ML20006D780
| ML20006D780 | |
| Person / Time | |
|---|---|
| Site: | Hatch  |
| Issue date: | 11/30/1989 |
| From: | BCP TECHNICAL SERVICES, INC. |
| To: | |
| Shared Package | |
| ML20006D751 | List: |
| References | |
| NUDOCS 9002150061 | |
| Download: ML20006D780 (179) | |
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I s i i h, 1 i ] GEORGIA POWER COMPANY l EDWIN I. NATCN NUCLEAR PLANT UNIT t REACTOR COWTAINNINT SUILDING 1989 INTEGRATED LEAKAGE RATE TEST FINAL REPORT k 1 t I~ t 8 4 f L Prepared By: BCP Technical Services, Inc. O -eeer. m. l l
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t. l JoneSt@p* ""~ WsDEX SYSTEM. ILRT FI!L REPORT'- 1989-s R-j! a APPElOIX I Computer. Program Description 2. t APPENDIX II Type B and C Local Leakage Rate Test Results' 3 APPEIOIX III Test Data ^4 : APPENDIX IV Drybulb and Dewpoint Temperature Plots O 5 l 9 cae -
I1, ~;.- ' ' x i 1 ? i-i GEORGIA POWER CONPANY EDWIN I. HATCH NUCLEAR PLANT h UNIT 2 REACTOR CONTAINMENT BUILDING l '1989 INTEGRATED LEAKAGE RATE TEST L FINAL REPORT i t s .I i i 1 Prepared By: BCP Technical Services, Inc. o.. k)' November, 1989 .---- 2i i i
b it b1 BCP Tcchnicall-Sarvices, Inc. ( Hatch 1989 ILRT final Report-h . v(Y_ l TABLE OF CONTENTS SECTION PAGE 1. Introduction Page 1 2. Summary-Page 2 3. Methodology-Pages 3 - 5 -3.1-Leakage Rate Calculation Pagesl-3 and 4 1 3.2 Test Measures Pages 4 and 5 4. Procedures Pages 6 - 8 4.1 ' Plant Status Page 6 1 4.2oPressurization -Page 6-4.3 Stabilization, Test and Verification .Pages 7 and 8 Y
- 5. -Results Pages 9.- 11.
5.1 '8 Hour Test Pages 9 and 10- ~ 5.2 Verification-Test- -Page 10 5.3 Mass Point Results-Page 11 i 6. References Page 12 Tables Figures j -l Appendix I . Computer Program Description Appendix 11 Type.B and C Local Leakage Rate Test Results Appendix ~'III - Test Data. 1 Appendix IV - Drybulb and Dewpoint Temperature Plots i LOL e
i BCP Technical Sarvices, Inc. Hatch 1989 ILRT Final Report Page 1 1. INTRODUCTION l The containment integrated leakage rate test (ILRT) is perforned 's a i L required by 10CFR50/ Appendix J (Reference 1) to demonstrate that leakage through the containment boundary at design basis accident pressure does not exceed the Technical Specification limit. Test methods and procedures are specifiedinANSIN45.4-1972(Reference 2),whichisreferencedinAppendixJ, and BN-TOP-1 (Reference 3), which contains specific test requirements acceptable to the USNRC. The conduct of the ILRT follows a plant surveillance procedure (Reference 4) which contains detailed instructions for all test . phases. The Hatch Unit 2-1989 ILRT is described in detail in the following sections of this report. Section 2, Sumary, sumarizes test results. Section 3, l describes measurements and calculations. Methodology}antstatus,containmentpressurizationandtestphases.Section 4, Procedur describes p Section l 5, Results, presents the results of the measurements and calculations for the eight(8) hour (TypeA)testandverificationtest. Section 6 lists j references, and the Appendix contains a description of the ILRT computer l program, a listing of Type B and C test results, a listing of all data recorded during the test, and plots of drybulb and dewpoint temperatures-recorded during the Type A test. l O O
{ BCP Technical S3rvices, Inc. ' Hatch 1989 ILRT Final Report Page 2 h: 2.
SUMMARY
The ILRT was conducted on November 12 and 13,1989. Pressurization was started at 6:37 a.m. on November 12 following the completion of all _i prerequisite activities and the containment was isolated at about 10:30 a.m. when internal pressure had reached 58.3 PSIG. The 8 hour ILRT-(Type A test) commenced at 3:30 p.m. following a stabilization period of about 5 hours during which temperature stabilization criteria were met. Stabilization j extended beyond the 4 hour minimum to allow taking of a reactor water sample prior to the Type A test. A verification flow of 1.2 wt.%/ day (11.4 SCFM) was imposed just after 11:30 The four (4) hour verification test started at 12:45 a.m. (November 13) p.m.following a one hour stabilization period. The containment was depressurized following the completion of the verification j test. Test results are listed below. 95% UCL on total time leakage rate 0.80 wt.%/ day Acceptance limit (75% La) 0.90 wt.%/ day 4 a t Extrapolated total time calculated leakage rate <0.75 wt.%/ day Acceptance limit (75% La) 0.90 wt.%/ day Mean of measured leakage rates 0.76 wt.%/ day 1 Acceptance limit (La) 1.20 wt.%/ day i Total time calculated leakage rate, verification 1.87 wt.%/ day Upper limit 2.23 wt.%/ day 1 Lower Limit 1.63_wt.%/ day i l 1 Thefinalasleftleakagerate(UCL)is0.80wt.%/daysince-3enaltiesfor penetrations in non-standard alignment and water inventory clange add to zero. The calculated as found leakage rate (UCL) is 1.03 wt.%/ day. This is the sum -i of the as left rate (UCL) plus 0.23 wt.%/ day improvements in minimum pathway leaka0e made during the Type B and C local testing program. l ] [ 1 i o
BCP Technical Services, Inc. Hatch 1989 ILRT Final Report ~Page 3 3. METHODOLOGY 3.1 Leakaae Rate Calculation Integrated Leakage Rate is determined by calculating the average rate of loss of dry air from the containment. The quantity of dry air in the containment is calculated using the ideal gas law and measurements of drybulb tem >erature, dewpoint temperature and absolute pressure. A single average dr >ulb temperature, T, is calculated as the sum of the products of fourteen t (1 measured temperatures and their associated weighting factors (discussed-belw). Individual' dew)oint temperatures are converted to vapor pressures using the ASME Steam Ta)1e algorithm relating satur6 tion pressures and temperatures. A sin le average vapor pressure is calculated as the sum of the
- products of six (6) ndividual pressures and their associated weighting factors.
Dry air )artial pressure P is measured total pressure less average vapor pressure. TiequantityofairInthecontainmentiscomputedusingthe ideal gas law, M = PV/RT where M is the quantity of air in pounds mass, V is containment free air volume in cubic feet, R is the gas constant
- for air and P and T are defined above.
Containment free air volume used for ILRT calculations is 277,400-cubic feet. The quantity of dry air is calculated so that evaporation of water and 'V condensation of vapor, which are purely internal processes, do not affect the computed leakage rate. Assuming that leakage rate is constant, it is best defined as the slope of a line fitted to the air mass and time data sets. The slope of this line is i the average rate of loss of air. Reference 3 takes a somewhat different approach to calculating leakage rate. The total time method described in Reference 3 is based on the premise that leakage rate. varies linearly with l time.. A measured leakage is determined for air mass values evaluated from L datacollectedatregular(15 minute) intervals. Measured rate is initial air L mass less current air mass divided by current time less initial time. A l straight line is fitted to the measured rate versus time data using the method l of least squares. The calculated leakage rate is defined as the ordinate of this line at the end of the test. The measured leakaoe rates will exhibit some scatter about the fitted line with the result that there is a statistically determinable uncertainty as to the true rate. The uncertainty is quantified by calculating a 95% confidence band-for the end of test. measured leakage rate. The upper limit of this l confidence band is a very conservative bound on true leakage rate. Reference 3 specifies three acceptance criteria. First, the upper limit of the 95% confidence band on the end of test measured leakage rate must be less than the acceptance leakage rate (per Reference 1, this acceptance rate is 75%-of the maximum allowable leakage rate defined in the Technical p. Specifications or,.75 x 1.2%/ Day = 0.9'5/ Day). R = 53.35 (pounds force x feet)/(pounds mass x degrees Rankine)
BCP Technical-Services, Inc.- 1 Hatch 1989 ILRT final Report Page 4 (em ) 3. METHODOLOGY (cont) J 3.1 LeakaaeRateCalculation(cont) Second the calculated leakage rate extrapolated to a twenty-four hour test durat,on must be less than the acceptance leakage rate. i Finally,'themeanofthemeasuredleakageratesoverthe.finalfive(5) hours of the test-must be less than the maximum allowable leakage rate. The test may be terminated when all three criteria are met if the duration is at least six (6) hours (eight hours per Reference 4), following the conclusion of the test, the calculational method is verified by imposing an additional leak (through a calibrated flow meter) on the containment and' calculating the new leakage rate. The imposed leak, vented from the containment through a flow meter, is equal to the maximum allowable leakage rate..The new calculated leakage rate must equal the previously calculated rate plus the imposed rate plus or minus 25% of the maximum allowable. leakage rate. This supplemental test also provides a rough check on pressure measurement since a large error in the measurement of pressure change will result in a a calculated leakage rate which differs significantly from the expected rate. 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 through temporary tubing to a containment instrument penetration. Ten drybulb and five dewpoint temperature sensors were located at approximately equally spaced elevations in the lower drywell-l intheupperdrywelltomaintainreasonableweightingfactors(gwasincreased and at increased vertical spacing in the upper drywell. Spacin the l. i cross-sectional area of the upper drywell is quite small compared to that of L. the lower drywell). One dewpoint and four drybulb temperature sensors were-L located in the torus. Sensorlocationsandweightingfactors(volume fractions) are listed in Table 1. Sensor locations and weighting factors were established by considering temperature distributions in past tests and the containment geometry. Drybulb temperatures were measured using 100 Ohm platinum resistance temperature' detectors (RTO'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 dew)oint and collects. . condensation. A small RTD senses mirror temperature w11ch is controlled at the dewpoint by the photodetector circuit. The dewpoint temperature sensors are completely self contained units requiring standard AC power input and providing 4-20 mA output. O
a BCP, Technical Services, Inc. ] . Hatch 1989 ILRT Final Report Page 5. l d,4
- 3. -METHODOLOGY (cont) 3.2 Test Measurements (cont)
Absolute pressure was measured by a vibrating cylinder pressure transducer. This device uses an electronic circuit to determine a modal frequency /one side vacuum) containment pressure.of a cylinder subjected to abs pressure The modal frequency varies approximately linearly with pressure. An internal microprocessor is programmed-during calibration to convert frequency to true absolute pressure in engineering units. The pressure transducers have a resolution of 0.0001 PSI and a stability of 0.001 PSI (based on deviations between two transducers over the eight hour test duration). A digital data acquisition system was used to collect data at fifteen (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 for the RTD's and converted resistance to temperature with a 0.01 degree C resolution. The dew cell control unit provided a linear output of 4-20 mA over a 40-100 degree F dewpoint temperature range. This current input was converted to temperature with a 0.01 degree F resolution. The pressure transducers provided a binary coded decimal output to the data system. This was passed on to the com) uter as a five digit number (XX.XXX) and a single digit number (.000X). T1is dual output was necessary since the data acquisition system has an output limitation of about 80,000 counts. The data i system generated a printed tape record of each data set transmitted to the computer. The ILRT computer was a small IBM compatible running a compiled Basic program. The program is described in the Appendix. Other instrumentation included a 15 SCFM float type flow meter to measure imposed leakage during the supplemental test and two gages to measure containment gage pressure. All temporary instrumentation was calibrated to the requirements of Reference 4 prior to the ILRT. All instrumentation performed well during the test as is illustrated by the plots in the Appendix. Permanent plant instrumentation was used to measure suppression pool and reactor vessel water levels / temperatures and the quantity of water pumped from the containment sumps. Water quantities were tracked since a correction to calculated leakage rate may be required if total water inventory increases during the ILRT (a water injection is equivalent to a negative leakage which lowers the calculated leakage rate). AV
BCP'. Technical Services, Inc. Hatch 1989 ILRT Final Report Page 6 y '4. PROCEDURES 4.1 Plant Status Plant systems were aligned for the ILRT as specified in Reference 4 which incorporates both FSAR and operational requirements. Isolation valves were set in the post-LOCA positions specified in the FSAR except where the opposite positions were required to maintain the reactor in a safe shutdown condition or to allow pressurization for the ILRT. Piping was vented and drained to expose valve seats: to containment and outside atmospheres per post-LOCA - scenarios. All sources of gas at pressures above containment test pressure were. isolated or vented to prevent leakage into the containment free air space during the ILRT. - All Type B and C local leakage rate tests, including those on the airlock, were completed prior to the start of ILRT pressurization. Containment sumps were pumped down just prior to the start of pressurization. One loop of RHR was in continuous operation through the entire test period to remove core decay heat. Containment lights and fans were-shut off for the -l test. Drywell to torus communication was >rovided by blocking open two vacuum relief valves. The reactor was vented )y removing one main steam relief valve. Prior to containment closure a temperature survey was performed, with fans off, to confirm the expected trend of drybulb and dewpoint temperatures. An A in situ test on the in containment instruments was performed to demonstrate U proper functioning with the long field cables connecting instruments to the data system. RTD in situ tests were done using an ice bath and verifying ice point temperature (plus or minus a tolerance) at the data system. Dewpoint tem)erature sensor in situ tests were performed using a digital temperature /1umidity-indicator. The official test copy of Reference 4 documents plant status, including all exceptions to specified conditions. It also documents the completion of L all prerequisite activities. 4.2 Pressurization Temporary pressurization piping was connected to a flanged tee (normally blanked) on the purge and inerting system. The containment was pressurized by 4-1200 SCFM oil free compressors discharging to af tercoolers and refrigerated air dryers. Air was dried to minimize tle chances of reaching saturated conditions in the drywell. The containment was )ressurized to 58.3 PSIG in .about four hours starting at 6:37 a.m. on Novem>er 12, 1989. The final L increment of pressure was added using only one compressor to insure close l control. Pressurization was stopped close to the maximum allowable value of L 58.5 PSIG. This allowed a 0.8 PSI margin for pressure decay during stabilization to ensure that gage pressure would be at or above Pa (=57.5 PSIG) at the start of the Type A test. Isolation valves on the pressurization pressurization.ywell and torus were closed following the completion ofContainment lines to the dr fifteen minute intervals during pressurization. These data are included with the test data in the Appendix. A- -
l 'BCP Technical Services, Inc. Hatch 1989 ILRT Final-Report Page 7 4. PROCEDURES (cont) 4'.3' Stabilization Test and Verification Following the completion of pressurization, the containment atmosphere was allowed to stabilize as required by Reference 3. The stabilization period was just under 5 hours which exceeded the 4 hour minimum specified in Reference 3. The additional time was used to obtain the daily reactor water sample, an activity which had to be completed prior to the start of the Type A test. The e start of the' Type A test (coincident with the end of stabilization) was declared at 3:30 p.m. on November 12. Table 2 summarizes containment conditions during the stabilization period. Mean temperature during the -stabilization period met the procedure requirements on rate of change.- Actual-rates and maximum allowable values are listed below. Rate Actual Maximum Allowable Average rate of change of mean temperature over the last 2 hours of stabilization '= (T at 1:30 p.m.- T at 3:30 p.m.)/2 0.10 Degrees F/Hr. 1 Degrees F/Hr. Average rate of change of ~ the above rate over the last 2 hours of stabilization = (T at 1:15 p.m.- T at 1:45 p.m.))- 2 2-(T at 3:15 p.m.- T at 3:45 p.m. 0.08 Degrees F/Hr. 0.5 Degrees F/Hr. Mean temperature during the stabilization period is graphed in Figure 1. The 8 hour Type A leakage rate test was started at 3:30 p.m. and concluded at 11:30 p.m. Containment gage pressure at the start of the test was 57.9 PSIG. Containment atmospheric condition data were recorded at fifteen (15) minute intervals during the test (as well as during stabilization and verification). Reactor and suppression pool _ water levels were recorded at hourly intervals during the course of the test and sumps were pumped down following the completion of depressurization to provide the data needed for calculated leakage rate adjustments. The reactor vessel level did not change during the course of the Type A test. Sump level increased by 135 gallons over 30.5 hours (per test log entry)between 3:00 p.m. and midnight on November-whichwasmorethanoffsetbya0.1(+/-) inch drop in suppression pool level
- 12. No adjustment to calculated leakage rate is made since-the adjustment' would be non-conservative.
Q-V
~ BCP Tcchnical Services, Inc. Hatch 1989.1LRT Final Report Page 8 I W b 4. PROCEDURES (cont) 4.3 stabilization.Testandverification(cont) Following the completion of the 8 hour ILRT an 11.4 SCFM leak was 1 imposed through a flowmeter. Thisvolumetricflowratecorrespondedtoa leakage of 1.2 wt.%/ day at the actual. containment pressure of 72.3 PSIA. 'The . containment was allowed to stabilize for one hour following'the initiation-of-J the imposed. leak as required by Reference 3. The verification test commenced ? at 12:45 a.m. on November 13 and was completed at 4:45'a.m. The containment was depressurized following the completion of the verification test. The depressurization procedure is documented in the 5 official test copy of Reference 4. Containment system restorations commenced when depressurization was complete. t i /O. A_/ A-V 1
BCP-Technical Services, inc. Hatch 1989 ILRT Final Report -Page 9 u) - 5. RESULTS 5.1 '8 Hour 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 0.80 wt.%/ day Acceptance limit 0.90 wt.%/ day Total time calculated rate extrapolated to 24 hours <0.75.wt.%/ day Acceptance limit 0.90 wt.%/ day Mean of measured leakage rates over the final 5 hours of the test 0.76 wt.%/ day. Acceptance limit 1.20 wt.%/ day Acceptance limits are based on the maximum allowable leakage rate of 1.2 wt.%/ day specified in the Technical Specifications. For return to power following an outage, the as left leakage rate must be less than 75% (per Reference 1) of the maximum allowable rate. The remaining 25% provides a margin for deterioration of the leakage boundary during the subsequent operating c cle. The 75% criterion is applied by Reference 3-to both the UCL (9 and extrapo ated rate values. Since the mean of the measured rates is normally less than the UCL, the third criterion is generally not a factor in v acceptance. The UCL rate shown above is the final as left value since penalties for penetrations with non-standard alignments add to zero. These -are listed below. One RHR loop was in service during the ILRT..This . represents a conservative-lineup (isolation valves open) and penalty is not a consideration. 2-m Minimum Pathway i Penetration Function leakaae, SCCM X-14 Reactor-Water Cleanup 0 X-22 Drywell Pneumatics 0 X-42 Standby Liquid Control 0 X-51C Drywell Pneumatics 0 X-62 Fission Product Monitoring 0 X-60B Fission Product Monitoring 0 0 e
BCP. Technical Services, Inc. Hatch 1989 ILRT Final. Report j .Page 10 ?3 V-5. RESULTS(cont) 5.1. 8 Hour Test (cont) Table 3 lists air mass and leakage rates (measured calculated and UCL) for each of the thirty-three (33) data sets recorded during the 8 hour twenty-one (21) polated rate is determined by manually extra olating the-final test. The e tracalculated leakage rates out to twent -four 24) hours. The final. twenty-one'(21) points show first a rising tren and then a falling trend. The net effect is an extrapolated rate below 0.75 wt.4/ day. How much below depends on the method of extrapolation which is not defined in Reference 3. The mean of the measured rates is manually calculated using the final twenty-one (21) measured rate values. The air mass values listed in Table 3 are graphed in Figure 2. The various lines on the graph are annotated. The air mass decreased smoothly and linearly with time as expected. Containment mean temperature, total pressure and mean vapor pressure are listed in Table 4 and graphed in Figures 3, 4 and 5.- Vapor pressure is - plotted to the same scale as total pressure and therefore shows little change over the test duration. The total pressure change (over the 8 hour test) is 1 -0.103 PSI and vapor pressure change over the same period is +0.005 PSI. The changes in total time calculated and 95% UCL leakage rates with O increasing test duration are illustrated in Figure 6. The calculated rate is sssentially constant af ter about three hours of test time as expected. The UCL is, as is typical, asymptot ic to the calculated rate, t figures 7 and-8 show the variations in mean temperature and air mass during the stabilization and Type A test periods. The mean temperature is seen to drop until just prior to the end of the stabilization period and then to commente rising shortly after the start of the Type A~ test. Air mass is seen to fall at a steady rate starting about 1 hour into the stabilization -period. This provides added assurance that mean temperature is being correctly determined. If temperature sensors were not placed to allow correct determination of mean temperature, calculated air mass would tend to meander for'a longer time period. L The Appendix includes plots of individual drybulb and dewpoint L temperatures recorded during the Type A test. L I .v I: l
'BCP Technical Services, Inc. Hatch 1989 ILRT Final Report-1 ,7 'Page 11 ~ l 5. RESULTS(cont) 5.2 Verification Test Verification test results are listed in Table 5 and graphed in Figure 9. As indicated b both the table and graph the calculated leakage rate is ver closetotheteoreticalrateandwellwkthintheupperandlowerlimits. Te final results and acceptance limits are listed below. Upper Limit Rate 2.23 wt.%/ Day. Total Time Calculated Rate 1.87 wt %/ Day Theoretical-Rate 1.93 wt.%/ Day Lower Limit Rate 1,63 wt.%/ Day The theoretical rate is the total time calculated leakage rate at the end of the 8 hour test 0.73 wt %/ day, plus the imposed rate, 1.2 wt.%/da The upper and lower lilnits are set at 0.3 wt.%/ day (25% of the maximum alko. wable leakage rate.per Reference 3) above and below the theoretical rate. 5.3 Mass Point Results Mass point calculation results are listed for information in Tables 6 and 7. The mass point calculated rate is the slope of the line fitted to the air massitime data by the method of least sguares.95% confidence limit on the slop Mass to be a positive number .../' ~ such that:the absolute value of the UCL exceeds the absolute value of the slope). The calculated mass point leakage rate of 0.74 wt.%/ day is quite \\ close to the calculated total time rate of 0.73 wt.%/ day. This is expected since the mass plot (Figure'2) follows a straight line trend with very little scatter. The mass point UCL of 0.75 wt %/ day is below the total time UCL of $c; 0.80 wt.%/ day. This results from the high. degree of conservatism inherent in the total time UCL calculation. ] s a . V.
H. BCP Tcchnical Services, Inc. -Hatch 1989-ILRT Final R port j Page.12= m i V '6. REFERENCES 1. Code of Federal Regulations, Title 10, Part 50, Appendix J, Reactor Containment Leakage festing 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.. T d 4. HNP Surveillance Procedure 42SV-TET-003-25, Primary Containment l, Integrated Leakage Rate Test, Revision 0. L 1 t 1 t
4 * . BCP: Technical' Services,.Inc. - Hatch 1989 ILRT Final-Report i/3 : ?y. + TABLES AND FIGURES l 4 4 f (. r f, i y l "Oi z l \\
km ~ -BCP Technical Services, Inc. -Hatch 1989 ILRT Final Report 'f g DRYBULB AND DEWPOINT TEMPERATURE SENSOR LOCATIONS (T0 THE NEAREST F00T/5 DEGREES) Sensor Tyne Sensor Elev.* Arimuth Radius ** Volume , Number Fraction Drybulb 1 118 ft. 180 degrees-21 Ft. .059 Drybulb 2 125 ft. O degrees 23 Ft. .044 Drybulb 3 130 ft. 90 degrees 21 ft. .049 Drybulb 4 135 Ft. 270 degrees 23 Ft. .052 Drybulb 5 141 Ft. 15 degrees 22 Ft. .076-Dr bulb 6 148 ft. 325 degrees 19 Ft. .075 Dr bulb 7 159 Ft. 135 degrees 19 Ft. .076 Dr bulb 8 176 Ft. 305 degrees 16 Ft. .042 Dr bulb 9 194 Ft. 30 degrees 15 ft. .052 Dr bulb 10 210 ft. 230 degrees 13 Ft. .029 Dr bulb 11*** 110 Ft. O degrees 60 Ft. .112 Drybulb 12*** 110 Ft. 90 degrees 61 Ft. .111 Drybulb 13*** 110 ft. 180 degrees .61 Ft. .112 Drybulb 14*** 110 ft. 270 degrees 60 Ft. .111 Cs Dewpoint 1 121 Ft. 160 degrees 20 Ft. .103 V Dewpoint 2 132 Ft. 90 degrees. 20 ft. .101-Dewpoint' 3 145 ft. 15 degrees-22 ft. .151 Dewpoint 4 169 Ft. .300-degrees 16 Ft. .118 Dewpoint-5 202 Ft. 225 degrees 13 Ft. .081 Dewpoint 6*** 107 Ft. 140 degrees 61 Ft. .446 Reference Elevations -- Drywell floor at 114 Ft./ Head flange at 203 Ft. Out from drywell centerline In torus i t l O TABLE 1
1 BCP. Techriical Services, Inc. -Hatch 1989 ILRT Final Report 1... HATCH UNIT 2--1989 ILRT--STABILIZATION DATA
SUMMARY
REPORT data time date temperature pressure vapo = dry air -set deg F psia pressure mass psia lbm 1 1-1045-1112 81.6323 72.7889 0.4504 100060.9 2 1100 1112 81.1644 72.7317 0.4458 100074.5 3 1115 1112 80.8942 72.6919 0.4427 100073.8 4 1130 1112 80.6885 72.6595 0.4402 100070.5 l: 5 1145-1112 80.5308 72.6311 0.4380 100063.4 6 1200 '1112 80.3945 72.6063 0.4358 100057.3 l~ 7 1215 1112 80.2844 72.5839 0.4342 100048.9 8 1230 -1112 80.1845 72.5637 0.4325 100041.7 9' 1245 1112 80.0972 72.5461 0.4311 100035.4 10 1300 1112 80.0333 72.5305 O.4300 100027.1 11 1315 1112 79.9699 72.5161 0.4291 100020.1 12 1330 1112 79.9148 72.5035 O.4284 100013.9 13 1345 -1112 79.8772 72.4915 0.4282 100004.4 14 1400' 1112 79.8455-72.4809 0.4275 99996.6 15 1415 1112 79.8065 72.4709 0.4273 99990.2 16 1430 1112 79.7789 72.4621 0.4265 99984.3 ! 'p. 17 1445 1112 79.7640 72.4535 O.4263 99975.3. (f 18 1500_ 1112 79.7534 72.4457 0.4263 99966.4 19 1515 1112 79.7254 72.4385 0.4258 -99962.4 20 1530 1112 79.7199 72.4317 0.4256 99954.1 O TABLE 2
i BCP-Technical' Services, Inc.- Hatch 1989 ILRT Final Report r c ' %s - HATCH UNIT 2--1989 ILRT--TYPE A TEST TOTAL TIME LEAKAGE RATE REPORT data time date elapsed dry air measured leakage uel set time mass rate rate rate (hrs) (1bm) (%/ day) (%/ day) (%/ day) 1 1530 1112 0.00 99954.1 0.0000 0.0000 0.0000 2 1545 1112 0.25 99944.3 0.9488 0.9488 0.9488 3 1600 1112 0.50 99937.1 0.8198 0.8198 0.8198 4 1615 1112 0.75 99929.0 0.8052 0.7861 1.2390 5-1630 1112 1.00 99922.8 0.7525 0.7410 0.9229 6 1645 1112 1.25 99913.4 0.7827 0.7419 0.9263 7 1700- 1112 1.50 99906.7 0.7588 0.7317 0.8855 8 1715 1112 1.75 99898.1 0.7685 0.7318 0.8753 9 1730 1112 2.00 99889.3 0.7787 0.7370 0.8761 10 1745 1112 2.25 99882.6 0.7636 0.7355 0.8639 11 1800 1112 2.50 99876.5 0.7459 0.7290 0.8465 i 12 1815 1112 2.75 99867.6 0.7552 0.7277 0.8391 13 1830 1112 3.00 99859.1 0.7603 0.7286 0.8362 14 1845 1112. 3.25 '99851.5 0.7585 0.7292 - 0.8330 15 1900 1112 3.50 99842.1 0.7683 0.7324 0.8345 16 1915 1112' 3.75 99834.6 0.7651 0.7344 0.8338 (~' ' 17 1930 1112 4.00 99826.3 0.7673 0.7366 0.8338 - s 18 1945 1112 4.25 99819.7 0.7596 0.7369-0.8311 19 2000 1112 4.50 99811.6 0.76061 0.7375 0.8290 20 ~2015 1112 4.-75 99803.7 0.7602 0.7380 0.8271 21~ 2030 1112 5.00-99797.4 0.7528 - 0.7371 0.8235 22 2045 1112 5.25 99787.9 0.7602 0.7378 0.8223 23 2100 1112 5.50 99780.8 0.7568 0.7379 0.8203 24 2115 1112 5.75 99774.1 0.7518 0.7372 0.8176 25 2130 1112 6.00 99766.2 0.7519 0.7367 0.8152 26 2145 1112 6.25 99758.5 0.7518 0.7363 0.8130 27 2200 1112 6.50 99750.0 0.7539 0.7363 0.8116 28 2215 1112 6.75 99742.1 0.7543 0.7364 0.8103 29 2230 1112 7.00 99736.5 0.7464 0.7354 0.8078 30 2245 1112 7.25 99730.1 0.7420 0.7341 0.8049 31 2300 1112 7.50 99720.5 0.7481 0.7337 0.8033 32 2315 1112 7.75 99713.4 0.7457 0.7331 0.8015 33 2330 1112 8.00 99706.0 0.7448 0.7324 0.7997 Allowable leakage rate, La-= 1.2000 %/ day 75% La- -0.9000 %/ day = Total time leakage rate 0.7324 %/ day = Total time UCL = 0.7997 %/ day es \\ TABLE 3 i
r BCP Technical Services, Inc. l i Hatch 1989=ILRT Final Report .n i HATCH UNIT 2--1989 ILRT--TYPE A TEST DATA
SUMMARY
REPORT data time date temperature pressure vapor dry air i set deg F psia pressure mass psia l bm. r 1 1530 1112-79.7199 72.4317 0.4256 99954.1 2 1545 1112 79.7231 72.4253 0.4259 99944.3 3 1600 1112 79.7223 72.4197 0.4256 99937.1-4 1615 1112 79.7239 72.4141 0.4256 99929.0 5 1630 1112 79.7190 72.4091 0.4257 99922.8 6 1645 1112 79.7333 72.4043 0.4258 99913.4 7 1700 1112 79.7322 72.3997' O.4261 99906.7 8 1715 1112 79.7482 72.3957 0.4262 99898.1 ~ 9 1730 1112 79.7643 72.3915 0.4262 99889.3 10 1745 1112 79.7725 72.3879 0.4264 99882.6 11 1800 1112 79.7778 72.3841 0.4263 99876.5 l 12 1815 1112 79.7954 72.3807 0.4269 99867.6 13 1830 1112 79.8140 72.3771 0.4269 99859.1 14 1845 1112 79.8308 72.3739 0.4270 99851.5 ( 15 1900 1112-79.8556 72.3707 0.4272 99842.1 t 16 1915 1112 79.8733 72.3679 0.4275 99834.6 - (~' 17' 1930 1112 79.8962 72.3649 0.4274 9 9 8 2 6. 3.. 18 1945 1112 79.9132 72.3623 0.4273 99819.7 i 19 2000 1112 79.9337 72.3597 0.4278 99811.6 L 20 2015 1112 79.9542 72.3569 0.4279 99803.7 ( 21 2030 1112 79.9682 72.3545 0.4283 99797.4 L 22-2045 1112 79.9995 .72.3521 0.4285 99787.9 1 l 23 2100- 1112 80.0221 72.3499 0.4285 99780.8 L 24 2115 1112 80.0371 72.3475 0.4289 99774.1 i . 25 '2130 1112 80.0636 72.3453 0.4288 99766.2 26-2145 1112 80.0907 72.3433 0.4288 99758.5 27 2200 1112 80.1125 72.3409 0.4296 99750.0 28 2215 1112 80.1402 72.3391 0.4298 99742.1 29 2230 1112 80.1557 72.3369 0.4295 99736.5 30 2245 1112 80.1727 72.3351 0.4301 99730.1 31 2300- 1112 80.2058 72.3329 0.4305 99720.5 32 2315 1112 80.2257 72.3309 0.4309 99713.4 33 2330 1112 80.2527 72.3293 0.4310 99706.0 .(~) v TABLE 4 \\
i i 'BCP. Technical Services, Inc. Hatch 1989 ILRT Final l Report i HATCH UNIT 2--1989 ILRT--VERIFICATION TOTAL TIME LEAKAGE RATE REPORT t VERIFICATION L, data' time date elapsed dry, air measured leakage set time mass rate' rate (hrs) (1bm). (%/ day) (W/ day) L 1 45 1113 0.00 99613.1 0.0000 0.000 2 100 1113 0.25-99592.5 1.9907 ~ 1. 991. 3 115 1113 0.50 99572.6. 1.9537 1.954 [ L 4 130 1113 0.75 99553.9 1.9028 1.905 L' 5 145 1113 1.00 99533.0 1.9310 '1.910 6-200 1113 1.25 99513.8 1.9149 1.904- [ 7 215 1113 1.50 99494.3 1.9096 1.899 l 8 230 1113 1.75 99474.1 1.9146 1.898 9 245= 1113 2.00 99455.1 1.9038 1.894-e 10 300 1113 2.25 99436.4 1.8930 1.888 i L 11 315 1113 2.50 99418.1 1.8793 1.879 j l 12' 330 1113 2.75 99396.6 1.8972 1.879 13 345 1113 3.00 99377.2 1.8951 1.878 L 14-400 1113 3.25 99358.3 1.8894 1.876 15 415 1113 3.50 99338.3 1.8923 1.876 L - 16 430 1113 3.75-99319.3 1.8880 1.875 - 'f ) 17 445 1113 4.00 99299.9 1.8869 1.873 o ( Upper limit on leakage rate = 2.2324 W/ day Total time leakage rate-1.8734-%/ day =- Lower limit on leakage rate = 1.6324 %/ day i l . l i ;. 4 O x) TABLE 5
t 1 BCP Technical Services, Inc. j Hatch 1989-ILRT. Final Report j if }. HATCH UNIT 2--1989 ILRT--TYPE A TEST MASS POINT LEAKAGE RATE REPORT data t irne date elapsed dry air leakage uel set time mass rate -rate (hrs) (1bm) (%/ day) (%/ day) 1 .1530 1112 0.00 99954.1 0.0000 0.0000 2 1545 1112 0.25 99944.3 0.9488 0.9488 3 1600 1112 0.50 99937.1 0.8198 1.4573 4 1615 1112 0.75 99929.0 0.7938 0.9013 5 1630 1112 1.00 99922.8 0.7487 0.8276 s 6 1645 1112 1.25 99913.4 0.7579 0.8061 7 1700 1112 1.50 99906.7 0.7485 O.7825 8 1715 1112 1.75 99898.1 0.7511 0.7757-9.1730 1112 2.00 99889.3-0.7589 0.7794 10 1745 1112 2.25 99882.6 ~0.7565 0.7728 11 1800 1112 2.50 99876.5 O.7476 0.7637 12 1815 1112 2.75 99867,6-O.7462 0.7596 13 1830 1112 3.00 99859.1 0.7477 0.7590 14 -1845 1112 3.25 99851.5 0.7484 0.7580 15 1900 1112 3.50 99842.1 0.7525 0.7618 16 1915 1112 3.75 99834.6 0.7545 O.7629 17 1930. 1112 4.00 99826.3 O.7568 0.7645 ' i 18 1945 1112 4.25 99819.7 0.7563 0.7631 + 19 2000 1112 4.50 99811.6 0.7563 0.7624 20 2015 1112 4.75 99803.7 0.7562 0.7617 21 2030 1112 -5.00 99797.4 0.7543 0.7596-22 2045 1112 5.25 99787.9 0.7547 0.7595 23 -2100 1112 5.50 99780.8 0.7542 0.7586 24 2115 1112 5.75 99774.1 0.7527 0.7570' 25 2130- 1112 6.00 99766.2 0.7516 0.7557 l 26 2145-1112 6.25 99758.5 0.7507 0.7546 L 27' 2200 1112 6.50 99750.0 0.7504 0.7540 [ 28 2215 1112 6.75 99742.1 0.7503 0.7536 l 29 -2230 1112 7.00 99736.5 O.7487 0.7522 l-30 2245 1112 7.25 -99730.1 0.7466 0.-7504 31 2300 1112 7.50 99720.5 0.7459 0.7496 32 2315 1112 7.75 99713.4 0.7449 0.7485 33 2330 1112 8.00 99706.O O.7440 0.7475 L l' Allowable leakage rate, La = 1.2000 %/ day I' 75% La 0.9000 %/ day = l Mass point leakage rate 0.7440 %/ day = g Mass point UCL 0.7475 %/ day = u L TABLE 6
BCP Techidcal Services, Inc. . Hatch 1989 ILRT Final Report HATCH UNIT 2--1989 ILRT--VERIFICATION MASS POINT LEAKAGE RATE REPORT VERIFICATION data time date elapsed dry air leakage set time mass ~ rate (hrs) (1bm) (%/ day) 1 45 1113 0.00 99613.1 0.0000 2 100 1113 0.25 99592.5 1.9907 3 '115 1113' O.50 99572.6 1.9537 4 130 1113 0.75 99553.9. 1.9042 5 145 1113' 1.00 99533.0 1.9166-6 200 1113 1.25 99513.8 .1.9107 7 215 1113 1.50 99494.3 1.9056 8 230 1113 1.75 99474.1 1.9067 9 245-1113 2.00 99455.1' 1,9021 to 300 1113 2.25 99436.4 1.8945 11 315 1113 2.50 99418.1 1.8840 12-330 1113 2.75 99396.6 1.8854 13 345 1113 ~3.00 99377.2 -1.8858 14 400 1113 3.25 ~99358.3' 1.8842 15 415 1113 3.50 99338.3 1.8843 16 430 1113 3.75 99319.3 1.8831 17 445-1113-4.00 99299.9 1.8821 Upper limit on leakage rate = 2.2440 %/ day 1.8821.%/ day Mass point leakage rate- = Lower limit ~on leakage rate = 1.6440 %/ day / TABLE 7 = _ __- __.--____ --
Y +/~' j.' '? O, 'g
- O G'%
i n;;' = 19- ~- L 82,99 . :=. - .,1 : n. -4y .. _ 2 h n a E' .. I u g a MPd Ee Rg l A .I F t ll R E i '1100 1200 1300 1400 79.50 i i i 1 1500 i TIME 12-NOV 89 FIGURE'1 MEAN TEMPERATUREI.DURING STABILIZATION 4 ..,c. .4
- j s
--g.-- 3, gw-...v. -i,,y
l ^ D O O n,. n"# = 100000 =g 7 2! ER s -g s EE g s AP g n g CONNECTED MASS DATA POINTS l. { s AND FITTED LINE R L 's .75 L LINE s a s AM - s s. = s s i 's v i s,, s s s g s s e 1600 1800 2000 2200 996@9 1 1 1-1 I I I I TIME 12 NOV-89 FIGURE 2 AIR MASS--TYPE A TEST ~: . ~.... .j
^ =, g =r g 89,50 il EE B r .:n SS En "3. W- .I Er [ 3.9 M Pd Ee t Rg A IF 11 R l E 1 m l n ( -1600 '1800 2000 2 00 79,50 i i i i i i i TIME 12 NOV 89 FIGURE 3-MEAN TEMPERATURE--TYPE A' TEST 3 .s,.
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- BCP Technical Services, Inc.-
- Hatch 1989 ILRT Final Report' [ O. O' N~ N b' -f d.' 1 e at - '. g .g. . A.. g H I 1 .M i %D-m m..- 't O M' o_ o A N %~ O g,: . sC. = g. a x in - ch M co-2: O' O o' (3 co ~ 'O 'H e, E A i ~ .N l; l z-4 g .p s O l O_ 1 j g. e A a a A I E A _E E W Link M % ga m e G W j -- '
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r. LO O D 3 3 z ur - i, en. -l l-e m. n =r - 1,5u_ -e:r I W3 e-n ~. j rs t m -e m. i I 5 m, l 0 i T V A .m. 95% UCL B, y A = R, n r. L .75 L ______}_______________________ a x ~ i I/ l ID MA CALCULATED LEAKAGE RATE {g R \\ A i y l 1 i t 9,@R I I I. I 2i00 ~ l 1600 Ifl00 2000 TIME 12 NOV 89 FIGURE 6 TOTAL TIME' LEAKAGE RATE--TYPE A TEST i ~ l
n ~ 10 0 .U. - = .n, n=r -e 82,99 si
- X.
~m-* y EN 1 m. l v~ { $Y MPd Ee Rg 1 A IF H R E i 4 1200 1400 1600 1800 2000 2200-19.59 1 i i i i i i i i i i i I L TIME 12 NOV 89 I i FIGURE 7 MEAN TEMPERATURE--STABILIZATION / TYPE A TEST t i . _,. ~.,, - - _, _..
- na $e FE,1J"' *gE,~
. y, En n, :5-7 O I 0 0I 2 2 S T A SE I T A S E T 0 P N 0 Y 0 T I O 2 / N P O A I T T I A A D s Z E I SN L SI I 0 B AL s 0I A M D 8 T DE 1 S ET TT CI S EF S I O N A ND M ON CA R I 0 9 A 0I 8 6 s 1 V 8 O s N ER 2 U x I 1 G I F E g 0 M 0 I \\ 4I T E 1 N IL N L" I 5 5 7 0 g 0 2I 1 I N M O N I bBM 6 9 I AI NAS{
.i m. .m g, =r - 99799 E. E" l mm 22 i gg i E' 1 ~ %~% + v -. h ES' h i g 5 w I LOWER LIMIT i f, g b i 5 R y [ CONNECTED MASS DATA POINTS F g M AND FITTED LINE l l na = s g% l g g l N i w 's [ l
- s i
UPPER LIMIT i g% %g O s m% %g i s i s i = s i g = 99200 i 04i0 -l 0100 02110 0.1 0 0 TIME 13 NOV 89 { i i FIGURE 9 AIR MASS--VERIFICATION TEST f
i i i BCP Technical Services, Inc. Hatch 1989 ILRT final Report . Appendix ! i + APPENDIX I i ILRT COMPUTER PROGRAM DESCRIPTION 1 i f v F I t
BCP Technical Services, Inc. Hatch 1989 ILRT Final Report n Appendix I V Page 1 i APPENDIX I ILRT COMPUTER PROGRAN DESCRIPTION i calculates both BN-TOP-1 (program is a structured Basic The BCP ILRT computer total time) and ANSI 56.8 rates. suchasvolumefractions,iswrittentorandomaccessf$les.must be input manually allowable leakage rate, etc. viathekeyboard). Data When a program run -is initiated, the user is queried for file information. If a new file is s)ecified, screen prompts request pre-data. If an existing file is specified, tie program calculates mean temperatures mean vapor pressures and air masses and stores these in memory (not in the file)Once the file information reque These quantities are recalculated whenever pre-data is changed. is satisfied, the primary menu is displayed on the screen. Subsequent program functions are in response to menu selections. Menu choices allow the following: o Manual data entry o Serial link data entry o Data set correction (' o-Pre-data set correction Datasetinsertionoutofsequence(e.g}inputtingthe3:15dataafter A o the 3:00 and 3:30 data have been entered o Mass point report 3' o Total time report o Trend (combinedmass/ total) report o Listing of summary data Data rejection test perANSI56.8) Change start and end(time for reports / plots o o o Delete a data set from calculations o Restore a deleted data set o Enter / exit verification test mode o ' Branch to plot menu o Exit to system level The plot menu allows plotting: o Air mass o Total time leakage rate o-Mass point leakage rate o Individual or average temperature o Individual or average pressure o Individual dewpoint temperature or average vapor pressure Whenever pre-data or data is entered, the screen displays the data and asks the user if the data is correct. If not, the user can correct any data entry. When the user notes that the data is correct, it is written to the . hs data file. J
o I BCP Technical Services, Inc. Hatch 1989 ILRT final Report Appendix ! (~')S Page 2 L Leakage rate calculations are done in double precision since the ' regression line constants usually depend on the small difference of large i numbers. Computer calculations were manually verified using a data file titled " Check'. Check is always run following any program modification. ] Various subroutines are modified to suit conditions unique to a particular i test. The routine which puts the initial display on the screen is modified to show job title and program revision date. The serial link routine is modified to accommodate the data system output format. The pressure transducer cal'.bration table is changed to incorporate job specific calibration data. The generic program is written for dewpoint temperature inputs which are converted to vapor pressures using the ASME Steam Tables Polynomial. Several routines require modification if relative humidities or wet bulb temperatures i are input instead of dewpoint temperatures. BN-TOP-1 uses a very conservative procedure to calculate total time u)per confidence limit. The program calculates the more realistic 95% UCL on tle end of test total time calculated leakage rate if the test duration is todetermine(24)hoursormore. Otherwise, it uses the BN-TOP-1 formulation twenty-four the 97.5% UCL on end of test measured leakage rate. JLeferences: 1. Bechtel Topical Report BN-TOP-1, Testing Criteria For Integrated Leakage Rate Testing Of Primary Containment Structures for Nuclear Power Plants, Revision 1, 1972. 1 2. ANSI /ANS 56.8-1987, Containment System Leakage Testing Requirements. l l l v} l
f I t BCP Technical Services, Inc. f Hatch 1989 ILRT Final Report i Appendix 11 I i i l APPENDIX II i 1 TYPE B AND C LOCAL LEAKAGE RATE TF.5T RESULTS t O h i s l L O s l l-
BCP Technical Services, Inc. Hatch 1989 ILRT Final Report L Appendix !! Page 1 The following tables list results for Type B and C local leakage rate tests >erformed 3etween the completion of the 1986 ILRT and the start of the 1989 1.RT. Tables include data for all tests except those which are performed between the initial (or as-found) test at the start of a refueling outage and the final (or as-left) retest at the end of the outage. Other tests performed during the outage are considered to be diagnostic. Tables are arranged as follows: o 1989 Type B test results including minimum pathway improvements o 1989 Type C test results including minimum pathway leakage improvements (Type C Type B and total) o 1988 Type B test results o 1988 Type C test results o Personnel air lock test results o Results of tests performed between outages Minimum pathway leakage improvements for penetrations with simultaneously O tested barriers are reported as half the as found/as left difference unless lesser numbers are the repair process. justifiable based on tests or diagnostics performed during ) O
t BOP Technical Services Inc. Hatch '989 ILRT Final Aaport Append'x Ii TYPE B TEST DESULTS 1989 REFUELING cs=============================$ $ =E !=============!!!!============ ! I i PENETRATION IDENTIFIERS DAT LEAKACE DATE LEAKAGE IPPROVEtENTS l a3================================
=======
===========
1A Eau unent Hatch A 9 9 Aom 11 9 A0m i 18 Eap pment Hatch S 9 9 AOm 11 9 A00M A< r ek inner Sea 9 9 Aom 11 9 AOCH A'r' ock Outer Sea' 9 9 AOm 11 9 ACOM Air'ock innerspace 6/ 9 191 AOm 11 9 220 AOm 4 Head Acesq, Hatch 9 9 AOm 1 9 A00M i Ek h Ou ow AOm N B Inner Be, ows 9 ACOM NA B Outer Be ows 9 2 AOm NA Outer Be;,'ows 9 9 AOm NA Inner De inner Be' ' ows 9 9 A00M NA ows 10 9 AOCM NA i D Outer Be' ows 10 9 AOm NA + E Inner Be' ows 10 9 A0m NA E Outer Be' ows 10 9 AOOM NA F Inner Bel ows 10 -9 0 AOCM NA F Outer Be' ' ows 10 9 0 AOm NA Inner Be ows 10 9 0 AOm NA i Outer Be' ows 10 9 0 AOm NA H Inner Be lows'ows 10 9 0 AOCN NA H Outer Be 10 9 0 AOm A CRD Hatch 9 0 AOm 10/17 9 0 AOCN A Inner Be' lows 9 9 0 AOm A 7A Outer Be' lows 9 9 0 ACCN NA TB Inner Be ' ows 9 9 ACCN NA 7C Inner Be ;ows 7B Outer Be ows 9 9 AOm NA 9 9 AOm NA 70 Outer Be lows 9 9 AOCN NA 70 inner Be lows 9 9 ACCM A 7D Outer B lows 9 9 AOm A 1 8 inner Be 'ows 1 9 B0 ACD1 10 9 90 AOCM 8 Outer Be ' ows 10 9 250 AOCN 10 89 300 AOm 9A Inner Be' ' ows inner Ply 10 9 3650 AOCM 11 89 0 AOm 4300 AOCN 9A Inner Be' ows Outer Ply 10 9 1150 AOm 11 89 0 AOCM A Outer Bel ows inner Ply 10 9 28825 AO m 11 89 0 AOm A outer Be ows Outer Ply 1 9 3150 AOCM 11 9 0 AOm B Inner Be ows 9 9 0 AOCM A 9B Cuter Be ows 9 -9 0 ACCM NA 10 inner Be ows 9 9 0AW NA 10 Outer Be ows 9 9 0 ACm NA l 11 inner Be lows 9 9 20 ACCN NA 11 Outer Be ows 9
- 9 1100 AOm NA 1
Inner Be ows 10 9 0 AOm NA 1 Outer Be pws 10 9 145 AOCN NA 1 inner Be lows 10 9 20 ACD1 NA 138 inner Be]llows 13A outer Be lows 10 -9 0 AOm NA 9 9 0 ACCN NA i 138 Outer Bt lows 9 9 0 AOCM NA 14 Inner Be 9 9 0 ACOi NA 14 Outer Be, ows i ows 9 9 0 AOm NA 16A Inner Bellows 9 9 0 ACCM NA l l .O
\\ Hatch 89fLR $ de t nd x ll TYPE B TEST RESULTS 1989 REFUELING es = = = = = = = = = = = = = = = = = = = = = = = = = = = = = b hb: !! = = =.:== ===== = =!! !! = = = ======== = !b h !!5!!!!!E!HV!!!!!!!===:===: =M!!======k!!ML====MI!======h!!5?L==12H!57!! iliPn4;i:ys: { il 8 18 s dji IPPnM;i:i :: l8 [ 18 s
- 71
" w,wn..t ei =, a ?!!:l10!8?::t i;l 1881 i l!l 18 s ?il:l1892?::t lll IEN 1 di 18 s ill:l18?8?::t il 18s i il l1881 ill:l1812?::t is 8 1881 i 2881 ?il:l1818?::t I! 8 1881 i [! 1881 s 2?il:l!?! ! ?::t 8 1881 1 8! 1881 !liii:llli8?::t 18 8 1881 18 !1881 i Mil:l!i8 2 ?::t 8 18 s 18 8 tas ! Hit:l!!8 8 ?::t 8 1881 18 8 1881 ti 81 g; g ;gg; io 8; o*= lt!8:%20o1.se 1" is 8 IEN i lie 8$"! 8 1881 i ilaT:;I:ll: 1: 3 2g ;gp g; i!8;"i{"tfs..e l li 8 18s 11 !! 8 IE i, i l acostes lle 8-f in8:::::: si 8 = 11 :: 28 = !!!8:21": 8 1881 11 il 8 18 s BR8:125: 1 is 8 18s 11 il 8 18 s 1886ij::d;18: 1 28 18s 11 !! 8 IEN ^c" 188ll}:1;n:1 18l!! 18 18s 11 il 8 tes 18 18 s 181si !;ial 8 iEs 11 il 8 18 s 1818i1::!;3:1 se 8=11: 8= 181l11::!;3*1 18his 8 1881 11 !! 8 tes .O
i LR Ae ( TYPE 8 TEST RESULTS 1989 REFUELING i. j _es============================ b ib: !!============= N N !============ N h d $ h b E h N= !! b $ !!!========hh E======hhhhh!!=====h b======h!hhhN=== bh ihlAh $th c! 9 2 h 10 AOCM 181s1 ::!;: ::: 1 8 t a il i 1881 i tj1: ::ts: ::! 1 1 1881 11 1 1881 ta' 4H ec 1hcE ath !! 8 9 1 9 8 ACCN - I f bk k bshafch A 9 89 A 1 9 AOCN 88"IctMP * ,8 8IE " 82 !?il:l!8: e ?::! I il 81881 18fl8f!! 8" 81 !!!:l18! 8 ?::1 I li i88118318(?! 82881 81 Til:lll8 i ?::t i 18 1881 Nt I il IE i lt?!!:f3188?:$! 3 1881 i t ?i1:l111 e ?::t l 82 ill:l!!! 8 ?:$! 9 9 0 0 A 81 I?!!:li!! e ?::t i 1881 18f!8 8! 8 1881 181l?il:Fi!!8?::t 8 ! 1881 18318 !!81881 hb T!hf318 A Test 8 AOCN 10 9 0 ACCN 18 ?il:l!!! ! ?::t I il 8 1881 18 58 1881 18 ?i!:llhi ! ?::t i il 8 1881 18 18 8" 18 liii:l!!i 8 ?:'t Si 8 IE 18 8 1881 likEi';'326 I n 8=' H ^ c" h cfrical h l 8 NA 3h hoIbsSa$ch C $9 11/1179 0 AOCM 9 0A J TOTAL MININJM PATWAY IMPRO'4MENTS -- TYPE B TESTS 4340 ACCN 1 o d 'f$ht 989
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,u 2. a.-- t DOPTechnicalServic$skoport Inc. ~ee,t.ch 1989 ILRT Fina Ha ndix si TYPE C TEST RESULTS.1989 REFUELING INITIAL TEST RETEST PENETRATION ce::::::::::::::::::::::::::::::::::::::::::= :::::::::::::::::::::::::::::::::::::L :5:: PENETRATION IDENTIFIERS DATE LEAKAGE DATE LEAKAGE IWROVENNTS*
==============
c:::======-======= ::==========================================/A kP33-F002 9/12/89 0 AOt1 N 1 2P33-F010 9/13/89 45 ACOM N/A h!32h00kB 9/06/89 38.4 SOFH 9/17/89 3 SOFH 371 Soci 2 78 2B21-F022B/F0288, 2E32-F001F 9/06/89 >156.5 SOFH 9/24/89 0 SOFH hb32hb0k 9/06/89 5 SOFH 10/25/89 0 SOFH 2 TD 2B21-F0220/F02BD 2E32-F001P 9 06/89 14.7 SOFH 89 0 SOFH 8 2B21-F016/F019 9 89 5034 A00M 89 0 ACOM 300 A00M 9A** 2B21-F010A 9 89 >10000 A00M 1 89 0 AOOM 9A** 2B21-F077A 9 89 4100 A00M 10 89 0 A00M 9B** 2B21-F010B 9 89 (50 A00M A 9B** 2B21-F077B 9 89 0 A00M NA 10 2E51-F007/F008 9 89 19064 A00M 9/26 9 0 A001 '11 2E41-F002/F003 9 89 0 A00M 10/25 89 0 A001 12 2E11-F008 10 89 120 A00M A 13A 2E11-F015A 9 89 500 A00M NA 13B 2E11-F015B 10 89 700 ACOM NA 14 2G31-F001 9 89 1650 A00M 10 9 0 A00M f714 2G31-F004 9 89 0 ACD1 10 89 0 AOCM i5 2T49-F002B 9 89 56 ACOM 10 89 20 A00M 36 AOOM (_,15 & 222B 2T49-CLOSED SYSTEM 10 89 375 A00M A 16A 2E21-F005A 9 89 30 A00M NA 160 2E21-F005B 9 89 .0 AOCM NA 17 2E11-F023 10 89 0 A00M NA 18 2G11-F019 9 89 0 A00M NA 18 2G11-F020 9 89 0 ADOM NA 19 2G11-F003 9 89 0 A00M NA 19 2G11-F004 9 89 0 ACOM NA 21 2P51-F513 10 89 80 ACCM NA 21 2P51-F651 10 89 25 AOCM NA 22 2P70-F004 9 89 20 A00M NA 22 2P70-F005 9 89 0 AOCM NA 23&24 2P42-F051/F052 9 89 85 AOOM 9/29/ 9-225 A00M 25 2T48-F103/F307/F308/ D006 9 89 B5 ACOM '10/21 B9 875 A00M 25&205 2T48-F104/F118A/F118B 9 89 25 A00M /A 26 2T48-F319/F320 9 89 725 ACCM 10/29 89 55 ACOM 335 AOOM 26 2T48-F 340 9 89 0 A031 /A 26 2T48-F341 9 89 0 ACOM NA 27C 2B31-F013A 9 89 0 ACOM NA 270 2B31-F017A 9 89 0 ACOM NA 28 2P33-F004 9 89 20 ACOM A 28 2P33-F012 9 89 4D AOCri 10/12 9 0 AOCM 20 AC04 32A 2E11-F041B 9 89 0 A00M /A 32C 2E11-F041D 9 89 125 AOCM 10/01/89 0 A00M 125 ACOM 340 2T23-F004 9 89 0 ADOM NA 4 340-2T23-F005 9 89 25 AOCM N MD 2T48-F363A 9 89 0 AOCM N 35A 2C51-J004D 9 89 20 AOOM NA O
i top Technical servic Inc. ' Hatch'989ILRTFina$sdeport t p Append'x Il .Q TYPE C 1EST RESULTS.1989 REFUELING INITI AL TEST R c=============================================================ETESTPENETRATION
===============
PENETRATION' IDENTIFIERS DATE LEAK E n==========================================================DATELEAK E I!PROVEffNTS*
=================
fC51-J004C 51-J004A 9 9 AOm NA 9 <2 AOm NA D C51-J004B 9 ACOM NA E' C51-F3012 89 3 AOm NA E C51-F3017 9 89 0 AOm NA 9A E11-F016A 89 90 AOm NA 9B E11-F016B 1 89 91 AO m NA 41 B31-F019 89 0 AOm NA 41 2B31-F020 9 89 AOm NA 42 2C41-F006 9 89 AOm NA 42 2C41-F007 89 AOOM NA 44 2T48-F321/F322 89 AOCM N r 45D
- B21-F111 '
89 AOm NA 450 $B21-F112 89 AOm NA 46 {P21-F032 9 89 0 AOCM NA 46 .P21-F034 9 89 0 AOm NA 47648 2P64-F045/F047 9 89 - 90 AOm 10/28/ 9 202 AOm 1C 2P70-F066 9 89 0 AOm NA 1C 2P70-F067 9 89 (20 AO m NA 1D 2T48-F363B 9 89 0 AOm NA 4A 2E11-F041A 9 89 48 AO m NA 4C 2E11-F041C 9 89 0 AOm NA 5 G11-F852 9 89 (20 ACCN NA 5 G11-F853 9 89 0 ACCM NA. 7C B31-F0138 9 89 0 AOm NA 7C 2B31-F017B 9 89 0 AOCM NA 60A 2P33-F003 9 89 20 AOCM NA 60A 2P33-F011 9 89 0 ACm NA 60B' 2011-F050 9 89 0 ACm NA 600 2011-F052 9 89 <20 ACCM NA 61A 2T49-F002A 9 89 6000 ACm 10/06/ 9 20 AOCN 5960 AC01 61A&221A 2T49 CLCSED SYSTEM 10 89 185 AOCM-NA $2 2011-F051 9 89 28 AOCN NA 62 2011-FOS 3 9 89 0 AOCM NA G3 2P70-F002 9 89 0 AOCN NA r.3 2P70-F003 9 89 0 AOCN NA 64 2P33-F')05 9 89 0 ACCM NA 64 2P33-F013 9 89 0 ACXM NA r 67 1T484334B 9 89 0 ACCM NA 67 2T48-F335B 9 89 0 ACm NA 69 2T46-F209 9 89 38.5 AOCN NA E 69 2T48-F.10 10 89 130 AOCN NA 00 2T48-F334A 9 89 0 ACXN NA 80 2T48-F335A 9 89 0 AOCN NA 81 2T48-F113 9 89 0 AOm A l 81 2T48-F114 9 89 450 Aom 10/04 9 0 AOCM 450 AO m 1 181 1i288 lh S il 18 ; g 1 /20 9 i5i AOCN 4 2"5 '2T48-F311 F323B 9 S9 40 AOCM NA 2N 2T48 "364 9 29/89 35 ACCN NA 206A 2T48-F3E1B 9 4/09 55 AOm NA Q
i I DOPTechnicalServic$sdeport Inc. k' 1 Hatch 1989-lLRT Fina t Appendix ii /3 I r (j i t TYPE C TEST RESULTS 1989 REFUELING INITIAL TEST RETEST PENETRATION
=============================================================================
PENETRATION IDENTIFIERS DATE LEAKAGE DATE LEAKAGE ilPROVEffNTS* c======================================================================================= 20$C 2E41-F121 9 89 (20 AOC21 NA 206C 2E41-F122 9 89 0 ACOi NA 206C 2T44-F361A 9 89 20 A001 NA 210A&211 A 2E '1 3028A 9 89 200 AC01 NA 210B&211B 2E11-F02BB 10 89 5423 ACOi 11/2/ 9 130 AOO4 f 217A 2P33-F006 9 89 0 ACC21 NA 217A 2P33-F014 9 89 (20 AOC21 NA l 217B' 2P33+F007 9 89 26 AOC21 NA 2178 2P33-F015 9 89 0 AOC21 NA 217C 2011-F058 9 89 (20 ACD1 NA 217C "D11-F065 9 89 0 AOC21 A 220 $T48-F318/F326 9 89 0 AOCM 10/30 9 800 AOC21 220 2T48-F338 9 89 60 AOC21 /A 220 2T48-F339 9 89 190 ACOi 10/05 89 0 AOC21 60 AOCM 220 2T48-F364A 9 89 20 ACC21 A 221A 2T49-F004A 10 89 35 ACOi NA 221B JE41-F104 9 89 0 A CC21 11 9 0 ACD1 221B /E41-F111 9 89 0 ACD1 11 89 0 AOOi 221C 2E51-F104 9 89 0 ACC21 10 89 0 AOCFi 221C 2E51-F105 9 89 0 AOOi /A 222B 2T49-F004B 9 89 5000 AOO1 10/04/89 20 AOOi 355 AOOi 3 225A 2T48-F342G 9 89 0 A001 NA (Q 225A 2T48-AIR CYLINDER G 9 89 0 A OC21 NA 225B 2T48-F342H 9 89 (20 ACOi A 225B-2T48-AIR CYLINDER H 9 89 25 AOC21 11/17 9 0 A OC21 225C 2T48-F3421 9 89 0 ACOi A 225C 2T48-AIR CYLINDER I 9 89 30 AOC21 NA 225D 2T48-F342J 9 89 0 AOC21 NA 2250T 2T48-AIR CYLINDER J 9 89 30 AOC21 NA 225E 2T48-F342K 10 89 0 AC01 NA 225E 2T48-AIR CYLINDER K 16, - 89 0 AOOi NA 225F 2T48-F342L 10 89 0 ACD1 NA 225F 2T48-AIR CYLINDER L 10 89 0 ACOi NA 225G 2T48-F342A 9 89 0 A001 NA 225G 2T48-AIR CYLINDER A 9 89 0 ACD1 NA -225H 2T48-F342B 9 89 0 ACC21 ~NA 225H. 2T48-AIR CYLLINDER B 9 89 0 ACD1 11/17/89 0 A OC21 225J ~2T48-F342C 9 89 0 ACCM N/A 225J-2T48-AIR CYLINDER C 9 89 420 A001 10/27/89 125 ACOi 225K 2T48-F342D 9 89 0 AOCM N 225K 2T48-AIR CYLINDER D 9 89 0 A OC21 NA 225L 2T48-F342 E 9 89 0 AOC21 NA 225L 2T48-AIR CYLINDER E 9 89 0 A001 NA 225M 2T48-F342F 9 89 20 AOC21 NA 225M 2T48-AIR CYLINDER F 9 89 0 ACD1 11/17/ 9 0 ACOi 230 2T48-F325 9 89 0 ACD1 NA 230 2T48-F327 9 89 0 ACOi NA 231 2T48-F332A 10 89 30 ACC21 NA' ) 231 2T48-F333A 9 89 20 A001 NA 233 2T48-F211 9 89 0 A CC21 NA 233 2T48-F212 9 89 60 AOCM NA 235A 2T48-F332B 10 89 26 AOCM NA Il v
l i BOP Technical So-vices Inc. . Hatch 1989 lLRT Final deport j J Append'x iI { -) %) i TYPE C TERT RESULTS 1989 REFUELING j INITIAL TEST RETEST PENETRATION cc:====================================================================================== PENETRATION IDENTIFIERS DATE LEAKAE. DATE LEAKACE IWROVDENTS* I a2:=======
=====================---=======-==================================
ll$B 5A T48-F333B 9 9 ACXlM NA 1 T48-F115 9 9 AOCM NA 358 2T48-F116 9 89 105 Aooi 10/10/ 9 43 A00M 62 A00M TOTAL PENETRATION IWROVDENTS -- TYPE C TESTS B094 A001 0 Imrovements calculated as doctanented in project records. l Flows converted to acam as necessary.
- Water Tests.
SUPtiARY: total penetretion ierovements -- type B tests 4340 accm total penetration igrovements -- type C tests 8094 aca total penetration-imrovanonts -- type 88C tests 12434 acon h for a contairment free air voltane of 277,400 cubic feet; penetration [ . igrovenents of 12434 accm represents: 4 (12434(acam)/28317((cm/f t)**3)/277,400(f t**3))*60(min)*24(hr)*100% = 0.23%/ day s v
i t [ He c R ke 1x ll
- l..
f TYPE B TEST RESULTS 1988 REFUELING INITIAL TEST RETEST cz:::::r:::::============ :=============== ::=============r:===
= =rz==:
i PENETRATICN IDENTIFIER DATE LEAKAE DATE LEAKAE c3:==::::===========r::===z====u=====55===:r--:======z===-----=========*: 1 1A Eaujument Hatch A 1 20 AOCN AOCM 18 Equipment Hatch 6 1 88 190 ACIM A00M 4 Head Acepss Hatch 8 AOCN 3 8 ACOM A Inner Be lows B AOCN A Outer Be; ' lows 8 ACXN NA B Inner Be 'ows 88 ACCN NA Outer Be' ows 88 AOCN NA Outer Bel' ows 88 AOCH NA Inrw.c Be ows 86 ACOM NA
- ' ows 88 2 AOCM NA Inner Be' D
Outer Be' ' ows 88 ACCN NA ows 88 2 AOCN NA E Inner Be' Out er Be' ; ows 88 AOCN NA Inner Be' ows 88 AOCN NA Outer Be; ; ows 88 0 AOCN NA Inner Be ows 88 0 ACCM NA Outer Be' ows 88 AOCN NA Inner Be' ows 88 ACCN NA Outer Beows 88 ACCN A ORD Hatch 88 AOCN 2/22 8 0 ACCM A Inner Bellows 2 88 AOCM A A Outer Bellows 2 88 0 AOCM NA i Outer Be,l' B inner Be ' ows 88 0 AOCM NA ows' 88 0 AOCN NA B 7C Inner Be' ows 88 0 A0m NA. 7C Outer Be' ows 83 0 ACOM NA Inne-Bet ows 88 0 A00M NA 70-Outer Bel; 7D ows 88 AOCN NA inner Bel ows 2 88 0 AOCM NA 8 Outer Bel; -8 ows 2 88 2 0 AOCN NA i A Inner Beltows 88 20 AOCN NA i Outer Be' ows 88 20 ACCN NA Inner Be' ows 88 0 AOCN NA .B Outer Be' lows 88 0 AOCN NA 10 inner Be' lows 2 88 0 A0m N A' 10 Outer Be' 'ows 2 88 0 ACOM NA 11 Inner bel ' ows 88 0 AOCM NA J 11' Outer Be' ows 88 11 0 AOCN NA Outer Bel; inner Be1 ows 88 0 AOCM NA 1 '1 ows 88 150 AOCM NA Inner Bel ows 2 88 0 AOm NA 1 Outer Bel; 13A ows 2 88 0 AOm NA 1R s'uT:"!:ba*: 1 18 820%" i 1 '14 Inner Bellows 2 88 20 Aom NA 14 . Outer Bellows 2 88 20 ACCM NA 1A Inner Be lows 88 2 AC01 NA 1A Outer Be lows 88 AOCN NA 1B Inner Be lows 80 ? AOm NA 168 > Outer Bellows 2 88 20 ACD1 NA 17 inner Bellows 2 88 AOCN NA 17 Outer Bellows 2 88 AOm NA O i
A 4 +a L ,a ws na s .-.-kL- .w. -e a-_ 0 .n4 A w 4 -,k,-_ He 9fLRT de Appendix ll O TYPE B TEST RESULTS 1988 REFUELING cmmmmmm..m.m..m!!!!!!k.H!!mmm.mmHH5!.mm;= c,.55Hi!!W=15"!H!Hm====MHmmk!Kf5mm=M! !mmkHM5 Hij:lFll1i?::t 1 if IE s't 28318I::t i 18 s d'i 41-r 1iI::t i il 2 IE i il 18 s !!:l ? 8 i::t 1 ll 18 s I i@ Til:l 8 i I::t 1: IE jl IE ?!!:l!8!81::t 18 % in 4 f it: Fill 21::t i 28 % 28 s Til:llil8i::t i Il 18 s 18 s t 2?i!:l118iI::t i 28N 18 s l-Hil:f1188i::t i 18 s i 8 18 s le 82"!: 1 lIE Ni 8%"J's. 18 i8s n't i rn i .s818s l't il 82# p~' 2 8 18 s
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EJ,*tdPiM*Finit*@t Appendlxii .O TYPE B TEST RESULTS 1988 REFUCLING cm = = m = = = = = = m = = m = m = =lV!!!!h=I!!!= m m m m = JE!!*!m = m = = m35!"t!!W=15V!!!!!Lmm=mMF m===h!!!!5mm=M!!mm!!!M5 1' I: :!P:: i l 2881 hi ii i ::!;: ::: 1 l 2881 "i 'If E:::t;:::: 1 I l 2881 22 ; o-8e ?"O:N:!1e 1 i l 1881 3Xti 28 " hi4'8thT..t i l 2881 i 18:lh:8?::t 1 l 188: 1881 a it:Fl?82?::t i i l2881 I 1881 18 !?i1:l1188?::t i i ' 2881 18 2 1881 8 Hil:lll?!?::t 1 1881 1881 8! Hil: Fill!?::t i i 1881 2881 181 Hi!:Fil!!I:'t i 1881 i 8 1881 I ".acn Glj!.t l?!!:lHi!?:: 1 8 1881 1 18 olf;r 24 o 1..t b t g,Acos 3 88 e $18 Hil:!!!!i?::t i ut1881 1 ti 228 " 118 Hil:l!!!8?::t 1 l! 8 1881 i 8 1881 118 Hii:;!!!i?::t i il 8 1881 1 li [1881 118 I?il:lHi8?::t 1 8 1881 1 it o1881 ills 811o"518:1 1 8 1881 "fi I 8 1881 wfi il:1 liis 236 0-Rings 1 8 0 Aom 3/6/88 o AOCN I O
I i i DCP Technical Servic Inc. Hatch 1989ILRTFina$sdeport Appendix il j V TYPE C TEST RESULTS 1988 REFUELING INITIAL TEST RETEST I c2================================================================================ PENETRATION IDENTIFIER DATE LEAKAGE DATE LEAKAGE c:============================================================================== 7 3. 2P33-F002 1 29 88 (20 AOOM N/A 3-2P33-F010 1 29 88 25 AOOM N/A 7A 2B21-F022A/F028A, 2E32-F001B 1/17/88 5.59 SCFH N/A 7B 2B21-F022B/F0288, 2E32-F001F 1/17/88 >192 SOFH 2/16/88 1.37 SCFH 7C
- B21-F022C/F028C, kE32-F001K 1/16/88 2.56 SCFH N/A TD 2B21-F0220/F028D, 2E32-F001P 1
88 6.22 SCFH N/A 8 2B21-F016/F019 1 88 1900 ADOM 2/27 88 40 AOCM 89A 2B21-F010A 1 88 6278 A00M 2/5 88 180 AOCM c9A 2B21-F077A 1 88 30 AOOM A C9B 2B21-F010B 88 (20 AOCM NA C9B 2B21-F077B 2 88 0 AOW A 10 2E51-F007/F008 1 88 19229 ADOM 3 8 0 AOOM 11 2E41-F002/F003 1 88 0 AOm 3 88 0 AOW 12 2E11-F008 88 7500 AOCM 2 8 250 AOCM 13A 2E11-F015A 1 88 0 AOOM A 13B 2E11-F015B 2 88 60 AOCM NA 14 2G31-FOO1 88 0 AOOM NA r~ 14 2G31-F004 88 0 AOCM NA 15 2T49-F002B 1 88 200 AOCM NA 15 & 2228 2T49-CLOSED SYSTEM 1 88 400 AOCM NA 16A 2E21-F005A 1 88 (20 AOCM NA 1EB 2E21-F005B 2 88 0 AOCM NA I? 2E11-F023 88 0 ACOM A 10 2G11-F019 1 88 0 A00M 3/ 8 0 AOOM 18 2G11-F020 1 88 115 AOCM 3/ 80 (20 AOOi 19 2G11-F003 88 0 AOCM A + 19 2G11-F004 88 0 AOOi NA 21 2P51-F513 2 88 70 AOCM NA 21 2P51-F651 2 88 80 AOm L 22 2P70-F004 88 0 AOOM 2/15 hs O AOOM 22 2P70-F005 1 88 30 AOCM 2/15 BU 0 AOCM 23 & 24 2P42-F051 F052 1 88 70 AOCM /A 25 2T48-F103 F307/F308 D006 1 88 1221 AOCM 3/9/88 140 AOOi 25 & 205 2T48-F104 F118A/F118B 2 88 (20 AOOM N/A 26 2T48-F319 F320 1 88 375 AOOM 3/4/ 8 100 AOCM 26 2T48-F340 88 0 AOCM NA 26 2T48-F341 2/ 88 0 AOCM NA 27C 2831-F013A 2 88 0 AOCM NA 27C 2B31-F017A 2 88 40 AOCM NA 28 2P33-F004 1 88 0 ACCM NA 28 2P33-F012 1 88 53 AOCM NA 32A 2E11-F041B 88 0 AOCM NA 32C 2E11-F0410 2 88 40 AOCM NA l l 34C 2T23-F004 2 88 0 ACOM NA 340 2T23-F005 2 88 (20 AOOM NA l 34D 2T48-F363A 2 88 (20 AOCM NA i 35A 2C51-J004D 1/29 88 48 AOCM NA l 35B 2C51-J004A 1/29 88 28 AOCM 3/10/ 8 (20 AOCM l l ( l l l l
I DOP Technical Servic Inc. Hatch 1989ILRTFina$sAeport Appendix ll 0 TYPE C TEST RESULTS 1988 REFUELING INITIAL TEST RETEST a:::========================================= :::::::::::::======================= PENETRATION IDENTIFIER DATE LEAKAGE DATE LEAKAGE h ca:================================================================ ::::::::::::= B D l hhE k 0 $0m 2/13 8 0 AOm C -F301 39A 2E11-F016A 1 88 453 AOOM A 39B 2E11-F016B 2 88 425 ADOM NA .41 2B31-F019 88 0 A001 NA 41 2B31-F020 88 0 AOOM NA 42 2C41-F006 88 0 AOOM NA 42' 2C41-F007 1 88 0 AOOM NA 44 2T48-F321/F322 88 10 AOOM NA 45D 2B21-F111 1 88 (20 AOOM NA 450 2B21-F112 1 88 0 AOOM NA 46 2P21-F032 2 88 0 AOOM NA 46 2P21-F034 2 88 0 AOm NA 47 & 48 2PG4-F045/F047 88 (20 AOOM NA 51C 2P70-F066 88 40 AOOM 2/16 8 (20 AOOM 51C 2P70-F067 1 88 20 AOOM 2/16 8 0 AOOM 51D 2T48-F363B 2 88 0 A001 /A 54A 2E11-F041A 1 88 110 AOCM 2/19 88 0 AOOM /~sI$ $Gll~IO$2 l <$0$O05 NA t 55 2G11-FB53 88 0 AOOM NA '~'57C 2831-F313B 2 88 0 A001 NA 57C 2831-F017B 88 0 AOOM NA 60A '2P33-F003 1 88 40 AOCM NA 60A 2P33-F011 1 88 0 AOOM NA 60B 2011-F050 88 0 AOm NA 60B 2D11-F052 88 (20 ADOM NA 61A 2T49-F002A 1 88 120 ADOM NA 61A&221A 2T49 CLOSED SYSTEM 1 88 4500 A001 3/15/ 8 195 AOOM 62 2D11-F051 88 20 AOOM NA 62 2011-F053 2 88 (20 AOOM NA 63 2P70-F002 1 88 0 ADOM NA 63-2P70-F003 88 0 AOOM NA 64 2P33-F005 1 88 0 AOOM NA -64 2P33-F013 1 88 20 AOCM NA 67 2T48-F 334B 88 0 AOOM NA 67 2T48-F335B 88 (20 AOCM NA 69 2T48-F209 1 88 65517 AOCM 2/28/ 8 90 ACOM 69 2T48-F210-1 88 70 A001 NA 80 2T48-F334A 88 0 AOOM NA 80 2T48-F335A 88 0 AOCM NA 81-2T48-F113 F114 1 88 !?O AOCM NA 203 2E51-F003 F031 1 88 1'S AOCM 1/28/ 8 140 AOOM .204A 2E11-F004 F030A 1 88 660 AOCM N/A l 204B
- E11-F004B F0308 88 40 ADOM 2/27/88 (20 ACOM 204C
$E11-F004CF030C 1 88 0 AOCM N/A 204D 2E11-F004D F030D 88 20 AOOM 2/ 88 (20 AOOM 205 2T48-F309/ 324 D006 1 88 351 AOCM 3 88 30 AOQ1 205 2T48-F310 F328A 1 88 38535 AOCM 3 88 70 AOCM 205 2T48-F311 328B 1 88 10438 AOOM 3 88 0 A001
) Inc. ) 90PTechnicalServic$sdeport l Hatch 1989 ILRT Fina Appendix il j 7s(,) TYPE C TEST RESULTS 1988 REFUELING INITIAL TEST RETEST c================================================================================= i PENETRATION IDENTIFIER DATE LEAKAGE DATE LEAKAGE i n:================================================================================ h8tA liil:R!'i 2g gg gg;gy 3/748 30 AOO4 j 206C 2E41-F121 1 88 (20 AOCM NA l 2000 2E41-F122 1 88 0 AOCM NA 206C 2T48-F361A 88 (20 A001 NA 206F 2T48-F362A 1 88 30 A001 NA 06H ?T48-F362B 1 88 (20 AOOM A 07 2E41-F042/F051 1 88 712 ACOM 3/3 8 200 AOOM 08A 2E21-F001A 1 88 G50 AOQ1 A 208B 2E21-F001B 1 88 20 AOOM NA 210A 2E11-F025A 1 88 0 A011 NA 210A/211A 2E11-F028A 1 88 80 AOOM A i 1A 51-F 9/F021 k hk khh$0SN !f2hhk <hh$O0 210B 2E11-F025B 2 88 120 AOCM 2/14 88 0 AOOM i 210B/211B 2E11-F028B 88 0 AOCM A 2108 2E41-F012 F046 1 88 0 AOCM NA 212 2E51-F001 F0A0 1 88 6350 AOCM 3/1 8 <20 AOCM 213 2E51-F002 F028 1 88 0 AOCM /A 214 2E41-F021 F049 1 88 3139 A001 3/21 88 354 A00M 215 2E41-F022 F040 88 0 A001 A f w 217A 2P33-F006 1 88 0 AOCM NA h17B h !- ON kh k0A001 2/17/ 8 (20 AOOi O AOCM NA 1 .717B 2P33-F015 2 88 (I'OADOM 217C 2D11-F058/F065 88 ( NA 718A 2G51-F002 2 88 150 AOCM NA i 218A 2GS1-BLIND FLANGE 2 88 55 AOQ1 NA 220 2T48-F318/F326 1 88 2180 AOOM 3/5/ 8 850 AOOM 220 2T48-F338 88 35 AOCM NA 220 2T48-F339 2 88 90 ACOM NA 220 2T48-F364A 2 88 20 A001 NA 221A 2T49-F004A 1/ 88 1700 A001 3/14/88 20 AOOM 221B 2E41-F104/F111 3 88 (20 AOCM NA 221C 2E51-F 104 /F 105 1 88 f.20 AOOM NA 2228-2T49-F004b 1 88 81 A001 NA i 224A-2T49-F009A 1 88 0 AOOM 3/8/ 8 (20 AOOM -224A 2E11-F055A/F103A,F3078A 1 88 0 AOCM NA 224B 2T49-F009B 1 88 0 AOCM A 224B 2E11-F055B/F103B/F3078B 88 2500 AOCM 2/25 8 0 AOCM i 225A 2T48-F 342G 2 88 >60000 A001 3/2 88 0 A001 i 225A 2T48-AIR CYLINDER G 2 88 0 AOCM /A 225B 2T48-F342H 2 88 >60000 A001 3 88 0 AOO1 225B 2T48-AIR CYLINDER H 2 88 (20 AOQ1 2/ 88 0 AOCM 225C 2T48-F3421 2 88 >60000 AOCM 3 88 0 AOCM 225C 2T48-AIR CYLINDER I 2 88 0 AOCM /A 2250 7T48-F342J 2 88 >60000 A001 3/3/88 <20 AOCM 225D 2T48-AIR CYLINDER J 2 88 0 AOCM N/A 225E 2T48-F342K 2 88 >60000 A001 3 88 0 AOCM 225E 2T48-AIR CYLINDER K 2 88 0 AOCM 2/ 88 0 AOCM 225F 2T48-F342L 2 88 >60000 A001 3 88 0 A001 i 225F 2T48-AIR CYLINDER L 2 88 0 AOCM 2/ 88 0 AOCM C:). )
.00P Technical Services Inc. Hatch 1989 ILRT Final deport Appendix i1 l l TYPE C TEST RESULTS 1988 REFUELING INITIAL TEST R c===================================================================ETEST
==
PENETRATION lDENTIFIER DATE LEAKACE. DATE n================================================-====================== LEAKAGE 3
=
1$G 5G 2T48-F342A 88 >60000 A00M 3/3 88 0 Aom 2T48-AIR CYLINDER A 88 0 AOm A )H 2T48-F3428 88 >60000 AOm 3 8 Aom DH 2T48-AIR CYLINDER 8 88 0 AOm 2/ 8 Acci 2pJ 2T48-F3420 88 >60000 AOm 3 88 Aom 2sJ 2T48-AIR CYLINDER C 88 (20 Aom /A 25K T48-F3420 8 >6000 Aom 3/2 88 0 AOCN i 25K T48-AIR CYLINDER D 8 ACOi /A 25L T48-F342E >6000 AOCN 88 0 Aom 25L M B-AIR CYLINDER E <?O AOm 2 88 0 AOm 25M ptE F342F >60000 ACD1 88 0 AOCM 25M 21 !.8-A I R CYL I NDER F 0 ACCN 2/ 88 0 ACCM 26A E11-F007A 1 88 15 AOm A 26A E11-F011 A/F026A 1 88 AOm NA 26A E21-F015A 1 88 AOCN N /A 26A E21-F044A 88 14 AOm NA 26B E11-F0078 88 (20 ACOi NA 26B E11-F0118/F0268 88 0 AOm NA 26B E21-F015B 2 88 225 ACCM NA 26B E21-F0448 2 88 0 AOm NA 30 2T48-F325/F327 88 0 AOm NA 31 2T48-F332A 88 100 AO m NA 31 2T48-F333A 2 88 (20 AOCN NA 33 2T48-F211 2 88 75 ACCN NA 33 2T48-F212 88 30 AOCN NA 34A 2G51-F011 2 88, (20 AOCN NA 234A 2G51-F012 2 88 0 AC01 NA 235A 2T48-F332B 88 0 ACCN NA 235A 2T48-F333B 2 88 30 AOCN NA 235B 2T48-F115/F116 2 88 (20 ACCM NA I O
1 9(* Technical Soryicts Inc. Hatch 1989 ILRT Final 4eport endix il J PERSONNEL AIR LOCX TYPE B TEST RESULTS BETWEEN 1986/1989 ILRT's ) i DATE INNER DOOR SEAL OUTER DOOR SEAL INNERSPACE c = = = = = = = = = = = = = = = = = = = 6= Aom
===============================
l 7 A00M 2455 Aom 7 0 A0m Aom 7 0 ACCM Aom 7 1500 Aom 7 Aom 0 AOCN 8 ACOM 0 Aom 8 >220 A0m 8 Aom 0 ActN 8 AOCN O AOCN 8 2150 Aom 8 Aom A00M 8 2 A00M 2 Aom 8 Aom A0m 8 Aom Aom 8 AOCM AOCH 8 Aom 8 0 A00M A0m 8 0 Aom ActN 8 0 AOCN A0m 8 210 Aom 8 0 Aom 0 Aom 8 0 ACIM 0 AotM 8 0 AccM 0 Aom 8 20 Aom 1 9 0 ACCM 0 Aom 1150 A00M '6 9 1913 Aom 9 0 AOCN O AOCN 11/ 9 0 AOm 0 Aom 11/ 9 2200 Aom MlSCELLANEOUS TYPE B RESULTS PERFORffD BETWEEN OUTAGES PENETRATION IDENTIFIER DATE LEAKAGE i
=================:=======================-===========
6 CRD Hatch 4 88 0 ACCN 200A Torus Hat.ch A 5 88 0 Aom 200B Torus Hat.ch B 5 89 0 ACEN t g
+ r-b BCP Technical Services, Inc. Hatch 1989 ILRT Final Report Appendix III O e i i t j i APPENDIX III TEST DATA DATA SETS I 1. Pressurization i 2. Stabilization
- O 3.
1,,e A rest 4. Verification Stabilization 5. Verification 1 f i o
\\ l 4 i BCP Technical Services, Inc. i Hatch 1989 ILRT Final Report Appendix III ) -g V s f i t h PRESSURIZATION l i DATA SET i l O i i L P 1 k i 1-l {. ~ u l [ l I t O I i,
1 E i j HATCH UNIT 2--1989 ILRT--PRESSURIZATION i DATA
SUMMARY
REPORT l -s / \\ \\ss/ data time date t ernperat ure pressure vapor dry air set deg F psia pressure mass psia l btn 1 630 1112 75.7650 14.8959 0.3818 20296 4 2 645 1112 78.8345 16.7435 0.3956 22730.5 3 700 1112 81.5489 20.7773 0.6090 28178.5 4 715 1112 82.0489 24.7911 0.4136 33693.7 5 730 1112 82.2518 28.7895 0.4185 39198.8 6 745 1112 82.4647 32.7877 0.4219 44700.6 7 800 1112 82.6682 36.7667 0.4253 50172.6 8 815 1112 82.8848 40.7301 0.4291 55616.9 9 830 1112 83.0909 44.6511 0.4329 60999.5 i 10 845 1112 83.2741 48.5633 0.4365 66369.2 11 900 1112 83.4512 52.4459 0.4408 71694.1 12 915 1112 83.6187 56.3031 0.4454 76981.5 13 930 1112 83.7904 60.1433 0.4482 82244.2 14 945 1112 83.9426 63.9629 0.4521 87476.7 15 1000 1112 84.0980 67.7669 0.4557 92684.8 16 1015 1112 84.1995 71.4279 0.4594 97702.4 17 1030 1112 82.9738 72.9475 0.4570 100023.2 18 1045 1112 81.6323 72.7889 0.4504 100060.9 ? \\ b o s_> l 1
ti d' gi ' 9~ HATCH UNIT 2--1989 ILRT--PRESSURIZATION ['1 data set 1 t irne = 630 date = 1112 sensor raw data value t ernperat ure 1 ( 69.340 ) 69.340 deg. F = t ernperat ure 2 ( 69.080 ) = 69.080 deg. F t ornperat ure 3 ( 69.510 ) = 69.510 deg. F t ernperat ure 4 ( 69.550 ) 69.550 deg. F = t ernperat ure 5 ( 70.360 ) = 70.360 deg. F t ernperat ure 6 ( 72.370 ) 72.370 deg. F r-t ernperat ure 7 ( 72.920 ) = 72.920 deg. F t ernperat ure B ( 78.830 ) = 78.830 deg. F t ernperat ure 9 ( 88.630 ) = 88.630 deg. F ternperature 10 ( 85.790 ) = 85.790 deg. F t ernperat ure 11 ( 78.460 ) = 78.460 deg. F t ernperat ure 12 ( 78.110 ) = 78.110 deg. F t ernperat ure 13 ( 78.010 ) = 78.010 deg. F ternperat ure 14 ( 78.310 ) = 78.310 deg. F dewpoint 1 ( 64.490 ) = 64.490 deg. F, 0.3001 psia dowpoint 2 ( 64.670 1 = 64.670 deg. F, 0.3020 psia dewpoint 3 ( 65.440 ) 65.440 deg. F 0.3102 psia = 64.940 deg. F,, 0.3048 psia dowpoint 4 ( 64.940 ) = dowpoint 5 ( 64.880 ) = 64.880 deg. F 0.3042 psia 78.180 deg. F, 0.4774 psia dewpoint 6 ( 78.180 ) = pressure 1 ( 14.8959 ) = 14.8959 psia pressure 2 ( 14.8918 ) 14.8918 psia = 1 weighted averaDes, volutne and air rnass temperature 75.76500 deg. F = (T pressure = 14.89590 psia (_/- vapor pressure 0.38178 psia = 277400 eu. ft. vol urne = dry air mass 20296.4 lbin = f' r Ou
m ~ L Y T I HATCH UNIT 2--1989 ILRT--PRESSURIZATION .Q , dat a s.et 2-time = 645 date = 1112 ^ sensor raw data value 72.620 deg. F t ernperat ure 1 ( 72.620 ) = Oemperature 2 (. 71.350 ) 71.350 deg. F = temperature 3 ( 71.750 ) 71.750 deg. F = 71.930 deg. F temperature 4 ( 71.930 ) a 72.930 deg. F temperature 5 ( 72.930 ) = 75.450 deg. F temperature 6 ( 75.450-) = temperature 7 ( 75.490 ) 75.490 deg. F- = temperature 8 ( 80.540 ) 80.540 deg. F = temperature 9 ( 90.730 ) 90.730 deg. F = 88.640 deg. F temperature 10 ( 88,640 ) = temperature 11 ( 82.790 ) = 82.790 deg. F temperature 12 ( 81.370 ) = 81.370 deg. F temperature 13 ( 81.490 ) 81.490 deg. F = temperature 14 ( 82.100 ) 82.100 deg. F = 66.510 deg. F 0.3219 psia dewpoint 1 ( 66.510 ) = 65.750 deg. F, 0.3135 psia dewpoint 2 ( 65.750.) = 62.760 deg. F, 0.2824 psia dowpoint 3 ( 62.760 ) = 63.130 deg. F,, 0.3177 psia dewpoint-4 ( 66.130 ) = 67.660 deg. F 0.3349 psia dewpoint 5 ( 67.660 ) = 79.650 deg. F, 0.5011 psia dowpoint 6 ( 79.650 ) = pressure 1 ( 16.7435 ) 16.7435 psia = _ pressure 2-( 16.7359 ) 16.7359 psia = weighted averages, volume and air mass (i t ernperat ure 78.83449 deg. F = l 4, / pressure = 16.74350 psaa 0.39556 psia j vapor pressure = volume = 277400 cu. ft. I dry air mass 22730.5 lbm = t i e E 1 i e ~N i N
.-~ HATCH UNIT _2--1989 ILRT--PRESSURIZATION (/L data set 3 time = 700 date = 1112-l . sensor raw data value temperature 1 ( 73.400 ) 73.400 deg. F = temperature 2 ( 71.640 ) 71.640 deg. F = temperature 3 ( 73.210 ) 73.210 deg. F = temperature 4 ( 73.280 5 73.280 deg. F = temperature 5 ( 74.390 ) = 74.390 deg. F temperature 6 ( 75.990 ) = 75.990 deg. F temperature 7 ( 77.750 ) 77.750 deg. F = temperature 8 ~ ( 81.760 ) -= c 81.760 deg. F temperature 91( 92.120 ) = 92.120 deg. F -temperature 10-( 90.370 ) 90.370 deg. F = temperature 11 ( 86.980 ) 86.980 deg. F = temperature 12-( 86.210 ) = 86.210 deg. F temperature 13 ( 86.290 ) 86.290 deg. F. = temperature 14 ( 86.360 ) = 86.360 deg. F dewpoint: 1-( 63.300 ) 63.300 deg. F, 0.2878 psia = dewpoint 2 ( 64.840 ) 64.840 deg. F, 0.3038 psia = dewpoint 3-( 64.510 ) 64.510 deg. F 0.3003 psia = 68.130 deg. F,, 0.3404 psia dewpoint 4 ( 68.130 ) = dewpoint 5 ( 68.800 ) = 68.800 deg. F 0.3483 psia 81.180 deg. F,, 0.5267 psia dowpoint 6 ( 81.180 ) = pressure 1 ( 20.7773 ) 20.7773 psia = pressure 2 ( 20.7644 ) 20.7644 psia = weighted averages, volume and air mass f temperature 81.54890 deg. F = 20.77730 psia ( pressure = 0.40896 psia vapor pressure = volume = 277400 cu. ft, dry air mass 28178.5 lbm j = t ' u' r
ifATCH UNIT 2--1989 ILRT--PRESSURIZATION h. data set 4 time = 715 date = 1112 sensor raw data value 74.010 deg. F temperature 1 ( 74.010 ) = 72.090 deg.-F temperature 2 ( 72.090 ) = 73.750 deg. F temperature 3 ( 73.750 ) = 73.780 deg.-F temperature 4-( 73.780 ) = temperature 5 ( 74.700 ) 74.700 deg. F = temperature 6-( 76.110 ) 76.110 deg. F = temperature 7 ( 78.390 ) = 78.390 deg F temperature 8 ( 82.330 ) = 82.330 deg. F i temperature 9 ( 92.590 ) 92.590 deg. F 1 = temperature 10 ( 90.950 ) = temperature 11 ( 87.430 ) = ' 90.950'deg. F i 87.430 deg. F l temperature 12 ( 86.720 ) = 86.720 deg. F i temperature 13 ( 86.990 ) = 86.990 deg. F 86.900 deg. F-temperature 14 ( 86.900 ) = 61.940 deg. F, 0.2744 psia i dewpoint 1 ( 61.940 ) = dewpoint 2 ( 64.300 ) = 64.300 deg. F, 0.2981 psia dewpoint 3 ( 65.110 ) =' 65.110 deg. F 0.3066 psia 68.550 deg. F, 0.3454 psia dewpoint 4 ( 68.550 ) = 68.960 deg. F, 0.3502 psia dowpoint 5 ( 68.960 ) = 81.820 deg. F, 0.5378 psia dewpoint 6 ( 81.820 ) = 24.7911 psie l pressure 1 ( 24.7911 ) = pressure 2 ( 24.7819 ) 24.7819-psia = weighted averages, volume and air mass temperature 82.04889 deg. F = 24.79110 psia pressure = vapor pressure = 0.41364 psia j volume = 277400 cu. ft. i dry air mass. 33693.7 Ibm i = I e s O -__.___.-_i_.___._[._____
} HATCH UNIT 2--1989 ILRT--PRESSURIZATION d ): data set 5 time = 730 date = 1112 sensor raw data value temperature 1 ( 73.220 ) 73.220 deg. F = temperature 2 ( 72.550 ) 72.550 deg. F = temperature 3 ( 74.010 ) 74.010 deg. F = temperature 4 ( 73.980 )- = 73.980 deg. F temperature 5 ( 74.940 ) 74.940 deg. F = temperature 6 ( 76.340 ) = 76.340 deg. F temperature 7- ( 78.750 ) 78.750 deg. F = temperature 8 ( 82.680 ) 82.680 deg. F = temperature 9 ( 92.830 ) = 92.830 deg. F temperature 10 (. 91.610 ) 91.610 deg. F = temperature 11 ( -87.550 ) = 87.550 deg. F temperature 12-( 86.930 ) 86.930 deg. F = temperature 13 ( 87.290 ) =- 87.290 deg. F temperature.14 ( 87.140 ) 87.140 deg. F = dewpoint 1 ( 62.180 ) 62.180 deg. F 0.2767 nzia = 64.600 deg. F,, 0.3012 paia dewpoint 2 ( 64.600 ) = dewpoint 3 ( 65.650 ) = 65.650 deg. F 0.3124 poia 68.770 deg. F,, 0.3420 psia dewpoint 4 ( 68.770 ) = dewpoint 5 ( 68.920 ) = 68.920 deg. F 0.3498 psia 82.220 deg. F,, 0.5448 psia l dowpoint 6 (. 82.220 ) = pressure 1 ( 28.7895 ) 28.7895 psia = l l pressure 2 ( 28.7833 ) = 28,7833 psia weighted averages, volume and air mass /~% temperature 82.25183 deg. F = '( - j pressure = 28.78950 psia 0.41847 psia -va or pressure = 277400 cu. ft. vo ume = I dry air mass = 39198.8 lbm 1' li l l-OG
4 i } HATCH UNIT 2--1989 ILRT--PRESSURIZATION -. / y (j data, set 6 ' time =- 745 date = 1112 ] sensor raw data value y temperature 1 ( 73.520 ) 73.520 deg. F- = temperature 2 ( 72.950-) 72.950 deg.- F = temperature 3 ( 74.260 )- 74.260 deg. F = temperature 4 ( 74.310 ) 74.310 deg. F = temperature 5-( 75.220 ) 75.220 deg. F = temperature 6 ( 76.510 ) 76.510 deg. F- = temperature 7 (- 78.960 ) 78.960 deg. F u temperature 8 ( 83.050 ) 83.050 deg. F = temperature 9 ( 93.080 ) 93.080 deg. F = temperature 10 ( 92.170 ) 92.170 deg. F = temperature 11 ( 87.580-) 87.580 deg. F = temperature 12 ( 87.130 ) 87.130 deg. F = z temperature 13 ( 87.390 ) 87.390 deg. F = temperature 14 ( 87.290 ) = 87.290 deg. F dewpoint 1 ( 61.950 ) 61.950 deg. F' 0.2745 psia = 65.360 deg. F, 0.3093 puia dewpoint 2 ( 65.360 ) = 66.140 deg. F, 0.3178 psia dewpoint 3 ( 66.140 ) = 68.800 deg. F,, 0.3483 psia dewpoint 4 ( 68.800 ) = dewpoint 5 ( 69.020 ) = 69.020 deg. F 0.3510 psia 82.460 dag. F,, 0.5491 psia dewpoint 6 ( 82.460 ) = pressure 1 ( -32.7877 ) = 32.7877 psia pressure 2-( 32.7792 ) 32.7792 psia = weighted averages, volume and air mass 'r~N temperature 82.46472 deg. F = L( ) 32.78770 psia pressure = vapor pressure = 0.42191 psia 277400 cu. ft. volume = dry air mass 44700.6 lbm = l ,v J 3 ',
k i , -q ' HATCH UNIT 2--1989 ILRT--PRESSURIZATION 3 L Q' data set '7 . time = 800 date = 1112 sensor- " raw data value ^ temperature-1' ( 73.760 ) 73.760 deg. F = temperature 2 ( 73.380 ) 73.380 deg. F = temperature-3 ( -74.520 ) 74.520 deg. F = temperature 4 (~ 74.700 ) = 74.700 deg. F-s temperature 5 ( 75.420 ) 75.420 deg. F = temperature 6 ( 76.700 ) 76.700 deg. F = temperature 7 ( 79.150 ) 79.150 deg. F- = t ernperat ure B ( 83.400 ) = 83.400 deg. F. temperature. 9 ( 93.270 ) = 93.270 deg. F temperature 10 ( 92.700 ) = 92.700 deg. F temperature 11 ( 87.690 ) = 87.690 deg. F ' temperature 12 ( 87.260 ) 87.260 deg. F = temperature 13 (. 87.500 ) 87.500 deg. F = temperature-14 (- 87.420 ) = 87.420 deg.-F dewpoint 1 ( 63.210 ) 63.210 deg. F 0.2869 psia = 65.410 deg. F,, 0.3098 psia dewpoint 2 ( 65.410 ) = dewpoint 3 ( 66.430 ) 66.430 deg. F 0.3210 psia = 68.800 deg. F,, 0.3483 psia dewpoint 4 ( 68.800 ) = dewpoint 5 ( 69.040 ) = 69.040 deg. F, 0.3512 psia i dewpoint 6 (- 82.650 ) 82.650 deg. F, 0.5524 psia = pressure 1 (- 36.7667') 36,.7667 psia = pressure 2 ( 36.7631 ) 36.7631 psia = weighted averages, volume and air mass /'~N temperature 82.66817 deg. F = ) 36.76670 psia i -( pressure = 0.42526 psia vapor pressure = volume =- 277400 cu. ft. dry air mass. = 50172.6 lbm l 54 t fb t
- P
t HATCH UNIT 2--1989 ILRT--PRESSURIZATION . _q {) data set 8 ' time = 815 ~date = 1112-sensor raw dato value temperature 1 ( 74.030 ) = 74.030 deg. F temperature 2 ( 73.660 ) 73.660 deg. F = temperature 3 ( 74.840 ) 74.840 deg. F = temperature 4 ( 74.970 ) 74.970 deg. F ~ = temperature 5 ( 75.700 ) 75.700 deg. F = 76.890 deg.-F temperature 6 ( 76.890 ) = temperature 7 ( 79.340 ) = 79.340 deg. F temperature 8 ( 83.730 ) 83.730.deg. F- = temperature 9 ( 93.390 ) = 93.390 deg. F temperature 10 ( 93.180 ) 93.180 deg. F = temperature 11 ( 87.850 ) 87.850 deg. F = ' temperature 12 ( 87.440 ) = 87.440 deg. F temperature 13 ( 87.650 ) 87.650 deg. F = temperature 14 ( 87.600 ) 87.600 deg. F = dewpoint 1-( 64.260 ) 64.260 deg. F 0.2977 psia = 65.980 deg. F,, 0.3160 psia dewpoint 2 ( '65.980-) =- dewpoint 3 ( 6G.710 ) = 66.710 deg. F, 0.3241 psia dewpoint 4 ( -69.100 ) = 69.100 deg. F, 0.3519 psia dewpoint 5-( 69.230 ) = 69.230 deg. F 0.3535 psia 82.780 deg. F, 0.5548 psia s dewpoint 6 ( 82.780 ) = pressure 1 ( 40.7301 ) = 40.7301 psia pressure 2 ( 40.7188 ) 40.7188 psia = yg weighted averages, volume and air mass 1 l, ' (t' ) pressure = N temperature 82.88480 deg. F = 40.73010 psaa ~ vapor pressure r O.42911 psia 277400 cu. ft. volume = 55616'.9 lbm i dry air mass = l l l l 1 1
- rm D-9
[ L c .#c HATCH UNIT 2--1989 ILRT--PRESSURIZATION n ()l data set 9 t ime = 830 date = 1112 sensor raw data value temperature 1 ( 74.510 ) 74.510 deg. F = 73.950 deg. F t temperature 2 ( 73.950 )- = 75.190 deg. F temperature 3 ( 75.190 ) = 75.220 deg. F' temperature 4 ( 75.220 ) = 75.910 deg. F temperature-5 ( 75.910 ) = 77.040 deg. F temperature 6 ( 77.040 ) = temperature 7-( 79.470 ) 79.470 deg. F = - temperature 8 ( 84.080 ) 84.080 deg. F = 93.720 deg. F temperature 9 ( 93.720 ). = temperature 10-( 93.530 ) = 93.530 deg. F 4 temperature 11 ( 88.010 ) 88.010 deg. F = temperature 12-(- 87.570 ) 87.570 deg. F = tamperature 13 ( 87.740 ) 87.740 deg. F = ' temperature 14 ( 87.720 ) = 87.720 deg. F dewpoint 1 ( 64.910 ) 64.910 deg. F, 0.3045 psia = 66.630 deg. F, 0.3232 psia dewpoint 2 ( 66.630 ) = dewpoint 3 ( 67.220 ) 67.220 deg. F 0.3299 psia- = 69.300 deg. F 0.3543 psia dewpoint 4 ( 69.300 ) = 69.440 deg. F, 0.3560 psia dewpoint 5 (- 69.440 ) = 82.910 deg. F,, 0.5571 psia dewpoint 6 ( 82.910 ) = pressure 1 ( 44.6511 ) 44.6512 psia = pressure 2 ( 44.6462 ) 44.6462 psia = weighted-averages, volume and air mass fij - T-temperature 83.09089 deg. F = (' pressure 44.65110 pssa = O.43295 psia vapor. pressure =- 277400 cu. ft, volume = 60999.5 lbm dry air mass = s u '*n
HATCH UNIT 2--1989 ILRT--PRESSURIZATION-data set 10 time a' 845 'date = 1112 sensor raw data value temperature. 1 ( 74.730 ) 74.730 deg. F = 74.250 deg. F temperature-2 ( 74.250 ) = 75.440 deg. F t ernperat ure 3 ( 75.440 ) = temperature 4 ( 75.360 ) = 75.360 deg. F 76.140 deg. F temperature 5 ( 76.140 ) = 77.310 deg. F temperature 6 ( 77.310 ) = 79.620 deg. F temperature 7 ( 79.620 ) = 84.410 deg. F temperature 8_ ( 84.410-) = temperature 9 ( 93.920 ) = 93.920 deg. F temperature 10 ( 94.010 ~) 94.010 deg. F = temperature 11 ( 88.170 ) 88.170 deg. F = temperature 12 ( 87.660 ) 87.660 deg. F = temperature 13_( 87.820 ) =- 87.820 deg. F teraperature 14 ( 87.840 ) 87.840 deg. F = i dewpoint 1 ( 65.730 ) 65.730 deg. F, 0.3133 psia. = 67.200 deg. F, 0.3297 psia dewpoint 2 ( 67.200 ) = dewpoint 3 ( 67.640 ) 67.640 deg. F, 0.3347 psia = 69.450 deg. F, 0.3562 psia. dewpoint 4 ( 69.450 ) = dewpoint 5 ( 69.650 ) =- 69.650 deg. F 0.3586 psia 83.010 deg. F,, 0.5589 psia dewpoint 6 ( 83.010 ) = pressure 1 ( 48.5633 ) 48.5633 psia = pressure 2-( 48.5507 ) = 48.5507 psia weighted averages, volume and air mass 1 9-83,27409 dag. F temperature = 48.56330 pssa pressure = 0.43646 psia vapor pressure = -volume = 277400 cu. ft. = 66369.2 lbm j dry air mass l i .)- I _A
p-p HATCH UNIT 2--1989 ILRT--PRESSURIZATION . ('sl. data set 11 - (#' t time = 900 date = 1112 sensor raw data value temperature 1 ( 74.960 ) 74.960 deD. F = temperature 2 ( 74.550 ) 74.550 deg. F = temperature 3-(- 75.730 ) 75.730 deg. F = 75.670 deg. F = temperature 4-( 75.670 ) = 76.270 deg. F temperature 5 ( 76.270 ) = 77.390 deg. F -temperature 6 ( 77.390 ) = temperature 7 ( 79.770-) 79.770 deg. F = B4.730 deg. F temperature 8 ( 84.730 ) = temperature 9-( 94.070 ) = 94.070 deg. F temperature 10 ( 94.400 ) 94.400 deg. F- = temperature 11-( 88.290-) 88.290 deg. F = temperature 12 ( 87.830 ) = B7.830 deg. F t eraperat ure 13 ( 87.960 ) = 87.960 deg. F temperature 14 ( 87.950 ) 87.950 deg. F = dewpoint 1 ( 66.290 ) 66.290 deg. F, 0.3195 psia = dewpoint. 2 -( 57.790 ) 67.790 deg. F, 0.3364 psia = dewpoint 3 ( 68.200 ) = 68.200 deg. F-0.3412 psia 70.010 deg. F, 0.3630 psia dewpoint 4 ( 70.010 ) = 70.020 deg. F, 0.3632 psia dewpoint-5 ( 70.020 ) = 83.120 deg. F, 0.5609 psia dewpoint 6-( 83.120 ) = pressure 1 -( 52.4459 ) 52.4459 psia = pressure 2 ( 52.4363 ) 52.4363 psia = weighted averages, volume and air mass temperature 83.45122 deg. F = (~l pressure = 52.44590 psia 0.44082 psia 'j vapor pressure = volume = 277400 cu. ft. = 71694.1 lbm dry air mass h i N l (~h. QJ. o.
t HATCH UNIT 2--1989-ILRT--PRESSURIZATION data set 12 l time = 915 date = 1112 sensor raw data value temperature 1 ( 74.980 ) = 74.980 deg. F temperature 2 ( 74.830 ) = 74.830 deg. F temperature 3 ( 75.900 ) = 75.900 deg. F temperature 4 ( 75.770 ) 75.770 deg. F = temperature 5-(- 76.490 ) = 76.490 deg. F temperature 6-( 77.580 )- 77.580 deg. F = -temperature 7 ( 79.976 ) 79.970 deg. F = temperature 8 ( 85.030 ) = 85.030 deg. F temperature 9 ( 94.380 ) = 94.360 deg. F temperature 10 ( 94.740 ) = 94.740 deg. F temperature 11' ( 88.450 ) = 88.450 deg. F 87.990 deg. F temperature 12 ( 87.990 ) = temperature 13 ( G8.050 ) 88.050 deg. F i = temperature 14 ( 88.040 ) = 88.040 deg. F j 66.820 deg. F, 0.3254 psia i dewpoint 1 ( 66.820 ) = dewpoint 2 ( 68.210 ) = 68.210 deg. F, 0.3413 psia dewpoint 3 ( 68.670 ) = 68.670 deg. F 0.3468 psia 70.600 deg. F,, 0.3704 psia dewpoint 4 ( 70.600 ) = dewpoint 5 ( 70.280 ) 70.280 deg. F 0.3664 psia = 83.310 deg. F, 0.5643 psia dewpoint 6 ( 83.310 ) = pressure-1 ( 56.3031 ) = 56.3031 psia pressure 2 ( 56.2976 ) = 56.2976 psia j I weighted-averages,-volume and air mass t ernperat ure 83.E1874 deg. F = 56.20310 psia i pressure = 0.44544 psia vapor pressure = 277400 cu. ft. volume = dry air mass 76981.5 lbm = 5 i e 1
F:- k I P J 4 HATCH UNIT 2--1989 ILRT--PRESSURIZATION .,e / 1. -i f data set -13 time = 930 date = 1112 sensor raw data value-temperature 1 ( 74.990 ) 74.990 deg. F = temperature 2 ( 75.050 )- = 75.050 deg. F temperature 3-( 76.160 ) 76.160.deg. F = temperature 4 ( 76.080 ) = 76.080 deg. F temperature 5 ( 76.700 ) = 76.700 deg. F temperature 6 ( 77.790 ) 77.790 deg. F = temperature 7 ( 80.120 ) 80.120 deg. F = temperature 8 ( 85.340 ) = 85.340 dog. F temperature 9 ( 94.570-) 94.570 deg. F = temperature 10 (' 95.110 ) = 95.110 deg. F temperature 11 ( 88.600 ). = 88.600'deD. F temperature 12 ( 88.120 ) = 88.120 deg. F temperature 13 ( 88.160 ) 88.160 deg. F = temperature 14 ( 88.150 ) = 88.150 deg. F-dewpoint 1 ( 65.960 ) 66.960 deg. F 0.3270 psia = 68.600 deg. F, 0.3459 psia dewpoint 2 ( 68.600 ) = 69.080 deg. F, 0.3517 psia dewpoint 3 ( 69.080 ) = dewpoint 4 ( 70.530 ) =, 70.530 deg. F, 0.3695 psia 70.590 deg. F, 0.3703 psia dewpoint 5 ( 70.590 ) u. 83.460 deg. F,, 0.5671 psia dewpoint 6 ( 83.460 ) = pressure-1 ( 60.1433') = 60.1433 psia pressure 2 ( 60.1373 ) 60.1373 psia = weighted averages, volume and air mass f temperature (_)% - pressure 83.79038 deg. F = 60.14330 psia = -= 0.44824 psia vapor pressure 277400 cu. ft. volume = dry air mass 82244.2 lbm = f k) o y
L j 't HATCH-UNIT 2--1989 ILRT--PRESSURIZATION i.; Y (,/. data set 14 time = 945 date = 1212 sensor raw data value temperature 1 ( 75.070 ) 75.070 deg. F = temperature 2 ( 75.230 ) = 75.230 deg. F temperature 3 ( 76.410 ) 76.410 deg. F = temperature 4 ( 76.330 ) 76.330 deg. F = temperature 5 ( 76.900 ) 76.900 deg. F = temperature 6 ( 77.930 ) 77.930 deg. F = temperature 7 ( 80.270 )- 80.270 deg. F = temperature 8 (' 85.63C ) = 85.630 deg. F temperature 9 (= 94.700 ) = 94.700 deg. F tempert.ture 10 ( 95.430 ) = 95.430 deg. F temperature 11 ( 88.700 )- 88.700 deg. F = temperature 12 ( 88.230 ) = 88.230 deg. F t temperature 13 ( 88.270 )- = 88.270 deg. F ' t emperat ure 14 ( 88.270 ) = 88.270 deg. F dewpoint 1 ( 67.640 ) 67.640 deD. F,,10.3347 psia 0,3512 psia F = d$wpoint 2 (- 69.040 ) 69.040 deg. = dowpoint 3 '( 69.360 ) = 69.360 deg. F 0.3551 psia 70.890 deg. F, 0.3741 psia dewpoint 4 ( 70.890 ) = 70.850 deg. F, 0.3736 psia dewpoint 5 ( 70.850 ) = 83.610 deg. F, 0.5698 psia dewpoint E ( 83.610 ) = pressure 1 '( 63.9629 ) 63.9629 psia = pressure 2 ( 63.9577 ) = 63.9577 psia weighted averages, volume and air mass ()T temperature 83.94264 deg. F = 63.96290 psia A pressure = 0.45211 psia vapor pressure = 277400 cu. ft. volume = dry air mass 87476.7 lbm = 4 l i. -:X ~ r,-
.a HATCH UNIT 2--1989 ILRT--PRESSURIZATION
- c~T
%)J data set 15 time = 1000 date = 1112 -sensor raw data value 75.170 deg. F temperature 1 ( 75.170') = 75.380 deg. F temperature 2 ( 75.380 ) = 76.650 deD. F temperature 3 ( 76.650 ) = 76.500 deg. F temperature 4 ( 76.500 ) = 77.120 deg. F temperature 5 ( '77.120 ) = ' temperature G ( 78.110 ) 78.110 deg. F = temperature 7 ( 80.450 ) = 80.450 deg. F 85.900 deg. F temperature 8 ( 85.900 ) = i 94.960 deg. F temperature 9 ( 94.960 ) = 95.890 deg. F temperature 10 ( 95.890 ) = 88.860 d?g. s temperature 11 ( 88.860 ) = temperature 12 ( 88.310 ) = 88.310 deg. F temperature 13 ( 88.320 ) = 88.320 deg. F' temperature.14 ( 88.340 ) = 88.340 deD. F dewpoint 1 ( 68.170 ) = 68.170 deg. F 0.3409 psia 69.340 deD. F 0.3548 psia dewpoint 2 ( 69.340') = 69.670 deD. F, 0.3589 psia dewpoint 3 ( 69.670 ) = 71.410 deg. F,, 0.3808 psia dewpoint 4 ( 71.410 ) = dewpoint 5 ( 71.140 ) 71.140 deD. F, 0.3773 psia = 83.720 deg. F, 0.5718 psia dewpoint 6 ( 83.720 ) = pressure 1 ( 67.7669 ) = 67.7669 psia-67.7624 psia { pressure 2 ( 67.7624 ) = seighted averages, volume and air mass ] ~(D-ten perat ure = 84.09801 deg. F-67.76690 psia - (,/ pressure- = 0.45567 psia vapor pressure = volume = 277400 cu. ft. 92684.8 lbm dry air mass = i o 1 q
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HATCH UNIT 2--1989 ILRT--PRESSURIZATION ( ), data set' 16 t iene =- 1015 date = 1112 sensor raw data value temperature 1 ( 75.320 ) 75.320 deg.:-F = temperature 2 ( 75.470 ) 75.470 deg. F t = temperature 3 ( 76.720 ) 76.720 deg. F i = temperature 4 ( 76.700 ) 76.700 deg. F = t ernperat ure 5 ( 77.260 ) 77.260 dag. F = temperature 6.( 78.270 ) = 78.270 deg. F t ernperat ure 7 ( B0.580 ) = 80.580 deg. F temperature 8 ( 86.160 ) 86.160 deg. F = temperature 9 ( 95.090 ) = 95.090 deg. F temoerature 10 ( 96.050 ) = 96.050 deg. F temperature 11 ( 88.880 ) 88.880 deg. F = 3 temperature 12 ( 88.370 ) ~= 88.370 deg. F l temperature 13 ( 88.360 ) 88.360 deg. F = 88.400 deg. F I temperature 14 ( 88.400 ) = dewpoint 1 ( 68.660 ) 68.660 deg. F 0.3467 psia = 69.750 deg. F, 0.3600 psia dewpoint 2 ( 69.760 ) = 69.880 deg. F, 0.3614-psia dewpoint 3 ( 69.880 ) = 71.510 deg. F, 0.3820 psia i ' dewpoint 4 ( 71.510 ) = 71.400 deg. F, 0.3806 psia dewpoint 5 ( 71.400 ) = 83.940 deg. F, 0.5759 psia dewpoint 6 (' 83.940 ) = 71.4279 psia-j pressure 1 ( 71.4279 ) = pressure 2 ( 71.4182 ) 71.4182 psia j = 4 weighted averages, volume and air mass (~')s t ernperat ure 84.19953 deg. F = 71.42790 psia 4 pressure = 0.45941 psia L va or pressure = 277400 cu. ft. vo ume = dry air rnass 97702.4 l btn = E R l l l l -i ~ /^% t 2 %) i-f u;
L, s T HATCH UNIT 2--1989 ILRT--PRESSURIZATION .; y (/ - ' data set 17 ' time = 1030 date = 1112 sensor raw data value 74.560 deg. F temperature 1 ( 74.560 ) = temperature 2 ( 74.740 ) 74.740 deg. F = temperature 3 ( 75.910 ) 75.910 deg. F = temperature ~ 4 ( 75.850 ) 75.850 deg. F = temperature 5 ( 76.330 ) = 76.330-deg. F temperature 6 ( 77.250 ) = 77.250 deg. F temperature 7'( 79.590 ) 79.590 deD. F = temperature 8 (' 85.910 ) 85.910-deg. F = temperature -9 ( 94.230 ) = 94.230 deg. F .o3 m temperature 10 ( 95.360 ) 95.360 deg. F = temperature 11 ( 86.910 ) = 86.910 deg. F temperature 12 ( 86.660 ) = 86.660 deg. F temperature 13 ( 86.790 ) 86.790 deg. F = temperature 14 ( 86.770 ) 86.770 deg. F = dewpoint 1 ( 68.980 ) 68.980 deD. F 0.3505 psia = 69.480 deg. F, 0.3565 psia ~ dewpoint 2 ( 69.480 ) = 69.720 deg. F, 0.3595 psia dewpoint '3 ( 69.720 ) = 72.260 deg. F,, 0.3919 psia dewpoint 4 ( 72.260 ) = dewpoint 5 ( 70.810 ) 70.810 deg. F 0.3731 psia i = 83.610 deg. F,, 0.5698 psia dewpoint 6 ( 83.610 ) = pressure 1 ( 72.9475 ) 72.9475 psia = pressure. 2 ( 72.9436 ) =. 72.9436 psia weighted averages, volume and air mass' ('h temperature = 82.97381 deg. F (j pressure = 72.94750 psia 0.45699 psia vapor pressure = volume = 277400 cu. ft. dry air mass = 100023.2. Ibm 1 4 t-, / Q)
r ;.- t p< s s y HATCH UNIT 2--1989 ILRT--PRESSURIZATION . ?x- - I j' ' data set-18 'i t i rne = 1045 date = 1112 sensor raw data value t ernperat ure 1- ( 74.270 ) 74.270 deg. F = t ernperat ure 2 ( 74.170 ) 74.170 deg. F = temperature T ( 75.110.) = 75.110 deg. F temperature + ( 75.220 ) = 75.220 deg. F t ernperat ure 5 ( 75.550 ) 75.550 deg. F = temperature-6 ( 76.580 ) 76.580 deg. F = t ernperat ure 7 ( 78.610 ) 78.610 deg. F = temperature 8 ( 85.690 ) = 85.690 deg. F t ernperat ure. 9 (- 93.560 ) = 93.560 deg. F temperature 10 ( 94.930 )- 94.930 deg. F = temperature 11 ( 84.670 ) = B4.670 deg. F temperature 12 ( 84.400 ) 84.400 deg. F = temperature 13 ( 84.590 ) 84.590 deg. F = temperature 14 ( 84.620 ) 84.620 deD. F = dewpoint 1 ( 69.070 ) 69.070 deg. F 0.3516 psim = 69.400 deD. F, 0.3556 psia dewpoint 2 ( 69.400 ) = 69.650 deg. F, 0.3586 psia dewpoint 3 ( 69.650 ) = 71.800 deg. F, 0.3858 psia dewpoint' 4 ( 71.800 ) = '70.210 deg. F, 0.3655 psia dewpoint 5 ( 70.210 ) = 82.970 deg. F, 0.3582 psia dewpoint 6 ( 82.970 ) = pressure 1 ( 72.7889 ) 72.7889 psia = pressure 2 ( 72.7842') 72.7842 psia = weighted averages, volume and air rnass r"% temperature 81.63232 deg. F = pressure = 72.78890 psia 0.45036 psia vapor pressure = 277400 cu. ft. vol urne = dry air mass = 100060.9 lbm ) u ) c >Tti
E . E j i.k - s.,. BCP Technical Services,:Inc. , s, _f... f, Hatch 1989'ILRT Final Report 2f Appendix ill ] a l 4 l r t STABILIZATION DATA SET 1 j.' [ s a 3 '? a i 'LOL 4 n 4 N )
.rf-HATCH UNIT 2--1989 ILRT--STABILI7ATION h DATA
SUMMARY
REPORT . data time date temperature pressure vapor dry air set deg F psia pressure mass psia 1bm 1 1045 1112 81.6323 72.7889 0.4504 100060.9 2 1100 1112 81.1644 72.7317 0.4458 100074.5 3 1115 1112 80.8942 72.6919 0.4427 100073.8 4 1130 1112 80.6885 72.6595 -0.4402' 100070.5 5 1145 1112 80.5308 72.6311 0.4380 100063.4 -6 1200 1112 80.3945 72.6063 0.4358 100057.3 7 1215 1112 80.2844 72.5839 0.4342 100048.9 8 1230 1112 80.1845 72.5637 0.4325 100041.7 9 1245 1112 80.0972 72.5461 0.4311 100035.4 10 1300- 1112 80.0333 72.5305-0.4300 100027.1 11 1315 1112 79.9699 72.5161 0.4291 100020.1 12 1330.1112 79.9148 72.5035 0.4284 100013.9 .13 1345 1112 79.8772 72.4915 0.4282 100004.4 14 1400 1112 79.8455 72.4809 0.4275 99996.6 15 1415 1112 79.8065 72.4709-0.4273 99990.2 16 1430 1112 79.7789 72.4621 0.4265 99984.3 17 1445 1112 79.7640 72.4535 O.4263 99975.3 18 1500' 1112 79.7534 72.4457 0.4263 99966.4 19 1515 1112 79.7254 72.4385 0.4258 99962.4 20 1530 1112 79.7199 72.4311 0.4256 99954.1 9 e p 9
HATCH UNIT 2--1989 ILRT--STABILIZATION
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. (' sf data set i time = 1045 date = 1112 sensor raw data value 74.270 ) 74.270 deD. F temperature 1 (. 74.170 ) = temperature 2-( 74.170 deg. F- = t ernperat ure 3 ( 75.110 ) 75.110 deg. F = temperature 4 ( 75.220 ) 75.220 deg. F = temperature 5 ( 75.550 ) 75.550 deg. F = temperature 6 ( 76.580 ) = 76.580 deg. F L 78.610 deg. F -l temperature 7 ( 78.610 ) = temperature 8 ( 85.690 ) 85.690 dec. F = temperature 9 ( 93.560 ) 93.560 deg. F = temperature.1CF ( 94.930 ) = 94.930 deD. F temperature 11 ( 84.670 ) = 84.670 deg. F temperature 12 ( 84.400 ) 84.400 deg. F = temperature 13 ( 84.590 ) = 84.590 deg. F -i temperature 14 ( 84.620 ) 84.620 deg. F = dewpoint 1-( 69.070 ) 69.070 deg. F 0.3516 psia = 69.400 deg. F, 0.3556 psia dewpoint 2 ( 69.400 ) = G9.650 deD. F, 0.3586 psia dewpoint 3 ( 69.650 ) = 71.800 deg. F, 0.3858 psia dewpoint 4 ( 71.800-) = 70.210 deg. F, 0.3655 psia dewpoint 5 ( 70.210 ) = 82.970 deg. F, 0.5582 psia dewpoint 6 ( 82.970 ) = pressure 1 ( 72.7889 ) = 72.7889 psia pressure -2 ( 72.7842 ) = 72.7842 psia weighted averages, volume and air mass /~N temperature 81.63232 deg. F = ('") pressure = 72.78890 posa i 0.45036 psia vapor pressure = 277400 cu. ft. volume- = 100060.9 lbm J dry air mass = l (~t K_t i
m-. HATCH UNIT 2--1989 ILR7--STABILIZATION 7), -( data' set-2 - time = 1100 date = 1112 sonsor raw data value 74.170 deg. F. I temperature 1 ( 74.170 ) = 74.080 deg. F temperature 2 ( 74.080 ) =- 74.990 deg.'F temperature 3 ( 74.990 ) = 75.080 deg. F temperature 4 :( 75.080 ) = 75.350 deg.-F temperature 5 ( 75.350') a-75.440 deg. F temperature 6 ( 76.440 ) = i 78.390 deg. F temperature 7 ( 78.390 ) = F temperature 8 ( 85.710 ) 85.710-deg. F = 93.440 deg. F temperature 9 ( 93.440 ) = temperature 10 ( 94.850 ) 94.850 deg. F = 83.770 deg. F temperature 11 ( 83.770 ) = temperature 12 ( 83.560 ) = 83.560 deg. F temperature 13 ( 83.670 ) = 83.670 deD. F temperature 14-( 83.740 ) = 83.740 deg. F dewpoint 1' ( -69.080 )' = 69.080 deg. F 0.3517 psia 69.430 deg. F,, 0.3559 psia dewpoint 2 ( 69.430 ) = 4 F,-0.3587 psia dewpoint 3 -( 69.660 ) 69.660 deg. F 1 = dewpoint 4 ( 71.'140 ) 0.3773 psia 71.140 deg. = 69.980 deg. F, 0.3627 psia dewpoint 5 ( 69.980 ) = i 82.550 deg. F,, 0.5507 psia dewpoint 6 (. 82.550 ) = i pressure 1 ( 72.7317 ) 72.7317 psia = 72.7272 psia pressure 2 ( 72.7272 ) = weighted averages, volume and air mass (~)j -- temperature /~ 81.16439 deg. F = pressure = 72.73170 psia j 0.44583 psia i vapor pressure = 277400~cu. ft. ) volume = 100074.5 lbm I dry air mass = i L l y i l \\ j I l ($ 'Ys l t at
HATCH UNIT 2--1989 ILRT--STABILIZATION g.() data set 3 -i t i rne = 1115 date = 1112 -sensor raw data value temperature 1 ( 74.100 ) 74.100 deg. F = temperature 2-(- 74.050 ) = 74.050 deg. F-74.880 deg. F temperature 3 ( 74.880 ) = t ernperat ure 4 ( 75.010 ) = 75.010 deg. F temperature 5 ( 75.310 ) 75.310 deg. F = temperature 6 ( 76.370 ) 76.370 deg. F = t eroperat ure 7~(- 78.280 ) = 78.280 deg. F temperature 8 ( 85.760 ) = 85.760 deg. F temperature 9 ( 93.390 ) = 93.390 deg. F temperature 10 ( 95.120 ) 95.120 deg. F = temperature 11 ( 83.210 ) 83.210 deg. F = temperature 12 ( 83.030 ) 83.030 deg. F = temperature 13 ( 83.110 ) 83.110 deg. F = t ernperat ure 14-( 83.180 ) 83.180 deg. F = dewpoint 1 ( 69.020 ) 69.020 deg. F,.O.3510 psia-F = dewpoint 2 ( 69.440 ) 69.440 deg. 0.3560 psia = 69.800 deg. F, 0.3605 psia dewpoint 3 ( 69.800') = 70.790 deg. F, 0.3728 psia dewpoint 4 ( 70.790 ) = 69.870 deg. F, 0.3613 psia dewpoint 5 ( 69.870 ) = 82.210 deg. F, 0.5446 psia dewpoint 6 ( 82.210 ) = pressure 1 ( 72.6919 ) 72.6919 psia = pressure 2 ( 72.6875 ) 72.6875. psia = weighted averages, volutne and air raass /~hi temperature 80.89416 deg. F = -(,/ pressure = 72.69190 psia 0.44270 psia vapor pressure- = 277400 cu. ft. vol utne = 100073.8.1bm dry air mass = 1 .I J v
p~ l A d i p HATCH UNIT 2--1989 ILRT--STABILIZATION '/-,4 s j data set 4 j otime = 1130 date = 1112 l sensor raw data value q 74.050 deg. F t ernperat ure 1 ( 74.050 ) = temperature 2 ( 74.010 ) 74.010 deg. F = temperature 3-( 74.870 ) 74.870 deg. F = temperature 4 ( 74.970 ) 74.970 deg. F- = temperature 5 ( 75.270 ) 75.270 deg. F i = temperature 6 ( 76.250 ) 76.260 deg. F = 78.230 deg. F temperature 7 ( 78.230 ) = temperature 8 ( 85.830.) 85.830 deg. F = temperature 9 ( 93.390 ) 93.390 deg. F = e temperature 10 ( 95.310 ) = 95.310 deg. F temperature 11 ( 82.790 ) 82.790 deg. F temperature 12 ( 82.600 ) e 82.600 deg. F temperature 13 ( 82.680 )- = 82.680 deg. F temperature 14 ( 82.740 ) 82.740 deg. F = dewpoint 1 ( 69.100 ) 69.100 deg. F 0.3519 psia = 69.410 deg. F,, 0.3557 psia dewpoint 2 ( 69.410 ) = dewpoint 3. ( 69.830 ) = 69.830 deg. F 0.3608 psia 70.590 deg. F, 0.3703 psia dewpoint 4 ( 70.590 ) = 69.Y90 deg. F, 0.3603 psia dewpoint 5 ( 69.790 ) = 81.920 deg. F, 0.5395 psia dewpoint 6 ( 81.920 ) = pressure 1 ( 72.6595 ) = 72.6595 psia pressure 2 ( 72.6548 ) 72.6548 psia = weighted averages, volume and air mass (' . temperature !.,N 80.68848 deg. F = 72.65950 psaa '~ f pressure = 0.44017 psia vapor pressure = volume = 277400 eu, ft, 100070.5 lbm dry air mass = f Y' )
P t HATCH UNIT 2--1989 ILRT--STABILIZATION . ~s. ' / )i -(L . data set 5 time ~= 1145 date = 1112 sensor raw data value u-t ernperat ure l' ( 74.040 ) 74.040 deg. F = " r temperature 2 ( 73.980 ) 73.980 deg. F = 6 t ernperat ure 3 ( 74.840 ) = 74.840 deg. F temperature 4 ( 74.940 ) 74.940 deg. F = temperature 5 (- 75.250 ) 75.250 deg. F = temperature 6 ( 76.270 ) = 76.270 deg. F temperature 7 (- 78.230 ) = 78.230 deg. F temperature 8 ( 85.920 ) = 85.920 deg. F temperature 9 ( 93.410 ) = 93.410 deg. F - temperature 10-( 95.480 ) 95.480 deg. F = temperature 11'(. 82.430 ) = 82.430 deg. F-temperature 12 ( 82.240 ) 82.240 deg. F = temperature 13 ( 82.320 ) = 82.320 deg. F temperature 14 ( 82.370 ) 82.370 deg. F = dewpoint 1 -( 69.140 ) 59.140 deg. F 0.3524 psia = 69.440 deg. F, 0.3560 psia dewpoint-2 ( 69.440 ) = 69.830 deg. F, 0.3608 psia dewpoint 3 (- 69.830 ) = 70.470 deD. F, 0.3688 psia dewpoint 4 ( 70.470 ) = 69.790 deg. F, 0.3603 psia dewpoint-5 ( 69.790 ) = 81.650 deg. F, 0.5348 psia dewpoint 6 (- 81.650 ) = pressure 1 ( 72.6311 ) = 72.6311 psia pressure 2 ( 72.6266 ) = 72.6266 psia weighted averages, volume and air mass ji temperature 80.53084'deg. F-t = 72.63110 psia (_/- pressure = 0.43798 psia vapor pressure = 1 277400 cu. ft. volume = dry air mass 100063.4 lbm = e t '? ~ ( l-
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- (,[
data set 6 time =-1200 date = 1112 sensor raw data value temperature 1 ( 74.010 ) 74.010 deg. F = temperature 2 ( 73.960 ) 73.960 deg. F = temperature 3 ( 74.800 ) 74.800 deg. F = temperature 4 ( 74.920 ) = 74.920 deg. F temperature 5 ( 75.250 ) 75.250 deD. F = t ernperat ure 6-( 76.260 ) = 76.260 deg. F temperature 7 ( 78.240 ) = 78.240 deg. F temperature 8 ( 86.020 ) 86.020 deg. F = temperature 9 _( 93.440 ) 93.440 deg. F = temperature 10 ( 95.620 ) 95.620 deg. F = temperature 11 ( 82.110 ) = 82.110 deg. F temperature 12 ( 81.930 ) 81.930 deg. F = temperature 13 ( 82.000 ) 82.000 deg. F = -temperature 14 ( 82.060 ) 82.060 deg. F = dewpoint 1 ( 69.130 ) 69.130 deD. F, 0.3523 psia = dewpoint 2 ( 69.460 ) 69.460 deg. F 0.3563 psia = 69.850 deg. F, 0.3611 psia dewpoint 3 ( 69.850 ) = 70.410 deg. F,, 0.3680 psia dewpoint 4 ( 70.410 ) = dewpoint 5 ( 69.810 ) = 69.810 deg. F 0.3606 psia 81.370 deg. F, 0.5300 pr.ta dewpoint 6 ( 81.370 ) = pressure 1 ( 72.6063 ) 72.6063 psia = pressure 2-( 72.6017 ) 72.6017 psia = weighted averaDes, volume and air rnass r~T temperature 80.39452 deg. F = 72.60630 psia g) pressure = 0.43580 psia vapor pressure = volume = 277400 cu. ft. dry air mass 100057.3 lbm = .,ws ..i F i I HATCH UNIT 2--1989 ILRT--STABILIZATION .-( f data set 7-time = 1215 date = 1112 sensor raw data value temperature 1 ( 74.030 ) 74.030 deg. F = 73.960 deg. F temperature. 2 ( 73.960 ) = 74.800 deg. F temperature 3 ( 74.800 ) = 74.890 deg. F temperature 4 ( 74.890 ) = 75.240 deg. F temperature-5 ( 75.240 )- = 76.250 deg. F temperature 6 ( 76.250 ) = 78.270 deg. F temperature 7 ( 78.270 ) = B6.100 deg. F temperature 8 ( 86.100 ) = temperature-9 ( 93.470 ) = 93.470 deg. F temperature 10 ( 95.830 ) 95.830 deg. F = temperature 11 ( 81.840-) = 81.840 deD. F temperature 12 ( 81.660 ) 81.660 deg. F = temperature 13 ( 81.720 ) = 81.720 deD. F temperature 14 ( 81.790 ) 81.790 deg. F = dewpoint 1 ( 69.200 ) 69.200 dog. F, 0.3531 psia = dewpoint 2 ( 69.440 ) 69.440 deg. F, 0.3560 psia. = dewpoint 3 ( 69.860 ) 69.860 deg. F 0.3612 psia = 70.420 deg. F, 0.3682 psia dewpoint 4 ( 70.420 ) = 69.840 deg. F, 0.3609 psia dewpoint 5 ( 69.840 ) = 81.140 deg. F,, 0.5260 psia dewpoint 6 ( 81.140 ) = 7P,5839 psia pressure 1 ( 72.5839 ) = pressure 2 ( 72.5791 ) 72.5791 psia = weighted averages, volume and air mass (N temperature 80.28438 deg. F = (',) ', pressure = 72.58390 psia 0.43416 psia vapor pressure = 277400 cu. ft. volume = dry air mass 100048.9 lbm = r e r 5 L HATCH UNIT 2--1989 ILRT--STABILIZATION -,x j data set 8 time = 1230 date = 1112 sensor raw data value 74.030 deg. F temperature-1 ( 74.030 ) = 73.950 deg. F temperature 2 ( 73.950 ) = 74.760 deg. F t ernperat ure 3 ( 74.750 ) = 74.890 deg. F temperature 4 ( 74.890 ) = t emperat ure' 5 ( 75.240 ) = 75.240 deD. F 76.310 deD. F temperature 6 ( 76.310 ) = temperature 7 ( 78.300 ) 78.300 deg. F = temperature 8 ( 86.200 ) 86.200 deg. F = 93.530 deg. F temperature 9 ( 93.530 ) = 95.750 deg.- F temperature 10 ( 95.750 ) = 81.600 deg. F temperature 11 ( 81.600 ) = 81.420 deg. F temperature 12 ( 81.420 ) = 81.470 deg. F temperature 13 ( 81.470 ) = 81.540 deg. F temperature 14 ( 81.540 ) = dewpoint 1 ( 69.210 ) 69.210 deg. F, 0.3533 psia = 69.470 deg. F, 0.3564 psia dewpoint 2 ( 69.470 ) = 69.870 deg. F, 0.3613 psia dewpoint 3 ( 69.870 ) = 70.320 deg. F, 0.3669 psia dewpoint 4 ( 70.320 ) = dewpoint 5 ( 69.860 ) = 69.860 deg. F, 0.3612 psia 80.930'deg. F, 0.5224 psia dewpoint 6 ( 80.930 ) = pressure 1 ( 72.5637 ) 72.5637 psia = pressure 2 ( 72.5590 ) = 72.5590 psia weighted averages, volume and air mass 80.18449 deg. F r~s temperature = t ) pressure 72.56370 psia = \\' 0.43251 psia vapor pressure = volume = 277400 cu. ft.- 100041.7 lbm dry air mass = a U l U i l' B ~ . HATCH UNIT 2--1989 ILRT--STABILIZATION ' i,) data set 9 time = 1245 date = 1112-sensor raw data value temperature 1 ( 74.010 ) = 74.010 deD. F temperature 2 ( 73.950 ) =- 73.950 deg. F . temperature 3 ( 74.770 ) 74.770 deD. F = temoerature 4 ( 74.860 ) 74.860 deg. F = temperature 5 ( 75.250 ) 75.250 deg. F = temperature 6 ( 76.250 ) = 76.250 deg. F . temperature 7- ( 78.350 ) = 78.350 deD. F temperature 8 ( 86.310 ) 86.310 deg. F = temperature 9 ( 93.550 ) 93.550 deg. F = t eroperat ure 10 ( 96.120 ) 96.120 deg. F = temperature 11 ( 81.370 ) = 81.370 deD. F temperature 12 ( 81.190 ) 81.190 deg. F = . temperature 13 ( 81.230 ) 81.230 deg. F = temperature 14 ( 81.330 ) 81.330 deg. F = dewpoint 1 ( 69.210 ) 69.210 deg. F 0.3533 psia = 69.490 deg. F, 0.3567 psia dewpoint 2 ( 69.490 ) = 69.890 deg. F, 0.3616 psia. dewpoint 3 ( 69.890 ) = 70.290 deg. F, 0.3665 psia dewpoint 4 ( 70.290 ) = 69.890 deg. F,, 0.3616 psia dewpoint 5 ( 69.890 ) = dewpoint 6 ( 80.740 ) = 80.740 deg. F 0.5192 psia pressure 1 ( 72.5461 ) 72.5461 psia = pressure 2 ( 72.5414 ) 72.5414 psia = weighted averages, volume and air mass l] temperature 80.09721 deg. F = 72.54610 psia a,/ pressure = s 0.43112 psia sna or pressure = 277400 cu. ft. vo ume = dry air mass 100035.4 lbm = 'v' L E HATCH UNIT 2--1989 ILRT--STABILIZATION 'c 10 ,L -data set m/ N time = 1300 date = 1112 sensor raw data value temperature 1 ( 74.020 ) = 74.020 deg. F temperature 2 ( 73.930 ) 73.930 dog. F = temperature 3 ( 74.800 ) 74.800'deD. F = temperature 4 ( 74.870 ) 74.870 deg. F = temperature 5 ( 75,270 ) 75.270 deg. F = temperature 6 ( 76.250 ) = 76.250 deD. F temperature 7 ( 78.460 ) = 78.460 deg..F temperature 8 ( 86.420 ) = 86.420 deg. F temperature 9 (- 93.640 ) 93.640 deg.-F = temperature 10 ( 96.350 ) = 96.350 deg. F temperature 11 ( 81.160 ) = 81.160 deg. F temperature 12 ( 80.990 ) = 80.990 deg.-F temperature 13.( 81.020 ) = 81.020 deg. F temperature 14 ( 81.130 ) = 81.130 deg. F dewpoint 1 ( 69.290 ) = 69.290 deD. F 0.3542 psia 69.530 deg. F,, 0.3571 psia dewpoint 2 ( 69.530 ) = dewpoint 3 ( 69.900 ) = 69.900 deD. F 0.3617 psia 70.270 deg. F,, 0.3663 psia dewpoint 4 ( 70.270 ) = dewpoint 5 ( 69.880 ) 69.880 deg. F-0.3614 psia = 80.580 deg. F, 0.5165 psia ~ dewpoint 6 ( 80.580 ) = pressure 1 ( 72.5305 ) =- 72.5305 psia pressure 2 ( 72.5259 ) = 72.5259 psia { weighted averages, volume and air mass 1r's = temperature 80.03333 deg. F = tk j-pressure = 72.53050 psia 0.43004 psia vapor pressure = 277400 cu. ft, volume = dry air mass 100027.1 lbm = e l l ~ 1 .,, 3 l y (E a, HATCH UNIT 2--1989 ILRT--STABILIZATION s.
- , \\ _,b data set, 11 time = 1315 date = 1112 sensor raw-data value-temperature 1 (
74.020 ) = -74.020 deD. F temperature 2 ( 73.930 ) 73.930 deg. F = -temperature 3 ( 74.760 ) 74.760 deg. F = temperature 'A ( 74.870 ) 74.870 deg. F = temperature 5 ( 75.280 )- 75.280 deD. F = temperature 6 ( 76.270 ) 76.270 deg. F = . temperature 7 ( 78.570 ) = 78.570 deD. F temperature 8. (- 86.550 ) 86.550 deg. F = temperature 9 ( '93.720 ) = 93.720'deD. F temperature 10 ( 96.300 ) 96.300 deg. F = temperature 11 ( 80.990 ) 80.990 deg. F = temperature 12 ( 80.810 ) = 80.810 deg. F temperature 13 ( 80.840 ) = 80.840 deg. F temperature 14 ( 80.940 )- 80.940 deg. F = dewpoint 1 ( 69.270 ) 69.270 deg. F 0.3540 psia = 69.570 deg. F,, 0.3576 psia dewpoint 2 ( 69.570 )- = dewpoint 3 ( 69.900 ) 69.900 deg. F 0.3617 psia = 70.340 deg. F, 0.3672 psia dewpoint 4 ( 70.340 ) = 69.950 deg. F, 0.3623 psia dewpoint 5 ( 69.950 ) = 80.430 deg. F,, 0.5140 psia 1 dewpoint 6 (. 80.430 ) = 1 -pressure-1 ( 72.5161 ) 72.5161 psia = pressure 2 ( 72.5117 ) 72.5117 psia = weighted averages, volume and air mass (~N temperature 79.96988 deg. F = s,) pressure = 72.51610 psia vapor pressure = 0.42911 psia i volume = 277400 cu. ft. dry air mass = 100020.1 lbm 1 a 1 l [~'N d p-i L HATCH UNIT 2--1989 ILRT--STABILIZATION. ij data set 12 a time.= 1330 -date = 1112 sensor raw data value temperature 1 ( 74.040 ) 74.040 deg. F = temperature 2 ( 73.930 ) 73.930 deg. F = temperature 3 ( 74.710 ) = 74.710 deg. F temperature 4 ( 74.860 ) = 74.860 deg. F temperature 5 ( 75.310 ) = 75.310 deg.-F temperature 6 ( 76.220 ) = 76.220 deg. F t ernperat ure 7 ( 70.670 ) 78.670 deg. F = temperature 8 ( 86.690 ) = 86.690 deg. F t ernperat ure 9 ( 93.800 ) = 93.800 deg. F t eroperat ure 10 ( 96.520 ) 96.520 deg. F = temperature 11 ( 80.820 ) = 80.820 deg. F teroperature 12 ( '80.650 ) = 80.650 deg. F t ernperat ure 13 ( 80.650 ) = 80.650 deg. F temperature 14 ( B0.780 ) = 80.780 deg. F dewpoint 1 ( 69.340 ) = ' 69.340 deg. F 0.3548 psia 69.590 deg. F, 0.3579 psia dewpoint 2 ( 69.590 ) = 69.940 deg. F,, 0.3622 psia dewpoint 3 ( 69.940 ) = dewpoint 4 ( 70.350 ) 70.350 deg. F 0.3673 psia = 69.970 deg. F, 0.3626 psia dewpoint 5 ( 69.970 ) = 80.300 deg. F,, 0.5118 puia dewpoint 6 ( 80.300 ) = pressure 1 ( 72.5035 ) 72.5035 psia = pressure 2 ( 72.4989-) 72.4989 psia = weighted averages, volume and air rnass ['j N t eroperat ure 79.91480 deg. F = 72.50350 pssa s pressure = 0.42836 psia vapor pressure =- volume = 277400 cu. ft. dry air mass 100013.9 lbm = 7's ~ ss l m HATCH UNIT 2--1989 ILRT--STABILIZATION Ji data set 13 s time = 1345 date = 1112 sensor raw data value temperature 1 (- 74:040 ) 74.040 deg. F = temperature 2 ( 71."30 ) 73.930 deg. F = temperature 3 ( 74.780 ) 74.780 deg. F = temperature 4 ( 74.870 ) 74.870 deg. F = temperature 5 (- 75.320 ) = 75.320 deg. F temperature 6-( 76.310 ) -76.310 deg. F = t einperat ure 7 ( 78.780 ) 78.780 deg. F = temperature 8 ( B6.850 ) = 86.850 deg. F t ernperat ure 9 ( 93.910 ) = 93.910 deg. F temperature 10 ( 96.650 ) = 96.650 deg. F temperature 11 ( 80.640 ) 80.640 deg. F = temperature 12 ( 80.480 ) = 80.480 deD. F t eroperat ure 13 ( 80.500 ) 80.500 deg. F = temperature 14 ( 80.620 ) 80.620 deg. F = dewpoint 1 ( 69.460 ) 69.460 deg. F 0.3563 psia = 69.660 deg. F, 0.3587 psia dewpoint 2 ( 69.660 ) = 70.000 deD. F 0.3629 psia ^ dewpoint 3 ( 70.000 ) = 70.410 deg. F, 0.3680 psia dewpoint 4 ( 70.410 ) = 70.030 deg. F, 0.3633 psia dewpoint 5 (.70.030 ) = 80.210 deg. F,, 0.5103 psia dewpoint 6 ( 80.210 ) = pressure 1-( 72.4915 ) 72.4915 psia = 72.4873 psia pressure 2. ( 72.4873 ) = weighted averages, volume and air inass 79.87724 deg. F /^3 temperature = 72.49150 psia i-pressure = 5/ 0.42819 psia vapor pressure = 277400 cu. ft. volume = 100004.4 lbm dry air mass = m \\ L l n I HATCH UNIT 2--1989 ILRT--STABILIZATION 's 'f data set. 14 time = 1400 date = 1112 sensor raw data value temperature 1 ( 74.060 ) = 74.060 deg. F 73.950 deg. F temperature 2 ( 73.950 ) = temperature 3 ( 74.760 ) 74.760 deg. F = 74.880 deg. F temperature 4 ( 74.880 ) = temperature 5 ( 75.350 ) = 75.350 deD. F temperature 6 ( 76.340 ) 76.340 deg. F = temperature 7 ( 78.910 ). = 78.910 deD. F . temperature 8 (. 86.980 ) 86.980 deg. F = temperature '9 ( 94.020 ) 94.020 deg. F = temperature 10 ( 96.770 ) 96.770 deg. F = temperature-11 ( 80.500 ) = 80.500 deg. F temperature 12 ( 80.350 ) = 80.350 deg. F 80.360 deg. F temperature 13 ( 80.360 ) = temperature 14 ( 80.470 ) = 80.470 deg. F dewpoint l' ( 69.470 ) 69.470 deD. F 0.3564 psia = 69.670 deD. F, 0.3589 psia dewpoint 2 ( 69.670 ) = 69.950 deg. F, 0.3623 psia dewpoint 3 ( 69.950 ) = 70.420 deg. F,, 0.3682 psia-dewpoint 4 ( 70.420 ) = dewpoint 5 ( 70.060 ) 70.060 deg. F 0.3637 psia = 80.120 deg. F, 0.5088 psia dewpoint 6 ( 80.120 )' = pressure 1 ( 72.4809 ) = 72.4809 psia pressure 2 ( 72.4766 ) 72.4766 psia = weighted averages, volume and air mass r /~N temperature 79.84547 deg. F = x_) 72.48090 psia pressure = 0.42750 psia vapor pressure = 277400 cu. ft, volume = dry air mass-99996.6 lbm = 1 l 7-(.J l 1 !^ f rv ~ UI; f h m HATCH UNIT 2--1989 ILRT--STABILIZATION .. s ,.( ' data' set 15 time = 1415 date = 1112 sensor raw data value temperature 1 ( 74.060 ) = 74.060 deg. F temperature 2-( 73.940 ) 73.940 deg. F = Q t ernperat ure 3 ( 74.750 ) 74.750 deg. F = ' temperature 4 ( 74.870 ) = 74.870 deg. F temperature 5 ( 75.370 ) 75.370'deg. F = temperature 6 ( 76.300 ) = 76.300 deg. F temperature 7 ( 79.020 ) 79.020 deg. F temperature 8 ( 87.120 ) 87.120 deg. F = t ernperat ure - 9 ( 94.140 ) 94.140 deg. F = temperature 10 ( 96.820 ) 96.820 deg. F = 80.370-deD. F t ernperat ure 11 (. 80.370 ) = temperature 12 ( 80.220 ) 80.220 deg. F = temperature 13 ( 80.220 ) 80.220 deg. F = temperature 14 ( 80.350 ) 80.350 deg. F = _ dewpoint 1 ( 69.490 ) F,LO.3567 psia 69.490 deg. F = 0.3595 psia dewpoint 2 ( 69.720 ) = 69.720 deD. 70.070 deg. F,, 0.3638 psia dewpoint 3 ( 70.070 ) = dewpoint 4 ( 70.440 ) = 70.440 deg. F 0.3684 psia 70.110 deg. F,, 0.3643 psia dewpoint 5 ( 70.110 ) = dewpoint 6 ( 80.040 ) 80.040 deg. F, 0.5075 psia = pressure 1 ( -72.4709 ) = 72.4709 psia pressure 2 ( 72.4669 ) = 72.4669 psia weighted averages, volume and air taass . /~'% temperature 79.80647 deg. F = 72.47090 psia 1 / pressure = 0.42730 psia . vapor pressure = volume = 277400 cu. ft. dry air inass 99990.2 lbm = t r f 5 l Q ,+ HATCH UNIT 2--1989 ILRT--STABILIZATION ~ data set 16-t ilne = 1430 date = 1112 sensor raw data value 74.110 deg. F t emperat ure 1 ( 74.110 ) = 73.960 deg. F temperature 2 ( 73.960 ) = 74.790 deg. F T! temperature 3~( 74.790 ) = temperature 4 ( 74.890 ) = 74.890-deg. F temperature 5-( 75.390 ) = 75.390 deg. F 76.280 deg. F temperature ~ 6 ( 76.280 ) = temperature 7 ( 79.130 ) 79.130 deg..F = temperature 8 ( 87.290 ) 87.290 deg. F = temperature 9-( 94.270 ) 94.270~deg. F = . temperature 10 ( 96.750 ) 96.750 deg. F = temperature 11 ( 80.250 ) 80.250 deg. F = temperature 12 ( 80.100 ) 80.100 deg. F = temperature 13 ( 80.110 ) 80.110 deg.- F = temperature 14 (- 80.210 ) 80.210 deD. F. = dewpoint 1 ( 69.520 ) 69.520 deg. F 0.3570 psia 1 = 69.730 deg. F,, 0.3596 psia dewpoint 2 ( 69.730 ) = dewpoint 3 ( 69.970 ) 69.970 deD. F 0.3626 psia j = 70.460 deg. F,, 0.3687 psia dewpoint 4 ( 70.460 ) = . dewpoint 5 ( 70.190 ) 70.190 deg. F 0.3653 psia = 79.930 deg. F,, 0.5057 psia dewpoint 6 ( 79.930 ) = pressure 1 ( 72.4621 ) = 72.4621 psia pressure 2 ( 72.4578 ) 72.4578 psia = weighted averages, volume and air mass N ' temperature 79.77894 deg. F = '-') pressure = 72.46210 psia 0.42646 psia vapor pressure = 277400 cu. ft. volume = dry air mass 99984.2 lbm = } ~ t l 1 y-(.. HATCH UNIT 2--1989 ILRT--STABILIZATION- )f data set 17 ' t time = 1445 date = 1112 sensor raw data value 74.110 deg. F temperature 1 ( 74.110 ) = temperature 2 ( 73.980 ) 73.980 deg. F = 74.780 deg. F temperature 3 ( 74.780 ) = 74.930 deg. F temperature 4 ( 74.930 ) = 75.430 deD. F temperature 5 ( 75.430 ) = 76.350 deg. F temperature-6 ( 76.350 ) = 79.260 deg. F temperature 7 (- 79.260 ) = temperature 8 ( 87.450 ) 87.450 deg. F = 94.390 deg. F temperature 9 ( 94.390 ) = temperature 10 ( 96.690 ) 96.690 deg. F = temperature 11 ( 30.140 ) = 80.140 deg. F i temperature 12 ( 79.980 ) 79.980 deg. F = 80.010 deg. F t emperat ure 13 ( 80.010 ) = temperature 14 ( 80.120 ) = 80.120 deg. F-69.560 deD. F, 0.3575 psia dewpoint 1 ( 69.560 ) = 69.790,deg. F 0.3603 psia dewpoint 2 ( 69.790 ) = 70.000 deg. F, 0.3639 psia dewpoint 3 ( 70.080 ) = 70.460 deg. F, 0.3687 psia dewpoint 4 ( 70.460-) = 70.220 deD. F,, 0.3657 psia dewpoint 5 ( 70.220 ) = dewpoint 6 ( 79.860 ) 79.860 deg. F, 0.5045 psia = pressure 1 ( 72.4535 ) 72.4535 psia = pressure' 2 ( 72.4494 ) = 72.4494 psia weighted averages, volume and air mass ' ('T temperature 79.76397 deg. F = ( '/ pressure 72.45350 psia = 0.42630 psia ~ vapor pressure = 277400 cu. ft. volume = dry air mass- = 99975.3 lbm T!' HATCH UNIT 2--1989 ILRT--STABILIZATION
- ,-y data set 18 time = 1500 date = 1112 sensor raw data value j
74.140 deg. F temperature 1 ( 74.140 ) = 73.980 deg..F temperature 2 ( 73.980 ) = 74.820'deg. F temperature 3 ( 74.820 ) = 74.960 deg. F~ temperature 4 ( 74.960 ) = 75.450 deg. F temperature 5 ( 75.450 ) = 76.320 deg. F temperature 6.( 76.320 ) = 79.400 deg. F temperature 7 ( 79.400 ) = 87.620 deg. F temperature 8 ( 87.620 ) = temperature 9 ( 94.530 ) 94.530 deg. F = temperature 10 ( 96.920 ) = 96.920 deg. F-80.040 deg.'F temperature 11 ( 80.040 ) = 79.880 deg. F temperature 12 ( 79.880 ) = 79.900 deg. F temperature 13 ( 79.900 ) = 80.010 deg. F temperature 14 ( 80.010 ) = 69.640 deg. F 0.3585 psia dewpoint 1 ( 69.640 ) = 69.870 deg. F 0.3613 psia dewpoint 2 ( 69.870 ) = 70.140 deg. F,, 0.3647 psia dewpoint 3 ( 70.140 ) = 70.520 deg. F 0.3694 psia dewpoint 4 ( 70.520 ) = 70.270 deg. F, 0.3663 psia dewpoint 5. ( 70.270 ) = 79.800 deg. F, 0.5035 psia dewpoint 6 ( 79.800 ) = 72.4457 psia pressure 1 ( 72.4457 ) = 72.4416 psia pressure 2 ( 72.4416 ) = weighted averages, volume and air mass /~'I temperature 79.75343 deg. F = 72.44570 psia / pressure = 0.42631 psia vapor pressure = 277400 cu. ft, volume = 99966.4 lbm dry air mass = j\\ ,s/ a y L i HATCH UNIT 2--1989 ILRT--STABILIZATION-E data. set 19 ~ time = 1515 date = 1112 i sensor raw data value temperature 1 ( 74.130 ) = 74.130 deD. F temperature 2 ( 73.970 ) = 73.970 deg. F temperature 3 ( 74.830 ) = 74.830 deD. F temperature 4 ( 74.950 ) 74.950 deg. F = temperature 5 ( 75.480 ) = 75.480 deg. F temperature ~6 ( 76.320 ) 76.320 deD. F = temperature 7 ( 79.520 ) 79.520 deg. F = temperature 8 ( 87.750 ) 87.750 deD. F = temperature 9 ( 94.620 ) = 94.620 deg. F temperature 10 ( 96.670 ) = 96.670 deg. F 79.940 deg. F temperature 11 ( 79.940 ) = temperature 12 ( 79.800 ) = 79.800 deg. F temperature 13 ( 79.800 ) = 79.800=deD. F temperature 14 ( 79.920 ) = 79.920 deg. F ' dewpoint 1. ( 69.630 ) 69.630 deg. F 0.3586 psia = 69.850 deg. F,, 0.3611 psia dewpoint 2-( 69.850 ) = 70.140 deg. F 0.3647 psia dewpoint 3 ( 70.140 ) = dewpoint 4 ( 70.550 ). = - 70.550 deD. F,, 0.3698 psia 70.360 deg. F-0.3674 psia-dewpoint 5 (- 70.360 ) = 79.710 deg. F,, 0.5020 puia dewpoint 6 ( 79.710 ) = pressure 1 ( 72.4385 ) = 72.4385 psia pressure 2 ( 72.4342 ) = 72.4342 psia weighted averages, volume and air mass (~N ' temperature 79.72539 deg. F = 72.43850 psia (~j pressure = = vapor pressure 0.425'5 psia volume = 277400 cu. ft. 99962.4 lbm dry air mass = t \\ 4 L,I .4 a _ HATCH UNIT 2--1989 ILRT--STABILIZATION ,,' ) data set 20 time = 1530 date a 1112 sensor raw data value temperature 1 ( 74.200 )
- 74. 200 deg. F
= temperature 2 (
- 74. 010 )
- 74. 010 deg. F
= temperature 3 ( 74.850 ) =
- 74. 850 deg. F temperature 4 (
74.970 ) =
- 74. 970 deg. F
' temperature 5 ( 75.510 )
- 75. 510 deg. F
= temperature 6 ( 76.360 )
- 76. 360 deD. F
=
- 79. 650 deD. F temperature 7 (
79.650 ) = temperature 8-( 87.880 ) =
- 87. 880 deg. F temperature 9 (
94.750 ) 94.750 deg. F = temperature 10 ( 96.610 )
- 96. 610 deD. F
= temperature 11 ( 79.860 )
- 79. 860 deg. F
= temperature 12 ( 79.710 ) = 79.710 deg. F temperature 13 - ( 79.710 ) = 79.710 deg. F temperature 14 ( 79.830 )
- 79. 830 deg. F i
= dewpoint 1 ( 69.630 ) =
- 69. 63v deg. F 0.3584 psia 69.900 deg.
F, 0.3617 psia dewpoint 2 ( 69.900 ) =
- 70. 210 deg.
F, 0.3655 psia dewpoint 3 ( 70.210 ) = 70.610 deg. F,, 0.3705 psia dewpoint 4 ( 70.610 ) = dewpoirat 5 ( 70.400 )
- 70. 400 deg.
F, 0.3679 psia = dewpoint 6 ( 79.650 ) 79.650 deD. F, 0.5011 psia = pressure 1 ( 72.4317 ) = 72.4317 psia pecasure. 2 ( 72.4276-) 72.4276 poia = weighted averaDen, volume ~and air mass f~~N temperature 79.71592 deg. F = .'-)- pressure = 72.43170 pula vapor pressure = 0.42563 psia 277400 cu. ft, volume = dry air mass 99954.1 lbm = I' f ,,/ s x .' I. t g Y ' E 9"r - BCP Technical Services, Inc. g Hatch 1989 lLRT Final Report l
- Ql Appendix-III i
i U l 1 '1 u. i TYPE A TEST DATA SET j l-i l 1 .f e e F 1 t ? Ob f + l HATCH UNIT-2--1989'ILRT--TYPE A TEST [} DATA
SUMMARY
REPORT data time date temperature pressure vapor dry air set deg F psia pressure mass psia lbm 1 1530 1112 79.7199 72.4317 0.4256 99954.1 -2 1545 1112 79.7231 72.4253 0.4259 99944.3 3 1600 1112 79.7223 72.4197 0.4256 99937.1 4 1615 1112 79.7239 72.4141 0.4256 99929.0 5 1630 1112 79.7190 72.4091 0.4257 99922.8 6 -1645 1112 79.7333 72.4043 0.4258 99913.4 7 1700 1112 79.7322 72.3997 0.4261 99906.7 8 1715 1112 79.7482 72.3957 O.4262 99898.1 9 1730 1112 79.7643 72.3915 0.4262 99889.3 10 1745 1112 79.7725 72.3879 0.4264 99882.6 11 1800 1112 79.7778 72.3841 0.4263 99876.5 12 1815-1112 79.7954 72.3807 0.4269 99867.6 13 1830 1112 79.8140 72.3771 0.4269 99859.1 14 1845 1112 79.8308 72.3739 0.4270 99851.5 15 1900 1112 79.8556 72.3707 0.4272 99842.1 16 1915 1112 79.8733 72.3679 0.4275 99834.6 17 1930 1112 79.8962 72.3649 0.4274 99826.3 18 1945-1112 79.9132 72.3623 0.4273 99819.7 19 2000 1112 79.9337 72.3597 0.4278 99811.6 20 2015 1112 79.9542 72.3569 0.4279 99803.7 21 2030 1112 79.9682 72.3545 0.4283 99797.4 22 2045 1112 79.9995 72.3521 0.4285 99787.9 23-2100 1112 80.0221 72.3499 0.4285 99780.8-24 2115 1112 80.0371 72.3475 0.4289 99774.1 25 2130 1112 80.0636 72.3453. O.4288 99766.2 26 2145 1112 80.0907 72.3433 0.4288 99758.5 27 2200 1112 80.1125 72.3409 0.4296 99750.0 28 2215 1112 80.1402 72.3391 0.4298 99742.1 29 2230 1112 80.1557 -72.3369 0.4295 99736.5 30 2245 1112 80.1727 72.3351 0.4301 99730.1 31 2300 1112 80.2058 72.3329 0.4305 99720.5 32 2315 1112 80.2257 72.3309 0.4309 99713.4 33 2330 1112 80.2527 72.3293 0.4310 99706.0 i L +
i HATCH UNIT 2--1989-ILRT--TYPE A TEST -s F 4 data set 1 time = 1530 date = 1112 sensor raw data value temperature 1 ( 74.200 ) 74.200 deg. F = temperature 2 ( 74.010 ) 74.010 deg. F = temperature 3 ( 74.850 )- 74.850 deD. F = temperature 4 ( 74.970 ) 74.970 deg. F = temperature 5 ( 75.510 ) 75.510 deg. F = temperature. 6 ( 76.360 ) 76.360 deg..F = temperature 7 ( 79.650 ) 79.650 deg. F = temperature '8 ( 87.880 ) 87.880 deg. F = temperature 9 -( 94.750 ) 94.750 deg. F = temperature 10 ( 96.610 ) 96.610 deg. F = temperature 11 ( 79.860 ) 79.860 deg. F = temperature 12 ( 79.710 ) 79.710 deg. F = temperature 13 ( 79.710 ) 79.710 deg. F = 79.830 deg. F temperature 14 ( 79.830 ) = dewpoint 1 ( 69.630 ) 69.630 deg. F, 0.3584 psia = dewpoint 2 ( 69.900 ) 69.9C9 deg. F, 0.3617 psia = dewpoint 3 ( 70.210 ) 70.21s deg. F, 0.3655 psia = ('S dewpoint 4 ( 70.610 ) 70.610 deg. F, 0.3705 psia = (,) dewpoint 5 ( -70.400 ) 70.400 deg. F, 0.3679 psia = dewpoint 6 ( 79.650 ) 79.650 deg. F, 0.5011 puia = pressure 1 ( 72.4317 ) 72.4317 psia = pressure 2 ( 72.4276 ) = 72.4276 psia weighted averages, volume and air mass temperature 79.71992 deg. F = 72.43170 psia pressure = 0.42563 psia vapor pressure = volume 277400 cu. ft. = dry air mass = 99954.1 lbm /~N )~ (
L L HATCH UNIT 2--1989 ILRT--TYPE A TEST ,m I '/ data set 2 t ime = 1545 date = 1112 sensor raw data value temperature 1 ( 74.230 ) 74.230 deg. F = i temperaturn 2'( 74.000 ) 74.000 deg. F i = ~! t emperat ure 3 ( 74.870 ) 74.870 deg. F = temperature 4 ( 75.010 ) = 75.010 deg. F temperaturn 5 ( 75.530 ) = 75.530 deg. F temperature 6 ( 76.380 ) 76.380 deg. F = temperature 7 ( 79.790 ) 79.790 deg. F = temperature 8 ( 88.060-) 88.060 deg. F = temperature 9 ( 94.900 ) 94.900 deg. F = temperature 10'( 96.760 ) 96.760 deg. F = temperature 11 ( 79.780 ) 79.780 deg. F = temperature 12 ( 79.620 ) 79.620 deg. F = temperature 13 ( 79.630 ) = 79.630 deg. F temperature 14-( 79.770 ) 79.770 deg. F = dewpoint 1 ( 69.770 ) 69.770 deg. F, 0.3601 psia = dewpoint 2 ( 69.950 ) 69.950 deg. F 0.3623 psia = dewpoint 3 ( 70.310 ) 70.310 deg. F, 0.3668 psia = l f~T dewpoint 4 ( 70.680 ) 70.680 deg. F, 0.3714 psia = ,,) dowpoint 5 ( 70.450 ) 70.450 deg. F, 0.3685 psia = dewpoint. 6 ( 79.610 ) 79.610 deg. F, 0.5004 psia = i pressure 1 ( 72.4253 ) 72.4253 psia = pressure 2 ( 72.4214 ) 72.4214 psia = weighted averages, volume and air mass temperature 79.72311 deg. F = 72.42530 psia pressure = 0.42592 psia vapor pressure = f volume 277400 cu. ft. i = dry air mass 99944.3 lbm = \\_,1
r: HATCH UNIT 2--1989 ILRT--TYPE A TEST f x ( I' f data set 3-time = 1600 date = 1112 sensor raw data value temperature 1 ( 74.260 ) 74.260 deg. F = temperature 2 ( 74.000 ) 74.000 deD. F = 74.900 deg. F temperature 3 (- 74.900 ) = temperature 4 ( 75.030 ) 75.030 deg. F = temperature 5 ( 75.520 ) 75.520 deg..F = temperature 6 ( 76.390 ) 76.390 deg. F = temperature 7 ( 79.930 ) = 79.930 deg. F temperature-8'( 88.220 ) 88.220 deg. F = temperature 9 ( 95.050 ) 95.050 deg. F = temperature-10 ( 96.830 ) 96.830 deg. F = temperature 11 ( 79.720 ) 79.720 deg. F = temperature 12 ( 79.340 ) 79.540 deg. F j = 79.560 deg. F j temperature 13 ( 79.560 ) = temperature-14 ( 79.690 ) = 79.690 deg. F dewpoint 1 ( 69.770 ) 69.770 deg. F, 0.3601. psia = dewpoint 2 ( 70.000 ) 70.000 deg. F, 0.3629 psia = dewpoint 3 ( 70.360 ) 70.360 deg. F, 0.3674 psia = f') dewpoint 4 ( 70.700 ) 70.700 deg. F,. O.3717 psia = s.s/ dewpoint, 5 ( 70.540 ) 70.540 deg. F, 0.3697 psia = 79.530 deg. F, 0.4991 psia l dewpoint 6 ( 79.530 ) = 1 72.4197 psia i pressure 1 ( 72.4197 ) = pressure 2 ( 72.4157 ) 72.4157 puia l = 'I weighted averages, volume and air mass l temperature 79.72225 deg. F = 72.41970 pcia j pressure = 0.42562 psia vapor pressure = 277400 cu. ft. volume = 99937.1 lbm l dry air mass = l i -i ? l m J
.c i 31 .t-HATCH UNIT 2--1989 ILRT--TYPE.A TEST- ._s .f [ /- data set 4 time = 1615 date = 1112 sensor raw data value temperature 1 ( 74.300 ) 74.300 deg. F = temperature 2 ( 74.030 ) 74.030 deg. F = temperature 3 ( 74.910 ) a 74.910 deg. F temperature 4 ( 75.060 ) 75.060 deg. F = temperature 5 ( 75.570 ) 75.570 deg. F = temperature 6 ( 76.430 ) 76.430 deg. F = temperature 7 ( 80.050 ) 80.050 deg. F = temperature 8 ( 88.380 ) 88.380 deg. F = temperature. 9 ( 95.170 ) 95.170 deg. F = temperature 10 (' 96.730 ) 96.730 deg. F = temperature 11 ( 79.650 ) 79.650 deg. F = temperature 12 ( 79.480 ) _79.480 deg. F = temperature 13 ( 79.490 ) 79.490 deg. F = temperature 14 ( 79.620 ) 79.620.deg. F = dewpoint 1 ( 69.840 ) -= 69.840 deg. F, 0.3609 psia j dewpoint. 2 ( 70.050-) 70.050 deg. F, 0.3635 psia = dewpoint 3 ( 70.380 ) = 70.380 deg. F, 0.3677 psia emy dewpoint 4 ( 70.740 ) 70.740 deD. F, 0.3722 psia =
- J dewpoint 5
( 70.590 ) 70.590 deD. F, 0.3703 psia = dewpoint 6 ( 79.490 ) 79.490 deg. F, 0.4984 psia = pressure 1 ( 72.4141 ). 72.4141 psia = pressure 2 ( 72.4104 ) = 72.4104 psia weighted averages, volume and air mass i i temperature 79.72385 deg. F = 72.41410 psia-pressure = 0.42563 psia vapor pressure = volume = 277400 cu. ft. dry air mass 99929.0 lbm = f"3 v ho
- t. -
t HATCH UNIT 2--1989 ILRT--TYPE A TEST -~ p data-set 5 i t i rne ' = 1630 date = 1112 + sensor raw data value temperature 1 ( 74.260 ) 74.260 deg. F = temperature 2 ( 74.070 ) 74.070 deg. F = temperature 3 ( 74.950 ) 74.950 deg. F = temperature 4 ( 75.080 ) 75.080 deg. F = temperature 5 ( 75.600 ) 75.600 deg. F = temperature 6 ( 7E.430 ) 76.430 deg. F = 80.-190 deg.-F temperature 7 ( 80.190 ) = temperature 8 ( 88.530 ) 88.530 deg. F = temperature 9 ( 95.330 ) 95.330 deD. F = temperature 10 ( 96.530 ) 96.530 deg. F = 79.580 deD. F temperature 11 ( 79.580 ) = temperature 12 ( 79.410 ) 79.410 deg. F = temperature 13 ( 79.430 ) 79.430 deg. F = temperature 14 ( 79.560 ) 79.560 deg. F = . dewpoint 1 ( 69.850 ) = 69.850 deg. F, 0.3611 psia dewpoint 2 ( 70.080 ) 70.080 den. F, 0.3639 psia = dewpoint 3 ( 70.450 )- = 70.450 deg. F, 0.3685 psia /~'T dewpoint 4 (' 70.800 ) 70.800 deg. F, 0.3729 psia' = \\_) dewpoint 5 ( 70.640 ) = 70.640 deg. F, 0.3709 psia dowpoint 6 ( 79.460 ) 79.460 deg. F, O.4979 psia = pressure 1 ( 72.4091 ) 72.4091 psia = prercure 2 ( 72.4053 ) 72.4053 psia = weighted averages, volume and air mass 79.71901 deg. F temperature = 72.40910 psia pressure = 0.42573 psia vapor pressure = volume = 277400 cu. ft. = 99922.8 lbm dry air mass-i g/ \\-
b + N: HATCH-UNIT 2--1989 ILRT--TYPE A TEST w/ data set 6 time = 1645 date = 1112 sensor raw data value ~ temperature-1 ( 74.310-) 74.310 deD. F = temperature 2 ( 74.090 ) 74.090 deg. F = temperature 3 ( 74.980 ) 74.980 deg. F = temperature 4 ( 75.080 ) = 75.080 deg. F temperature
- 5. (
75.660 ) 75.660 deg. F = temperature 6 ( 76.500 ) 76.500 deg. F = temperature 7 ( 80.320 ) 80.320 deg. F = temperature 8 ( 88.690 ) 88.690 deg. F = temperature 9-( 95.410 ) 95.410 deg. F = temperature 10 ( 96.670 ) 96.670 deg. F = temperature 11 ( 79.520 ) 79.520 deg. F = temperature 12 ( 79.350 ) 79.350 deg. F = temperature 13 ( 79.370 ) 79.370-deg. F = temperature 14 ( 79.510 ) 79.510 deg. F = dewpoint 1 ( 69.910 ) = 69.910 deg. F, 0.3618 psia dewpoint 2 ( 70.120 ) = 70.120 deg. F, 0.3644 psia dewpoint 3 ( 70.470 ) 70.470 deg. F, 0.3688 psia = - e-) dewpoint 4 ( 70.820 ) 70.820 deg. F, 0.3732 psia = ,(_j dewpoint 5 ( 70.730 ) 70.730 deg. F, 0.3721 psia i = dewpoint 6 ( 79.430 ) 79.430.deg. F, 0.4975 psia = pressure 1 ( 72.4043 ) 72.4043 psia = pressure 2 ( 72.4005 ) = 72.4005 psia weighted averages, volume and air mass 79.73328 deg. F temperature = 72.40430 psia pressure = 0.42580 psia vapor pressure = ) volume 277400 cu. ft. = 99913.4 lbm 'l dry air mass = i L { I 1 ~,'
s-p:;;' HATCH UNIT 2--1989 ILRT--TYPE A TEST -3 i ) data set 7 time = 1700 date = 1112 sensor raw data value temperature 1 ( 74.320 ) = 74.320 deg. F temperature 2 ( 74.100 ) 74.100 deg. F = temperature 3 ( 75.010 ) = 75.010 deg. F temperature 4 ( 75.100 ) 75.100 deD. F = temperature 5 ( 75.670 ) a 75.670 deg. F temperature 6 ( 76.510 ) 76.510 deg. F = temperature 7 ( 80.440 ) = 80.440 deg. F temperature 8 ( 88.830 ) 88.830 deg..F = temperature 9 ( 95.530 ) 95.530 deg. F = temperature 10 (- 96.570 ) 96.570 deg. F = temperature 11 ( 79.470 ) 79.470 deg. F = temperature 12 ( 79.280 ) 79.200 deg. F = temperature 13.( 79.320 ) = 79.320 deg. F temperature 14 ( 79.460 ) 79.460 deg. F = dewpoint 1 ( 70.010 ) 70.010 deg. F, 0.3630 psia = dewpoint 2 ( 70.140 ) 70.140 deg. F, 0.3647 psia = dewpoint 3 ( 70.500 ) = 70.500 deg. F, 0.3692-psia ('~') dewpoint 4 ( 70.830-) 70.830 deg. F, 0.3733 psia = s dewpoint 5 ( 70.700 ) = 70.780 deg. F, 0.3727 psia u dowpoint 6 ( 79.440 ) 79.440 deg. F, 0.4976 psia = pressure 1 ( 72.3997 ) = 72.3997 psia pressure 2 ( 72.3959 ) 72.3959 psia = weighted averages, volume and air mass 79.73216 deg. F temperature = 72.39970 psia pressure = 0.42615 puia vapor pressure = 277400 cu. ft. volume = dry air mass 99906.7 lbm = h v'
S t. HATCH UNIT 2--1989 ILRT--TYPE A TEST / '). data set 8 t iene = 1715 date = ?.112 sensar raw data value t einperat ure 1 ( 74.370 ) 74.370 deD. F = t ernperat ure 2 ( 74.130.) 74.130 deg. F = temperatune 3 ( 75.050 ) 75.050 deD. F = t ernperat ure 4 (' 75.130 ) 75.130 deD. F = t ernperat ure 5 ( 75.730 ) = 75.730 deg. F ternperat ure 6 ( 76.070 ) 76.570 deg. F = t ernperat ure 7 ( 80.570 ) 80.570 deg.-F = temperature B ( 88.970 ) 88.970 deg. F = temperature 9 ( 95.620 ) 95.620 deg. F = temperature 10 ( 96.720 ) 96.720 deg. F = temperature 11 ( 79.420 ) 79.420 deg. F = t eroperat ure 12'( 79.210 ) 79.210 deg..F = temperature 13 ( 79.260 ) = 79.260 deD. F temperature 14 ( 79.410 ) 79.410 deg. F = dewpoint 1 ( 70.040 ) 70.040 deg. F 0.3634 psia. = dewpoint 2 ( 70.210 ) 70.210 deg. F, 0.3655 psia = dewpoint 3 ( 70.590 ) 70.590 deg. F, 0.3703 psia = rx . dewpoint 4 ( 70.890 ) 70.890 deg. F, 0.3741 psia = ( ) dewpoint 5 ( 70.820 ) 70.820 deD. F, 0.3732 psia = dewpoint 6 ( 79.390 ) 79.390 deg. F, 0.4968 psia = 72.3957 psia pressure 1 ( 72.3957 ) ~= pressure-2 (.72.3915 ) 72.3915 psia = weighted averaDen, volurne and air rnans t ernperat ure 79.74815 deg. F = 72.39570. psia pressure = 0.42621 psia vapor pressure = volume 277400 cu. ft. = dry air roans 99898.1 l bra = i 1 l 1 l l J') J L 1'
r 'T s HATCH UNIT 2--1989 ILRT--TYPE A TEST. ~~' ' data set 9 -time = 1730 date = 1112 sensor raw data-value temperature 1 ( 74.390 ) 74.390 deg. F = temperature 2 ( 74.160 ) 74.160 deg. F = temperature 3 ( 75.050 ) = 75.050 deg. F 75.140 deg. F temperature 4 ( 75.140 ) = temperature 5 ( 75.790 ) 75.790 deg. F = temperature 6 ( 76.620 ) = 76.620 deg. F temperature 7 ( 80.700 ) 80.700 deg. F = temperature 8 ( 89.120 ) 89.120 deg. F = 95.700 deg. F l temperature 9 ( 95.780 ) = temperature 10 ( 96.770 ) 96.770 deg. F = 79.380 deg. F temperature 11 ( 79.380 ) = temperature 12 ( 79.150 ) 79.150 deg. F l = temperature 13 ( 79.220 ) 79.220 deg. F j = 79.360 deg. F temperature 14 ( 79.360 ) = 70.120 deg. F, 0.3644 psia l dewpoint 1 ( 70.120-) = dewpoint 2 ( 70.250 ) 70.250 deg. F, 0.3660 psia = dewpoint 3 ( 70.580 ) = 70.580 deg..F, 0.3702 psia T'}. dewpoint 4 ( 70.970 ) 70.970 deg. F, 0.3751 psia = _/ dewpoint 5 ( 70.890 ) 70.890 deg. F, 0.3741 psia = dewpoint 6 ( 79.350 ) 79.350 deg. F,-0.4962 psia = pressure 1 ( 72.3915 ) a' 72.3915 psia pressure 2 ( 72.3875 ) 72.3875 psia = weighted averages, volume and air mass temperature 79.76426 deg. F = 72.39150 psia pressure = 0.42625 psia vapor pressure = volume 277400 cu. ft. = 99889.3 lbm dry air mass = a l
F 1 s a c; \\. HATCH UNIT 2--1989 ILRT--TYPE A TEST ~ 4 data set 10 i: time = 1745 date = 1112 EJ sensor raw data value 7 t emper at ure 1 ( 74.350 ) 74.350 deg..F = temperature 2 ( 74.190 ) 74.190 deg. F = temperature 3 ( 75.090 ) = 75.090 deg. F temperature-4-( 75.160 ) 75.160 deg. F = temperature 5 ( 75.840 ) = 75.840 deg. F temperature 6 ( 76.640-) 76.640 deg. F L = temperature 7 ( 80.820 ) = 80.820 deg. F temperature-8 ( 89.260 ) 89.260 deg. F = t emperat ure ! 9 ( 95.920 ) = 95.920 deg. F temperature'10 ( 96.650 ) 96.650 deg. F = temperature 11 ( 79.330 ) 79.330 deg. F = temperature 12 ( 79.120 ) 79.120 deg. F. = temperature-13'( 79.190 ) = 79.190 deD. F temperature 14 ( 79.310 ) 79.310 deD. F = dewpoint 1 ( 70.010 ) = 70.010 deg. F, 0.3330 psia dewpoint 2 ( 70.290 ) 70.290 deg. F, 0.3665 psia = dewpoint 3 ( 70.650 ) 70.650 deg. F, 0.3711 psia. = (^Y dewpoint 4 ( 71.030 ) 71.030 deg. F, 0.3759 puia = (_) dewpoint 5 ( 70.950 ) 70.950 deg. F, 0.3749 psia = dowpoint 6 ( 79.340 ) 79.340 deD. F, 0.4960 psia = pressure. 1 ( 72.3879 ) 72.3879 psia = pressure 2 ( 72.3836 ) 72.3836 psia = weighted averages, volume and air mass temperature 79.77248 deg. F = 72.38790 psia pressure = 0.42637 psia vapor pressure = volume 277400 eu. ft, = dry air mass 99882.6 lbm = l l l l L- . /~'N v 1 g
HATCH UNIT 2--1989 ILRT--TYPE A TEST I il data set '11 time = 1800 date = 1112 e sensor raw data value temperature 'l ( 74.380 ) 74.380 deg. F = temperature 2 ( 74.190 ) 74.190 deg. F = temperature 3 ( 75.110 ) 75.110 deg. F = temperature' 4 ( 75.180 ) 75.180 deg. F = 75.840 deg. F ( temperature 5 ( 75.840 ) = temperature 6 ( 76.620 ) 76.620 deg. F = tempercture 7 ( 80.940 ) 80.940 dog. F = temperature 8 ( 89.420 ) = 89.420 deg. F temperature 9 ( -96.020 ) = 96.020 deg. F temperature 10 ( 96.720 ) 96.720 deg. F = temperature 11 ( 79.300 ) 79.300-deg. F = temperature 12 ( 79.070 ) 79.070 deg. F- = -temperature 13 ( 79.130 ) 79.130 deg. F = temperature 14 ( 79.270 ) 79.270 deg. F = t dewpoint 1 (- 70.070 ) 70.070 deD. F, 0.3638 psia = dewpoint 2 -(- 70.320 ) 70.320 deg. F,- 0.3669 psia = dewpoint 3 ( 70.700 ) = 70.700 deg. F, 0.3717 psia T~T dewpoint 4 ( 71.020 ) 71.020 deg. F, 0.3757 psia = ) dewpoint 5 . ( 71.010 ) 71.010 deg. F, 0.3756 psia = dewpoint 6 ( 79.290 ) 79.290 deg. F, 0.4952 psia = pressure 1 ( 72.3841 ) = 72.3841 psia pressure 2 ( 72.3798 ) 72.3798 psia = weighted averages, volume and air mass temperature 79.77777 deg. F = 72.38410 psia pressure = 0.42627 psia vapor pressure = volume 277400 cu. ft. = dry air masu 99876.5 lbm = (x 's /
7 h HATCH UNIT 2--1989 ILRT--TYPE A TEST data set 12 g t i rne = 1815 date = 1112 sensor raw data value temperature 1 ( 74.410 ) 74.410 deg. F = temperature 2 ( 74.190 ) 74.190 deg. F = temperature 3 ( 75.130 ) 75.130 deg. F = temperature 4 ( 75.200 ) 75.200 deg. F = t ernperat ure. 5 ( 70.890 ) = 70.890 deg. F t ernperat ure 6 ( 76.680 ) 76.680 deg. F = temperature 7 ( 81.070 ) 81.070 deg. F = temperature 8 ( 89.550 ) 89.550 deg. F = temperature 9 ( 96.130 ) =- 96.130 deg. F teroperature 10 ( 96.760 ) = 96.760 deg. F ternperature 11 ( 79.260 ) 79.260 deg. F = temperature 12 ( 79.040 ) = 79.040 deg. F t ernperat ure 13 ( 79.090 ) 79.090 deg. F = temperature 14 ( 79.230 ) 79.230 deg. F = dewpoint 1 ( 70.220 ) 70.220 deg. F, 0.3657 psia = dewpoint-2 ( 70.370 ) 70.370 deg. F, 0.3675 psia = dowpoint 3 ( 70.760 ) = 70.760 deg. F, 0.3724 psia dewpoint 4 ( 71.100 ) 71.100 deg. F, 0.3768 psia = dewpoint-5 ( '71.060 ) 71.060 deg. F, 0.3763 psia = dewpoint 6 ( 79.300 ) 79.300 deg. F, 0.4953 psia = pressure-1 ( 72.3807 ) = 72.3807 psia pressure 2 ( 72.3762 ) 72.3762 psia = weighted averages, volume and air inass temperature 79.79536 deg. F = 72.38070 psia pressure = 0.42688 psia vapor pressure = vol urne = 277400 cu. ft. dry air taas,o 99867.6 1bm ~ = i
7 -_ r p t' F. HATCH UNIT 2--1989 ILRT--TYPE A TEST-L L( ) 's> data set .13 timo = 4030 date = 1112 sensor raw data value temperature 1 ( 74.440 ) = 74.440 deg. F temperature 2 ( 74.220 ) 74.220 deg. F = temperature 3 ( 75.160 ) 75.160 deg. F = temperature 4 ( 75.230 ) 75.230 deg. F = temperature 5( 75.940 ) = 75.940 deg. F temperature 6 ( 76.720 ) 76.720 deg. F = temperature 7 ( 81.190 ) 81.190 deg. F = temperature B ( 89.690 ). 89.690 deg. F = temperature 9 ( 96.240 ) 96.240 deg. F = temperature 10 ( 96.860 ) = 96.860 deg. F 1 ternperature 11 ( 79.220 ) = 79.220 deg. F temperature 12 ( 79.010 ) 79.010 deD. F = temperature 13 ( 79.040 ) 79.040 ceg. F = temperature 14 ( 79.190 ) 79.190 deg. F = dewpoint '1 ( 70.290 ) 70.290 deg. F, 0.3665 psia = dewpoint' 2 ( 70.400 ) 70.400 deg. F, 0.3679 psia = dewpoint 3 ( 70.810 ) 70.810 deg. F, 0.3731 psia = [~)~) dewpoint 4 ( 71.190 ) 71.190 deg. F, 0.3779 poia = (_ dewpoint 5 ( 71.090 ) 71.090 deg. F, 0.3766 psia = dewpoint 6 ( 79.250 ) 79.250 deg. F, 0.4945 psia = pressure 1 ( 72.3771 ) = 72.3771 psia pressure 2 ( 72.3728 ) 72.3728 psia = 1 wei ghted aiverages, volutne and air mass ~ temperature-79.81404 deg. F = 72.37710-psia pressure = 0.42691 psia vapor pressure = volume 277400 cu. ft. = dry air taaws. 99859.1 l bin - i = f 1 /~T I .Y l ,7 m. .m4-
Y' 1, < HATCH UNIT 2--1989 ILRT--TYpt A TECT data set 14 t irne = 1845 date = 1112 sensor raw data value . t ernperat ure 1 ( 74.440 ) = 74.440 deg. F ternperature 2 ( 74.240 ) 74.240 deg. F = t ernperat ure 3 ( 75.180 ) 75.180'deg. F = temperature 4 ( 75.250 ) 75.250 deg. F = t ernperat ure 5- ( 75.990 ) 75.990 deg. F = t ernperat ure 6 ( 76.720 ) 76.720 deg. F = i t ernperat ure 7 (. 81.320 ) 8 1. 3 2 0 - d e g.' F = t ernperat ure 8(. 89.870 ) = 89.870 deg. F t eroperat ure 9 ( 96.350 ) = 96.350 deg. F t ernperat ure.10 ( 96.830 ) 96.830 deg. F = ternperature 11 ( '79.190 ) 79.190 deg. F = ternperat ure 12 ( 78.980 ) 78.980 deg. F- = ternperature 13 ( 79.020 ) 79.020 deg. F = t ernperat ure 14 ( 79.160 ) 79.160 deg. F = dewpoint 1 ( 70.350-) 70.350 deg. F, 0.3673 psia = dewpoint 2 ( 70.450 ) = 70.450 deg. F, 0.3685 psia dewpoint' 3 ( 70.880 ) = 70.880 deg. F, 0.3740' psia-dewpoint 4 ( 71.180 ) = 71.180 deg. F, 0.3778 psia f. dewpoint 5 ( 71.150 ) = 71.150 deg. F, 0.3774 psia dewpoint 6 (. 79.220 ) 79.220 deg. F,.O.4940 psia = pressure 1 ( 72.3739 ) 72.3739 psia = pressure 2 (. 72.3697 ) 72.3697 psia = weighted. averages, volurne and air inaus temperature 79.83077 deg. F = 72.37390 psia pressure = 0.42701 psia vapor pressure = vol uine 277400 cu. ft, = 99851. 6 l bro dry air rnasc =
$l ~l I i s -) g~ .i HATCH UNIT 2--1989 ILRT--TYPE A TEST \\c /> i. dat a. set 15 n t iene = 1900 date = 1112 .i sensor raw data value Y temperature 1 ( 74.470 ) = 74.470 deg..F t eroperat ure 2 ( 74.260 ) = 74.260 deg. F temperature 3 ( 75.200 ) = 75.200 deg. F t ernperat ure 4 ( 75.280 ) = 75.280 deD. F t ernperat ure 5.( 76.030 ) = 76.030 deg. F t eroperat ure .6 ( 76.760 ) = 76.760 deg. F - t ernperat ure 7 ( 81.440 ) 81.440 deg. F = n i temperature 8 ( ~ 89.980 ) 89.980 deg.'F = t eroperat ure ' 9 ( 96.490 ') 96.490 deg..F = ternperature-10 ( 96.920 ) = 96.920 deg. F t ernperat ure 11 .( 79.170 ) = 79.170 deg. F F ' t ernperat ure 12 ( 78.960 ) 78.960 deg. F = t einperat ure 13 ( 78.990 ) 78.990 deg. F = ternperat ure 14 ( 79.140 ) 79.140 deg. F = dewpoint 1 ( 70.370 ) 70.370 deg. F, 0.3675 psia = i dewpoint 2 ( 70.500 ) = 70.500 deg. F, 0.3692 psia (~}. dewpoint 3 ( 70.890 ) 70.890 deg. F, 0.3741 psia = l dewpoint 4 ( 71.280 ) 71.280 deg. F, 0.3791 psia = \\/ dewpoint 5 ( 71.240 ) = 71.240 deg. F,. 0.378G psia dewpoint 6 ( 79.200 ) 79.200 deg. F, 0.4937 psia = pressure 1 ( 72.3707 ) = 72.3707 psia pressure 2 ( 72.3667 ). 72.3667 psia = weiD ted-averages, volurne and air rnass h 79.85559 deg. F t eroperat ure =- 72.37070 psia pressure = 0.42722 psia vapor pressure = i1 vol urne = 277400 cu. ft. dry air roass 99842.1 l bro = s i r
t HAT 6H UNIT 2-~1989 ILRT--TYPE A TEST -,s i Y data set 16 ~' t iene = 1915 date = 1112 sensor raw data value t ernperat ure 1 ( 74.500 ) = 74.500 deg. F t ernperat ure 2 ( 74.300 ) 74.300 deg. F = t ernperat ure 3 ( 75.210 ) = 75.210 deg. F g - t ernperat ure 4 ( 75.290 ) =~ 75.290 deg.'F M t ernperat ure 5 ( 76.070 ) 76.070 deg. F = t ernperat ure 6 ( 76.000 ) = 76.800 deg. F t ernperat ure 7 ( 81.550 ) = B1.550 deg. F temperature B ( 90.110 ) 90.110 deg. F = t ernperat ure 9 ( 96.590 ) = 96.590 deg. F temperature 10 ( 97.010 ) = 97.010 deg. F W ternperat ure 11 ( 79.140 ) 79.140 deg. F = ternperat ure 12 ( 78.930 ) 78.930 deg. F = temperature 13-( 78.960 ) 78.960 deg. F = temperature 14 ( 79.100 ) = 79.100 deg. F dewpoint 1 ( 70.430 ) 70.430 deg. F, 0.3683 psia = dewpoint 2 ( 70.550 ) 70.550 deg. F, 0.3698 psia = dewpoint 3 ( 70.980 ) 70.980 deg. F, 0.3752 psia = ("N dewpoint 4 ( 71.290 ) 71.290 deg. F, 0.3792 psia = (_) ' dewpoint 5 ( 71.290-) 71.290 deg. F, 0.3792 psia = dewpoint 6 ( 79.180 ) 79.180 deg. F', 0.4934 psia = pressure 1 ( 72.3679 ) 72.3679 psia = pressure 2 72.3636 ) 72.3636 psia = weighted averages, volume and air inasu t ernperat ure 79.87331 deg. F = 72.36790 psia: r pressure = 0.42746 psia vapor pressure = vol uine 277400 cu. ft. = dry air roasts 99834.6 lbm = v ~
? I f i HATCH UNIT 2--1989 ILRT--TYPE A TEST I L(, ). .i '~' data set 17 time = 1930 date = 1112 j i-sensor raw data value-l 74.490 deg. F . t ernperat ure 1 ( 74.490 ) = g L t eroperat ure 2 ( 74.320 ) = 74.320 deg. F l temperature 3 ( 75.240 ) 75.240 deg. F .i = r. L temperature 4 -( 75.320 ) '75.320 deg. F [ = temperature 5( 76.120 ) 76.100 deg. F 6 = t ernperat ure 6 ( 76.840 ) 76.840 deg. F l = t ernperat ure 7 ( 81.600 ) B1.680 deg. F- [ = t ernperat ure 8 -( 90.260 ) 90.260 deg. F = temperature 9 (' 96.700 ) 96.700 deg. F = i t eroperat ure 10 ( 97.040_) 97.040 deg. F = temperature-11 ( 79.120 ) 79.120 deg. F = F temperature 12 ( 78.900 ) 78.900 deg. F = t ernperat ure 13 ( 78.940 ) 78.940 deg. F = temperature 14 ( 79.000 ) 79.080 deg. F = dewpoint 1-( 70.420 ) 70.420 deg. F, 0.3682 psia- = dewpoint 2 ( 70.590 )
- 70. 590 deg.
F, 0.3703 psia = dewpoint 3 ( 70.990 ) 70.990 deg. F, 0.3754 psia = ["'). dewpoint 4 ( 71.340 ) 71.340 deg. F., 0.3798 psia = a \\~/ dowpoint 5 ( 71.330-) 71.330 deD. F,_O.3797 psia = dewpoint 6 ( 79.150 ) 79.150 dog. F, 0.4929 puia = pressure 1~ ( 72.3608 ) (- 72.3649 ) 72.3649 psia [ = pressure 2. = 72.3608 psia l- ~ weighted averages, volurne and air mass 79.89617 deg. F-i t eroperat ure = 72.36490 psia 3 pressure' = 0.42742 psia 'l vapor pressure = volume 277400 cu. ft. = dry air mass 99826. 3 lbra = j l.- i 9 -.k i i
u ) HATCH UNIT 2--1989 ILRT--TYPE A TEST ,s ' ii). data set 18 l time = 1945 date = 1112 sensor raw data value temperature 1 ( 74.520 ) = 74.520 deD. F t eroperat ure 2 ( 74.340 ) = 74.340 deg. F L temperature 3 ( 75.250 ) 75.250 deg. F = temperature 4 ( 75.330 ) = 75.330 deg. F temperature 5 ( 76.170 ) 76.170 deg. F = temperature 6 ( 76.870 ) 76.870 deg. F = temperature. 7 ( 81.800 ) 81.800 deg. F = temperature 8-( 90.390 ) 90.390 deg. F = temperature 9( 96.780 ) 96.700 deg. F = temperature 10 (. 97.030 ) = 97.030 deg. F temperature 11 ( 79.080 ) 79.080 deg. F = ternperat ure 12 ( 78.880 ) 78.880 deg. F = temperature 13'( 78.920 ) 78.920 deg. F = ternperature 14 ( 79.060 ) = 79.060 deg. F dewpoint 1 ( 70.420 ) 70.420 deg. F, 0.3682 psia = dewpoint' 2. ( 70.630 ) = 70.630 deg. F, 0.3708 psia dewpoint 3 ( 71.030 ) = 71.030 deg. F, 0.3759 psia f~'T - dewpoint 4_ ( 71.380 ) 71.380 deg. F, 0.3804 psia- = E(~/ dewpoint-5. ( 71.400 ) 71.400 deg. F, 0.3806 psia = dewpoint-6 ( 79.100 )- 79.100 deg. F, 0.4921 psia = 72.3623 puia j pressure. 1 ( 72.3623 ) = pressure _ 2 ( 72.3582 ) 72.3582 pula = wei Dhted averages,_ volume and air mass t ernperat ure 79.91317 deg. F = -72.36230 psia _ i pressure. = g 0.42732 puta ~ vapor _ pressure- = L volume 277400 eu. ft. = 99819.7 l brn dry air raaus = I i s [(~h ^x,) .h
{ s F HATCH UNIT 2--1989 ILRT--TYPE A TEST-g y )- i data set 19 r . time = 2000 date = 1112 ' sensor raw data value t ernpurat ure ~ 1 ( 74.550 ) 74.550 deg. F = t ernperat ure 2 ( 74.350 ) 74.350 deg. F = temperature-3 ( 75.270 ) = temperature-4 ( 75.330 ) = ' 75.270 deg. F 75.330 deg. F temperature 5 ( 76.200 ) 76.200~deg. F = n t eraperat ure 6 ( 76.900 ) 76.900 deg. F = F t ernperat ure 7 ( 81.940 ) 81.940 deg. F- = t eraperat ure 8-( 90.530 ) 90.530 deg. F = i-temperature 9'( 96.900 ) 96.900 deg. F = ternperat ure 10 ( 97.110 ) 97.110 deg. F = teroperat ure 11 ( 79.060 ) 79.060 deg. F = i ternperat ure 12 '( 78.860 ) = 78.860 deg. F .ternperat ure '13 ( 78.880 ) = 78.880 deg. F t ernperat ure 14 - ( 79.030 ) 79.030 deg. F = > dewpoint 1 ( 70.580 ) = 70.500 deg. F, 0.3702 psia dowpoint 2 ( 70.700 ) = 70.700 deg. F, 0.3717 psia l dewpoint 3 ( 71.080 ) 71.080 deg. F, 0.3765 psia. =
- [~ T dewpoint 4
( 71.470 ) = 71.470 deg. F, 0.3815 psia -(/- dewpoint 5 -( 71.450 ) = 71.450 deg. F, 0.3813 psia L dewpoint '6 ( 79.090-) 79.090-deg. F ', 0.4919 psia = pressure-1 ( 72.3597 ) = ~72.3597 psia pressure 2 ( 72.3554 ) = 72.3554 pula. weighted averages, volume and air mass t ernperat ure 79.93370-deg. F = 72.35970 psia pressure = 0.42783 psia vapor pressure = vol uine 277400 cu. ft. = 99811.6 l bra dry air inacs = ./m 'I t L.
g HATCH UNIT 2--1989 ILRT--TYPE A TEST j h i X-' data set-20 t irne = 2015 .date = 1112 sensor raw data value t eroperat ure 1 ( 74.560 ) 74.560 deg. F = p temperature 2 ( 74.380 > 74.380 deg. F = t ernperat ure 3 ( 75.300 ) 75.300 deg. F = t ernperat ure 4 ( 75.380 ) = 75.380 deg. F t eenperat ure 5 ( 76.240 ) 76.240 deg. F = t eroperat ure 6( 76.960 ) 76.960 deg. F = t ernperat ure 7 ( '82.040 ) 82.040 deg. F = t eroperat ure 8 ( 90.650 ) = 90.650 deg. F t ernperat ure 9 ( 96.920 ) 96.920 deg. F = teroperat ure 10 ( 97.150 ) 97.150 deg. F = ternperature 11 ( 79.040 ) .79.040 deD. F = teroperature 12 ( 78.840 ) = 78.840 deg. F i ternperature 13 ( 78.860 ) 78.860 deg. F = ternperat ure 14- ( 79.020 ) = 79.020 deg. F dewpoint 1 ( 70.580 ) 70.580 deg. F, 0.3702 psia = dewpoint 2 ( 70.730 ) 70.730 deg. F, 0.3721 psia = dewpoint 3 ( 71.130 ) 71.130 deg. F, 0.3772 psia = jx dewpoint-4 ( 71.510 ) 71.510 deg. F, 0.3820 psia = 3 ' (f. dewpoint 5.- -( 71.530 ) = 71.510 deg. F, O.3820 psia dewpoint 6 ( 79.070 ) 79.070 deg. F. 0.4916 psia = precsure 1 ( 72.3569 ) 72.3569 psia = pressure 2 ( 72.3529 ) 72.3529 psia = weighted averages, volurne and air rnass r t eraperat ure 79.95424 deg. F = 72.35690 psia pressure = 0.42795 psia vapor pressure = vol urne = 277400 cu. ft. dry air raasu 99803.7 lbra = -() U m
L 4 HATCH UNIT-2--1989 ILRY--TYPE A TEST i l' data set 21 t irne = 2030 date = 1112 sensor raw data value t ernperat ure 1 (. 74.600 ) = 74.600 deg. F t eroperat ure 2 ( 74.400 ) 74.400 deg. F = t eroperat ure' 3 ( 75.300 ) 75.300 deD. F = t eroperat ure 4 (- 75.380 ) 75.380 deg. F = temperature 5 ( 76.280 ) 76.280 deg. F = t ernperat ure 6 ( 76.940 ) = 76.940 deg. F temperature 7 ( 82.170 ) 82.170 deD. F = temperature 8 ( 90.790 ) = 90.790 deg. F temperature 9 ( 97.050 ) 97.050 deg. F = ternperat ure 10 ( 97.150 ) 97.150 deg. F = t eroperat ure 11 ( 79.02O_) 79.020 deg. F F = t eroperat ure 12 ( 78.810 ) 78.810 deg. F = teroperat ure 13 --( 78.830 ) 78.830 deg. F = temperature 14 ( 78.980 ) = 78.980 deg. F dewpoint l' ( 70.630 ) = 70.630 deD. F, 0.3708 psia dewpoint 2 ( 70.770 ) = 70.770 deg. F, 0.3726 psia dewpoint 3 ( 71.180 ) 71.180 deD. F, 0.3778 psia = ]("'/ N dewpoint 4 ( 71.510 ) = 71.510 deg. F, 0.3820 psia dewpoint 5 I 71.550 ) 71.550 deg. F, 0.3826 psia. = -dewpoint 6 ( 79.080 ) 79.080 deD. F, 0.4918 psia = preuuure 1 ( 72.3545 ). 72.3545 psia = pressure 2 ( 72.3504 ) = 72.3504 puia weighted averages, volume s.nd air roaus t ernperat ure 79.96819 deg. F = 72.35450 puia pressure a 0.42827 puia vapor pressure = vol uine 277400 cu. ft. = dry air rnacs 99797.4 l bro = L b I I
- 'N i
.. f f W~Y
IT HATCH UNIT 2--1989 ILRT--TYPE A TEST data set' 22 t iene = 2045 .date = 1112 sensor raw data value temperature 1 ( 74.640 ) 74.640 deg. F = temperature 2 ( 74.420 ) 74.420 deg. F = t einperat ure 3 ( 75.340 ) 75.340 deg. F = t ernperat ure 4 ( 75.420 ) 75.420 deg. F = t ernperat ure 5 ( 76.320 ) 76.320 deg. F = temperature 6 ( 77.040,) 77.040 deD. F = t etaperat ure 7 ( 82.290 ) 82.290 deg. F = t ernperat ure 8-( 90.920 ) 90.920 deg. F = t ernperat ure 9 ( 97.140 ) = 97.140 deg. F temperature 10 (- 97.220 ) 97.220 deg. F = ternperat ure 11 ( 78.990 ) 78.990 deg. F = temperature 12 ( 78.790 ) 78.790 dag. F = ternperature 13 ( 78.820 ) = 78.820 deg. F temperature 14-( 78.970 ) 78.970 deg. F = dewpoint-1 ( 70.700 ) 70.700 deg. F, 0.3717 psia = dewpoint 2 .( 70.830 ) 70.830 deg. F, 0.3733 psia = dewpoint 3 ( 71.210 ) 71.210 deg. F,- 0.3782 psia = dewpoint. 4 ( 71.670 ) 71.670 deg. F, 0.3841 psia = dewpoint 5 ( 71.610 ) 71.610 deg. F, 0.3833 psia = dewpoint 6 ( 79.040 ) = 79.040 deg. F, 0.4911 psia pressure. 1 ( 72.3521 ) = 72.3521 psia pressure 2 ( 72.3481 )- = 72.3481 psia woighted averages, volutne and air mass temperature 79.99949 deD. F = 72.35210 psia pressure = 0.42852 psia vapor pressure = vol uine 277400 cu. ft. = dry air raasu 99787. 9 lbra = I a
r h s i' HATCH UtJ1T 2--1989 ILRT--TYPE A TEST ~ i i J '\\d data set-23 I t irne = 2100 date = 1112 l l sensor raw data value i 74.620 deg. F j t ernperat ure 1 ( 74.620-) = 74.450 deg. F t ernperat ure 2 ( 74.450 ) = temperature 3 ( 75.350 ) = 75.350 deD. F t ernperat ure 4 (. 75.430 ) = =75.430 deg. F temperature G ( 76.370 ) =
- 76. 370 'deg. F temperature 6 :(
77.060 ) 77.060 deg. F = t ernperat ure _7 ( 82.410 ) = 82.410 deg. F t eroperat ure ( 91.060 ) = 91.OGO deg. F t ernperat ure 9 ( 97.230 ) 97.230 deg. F = temperature 10_( 97.290 ) 97.290 deg. F = temperature !! ( 78.980 ) -78.980 deg. F = t eroperat ure 12 ( 78.780 ) 78.780 deg. F = temperature 13 ( 78.810 ) 78.810 deg. F = t eroperat ure 14 ( 78.950 ) 78.950 deg. F = dewpoint 1 ( '70.710 ) 70.710 deg. F, 0.3718 psia = oewpoint 2 ( 70.860 ) 70.860 deg. F, 0.3737 psia = dewpoint 3-( 71.280 ) 71.280 deg. F, 0.3791 psia = f'T dewpoint 4 ( 71.660 ) = 71.660 deg. F, 0.3840 psia 4 dewpoint 5 ( 71.660 ) 71.660-deg. F', 0.3840 psia = dewpoint 6 ( 79.000 ) 79.000 deg..F, 0.4905 psia = pressure 1 (- 72.3499_) 72.3499 puia = pressure -2 ( 72.3457 ) = 72.3457 puta. weighted' averages, volutne and air inass t eroperat ure 80.02207 deg. F = 72.34990 psia pressure a 0.42846 psia vapor pressure = vol utne 277400-cu. ft. = dry air roans 99780.8 lbm = p r: I p: T E o
i HATCH UNIT 2--1989 ILRT--TYPE A TEST data set 24 t ienu = 2115 date = 1112 4 sensor raw data value temperature 1 ( 74.630 ) 74.630 deg. F = temperature 2 ( 74.450 ) 74.450 deg. F = temperature 3 ( 75.370 ) 75.370 deg. F = temperature 4 ( 75.460 ) 75.460 deg. F = temperature 5 ( 76.420 ) 76.420 deg. F = temperature 6 ( 77.060 ) 77.060 deg. F = temperature 7 ( 82.520 ) 82.520 deg. F = temperature 8 ( 91.160 ) 91.160 deg. F = temperature 9 ( 97.320 ) 97.320 deg. F = temperature-10 ( 97.320 ) = 97.320 deg. F temperature 11-( 78.970 ) 78.970 deg. F = temperature 12 ( 78.750 ) 78.750 deg. F = temperature 13 ( 78.780 ) 78.780 deg. F = temperature 14 ( 78.930 ) 78.930 deg. F = dewpoint 1 ( 70.710 ) 70.710 deg. F, 0.3718 psia = dewpoint 2 ( 70.920 ) 70.920 deg. F, 0.3745 psia = dewpoint 3 ( 71.330 ) = 71.330 deg. F, 0.3797 psia dewpoint 4-( 71.730 ) 71.730 deg. F, 0.3849 psia = dewpoint 5 ( 71.710 ) = 71.710 deg. F, 0.3846 psia fewpoint 6 ( 79.010 ) 79.010 deg. F, 0.4907 psia = pressure 1 ( 72.3475 ) 72.3475 psia = pressure 2 ( 72.3434 ) = 72.3434 psia weighted averages, volume and air inass temperature 80.03708 deg. F = 72.34750 psia pressure = 0.42886 psia vapor pressure = volume = 277400 cu. ft. dry air mass = 99774.1 lbm h h
p c. HATCH UNIT 2--1989 ILRT--TYPE A TEST f ,F f )' i ' /' data set 25 ~- ,e time = 2130 date = 1112 sensor. raw data value l temperature 1 ( 74.700 ) = 74.700 deg. F I 74.470 deD. F l temperature 2 ( 74.470 ) = temperature 3 ( 75.410 ) 75.410 deg. F = temperature 4 ( 75.470 ) 75.470 deg. F l = -temperature 5 ( 76.460 ) = 76.460 deg. F temperature 6 ( 77.120 )- 77.120-deg. F = 82.640 deg. F l temperature 7 ( 82.640 ) = temperature 8 ( 91.280 ) 91.280 deg. F = temperature 9 ( 97.370 ) e 97.370 deg. F temperature 10 ( 97.370 ) 97.370 deg. F = temperature 11 ( 78.950 ) 78.950 deD. F t = temperature 12 ( 78.740 ) 78.740 deg. F i = temnerature 13 ( 78.760 ) 78.760 deg. F = temperature 14..( 78.920 ) = 78.920 deg. F i dewpoint -1 ( 70.720 ) 70.720 deg. F, 0.3719 psia = dewpoint 2 ( 70.960 ) 70.960 deg. F, O.3750 psia = dewpoint 3 ( 71.320 ) 71.320 deg. F, 0.3796 psia = r~% dewpoint 4 ( 71.710 ) 71.710'deg. F, 0.3846 psia = -(_) dewpoint 5 ( 71.770 ) 71.770 deg. F, 0.3854 psia l = dewpoint-6 ( 78.990 ) = 78.990 deg. F, 0.4903 psia pressure 1 ( 72.3453 ) 72.3453 psia = pressure 2 (. 72.3412 )- 72.3412 psia = weighted averages, volume and' air mass 80.06361 deg. F temperature = _72.34530 psia presuure = 0.42880 psia vapor pressure = volume 277400 cu. ft. = dry air masu 99766.2 lbm = j T b l 52 1 h
4: l l 'l HATCH UNIT 2--1989 ILRT--TYPE A TC5T ): ~ v' data set 26 j i t irne = 2145 ' date = 1112 -{ 1 sensor raw data value .j t ernparat ure 1 ( 74.680 ) 74.680 deg. F = t eroperat ure 2 ( 74.490 ) 74.490 deg. F = 3 t eroperat ure 3 ( 75.430 ) = 75.430 deg. F i t ernperat ure 4 ( 75.510-) 75.510 deg. F = 76.520 deg. F j t ernperat ure 5 ( 76.520 ) = temperature 6 ( 77.150 ) = 77.150 deg. F .i t ernperat ure 7-( 82.750 ) = 82.750 deg. F 1 t ernperat ure 8 ( 91.430 ) = 91.430 deg. F j t ernperat ure 9 ( 97.500 ) = 97.500 deg. F t ernperat ure 10 - ( 97.390 ) 97.390 deg. F = 78.940 deg. F t ernperat ure 11 ( 78.940 ) = 78.730 dag. F 'I . t ernperat ure 1 2 -( 78.730 ) = 78.750 deg. F j t eraperat ure 13 ( 78.750 ) = 78.910 deg. F f ternperat ure 14 ( 78.910 ) = t dewpoint 1 ( 70.890 ) = 70.890 deg. F, 0.3741 psia dowpoint 2 ( 71.020 ) = -71.020.deg. F, 0.3757 psia dewpoint 3 ( 71.370 ) 71.370 deg. F, 0.3802 psia = t ri dewpoint 4 ( 71.790 ) = 71.790 deg. F, 0.3857 psia t lq_f dewpoint 5 ( 71.820 ) = 71.820 deg. F, 0.3861 psia I 78.910 deg. F,'O.4890 psia j . dewpoint 6 ( 78.910 ) = i pressure 1 ( 72.3433 ) = 72.3433 psia pressure 2 ( 72.3391 ) = 72.3391 psia i i weiDhted averages, volutne and air rnass [ t eroperat ure 80.09074 deg. F = 72.34330 psia i pressure- = 0.42879. psia .j vapor pressure = vol urne-277400 cu. ft. [ = dry air roans 99750. 5 lbro = + -t t e. } .~
HATCH UNIT 2--1989 ILRT--TYPE A TEST u^; data set 27 time ='2200 date = 1112 sensor raw data value t i temperature 1 ( 74.740 ) 74.740 deg. F = . temperature. 2 ( 74.500 ) 74.500 deg. F = temperature. 3 ( 75.450 ) 75.450'deg. F- = temperature '4 ( 75.550 ) 75.550 deg. F = temperature 5 ( 76.560 ) 76.560-deg. F = temperature 6 ( 77.170 ) 77.170 deg. F = l temperature 7 ( 82.850 ) 82.850 deg. F = j, temperature B'( 91.520 ) = 91.520 deg. F temperature 9 ( 97.590 ) 97.590 deg. F = temperature 10~( 97.420') 97.420 deg. F = 4 - temperature 11 ( 78.930 ) 78.930 deg. F = temperature 12 ( 78.720 ) = 78.720 deg. F temperature-13 ( 78.730 ) = 78.730 deg. F temperature 14 ( 78.890 ) 78.890 deg. F = dewpoint 1 ( 70.860 ) 70.860 deg. F, 0.3737 psia = 71.050 deg. F, 0.3761 psia-dewpoint-2 (- 71.050 ) = dewpoint 3 ( 71.400 ) 71.400 deg. F, 0.3806 psia = 71.830 deg. F, 0.3862 psia (^T -- dowpoint-4 ( 71.830 ) = '(_) ' dewpoint 5 ( 71.800 ) 71.800 deg. F, 0.3869 puta = 78.990.deg. F, 0.4903 puia dewpoint 6 ( 78.990 ) = preccure 1 ( 72.3409 ) 72.3409 puta = pressure 2' ( 72.3370 ) ,72.3370 psia = weighted averages, volume and air mass 80.11255 deg. F temperature =- 72.34090 poia pressure = 0.42955 psia vapor. pressure = 277400 cu. ft. volume = 99750.0 lbm dry air mouc = h fv(
V {( ,) P i HATCH UNIT 2--1989 ILRT--TYPE A TEST I i' i kj data set 28 i t t iene = 2215 date = 1112 l censor raw data value i 74.770 deg. F temperature 1 ( 74.770 ) = 74.550 deg. F temperature 2( 74.550 ) = 75.470 deg. F t emperat ure 3 ( 75.470 ) = temperature 4 ( 75.580 ) 75.580 deg. F = 76.600 deg. F temperature 5 ( 76.600 ) = 77.210 deg. F ..? temperature. 7 ( 82.980 ) 6 ( 77.210 ) = 82.980 deg. F-temperature = 91.630 deg. F temperature 8 ( 91.630 ) = 97.720 deg. F t temperature 9 ( 97.720 ) = 97.440 deg. F l L temperature 10 ( 97.440 ) = 78.910 deg. F p temperature 11 ( 78.910 ) = 78.700 dec. F temperature 12 ( 78.700 ) = 1 78.710 deg. F temperature 13 ( 78.710 ) = 78.890 deg. F j temperature 14 ( 78.890 ) = 70.900 deg. F, 0.3742 psia f dewpoint 1 ( 70.900 ) = 71.110 deg. F, 0.3769 psia-j [ dewpoint 2 (- 71.110 ) = 71.460 deg. F, 0.3814' psia i dowpoint 3 ( 71.460 ) = ? 71.890 deg. F, 0.3870 psia. r~ dowpoint 4 ( 71.890 ) = i), dewpoint 5 ( 71.930 ) 71.930.deg. F, 0.3875 psia' j = 78.970 deg. F,'O.4900 psia dewpoint 6 ( 78.970 ) = -preocure-.1 ( 72.3391-) = 72.3391 psia j pressure 2 ( 72.3349 ) 72.3349 puia ~ = weighted averageb, volume and air inass 80.14024 deg. F f temperature = 72.33910 psia F pressure = .O.42980 puta i vapor pressure = volume = 277400 cu. ft. 99742.1 lbm dry air macs = Y i f e .V f
A HATCH UNIT 2--1989 ILRT--TYPE A.YEST l I 'I. i k-data set 29 I n t iene = 2230 date = 1112 l-sensor raw data value -l i k t eroperat ure 1 ( 74.770 ) = 74.770 deg. F 74.560 deg. F l t ernperat ure 2 ( 74.560') = 75.490 deg. F l . t ernperat ure. 3 ( 75.490 ) = L temperature-4 ( 75.590 ) 75.590 deg. F = 76.640 deg. F l temperature 5' ( 76.640 ) = temperature 5 ( 77.210 ) = 77.210 deg. F p t etaperat une 7l( 83.070 ) = B3.070 deg. F l-t ernperat ure 8 ( 91'.750 ) = 91.750 deg. F t ernperat ure -9 ( 97.750 ) 97.750 deg. F = g . t ernperat ure - 10 ( 97.530 ) = 97.530 deg. F temperature i t ',( 78.900 ) 78.900 deg. F. = i ternperat ure 12 ( 78.690 ) 78.690 deg.-F i = temperature 13 ( 78.710 ) 78.710 deg. F- = ternperat ure 14 ( 78.860 ) 78.860-deg. F = dewpoint' 1 ( 70.990 ) = 70.990 deg. F, 0.3754 psia i 71.120 deg. F, 0.3770-psia l dewpoint 2 ( 71.120 ) = 71.520 deg. F, 0.3822 psia { [< dewpoint 3 ( 71.520 ) = ('g. dewpoint 4 ( 71.910 ) 71.910 deg.-F, 0.3873 psia .j = ds) dewpoint 5 ( 71.970-) 71.970 deg. F, 0.3880 psia = dewpoint 6 (- 78.890 ) = 78.890 deg. F., 0.4887 psia prensure 1 (. 72.3369 ) 72.3369 psia =- pressure 2 _ ( 72.3329 ) = 72.3329 psia weighted averages, volume and air inass. 80.15572 deD. F t eroperat ure - = 72.33690 psia pressure = 0.42955 psia vapor pressure =- volume 277400 cu. ft. = dry air inass = 9973G. 5 lbra .t 3 9
- ' y e
P .l m k, s o I
i HATCH UNIT 2-~1989 ILRT--TYPE A TEST Ji ): '. -w/ data set 30 t irne = 2245 date = 1112 I sennor raw data value ternperature 1 ( 74.790 ) 74.790 deg. F = - ternperat ure 2 ( 74.580 )= = 74.580 deg. F n '[ temperature 3 ( 75.510 ) = 75.510 deg. F temperature' 4 ( 75.640 ) 75.640 deg. F = t ernperat ure 5 ( 76.690 ) = 76.690 deg.-F t ernperat ure. 6 ( 77.260 ) = 77.260 deg. F t errperat ure. - 7 (' 83.160 ) 83.160 deg. F. = temperature 8 -( 91.840 ) = 91.840 deg. F temperature 9 ( 97.770 ) 97.770 deg. F = teroperature 10. ( 97.530 ) = 97.530 deg. F ternperature 11 ( 78.890-) 78.890 deg. F = teroperature 12 ( 78.680 ) 70.680 deg. F = ternperature 13 ( 78.680 ) 78.680 deg. F = t eroperat ure 14 ( 78.840 ) 78.840 deg. F = dewpoint 1 ( 70.970 ) 70.970 deg. F, 0.3751 psia = dewpoint 2 ( 71.140 ) = 71.140 dog. F, 0.3773 psia dewpoint 3' ( 71'.540 ) = 71.540 deg. F, 0.3824 psia r~ dewpoint-4 ( :- 71.980 ) 71.980 deg. F, 0.3882 poia = '( - deNpoint 6-( 78.940 ) dewpoint 5 ( 72.020 ) 72.020 deg. F, 0.3887 psia- = 78.940 deg. F, 0.4895 psia = reassure 1 ( 72.3351 ) = 72.3351 psia pr.*wsure 2 ( 72.3309-) = 72.3309 psia wighted averagen, volurne and ~ air inasb t ernperat ure 80.17275 deg. F = 72.33510 psia pressure = 0.43011 psia vapor presuure = vol urne 277400 cu. ft. = dry air roass 99730.1 l bro = 1 l a r's I (_
i I HATCH UNIT 2--1989'ILRT--TYPE A TEST ( I data set 31 s-L ' time = 2300 date = 1112 sensor raw data value f h temperature 1 ( 74.830 ) 74.830 deg. F l = temperature 2 ( 74.590 ) 74.590 deg. F f = p' 75.530 deg. F l i t emperat ure - 3 ( 75.530 ) = F temperature 4 ( 75.720 ) = 75.720 deg. F i b-temperature '5 ( 76.730 ) 76.730-deg. F = 77.310 deg. F / temperature 6 ( 77.310 ) = temperature. 7 ( 83.290 ) = 83.290 deg. F temperature 8 ( 91.960 )- 91.960 deg..F = L -temperature 9 ( 97.910 ) 97.910 deg. F t = temperature 10 ( 97.590 ) 97.590 deg. F = 78.870 deg. F i temperature 11 ( 78.870 ) = 78.670 deg. F temperature 12 ( 78.670 ) = temperature 13 ( 78.670 ) 78.670 deg. F- = temperature 14 ( 78.830 ) 78.830 deg. F i = 71.050 deg. F,.O.3761 psia -f dewpoint 1 ( 71.050 ) = dewpoint 2 ( 71.160 ) = 71.160 deg. F, 0.3775 psia 71.590 deg. F, 0.3831 psia dewpoint 3 (- 71.590 ) = H 'oewpoint 4 ( 72.030-) = 72.030 deg. F', 0.3888 psia-(T'~) dewpoint 5 ( 72.060 ) 72.060 dep. F 0.3892 psia = I! dewpoint 6 ( 78.940 ) 78.940 deD. F, 0.4895 psia = pressure; 1 ( -72.3329 ) 72.3329 psia = pressure 2 ( 72.3290 ) = 72.3290 puia weighted ~ averages, volutou and. air mass 'i temperature 80.20584 deg. F = 72.33290 psia pressure = 0.43046 psia vapor pressure = volume 277400 cu. ft. = = 99720.5 lbm i dry air masu ] \\ ~. Il .i
1 HATCH UNIT 2--1989 ILRT--TYPE A TEST m t i shY[ data set -32 i time = 2315-date = 1112 r sensor raw data value t ernperat ure 1 ( 74.840 ) 74.840 deg. F = t ernperat ure 2 ( 74.630 ) 74.630 deg. F = ~L. temperature 3 ( -75.560 ) 75.560 deg. F = t eroperat ure 4 ( 75.750 ) = 75.750 deg. F 76.770 deg. F - t ernperat ure 5 ( 76.770 ) = E t ernperat ure 6 ( 77.320 )- 77.320 deg. F = t ernperat ure 7 ( 83.390 ) 83.390-deg. F = temperature 8 ( 92.090 ) 92.090 deg. F = 4 t ernperat uru 9 ( _97.960 ) 97.960 deg.- F = 97.610 deg. F p temperature 10 ( 97.610 ) = L ternperature 11 ( 78.860 ) = 78.860-deg. F i' - temperature 12 ( 78.650 ) 78.650 deg. F = t ernperat ure 13 ( 78.660 ) = 78.660 deg. F . temperature.14 ( 78.820 ) 78.820 deg. F = 71.160 deg. F, 0.3775 psia dewpoint. 1 ( 71.160 ) = 71.270 deg. F, 0.3789 psia dewpoint 2 ( 71.270 ) = dewpoint 3 ( 71.650 ) 71.650 deg. F, 0.3839 psia =
- /~'
dewpoint 4 ( 72.040 ) 72.040 deg. F, 0.3890 psia = 3( dewpoint 5- -( 72.130') 72.130 deg._F, 0.3901 psia = L 78.930 deg. F, 0.4894 psia dowpoint: 6 ( 78.930 ) = pressure _1 ( 72.3309-) 72.3309 poia = 72.3272 psia pressure 2 ( 72.3272 ) = ..p weighted averages, voluine and air maus t ornperat ure 80.22568 deD. F = 72.33090 psia pressure = b 0.43088 psia vapor pressure = L vol uine 277400 cu. ft. = i dry' air inann 99713.4 l bra = y t ( -_/ \\/ O ._.g
w p, HATCH UNIT 2--1989 ILRT--TYPE A TEST s ( 1-C/ data set 33 time =.2330 date = 1112 to sensor raw data value temperature 1 ( 74.860 ) = 74.860 deg. F r temperature 2( 74.650 ) 74.650 deg. F = temperature 3 ( 75.580 ) = 75.580 deg. F temperature 4 ( 75.810 ) = 75.010 deg. F P temperature 5-( 76.820 ) = 76.820 deg. F temperature 6( 77.320 ) = 77.320 deg. F temperature 7 ( B3.490 ) = 83.490 deg. F temperature 8 ( 92.190 ) = 92.190 deD. F temperature 9 ( 98.120 ) 98.120 deg. F = L temperature 10 ( 97.620 ) 97.620 dog. F = temperature 11 ( 78.860 )- = 78.860 deg. F temperature 12 ( 78.640 ) 78.640 deg..F = temperature 13 ( 78.650-) 78.650 deg. F = temperature 14 ( 78.810 ) 78.810 deg. F = dewpoint 1 ( 71.120 ) 71.120 deg.~F, 0.3770 psic = dewpoint 2 ( 71.270 ) 71.270 deg. F, 0.3789' psia = dewpoint 3 ( 71.690 ) 71.690 deg. F, 0.3844 psia = .(~} dewpoint 4 ( 72.100 ) 72.100 deg. F=, 0.3898 psia = c (): dewpoint 5 ( 72.170 ) 72.170 deg. F, 0.3907 psia = L dowpoint .6 ( 78.930 ) 78.930 deD. F', 0.4894 psia = pressure 1 ( 72.3293 ) 72.3293 psia = . pressure 2 ( 72.3253 ) =. 72.3253 pula ' weighted averages, volume and air mass temperature 80.25271 deg. F = 72.32930 psia pressure = 0.43104 psia-vapor pressure = 277400 cu. ft. volume =: ' dry air maus 99706.O lbm = rT l.~ Nj y E
V i i t-e BCP Technical Services, Inc, Hatch 1989 ILRT Final Report Appendix III t s r i 3 VERIFICATION STABILIZATION DATA SET I i O 1 i I a O
~-... _._m. f yt.; c '~ ~r
- (.
i :.- .si I '; ,;.y' s HATCH UNIT 2--1989 ILRT--VERIFICATION DTABILIZATION )., ' ' ?f DATA
SUMMARY
REPORT I 4 ;. data time date t eroperat ure pressure vapor dry air .I set-deg F psia-pressure - anass psia:- I bin -1 2345. 1112 80.2765 72.3227-O.4312 99692.2 '2' C-'1113 -80.3018 72.3109 0T4312 99671.3 3 15 1113 - 80.3183 72.3000 -O.4317 99652.8 4-30 1113. 80.3503 72.2893 0.4322-99630.9-5 45 1113 . 80.3607 72.2783 0.4326 99613.1 1 -i !2 i 'I 1 i 4 f,h. ], i f
- i t;
'k -- n - .-{ -f i f ) a l i !.l e ) i? - ..~....,.,:,.+,.c.__._._..__,
y F 3 1 t l HATCH UNIT 2--1989 ILRT--VERIFICATION STABILIZATION i r ' /' data set 1 ~ i time = 2345 date = 1112 l sensor raw data value 74.890 deg. F temperature 1 ( 74.890 ) = t eroperat ure '2 ( 74.650 ) = 74.650 deg. F i temperature 3 ( 75.600 ) = 75.600 deg. F 75.860 deg. F I temperature 4 ( 75.860 ) = 76.850 deg. F l t ernperat ure 5 ( 76.850 ) = t eroperat ure 6 ( 77.360 ) 77.360 deg. F = ' t ernperat ure 7 ( 83.590 ) = 83.590 deg. F 92.290 deg. F ( t eroperat ure .8~( 92.290 ) = temperature
- 9. (
98.140 ) 98.140 deg. F = temperature 10 ( 97.710 ) = 97.710 deg. F 78.850 deg. F l temperature 11 ( 78.850 ) = temperature 12 ( 78.640 ) 78.640 deg. F = temperature 13 ( 78.640 ) 78 640 deg. F i = 78.810 deg. F i ternperature 14 ( 78.810 ) = dewpoint 1 ( 71.130 ) 71.130 deg. F, 0.3772 psia = dewpoint 2 ( 71.310 ) 71.310 deg. F, 0.3795 psia = dewpoint 3 ( 71.740 ) 71.740 deg. F, 0.3850 psia i = c(~Y dewpoint 4 ( 72.150 ) = 72.150 deg. F. O.3904 psia j -\\ ) dewpoint 5 (- 72.230 ) 72.230 deg. F, 0.3915 psia = ' dewpoint 6 ( 78.910 ) 78.910 deD. F, 0.4890 psia j = prebsure '1 ( 72.3227 ) = .72.3227 psia j pressure 2 ( 72.3223 ) 72.3223 psia = weighted averagen, volume and' air inaus t eroperat ure 80.27654 deg. F = 72.32270 psia pressure = 0.43120 psia vapor pressure = vol urne = 277400 cu. ft. dry air mass 99692.2 l bra = 4 t ~ x-t i + .x
p.; e c ~ ' HATCH UNIT 2--1989 ILRT--VERIFICATION STABILI2ATION --( /) 2 data set t i rne a O date = 1113 sensor raw data value t eroperat ure 1 ( 74.920 ) 74.920 deD. F = temperature 2 (. 74.680 ) 74.680 deg. F ~ = t ernperat ure 3 ( 75.610 ) = 75.610 deg. F l temperature 4 ( 75.900 ) = 75.900 deg. F ) t ernperat ure 5 ( 76.900 )- = 76.900 deg. F t eroperat ure 6' ( 77.450 ) = 77.450 deg. F t ernperat ure. 7 ( 83.700 ) = 83.700 deg. F temperature 8 (. 92.400 ) 92.400 deg. F = F t ernperat ure 9(. 98.200 ) = 98.200 deg. F - t eroperat ure 10 ( 97.660 ) = 97.660 deg. F temperature 11 ( 78.840 ) 78.840 deg. F = temperature 12 (- 78.630 ) 78.630 deg. F = teroperature 13 ( 78.630 ) 78.630 deg. F = temperature.14 ( 78.790 ) = 78.790 deg. F dewpoint 1 ( 71.160 ) 71.160 deg. F, 0.3775 psia = dewpoint-2 ( 71.340 ) 71.340 deg. F, 0.3798 psia = L dewpoint 3 ( 71.760 ) 71.760 deg. F, 0.3853 psia = (~x dewpoint 4 ( 72.210 ) 72.210 deg. F, 0.3912 psia = \\ ).. dewpoint 5 ( 72.260 ) = 72.260 deg. F, 0.3919 psia dewpoint 6 -(. 78.870 ) 78.870 deg. F, 0.4884 psia = pressure 1 ( 72.3109 ) 72.3109 psia = . pressure 2 ( 72.3103 ) 72.3103 puia = we1Dhted averages, volume and air rnass t eroperat ure 80.30183 deg. F = pressure .= 72.31090 puta O.43116-pela vapor pressure a volume 277400 cu. ft. = dry air rnacu 99671.3 lbra = 3 [.V
HATCH UNIT 2--1989 ILRT--VERIFICATION STABILIZATION l data set 3 t i rne = 15 date = 1113 sensor raw data value 1, t ernperat ure 1 ( 74.950 ) 74.950 deD. F = temperature '2 ( 74.680 ) 74.680 deg. F = t ernperat ure 3 ( 75.640 ) = 75.640 deg. F temperature 4 (- 75.940 ) 75.940 deg. F = t ernparat ure
- 5. (
76.940 ) = 76.940 deg. F 7 temperature 6 ( 77.440 ) = 77.440 deg. F i temperature 7 ( 83.800 ) <= 83.800 deg. F temperature 8 ( 92.490 ) = 92.490 deg. F t ernperat ure 9 (. 98.290 ) 98.290 deg. F = temperature 10 ( 97.720 ) 97.720 deD. F = L ternperature 11 ( 78.820 ) 78.820 deg. F = F temperature 12 ( 78.600 ) = 78.600 deg. F ternperature 13 (.78.620 ) 78.620 deD. F = temperature 14 ( 78.770 ) 78.770 dog. F = dewpoint 1 ( 71.300 ) 71.300 deg. F, 0.3793 psia = L dewpoint 2 ( 71.390 ) 71.390 deg. F, 0.3805 pula = dewpoint 3 ( 71.830 ) 71.830 deg. F, 0.3862 psia = ' ('s dewpoint 4 ( 72.230 ) 72.230 deg. F, 0.3915 psia = Qb dewpoint 5 ( 72.310 ) 72.310 deg. F, 0.3925 psia = dewpoint-6' ( 78.880 ) = 78.880 deg. F, 0.4886 pela pressure 1 ( 72.3003 ) = 72.3003' psia preusure 2 ( 72.2991 ) = 72.2991 pula weighted averages, volume and air mann 80.31834 deg. F temperature. = prensure a' 72.30030 puta 0.43171 puia vapor. pressure = 277400 cu. ft. vol uine = 99652.7 lbm dry air raaun = l-i h a. k
- f g
- .
bU N
7. 7 ~
- n HATCH' UNIT 2--1989'!LRT--VERIFICATION STABIL32ATION
/ ..Y \\N/ datasset 4 r t irne = 30 date = 1113 sensor raw data value 74.960 deg. F t ernperat ure 1 ( 74.960 ) = temperature 2-( 74.710 ) 74.710 deg. F = t ernperat ure 3 ( 75.670 ) 75.670 deg. F = U temperature 4-( 75.970 ) 75.970 deg. F = l temperature 5 ( 76.970 ) 76.970'deg. F = temperature 6 ( 77.520 ) = 77.520 deg. F t ernperat ure 7 '( 83.910 ) 83.910 deg. F = temperature 8 ( 92.600 ) = 92.600 deg. F L. t ernperat ure 9 ( 98.390 )
- 98. 390 deg. : F
= temperature 10 ( 97.740 ) = 97.740 deg. F g ternperat ure 11 ( 78.820 ) 78.820 deg. F = i temperature 12 ( 78.610 ) 78.610 deg. F = t ernperat ure 13 ( '78.610 ) 78.610 deg. F = temperature 14 ( '78.770 ) 78.770 deg. F = dewpoint 1 ( 71.260 ) = 71.260 deg. F, 0.3788 psia 71.430 deg. F, 0.3810 psia dewpoint 2 ( 71.430 ) = dewpoint 3 ( 71.860 ) 71.860 deg. F, 0.3866 psia = s . r's dewpoint 4 ( 72.350 ) 72.350 deg. F, 0.3931 psia = (,)' dewpoint 5 ( 72.360 ) = 72.360 deg. F, O.3932 psia dowpoint _6 (' 78.910 ) = 78.910 deg. F, 0.4890 psia i i pressure 1 ( 72.2893 ) 72.2893 psia- = pressure 2 ( 72.2879.) = -72.2879 psia weighted averages, voluine and-Air raabs ~ 80.35030 deg. F temperature = pressure. .= 72.28930 psia 0.43222 psia vapor pressure = volume-277400 eu. ft. = = 99630.9 lbm 9 dry air maus ( M y 4. ?Vu
HATCH UNIT 2--1989 ILRT--VERIFICATION STADIL12ATION: y L data set 5 time = 45 date = 1113 sensor raw data value temperature 1 ( 74.960 ) 74.960 deg. F = temperature 2 ( 74.740 ) '= 74.740 deD. F temperature 3 ( 75.680 ) 75.680 deD. F = 76.020 deg. F temperature-4 ( 76.020 ) = t etaperat ure 5 ( 77.010 ) 77.010'deD. F = temperature 6 ( 77.530 ) 77.530 deg. F = temperature 7 ( B3.990 ) 83.990 deg. F = temperature B ( 92.700 ) = 92.700 deg. F 98.390 deD. F temperature 9 ( 98.390 ) = temperature 10 ( 97.770 ) 97.770 deg. F = t ernperat ure 11 ( 78.800 ) 78.800 deD. F = temperature 12 ( 78.590 ) 78.590 deg. F = temperature 13 ( 78.590 ) 78.590 deg. F = temperature 14 ( 78.750.) 78.750 deg. F = 71.410 deg. F, 0.3808 psia dewpoint 1 ( 71.410 ) = 71.450 deg. F, 0.3813 psia dewpoint 2 ( 71.450 ) = dewpoint 3 ( 71.920 ) = 71.920 deg. F, 0.3874 pcia dewpoint 4 ( 72.310') 72.310 deg. F, 0.3925 psia = 72.410 deD. F, 0.3939 psia dewpoint 5 ( 72.410 ) = dowpoint-6 ( 78.920 ) 78.920 deD. F, 0.4892 psia = prehnure 1 ( -72.2783 ) = 72.2783 psia pressure 2 ( 72.2769 ) 72.2769 psia = weiD ted averages, volume and air mass h temperature 80.36073 deg. F = 72.27830 psia pressure = 0.432G3 psia vapor pressure = volume 277400 cu. oft. = dry air maus '99613.1 lbm = e
If t! + 1 i: c I ? BCP. Technical Services, Inc. l... Hatch 1989 ILRT Final Report Appendix.III. g f VERIFICATION DATA SET -l i \\ !.i '1: i I i } 4 i 1 1
^ j r . HATCH UNIT 2--1989 ILRT--VERIFICATION l[) DATA
SUMMARY
REPORT v data time date temperature pressure vapor dry air set deg F psia pressure mass psia Ibm 1 45 1113 80.3607 72.2783 0.4326 99613.1 2 100 1113 80.3946 72.2675 0.4322 99592.5 3 115 1113 80.4143-72.2565 0.4329 99572.6 4 130 1113 80 4340 72.2459 0.4332 99553.9 5 145 1113 80.4'19 72.2349 0.4336 99533.0 6 200 1113 80.4844 72.2241 0.4337 99513.8 7 215 1113 80.5042 72.2131 0.4341 99494.3 8 230 1113 80.5346 72.2027 0.4342 99474.1 9 245 1113 80.5549 72.1921 0.4346 99455.1 10 300 1113 80.5722 72.1813 0.4350 99436.4 11 315 1113 80.5873 72.1703 0.4352 99418.1 12 330 1113 80.6210 72.1595 0.4355 99396.6 13 345 1113 80.6459 S1491 0.4358 99377.2 14 400 1113 80.6645
- .1383 0.4361 99358.3 15 415 1113 80.6913
,2.1275 0.4362 99338.3 16 430 1113 80.7106 72.1167 0.4366 99319.3 17 445 1113 80.7340 72.1059 0.4367 99299.9 O i l
HATCH UNIT 2--1989 ILRT--VERIFICATION l fc data set 1 N time = 45 date = 1113 sensor raw data value 74.960 deg.-F temperature 1 ( 74.960 ) = 74.740 deg. F temperature 2 ( 74.740 ) = 75.680 deg. F i temperature 3 ( 75.680 )- = temperature 4 ( 76.020 ) 76.020 deg. F = 77.010 deg. F temperature 5 ( 77.010 ) = 77.530 deg. F temperature 6 ( 77.530 ) = temperature 7 ( 83.990 ) 83.990 deg. F = 92.700 deg. F-temperature B ( 92.700 ) = 98.390 deg. F temperature 9 ( 98.390 ) = 97.770 deg. F temperature 10 ( 97.770 ) = 78.800 deg. F temperature 11 ( 78.800 ) = 78.590 deg. F temperature 12 ( 78.590 ) = 78.590 deg. F temperature 13 ( 78.590 ) = 78.750 deg. F temperature 14 ( 78.750 ) = 71.410 deg. F 0.3808 psia dewpoint 1 ( 71.410 ) = 71.450 deg. F,, 0.3813 psia dewpoint 2 ( 71.450 ) = 71.920 deg. F 0.3874 psia dewpoint 3 ( 71.920 ) = 72.310 deg. F,, 0.3925 psia dewpoint 4 ( 72.310 ) = dewpoint 5 ( 72.410 ) 72.410 deg. F 0.3939 psia = 78.920 deg. F, 0.4892 psia dewpoint 6 ( 78.920 ) = 72.2783 psia pressure-1 ( 72.2783 ) = pressure 2 ( 72.2769 ) 72.2769 psia = weighted averages, volume and air mass 80.36073 deg. F temperature = 72.27830 psia pressure = .(~h vapor pressure 0.43263 psia = () volume = 277400 cu. ft. 99613.1 lbm dry air mass =
HATCH UNIT 2--1989 ILRT--VERIFICATION y data set 2-time =- 100 date = 1113 sensor raw data value temperature 1 ( 75.000 ) 75.000 deg. F = temperature 2 ( 74.790-) 74.790 deg. F = temperature 3 ( 75.720 ) 75.720 deg. F = temperature 4 ( 76.050 ) 76.050 deD. F = temperature 5 ( 77.040 ) = 77.040 deg. F temperature 6 ( 77.560 ) = 77.560 deg. F temperature 7 ( 84.100 ) 84.100 deg. F = temperature 8 ( 92.800 ) 92.800 deg. F = temperature 9 ( 98.530 ) = 98.530 deg. F temperature 10-( 97.780 ) = 97.780 deg. F temperature 11 ( 78.810 ) 78.810 dog. F = . temperature 12 ( 78.590 ) 78.590 dag. F = temperature-13 ( 78.600 ) 78.600 deg. F = temperature 14 ( 78.740 ) 78.740 deg. F = dowpoint 1 ( 71.310 ) 71.310 deg. F 0.3795 psia = 71.460 deg. F, 0.3814 psia dewpoint 2 ( 71.460 ) = 71.940 deg. F, 0.3876 psia dowpoint 3 ( 71.940 ) e = 72.380 deg. F, 0.3935 psia dowpoint 4 ( 72.380 ) = 72.470 deg. F, 0.3947 psia dowpoint 5 ( 72.470 ) = 78.850 deg. F, 0.4881 psia dowpoint 6 ( 78.850 ) = pressure 1 ( 72.2675 ) 72.2675 psia = pressure 2 '( 72.2659 ) 72.2659 psia = weighted averages, volume and air mass es temperature 80.39462 deg. F = ( \\ 72.26750 pasa \\/ pressure = 0.43222 psia vapor pressure = 277400 cu. ft. volume = dry air mass 99592.5 lbm = l 1 l' l: l O y
i HATCH UNIT 2--1989 ILRT--VERIFICATION 'I ). time =- 115 date = 1113 data set 3 A sensor raw data value 75.020 deg. F [ temperature 1 ( 75.020 ) = temperature 2 ( 74.800 ) 74.800 deg. F = temperature 3 ( 75.740 ) =. 75.740 deg. F r 76.080 deg. F ' temperature 4 ( 76.080 ) = temperature 5 ( 77.080 ) 77.080 deg. F = temperature 6 ( 77.570 ) 77.570 deg. F = temperature -7 ( 84.210 ) 84.210 deg. F = temperature 8 ( 92.910 )- = 92.910 deg. F temperature 9 ( 98.570 ) 98.570 deg. F = temperature 10 (- 97.820 ) 97.820 deg. F = temperature 11 ( -78.790 ) 78.790 deg. F = temperature 12 ( 78.580 ) = 78.580 deg. F temperature 13 ( 78.590 ) = 78.590 deg. F temperature 14 ( 78.740 ) 78.740 deg. F n 71.480 deg. F 0.3817 psia i dewpoint 1 ( 71.480 ) = 71.550 deg. F,, 0.3826 psia dewpoint 2 ( 71.550 ) = 71.980 deg. F 0.3882 psia dewpoint 3-( 71.980 ) = 72.410 deg. F,, 0.3939 psia dewpoint 4 ( 72.410 ) = 72.510 deg. F 0.3952 psia dewpoint 5 ( 72.510 ) = 78.880 deg. F,, 0.4886 psia dewpoint 6 ( 78.880 ) = 72.2565 psia pressure 1 ( 72.2565 ) = pressure 2 ( 72.2550 ) 72.2550 psia = weighted averages, volume and air mass temperature 80.41431 deg. F = 72.25650 psia ( pressure = 0.43295 psia vapor pressure = volume = 277400 cu. ft. 99572.6 lbm dry air mass = 3 i (~)N ( 1
. HATCH UNIT 2--1989-ILRT--VERIFICATION h data sat 4 LJ time = 130 date = 1113 sensor raw data value temperature 1 ( 75.050 ) 75.050 deg. F = temperature 2 ( 74.810 )- = 74.810 deg. F temperature 3 ( 75.760 ) = 75.760 deg. F temperature-4 ( 76.120 ) 76.120 deg._ F = temperature 5 ( 77.130 ) 77.130 deg. F = temperature 6 ( 77.600 ) = 77.600 deg. F temperature 7 ( 84.310 ) 84.310 deg. F = temperature 8 ( 92.980 ) 92.980 deg.- F = temperature 9 ( 98.610 ) = 98.610 deg. F temperature 10 ( 97.750 ) 97.750 deg. F = temperature 11 ( 78.780 ) = 78.780 deg. F 1 temperature 12 ( 78.580 ) 78.580 deg. F = temperature 13 ( 78.590 ) = 78.590 deg. F temperature 14 ( 78.730 ) 78.730 deg. F = dewpoint 1 ( 71.470 ) 71.470 deg. F 0.3815 psia j = 71.580 deg. F, 0.3830 psia dewpoint 2 ( 71.580 ) = 72.010 deg. F, 0.3886 psia dewpoint 3 ( 72.010 ) = 72.490 deg. F, 0.3949 psia dewpoint 4 ( 72.490 ) = 72.560 deg. F, 0.3959 psia dewpoint 5 ( 72.560 ) = 78.880 deg. F,, 0.4886 psia j dowpoint 6 ( 78.880 ) = pressure 1 ( 72.2459 ) = 72.2459 psia pressure 2 ( 72.2440 ) = 72.2440 psia weighted averages, volume and air mass 1 temperature 80.43399 deg. F = [\\ 72.24590 psia pressure = \\_) vapor pressure = 0.43321 psia 277400 cu. ft. volume = dry air mass = 99553.9 lbm si m
HATCH UNIT 2--1989 ILRT--VERIFICATION data set 5 ~ time =' 145 date = 1113 sensor raw data value temperature 1 ( 75.100 ) 75.100 deg. F =- 74.820 deg. F l temperature 2 ( -74.820 ) = temperature 3 ( 75.770 ) =- 75.770 deg. F temperature 4 ( 76.150 ) 76.150 deg. F = temperature 5 (- 77.170 )' 77.170 deg. F i = temperature 6 ( 77.650 ) 77.650 deg. F L = temperature 7 ( 84.420 ) = 84.420 deg. F temperature B ( 93.080 ) 93.080 deg. F = temperature 9 ( 98.700 ) 98.700 deg. F = temperature 10-( 97.810 ) 97.810 deg. F = temperature 11 ( 78.780 ) 78.780 deg. F = temperature 12 ( 78.570 ) 78.570 deg. F = temperature 13 ( 78.570 ) 78.570 deg. F = temperature 14 ( 78.730 ) 78.730 deg. F = dowpoint-1 ( 71.460 ) 71.460 deg. F 0.3814 psia = 71.610 deg. F,, 0.3833 psia dewpoint 2 ( 71.610 ) = dewpoint 3 ( 72.080 ) 72.080 deg. F 0.3895 psia = 72.490 deg. F,, 0.3949 psia dewpoint 4 ( 72.490 ) = dewpoint 5 ( 72.630 ) 72.630 deg. F, 0.3968 psia = dewpoint 6 ( 78.900 ) 78.900 deg. F, 0.4889 psia = L pressure 1 ( 72.2349 ) = 72.2349 psia pressure 2 ( 72.2331 ) = 72.2331 psia weighted averages, volume and air mass temperature 80.46185 deg. F = l') 72.23490 psia pressure = (/ vapor pressure = 0.43360 psia 277400 cu. ft. volume = dry air mass 99533.0 lbm = O
HATCH UNIT'2--1989 ILRT--VERIFICATION i )I data set 6 v time = 200 date = 1113 sensor raw data value temperature 1 (- 75.100 ) 75.100 deg. F = temperature 2 ( -74.850 ) 74.850 deg. F = 75.800 deg. F ? temperature 3 ( 75.800 ) = temperature 4 ( 76.190 ) 76.190 deg. F = temperature 5 ( 77.210 ) 77.210 deg. F = temperature-6 ( 77.680 ) 77.680 deg. F = temperature 7 ( 84.500 ) 84.500 deg. F = temperature 8 ( 93.180 )~ = 93.180 deg. F temperature 9 ( 98.740 ) = 98.740 deg. F temperature 10 ( 97.810 )~ 97.810 deg. F = temperature 11 ( 78.780 ) = 78.780 deg. F temperature.12 ( 78.570 ) 78.570 deg. F = temperature 13 ( 78.570 ) = 78.570 deg. F temperature 14 ( 78.730 ) = 78.730 deg. F dewpoint 1 ( 71.560 ) 71.560 deg. F 0.3827 psia = 71.730 deg. F, 0.3849 psia-dewpoint 2 ( 71.730 ) = 72.090 deg. F, 0.3896 psia dowpoint 3 ( 72.090 ) = 72.540 deg. F,, 0.3956 psia dewpoint 4 ( 72.540 ) = dewpoint 5 ( 72.650 )- 72.650 deg. F 0.3971 psia = 78.850 deg. F,, 0.4881 psia dewpoint 6 ( 78.850 ) = pressure 1 ( 72.2241 ) = 72.2241 psia pressure 2 ( 72.2223 ) 72.2223 psia = weighted averages, volume and air mass temperature 80.48437 deg. F = -l pressure = 72.22410 psaa 'j 0.43365 psia vapor pressure = 277400 cu. ft, volume = dry air mass 99513.8 lbm = OV
f i HATCH UNIT 2--1989 ILRT--VERIFICATION ,-~q if j. data set 7 ^ t i rne - = 215 date = 1113 j sensor raw data value j t ernperat ure 1 ( 75.110 ) = 75.110 deg. F l 74.850 deg. F 1 temperature 2 ( 74.850 ) = 75.800 deg. F temperature 3 ( 75.800 ) = 76.230 deg. F temperature 4 ( 76.230 ) = 77.240 deD. F l temperature 5 ( 77.240 ) = - temperature 6 ( 77.710 ) = 77.710 deg. F temperature 7'( 84.600 ) = 84.600 deg. F temperature 8.( 93.270 ) = 93.270 deg. F temperature-9 ( 98.860 ) 98.860 deg. F = 97.790 deg. F temperature 10 ( 97.790 ) = temperature 11 ( 78.770 ) 78.770 deg-F = ' temperature 12 ( 78.560 ) = 78.560 deg. F 78.560 deD.'F temperature 13 ( 78.560 ) = 78.720 deg. F temperature 14 ( 78.720 ) = dewpoint 1 ( 71.510 ) = 71.510 deg. F, 0.3820 psia dewpoint 2 ( 71.780 ) 71.780 deg. F, 0.3856 psia = 72.130 deg. F 0.3901 psia dewpoint 3 ( 72.130 ) = 72.620 deg. F,, 0.3967 psia dewpoint 4 ( 72.620 ) = dewpoint 5 ( 72.690 ) 72.690 deg. F 0.3976 psia = 78.880 deg. F,, 0.4886 psia dewpoint 6 ( 78.880 ) = pressure 1 ( 72.2131-) 72.2131 psia = pressure 2 ( 72.2115 ) = 72.2115 psia weighted averages, volume and air mass r temperature 80.50415 deg. F = 72.21310 psia pressure = vapor pressure = 0.43411 psia 277400 cu. ft. volume = dry. air mass 99494.3 lbm = ~. 1 L.. 1 I O ? 1. e
1 L HATCH UNIT 2--1989 ILRT--VERIFICATION data set 8 time = -230 date = 1113 sensor raw data value temperature 1 ( 75.150 ) 75.150 deg. F = temperature 2 ( 74.870 ) 74.870 deg. F = temperature 3 ( 75.830 ) 75.830 deg. F = temperature 4 ( 76.260 ) 76.260 deg. F = temperature 5 ( 77.300 ) = 77.300 deg. F temperature 6 ( 77.750 ) 77.750 deg. F = temperature 7 ( 84.710 ) = 84.710 deg. F temperature 8-( 93.370 ) 93.370 deg. F = temperature 9 ( 98.940 ) = 98.940 deg. F temperature 10 ( 97.900 ) 97.900 deg. F = temperature 11 ( -78.770 ) 78.770 deg. F = temperature 12 ( 78.560 ) = 78.560 deg. F temperature 13 ( 78.550 ) 78.550 deg. F = temperature 14 ( 78.700 ) 78.700 deg. F = dewpoint 1 ( 71.570 ) 71.570 deg. F, 0.3828 psia = dewpoint 2-( 71.780 ) = 71.780 deg. F, 0.3856 psia dewpoint 3 ( 72.180 ) 72.180 deg. F 0.3908 psia = 72.600 deg. F, 0.3954 psia dowpoint 4 ( 72.600 ) = 72.730 deg. F, 0.3981 psia dewpoint 5 ( 72.730 ) = 78.870 deg. F, 0.4884 psia dewpoint 6 ( 78.870 ) = pressure 1 ( 72.2027 ) = 72.2027 psia pressure 2 ( 72.2008 ) 72.2008 psia = weighted averages, volume and air mass temperature 80.53455 deg. F = .O 72.20270 psta pressure = 0.43423 psia vapor pressure = 277400 cu. ft. volume = dry air mass 99474.1 lbm = O
'l HATCH UNIT 2--1989 ILRT--VERIFICATION /l-. data set 9' time a 245 date = 1113 sensor raw' data value temperature 1 ( 75.180 ) 75.180 deg.- F = temperature 2 ( 74.880 ) 74.880 deg. F = temperature 3 ( 75.840 ) 75.840 deg. F = temperature 4 ( 76.290 ) 76.290 deg. F = temperature 5 ( 77,330 ) 77.330'deg. F = temperature 6 ( 77.790 ) = 77.790 deg. F temperature 7 ( 84.790 ) B4.790 deg. F = temperature 8 ( 93.450 ) = 93.450 deg. F temperature 9 ( 99.010 ) = 99.010 deg. F temperature 10 ( 97.860 ) = 97.860 deg. F temperature 11 ( 73.760 ) 78.760 deg. F = temperature'12 ( 78.560 ) 78.560 deg. F = temperature 13 ( 78.550 ) 78.550 deg. F = temperature 14 ( 78.700 ) 78.700 deg. F = dewpoint 1 ( 71'.620 ) 71.620 deg. F, 0.3835 psia = dewpoint 2 ( 71.830 ) = 71.830 deg. F, 0.3862 psia dewpoint 3 ( 72.230 ) 72.230 deg. F-0.3915 psia = 72.650 deg. F,, 0.3971 psia dewpoint 4 ( 72.650 ) = dewpoint 5 ( 72.800 ) 72.800 deg. F 0.3991 psia = 78.870 deg. F, 0.4884 psia dewpoint 6 ( 78.870 ) = pressure 1 ( 72.1921 ) 72.1921 psia = pressure 2 ( 72.1901 ) 72.1901 psia = weighted averages, volume and-air mass temperature 80.55489 deg. F = 7'% 72.19210 psia pressure = (,/ vapor pressure 0.43462 psia = 277400 cu. ft. volume = dry air mass 99455.1 lbm =
l-HATCH UNIT 2--1989 ILRT--VERIFICATION data set 11-time = 315 date = 1113 sensor raw data value I temperature 1 ( 75.170 ) = 75.170 deg. F temperature 2 ( 74.910 ) 74.910 deg. F = temperature 3 ( 75.890-) 75.890-deg. F = temperature 4 ( 76.360 ) = 76.360 deg. F temperature 5 ( 77.390 ) 77.390 deD.-F = temperature 6 ( 77.840 ) 77.840 deg. F = temperature 7 ( 84.960 ) = 84.960 deg. F temperature 8 ( 93.630 ) = 93.630 deg. F temperature 9 ( 99.040 ) = 99.040 deg. F temperature 10 ( 97.850 ) 97.850 deg. F = temperature 11 ( 78.760 ) = 78.760 deg. F temperature 12 ( 78.540 ) = 78.540 deg. F temperature 13 ( 78.540 ) 78.540 deg. F = temperature 14 ( 78.690 ) 78.690 deg. F = dewpoint 1 ( 71.840 ) 71.840 deg. F, 0.3863 psia = dewpoint 2 ( 71.890 ) = 71.890 deg. F 0.3870 psia 72.290 deg. F, 0.3923 psia dewpoint 3 ( 72.290 ) = 72.740 deg. F, 0.3983 psia dewpoint 4 ( 72.740 ) = 72.870 deg. F, 0.4000 psia dewpoint 5 ( 72.870 ) = 78.850 deg. F, 0.4881 psia dewpoint 6 ( 78.850 ) = pressure 1 ( 72.1703 ) = 72.1703 psia pressure 2 ( 72.1686 ) 72.1686 psia j = weighted averages, volume and air rnass 80.58733 deg. F l temperature = ,1O 72.17030 psia pressure = 0.43519 psia vapor pressure = volume = 277400 cu. ft. dry air mass 99418.1 lbm = l i
HATCH UNIT 2--1989 ILRT--VERIFICATION [l data set 12 ~'f x t i rne = 330 date = 1113 sensor raw data value temperature 1 ( 75.270 ) 75.270 deg. F = temperature 2 ( 74.930 ) 74.930 deg. F = temperature 3 ( 75.910 ) 75.910 deg. F = temperature 4 ( 76.380 ) = 76.380 deg. F temperature 5 ( 77.450 ) = 77.450 deg. F 77.880 deg. F t ernperat ure 6'( 77.880 ) = temperature 7 ( 85.060 ) 85.060 deg. F = temperature 8 ( 93.700 ) = 93.700-deg. F . temperature 9 ( 99.160 ) 99.160 deg. F = t ernperat ure 10 ( 97.870 ) 97.870 deg. F = temperature 11 ( 78.760 ) 78.760 deg. F = temperature 12 ( 78.540 ) = 78.540 deg. F H temperature 13 ( 78.540 )- = 78.540 deg. F temperature 14 ( 78.690 ) 78.690.deg. F = dewpoint 1 ( 71.750 ) 71.750 deg. F 0.3852 psia = 71.960 deg. F, 0.3879 psia dewpoint 2 ( 71.960 ) = 72.330 deg. F, 0.3928 psia dewpoint 3 ( 72.330 ) = 72.800 deg. F,, 0.3991 psia dewpoint-4 ( 72.800 ) = dewpoint 5 ( 72.910 ) = 72.910 deg. F 0.4006 psia 78.860 deg. F,, 0.4882 psia dewpoint 6 ( 78.860 ) = pressure 1 ( 72.1595 ) = 72.1595 psia pressure 2 ( 72.1579 ) = 72.1579 psia weighted averages, volutne and air mass l temperature 80.62103 deg. F = (~) pressure 72.15950 psia = 0.43545 psia l \\_/ vapor pressure = 277400 cu. ft. volume = dry air mass ~99396.6 lbm = i + IP 1 1 1 I V L l -s.
I, I j-HATCH UNIT 2--1989 ILRT--VERIFICATION -[ } data set 13 \\_/ t ime = 345 date = 1113 sensor-raw data value temperature 1 ( 75.300 ) 75.300 deg. F = temperature 2 ( 74.950 ) 74.950 deg. F = temperature 3 ( 75.930 ) 75.930 deg.- F = temperature 4 ( 76.420 ) 76.420 deD. F = temperature 5 ( 77.470 ) = 77.470 deg. F temperature 6 ( 77.940 ) 77.940 deg. F = temperature 7 ( 85.160 ) = 85.160 deg. F temperature 8 ( 93.780 ) = 93.780 deg. F temperature 9 ( 99.190 ) 99.190 deg. F = temperature 10 ( 97.930 )- 97.930 deg. F = temperature 11 ( 78.760 ) 78.760 deg. F = temperature 12 ( 78.540 ) = 78.540 deg. F temperature 13 ( 78.530 ) 78.530 deg. F = temperature 14 ( 78.690 ) = 78.690 deg. F dewpoint 1 ( 71.720 ) 71.720 deg. F, 0.3848 psia = dewpoint 2 ( 72.120 ) 72.120 deg. F, 0.3900 psia = t dewpoint 3 ( 72.370 ) 72.370 deg. F 0.3933 psia = 72.810 deg. F,, 0.3992 psia dewpoint 4 ( 72.810 ) = dewpoint 5 ( 72.960~) = 72.960 deg. F 0.4012 psia 78.860 deg. F,, 0.4882 psia dewpoint 6 ( 78.860 ) = pressure 1 ( 72.1491 ) = 72.1491 psia pressure 2 ( 72.1472 ) = 72.1472 psia weighted averages, volume and air mass temperature 80.64591 deg. F = '[ \\ pressure = 72.14910 psia (_) vapor pressure 0.43578 psia = 277400 cu. ft. volume = dry air mass 99377.2 lbm = 1 i 4 6 'V
~ HATCH UNIT 2--1989 ILRT--VERIFICATION l e () data set 14 I time = 400 date = 1113 sensor raw data value temperature 1 ( 75.320 ) temperature 2 ( 74.980 ) 75.320 deg. F = temperature' 3 ( 75.950 ) 74.980 deg. F = temperature 4 ( 76.450 ) 75.950 deg. F = temperature 5 ( 77.510 ) 76.450 deg. F = temperature 6 ( 77.960 ) 77.510 deg. F = temperature 7 ( 85.240 ) 77.960 deg. F = temperature 8 ( 93.860 ) 85.240'deg. F = temperature 9 (' 99.220 ) 93.860 deg. F = temperature 10 ( 97.900 ) 99.220 deg. F = temperature 11 ( 78.760 ) 97.900 deg. F = temperature 12 ( 78.540 ) 78.760 deg. F = temperature 13 ( 78.530 ) 78.540 deg. F = ' temperature 14 ( 78.680 ) 78.530 deg. F = 78.680 deg. F = dewpoint 1 ( 71.790 ) dewpoint 2 ( 72.120 ) 71.790 deg. F 0.3857 psia = dewpoint 3 ( 72.400 ) 72.120 deg. F,, 0.3900 psia = dewpoint 4 ( 72.860 ) 72.400 deg. F 0.3937 psia = dewpoint 5 ( 73.010 ) 72.860 deg. F, = 0.3999 psia dewpoint 6 ( - 78.870 ) 73.010 deg. F, = 0.4019 psia 78.870 deg. F,, 0.4884 psia = pressure 1 ( 72.1383 ) pressure-2 ( 72.1363 ) 72 1383 psia = 72 1363 psia = weighted averages, volume and air mass -O. temperature pressure 80.66451 deg. F = vapor pressure 72.13830 psia = volume 0.43614 psia = dry air mass 277400 cu. ft. = 99358.3 lbm = I O
L b HATCH UNIT 2--1989 ILRT--VERIFICATION (o}_' data set 14 time =- 400 date = 1113 o sensor raw data value temperature 1 ( 75.320 ) 75.320 deg. F = temperature 2 ( 74.980 ) = 74.980 deg. F temperature 3 ( 75.950 ) 75.950 deg. F = 76.450 deg. F temperature 4 ( 76.450 ) = temperature 5 ( 77.510 ) 77.510 deg. F = temperature 6 ( 77.960 ) 77.960 deg. F = temperature 7 ( 85.240 ) 85.240 deg. F = temperature 8 ( 93.860 ) = 93.860 deg. F 99.220 deg. F temperature 9 (- 99.220 ) = temperature 10 ( 97.900 ) 97.900 deg. F = temperature 11 ( 78.760 ) 78.760 deg. F = temperature 12 ( 78.540 ) u 78.540 deg. F temperature 13 ( 78.530 ) a 78.530 deg. F temperature 14 ( 78.680 ) 78.680 deg. F = l dewpoint 1 (- 71.790 ) 71.790 deg. F 0.3857 psia = 72.120 deg. F, 0.3900 psia dewpoint 2 ( 72.120 ) = 72.400 deg. F, 0.3937 psia dewpoint 3 ( 72.400 ) = 72.860 deg. F,, 0.3999 psia dewpoint 4 ( 72.860 ) = 73.010 deg. F 0.4019 psia dewpoint 5 ( 73.010 ) = 78.870 deg. F, 0.4884 psia dewpoint 6 ( 78.870 ) = l pressure 1 ( 72.1383 ) 72.1383 psia = i pressure 2 ( 72.1363 ) = 72.1363 psia weighted averages, volume and air mass fg temperature 80.66451.deg. F = 72.13830 psta
- /
pressure = 's vapor pressure = 0.43614 psia volume = 277400 cu. ft. dry air mass n 99358.3 lbm t 'N
HATCH UNIT 2--1989 ILRT--VERIFICATION [) data set 15 (f . time =- 415 date = 1113 sensor raw data value 75.380 deg. F temperature 1 ( 75.380 ) = temperature 2 ( 75.000 ) 75.000 deg. F = 75.990 deg. F temperature 3 ( 75.990 ) = temperature 4 ( 76.490 ) 76.490 deg. F = temperature 5 ( 77.550 ) 77.550 deg. F j = temperature 6 ( 78.020 ) 78.020 deg. F = temperature 7 (- 85.330 ) = 85.330 deg. F temperature 8 ( 93.960 ) 93.960 deg. F = temperature 9 ( 99.290 ) = 99.290 deg. F temperature 10 ( 97.920 ) 97.920 deg. F i = temperature 11 ( 78.760 ) 78.760 deg. F = temperature 12 ( 78.520 ) 78.520 deg. F = temperature 13 ( 78.510 ) = 78.510 deg. F temperature-14 ( 78.680 ) 78.680 deg. F = 71.860 deg. F 0.3866 psia j dewpoint 1 ( 71.860 ) = 72.160 deg. F,, 0.3905 psia dewpoint-2 ( 72.160 ) = dewpoint 3 ( 72.450 ) 72.450 deg. F 0.3944 psia = 72.910 deg. F,, 0.4006 psia ' dewpoint 4 ( 72.910 ) = dewpoint 5 ( 7.3.070 ) 73.070 deg. F 0.4027 psia = 78.830 deg. F,, 0.4878 psia dewpoint 6 ( 78.830 ) = pressure 1 ( 72.1275 ) = 72.1275 psia pressure 2 ( 72.1254 ) = 72.1254 psia i weighted averages, volume and air mass temperature 80.69131 deg. F = O, pressure 72.12750 psta = ' \\_/ vapor pressure 0.43624 psia = 277400 cu. ft. volume = dry air mass 99338.2 lbm = i i O v
I ,1 E L. HATCH UNIT 2--1989 ILRT--VERIFICATION .( Y data set 16 gj time = 430 date = 1113 sensor raw data value temperature 1 ( 75.390 ) = 75.390 deg. F temperature 2 ( 75.030 ) = 75.030 deg. F temperature 3 ( 76.000 ) '76.000 deg. F = temperature-4 ( 76.510 ) 76.510 deg. F = temperature 5 ( 77.580 ) 77.580 deg. F = temperature 6 ( 78.030 ) = 78.030 deg. F temperature-7 ( 85.420 ) a 85.420 deg. F temperature 8 ( -94.020 ) 94.020 deg. F = temperature 9 ( 99.350 ) = 99.350 deg. F temperature 10 ( 97.930 ) = 97.930 deg. F temperature 11 ( 78.760 ) 78.760 deg. F = temperature 12 ( 78.520 ) = 78.520 deg. F temperature 13 ( 78.510 ) = 78.510 deg. F temperature 14 ( 78.680 ) 78.680 deg. F = dewpoint 1 ( 71.890 ) 71.890 deg. F 0.3870 psia = 72.160 deg. F,, 0.3905 psia dewpoint 2 ( 72.160 ) = dewpoint 3 ( 72.470 ) 72.470 deg. F 0.3947 psia = 72.990 deg. F,, 0.4016 psia dewpoint 4 ( 72.990 ) = dewpoint 5 ( 73.110 ) = 73.110 deg. F 0.4033 psia -78.840 deg. F,, 0.4879 psia dewpoint 6 ( 78.840 ) = pressure 1 ( 72.1167 ) 72.1167 psia = pressure 2 ( 72.1146 ) 72.1146 psia = weighted averaDes, volume and air mass .'3 temperature 80.71056 deg. F = 72.11670 psia ( )i r pressure = 0.43657 psia l.: vapor pressure = volume = 277400 cu. ft. dry air mass a 99319.3 lbm I i ?) L %/ l l
[, HATCH UNIT 2--1989 ILRT--VERIFICATION / )i-data set 17 \\_ + time = 445 date = 1113 sensor raw data value temperature 1 ( 75.410 ) 75.410 deg. F = temperature 2 ( 75.060 ) = 75.060 deg. F temperature 3 ( 76.030 ) 76.030 deg. F = temperature 4 ( 76.540 ) 76.540-deg. F = temperature 5 ( 77.620 ) a 77.620 deg. F temperature 6 ( 78.080 ) = 78.080 deg. F temperature 7 ( 85.510 ) = 85.510 deg. F temperature 8 ( 94.120 ) 94.120 deg. F = temperature 9 ( 99.390 ) 99.390 deg. F = temperature 10 ( 97.900 ) 97.900 deg. F = temperature 11 ( 78.750 ) = 78.750 deg. F temperature 12 ( 78.520 ) 78.520 deg. F = temperature 13 ( 78.510 ) 78.510 deg. F = temperature 14 ( 78.680 ) 78.680 deg. F = dewpoint 1 (. 71.860 ) 71.860 deg. F 0.3066 psia = 72.220 deg. F,, 0.3913 psia dewpoint 2 ( 72.220 ) = dewpoint 3 ( 72.510 ) 72.510 deg. F 0.3952 psia = 73.040 dog. F, 0.4023 psia dewpoint 4 ( 73.040 ) = 73.150 deg. F, 0.4038 psia dewpoint 5 ( 73.150 ) = 78.820 deg. F,, 0.4876 psia dewpoint 6 ( 78.820 ) = pressure 1 ( 72.1059 ) 72.1059 psia j = pressure 2 ( 72.1040 ) = 72.1040 psia weighted averages, volume and air mass temperature 80.73401 deg. F = [T pressure = 72.10590 psia (/ vapor pressure = 0.43667 psia 277400 cu. ft, volume = dry air mass 99299.9 lbm = n v
t.C. :. 1 -; ~ 1; .\\ 1 BCP Technical Services, Inc, Hatch:1989:ILRT Final Report .l L Appendix IV 1 j; i APPENDIX IV t DRYBUL8/ DEWPOINT TEMPERATURE PLOTS - ()- W O
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10 O O-i 4-HATCHUNIT2--1989ILRT--fYPEATEST 77,99 f. E s y } -f G 1 p ERd a Ae Ig U RF 1 E l l i -i 4 1600 1800 '20 0 2200 -l l TIME 12 NOV 89 i ~ - ' -. ,,n. e ,e, ~ ~ < .s en e r.- -r -- r. ,s~,
OF LO ~ Q HATCHUNIT2--1989ILRf--IYPEAIEST ??.99 m E M p E Rd Ae fg U RF l E 5 1600 1800 2000 2200 l 72,08 i i i i i i i i t-
3,. a. = - ,y 3 {~ 'O ~ O 10 ~! HATCHHNIf2--1989:ILRT--IYPEAIEST 80,00 y l -i E M i y ERd Ae i } g U RF E 6 1 -l 1600 1800: 2000 2200 75.99 i i i i i-i i i ' TIME 12 NOV 89 l I , _ ~. _ _ _
s -TO O O HATCHUNIT2--1989ILRf--fYPEATEST 84,99 5 T E M p E 1 Rd-Ae 1 Tg URF l E i l l 7 i 1 f 1600 1800 '2000 2200 fhhh I l l I I I l l i TIME' 12 NOV 89 .,n.,.n
O O M O n HAfG UNIT 2--1989 ILRT--fYEE A TESI 92.50 i = L I E n P Rd Ae i Ig L U RF E = u 8 i 1600 1800 2000 2200 37,59 1 I I I i i i 1 TIME 12 NOV 89 l i ? ..~
O O O i NAIG UNIf 2--1989 ILRf--ffPE A fBf 99,W p J 1 g e i y P E l i Rd i l Ae i l I1 ll i l RF l E l i t i e 1600 1800 2000 2200 94,M i l i I i i I j TIME 12 NOV 89 ~ . _ ~.. - - _ _, _ _ _ _.. _ -....J
O O O i ilAIG UNIT 2--1989 ILRT--ffPE A TEST 99.99 i I L E N i P E f Rd [ I u RF i E l ~ i I 1 l 9 i 1600 1800 2000 2200 i 94,90 i i i i i i i i TIME 12 NOV 89 ....... ~.. -
O O O HAIG llNIf 2--1989 ILRT--IfPE A mi 82.99 1 I i E M P E t R& Ae Ig i y RF l E i 1 1 l; 1600 1800 2000 2200 l 77.09 I i i i i i i i TIME 12 NOV 89 l l I
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