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| | number = ML19326B541 | | | number = ML19326B541 |
| | issue date = 12/01/1973 | | | issue date = 12/01/1973 |
| | title = Reactor Containment Bldg Integrated Leak Rate Test. | | | title = Reactor Containment Bldg Integrated Leak Rate Test |
| | author name = Brown R, Cranston G | | | author name = Brown R, Cranston G |
| | author affiliation = BECHTEL GROUP, INC. | | | author affiliation = BECHTEL GROUP, INC. |
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| =Text= | | =Text= |
| {{#Wiki_filter:_ _ _ _ | | {{#Wiki_filter:}} |
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| 'R35uister? FN '2?
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| D l l
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| FINAL REPORT l
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| ; REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST ARKANSAS NUCLEAR 01!3 UNIT NO. 1 - BECHTEL JOB 6600-001
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| -( -
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| BECHTEL CORPORATION PREOPERATIONAL TESI .
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| FOR \ .-
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| ARKANSAS POWER AND LIGHT COMPANY
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| \ .
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| J 14
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| - Prepared by: Gregory V Cranston Engineering Specialist THIS DOCUMENT CONTAINS Approved by: R. H. Brown, Jr.
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| Engineering Specialist POOR QUALITY PAGES Plant Facilities Date: December 1, 1973 1
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| O 80041603.3) 2C)E;3
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| REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST TABLE OF CONTENTS SUBJECT SECTION FINAL REPORT
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| ==SUMMARY==
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| A INTRODUCTION A.1 SYNOPSIS A.2 CONCLUSIONS A.3 CONTAINMENT ILRT PROCEDURE, STARTUP STANDARD 60 B e BASIC PROCEDURE, STARTUP STANDARD 60 SU STD 60 APPENDIX A - CRITERIA FOR INTEGRATED LEAK RATES Appendix A APPENDIX B - SCHEDULE OF CONTAINMENT EQUIPMENT AND VALVE CONDITIONS Appendix B APPENDIX C - INTEGRATED LEAK RATE MEASUREMENT SYSTEM Appendix C APPENDIX D - PRESSURIZATION SYSTEM Appendix D APPENDIX E - CONTAINMENT VENTILATING AND COOLING SYSTEM Appendix E APPENDIX F - VALVE POSITION SCHEDULE Appendix F APPENDIX G - SCHEDULE OF RECORDED DATA Appendix G APPENDIX H - LOCAL LEAK TESTS Appendix H
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| ; COMPUTER PP0 GRAM C l
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| INTRODUCTION C.1 i
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| TABLE OF CONTENTS (Continued)
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| SUBJECT SECTION EXPLANATION OF PROGRAM C.2 DEMONSTRATION OF PROGRAM C.3 FINAL TEST REPORTS,
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| ==SUMMARY==
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| DATA AND CURVES D 30 psig ILRT, FINAL TEST REPORT AND CURVES D.1 30 psig ILRT
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| ==SUMMARY==
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| DATA D.2 30 psig ILRT VERIFICATION REPORT AND
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| ==SUMMARY==
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| DATA D.3 59 psig ILRT, FINAL TEST REPORT AND CURVES D.4 59 psig ILRT
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| ==SUMMARY==
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| DATA D.5 59 psig ILRT VERIFICATION REPORT AND O
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| ==SUMMARY==
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| DATA D.6 s
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| SECTION A ARKANSAS NUCLEAR ONE 1
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| CONTAINMENT INTEGRATED LEAK RATE TEST l A. FINAL REPORT
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| ==SUMMARY==
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| I Section A.1 Introduc';1on to Containment ILRT Section A.2 Synopsis of Containment ILRT Section A.3 Conclusions Concerning Containment ILRT O
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| SECTION A.1 INTRODUCTION A successful priinary containment building integrated leak rate test (ILRT) was completed at Arkansas Nuclear One Unit 1 on November 13, 1973.
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| The objective of the ILRT was to verify that the overall potential leakage from the containment is within acceptable values as set forth in the Arkansas Nuclear One Unit 1 Technical Specification.
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| The peak pressure (Pp = 59 psig) maximum allowable leak rate (La) for Unit 1 is 0.2% per day by weight of contained air at 59 psig. The reduced pressure (Pt = 30 psig) maximum allowable leak rate (Lt) is computed by multiplying La times the square root of the pressure ratios or:
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| Lt = La (30/59)b Lt = 0.1426%/ day In accordance with Appendix J to 10 CFR Part 50, " Reactor Containment Leakage Testing for Water-Cooled Power Reactors", to provide a margin for possible deterioration of -the containment leakage integrity during the
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| (
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| t service interval between ILRT's, the measured leak rates (Ltm at reduced test pressure and Lpm at peak test pressure) shall not exceed 75% of the maximum allowable ralues. Therefore, at peak test pressure the allowable operational leak rate is 75% La or 0.150%/ day and at reduced test pressure ,
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| the allowable operational leak rate is 75% Lt or 0.107%/ day. '
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| The measured leak (Lpm) at peak test pressure (Pp) is 0.0815% per day. i The measured leak (Ltm) at reduced test pressure (Pt) is 0.0292% per day.
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| These values are well below the operational limits and are summarized in the table section A.3. Report printouts are provided in Section D.
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| Leak rates are reported based on Total-Time Calculations as recommended ,
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| by Appendix J to 10 CFR Part 50. Formulas used for calculating the leak '
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| rates are taken from ANoI N45.4-1972, " Leakage Rate Testing of Containment Structures for Nuclear Reactors".
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| The Structural Integrity Test (SIT) was performed in conjunction with the j ILRT,. All data and narrative related to the SIT are reported in a separate document.
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| i
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| , m Q
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| A.1-1
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| l 1
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| Section A.1 l l
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| l''N l l
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| Y~ sl The ILRT was conducted with exceptions to the procedure and normal plant lineup.
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| These exceptions will be corrected and a letter will be forwarded to the Commission when the corrections are complete.
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| The exceptions are as follows:
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| : 1. The equipment hatch double 'O' ring gaskets could not be local leak rate tested prior to the ILRT due to a metal-to-metal seating interference. No leakage at the equipment hatch was detected during the ILRT.
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| : 2. The emergency lock electrical penetracion on the inner door leaked.
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| : 3. The emergency lock inner door equalizing valve was removed and a plug installed during the ILRT.
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| : 4. Penetration P-11 CV-4803 and CV-4804 were not installed and the pipe was capped.
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| : 5. Penetration P-25. CV-7453 and CV-7454 were not installed and the pipe was capped.
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| b) g 6. Penetration P-53.
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| pipe was capped.
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| CV-7443 and CV-7444 were not installed and the
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| : 7. Penetration P-24. CV-7445 and CV-7446 were not installed and the pipe was capped.
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| : 8. Penetration P-24. CV-7448 and CV-7449 were not installed and the pipe was capped.
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| : 9. Penetration P-24. CV-7449 and CV-7450 were not installed and the pipe was capped.
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| Local leak testing will be conducted on the above items to clear the exceptions when valve installation and/or repairs are complete.
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| The total containment air leakage will be adjusted as required to reflect any local leakage measured.
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| A.1-2
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| a Section A.1 The ILRT was conducted with exceptions to the procedure and normal plant lineup.
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| These exceptions will be corrected and a letter will be forwarded to the Commission when the corrections are complete.
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| The exceptions are as follows:
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| : 1. The equipment hatch double 'O' ring gaskets could not be local leak rate tested prior to the ILRT due to a metal-to-metal seating interference. No leakage at the equipment hatch was detected during the ILRT.
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| : 2. The emergency lock electrical penetration on the inner door leaked.
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| : 3. The emergency lock inner door equalizing valve was removed and a plug installed during the ILRT.
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| : 4. Penetration P-11. CV-4803 and CV-4804 were not installed and the pipe was capped.
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| : 5. Penetration P-25. CV-7453 and CV-7454 were not installed a-d the pipe was capped.
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| : 6. Penetration P-53. CV '/443 and CV-7444 were not installed and the pipe was capped.
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| : 7. Penetration P-24. CV-7445 and CV-7446 were not installed and the pipe was capped.
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| : 8. Penatration P-24. CV-7448 and CV-7449 were not installed and the pipe was capped.
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| : 9. Penetration P-24. CV-7449 zad CV-7450 were not installed and the pipe was capped.
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| Local leak testing will be conducted on the above items to clear the exceptions when valve installation and/or repairs are complete.
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| The total containment air leakage will be adjusted as required to reflect any local leakage measured.
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| a A.1-2 l
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| Section A.1 ,
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| Execption cicurance i \.
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| The exceptions JJated on page A.1-? have been cicated. Appendix 11, 1,ucal Leak Testing, has alno been updated.
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| .The additional Jocol leakage toeacured unbuequent to the 1LitT totaled 157.5 cc/ min. Converting this to overall leakage in percent / day' yields;
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| :157.'S ,,$ n
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| * 28,- O cc 'd 1,850,000 ft3
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| * a hr x 100 = 0.000@ay Therefore., it is seen that the additJunal local leakage is not siguilicant.
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| The new total local Jcakage in 3289.5 cc/ min. The acceptance criteria is that the total Jucal leakage not exceed 60% La which is equal to:
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| l I d*Y I I'r 60% (day ) (1,650,000 f 3t ) (24 hrs) (60 min) (28,%0 ft3 cc)
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| (0.6)(0.002)(l,8'0,000)(23,300) il (24)(60)
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| " 43,600 cc/ min Therefore, the total local' leakage meacured (3289.5 cc/ min) is well within
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| , the acceptance criteria.
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| SYNOPSIS i
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| The 73 T was conducted at Arkansas Nuclear One Unit i during the period of l _ November 8 through November 13, 1973. The pressure-versus-time schedule is
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| . shown in Figure A which follows. The overall time from initial pressuriza-tion to final depressurization to atmospheric pressure was 144 hours.
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| I During initial pressurization to 30 psig, it was noted that the dewpoint temperature sensors were operating arratically, indicating the probability of the containment air being saturated. The containment was then depres-surized to 14 psig and a containment entry made. At the same time, the dowpoint temperature sensor vendor's calibration lab was consulted. Based on the calibration lab's directions, the dewpoint sensors were removed from the containment, cleaned, dried, recalibrated and reinstalled. (See Appendix i C). Subsequent to the ILRT, the dewpoint sensors were returned to the vendor's calibration lab to confirm that the field calibration was satisfactory.
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| During repressurization from 14 psig to 30 psig, cooler water was supplied l to the after cooler / moisture separator. This combined with dryer outside l air (due to improved weather conditions) enabled dryer air to be pumped into
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| ]- the containment.
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| ! At the 30 psig pressure level, all instruments were functioning properly.
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| j Following containment atmosphere stabilization, a roduced pressure ILRT was conducted for 8-3/4 hours followed by a 4-1/2 hour verification test which i confirmed proper overall system operation.
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| The containment was then pressurized to 115% of design pressure in ordar to conduct the Structural Integrity Test. Following the SIT, the containment was depressurized to 59 psig to conduct the peak pressure ILRT.
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| i Following containment atmosphere stabilization, a peak pressure ILRT was conducted for 8-3/4 hours fcilowed by a 4-3/4 hour verification which agaiu confirmed proper overall system operation. For the peak pressure ILRT and 3
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| verification test, two dewpoint sensors were deleted since they were approaching saturation and their volume fractions were assigned to the 4 other four sensors.
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| Final depressurization commenced early the morning of November 13.
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| '2. Depressurj aation to clean and recalibrata dewpoint temperature sensors.
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| : 3. Stan111aA ion period. !
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| , 4. ILRT.
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| 11AT verification test. -
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| 6.' Structural inteamity Test.
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| 7 j g 7. Final depressurization.
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| l SECTION A.3 ;
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| I
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| -s ;
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| s CONCLUSIONS As shown on the computer Report Printouts (Section D), the measured leak rates for both the reduced pressure (Pt) ILRT and the peak pressure (Pp)
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| ILRT are well within the specified limits and verify that the containment vessel meets the Arkansas Nuclear One Unit 1 Technical Specification requirements.
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| The results are summarized as follows:
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| Leakage (%/ day)
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| ILRT at La Lt 75% La 75% Lt Lpm Ltm Pp 0.200 0.150 0.0815 Pt 0.142 0.107 0.0292 Therefore, for purposes of future tests:
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| -s Lpm = 0.0815%
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| Ltm = 0.0292%
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| which means that if the reduced test pressure program is used then the reduced test pressure leak rate (Lt) cannot exceed La (Ltm/ Lpm) =
| |
| 0.2 (0.0292/0.0815) = 0.072%/ day Following each ILRT, a verification test was conducted to confirm proper overall system operation by imposing a known leak on the containment through a calibrated flowmeter.
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| l A. Peak Pressure Test i l
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| : 1. La = 0.2%/ day 1
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| : 2. Containment free air volume = 1,850,000 cu. ft.
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| : 3. From the data sheets the average flowmeter reading was 12.83 sefm.
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| Converting the flowmeter reading to %/ day yields: l 1
| |
| '' "* ** X 100% l l 12.83 scfm X (14.7 + 59) Std.cu. f t. X 60*hr.I"' day X 24hr cu.
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| 1,850,000 ft. )
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| i l = 0.199%/ day 1
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| A.3-1
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| i I
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| A (s
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| B. Reduced Pressure Test
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| : 1. Lt = La (Pt/Pp) = 0.1426%/ day
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| : 2. From the data sheets the average flowmeter reading was 5.65 scfm.
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| Converting the flowmeter reading to %/ day yields:
| |
| 5.65 scfm X 44,f';fd cu ft.X60[,"X24 day X 1,850 0 cu. ft.
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| = 0.1446%/ day C. Comparison Acccrding to Appendix J to 10 CFR Part 50, the sum of the leak rate measured during the ILRT plus the imposed leak rate must agree within 25% of La (or Lt, as applicable) of the leak rate measured during the verification test.
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| ILRT at Pp Pt
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| : a. Measure,d during ILRT 0.0815 0.0292
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| : b. Imposed leak 0.199 0.1446 Total 0.2805 0.1738
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| : c. Measured during verification test 0.302 0.148 Therefore, for the peak pressure test, the satisfactory band is 0.2805 !
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| 25% (0.2) %/ day which gives a range of 0.2305 to 0.3305 %/ day. For the reduced pressure test, the band is 0.17381 25% (0.1426) %/ day which gives a range of 0.138 to 0.209 %/ day.
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| In both cases, the leak rate measured during the verification tests is .
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| within its applicable satisfactory range, therefore, confirming proper I overall system operation. ;
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| SECTION B O
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| Q ARKANSAS NUCLEAR ONE CONTAINMENT INTEGRATED LEAK RATE TEST B. CONTAINMENT ILRT PROCEDURE SU Std 60 Basic ILRT Procedure, Bechtel Startup Standard 60 Appendix A Criteria for Integrated Leak Rates Appendix B Schedule of Containment Equipment and Valve Conditions Appendix C Integrated Leak Rate Measurement System Appendix D Pressurization System Appendix E Containment Ventilating and Cooling System A,'endix F Valve Position Schedule Appendix G Schedule of Recorded Data Appendix H Local Leak Tests b
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| . _ . _ . ~ .
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| December 1, 1973 Revision 3 O
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| STARTUP STANDARD NO. 60 i
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| PRIMARY REACTOR CONTAINMENT INTEGRATED LEAKAGE RATE TEST l'ROCEDURE TP 150.60 ARKANSAS NUCLEAR ONE UNIT ONE ARKANSAS POWER AND LIGHT COMPANY i
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| RUSSELLVILLE, ARKANSAS i
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| BECHTEL JOB NO. 6600-1 Issued by: ,
| |
| G. V. Cranston Approved by: R. H. Brown, Jr.
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| i l
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| 1 i
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| Bechtel Power Corporation San Francisco, California i
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| l
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| .1 i
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| | |
| Startup Standard 60 Bechtel Job 66001 CONTENTS SHEET
| |
| : 1. GENERAL 3 II. RESPONSIBILITIES 4 III. SCOPE 6 IV. TEST EQUIPMriG 7 V. PRECAUTIONS AND NOTES 8 VI. PROCEDURE 10 1.0 PHASE 1 - TEST PREPARATION to 2.0 PHASE 2 - PRESSURIZATION TO 14 PSIG 12 3.0 PHASE 3 - LOCAL LEAK SURVEY AT 14 PSIG 13 4.0 PHASE 4 - PRESSURIZATION TO REDUCED TEST PRESSURE 15
| |
| ,p 5.0 PHASE 5 - INTEGRATED LEAK RATE TEST AT REDUCED TEST PRESSURE 17 6.0 PHASE 6 - PRESSURIZATION TO 115% OF DESIGN PRESSURE 19 7.0 PHASE 7 - DEPRESSURIZATION TO PEAK TEST PRESSURE 20 8.0 PHASE 8 - INTEGRATED LEAK RATE TEST AT PEAK TEST PRESSURE 21 9.G PHASE 9 - DEPRESSURIZATION TO ZERO PSIG 23 VII. APPENDICES A. CRITERIA FOR INTEGRATED LEAK RATES B. SCHEDULE OF CONTAINMENT EQUIPMENT AND VALVE CONDITIONS C. INTEGRATED LEAK RATE MEASUREMENT SYSTEM D. PRESSURIZATION SYSTEM E. CONTAINMENT VENTILATING AND COOLING SYSTEM l
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| l F. VALVE POSITION SCHEDULE G. SCHEDULE OF RECORDED DATA H. LOCAL LEAK TESTS v
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| 2
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| w . ; y -
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| T4 Mrim e* '
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| . Startup Standard 60
| |
| , ' Bechtel Job 66001 ,
| |
| I. GENERAL The purpose of this procedure is to establish the criteria and detailed procedure for conducting tests to obtain integrated leak rate data on the primary containment.
| |
| This test is to be coordinated with and performed in conjunction with the containment
| |
| , structural integrity test which is defm' ed in a separate procedure.
| |
| 4 x
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| 4 4
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| i 3
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| {.
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| Stcrtup Standard 60 Bechtel job 6600-1 s
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| II. RESPONSIBILITIES 1.0 CONSTRUCTION 1.1 Complete construction of systems required for this test. These systems include:
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| 1.1.1 Containment Boundary 1.1.2 Containment Penetrations 1.1.3 Containment Isolation Valves 1.1.4 Containment Ventilation Systems 1.1.5 Personnel Locks and Equipment Hatches
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| .2 Turn over required systems to test personnel and/or startup personnel. System turnover must be done with sufficient lead time to allow verification of proper system operation prior to the start of the integrated leak rate test. These systems include:
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| 1.2.1 Containment Penetrations 1.2. 2 Containment Isolation Valves 1.2.3 Containment Ventilation System 1.2.4 Access Locks and Hatches 1.3 Insure containment cleanliness.
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| 1.4 Install containment closures (equipment hatch, etc.)
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| 1.5 Remove all portable equipment not able to withstand test conditions.
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| 1.6 Verify proper operation and position indication (local and remote) of all remotely operated containment isolation valves under administrative control of construction.
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| 1.7 Clear applicable safety and test tags as required by Startup.
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| 1.8 Procure test equipment as requested by Startup.
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| 1.9 Fabricate and/or install permanent or temporary foundations, brackets, etc., as required for test equipment.
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| 1.10 install test equipment and verify proper operation.
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| 2.0 BECHTEL STARTUP/ ENGINEERING (Plant Facilities) 2.1 Prepare test procedure and data forms.
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| 2.2 Conduct localleak testing per Appendix H.
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| ]
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| 4
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| . ~_ ._
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| w
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| 0 1
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| ( 2.3 Verify proper Containment Ventilation System operation.
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| 2.4 Complete integrated leak rate test prerequisites.
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| , 2.5 Conduct valve lineup per Appendix B for systems under Bechtel control.
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| . 2.6 Conduct Integrated Leak Rate Test.
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| 3.0 OWNER 3.1 Witness Local Leak Tests.
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| 3.2 Witness Integrated Leak Rate Test.
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| 3.3 Conduct valve lineup per Appendix B for systems under Owner's control.
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| i 3.4 Positions valves as required for local leak testing for systems under Owner's control.
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| [
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| l i
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| l O 1 5
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| Stcrtup Standard 60 Bechtel Job 6600-1 ,
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| l Ill. SCOPE Osl 1.0 The test objective is to measure leak rates for comparison with criteria set forth in Appendix A.
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| 1.1 To measure the leak rate, Lpm,at peak test pressure (Pp).
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| 1.2 To measure the leak rate, Ltm, at reduced test pressure (Pt).
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| 1.3 To obtain measurement accuracy tolerance within 95% confidence limits, such that the calculated leak rate plus the accuracy tolerance is less than the permissible leak rate at the appropriate test conditions.
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| 2.0 Each phase of the test procedure detailed in Section VI is to be performed in the sequence shown and the necessary data gathered before a new phase is initiated.
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| 3.0 THE LEAK RATE TEST METIIOD 3.1 Measurements of absolute pressure, drybulb temperature and water vapor pressure within the containment are required.
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| 3.2 The procedure requires verification of the integrated leak rate measurement g system by use of precise measurements of a flow causinF a change in the weight U <
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| of air in the containment that is approximately equal to the allowable leakage rate.
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| 3.3 Formulas used in computing the integrated leak rate are based on the formulas found in ANSI N45.4-1972 (formerly ANS 7.60), " Leakage Rate Testing of Containment Structures for Nuclear Reactors".
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| 3.4 Additional reference material includes Appendix J to 10 CFR Part 50,
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| " Reactor Containment Leakage Testing for Water Cooled Power Reactors".
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| 3.5 Information concerning Bechtel Corporation testing criteria is found in Bechtel Topical Report BN-TOP-1, " Testing Criteria for integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants",
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| Revision 1, dated November 1,1972.
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| J e
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| d Startup Standard 60 Bechtel Job 6600-1 O
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| v/.
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| IV. TEST EQUIPMENT Additional test equipment and instrumentation is required over and above that which is a part of permanent ' plant equipment. The following is an abbreviated list of the additional equipment required and the permanent plant equipment utilized for the test. Detailed specifications and equipment arrangements are a part of Appendices C, D and H.
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| 1.0 Pressurization System 1.1 Portable Air Compressors 1.2 Aftercooler and Moisture Separator 1.3 Oil Vapor Filter 1.4 Temporary Piping and Valves 2.0 Integrated Leak Rate Measurement System 2.1 Absolute Pressure Sensors and Indicator 2.2 Dewpoint Temperature Sensors and Indicator 2.3 Drybulb Temperature Sensors and Indicator 2.4 Flow Meters 2.5 Barometer 3.0 Local Leak Detection and Measurement Instruments and Equipment 3.1 Pressure and Temperature Sensors 3.2 Flowmeters 3.3 Leak Detection Fluid 3.4 Ultra-Sonic Leak Detectors i
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| O i 7
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| St:rtup Standard 60 Bechtel Job 6600-1 V. PRECAUTIONS AN") NOTES
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| ==1.0 Pre-Tes==
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| Safety Precautions 1.I Personnel Medical Certification Personnel designated to work inside the containment while it is under pressure shall be medically certified for work in pressurized air.The planned maximum allowable pressure for work inside the containment is 14 psig.
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| 1.2 Equipment Protection Certain pieces of equipment (hermetically sealed or closed systems) inside the containment must be either removed or otherwise protected against the external pressure or differential pressure of 115% design pressure. See Appendix B.
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| 1.3 Compressed Gas Sources All vessels containing construction supplies of compressed gases must be removed from the containment prior to pressurization. Any permanent vessels that must be pressurized, must be made leak tight. All sources of pressurized gas into the containment must be isolated.
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| 2.0 Personnel Control During Testing Access to the plant is restricted during this test. T1.3 test will include all portions of the containment boundary which would exist at the time of the postulated accident for which the containment envelope is provided. The containment boundary is shown in Appendix B.
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| 2.1 Test Personnel These restrictions cover persons who are authorized to be employed at the site performing work specifically required by structuralintegrity orintegrated leak rate test procedures.
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| 2.1.1 During Pressure increase Access will be controlled to areas where there are any penetrations
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| ' through the primary containment or where test affected piping or pipe branches terminate. Exceptions will be rystems which have been tested in their entirety at test conditions at least as severe as will result during the containment test and placed under administrative control.
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| ]
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| 8
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| v) 2.1.2 After Stopping Pressurization At or Below Design Pressure Access to the restricted areas shall be as short as possible consistent with the following approved test procedures. A waiting period of 20 minutes or a pressure decrease of 1/4 psi is required before access will be allowed to the restricted areas mentioned in 2.1.1.
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| 2.1.3 After Reaching 115% of Design Pressure Access to the restricted areas shall be as short as possible consistent with the following approved test procedures. A waiting period of one hour or a pressure decrease cf I psi is required before access will be allowed to the restricted areas mentioned in 2.1.1.
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| 2.1.4 After Reducing Pressure to Peak Test Pressure and at Subseouent Lower Pressures.
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| UnFaiited access will be allowed for following approved test procedures.
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| 2.2 Authorized Site Employees These persons include those who are normally employed at Arkansas Nuclear One but who are not test personnel.
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| \') 2.2.1 During Pressure Increases The same restrictions apply as given in 2.1. Further, these persons will not be allowed within boundaries established atjobsite.
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| 2.2.2 After Reducing Pressure to Peak Test Pressure Access will be allowed to any location required by the assigned work, l except no assignments may be made within the containment. I Administrative controls must be established to prevent invalidation of l the leak rate tests.
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| 2.3 Test Witnesses These persons will not be permitted access to restricted areas unless they have written permission from the Test Director (or his designated alternates) counter-signed by an authorized agent of the Owner.
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| 2.4 Unauthorized Personnel ( All others not named)
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| No unauthorized personnel will be allowed in restricted areas.
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| 3.0 Pressure hold times and soak times as specified in Section 4.4 of the Technical n Specifications, ANO Unit 1, are to be complied with.
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| L
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| ('J)
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| I 9
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| 1 i-l
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| Startup Standard 60 Bechtel Job 66001 m
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| VI. PROCEDURE 1.0 PHASE I - TEST PREPARATION 1.1 Schedule Establish a detailed time scaled test schedule in conjunction with the structural integrity test.
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| 1.2 Prerequisites to Test Preparation 1..!.1 Completion of all local leak test listed in Appendix H. Review test results to assure compliance with criteria.
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| 1.2.2 Removal or venting ofitems listed in Appendix B.
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| 1.2.3 Verification that all permanent systems and equipment to be utilized during the test are operational.
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| 1.2.4 Containment temperature survey establishing any localized areas where temperature gradients may differ from the containment average. This survey is performed with the containment ventilation system operating in the integrated leak rate test lineup and with the ventilation system ,
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| secured.
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| 1.2.5 Dewater all low points and sumps which are not necessary water seals.
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| 1.3 Integrated Leak Rate Measurement System Installation 1.3.1 All instrumentation calibrated.
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| 1.3.2 Verify that th: system installation is ir accordance with Appendix C.
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| 1.4 Pressurization System Installation and Checkout 1.4.1 Verify that the system installation is in accordance with Appendix D.
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| 1.4.2 Identify permanently installed valves and system controls that must be operated as a part of the pressurization system in accordance with Appendix D.
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| 1.4.3 Checkout system without pressurizing containment.
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| a) Blowdown pressurization system to valves which isolate the containment from the pressurization system during test. (See Valve Position Schedule, Appendix F.)
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| G' 10
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| _ ~ _ _ _ _ _,
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| l S
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| s b) Verify that condition of pressurizing gas as to oil and moisture i content is satisfactory at test connection downstream of filters per Appendix D.
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| 1.5 Containment Closure 1.5.1 - All closures thall be effected by normal operational modes with respect to physical closing.
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| 1.5.2 Verify that all valves are positioned for initial pressurization to 14 psig
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| ; in accordana with Appendix F and Appendix B.
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| 1.5.3 Close and seal air lock inner and outer doors.
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| 1.6 Containment inspection 1.6.1 A detailed visual examination of critical areas and generalinspection of the accessible interior and exterior surfaces of the containment structures and components snall be performed prior to the ILRT to uncover any evidence of structural deterioration which may affect i
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| either the containment's structuralintegrity or leaktightness.
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| 1.6.2 If there is any evidence of significant deterioration, the ILRT shall not be performed until corrective action is taken in accordance with repair O procedures, nondestructive examinations, and tests as specified in the construction code under which rules the containment was built.-
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| i n
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| l b
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| i
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| ~
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| 11 l
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| 2.0 PHASE 2 - PRESSURIZATION TO 14 PSIG 2.1 Determine Containment Conditions Obtain the following containment conditions and record data (Appendix G).
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| Measurements are to be made using integrated leak rate system.
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| 2.1.1 Drybulb temperatures of the air in the containment which should be between limits defmed in Appendix A.
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| 2.1.2 Containment air pressure.
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| 2.1.3 Dewpoint temperature of the air in the containment.
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| 2.2 Start Pressurization 2.2.1 Position pressurization system valves in the sequence given in Appendix F for start of pressurization in Phase 2.
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| 2.2.2 Start containment ventilation system fans.
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| 2.3 Monitor and Correct Conditions During Pressurization 2.3.1 Monitor pressurizing gas for oil and/or moisture content (Appendix D). ,
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| 2.3.2 Record data on appropriate forms (Appendix G) at least hourly.
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| 2.3.3 Maintain moisture content as low as possible with equipment available.
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| 2.3.4 Maintain temperature of pressurized gas in the containment nearly constant and between limits defined in Appendix A.
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| 2.4 Stop Pressurization 2.4.1 If an emergency condition arises.
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| 2.4.2 Iflarge localleaks are detected.
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| 2.4.3 If the containment air temperature exceeds limits defined in Appendix A.
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| 2.4.4 When containment air pressure reaches 14 psig1 0.3 psig.
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| 2.5 Isolate Containment from the Pressurization System 2.5.1 Close containment isolation valves per Appendix F in preparation for Phase 3 local leak survey and verify that pressurization system isolation valves are properly closed.
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| 2.5.2 Stop containment ventilation system fans. #
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| 12
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| _ = . . _ _ _
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| h 3.0 PHASE 3 - LOCAL LEAK SURVEY AT 14 PSIG 3.1 Exterior Survey 1
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| Conduct an exterior survey checking for leakage. Using ultra-sonic leak detector or leak detection fluid, check and record condition of each suspect local leak area.
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| 3.1.1 Where leaks are indicated, perform local leak test measurements if possible.
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| 3.1.2 Determine if leaks that exceed the limits given in Appendix H can be repaired without reducing containment pressure.
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| a) If so, repair the leak and record the new leak rate measured.
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| b) If leak cannot be repaired with containment pressurized, attempt to stop leak by changing valve lineup, etc. Otherwise, depressurize. Any changes to valve lineups shall be noted in final report.
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| 3.2 Containment Entry 3.2.1 Pressurize personnel lock by opening valve to admit air from the containment. Bleed slowly at first.
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| 3.2.2 Conduct localleak survey on outer door seals of the personnellock.
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| 3.2.3 Isolate personnellock from containment and vent to atmosphere.
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| 3.2.4 Open outer door and leak check inner door seals.
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| 3.2.5 Make any repairs to outer door found needed by survey, Para. 3.2.2.
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| 3.2.6 Close outer door and pressurize lock by opening valve to admit air from tha containment. Bleed slowly at first and verify quality of air.
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| 3.2.7 When lock pressure is equalized with containment pressure, open inner door.
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| 1 i 3.2.8 Make any repairs to inner door found needed by survey, Para. 3.2.4.
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| l 3.3 Internal Leak Survey Following procedure in Para. 3.1 above.
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| <s L (a)'
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| 13 h
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| i l
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| 3.4 Estimate Leakage '
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| Estimate the leakage after all repairs and remeasurements have been made where that work is possible without reducing containment pressure using:
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| a) The summary of the localleak test prior to containment pressurizatica.
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| b) The results determine in 3.1 to 3.3.
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| 3.5 Recommend continuation or abortion of the test based on the best judgment formed from Para. 3.4 results.
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| 3.6 Air Lock Personnel Out of Containment 3.6.1 Interior leak survey crew checked into airlock.
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| 3.6.2 Close and lock inner airlock door.
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| 3.6.3 Isolate airlock from containment.
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| 1 3.6.4 Depressurize airlock per Decompression Tables in 29 CFR Part 1926 Appendix A, Occupational Safety and Health Administratica, Safety and Health Regulations for Construction.
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| 3.7 Continuation of Test If decision is to continue test:
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| 3.7.1 Check inner door seals of airlock for leakage.
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| 3.7.2 Close and lock outer door.
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| 3.7.3 Repressurize air lock and check outer door seals for leakage.
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| 3.7.4 Depressurize and seal air lock volume. Check air lock pressure periodically to verify that there is no pressure buildup (an indication that the inner door is leaking).
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| 3.8 Aborting of Test if the decision is to abort the test depressurize containment in accordance with Phase 9.
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| 14
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| _.m .
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| i^
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| ' 4.0 PHASE 4 - PRESSURIZATION TO REDUCED TEST PRESSURE (Pt) 4.1 Ventilation System Start ventilation system fans (Appendix E) and operate ventilation system as required to maintain temperature in the containment nearly constant and within limitations specified in Appendix A.
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| 4.2 Monitor Conditions Monitor the quality of the pressurizing gas delivered by the pressurization system and record the conditions in the containment prior to and during pressurization. The recording shall be done at least hourly (or oftener if the measurements indicate the conditions are 'close to exceeding the criteria as stated in Appendix A).
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| 4.2.1 Pressurization System Conditions The following are to be recorded:
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| a) Dry bulb temperature of as entering containment.
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| b) Moisture content of gas entering containment.
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| 4.2.2 Containment Conditions
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| + .
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| % - The following are to be recorded:
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| a) Drybulb temperature of air in containment.
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| b) Containment air pressure.
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| c) Dewpoint temperature of air in containment.
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| i 4.2.3 Outside AirConditions The following are to be recorded:
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| a) Dry bulb temperature.
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| b) Barometric pressure.
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| 4.3 Containment Pressurization Position pressurization system valve operators in sequence given in Appendix F for start of pressurization Phase 4.
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| 4.4 Stop Pressurization when containment pressure reaches reduced test pressure (Pt) + 0.3 psig, - O psig.
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| O .
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| 15
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| 4.5 Isolate pressurization system from containment and verify that pressurization i system isolation valves are properly closed.
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| 4.6 Verify that valve positions are as specified in Appendix F for end of Phase 4.
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| 4.7 Operate ventilation system fans as required to insure temperature sensors monitor representative air volumes.
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| 1 16
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| . 5.0 PHASE 5 - INTEGRATED LEAK RATE TEST AT - REDUCED TEST
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| ,' PRESSURE (Pt) .
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| 5.1 Exterior Survey Conduct an exterior survey checking for leakage. Using ultra-sonic leak detector or leak detection fluid, check and record condition of each suspect local leak area.
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| 5.1.1 Where leaks are indicated, perform local leak test measurements if possible.
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| 5.1.2 Determine if leaks that exceed the limits given in Appendix H can be repaired without reducing containment pressure.
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| a) If so, repair the leak and record the new leak rate measured.
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| b) If leak cannot be repaired with containment pressurized, attempt to stop leak by changing valve lineup, etc. Otherwise, measure or estimate leak rate and determine if it is necessary to j depressurize.
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| . 5.2 Data Acquisition and Interpretation l
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| Data is to be. accumulated at least hourly as required by Appendix G and '
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| + interpreted to obtain information required to forecast test results.
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| i 5.2.1 Position valves in accordance with Appendix F for integrated leak rate
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| ;- test.
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| 5.2.2 From the information gathered, the following are key items:
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| ; a) Establishment of time when containment conditions stabilize and trends are predictable (about four hours).
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| 4
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| , b) Forecasted leak rate is significantly greater than permissible.
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| l Perform local leak survey and make repairs, if required. Make determination if it will be necessary to abort test.
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| 5.2.3 Continue integrated leak rate measurements. :f the data interpretation indicates that the leak rate criterion (per paragraph 111.3.5) is met, continue data acquisition and hutdling as required to establish and verify leak rate.
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| ; 5.3 Verification (Calibration) Test at Reduced Test 1 ressure To be perform:d when containment conditions have stabilized and predictable
| |
| { . trends have been established.
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| !- \
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| l 17 L
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| l y--r--- g , ---,,--7-,-- - - - - - _ - - , - - - g- ---vv-yr v- ww-w- w-----w we" P"--* --
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| r-MW--9TD4-TW
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| 5.3.1 Determine the verification leak rate at reduced test pressure based '
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| on Lt. (Appendix A).
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| 5.3.2 Establish a controlled leak from the containment at a rate equal to the allowable leak rate using the verification test portion of the integrated leak rate ateasurement system.
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| a) The change shall be made in a time period sufficient in length to verify the ability to measure the leak.
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| b) Accumulate and interpret data on a continual basis during verificat:on test.
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| 5.3.3 Comparison Continue the acquisition and handling of the integrated leak rate data until data interpretation standards show that the effects of the verification tcst have stablized.
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| a) Compare the controlled leak rate established dtiring the verification test with that concurrently measured by the integrated leak rate test. Results of the verification test shall be acceptable provided the correlation between the verification test data and the integrated leak rate test data demonstrate an agreement within plus or minus 25 percent of Lt.
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| b) If the comparison of(a) above indicates that the integrated leak O rate test was not substantiated by the verification test:
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| (1) Recheck the verification and integrated leak data for error.
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| (2) Continue the integrated leak test for one half the time period of the original test.
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| (3) At the end of the extended test period, repeat the verification test and determine if the comparison meets the data interpretation standards. If so, continue the test. If not, determine cause and repeat (b) above or depressurize per Phase 9.
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| e' 18
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| v( m . ) 6.0 PHASE 6 - PRESSURIZATION TO 115% OF DESIGN PRESSURE 6.1 Structural Integrity Test ;
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| Most of the work in this phase is in support of the struct. ural ntegrity test procedure. Stopping and . restarting pressurization will be in response to requirements of the structuralintegrity test procedures.
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| 6.2 Ventilation System Start ventilation system fans (Appendix E). Control cooling coil water flow as required to maintain satisfactory temperature in the containment.
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| 6.3 . Monitor Conditions Monitor the quality of the pressurizing gas delivered by the pressurization system and record the conditions in the containment during pressurization. The recording shall be done hourly or oftener if the measurements indicate the conditions are close to exceeding the criteria as stated Appendix A.
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| 6.4 Containment Pressurization Position pressurization system operators in sequence given in Appendix F for pressurization Phase 6.
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| (V) 6.5 Stop Pressurization at Maximum Pressure Pressurization shall be stopped at i15% of design pressure + 0.3 psig, - O psig.
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| 6.6 Hold Pressure Hold the pressure level of the length of time required by the structuralintegrity test procedures (Test Procedure No.150.59). Gas should be added to or bled from the containment in small increments as needed to hold the pressure at 115% of design pressure + 0.3 psig, - O psig.
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| 6.7 Structura4 Integrity Test Procedures -(Separate Document)
| |
| Ensure that all test procedures for this phase have been completed prior to proceeding to Phase 7.
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| D 1 i
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| 19
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| 7.0 PHASE 7 - DEPRESSURIZATION TO PEAK TEST PRESSURE (Pa) 7.1 Ventilation System Start ventilation system fans (Appendix E) and operate ventilation system as required to maintain temperature in the containment nearly constant and within limitations specified in Appendix A.
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| 7.2 Monitor and Record 7.2.1 Containment Conditions a) Dry bulb temperature b) Containment air pressure c) Dewpoint temperature 7.2.2 Outside AirConditions a) Dry bulb temperature b) Barometric pressure 7.3 Containment Depressurization Position pressurization system valves per Appendix F for start of depressurbation Phase 7.
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| 7.4 Stop Depressurization 7.4.1 When containment pressure reaches peak test pressure (Pa) + 0.3 psig. -
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| O psig.
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| 7.4.2 As directed by structuralintegrity test procedures.
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| 7.5 Isolate pressurization system from containment and verify that pressurization system isolation valves are properly closed.
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| 7.6 Verify that valve positions are as specified in Appendix F for end of Phase 7.
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| 7.7 Operate ventilation system fans as required to insure temperature sensors monitor representative air volumes.
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| 20 O'
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| '&Wd' mgAss
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| (
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| Q) 8.0 PHASE 8 -INTEGRATED RAT.ITEST AT PEAK TEST PRESSURE (Pp) 8.1 Exterior Survey -
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| Conduct an exterior survey checking for leakage. Using ultra-sonic leak detector or leak detection fluid, check and record condition of each suspect local leak area.
| |
| 8.1.1 Where leaks are indicated, perform localleak test measurements.
| |
| 8.1.2 Determine if leaks that exceed the limits given in Appendix H can be repaired without reducing containment pressure.
| |
| a) . If so, repair the leak and ree- 1 the new leak rate measured.
| |
| b) If kak cannot be repa .:d with containment pressurized, attempt to stop leak by changing valve lineup, etc. Otherwise, measure or estimate leak rate and determine ifit is necessary to depressurize.
| |
| 8.2 Data Acquisition and Interpretation Data is to be accumulated at least hourly as required by Appendix G and interpreted to obtain information required to forecast test results.
| |
| 8.2.1 Position valves in accordance with Appendix F for integrated leak rate test.
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| J 8.2.2 From the information gathered, the following are key items.
| |
| a) Establishment of time when containment conditions stabilize and trends are predictable tabout four hours).
| |
| b) Forecasted leak rate is significantly greater than permissible.
| |
| Perform leak survey and make repairs if feasible. Make determination ifit will be necessary to abort test.
| |
| 8.2.3 Continue integrated leak rate measurements. If the data interpretation indicates that the leak rate criterion (per paragraph 111.3.5, ) is met, continue data acquisition and handling as required to establish and j verify leak rate.
| |
| 8.3 Verification (Calibration) Test at Peak Test Pressure To be performed when containment conditions have stablized and predictable trends have been established.
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| a 21
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| 8.3.1 Determine the verirication leak rate at peak test pressure based on La. ''
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| (Appendix A).
| |
| 8.3.2 Establish a controlled leak from the containment at a rate equal to the allowable leak rate using the verification test portion of the integrated leak rate measurement system.
| |
| a) The change shall be made in a time period of sufficient length to verify the ability to measure the leak.
| |
| b) Accumulate and interpret data on a continual basis during verification test.
| |
| 8.3.3 Comparison Continue the acquistion and handling of the integrated leak rate data until data interpretation standards show that the effects of the verification test have stablized.
| |
| a) Compare the controlled leak rate established during the verification test with that concurrently measured by the integrated leak rate test. Results of the verification test shall be acceptable provided the correlation between the verification test data and the integrated leak rate rest data demonstrate an agreement within plus or minus 25 percent of La. .
| |
| b) If the comparison of a) above indicates that the integrated leak rate test was not substantiated by the verification test.
| |
| (1) Recheck the verification and integrated leak data for error.
| |
| (2) Continue the integrated leak test for one half the time period of the original test.
| |
| (3) At the end of the extended test period, repeat the verification test and determine if the comparison meets the data interpretation standards. If so, continue the test. If not, determine cause and repeat b) above or depressurize per Phase 9.
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| 22 O'
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| a 9.0 v PHASE 9 - DEPRESSURIZATION TO ZERO PSIG 9.1 Containment Temperature Control Operate ventilation system, Appendix E, as required to assist in meeting containment temperature requirements during depressurization.
| |
| 9.2 Monitor Containment Conditions Monitor and record containment conditions during depressurization as follows:
| |
| 9.2.1 Containment air temperature 9.2.2 Containment air pressure 9.3 Start Depressurization Using blowdown valve, Appendix D, release gas from the containment.
| |
| 9.4 Stop Depressurization Depressurization of the containment is to be stopped for the foll .<mg:
| |
| 9.4.1 If directed by the Test Director.
| |
| O- 9.4.2 As directed by structuralintegrity test procedures.
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| i I
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| l l
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| l l
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| O G
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| 23
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| / _
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| | |
| 10.0 PHASE 10 - RESTORATION AND CLEANUP 10.1 After depressurization is complete, restore penetrations P-42,43,46,48 & 49 Os to normal operating conditions and conduct a local leak rate test. on each penetration.
| |
| 10.2 Restore containment ventilation system to normal (including fan blade pitch).
| |
| 10.3 Restore all permanent instrumentation to normal.
| |
| 10.4 Restore all boundary valves to normal operating condition.
| |
| O' l
| |
| 1 i
| |
| l 24 i "
| |
| | |
| 4 4
| |
| t i
| |
| 6 2
| |
| u.
| |
| CL 4 '
| |
| l l
| |
| \
| |
| l 4
| |
| )
| |
| l l
| |
| | |
| APPENDIX A INITIAL INTEGRATED LEAK RATE TEST CRITERIA
| |
| %p)
| |
| Pressures
| |
| : 1. Design Pressure Pd 59 psig
| |
| : 2. I15% Design Pressure Ps 68 psig -
| |
| : 3. Peak Test Pressure Pp 59 psig
| |
| : 4. Reduced Test Pressure Pt 30 psig Leak Rates
| |
| : 1. Maximum allowable leakage rate (percent /24 hrs.
| |
| La 0.2%
| |
| by weight) at pressure Pa as specified for preoperational tests in the safety analysis report, and as specified for periodic tests in the operating license.
| |
| : 2. Maximum allowable leakage rate (percent /24 hrs.) Lt Not to exceed at pressure Pt derivec' " om the preoperational test data. La(Pt/Pa )
| |
| : 3. Total measured containment leakage rates (percent /24 hrs.) Lpm /
| |
| p at pressure Pa and Pt , respectively, obtained from Ltm
| |
| ( testing the containment with components and systems in the state as close as practicable to that which would exist under design basis accident conditions (e.g.
| |
| vented, drained, flooded or pressurized).
| |
| Temperature
| |
| : 1. Containment Temperature Limits 60-110 F Volume
| |
| : 1. Containment Free Air Volume 1,850,000 cu. ft.
| |
| A
| |
| /h 12/1/73 Final Report GVC A 9/?R/71 Revised Format GVC
| |
| /h 9/18/72 Revised Format GVC AA 10/1/71 Issued for Review and Comment GVC V No. DATE REVISIONS BY oniciN meNo.
| |
| CONTAINMENT INTEGRATED 6600 LEAK RATE TEST PROCEDURE REV.
| |
| ARKANSAS NUCLEAR ONE 3 UNIT ONE SHEET A-1 0F 4
| |
| | |
| APPENDIX A Acceptance Criteria ''
| |
| : l. For the reduced pressure test Ltm shall not exceed 0.75 Lt.
| |
| : 2. For the peak pressure test Lpm shall not exceed 0.75 La.
| |
| : 3. Appendix J to 10 CFR Part 50.
| |
| : 4. ANSI N4).5 - 1972.
| |
| : 5. Bechtel Topical Report BN-TOP-1, Revision 1.
| |
| Test Duration
| |
| , In accordance with the criteria set forth in BN-TOP-1, Revision 1.
| |
| O I
| |
| l
| |
| )
| |
| 1 l
| |
| l O'
| |
| Sheet A-2
| |
| | |
| a, -.-- ,-a. .---- _. - - a . ,w - .__,
| |
| I l
| |
| l l
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| l i
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| i i
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| l i
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| 2 u.
| |
| Q.
| |
| 1lL 4
| |
| l l
| |
| | |
| F APPENDIX B Schedule of Containment Equipment and Valve Conditions I. General Comments A. In general, valves in piping systems associated with the primary contain-ment are positioned such that the valve line-up corresponds to the line-up occuring subsequent to the postulated design basis accident. -Closure of primary containment isolation valves for the ILRT shall be accomplished by the same method (air, motor, manual) that causes closure subsequent to the postulated accident, using the ESS signal where applicable.
| |
| B. Any instruments, equipment, tanks, etc., which cannot withstand an external or differential pressure of 68 psig must be removed from the containment or placed in a condition to prevent damage. See Sheet B-6A.
| |
| C. Systems are lined up in accordance with the valve line-ups sketches contained in this Appendix. All valves shown on the sketches are checked to verify they are positioned properly. The normal valve positions shown on the sketches are the positions used for the integrated leak rate test (ILRT) unless otherwise noted. For example:
| |
| (1) ILRT valve positions which are the same as normal valve positions are indicated as follows:
| |
| Open: ;
| |
| X ff i
| |
| /gi $
| |
| u
| |
| - N-c#-i Shut: [- - -- N - ------[ f (2) On the sketches, if the ILRT position differs from the normal valve line-up position, the positions are indicated as follows:
| |
| Open: y -
| |
| NC f
| |
| Shut: [ --- f [h ~ --f D. Piping system high point vents, low point drains, test connections, pipe plugs, etc. are not necessarily listed on the valve line up sheets or shown on the system sketches in this Appendix. It will be the responsibil-ity of the personnel conducting the valve line ups to trace out that portion of the process line which forms an extention of the containment boundary to verify that all leak paths are sealed, unless noted otherwise.
| |
| d 12/1/73 Final Report GVC A 9/2!/73 Revised format CVC d_\ 9/18/72 Issued for Use GVC A_\. '10/1/71 Issued for Review and Comment J ... .m ......
| |
| .GVC CONTAINMENT INTEGRATED I
| |
| * a*- 6600 3
| |
| LEAK RATE TEST PROCEDURE ***"'"'''"*' ""
| |
| I Startup Standard 3
| |
| No. 60 sunt B-1 o, 22
| |
| | |
| T APPENDIX B II. System Line-up Synopsis '
| |
| A. Main Steam and Feedwater Systems (M-206)
| |
| Penetration Sheet Comments Signature 1 B-7 Steam generator secondary system lined-2 up as system would be subsequent to 3 the postulated DBA. Steam generator 4 secondary may or may not contain water.
| |
| 17 58 Verify all manways, valves, etc. which 64 communicate between the steam generator 65 g secondary side and the containment atmosphere are shut. The secondary side up to and including the main steam isolation valves must be isolated from the outside atmosphere.
| |
| B. Service Water (M-210)
| |
| Penetration Sheet Comments Signature 21 B-8 Service water system lined up for 22 normal operation with inlet isola-55 tion valves shut when cooling not 63 required. System filled with water.
| |
| )
| |
| C. Liquid Radioactive Waste (M-213/214)
| |
| Penetration Sheet Comments Signature 68 B-9 Isolation valves shut.
| |
| 69 D. Gaseous Radioactive Waste (M-215)
| |
| Penetration Sheet Comments Signature 11 B-10 Isolation valves shut. !
| |
| l l
| |
| l OL '
| |
| Sheet B-2
| |
| | |
| APPENDIX B
| |
| \
| |
| )
| |
| E. Instrument and Service Air (M-218)
| |
| Penetration Sheet Comment Signature 43 B-11 Valves lined up to insure no leakage 46 of instrument or service air into con-tainment during ILRT.
| |
| F. Fire Water (M-219)
| |
| Penetration Sheet Commant Signature 40 B-12 Isolation valves shut.
| |
| f G. Plant. Heating (M-220 Sh 1)
| |
| Penetration Sheet Comment Signature t
| |
| 42 B-13 Used for pressurizing containment.
| |
| 48 Blanks installed between outside isolation valves and pressurization piping.
| |
| H. Chilled Water (M-222)
| |
| Penetration Sheet Comment Signature 4- 51 B-14 Inlet isolation valve shut 59 System filled with water l l and vented inside contain- l ment.
| |
| I. Reactor Coolant System (M-230}_
| |
| Penetration Sheet Comment Signature 39 B-15 Isolation valves shut. System filled 70- with water and vented to containment.
| |
| Sheet B-3
| |
| | |
| APPENDXX B J. Makeup and Purification (M-231)
| |
| Penetration Sheet Con:ments Signature 8 B-16 Isolation valves per sheet B-16.
| |
| 9 System filled with water.
| |
| 13 14 Injection pumps P36A, 36B and 15 36C off with breakers racked out.
| |
| 16 34 K. Decay Heat Removal System (M-232)
| |
| Penetration Sheet Comments Signature 26 B-17 Isolation valves lined up for 27 post DBA conditions. System 33 filled with water.
| |
| 36 66 Decay heat removal pumps P34A, 67 34B off with breakers racked p
| |
| out.
| |
| L. Chemical Addition (M-233) l l
| |
| Penetration Sheer. Comments Signature 41 B-12 Isolation valves shut. Valves i lined up to insure no leakage '
| |
| of N2 in containment.
| |
| M. Intermediate Cooling Water (M-234/238)
| |
| Penetration Sheet Comments Signature 47 B-18 Isolation valves shut. Vented 52 inside containment.
| |
| 54 60 ,
| |
| 62 y l
| |
| l e' l l
| |
| Sheec B-4 I
| |
| | |
| s APPENDIX B I
| |
| s N. Spent Fusi j',ooling (M-235)
| |
| Penetration Sheet Comments Signature 19 B-19 Isolation valves shut.
| |
| C-3
| |
| : 0. Reactor Building Spray and Core Flooding (M-236)
| |
| Penetration Sheet Comments Signature 5 B-20 Isolation valves shut. Systems 12 filled with water. Valves lined 23 up to irrare no leakage of N2 4
| |
| 31 into containment.
| |
| . 32 i y Spray pumps P-35A, 35B off with breakers racked out.
| |
| O P. Sampling System (M-237)
| |
| Penetration Sheet Comments Signature 7A B-21 Isolation valves shut.
| |
| 7B 10 g
| |
| Q. Containment HVAC, Hydregen Purge, and Air Particulate Monitor (M-261)
| |
| Penetration Sheet Comments Signature V-1,2 B-22 Isolation valves shut.
| |
| 24A,B 25 53A,B O
| |
| Sheet B-5
| |
| | |
| APPENDYX B R. Miscellaneous Systems Pen.': ration System Remarks Sicnature 6 Spare Capped 18 Spare Capped 20 Spare Capped 28 Spare Capped 29 Spare Capped 30 Spare Capped 35 Spare Capped 37 Spare Capped 38 Spare Capped 44 Spare Capped 45 Spare Capped _,
| |
| 49 Containment Test Connection Installed 50 Spare Capped 56 Spare Capped 57 Spare Capped 61 Spare Capped C-1 Equipment Hatch Shut C-2 Excape Lock Shut C-4 Personnel Lock Shut C-5,6 Dome Vent Pipe Capped El Electrical Installed E2 Electrical Spare Capped E3-E14 )
| |
| Electrical Installed E21 Electrical Installed E22 Electrical Spare Capped E23-E29 Electrical Installed E30-E32 Electrical Spare Capped E33-E36 Electrical Installed E41-E45 Electrical Spare Capped E50-E55 Electrical Installed E56 Electrical Installed E57-E63 Electrical Installed E64,65 Electrical Spare Capped E66,67 Electrical Installed E68-E74 Electrical Spare Capped O'
| |
| Sheet B-6
| |
| | |
| i Appendix B S. EQUIPMENT PROTECTION LIST FOR REACTOR BUILDING INSTRUMENTS Vent To Containment Atacaphere:
| |
| ITE IT1!M I,75 ITDi ITEM RE-2400 PDT-1029 PI-6537 RE-8020 LT-2601 PDT-2222 PT-1023 RE-8017 PT-2401 LT-2614 PT-2402 PT-1022 PDIS-2253 PT-6512 LT-2609 PT-1041 PT-1010 PT-2403 PT-6582 PT-2415 PT-1059 PDT-1028 RE-8018 LS-6522 LT-2415 PDT-1037 PT-1021 PI-6538 FT-1273 LT-2416 PDT-1036 PT-1020 LT-2419 FT-1272 PT-2416 PT-1038 LT-2418 NE-0501 FT-1271 LT-1051 PT-1040 PT-2418 PT-2400 FT-1270 PT-1051 PDT-1035 PT-2419 PT-6511 NE-502 PDT-1280 w PDIS-6210 PT-2405 PDS-2261 NE-510 PDT-1281 PDIS-6206 PT-2407 PT-6581 PDIS-2262 PDT-1282 PDT-1034 PI-6536 LS-6521 LT-Spare PDT-1283 PT-2603 PDIS-2251 NE-0509 LT-Spare LT-1405 PT-2602 PDIS-2250 PDS-2260 PT-6513 LT-2660 PT-1035 PI-6535 LT-Spare LS-6523 LT-2653 PDT-1031 PDIS-2252 LT-Spare NE-0506 LT-2651 PT-2652 - LT-1000 NE-0505 NE-0512 LT-2664 PT-2653 LT-1001 NE-0511 PT-6583 LT-2659
| |
| ; FDT-1030 LT-1002 PT-6510 PDIS-2263 RE-8019 PDIS-6214 PT-2408 LS-6520 LT-2610 PDIS-2211 l
| |
| PDIS-6218 PT-2406 PT-6580 LT-2613 PDIS-2212 l
| |
| l l
| |
| i
| |
| (')
| |
| V Sheet B-6A
| |
| | |
| APPENDIX B GAGES & TEMP. IND. REMOVED FROM CONTAINMENT: .
| |
| T.G. #4 (Bechtel) 0-300, from instrument air header.
| |
| Gage 0-200#, from wall above reactor pool.
| |
| T.I. 760 & 760S 0-6000F temp. ind. w/10' cappillary, removed from core flood tank nitrogen fill lines.
| |
| 4 gages, 0-400# Stedigage (4"), removed 2 from west reactor crane, 2 from east reactor crane.
| |
| 2 gages, 0-250# (31 5 ") brass, removed from CV-5613 (fire system) -
| |
| marked No. 1 and No. 2.
| |
| Gages on inside of reactor b1dg. at personnel hatches removed.
| |
| Oil pressure gages on each R.C.P. motor protected but not removed.
| |
| Oil pressure gages on personnel hatch hydraulic unit removed.
| |
| Note: Plugs put in place of all gages on this list.
| |
| O-Miscellaneous:
| |
| : 1. All Hg vapor lites removed from reactor building.
| |
| : 2. Polar crane de-energized.
| |
| : 3. All fuel transfer pool lights removed.
| |
| : 4. All crane lights removed.
| |
| 1 Sheet B-6B i--
| |
| | |
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| APPENDIX C l
| |
| INTEGRATED LEAK RATE MEASUREMENT SYSTEM f'
| |
| : 1. Instrumentation required for leak rate measurement is listed on sheet C-2.
| |
| 2 The locations of the containment temperature sensors and dewpoint sensors are shown on sheet C-5.
| |
| : 3. Calibration curves and charts for instrumentation are shown on sheets C-6 through C-34.
| |
| : 4. Containment penetrations required for the test are as follows:
| |
| : a. Electrical for:
| |
| i) Temperatuace sensors (72 ' pins') (WR-31) ii) Dewpoint temperature sensors (30 ' pins') (WR-31)
| |
| : b. Piping 'or:
| |
| i) One 3/4" I. D. pipe for pressure sensors. (P-46) ii) One 3/4" I. D. pipe for verification blowdown flowmeters. (P-43) gp) iii) Three 3" I.D. pipe for pressurizing containment. (P-42, 48,
| |
| 'v' & 49)
| |
| I 4/1/74 Incorporates post ILRT calibration on dewpoint probes!GVC b 12/1/73 Final Reoort GVC
| |
| & 9/28/73 Proposed sensor locations and penetration #'s added GVC
| |
| ~
| |
| 2 h 9/18/7: Issued for use ! GVC fi\ 10/1/71 Issued for review and comment GVC N o. DATE REVl$10M 5 av CM'M APPR
| |
| /* %
| |
| l' I CONTAINMENT INTEGRATED '8"*6600 Unit 1
| |
| ' l.I LEAK RATE TEST PROCEDURE 5're ces cuiot m.. arv I
| |
| * / Startup Standard 4
| |
| No. 6 0 l
| |
| suser C-1 o, M
| |
| | |
| 4 APPENDIX C
| |
| '.iV LEAK RATE MEASUREMENT SYSTEM INSTRUMENTATION (Continued)
| |
| ITEM NO. REQ'D. DESCRIPTION PI-2 2 Pressure Gauge Wallace & Tiernan Absolute Pressure Gauge Model 61-050, Series 1500, #61A-1A-0100 Range 0-100 psia Accuracy 0.1% full scale Sensitivity 0.01% full scale FI-l Flow Meters Brooks Full-View High Accuracy Flowmeter Model 1110-24 1 Size 8 with scale calibrated to read 2.1 -21 scfm of air at 59 psig, 80cF.
| |
| 1 Size 8 with scale calibrated to read 1-10 scfm of air at 30 psig, 80 0F.
| |
| O .
| |
| I
| |
| /N
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| /N V
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| /1 l n oarc navisions er
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| **'''" *"*- 6600 CONTAINMENT INTEGRATED l 3 LEAK RATE TEST PROCEDURE '"C''''"""'"*~ "''
| |
| Startup Standard No. 60 l
| |
| l sucti C - 1 or
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| | |
| APPENDIX C x'
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| HS '
| |
| 26" P1: P2 P-3
| |
| - RIGHT S IDE -
| |
| r
| |
| * __J _ r e U U
| |
| =
| |
| 68 = -
| |
| 36 -
| |
| : 1. PROPOSED CONTAINMENT INTEGRATED LEAKRATE TEST CONSOLE Preliminary Layout -
| |
| Dimensions Approximate
| |
| : 2. See sheets C-2 and D-2 for instrumentation identification.
| |
| * From containment penetration.
| |
| O l 6
| |
| _a M e- DATE REVISION S gy CM'M AP
| |
| _ )/
| |
| CONTAINMENT INTEGRATED 'sa. 6600 Unit 1 -l 3
| |
| '. LEAK RATE TEST PROCEDURE 5"'"'"'S8"'"'"*- "'"
| |
| l
| |
| ? Startup Standard l No. 60 l
| |
| sure, G-4 o,
| |
| | |
| r 4 APPENDIX C 1
| |
| /
| |
| \s ,) Drybulb and Dewpoint Temperature Sensor Locations Elev. Azimuth Distance from Volume Sensor (Ft) (Deg) center (Ft) Fraction RTD 1 348 040 32 0.044 2 348 190 33 0.051 3 342 275 38 0.026 4 363 165 54 0.013 5 363 015 53 0.010 6 380 040 50 0.009 7 382 210 53 0.018 8 381 270 44 0.070 9 382 330 54 0.011 10 380 035 52 0.018 11 340 060 55 0.010 12 407 035 55 0.021 13 407 150 53 0.021 14 418 180 35 0.027 15 418 020 38 0.027 16 481 340 29 0.208 17 481 170 29 0.208 (g 18 480 0 0 0.208
| |
| \-- 1.000 Dewpoint (Reduced Pressure test) 1 348 40 32 0.072 2 348 190 33 0.072 3 381 270 44 0.137 4 407 150 53 0.043 5 481 340 29 0.338 6 481 170 29 0.338 1.000 Dewpoint (Peak pressure test)*
| |
| 1 348 40 32 0.144 2 407 150 53 0.180 3 481 340 29 0.338 4 481 170 29 0.338 1.000
| |
| / *Two probes (VP-2 and VP-3) were approaching saturation and were deleted.
| |
| \m - Probes VP-4 thru VP-6 were renumbered VP-2 thru VP-4 Sheet C-5
| |
| | |
| [
| |
| * DEWPOINT SENSOR FIELD RECALIBRATION
| |
| * vO) t l
| |
| I During Phase 4 and early stabilization period of Phase 5 of the ILRT, monitoring the dewpoint temperature reading of the air in the containment indicated the j possibility of the containment air 'oeing (or having been, at some earlier time) i at or near saturation. The containment was then depressurized to 14 psig and a '
| |
| (
| |
| containment entry made. Simultaneously, the dewpoint temperature probe vendor's calibration laboratory was consulted.
| |
| Based on vendor recommendations, the dewpoint sensors were first removed from the ;
| |
| containment and cleaned with benzene. Secondly, the probes were checked against the vendor's original, low relative humidity, calibration curves and found to be in conformance. The sensors were then reinstalled in the containment and sling psychometer readings of wet and dry bulb temperatures were taken at each dewpoint sensor location. Simultaneous readings were taken at each location using the dewpoint hygrometer. These three values were recorded for each sensor location.
| |
| Dewpoint temperatures were then calculated for the respective locations using the following equation proposed by Dr. Carrier, solving for the partial pressure of the water vapor in air at any given vet and dry bulb temperature:
| |
| p .p _ (Pb - P,y) (td - tw)
| |
| * v sv 2800 - 1.3tw Where: Py = Pressure of the water vapor at the unsaturated condition, in. Hg.
| |
| P,y = Pressure of the saturated water vapor at the wet bulb temperature, in. Hg.
| |
| P = Barometric pressure, in. Hg.
| |
| 3 td = Dry bulb temperature, OF tv = Wet bulb temperature, OF Entering steam tables at a saturation pressure of P yields y the dewpoint temperature.
| |
| These values of dewpoint temperatures and the previously recorded hygrometer readings were then used to plot field high relative humidity calibration curves, marked A on pages C-29 through C-34 of this report. These new curves also compensated for the individual probe wiring length capacitance which was a function of the length of wiring to each probe. The calibration curves were inserted in the computer program for use in the Integrated Leak Rate Calculations.
| |
| * This. equation is a mathematically equivalent form of the Basic Psychrometric Equation as shown in ASTM E 337-62 for the units shown.
| |
| l
| |
| \
| |
| o l
| |
| Revision 4/74 l Sheet C-5A
| |
| | |
| ^
| |
| ,7
| |
| * DEWPOINT SENSOR FIELD RECALIBRATION (Continued) fb.
| |
| \_/
| |
| Sheets C-29 through C-34 show the calibration curves for the dewpoint tempera-ture probes used during the ILRT. Curve A shows the field calibration of the ,
| |
| probes described on sheet C-5A. Curve D is the original calibration conducted ]
| |
| by Panametrics on October 29, 1974 Curves B and C are post ILRT calibrations '
| |
| l conducted by Panametrics on March 13, 1974. Curves C and D were made with a drybulb-dewpoint temperature separation of 100F. Curve B was made with a dry-bulb-dewpoint temperature separation of 30F.
| |
| It is seen that the slopes of the curves are about the same but the absolute value is affected by drybulb-dewpoint temperature separation and by age of the probe. Since leak rate calculations are based on changes of containment atmosphere the slope of the curve, not the absolute value, is the primary concern.
| |
| 'Also, for a given test the dewpoint-drybulb separation did not change appreciably.
| |
| It is noted that the change in hygrometer reading was very small over the test periods. For the reduced pressure ILRT the containment average dewpoint temperature at the start of test was 70.570F and at the end of test was 70.970F for a change of 0.40F over 8.75 hours. For the peak pressure ILRT the average 0
| |
| dewpoint temperatures were 75.330F and 75.23 F, respectively, for a change of 0.10F over 8.75 hours. Therefore, it is seen that dewpoint temperature was relatively constant.
| |
| i l To further investigate the effects of dewpoint temperature, the data for both
| |
| ! ILRT's was re-inserted into the computer program without correcting for dewpoint temperatures. The uncorrected peak pressure computed leak rate was slightly
| |
| [~'\ lower (by a factor of 4.3% La) and the reduced pressure computed leak rate was
| |
| \--) slightly higher (by a factor of 13% Lt).
| |
| Therefore, shifting of calibration curves due to age or dewpoint-drybulb temper-ature separation does not have a significant affect on the ILRT results.
| |
| i l
| |
| t
| |
| (
| |
| j \~
| |
| Revision 4/74 Sheet C-5B i
| |
| I
| |
| | |
| l l'
| |
| l l
| |
| O TEXAS INSTRUM ENTS INCORPORATED s 2aO3 SOUTHWEST FREEW AY
| |
| * STAFFORD. TEX AS a OlGITAL SYSTEMS DIVISION CERTIFICATE OF CALIBR ATION PRESSURE GAGE NO. 2N MODEL NO. INS-02 BOURDON CAPSULE NO. 6h06 This instrument has been calibrated to meet or exceed all publLhed specifications.The calibration has been performed with a pressure measurement system whose accuracy is traceable to tne National Bureau of Standards.
| |
| Traceability is achieved through a pressure standard which is certified by the National Bt.reau of Standards at planned intervals. This standard is maintained and operated in an environment controlled to the extent necessary to assure continued
| |
| {. measurements of the required accuracy. Test data, applicable to t'nis instrument,6 maintained on file at Tens Instruments
| |
| ;; ^
| |
| j Incorporated for a period of five years from date of shipment.
| |
| i fat.'DARD NBS RFPORT NO. DATE Ruska Double. Range 221.07/199984 3/10/70 Dead Weight Tester Model 2468 710 Serial No.16334 Ruska Weight Set 212.31/200235 3/10/70 Model 2468 702 Serial No.16360
| |
| - L -
| |
| _. k. I I
| |
| TEXAS INSTRUMENTS INCORIMRATED Standards Laborat'ot/
| |
| DATE: 10-03-73 w
| |
| M AILING ADURt.SS POhr M FICE 80s 660 e 7
| |
| * MOU% TON. TCD A9 77006 AC 713 44431iteCAHLt TE gg%g
| |
| _ _ _ _ _ . . _ . Sheet C-6
| |
| | |
| TEXAS l'!S T RUM rr!T S INCORPDFATED DIGI T AL SYSTEMS DIVIS!nN P.O. ROX 1444 HOUSTON, TEXAS 77001 T E t. F D HCt:" : 71?-494 '.;113 ne********
| |
| P"ECISIGN PnrSSURE CALIMATION T A!.tl F *th******u C A D Si tL E S/N: S496 I M ST R. S/N: 7638 CAL'N DATE: 10/03/71 Ct,PSUt F 4AT00 PRESSURF: 100 PSIA 4AX PRESS:
| |
| CAOSULE TYpr: 150 PSIA 2 I N S T PU 'ir 4T M O '.)F L : 14 5- OL.
| |
| Carsut.t Ir mr9ATtPF AT C.%LInuATION: 49.1 D E r, . C.
| |
| CA1.1P"AlinN 5TANDARO: P-1604-3123 C AL 1 BR AT EO 3Y:
| |
| T P,f J r P'' t S r.IIR C COUNTER P F A ') ! N G
| |
| / l' v-
| |
| . /
| |
| ( PSIA) fCOUNTS) ^-''"
| |
| 'o -t -*
| |
| u.0 0. I 5.000 5032.
| |
| 10.000 10064 15.000 15109.
| |
| 20.003 20156.
| |
| ~
| |
| 25.000 25212.
| |
| 30.000 30274.
| |
| 35.000 3S340.
| |
| 40.000 40404 45.000 4'i496.
| |
| 57.000 50570. -
| |
| %%.001 5566?.
| |
| 50.000 60695.
| |
| f>0.003 60765.
| |
| 65.000 65865.
| |
| 70.000 7097?.
| |
| 79.000 76046.
| |
| 30.000 81205.
| |
| 35.000 86340.
| |
| 90.000 01479.
| |
| 45.000 96616.
| |
| 100.000 101772.
| |
| NOTES:
| |
| ~.
| |
| : 1. PR ESSU;' E C AI IRP il lON STANOa.RnS COPRECTED 10-STANDAPO GMAVITY, 9'40.668i C*t /S FC /S FC.
| |
| UNITS OF MF-RCUP Y C ORP FC Tt -J TO O DEG.C. UNITS OF WA Tr-n CCPR EC TE D TO 20 DEG.C.
| |
| 2.
| |
| C OU N1 Fi. D E S OI Nf. VS Tl? Ur PP.E E SilP F A"PLIFS ONLY iT A90VF S PE C 1 r l F D Ct.P Su t t- TEMPrrATUPF. F O'< OTHER TrMPERATURE, COUNTre e,F AOING ys PR ES Suur M AY Fib Ci'R R f C TF D BY +0.013";
| |
| OF COU!;Trn ntAnit:c pr4 + O F ". . C . DEV ir TinN 1- q r. '4 Ct.LI 44 AT I ON TFMP.
| |
| ( T r v PF D A l Ut.F S ET oDI NT C AN nr AUJUSTED PEP INSTkU"TICNS IN '4AINTENANCL SECTICN UF MANUAL)
| |
| O'
| |
| ./,
| |
| NO Sheet Cf
| |
| | |
| O TEXAS INSTRUM ENTS
| |
| /
| |
| t i v I N C'O R P O R A T E D 12203 SOUTHWEST FREEWAY
| |
| * STAFFOR D. TEhAS
| |
| , OlGITAL SYSTEMS DIVfSION CERTIFICATE OF CALIBRATION PRESSURE GAGE NO. 2b39 MODEL NO.145-02 BOURDON CAPSUI.E NO. Sh94 This instrument has been calibrated to meet or exceed all published specifications.The calibration has been performed with a pressure measurement system whose accuracy is traceable to the National Bureau of Standards.
| |
| Traceability is achieved through a pressure standard which is certified by the National Bureau of Standards at planned
| |
| ' intervals. This standard is maintained and operated in an eevironment controlled to the extent necessary to ,ssure continued measurements of the sequired accuracy. Test data. spplicable to this instrument, is maintained on file at Texas Instruments incorporated for a period of five years from date of shipment. -
| |
| STANDARD NBS REPORT NO. DATE Ruska Double Range 221.07/199984 3/10/70 Dead Weight Tester Model 2468 710 f"~NI Serial No.163S4 NJ Ruska Weight Set 212.31/200235 3/10/70 Model 2468 702 Serial No.16360 s
| |
| ( $ hm -
| |
| /
| |
| \ tub ~ .
| |
| s.
| |
| TEXAS INSTRUMENTS INCORyRATED Standards Laboratory DATE: lO 02 7'l Q.)
| |
| I i
| |
| M AlWNo ADORt.SS POS) OFF SCC uoA 6602 7
| |
| * Mot >s rON. TEX AS 77006 AC 79 J 4944115
| |
| * CAULC IcAlh$
| |
| Sheet C ._ _ -_ _. . _ _ _ . _ ~ _ .
| |
| | |
| l I
| |
| l
| |
| , TFXAS INSTRilvFNTS INCORocRATED DIGITAL SYSTFWS DIVISION l D.C. BOX 1444 .
| |
| Ii HOLSTOP:, TFXtS 77001 i TELE 0 HONE: 71?-494-6115
| |
| - n . , ,1 r. .. -- ,,3.. , m.m.,s..... . .-..m . .
| |
| C A o S til.E S/N: c4c4 TNSTP. S/A: 2639 CAL'N DATE: 17/r?/73 CADSULc ATE'1 PPCSSURF: 50 PSib MAX ORCSS: 63 PSIA C AP SU: " TYPC: 2 I NST S.U M E NT MOD EL : !45-CL ct oSut ? TE 1PEr A vtrtE AT C AL I BR ATint': 49.3 DEG. C.
| |
| C Ali n" A TI ON ST ANO SP D: P-1604-3117 CALTRRATEC BY:
| |
| TR tl E P7ESSU'E COUhTER PSa9IrlG
| |
| ( PSl ol (COUNTS) ;-sg _;;_ e_ _2-3.3 9.
| |
| 2 . 5 0 V- 5079 E .10 ^^ 1016R.
| |
| 7.500c 15257.
| |
| l a .1r .* r 20 ? 5 ?. .
| |
| 12.5re? p546a.
| |
| : 15. ic i f- 305 E 5.
| |
| 17.5Pra 3G699 20.1000 40824.
| |
| ??.5006 45455.
| |
| 25.32'" Elh99, i 2 7. 5 0 '' ' 5623'i.
| |
| 30.7Arn 61304
| |
| _ . 32.5^rt _ . . _ . . 66558. .
| |
| 3 5.10 r 6- 71771.
| |
| 37.5609 76894.
| |
| 40.7 Fen R?O74.
| |
| 4?.5"C" 872 5A.
| |
| 45.1prC 92447
| |
| __ _ . _ . . ._ .4 7 . 9 C " r .. . . 97'44 _
| |
| 5C.0C^0 102H37.
| |
| NOTES:
| |
| : 1. PRI S SilRF C A LIRR AT ION ST ANC ARDS CORDECTED TO ST AND APD G7AVITY, ^1C.665 CM/ scc / SCC. UNITS Oc "EFCUc Y CCPRc_CTED TO o DFG.C. IlNITS OF WATER CDRRECTED TO 20 DEG.C.
| |
| : 2. CPUNT FR uc APING VS TPUC PocSSUL'E APoLIES ONLY AT AanvE SP EC I FI FO C/ PRUL E T Et'PE R A TUP.E. FOR OTHCR T F "P: P A TI.lD E ,
| |
| CrV4TER PEtDING VS Op{$ g[jR { MAY Q$ Cpqq((T{D Ry 40,0137
| |
| _ _. Oc COUNTER c r An t r.iq o ro + nEG.C. OEVIATION FROM C aL I RP AT IDF
| |
| . Tf fP. (TEv Pro ATUD F S CT-PO INT C AN PE ADJUSTED DEP INCTRUCT11NS IN P'alNTrNANCE SFCTION OF M Attil AL )
| |
| &)
| |
| Sheet C-9
| |
| | |
| O
| |
| \
| |
| TEXAS INSTRUM ENTS lNCORPORATED Ia20: SOUTHWEST FREEWAY
| |
| * STAFFORD. TEXAS DIGITAL SYSTEMS DIVISION CERTIFICATE OF CALIBRATION PRESSURE GAGE NO. 2b39 MODEL NO.145-02 BOURDON CAPSULE NO.Gho?
| |
| %is instrument has been calibrated to meet or exceed all published specifications.The cahbration has been performed with a pressure measurement system whose accuracy is traceable to the National Bureau of Scandards.
| |
| Traceability is achieved through a pressure standard which is certified by the National Bureau of Standards at planned intervals.This standard is maintained and operated in an environment controlled to the extent necessary to assure continued measurements of the required accuracy. Test data, applicable to this instrument,is maintained on file at Texas Instruments Incorporated for a period of five years from date of shipment. .
| |
| STANDARD NBS REPORT NO. DATE Ruska Double. Range 221.07/199984 3/10/70 Dead Weight Tester Model 2468-710 Serial No.16334 O
| |
| Ruska Weight Set 212.31/200235 3/10/70 Model 2468 702 Serial No.16360 4
| |
| 4,J_ w
| |
| [
| |
| L (4m s
| |
| e TEXAS /NSTRUMENTS INCORPORATED Standards Laboratory DATE: 10-03-79
| |
| : )
| |
| *: Q /.
| |
| IAAILINC ADDRESS POST OFFICE pox 66027
| |
| * HO'fsTON 1r.x AS 77006
| |
| * AP 713 49 4 S i 1 S
| |
| * C A"Lc TEllNS Sheet C-10
| |
| | |
| TEXAS INSTROUTNTS I NCil4 Pf14 4 T ED O I G I T Al. SYSTEMS 91 VISION N D.P. " )X 1444 1OtlSTON, TAXAS 77031 TFLFPHMNF: 713-404-5115
| |
| * *
| |
| * e e * * :: c e P a r C IS I ON P P F S S U R:- L A l ltfu A l l u N 1 A'5 L t: ****** m e C4PSULF S/N: 54D7 I NST R. S/N: 2630 C AL ' N ') A T E: 10/03/71 CAPSULE 'ATF9 ?<f S SilPE : 100 PSIA 4 %X ocESS: 150 PSIA C A P;UI E TYPr: ? INSirir 4FNT M01FL: l ', 5- 01.
| |
| C A P stil.r l e *pr . % TU9 E AT C AL. ! P,R AT i nN: 49.0 DEG. C.
| |
| C AL T OR A111N STAN0Ao9: P-1694-3123 CALIBRATED BY:
| |
| Tolic P4FSSURF C H U*:TEP RFAPING jd
| |
| ( PS;A) (COUNTS) .--
| |
| m- -
| |
| O.0 0.
| |
| 5 . 0 '' O 49?9 I f) . O .10 9365.
| |
| 15.300 14787.
| |
| * 20.000 19723.
| |
| 75.000 2 4 !. h * .
| |
| 39.000 29619.
| |
| 35.090 34567.
| |
| 40.000 39521.
| |
| j 45.090 44473.
| |
| 50.0P0 49430 )
| |
| SG.0JO 54491.
| |
| 59.000 59306.
| |
| 60.000 59376.
| |
| 65.3G0 64348.
| |
| 70.000 69327.
| |
| 75.000 74307.
| |
| 96.000 79290.
| |
| 85.000 tl42Fl8.
| |
| 93.000 E9280.
| |
| 95.000 94278.
| |
| 100.000 99283.
| |
| NOTES:
| |
| : 1. PPESSUDF CAllaPATION S T AN04R 05 Cr '.ECT:D 10 STANCAoD GUAVITY, 9 8 0. 6f>5 Cit / S E C / S EC . UNITS OF l'E R C t ht Y CMRECTF0 TO 0 OEG.C. UNITS OF WATtR CU ulCTED TU 20 usG.C.
| |
| : 2. COUN1FP REA0!NG VS TPUC P3.CSSilRF APPLIES ONLY AT ABOVF SPFCffir') CAPSlH F T F *.P E R A TtlR F . FOP OTHFR TFMPERATURE, COUNT EP READING VS PPFSSURE :'AY BF CO'in CC T F D BY + 0. 013 ',
| |
| Of C D U'.' T r R fi E AD I siG *" R + DEG.C. 11 E V I A T ! q'4 FROM CALI GR AT ION TEMP. ( T Pt P FD. A T U7 F SFT-POINT CAN 4F A0JUSTFD PFP I NS TP UC T T nNS th tAINTEN04CF S EFT I ON OF MANUAL)
| |
| O' Sheet C-ll
| |
| | |
| O n!
| |
| ,G t TEXAS INSTRUM ENTS INCORPORATED 12:03 SOUTHWeEST FREEW AY
| |
| * STAFFORo. T ExAS OlGITAL SYSTEMS DIVISION CERTIFICATE OF CALIBRATION PRESSURE GAGE NO. 2b38 MODEL NO.1h9-02 BOURDON CAPSULE NO. 9h09 This instrument has been calibr:ted to incet or exceed all publidied specifications.The calibration has been performed with a pressure measurement system whose accuracy is traceable to the National Bureau of Standards.
| |
| Traceability is achieved through a pressure standard which is certified by the National Bureau of Standards at planned intervals. This standard is maintained and operated in an environment controlled to the extent necessary to assure continued measurements of the required accuracy. Test data, applicable to this instrument, is maintained on file at Texas Instruments incorporated for a period of five years from date of shipment. .
| |
| STANDARD NBS REPORT NO. DATE Ruska Double. Range 221.07/199984 3/10/70 Dead Weight Tester Model 2468 710 Serial No.16381 J Ruska Weight Set - 212.31/200235 3/10/70 Model 2468 702 Serial No.16360 4
| |
| s
| |
| . be(
| |
| D TEXAS INSTRUMENTS INCfPORATED Standards LabotaYory DATE: 10-02-73 5
| |
| l (0
| |
| . v.
| |
| /
| |
| 644tLipeG Acongsg. post OFFICE eoM 66027
| |
| * HOUSTON. TEXAS 77006
| |
| * AC 78 3 494 5115
| |
| * f ARLE; TExtNS Sheet C-12
| |
| | |
| - TEXAS INST 20MENTS INCnRPORATED DIGIT AL SYSTEMS DIVIS!GN
| |
| ~
| |
| N P. O. RGX 1444 HOUSTOM, TFYAS 770f.'1 TELEPHONE: 71?-494-5115
| |
| ^1:2''4444 ' DF ECI SIGN ORESSU4 E CAliR; A TION T ABL E '*'"*""*="
| |
| C A P S Ut.C- S/N: 5495 TNSrp. S/h: 2636 CAL *N OATE: 11/02/73 C A P Silt.E DATED DRESSURE: 50 PSIA VAX PRESS: 63 PSIA CA' SULF TYPr: 2 I N Sif'U*tE NT "Q7EL: 143-C1 CAPSULE Tc"PE F ATuo F AT C AL !RR AT lqN: 49.1 DEG. C. !
| |
| C AL IBF AT T ON ST ANO AF D: P-1604-3117 CAllBQATED BY: l TRUE PRESSUVE COUhTER READING - '
| |
| j
| |
| ( PSIA) (C OUN T S ) '' - -
| |
| __as_ a.
| |
| ~
| |
| ~
| |
| ~
| |
| 0.0 0.
| |
| ' -~ ~~ 2.500n - ~~''
| |
| 51 31.
| |
| s,nnne '1026?. I 7.5006 153G7. -
| |
| 10.1600 20543.
| |
| 12.50r" 25680 15.3C00 33636
| |
| ~ ~ ~ ~
| |
| 17.53*O ~
| |
| 350C2.
| |
| 20.00^n 61154 22.5000 46327..
| |
| 25.'^C9 515?^.
| |
| ~'
| |
| l' 77.50rS 56674.
| |
| 'O.3000 61859
| |
| ~ ~ ^ ~ ~ ~ ~
| |
| 32.5000 ~ 67052.
| |
| ~ 35.3000 72243.
| |
| _. 17.5600 77447 40.S000 82656.
| |
| 42.5CCO 87868. I 45.300' 93080
| |
| . . . . . . . . . .- 47.50en ... . .
| |
| 98314 . . .
| |
| l l
| |
| 1.
| |
| PRES SIIR E C AL IR A ATION ST AND ARDS COP PECTED TO S T A *.' n A R D
| |
| _, GR AV I TY , 980.6$5 CM/SEC/SEC. UNITS OF *1ER C UR Y CCR9ECTEn TO O der,.C.
| |
| IINITS OF W%TER CORRECTED TO 20 DEG.C.
| |
| 2.
| |
| .CDUNTFR DEADIMG VS TRUc P D. E S S UR E A P PL I E S ON L Y A T ABOVE S DEC I FI ED C APSUL F T 9'dPF R ATIIPE. FOR OTHER T EV PEP ATUP E, C OUN T EP RE A DING VS PCF S SllR E M AY BE COF RECTE D BY +3.013T Oc C OtJNT ER READING DCP + OCG.C. DEVIATION RROY CALIP. RATION
| |
| ' TFPP. ( TE "PFD. A T UP.E S ET-DC INT C AN RE AD.)UST ED PFP INSTRUCTIONS IN MAINTENANCE SECTION OF M ANil A L )
| |
| Sheet C-13 i
| |
| | |
| a
| |
| . o
| |
| , f //-- / -- 7 y
| |
| :W&SSuit=~ . /f'S-C/
| |
| *~
| |
| / G) /A 4 e: S/s) .:2 C, ..S 9
| |
| - a'''ey,'.s viz= 5,i,a .i s(9 ,*? Jt?.o '< .
| |
| I'",YUc*cun C., doc.;6~ FA/ -Sc, F .- /rx S',',i/ 2>'3 /
| |
| id': t93.i.w=b',6 ?/9 }' Jricec:e g; Y <?. 0 / 4 .; u 'l - = 6 OO/(>$ ft.l'I
| |
| . . ~ - L<a. .. b .7
| |
| / .}. ,1 7/; 7 a.e C O.o67/'/7x0.0!G S '* Oi &) / 5 tv;/ll i '
| |
| * 7 ~/ ' c;//aic :ic. / 7b a i C D f.! I~'5 til /Tu- Esrw .iex
| |
| $ / / v 'c; O r d s L & ).;ja k ' :. 6,OCO.55 /-TTj'/-)
| |
| 1 1
| |
| i b'
| |
| f
| |
| ; 1
| |
| //- s-,- i.-), -. -
| |
| T/ tlii.TSusi: GA'?tsyL' i b/-T o / S AJ LQ d.ib't?
| |
| j C?/.40t:.E.
| |
| i tyfu S{hh, "?W.a''.'~'
| |
| V')yCCu1-( c,://t..z;&- f;y Co</.. ,<a.p .S,/,t i i:it /
| |
| : i. a a. ee O'c G)f.t.:c. v p, /:.2 @-ff 7-m' = .00:3 5IA i TI& = . L'?
| |
| . - / ,. , ,
| |
| . te .r. u.w V.-r,c . C,iA Gc C'. O 'i /b''if l% =
| |
| ~'
| |
| CO/7,15/Il = en f-r$M cae cm'o C =' + 0.co/ ii;sii bw Juv , L'X&.;' *- l^D.Ctr/{jQt// ifyg * :.' f 0. 00 /05 ti.trl J
| |
| r I
| |
| e 4
| |
| ,1 T*o g '$ ' '.T.:. ' 0, [)]Q,$'O S f.N,/
| |
| 1 i
| |
| 5'
| |
| . . . . Sheet. C-14
| |
| | |
| ./ .
| |
| 1 LEFOS & NORTHRUP COMPANY- Sumneytown Pike . North Wales. Pennsylvania 19.tS * 'p
| |
| 't CALIBRATION REPORT FOR TWENTY CAT. 8197-10-S 100 OHM COPPER THERM 0HMS
| |
| -o00-Customer Order No.15473 L&N Order No. 59352-1 The above designated thermohms were checked and found to have corrections to L&R Conversion Tables 77-21-0-4, Issue 4 as follows:
| |
| Temperature 10l1&f73 Corrections - l0l%l73 Thermohm No. Deg. F re7 Deg. F A m .' ' 23 W " ' ' "
| |
| 1 32 M%.02 Subt. 0.15 % . ' '5 100 /Dc.o Add 0.02 7.0 150 Subt. 0.09 2 32 .: 7. 0 5 Subt. 0.04 .c. 15 (Q,/ 100 /c o o Add 0.02 /o 6, /
| |
| 150 Add 0.19 3 32 32.2 Subt. 0.06 3227 100 -00.1 Subt. 0.07 / m :-
| |
| 150 Subt. 0.04 4 30 7. L' . r, Subt. 0.08 '3 2 ." e; 100 I~ ' 0 Add 0.03 'c o ,!
| |
| 150 Add 0,12
| |
| ~
| |
| 5 32 3.2. 2 Subt. 0.03 1 7.17 100 la t.o Subt 0.05 !. z.
| |
| 150 Add 0.01 6 3 2 .f ''. .'. Subt, 0,12 ' J. J . '
| |
| 100 f c o.c subt, 0,07 /Aa 150 Subt, 0,05 7 32 3.''. ! ~ Subt. 0.06 ? '' ' 7' 100 99.Y Subt. 0.04 /cc.5 150 Subt, 0.19 8 32 J2.- Subt, 0,08 100 /co.o Subt, 0.12 / JC. 0 5-150 Subt, 0.11 73
| |
| ( ) 9 32 JJ Z Subt, 0.20 e ~.4 /
| |
| ivo / vo .o anot, u.i, w. 3 :2 150 Subt. 0.06 2 Sheets 3hggt p] TELEPHONE: 215 r43-2000 - C^DLE ADDPCSS "LEEDSNonTH" Sheet C-15
| |
| | |
| Temperaturc O'
| |
| Corrections Thermohm 180.
| |
| , Dea. F . n . (: . wn a, Dog. F
| |
| _gq . ' l v. ., , . n .,)
| |
| 10 32 .3 .''. ' Subt. 0.03 r ~ 'J 100 /C D,o C Subt. 0.16 .- , ,
| |
| 150 Subt. 0.10
| |
| ~
| |
| 11 32 Subt. 0.15 -
| |
| 100 .., subt. 0.12 ic a 150 Subt. 0.05
| |
| =' ;
| |
| 12 32 / ? L Subt. 0.08 100 'or 0 Subt. 0.12 Ic : ::
| |
| 150 Subt. 0.07 13 32 32.o Subt. 0.08 .l :3 100 :c c . a Add 0.05 '
| |
| . 'o 150 Subt. 0.19 14 32 J/;:. O g Subt 0.15! ? h . .T3 100 loc .c Subt. 0.12 , c : . t2.
| |
| 150 Subt. 0.04 15 32 2 2. / Subt. 0.06 ?.2.17 100 '. o o Subt. 0.10 . w 150 Subt, 0.03 16 32 T / Subt. 0.12 61'.21 100 /c c,<3 Subt. 0.06 ' c ., . c a 150 Subt. 0.09 17 32 2 2. ?. O S3,l8 100 .: t, Lbt. 0.04 ..,
| |
| 150 Add 0.01 18 32 3 : .. I5 Subt. 0.12 3~' 3/
| |
| 100 /00.0 Subt. 0.19 / c e. M.
| |
| 150 Subt 0.09 19 32 3 2. c Subt. 0.04 32.2f 100 c.* Subt. 0.12 n~.-
| |
| 150 Subt. 0.07 20 32 f; j. ; Subt. 0.03 5 1. a c 100 l,,.; . 3 Subt. 0.09 1 <.,. a
| |
| , 150 Subt. 0.18 All observations were made by comparision with reference standards calibrated at regular intervals by the National Bureau of Standards. The nost recent reference standard calibration is dated August, 1972; H.B.S. Test No. 207024 LEEDS & NORTHRUP COMPANY 9 C R. H. Verity Manager, Standards Laboratory Shcotr l
| |
| {h00tLt Sheet C-16 I
| |
| | |
| } CALIBE/4' ION DATA S11CET n's t rumen t No. DVM-/StT-3 ,
| |
| System:
| |
| !!:nu f ac tur'cr: Leeds & Northrup Cabinet Location: fM
| |
| * ""^tT "~ Span:
| |
| A-Item:
| |
| Model No: _
| |
| Series 900 -
| |
| Vendor Print No: NO Type: .
| |
| db Instrue. tic,n Dook rile No: ' , "
| |
| Scrial No: /Pcf723 Accuracy: ! 0.01% DC Volts Calibration Procedurc No: CP 1303.07 .
| |
| . , i SENSOR TYPE -
| |
| [cc' ./L- ( g ,3 / /)
| |
| * SENSOR RANGE ,.;. /s e ** T' Tolcrance (l' east significant digi )-
| |
| 1 volt Indication "0"/ range , , f. ,, o 1
| |
| - ~ -
| |
| 10-2V . .
| |
| Indication "0"/ Range c'.c co 11' .
| |
| Indication "+15" ' mV t / f o c / ,,,./ !2 . _ - .
| |
| Indication "-15" mV s /q;i0' 12 .
| |
| In.d_ication +150 mV / 4 9 9 9 etr s' 3 In.d_1.,catipn +1. 5 V / ,4 9 1 i Af 3 Indication +15.0 V / // , f 7 f> y
| |
| * 3. .'
| |
| _= .
| |
| SENSOR NOMINAL INPUT INDICATION ACTUAL INDICATION f.t > 141 C o c %- 6, s o "F 9 9 L .3 5' lo . o c c i- .Tc . 0 0 ''f -
| |
| J.9-91':
| |
| ..Le t. S'9 7 9 0 o c ''
| |
| /09 3r/ 11.0 ,c o 'i- r*'il 9. h { '
| |
| //f*IG7 l b . 0 0 ' ;= p p 9, 9 f -
| |
| ( niibration performed by: [ U C /r .c. .ec @ .Sec e c./, Da t e: 9 ./s.72 Neviewed hv. -
| |
| y.
| |
| / ,I'~/~ . .n.e. 6,7,/,/
| |
| -i~9/v ?
| |
| \
| |
| l Sheet C-17 l 1
| |
| | |
| I
| |
| ,e m CERTIFICATE OF CONFORMANCE '-
| |
| DATE February - 13, 1973 Arkansas Nuclear One P.O. Box 608 So. of Jct of Hwy 64W & 333 Russellville, Arkansas 72801 MODEL NO. 1110-08K2BIA** PURCHASE ORDER NO. 15506 QUANTITY l METER S/N - 7212-39316 METER ACCURACY 1% 7nstantaneous , VENDOR ORDER NO. 7212-39316 This is to certify that the material and/or processes supplied on the referenced order have been tested and
| |
| /N 4 U found to be in strict accordance with.all applicable specifications fornr.ng a part of the subject purchase order listed above.
| |
| Test reports are on file with us or with our suppliers for examination and indicate conformance with applicable specification requirements.
| |
| **Ili-Accuracy Full-View Rotameter g....-.q l 71 I-IIM:..RCON BROOKS INSTTIUMENT OlVISION
| |
| [
| |
| EMCitSON ELECTRIC CO. 'IGNED . U k .M !2 V '. /
| |
| g HATf tt'LO. PENNOYLVANI A 19440 ggg' gnyjjjp*v '-
| |
| '* " TITLE Sunorvisor, Ounlity cont rol bjk Sheet C-18
| |
| | |
| )'
| |
| ,,L
| |
| >u,,
| |
| >j CERTIFICATE OF CONFORMANCE DATE Pobruarv 13, 1973 Arkansas Nuclear One P.O. Box 608 So. of Jct Hwy. 64W & 333 Russellville, Arkansas 72801 MODEL NO. 1110-08K2B1A** PURCHASE ORDER NO. 15506 QUANTITY 1 METER S/N 7212-39315 METER ACCURACY
| |
| ~
| |
| 1% Instantaneous VENDOR ORDER NO. 7212-39315 This is to certify that the material and/or processes supplied on the referenced order have been tested and found to be in strict accordance with all applicable specifications forming a part of the subject purchase order listed above.
| |
| Test repnrts are on file with us or with our suppliers I for examination and indicate conformance with applicable specification requirements.
| |
| **Hi-Accuracy Full-View notameter
| |
| , - .. 3 1
| |
| 1 ,
| |
| l.'*M. .H5DN \
| |
| i BROOKS INSTRUMENT DIVISION '
| |
| M%U .? I EMERSON EL ECTRIC CO. SIGNED 1 H^u i:tO. **LNNSYLVANIA 19440 MihO ConVille _jj
| |
| ;M* N TITLE Suncrvisor, Qualitv Control -
| |
| bjk Sheet C-19
| |
| | |
| l
| |
| - U
| |
| /m
| |
| \
| |
| CERTIFICATE OF CONFORMANCE DATE Februarv 13, 1973 Arkansas Nuclear One P.O. Box 608 So. of Jct of Hwy 64W & 333 Russellville, Arkansas 72801 MODEL NO. 1110-08K2BIA** PURCHASE ORDER NO. 15506 QUANT * ' 1"I
| |
| . 1 METER S/N 7212-39316 METER ACCURACY
| |
| * l*4 Instantaneous VENDOR ORDER NO. 7212-39336 This is to certify that the material and/or processes supplied on the referenced order have been tested and found to be in strict accordance with all applicable specifi u tions forming a part of the subject purchase order listed above.
| |
| Test reports are on file with us or with our suppliers for examination and indicate conformance with applicable specification requirements.
| |
| **Hi-Accuracy Full-View notameter If ~ ~'l E l-t IEMi..R5'ON BROOKS INSTRUMENT DIVISION EMERSON ELECTRIC CO SIGNED #
| |
| / 3./ 'Y .f l sg HATFIFLO, PENNSYLVANtA 19440 gg gg;y9 v
| |
| ) TITLE sunervi<nr, Oual i t y Control bjk.
| |
| Sheet C-20
| |
| | |
| . ...: . s -
| |
| Componatsom 6,,, ,, OlviSION MEASUREMENT AND CONTROL 2$ MAIN STREET, SELLEVELLE. NEW JERSEY 97109 (201) 759 9000
| |
| . REPLY TO: P 0. BOW 178 is C V.' A A 4. i4 J 07:01 DATE: 9/28/73 STATEic'sT OF COMPLIATC3 CUST0!En Arkansas Power & Light Company LOCATION RusselIviiie, Arkansas PUH0 EASE ORDER 28067 SHIPPING OFM 2 212M A
| |
| - This is to certify that caterials and processes involved in the z=nufceture end verification of the product (s) included in thia shipmant comply with the catalog, drawing or specification referenced in the order.
| |
| It is certified further that the calibration is traceable to the National Bureau of Standards.
| |
| WALIACE & TIERNAN DIV.
| |
| /
| |
| l 47'' '
| |
| l UUIR&3G A, Oaffney, Manager of Test and Inspection 1
| |
| l O
| |
| F
| |
| ! L-10%
| |
| l 10-62 Sheet C-21
| |
| | |
| \ '
| |
| . . ChL1r,MTIO:t DATA SKEET
| |
| , . \. . .
| |
| s Iustru=ent No. (( > '2, Q Systc=: 'lD. S T 6 D c', M _
| |
| Manufacturer (<S7/4.ocY- I'' T/C-/J/J1 d Cabinet Location: 1 L /? T Tch".' , .~-
| |
| Item: Y ~~ G M(.t'- /4FM e t '76 122CSES Pan: O - /('o IM i 4 Model No:. 6C ,.o, e c. / c: c.c: Vendor Print No: L) / /4 Type: A J //4 Inctruction Book File No: L'.!/4
| |
| , ~
| |
| a Scrial No: .
| |
| 'T T~ / '?. 5 / T Accura,cy: ,/.P4 F'i-ko j . / 'l n - FA Calibration Procedure No: A) / / -7
| |
| /
| |
| Onl. Check Indication Point Before Ccl. After Cal. Movement No.
| |
| Inc. Dec. Indication 7. Error Movrement Condition Inc. Dec. Inc. Dec Good ___d Renai red m 2L/h).2tf7FA 2 48 2.49 .Cl .Cl had .__ _ Rcvinced . ..
| |
| /f 'A' . S c;i D mn .'s. VC> 0. ~i c'5 . C 'l 1 PO U 'O'l J2'Qn.ggl on B . *18 i.28 D'i C'? v <;,. py.w .- cs y, .. y 6''rla - l1. 9/ P ;~1 1I 91 11.'72 09 O'l PP c' tut & c. rc=sfcu?
| |
| % / 4. 7L N'>rr 'Il!.?o :l/ ?O 05 .C5 ~ u c, '1 '7 et5 i iacc
| |
| .oy :
| |
| 2 ') 7.5 "
| |
| 2.4. c.G 2. i 1. L.fc .O4 . C'l 3il. 95 '-
| |
| Scit.7 341,'l .C2 M g i.mec,gg n ,c p,p(..
| |
| L/L].75' LI4.11 L/4.?l u O'l 04 sq 75 ." 54. t.c c 4.66 . r> 9 0 'i 6cl 7S "
| |
| 64 i. g. 6</tc .09 09
| |
| '/V.75 "
| |
| : 74. cc, 74/.46 00 . c'4
| |
| $il75 "
| |
| bl. S.s bl FS .to 10 949s " 99. 9t H.cto . Is . is C/Cf. 7g
| |
| * 9(7. U / (> , f/7. '70 ,/5 /.5 Calibration performed by: I. h.) v c,4jf.,r , , e ,.4 Date: _
| |
| // x. *17 _.
| |
| Revicued by: 8''V Date: // hM?.?
| |
| Sheet C-22
| |
| | |
| ~
| |
| . .. FORI NO. TC-1
| |
| ~
| |
| . CAT,IBRATION DATA SHEET
| |
| ,o s 1 Instrument No. TG 33 System: RST f:E.u t CJ T j Manufacturer WALL Ac t d "Y1#.t?h%y Cabinet Location: M /A Item: AG5MLO'T c_ C3o r.5% . c,/A c,( Span: O-\OO 'P S 1 A.
| |
| Model No: .SE.R)h.% 16.0 0 Vendor Print No: N /A Type: BELLOOt , Instruction Book File No: M/A.
| |
| l Serial No: TT )7.,5t5 Accuracy: .I *I
| |
| )
| |
| Calibration Procedure No;
| |
| - )*303 .M ,
| |
| t i
| |
| l Ja1. Check Indication Point Before Cal. After Cal. Movement No. '
| |
| Inc. Ucc. Indication 7. Error Movement Condition Inc. Dec. Inc. Dec Good V Rencired 2 4 g*2.'7~/ F '4 2. C/8 2.99 .o/ .o2 O Bad Reolaced V la".% 5.9!.e+ .5.85 5.87 .c.s .o2 re.=e 12h-8.S/p 4 8.82. B.78 .c4 .c8 usen ymn..ey,,vne
| |
| $"gn.II.sjpso n Il .99 II.81 .02. O PP. AND MANSFIClE $
| |
| V I4.'15 Pm I4 TI I4 75 4 0 GIDecN PMeuM M'r 24.75 f 24.75 2 4.75 O O nwy.s e + (,7 2 c.o re .7re 34.75 39 71 34.72 .ov .03 Acc. . c2.s 44.75 o 44.71 114.72 .o tl .o3 S q.75 - SH 70 54.'12 .05 .03 %? Amospneizic pness.
| |
| /o4. 75 o 44.73 6 4.75 02. o 74.75 " 74.69 751.73 .o6 .o2 i 8 4.75 i 84.69 B4.7/ .oG .oy 9H.ns ,
| |
| c;q.&S 94 70 .oi .cs
| |
| ! 99.75 0 99.73 .o2.
| |
| bm l
| |
| MA R I'lb! , I G.*!.OE!?.^.?.^.*.! f,?Date:
| |
| ^ " ^ ' C''~ ' " O lC l:.7; Calibration performed by: _ , . 1 Revicued by: Dato: /$[/J '7 Sheet,C-23
| |
| | |
| .. r.u.)!)L L / a w n i v vi.6.6. .
| |
| ~
| |
| cal.l?.::ATIOiI DATA SitCET CUSTO'',IP CONDITIONS Call %AMON CONDITiO!!5
| |
| ~
| |
| CE i. ' .~ . / _. . 2. .a .:
| |
| PR L55 c o , '; /g TEMP 7d e/:
| |
| GAS SP. GR.
| |
| LlQUlD t: i f.- SP. GR ._ _
| |
| RANGE CAL. PRLS5. TEMP K
| |
| :. REQ. ..,. ,, 3 '
| |
| /c, . /
| |
| VISC.
| |
| ".URACY :' / .</g5 A . ', .' . O f. , -
| |
| /. o B. '' O . PR E S S . 7. -f C, ' FLOAi MATL. c y . c e. TEM. yo K . 5 5 ., ; FLOAT MAIL.
| |
| ./sNT i f Y .J .. ., . . , ) TAFER CAlliinATOx gr-r, FLOAT SP. OR.
| |
| DATE .2 : J, . < - 7 i FLOW REO.
| |
| LIB POINTS SCALE 1 2 3 4 -
| |
| K FACTOR .
| |
| 'LE
| |
| .. DATA: BEGIN -
| |
| . LOW VALUE .
| |
| END . HIGH VALUE .
| |
| INCREuiENT . SERIAL NO.
| |
| c.e.. uo.
| |
| <- . s i./., > -
| |
| HEllX CAllD . CORR . F LOAT VO LUI,' E TIME MM e/1 POINT FLOW RATE MM -
| |
| ~~'
| |
| ~
| |
| ,,- s s 7 1oo ?. . na sj;;, ,,, pp 9 ,3 9
| |
| /fYJ 4. e ) ~ /A. > ll~ /. 9 /y_p *
| |
| * /.$ 'O 3*P J / I$' // /S ~-j /26 l__
| |
| '" ~
| |
| l_
| |
| /.s 0 ') o . o e' /u. / - ?. f / o s''
| |
| /n d Se. .s~/ J ~' ? // 7. T /00 l 3 1 9,3 5' se / fc) .
| |
| * l
| |
| /c d ?. _
| |
| "" P e*
| |
| so e 12. 9 e 7 9 </ C, _
| |
| so o 7.1. 97 N &. Ps. 4 f 7D l d. b ''
| |
| .':2 ,.s d y .* $~ r. e.
| |
| l__
| |
| +'o -
| |
| s / af A u. de A .v r- l __
| |
| Jo .1~7. e > ,! ss .a ~) Je
| |
| ,1 e ya r o h 9 u sn> .r l l_
| |
| :s d? F9 ''
| |
| / /s. $ 3 /6 . l__
| |
| l l-t_.
| |
| I I__.
| |
| l- l
| |
| .i-
| |
| =
| |
| l . -- :-_
| |
| l_._
| |
| p {} ___ _
| |
| - s,. .. .. . . . . . . . . . .. -- , . . .
| |
| - .- --- - _ I. .-
| |
| I
| |
| . - - _ _ _=
| |
| _ _ . _l '
| |
| Sheet C-24
| |
| | |
| MODLL ! SCl!LDULLD / _
| |
| . CAllP4ATICN DATA SilEET CUSTO,'.'.TR CON DITIONS CAllPAATIO!! CCN D! TIC' S
| |
| . ' SIZE
| |
| :D _ j.f , p 7#. 2 f s-- su
| |
| _ httb5 cc P ;5 TEM.!' 7d
| |
| * F GAS S P. Gi: .
| |
| LlQUID SP. GR.
| |
| 81
| |
| .. REQ. ,, c. RANGE CAL. PRLSS. TEMP K
| |
| ' URACY ~-
| |
| I hl., i t -' 5P. GR . f'. O B A R O . P!!ESS. r _.- c VISC. -
| |
| : 2. ' FLOAT MATL. -r ,.,_'. / .,,., TEMP 7 K e4.; .
| |
| FLOAT uiAil.
| |
| " Nill Y
| |
| . fa , , '
| |
| TAPER CAllBi:AiOH p. , FLOAT SP. GR.
| |
| DATE .: _ .. --i FLOW REQ.
| |
| _ !B. POINTS SCALE 1 2 3 4 K FACTOR .
| |
| .LE DATA: BEGIN . LOW VALUE .
| |
| ~
| |
| END . HIGH VALUE -
| |
| INCREU tis 1T SERIAL NO. -
| |
| ee c ec,- e.o .% .
| |
| HEllX CAllB . CORR . FLOAT MM ' VOLU""'E TIMF"
| |
| .- POINT FLOW RATE MM i
| |
| r7c/, ''' ne .
| |
| ,, o o c s. . se . - i p a e, _< . - :. a. a u 1. .. - in .- I v.- e, e., .- c 5. ./ J 7' /r 7 c. . ..,,. I e ,, , a r. <; / a. 'd .2. .. i ,. a- l
| |
| : s. . - . q __c 1 6 & G.K ' gn ( .' ' l a- :, ' ,, 9 .
| |
| -e4 y. -
| |
| l
| |
| ~
| |
| 4." c < 9 . .? 's p. < y 7.,. S., l
| |
| . . ~ .o - y . s - .-- t. . .s c 3 a_ .
| |
| l ae -
| |
| a . /. : ., -' .r. > l
| |
| .=f.=.''~
| |
| 2 sc -
| |
| . " .?i
| |
| . .i / . 1, l
| |
| .~o e u, 7.3 3 n n.c, ,is- l
| |
| <*c '
| |
| .e- 'l a
| |
| / s 0. /. , _ l
| |
| : s. em t. . :-' -
| |
| / /eo _ .3 l 1
| |
| i I
| |
| I l_
| |
| _ i
| |
| _ _ _ . . . __ __ .. _ ___. L J
| |
| I I
| |
| - . . . . _ _ . . . _ _ _ . = . . . . . _ .___ _. _ . . . _ - ]
| |
| Sheet C-25 i
| |
| r
| |
| | |
| M ODLL / SCli[DUI.CD ./
| |
| CAllBI:ATION DATA S!!EET / '
| |
| CUSTOu,FC CONDITIONS cal.lBRATION CONDITIC: IS
| |
| . 'wlE 7. -i- .s > . . , -
| |
| . GAS LlOUlD
| |
| .;10 .u.c PR L55 ' ~ - Fc cTEMP '//) Y SP. GR. SP. GR.
| |
| .X. REQ. ,y ,, n . RANGE CAL. PRESS. TEMP K_
| |
| CURACY y /,.-.( 7 5,SP. G! . /. o BARO. PRESS. y..,- r VIS C . -
| |
| 'C. / FLOA1 MATL. Ci-.cc TEMP y, K .g<y, e- FLOAT MAIL.
| |
| ANTilY _e,;o ( t T TAPER CAllBRAioit g. ' ', , FLOAT SP. GR.
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| . DATE m- y, ,f -.s FLOW REQ.
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| i.lB. POINTS SCALE 1 2 3 4 -
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| K FACTOR .
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| ALE DATA: BEGIN '
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| . LOW VALUE .
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| END . HIGH VALUE -
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| INCREMENT . SERIAL NO.
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| cc. 5 e.c. *. cc/m HEllX CAllB . C O<R. F LOAT
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| ,/,VOLUM E TIME MM MM ,
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| POINT FLOW P. ATE 4
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| .s e o .s- 7. .e / s s. .a e~ g . t is *o . I
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| : 1. - l Sheet C-26
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| ~
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| uiODLL / S Clli.DUI.L D f -
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| .. cal.lBPATION DATA SilECT CUSTO!/rt CONDITIONS ,
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| CAllBRATION CONDITIONS l SIZE r. : n. ..) > -
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| GAS LIQUID D ., ,,o PR ESS c.e . B /gTEMP 77'F SP. GR. _
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| SP. GR I
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| ' . REQ. v, . n .
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| RANGE CAL. PRE 55. TEMP 1; l
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| :U.':ACY / /,. , , erg _S P . OR . /. o BARO. PRESS. v . . , - VIS C. __
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| :. ' FLOAT MATL. 7; ,,.t u /c, m TEUP 7e K . .c r. r F L O AT I,'Wi l .
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| ' NTII Y eu. () TAPER CAllBRA~i od fe . s. , FLOAT SP, GR. .
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| . DATE ; .. .,, - .s FLOW REQ.
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| .lB. POINTS SCALE 1 2 3 4 K FACTOR .
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| e LE DATA: BEGIN -
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| . LOW VALUE .
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| END . HIGH VALUE -
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| INCREMENT . SERIAL NO. -
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| . e .
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| oc. s c u.. c.c J.,
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| HEllX CAllB. COXR . FLOAT I
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| -VOLUME TiuiE MM MM z.o POINT FLOW P. ATE r .* c'e ? ? 77 13 / coo. /.s c
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| ') lb
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| fr e hereby certify that the rupture test values as shown were obtained
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| @ ..;;.. y.m. ".
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| .. e . :.
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| N;. ':' to assure accuracy of the rupture discs within established manuf actur- N,; i '::-
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| ,[
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| ing toler ances customer:ARKA ISAs Poi;ER & LIGUder Na.: 1513 15147 ('j, s . s., .. v .. - .
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| fp_3,;
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| Ouantity: 10 Type: Aa sTD Man t f ac t urer's N o. :, cson fij y.W;C Specified Ruptare Pressure: 80 poi at 72 *F *C y;Mf3 8.
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| b.; w$, j Date: 11 '/-? ? 11 12 13 lti 15 L.?a
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| :m
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| :. u.. e
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| :0 The tests were ccnduct- T e;iiper a t u r e : 72 *F *C Pressure mediurx Air (y,) Dater ( ) ' E, "1}l .
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| =~! ed ender conditions Pressure Build-up Time. O to 2.t a5 FSIG 30 Seconds ' ''' .X 4j U stated herewith: 0 to Kp/cm2 Seconds !.4 x. . ?-
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| O!,G. ,-@: . , i,1 0 k. i E l d L : Rupture Disc: n Seat: Vac. Sup.:
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| @w..@. .. y a/
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| ..,3,
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| . 5 Chemical Analysis available --
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| x' .4' - b, ~1 unn request. ,s .- -
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| .- i. .
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| C0liTlilENTAL DISC CORPORATi0li . ':.!ch-
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| '' I +, .-r" ~'f ~ ~N d/ .' W..-.l
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| * Certified Chart fic. : M,yuu(r %
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| 4.: L' l '* ' ? I O1 ' '
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| Sheet C-30 I f ~l 0.11
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| FARMINGDALE, N.Y.11735 ,
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| & factory Gertificate ((
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| .h Jignin 3n Glass Chermemeter [lh;'
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| c-O Temperature Thermometer Reading Correction jjjf b n b i-j C 30*C 30.O L.0 L.y G f 19.4 a 20aC 4G.5 ,i o H o 10*C 9.3 +0.7 -
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| s.3 P nEFERENCE: NATIONAL BUREAU OF STANDARDS TEST NO. 133C67 rN.-
| |
| TESTED FOR:
| |
| h Panametrics Inc.
| |
| d This thermometer has been tested by comparison with standards certift:st by the N b National Burmu of Standards. If the correction is + the true te:nperature is higher than C
| |
| g the thermometer reading; if the correction is the true temperature is lower than the I thermomtter resding. All temperatures are based on the IPTS-03. If the ice point isine!ud- la, O ed, a subsequent change in its rc: ding will change all other re dings by the amo amount. "l 1 0 a c.
| |
| g procash s e r gm.cgne. -y o October 2, 1973 P:2 g % A'' ' -
| |
| q L t. s.. O p d R.E. Toichert ~
| |
| l b EQ 1 CCO OMii_O o~O.0TDTO 070'Q)p Cr:CUi_0 GEh 0 O_0ci?[O?O'Of0TO T 3 Q l Sheet C-35 l
| |
| I
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| | |
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| | |
| APPENDIX D G
| |
| /
| |
| $ I PRESSURIZATION SYSTEM EQUIPMENT U
| |
| ITEM NO. REQ'D. DESCRIPTION C-1 4 Air Compressor - Portable Engine Driven Screw Type, Capacity of 1200 scfm, oil free, @ 100 psi Ingersoll-Rand Model Spiro-Flow 1200 or equiva-lent.
| |
| AC-1 1 Aftercooler/ Moisture Separator - Minimum capacity MS-1 of 4800 scfm @ 100 approach to cooling water.
| |
| Design pressure 150 psig. American Standard Compact Model A-200 Aftercooler, Size 1203-8 with Model 8TW Moisture Separator and automatic drain or equivalent.
| |
| F-1 1 Compressed Air Filter - Minimum capacity of '
| |
| 4800 scfm @ 110 psig; collection efficiency of l essentially 100% of all mist particles larger than l 3 microns, and 99% of remaining mist particles )
| |
| 3 microns and smaller in size. Monsanto Chemical Brink Mist Eliminator H-E Series or equivalent.
| |
| HV- 3 Motor Operated Butterfly Valves - Minimum capacity 1,2,3 of 4800 scfm @ 100 psig, leak tight, complete with 1 remote operators and position indicators (open-(( shut). Henry Pratt Wafer Type Mark II-6" valve l with MDT-2 position motor or equivalent.
| |
| See Sheet D-2 for equipment arrangement.
| |
| l 1
| |
| AIR QUALITY i
| |
| The air quality shall be checked at the sample connection located down- ;
| |
| stream of motor operated butterfly valve P-2 (See sheet D-2) by blowing l the air into a clean, dry, white cloth.
| |
| For the air to be satisfactory no visible signs of water or oil shall be detected on the cloth. Additionally the air shall feel dry and oil free to the touch.
| |
| The air shall be checked prior to opening P-1 and periodically during pressurization phases.
| |
| 3 12/1/73 Final Report CVC _
| |
| $ 9/28/71 Added air cuality recuirements. Chansted valve notation. GVC
| |
| & 9/18/72 Issued for use. GVC p) & 10/1/71 Issued for review and comment. GVC i n .. nate navisions sr
| |
| ( ,/ [
| |
| CONTAINMENT INTEGRATED see a.- 6600
| |
| ' LEAK RATE TEST PROCEDURE "''
| |
| Startup Standard No. 60 3 surer D-1 or ?
| |
| | |
| A PPENDEX D l l AIR CCl4 PRES 50R5 AC-i
| |
| * O q L
| |
| FILTER M015TURE SEPAkAT0p gg AF TER CCC11R 6' MS1 k AC-l j I
| |
| 'c" I
| |
| ( N I I DRAlli F-I Coot tilG
| |
| "^
| |
| ( TRAP 2h y
| |
| --@QR
| |
| ', I TO TEST PANEL v
| |
| il I L _ _ _ __ __ _ ,
| |
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| |
| i HVi TE
| |
| '4
| |
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| |
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| |
| ' F' 6@
| |
| " 7 5"
| |
| ~
| |
| II C0b'TAIN!4EtiT y Ph';EWTI:n i HV-I 6 ,, H V-2 g ,
| |
| , SAMPLE TIST ' - - - I CONN.
| |
| a
| |
| ) (HV-3 r . , . - -
| |
| rQ C01111.
| |
| P6 Btow-
| |
| : F - - - - -
| |
| my, DOWN n r me P5 PER5'ON Nil.'
| |
| LOCK t
| |
| CONTAINMENT INTEGRATED s s n.. 6600 Unit 1i I "'*'""''"*~
| |
| LEAK RATE TEST PROCEDURE "" !
| |
| * Startup Standard l No , 60 l SHEET .
| |
| Of
| |
| | |
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| |
| I-1
| |
| ! g.
| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
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| |
| | |
| s APPENDIX E o CON 7'INMENT VENTILATING AND COOLING SYSTEM Portions of the containment ventilating system must be operable at containment pressures up to and including 115% of design pressure (68 psig).
| |
| With the containment at 59 (peak test pressure) psig the containment ventila-tion system mu'st provide 3 to 5 air changes per hour throughout the containment to insure that drybulb and dewpoint temperature sensors monitor a representa-tive volume of containment t.tmosphere. Additionally, adequate ventilation is required to minimize stratification.
| |
| In order to run the fans at pressures up to and including 68 psig the fan blade settings are changed from 5.2 (14 degrees) to 6.5 for the ILRT. Pressure and efs should be reduced from 6.5" W.G. total pressure and 30,000 cfm to 4.0" W.C. total pressure and 23,600 cim.
| |
| See sheet E-2 for sketch of containment ventilation system.
| |
| l l
| |
| i 3 12/1/73 Final Report GVC
| |
| & 7/20/71 Revised Fan Birie Settings GVC d 9/18/72 Issued for Use GVC 10/1/711 Issued for Reviww and Con: ment GVC o' =
| |
| CONTAINMENT INTEGRATED * * * " * - 6600 f LEAK RATE TEST PROCEDURE Startup Standard 3
| |
| 3
| |
| *i No. 60
| |
| .ws.t E-1 o, 2
| |
| | |
| APPENDZX E CONTAINMENT VENTILATION AND COOLING SYSTEM I l L
| |
| .E L ,
| |
| 446 V
| |
| J: 2 l [
| |
| s n , .
| |
| ( 4
| |
| -2 SUPPLY kIR PLE NUM _
| |
| ^ + +Il l I 11 + ^
| |
| g ,, RETURN AIR PLENUM ,,
| |
| tY i_
| |
| 4 4 I Y Y F A N- FA N - , FA N- FAN-Colt COIL '
| |
| COIL CO lL 376- -
| |
| W M % l RV l l
| |
| 357' , i K M X X M
| |
| : I
| |
| _v_ -
| |
| 335' l _),
| |
| l
| |
| '"'''" '''"* 6600 -j
| |
| - CONTAINMENT INTEGRATED I " *'*" ***'"'
| |
| i LFAK RATE TEST PROCEDURE "" I i
| |
| I Startup Standard ,
| |
| No. 60 l
| |
| -sneer E-2 o, 2 i
| |
| | |
| w,
| |
| =
| |
| Z w
| |
| 4 I
| |
| I I
| |
| l \..
| |
| | |
| A PPENDIX F
| |
| _ VALVE POSITION SCHEDULE A
| |
| V ~ -- VALVE
| |
| * l HV
| |
| -1 HV
| |
| -2 l HV
| |
| -3 P-4 P-5 P-6 P-7 PHASE l PHASE 1 Pressurization System Blow down & Preparation for Phase 2 S O O S S S S PHASE 2 Initial Pressurization to 14 psig O O S S S S S Isolate Containment from Pressurization System S S O S S S S PHASE 3 Leak Check Personnel Lock Outer Door S S O S S O S Leak Check Personnel Lock Inner Door S S O S O S S PHASE 4 Pressurize to Reduced Test Pressure - 30 psig O O S S S S S Isolate Containment from Pres surization System S S O S S S S PHASE 5 Integrated Leak Rate Test at 30 psig S S O S S S S i
| |
| Initial Verification Test S S O O S S S PHASE 6 Pressurize to 1157o Design i Pressure - 68 psig O O S S S S S uJ Stop Pressurization S S O S S S S PHASE 7 Depressurize to Peak Test Pressure - 59 psig O S O S S S S Isolate Containment from Pressurization System S S O S S S S PHASE 8 Integrated Leak Rate Test at 59 psig S S O S S S S Final Ve:-ification Test S S O S S S O PHASE 9 De pre s surization O S , O S O O S O = Open S = Shut
| |
| * Valves listed are shown on Sheets D-2 & C-4 in Appendix D and Appendix C.
| |
| l 3 12/1/73 Final Report GVC
| |
| /h 9/28/73 Changed valve notation and schedule GVC
| |
| /A 9/18/72 Issued for use GVC i th 10/1/71 Issued for review and comment GVC q) n our navisions av l CONTAINMENT INTEGRATED ' s aa 6600 Unit 1 f;; -
| |
| LEAK RATE TEST PROCEDURE Startup Standard 3 No. 60 i SHEET "1 OF _
| |
| | |
| p &
| |
| , 0
| |
| =
| |
| l Z 1 us l b i b I 4 I
| |
| t i
| |
| l l
| |
| l l l
| |
| i i
| |
| i l
| |
| l
| |
| | |
| APPENDIX G rm SCHEDULE OF RECORDED DATA
| |
| .J' Containment atmosphere conditions required to compute the integrated primary containment leak rate are recorded on Sheets G-2 and G-3 which follow.
| |
| Containment atr sphere dry bulb temperature is sensed using eighteen (18) resistance thermometers. Dry bulb temperature is recorded in F and entered into the computer.
| |
| Containment atmosphere absolute pressure is sensed using a precision pressure gage. Pressure is recorded in PSIA. The recorded value must be corrected for a tube constant. This correction is made by the computer program.
| |
| Containment atmosphere dewpoint temperature is sensed using six (6) dew cells.
| |
| The dewpoint reading is converted to water vapor pressure in PSIA by the computer program utilizing conversion table values previously inserted into the program. Water vapor pressure is then used to correct the containment atmosphere absolute pressure.
| |
| V 3 12/1/73 Final Recort GVC 1 & 4/2R/71 Revised data sheet GVC I
| |
| fil 9/18/72 Issued for use i GVC i cDA in/1/71 Is sued for review and comment GVC Me OATE Afvis10N S sy
| |
| , 3 "*'"
| |
| CONTAINMENT INTEGRATED 3 ""* 6600 Unit 1 l f LEAK RATE TEST PROCEDURE sne oss mor N.. nev l 3 b Startup Standard No. 60 3 SHEET G-1 0, 3
| |
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| |
| P 4 P 1 T
| |
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| |
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| |
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| |
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| |
| N O T 6
| |
| C 5
| |
| A T T
| |
| A D
| |
| 4 T
| |
| D E
| |
| _ D R
| |
| D 3 T
| |
| C E
| |
| R 2
| |
| T T R
| |
| \!
| |
| L
| |
| /, I I
| |
| , _ T
| |
| ,l;\
| |
| l E
| |
| M I
| |
| T E
| |
| t r
| |
| u
| |
| | |
| . m
| |
| . ,~ r \
| |
| ( 's
| |
| ~
| |
| g rn _/ ' - -
| |
| OATE y,,,, ILRT RECORDED - DATA (continued) mB NO. APPENDIX G SHEET NO.
| |
| CONTAINMENT CONTAINMENT ATMOSPHERE PRESSURE VE RIF *
| |
| * INLET AIR OUTSIDE AIR -
| |
| TIME PRESSURE - PSIA DEWPOINT RE ADING PSI F LN REL BARO-P1A P1B VP1 VP2 VP3 VP4 VP5 P2A' TEMP 4 WAllW TEW
| |
| * VP6 P28** SCF M HUMID. METER 7/
| |
| 9 1 .
| |
| l 4
| |
| i r
| |
| 4
| |
| ~ . _ .
| |
| E
| |
| * Recorded only during pressurization phases,
| |
| ** Recorded only during verification flow phases.
| |
| $HEET G-3 I
| |
| 4
| |
| | |
| A w - -, a
| |
| --+ N+
| |
| r Z
| |
| I Zus L
| |
| 4 9'
| |
| F
| |
| | |
| - ~
| |
| t Appendix H
| |
| 'f)
| |
| Q) LOCAL LEAK TESTING I. GENERAL CRITERIA The major prerequisite to the containment lategrated leak rate test is the satisfactory completion of a series of local leak tests. This involves subjecting potentialleak paths through the containment boundary,i.e. containment penetrations, to the same test conditions occuring during the integrated leak rate test. Conducting localleak tests (Type B a..d C tests) as defined in Appendix J to 10 CFR Part 50 allows discovery and elimination ofleak paths through the containment without pressurizing the entire containment structure (Type A test).
| |
| II. ACCEPTANCE CRITERIA The acceptance criteria for local leak tests is that the total leakage from all local leak tests (LL), shall not exceed 60% of La.
| |
| Ill. PENETRATIONS TESTED A. Type B Tests - Tests intended to detect local leaks and to measure leakage across each pressure-containing or leakage-limiting boundary for the following primary reactor containment penetrations:
| |
| V)
| |
| I
| |
| : 1. Containment penetrations whose .4esign incorporates resilient seals, gaskets, or sealant compounds, piping penetrations fitted with expansion bellows, and electrical penetrations fitted with flexible metal seal assemblies.
| |
| : 2. Air lock door seals, including door operating mechanism penetrations which are part of the containment pressure boundary.
| |
| B. Type C Tests - Tests intended to measure, containment isolation valve leakage rates.
| |
| The containment isolation valves included are those that: ;
| |
| : 1. Provide a direct connection between the inside and outside atmospheres of the primary containment under normal operation;
| |
| : 2. Are required to close automatically upon receipt of a containment isolation signal in response to controls intended to effect containment bolation;
| |
| : 3. Are required to operate intermittently under post-accident conditions i
| |
| D l A 12/1/73 Final Report GVC l A 9/28/73i Revised fnrmnt. nenetratinn inder. valve se hedul e CV('
| |
| A T//8/12eI Revised format GVC t
| |
| l A 10 / i / 7 / Issued for review and comment GVC No. 'DATE REVIStoNS SY 0"'*"
| |
| CONTAINMENT INTEGRATED JoS No. gggg LEAK RATE TEST PROCEDURE REV.
| |
| ARKANSAS NUCLEAR ONE 3 UNIT ONE SHEET g. ] oF 13
| |
| | |
| Appendix H O
| |
| V. LOCAL LEAK TESTING PROCEDURE AND EQUIPMENT See Sheets H-3 through H-5.
| |
| O l
| |
| f I
| |
| \
| |
| l l __
| |
| l -
| |
| REVISIONS BY l CH'K 08' GIN CONTAINMENT INTEGRATED JOB No. 6600 4 LEAK RATE TEST PROCEDURE REV.
| |
| ?
| |
| ARKANSAS NUCLEAR ONE UNIT ONE SHEET H-2 OF
| |
| | |
| i l
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| l APPENDIX H O
| |
| h I. I.0 CAL LEAK RATE TESTING PROCEDURE A. TEST EQUIPMENT w
| |
| I g __ _ _ . _ __
| |
| i l
| |
| -8h I
| |
| I Jk I PR V Vg i
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| 3 i Vg iV ;
| |
| X X X! l cA/S N I r
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| / V< 1 J g Vg V 7
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| l l 1
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| 2 $ p l
| |
| '! JL PI l :t FI \
| |
| I r id' !
| |
| ~
| |
| l 1 r ~
| |
| i EST V4 ) g% v5 V0'UME HV Ov T esT e^ "e' <eo aT^ e' s)
| |
| Ident. Description A/S Controlled Air (or nitrogen) supply - used to i pressurize test volume and holding vessel.
| |
| PR Pre.ssure Regulator HV Holding Vessel (Empty N2 bottle). No te : For test volumes equal or larger than the holding vessel the pressure decay method will yield more accurate results.
| |
| l PI gsolute Pressure Gauge See Sheet C-3 (PI-2) for description.
| |
| FI Flow Indicator Brooks Full-View Rotameter, Model 1110, or equivalent.
| |
| Overall scale rsnge: 20-2000 cc/ min.
| |
| fY
| |
| 'd Note: All instruments will be calibrated prior to use, i
| |
| Sheet H-3
| |
| | |
| APPENDIX H l
| |
| l LOCAL LEAK RATE TESTING PROCEDURE j 8I .
| |
| B. TEST PROCEDURE - AIR FLOW METHOD
| |
| )
| |
| : 1. Close valves as required to establish test volume (TV). l
| |
| : 2. Connect leak rate measurement system to test connection VI.
| |
| : 3. Attach air or nitrogen supply to valve V3. Make sure pressure is regulated (by PR) to ensure test volume is not overpressurized.
| |
| Install pressure relief valve if source of gas used for presuriza-tion could overpressurize the test volume.
| |
| : 4. Open V2, V3, V4, V5, V6, V9 and V10. Close VI and V7.
| |
| : 5. Pressurize to test pressure and check for leaks in the test panel by observing any pressure decay and using leak detection fluid.
| |
| : 6. Open VI and pressurize test volume.
| |
| : 7. Close V3 and monitor PI. If a significant pressure decay is observed and not tending to stabilize, check test volume boundry valves for leakage.
| |
| : 8. When the source of leakage has been located and eliminated, open V3 as required to repressurize to test pressure.
| |
| : 9. Shut V3 and V10. Disconnect the supply hose at V3.
| |
| f
| |
| : 10. Open V7. Then close V6.
| |
| : 11. Read PI, and FI at 15 minute intervals and record on data form.
| |
| If ambient temperature is changing record temperature periodically also.
| |
| : 12. Stop readings af ter last one called for on tha data form.
| |
| : 13. Close V2, V5 and 17. Open V6, V10 and V8 to depressurize the test volume. Open V2 to depressurize the holding vessel. Slowly open V7 to depressurize FI.
| |
| : 14. Disconnect from test volume and close VI.
| |
| 9)
| |
| Sheet H-4 w '
| |
| | |
| __ _ e -
| |
| APPENDIX H LOCAL LEAK RATE TESTING PROCEDURE (Continued) r% ;
| |
| -l d C. TEST PROCEDURE - PRESSURE DECAY METHOD
| |
| : 1. For test volumes tha't are significantly larger than the holding vessel volume (such as the test volume between the containment purge supply isolation valves), the test procedure described in paragraph I becomes' inaccurate, particularly at high leakage rates.
| |
| Therefore, the following alternate method, called the Pressure Decay Method, is recommended. Leak rate is computed as follows:
| |
| gg ,,
| |
| TV . AP P-J1P/2 ti t where LL =
| |
| local leak rate (actual cubic feet / min)
| |
| TV =
| |
| test volume (cu. f t.)
| |
| P = initial test pressure (psia)
| |
| AP = change in pressure during test intervcl (psi) ti t
| |
| =
| |
| test duration (min.) l
| |
| \
| |
| O The temperature is aesumed to remain constant during the test.
| |
| test duration should be at least one hour.
| |
| The
| |
| : 2. Follow test procedure for the. Air Flow Method with the exception that valve V6 will be left open and only pressure will be measured. Close V7. Cpen V10.
| |
| II. SAMPLE PROBLEM Given:
| |
| Valves tested - containment purge supply isolation valves TV = 100 cu. ft.
| |
| P = 50 psig = 64.7 psia
| |
| ; 46 P = 0.7 psi j P- A P/ 2 = Average test pressure = 64.35 psia at = 60 min.
| |
| tg .
| |
| TV . AP P-zip /2 ZL t 100 cu. ft. 0.7 psi 64.35 psia 60 min
| |
| = .0181 cfm f
| |
| f** cc
| |
| =
| |
| .0181 ""*in 28.32 x 103 =
| |
| j f- m cu. ft. 513 m""in Nj Sheet H-5
| |
| | |
| Startup Secndard 60 APPENDIX H Bechtel Job I l
| |
| Igcal Leak Rate Measurement Recorded Data Penetration Number: Date:
| |
| Test Boundaries:
| |
| l Test Method: Flow Meter: Press Decay:
| |
| TIME PRESS FLOW TEMP (min) (psia) cc/ min OF
| |
| : 1. Min Test Duration 1 Hour 00
| |
| : 2. Record Temp. if Changing 1 00+15 00+30 1
| |
| 00+45 '
| |
| 01+00 i 01+15 01+30 01445 02+00 9-Bechtel Test ,)
| |
| Supervisor Sheet H-6
| |
| | |
| STA TertW GTANDAHI) 68' - Al'l'l Ni>IX 11 itoch tel Job ' (,600 7
| |
| ., /m) ,
| |
| M x'A L 1.):Al; 1(ATl: MEA St ilfi. MENT DATA
| |
| | |
| ==SUMMARY==
| |
| Sill.;lfr
| |
| . ( '% )
| |
| 7 The local leukage measured for each testable penetration is summarized below.. .
| |
| Por containment isolatic i valves j n cerien, tested individually, the '
| |
| locu] leakage reported bir that penetration is equal to the measured Jocal Icakage of the isolation valve with the highest leak rat-Por conta3nment isolation valves tected simultaneously (pressur i::i ng
| |
| - hetween valven), the local leakage re}>orted f or that penetration is equal to the total local leakage measured.
| |
| I'or containment jnolation valves tested individually that are in parallc), the 3ccal 1cakage reportcd for that penetration is the cum of the indisidually measured local leakage.
| |
| Leak Rate I Leak Rate J.cak Rate T*cnet. cc/ min Penet. cc/ min Penet, cc/ min 1 N/A 13 3 25 0.5 2 N/A 14 78.5 26 N/A f~%
| |
| 's-) 3 N/A .
| |
| 15 8 27 460 L. . -
| |
| 4 l N/A ") 6 24 28 N/A 5 36 17 N/A 29 N/A 6 N/a 18 N/A 30 N/A 7A 7 19 159 31 4.5 70 0 20 N/A 32 13 8 12 21 N/A 33 0 9 0 22 N/A- 34 14 10 Ju 23 166 3 .'. N/A 11 G2 24A 0 36 n/A J2 0 .
| |
| 241: 10.5 37 gjg
| |
| [h 4 4
| |
| \,_,/
| |
| Amendment 5/74
| |
| .----+.,----.-,.-.,.,v.-n-.n..-n-nn_,,....................,.,a-n--,an.,, ...-~,.n,,,,.r.,
| |
| Si!EET 11-7
| |
| | |
| .- - _ - ~ _ .
| |
| STAllTUP STANDAR' ' '0 , APPL?ND.1X 11 Bucht.c) Job 6600 .
| |
| ( m.y
| |
| [(w/ / .
| |
| I.OCAL 1.EAK itATE MEAS _IIREtiENT DATA S11MMARY SilECT (Con't)
| |
| " ~'
| |
| Leisk l<a t c- f#5i''k Rate Leak 7 Tte'
| |
| ~
| |
| P e nc l. . cc/ min Penct. cc/ min T' erie t , cc/rnin 38 N/A 53b 0 69 56 39 32 54 182 70 5 40 28 $$ N/A V-1 0
| |
| : 4) 21 56 N/A V-2 0 42 0 57' N/A C-1 24.5 43 1 58 N/A C-2 ?.7. 5 44 59 38 C-3 10 H/A -
| |
| 45 N/A 60 5 c_4 37 v .
| |
| 46 5 61 N/A 47 2 62 0 48- 8 63 N/A 49 0 64 N/A 50 N/A 65 N/A I
| |
| 51 57 ! 66 -
| |
| 940 s
| |
| l 52 85 i 67 618
| |
| ; i . j ... _
| |
| 53A 6.5 68 33
| |
| [ .. _ _ _ . _ .=
| |
| l H/A - These valves are not required to be Le.sted locally.
| |
| ; NJ
| |
| [ - - Elect r:ieal penetrations were tceted per Appendix H arid were f ound to be l Ica:k tight .
| |
| l Amendment 5/74' SHUET H~ 8
| |
| | |
| APPEKD.IX H
| |
| /~'T (y PENETRATION INDEX PEN.
| |
| No. SYSTEM SHEET B-1.2 Main Steam 7 3,4 Feedwater 7 5 Rx Bldg Spray 20 6 Spare 7A,B Sampling 21 8 H.P. Injection 16 9 Seal Water Return 16 10 Sampling 21 11 Rad. Waste 10 12 Core Flooding 20 13 Primary Makeup 16 14 Rx Coolant Letdown i' 15 H.P. Injection 16 16 Seal Water Injection 16 17 Emerg. Feedwater 7 18 Spare 19 Epent Fuel Cooling 19 20 Spare 21,22 Service Water 8 23 Rx. Bldg Spray 20 24A,B H2 Purge Air System "A" 1O- 25 Air Particulate Monitoring System 22 22 26 Low Pressure Injection 17 27 Decay Heat Removal 17 28 Spare 29 Spare 30 Spare 31,32 Core Flooding 20 33 Pressurizer Spray Line 17 34 H.P. Injection 16 35 Spare 36 Low Pressure Injection 17 37 Spare
| |
| [ 38 Spare 39 Quench Tk. Fill 15 40 Fire Water 12 41 Nitrogen Supply 12, 42 Heating 13 43 Service Air /ILRT Test Connection 11 44 Spare 45 Spare 46 Inst. Air /ILRT Test Connection 11 47 CRD Cooling (ICW) 18 48 Heating 13 4 49 ILRT Pressurization '
| |
| 50 Spare g
| |
| S 51 Chilled Water 14 N_ 52 RCP Cooling (ICW) 18 53A, B H2 Purge Air System "B" 22 54 Intermed. Cooling 18 I s
| |
| SHEET H-9
| |
| | |
| Penetration Index (Continued)
| |
| PEN.
| |
| NO. SYSTEM O'
| |
| SHEET B-55 Service Water 8 56 Spare 57 Spare 58 SG Blowdown
| |
| .59 Chilled Water 14 60 Intermed. Cooling 1~8 61 Spare 62 Interned. Cooling 18 63 Service Water 64 8 SG Blowdown 7 65 Emerg. Feedwater 7
| |
| 66,67 RB Sump Recirc.
| |
| 68 17 RB Sump Drain 69 9 RCS Drain 9 70 Quench Tk Drain 15 V-1 Purge Line Inlet 22 V-2 Purge Line Outlet 22 C-1 C-2 Equipment Hatch Escape Lock O,
| |
| C-3 Fuel Tansfer Tube C-4 19 Personnel Lock C-5,6 Dome Vent Pipe Electrical Pen.
| |
| El E3-E14 E21 E23-E29 E33-E36 E50-E55 E57-E63 E66, E67 Electrical Spares -(Capped)
| |
| E2 E22 E30-E32 E41-E45 E56 E64. E65 E68-E74 .,
| |
| i SHEET H-10
| |
| | |
| APPENDIX H TYPE A TESTS Pan. No.
| |
| 1 38 2 44 Electrical Spares (Capped) 3 45 4 50 E2 i
| |
| 6 10 55 E22 17 56 E30-E32 18 57 E41-E45 l 20 58 E56 21 61 E64, E65 22- 63 E68-E74 64 Dome Vents (Capped) 26 65 C-5,6 28 29 30 33 l 35
| |
| ; 36
| |
| ! 37 l
| |
| O TYPE B TESTS Pen. No. System Remarks C-1 Equipment Hatch Test between double 0-Ring C-2 Escape Lock Test between double 0-Ring on each door
| |
| , C-3 Fuel Transfer. Tube Test between double 0-Ring on blank l
| |
| C-4 Personnel Ldck Same as for C-2 El. Electrical Cannisters Pressurize Cannisters E3-E14 Electrical Cannisters Pressurize Cannisters E21 Electrical Cannisters Pressurize Cannisters E23-E29 Electrical Cannisters Pressurize Cannisters E33-E36 Electrical Cannisters Pressurize Cannisters E50-E55 Electrical Cannisters Pressurize Cannisters E57-E63 Electrical Cannisters Pressurize Cannisters E66, E67 Electrical Cannisters Pressurize Cannisters SHEET H-11
| |
| | |
| TYPE C TESTS PEN NO. SYSTEM BOUNDARY VALVES 5 Rx Bldg Spray CV-2401 and BS-1A, 2A 7A Sampling CV-1814, 1816, and CV-1818 1 7B Sampling CV-1054 and CV-1845, SS-1007 {
| |
| 8 H.P. Injection MU-45A and MU-34A 8 H.P. Injection MU-45A cnd CV-1228 9 Seal Water Return CV-1270, 1271, 1272, 1273 and CV-1274 11 Rad. Waste CV-4803 and CV-4804 12 Core Flooding CV-2416, 2418 and CV-2422 13 Primary Makeup MU-45C and MU-34C 13 Primary Makeup MU-34C and CV-1219 14 Rx. Coolant Letdown CV-1214, 1216 and CV-1221 15 H.P. Injection MU-45B and MU-34B 15 H.P. Injection MU-45B and CV-1227 16 Seal Water Injection MU-28A, 28B, 28C, 28D and CV-1206 16 Seal Water Injection MU-28A and MU-29A 16 Seal Water Injection MU-28B and MU-29B 16 Seal Water Injection MU-28C and MU-29C 16 Seal Water Injection MU-28D and MU-29D 19 Spent Fuel Cooling SF-43, 44 and SF-42 23 Rx. Bldg Spray CV-2400 and BS-1B, 2B 27 Decay Heat Removal CV-1404 and CV-1410, PSV-1403 )
| |
| 31 Core Flooding MU-44A and MU-36A 31 Core Flooding MU-44A and MU-35A, N2-4 32 Core Flooding MU-44B and MU-36B 32 Core Flooding MU-44B and MU-35B, N2-6 34 H.P. Injection MU-45D and MU-34D 34 H.P. Injection MU-34D and CV-1220, CV-1234 39 Quench Tk. Fill CS-62, 27 and CS-26 39 Quench Tk. Fill CS-62, 27 and CV-1065 40 Fire Water CV-5611 and CV-5612 41 Nitrogen Supply N2 -43, 35, PCV-1051 and N2-32 41 Nitrogen Supply N2 -43, 35, PCV-1051 and CV-1667 42 Heating PH-19 and PH-20 43 Service Air Cap and, SA-6, SA-26, SA-45 46 Inst. Air Cap and IA-15 IA-37, IA-52 48 Heating PH-17 and PH-18 49 Containment Test Conn.
| |
| 51 Chilled Water CV-6202 And CV-6205 AC-60 and CV-6205 59 Chilled Water CV-6203 and CV-6205 68 RB Sump Drain CV-4446 and CV-4400 69 RC Drain RBD & RBD 9A, 9B, 8C, 9D, 7A; HV-152, HV-141; RBD 7B, 4, 2B 70 Quench Tk Drain CV-1052 and CV-1053 I
| |
| SHItI H-12 l
| |
| - - . . - . .. - ~. -
| |
| __m u
| |
| | |
| APPENDIX H Type C Tests (Continued)
| |
| PEN NO. SYSTEM BOUNDARY VALVES 24A Hydrogen Purge CV-7445 and CV-7446 24B Hydrogen Purge CV-7449 and CV-7450 25 Air Part. Monitor CV-7453 and CV-7454 53A Hydrogen Purge CV-7443 and CV-7444 53B Hydrogen Purge CV-7447 and CV-7448 47 Intarmed. Cooling Water ICW-160 and ICW-30 47 Intermed. Cooling Water ICW-160 and CV-2235 52 Intermed. Cooling Water ICW-160, HS-221 and ICW-26 52 Intermed. Cooling Water ICW-160, HS-2221 and CV-2234
| |
| ~ 54 Intermed. Cooling Water CV-2216, CV-2217, ICW-143 & ICW-114
| |
| ; I4 Intermed. Cooling Water CV-2216, CV-2217. ICW-143 & CV-2233 60 Intermed. Cooling Water HS-2220 and HS-2221 62 Intermed. Cooling Water CV-2214 and CV-2215 66 Rx Building Sump HS-1415 and HS-1406 67 Rx Building Sump HS-1414 and HS-1405 V-1 Purge Inlet CV-7402 and CV-7404 V-2 Purge Outlet CV-7401 and CV-7403 I
| |
| O SHEET H-13
| |
| : x. A - A ..--2 a a a.w.- .- y e e he e % w-'
| |
| I
| |
| !O l
| |
| l i
| |
| l I
| |
| (
| |
| I l
| |
| l i
| |
| l 1
| |
| O l
| |
| l t
| |
| , O
| |
| .. . _ - - - , ., ,,--, , ,.. .- .,,,- ,--- , ., ,. ,-, -- - . . - -. - , - . -,,e--.., , - ....- - . , _
| |
| | |
| .,S - a 1. .
| |
| % 4Wm%+ewh .e SECTION C i
| |
| l ARKANSAS NUCLEAR ONE f
| |
| CONTAINMENT INTEGRATED LEAK RATE TEST C. COMPUTER PROGRAM Section C contains explanation of the computer program used.
| |
| Section C.1 Introduction I
| |
| , Section C.2 Explanation of Program Section C.3 Program Utilization e
| |
| 4 0 .
| |
| I
| |
| | |
| "~ ~ ' ~ ' ~ ' ~ _ _ _ _ _ _ _
| |
| t I
| |
| i l
| |
| d@
| |
| i I
| |
| 1 i
| |
| i i
| |
| i i
| |
| i l
| |
| l I
| |
| ]
| |
| t C.1
| |
| | |
| -~? - . , . .
| |
| i O
| |
| secntei eowercorporation C. COMPUTER PROGRAM
| |
| -C.1 INTRODUCTION The Containment Integrated Leak Rate Program calculates the leak rate for a nuclear reactor containment vessel. The program computes the leak rate at a given time from input values of pressure, temperature, and dewpoint temperature (water vapor pressure).
| |
| The Containment Integrated Leak Rate Program is designed to allow the user to evaluate containment leak rate test results at the job-site during containment leak rate testing. Interim leak rate test reports may be obtained at any time during the testing period. Each interim report can provide three printouts. The first printout, called the Total-Time Method, uses the initial and latest input data to compute leak rate. Each computed' leak. rate is statistically averaged using a linear least-squares fit. Early in the test this method of computa-tion gives the best indication as to whether or not the leak rate test is proceeding satisfactorily.
| |
| ( )
| |
| A second printout, called the Point-to-Point Method, is also provided.
| |
| i The Point-to-Point Method uses the data at a given hour and the data-from the previous reading to compute leak rate. Each individually computed leak rate is then statistically averaged using a linear least-squares fit. The Point-to-Point Method of computation.is provided since it gives rapid indication of deviations in the calcu-lated leak rate late in the testing period.
| |
| . The test results provided by the two methods indicate that either method is satisfactory for computing containment integrated leak rates. Both methods of computing the containment leak rate are 4 presented in ANSI N45.4-1972,~" Leakage-Rate Testing of' Containment Structures for Nuclear Reactors." However, the Total-Time Method provides the best results for short duration tests and is recommended by Appendix J to 10 CFR 50.54 (o), " Reactor Containment Leakage Testing for Water Cooled Power Reactors," and is used, therefore, to report the containment leak rate.
| |
| \
| |
| l The third printout is'the Trend Report. This report is based on total-time calculations and gives a more' concise and timely description of test results. .In this printout the leak rate is reported as a function of test duration.
| |
| O e
| |
| ~
| |
| C-1. ,
| |
| | |
| w W4 h
| |
| l l
| |
| l l
| |
| l l
| |
| i l
| |
| l C. 2
| |
| | |
| Bechtel PowerCorporation
| |
| :C.2 EXPLANATION OF PROGRAM '
| |
| The Containment Integrated Leak Rate Test Computer Program computes containment leak rate using the Absolute Method given in ANSI N45.4-1972 " Leakage-Rate Testing of Containment Structures for Nuclear Reactors."
| |
| At the start of the program the basic data is entered which consists of:
| |
| : 1. ' Test-title.
| |
| : 2. Number of containment temperature points, vapor pressure points,
| |
| , and absolute pressure points to be entered.
| |
| : 3. Absolute pressure sensor tube constant.
| |
| : 4. Volume fractions assigned to each temperature and vapor pressure sensor. ,
| |
| [ The recorded data, which is used to compute the leak rate, is then l entered. Recorded data consists of:
| |
| i
| |
| ! 1. Containment atmosphere dry bulb temperature.
| |
| O 2. Containment atmosphere absolute pressure.
| |
| : 3. Containment atmosphere dewpoint temperature.
| |
| Temperature, pressure, and vapor pressure values are entered as read at the test panel. If a temperature or vapor pressure sensor becomes inoperable during the course of the test, the sensor is eliminated and volume fractions recomputed. The new volume fractions are then entered in the computer program for the leak rate computations. After all data for a given time step is entered, a print-out summary of the measured data is provided. In~the Summary of Measured Data, each temperature entry is printed out in F and er.ch pressure and vapor pressure
| |
| * entry is printed out in PSIA. At this point the user is given an opportunity to check the data and correct any errors.
| |
| i The dewpoint temperature is converted to water vapor pressure and is printed out in PSIA.
| |
| C-2
| |
| | |
| Bechtel PowerCorporation Following any corrections, if required, a Corrected Data Summary is printed out. This summary consists of the date, time, one average containment temperature (corrected for volume fractions) and one average containment air pressure (corrected for vapor pressure and volume fractions). These corrected values of temperature and pressure are the values used in the containment leak rate computt '. o n s .
| |
| Basically the leak rate is computed as follows:
| |
| PyV = W yRT y (1)
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| P3V = W 2RT 2 (2)
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| % leakage 24 (Wy-W2 )
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| 24 hours t W x 00 (3) 1 Solving for Wy and W and substituting equations (1) and (2) into 2
| |
| (3) yields:
| |
| L = 2400 gy _ p) 21 2_
| |
| (4) where: s W,y W2 = weight of contained air at time t y and t 2 respectively.Ol' T,1 T2 = absolute temperature of containment volume at time t y and t respectively.
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| 2 P,y P2 = absc.ute containment air pressure (corrected for water \
| |
| vapor pressure) at time ty and t respectively. l 2
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| t =t -t y in hours.
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| 2 1
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| L = leak rate (%/ day) 1 l
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| l V
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| = containment internal free air volume (assumed constant) . !
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| R = gas constant (assumed constant) .
| |
| Linear least-square fittings is used to establish the value of leak rate at 24 hours. The leak rate as a linear function of time is:
| |
| L = a + bt O'
| |
| C-3
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| | |
| 4 Bechtel PowerCorporation O where:
| |
| a=1 2Lg2tg 1
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| -2i tg 2i tL gg N 2t g -
| |
| (2ty) i b=
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| N1Li g tg -2i L g2tg i
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| N i2t g -
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| ( i2t) g Lg = calculated leak rate from equation (4) above at nime tg.
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| N = number of leak rate calculations.
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| O t
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| 1 C-4 i
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| | |
| J 4 -
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| i <
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| l-
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| : l. .
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| p.
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| - 1 43 p
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| [- ,
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| c , -.
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| A i
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| g.
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| i 9
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| 6 1 i l- I l,
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| -l O ,
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| p i
| |
| e
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| 'l
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| ~.
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| i' l I
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| .- , i b- I I
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| I- ;.4 : ,
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| ,i {~t .
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| p v.
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| ''f' g 4 v*
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| i-
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| \ 6 h- f
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| -._we_- .. w_ -- -. - -
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| | |
| Bechtel PowerCorporation
| |
| ~'\
| |
| (V C.3 DEMONSTRATION OF' PROGRAM To. enter-the Bechtel (Pacific International Computing Corporation) time share system, dial the current telephone number and place the telephone receiver in the acoustical coupler on the data terminal.
| |
| Enter the user ID and password as requested and continue sign on 1
| |
| procedure as illustrated on page 3-9. The return key on the terminal
| |
| ! is hit after data entry and can be used as a "NO" answer. When J
| |
| entering the time use military time, i.e., 1345 for 1:45 p.m. The date is entered in four digits; the first two are the month, the last two the day. For example, 0704 is July 4th. For additional information, such as error corrections, consult the users manual for the system being used.
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| The general flow of user's decisions is shown in the flow chart in Figure 1, page 3-8.
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| Initially, the basic data is supplied to the system. This basic data includes title information, number of temperature points, number of pressure points, pressure constant, number of vapor pressure points and volume fractions assaciated with each temperature and vapor pressure point. (See page 3-9).
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| After entering the basic data, new values of drybulb temperature, g absolute pressure and dewpoint temperature for each data set are entered. The Temperature and Pressure Corrected Data Summary is then computed for each data set (page 3 '1) and this information is
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| ! stored on a file. Therefore, when restarting the program it is l possible to enter averaged values of temperature and pressure from previous runs from a stored file. (See page 3-10) . After entry of data the user may select one of seven options:
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| 4 Option Command Function DATA Enables operator to enter additional uncorrected data ,
| |
| for new times not previously entered. When the system i L requerts values of time, temperature, pressure, and vapor pressure, the user enters data as directed by {
| |
| , the program. .After completing the data entry, a summary l in. printed out for the user's verification of data l correctness. If there are errors detected by the user, i the user will be given the opportunity to correct the- l 1 errcrs. After the user certifies that the data as entered l is correct, a corrected summary report of time, average temperature, and average pressure is printed. This is the
| |
| ( data to be used in subsequent runs if the option to enter previous data is selected. (See pages 3-10 and 3-11).
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| l l
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| 0 G
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| 1 C-5 l
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| - - - _ - - . _ . . - - . - N
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| | |
| Bechtel PowerCorporation Option Command Function TREND Terminal will print out a Trend Report. (Page 3-12).
| |
| TOTAL Terminal will print out a Total-Time Report. (Page 3-13).
| |
| POINT Terminal will print out a Point-to-Point Report.
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| (Page 3 -14) .
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| TERM Enables operator to sign off temporarily or permanently.
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| (Page 3-14).
| |
| UFDATE Enables operator to store the Temperature and Pressure Corrected Data Swnmary on the Previous file thereby updating the Previ as file automatically.
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| TIME Enables operator to eliminate old data from the program by selecting a later start time.
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| O-1
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| )
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| C-6 l
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| | |
| Bechtel PowerCorporation
| |
| .[ EXAMPLE Page 3-9 through 3-14 are examples of program utilization for computing containment leak rate. The sign-on, sign-off, and various command options are indicated. It is not feasible to demonstrate all possible combinations of the user's input requests.
| |
| Additionally, the initial sign-on procedure changes periodically.
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| Consult Bechtel personnel for any information required.
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| To facilitate program restarts, previous summary data can be put on tape or stored on a separate file. When previous data is called for in the program, data can be entered either from a tape or from the file thereby saving considerable time.
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| v 1
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| i i.
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| ! C-7
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| | |
| Bechtel PowerCorporation
| |
| ( SIGN ON )
| |
| 1P
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| \ ENTER DATA / BASIC /
| |
| NO / ENTER PREVIOUS \
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| gVALUESFROMFILE?/
| |
| YES (OPTIONS?b SUhPRESS\ NO
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| [\ PRINTOUT 73 DATA YES LISTED TER NEXT SE OF DATA ( m J J 3
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| STORES CORRECTED YES UPDATE ERROR?) _
| |
| | |
| ==SUMMARY==
| |
| DATA IN y PREVIOUS FILE I ENT b (CORRECTION TREND v
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| TREND REPORT .
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| j
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| | |
| ==SUMMARY==
| |
| OF MEASURED DATA '
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| TOTAL TIME TOTAT. REPORT _ )
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| '( YES (E OR?) n I
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| NO POINT POINT -
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| CORRECTED '
| |
| | |
| ==SUMMARY==
| |
| DATA ORT PRINTOUT a ENTER NEW TIME START TIME z )
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| * TERM ISIGNOFF) m /
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| CONTAINMENT INTEGRATED LEAK RAT'i TEST PROCEDURE COMPUTER PROGRAM LOGIC DIAGRAM Fig r 1
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| | |
| Bechtel PowerCorporation D
| |
| d VIEP ID-PAI2WCPD--
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| BBBBBBBBBBBB sVITEM1 DLD GP NEW-PEADY
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| + PUN ENTER TITL2 0F LESS THAN 40 CHAPACTERS
| |
| =ARKANSAI NUCLEAR DNE PFDGFAM IAMPLE ENTEP MAX ALLOWAELE LEAK RATE
| |
| =.206
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| ; EriTEP PFEIIUFE CarlITANT
| |
| =1 ENTEP fiO. GF TEMPEFATURE FDIriTI
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| =17 EtiTEP NO. OF PPE!5UPE POINTE
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| =1 ENTEP NO. OF VAPOP PREIIUFE POItiTI
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| =5 ErlTEP VOL.. DECIMAL ASIOCI ATED WITH EACH TEMPERATURE l
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| VOL. FRAC. TEMP 1
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| =.04 ETC.
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| VOL. FFAC. TEMP 17
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| .=.08 ENTER VOL. DECIMAL RI20CIATED WITH VAPOR PRESSURES VOL. FRAC. VAFCR PRE 3 1
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| =.2 ETC.
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| VOL. FPAC. VAPOP PPE! 5
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| =.15
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| \
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| C-9 i
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| --. - ,e ,-r , , - - - , , - .-- - rm-.- 7. n .. ,-, r ,.- 7,-
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| | |
| Bechtel PowerCorporation
| |
| =
| |
| ENTEF F F EV IC'.: . VALLE! r'FCP FILE 7 YE2 IUFPPEII FPIt,TC'.. T ;
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| = fiO 1i45 1110 ~4.572020 44.4e7530 170fi 1110 74.4 Sis?9 44.467111 1715 1110 74.442?50 44.49725:
| |
| 1730 1110 74.4;1519 44.ased54 1745 111C 74.461. 4; 44.4si J5 1E00 1110 74.46170F 44.435140 1515 1110 74.478750 44.464791 1E10 1110 74.4e?749 44.435123 1845 1110 74. 4e 731:1 44.44}.357 1900 1110 74.4*4-51 42.4f45'33 1915 1110 74.4:1114; 44.46?.2%i 1930 1110 74.4?67 6 4 4 . 4 6. .56 r.
| |
| 1945 1110 74.4674i; 44.46143-2000 1110 74.450j2r 44.453334 1015 1110 74.4.tr5pc 4 4 , 4 4 ,;. ;,2 4 203/' 1110 74.515190 44.440420 2045 1110 74.4 ~ 76 5.9 44.454917 2100 1110 74.50}54. 44.4=L;25 OPTICri:
| |
| = DATA EriTEP TIME.iA TE
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| = 2115 1110 l Ef4TEP 17 TENF. F6AD. IN DEGCEEI F.
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| EriTEP 1-5
| |
| =
| |
| 74.49 EriTER 74.49 9-17 74.49 74.50 74.50 74.49 74.49 74.sn
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| =
| |
| 74.50 74.49 74.4? 74.49 74.49 74.49 74.49 74.49 74.49 ENTEP 1 FFE !.. I:4 Di!A
| |
| = 44.845 ENTEP 5 VACOF FEE:I' CE( I '-
| |
| =
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| 6.1 6.29 4.92 6.4 6.4 CHAR 4GE Ar.y 7,cTA:
| |
| = NO C-10
| |
| | |
| Bechtel PowerCorporation s
| |
| i i
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| SUMMAFY CF MEASUFED' DATA AT TIME 2115 1110 TEMP 1 = 74.499 TENF 2= 74.490 TEMP 3= 74.490 TEMP 4 = 74.500 TEMF 5= 74.500 TEMP 6= 74.490 TEMF 7= 74.490 TEMP S= 74.500 TEMP 9= 74.500 TEMP 10 = 74.490 TEMP' 11 = 74.490
| |
| ; TEMP 12 = 74.490 i
| |
| TEMP 13 = 74.490 TEMP 14 = 74.490 TEMP 15 = 74.490 i TENF 16 = 74.490 TEMP 17 = 74.490 PPEI 1 = 44.845 44.345 Pila TEMP INFUT VPP! 1 = 0.330 71.375 6.100 VPPE 2= 0.389 72.006 6.290 VPPS 3= 0.390 72.114 4.920 YPPI 4= 0.392 72.223 6.400 VPFS 5= 0.3?? 71.554 6.400 CHANGE ANY DATA 7
| |
| = NC TEMP. AND PPE55. CCFFECTED DATA I s..MM AF T l
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| TIME = 2115 t
| |
| DATE = 1110
| |
| ; TEMP = 74.492056 PRE! = 44.45G4.7 l
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| : j. C-11
| |
| | |
| Bechtel PowerCorporation OFTIGN!
| |
| O
| |
| = TFENL APk AN C A1 te.'C L E Ai- ChE FFDW Am IAMFLE TIME, LATE ITAET C TEIT 1645 1110 tit 1E AFTEF ITAGT GF TEIT - 4.50 HF TFENL3 FA1E. Oh TOTAL-TIME CALCULATICr42 HOUF3 LATA MEAh GC CALCULATEL CHG IN C ALC LC DF TEIT EriTPIE7 MERI LF LEAt G' ATE FROM LAIT FCINT 0.75 4 0.649E+00 0.464E+00
| |
| : 1. 0 :' 5 0.e11E+00 1.25 0.431E+00 -0.322E-01 6 0.577E+00 0.335E+00 1.50 7 -0.437E-01 )
| |
| 0.5".2E+00 0. 3e 4E+ 0 0 -0.233E 01 1.75 8 0.519E+00 0.303E+00 2.00 -0.613i- 1 9 0.494E+06 9.270E+00 - 0. 3 36E- 01 2.25 10 0.475E+00 2.50 v.249E+0ri -0.202E-01 11 0.457E+00 0.22?E+00 2.75 12 -0.215E-01 0.44:E+0b 0.217E+00 -0.114E-01 3.00 13 3.25 0 . J 2 9E + f. 0 0.201E+00 -0. M0E-01 14 0.415E+00 0.15-E+00 3.50 15
| |
| -0.144E-01 0.403E+00 0.173E+00 - 0 .13 r<E- 01 3.75 16 r. 395E+00 c.172E+00 4.00 17 -0.144E-02 0.3b5E+00 0.162E+00 -0.967E-OlJ 4.25 1? 0.377E+00 0.155E+00 4.50 19 -0.633E-Oi
| |
| : 0. 3 6 9E+ 0 '.- 0.149E+00 -0.621E-02 THE CALCULATED LEh FATE II v.149E+00 THE MA<1MJM cLLC' .'I.L E L E At FATE II 0.206E>00 THE LA T 15 { AM FCinTI 25 TAFL15 H A NEGATIVE SLDPE O'
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| C-12 e
| |
| | |
| Bechtel PowerCorporation I
| |
| Ls')
| |
| CFTIONI 7
| |
| = TOTAL APNAh!Ai NUCLEAF CtE cFCG M F IAMFLE TIME. DATE ITAFT CF TEST 1645 1110 TIME ACTEF iTAET.CF TEIT = 4.50 HP LEAK FATE EAIED Ch TOTAL-TIraE CALCULATIONI TIME TEMP. FFE!!U;E MEA!UFEL CALCULATED 95% CCNFIDENCE (F;
| |
| . i P E I A '. LEAL FATE LEAK CATE LIMITI
| |
| /m
| |
| ( 1700 74.41 44.467 0.213E+00 0.55ri E+ 0 0 0.35E+00 0.79E+00
| |
| ( 1715 1730 74.44 74.47 44.467 44.467 0.e94E+00 0.441E+00 0.5 die +00 0.5 ?d E + 0 0 0.36E+00 0.34E+00 0.?7E+00 0.74E+00 1745 74.46 44.466 0.497E+00 0.511E+00 0 . 3 *, E + 0 0 0.71E+00 1506 74.46 44.465 0.4395+00 0.48!E+00 0.29E+00 0 .6:i E + 0 0 1815 74.46 44.465 0.429E+00 U.459E+00 0.26E+00 0.65E+00 15.50 74.46 44.465 0.319E+00 0.435E+00 0.24E+00 0.63E+00 1845 74.47 44.464 0.223E+00 0.407E+00 0.21E+06 0.6 0E + 0 0 1900 74.4? 44.4i5 0.322E+00 U.392E+00 0.19E+00 0.57E+00 1915 74.48 44.463 0.294E+00 0.35:E+00 0.16E+00 0.55E+00 1930 74.50 44.461 0.501E+60 0.310E+00 0.14E+00 0.52E+00 1945 74.49 44.462 0.271E+0~ 0.?04E+00 0.11E+00 0.50E+00 2000 74.45 44.461 0 .257E + 0 t- 0.27?E+00 0.93E-01 0.4TE+00 2015 74.43 44.461 0.246E+00 0.252E+06 0.56E-01 0.45E+00 2030 74.52 44.4s0 0.27GE+00 0.227E+00 0.2SE-01 0.4dE+00 204?. 74.49 44.490 0.236E+60 0.201E+00 0.43E-03 0.40E+00 2100 74.50 44'460
| |
| . 0.241E+00 0.175E+00 -0.25E-01 0.3iE+0V 2115 74.4? 44.45E 0.23}E+06 0.149E+06 -0.57E-01 0.35E+00 IF IT II AITUMED ThAT THE LEAK- FATE II CON! TANT:
| |
| THE MEAN II 0.369E+00 THE ITANDAFD DEVIATICS I! 0.162E+UU .
| |
| ' /N THE CALCULATED LEAK' FATE AcTEF 4.50 HerJF5 CF TEST I5 0.14?E+00 t
| |
| \_/)
| |
| C-13
| |
| | |
| Bechtel PowerCorporation O'
| |
| OCTIONi 7
| |
| = FOINT APF ANI AI NU''LE6E ChE CPC6 CGM IAMFLE TIME. DATE ITACT DF TEIT 1645 1110 TIME AFTEF 2TAET CF TEIT = 4.50 HC LEAt RA TE PAIEF Gr. FCINT-TO 'OINT C ALCUL ATICl*I TIME TEMo. PFEIIUCE MEAIUFEI C AL C '.". A TE D 95*. CONFILENGE
| |
| ( F 'i ( P I I A '. LEAL EATE LEAF F A TE LIMITI 1700 74.41 44.467 0.512E+00 1715 74.44 v . a i2E + 0 r. -0.34E+60 0.12E+0' 44.4f? 6.576E+06 0.199E+00 -0.55E+00 0.11E+0 .)
| |
| 1730 74.45 44.4s7 - 0. t.52E - C 1 1745 U.377E+00 -0.56E+00 0.11E+01 74.46 44.466 0.6.5E+00 0.}55E+00
| |
| !?O6 74.46 -0.?5E+00 0.11E+01 1515 44.465 0.iO4E+00 U.5 iE+0C -0.3?E+00 0.11E+61 74.45 44.465 0. 3 52 E+ M-19?' 74.46 0.: 10E+00 -0.41E+n6 0.16E+01 44.465 -0.54EE+00 0.22iE+00 1945 74.47 4 4 . 4 e. 4
| |
| -0.45E+00 0.10E+01 1900 0 . 35 3 E + t' 0 0.166E+00 -0.45E+0C 0.996+00 74.49 44.495 0.512E+0e u.i44E+0n 1915 74.49 44.46:- -0.47E+00 0.9sE+n0 0.425E-01 0.12iE+0c -0.49E+00 0.c;E+ne 1910 74.50 44.4i1 0.575E+0e 1345 74.45 0.199E+00 -0.51E+00 0.91E+00 44.4:2 -0.652E-Ut 0.177E+00 -0.54E+00 0.49F+00 2000 74.4? 44.461 6.100E+09 n.155E+00 -0.57E+r.0 0 . 9 3E + fJ.
| |
| 20!? 74.4? 44.4: 1 0.955E-01 0.153E+00 2036 74.52 44.46f- -0.5%E+0( 0 . 5 e.E + 0'O 0.711E+60 U.110E+00 -0.62E.Gr 0.94;+pe 2045 74.49 44.4: 0 11.00 74.5C
| |
| - 0 . 3 9 1 E + 6 t- e . i?iE- 01 -0.65E+60 6 . i:1.E + r 0 44.4f0 0. 310E + .1, v . : (E- 01 -0.65E+06 2115 v.ifE+0c 74.49 44.45i 0.921E-t1 U . 4 5?E- 01 -0.72E+rt 0.9 1+06 IF IT II AIIUMED THAT THE LEA
| |
| * FATE II CONIT ANT :
| |
| THE MEAr. II 0.213E+ c e, THE ETANLAPL LEVIATICS II :6. ? ? ?d + b u THE CALCULATED LEAP EATE 4FTEF 4.50 HCUFI OF TEET II 0.45SE-01 O ''
| |
| C-14
| |
| | |
| aw..,,-_.m ,a-%,_e .n, _ + - ---rA u,--- - - ------ - -- . . . - -. - --- _ - -- - - - - - - - - - - -
| |
| .m - wwe . &'9 J l I l i
| |
| +
| |
| \
| |
| l I
| |
| I i
| |
| I i
| |
| l i
| |
| i l
| |
| l l
| |
| l l
| |
| I l
| |
| l l
| |
| l l
| |
| i 1
| |
| I I,
| |
| l 1
| |
| I a
| |
| I i
| |
| 1 1
| |
| i l
| |
| I I
| |
| I
| |
| | |
| SECTION D V[~'N ARKANSAS NUCLEAR ONE CONTAINMENT INTEGRATED LEAK RATE TEST D. FINAL TEST REPORTS,
| |
| | |
| ==SUMMARY==
| |
| DATA AND CURVES Section D contains the computer print-outs of the ILRT and Verification Test Summary Data and Reports.
| |
| Section D.1 30 psig ILRT, Final Test Report and Curves Figure D.1 Trend of Calculated Leak Rate versus Time for 30 psig ILRT Section D.2 30 psig ILRT Summary Data
| |
| ! Section D.3 30 psig ILRT Verification Report and i
| |
| Summary Data Section D.4 59 psig ILRT Final Test Report and Curves Figure D.4 Trend of Calculated Leak Rate versus Time for 59 psig ILRT Section D.5 59 psig ILRT Summary Data Section D.6 59 psig ILRT Verification Report and Summary Data i
| |
| l-l O
| |
| , , - - - , , w- e em - e
| |
| | |
| y ,
| |
| W.
| |
| m l
| |
| 5 I
| |
| I i
| |
| 4 f
| |
| a i
| |
| t j
| |
| D.1 l
| |
| 4 e
| |
| .,-e ,,_.,,.wn.,-,,,.~,.mr,-er,-
| |
| | |
| a l
| |
| l
| |
| \
| |
| ,y ARKAN3AS UNIT 1 30 PSIG ILRT '
| |
| -\ I v
| |
| TIME, DATE STAPT OF TEST 530 1110 TIME AFTER STAGT OF TEST = 5.75 HP TFEND3 IA2ED ON TOTAL-TIME CALCULATIONS -
| |
| ~HOUF5 DATA. MEAN OF CALCULATED CHG IN CALC LP OF TEIT ENTRIES MEAS LP LEAK PATE FFOM LAST POINT 0.75 4 0.552E-01 0.152E+00 1.00 5 0.925E-01 0.217E+00 0.657E-01 1.25 6 0.109E+00 0.226E+00 0.855E-02 1.50 7 0.133E+00 0.266E+ 0 0 0.399E-01 1.75 8 0.146E+00 0.276E+00 0.988E-02 2.00 9 0.148E+00 0.256E+00 -0.202E-01 2.25 10 0.150E+00 0.241E+00 - 0 .149 E- 01 2.50 11 0.151E+00 0.22SE+00 -0.126E-01 2.75 12 0.149E+00 -0.208E+00 -0.201E-01 3.00 13 0.147E+00 0.191E+00 -0.166E-01
| |
| /
| |
| 3.25 14 0.145E+00 C] 3.50 15 0.141E+00 0.176E+00 0.160E+00
| |
| -0.149E-01
| |
| -0.167E-01 3.75 16 0.138E+00 0.145E+00 -0.142E-01 4.00 17 0.136E+00 0.136E+00 -0.937E-02 4.25 18 0.133E+00 0.126E+00 -0.104E-01 4.50 19 0.131E+00 0.119E+00 -0.625E-02 4.75 20 0.129E+00 0.113E+00 -0.689E-02
| |
| , 5.00 21 0.127E+00 0.105E+00 -0.494E-02 5.25 22 0.12CCt96 0.103E+00 -0.476E-02 5.50~ 23 0.122E+00 0.941E-01 -0.869E-02 5.75 24 0.120E+00 0.875E-01 -0.660E-02 6.00 25 0.116E+00 0.818E-01 -0.574E-02 6.25 26 0.116E+00 0.770E-01 -0.474E-02 6.50 27 0.113E+00 0.682E-01 -0.SSSE-02 6.75 28 0.110E+00 0.609E-01 -0.729E-02 7.00 29 0.107E+00 0.550E-01 -0.590E-02 7.25 30 0.10dE+00 0.513E-01 -0.365E-02 7.50- 31 0.103E+00 0.457E-01 -0.561E-02 7.75 32 ~0.102E+00 0.42GE-01 -0.292E-02 8.00 33 0.994E-01 0.383E-01 -0.451E-02 8.25 34 0.975E-01 0.357E-01 -0.261E-02 8.50 35 0.959E-01 0.320E-01 -0.36SE-02 8.75 36 0.942E-01 0.292E-01 -0 273E-02 l THE CALCULATED LEAV FATE IS 0.292E-0!
| |
| l /O THE MAXIMUM ALLOWAELE LEAK FATE II 0.142E+00
| |
| \d i
| |
| THE LAST 26 DATA POINTI ESTABLISH A NEGATIVE SLOFE D.1-1
| |
| | |
| APFANIAI UhlT 1 30 FIIG ILPT TIME, DATE STAFT OF TEIT 530 1110
| |
| < TIME AFTEF ITAFT Gr TEST = 8.75 HP LEAL PATE SAiED GN TOTAL-TIME CALCULATIONI TIME TEMS. PFEIIUFE MEAIUFED C ALC t/ LATED 95'. CDhFIDENCE
| |
| : r. F ) (PIIAi LEAR PATE LEAE FATE LIMITI 545 74.40 44.484 -0.613E-01 0.159E+0a 0.47E-01 0.27E+00 600 74.42 44.454 0.135E+00 0.155E+00 0.4?E-01 0.2TE+00 615 74.41 44.452 0.112E+00 0.152E+00 0.40E-01 0.26E+00 630 74.42 44.492 0.204E+ 30 0.145E+00 0.37E-01 0.26E+00 645 74.42 44.451 0.176E+00 0.144E+00 0.33E-01 0.25E+00 700 74.44 44.450 0.249E+00 0.140E400 0.30E-01 0.25E+00 715 74.44 44.479 0.226E+09 0.136E+00 0.26E-01 0.25E+06 730 74.43 44.480 0.167E+00 U.132E+00 0.23E-01 0.24E+00 745 74.43 44.479 0.166E+00 0.129E+00 0.19E-01 0.24E+06 800 74.43 44.475 0.161E+00 0.125E+00 0.16E-01 0.23E+00 815 74.42 44.478 0.125E+ 0 0 0.121E+00 0.12E-01 0.27c^60 830 74.41 44.477 0.123E+ 0 0 0.117E+00 0.54E-02 0.23E+00 845 74.41 44.477 0.116E+00 0.113E+00 0.42E-02 0.22E+00 900 74.40 44.477 0.962E-01 0.110E+00 0.11E-02 0.22E+00 915 74.40 44.477 0.921E-01 0.106E+00 -0.26E-02 0.21E+00 '
| |
| 930 74.40 44.476 0.101E+00 0.102E+00 -0.64E-02 0.21E+0n 945 74.40 44.476 0 . 6 76E- 01 0.951E-01 -0.10E-01 0.21E+0n 1000 74.39 44.474 0.936E-01 0.942E-01 0.14E-01 0.20E+00 1015 74.?9 44.475 0.896E-01 0.904E-01 -0.18E-01 0.10E + 0 0 1030 74.41 44.475 0.933E-01 0.866E-01 -0.22E-01 0.19E+00 1645 74.40 44.474 0. 9 02E- 01 0.82SE-01 -0.26E-01 0.19E+00 1100 74.35 44.475 0.626E-01 0. 789E- 01 -0.29E-01 0.19E+00 1115 74.37 44.474 0.675E-01 0.751E-01 -0.33E-01 0.18E+00 1130 74 .37 44.473 0.666E-01 0.713E-01 -0.37E-01 0.18E+00 1145 '74.52 44.474 0.6?OE-01 0.675E-01 -0.41E-01 0.18E+00 1200 74.37 44.476 0.352E-01 0.637E-01 -0.45E-01 0.17E+00 1215 74.35 44.474 0.3SOE-01 0.599E-01 -0 50E-01 0.17E+00 1230 74.35 44.474 0.414E-01 0.560E-01 -0.54E-01 0.17E+00 1245 74.33 44.471 0.527E-01 0.522E-01 -0.55E-01 0.16E+00 1300 74.35 44.474 0.338E-01 0.464E-01 -0.62E-01 0.16E+00 131S 74.35 44.472 0 . 5 02 E- 01 0.445E-01 -0.66E-01 0.16E+00 1330 74.34 44.473 0.339E-01 0. 4 07E- 01 -0.70E-01 0.15E+no 1345 74.34 44.471 0.455E-01 0.369E-01 -0.75E-01 0.15E+00 1400 74.23 44.472 0. 3 35E- 01 0.331E-01 -0.79E-01 0.14E+00 1415 74.32 44.470 0.355E-01 0.292E- 01 -0.83E-01 0.14E+00 IF IT IS AI!UMED THAT THE LEAK FATE IS CON 3 TANT:
| |
| THE MEAN IS 0.942E-01 THE STANDAPD DEVIATION II 0.649E-01 THE CALCULATED LEAU FATE AFTEP 8.75 HOUP.3 OF TEIT IS 0.292E- 01 D.1-2
| |
| | |
| O. O O AfiK NSAS . UNIT 1 30 PSIG ILRT L O.28 0.26: ,
| |
| 1 I - M - 0.24 -
| |
| o- '
| |
| 4 -
| |
| .022
| |
| ~ 020
| |
| : w. O.18 - -
| |
| l
| |
| ;. g_
| |
| 1
| |
| ; . o-
| |
| <t ' ~ ~0.16 -
| |
| i g 0,14 --
| |
| Lt --
| |
| ! <r w 0.12
| |
| ; _J .
| |
| i- 0.10
| |
| : x 1 l 0.08 N, i s
| |
| ; O.06 L O.04 .
| |
| i l 0.02
| |
| ) ^ '
| |
| ~ "3^ -"4 t O i 2 5 6 7 8 9 l T I ME - HOURS SHEET D.l-3 l F IG. D.i D.1-3 j
| |
| k f
| |
| | |
| =- -=*s.m" . - --su .. -,,_ - - ---
| |
| t.,,
| |
| l I
| |
| t I
| |
| l l
| |
| l 1
| |
| 1 1 1
| |
| l l
| |
| 1 i
| |
| l D. 2 t
| |
| r I
| |
| 4 f
| |
| 1 1
| |
| l- >
| |
| | |
| / \-sl I s
| |
| SUMMACY OF MEAIU.5ED DATA AT TIME 530 1110 TEMP 1 = 74.810 ;
| |
| 2=
| |
| -TEMP 74.460
| |
| . TEMP 3= 7?.650 TEMP 4= 74.620 t TEMD 5= T3.S.3 0 TEMP 6= 74.330 TEMo 7= 74.410 TEMP 9'= 74.510 TEMP 9= 74.960 1
| |
| TEMP 10 = 74.700 TEMP 11 = 75.140 TEMP 12 = 74.030 '
| |
| TEMP 13 = 74.770 TEMP 14 = 74.960 TEMP- 15 = 74.490 TEMP 16 = 74.410 TEMP 17 = 74.24n i
| |
| TEMP 15 = 74.420 s PPES 1 = 44.968 92.517 PSIA TEMP INF)T VPPS 1 = 0.353 69.165 9."20
| |
| '/P P S 2= 0.393 72.320 5.950 VPPS 5 =- 0.372 70.700 2.510 VPFI 4 = 0.4 02 72.938 8.650 VFPS 5= 0.372 70.743 5 .32 0 VPPI 6= 0.401 72.909 4 . .L O O CHANGE ANY DATA 5
| |
| '= tiu i
| |
| TEMP. AND PPE!I. COPPECTED DATA SUMMAF'r TIME'= 530 DATE = 1110 TEMP = 74.416759 PPES = 44.464525 L
| |
| [~' :
| |
| \
| |
| s
| |
| ^
| |
| __- ____-_______..m -_ - . -b _, , , -m-_ e - , ,,..__, , , .. . . . , , , ,.y-. ,- - - .,,
| |
| | |
| e o
| |
| IUMMAFY OF MEA 5UPED DATA AT TIME 545 1110 ,
| |
| TEHF 1 = 74.800 TEMP 2= 74.450 TEMP 3= 73.660 TEMP 4= 74.610 TEMP 5= 73.870 TEMP 6= 74.300 TEMP 7= 74.400 TEMP S= 74.540 TEMP 9= 74.950 TEMP 10 = 74.630 TEMP 11 = 75.160 TEMP 12 = 74.000 TEMP 13 = T4.790 TEMP 14 = 74.940 TEMP 15 = 74.510 TEMP 16 = 74.360 TEMP 17 = 74.260 TEMP 18 = 74.?90 )
| |
| PRES 1 = 44.567 92.815 PEIA TEMP INPUT VPPI 1= G.354 69.271 S.540 VPPI 2= 0.389 72.050 5.950 VPPS 3= 0.372 70.700 2.510 VPPE 4= 0.401 72.950 8.620 VPRS 5= 0.372 70.743 5.320 VPRS 6= 0.401 72.909 4.900 CHA' IGE ANY DATA ?
| |
| = NO TEMP. Arid PPES S. CDPPECTED DATA SUMMAPY TIME = 545 DATE = 1110 TEMF e 74.402S49 PRES = 44.463744 q)
| |
| | |
| .c=
| |
| ,1 -
| |
| i
| |
| >i'
| |
| .I
| |
| : i. % l i ,,
| |
| o
| |
| [
| |
| i i
| |
| =-
| |
| IUMMMY , GF M2MUPED DATA AT TIME 600 1110 4
| |
| ; TEMF 1 = 74.920 i TEMC 2= 74.490 j .
| |
| - TEMc 3= 73.560 TEMc 4 = 74.e10 TEMF 5'= ''3.350
| |
| ! TEMP 6= 74.100 4
| |
| TEMP 7= 74.410 ,
| |
| TEMP S= 74.540 j TEMP 9= 74.970 TEMF 10 = T4.700 TEMF 11 = 75.~ 19 0
| |
| . TEMP 12 = 74.010 TEMP 13 = 74.500 ;
| |
| ; TEMP 14 = 74.946 i TEMP 15 = 74.510 I TEMP- 16 = 74.40U
| |
| , TEMP ' 17 = 74.290 TEMo 15 = 74.400 PREE 1 = 44.?ds 92.313 PEIA TEMP IhcVT l VPCI 1'= 0.?53 69.165 3.52 0 VPP! 2= 0.389 72.056 5.?50
| |
| ; VFFI 3= 0. 3s s 70.400 2.500 VFD1 4 '= 0.401 72.912 5.610
| |
| . /PPi 5= 0.372 70.743 5.320 VcPI 6= 0.400 72.527 4.890 CHGNAE - Arr( DATA ?
| |
| i = NO i-j' TEMP. AND CPE!!. CCFPECTED LATA IUMMcFi TIME =- 600 l - DATE = 1110
| |
| - TEMP = 74.422810 l - PREI = 44.452774
| |
| ! /
| |
| i I,
| |
| )
| |
| l:
| |
| a
| |
| . . ,,,.-l4. -- , c - -,, . . E,.. _ . _ . _ .
| |
| % . - . . , , , , , . . . , _ , , - - - .. . . . . . ~ , . - . _ , . . . , .
| |
| | |
| O' SUMMAFY DF ME6iUPED DATA AT TIME 615 1110 TEMP 1 = 74.810 TEMP 2= 74.550 TEMP 3= 73.690 TEMP 4= 74.620 TEMP 5= 73.870 TEMP 6= 74.320 TEMP 7= 74.440 TEMP 8= 74.590 TEMP 9= 74.990 TEMP 10 = 74.690 TEMS 11 = 75.160 TEMP 12 = 74.07n TEMP 13 = 74.800 TEMP 14 = 74.970 TEMP 15 = 74.490 TEMP 16 = 74.340 TEMP 17 = 74.250 T TEMP 18 = 74.370 /
| |
| PPE5 1= 44.965 92.811 PSIA TEMP INFUT VPPI 1= 0.352 69.112 8.510 VPP5 2= 0.394 72.410 5.990 VPP! 3= 0.368 70.400 2.500 VPPS 4= 0.401 72.950 8.620 VFPS 5= 0.372 70.743 5.320 VPRI 6= 0.401 72.909 4.900 CHANGE ANY DATA 7 o HD TEMP. AND PRESS. CDPPECTED DATA 5UMMAPY TIME = 615 DATE = 1110 TEMP = 74.406500 PPE% = 44.482120 O'
| |
| | |
| 1 1
| |
| IUMMAcY CF MEA!UcED DATA AT TIME' 630 1110 i
| |
| I i
| |
| f I TEMP 1 = 74.520 1 TEMc 2= 74.520 TEMc 3= 73.670 -
| |
| TEMc 4= 74.650 I TEMP 5= 73.370 TEMP 6= 74.300 TEMP 7= 74.430 TEMP 5= 74.610 TEMP 9= 74.970 i TEMP 10 = '74.e90 TEMP 11 = 75.150 1
| |
| TEMP 11 = T4.010 TEMF 13 = 74.800 TEMP 14 = 74.950 TEMP 15 = 74.520 TEMP 16 = 74.3?O
| |
| ! TEMP 17 = 74.300 TEMP 15 = P4.390 <
| |
| PPE! 1 = 44.964 92.510 PSIA TEMo INPUT VPPI 1 =' O.353 69.165 8.520 YFAI 2= 0.393 72.320 5.950
| |
| '/P PI 3= 0.369 70.400 2.500
| |
| ' VPPS 4 = 0.401' 72.950 S.620 j .VPP! 5 =- 0.372 70.743 5.320
| |
| ~
| |
| VPP! 6= 0.401' 72.909 4.900 l i
| |
| I
| |
| : i. CH9h5E ANY 09TA 7 f13 NO
| |
| . TEMP. AND ' PEII . CCFFECTED DATA SUMMACY l
| |
| ]
| |
| TIME = 630 ;
| |
| , 1 i
| |
| DATE = 1110 TEMP =. 74.427979 I FRET = 44.481676
| |
| ,fs l ~
| |
| (
| |
| i l
| |
| 1
| |
| ('
| |
| r l
| |
| i
| |
| . ._.. ._ __ ._. .__ _ , _ __ . _ _ _ _ . . . . _ . . _ .a
| |
| | |
| o O'
| |
| IUMMAFY OF MEAIUFED DATA AT TIME 645 1110 TEMP 1= 74.810 TEMP 2= 74.520 TEMP 3= 73.690 TEMP 4= 74.630 TEMP 5= 73.900 TEMP 6= 74.340 TEMP 7= 74.430 TEMP 9= 74.640 TEMP 9= 74.990 TEMP 10 = 74.720 TEMP 11 = 75.170 TEMP 12 = 74.030 TEMP 13 = 74.800 TEMP 14 = 75.000 TEMP 15 = 74.520 TEMP 16 = 74.350 TEMP 17 = 74.310 TEMP 18 = T4.370 PPE5 1 = 44.864 92.309 VPPS 1 =
| |
| P!IA 0.353 TEMP 69.165 INPUT' 8.520 O'
| |
| VPPS 2= 0 . 3 .d 4 72.410 5.990 VPPS 3= 0.365 70.400 2.500 VPPS 4= 0.401 72.912 8.610 VPRS 5= 0.372 70.743 5.320 VPPS 6= 0.401 72.909 4.900 CHAN.3E ANY DATA ?
| |
| o ND TEMP. AND PRESI. COPPECTED DATA IOMMARY TIME = 645 i
| |
| DATE = 1110 l
| |
| TEMP = 74.424940 l PRES = 44.481127
| |
| )
| |
| | |
| 1 D
| |
| TOMM AF'r CF r4EA5UFEr DATA AT RIME 700 1110 4
| |
| TEMP 1 = 74.840 TEMP 2= 74.540 TEMF' 3= 73.740 TEMP 4 = 74.650 TEMP 5.= 73.910 TEMP 6= T4.346
| |
| ; TEMP 7= 74.460 i.
| |
| i
| |
| . TEM S= 74.640 TEMP 9= 74.940 TEMP 10 = T4.720 1 TEFF 11 = 75.170 TEMP 12 = 74.620 TEMF 13 = 74.910 ;
| |
| ; TEMF 14 = 74.990 !
| |
| l.
| |
| TEND 15 = 74.570 TEM 16 = 74.490
| |
| .TEMc 17 = 74.290 TEMP 13 = 74.400 I PPE! 1 =' 44.263 92.305 [
| |
| PSIA TEMP IriFUT VPPE 1 = 0.354 69.218 3.530 ;
| |
| n 3- VFFI 2= 0.393 72.320 5.990 i~
| |
| VPPI 3= 0.372 70.700 2.510 VPPS 4= .0.401 72.350 S.620 VPPI 5= 0.3?3 70.329 5.330 VCPS 6= 0.401 72.909 4.900 CHANGE ANY DATA 7
| |
| = NO i
| |
| TEMP. AND PSEli. CCFFECTED DATA GUMMAPY TIME = 700
| |
| -DATE = 1110 I i
| |
| TEMc = 74.442960
| |
| : f. '
| |
| t PPE!== -44.479796 '
| |
| l l
| |
| l i
| |
| i
| |
| . - . . _ . . - . . - . . . - _ - , - _ - . . . . . - - . . . . _ . - , . . . - - = . . . . - - - _ - .
| |
| | |
| G-o OUMMAPY OF MERIUPED DATA AT TIME 715 1810 TEMP 1 = 74.840 TEMP 2= 74.540 TEMP 3= 73.710 TEMP 4= 74.670 TEMP 5= 73.940 TEMP 6= 74.330 TEMP 7= 74.410 TEMP S= 74.600 TEMP 9= 74.990 TEMP 10 = 74.700 TEMP 11 = 75.170 TEMP 12 = 74.030 TEMD 13 = 74.810 TEMP 14 = 74.990 TEMP 15 = 74.540 TEMP 16 = 74.3?0 TEMP 17 = 74.300 T TEMP 15 = 74.420 PPES 1 = 44.862 92.306 PSIA TEMP INPUT VPPI 1 = 0.352 69.059 8.500 VPPS 2= 0.393 72.320 5.980
| |
| '/PPS 3= 0.372 70.700 2.510 VPPS 4= 0.401 72.912 3.610 VPPS 5= 0.'373 70.S29 5.330 VPPS 6= 0.400 72.927 4.890 l
| |
| CHANGE ANY DATA 7
| |
| = M3 TEMP. AND PDESS. CDDPECTED DATA IUMMAPY TIME = 715 DATE = 1110 TEMP = 74.44243?
| |
| PRES = 44.479348 O'
| |
| -* *% (W _[ ^'
| |
| *-4 h.@ *
| |
| | |
| \
| |
| s IUM"A;'r GF' MEAi'.+ED DF TA AT TIMF 730 1110 1
| |
| -TEMF 1 =- 74. ?" 0 TEMP 2 = 74.540 TEMc 3= -73.650 TEMP 4 = 74.649 TEMC 5= 73.?20
| |
| , _ TEMP 6= 74.?!0
| |
| - TEMC 7= T4.340 TEMP 8= T4.:60 TEMP 9 =- 74.9EO TEMP 10 = 74.700 f
| |
| TEMA 11 = 75.200 TEMP 12 = 74.020 TEMP 13 = .74.iOO TEMo 14 = 74.990 ,
| |
| TEMP 15 = 74.530
| |
| , TEMP 16 = 74.250 TEMP 17 = 74.310 TEMP li = 74.396 PRES 1 = 44.562 92.905 P2IA TEMP INPUT VPPS 1 = 0.353 69.165 5.520 VPoi 2= 0.392 72.320 5.950 VPP". 3= 0.369 70.400 2.500 i -VPP5 4 = 0.401 72.950 3.620 4
| |
| YPPS 5= 0.372 70.743 5.320 VPP! 6= 0.400 72.327 4.890 CHANGE f.hY DArA
| |
| ;= NO TEMP. AND cCESI . CCFPEC TED DATA IUMMAPY TIME = 7?6 DATE = 1110 TEMP = 74.432099 44.479626.
| |
| PREI =
| |
| l
| |
| .-e . . . - ... n. - - . . ,, .,_.n.--- - . , , . - ,, ,.----- ,. -- .. , .-- ., - - . .
| |
| | |
| i IUMMAE', OF MEAIUFED LATA AT TIME 745 1110 TEMP 1 = 74.840 TEMP 2= 74.540 TEMP 3= 73.730 TEMP 4 = 74.650 TEMP 5= 75.930 TEMP 6= 74.320 TEMP 7= 74.390 TEMP S= T4.600 TEMP 9= 74.9?O TEMP 10 = 74.700 TEMP 11 = 75.200 TEMD 12 = 74.020 TEMD 13 = 74.790 TEMP 14 = 74.930 TEMP 15 = 74.570 TEMP 16 = 74.390 TEMP 17 = 74.270 TEMP is = T4.390 PRE! 1 = 44.861 92.804 )
| |
| PSIA TEMP INPUT VPPI 1 = 0.353 69.165 8.520 VPPO 2= 0.394 72.410 5.390 VPPS 3= 0.372 70.700 2.510 VFDi 4= 0.401 72.912 S.610 VPPI 5= 0.372 70.743 5.320 VPPS 6= 0.400 72.827 4.890 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PPE!S. COPPECTED DATA EUMMAPY TIME = 745 DATE = 1110 TEMP = 74.428090 PRES = 44.478564 O'
| |
| | |
| ~
| |
| IUMMAGY GF ME85'. FED DA TA AT TI.ME Sno 1110 TEM 6' 1 = 74.350
| |
| ' TEMP 2= 74.540 TEMP 3= 73.740 TEM 5 4 = 74.650 TEMP 5= 73.930 TEMF 6= 74.330 TEMP 7= 74.410 TEMF 8= 74.600 TEMP 9= ~74.960
| |
| -TEMP 10 = 74.710 TEMP 11 = 75.190
| |
| -TEMP 12 = 74.040 TEMP 1?= 74.300 TEMP 14 = _ 74.990 TEMP 15 = 74.530 TEMP 16 = '74.390
| |
| ) TEMP TEMP 17 =
| |
| 18 = 74.380 74.290 PREI 1 = 44.861 92.804 PSIA TEMF INPUT VPPS 1 = 0.353 69.165 8.520 VPP! 2= 0.393 72.230 5.970 VPRI 3= 0.372 70.700 2.510 VPPS 4= 0.401 72.912 3.610 VPPS 5= 0.373 70.329 5.330 VPPT '6 = 0.400 72.327 4.596 CHANGE ANY DATA '7
| |
| -= NU TENF. AND PPEEG. CCFFECTEL DATA IUMMAFY TIME = 800 DATE =- 1110 TEMP =- 74.432579 PRET = 44.473374
| |
| -\
| |
| (~' I s %
| |
| l:
| |
| -. , . . . - . . - . . - . - -, , . , - . - _ . , , . - . . . . _ . - . ~ . . . - . . - , , .
| |
| | |
| O' CUMMAEY Dr MEA 10 PED DATA AT TIME 815 1110 TEMP 1 = 74.840 TEMP 2= 74.550 TEMP 3= 73.710 TEMo 4 = 74.64G TEMP 5= T3.930 TEMP 6= T4. 32 0 TEMo 7= 74.420 TEMP 5= 74.610 TEMP 9= 74.950 TEMP 16 = 74.690 TEMP 11 = 75.160 TEMP 12 = 74.030 TEMD 13 = 74.780 TEMP 14 = 74.970 TEMP 15 = 74.510 TEMP 16 = 74.360 TEMF 17 = 74.270 )
| |
| TEMP 18 = 74.370 PPE3 1 = 44.961 92.303 PSIA TEMP INPUT VPPS 1 = 0.353 69.165 8.520 VPPS 2= 0.392 72.230 5.970 YPPS 3= 0.365 70.400 2.500 VPRS 4= 0.400 72.875 S.600 YPP5 5= 0.375 70.914 5.340 VPRS 6= 0.400 72.827 4.890 1
| |
| CHANGE ANY DATA >
| |
| = ND i
| |
| l TEMP. AND PPE!S. CDPPECTED DATA 50MMAPY 1
| |
| 1 TIME = 915 I DATE = 1110 TEMD = 74.417669 PRES = 44.478065 O'
| |
| | |
| V 1
| |
| 4 SUMMAFY OF ME9iuPED DFTA ST TIME 230' 1110
| |
| , TEMP 1 = 74.310 TEMo 2= 74.500 TEMP 3= 73.720.
| |
| TEMP 4 = 74.i70 TEMP 5 =: 73.930 TEMP 6= 74.330 TEMP 7= 74.410 TEMP :5 = 74.590
| |
| * ~
| |
| TEMo 9= 74.930 j- TEMP 10 = 74.670 TEMF 11 = 75.150 TEMP 12 = .74.010 TEMP 13 = 74.?70 TEMC 14 = 74.970 TEMP 15 = 74.530 TEMc- 16 = 74.350 TEMD 17 =- 74.240 TEMF 13 = 74.390 4
| |
| FPEI 1 = 44.36t 92.302. .
| |
| , ' PSIA TEMP INPUT v FI 1 = 0.352 69.112 8.510 i= VPc5 2= 0.392 72.230 5.970
| |
| , VPos 3= 0.372 70.700 2.510 VFPI 4= -0.400 ?2.375 3.600 VFPS 5= 0.376 71.000 5.350 f
| |
| VPoi 6= 0.400 72.327 4.390 s
| |
| CH9NGE FNt-LATA 7 l: =. Na '
| |
| i . .
| |
| ' TEMP . AND PFEi', CCFPEC TEL DATA IUMMAnv I
| |
| TIME = 530 DATE = 1110 TEMP = 74.405349 PFEI.= 44.276752 -
| |
| N
| |
| ,r ~
| |
| i
| |
| | |
| O
| |
| | |
| ==SUMMARY==
| |
| OF MEA 5URED DATA AT TIME S45 1110-TEMP 1 = 74.300 TEMP 2= 74.570 TEMP 3= 73.710 TEMP 4 = 74.f50 TEMP 5= ??.880 TEMP 6= 74.310 TEMP 7= 74.400 TEMP 5= 74.59C TEMP 9= 74.930 TEMP 10 = 74.710 TEMP 11 = 75.190 TEMP 12 = 74.010 TEMP 13 = 74.810 TEMP 14 = 74.960 TEMP 15 = 74.500 )
| |
| TEMP 16 = 74.310 TEMP 17 = 74.290 TEMP 18 = 74.390 PPES 1 = 44.660 92.802 PIIA TEMP INPUT VPPE 1 = 0.353 69.165 3.520 VPPS 2= 0.395 72.500 6.000 YPPS 3= 0.376 71.000 2.520 VPRS 4= 0.400 72.875 S.600 VPPE 5= 0.375 70.914 5.340 VPPS 6= 0.397 72.664 4.870 CHANGE ANY LATA ? I
| |
| = NO TEMP. AND PPEli. COPPECTED DATA EUMMAFY TIME = 945 I l
| |
| DATE = 1110 TEMP = 74.410560 PRES = 44.477031 1 1
| |
| | |
| ;, s ,
| |
| v
| |
| !UMMAPY'CF ME6EbFED DATA AT TIME 900 1110 1
| |
| i TEMP 1 = 74.790
| |
| ; ' TEMP 2= 74.550
| |
| . TEMP 3= 73.730 TEMP 4 = 74.630 TEMP 5= T3.910 TEMo 6= 74.300 TEMC 7= T4.390 TEMP 8= 74.620 i TEMP 9= 74.950 TEMP 10 = 74.690' TEMF 11 =~ 75.140
| |
| : TEMP- 12 = 74.030 i TEMP 13 = 74.930 TEMC 14 = 74.990 TEMP - 15 = 74.510 TEMP 16 = 74.300 TEMP 17 = 74.280 TEMP 16 = ?4.360 PCEI 1 = 44.960 92.300 ;
| |
| PSI 9 TEMP INPUT VPPI 1 = 0.351 69.006 5.490 1
| |
| YPoi 2= 0.i?3 72.320 5.930 VPFI 3 = 0.372 70.700 2.510
| |
| , VPP!' 4= 0.400 72.337 S.590 VPP5 5= 0.372 70.743 5 .32 0
| |
| '/PF I 6 = 0.399 72.745 4.830
| |
| : HA'+'M Mr/ DA T4 :
| |
| ,= NO i
| |
| , TEMP. 6ND PEEii. CCFEECTED DATA IUMMAFY l
| |
| l TIME = 900 DATE = 1110 TEMP = 74.404549 PPET = 44.477267 1s L ;
| |
| l
| |
| | |
| x EUMMAFY OF MEASUPED DATA AT TIME 915 1110 TEMC 1 = 74.780 TEMP 2= 74.550 TEMP 3= 73.720 TEMP 4= 74.630 TEMP- 5= 73.890 TEMP 6= 74.310 TEMP 7= 74.380 TEMP S= 74.610 TEMP 9= 74.920 TEMP 10 = 74.690 TEMP 11 = 75.160 TEMP 12 = 74.020 TEMP 13 = 74.610 TEMP 14 = 75.010 TEMP 15 = 74.510 1 TEMP 16 = 74.300 '
| |
| TEMP 17 = 74.240 TEMP 18 = 74.390 PRES 1 = 44.860 92.800 PSIA TEMP INPUT VPPS 1 = 0.352 69.112 8.510 ,
| |
| VPPS 2= 0.394 72.410 5.990 VPPS 3= 0.376 71.000 2.520 VPP! 4= 0.3?9 72.300 3.580 t l
| |
| VPPt 5= 0.373 70.829 5.330 l VPRT 6= 0.397 72.664 4.870 l CHANGE ANY DATA 7
| |
| = ND TEMP. AND PPEli. CCCPECTED DATA SUMMAPY TIME = 915 DATE = 1110 TEMP = 74.395479 PRES = 44.476601 l j
| |
| l l
| |
| l
| |
| | |
| r
| |
| 'SUMMAFY OF MEA 5UPED DATA AT TIME 930 1110 I
| |
| TEMF 1s 74.790 TEMo 2= '74.540 TEMo 3= 73.710-TEMP 4 = 74.670
| |
| . TEMP 5= 73.390 TEMP 6= 74.930 TEMo 7= 74.370 TEMP 9= 74..s00 TEMP 9= 74.970 TEMo 10 = 74.660 TEMF 11 = 75.150 TEMo 12 = 74.040 TEMP 13 = 74.330 i
| |
| TEMP 14 = 75.010
| |
| ) TEMS 15 = 74.500 TEMF 16 =- 74.300 TEMP 17 = 74.240 TEMP -13 = 74.390 PREI 1 = 44.859 92.799 PTIA TEMF INFUT YPoi 1 = 0.151 59.006 S.490 VPo! 2= 0.392 72.230 5.970 VPP! 3= 0.376 71.000 2.520 VFPI 4 = 0.399 72.762 5.570-VFPI 5= u.?73 70.329 5.330 VFPI 6= 0.400 72.927 4.890 CHANGE krW DATA ? -
| |
| := fiO .'
| |
| ;- TEMP.-AND P9E!!. CCFFECTED DATA IU" MAP'r TIME = 930 ,
| |
| i
| |
| -DATE = 1110 !
| |
| , . TEMP = 74.460099 f- :
| |
| PREI = -44.475ts?
| |
| 1 l
| |
| 1 .. I I:
| |
| l
| |
| ._.__ , _ _ _ . . _ . _ , . , . . . . _ _ _ _ . . _ . _ _ _ _ ~ _
| |
| | |
| O SUMMAPY OF MEASUPED DATA AT TIME 945 1110 TEMP 1 = 74.790 TEMP 2= 74.540 TEMo 3= 73.690 TEMP 4= 74.680 TEMP 5= 73.990 TEMP 6= T4.300 TEMP 7= 74.390 TEMP S= 74.590 TEMo 9= 74.950 TEMP 10 = 74.690 TEMP 11 = 75.180 TEMP 12 = 74.020 TEMP 13 = 74.800 TEMP 14 = 75.000 TEMP 15 = 74.480 ,
| |
| TEMP 16 = 74.310 )
| |
| TEMP 17 = 74.250 TEMP 18 = 74.370 PRES 1 = 44.959 92.799 PSIA TEMP INPUT VPPS 1 = 0.352 69.059 S.500 VPPS 2= 0.393 72.320 5.960 VPPS 3= 0.372 70.700 2.510 VPPI 4 = 0.399 72.762 S.570 VPPS 5= 0.376 71.000 5.350 VPPI 6= 0.397 72.664 4.870 CHANGE ANY DAT.; ?
| |
| = NO TEMP. AND PRESS. CDPFECTED DATA SUMMA'Y TIME = 945 DATE = 1110 TEMP = 74.398009 PRES = 44.476061 /
| |
| | |
| 4 1
| |
| a Yi a
| |
| IUMMAC/'OP MEAi'JGED DATA AT TIME 1000 1110 4
| |
| TEMP 1 = 74.800
| |
| : . TEMP 2= 74.530 :
| |
| TEMF 3= 73.730 ,
| |
| TEMP 4 = 74.660 i
| |
| -TEMP 5= 73.?90 '
| |
| TEMP 6= 74.320 TEMo 7. = 74.400 TEMP 3= 74.570 TEMP 9= 74.950 i TEMP 10 = '74.690 TEMP 11 = 75.150 TEMP 12 = 74.010 TEMP 13 =- 74.790 TEMO .14 = 74.960 TEMP 15 = ?4.510 TEMP 16 = 74.270 1- TEMP 17 = 74.240
| |
| } TEMP 15 = 74.390
| |
| - PPE.E 1 = 44.859 92.798 PSIP TEMP INPUT
| |
| - VPFI 1 = 0.351 69.006 3.490 VPRT 2'= 0.399 72.050 5.950
| |
| , Y Pi 3= 0.337 71.900 2.550
| |
| '/F P I '4 = 0.3?9 72.360 3.530
| |
| , '/PP I 5= 0.376 71.000 5.350 VoPI 6- = 0.397 72.664 4.870 1
| |
| i CHAN9E Arn DATP '
| |
| le NO L
| |
| i j TEMF. Arid FFEii. CCCFECTEL DATA IUMMAci TIME = 1000 DATE = 1110 TEMc = 74.3560i9 PREI = 44.473745 t
| |
| i
| |
| ,.-. 4 J, --
| |
| , v.--, - , - , - , , - , - - . -..----~ . ,v.. ..-1-. -.-,,,----- - -+,r.- .
| |
| | |
| T SUMMAPi OF P.EAEUPEL DATA AT TIME 1015 1110 TEMP 1 = 74.910 TEMP 2= 74.570 TEMP 3= 73.720 TEMP 4 = 74.690 TEMP 5= 73.910 TEMP 6= 74.330 TEMP 7= 74.410 TEMP 3= 74.600 TEMP 9= 74.910 TEMP 10 = 74.690 TEMP 11 = 75.160 TEMP 12 = 74.000 TEMP 13 = 74.810 TEMP 14 a 74.950 i TEMP 15 2 74.520 '/
| |
| TEMP 16 = 74.300 TEMP 17 = 74.240 TEMP 18 = 74.340 PREI 1 = 44.'859 92.798 PSIA TEMP INPUT VPPI 1 = 0.352 69.059 8.500 VPPS 2= 0.395 72.500 6.000 VPPS- 5= 0.376 71.000 2.520 VPP5 4 = 0.399 72.762 S.570 VPPE 5= 0.376 71.000 5.350 VPPS 6= 0.399 72.745 4.980 CHANC,2 ANY DAT9 7
| |
| = NO TEMP. AND PPE51. COPPECTED DATA SUMMAPY TIME = 1015 DATE = 1110 TEMP = 74.391439 s PRES = 44.474524
| |
| | |
| .. _ae x -
| |
| J 0
| |
| .q IUMMARY G MEAiecED LATA PT TIME 1030 1110 TEMP 1 = 74.220 i
| |
| TEMP' 2= 74.540 TEMF ?= '3.710 TEMD 4 = 74.640 E
| |
| TEMP 5= 73.920 TEMP 6= 74.310 TEMP 4 7= 74.410 TEMP 3= 74.620 TEMP 3= 74.?20 TEMD 10 = 74.670 TEMo 11 = 75.160 TEMP 12 = 74.000 TEMP 13 = 74.790 TEMP 14 = 75.010 TEMP 15 = 74.490 TEMP 16 = 74.320 TEMP 17 = 74.290 TEMP 13 = 74.360 PFEI 1 = 44.959 92.797 PEIA TEMP. INFUT 4
| |
| VPPI 1 = 0.352 69.053 6.500 VPR? 2= 0.397 71.370 5.930 VPPI ?= 0.376 71.000 2.520 YPP5' 4 = 0.399 72.732 9.570 VPPI 5= 0.375 70.914 5.340 VPP5 6= 0.399 72.745 4.330 CHANGE &n DA1; ?-
| |
| a NO TEMP. AND PSEII. CCFCECTED DATP I UMM AC )-
| |
| -TIME =.-1030' DATE =- 1110 TEMc== -74.406939 PPEI = 44.475004 I
| |
| | |
| 's IUMMAFY OF '1EAIUFED DATA AT TIME 1045 1110 TEMP 1= 74.790 TEMP 2= 74.550 TENo 3= 73.770 TEMP 4= 74.650 TEMP 5= 73.910 TEMP 6= 74.280 TEMP 7= 74.390 TEMP 8= 74.630 TEMP 9= 74.920 TEMP 10 = 74.650 TEMP 11 = 75.170 TEMP 12 = 74.030 TEMP 13 = 74.820 TEMP 14 = 75.010 TEMP 15 = 74.500 TEMP 16 = 74.300 TEMP 17 = 74.260 TEMP 18 = 74.360
| |
| ,2 PPES 1= 44.859 92.797 l
| |
| PSIA TEMP INPUT YPPS 1 = 0.352 69.059 8.500 VPPI 2= 0.398 72.680 6.020 YPPS 3= 0.372 70.700 2.510 YPPI 4= 0.398 72.697 8.550 VFPI 5= 0.376 71.000 5.350 VPPS 6= 0.399 72.745 4.880 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PREI3. C3FFECTED DATA IUMMAPY TIME = 1045 ;
| |
| DATE = 1110 )
| |
| TEMP = 74.400899 PPES = 44.474425 l
| |
| O'1
| |
| | |
| F J
| |
| ; 's I
| |
| IUMMAGY OP MEASUCED DATA AT TIME 1100 1110
| |
| ! TEMF 1= 74.790 1
| |
| -TEMP 2.= 74.540 TEMP 3= 73.760 TEMP 4= 74.620 TEMP 5= 73.590 TEMP 6= 74.310 TEMP 7= 74.390 1 TEMP S= 74.610
| |
| . TEMP 9= 74.900
| |
| , TEMP 10 = 74.640 TEMP 11 = 75.160 TEMP 12 = 73.990 f
| |
| TEMP. 13 = 74.800 TEMP 14 = 75.020 i
| |
| TEMP 15 = 74.490 TEMP -16 = 74.270 TEMD 17'= 74.210 TEMD 18 = 74.?40 PPES 1 = 44.859 92.797
| |
| . PSIA TEMF ItiPUT VPPS 1 = 0.352 69.059 8.500 YPPI 2= 0.39? 72.!20 5.950 YPPI 3= 0.372 70.700 2.510
| |
| ]. !PCS 4 = 0.395 72.637 S.550
| |
| ?
| |
| YPPS 5= 0.376 71.000 5.350 VPPS 6= 0.39.3 72.745 4.650 CHFNGE ANY LATA ?
| |
| :=
| |
| f e
| |
| i i
| |
| 140
| |
| ~
| |
| TEMP. AND PPEST. CCFFECTED DATA IUMMAcY TIME = 11U0 i DATE = 1110 j ..
| |
| i TEMP = 74.376269 PFE5 = 44.474770 L
| |
| | |
| i e'
| |
| IUMMAPY OF MEAIUFEP DATA AT TIME 1115 1110 1
| |
| l TEMF 1 = 74.720 l TEMP 2= 74.530 TEMP 3= 73.760 TEMP 4= 74.660 TEMP 5= 73.890 TEMP 6= 74.300 TEMP 7= 74.390 :
| |
| TEMP 8= 74.629 I TEMP 9= 74.920 '
| |
| TEMP 10 = 74.640 TEMo 11 = 75.150 1 TEMP 12 = 74.000 TEMD 13 = 74.800 TEMP 14 = 75.000 TEMD 15 = T4.460 TEMP 16 = 74.260 TEMP 17 = 74.200 :
| |
| TEMP 18 = 74.340 '
| |
| PRES 1 = 44.856 92.796 PSIA TEMP INPUT VPP5 1 = 0.353 69.165 8.520 VPPi 2= 0.392 72.230 5.970 VPPS 3= 0.372 :s.700 2.510 VPPI 4= 0.397 72.650 8.540 VPF.i 5= 0.379 71.171 5.370 VPRI 6= 0.399 72.745 4.890 CHANGE ANi DATA 7
| |
| = NO TEMP. AND PPE51. CDPFECTEL DFTA EUMMAPY TIME = 1115 DATE = 1110 TEMP = 74.371289 PPES = 44.475548
| |
| | |
| o _.
| |
| 4 . .,
| |
| )
| |
| e
| |
| -IUMMAPY OF MEAiUFED DATA AT TIME 113G 1110 TEMc 1= 74.800 TEMF 2= 74.560.
| |
| TEMP 3= 73.720 TEMP: 4= 74.s59 TEMF. 5= 73.850
| |
| ' TEMF 6. = 74.230 i
| |
| TEMF T= 74.350 >
| |
| , TEM?- ?= 74.e00 TEMP 9= 74.900 TEM.: 10 = 74.:.':.0 a TEMA .11 = 75.140-TEMG 12 = 73.930 1
| |
| - TEM': 13 = 74.790 ''
| |
| 4 TEMP .14 = 75.020
| |
| [ TEMF 15 = 74.500 TEMc- 15 = 74.270 TEMP 17 = 74.210
| |
| {. TEMF. 18 = 74.300 PRES 1 = 44.959 92.796 Pi!A- TE'1P - INFUT
| |
| ' VFEI 1 = 0.352 69.059 8.500 VFFI 2 =- 0.392 72.230 5.970
| |
| : j. VFPI 3 =- 0.379 71.30G 2.530
| |
| . VFG5 4'= 0.397. 72.650 5.540 VFAI 5= 0.377 ' 71. f.5 6 5.360 i4 YFCI 's = 0.399 72.745 4.590 d
| |
| 4 k
| |
| CHAT 4GE Ar4Y DATA ?
| |
| := f 40 -
| |
| i
| |
| . TEMP. AhD PCE!1. CCFFECTEL DATA IUMMAFY L
| |
| 1-TIME = 1130 l . DaTE'= 1110 TEMP =- 74.367179 i,
| |
| [, FFE!: = 44.472970 t
| |
| e l<
| |
| -n e - N, -w,:-r s',, - . _ - - - , - - , , - , - - ,,-.am -n,~ ,. , + , . , _ , . . , , , , -..e, . - . , - . -.w,,-,-,,-,.,we.,,- , , - ~ . - - , - ~ - - . ,, w,,,-r,_--
| |
| | |
| s
| |
| .IUMMAFY OF MEAiUFED DATA AT TIME 1145 1110 TEMP 1 = 74.790 TEMP 2= 74.550 TEMP 3= 73.750 TEMP 4= 74.640 TEMP 5= 73.890 TEMP 6= 74.280 TEMP 7= 74.370 TEMP S= 74.610 TEMP 9= 74.910 TEMP 10 = 74.640 TEMP 11 = 75.110 TEMP 12 = 73.990 TEMP 13 = 74.760 TEMP 14 = 74.990 TEMP 15 = 74.480 TEMP 16 = 74.290 TEMP 17 = 74.230 TEMP 18 = 74.330 PREI 1= 44.857 92.795
| |
| }
| |
| PSIA TEMP INPUT VPPS 1= 0.354 69.218 8.530 VPRS 2= 0.390 72.140 5.960 VPPS 3= 0.368 70.400 2.500 VPRS 4= 0.398 72.697 8.550 VPPI 5= 0.378 71.171 5.370 VPRS 6= 0.399 72.745 4.880 CHANGE ANY DATA 7
| |
| =
| |
| F CHANGE ANY DATA ?
| |
| = NO TEMP. AND PRESI. CORFECTED DATA SUMMAFY TIME = 1145 DATE = 1110 TEMP = 74.380069 PRES = 44.473597 )
| |
| | |
| d 1
| |
| 2'JMatAPY Oc NEASUFED D T; AT TIRE 1500 1110
| |
| [
| |
| 4 TEMF 1 =. 74.790
| |
| : TEMP .2 = 74.5?O TEMP 3-- 73.790
| |
| . TEMP 4 = 74.640 TEMF 5 = 73.530 TEMP 6= 74.2?9 TEMP 7= 74.360 TEMP 9= 74.59e TEMP ' .s = '74.900 TEMP 10 = 74.63C TEMF 11 = 75. UFO
| |
| ' TEMP 12 = 7?.970 TEMP 12 = 74.750 TEMF 14 = ''4 '. 99 0 TEMP 15 = 74.450 i TEMA 16 = 74.290
| |
| ! TEMP 17'= 74.210 TENC 18 = 74.320.
| |
| J'
| |
| .c F.c .. . 1 = 4 4 . a.=.
| |
| .. ., ._.~.c
| |
| : 2. ,.
| |
| P.3IA TEMP IriPUT i VF P.5 'l = 0.352 69.059 3.500
| |
| .t .c.c. e. = iJ . a.c .:,
| |
| . . ._. .n. e r.. =.. . 2, 6 VPP5 3= '0.361 69.300 2.480 VCGI 4= 0.399 72.697 3.550 YPP! 5= 0.375 70.914 5.340
| |
| : l. VCPI 6= 0.397 72.664 4.376 CHANGE ANY DATA 7 i
| |
| = NO f-TEMF. AriL PFEil. CCFFE'~TED E97P .IUMMFC'r t
| |
| ' TIME ~= 1200 D.QTE = 1110 TEMP ~= .74.36915?
| |
| PPEI = 44.476225 O
| |
| f
| |
| , - , . . . _ . . . , _ . . - . _ . , . ,- - - , - - - - - - - - - - - - - - - - + - - - -
| |
| | |
| 'T EUMMAFY OF MEASUPED DATA AT TIME 1215 1110 TEMP 1= 74.750 TEMP 2= 74.520 TEMP 3= 73.750 TEMP 4 = 74.620 TEMP 5= 73.240 TEMP 6= 74.220 TEMP 7= 74.330 TEMP 3= 74.560 TEMP 9= 74.900 TEMP 10 = 74.630 TEMP 11 = 75.090 TEMP 12 = 73.950 TEMP 13 = 74.750 TEMP 14 = 74.960 TEMP 15 = 74.440 TEMP 16 = 74.260 TEMP 17 = 74.220 O ~)r TEMP 18 = 74.300 PPES 1= 44.857 92.795 P5IA TEMP INPUT YPR5 1 = 0.353 69.165 S.520 VPP! 2= 0.392 72.230 5.970 YPP5 3= 0.364 70.100 2.490 YPP5 4= 0.397 72.612 8.530 VPPI 5= 0.377 71.026 5.360
| |
| ! VPPS 6= 0.399 72.745 4.350 i
| |
| CHANGE AN'r DATA >
| |
| ! = ND TEMP. AND PRESS. CDPPECTED DATA IUMMAPY TIME = 1215 1
| |
| ! DATE = 1110 TEMP = 74.353379 PRES = 44.474490 g>
| |
| | |
| _ . _ . . . ~
| |
| \
| |
| SUMMACY OF MEAiUPED DAT9 'sT TIME 1230 1110
| |
| +
| |
| TEMP 1= 74.750 TEMc 2= 74.520 TEMP 3= 73.730 TEM
| |
| * 4= 74.600 TEMP 5= 73.860 i- TEMP 6= 74.240 TEMP 7= 74.350 TEMP 3= 74.560 TEMP 9= T4.900 TEMP 10 = 74.640 TEMP 11 = 75.070 TEMP 12 = 73.950 TEMP 13 = 74.770 TEMP 14 = T4.970 TEMP 15 = 74.43C' TEMP 16 3 74.270 TEMP 17 = 74.200 TEMP 16 = 74.310 PRE! 1 = 44.S57 92.795 PSIA TEMP INPUT VPC5 ~1 = 0.359 69.694 8.620 VFPS 2= 0.392 72.230 5.370
| |
| . VPPS 3= 0.36? 70.400 2.500 VPPI 4= 0.396 72.575 8.520 VPPE 5= 0.376 71.000 5.350 VPoi 6= 0.399 72.745 4.830 CHAN'3E A*4 < DATA 7-
| |
| = fiO TEMP. AND PCEli . CCFFECTED DATA '5UMMAEY
| |
| ;. TIME = 1230 DATE = 1110 4
| |
| TEMP = 74.353940 i
| |
| I v; PDES = 44.473910-i.
| |
| t
| |
| | |
| O' SUMMACY GF MEAIUPED DATA AT TIME 1245 1110 TEMP 1 = 74.760 TEMP 2= 74.560 TEMP 3= 73.770 i TEMP 4= 74.630 i TEMP 5= 73.970 1 TEMP 6= 74.250 1 TEMP 7= 74.340 :
| |
| TEMP S= 74.560 l TEMP 9= 74.960 TEMP 10 = 74.630 TEMP 11 = 75.060 TEMP 12 = 73.960 TEMP 13 = 74.750 TEMP 14 = 74.940 TEMP 15 = 74.410 TEMP 16 = 74.210 .I TEMP 17 = 74.190 TEMP 18 = 74.280 PRES 1 = 44.657 92.794 PSIA TEMP INPUT VPRS 1 = 0.355 69.324 8.550 VPR5 2= 0.393 72.320 5.980 VPRI 3= 0.379 71.300 2.530 VPRI 4= 0.396 72.575 S.520 VFRS 5= 0.379 71.257 5.390 VPPS 6= 0.400 72.827 4.890 CHANGE ANY DATA ?
| |
| = NO TEMD. AND PPE!!. CDPRECTED DATA SUMMAPY TIME = 1245 DATE = 1110 TEMP = 74.334679 PRES = 44.470605 e'
| |
| t
| |
| | |
| i l
| |
| l
| |
| ~
| |
| h
| |
| -(,
| |
| EUMMAP / GF MEAEUPED ' DATA AT TIME' 1300 1110 i- TEMP 1 - 74.7S0
| |
| , TEMP 2= 74.590 -
| |
| TEMP- ._ 3 = 73.500 .
| |
| ~ TEMP. 4= 74.650 TEM 5= 73.370 TEMP 6= 74.240 TEMP -7 = 74.220
| |
| ' TEMP S= 74.e10 TEMP 3= 74.8?O TEMF 10 = T4.610 TEMo 11 = 75.060 TEMP 12 = 73.99('
| |
| TEMP 13 = 74.760
| |
| . . TEMP 14 = 74.960 TEMP 15 = 74.470 P TEMP li = 74.250 i
| |
| TEMP 17 =' 74.170 TEMF 19 = 74.270
| |
| , PREI 1 = 44.857 92.794 i .
| |
| 1.
| |
| PSIA TEMP INPUT VPPI 1 = 0.352 69.059 8.500
| |
| , VPP! 2= 0.399 72.050 5.950 4 VPP5 3= 0.37e 71.000 2.520 YPPS 4= 0.3 94 72.575 6.520 VPP! 5= 0.375 70.?i4 5.340 VPPS .6 = 0.397 72.664 4.370 1
| |
| CHANGE ANY CATA 7
| |
| : = NO 1
| |
| TEMc. ANL cPE!I. CCPPECTED DATA ILMMAFY TIME =' 1300 DATE.= 1110 i
| |
| 4 TEMP = 74.345059
| |
| .i J
| |
| PREI = 44.4738!8 t
| |
| 1 i
| |
| | |
| O' 3UMMAGi OF MEA 5UFED LATA AT TIME 1315 1110 TEMP 1= 74.750 TEMP 2= 74.530 TEMP 3= 73.730 TEMP 4= 74.620 TEMP 5= 73.890 TEMP 6= 74.250 TEMP 7= 74.350 TEMP S= 74.600 TEMP 9= 74.860 TEMP 10 = 74.650 TEMP 11 = 75.090 TEMP 12 = 73.970 TEMP 13 = 74.740 TEMP 14 = 75.010 TEMF 15 = T4.450 TEMP 16 = 74.220 TEMP 17 = 74.210 TEMP 18 = 74.300 PRES 1= 44.857 92.794 ~)
| |
| PSIA TEMP INPUT VPRI 1 = 0.353 69.165 S.520 VPP! 2= 0.393 72.320 5.980 VPR5 3= 0.376 71.000 2.520 VPPI 4= 0.396 72.575 S.520 VPPE 5e 0.379 71.257 5.390 VPPS 6= 0.399 72.745 4.S20 CHANGE ANY DATP ?
| |
| = NO .
| |
| TEMP. AND PPE55. COPPECTEL DATA SUMMAPY TIME = 1915 DATE = 1110 TEMP = 74.348749 PRES = 44.471647
| |
| | |
| wm." P emmi F A% 4-
| |
| ~
| |
| -(_/
| |
| -(. ,
| |
| IUMMAGY OF MEAiUFEf DATA AT TIME 1310 1110 TEMF 1 = T4.720 TEMP 2- 74.560 TEMP 3= 73.900 TEMF 4= 74.620 TEMc 5= 73.540 TEMP 6= 74.220 TEMC 7= T4. 32 0 TEMo S= 74.530
| |
| : TEMc 9= 74.850 1
| |
| TEMP 10 = 74.600 TEMP 11 = 75.090 TEMP 12 = 73.940 TEMP 13 = 74.760 TEMP 14 = 74.970 TEMP 15 = 74.450 TEMP 16 = 74.240 TEMP 17 = '74.210 TEMc is = T4.250 PRE 5 1 = 44.S56 92.793 PSIR TEMP INPUT i VPP! 1= 0.352 69.059 3.500 I VPP5 2= 0.392 72.230 5.970 VPPI- 3= 0.376 71.000 2.520 VPPS 4= 0.396 72.537 S.510
| |
| : VPP5 5= 0.375 70.914 5.340 VPPS 6= 0.397 72.664 4.970 CHAN6E ANi DATA 7
| |
| = NO TEMF. AND PFE55. :CCPECTEL DATA I UMM AP'y l
| |
| l
| |
| [ TIME = 1530 ;
| |
| DATE = 1110 TEMP = 74.341'355 PPES = 44.4732:5
| |
| , w/
| |
| | |
| IUMMAF't DF MEASUPED DATA AT TIME 1345 1110 TEMF 1 = 74.700 TEMP 2= 74.540 TEMP 3= 73.760
| |
| ' TEMP 4 = 74.610 TEMP 5= 73.S30 TEMP 6= 74.220 TEMF 7= 74.360 TEMP 3= 74..'0 TEMP 9= 74.S70 TEMP 10 = 74.600 TEMP 11 = 75.050 TEMP 12 = 73.900 TEMP 13 = 74.760 TEMP 14 = 75.000 TEMP 15 = 74.459 TEMP 16 = 74.230 l TEMP 17 = 74.220 TEMP 16 = 74.260 PREE 1 = 44.856 92.793 POIA TEMP INPUT VPFI 1 = 0.?53 69.165 8.520 VFRI 2= 0.294 72.410 5.390 VPRI 3= 0.376 71.000 2.520 YPP! 4= 0.396 72.537 9.510 vPP! 5= 0.379 't.257 5.380 VPPI 6= 0.399 72.745 4.380 CHANGE ANY DATA 7
| |
| = ND t
| |
| t l TEMP. AND FRE15. CDPFECTED DATA IUMMAPY j TIME = 1345 DATE = 1110 TEMP = 74.339649 PREI = 44.471099 O'
| |
| | |
| l x
| |
| l
| |
| .i l
| |
| l i
| |
| 1 SUMMAFY CF MEAIUFED D6TA AT TIME 1400 1110 1
| |
| TEMF 1 = 74.700 TEMF 2= 74.530 TEMP 3= 73.740 TEMP 4 2 .74.600 TEMP- 5= T .4 . 52 0 TEMP 6= 74.210 TEMF 7= 74.330 TEMP 2= 74.520 TEMS 9= 74.940 TEMP 10 = 74.520 TEMP 11 = 75.03G TEMF 12 = .73.940 TEMF. 13 =' 74.750 TEM
| |
| * 14 = 75.020 TEMP 15 = 74.410 ,
| |
| TEMC 16 = 74.200 TEMP 17 = 74.210
| |
| , TEMc 18 ' = 74.2?O PPEI 1 =- 44.556 92.793 f
| |
| PSIA TEMP. INPUT VPPE 1= 0.352 69.059 S.500 VFPS 2= 0.393 72.320 5.980 VPF I' 3= 0.276 71.060 2.520 VPP! 4= 0.396 72.537 S.510 VPRE. 5= 0.377 71.096 5.360 I' VPP5 6= 0.199 72.745 4.280 f
| |
| - CHANGE Awr DATR -
| |
| L= fig l
| |
| TEMP. ArlD PFE55. CCFFECTED LATA 30MMAFV TIME = 1400
| |
| ' DATE = 1110 e
| |
| TEMP = 74. 3 3 t:19 9 PPEI = .44.472012 s
| |
| l l
| |
| l
| |
| | |
| G' OUMMhFY OF MEA 10PEL LATA AT TIME 1415 1110 TEMP 1= 74.730 TEMP 2= 74.540 TEMP 3= 73.790 TEMP 4= 74.630 TEMF 5= 73.350 TEMP 6= 74.2?C TEMF 7= 74.330 TEMP S= 74.560 TEMP ?= 74.360 TEMP 10 = 74.590 TEMP 11 = 75.090 TEMP 12 = 73.970 TEMP 13 = 74.750 TEMP 14 = 74.990 TEMP 15 = 74.4?0 3' TEMD 16 = 74.210 TEMP 17 = 74.170 TEMP 13 = 74.240 PPES 1= 44.956 92.793 PSIR TEMP INPUT VPP5 1 = 0.352 69.112 ?.510 VPFS 2= 0.393 72.320 5.950 VPPI 3= 0.379 71.300 2.530 VPPI 4 = 0.395 72.500 8.500 VPPS 5= 0.380 71.343 5.390 VPPi 6= 0.399 72.745 4.880 CHANGE AFr DATA ?
| |
| = ND TEMP. ANC PPEST. COFFECTED DATA SUMMA 5Y TIME = 1415 DATE = 1110 TEMP = 74.321499 PRES = 44.470?43 ;
| |
| | |
| a a -A ''"
| |
| l --.-~ . . ~ ...._. . -- ....-__.._ ..
| |
| l I
| |
| I, I
| |
| 7 i
| |
| l D. 3 1
| |
| I i
| |
| i I
| |
| i 1
| |
| i
| |
| | |
| /
| |
| AGtANSAT UNIT'1 VEFIF 30 *IIG ILET TIME, DATE ITAFT OF TEST 1645 1110 TIME ACTEP IT4c r CF TECT = 4.50 HE TREriDi EAIED Cf. TOTAL-TIME CALCULATIONI HOUFI LATA MEAfs CF CALCULATEL CHG Iti C ALC LP C: TEST ENTFIEI MEAI LF LEAR PATE FECM LAIT FCINT 0.75 4 0 . 64.;E + 0 0 0.464E+00 1.00 5 0.611E+00 0.431E+00 -0.322E-01 1.25 6 0.377E+60 0.5SSE+00 -0.417E-01 1.50 7 0,552E+00 0.564E+0r. -0.23?E-01 1.75 6 0.519E+00 0.302E+00 -0.615E-01 2.00 9 0.494E+00 0.270E+00 -0.336E-01 2.25 10 0.475E+C0 0.249E+00 -0.202E-01 2.50 11 0.457E+00 0.22SE+ 0 0 -0.215E-01 2.75 12 0.443E+00 0.217E+00 -0.114E-01
| |
| .3.00 13 0.429E+00 0.201E+00 -0.160E-01 3.25 14 0.415E+00 ' O.126E+00 -0.144E-01 3.50- 15 0.403E+00 0.173E+00 -0.130E-01 3.75 16 0. 3*L5E + 0 C 0.1?2E+00 -0.144E-02
| |
| . 4.00 17 0. 3C-SE + 0 0 0.162E+00 -0.987E-05
| |
| '4.25 18 0.377E+00 0.155E+00 -0.633E-05 4.50 19 0.365E+00 0.14SE+c0 -0.746E-02 r
| |
| THE CALCULATEI LEAL FATE II 0.14EE*00 THE MAXIMLM ALLCt.lAILE LEAP FF TE II 0.206E+00 THE LR5T 15 LATA *CIriTI EITAELISH A NEGATIVE ILCFE i
| |
| 5 l', G l t i 1
| |
| F y., . , -
| |
| | |
| O' AR ANIA: Utd l T 1 VEFIF 30 FIIG ILFT TIME, LATE ITACT GF TEST 1645 1110 TIr!E AFTER ITAPT OF TEST = 4.50 HP LE66 FATE FAIEL 35 TOTAL-TIME CALCULATICN TIME T Et1. .eAEIIbFE ME61UFEL CALCULATED 95t. C CNFILErdC E
| |
| *F) ( P ! I A '' LEM FATE LER CATE LIMITI 1700 74.41 44.467 0.513E+CO 0.599E+00 0 . 5.5 E + 0 0 0. 79E + 01, 1715 74.44 44.467 0.694E+00 0.561E+00 0.36E+00 0.76E+00 1730 74.43 44.467 0.441E+00 0.537E+00 0.34E+00 0.74E+00 1745 74.46 44.466 0.4;7E+00 0.511E+00 0.31E+00 0.71E+00 1800 74.46 44.465 0.459E+00 v.455E+00 0.25E+00 0.68E+00 1015 74.48 44.465 0.429E+00 0.4 59E+ 0 0 0.26E+00 0.e5E+00 15is 74.46 44.465 0.119E+0C 0.45?E+00 0.24E+00 0.6?E+00 1945 74.47 44.464 0.323E+00 0.4 0 TE + 0 0 0.E1E+00 0.60E+00 1906 74.49 44.465 0.322E+00 0.351E+06 0.19E+00 0.57E+00 1915 74.4:2 44.46? 0.294E+00 0.?!5E+00 0.16E+00 0.55E + 0c 1930 74.50 44.463 0.301E+00 0.329E+00 0.14E+00 0.52E+00 1945 74.49 44.462 0.iT1E+00 0.203E+00 0.11E+00 0.50E+00 2000 74.43 44.461 0.257E+00 0.275E+00 0.S3E-01 0.47E+00 2015 74.48 44.461 0 .2 4-;E + 0 0 0.252E+00 0.56E-01 0.45E+00 20?O 74.52 44.460 0.2TSE-00 0.226E+ 0 C 0.25E-01 0.42E+00 2045 74.49 44.450 0.2idE+00 0.2 0 0E + 0 C c.15E-05 0.4 0E + f:0 2100 74.50 44.460 0.241E+00 0.174E+ 0 0 -0.2SE-01 0.3?E+0r, 2115 74.49 44.455 0.226E+00 0.14SE+00 -0.57E-01 0.35E+00 IF IT II AI5UMEL THAT THE LEN. FATE II CON:TAhT:
| |
| THE MEAN II 0.566E+00 THE ITAhLAPL LEVIATION II 0.163E+00 THE CALCULATEL LEAV PATE ACTEP 4.50 HGUF! OC TEIT II 0.145E+00
| |
| )
| |
| 86%ew
| |
| | |
| . a. _ . - . . . ..
| |
| C' ,
| |
| 1 l
| |
| l EUMMAPY OF MEAIUFED DATA AT TIME 1645 1110 f
| |
| TEMP 1 = 74.800 TEMP 2= 74.690 TEMo 3= 74.080 TEMP 4= 74.720 TEMP 5= 73.940 TEMP 6= .74.260 TEMP 7= 74.420 TEMP 8= 74.520 TEMF 9= 74.880 TEMP 10 = 74.670 TEMP 11 = 75.130 TEMP 12 = 73.990 TEMP 13 = 74.830 TEMP 14 = 75.070 TEMP 15 = 74.500 TEMP 16 = 74.220
| |
| ( TEMP 17 = 74.250 TEMF 18 = 74.260 PPES 1 = 44.852 92.785 PSIA TEMF INPUT VPP5 1 = 0.355 69.324 3.550 VPP3 2= 0.393 72.320 5.980 VPPS .? = 0.366 70.400 2.500 VPPS .4 = 0.396 72.537 8.510 VPPS 5= 0.380 71.343 5.390 VPPS 6= 0.399 72.745 4.880 4
| |
| CHANGE AtiY DATA ?
| |
| = HD l TEMP. AND PPEIS. COPPECTED DATA JUMMAPY l
| |
| TIME = 1645 ,
| |
| +
| |
| DATE = 1110 TEMP = 74.372020 PPES = 44.467830
| |
| , O l
| |
| | |
| O SUMMAFY OF MEPiURED DATA AT TIME 1700 1110 TEMP 1 = 74.800 TEMP 2= 74.640-TEMP 3= 74.060 TEMP 4= 74.790 TEMP 5= 73.930 TEMP 6= 74.320 TEMP 7= 74.470 TEMP S= 74.650 TEMD 9= 74.910 TEMP 10 = 74.690 TEMP 11 = 75.180 TEMD 12 = 74.010 TEMP 13 = 74.840 TEMP 14 = 75.120 TEMP 15 = 74.510 TEMP 16 = 74.280 TEMP 17 = 74.280 ;
| |
| TEMP 18 = 74.290 '
| |
| PRES 1= 44.952 92.784 PSIA TEMP INPUT VPPI 1 = 0.357 69.482 S.580 VPRS 2= 0.394 72.410 5.990 VPRS 3= 0.368 70.400 2.500 VPPS 4= 0.396 72.537 9.510 VPPS S= 0.380 71.343 5.399 VPPS 6= 0.399 72.745 4.880 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PPESS. COPPECTED DATA IUMMAPY TIME = 1700 DATE = 1110 TEMP = 74.400699 PRES = 44.467121 9)
| |
| | |
| ..i. , .
| |
| SUMMAFY OF MEA 5f'''CL LATA AT TIME 1715 1110 i
| |
| TEMP 1= 74.840 TEMP 2= 74.730 TEMF 3= 74.120 TEMP 4= 74.910 TEMP 5= 73.940 TEMP 6= 74.500 TEMP 7= 74.480 TEMP G= 74.580 TEMP 9= 74.420 TEMP 10 = 74.750 TEMP 11 = 75.200 YEMP 12 = 74.020 TEMP 13 = 74.980 TEMF 14 = 75.130
| |
| , TEMP 15 = 74.530 TEMP 16 = 74.300 TEMP 17 = 74.330 TEMF 18 = 74.350 PPEI 1= 44.852 92.754 PSIA TEMP INPUT YPPS 1 = 0.156 69.429 9.570 VFFS 2= U.393 72.320 5.?50 VFPS 3= 0.369 70.400 2.500 YPP5 4= 0.396 72.537 8.510 VPPS 5= 0.380 71.343 5.390 f VPPS 6= 0.399 72.745 4.650 I
| |
| CHANGE Arcy LA TA ?
| |
| = NO TEMP. AND PPE55. CDFPECTED DATA SUMMAPY TIME = 1715
| |
| 'DATE =- 1110' TEMP = 74.441359 PPES = 44.467253 (s
| |
| I I
| |
| l l
| |
| | |
| s IUMMAFi DF MEAIUFED IATA AT TIME 1730 1110 TEMP 1 = 74.830 TEMF 2= 74.730 TEMP 3= 74.110 TEMP 4= 74.820 TEMP 5= 73.490 TEMP 6= 74.370 TEMP 7= 74.480 TEMP S= 74.600 TEMP 9= 74.990 TEMP 10 = 74.690 TEMP 11 = 75.200 TEMP 12 = 74.060 TEMP 13 = 74.890 TEMP 14 = 75.170 TEMP 15 = 74.530 TEMP 16 = 74.320 TEMP 17 = 74.270 TEMP 16 = 74.310 'j PPES 1= 44.851 92.782 POIA TEMP INPUT VPRI 1 = 0.356 69.429 S.570 VPPS 2= 0.393 72.320 5.980 VPPS 3= 0.369 70.400 2.500 VPPS 4= 0.396 72.537 S.510 VPP5 5= 0.390 71.343 5.390 '
| |
| VPPS 6= 0.397 72.664 4.870 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PPE!! COPPECTEL DATA EUMMAFY TIME = 1730 DATE = 1110 TEMP = 74.431519 PRES = 44.466654 l
| |
| O'
| |
| | |
| SUMMAPY CF MEAEU9ED DATA AT TIME 1745 1110 TEMF 1 = 74.860 TEMP 2= T4.720 TEMP 3= 74.140 TEMP 4= 74.810 TEMP 5= 74.020 TEMP 6= 74.390 i TEMP 7= 74.510 TEMP -9 = 74.650 TEMP 9= 74.990 I TEMP 10 = 74.770 TEMP 11 = 75.240 TEMP 12 = 74.110 TEMP 13 = 74.986 TEMP 14 = 75.210
| |
| (~N TEMP- 15 = 74.550 TEMP 16 = 74.340 TEMP 17 = 74.340 TEMP 18 = '74.320 PPES 1 = 44.650 92.780 PSIA TEMP' .ItiPUT YPRS 1 = 0.356 69.429 9.570
| |
| 'VPP1 2= 0.393' 72.320 5.980 VPPS 3= 0.369 70.400 2.500 VPPS 4= 0.396 72.537 S.510 VPPS 5= 0.390 71.343 5.390 VPPS 6= 0.396 72.552 4.360 I
| |
| CHANGE Artf DATA 7
| |
| = NO TEMP. AND FPESS. COFFECTED. DATA
| |
| | |
| ==SUMMARY==
| |
| | |
| TIME = 1745 DATE = 1110 4
| |
| TEMP = 74.461349 s . PPES = 44.466055 i
| |
| /.
| |
| J l
| |
| l l
| |
| l l
| |
| | |
| O IUMMAFY OF MEATURED DATA AT TIME 1800 1110 TEMP 1 = 74.920 TEMP 2= 74.710 TEMP 3= 74.140 TEMP 4= 74.830 TEMP 5= 74.050 TEMP 6= 74.380 TEMP 7= 74.460 TEMP 3= 74.610 TEMP 9= 74.9.40 TEMP 10 = 74.770 TEMP '1
| |
| = 75.240 TEMP 12 = 74.080 TEMP 13 = 74.930 TEMP 14 = 75.210 TEMP 15 = 74.540 TEMP 16 = 74.310 TEMP 17 = 74.320 I TEMP 13 = 74.380 PRES 1 = 44.850 92.780 PSIA TEMP INPUT VPPI 1 = 0.357 69.535 8.590 VPRS 2= 0.394 72.410 5.996 VPPS 3= 0.368 70.400 2.500 VPRI 4= 0.396 72.537 8.510 VPRI 5= 0.380 71.343 5.390 VPPS 6= 0.399 72.745 4.830 CHAfME ANY DATA ?
| |
| = NO TEMP. AND PPEEI. CDFFECTED DATA EUMMAcv !
| |
| TIME = 1800 DATE = 1110 TEMP = 74.461709 PRES = 44.465140
| |
| )
| |
| | |
| ~
| |
| 4 %* w
| |
| <x
| |
| (
| |
| | |
| ==SUMMARY==
| |
| OF MEA UFED DATA AT TIME 1915 1110 TEMP 1= 74.900 TEMP 2= 74.720 TEMP 3= 74.120 TEMP 4= 74.850 TEMP 5= 74.020 TEMP 6= 74.360 TEMP T= 74.270 TEMP S= 74.e70 TEMP 9= 74.980 TEMP 10 = 74.760 TEMP- 11 = 75.260 TEMP- 12 = 74.050 TEMP 13 = 74.990 TEMP 14 = 75.220 TEMP 15 = 74.560 TEMP 16 = 74.340 TEMP 17 = 74.350 TEMP 18 = 74.390 PRES 1= 44.850 92.780 PSIA TEMP ItiPUT VPPI= 1= 0.356 69.429 8.570 VPRT 2= 0.395 72.500 6.000 VPPS 3= 0.368 70.400 2.500 YPRS 4= 0.395 72.500 S.500 VPPS 5= 0.381 71.429 5.400 VPRI 6= 0.399 72.745 4.880 CHAriGE AN'r DATA '?
| |
| = tiu
| |
| , TEMP. Arid PAE!3. COPPECTED DATA SUMMAcY TIME = 1815 DATE = 1110
| |
| . TEMP = -74.478790 i.
| |
| s .PPES = 44.464792
| |
| )
| |
| i a
| |
| l 1
| |
| 0- !
| |
| | |
| O' IUMMACY OF MEAiUPED DATA AT TIME 1830 1110 TEMP 1 = 74.940 TEMP 2= 74.900 TEMP 3= 74.120 TEMP 4= 74.530 TEMP 5= 74.030 TEMP 6= 74.410 TEMP 7= 74.490 TEMP 8= 74.710 TEMP 9= 75.010 TEMP 10 = 74.740 TEMP 11 = 75.230 TEMP 12 = 74.080 TEMP 13 = 74.880 TEMP 14 = 75.180 TEMP 15 = 74.620 TEMP 16 = 74.360 .
| |
| TEMP 17 = 74.280 )
| |
| TEMP 18 = 74.320 PRES 1 = 44.850 92.780 PSIA TEMP INFUT VFP! 1 = 0.357 69.482 8.586 VPPS 2= 0.395 72.500 6.000 VPPS 3= 0.368 70.400 2.500 VPPS 4 = 0.395 72.500 8.500 VPPS 5= 0.380 71.343 5.390 VPPI 6= 0.899 72.745 4.890 CHAriGE ANY DATA ? ,
| |
| = NO l l
| |
| TEMP. AND PPEis. COPPECTED DATA SUMMAEY TIME = 1830 DATE = 1110 TEMP = 74.463749 PRES = 44.465122
| |
| - - - - _ _ . _ ~ , _,
| |
| | |
| ^
| |
| ~/
| |
| (
| |
| SUMMAFi OF MEAIUPED DATA AT TIME 1845 1110 TEMP 1= 74.960 TEMP 2= 74.730 TEMP 3= 74.130 TEMP 4= 74.830 TEMP 5= 74.070 TEMP 6= 74.400 TEMP 7= 74.500 TEMP S= 74.700 TEMP 9= 75.000 TEMF 10 = 74.740 TEMP 11 = 75.300 TEMP 12 = 74.060 TEMP 10 = 74.920 TEMP 14 = 75.210 TEMP 15 = 74.570 TEMP 16 = 74.330 TEMP 17 = 74.300
| |
| , TEM? 18 = 74.360 PPE! 1 = 44.849 92.779 PSIA TEMP INPUT VPRS 1= 0.357 69.535 3.590
| |
| : VPR! 2= 0.395 72.500 6.000 VPPS 3= 0.368 70.400 2.500 VFRI 4= 0.396 72.537 S.510 VPPS 5 =' O.381 71.429 5.400 l .VPPS 6= 0.400 72.827 4.890 l
| |
| CHANGE 6tW DATA ?
| |
| = NO TEMP. AND PPE55. COFPECTED DATA SUMMAFY l TIME = 1645 DATE = 1110 TEMF = 74.467819 l PRES = 44.462827 O
| |
| v
| |
| | |
| O IUMMAFY OF MEASUPED DATA AT TIME 1900 1110 TEMP 1 = 74.960 TEMP 2= 74.800 TEMo 3= 74.100 TEMP 4= 74.840 TEMP 5= 74.040 TEMP 6= 74.400 TEMP 7= 74.490 TEMP S= 74.680 TEMP 9= 74.980 TEMP 10 = 74.810 TEMP 11 = 75.230 TEMP 12 = 74.100 TEMP 13 = 74.950 TEMP 14 = 75.200 TEMP 15 = 74.610 TEMP 16 = 74.320 ,
| |
| TEMP 17 = 74.380 ''
| |
| TEMP 18 = 74.400 PPES 1 = 44.849 92.7'9 PSIA TEMP INFUT VPPO 1 = 0.357 69.535 8.590 VPPS 2= 0.395 72.500 6.000 VPPS 3= 0.368 70.400 2.500 VPPS 4= 0.395 72.500 8.500 l VPPS 5= 0.380 71.343 5.390 '
| |
| VFRS 6= 0.399 72.745 4.880 l
| |
| CHANGE ANY DATA ?
| |
| = ND TEMP. AftD PPEis. CCFFECTED DATA EUMMAFY TIME = 1900 DATE = 1110 TEMP = 74.494359 PRES = 44.464592 0 1
| |
| .w ,w g = .my, o o ^=- *
| |
| | |
| . - - . ~ _.
| |
| em i
| |
| SUMMAGY GF-MEAiUFED DATA AT TIME 1915 1110 TEMP 1 = 74.980 TEMP 2= 74.730 TEMP 3= 74.080 TEMP 4= 74.830 TEMP 5= 74.050 TEMP 6= 74.410 TEMP- 7= 74.500 TEMo 8= 74.720 TEMP 9= 75.010 TEMo '10 = 74.?SO TEMP 11 = 75.250 TEM ' 12 = 74.090 TEMP 13 = 74.940 TEMP 14 = 75.230 TEMP 15 = 74.620 TFMP 16 = 74.336 TEMP 17 = 74.320
| |
| -TEMP 18 = 74.370 PPET 1 = 44.849 92.775 PSIA TEMP ItiPUT
| |
| _VPPS . = 0.358 69.588 S.600 VPP5 2= 0.395 72.500 6.000 VPPI 3= 0.368 70.400 2.500 YPPE 4= 0.396 72.537 S.510 VPRS 5= 0.381 71.429 5.400 VPPS 6= 0.400 72.827 4.890 CHANGE AfiY DATP ?
| |
| != NO TEMP. AND PCEIS. CCFFECTED DATA IUMMFPY
| |
| . TIME = 1915 DATE = 1110 TEMP = 74.481149 PRES = 44.463296
| |
| . s i
| |
| ~
| |
| l
| |
| | |
| O' 1
| |
| OUMMAPY OF MEA 5bPED DATA AT TIME 19.:. 0 1110 TEMP 1= 74.950 TEMP 2= 74.820 TEMP 3= 74.140 TEMP 4= 74.880 TEMP 5= 74.080 TEMP 6= 74.460 TEMP 7= 74.510 TEMP S= 74.720 TEMP 9= 74.980 TEMP 10 = 74.800 TEMP 11 = 75.260 TEMP 12 = 74.130 TEMP 13 = 74.930 TEMP 14 = 75.210 TEMP 15 = 74.600 TEMF 16 = 74.340 g TEMo 17 = 74.360 /
| |
| TEMP 15 = 74.280 PRES 1 = 44.848 92.777 PSIA TEMP INPUT VPPS 1= 0.357 69.535 8.590 VPDE 2= 0.395 72.500 6.000 VPP5 3= 0.368 70.406 2.500 VPPE 4= 0.396 72.537 8.510 VPPI 5= 0.391 71.429 5.400 VPPS 6= 0.400 72.527 4.690 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PPESS. CDPPECTED DATA
| |
| | |
| ==SUMMARY==
| |
| | |
| TIME = 1930 DATE = 1110 TEMP = 74.496770 PREE = 44.462560
| |
| | |
| 31:-
| |
| c -. .. .__._
| |
| k C
| |
| \
| |
| 4
| |
| | |
| ==SUMMARY==
| |
| OF MEA:UFED DATA AT TIME 1945 1110 TEMP 1= 74.970 TEMP 2= 74.720 TEMP 3= 74.040 TEMP 4= 74.860 TEMP 5= 74.070 TEMP 6= 74.400 TEMP 7= 74.500 TEMP 5= 74.720
| |
| ; TEMP 9= 74.980 TEMP 10 = 74.770 i.
| |
| TEMP 11 = 75.240
| |
| . TEMP 12 = 74.090 TEMP 13 = 74.920 TEMP 14 = 75.220 TEMP 15 = 74.620 TEMP 16 = 74.360 TEMP 17 = 74.320 TEMP 18 = ?4.400
| |
| -PPE! 1 = 44.848 92.776 PSI 9 TEMP INPUT
| |
| ; VPPI 1= 0.558 69.598 8.600 VPPS 2= 0.394 72.410 5.990 VPPS 3= 0.368 70.400 2.500 VPP5 4= 0.395 72.500 8.500 VFFI 5= 0.391 71.429 5.400 VPPI 6= 0.400 72.227 4.590 CHAN6E ANr DATA 7 i = NO TEMP. AND PPEI' . COFFECTED DATA IUMMAcv TIME = '1945 DATE = 1110 I
| |
| TEM * = 74.487869 l PPES = 44.462437 s
| |
| | |
| s IUMMAFY OF MEASUPED DATA ST TIME 2000 1110 TEMP 1 = 74.990 TEMP 2= 74.730 TEMP 3= 74.050 TEMF 4= 74.6?O TEMP 5= 74.110 TEMP 6= 74.420 TEMP 7= 74.490 TEMP S= 74.710 TEMP ?= 74.990 TEMF 10 = 74.760 TEMP 11 = 75.220 TEMP 12 = 74.090 TEMP 13 = 74.920 TEMP 14 = 75.240 TEMP 15 = 74.590 TEMP 16 = 74.350 TEMP 17 = 74.310 TEMP 18 = 74.380 PRES 1 = 44.947 92.775 PEIA TEMP INPUT VPP! 1 = 0.368 70.392 S.750 VPP! 0.393 2= 72.320 5.950 '
| |
| VPP! 3= 0.368 70.400 2.500 VPPS 4= 0.395 72.500 S.500
| |
| 'vPP! 5= 0.381 71.429 5.400 VPPI 6= i 0.400 72.227 4.390 i CHANGE ANY DATA 7
| |
| = NO TEMP. AND PPE!5. CDPPECTEL DATA SUMMAPY TIME = 2000
| |
| {
| |
| DATE = 1110 TEMP = 74.480220 -
| |
| l PREI = 44.461334
| |
| - O Mb M"Ms% *'* #
| |
| e
| |
| | |
| \ /
| |
| us l'
| |
| i IUMMAPi GF MEA!UPED LATA AT TIME 2015 1110 e
| |
| TEMP 1= 74.950 TEMP' 2= 74.810 TIMF 35 74.100 TEMP 4= 74.560 TEMP 5= 74.0?0 TEMP 6= 74.440 TEMP 7= 74.520 TEMP G= 74.710 TEMF 9= 75.050 TEMF 10~= 74.800 TEMP 11 = 75.290 TEMP 12 = 74.090 l
| |
| l TEMP 13 = 74.960 TEMP 14 = 75.250 l
| |
| TEMP 15 = 74.630 TEMP 16 = 74.310 1
| |
| TEMc 17 = 74.300 TEMP 18 = 74.390 i
| |
| PPE! 1 = 44.847 92.775 PIIA TEMP INPUT VPP! 1 = 0.371 70.647 8.500 VPPS 2= 0.395 72.500 6.000 VPPS ?= 0.36S 70.400 2.500 VPP1 4 = 0.395 72.500 S.500 l
| |
| '/PPI 5= 0.381 71.429 5.400
| |
| -VPFI 6= 0.400 72.827 4.530 CHANGE ANY LATA ;
| |
| = -tfD -
| |
| TEMP. AhL PPEsi. COPPECTEL DATA IUMMAPY l
| |
| t TIME = 2015 DATE = 1110 TEMP = 74.450599 g-~ .PPES = 44.460924 i
| |
| ++-- ,. - - , , , ..,-,--.~,.,-.-.-..~,,y- 4--.w-,, ,--.v-,--, ._w,. , - , . , -
| |
| | |
| s l
| |
| OUMMAE'r OF MEAIUFEL DATA AT TIME 2030 1116 1
| |
| TEMP 1 = 74.940 TEMP 2= 74.770 TEMc 5= 74.120 TEMP 4 = 74.870 TEMD 5= 74.080 TEMo 6 = 74.470 TEMF 7= 74.540 TEMP 9= 74.770 TEMP 9= 74.950 TEMP 10 = 74.770 TEMP 11 = 75.270 TEMP 12 = 74.100 TEMP 13 = 74.970 TEMP 14 = 75.230 TEMP 15 = 74.630 TEMP 16 = 74.370 },
| |
| TEMP 17 = 74.426 TEMD 18 = 74.370 PRET 1 = 44.846 92.773 PSIA TEMP INPUT VFP3 1 = 0.370 70.541 S.790 VPPI 2= 0.395 72.500 6.000 VPRI 3= 0.368 70.400 2.500 VPRS 4 = U.395 72.500 S.500 I VPPI 5= 0.391 71.429 5.400 VPPS 6= 0.39? 72.745 4.880 l
| |
| l
| |
| =
| |
| CHANGE ANY DATA 7 T10 TEMP. AND PPESS. CDFFECTEL LATA IUMMARY TIME = 2030 DATE = 1110 TEMP = 74.515250 1
| |
| PRES = 44.460420 - l 4
| |
| ]
| |
| l l
| |
| l
| |
| . - - - . ~
| |
| | |
| ~..
| |
| t
| |
| +~ . i TUMMAPY GF T1ER5UPEL DATA AT TIME 2045 1110 i
| |
| TEMP 1= 74.990
| |
| ' TEMP 2= 74.340 TEMF 3= 74.050 TEMP 4 = 74.860 TEMP 5= 74.040 TEMP 6= 74.410 TEMP 7= 74.500 TEMP S= 74.730 74.990 i
| |
| TEMP 9=
| |
| TEMP '10 = 74.760 TEMP 11 = 75.290 TEMP 12 = 74.130
| |
| { TEMP 13 = 74.960 TEMP 14 = 75.220 TEMP 15 = 74.620 TEMP 16 = 74.300 TEMP 17 = 74.340 TEMP 18 = 74.390 PPE! 1 = 44.846 92.772 PTIA TEMP INPUT i
| |
| VPPO 1 = 0.370 70.541 8.780
| |
| ) VPPI 2= 0.395 72.500 6.000 YPPS '3 = 0.368 70.400 2.500 t
| |
| i VPP! 4= 0.295 72.500 S.500 VPP! 5= 0.381 71.429 5.400 VPPE 6= 0.399 72.745 4.390 CHANGE AN'y DATA ? -
| |
| = rig TEMP. Arid PPE!i. CDPPECTED DATA SUMMAPY
| |
| - TIME = 2045 DATE = 1110 TEMP = 74.487699 PRES = 44.4599?T
| |
| ~
| |
| y .-y-g , 3,,-- m--- ., , . . . , . . . . - -
| |
| y ,. y7.__ ,_, -, , . . .- .- ,. -.-,v.,4 ,....--, -, -- -
| |
| | |
| O IVMMAFY CF MEAIUPED DSTA AT TIME 2100 1110 TEMP 1 = 74.960 TEMP 2= 74.790 TEMP 3= 74.06C TEMP 4 = 74.870 TEMP 5= 74.099 TEMP 6= 74.430 TEMP 7= 74.560 TEMP 5= 74.770 TEMP .a = 75.020 TEMP 10 = 74.790 TEMP 11 = 75.270 TEMP 12 = 74.160 TEMP *3=
| |
| . 74.930 TEMP 14 = 75.240 TEMP 15 = 74.600 TEMP 16 = 74.370 TEMP 17 = 74.340 '
| |
| TEMP 16 = 74.390 '
| |
| PRES 1 = 44.846 92.771 PSIA TEMP INPUT VPP! 1 = 0,366 70.224 8.720 VPP5 2= 0.394 72.410 5.990 VPP! 3= 0.368 70.400 2.500 VPPS 4= 0.395 72.500 3.500 VPPS 5= 0.381 71.429 5.400 VPPS 6= 0.399 72.745 4.380 CHANGE ANY DATA ?
| |
| = HD TEMP. AND PPEi!. COPPECTED LATA IUMMAFY TIME = 2100 DATE = 1110 TEMP = 74.563560 PPES = 44.459825 l i
| |
| e'
| |
| | |
| ~.
| |
| ,~
| |
| \
| |
| SUMMAPY OF MEASURED DATA AT TIME 2115 1110 TEMF 1 = 74.950 TEMP 2= 74.770 TEMP 3= 74.110 1
| |
| TEMP 4= 74.870 TEMP 5= 74.080 TEMP 6= 74.460 TEMP 7= 74.490 TEMP S= 74.750
| |
| , TEMP 9= 75.020 TEMF 10 = 74.740 i TEMP 11 = 75.330 l TEMP 12 = 74.100 l
| |
| TEMP. 13 = 74.910 l TEMP 14 = 75.220 TEMP 15 = 74.600 TEMP 16 - 74.340 TEMP 17 = 74.340 TEMP 18 = 74.390 PRE 5 1= 44.845 92.770 PSIA TEMP INPUT l
| |
| YPPE 1= 0.370 70.541 S.780 VPRS 2= 0.395 72.500 6.000 VPRS 3= 0.368 70.400 2.500 VPPS 4= 0.395 72.500 S.500 VPPS 5= 0.381 71.429 5.400 VPRS 6= 0.399 72.745 4.880
| |
| : CHANGE-ANY DATA 7 l = NO
| |
| ! TEMP. AND PPESS. CCRRECTED DATA SUMMAFY l
| |
| i TIME = 2115
| |
| .DATE = 111O g-~ TEMP = 74.492249
| |
| \'
| |
| PRES = 44.45S970
| |
| | |
| M' I
| |
| l I
| |
| s l
| |
| I l
| |
| , 1 I i l
| |
| l l
| |
| l t
| |
| f i
| |
| D. 4 I
| |
| F
| |
| | |
| y
| |
| ,m i 1 APFAN!A5 '? FIT 1 59 o2IG ILFT Aj I
| |
| . TIME, DATE ITAET CF TEIT 945 1112 TIME AFTEP ITAST OF TE!T = ?.75 HP TPENDi EAiED Gb TCTAI.-TIME CALCULATICNT HGUPS DATA MEAr4 CF CALCULATEL CHG IN CALC LP OF TEST ENTPIEI MEAi LP LEAt PATE FPCM LAST PCIr4T 0.75 4 0.915E-01 0.663E-01 1.00 5 0.571E-01 -0.197E-01 -0.860E-01 1.25 6 0.464E-01 -0.444E-01 -0.247E-01 1.50 7 0.424E-01 -0.137E-01 0.307E-01 1.75 8 0.375E-n! -0.156E-01 -0.157E-02 2.00 9 0.32SE-01 -0.194E-61 -0.357E-02 i
| |
| i 2.25 10 0.262E-01 -0.316E-01 -0.122E-01 l
| |
| 2.50 11 0.238E-01 -0.293E-01 2.75 0.232E-02
| |
| , 7- g 12 0.236E-01 -0.213E-01 0.60TE-02
| |
| \ > 3.00 13 0.249E-01 -0.967E-02 0.114E-01
| |
| '~' 3.25 14 0.266E-01 0.130E-02 0.112E-01 3.50 15 0.263E-01 0 . 35'iE - 02 0.223E-02 3.75 16 0.287E-01 0.150E-01 0.115E-01 4.00 17 0.30tE-01 0.219E-01 4.25 0.651E-02 18 0.319E-01 0.295E-01 0.772E-02 4.50 13 0.346E-01 0.335E-01
| |
| ' 0.993E-02 4.75 20 0.371E-01 0.483E-01 0.853E-02 5.00 21 0.369E-01 0.538E-01 0.553E-02 l
| |
| 5.25 22 0.411E-01 0.609E-01 0.709E-02 5.50 23 0.436E-01 0.664E-01 0.749E-02 5.75 24 0.457E-01 0.741E-01 0.574E-02 6.00 25 0.470E-01 0.76SE-01 0.266E-02 6.25 26 0.483E-01 0.796E-01 0.277E-02 6.50 27 0 . 493E- 01 0.82?E-01 0.325E-02 6.75 28 0 . 5 0 3E- O'1 0.847E-01 0.190E-02 7.00 29 0.515E-01 0.845E-01 -0.20sE-03 l
| |
| L 7.25 30 0.525E-01 0.86 3E -01 0.176E-02 7.50 31 0.532E-01 0.566E-01 7.75 0.309E-0?
| |
| ; 32 0.536E-01 0.G60E-01 -0.584E-03 S.00 33 0.541E-01 0.659E-01 -0.156E-09 i 8.25 34 0.544E-01 0.952E-01 -0.690E-03 l .S.50- 35 0.544E-01 0.?37E-01 -0.144E-02 S.75 36 0.543E-01 0.915E-01 -0.224E-02
| |
| ! /~*\
| |
| l
| |
| ('- ) THE CALCULATEL LEAF FATE IS 0.?15E-01 THE MAXIMUM ALLCI.eELE LEAR PATE II 0.200E+00 THE LAS T 5. LATA CCINTI EITAFLISH A NEGATIVE ILCFE D.4-1
| |
| | |
| APFANIAi UNIT 1 59 o!I9 ILFT TIME, DATE ITAPT OF TEST 945 1112 TIME AFTER ITAFT OF TEIT = 9.75 HP LEAK FATE EAIED Ch TOTAL-TIME CALCULATIDh!
| |
| TIME TEMF. PPESIUFE MEAIUFED CALCULATED 95% CONFIDENCE (F) (PSIA) LEAL FATE LEAV PATE LIMITS 1000 75.73 T3.223 0.12 0E+ 0 0 0.271E-01 -0.46E-01 0.10E+00 1015 75.63 73.206 0.647E-01 0.2E7E-01 -0.46E-01 0.10E+00 1030 75.53 73.195 0.697E-01 0.303E-01 -0.44E-01 0.10E+00 1045 75.41 73.182 -0.458E-01 0.319E-01 -0.42E-01 0.11E+0C 1106 75.34 73.171 -0.267E-01 0.335E-01 -0.40E-01 0.11E+00 1115 75.25 73.161 0.528E-01 0.?51E-01 -0.35E-01 0.11E+00 1136 75.21 73.152 0.919E-02 0. 36 7E- 01 -0.37E-01 0.11E+0n 1145 75.13 73.142 -0.596E-04 0.353E-01 -0.35E-01 0.11E+00 1200 75.07 73.136 -0.272E-01 0.399E-01 -0.33E-01 0.11E+00 1215 75.02 73.126 0.245E-02 0.415E-01 -0.31E-01 0.11E+00 1230 74.97 73.115 0.213E-01 0.431E-01 -0.30E-01 0.12E+00 1245 74.93 73.111 0.358E-01 0.447E-01 -0.28E-01 0.12E+00 1300 74.90 73.105 0.475E-01 0.493E-01 -0.26E-01 0.12E+0' 1315 74.64 )
| |
| 73.100 0.222E-01 0.479E-01 -0.24E-01 0.12E+0 1330 74.E3 73.094 0.620E-01 0.495E-01 -0.23E-01 0.12E+00 1345 74.7S 73.085 0.515E-01 0.511E-01 -0.21E-01 0.12E+00 1400 74.76 73.053 0.616E-01 0.527E-01 -0.19E-01 0.12E+00 1415 74.75 73.075 0.792E-01 0.543E-01 -0.16E-01 0.13E+ 0 0 1430 74.72 73.074 0.824E-01 0. 559 E- 01 -0.16E-01 0.13E+00 1445 74.69 73.071 0.726E-01 0.575E-01 -0.15E-01 0.13E+00 1500 74.66 73.064 0.864E-01 0.591E-01 -0.13E-01 0.13E+00 1515 74.64 73.055 0.952E-01 0.607E-01 -0.12E-01 0.13E+06 1530 74.62 73.056 0.915E-01 0.623E-01 -0.10E-01 0.13E+00 1545 74.59 73.054 0.772E-01 0.539E-01 -0.86E-02 0.14E+00 1600 74.57 73.050 0.805E-01 0.655E-01 -0.71E-02 0.14E+00 1615 74.55 73.045 0 .866E- 01 0.671E-01 -0.57E-02 0.14E*00 1630 74.54 73.044 0.902E-01 0.687E-01 -0.42E-02 0.14E+0n 1645 74.49 73.040 0.666E-01 0.703E-01 -0.28E-05 0.14E+00 1700 74.49 73.03: 0.319E-01 0.719E-01 -0.14E-02 0.15E+00 1715 74.45 73.033 0.721E-01 0.735E-01 -0.29E-04 0.15E+00 1730 74.43 73.030 0.654E-01 0.751E-01 .0.13E-02 0.15E+00 1745 74.40 73.026 0.667E-01 0.767E-01 0.27E-02 0.15E+00 1800 74.39 73.023 0.642E-01 0.793E-01 0.40E-02 0.15E+0A 1815 74.25 73.020 0.572E-01 0.799E-01 0.53E-02 0.15E+0A 1836 74.32 73.015 0.459E-01 0.315E-01 0.66E-02 0.16E+00 IF IT IS A55UMED THAT THE LEAK FATE II COh! TANT:
| |
| THE MEAN IS 0.543E-01 THE ITANDAFD DEVIATION II 0.391E-01 h
| |
| THE CALCULATED LEAV PATE ACTEF S.75 HOUPI DF TEIT I5 0.615E-01 D.4-2
| |
| | |
| O O O ARK ANSAS - UNIT 1
| |
| : 59 PSIG- ILRT i
| |
| O.20- LA j; O.18 j { O.16-l4 0.14 -
| |
| y y 0.12 F-
| |
| ' g 0.10 0.08 ^
| |
| 1
| |
| ! M
| |
| -[
| |
| ! 0.06 I /
| |
| O.04
| |
| * t O.02 '
| |
| I i O ; +------------- -
| |
| i 1 2 3 4 5 6 7 8 9 '
| |
| ! -0.02 TI M E - HRC
| |
| ! SIIEET D.4-3 FIG.- D.4 i
| |
| l D.4-3 i, t
| |
| .. . ~ . _ _ _ _ _ - - . -- -_
| |
| | |
| .' g i
| |
| =
| |
| l 1
| |
| .3 1
| |
| I l'
| |
| i I
| |
| l-I l e 1
| |
| -i l t r t
| |
| 'l g ,
| |
| I
| |
| ,h 6
| |
| f d
| |
| t A
| |
| f " - D. s \
| |
| V
| |
| ' 5
| |
| _._m=*_
| |
| | |
| 1 2
| |
| l i
| |
| IUMMAcY CC MEA?UFED DATA AT TIME 945 1112 4
| |
| TEMF 1 = 75./50 TEMF 2= 75.490 l TEMA 3= 75.700 l
| |
| ' TEMP- 4= 76.090 TEMF 5= 75.?90 TEMP 6= 76.020 '
| |
| TEMP- 7= 76.170
| |
| ; TEMP 3= 76.230 TEMP 9= 76.590 TEMP 10 = 76.160 TEME 11 = 75.730 TEMP 12 = 75.?40 i
| |
| -TEMP 13 = 76.?00 TEMP 14 = 76.310 l TEMP 15 = 76.130 TEMP 16 = 75.500 TEMP 17 = 75.750 i TEMP 1? = 75.860 PPEI 1 = 7 3.t S I 72.967 4 PSIA TEMP INPUT VPRI 1 = 0.379 ?!.292 8.920 VPPI 2= 0.415 73.925 5.550 VPRI 3= 0.413 73.529 5.680 VPPI 4= 0.415 73.373 5.030 CHANC-E ANY DATA 7 4 ff0 TEMP. AND PPEi!. CCFFECTED DATA IOMMAPY i -TIME = 945
| |
| 'DATE'= 1112-TEMF = 75.875730 PPE! = 73.243626 s
| |
| l
| |
| | |
| O IUMMAOY OF MEA!UFED DATA AT TIME 1000 1112 TEMP 1= 75.630 TEND 2= 75.390 TEMP 3= 75.600 TEMP 4= 75.950 TEMP 5= 75.820 TEMP 6= 75.870 TEMP 7= 76.050 TEMP 9= 76.030 TEMP 3= 76.460 TEMP 10 = 76.040 TEMP 11 = 75.600 TEMP 12 = 75.700 TEMP 13 = 76.190 TEMP 14 = 76.190 TEMP 15 = 76.020 TEMP 16 = 75.670 TEMP 17 = 75.590 TEMP is = 75.710 PPES 1= 73.634 72.946 PSIA TEMP INPUT VPP5 1= 0.381 71.441 8.950 VPPI 2= 0.415 73.925 3.650
| |
| '/PPS 3= 0.416 74.000 5.700 VFPS 4= 0.415 73.973 5.030 CHAR 1GE AtW DATA
| |
| = NO TEMP. AND PPE52. CCFPECTED DATA EUMMACY TIME = 1000 DATE = 1112 TEMF = 75.732220 PPE! = 73.223354
| |
| )
| |
| | |
| k f
| |
| IUtiM AF *e' CF MEA!UGED DATA AT TIME 1015 1112 l TEMP 1 = 75.530 TEMP 2= 75.320 TEMP' 3= 75.520 TEMP 4= 75.330 TEMP 5= 75.790 TEMF 6= 75.760 TEMP 7= 75.930 4
| |
| TEMP G= 75.870 TEMP 9= 76.250 TEMP 10 = 75.920 TENF 11 = 75.520 TEMP- 12 = 75.620
| |
| * TEMP 13 = 76.060 TEMP 14 = 76.070
| |
| ! TEMP 15 = 75.940 TEMP 16 = 75.550 TEMP 17 = 75.500 TEMP 18 = 75.600 PFE2 1 = 73.619 72.933 PSIA TEMF IfiPUT VPPI 1 = 0.381 71.441 8.950 VPPS 2= 0.416 74.000 6.900 VPPS 3= 0.416 74.000 5.700 VPDS 4 = 0.414 73.391 5.020 !
| |
| l CHANGE Ata DATA i
| |
| != flO 4
| |
| TEMF. AffD FPEI.E. COPFECTED DATA SUMM@Y TIME = 1915 i DATE = 1112-i TEMO = 75.625690 s PPE5 = 73.20$409 l
| |
| l . _- _ - . _ . _ __ _ _ - _ _ _ _ _ . . _ _ _ _ _ _ _ _ _ _ - - _ . - _ . - _ _ _ _ _ . _ _ _ . _ . . _
| |
| | |
| l l
| |
| O' l
| |
| l l
| |
| l l
| |
| IUMMAPY DF MEASUPED DATA AT TIME 1030 1112 TEMP 1 = 75.440 TEMP 2= 75.230 TEMP 3= 75.420 TEMP 4= 75.720 TEMP 5= 75.730 TEMF 6= 75.670 TEMP 7= 75.330 TEMP S= 75.760 TEMP 9= 76.250 TEMD 10 = 75.830 TEMP 11 = 75.420 TEMP 12 = 75.520 TEMP 13 = 75.970
| |
| )
| |
| TEMP 14 = 75.950 TEMP 15 = 75.820 TEMP 16 = 75.450 TEMP 17 = 75.420 TEMP 15 = 75.510 PPEL 1 = 73.604 72.919 PSIA TEMP INPUT VFPS 1 = 0.380 71.335 S.930 VPFS 2= 0.416 74.000 8.900 VPRS 3= 0.413 73.829 5.650 VPP5 4 = 0.414 73.891 5.020 CHANGE ANY DATA ?
| |
| = tiO TEMF . Arid PPESI. CDPPECTED DATA IUMMARY TIME = 1030 DATE = 1112 TEMP = 75.531849 PRES = 73.1:~5269 ll
| |
| | |
| :y s
| |
| _ _ ~ _
| |
| l n l v
| |
| (''g !
| |
| \m /
| |
| J 1
| |
| IUMMACY OF MEAEUF.ED DATA AT TIME 1045 1112 :
| |
| 1 TEMc ~1 = 75.340 TEMP 2= 75.120
| |
| ~
| |
| i TEMP' 3= 75.310 '
| |
| TEMP 4= 75.620 TEMo 5= 75.600 TEMF 6= 75.550 TEMP 7= 75.710
| |
| , TEMP 2= 75.650 TEMS 9= 76.130 TEMF 10 = 75.700 TEMP 11 = 75.340' TEMP 12 = 75.410 TEMP 13 = 75.880 TEMP 14 = 75.840 i TEMP 15 = 75.670
| |
| : j. TEMP 16 = 75.310 TEMP 17 = 75.300 TEMP 18 = 75.390 PRES 1 = 73.'92 72.907 PSIA TEMP INFUT VPR$ 1 = 0.331 71.388 8.940 VPP5 2= 0.417 74.075 S .92 0
| |
| !~ VPPS 3-= 0.416 74.000 5.700 VFRI 4 = 0.415 73.973 5.030 CHANGE ANY DATA 1
| |
| , = NO TEMP. AND PPES$. CDPFECTED Dr.TA SUMMAGY TIME = 1045
| |
| 'DATE = 1112 TEMP = 75.410720 i]f(- PRES =' 73.161691 l
| |
| | |
| O' IUM.5AFY CF MEAIUPED DATA AT TIME 1100 1112 TEMP 1 = 75.270 TEMP 2= 75.070 TEMP 3= 75.250 TEMP 4 = 75.530 TEMc 5= 75.560 TEMo 6= 75.48(
| |
| TEMP 7= 75.620 TENF S= 75.540 TEMP 9= 76.070 TEMP 10 = 75.640 TEMP 11 = 75.270 TEMP 12 = 75.''60 TENP 13 = 75.800 TEMF 14 a 75.750 TEMP 15 = 75.640 )
| |
| TEMP 1( = 75.250 TEMP 17 = 75.220 TEMo 16 4 75.310 PPE5 1 = 73.530 72.895 PSIA TEMP INPUT VPPI 1= 0.377 71.124 8.890 YPPE 2= 0.416 74.037 8.910 VPPI 3= 0.413 73.829 5.680 VPPI 4= 0.414 73.391 5.020 CHANGE AS'r DATA ?
| |
| = NO TEMP. AhD PPESI. CDPFECTED DATA IUMMAPY TIME = 1100 DATE = 1112 l
| |
| TEMP = 75.337339 l
| |
| l PRES = 73.171344 9'1
| |
| | |
| .n , e
| |
| ' l e
| |
| j l
| |
| 4 IUMMAPY GF MEASUPED DATA AT TIME 1115 1112 TEMP 1= 75.210
| |
| ~ TEMP 2= 75.040 TEMP 3= 75.210
| |
| , TEMF 4= 75.470 TEMP 5= 75.520 TEMP. 6= 75.440 TEMP 7= 75.580' TEMP S= 75.410 TEMF 3= 76.010 TEMF 10 = 75.590 l
| |
| TEMP 11 = 75.220 TEMF 12 = 75.300 TEMP 13 = 75.750 TEMF 14 = 75.710 TEMP 15 = 75.620 TEMP 16 = 75.190 TEMP 17 = 75.160 TEMP 18 = 75.290 PPE5 1 = 73.570 72.885 PSIA TEMP IfiFUT j 'VPP5 1= 0.376 71.018 S.570 VPPS 2= 0.417 74.075 8.320 VPPS 3= 0.416 74.000 5.700
| |
| : VPPS 4= 0.414 73.891 5.020 4
| |
| CHAfiGE AfW DArp ;
| |
| = tiu TEMF. f.hD PPE!S. CCFFECTED DA7A SUMMFPY TIME = 1115-
| |
| [- DATE = 1112 l
| |
| l TEMP = 75.284080
| |
| ) PRES =- 73.166553 u
| |
| | |
| x IUMMAP*i DF MEATUPEL DATA AT TIME 1130 1112 TEMP 1= 75.130 TEMP 2= 74.950 TEMP 3= 75.120 TEMP 4= 75.370 TEMP 5= 75.470 TEMP 6= 75.390 TEMP 7= 75.490 TEMP 8= 75.370 TEMP 9= 75.380 TEMP 10 = 75.510 TEMP 11 = 75.140 TEMP 12 = 75.200 TEMP 13 = 75.690 >
| |
| TEMP 14 = 75.620 TEMP 15 = 75.540 TEMP 16 = 75.110 TEMP 17 = 75.100 TEMP 18 = 75.180 PREI 1= 73.560 72.875 PSIA TEMP INPUT VPRS 1 = 0.373 70.753 9.920 VPPS 2= 0.417 74.075 S.920 VPPS 3= 0.413 73.829 5.680 VPP5 4 = 0.414 73.891 5.020 CHAR +3E ANY DATA 7
| |
| = fiD TEMo. Ar4D PPEII. COPPECTED DATA EUMMARY TIME = 1130 l
| |
| l DATE = 1112 TEMP = 75.205119 1
| |
| PRES = T3.15173E )
| |
| l
| |
| | |
| J I'MMAPi-GF MEASUPED DATA AT TIME 1145 1112 TEMP 1 = 75. 0 7 0 ^
| |
| TEMP 2= 74.830 TEMP 3= 75.070 4
| |
| TEMP 4-= 75.310 TEMP 5= 75.330 TEMF 6= 75.310 TEMP 7= 75.410 TEMP S= 75.250
| |
| . TEMP 9= 75.520 TEMP 10 = 75.450 TEMP 11 = 75.n90 TEMP 12 = 75.140 TEMP 13 = 75.660 TEMP 14 = 75.550 i TEMP 15 = 75.400
| |
| / TEMF 16 = 75.06G TEMP 17 = 75.000 TEMP 18 = 75.110-PPEI 1 = 73.551 72.866 PSIA TEMP INPUT VPPS 1 = 0.373 70.753 8.820 VPPS 2= 0.416 74.037 S.910 l VPP5 3= 0.416 74.000 5.700
| |
| { VFP! 4= 0.414 73.591 5.020 CHANGE AN'r DATA ?
| |
| ;= NO TEMP. AND SPEII. CORPECTED DATA IUMMecy l
| |
| TIME = 1145 i
| |
| i DATE =- 1112 L TEMP =- 75.130379 i
| |
| PPEE = 73.141953 l
| |
| l I
| |
| - - , .. . - - .-. . . - . , - ~ - - - . . - - ..
| |
| | |
| O' IUMMAFY OF MEASUPED DATA AT TIME 1200 1112 TEMP 1 = 75.030 TEMF 2= 74.840 TEMP 3= 75.040 TEMP 4 = 75.270 TEMP 5= 75.340 TEMP 6= 75.270 TEMP 7= 75.380 TEMP S= 75.230 TEMF 9= 75.800 TEMP 10 = 75.370 TEMP 11 = 75.C70 TEMF 12 = 75.080 TEMP 13 = 75.550 TEMP 14 = 75.490 TEMP 15 = 75.350 TEMP 16 = 74.990 '
| |
| TEMP 17 = 74.930 TEMP 18 = 75.040 PRES 1 = 73.544 72.859 PSIA TEMP INPUT YPPI 1 = 0.373 70.753 3.520 VPP5 2= 0.417 74.075 S.920 VPFS 3= 0.413 73.829 5.680 VPPS 4 = 0.414 73.891 5.020 i
| |
| CHANGE ant DATA ?
| |
| = ND l TEMP. AND PRESS. CGPPECTED DATA ILMMAFY TIME = 1200 DATE = 1112 TEND = 75.070230 PRES = 73.135585
| |
| \
| |
| l O'
| |
| 1 l
| |
| | |
| %9' . - _
| |
| 't:
| |
| -SUMMAFY OF ME6!UPED DATA AT TIME 1215 1112 TEMP 1 = 74.960 TEMP- 2 = 74.790 TEMF- 3= 7A.930 TEMF 4= T5.290 TEMP 5= 75.2'50 TEMF d= 75.220
| |
| , TEMP 7= 75.200 J' TEMP' S= 75.180 TEMP 9= 75.720 TEMP 10 = 75.310 TEMP 11 = '74.990 TEMF 12 = 75.0?O TEMP 13 = 75.540 TEMP 14 = 75.430 TEMP 15 = 75.300 TEMP 16 = 74.430 TEMP 17 = 74.870 TEMP 13 = 75.000 FPEI 1 = 73.536 72.351
| |
| ; POIA TEMP INFOT
| |
| _VPPT 1 = 0.373 70.753 S.820 VPPS 2= 0.418 74.158 9.950 VPFS 3= 0.417 74.086 5.710 i VPP5 4 = 0.414 73.391 5.020 i' CHAN6E ANY DATA ?
| |
| '= NO TEMP. AND FFE31. CCRFECTED LATA IUMMAPY TIME = 1215 DATE = 1112 TEMP = 75.015259 PPEI =: 73.126017 w
| |
| | |
| O' SUMMAFY OF MEA!UPED DATA AT TIME 1230 1112 TEMo 1 = 74.950 TEMP 2= 74.760 TEMP 3= 74.93G TEMP 4= 75.140 TEMP 5= 75.250 TEMP 6= 75.170 TEMP 7= 75.250 TEMP S= 75.100 TEMP 9= 75.660 TEMP 10 = 75.250 TEMP 11 = 74.940 TEMP 12 = 74.950 TEMP 13 = 75.510 TEMP 14 = 75.410 ,
| |
| TEMP 15 = 75.190 TEMP 16 = 74.930 TEMP 17 = 74.940 TEMP 18 = 74.960 PRES 1 = 73.529 72.844 PSIA TEMP INPUT VPPS 1 = 0.372 70.700 9.810 VPPS 2= 0.41S 74.185 8.950 YPPS ?= 0.417 74.086 5.710 VPPS 4= 0.416 74.055 5.040 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PRES 3. CDPPECTED DATF SUMMAFY TIME = 1230 DATE = 1112 TEMP = 74.970399 1
| |
| )
| |
| PRES = 73.118279 '
| |
| l
| |
| .I
| |
| | |
| ==SUMMARY==
| |
| OF MEASUFED DATA AT TIME 1245 1112 TEMP 1 = 74.910 TEMP 2= 74.740 TEMP 3= 74.910 TEMP 4= 75.120 TEMP 5= 75.200
| |
| . TEMP 6= 75.140 TEMP 7= 75.210 TEMP- S= 75.060 TEMP 9= 75.620 TEMP- 10 = 75.210
| |
| . TEMP 11 = 74.910 TEMP 12 = 74.920 TEMP 13 = 75.470 TEMP 14 = 75.350 TEl1P '15 = 75.120 TEMP 16 = 74.840 TEMP 17 = 74.820 TEMP 18 = 74.900 PRES 1= 73.522 72.837 PSIA TEMP INPUT VPRI 1 = 0.371 70.647 8.800 VPP! 2 =- 0.418 74.189 3.950 VPRS 3= 0.417 74.086 5.710
| |
| ; VPP5 4= 0.416 74.055 3.040 CHANGE ANY D9TA ?
| |
| =.NO TEMP. AND PFE55. COFPECTED DATA SUMMAFY TIME = 1245 DATE = 1112 TEMP = 74.932300 i PRES = 73.111309
| |
| , . - - , - . . . , , , . . . . - . . . . - _ . . . . - , ,- .- - - , - ,_- .. _ .... .,_.._.m- -
| |
| | |
| l O' I l
| |
| l SUMMAF'/ OF MEASUFED DATA AT TIME 1500 1112 TEMP 1= 74.880 TEMP 2= 74.720 TEMP 3= 74.890 TEMP 4= 75.080 TEMP 5= 75.160 TEMP 6= 75.110 TEMP 7= 75.170 TEMP S= 75.070 TEMP 9= 75.610 TEMP 10 = 75.170 TEMP 11 = 74.870 TEMP 12 = 74.890 TEMP 13 = 75.460 TEMP 14 = 75.310 TEMP 15 = 75.190 '
| |
| j TEMP 16 = 74.800 TEMP 17 = 74.760 TEMP 18 = 74.860 PPEI 1= 73.516 72.831 PSIA TEMP INPUT VPRI 1 = 0.371 70.647 8.800 VPPE 2= 0.417 74.112 8.930 VPRS 3= 0.417 74.086 5.710 VPRS 4= 0.416 74.055 5.040 CHANGE ANY DATA 7
| |
| = NO TEMP. AND PPETS. COFPECTED DATA SUMMAFY TIME = 1300 DATE = 1112 TEMP = 74.897849 PRES = 73.105445
| |
| | |
| c.
| |
| 1 O
| |
| IUMMAFY OF MEAIUFED DATA AT TIME 1315 -1112 TEMc 1 = 74.840.
| |
| TEMF 2= 74.650 TEMP 3= 74.850
| |
| . TEMP 4= 75.010
| |
| ! TEMP 5= 75.130 TEMP 6= 75.040 TEMP 7= 75.120 1- TEMo 8= 74.990 TEMP 9- -
| |
| 75.5I0 TEMD 10 = 75.120 TEMP 11 = 74.840 TEMP 12 = 74.250 TEMP 13 = 75.420
| |
| :d; TEMP 14 = ' 75.240 t
| |
| TEMP 15 = 75.070 TEMP 16 = 74.740
| |
| - TEMP' 17 = 74.716 TEMP 19 = 74.320 PREE 1 = 73.510 72.325 PSIA TEMP INPUT 4
| |
| ~ VPP2 1~= 0.36? 70.:382 8.750
| |
| - VPP'I 2= 0.417 74.075 S.920 VPPS 3= 0.416 74.000 5.700 s
| |
| VPPS 4 = 0.416 74.055 5.040 1
| |
| CHANGE.ANY DATA 7
| |
| ,= NO TEMP. AND PPESS. CCPPECTED DATA IUMMAPY TIME = 1915 DATE =. 1112 TEMP = 74.S43679 F PRES = -73.100271
| |
| ; ms i
| |
| - e-, , , , --o
| |
| | |
| O IUMMAFY OF MEA 5UPED DATA AT TIME 1330 1112 TEMP 1 = 74.S10 TEMP 2= 74.640 TEMP 3= 74.850 TEMP 4= 75.020 TEMP 5= 75.110 TEMP 6= 75.040 TEMP 7= 75.110 TEMP 8= 74.970 TEMP 9= 75.520 TEMP 10 = 75.110 TEMP 11 = 74.830 TEMP 12 = 74.860 TEMP 13 = 75.420 TEMP 14 = 75.240 TEMP 15 = 75.070 TEMP 16 = 74.730 TEMP 17 = 74.710 TEMP 18 = 74.800 PPES 1 = 73.505 72.820 PSIA TEMP INPUT VPP! 1= 0.371 70.594 8.790 VPPS 2= 0.416 74.0?? S.910 VPPS 3= 0.418 74.171 5.720 VPPS 4= 0.416 74.055 5.040 CHANGE ANY DATA ~
| |
| = NO TEMP. ANIi PPE55. CDPPECTED DATA IUMMAPY TIME = 1330 DATE = 1112 TEMP = 74.833149 PPES = 73.094216 9
| |
| | |
| S' l
| |
| !UMMAFY CC MEA 20 FED DATA AT TIME 1345 1112 TEMP 1-= 74.770-
| |
| -TEMP 2= 74.620 TEMP 3= 74.830 TEMP 4= 74.990 TEMP 5= 75.070 TEMP 6= 75.000 TEMP 7= 75.060 TEMP S= 74.960 TEMP 9= 75.450 TENF 10 = 75.070 TEMP 11 = 74.800 TEMF 12 = 74.780 TEMP 13 = 75.340 TEMP 14 = 75.200 TEMc 15 = 75.080 TEMP 16 = 74.670 TEMP 17 = 74.650 TEMP 18 = 74.740 PRES 1 = 73.499 72.814
| |
| . POIA TEMP INFUT VPRi- 1= 0.370 70.541- S.790 VPPS 2= 0.416 74.G37 8.910 VPP5 3= 0.418 74.171 5.720 VPPI 4= 0.416 74.055 5.040 CHANGE ANY DATA ?
| |
| - = NO TEMP. AND PFESS. COFFECTED DATA TUMMAPY 4
| |
| TIME = 1345 1
| |
| DATE =: 1112 O TEMP = 74.783699 l 6 PPEI =- 73.088256 l
| |
| | |
| O IUMMAPY OF MEAEUPED DATA AT TIME 1400 1112 TEMP 1 = 74.760 TEMP 2= 74.600 TEMF 3= 74.320 TEMP 4= 74.960 TEMP 5= 75.060 TEMP 6= 74.980 TEMP 7= 75.040 TEMP 8= 74.980 TEMP 9= 75.440 TEMP 10 = 75.040 TEMP 11 = 74.780 TEMP 12 = 74.760 TEMP 13 = 75.310 TEMP 14 = 75.170 '
| |
| TEMP 15 = 75.030 TEMP 16 = 74.640 TEMP 17 = 74.600 TEMP 18 = 74.710 PPES 1 = 73.492 72.809 PIIA TEMP INPUT VPRT 1= 0.370 70.541 S.780 VPPS 2= 0.416 74.000 S.900 VPPS 3= 0.418 74.171 5.720 Voos 4= 0.415 73.973 5.030 i
| |
| i CHANGE ANY DATA ?
| |
| = NO TEMP. AND PPE5!. CDPRECTED DATA EUMMAFY l TIME = 1400 DATE = 1112 TEMP = 74.755409 PRES = 73.082684 J
| |
| | |
| C'i.'
| |
| t h_, .
| |
| SUMM9F:r CF MEASUFED DATA AT TIME 1415 1112 TEMP 1= 74.750 TEMP 2= 74.530 TEMP 3 =. 74.830 TEMP 4= 74.560 TEMP' 5= 75.670 ,
| |
| TEMP 6= 74.980 TEMP 7= 75.020 1 EMF S= 74.996 TEMP 9= 75.42G TEMP 10 = 75.040 TEMP 11 = 74.770 TEMP 12 = 74.750 TEMP 75.300 li =
| |
| . -TEMP 14 = 75.150 TEMP 15 = 75.050 TEMP 16 = 74.630 TEMc 17 = 74.580 TEMP 18 = 74.700 PPES 1 = 73.487 72.803 PSIA TEMP INFUT VPPS 1= 0.369 70.405 S.760 VPPS 2= 0.417 74.075 8.920 VPPS 3= 0.416 74.000 5.700 VPPS 4= 0.415 73.973 5.030 CHANGE ANY DATA 7
| |
| = tlO j- TEMP. Arid PPE!!. CCPPECTED DATA IUMMAFY TIME = 1415 DATE = 1112 TEMP = 74.745599
| |
| ' e f' PRE! = 73.078458 C=
| |
| .- , , . . . , . - - ..e, e , a ,- - - , - , - - - - - - - - - - - - - - -,,-.re-,s-- ,
| |
| | |
| l i
| |
| l l
| |
| ~.
| |
| l l
| |
| l 50MMAFY OF MEAIUPED DATA AT TIME 1430 1112 TEMP 1 = 74.720 TEMP 2= 74.570 TEMP 3= 74.800 TEMP 4 = 74.920 75.030
| |
| . TEMP 5=
| |
| TEMF 6= 74.940 TEMP 7= 75.010 TEMP 5= 75.030 TEMF 9= 75.370 TEMP 10 = 75.000 TEMP 11 = 74.740 TEMP 12 = 74.710 TEMP 13 = 75.270 TEMP 14 = 75.120 TEMP 15 = 74.990 1 TEMP 16 = 74.600 TEMP 17 = '4.560 1 TEMP 18 = /4.680 PPES 1 = 73.483 72.799 PSIA TEMF INPUT VFP! 1 = 0.371 70.594 8.790 '
| |
| VPRI 2= 0.417 74.075 8.920 VPPS 3= 0.417 74.086 5.710 VFPS 4= 0.413 73.909 5.010 CHANGE ANY DATA 7
| |
| = NO TEMP. AND PPESI. CDPPECTED DATA IUMMARY TIME = 1430 DATE = 1112 TEMP = 74.7242Sc 1
| |
| PRES = 73.074481 1
| |
| e
| |
| | |
| l I
| |
| i l
| |
| 1
| |
| 'f3
| |
| _ -h EUMMAS.i OF MEATUFED DATA AT TIME 1445 1112
| |
| , TEMP 1 = 74.680 TEMP 2= 74.540 TEMP 3= 74.780 TEMP 4= 74.890 TEMP 5= 74.990 TEMP 6=' 74.910 TEMP 7= 74.970 TEMP S= 75.050 TEMP. 9= 75.320 TEMP 10 = 74.980
| |
| . TEMP 11 = 74.700 TEMP 12 = 74.670 TEMP 13 = 75.220
| |
| /, TEMF 14 = 75.090 TEMP 15 = 74.920 TEMP 16 = 74.570 TEMP 17 = 74.520 TEMP 13 ' = 74.630
| |
| =
| |
| PPEi 1 = 73.479 72.795 PSIA TEMP INFUT VPPS 1 = 0.368 70.332 8.750 YPPS 2= 0.416 74.037 8.910 VPPI 3= 0.417 74.086 5.710 VPPI 4= 0.414 73.591 5.020 CHANGE ANY DATA 7
| |
| = NO i TEMP. AND PFE55. CCFPECTED DATA SUMMAFr TIME = 1445
| |
| ( . DATE = 1112 1
| |
| i TEMP = 74.659139 1 l
| |
| !' PPES = 73.070541
| |
| (''N
| |
| \l l
| |
| -1 l
| |
| I~
| |
| : p. y y,, , a y-- --
| |
| - . _ - - -$1, .,--e w.-- -vg--,-2-_ yy 3-+.g , -y y
| |
| | |
| O IUMMACY OF MEA 1UPED DATA PT TIME 1500 1112 TEMP 1 = 74.e40 4
| |
| TEMP 2= 74.510 TEMP 3= 74.740 TEMP 4= 74.850 TEMP 5= 74.920 TEMP 6= 74.880 TEMP 7= 74.930 TEMP 5= 74.950 TEMP 9= 75.310 TEMP 10 = 74.920 TEMP 11 = 74.670 TEMP 12 = 74.640 TEMP 13 = 75.180 TEMP 14 = 75.060 TEMP 15 = 74.980 TEMP 16 = 74.550 TEMP 17 = 74.510 TEMP 18 = 74.610 PPES 1 = 70.d?4 72.790 PSIA TEMP INPUT VPRS 1 = 0.369 70.455 8.770 VPRS 2= 0.416 74.000 8.900 VPPS 3= 0.418 74.171 5.720 VPPS 4= 0.416 74.055 5.040 CHANGE ANY DATA i
| |
| = NO TEMP. AffD PPE!!;. COPPECTED DATA SUMMAPY TIME e 1500 DATE = 1112 TEMP = 74.663149 PREI = 73.064221 O'
| |
| | |
| \
| |
| O SUMMAG'i OF MEASURED DATA AT TIME 1515. 1112 TEMP 1= 74.640 TEMP 2= 74.510 TEMF 3= 74,720 l ' TEMP 4= 74.540 TEMP 5= 74.920.
| |
| t TEMP 6= 74.860 TEMc 7= 74.950 TEMP 6= 74.960 TEMP 9= 75.260 TEMF 10 = 74.900 TEMP 11 = 74.66G' TEMP 12 =- 74.620 TEMo 13 = 75.190
| |
| . TEMP 14 = 75.040 TEMP 15 = 74.920 TEMP 16 = 74.510 TEMP 17 = 74.470 TEMP 18 = 74.590 FPES 1 = 73.463 72.784 PSIA TEMP INFUT VPRT 1= 0.368 70.332 8.750 VPP! 2= 0.415 73.962 8.890 VPPI 3= 0.415 74.171 5.720 VPPI 4 = 0.416 74.055 5.040 CHAfME ANY DATA T n'NO TEMP. AND PPE31. CDFPECTEL DATA IOMMAPY TIME = 1515 DATE = 1112 TEMP = 74.636580 L
| |
| l .s PFES = 73.058444
| |
| ! x
| |
| , m p , , - , - - --- , - - - - , - , , - - ,w-,, ,4 . . . - ., , - , ,. , .,,
| |
| | |
| O' SUMMAPY OF MEAIUPED DATA AT TIME 1530 1112 TEMP 1 = 74.630 TEMP 2= 74.490 TEMP 3= 74.700 TEMP 4 = 74.820 TEMP 5= 74.920 TEMP 6= 74.850 TEMP 7= 74.890 TEMP S= 74.920 TEMP 9= 75.260 TEMP 10 = 74.880 TEMP 11 = 74.650 TEMP 12 = 74.620 TEMP 13 = 75.140 TEMP 14 = 75.040 TEMP 15 = 74.880 TEMP 16 = 74.500 TEMP 17 = 74.460 TEMP 18 = 74.560 PRES 1 = 73.466 72.782 PSIA TEMP INPUT VPPS 1= 0.369 70.488 8.770 VPP5 2= 0.416 74.000 9.900 VPPI 3= 0.419 74.257 5.730 VPRS 4= 0.415 73.973 5.030 CHANGE ANY DATA ? !
| |
| = NO TEMP. AND PPEII . CDFFECTEL DATA IUMMAFY i l
| |
| TIME = 1530
| |
| 'DATE = 1112 TEMP = 74.619999 PRE 5 = 73.056122 O'
| |
| | |
| IU91MAFY CF MEASLPED DATA AT TIME 1545 1112 TEMF 1 = 74.610 TEMF 2= 74.47C TEMD 3= 74.660 TEMP 4 = 74.780 TEMP 5= 74.850 TEMP 6= 74.S?O
| |
| . TEMP ~ 7= 74.370 TEMF S= 74.890 TEMP ?= 75.210 TEMo - 10 = 74.870 TEMF 11 = 74.610 TEM.c 12 = 74.560 TEMP 12 = 75.140 TEMo 14 = ' 74.990 TEMP 15 = 74.580 TEMP 16 = 74.460 TEMP 17 = 74.420 TEMP 15 = 74.590 l' PPEI 1 = 73.462 72.775 PSIA TEMP INFUT VPRI 1 = 0.369 70.493 S.770 4
| |
| ' VPPI 2= 0.417 74.075 8.920
| |
| ,VPPS 3= 0.416 74.000 5.700 1
| |
| YPPI 4 = 0.414 79.891 5.020 i CHAR 4GE Arrt DATA
| |
| = NG TEMP. ANL PPE55. CCFFECTED DATA SUMMAPY TIME = 1545 DATE = 1112 TEMP = 74.586880 l
| |
| w PPE5 =- 73.0535n7 I
| |
| - , - . . _ _ - , , n -,- . . , ...n., . . . , - _ . . , . . , , - - , . - ,. _ , ,..n.. e., . . - ., . ,
| |
| | |
| O IUMMAFY DF MEAIURED LATA AT TIME 1600 1112 TEMP 1 = 74.550 TEMP 2= 74.450 TEMP 3= 74.640 TEMP 4= 74.770 TEMP 5= 74.830 TEMF 6= 74.790 TEMP 7= 74.850 TEMP S= 74.890 TEMP 9= 75.220 TEMP 10 = 74.820 TEMP 11 = 74.600 TEMP 12 = 74.530 TEMP 13 = 75.100 TEMP 14 = 75.000 ,
| |
| TEMP 15 = 74.870 TEMP 16 = 74.440 TEMP 17 = 74.400 TEMP 18 = 74.520 PPE! 1 = 73.459 72.775 PSIA TEMP INFUT VPP5 1= 0.371 70.647 8.800 VPR5 2= 0.417 74.075 8.920 VPPI 3= 0.417 74.056 5.710 VPP5 4= 0.414 73.891 5.020 CHANGE ANY DATA 7
| |
| = ND TEMP. AND PPE11. COPPECTEL DATA IUMMAFN TIME = 1604 LATE = 1112 TEMP = 74.568589 PPE5 = 73.049781 )
| |
| 1 -. ._
| |
| | |
| IUMMARY CF MEASUFED DATA AT TIME 1615 1112 TEMP 1= 74.560 TEMP 2= 74.440
| |
| ; TEMP 3= 74.630
| |
| ; TEMP 4= 74.750 TEMP 5= 74.830
| |
| -TEMP 6= 74.760 TEMP 7= 74.82C TEMP S= 74.800 TEMP 9= 75.150 TEMP 10 = 74.310 TEMP 11 = 74.570 TEMP 12 = 74.510 TEMP- 13 = 75.050 i- TEMP 14-= 74.960 l TEMP 15 r 74.790 TEMP 16 = 74.420 TEMP 17 = 74.390 I
| |
| TEMP' 18 = 74.520 PPE! 1 = 73.455 72.771 PSIA TEMP Ir4PUT VPRI 1= 0.371 '0.647 8.800 l VFFS 2= 0.417 74.075 S.920
| |
| ; VPPI 3= 0.418 74.171 5.720 VPPS' 4 = 0.414 73.591 5.020 CHArfGE Fin DATA 7
| |
| := riu '
| |
| TEMP. AfiD PPE!!. CDFPECTED DFTF IUMMFCY TIME = 1615 l DATE = 1112 L TEMP = -74.549319 1
| |
| N PPES = 73.0453?2 v-
| |
| - - . . - - - r- - - - . , , ------,7- - - - + y - , , - - , , ,,9 , , - .,-,g-y- -- ,w-> 9 -y e e.
| |
| | |
| l O'
| |
| l SUMMAPY OF MEAIUCED LATF AT TIME 1620 1112 TEMP 1 = 74.520 TEMP 2= 74.410 TEMF 3= 74.610 TEMP 4 = 74.730 TEMP 5= 74.800 TEMF 6= 74.760 TEMP 7= 74.790 TEMP 8= 74.830 TEMP 9= 75.130 TEMP 10 = 74.780 TEMP 11 = 74.570 TEMP 12 = 74.500 TEMF 13 = 75.010 TEMP 14 = 74.940 TEMP 15 = 74.870 TEMP 16 = 74.420 TEMP 17 = 74.380 TEMP 18 = 74.480 PRES 1 = 73.452 72.768 PSIA TEMP INPUT VPRS 1 = 0.371 70.647 8.800 VPRI 2= 0.416 74.000 8.900 VPPS 3= 0.416 74.000 5.700 VPPI 4 = 0.412 73.727 5.000 CHANGE ANY DATA 7
| |
| = ND TEMP. AND PPE!!. CDPPECTEL DATA $UMMAPY TIME = 1630 DATE = 1112 TEMP = 74.535589 PRES = 73.044076 O
| |
| | |
| -. s i
| |
| IUMMAGY OP MEAIUFED DATF AT TIME 1645 1112 TEMP 1 = 74.490 TEMP 2= 74.380 TEMP 3= 74.600' TEMF 4= 74.710 TEMF' 5= 74.790 TEMP 6= 74.720 TEMP 7= 74.790 TEMP 8= 74.780 TEMP 9= 75.120 TEMP 10 = 74.770 TEMP 11 = 74.520 TEMP 12 = 74.470 TEMP 13 = 75.060
| |
| -/ TEMP 14 = 74.900-TEMP 15 = 74.780 TEMP 16 = 74.350 TEMP 17 = 74.330 TEMP 18 = 74.440 -
| |
| PREi 1 = 73.449 72.765 PSIA TEMP INPUT VPPE 1 = 0.371 70.647 S.800 VPRI 2= 0.416 74.000 8.900 VPPS 3= 0.417 74.086 5.710 VPPI 4= 0.413 73.805 5.010
| |
| -CHANGE ANY DATA ?
| |
| = tiO 4
| |
| , TEMP. AND PPE55.-CDPPECTED DATA IUMM65Y J
| |
| TIME = 1645
| |
| +
| |
| DATE = 1112 TEMP = 74.490699
| |
| -PPES = 73.040258 j
| |
| f-'g IL).
| |
| l l l
| |
| [7 l-u_______ _ . _ _ _ _ _ _ _ _ _ _ _ . . _ . _ _ . _ .,. _ _ ,_ _ . . u. _ __ _ - _. _ ,_ . _
| |
| | |
| O IUMMACV CF MEAIUPED DATA AT TIME 1700 1112 TEMP 1 = 74.500 TEMP 2= 74.390 TEMP 3= 74.580 TEMP 4= 74.690 TEMP 5= 74.760 TEMP 6= 74.710 TEMP 7= 74.750 TEMP S= 74.770 TEMP 9= 75.110 TEMP 10 = 74.770 TEMP 11 = T4.520 i
| |
| TEMP 12 = 74.450 TEMP 13 = 75.030 TEMF 14 = 74.890 TEMP 15 = 74.770 ;
| |
| TEMP 16 = 74.370 TEMP 17 = T4.330 TEMP 18 = 74.430 PRES 1 = 73.445 72.761 PSIA TEMP INPUT VPPS 1 = 0.271 70.647 S.800 VPP5 2= 0.416 74.000 S.900 VPPS 3= 0.417' 74.086 5.710 VPPS 4= 0.413 73.309 5.010 CHANGE ANY DATA ?
| |
| = NO TEMP. AT1D PPE51. CCPPECTED DATA SUMMAF'i TIME = 1700 DATE = 1112 TEMP = 74.489539 PRES = 73.036220
| |
| ' l l
| |
| I
| |
| | |
| a -
| |
| t a r.
| |
| ' 4 i
| |
| a i
| |
| SUMMAE'r DF MEASUPED DATF AT TIME 1715 1112 TEMP 1 = 74.450 TEMP 2= 74.250 TEMP 3= 74.560 TEMP 4= 74.650 TEMP 5= . 74.740 TEMP 6= 74.690 TEMP 7= 74.740
| |
| -TEMP 8= 74.770 TEMP 9= 75.060
| |
| . TEMP 10 = 74.740 TEMP 11 = 74.490 TEMP 12 = 74.420
| |
| . TEMP 74.990 TErd -
| |
| 74.830 ,
| |
| TEM, 15 = 74.710 TEMP 16 = 74.330 TEMP 17 = 74.280 TEMP 18 = 74.400 FPES 1= 73.442 72.755 PSIA TEMP INPUT VPPS 1= 0.371 70.647 8.600 VPPI 2= 0.416 74.000 S.900 VPRS 3= 0.419 74.171 5.720 VPPS 4 = 0.413 73.509 5.010
| |
| , CHANGE ANY DATA ?
| |
| != fiD -
| |
| TEMP. AND PPE!!. COPPECTED DATA
| |
| | |
| ==SUMMARY==
| |
| | |
| TIME = 1715 DATE = 1112 TEMP = T4.452640 PRES = 73.032781
| |
| ';r 4
| |
| s
| |
| _, 4 9 -p -
| |
| arw T' "-N'F ''"' ' '
| |
| | |
| IUMMAPY CF MEA!bPEL LATA AT TIME 1730 till TEMP 1 = 74.440 TEMP 2= T4.320 TEMP 3= 74.530 TEMP 4 = 74.620 TEMP 5= 74.690 TEMP 6= 74.650 TEMP 7= 74.700 TEMP 8= 74.530 TEMP 9= 75.060 TEMP 10 = 74.T00 TEMP 11 = 74.460 TEMP 12 = 74.400 TEMP 13 = 74.960 TEMP 14 = 74.320 TEMP 15 = 74.700 TEMP 16 = 74.280 TEMP 17 = 74.250 TEMP 18 = 74.379 PRE! 1 = 73.449 72.755 PSIA TEMP INFUT VPPS 1= 0.370 70.541 S.78(
| |
| VPPS 2= 0.416 74.037 S.91C VPPS 3= 0.417 74.086 5.71C VPPI 4= 0.413 73.809 5.01h CHANGE ANi DATA 7 0 tid TEMP. AND PPE01. COPPECTED LATA SUMMAPY TIME = 1730 DATE = 1112 TEMP = 74.426630 PRES = 73.030259 l
| |
| | |
| 4 4
| |
| l l
| |
| 4 i
| |
| l IUMMA;Y OF MEAIUcED DATA AT TIME 1745 1112 l
| |
| TEMP 1 = 74.400 TEMc 2= 74.210 4
| |
| TEMP 3= 74.510 TEMP 4 = 74.606 TEMP 5= 74.6S0 TEMP 6= 74.630 1
| |
| TEMP 7= 74.650
| |
| +
| |
| t TEMF S= 74.660-TEMP 9= 75.030 TEMF 10 = 74.d50 TEMF 11 = 74.440 TEMF 12 = 74.350 i
| |
| TEMF 13 = 74.990 4 TEMP 14 = 74.796 TEMe 15 = 74.600 TEMC 16 = 74.260 TEMF 17 = 74.220 TEMF 18 = 74.340 PPES 1= 73.435 72.751 j
| |
| ' PEIA TEMP INPUT VPRI 1 =- 0.371 70.647 8.800 VPRT 2= 0.416 74.037 8.910 VFPS 3= 0.415 74.171 5.720 VFP? 4= 0.413 73.809 5.010
| |
| ^ CHAf4GE A*W DATA T
| |
| ;= f40 t
| |
| e.
| |
| TEMP. AND PPE51. CCPPECTED DATA SUMMAFY TIME = 1745 i.
| |
| DATE = 1112 TEMP = 74.402289 i,
| |
| c(ass
| |
| -PRES = 73.025620 L
| |
| | |
| O' IUMMA;Y OF MERIUPED DATA AT TIME 1900 1112 TEMP 1 = 74.370 TEMP 2= 74.260 TEMF 3= 74.490 TEMP 4 = 74.560 TEMo 5= 74.650 TEMP 6= 74.590 .
| |
| TEMP 7= 74.640 TEMP S= 74.640 TEMP 9= 74.990 TEMP 10 = 74.610 TEMP 11 = 74.390 TEMP 12 = 74.330 TEMD 13 = 74.590 TEMP 14 = 74.780 TEMo 15 = 74.590 TEMo 16 = 74.260 TEMP 17 = 74.190 TEMF 18 = 74.300 PPE5 1 = 73.432 72.748 PSIA TEMF INPUT VPP5 1 = 0.371 70.647 S.300 '
| |
| VPR" 2= 0.416 74.037 S.910 i YPP3 3= 0.418 74.171 5.720 l VPPS 4= 0.413 73.809 5.010 l 1
| |
| )
| |
| CHA' IGE ANi DATA ?
| |
| = NO TEMP, AND PPE!!. COPPECTED DFTA IUMMAP'y TIME = 1800 LATE = 1112 TEMP = 74.375699 1
| |
| PRES = 73.022591 1 Ol l
| |
| l
| |
| - ~ ~ .
| |
| | |
| 1 I
| |
| i i-SUMMAFY OF MEAT'cPED DATA AT TIME 1815 1112 1
| |
| 1 TEMP 1 = 74.330 TEMP 2= 74.220 TEMP 3= 74.450 TEMP -1 = 74.550 ;
| |
| TEMP 5= 74.610 TEMP =6 = 74.570 j -TEMP 7= 74.600 TEMP G= 74.810 (
| |
| TEMP 9= 74.950 TEMP 10 = T4.610 TEMP 11 = 74.3?0 TEMF 12 = 74.280
| |
| . TEMP 13 = 74.890
| |
| 'i TEMP 14 = 74.750 TEMP 15 = 74.600 +
| |
| TEMP 16 = 74.210 TEMP 17 = 74.170 1
| |
| TEMP 18 = 74.290 PRES 1= 73.429 72.745 i
| |
| PSIA TEMP INFUT VPPS 1 = 0.370 70.541 8.780
| |
| .VPPI 2 =. 0.416 74.000 8.900 VPPI 3= 0.41S 74.171 5.720 VPP! 4= 0.412 73.727 5.000 CHPNGE ANY DATA 1
| |
| = NO TEMP. AND PPE!!. COEFECTEL DATA SUMMA 5Y TIME = 1815 DATE = 1112 r TEMP =- 74.348719
| |
| .PPEI = 73.020228
| |
| - - - - _ _ _ _ _ _ _ .. _ ,e 4_,% , 4 m,_- ,,,,,,_,w _,%,y_,, .,. %-., ., ,,..ny, -w,_.-,-.7
| |
| | |
| O' IUMMAPY OF MEAI. PED DATA AT TIME 1950 1112 TEMF 1 = 74.31 0 TEMP 2= 74.190 TEMF 3= 74.410 TEMP 4= 74.510 TEMP 5= 74.610 TEMF 6= 74.550 TEMF 7= 74.590 TEMP S= 74.620 TEMP 9= 74.960 TEMP 10 = 74.610 TEMP 11 = 74.370 TEMP 12 = 74.290 TEMP 13 = 74.850 TEMP 14 = 74.730 TEMF 15 = 74.510 TEMP 16 = 74.190 TEMP 17 = 74.140 TEMP 19 = 74.240 PRES 1= 73.427 72.743 PSIA TEMP INFUT VPPS 1 = 0.370 70.541 8.780 VPRI 2= 0.416 74.000 9.900 VPRS 3= 0.418 74.171 5.720 VPPE 4= 0.412 73.727 5.000
| |
| =
| |
| CHANGE ANY DATA 7 ND TEMP. AND PPE!i. CGPPECTED DATA IOMMAFY TIME = 1930 DATE = 1112 TEMP = 74.32090.4 PRES = 73.018209 9'
| |
| | |
| w _- -. .-, - - - - - - - - - - - - - - - -
| |
| -6 c'
| |
| lO -
| |
| Y l
| |
| 1 l
| |
| O 4,
| |
| O
| |
| | |
| d
| |
| , (I r
| |
| AF t 6t*
| |
| * F 7 .;r!? 1 VEF IF ?9 i:II'5 ILFT TIME. DATE : W T CF T6 i f 2145 1112 3
| |
| tit 4E AFTEP ITAFT CF REST = 4.75 bc
| |
| , TFENM EFiEE Ch TCTA.. - T IME ''9LCOLFT ICi*'T j HOUEI LMTA NE4, CF CALCLL.cTEL CW Iri .ALO LE
| |
| : CF TEIT EtiTFIE~ *EA: LF LEAP FATE CCCM L6:T *CINT 0.75 4 - 0 .26 0 E + 0 '. 0.211E+0r i 1.00 5 - 0.17 0E + p r. 0.275E+00 0.622E-01 1.25 6 -0.116E+0e 0.296E+00 0.167E-el l7 1.50 7 -0.5.12-r1 0.255E4 C '. 0 . 6.: 6E - is !
| |
| It 1.75 8 -0.25iE-01 0.347E+0C - 0. 77 0E- 02 2.00 9 -0.255E-?i 0 . 351 E + 0 f- 0.392E-02 2.25 10 9.153E-61 0.2t1E+00 6.363E-OS 2.50 11 0 . 31 1 E- C.1 0.325E600 -0.166E-91 4
| |
| 2.75- 12 0.476E-n1 0.34cE+og 0.519E-6.
| |
| 3.00 13' O.il2E-01 0.'34?E+00 0.515E-95
| |
| '3.25 14 0.T51E-01 0.154E+C0 6.924E-Oi 3.50 15 0 . i:46E-01 0.351E+C0 -0.304E-02 3.75 -16 0 . 9 61 E- i) 1 0.335E+00 -0.132E-01 4.00 17 0. 954E- r.1 0.32SE600 -0.990E-05 >
| |
| 4.25 15 0 . 9 49E-- 61 0. ?!9E +6 0 -0.925E-Oi 4.50- 19 0.li.4E+09 0.210E+00 - 0 . 5 5 0- E - 6.-
| |
| 4.75 20 0.16TE+C0 0. 3 02E+ 0 0 -0.9296u.2
| |
| , . THE CFLCf. LATED LEFr F6TE IT 0 . ? O EE + r. 0 THE t1*W IPNM FLLC'. H.. ti L'E .4 Phii l '. C.
| |
| THE L6.:T 'i LAT6 :Dir*TI Etfel 109 F NEScT T'"E ILCFE t
| |
| i
| |
| | |
| 1 O'
| |
| RFF. Afi:F I '? IT 1 /fft: to FI!i3 ILFT l 1
| |
| l I
| |
| i 1
| |
| l TIr1E . ;g rE IT AE T CF TFIT 2145 1112 TIME LFTEP i'AET Gt TE:T = 4.75 HE LEAt RATE SAIEI CS TO T AL -!I-f CF!.CUL AT ICt 2 TIME T Ef'F . PF E I II. E E r.E H ':. E I C AL.". '. L A TE D G5* C CbF i rF h': F
| |
| : s. F 's f!! A - LE A* FGid L E. AP FFTE LIMIT:
| |
| 2200 76.25 73.270 - 0 . 214E + <i 0 -i.5 6E-f;1 -r. 56E+0ri 0 . .c'i. + (a .
| |
| 3215 Ti . I.T 73.275 -6.45:E '! -i.d vE-(1 -r. 54E+0C 0.4 2 + / ':
| |
| 2230 76.35 75.279 0. li!E + f> ( -0.4J22 ~.1 - 0 . 51 E + r' 0 U . J i E + t' '
| |
| 2245 76.41 73.254 0 . '-! ! E '.1 -0.d162-01 -0.4SE+00 6 . 4 4 . + 0 t.
| |
| 2 ? O fi 79.49 75.5:19 0.104E+0c - U . 9 ? ? E - r. I -0.46E+00 0 . 4 ? 2 + r. r.
| |
| I315 'i.51 75.290 0 . ii E + ic s t.ib'E-61 -0.43E+00 f. 4 TE + r:i:
| |
| I l l i. Ti.5: 75.ib 0.14 TE + 0 '. v.411F-51 -0.41E+0( 0.49E+r 1545 Ti.56 71.156 0 . l i 1 E + '. 0 0.iatE-r1 -0.:s?.00 c . =. t E + r.
| |
| 24 0 f' 76.60 73.299 0.155E + % 0 . : 5 6E - f.1 -0.15E+0(. 9.5 ?i + r#
| |
| 15 79.59 ? ? . 5 0.. 0 .14 5E + i. '- 0 .10 T E + 'r ! -0.34E+0f. 0.55E + 0 r' 20 76.67 T .2 . 04 0.10-E+'s 0 . l i ; E + '~. f - 0 . I E E + ig t. 0.Sc.+rr 45 76.70 '?.30i 0 . .: 1 7 E + '".- 0 .151 E + r. r. -0.30E+0r, r. . A + r. 0 100 76.74 75.:.0i C.i42E+0C 0.172E+0C - 0 . ii E + 0 r. 0.-iE+r0 115 Ti.74 75.310 0 . i t..f E + '. . ? 9.194E+r.0 - 0 . ii p + 0 c. 0,.:dE+rn 13 fi 79.74 T'.511 0.16?E+00 0.iltE+nr -n.24E+id 0 . i. TE + r. s .
| |
| 14E. <..<+
| |
| ..-1 :
| |
| '. A. . l <' ". .C + i. '.. 'i . .W. '"w+ r.m
| |
| . -r.::E+06 0. r n: + n r.
| |
| 200 Ti.75 T3.31: 9 .172 E + c. i! 0.d59E+00 -0.11E+00 0 . 72 E + n r:
| |
| 215 76.:! ! T .117 0.172E + -( 0.li1E+0C -0.19E+00 0 . ' 5 E + r. 9 23D 76.53 7:3. 3 t ? 0.16TZ+00 0.:.JE+0C -0.17E+00 (; . ? : c + r. r.
| |
| IF IT II, FI?Ur'EI TFAT THE LEN FATE 17 7 0.' . T9FT :
| |
| THE MEFf- I *. 0.10TE+0L THETFNIFt.I L E'v 1F 11Cr 1 : 0 . I ;.a E + 0 s -
| |
| THE CFLCUL6TEI. LEAF FFTE F TEF 4 . 7 ". H'.:t r i CF TE:T I ?. 3 r E E+ 0 r:
| |
| I
| |
| | |
| . _ . _ . . _n i O
| |
| (
| |
| i
| |
| | |
| ==SUMMARY==
| |
| OF MEASI.< FED DATA AT TIME 2145 1112 TEMP 1= 76.940 TEMP 2= 76.050 TEMP 3= ~ 76. 06 0 TEMP 4= 76.850 TEMP 5= 76.470 TEMP 6= 76.210 TEMP 7= 76.600 TEMP S= 76.640 TEMP 9= 76.540 TEMP 10 = 76.870 TEMP 11 = 76.200 TEMP 12 = 75.950 i TEMP 13 = 76.730
| |
| .(
| |
| ) TEMP TEMP 14 15
| |
| =
| |
| =
| |
| 76.920 76.510 TEMP 16 = 76.130 TEMP 17 = 76.030 TEMP 18 = 76.150 PRES 1= 73.686 73.000 PSIA TEMP INPUT VPRI 1= 0.399 72.765 9.200 ,
| |
| VPPS 2= 0.415 73.962 S.890 VPPS 3= 0.429 74.943 5.810 VPPS 4= 0.423 74.545 5.100 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PFESE. CCFRECTEL DATA IUMMARY TIME = 2145 DATE = 1112 TEMP = 76.259679 s PRES = 73.265971 s ,
| |
| l l
| |
| L l
| |
| | |
| O SUMMAFY OF MEASUPED DATA AT TIME 2200 1112 TEMP 1 = 76.900 TEMP 2= 76.020 TEMP 3= 76.060 TEMP 4= 76.830 TEMP 5= 76.420 TEMP 6= 76.220 TEMP 7= 76.570 TEMP S= 76.650 TEMP 9= 76.520 TEMP 10 = 76.850 TEMP 11 = 76.150 TEMP 12 = 75.920 TEMP 13 = 76.780 TEMP 14 = 76.910 TEMP 15 = 76.550 j TEMP 16 = 76.010 TEMP 17 = 76.120 TEMP 18 = 76.130 PRES 1 = 73.692 73.006 PSIA TEMP INPUT VPPS 1 = 0.402 73.029 9.250 VPPS 2= 0.415 73.962 S.890 VPPS 3= 0.433 75.200 5.840 VPPS 4= 0.423 74.545 5.100 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PPESI. COPPECTED DATA SUMMAPY TIME = 2200 DATE = 1112 TEMP = 76.245629 PRES = 73.270264
| |
| )
| |
| | |
| ~N
| |
| (
| |
| x i
| |
| OUMMARY CF MEASUPED DATA AT TIME 2215 1112 4
| |
| TEMP 1= 76.99)
| |
| TEMP 2= 76.120 TEMP 3= 76.110 TEMP 4= 76.920 TEMP. 5= 76.410 '
| |
| TEMP 6= 76.330 TEMP 7= 76.650 TEMP S= 76.710
| |
| , TEMP 9= 76.680 TEMF 10 = 76.920 I TEMP 11 = 76.180 TEMP 12 = 76.020 TEMP 13 = 76.800 I TEMP 14 = 76.910 TEMP 15 = 76.5?0
| |
| . TEMP 16 = 76.100
| |
| : TEMP 17 = 76.170 TEMP 18 = 76.220 PPES 1 = 73.697 73.011 PSIA TEMP If4FUT VPRS 1 = 0.402 73.029 9.250 VPRS 2= 0.416 74.000 8.900 75.200 YPPS 3-= 0.433 5.840 VPPS 4= 0.423 74.545 5.100 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PPESS. COPPECTED DATA
| |
| | |
| ==SUMMARY==
| |
| | |
| TIME = 2215 DATE = 1112 t
| |
| TEMP = 76.316829 PPES = 73.275218
| |
| --w -=
| |
| y- 3 --. e - g-- - v
| |
| | |
| O l
| |
| SUMMAP'r OF MEAIUPED DATA AT TIME 2230 1112 TEMP 1 = 77.010 TEMP 2= 76.140 TEMP 3= 76.220 TEMP 4= 76.9?O TEMP 5= 76.600 TEMP 6= 76.350 TEMP 7= 76.730 TEMP S= 76.770 TEMP 9= 76.710 TEMP 10 = 76.990 TEMP 11 = 76.230 TEMP 1. 2 = 76.120 TEMP 13 = 76.870 TEMP 14 = 77.040 TEMP 15 = 76.600 TEMP 16 = 76.140 TEMP 1. 7 = 76.250 TEMP 18 = 76.280 PPES 1 = 73.701 73.015 PSIA TEMP INPUT VPP! 1 = 0.402 73.029 9.250 VPPS 2= 0.416 74.000 8.900 VPPS 3= 0.433 75.200 5.840 VPR5 4= 0.423 74.545 5.100
| |
| =
| |
| CHANGE ANY DATA ?
| |
| NO TEMP. AND PRESS. COPPECTED DATA
| |
| | |
| ==SUMMARY==
| |
| | |
| TIME = 2230 DATE = 1112 TEMP = 76.378279 PRES = 73.279257 O'
| |
| I l
| |
| | |
| ['
| |
| SUMMAFY OF MEASUPED DATA AT TIME 2245 1112 TEMP 1 = 77.120 TEMF 2= 76.160 TEMP ?= 76.210 TEH.k 4= 77.060 TEMP 5= 76.480 TEMP 6= 76.420 TEMP 7= 76.730
| |
| * TEMP 8= 76.850 TEMF 9= 76.800 TEMP 10 = 77.050 TEMP 11 = 76.330 TEMP 12 = 76.050 TEMP 13 = 76.970 f TEMP 14 = 77.010 TEMP 15 = 76.740 TEMP 16 = 76.170 TEMP 17 = 76.290 TEMP 18 = 76.300 PRES 1= 73.706 73.020 PSIA TEMP INFUT i
| |
| VPPS 1 = 0.404 73.188 9.280 VPPS 2= 0.415 73.962 S.890 VPPS 3= 0.433 75.200 5.840 VPRS 4= 0.423 74.545 5.100 CHANGE Ahr DATA ?
| |
| is NO TEMP. AND.PPES!. COPPECTED DATA SUMMAPY TIME = 2245 DATE = 1112 t-TEMP = 76.414060
| |
| _, PPES = 73.284063
| |
| | |
| O SUMMAFY OF MEASUPEL DATA AT TIME 2?00 1112 TEMP 1 = 77.160 TEMP 2= 76.220 TEMF 3= 76.280 TEMP 4= 77.050 TEMP 5= 76.570 TEMF 6= 76.440 TEMF 7= 76.770 TEMP 6= 76.840 TEMP 9= 76.800 TEMF 10 = 77.080 TEMP 11 = 76.330 TEMP 12 = 76.110 TEMF 13 = 76.970 TEMF 14 = 77.150 TEMP 15 = 76.750 -
| |
| TEMP 16 = 76.250 TEMP 17 = 76.320 TEMF 18 = 76.340 PPEI 1 = 73.710 73.024 PSIA TEMP INPUT VPPS 1 = 0.404 73.188 9.280 VPRI 2r 0.416 74.000 8.900 t
| |
| VPP5 3= 0.430 75.029 5.820 t
| |
| YPRI 4= 0.423 74.545 5.100 i
| |
| i I CHANGE ANY DATA ?
| |
| l = NO i
| |
| l TEMF. AHL PFESS. CCPPECTED DATA IUMMAFY l
| |
| TIME = 2300 DATE = 1112 TENF = 76.456149 PPES = 73.288869 0
| |
| | |
| I
| |
| .SUMMAFY OF MEA!UPED DATA AT TIME 2315 1112 TEMP 1 = 77.180 TEMP 2= 76.250 TEMF 3= 76.310 TEMP 4= 77.050
| |
| , TEMP 15 = 76.600 I
| |
| TEMP 6= 76.500 TEMP 7= 76.S50 TEMP S= 76.910 TEMP 9= 76.860 TEMP 10 = 77.180 TEMP 11 = 76.400 TEMP 12 = 76.210 TEMP 13 = 77.040 i . TEMP 14 = 77.070 il -
| |
| TEMP 15 = 76.840 TEMP 16 = 76.280 TEMP 17 = 76.390 TEMP 18 = 76.410 PREI 1= 73.713 73.027 4
| |
| PSIA TEMP INPUT VFPS 1 = 0.406 73.294 9.300 VPRS 2= 0.415 73.962 8.890 VPPS 3= 0.434 75.286 5.850 l VPPS 4= 0.425 74.627 5.110 i
| |
| CHANGE ANY LATA ?
| |
| = NO TEMP. AND PPESS. COPPECTEL DATA SUMMRPY
| |
| ' TIME = 2315 DATE = 1112 l-TEMP = 76.513040
| |
| : n. s PFE5 = 73.290128
| |
| | |
| 1 SUMMAPY OF MEAIUPED DATA AT TIME 2336 1112 TEMP 1 = 77.230 TEMP 2= 76.320 TEMP 3= 76.380 TEMP 4= 77.130 TEMP 5= 76.650 TEMP 6= 76.500 TEMP 7= 76.850 TEMP 6= 76.940 TEMP 9= 76.880 TEMP 10 = 77.160 TEMP 11 = 76.330 TEMP 12 = 76.240 TEMP 13 = 77.020 TEMP 14 = 77.190 TEMP 15 = 77.030 TEMo 16 = 76.310 TEMP 17 = 76.380 TEMP IS = 76.400 PPES 1 = 73.716 73.030 PSIA TEMP INFUT VPP5 1 = 0.402 73.029 9.250 VPP! 2= 0.414 73.350 S.860 VPP? 3= 0.430 75.029 5.820 YPRS 4= 0.423 74.545 5.100 CHANGE ANY DATA ?
| |
| = NO TEMP. AND PPESS. COPPECTED DATA SUMMAPY
| |
| , TIME = 2330 DATE = 1112 TEMP = 76.534089 PRE! = 73.295608
| |
| | |
| s t-SUMMAFY OF MEASUFED DATA AT TIME 2345 1112 TEMP 1= 77.260 TEMP 2= 76.340 TEMP 3= 76.330 TEMP 4= 77.170 ,
| |
| TEMP 5= 76.670 i TEMP 6= 76.590 TEMP 7= 76.900 TEMP S= 76.960 '
| |
| TEMP 9= 76.950 TEMP 10 = 77.180 TEMP 11 = 76.420 '
| |
| TEMP 12 = 76.240 TEMP 13 = 77.090 l '
| |
| TEMP 14 = 77.240 i f m-) TEMP 15 = 77.070 TEMP 16 = 76.?60 TEMP 17 = 76.420 TEMP 18 = 76.400 PPES 1 = 73.720 73.033 PIIA TEMP INPUT VPPS 1 = 0.405 73.241 9.290 VPPS 2= 0.414 73.8S7 8.870 VFFS 3= 0.434 75.236 5.850 VPPS 4= 0.425 74.627 5.110 CHANGE ANY DATA ?
| |
| L = NO l
| |
| TEMP. AND PRESS. CGCFECTEL LATA IUMPAFY i
| |
| TIME = 2345
| |
| (
| |
| DATE = 1112 TEMP = 76.563609 i
| |
| PPES = '73.d96473
| |
| _--____--_a,,n , -r__, _ _ _ _ , , _ , - _ w, a -- - m m , , - , - - e w- - +y ,,o mma , -y-y 2-- eoma n 6
| |
| | |
| p 9
| |
| 30MMAPY OF MEAIUPED DATA AT TIME 2400 1112 TEMP 1 = 77.280 TEMP 2= 76.330 TEMP 3= 76.380 TEMD 4= 77.160 TEMP 5= 76.680 TEMP 6= 76.620 TEMP 7= 76.930 TEMP S= 77.000 TEMP 9= 76.900 TEM. ' 10 = 77.320 TEMP 11 = 76.350 TEMP 12 = 76.320 TEMP 13 = 77.060 TEMP 14 = 77.240 TEMP 15 = 77.030 TEMP 16 = 76.360 TEMP 17 = 76.480 TEMP 18 = 76.460 PRES 1 = 73.723 73.026 PSIA TEMP INPUT VPP5 1 = 0.405 73.241 9.290 VPPI 2= 0.414 73.887 8.870 VPPS 3= 0.435 75.371 5.860 VPPS 4= 0.425 74.627 5.110 CHANGE ANY DATA 7
| |
| = HD TEMP. AhD PFESS. COPPECTED DATA IUMMAEY TIME = 2400 DATE = 1112 TEMP = 76.595059 PRES = 73.299082
| |
| ,?
| |
| | |
| ,..-,,,n.
| |
| --- ~:.-. ..
| |
| A
| |
| ^/
| |
| ;\
| |
| f IUMMHFr OF MEAIUFEI DATA GT TIME 45 1113 TEMP 1 = 77.400 ,
| |
| TEMF- 2= 74.420 i TEMF 3= 76.450 <
| |
| TEMP 4 = 77.240 i TEMP 5= 76.G50 TEMP 6= 76.666 TEMF 7= 77.070 I
| |
| TEMP S= 77.0?O TEMF 9= 77.040 TEMF 10 = 77.290 TEMS 11 = 76.50C q TEMS 12.= 76.400 i
| |
| TEMF 15 = 77.190
| |
| ! TEMF 14 = 77.370 TEMF 15 = 77.150
| |
| : TEMP 16 = 76.470 TEMP 17 = 76.550 TEMP 13 = 76.570 i
| |
| oFET 1 = 73.731 73.044
| |
| ^
| |
| PSIA TEMP INFUT VFPI 1 = 0.407 73.047 9.31 6 VFFT 2= 0.415 73.955 d.880
| |
| ~
| |
| VFPI 3= 0.436 75.457 5 570 VPPi 4 = 0.426 74.709 ') .12 0 CHen6E FtY DATF >
| |
| := tiO TEMP. N4D 'FFE!! . COFFECTED DFTA 5UMMAci TIME = 45 DATE = 1113
| |
| .TEMc = 76.698398 FPES = 73.30.:042
| |
| \
| |
| l
| |
| ._ . . . . . , _ . - _ . - - _ - - - - _ _ - . . -_ ,.--. _ ----. .-_ ,- ~_ , ~ , _ . - - - , . . .. - - - . .
| |
| | |
| l O, !
| |
| l l
| |
| l l
| |
| I l
| |
| IUMFAF e' GF MEA!UFED DF'TF cT TIME 100 ills l TEMC 1 = 77.410 TEMC 2= 76.970 TEMP 3= 76.530 TEMC 4= 77.310 TEMF 5= 76.6d0 TEMF 6= 76.'20 TEMP 7= 77.100 TEME E= 77.130 TEMF 9= 77.De0 TEMF 10 = 77.360 TEMF 11 = 76.620 TEMP 12 = 76.450 TEMc 15 = 77.220 TEMS 14 = 77.380 TEMc 15 = 77.250 TEMP 16 = 76.490 TEMP 17 = 76.570 TEMC 18 = 76.560 PPEI 1 = 73.'31 73.046 PIIA TEMF INPUT VPCI 1 = 0.407 73.400 9.320 YPP! 2= 0.41? ~?.812 $.850 VPF! 3= 0.438 75.543 5.580 VPFI 4 = 0.426 74.709 5.120 CHANGE Af6 D6tp i
| |
| = fiO TEMP. Arvo cpEII . CCFFECTED DATA IUMrtAn y TIME = 10n DATE = 1113 TEMF = 76.741679 PPE! = 73.307813 O'
| |
| | |
| ~ . . _ . . _ . . .- - - . -
| |
| r IUMMAFi CF MEsiUFEL r6ts FT TIME 115 1113 TEpe 1= 77.400 TEMF 2= 76.430 TEMP 3= 76.540 TEMF 4 = 77.320 TEMF 5= 76.950 TEMP 6= 76.6?O TEM 7= 77.100 ,
| |
| TEMP G = 77.110 TEMF 9= 77.070 TEMP 10 = 77.360
| |
| ; TEMP 11 = 76.550 TEMF 12 = 76.470 TEMP 13 = 77.200 TEMF. 14 = 77.?$0
| |
| ,( TEMF 15 = 77.200 4
| |
| TEMP 16 = 76.530 TEite 17 = 76.640 TEMP is = 76.690 PPEI 1 = 7 3 . 7?". 73.043 P!Is TEMF 1r4FUT YPFS 1 = 0.407 73.460 9.326 VFPS 2= 0.413 73.312 S.550 VFR$ 3= 0.425 75.54? 5.690 VFPI 4= 0.426 74.709 5.120 Ch'NGE 6rv LATA ?
| |
| = NO
| |
| '(EMP . 6f*D FFE!!. CCSEECTED LATA 5UMMAFV TIME = 115 D6TE = 1113
| |
| -TEMF = 76.743699 i
| |
| i PREI = 72.30cS33 o
| |
| . . _ . . - - . _ . . ~ . _ _ _ _ . . . . - - _ . . . . - _ . _ . _ . _ _ . . , _ , . _ . . _ . _ - . . - . . . _ . .
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| | |
| m -
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| O IUMMAfY Oc MEA."LSEI ESTA AT TIME 130 1113 TEMP 1 = 77.41C TEMF 2= 76.470 TEMP 3= 76.520 TEMP 4 = 77.270 TEMP 5= 76.800 TEMP 6= 76.910 TEMP 7= 77.120 TEMP G= 77.170 TEMP 9= 77.150 TEMP 10 = 77.410 TEMP 11 = 76.540 TENF 12 = 76.459 TEMP 12 = 77.260 TEMF 14 = 77.3:-0 TEMF 15 = 77.060 TEMP 16 = 76.54U TEMP 17 = 76.560 TEMP 18 = 76.620' PRE 5 1 = 75.7?7 73.050 PSIA TEMF IriPUT VPP! 1 = 0.408 73.453 9.330 VPPI 2= 0.414 73.550 8.260 VPFS 3= 0.415 75.543 5.950 VPPI 4 = 0.425 74.627 5.110 CHANAF Arr L6TA <
| |
| = NO TEMP. AND FPE!!. CDPRECTEI. LATA I UMM AF 'v TIME = 130 DATE = 1115 TEMF = 76.737120 PPE! = T2. ? 1 E 04 7
| |
| )
| |
| c
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| | |
| F_.
| |
| ?
| |
| \
| |
| l i
| |
| g 1
| |
| i i
| |
| f, l
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| i l
| |
| i IUPN6Fi CF MEAILPED LATA AT TIME 145 1113 i
| |
| , .TENF 1= 77.430 i
| |
| TENF 2= 76.510 TEMP 3= 76.570 TEMF -4= 77.540 TEMP 5= 76.35C TEMP 6= 76.720 TEMP 7= 77.130 TEMF 6= 77.200 TEMP ?= 77.10C TEMF 10 = 77.430 TEMP 11 = 76.500 TEMP 12 =
| |
| ' b\s)# TEMP 76 '. 4 ? C li =- 77.290 TEMP 14 = 77.440 TEMP 15 = 77.290 TEMP 16 = 76.530 TEMF 17 = 76.620
| |
| ; TEMP 16 = 76.620 FPE! 1 = 73.739 73.052 I
| |
| I
| |
| ; PSIA TEMF INFUT YFP! 1= 0.410 73.554 9.350 VFP5 2-= 0.415 73.925 S.890 VFP! 3= 0.43? - 75.543 5.680 VFFT 4 = 0.426 74.709 5.120' CHA.WE AM DA7A *~
| |
| = NO TEMP. AND FCETI. CCFFECTED LATC
| |
| | |
| ==SUMMARY==
| |
| | |
| TIME = 145 l
| |
| l .DATE = 1113 TEMP = 76.761709 Is FFES = ?? . 31.: 2 6 0 t
| |
| | |
| t O
| |
| UPNM i CF NE6!!.PEI LATA AT TIME 200 1113 TEMP 1 = 77.460 TEMP 2= 76 . 4 9 t.
| |
| TEMP 3= Te. 590 TEMP 4 = 77.210 TEMP 5= 76.960 TEMP 6= 76 . 74 r-TEPP 7= 77.120 TEMP 3= 77.190 TENF 9= 77.160 TEMF 10 = 77.410 TEMP 11 = 76. 570 TEMP 12 = 76.450 l TEMP 15 = 77.250 TEMF 14 = 77.470 TEMP 15 = 77.260 TEMP 16 = 76.550 TEMP 17 = 76.650 '
| |
| TEMP 15 = 76.690 FFES 1 = 73.741 73.054 PSIA TEMP IfiF UT VFF5 1 = 0.410 73.559 9.350 VFPI 2= 0.414 7?.550 8 . $ e,0 YPFI 3= 0.43:5 75.54? 5.850 VPFI 4 = 0.427 74.791 5.130 CHANGE Arn LATA 1 t4D TEMF. AND FPE!!. CCFFECTEL LATA IvMPAFY TIME = 250 DATE = 1;13 TEMP = 75.782449 FFEi = 73.315090 9
| |
| 3/
| |
| | |
| a . --
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| / ')
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| \ t (V
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| \
| |
| IUMMAFY CC ME611.!FEL LFTA FT TIME 215 til?
| |
| TEMP 1= 77.310 TEMP 2= 76.520 TEMD 3= 76.600 TEMA 4 = 77.24'.i TEMF 5= 76.990 TEMP 6= 76.790 TEMc ?= 77.19C TEMP 5= 77.2 M; TEMP 9= 77.190 TEMP 10 = 77.490 TEMP 11 = 76.611:
| |
| TEMP 12 2 76.500 TEMD 13 = 77. Is r-TEMP 14 = 77.470 gx TEMF 15 = 77.200 TEMc 16 = 76.500 (s'v/
| |
| J' TEMP 17 = 76.699 TEMF 16 = 76.6t0 PRET 1= 73.T43 73.056 PSIA TEMP INCUT VFFI 1= 0.407 73 . 4 0 r. 9.320 VFP5 2= 0.414 7 3 .65 r, s.sq0 VPPI 3= 0.499 75.54? ".. 880 VPFi: 4= 0.427 74.791 5.130 CHANC-E 6kr DAT6 5
| |
| = NO TEMF. AND F5E25. CCCFECTEL DATA IUMMAEY TIME = 215 DArE = 1113 TEMP = 74.806909 PFES = 73.317422 s
| |
| | |
| 4
| |
| $ UMP 6GY CF PEA'.UPED DATA AT TIME 23e 1113 TENF 1 = 77.510 TEMF 2= 76.550 TEMP 3= 76.610 TEMC 4 = 77.?90 TEMF 5= 76.9s0 TEMS 6= 76.'90 TEMF T= 77.180 TEMP 5= 77.190 TEMP 9= ??.150 TEM 5 10 = ??.460 TEMP 11 = 76.700 TEMF 12 = 76.600 TEMP 13 = 77.270 TEMP 14 = 77.4'O TEMC 15 = 77.320 TEMP 16 = 76.610 TEMF 17 = 76.690 TEMP 15 = 76.?10 -
| |
| PPE! 1 = T3.74Y 73.059 PSIA TEMF INFUT VPP5 1m 0.407 73.400 9.320 VPP5 2= 0.414 73.850 S.666 VPPI 3= 0.4?9 7". 629 5.590 VPCI 4 = 0.416 74.709 5.120 CHANGE Arn D6T9 i
| |
| = ND TEMP. AND PPE05. CDPPECTEP LATA IUMMAPY TIME = 230 DATE = 1113 TEMP = 76.8282?9 PPE! = 73.319414
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| /
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| -}}
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