ¹ TEST ID ¹ DESCRIPTION LEAKLIMIT YES No PASSED FAILED 1992 NOTES BX-100 D NEUTRON MONITORING 50 X X BX-101 A CONTROL ROD POSITION INDICATOR 50 X X BX-101 B THERMOCOUPLE AND RTD 50 X BX-101C THERMOCOUPLE AND RTD 50 X BX-101 D THERMOCOUPLE AND RTD 50 BX-102A THERMOCOUPLE AND RTD 50 BX-102B THERMOCOUPLE AND RTD 50 X BX-103A MEDIUM VOLTAGE POWER 50 X BX-103 B MEDIUM VOLTAGE POWER 50 X BX-103 C MEDIUM VOLTAGE POWER 50 X BX-103D MEDIUM VOLTAGE POWER 50 X BX-104A LOW VOLTAGE POWER 50 BX-104B LOW VOLTAGE POWER 50 BX-104C LOW VOLTAGE POWER 50 X BX-104D LOW VOLTAGE POWER 50 X X BX-105A CONTROL AND INDICATION 50 X BX-105B CONTROL AND INDICATION 50 BX-105C CONTROL AND INDICATION 50 BX-105D CONTROL AND INDICATION 50 X BX-106C WIDE RANGE NEUTRON MONITORING 50 X X BX-106D WIDE RANGE NEUTRON MONITORING 50 BX-107A LOW VOLTAGE PWR. AND CTL. IND. 50 X X BX-107B LOW VOLTAGE PWR. AND CTL. IND 50 X BX-26 BX26RV-1 RHR-RV-25C DISCHARGE FLANGE 50 BX-26 BX26RV-2 RHR.RV-SSC DISCHARGE FLANGE 50 X BX-47 BX47RV-1 RHR-RV-1A DISCHARGE FLANGE 50 X BX-47 BX47RV-2 RHR-RV-25A DISCHARGE FLANGE 50 X BX-47 BX47RV-3 RHR-RV-88A DISCHARGE FLANGE 50 X BX-48 BX48RV-1 RHR-RV-'I B DISCHARGE FLANGE 50 X BX-48 BX48RV-2 RHR-RV-5 DISCHARGE FLANGE 50 X BX-48 BX48RV-3 RHR.RV-25B DISCHARGE FLANGE 50 X BX-48 BX48RV-4 RHR-RV-88B DISCHARGE FLANGE 50 BX-48 BX48RV-5 RHR-RV-30 DISCHARGE FLANGE 50 X X BX-49 BX49RV-1 HPCS-RV-14 DISCHARGE FLANGE 50 X BX-63 BX63RV-1 LPCS.RV-18 DISCHARGE FLANGE 50 X BX-63 BX63RV-2 LPCS.RV-31 DISCHARGE FLANGE 50 X 4~+Cigg+~%"~% k%i%%4%i%NQM'<."FCCAXO.<<~l~:i'!'";:!<8:'i<%":<%%:::.k5 k@4!,8:;;:<,"<:i:,';: 0@

NOTES: 1. Containment Purge butterfly valves; tested every 6 months per Plant Technical Specifications. Leakage limit defined by Technical Specifications

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 1992 outage
4. Feedwater check valve soft seat. Tested every refueling outage per conditions of granted exemption.

'36

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