B14723, Reactor Containment Bldg ILRT Rept
| ML20059G529 | |
| Person / Time | |
|---|---|
| Site: | Millstone  |
| Issue date: | 10/31/1993 |
| From: | Opeka J, Pikul P NORTHEAST NUCLEAR ENERGY CO., NORTHEAST UTILITIES |
| To: | NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM) |
| References | |
| B14723, NUDOCS 9401240210 | |
| Download: ML20059G529 (150) | |
Text
{{#Wiki_filter:__ 4 .k-N UTILETIES cenerei Omce.. seiden street, seriin. Connecticut $U E IEU NcIU" P.O. BOX 270 U,==I[2,7NE'd~.,,, HARTFORD, CONNECTICUT 06141-0270 k k J .n ora. w,cw. (203) 665-5000 January 13, 1994 Docket No. 50-421 B14723 Re: 10CFR50, Appendix J Section V.B U.S. Nuclear Regulatory Commission Attention: Document Control Desk Washington, DC 20555 Gentlemen: Millstone Nuclear Power Station, Unit No. 3 Reactor Containment Building Intecrated Leak Rate Test Report - October 1991 In accordance with 10CFR50, Appendix J, Section V.B, Northeast Nuclear Energy Company hereby submits the Reactor Containment Building Integrated Leak Rate Test Report for Millstone Unit No. 3. Should you have any additional questions, please contact my staff. Very truly yours, NORTHEAST NUCLEAR ENERGY COMPANY {h J. F. Wppa U Executive Vice President cc: T. T. Martin, Region I Administrator V. L. Rooney, NRC Project Manager, Millstone Unit No. 3 P. D. Swetland, Senior Resident Inspector, Millstone-Unit Nos.1, 2, and 3 39003.3 OS3422 REV. 4-88 9401240210 931031 I-PDR ADOCK 05000423 F l[( P PDR E
NORTHEAST UTILITIES NORTHEAST NUCLEAR ENERGY COMPANY MILLSTONE NUCLEAR POWER STATION UNIT 3 DOCKET NO. 50-423 REACTOR CONTAINMENT BUILDING INTEGRATED LEAKAGE RATE TEST REPORT OCTOBER 12,1993 PREPARED BY.: I / M /k/9/fS P. J. Pikuf ~ 'Date NUSCO Welding & Materials Test Eng. Engineer PREPARED BY: k$o [ ]If4/73 .s J.S$Ydulig A Date Millstone Unit 3 Techn cal Support Test Eng eer REVIEWED BY: Am / I'[Tl T"#. Lygrri' Date' Millstonstntr3 ETigineering Programs Supervipor /2/C/F3 REVIEWED BY: ~ Jyt.Ely / bats NUSCO Wefding & Materials Test Eng. Su%sor REVIEWED BY: /z 43 D. C. Gefb)r Date Millstone Unit 3 Technical Support Man er APPROVED BY: Ik & F. R. Dacimo 'Da'te ' Millstone Unit 3 Director
l 4 TABLE OF CONTENTS i SECTION PAGE
1.0 INTRODUCTION
AND PURPOSE.............................. 1 l 2.0 TEST RESULTS.......... 2 l 3.0 TEST
SUMMARY
3 I 3.1 TEST SU M MARY TIM E-LI N E..................... 3 3.2 TYPE A TEST RESULTS
SUMMARY
4 3.3 VERIFICATION TEST RESULTS
SUMMARY
4 4.0 EDITED TEST LOG. 5 5.0 TEST DESCRIPTION. 8
5.1 DESCRIPTION
OF PLANT....................... 9 5.2 INTEGRATED LEAKAGE RATE MEASUREMENT SYSTEM....... 10 6.0 TYPE B AND C LOCAL LEAKAGE RATE TEST RESULTS 12 6.1 LOCAL LEAK RATE TEST PROGRAM. 12 6.2 ACCEPTANCE CRITERIA.. ......................... 12 6.3 AS-FOUND LOCAL LEAK RATE RESULTS 12 6.4 AS-LEFT LOCAL LEAK RATE RESULTS 12 7.0 ANALYSIS AND INTERPRETATION....... 13 7.1
SUMMARY
OF TYPE B AND C PENALTIES..... 13 7.2
SUMMARY
OF LEAKAGE SAVINGS 14 7.3 VOLUME CHANGE CORRECTIONS 15 7.4 "AS LEFT" lLRT RESULTS 16 7.5 "AS FOUND"lLRT RESULTS 16
8.0 REFERENCES
17 APPENDICES APPENDIX A STABILIZATION PHASE DATA APPENDIX B ILRT TEST DATA AND PLOTS APPENDIX C VERIFICATION TEST DATA AND PLOTS APPENDIX D LOCAL LEAKAGE RATE TEST SUMMARIES APPENDIX E SENSOR LOCATIONS AND VOLUME FRACTIONS i
s
1.0 INTRODUCTION
AND PURPOSE The Reactor Building Integrated Leakage Rate " Type A" Test is performed to demonstrate that leakage through the primary reactor containment systems and components penetrating primary reactor containment do not exceed the allowable leakage rates specified in the Plant Technical Specifications. The purpose of this report is to provide information pertinent to the activities related to the preparation, test performance, and reporting of the Millstone Nuclear Power Station Unit 3 Integrated Leakage Rate Test (ILRT). The successful periodic Type A and verification test were performed according to the requirements of the Millstone Nuclear Power Station Unit 3 Technical Specifications and 10CFR50, Appendix J. The test method used was the Absolute Method, as required by Plant Technical Specifications and as described in ANSI N45.4-1972, " Leakage-Rate Testing of Containment Structures for Nuclear Reactors". Leakage rates were calculated using the Total Time Analysis technique as described in BN-TOP-1, " Testing Criteria For Integrated Leakage Rate Testing Of Primary Containment Structures For Nuclear Power Plants". Mass Point leak rates as described in ANSI /ANS-56.8-1981, " Containment System Leakage Testing Requirements" were run concurrently for informational purposes. The test results are reported in accordance with the requirements of 10CFR50, Appendix J, Section V.B.3. -I i 1 i
1 s c i 2.0 TEST RESULTS Tvoe A Containment Leakaoe Rate Test Results i (a) Calculated Leakage Rate, L. 0.0942 wt.%/ day (b) 95% Upper Confidence Limit (UCL) 0.1311 wt.%/ day Leakage Rate (c) Type B and C Leakage Penalties 0.0002 wt.%/ day (d) Volume Correction 0.0000 wt.%/ day s (e) Leakage Savings 0.0014 wt.%/ day (f) As-Left ILRT [ Sum of b+c+d] 0.1313 wt.%/ day (g) As-Found ILRT [ Sum of e+f] 0.1327 wt.%/ day f The As-Found ToteJ Time ILRT leakage rate of 0.1327 wt.%/ day satisfied the Appendix J Acceptance Criteria of 0.75 L, (0.4875 wt.%/ day). t e The As-Left Total Time ILRT leakage rate of 0.1313 wt.%/ day satisfied the Appendix J Acceptance Criteria of 0.75 L, (0.4875 wt.%/ day). i 5 2
1 3.0 TEST
SUMMARY
Prior to containment pressurization at 2145, on October 10,1993, site personnel were engaged in prerequisite activities for the conduct of the ILRT. The ILRT was conducted at the end of the refueling outage. These activities included ILRT procedure review and finalization, ILRT computer program checkout and linkup to the Fluke Series 2280 Data Acquisition System, and ILRT instrumentation installation and operability checks. The ILRT test procedure was reviewed against the requirements of the Plant-Technical Specifications,10CFR50, Appendix J, and ANSI /ANS-56.8-1987. The ILHT instrumentation was calibrated prior to the ILRT as recommended by ANSI N45.4-1072, Sections 6.2 and 6.3. Final ILRT instrumentation operability checks and in-situ checks, as specified in ANSI /ANS-56.8-1981, Section 4.2.3.1, were performed to ensure that allinstrumentation was operating correctly. One drybulb temperature sensor (TE-20L) was not used due to its location in a high radiation area. Calibration records for the ILRT instrumentation system components are retained at the plant. 3.1 TEST
SUMMARY
TIME-LINE L Phase Time Frame Duration Pressurization From. 2145 on 10/10/93 13.08 hours To: 1050 on 10/11/93 Stabilization From: 1100 on 10/11/93 4.00 hours To: 1500 on 10/11/93 a ILRT Test From: 1500 on 10/11/93 8.00 hours To: 2300 on 10/11/93 Verification Test - From: 0010 on 10/12/93. 4.00 hours To: 0410 on 10/12/93 .t l l 1 3 l
r s l 3.2 TYPE A TEST RESULTS
SUMMARY
i Test Method Absolute Test Pressure 39.89 psig (Information Only) i Total Time Mass Point % wtidav % wt./ day 1 i Calculated Leakage Rate 0.0942 + 0.0912 + l 95 % Upper Confidence 0.1311 + 0.0932 + Leakage rate + Does not include penalties for nonstandard alignments and water level changes (Refer to Section 7.0) 3.3 VERIFICATION TEST RESULTS
SUMMARY
(Information Only) Total Time Mass Point % wtiday % wtidav Leakage Rate (L.) 0.0942 0.0912 Imposed Leak (Q 0.6063 0.6063 (35 SCFM) Lower Umit: L, + L. - 0.25 L, 0.5379 0.5350 Composite Leakage (y 0.6651 0.6732 (L = L. + L, )
- Upper Umit:
( + L + 0.25 L, 0.8629 0.8600
- The computer software determines a composite leakage rate (Q based on the sum of the current leakage (L.) and the superimposed leakage rate (L,).
The composite leakage rate must be within the Appendix J Supplemental (Verification) Test Acceptance Criteria of 0.25 L,. The criteria is mathematically represented by the upper and lower limits listed above.- The composite leakage rate (Q of 0.6651 wt.%/ day was within the Appendix J criteria of 0.25 L,. 4
>\\ ) 1; 4.0 EDITED TEST LOG October 10.1993 2145 Hr. Pressurization of containment started. 2215 Hr. Seven of eight compressors operating. Pressurization rate is approx. 4 psi /hr. October 11.1993 0015 Hr. Containment pressure at approximately 10 psig. Performed penetration areawalkdown. Identified three minor areas of concern: 1) Personnel Access Hatch was alarming with indication that pressure across inner door was unequal. 2) 3PCS*MOV23A had small, steady stream of leabge from flanged connection. 3) SlH drain valve showed small leakage in penetration area,4'6". Notified the Shift Supervisor of these concerns and agreed that they are minor in nature and will not affect ILRT. No areas were required to be examined using leak detection fluid. Maintenance (P. Atkinson) was notified on 3RSS*MOV23A leak. They were going to investigate it. 0025 Hr. Shift Supervisor notified that at approximately 2329,. Operations logged into' LCO 3.3.3.7.b (CTMT FIRE DETECTOR ALARM). Afire detectioninstrument alarm (per 3CES-PNLFPS in CR alarm "A RxCTMT El. 3'8" - 51'4" Elect Pene Area") was acknowledged and would not reset. Operations will calculate ave Ctmt temp once per hour. 5 1
r 0330 Hr. Continuing to pressurize at rate of approximately 4 psi /hr. Currently at approximately 23 psig. Seven compressors loaded, one in standby. 0609 Hr. Barometric pressure is 30.395 in. mercury or 14.86 psia. 0615 Hr. Two compressors are stopped. 0635 Hr. Pressurization rate is 2.64 psi /hr. Containment pressure at 50.171 psia. One more compressor stopped. Four remain operating. October 11,1993 0700 Hr. Pressurization rate is 2.022 psi /hr. Average containment temperature is 83.818 F, average containment dewpoint temperature is 59.49FF, and containment pressure is 51.207 psia. 0745 Hr. Containment pressure at approximately 38 psig. Two more compressors stopped. There are two compressors operating. 0800 Hr. Containment pressure is 53.053 psia. Target pressure to reach is approximately 40 psig. i 0815 Hr. Pressurization rate is 0.825 psi /hr. 0830 Hr. Containment pressure is approximately 38.57 psig. 0930 Hr. Containment pressure is 39.495 psig. One more compressor stopped. One remains operating. 0945 Hr. Containment pressure is 54.470 psia, (39.57 psig). Pressurization rate is 0.338 psi /hr. 1045 Hr. Containment pressure is 54.752 psia, pressurization rate is 0.293 psi /hr. 1050 Hr. Remaining compressor stopped. All compressors are off. 1 6 l
4 5 l 1056 Hr. Valve 3HVU-V8 shut. Unable to close valve 3HVU-V5 l because of SCLRS testing in auxiliary building. t i 1100 Hr. First data point in stabilization. 1114 Hr. Valve 3HVU-V5 closed per procedure. 1130 Hr. Chemistry has setup the sample equipment to the verification system for air sampling. 1212 Hr. Noted that pressure gauge on access hatch indicates l hatch is pressurized to approximately 30 psig. The j unequal pressure alarm is still in. October 11.1993 1500 Hr. Stabilization complete. Started ILRT. 2300 Hr. Completed 8 hour ILRT. o 2310 Hr. Imposed 35 scfm leak for verification test. ~! October 12.1993
- i 0010 Hr.
Completed one hour leak stabilization period. ' Started verification test. 0410 Hr. Completed verification test satisfactorily. I 0435 Hr. Started depressurization. 0445 Hr. Depressurization rate is only about 2 psi /hr. Last ILRT was approximately 5.5 psi /hr. Investigating cause. Determined that normal depressurization path was probably clogged through muffler system. Rerouting depressurization through 3HVU-V6, containment _ pressurization vent. 1500 Hr. Depressurization completed. I 7
y e 5.0 TEST DESCRIPTION j The Millstone Unit 3 ILRT (Integrated Leak Rate Test) was conducted by NNECO l personnel and others, per the requirements of Test Procedure Number SP 31103, Rev.2. } The ILRT test procedure was the administrative document used to set up the required plant system prerequisites and initial conditions necessary to conduct an ILRT. The containment structure itself was isolated (i.e., plant systems penetrating the containment boundary were isolated, via closure of boundary isolation valves.) A pressurization system was set up and connected to the containment through 1 a temporary piping path. The pressurization system consisted of a group of oil-l free air compressors, aftercoolers, refrigerant type air drye-rs, spool pieces, and valves. A fully automated data acquisition system (with backup capability) was used to record and monitor ILRT containment-related test parameters, e.g., containment l air pressures, temperatures, dewpoint data etc. The data acquisition system consisted of two portable computers and floppy disk drives. The test data was processed via the General Physics ILRT software system computer program. With test prerequisites and initial conditions satisfied, the containment was pressurized and extemalinspections of the containment were completed. When the pressure reached 39.89 psig, containment pressurization was stopped and isolated. The containment air mass was then allowed to thermodynamically .;tabilize. Once stabilization was attained, the data acquisition system recorded he test data and computed the ILRT leakage rate. The Type A test and the supplemental verification test were performed according to the requirements of the MP3 Technical Specifications and 10CFR50, Appendix r J. The test method as required by the Technical Specifications is the Absolute Method as described in ANSI N45.4-1972, " Leakage Rate Testing ~of Containment Structures for Nuclear Reactors." The leakage rate was calculated using formulas from BN-TOP-1. The duration of the Type A and verification tests were in accordance with the requirements of BN-TOP-1. The computed leakage rate was then " adjusted", using techniques specified in IEN 85-71, to reflect LLRT rework / retest results. The adjusted as-left ILRT containment leakage rate was then compared to the procedures acceptance criteria limit and verified satisfactory. 8 7
i Prior to depressurization of the containment, a verification test was completed. The verification test induced a known leakage rate and a calculation was made to verify the test instrument / data acquisition system was operating satisfactorily: and yielding accurate results. Once this was verified, the containment was then slowly depressurized to normal atmospheric conditions and restoration was started.
5.1 DESCRIPTION
OF PLANT Plant information Owner Northeast Nuclear Energy Company Plant Millstone Nuclear Power Station Unit No. 3 Location Waterford, Connecticut l t Containment Type Reinforced concrete with a steel liner l NSSS Supplier, Type Westinghouse PWR Date Test Completed October 12,1993 1 Technical Data Containment Net Free Volume 2,300,000 cubic feet l Design Pressure 45.0 psig i Design Temperature 260* F Calculated Peak Accident Pressure 38.57 psig i 9
5.2 INTEGRATED LEAKAGE RATE MEASUREMENT SYSTEM 1. Absolute Pressure Quantity 2 Manufacturer Paroscientific Inc. Type Precision pressure gauge Model i 760-100A with Direct Pressure Readout and RS-232. Range 0 - 100 psia Accuracy
- 0.010% Full Scale i 0.01 psia Repeatability 0.010% Full Scale j
0.01 psia j Resolution 0.0001 psi Sensor Sensitivity Error 0.010% of reading 0.0001 psia 2. Drybulb Temperature Quantity 22 Manufacturer Bums Engineering.inc. Type 3-wire 200 ohm platinum resistance temperature detectors (RTDs) Range 60 - 120* F Accuracy 0.1" F Sensor Sensitivity Error 0.005' F i 10
r 1 3. Dew Point Temperature Quantity 5 Manufacturer General Eastern i Type ~ Chilled mirror dewpoint transmitter Model DEW-10-0-A-0 Range 40 - 100 F dewpoint Accuracy i 1.0* F Sensor Sensitivity Error 0.01* F 4. Verification Flow Quantity 2 (1 primary,1 backup)- Manufacturer Thermal Instruments i Type Thermal mass flow Model 600 Range 0 - 80 scfm Accuracy 1% full scale 5. Readout Device Quantity 1 Manufacturer Fluke Type Model 2286 with 2280-161 A/D Converter and 2280-162 DC Voltage Scanner Repeatability 0.018* F Resolution 0.001* F The sensor locations and volume fractions as installed for the ILRT are shown in-Appendix E. 11 l
i e I i 6.0 TYPE B AND C LOCAL LEAKAGE RATE TEST RESULTS 6.1 LOCAL LEAK RATE-TEST PROGRAM This section addresses the Primary Reactor Containment Local Leak Rate Testing (LLRT) Program. The LLRT program complies with containment leak test requirements set forth in Technical Specification 3.6.1.2 and 10CFR50, Appendix J. A summary of local leakage rate tests since the ILRT in July 1989 is included in Appendix D. 6.2 ACCEPTANCE CRITERIA (1) The combined leakage rate of all penetrations and isolation valves shall not exceed 0.6 L, (0.390 wt.%/ day,624,490 secm) at P,. (2) The combined leakage rate of all containment bypass penetrations shall not exceed 0.042 L, (0.0273 wt.%/ day,43,716 secm) at P,. 6.3 AS-FOUND LOCAL LEAK RATE RESULTS "As-Found' Combined localleakage rates based upon maximum pathway analysis from Appendix D1: Leakaoe Rate Acceptance Criteria Total Type B & C 159,629.1 sccm 624,490 scem @ 38.57 psig Total Bypass 12,006.6 seem 43,716 seem @ 38.57 psig 6.4 AS-LEFT LOCAL LEAK RATE RESULTS "As-Left" Combined local leakage rates based upon maximum pathway analysis from Appendix D1: Leakaae Rate Acceptance Criteria Total Type B & C 134,507.1 seem 624,490 sccm @ 38.57 psig Total Bypass 12,780.5 seem 43,716 scem @ 38.57 psig 12
i ~; is; 7,0 ANALYSIS AND INTERPRETATION j The upper 95% confidence limit (UCL) Total Time and Mass Point leakage rates? . j calculated during the ILRT were less than the test acceptance criteria of 0,75 L, .j (0.4875 % wt./ day). Additions to the calculated leakage rates must be made to j account for penetration paths not exposed to the ILRT pressure and for changes
- l In the net free containment volume due to changes in containment water levels.
These additions are discussed below.- 7.1
SUMMARY
OF TYPE B AND C PENALTIES
- i Penetration paths not exposed to the ILRT pressure and the corresponding i
minimum pathway leakage rates from Appendix D1 are as follows: 1 l Penetration - t Test Data : . Penetration System . Minimum j Number Pathway - Lod Leakage 1 Rate (sccm) 91 RHR Suction 64 o 92 RHR Suction 37 93 LPSI RHR Discharge. 101.8 94 LPSI RHR Discharge 160.8 Sum Total (E) 363.6 LLRT results based on the above equate to a Type B and C penalty addition of 0.0002 wt.% per day, 1 1 i 13
o t 7.2
SUMMARY
OF LEAKAGE SAVINGS Penetration paths which were reworked and retested and the corre-sponding minimum pathway leakage rates from Appendix D1 are as follows: Penetration Test Data l Penetration System Minimum Number Pathway Leakage Rate Savings (secm) 4 16 RCP Pump Seal injection 7 18 RCP Pump Sealinjection 200 51 HP Boron Injection 19 62 Loop Fill 15.3 l 99 Safety injection Test Une 2 102 Recire Spray Suction 80.4 103 Recirc Spray Suction 66.5 104 Recirc Spray Suction 244.6 1 105 Recirc Spray Suction 1570 120 Post Accident Sample 24.8 Sum Totals (I) 2229.6 LLRT results based on the above equate to a Type B and C leakage savings addition of 0.0014 % wt] day. 14
o 7.3 VOLUME CHANGE CORRECTIONS The following volumes were monitored for liquid level changes which would affect the containment net free volume: VOLUME VOLUME LEVEL CHANGE MONITORED CHANGE (ft'/ day) Pressurizer 0 0 Incore Instrument 0 0 Sump Recire Spray -0.24 in./8 hours 7.20
- Sump Containment Unidentified 0.02 in./8 hours
-0.05 Leak Sump Containment 0.01 in./8 hours -0.02 Drains Sump This is a level decrease which causes an increase in the containment net free volume. This' increase in containment volume is included as part of the reported containment integrated leakage rate. The correction would decrease the reported containment integrated leakage rate and is therefore, conservatively neglected. Based on the volumes monitored, the containment net free volume decreased during the ILRT by 0.07 ft'. This is equivalent to a leakage rate of 0.000003 wt% per day. This is negligible compared to the measured containment integrated leakage rate and Oo volume change correction is required. 15
o 7.4 "AS LEFT"ILRT RESULTS The As Left ILRT leakage rate including the required additions is as follows: (Information Only) Total Time Mass Point Analysis Analysis (% wtidav) (% wtidav) 95 % UCL Leakage Rate 0.1311 0.0932 Type C Penalties 0.0002 0.0002 Volume Change 0.0000 0.0000 As Left 95 % UCL Leakage Rate 0.1313 0.0934 The as left Total Time and Mass Point 95 % UCL leakage rates are less than the test acceptance criteria value of 0.75 L (0.4875 % wt./ day). 7.5 "AS FOUND" ILRT RESULTR The As Found ILRT leakage rate including the required leakage savings additions is as follows: (Information Only) Total Time Mass Point Analysis Analysis (% wtjdavi (% wtJday) 95 % UCL As Left Leakage Rate 0.1313 0.0934 Leakage Savings 0.0014 0.0014 As Found 95 % UCL Leakage Rate 0.1327 0.0948 The as found Total Time and Mass Point 95 % UCL leakage rates are less than the test acceptance criteria value of 0.75 L, (0.4875 % wt./ day). 16
l i l r 8.0. REFERENCES A. Millstone Unit 3 Surveillance Procedure, SP 31103, " Containment Leak Rate Test - Type A (IPTE)", Rev. 2. B. Millstone Nuclear Power Station Unit 3 Technical Specifications. C. Millstone Nuclear Power Station Unit 3 Final Safety Analysis Report. D. Code of Federal Regulations, Title 10, Part 50, Appendix J, " Primary i Reactor Containment Leakage Testing for Water Cooled Power Reactors". E. ANSI N45.4-1972, " Leakage-Rate Testing of Containment Structures for Nuclear Reactors". F. ANSI /ANS-56.8-1981, " Containment System Leakage Testing Require-i ments". G. ANSI /ANS-56.8-1987, " Containment System Leakage Testing Require-ments". H. BN-TOP-1, Revision 1, " Testing Criteria For Integrated Leakage Rate Testing Of Primary Containment Structures For Nuclear Power Plants". I i i i 17 -l .j
4 2 i f k h J b k 1 P 7 P p b i . i .r i i e t n APPENDICES i 1 t e 9 9 I h i i t I A i
i I i i t ) APPENDIX A STABILIZATION PHASE DATA I ? 5 h Y f
-o. STABLIZATION-MODE
SUMMARY
OPTIONS ~ TIME = 1500 1 -- MANUAL DATA ENTRY
- OF DATA POINTS = 17
'2'- PARAMATER GRAPHS MODE DURATION (IN HRS) = 4.00 3 - SENSOR PLOTS TOT TIME MEASURED LEAK = 0.1295 4 - REPRINT CURRENT DATA PT TOT TIME CALCULATED LEAK = 0.1057 5 - SENSOR DIFFERENTIALS TOT TIME 95% UCL 0.1746 = 6 - ANSI STABILIZATION CRITERIA MASS PT LEAK = 0.1216 7 - BN-TOP-1 STAB. CRITERIA MASS PT 95% UCL = 0.1289
- 8 - ANSI CRITERIA PRINTOUT 9 - BN-TOP-1 CRITERIA PRINTOUT P - PASS WORD MENU ANSI TEMPERATURE STABLIZATION CRITERIA. MET BN-TOP TEMPERATURE STABLIZATION CRITERIA MET POINT.
SUMMARY
CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT AVG TEMP: 80.518/ -0.030 AVG PRESS: 54.376 / -0.004 MASS: 624909.38 / -12.750 AVG DEW PRESS: 0.2592/ +0.0005 TOTAL PRESS: 54.635 / -0.004 l l I l L i -____-___m.
~. -. i f l . STABLE MODE Millstone UNIT 3 Page 1 r TEMPERATURE STABILIZATION UNIT 3 ANSI 56.8 BN-TOP-1 TIME TEMP 1 HR 4-HR 4HR - 1HR BN1 BN2 i 0.00 81.505 0.0000 0.0000 0.0000 -0.0000 0.0000 0.25 81.368 0.0000 0.0000 0.0000 0.0000. 0.0000 l 0.50 81.254 0.0000 0.0000 0.0000 0.0000 0.0000 0.75 81.158 0.0000 0.0000 0.0000 0.0000 0.0000 1.00 81.077 0.4280 0.0000 -0.4280-0.0000 0.0000 1.25 81.005 0.3623 0.0000 -0.3623 0.0000 0.0000 1.50 80.942 0.3129 0.0000 -0.3129 0.0000 0.0000' 1.75 80.884 0.2735 0.0000 -0.2735 0.0000 0.0000 2.00 80.831 0.2461 0.0000 -0.2461 -0.3370-0.0000 2.25 80.779 0.2269 0.0000 -0.2269 -0.2946 0.1698 l 2.50 80.734 0.2074 0.0000 -0.2074 -0.2602 0.1377 2.75 80.691 0.1935 0.0000 -0.1935 -0.2335 0.1068 3.00 80.650 0.1817 0.0000 -0.1817 -0.2139 0.0782 l 3.25 80.617 0.1611 0.0000 -0.1611 -0.1940 0.0796 3.50 80.580 0.1545 0.0000 -0.1545 -0.1810 0.0522 3.75 80.548 0.1427 0.0000 -0.1427 -0.1681 0.0516 f 4.00 80.518 0.1313 0.2468 0.1155 -0.1565 0.0461 l l 5 b 1 5 I h i i
- r-
-a
- iTABLE MODE j
Fage 1 e AVERAGE DATA VALUES p DATE TIME RTD DEW PT. VAP PRESS DRY PRESS . MASS 284 0.00 81.505 60.337 0.259 54.487! 625044.38 I 284 0.25 81.368 60.276 0.259 54.472 625027.81 284 0.50 81.254 60.242 0.258 54.460 625018.88 284 0.75 81.158 60.282 0.259 54.449 625013.31 i -284 1.00 81.077 60.192 0.258' 54.441 625013.00 i 284 1.25 81.005 60.188 0.258 54.433 624998.88 284 1.50 80.942 60.195 0.258 54.426 624992.31 284 1.75 80.884 60.176 0.258 54.419 624985.69 284 2.00 80.831 60.222 0.258 54.413 624976.31 284 2.25 80.779 60.196 0.258 54.408-624973.88 284 2.50 80.734 60.230 0.258 54.402 624961.31 284 2.75 80.691 60.205 0.258 54.398 624966.31 284 3.00 80.650 60.271 0.259 54.393 624950.38 284 3.25 80.617 60.281 0.259 54.387 624927.31 ~ 284 3.50 80.580 60.275 0.259 54.384 624926.81 284 3.75 80.548 60.287 0.259 54.380 624922.13 284 4.00 80.518 60.339 0.259 54.376 624909.38 4 1 l
c, l i . STABLE MODE Millstone UNIT 3 Page 1 LEAKAGE RATE
SUMMARY
UNIT 3 TOTAL TIME MASS / POINT i DATE TIME TTLM LMCALC SL LAM L95 y 284 0.00 0.0000 0.0000 0.0000 0.0000-0.0000 284 0.25' O.2541 0.0000 0.0000-0.0000 0.0000. 284 0.50 0.1957 0.1957 0.0000 0.1971 0.4866 284 0.75 0.1592 0.1555 0.2420-0.1582 0.2376 284 1.00 0.1205 0.1168 0.1567 0.1204 0.1842 284 1.25 0.1395 0.1129 0.2102 0.1223 0.1603 284 1.50 0.1334 0.1091 0.2033 0.1210 0.1464 284 1.75 0.1287 0.1058 0.1941 0.1185 0.1369 j 284 2.00 0.1309 0.1054 0.1908 0.1201 0.1341 l 284 2.25 0.1202 0.1017 0.1811 0.1156 0.1274' - i 284 2.50 0.1276 0.1021-0.1797 0.1166 0.1262 284 2.75 0.1090 0.0969 0.1691 0.1103 0.1208 284 3.00 0.-1203 0.0967 0.16/2 0.1109 0.'1198 284 3.25 0.1383 0.1018 0.1751 0.1179 0.1285 284 3.50 0.1290 0.1035 0.1756 'O.1198 0.1291 284 3.75 0.1252 0.1041 0.1743-0.1203 0.1285-284 4.00 0.1295 0.1057 0.1746 0.1216 0.1289 l l 1 1 4 4 I i
Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : STABLE DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 11:00 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.7380 2 +54.7544 RTDs in degrees F channel
- temp, channel temp.
channel temp. 1 +84.387 2 +83.789 3 +83.738 4 +82.966 5 +83.243 6 +82.728 7 +82.840 8 +82.864 9 +82.639 10 +81.964 11 +81.253 12 +79.786 13 +80.598 14 +81.058 15 +80.855 j 16 +81.323 17 +80.691 18 +79.800 J 19 +79.670 20 +76.930 21 +76.189 22 +76.795 23 +75.686 Dew Cell temperatures in degrees F i l channel cell temp channel cell temp i 1 +62.065 2 +61.313 3 +60.399 4 +57.290 5 +58.352 AVERAGE TEMPERATURE = +81.5053 DEG. F AVERAGE PRESSURE +54.7462 PSIA = MASS = +625044.38 LBM AVG DEW POINT TEMP +60.3369 DEG. F = AVG VAPOR PRESSURE +0.2592 ' PSIA = i .] i ) i l i l i l l
= c-Millstone 3 j INTEGRATED LEAK RATE TEST TEST MODE : STABLE i DATA POINT
SUMMARY
SHEET DATE
- 284' TIME
- 11:15 1
Pressure Instruments in PSIA channel pressure channel pressure r 1 +54.7221 2 +54.7386 l RTDs in degrees F channel temp. channel temp. channel temp. 1 +84.098 2 +83.515 3 +83.451 4 +82.805 5 +83.106 6 +82.585 7 +82.732 8 +82.736 9 +82.509 10 +81.849 11 +81.148 12 +79.755 13 +80.534 14 +81.009 15 +80.800 16 +81.265 17 +80.634 18 +79.747 19 +79.632 20 +76.834 21 +76.095 22 +76.709 23 +75.598 ..t Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.797 2 +61.151 3 +60.502 4 +57.446 ~5 +58.478 1 AVERAGE TEMPERATURE = +81.3677 DEG. F +54.7304 PSIA 3 AVERAGE PRESSURE = MASS = +625027.81 LBM AVG DEW POINT TEMP +60.2762 DEG. F = AVG VAPOR PRESSURE = +0.2586 PSIA [ Y i i
L - M i l'l's t o n e 3 INTEGRATED' LEAK RATE TEST TEST MODE : STABLE. DATA POINT
SUMMARY
SHEET DATE
- 284 L
TIME-
- 11:30 Pressure Instruments in PSIA channel.
pressure channel pressure 1 +54.7094 2 +54.7263 RTDs in degrees F channel temp. channel ' temp. channel-temp. 1 +83.853 2 +83.308 3 +83.176 4 +82.668 5 +82.981 6 +82.455 7 +82.626 8 +82.642 9 +82.396 10 +81.806 11 +81.099 12 +79.725 13 +80.488 14 +80.970 15 +80.743 16 +81.232 17 +80.597 18 +79.742 19 +79.593 20 +76.766 21 +76.020-22 4.6.642 23 +75.520 Dew Cell temperatures ir degrees F channel cell temp channel cell temp 1 +61.643 2 +60.975 3 +60.686 4 +57.572 5 +58.545 AVERAGE TEMPERATURE = +81.2544 DEG. F AVERAGE PRESSURE +54.7178 PSIA = MASS = +625018.88 LBM +60.~2418 DEG. F AVG DEW POINT TEMP = AVG VAPOR PRESSURE = +0.2583 PSIA
4 ' l .O O. = l l 'l -Millstone-3 INTEGRATED LEAK RATE TEST TEST MODE : STABLE - 1 DATA. POINT
SUMMARY
SHEET' DATE
- 284
) -TIME
- 11:45 1
- i Pressure Instruments-in' PSIA channel pressure channel pressure-1 +54.6995 2 +54.7165. l -i RTDs-in degrees F channel temp. channel temp. channel temp. 1 +83.638 2 +83.082 3- . +82.980 4 +82.566 5 +82.892 6 +82.358 3 7 +82.531 8 +82.552 9 +82.295 10 +81.762 11 +81.059 12 +79.699-13 +80.451 14 +80.945 15 +80.712 l 16 +81.200 17 +80.577 18 +79.714' 19 +79.552 20 +76.714. 21 +75.958 l 22 +76.579 23 -+75.454 l Dew Cell temperatures.in degrees F - j channel cell temp channel. cell temp. 1 +61.651 2 +60.788 I 3 +60.830 4 +57.768 5 +58.801 i .i . AVERAGE TEMPERATURE = +81.1578 DEG.-F AVERAGE PRESSURE +54.7080 PSIA = MASS = +625013.25 LBM +60.2818-DEG. F l AVG DEW POINT TEMP = AVG VAPOR PRESSURE . +0.2587 PSIA = f .- i . r i . j f i i 1 ,e
~. ~- g=.- i Millstone 3 k INTEGRATED LEAK' RATE TEST-TEST MODE : STABLE DATA POINT
SUMMARY
SHEET. DATE-
- 284 TIME
- 12:00
-l Pressure Instruments in PSIA f channel _ pressure channel pressure 1 +54.6907 2 +54.7074 RTDs in degrees F channel temp. channel temp. channel temp. 1 +83.462 2 +82.906 3 +82.810 4 +82.415 5 +82.820 6 +82.293 7 +82.477 8 +82.485 9- +82.209 10 +81.746 11 +81.019 12 +79.650 i 13 +80.424 14 +80.920 15 +80.691 16 +81.170 17 +80.541 18 +79.692 19 +79.525 20 +76.667 21 +75.906 22 +76.530 23 +75.398 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.401 2 +60.638 3 +60.783 4 +57.826 i 5 +58.925 1 i AVERAGE TEMPERATURE = +81.0773 DEG. F AVERAGE PRESSURE - +54.6991 PSIA i = MASS = +625013.00 LBM AVG DEW POINT TEMP +60.1919 DEG. F = AVG VAPOR PRESSURE +0.2579 PSIA = ) i a 1 1 1 ~ i i
M111 stone 3-INTEGRATED LEAK RATE TEST TEST MODE : STABLE r DATA POINT
SUMMARY
SHEET-DATE
- 284 l
f TIME.
- 12:15
-l Pressure Instruments inIPSIA l channel pressure channel pressure l ) i 1 +54.6826 2 +54.6985' i [ RTDs in degrees F .t -c L channel temp. channel temp. channel temp. I +83.308 2 +82.749 3 +82.638 4 4 +82.327 'S +82.753 '6 +82.228L j 7 +82.416 8 +82.422 9 +82.147 .i 10 +81.693 11 +80.987 12 +79.639' .13 +80.407 14 +80.893 15 +80.667-I 16 +81.135 17 +80.530 18 +79.669 19 +79.504 20 +76.621 21 +75.861 22 +76.491 23 +75.343 -i Dev Cell temperatures in. degrees F i channel cell'. temp channel cell temp l i 1 +61.357 2 +60.554 .j 3 +60.858 4 +57.933 l 5 +58.954 ,) j l AVERAGE TEMPERATURE = +81.0054 DEG. F AVERAGE PRESSURE +54.6906 PSIA = MASS = +624998.94. LBM AVG DEW POINT TEMP +60.1883 DEG. F = AVG VAPOR PRESSURE +0.2578 PSIA = i .i'j i .)1
e
- e.
U Millstone ~3' - INTEGRATED LEAK' RATE TEST TEST MODE : STABLE-DATA POINT.
SUMMARY
SHEET DATE
- ~284
-TIME
- 12:30 Pressure Instruments in PSIA channel pressure channel pressure l'
+54.6756 2 -+54.6916 . RTDs in degrees.F channel temp.. channel temp. channel -temp. 1 +83.160 2 -+82.599 3 +82.500 4 +82.262 5 +82.701 6 +82.162 7 +82.360 8 +82.368 9 +82.088 10 +81.676 11 +80.958 12 +79,612 13 +80.383 14 +80.871 15 +80.614 16 +81.112 17 +80.508 18 +79.663 19- +79.472-20 +76.578 21 +75.822 22 +76.455 23 +75.295 Dew Cell temperatures in degrees F 3 channel' cell temp channel cell temp. -j 1 +61.349 2 +60.478 i 3 +60.856 4 +58.069 l 5 +59.01" .i t AVERAGE TEMPERATURE = +80.9416 DEG. F-AVERAGE PRESSURE '= +54.6836 PSIA MASS = +624992.25 LBM t AVG' DEW POINT TEMP +60.1950 DEG. F = . AVG VAPOR PRESSURE +0.2579 PSIA = ) 1 'l l ) 1 ~-
{
- e-
'e 4 f 9 Millstone 3 INTEGRATED LEAK RATE TEST . TEST MODE : STABLE' DATA POINT
SUMMARY
SHEET' DATE
- 284 TIME
- 12:45 i
Pressure Instruments in PSIA channel pressure channel pressure I +54.6688 2 +54.6854 RTDs in degrees F channel temp. channel temp. channel temp. 1 +83.051 2 +82.487 3 +82.355 i 4 +82.218 5 +82.647 6 +82.106 7 +82.316 8 +82.312 9 +82 032 10 +81.627 11 +80.935 12 +79.583-l 13 +80.354 14 +80.853' 15. +80.604 l 16 +81.086 17 +80.489 18 +79.643 19 +79.450 20 +76.536 21 +75.788 22 +76.421 23 +75.256 Dew Cell temperatures in degrees F channel cell temp channel cell temp i =i 1 +61.233 2 +60.406 3 +60.956 4 +58.175 5 +59.035 AVERAGE TEMPERATURE = +80.8843 DEG. F AVERAGE PRESSURE = +54.6771 PSIA MASS = +624985.69 LBM AVG DEW POINT TEMP +60.1765 DEG. F = AVG VAPOR PRESSURE +0.2577 PSIA = i e t 1 1
e 'ua - a e; n h ' Millstone:3 INTEGRATED: LEAK RATE TEST TEST MODE : STABLE ' DATA' POINT
SUMMARY
-SHEET DATE
- 284 1
TIME
- 13:00<
1 !j Pressure Instruments in PSIA
- i channel pressure
-channel . pressure j 1 +54.6631 2 +54.6796 l i RTDs in degrees F l { channel temp. channel temp. channel temp. j l 1 +82.932 2 +82.387 3 +82.229 fi 4 +82.149 5 +82.592 6 +82.048 81.986~ ll 7 +82.277 8 +82.255 9 + 10 +81.601 11 +80.906 12 +79.568 l 13 +80.336 14 +80.839 15 +80.595 16 +81.061-17 +80.471 -18 +79.648 i 19 +79.435 20 +76.496 21 +75.755 22 +76.385 23 +75.213 Dew Cell temperatures in degrees F j channel cell-temp channel-cell temp I 1 +61.286 2 +60.400 1 3 +61.009 4 +582274 l 5 +59.099 i i AVERAGE TEMPERATUR.E = +80.8312 DEG. F AVERAGE PRESSURE +54.6713 PSIA = MASS = +624976.25 LBM AVG DEW POINT TEMP +60.2218 DEG. F = +0.2581' PSIA l, AVG VAPOR PRESSURE = 1 l J l i 4 I
ho M111 stone:3
- STABLE ~
INTEGRATED LEAK RATE TEST TEST MODE DATA ' POINT
SUMMARY
SliEET -DATE-
- 284 4
TIME
- 13:15 I
I 3 Pressure Instruments in PSIA t A channel pressure channel pressure 1 +54.6574 2 +54.6738 i RTDs in degrees F l ____a____________________________________________________________ channel temp. channel temp. channel temp. q 1 +82.829 2 +82.256 3' +82.119 j 4 +82.040 5 +82.559 6 +82.012; 7 +82.236 8 +82.208 9 +81.945 10 +81.547 11 +80.874 12 +79.559 l 13 +80.322' 14 +80.816 15 +80.583 16 +81.049 17 +80.465 18 +79.633 i E19 +79.411 20 +76.461 21 +75.725 7 22 +76.352 23 +75.177 j
- m Dew Cell temperatures in degrees F
,i channel cell temp channel cell. temp 1 +61.110' 2 .+60.366 3 +61.040 4 +58.407 5 +59.148 i i AVERAGE TEMPERATURE = +80.7785 DEG. F ) AVERAGE PRESSURE +54.6656 PSIA -i = MASS = +624973.94 LBM AVG DEW POINT TEMP +60.1959 DEG. F = AVG VAPOR PRESSURE +0.2579 PSIA 1 = 1 1 -1 l i 1 i ) l l I -l l i t -e)
Millstone 3 1NTEGRATED LEAK-RATE TEST TEST MODE : STABLE DATA POINT
SUMMARY
SHEET DATE~
- 284 TIME
- 13:30 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.6524 2 454.6683 1 + RTDs in degrees F channel temp. channel temp. channel . temp. I +82.730 2 +82.188 3 +82.014 4 +82.019 5 +82.518 6 +81.975 7 +82.177 8 +82.156 9 +81.915 10 +81.538 11 +80.857 12 +79.538 13 +80.310 14 +80.800 15 +80.525 16 +81.030 17 +80.447 18 +79.611 19 +79.398 20 +76.424 21 +75.694 22 +76.315 23 . +75.140 J Dew Cell temperatures in degrees.F channel . cell temp channel cell temp 1 +61.228 2 +60.336 3 +61.082 4 +58.461-5 +59.119 AVERAGE TEMPERATURE = 480.7341 DEG. F AVERAGE PRESSURE +54.6604 PSIA = MASS = +624961.31 LBM AVG DEW POINT TEMP +60.2301 DEG. F = AVG VAPOR PRESSURE = +0.2582 . PSIA
.~ a se - e. i a q ~' Millstone 3 INTEGRATED LEAK RATE' TEST -TEST MODE : STABLE i ' t, DATA POINT
SUMMARY
SHEET DATE
- 284 TIME-
- 13:45 Y
l Pressure Instruments in PSIA r ~ channel pressure channel pressure l 1 +54.6477 2 +54.6647 i RTDs in degrees F' .j channel temp. channel temp. channel . temp.. 7 1 +82.661 2 +82.062 3 +81.936 -) 4 +81.973 5 +82.486 6 +81.922 i i 7 +82.140 8 +82.120 9 +81.876 10 +81.498 11 +80.841 12 +79.514 13 +80.291 14 +80.787' 15 '+80.532 16 +81.001 17 +80.42'# 18 +79.599-19 +79.394 20 +76.363' 21 +75.666 22 +76.289 23 +75.164 j Dew Cell temperatures in degrees F -} -l channel cell temp channel cell temp i 1 +61.068 2 +60.300 i 3 +61.074 4 +58.547 j 5 +59.234 AVERAGE TEMPERATURE = +80.6909 DEG. F AVERAGE PRESSURE +54'.6562 PSIA = +624966.31 LBM MASS = AVG DEW POINT TEMP +60.2051-DEG.-F = AVG VAPOR PRESSURE +0.2580 PSIA' = 1 .i
- e: i' i Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : STABLE I DATA POINT
SUMMARY
SHEET -DATE
- -284 L'
TIME-
- 14:00 i
Pressure Instruments in PSIA .l f channel pressure channel pressure 1 +54.6432 2 +54.6593~ l RTDs in degrees F l i 'I channel temp. channel' temp. channel temp.
- 'j 1-
+82.551 2 +81.975 3 +81.830 4 +81.934 5 +82.443 6 +81.886 7 +82.112 8 +82.074 9 +81.840 10 +81.487 11 +80.807 12 +79.513 13 +80.275 14 +80.771 15 +80.~519 16 +80.995 17 +80.441 18 +79.600 19 +79.370 20 +76.363 21 +75.641 22 +76.259 23 +75.071 Dew Cell temperatures in degrees F channel . ell temp channel cell temp 1 +61.257 2 +60.313 3 +61.097 4 +58.556 5 +59.271 l I 1 s, AVERAGE TEMPERATURE = +80.6495 DEG. F AVERAGE-PRESSURE-t54.6513 PSIA = MASS = +624950.38 LBM AVG DEW POINT TEMP _ +60.2710 .DEG. F. = AVG VAPOR PRESSURE +0.2586 PSIA = i i i i.I h ..t
l{ 1 Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : STABLE i DATA POINT'
SUMMARY
SHEET-DATE
- 284-j TIME
- 14:15 i
[ r Pressure Instruments in PSIA I channel pressure channel pressure 1 +54.6379 2- +54 6543 Il i RTDs in. degrees F channel temp. channel ' temp. channel temp. 1 +82.481 2 +81.931 3 +81.787 ~ 4 +81.862 5 +82.410 6 +81.850 i 7 +82.078 8 +82.055 9 +81.811 10 +81.468 11 +80.805 12 +79.498 13 +80.255 14 +80.756 15' +80.486 16 +80.985 17 +80.425 18 +79.609 l 19 +79.357 20 +76.335 21 +75.615 l 22 +76.231 23 +75.041 j l Dew Cell temperatures in degrees F-j a channel cell temp -channel cell temp l 1 +61.180 2- +60.313 A a 3 +61.143 4 +58.651' 5 +59.337 1 i AVERAGE TEMPERATURE'= +80.6174 DEG. F- +54.6461 PSIA j AVERAGE PRESSURE = . MASS = +624927.31 LBM l AVG DEW POINT-TEMP +60.2808 DEG. = +0.2587 PSIA ~ F' = 'l AVG VAPOR PRESSURE .i I ]
' 1 .~ 1
- i 1
Millstone 3 INTEGRATED LEAK' RATE TEST. TEST MODE : STABLE DATA POINT
SUMMARY
SHEET DATE-
- 284.
TIME
- 14:30
- 1 i
Pressure Instruments in PSIA ~! i channel pressure channel pressure - i 1 +54.6339 2 +54.6505 t RTDs in degrees F l channel ' temp, channel temp. channel temp. j -1 +82.417 2 +81.828 3 +81.722 4 +81.855 5 +82.371 6 +81.807 1 7 +82.040 8 +82.017 9- +81.779 j 10 +81.435 11 +80.787 12 +79.481 13 +80.249 14 +80.739 15 +80.476 i 16 +80.955 17 +80.401 18 +79.587 39 +79.349 20 +76.304 21 +75.593 22 +76.202 23 +75.014 j Dew Cell temperatures in degrees F l channel cell. temp. channel cell temp j 1 +61.116 2 +60.258 1 3 .+61.234 4 +58.737 5 +59.337 1 t l AVERAGE TEMPERATURE = +80.5797 DEG. F ti AVERAGE . PRESSURE- +54.6422 . PSIA _ j = MASS = +624926.81 LBM 1 AVG DEW POINT TEMP = +60.2746 DEG.=F 3 i AVG VAPOR PRESSURE- +0.2586 PSIA = r .~ 3 i l h a j .i 1 1 J I i
t l ? 3 w-Millstone 3 INTEGRATED' LEAK RATE TEST TEST MODE : STABLE
- DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 14:45 j
j Pressure' Instruments in PSIA . j channel pressure channel ' pressure. j i 1 +54.6304 2 +54.6471 f 1 RTDs in degrees F channel temp. channel temp. channel 1 -temp. 1 +82.376 2 +81.768 3 +81.644 { 4 +81.799 5 +82.331 6 +81.777 l 7 +82.016 8 +81.977 9 +81.753 10 +81.398 11 +80.788 12 +79.480 13 +80.251 14 +80.728 15 +80.484 16 +80.938 17 +80'.414 18 +79.587 19 +79.338 20 +76.279 21 +75.571 22 +76.176 23 +74.989 Dew Cell temperatures in degrees F channel cell temp channel cell temp . i 1 +61.195 2 +60.274 3 +61.148 4 +58.764 5 +59.304 l .1 l AVERAGE TEMPERATURE = +80'.5482 DEG. F j AVERAGE PRESSURE +54.6387 PSIA = MASS = +624922.13 LBM i' AVG DEW POINT TEMP +60.2870 DEG. F = AVG VAPOR PRESSURE ~+0.2587 PSIA = t f . l t 1 >., - - ,.m-- .-r
- e .e Millstone 3 INTEGRATED-LEAK RATE TEST TEST MODE : STABLE DATA POINT
SUMMARY
SHEET -DATE
- 284
. TIME
- 15:00 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.6269 2 +54.6433 RTDs in degrees F channel temp. channel temp. channel temp. 1 +82.295 2 +81.712 3 +81.615 4 +81.758 5- +82.295 6 +81.732 7 +81.980 8 +81.947 9 +81.721 10 +81.389 11 +80.768 12- +79.482 13 +80.249 14 +80.725 15 +80.453 16 +80.923 17 +80.394 18 +79.604 19 +79.325 20 +76.251 21 +75.552 22 +76.160 23 +74.961 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.213 2 +60.253. 3. +61.315 4 +58.824 5 +59.432 AVERAGE TEMPERATURE = +80.5182 DEG. F. AVERAGE PRESSURE +54.6351 PSIA = MASS = +624909.44 LBM. AVG DEW POINT TEMP +60.3393-DEG. F = AVG VAPOR PRESSURE. +0.2592. PSIA- =
~ 4 m m 4e.w. + . - f.~~ ____#N -e. .t ~ b*.
- l i
/ N t ? ~- i ._~' -g _~~'y in 4 a f ,,w"'g t ~' h
- * ~
~ '~~.~ .j / .E a, m 1 'I / 4 J " ~ - - ~ ~ ~ -e i l '} Y 00 'N f' .-.s.- t .s a s a s s e a a a a e a s a n. s i hs M G nn in n1 os H m M S Z S = cDO DAM AMWMM
I /s r ,W /_ f CO N N S -S __._-~. q 1 = _,~ / 14 E .~ __. m ~ _., p ._..s T 9 s ~-N .s W '~~ CO __._ ~>- N S-S-S S W 4 M E en 4 Lt"J Z 41 N "lll2 $llll M L L EGM@ M i .i 'l
i'i'i'I / 'T / 00 /.i'i' cy q \\ e j' S 1 / 10 g .i, H t i ,/ s a ,.i i >i ~ /),e W. >/ E 1 m i ,/ H s f. / 1 .*.s/ // 1 / f / CD / N l / o n -m CD S-l S .4 S-L in I-- in 4 4 >e .4 Z b - S 1 co llllI 6--WEAWMc:> ::lllMW co f i
.u-. 4 - 'D ,d,' / 1 / [/ T 00 1 / N 5 l 3 i .g /, 3 In /, M 0.al.. / / / / t ,/ i / / /l 8 /,g E r m l ,[ >== / y/,,E l 'h / ,0 t / /,./** l ~ /R E R R R R R R R R R R R f 9 E R R R l N O') S-C0 WG W-H e to. H. t .Y E Y' in . m AAllW(4(4:::llll*;W 4 in i ,--,w
a g ~ - E .O-e" 1 m (',s il' Y co 3 . N '/ g: .g 'p e i. 10 'i . N ii+ .i .b / / + ) / ,f A f 8
- E' l
/ m ./ >= / .,l,,/ 5 5 1 I .i ,a .I / ?i / N { ,, **,s 5 5 5 5 5 5 5 E 5 5 5 5 5 5 5 5 5 5 E 5 i G W m S-1 in F-(A f M oll M (A ES os H Z c AH " ll E' JX l h !!l
i 1 l APPENDIX B 1 i ILRT TEST DATA AND PLOTS ]
=.. .o a TEST MODE
SUMMARY
OPTIONS TIME = '2300 MANUAL DATA ENTRY
- OF DATA POINTS
=133 ~1 = 8.00. 2 PARAMETER GRAPHS MODE DURATION (IN HOURS) 3 SENSOR PLOTS TOT TIME MEASURED LEAK = 0.0908 4 REPRINT CURRENT DATA PT TOT TIME CALCULATED. LEAK = 0.0942 i 5 SENSOR DIFFERENTIALS TOT-TIME 95% UCL = 0.1311 6 TREND ANALYSIS MASS POINT LEAK = 0.0912 P PASS. WORD MENU MASS POINT 95% UCL = 0.0932 l 75 La = .4875 1 POINT-
SUMMARY
CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT j AVG TEMP: 80.103/ -0.013 AVG PRESS: 54.318 / -0.001 MASS: 624720.31 / +1.125 AVG DEW PRESS: 0.2612/ +0.0001 l TOTAL PRESS: 54.579 / -0.001 i i 3 ) e 5 i i i a
e 4 TEST MODE Page 1 AVERAGE DATA VALUES DATE TIME RTD DEW PT. VAP PRESS DRY PRESS MASS 284 0.00 80.518 60.339 0.259 54.376 624909.38 i 284 0.25 80.486 60.328 0.259 54.372 624908.31 284 0.50 80.462 60.347 0.259 54.369 624892.81 284 0.75 80.438 60.368 0.259 54.366 624885.50 284 1.00 80.410 60.329 0.259 54.363 624890.31 284 1.25 80.392 60.385 0.260 54.360. 624872.81 284 1.50 80.366 60.366 0.259 54.358 624874.38 284 1.75 80.348 60.370 0.260 54.355 624864.69 284 2.00 80.333 60.379 0.260 t 54.353 624859.00 284 2.25 80.321 60.393 0.260 54.351 624850.50 284 2.50 80.305 60.419 0.260 54.349 624845.13 284 2.75 80.293 60.409 0.260 54.347 624839.69 284 3.00 80.285 60.435 0.260 54.346 624833.81 j 284 3.25 80.273 60.432 0.260 54.344 624829.88 284 3.50 80.265 60.458 0.260 54.343 624819.19 284 3.75 80.253 60.442 0.260 54.341 624817.63 284 4.00 80.241 60.454 0.260 54.340 624812.38 284 4.25 80.234 60.516 0.261 54.337 624796.38 284 4.50 80.220 60.474 0.260 54.336 624795.50 284 4.75 80.210 60.451 0.260 54.335 624794.81 284 5.00 80.199 60.480 0.261 54.333 624788.88 284 5.25 80.193 60.480 0.261 54.332 624779.81 284 5.50 80.180 60.487 0.261 54.330 624777.81 284 5.75 80.170 60.487 0.261 54.329 624775.19 284 6.00 80.167 60.507 0.261 54.327 624758.38 284 6.25 80.158 60.524 0.261 54.326 624753.63 284 6.50 80.148 60.522 0.261 54.325 624751.63 284 6.77 80.136 60.530 0.261 54.323 624746.31 284 7.00 80.131 60.539 0.261 54.322 624739.69 284 7.25 80.125 60.537 0.261 54.321 624736.19 284 7.50 80.114 60.522 0.261 54.320 624737.88 284 7.75 80.116 60.547 0.261 54.319 624719.19 284 8.00 80.103 60.553 0.261 54.318 624720.31
TEST MODE Millstone UNIT 3 Page 1 LEAKAGE RATE
SUMMARY
UNIT 3 TOTAL TIME MASS / POINT DATE TIME TTLM LMCALC SL LAM L95 284 0.00 0.0000 0.0000 0.0000 0.0000 0.0000 284 0.25 0.0180 0.0000 0.0000 0.0000 0.0000 284 0.50 0.1271 0.1271 0.0000 0.1280 0.6687 284 0.75 0.1227 0.1416 0.5907 0~1337-0.2175 284-1.00 0.0738 0.1098 0.3958 0.0934 0.1603 284 1.25 0.1127 0.1181 0.2992 0.1077 0.1507 284 1.50 0.0895 0.1096 0.2545 0.0978 0.1286 284 1.75 0.0982 0.1083 0.2285 0.0988 0.1209 284 2.00-0.0969 0.1068 0.2110 0.0979 0.1146 284 2.25 0.1006 0.1070 0.1995 0.0995 0.1127 284 2.50 0.0989 0.1065 0.1904 0.0991 0.1098 284 2.75 0.0974 0.1055 0.1829 0.0985 0.1073 284 3.00 0.0968 0.1045 0.1766 0.0985 0.1058 284 3.25 0.0939 0.1030 0.1708 0.0966 0.1031 284 3.50 0.0990 0.1030 0.1669 0.0974 0-1030 284 3.75 0.0941 0.1018 0.1627 0.0965 0.1015 284 4.00 0.0932 0.1006 0.1588 0.0953 0.0998 284 4.25 0.1021 0.1016 0.1571 0.0970 0.1014 284 4.50 0.0973 0.1014 0.1547 0.0970 0.1009 284 4.75 0.0927 0.1003 0.1518 0.0958 0.0995 284 5.00 0.0925 0.0993 0.1491 0.0949 0.0984 284 5.25 0.0948 0.0989 0.1471 0.0945-0.0977 284 5.50 0.0919 0.0980 0.1448 0.0939 0.0970 284 5.75 0.0897 0.0969 0.1425 0.0928 0.0958 284 6.00 0.0967 0.0971 0.1413 0.0932 0.0960 284 6.25 0.0958 0.0971 0.1401 0.0937 0.0963' 284 6.50 0.0932 0.0967 0.1387 0.0935 0.0960 284 6.77 0.0926 0.0963 0.1373 0.0931 0.0954-284 7.00 0.0931 0.0960 0.1360 0.0929 -0.0950 284 7.25 0.0918 0.0955 0.1347 0.0926-0.0946; 284 7.50 0.0878 0.0946 0.1331 0.0914 0.0935 284 7.75 0.0943 0.0946 0.1323 0.0917 0.0937-284 8.00 0.0908 0.0942 0.1311 0.0912 0.0932 p m
t } l TEST MODE Millstone UNIT 3 Page 1 { LEAKAGE RATE TREND
SUMMARY
UNIT 3 TOTAL TIME MASS POINT-DATE TIME TTLM LMCALC CHANGE LAM CHANGE 284 0.25 0.0180 0.0000 0.0000 0.0000 0.0000 284 0.50 0.1271 0.1271 0.1271 0.1280-0.1280 l 284 0.75 0.1227 0.1416 0.0145 0.1337-0.0056 284 1.00 0.0738 0.1098 -0.0318 0.0934 -0.0402 1 284 1.25 0.1127 0.1181 0.0082 0.1077 0.0143 i 284 1.50 0.0895 0.1096 -0.0085 0.0978 -0.0099 284 1.75 0.0982 0.1083 -0.0012 0.0988 0.0009 284 2.00 0.0969 0.1068 -0.0016 0.0979 -0.0009 284 2.25 0.1006 0.1070 0.0002 0.0995 0.0016 284 2.50 0.0989 0.1065 -0.0005 0.0991 -0.0004 ~ 284 2.75 0.0974 0.1055 -0.0010 0.0985 -0.0006 t 284 3.00 0.0968 0.1045 -0.0010 0.0985- -0.0001 284 3.25 0.0939 0.1030 -0.0016 0.0966 -0.0019 284 3.50 0.0990 0.1030 0.0000 0.0974 0.0008-i 284 3.75 0.0941 0.1018 -0.0012 0.0965 -0.0009 l 284 4.00 0.0932 0.1006 -0.0012 0.0953 -0.0013 284 4.25 0.1021 0.1016 0.0010 0.0970 0.0017 284 4.50 0.0973 0.1014 -0.0002 0.0970 0.0000-284 4.75 0.0927 0.1003 -0.0011 0.0958 -0.0012 284 5.00 0.0925 0.0993 -0.0010 0.0949 -0.0010 284 5.25 0.0948 0.0989 -0.0004 0.0945 -0.0004 284 5.50 0.0919 0.0980 -0.0009 0.0939 -0.0005 284 5.75 0.0897 0.0969 -0.0011 0.0928 -0.0012 284 6.00 0.0967 0.0971 0.0001 0.0932 0.0004 284 6.25 0.0958 0.0971 -0.0000 0.0937 0.0005 l 284 6.50 0.0932 0.0967 -0.0004 0.0935 -0.0002 284 6.77 0.0926 0.0963 -0.0004 0.0931 -0.0005-284 7.00 0.0931 0.0960 -0.0003 0.0929 -0.0002 i 284 7.25 0.0918 0.0955 -0.0005 0.0926 -0.0004 284 7.50 0.0878 0.0946 -0.0009 0.0914 -0.0012 284 7.75 0.0943 0.0946 -0.0000 0.0917 0.0003 284 8.00 0.0908 0.0942 -0.0004 0.0912 -0.0004' 20 POINT MEAN TOTAL TIME CALCULATED LEAKAGE = 9.834247E-02 20 POINT MEAN TOTAL TIME MEASURED LEAKAGE = 9.386536E-02 20 POINT MEAN MASS POINT LEAKAGE = 9.424104E-02 I MASS POINT INTERCEPT = 624906.6 MASS POINT SLOPE =-23.75885 i f i
r Millstone 3 INTEGRATED LEAK RATE TEST-TEST. MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 15:00 Pressure Instruments-in PSIA channel pressure channel pressure 1
+54.6269 2 +54.6433 RTDs in degrees F channel temp. channel temp. channel-temp. 1 +82.295 2 +81.712 3 +81.615 4 +81.758 5 +82.295 6 +81.732' 7 +81.980 8 +81.947 9 +81.721 10 +81.389 11 +80.768 12 -+79.482 13 +80.249 14 +80.725 15 +80.453. 16 +80.923 17 +80.394' 18 +79.604 19 +79.325 20 +76.251 21 +75.552-22 +76.160 23 +74.961 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.213 2 +60.253 3 +61.315 4 +58.824 5 +59.432 AVERAGE TEMPERATURE = +80.5182 'DEG. F +54.6351 PSIA AVERAGE PRESSURE = MASS = +624909.44 LBM- +60.3393 DEG. F. AVG DEW POINT TEMP = +0.2592 PSIA AVG. VAPOR PRESSURE =
r. Millstone 3-INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 15:15 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.6238 2 +54.6394 RTDs in degrees F channel temp. channel temp. channel temp. 1 +82.261 2 +81.649 3 +81.547 ~ 4 +81.691 5 +82.264 6 +81.691 7 +81.955 8 +81.925 9 +81.691 10 +81.377 11 +80.745 12 +79.473 13 +80.219 14 +80.722 15 +80.428 16 +80.893 17 +80.360 18 +79.583 19 +79.316 20 +76.226 21 +75.532 22 +76.130 23 +74.939 Dew Cell temperatures in degrees F-channel cell temp channel cell temp 1 +61.244 2 +60.238 3 +61.177 4 +58.910 5 +59.376 AVERAGE TEMPERATURE = +80.4855 DEG. F-AVERAGE PRESSURE +54.6316 PSIA = MASS = +624908.25 LBM. AVG DEW POINT TEMP +60.3275 DEG. F = AVG VAPOR PRESSURE +0.2591 PSIA = ).
.~ Millstone 3 TEST MODE : TEST-INTEGRATED LEAK RATE TEST DATA POINT
SUMMARY
SHEET -DATE
- 284 i
TIME
- 15:30 Pressure Instruments in PSIA q
channel pressure channel pressure g 1 +54.6198 2' '+54.6364 4 RTDs in degrees F e channel _ temp. channel temp. channel-temp. 1 .81.5051 ,. i 1 +82.203 2 +81.627 3 + 4 +81.693 5 +82.228 6 +81.671 7 +81.917 8 +81.897 9 +81.664 10 +81.337 11 +80.752 12 . +79.467 13 +80.226 14 +80.712 15 +80.442 16 +80.886 17 +80.368 18 +79.569 19 +79.320-20 +76.202 21 +75.513 22 +76.117 23 +74.914 i Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.229 2 +60.222 3- +61.248 4- '+58.971 5 +59.434 ..t AVERAGE TEMPERATURE = +80.4622 DEG. F AVERAGE PRESSURE +54.6281 PSIA = MASS = +624892.81' LBM +60.3475 'DEG. F AVG DEW POINT-TEMP = AVG VAPOR PRESSURE 1+0.2593 PSIA- = t e P ? t i ? l J
MillstoneL3 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- .15:45 t
Pressure Instruments in PSIA l channel pressure channel pressure '54.6334 1 +54.6170 2 + RTDs in degrees F channel temp. channel
- temp, channel temp.
1 +82.158 2 +81.569 3 +81.432 4 +81.710 5 +82.205 6 +81.618 7 +81.897 8 +81.880 9 +81.636 10 +81.340 11 +80.738 12 +79.458 13 +80.214 14 +80.702 15 +80.422-16 +80.876 17 +80.358 18 +79.590 19 +79.303 20 +76.184 21 +75.494 22 +76.097 23 +74.891 1, Dew Cell temperatures in degrees F channel cell temp channel cell temp- + j 1 +61.161 2- +60.206 .3 +61.398 4 +59.010 5 +59.539 l AVERAGE TEMPERATURE = +80.4379 DEG.'F-i +54.6252 PSIA 1l AVERAGE PRESSURE = MASS =1+624885.50 'LBM l +60.3684 DEG. F l AVG DEW POINT TEMP = +0.2595 PSIA ' AVG VAPOR PRESSURE = e a t 'i i I
,=- .i M111 stone.3 INTEGRATED LEAK RATE TEST TEST MODE : TEST' DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- .16:00 i
Pressure Instruments in PSIA channel pressure channel pressure 1 +54.6142 2 +54.6306 RTDs in degrees F channel temp. channel temp. channel' temp. 1 +82.105 2 +81.534 3 +81.384' 4 +81.645 5 +82.188 6 +81.602 7 +81.877 8 +81.862 9 +81.618 10 +81.278 11 +80.719 12 +79.456' i 13 +80.190 14 +80.693 15 +80.384 j 16 +80.852 17 +80.330 18 +79.585 19 +79.293 20 +76.156 21 +75.479 22 +76.074 23 +74.868 Dew Cell temperatures in degrees F channel cell temp channel cell temp i 1 +61.040 2 +60.226 l' 3 +61.294 4 +59.015 5 +59.559 3 AVERAGE TEMPERATURE = +80.4095 DEG. F AVERAGE PRESSURE. +54.6224 PSIA = MASS = +624890.25 LBM +60.3288 DEG. F l AVG DEW POINT TEMP' = +0.2591 PSIA- ^ AVG; VAPOR PRESSURE = f
P s s. 'l Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 16:15 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.6115 2 +54.6277 RTDs in degrees F channel temp. channel temp. channel temp. 1 +82.052 2 +81.514 3 +81.337 4 +81.679 5 +82.164 6 +81.597 7 +81.851 8 +81.829 9 +81.594 10 +81.265 11 +80.709 12 +79.458 13 +80.193 14 +80.682 15 +80.394 f 16 +80.846 17 +80.347-18 +79.567 19 +79.285 20 +76.135 21 +75.462 22 +76.057 23 +74.850 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.200 2 +60.139 3 +61.403 4 +59.111 1 5 +59.595 1 AVERAGE TEMPERATURE = +80.3917 DEG. F AVERAGE PRESSURE = +54.6196 PSIA MASS = +624872.75 LBM AVG DEW POINT TEMP +60.3850 DEG. F. = AVG VAPOR PRESSURE +0.2596 PSIA = i .I
i Millstone 3 INTEGRATED LEAK RATE TEST-TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 16:30 r
7 Pressure Instruments in PSIA channel pressure channel pressure 1 +54.6088 2 +54.6252 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.997 2 +81.448 3 +81.298 4 +81.608 5 +82.143 6 +81.582 7 481.829 8 +81.801 9 +81.573-10 +81.273 11 +80.687 12 +79.447 13 +80.178 14 +80.686 15 +80.376 16 +80.832 17 +80.317 18 +79.573 19 +79.288 20 +76.114 21 +75.446 22 +76.043 23 +74.832 ________________________________________m________________________ Dew Cell temperatures in degrees F r channel cell temp channel cell temp 1 +61.121 2 +60.107 3 +61.425 4 +59.113' 5 +59.649 AVERAGE TEMPERATURE = +80.3661-DEG. F AVERAGE PRESSURE +54.6170 PSIA = MASS = +624874.44 LBM AVG DEW POINT TEMP +60.3661 DEG. F = AVG VAPOR PRESSURE +0.2595 PSIA = E b f 1 ) l i i
~. Millstone 3 INTEGRATED LEAK RATE. TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET .DATE
- 284 i
TIME
- 16:45 Pressure' Instruments in PSIA channel pressure channel' pressure.
1. +54.6065 2 +54.6222 + RTDs in degrees F t channel temp. channel temp. channel temp. l 3 1 +81.967 2 +81.399 3 +81.285 4 +81.611. 5 +82.119 6 +81.550 7 +81.810 8 +81.765 9 +81.552 10 +81.254 11 +80.693' 12 +79.445-l 13 +80.179 14 +80.665 15 +80.389 16 +80.828 17 +80.341 18 +79.563 ? 19 +79.294 20 +76.096 21 +75.431 I 22 +76.025 23 +74.811 1 Dew Cell temperatures in degrees F i channel cell temp channel cell temp 1 +61.127 2 +60.075 3 +61.448 4 +59.145 5 +59.670 l i AVERAGE TEMPERATURE = +80.3479 'DEG..F t t AVERAGE PRESSURE +54.6143 . PSIA = MASS = +624864.69 LBM +60.3703 DEG. F AVG DEW POINT TEMP = +0.2595 PSIA e AVG VAPOR PRESSURE = t [ i I .5 1 l
e e f Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE.
- 284~
TIME.
- 17:00
? Pressure Instruments in PSIA I channel pressure channel. pressure 1 +54.6043 2 +54.6206 1 i RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.933 2 +81.393-3- +81.268 l t 4 +81.563 5 +82.098 6 +81.531-7 +81.792 8 +81.760 9 +81.526 10 +81.248 11 +80.687. 12 +79.451 13 +80.176 14 +80.661 15 +80.354 t 16 +80.812 17 +80.332 18 +79.567 19 +79.314 20 +76.079 21 +75.416 j 22 +76.015 23 +74.808 t Dew Cell temperatures in degrees F channel cell temp channel-cell temp [ 1 +61.087 2 +60.C75 3 +61.498 4 +59.207 5 +59.691 1 AVERAGE TEMPERATURE = +80.3331 DEG. F 'I AVERAGE PRESSURE +54.6124 PSIA = MASS =-+624859.00 LBM +60.3792 DEG.. FL i AVG DEW POINT TEMP = AVG VAPOR PRESSURE +0.2596 PSIA = ..I . 1 i I - A a i t .I . ~...
e Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 17:15 e
i Pressure Instruments in PSIA channel pressure channel pressure 1 +54.6029 2 +54.6184 i RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.911 2 +81.392 3 +81.242 4 +81.565 5 +82.080 6 +81.509 7 +81.771 8 +81.724 9 +81.522 10 +81.228 11 +80.679 12 +79.462 13 +80.177 14 +80.661 15 +80.343 16 +80.794 17 +80.321 18 +79.569 19 +79.337 20 +76.070 21 +75.408 22 +76.006 23 +74.805 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.101 2 +60.125 3 +61.448 4 +59.193 5 +59.727 r AVERAGE TEMPERATURE = +80.3213 DEG. F +54.6106 PSIA AVERAGE PRESSURE = MASS = +624850.50 LBM +60.3926 DEG. F AVG DEW POINT TEMP = AVG VAPOR PRESSURE =- +0.2597 PS I.', f I
a e Millstone 3 INTEGRATED LEAK RATE TEST TEST. MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 17:30 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.6009 2 +54.6166 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.866 2 +81.346 3 +81.214 4 +81.491 5 +82.070 6 +81.498 7 +81.763 8 +81.705 9 +81.506 10 +81.245 11 +80.665 12 +79.457 13 +80.180 14 +80.656 15 +80.344 16 +80.797 17 +80.308 18 +79.571 19 +79.346 20 +76.060 21 +75.397 22 +76.000 23 +74.796 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.210 2 +60.054 3 +61.460 4 +59.263 5 +59.753 AVERAGE TEMPERATURE = +80.3047 DEG. F +54.6087 PSIA' AVERAGE PRESSURE = MASS = +624845.06 LBM +60.4193 DEG. F AVG DEW POINT TEMP = AVG VAPOR PRESSURE = +0.2600-- PSIA e
- s-i 1 Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284
. TIME
- 17:45-l Pressure Instruments in PSIA channel pressure channel pressure I
1 +54.5989 2 +54.6152 RTDs in degrees F channel temp. channel temp. channel temp. . i 1 +81.838 2 +81.284 3 +81.193-4 +81.502 5 +82.056-6 +81.503 l 7 +81.748 8 +81.696 9 +81.481 10 +81.242 11 .+80.663 12 +79.463 13 +80.190 14 +80.664 15 +80.349 16 +80.796 17 +80.323 18 +79.570 19 +79.372 20 +76.048 21 +75.388 t 22 +75.980 23 +74.788 Dew Cell temperatures in degrees F j channel cell temp channel cell temp' l 3 +61.479 4 +59.292 5 +59.680 f AVERAGE TEMPERATURE = +80.2934 DEG. F i AVERAGE PRESSURE +54.6070 PSIA = MASS- = +624839.69 LBM +60.4087 DEG. F i -AVG DEW POINT TEMP = +0.2599 PSIA j AVG VAPOR PRESSURE = h t t ' t i F ^ f 9 ~+ e
e e Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA PdINT
SUMMARY
SHEET DATE .: 284 TIME
- 18:00 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.5978 2 +54.6141 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.808 2 +81.264 3 +81.169 4 +81.531 5 +82.046 6 +81.467-7 +81.729 8 +81.672 9 +81.472 10 +81.241 11 +80.672 12 +79.477 13 +80.202 14 +80.662 15 +80.337 16 +80.796 17 +80.338 18 +79.576 19 +79.403 20 +76.043 21 075.383 22 +75.982 23 +74.783 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.140 2 +60.128 3 +61.473 4 +59.332 5 +59.768 AVERAGE TEMPERATURE = +80.2852 DEG. F AVERAGE PRESSURE +54.6059 PSIA = MASS = +624833.75 LBM AVG DEW POINT TEMP +60.4349 DEG. F = AVG VAPOR PRESSURE +0.2601 PSIA =
~, r:
- s r
t 7 Mi11 stone'3 1 INTEGRATED LEAK RATE TEST-TEST MODE : TEST DATA POINT
SUMMARY
SHEET-- DATE.
- 284-1 TIME-
- 18:15 i
f Pressure Instruments in PSIA channel: pressure channel pressure l i 1 +54.5964 2 +54.6123
- I P
l RTDs in degrees F i channel temp. channel temp. channel temp. L I 1 +81.776' 2 +81.273-3 +81'.-149 4 +81.465-5 +82.040' 6 +81.464
- t 7
+81.724 8 +81.662 9 +81.463 10 +81.189 11 +80.684 12 +79.490 l 13 +80,197 14 +80.667 15 +80.321 16 +80.785 17 +80.345 18 +79.566-i 19 +79.416 20 +76.039 21 +75.376-1 22 +75.968 23 +74.776 - i i Dew 1 Cell temperatures in degrees F t channel cell temp channel cell temp 1 +61.095 2 +60.097-i 3 461.585 4 +59.284 5 +59.823 i AVERAGE TEMPERATURE = +80,2729 -DEG. F +54.6044 PSIA AVERAGE PRESSURE = MASS +624829.94 LBM. = 1 AVG DEW POINT TEMP +60.4318 DEG. F = ' AVG VAPOR PRESSURE +0.2601 PSIA = 'i t -} ? 1 I i + 1
~o' r + M'llstone 3 i . INTEGRATED LEAK RATE' TEST. TEST MODE : TEST. DATA POINT
SUMMARY
SHEET-DATE
- 284 TIME
- 18:30
~l i ~1 l Pressure Instruments in PSIA j channel pressure channel pressure 1 +54.5950 2 +54.6108_ ,a .f 1 RTDs in degrees F i r channel temp. channel temp. channel temp. t i t 1 +81.752 2 +81.249 _3 +81.162' l 4 +81.447 5 +82.026 6 +81.461 1 7 +81.709 8 +81.643 9 +81.443 10 +81.188 11 +80.'678 12 +79.496 z; 13 +80.209 14 +80.659 15- +80.327 i 16 +80.788 17 +80.357 18 +79.570 1 19- +79.440 20 +76.032 21 +75.369 ~ Ti i 22 +75.966 23 +74.767 a Dew Cell temperatures'in degrees F l channel cell temp channel cell: temp i j 1 +61.100 2 +60.147 i 3 +61.609 4 +59.352 5 +59.803 ,1; 'l ? AVERAGE TEMPERATURE = +80.2654 DEG. F +34.6029 PSIA AVERAGE PRESSURE = MASS = +624819.19 LBM +60.4577 DEG. F AVG. DEW POINT TEMP _ = +0.2603 PSIA j AVG VAPOR PRESSURE = f -r E l t r
.. ~ ~. Lo '1 Millstone.3 INTEGRATED LEAK RATE TEST. TEST MODE : TEST. DATA' POINT
SUMMARY
SHEET. DATE
- 284 ia TIME
- 18:45 t
'i I Pressure Instruments in PSIA channel pressure channel pressure 1 +54.5932 2 +54.6095 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.732 2 +81.199 3 +81 125
- l 4
+81.406 5 +82.017 6 +81.434 7 +81.702 8 +81.640 9 +81.443 i 10 +81.170 11 +80.678 12 +79.508 13 +80.224 14 +80.669 15 +80.334 16 +80.779 17 +80.353 18 +79.575. 19 +79.447 20 +76.024 21 +75.362 22 +75.961 23 +74.761 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.101 2 +60.086 -L 3 +61.585 4 +59.366 5 +59.816 a, a AVERAGE TEMPERATURE = +80.2529 DEG. F 1 AVERAGE PRESSURE +54.6013 PSIA = MASS = +624817.56 LBM i +60.4417 DEG. F [ AVG DEW POINT TEMP = AVG VAPOR PRESSURE +0.2602 PSIA = i i ' i. L f'i 1 t r
y 5 1 ,1 ? e Millstone 3 INTEGRATED LEAK-RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET-DATE
- 284 TIME
- 19:00 Pressure Instruments in PSIA
.t channel pressure channel pressure 1 +54.5919 2 +54.6077 i RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.708 2 +81.166 3 +81.099 4 +81.433 5 +82.009 6 +81.413 7 +81.685 8 +81.614 9 +81.420 10 +81.170 11 +80.663 12 '79.487 i + 13 +80.218 14 +80.672 15 +80.334 16 +80.763 17 +80.354 18 +79.575 19 +79.462 20 +76.018 21 +75.354 22 +75.959 23 +74.754 i Dew Cell temperatures in degrees F i channel cell temp channel cell temp. 1 +61.062 2 +60.121 3 +61.597 4 +59.403 5 +59.856 AVERAGE TEMPERATURE = +80.2408 DEG. F I AVERAGE PRESSURE +54.5998 PSIA = MASS = +624812.44 LBM ? AVG DEW POINT TEMP +60.4539 DEG.. F = AVG VAPOR PRESSURE +0.2603 PSIA = i I b I t
3 4 Millstone 3 ~ 1NTEGRATED LEAK RATE TEST TEST MODE:: TEST-l DATA POINT
SUMMARY
SHEET .DATE.
- 284 TIME
- 19:15 l
Pressure Instruments in PSIA channel pressure channel . pressure ~j 1 +54.5904 2 +54.6061 t 4 RTDs in degrees F channel temp. channel temp. channel; temp. j 1 +81.701' 2 +81.152 3 +81.083-l 4 +81.392 5 +81.996 6 +81.423-7 +81.669 8 +81.612 9 +81.417 10 +81.149 11 +80.666 12 +79.500 13- +80.225 14 +80.669 15 +80.323 i 16 +80.767 17 +80.359 18 +79.602-19 +79.468 20 +76.007 21 . 75.347 'i + 22 +75.951 23 +74.746-q Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.213 2 +60.128 .. t 3 +61.652 4 +59.408 5 +59.918 i i AVERAGE TEMPERATURE = +80.2335 DEG. F l +54.5983 PSIA i AVERAGE PRESSURE = MASS = +624796.44 LBM AVG DEW POINT TEMP +60.5157 DEG. F = AVG VAPOR PRESSURE +0.2609 PSIA = I i i 9 4 1
. 'i : i 7 I Millstone 3 INTEGRATED LEAK RATE TEST . TEST. MODE : TEST l DATA POINT
SUMMARY
. SHEET DATE
- 284 TIME'
- 19:30 i
-t Pressure Instruments in PSIA e channel pressure channel pressure ~l 1 +54.5884 2 +54.6045 l r j RTDs in degrees F channel temp. channel-temp. channel temp. j j 1 +81.669 2 +81.141 3 . +81.062 4 +81.392 5 +81.985 6 +81.389 7 +81.666 8 +81.596 9 +81.400-10 +81.111 11 +80.665 12- +79.502 j 13 +80.220 14 +80.651 15 +80.318 16 +80.760 17 +80.363 18 +79.587 19 +79.480 20 +75.998 21 ' +75.341 22 +75.944-23 +74.737 .I Dew Cell temperatures in degrees F' I 4 . channel cell temp channel cell temp 1 -+61.073 2 +60.098 3 +61.658 4 +59.426 1 5 +59.927 l i AVERAGE TEMPERATURE = +80.2203 DEG. F l AVERAGE PRESSURE +54.5965 PSIA = MASS = +624795.50 LBM j AVG DEW POINT TEMP +60.4738 DEG. F l = AVG VAPOR PRESSURE +0.2605 PSIA I = i f i i a i 4 i .1 i t
3 se 'l l i Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : TEST I DATA-POINT
SUMMARY
SHEET-DATEL
- 284 j
TIME
- 19:45 I
- l Pressure Instruments in PSIA j
channel pressure channel pressure-j 1 +54.5867 2 +54.6035 .j r RTDs in degrees F channel temp. channel temp. channel. temp. l i 1 +81.624 2 +81.107 3 +81.061 4 +81.353 5 +81.978 6- +81.398 7 +81.651-8 +81.589 9 +81.388-10 +81.126 11 +80.656 12 +79.501 l 13 +80.217 14 +80.651 15 +80.316 .i 16 +80.752 17 +80.359 18- +79.589 '79.480 20 +75.991 21 +75.332 19 + 22- +75.934 23 +74.731 Dew Cell temperatures in degrees F t channel cell temp channel cell temp _ ? 1 +60.982 2 +60.101 3 +61.651 4 +59.450 5 +59.917
- j AVERAGE TEMPERATURE =
+80.2097 DEG. F AVERAGE PRESSURE = +54.5951 PSIA MASS = +624794.75 LBM AVG DEW POINT TEMP +60.4506 DEG. F = AVG VAPOR PRESSURE +0.2603 PSIA = i y I e I E I t y t 4 i i
i
- d --
M111 stone-3 INTEGRATED LEAK RATE TEST' TEST MODE': TEST DATA POINT
SUMMARY
SHEET .DATE
- 284 TIME
- 20:00 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.5861 2 +54.6015 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.617 2 +81.081 3 +81.0261 j 4 +81.354 5 +81.974 6 +81.393 i 7 +81.636 8 +81.575 9 +81.370 10 +81.113 11 +80.649 12 +79'.489 13 +80.215 14 +80.654 15 +80.308 i 16 +80.747 17 +80.357 18 +79.588 19 +79.486 20 +75.985 21 +75.327-22 +75.928 23 +74.722 e s I Dew Cell temperatures in degrees F channel cell temp channel cell temp i 1 +61.010 2 +60.147 3 +61.693 4 +59.461 5 +59.927 1 i 1 AVERAGE TEMPERATURE = +80.1991 DEG. F +54.5938 PSIA-1 AVERAGE PRESSURE = MASS = +624788.94-LBM l +60.4805-DEG. F AVG DEW POINT TEMP = AVG VAPOR PRESSURE +0.2605 PSIA = ' I
- l
- i
I .r M111 stone'3 f i INTEGRATED LEAK RATE TEST TEST MODE : TEST' DATA POINT
SUMMARY
SHEET DATE
- 284 f
TIME
- 20:15-i Pressure Instruments in PSIA j
channel pressure channel pressure-1 +54.5842 2 +54.6005 l r RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.590 2 +81.110 3 +81.021 4 +81.366 5 +81.955 6 +81.382 7 +81.636 8 +81.566 9 +81.361 10 +81.065 11 +80.644 12 +79.494 13 +80.216 14 +80.645 15 +80.304 16 +80.758 l'7 +80.351 18 +79.589 19- +79.487 20 +75.975 21 +75.318 22 +75.917 23 +74.714 9 Dew Cell temperatures in degrees F j channel cell temp channel cell temp 1 +60.971 2 +60.159 3 +61.705 4 +59.468 5 +59.956 4 5 AVERAGE TEMPERATURE = +80.1926 DEG. F AVERAGE PRESSURE +54.5924 PSIA = MASS = +624779.81 LBM AVG DEW POINT TEMP +60.4802 DEG. F = AVG VAPOR PRESSURE +0.2605 PSIA = ln 1 I l l i
-Millstone 3 ? INTEGRATED LEAK RATE TEST TEST MOD? DATA POINT
SUMMARY
SHEET DATE TIME- .: 20:30 Pressure Instruments in PSIA l channel pressure channel pressure h I +54.5830 2 +54.5989 i i RTDs in degrees F channel
- temp, channel temp.
channel temp. 1 +81.576 2 +81.046 3 +81.009 l 4 +81.317 5 +81.953 6 +81.377 7 +81.621 8 +81.550 9 +81.352 i '10 +81.080 11 +80.646 12 +79.491 13 +80.210 14 +80.652 15 +80.308 16 +80.743 17 +80.354 18 +79.571 19 +79.487 20 +75.969 21 +75.312 .i 22 +75.908 23 +74.708 l Dew Cell temperatures in degrees F -t channel cell temp channel cell temp i 1 1 +61.044 2 +60.172 3 +61.602 4 +59.480 5 +59.931 AVERAGE TEMPERATURE = +80.1798 DEG. F AVERAGE PRESSURE +54.5910 PSIA = MASS = +624777.81 LBM AVG DEW POINT TEMP +60.4865 DEG. F = 1 +0.2606 PSIA AVG VAPOR PRESSURE = + 1 1 4 i l
- o i
e ' Millstone 3~ -INTEGRATED-LEAK RATE TEST' TEST MODE : TEST -IhMD4 POINT
SUMMARY
SHEET DATE
- 284 TIME
- 20:45 i
Pressure Instruments in PSIA channel pressure channel pressure 1 +54.5818 2 +54.5977 i RTDs in degrees F i + _________________________________________________________________1 channel temp. channel temp. channel temp. i 1 +81.549 2- +81.051 3 +80.990 '81.347, 4 +81.292 5 +81.955 6 + 7 +81.610 8 +81.549 9 +81.342 i 10 +81.055 11 +80.641 12 +79.485 13 +80.212 14 +80.642 15 +80.301 16 +80.748 17 +80.355 18 +79.571 19 +79.492 20 +75.961 21 +75.303 22 +75.898 23 +74.702 l Dew Cell temperatures in degrees F t channel cell temp channel cell temp 1 +61.060 2 +60.110 3 +61.626 4 +59.496 5 +,59.978 AVERAGE TEMPERATURE'= +80.1701 DEG. F AVERAGE PRESSURE +54.5897 PSIA = MASS =-+624775.19 LBM J AVG DEW POINT TEMP +60.4869 DEG. F = AVG VAPOR PRESSURE +0.2606 PSIA = i L i 1
Millstone 3 INTEGRATED LEAK RATE TEST 7"ST MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- -21:00 Pressure Instruments in PSIA channel pressure channel pressure
'l +54.5805 2 +54.5959 RTDs in degrees F ~ channel temp. channel temp. channel. temp. 1 +81.548 2 +81.051 3 +80.976 4 +81.314 5 +81.948 6 +81.344 7 +81'.604 8 +81.548 9 +81.326 10 +81.057 11 +80.632 12 +79.486 13 +80.218 14 +80.648 15 +80.308 f 16 +80.739 17 +80.349 18 +79.569 19 +79.502 20 +75.953 21 +75.297 22 +75.895 23 +74.691 Dew Cell temperatures in degrees F channel cell temp channel cell temp i 1 +61.095 2 +60,139 3 +61.626 4 +59.529 5 +59.965 1 AVERAGE TEMPERATURE = +80.1673 DEG. F +54.5882 -PSIA AVERAGE PRESSURE = MASS = +624758.44 LBM +60.5075 DEG. F AVG DEW POINT TEMP = +0.2608 PSIA AVG VAPOR PRESSURE =
~_ 4 i e Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE :: TEST l DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 21:15 Pressure Instruments in PSIA i
channel pressure channel pressure 1 +54.5790 2 +54.5950 RTDs in degrees F channel temp. channel-temp. channel temp. + 1 +81.558 2 +81.018 3 +80.952 4 +81.265 5 +81.942 6 +81.351 7 -+81.594 8 +81.529 9 +81'.323 10 +81.060 11 +80.630 12 +79.487 13 . +80.217 14 +80.626 15 +80.298 16 +80.728 17 +80.352 18 +79.582 - i 19 +79.499 20 .+75.944 21 +75.290 22 +75.890 23 +74.687 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.121 2 +60.182 3 +61.573 4 +59.531 5 +60.002 AVERAGE TEMPERATURE = +80.1580 DEG. F. AVERAGE PRESSURE +54.5870 PSIA = MASS = +624753.56 LBM AVG DEW POINT TEMP +60.5244' DEG. F = AVG VAPOR PRESSURE = +0.2609 PSIA Y ? D F i I f d
i C. 9 \\ l l l Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT
SUMMARY
SHEET DATE
- 284 I
TIME
- 21:30 i
Pressure Instruments in PSIA channel pressure channel pressure 1 +54.5778 2 +54.5939 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.517 2 +80.981 3 +80.949 4 +81.302 5 +81.930 6 +81.341 7 +81.573 8 +81.523 9 +81.311 10 +81.062 11 +80.626 12 +79.494 13 +80.210 14 +80.626 15 +80.294 16 +80.728 17 +80.343 18 +79.576 19 +79.504 20 +75.935 21 +75.282~ 22 +75.876 23 +74.676 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.096 2 +60.236 3 +61.521 4 +59.524 5 +59.993 AVERAGE TEMPERATURE = +80.1485 DEG. F AVERAGE PRESSURE +54.5858 PSIA = MASS = +624751.63 LBM AVG DEW POINT TEMP +60.5222 DEG. F = AVG VAPOR PRESSURE 80.2509 PSIA =
c: .t i Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE :. TEST DATA POINT
SUMMARY
SHEET DATE-
- 284
-TIME
- 21:46
~i 1 Pressure Instruments in' PSIA channel pressure channel pressure f l 1 +54.5764 2 -+54.5920 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.516 2 +80.993 3 +80.948-4 +81.267 5 +81.921 6 +81.321 7 +81.555 8 +81.540 9 +81.293 10 +81.018 11 +80.623 12 +79.365 13 +80.210 14 +80.620 15 +80.291 16 +80.711 17 +80.342 18 +79.574 19 +79.504 20 +75.928 21 +75.277-22 +75.868 23 +74.671 Dew Cell temperatures in 'egrees F d channel cell temp channel cell temp 1 +61.115 2 +60.210 3 +61.535 4 +59.534 5 +60.031 AVERAGE TEMPERATURE = +80.1360 DEG. F AVERAGE PRESSURE +54.5842 PSIA = MASS = +624746.25.LBM- +60.5296 DEG. F-AVG DEW POINT TEMP = AVG VAPOR PRESSURE +0.2610 PSIA = t p h i i l I I
-. -... ~ ~... - .m . n. , Millstone 3 INTEGRATED LEAK? RATE TEST-TEST MODE : TEST.- "I .' DATA POINT
SUMMARY
SHEET' DATE
- 284 TIME
- 22:00'-
. Pressure Instruments in PSIA channel- . pressure channel pressure l 1 +54.5755 2 +54.5910 3 RTDs in degrees F d channel temp. . channel temp. channel temp. j 1 +81.476 2 +80.984 3 +80.911-i 4 +81.276 5 +81.926 6 .+81.302 7. +81.547 8 +81.531 9 +81.292 l 10 +81.021 11 +80.609 12 +79.'473 a 13 +80.206' 14 +80.624 15 ' +80.288 16 +80.718 17 +80.338 18 +79.563 22 +75.859 23 +74.665 ' +75.270 19 +79.512 20 475.919 ~21 i Dew Cell temperatures in degrees F channel cell temp channel icell. temp 1 +61.129 2 +60.200 l 3 +61.531 4 +59.569 5 +60.053 AVERAGE TEMPERATURE = +80.1314 DEG. F +54.5833 PSIA ' AVERAGE PRESSURE = MASS = +624739,69 LBM +60.5386' DEG. F l AVG DEW POINT TEMP = +0.2611' PSIA AVG VAPOR PRESSURE = h I o v e = 4 E m
~ O S,- b i . Millstone 3. i INTEGRATED LEAK RATE TEST TEST MODE : TEST DATA POINT.
SUMMARY
. SHEET DATE
- 284
? I TIME
- 22:15' h
Pressure Instruments in PSIA l channel pressure . channel pressure. ] 1 +54.5747 -2 +54.5898 RTDs in degrees F channel temp. channel temp. channel . temp. i 1 +81.476 2 +80.989 3 +80.914 4 +81.256 5 +81.916 6 +81.278 7 +81.546 8 +81.515 9 +81.277 10 +81.002 11 +80.599 12 +79.468-1 13 +80.191 14 +80.618 15- +80.274 16 +80.708 17 +80.347 18 +79.590 19 +79.510 20 +75.914 21 +75.264 22 +75.855 23 +74.657 i Dew Cell temperatures in degrees F channel cell temp channel cell' temp 1 +61.106 2 +60.240 4 3 +61.510 4 +59.577 5 +60.027 = t i i AVERAGE TEMPERATURE,= +80.1247 DEG. F l +54.5823. PSIA AVERAGE PRESSURE =- MASS = +624736.19 LBM +60.5374-DEG. F i AVG DEW POINT TEMP = +0.2611 PSIA. i AVG VAPOR PRESSURE = e f i sj + i + P l c )
Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : TEST -DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 22:30 Pressure Instruments in PSIA channel pressure channel pressure 1
+54.5729 2 +54.5894 f RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.452 2 +80.928 3 +80.902 4 +81.250 5 +81.910 6 .+81.277 7 +81.531 8 +81.498 9 +81.278 10 +81.009 11 +80.608 12 +79.464 13 +80.210 14 +80.614 15 +80.272 16 +80.704 17 +80.331 18 +79.572 19 +79.515 20 +75.906 21 +75.257 22 +75.844 23 +74.650 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.090 2 +60.235 3 +61.414 4 +59.554 5 +60.080 i i AVERAGE TEMPERATURE = +80.1137 DEG. F AVERAGE PRESSURE +54.5812 PSIA = MASS = +624737.88 LBM AVG DEW POINT TEMP +60.5218 DEG. F = AVG VAPOR-PRESSURE +0.2609 PSIA = P k i f
F o r Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : ' TEST DATA POINT
SUMMARY
SHEET DATE
- 284 TIME
- 22:45 t
Pressure Instruments in PSIA channel pressure channel pressure 1 +54.5726 2 +54.5873 i t RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.462 2 +80.953 3 +80.892 i 4 +81.270 5 +81.902 6 +81.291 7 +81.536 8 +81.514 9 +81.270 10 +80.995 11 +80.602 12 +79.456 13 +80.207 14 +80.622 15 +80.263 16 +80.699 17 +80.333 18 +79.575. 19 +79.513 20 +75.899 21 +75.252 22 +75.842 23 +74.644 Dew Cell temperatures in degrees F channel cell temp channel-cell temp 1 +61.170 2 +60.204 3 +61.520 4 +59.553 5 +60.051 AVERAGE TEMPERATURE = +80.1156 DEG. F AVERAGE PRESSURE +54.5799 PSIA = MASS = +624719.19 LBM AVG DEW POINT TEMP = +60.5466 DEG. F AVG VAPOR PRESSURE +0.2611 PSIA = i + r I i f 5
-.. ~ '6 :
- 3 1
1 Millstone 3 - i INTEGRATED LEAK RATE TEST-TEST MODE : TEST l DATA POINT
SUMMARY
SHEET DATE
- 284' l
TIME
- 23:00
-( ~l j Pressure. Instruments in PSIA l 8.; channel pressure channel pressure 'j 1 +54.5711 2 +54.5866 i.; RTDs in degrees F channel temp. channel temp. channel temp. j 1 +81.445 2 +80.911 3 +80.880. 4 +81.236 5 +81.896 6 +81.274 7 +81.515 8 +81.501 9 +81.259 10 +80.980 11 +80.601 12 +79.457 13- +80.200 14 +80.609 15 +80.250 16 +80.708 17 +F^.343 18 +79.600 19 +79.520 20 +i5.890 21 +75.243 22 +75.831 23 +74.635 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.165 2 +60.180 .I 3 +61.546 4 +59.595 I 5 +60.080 i t AVERAGE TEMPERATURE = +80.1031 DEG. F AVERAGE PRESSURE ' +54.5788 PSIA = MASS = +624720.31 LBM AVG DEW POINT TEMP +60.5532 DEG. F = AVG VAPOR PRESSURE +0.2612. PSIA = L i 6 r F I 'i Ii l i h 'l ,.,i m
d i 1 _f cq IL. A. _-g g CM- .e ../ ~ ~s. g y .i _E m /, - i 3 s I ./. 1 i g c ~ _.=- e N .N ./ \\ d N D N 1-N D M M = 4 Z CD m cDO DAM AMWMM i l i
sA n a -w a a m ) a S b s 4* .~ ,\\ n ~ J{ .\\ 'N _g S C4
- sew "98
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- 3 E
JX e 1 r
i -i a e. i. e w = m w = 4 8 e c 2 = / ru t 0 0 r e e )y 3 aa f* 2 + 1 m L a 5 C fL e 7 U 8 4 o ( 59t 2 1 N~ 57 oI E .M I T 4 8 2 / m 3 0 0 0 0 0 5 T .EL / 0 5 'Y 9 1 6 I TMA X N OIN TA 0 U TTA WD 0
..., ;.~._- . of
- 0. 650er:
L UNIT 3' : 0.75 La (0.4875 wt.%/ day) 1 MASS ~ ~ ANAL. HTW DAY 9 'e ~ ~ ~ ~ ~, - 95% UCL t ,r (. i i / Lam 0.0000"J . i 1500/ 284 TIME 23007 284-l 4 .m m .__m_.__,._...-.._-.m.__.-____m-eae mm...- ,___._m___._m-- = m m- ..r-. u -awe m m. .~.=~..m+< ..-w.- -'+ ..<*+w w w u +n -w. ww - 1 ee
1 ~h h t .i t t b .I i n f APPENDIX C VERIFICATION TEST DATA AND PLOTS i I l 1 I i I l 1
^ e T i i VERIFICATION MODE
SUMMARY
t . OPTIONS TIME = 0410 MANUAL DATA ENTRY
- OF DATA POINTS = 17 1
2 PARAMETER GRAFHS MODE DURATION (IN HOURS) '+.00 = SENSOR PLOTS TOT TIME MEASURED. LEAK = 0.6764 3 4 REPRINT CURRENT DATA PT TOT TIME CALCULATED LEAK'= 0.6651 5 SENSOR DIFFERENTIALS MASS PT LEAK = 0.6732 l 6 TREND ANALYSIS IMPOSED LEAK = 0.6063 P PASS WORD MENU TOT TIME UPPER LIMIT =' O.8629 TOT TIME LOWER LIMIT = 0.5379 MASS PT UPPER LIMIT = 0.8600 MASS PT LOWER LIMIT = 0.5350 i TOT TIME VERIFICATION CRITERIA HAS BEEN MET MASS PT VERIFICATION CRITERIA HAS BEEN MET l POINT
SUMMARY
CURRENT VALUE/ DIFFERENCE FROM PREVIOUS POINT l AVG TEMP: 79.967/ -0.007 AVG PRESS: 54.227 / -0.004 MASS: 62383I.69 / -39.938 AVG DEW PRESS: 0.2617/ +0.0001 .j TOTAL PRESS: 54.488 / -0.004 l i i i l l 1 l 1 .._y,.,-,Ei.__ r - ---n-
... ~ 5 O e. i I i I -VERF MODE Page 1 t AVERAGE DATA VALUES DATE TIME RTD DEW PT. VAP PRESS DRY PRESS MASS j 285 0.00 80.063 60.534 0.261 54.298 624535.81 l 285 0.25 80.054 60.561 0.261 54.292 624487.31 285 0.50 80.053 60.544 0.261 54.288 624435 50 285 0.75 80.042 60.544 0.261 54.283 624392.88 285 1.00 80.037 60.568 0.261 54.278 624346.63 285 1.25 80.029 60.574 0.261 54.274 624301.13 285 1.50 80.022 60.562 0.261 54.270 624264.38 285 1.75 80.011 60.587 0.262 54.265 624223.50 285 2.00 80.009 60.599 0.262 54.261 624176.88 285 2.25 80.005 60.573 0.261 54.257 624132.31 285 2.50 79.998 60.568 0.261 54.252 624087.50 285 2.75 79.993 60.602 0.262 54.248 624042.88 l 285 3.00 79.987 60.588 0.262 54.244 624003.63 285 3.25 79.984 60.580 0.261 54.239 623957.13 285 3.50 79.980 60.607 0.262 54.235 623911.13 285 3.75 79.974 60.591 0.262 54.231 623871.63 285 4.00 79.967 60.606 0.262 54.227 623831.69 l [ l s - =. - -.
L i VERF MODE Millstone UNIT 3 Page 1 LEAKAGE RATE
SUMMARY
UNIT 3 TOTAL TIME MASS / POINT 1 DATE TIME TTLM LMCALC SL LAM L95 285 0.00 0.0000 0.0000 0.0000 0.0000 0.0000 285 0.25 0.7461 0.0000 0.0000 0.0000 0.0000 285 0.50 0.7709 0.7709 0.0000 0.7711 0.8969 285 0.75 0.7324 0.7429 0.9936 0.7386 0.7966 285 1.00 0.7269 0.7297 0.8233 0.7261 0.7575 285 1.25 0.7217 0.7210 0.7801 0.7185 0.7391 285 1.50 0.6953 0.7031 0.7515 0.7002 0.7265 285 1.75 0.6858 0.6888 0.7289 0.6859 0.7104 285 2.00 0.6895 0.6820 0.7182 0.6814 0.7006 285 2.25 0.6893 0.6778 0.7133 0.6791 0.6943 285 2.50 0.6891 0.6752 0.7111 0.6785 0.6908 285 2.75 0.6889 0.6736 0.7101 0.6785 0.6886 285 3.00 0.6817 0.6705 0.7060 0.6761 0.6850 285 3.25 0.6843 0.6691 0.7049 0.6755 0.6831 285 3.50 0.6860 0.6686 0.7052 0.6758 0.6823 285 3.75 0.6807 0.6671 0.7033 0.6749 0.6807 285 4.00 0.6764 0.6651 0.7005 0.6732 0.6787 l l ~ j
e. I l l ~! VERF MODE Millstone UNIT 3 Page 1-LEAKAGE RATE TREND
SUMMARY
UNIT 3 TOTAL TIME MASS POINT j DATE TIME TTLM LMCALC CHANGE LAM CHANGE 285 0.25 0.7461 0.0000 0.0000 0.0000 0.0000 285 0.50 0.7709 0.7709 9.7709 0.7711 0.7711 285 0.75 0.7324 0.7429 -0.0280 0.7386 -0.0325 285 1.00 0.7269 0.7297 -0.0133 0.7261 -0.0124 285 1.25 0.7217 0.7210 -0.0086 0.7185 -0.0076 285 1.50 0.6953 0.7031 -0.0179 0.7002 -0.0183 l 285 1.75 0.6858 0.6888 -0.0143 0.6859 -0.0143 Lt 285 2.00 0.6895 0.6820 -0.0069 0.6814 -0.0045' 285 2.25 0.6893 0.6778 -0.0042 0.6791- -0.0023 285 2.50 0.6891 0.6752 -0.0026 0.6785 -0.0006 285 2.75 0.6889 0.6736 -0.0016 0.6785 0.0000-i' 285 3.00 0.6817 0.6705 -0.0031 0.6761 -0.0024 285 3.25 0.6843 0.6691 -0.0014 0.6755 -0.0006 285 3.50 0.6860 0.6686 -0.0005 0.6758 0.0002 285 3.75 0.6807 0.6671 -0.0015 0.6749 -0.0009 285 4.00 0.6764 0.6651 -0.0020 0.6732 -0.0017 20 POINT MEAN TOTAL TIME CALCULATED LEAKAGE = 0 ~' 20 POINT MEAN TOTAL TIME MEASURED LEAKAGE = 0 20 POINT MEAN MASS POINT LEAKAGE = 0 i' MASS POINT INTERCEPT = 624906.6 MASS POINT SLOPE =-175.1696 I wP- -w- ~ w a v w
=.. 6.- I a it q t Millstone 3 INTEGRATED LEAK-RATE _ TEST . TEST MODE : VERF DATA POINT
SUMMARY
' SHEET DATE
- 285 TIME
- 00:10 j
t 'I Pressure Instruments in PSIA 'l channel pressure channel pressure i 1 +54.5505 2 +54.5667 . ) l j RTDs in degrees F i channel temp. channel temp. channel temp. j l 1 +81.366 2 +80.886 3 +80.821 i 4 +81.173 5 +81.861 6 +81.214 1 7 +81.465 8 +81.454 9 +81.209' 10 +80.956 11 +80.570 12 +79.458 13 +80.183 14 +80.585 15 +80.251 16 +80.668 17 +80.319 18 +79.577 'i 19 +79.518 20 +75.850 21 +75.210 'l 22 +75.790 23 +74.599 f f f Dew Cell temperatures in degrees F t channel cell temp channel cell temp { 1 +61.075 2 +60.193 3 +61.537 4 +59.590 1 5 +60,105 j .] i AVERAGE TEMPERATURE = +80.0631 DEG. F' +54.5586 PSIA ,l AVERAGE PRESSURE = MASS ~= +624535.81 LBM e +60.5336 DEG. F l AVG DEW POINT TEMP = 6 AVG VAPOR PRESSURE +0.2610 PSIA = ~i P P f -{ i fi ?) '[ .I +
e e Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : VERc DATA POINT
SUMMARY
SHEET DATE
- 285 TIME
- 00:25 Pressure Instruments in PS1A channel pressure channel pressure 1
+54.5460 2 +54.5615 RTDs in degrees F channel
- temp, channel temp.
channel temp. 1 +81.363 2 +80.885 3 +80.799 4 +81.171 5 +81.852 6 +81.180 7 +81.446 8 +81.462 9 +81.205 10 +80.932 11 +80.567 12 +79.444 13 +80.181 14 +80.582 15 +80.240 16 +80.660 17 +80.315 18 +79.576 19 +79.518 20 +75.842 21 +75.205 22 +75.779 23 +74.594 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.039 2 +60.253 3 +61.590 4 +59.614 5 +60.165 AVERAGE TEMPERATURE = +80.0543 DEG. F AVERAGE PRESSURE = +54.5537 PSIA MASS = +624487.31 LBM AVG DEW POINT TEMP +60.5608 DEG. F = AVG VAPOR PRESSURE +0.2613 PSIA = i T i i i
4 q Millstone 3 - IllTEGRATED LEAK RATE TEST. TEST MODE : VERF [ DATA' POINT
SUMMARY
CHEET DATE
- 285 1
TIME
- 00:40 i
i i Pressure Instruments in PSIA } L; channel pressure channel pressure-j 1 +54.5413 2 +54.5567 i -i .i RTDs in degrees F channel temp. channel temp. channel temp. .) 1 +81.352 2 +80.887 3 +80.800 4 +81.211 5 +81.849-6 +81.181 7 +81.454 8 +81.446 9 +81.199' 10 +80.958 11 +80.557 12 +79.438 I 13 +80.174 14 +804569 15 +80.236 16 +80.657 17 +80.308 18 +79.565 1 19 +79.514 20 +75.834 21 +75.196 22 +75.774 23 +74.588 I Dew Cell temperatures in degrees F j channel cell temp channel cell'_ temp -j I +61.077 2 +60.193 i 3 +61.530 '4 +59.619 5 +60.140 j t 1 AVERAGE TEMPERATURE = +80.0534-DEG. F +54.-5490 PSIA AVERAGE PRESSURE = MASS = +624435.50 LBM 'I 'l +60.5441: DEG. F AVG DEW POINT' TEMP = +0.2611 PSIA i AVG VAPOR PRESSURE = y i f ( i t 4 lI - - - -~
'l ~
- = -
e. i '1 l M111 stone'3 INTEGRATED LEAK RATELTEST TEST NODE :: VERF i DATA PO.'NT
SUMMARY
SHEET DATE
- 285 i
TIME iR00:55 Pressure Instruments in PSIA channel pressure channel pressure .i 1 +54.5361 2 +54.5523 t-RTDs in degrees F t channel temp. channel temp. channel temp. -j I +81.341' 2 +80.849 3' +80.784 1 4 +81.183 5 +81.844 6 +81.177 7 +81.439 8 +81.441 9 .+81.193 j 10 +80.925 11 +80.556 12 +79.433 13 +80.175 14 +80.571 15 +80.236-16 +80.652 17 +80.296 18 +79.577 19 479.518 20 +75.827 21 +75.190 l 22 +75.770 23 +74.579 I Dew Cell-temperatures in degrees F channel cell temp channel 1 cell! temp l 1 +61.000 2 +60.224' [ 3 +61.665 4 +59.585. 5 +60.129 i t i AVERAGE TEMPERATURE = +80.0425 DEG. F AVERAGE PRESSURE = ' +54.5442-PSIA r MASS = +624392'88 -LBM +60.5435 DEG.:F i AVG DEW POINT TEMP = AVG VAPOR PRESSURE ' = +0.2611. PSIA d .it i .i ~i I A h m-t
e. .i i Millstone 3 -INTEGRATED LEAK RATE TEST TEST MODE : VERF i DATA POINT
SUMMARY
SHEET DATE
- 285 TIME
- 01:10-Pressure Instruments in PSIA channel pressure channel pressure 1
+54.5322 2 +54.5474' J RTDs in degrees F channel temp. channel temp. channel temp. l 1 +81.318 2 +80.837 3 +80.782. 4 +81.178 5 +81.844 6 +81.175 7 +81.432 8 +81.434 9 +81.176. 10 +80.934 11 +80.547 12 +79.435 13 +80.185 14 +80.567 15 +80.225 16 +80.645-17 +80 290 18 +79.574: 19 +79.520 20 +75.821 21 +75.184 22 +75.762 23 +74.572 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.068 2 +60.236 3 +61.598 4 +59.645 'i ~' 5 +60.151 } AVERAGE TEMPERATURE = +80.0366 DEG. F i AVERAGE PRESSURE +54.5398 PSIA = MASS = +624346.63-LBM AVG DEW POINT TEMP +60.5678-DEG. F = AVG VAPOR PRESSURE +0.2613 PSIA = j l ? 1 a 1 c .i o g..
. v j7, . s L... = u> s Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : VERF r DATA POINT
SUMMARY
SHEET DATE
- 285 TIME
- 01:25; l
r Pressure Instruments in PSIA i >f channel pressure channel pressure I +54.5274 2 +54.5429 + RTDs.in degrees F i channel temp. channel . temp. channel temp. 1 +81.329 2 +80.811 3 +80.778. i 4 +81.140 5 +81.832 6 +81.163 7 +81.417 8 +81.425 9 -+81.176 10 +80.940-11 +80.547 '12 +79.435-13 +80.181 14 +80.552 15 +80.217-16 +80.653 17 +80.287 18 +79.568 19 +79.524 20 +75.814 21 +75-180-22 +75.757 23 +74.567 t Dew Cell temperatures in degrees F l, channel cell temp channel cell temp-i ,1 1 +61.067 2 +60.205 3 +61.689 4 +59.652-j 5 +60.150 4 i AVERAGE TEMPERATURE = +80.0292-DEG.'F AVERAGE PRESSURE +54.5351 PSIA- = MASS = +624301.06 LBM i AVG. DEW, POINT TEMP +60.5735-DEG. F l = AVG VAPOR PRESSURE +0.2614 PSIA = J! '1 I t t 'i 'I i t e p 3 3-w-- .w- ,,_i .-.m,
- r an h L Millstone 13 I INTEGRATED LEAK RATE TEST TEST MODE.: VERF DATA POINT.
SUMMARY
. SHEET DATE
- '285
, TIME
- 01:40 1
Pressure Instruments in PSIA' j channel pressure channel pressure 1 +54.5233 2 +54.5390 f 4 RTDs in' degrees F channel
- temp, channel
- temp, channel 1 temp.
1 +81.306 2 +80.810 3' +80.753 4 +81.149 5 +81.832 6 +81.150 l 7 +81.410 8 +81.438 9 +81.174 10 +80.918 11 +80.547 12 +79.435 1 -13 +80.172 14 +80.511 15 +80.217 l 16 +80.649 17 +80.267 18 +79.575 19 +79.532 20 +75.805 21 +75.173 .22 +75.750 23 +74.559 i Dew Cell temperatures in degrees F channel cell temp. channel' cell. temp L! 1 +61.007 2 +60.233 a 3 . +61.730 4 ' +59.592 5 +60~.150 l a AVER /,GE TEMPERATURE = +80.0221 DEG.-F -AVERAGE PRESSURE +54.5312 PSIA = o MASS = +624264.38 LBM AVG DEW POINT TEMP
== +60.5619 DEG. F. AVG VAPOR PRESSURE +0.2613 PSIA ~ ] = 'lo .I I I l -r .\\
-V Millstone 3-INTEGRATED LEAK RATE TEST TEST MODE : -VERF _ DATA POINT
SUMMARY
SHEET -DATE-
- 285 TIME
- 01:55 C
Pressure Instruments in PSIA channel pressure-channel pressure l + 1 +54.5189 2 +54.5346 RTDs in degrees-F 4 channel temp. channel temp. -channel temp. 1 1 +81.280 2 +80.800 3 +80.751 r 4 +81.111 5 +81.828 6 +81.146 7 +81.403 8 +81.421 9 +81.161 10 +80.923 11 +80.550 12 +79.428 13 +80.162 14 +80.457 15 +80.230 16 +80.643 17 +80.246 18 +79.566 19 +79.528 20 +75.798 21 +75.168 22 +75.745 23 +74.554 Dew Cell temperatures in' degrees F a channel cell temp channel cell temp 1 +61.158 2 +60.207 3 +61.643 4 +59.613 1 5 +60,155 AVERAGE TEMPERATURE = +80.0114 DEG. F 'i AVERAGE PRESSURE +54.5267 PSIA =- MASS = +624223.50 LBM AVG DEW POINT TEMP = +60.5872 DEG. F AVG VAPOR PRESSURE +0.2615 PSIA = i f I 'l 't l +
I .M111 stone 3 INTEGRATED LEAK RATE; TEST TEST MODE : VERF DATA Po1NT-
SUMMARY
SHEET: DATE
- 285 TIME
- 02:10 I
I 1 'l Pressure Instruments in PSIA channel pressure channel pressure o 1 +54.5150 2 +54.5301 ] RTDs in degrees F q channel temp. channel. temp. channel temp. 1 +81.282 2 +80.767 3 +80.741. 4 +81.156 5 +81.815 6 . +81.153 7 +81.402-8 +81.424 9 +81.164 i 10 +80.908 11 +80.544 12 +79.424 13 +80.184 14 +80.429. 15 +80.216 16 +80.651 17 +80.242 18 +79.567 19 '79.528 20 +75.795 21 +75.164 22 +75.740 23 +74.548 Dew Cell temperatures in degrees F channel. cell temp channel cell. temp 1 +61.098 2 +60.223 3 +61.790 4 +59.616 5 +60.168 AVERAGE TEMPERATURE.= +80.0088 DEG. F AVERAGE PRESSURE +54.5226 PSIA = MASS = +624176.94 LBM-AVG DEW POINT TEMP +60.5995 DEG. F = +0.2616-PSIA. AVG VAPOR PRESSURE = w t I s t 'I
e: .o . Millstone 3 i ~ INTEGPATED LEAK .s TEST TEST MODE.: VERF DATA POINT
SUMMARY
SKEET' DATE
- 285 TIME
- 02:25 Pressure Instruments in PSIA
~ channel pressure channel pressure i 1 +54.5103 2 +54.5257 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.269 2 +80.795 3 +80.734 4 +81.119 5 +81.830 6 +81.131 l 7 _+81.397 8 +81.396 9 +81.152 10 +80.913 11 +80.548 12 +79.439~ 13 +80.171 14 +80.414 15 +80.239 16 +80.651 17 +80.244 18 +79.576 19 +79.532 20 +75.789 21 +75.159-22 +75.735 23 +74.543 .i Dew Cell _ temperatures in degrees F t channel cell temp channel cell temp 1 +61.087 2 +60.169 '59.623' 3 +61.732 4 + 5 +60.165 l AVERAGE TEMPERATURE = +80.0045 DEG. F. +54.5180 PSIA AVERAGE PRESSURE = MASS = +624132.25 LBM AVG DEW POINT TEMP = +60.5735 DEG. F. AVG VAPOR PRESSURE ' +0.2614 PSIA' = y I D i +i l q l i P 4
- Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE
- 285 i
TIME
- 02:40 1
t Pressure Instruments in PSIA channel pressure channel-pressure 1 +54.5057 2 +54.5212 i i RTDs in degrees F r channel temp. channel temp. channel temp. t 1 +81.267 2 +80.778 3 +80.742 4 +81.104 5 +81.824 6 +81.143 7 +81.371 8 +81.403 9 +81.153 10 +80.885 11 +80.548 12 +79.436 13 +80.172 14 +80.398-15 +80.215 16 +80.642 17 +80.243 18 +79.581 19 +79.537 20 +75.780 21 +75.153 22 +75.726 23 +74.536 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.026 2 +60.227 3 +61.681 4 +59.614 5 +60.193 i i + AVERAGE TEMPERATURE = +79.9985 DEG. F +54.5135 PSIA l AVERAGE PRESSURE = MASS = +624087.50 LBM +60.5679 DEG. P AVG DEW POINT TEMP = AVG VAPOR PRESSURE +0.2613 PSIA = 1 ? a l
e-Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE
- 285-TIME
- 02:55 Pressure Instruments in PSIA j
channel pressure channel pressure 1 +54.5016 2 +54.5171 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.260 2 +80.761 3 +80.732 4 +81.139 5 +81.823 6 +81.120 7 +81.378 8 +81.398 9 +81.149 10 +80.863 11 +80.542 12 +79.431 13 +80.178 14 +80.383 15 +80.215 16 +80.642 17 +80.230 18 +79.571 19 +79.540 20 +75.772 21 +75.146 22 +75.715 23 +74.528 Dew Cell temperatures in degrees F channe) cell temp channel cell temp 1 +61.082 2 +60.237 3 +61.701 4 +59.693 5 +60,203 i i AVERAGE TEMPERATURE = +79.9931 DEG. F AVERAGE PRESSURE +54.5093 PSIA = MASS = +624042.88 LBM AVG DEW POINT TEMP +60.6024 DEG. F = AVG VAPOR PRESSURE +0.2617 PSIA = P e r k h s
I e m. i Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE
- 285 TIME
- 03:10 1
Pressure Instruments in PSIA channel pressure channel pressure 1 +54.4975 2 +54.5128 t RTDs in degrees F channel temp. channel temp. channel temp. 1. +81.247 2 +80.733 3 +80.711 4 +81.104 5 +81.830 6 +81.137 7 +81.371 8 +81.385 9 +81.142 10 +80.902 11 +80.544 12 +79.426 13 +80.174 14 +80.370 15 +80.219 16 +80.643 11 ~7 +80.214 18 +79.557 19 +79.537 20 +75.769 21 +75.142 22 +75.710 23 +74.525 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.039 2 +60.236 3 +61.740 4 +59.647 5 +60.193 AVERAGE TEMPERATURE =.+79.9866 DEG. F AVERAGE PRESSURE +54.5051 PSIA = MASS +624003.63 LBM = AVG DEW POINT TEMP +60.5877 DEG. F ) = AVG VAPOR PRESSURE +0.2615 PSIA = i 4 e t
o i t i M111 stone 3 INTEGRATED LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE
- 285 i
TIME
- 03:25 f
Pressure Instruments in PSIA channel pressure channel pressure 1 +54.4931 2 +54.5085 i i RTDs in degrees F
- )
channel temp channel temp. channel temp. 1 +81.243 2 +RO.769 3 +80.695 4 +81.090 5 +81.821 6 +81.109 s 7 +81.371 8 +81.407 9 +81.136 i 10 +80.867 11 +80.546 12 +79.433 13 +80.184 14 +80.357 15 +80.215 16 +80.648 17 +80.215 18 +79.575 19 +79.544 20 +75.762 21 +75.137 22 +75.703 23 +74.519 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.055 2 +60.200 3 +61.710 4 +59.655 I 5 +60.200 AVERAGE TEMPERATURE = +79.9843 DEG. F AVERAGE PRESSURE +54.5008 PSIA = MASS = +623957.13 LBM i AVG DEW POINT TEMP +60.5799 DEG. F- = +0.2615 PSIA AVG VAPOR PRESSURE = l r I i l 1
e Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE
- 285 TIME
- 03:40 Pressure Instruments in PSIA l
channel pressure channel pressure 1 +54.4888 2 +54.5045 RTDs in degrees F channel temp. channel temp. channel temp. 1 +81.243 2 +80.748 3 +80.684 4 +81.093 5 +81.813 6 +81.106 7 +81.355 8 +81.396 9 +81.134 10 +80.895 11 +80.541 12 +79.432 13 +80.184 14 +80.364 15 +80.221 16 +80.640 17 +80.209 18 +79.589 19 +79.545 20 +75.753 21 +75.133 22 +75.696 23 +74.513 Dew Cell temperatures in degrees F channel cell temp channel cell temp 1 +61.077 2 +60.212 3 +61.792 4 +59.692 5 +60.198 AVERAGE TEMPERATURE = +79.9804 DEG. F AVERAGE PRESSURE +54.4967 PSIA = MASS = +623911.06 LBM- +60.6068 DEG. F AVG DEW POINT TEMP = AVG VAPOR PRESSURE +0.2617 PSIA = I
~ ,t .e s Millstone 3 INTEGRATED LEAK RATE TEST TEST MODE : VERF t DATA POINT
SUMMARY
SHEET DATE
- 285 TIME
- 03:55
~ l ____--___---___________-_-----_----_-_--____-___~____________-__- Pressure Instruments in PSIA channel pressure channel pressure 1 +54.4844 2 +54.5004 l RTDs in degrees F channel temp. channel temp. channel _ -temp. r 1 +81.223 2 +80.747 3 +80.672-4 +81.101 5 +81.802 6 +81.081 7 +81.370 8 +81.400 9 +81.128 10 +80.868 11 +80.532 12 +79.428 13 +80.163 14 +80.346 15 +80.206 16 +80.643 17 +80.202 18 +79.579 19 +79.554 20 +75.749 21 +75.128 - l 22 +75.693 23 +74.509 Dew Cell temperatures in degrees F l channel cell temp channel cell temp 1 +61.065 2 +60.227 3 - +61.737 4 +59.666 5 +60.169 o 3 AVERAGE TEMPERATURE = +79.9737 DEG. F AVERAGE PRESSURE' +54.4924 PSIA = MASS = +623871.56 LBM AVG DEW POINT TEMP +60.5912 DEG. F = AVG VAPOR PRESSURE +0.2616 PSIA = ? P ) s 't t b s t ,m , + - ..=,......n s.,,.
.e: 9- .t 1 -Millstone 3 ' INTEGRATED LEAK RATE TEST TEST MODE : VERF DATA POINT
SUMMARY
SHEET DATE
- .285 TIME
- -04:10-j I
Pressure Instruments in PSIA j channel pressure channel pressure 1- +54.4807 2- +54.4961 k r RTDs in degrees F channel temp. channel -temp. channel. temp. r 1 +81.232 2 +80.689 3. +80.685' 4 +81.101 5 +81.794 6 +81.113 ~ 81.123-l 7 +81.348 8 +81.380 9 + 10 +80.865 11 +80.536 12 +79.418 13 +80.178 14 +80.333 15 +80.193 16 +80.635 17 +80.195 18 +79.578 l 19 +79.551 20 +75.745 21 +75.122 l 22 +75.683 23 +74.505 Dew Cell temperatures.in degrees F channel cell. temp channel . cell temp 1 +61.116 2 +60.208 3 +61.766 4 +59.675 5- +60.172 AVERAGE TEMPERATURE =.-+79.9670 DEG. F. AVERAGE PRESSURE +54.4884 PSIA' = MASS = +623831.69 LBM-AVG DEW POINT TEMP +60.6061 DEG. F = AVG VAPOR PRESSURE +0.2617 PSIA =
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- _e 1,- j ^J 1 i l h APPENDIX D LOCAL LEAKAGE RATE TEST SUMMARIES t b 4
APPENDIX D1 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
NON-BYPASS LEAKAGE (UNITS IN SCCM) -Penetration No./ Type Barrier Suseation by Max. ILRT Min. Pattmay Leakage Cooments' Description Test Leakage Pattssy Savings Barrier Tested As Found As Left As Found As Left As Found As Left 3RCP-Al B 20.0 20.0 20.0 20.0 3RCP-A3 8 20.0 20.0 20.0 20.0 3RCP-A4 B 20.0 20.0 20.0 20.0 3RCP*A5 B 20.0 20.0 20.0 20.0 3RCP*A6 B 20.0 20.0 20.0 20.0 3RCP-A7 B 20.0 20.0 20.0 20.0 3RCP-A8 B 20.0 20.0 20.0 20.0 3RCP-A9 B 20.0 20.0 20.0 20.0 3RCP-A10 B 20.0 20.0 20.0 20.0 3RCP-A11 B 20.0 20.0 20.0 20.0 3RCP-A12 B 20.0 20.0 20.0 20.0 3RCP-A13 B 20.0 20.0 20.0 20.0 3RCP-B3 B 20.0 20.0 20.0 20.0 3RCP-B4 B 20.0 20.0 20.0 20.0 3RCP*BS B 20.0 20.0 20.0 20.0 3RCP*B6 B 20.0 20.0 20.0 20.0 3RCP-B7 B 20.0 20.0 20.0 20.0 3RCP-B8 B 20.0 20.0 20.0 20.0 3RCP-89 B 20.0 20.0 20.0 20.0 3RCP-B10 B 20.0 20.0 '20.0 20.0 3RCP-B11 B 20.0 20.0 20.0 20.0 3RCP-B12 B 20.0 20.0 20.0 20.0 3RCP-C1 B 20.0 20.0 20.0 20.0 3RCP-C3 B 20.0 20.0 20.0 20.0 3RCP-C4 B 20.0 20.0 20.0 20.0 3RCP*C5 B 20.0 20.0 20.0 20.0 3RCP*C6 B 20.0 20.0 20.0 20.0 3RCP-C7 B 20.0 20.0 20.0 20.0 3RCP-C8 B 20.0 20.0 20.0 20.0 2ECP-C9 -B 20.0 20.0 20.0 20.0 g 3RCP-C10 B 20.0 20.0 20.0 20.0 3RCP-C11 B 20.0 20.0 20.0 20.0 3RCP-C12 B 20.0 20.0 20.0 20.0 MP3 /enw7parv3xima a
APPENDIX D1 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
NON-BYPASS LEAKAGE (UNITS IN SCCM) Penetration No./- Type Barrier Suoeation by Max. ILRT Min. Pa'imay Leakage Coseents De*scription Test Leakage Pathway Savings Barrier Tested As Found As left As Found As left As Found As Left 3RCP-C13 B 20.0 20.0 20.0 20.0 3RCP-D3 B 20.0 20.0 20.0 20.0 3RCP-D4 B 20.0 20.0 20.0 20.0 3RCP*D5 B 20.0 20.0 20.0 20.0 3RCP-D6 B 20.0 20.0 20.0 20.0 3RCP-D7 8 20.0 20.0 20.0 20.0 3RCP-D8 B 20.0 20.0 20.0 20.0 3RCP-D9 B 20.0 20.0 20.0 20.0 3RCP-D10 B 20.0 20.0 20.0 20.0 3RCP-D11 B 20.0 20.0 20.0 20.0 3RCP-D12 B 20.0 20.0 20.0 20.0 3RCP*El B 20.4 20.4 20.4 20.4 3RCP*E2 B 20.0 20.0 20.0 20.0 3RCP*E3 B 20.0 20.0 20.0 20.0 3RCP*E4 8 20.0 20.0 20.0 20.0 3RCP*ES B 20.0 20.0 20.0 20.0 3RCP*E6 B 20.0 20.0 20.0 20.0 3RCP*E7 B 20.0 20.0 20.0 20.0 3RCP*E8 B 20.0 20.0 20.0 20.0 3RCP*E9 B 20.0 20.0 20.0 20.0 3RCP*E10 B 20.0 20.0 20.0 20.0 3RCP*E11 B 20.0 20.0 20.0 20.0 3RCP*E12 B 31.0 31.0 31.0 31.0 3RCP*F1 B 20.0 20.0 20.0 20.0 3RCP*F2 B 20.0 20.0 20.0 20.0 3RCP*F3 B 20.0 20.0 20.0 20.0 3RCP*F4 B 20.0 20.0 20.0 20.0 3RCP*F5 B 20.0 20.0 20.0 20.0 3RCP*F6 B 20.0 20.0 20.0 20.0 3RCP*F7 B 20.0 20.0 20.0 20.0 3RCP*F8 B 20.0 20.0 20.0 20.0 3RCP*F9 B 20.0 20.0 20.0 20.0 3RCP*F10 B 20.0 20.0 20.0 20.0 MP3/cnimtirnvWMu d 2 r
APPENDIX D1 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
NON-BYPASS LEAKAGE (UNITS IN SCCM) Penetration No./- Type Barrier Sumeation by Max. Pattmay ILRT Min. Pathway Leakage Coseents' Description Test Lenkage Savings Barrier Tested As Found As Left As Found. As Left As Found As left-3RCP*F11 B 20.0 20.0 20.0 20.0 3RCP*F12 B 25.6 25.6 25.6 25.6 3RCP*G1 B 20.0 20.0 20.0 20.0 3RCP*G2 B 20.0 20.0 20.0 20.0 3RCP*G3 B 20.0 20.0 20.0 20.0 3RCP*G4 B 20.0 20.0 20.0 20.0 3RCP*G5 B 20.0 20.0 20.0 20.0 3RCP*G6 B 20.0 20.0 20.0 20.0 3RCP*G7 B 20.0 20.0 20.0 20.0 3RCP*G8 B 20.0 20.0 20.0 20.0 3RCP*G9 B 20.0 20.0 20.0 20.0 3RCP*G10 B 20.0 20.0 20.0 20.0 3RCP*G11 B 20.0 20.0 20.0 20.0 3RCP*G12 B 20.0 20.0 20.0 20.0 3CS* HATCH 1 B 3950.0 3950.0 3950.0 3950.0 As Found As Lett TYPE B Non-Bypass Total: 5,567.0 sccm 5,567.0 sccm BYPASS LEAKAGE FUEL TRANSFER TUBE B 20.00 20.00 20.00 20.00 3FNT*TFT1 VI EQUIPMENT HATCH B 20.00 20.00 20.00 20.00 MANWAY: EQUIPMENT HATCH: B 20.00 20.00 20.00 20.00 3CS* HATCH 2 As Found As Leit TYPE B Bypass Total: 60 accm 60 sccm As Found As Leit 1DTAL TYPE B: 5,627.0 scca 5,627.0 sccm MP3 /cTsan70.nPavAfuget 3
apt'ENDIX D1 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
NON-BYPASS LEAKAGE (UNITS IN SCCM) Penetration No.] Type Barrier Suesation by Max. ILRT Win. Pathway Leakage Comments Description Test Lenkage Pat tmay Savings Barrier Tested As Found As Left As Found As left As Found As Left. 12A(i) 3SSR*CTV26 C 760.0 760.0 760.0 760.0 59.8 59.8 0 12A(o) 3SSR*CTV27 59.8 59.8 12B(i) 3SSR*CTV22 C 23.0 23.0 379.0 379.0 23.0 23.0 0 12B(o) 3SSR*CTV23 379.0 379.0 12C(i) 3SSR*CTV20 C 190.0 190.0 337.0 337.0 190.0 190.0 0 12C(o) 3SSR*CTV21 337.0 337.0 12D(1) 3SSR*CTV8026 C 330.0 330.0 330.0 330.0 155.0 155.0 0 12D(o) 3SSR*CTV8025 155.0 155.0 13A(i) 3SSR*CTV29 C 966.0 966.0 966.0 966.0 599.0 599.0 0 13A(o) 3SSR*CTV30 599.0 599.0 13B(i) 3SSR*CTV32 C 66.0 66.0 66.0 66.0 20.0 20.0 0 13B(o) 3SSR*CTV33 20.0 20.0 16(1) 3CHS*V394 C 62.0 62.0 86.0 62.0 62.0 55.0 7.0 16(o) 3CHS*MV8109A 86.0 55.0 17(i) 3CHS*V434 C 85.0 85.0 85.0 85.0 20.0 20.0 0 17(o) 3CHS*MV8109B 20.0 20.0 18(i) 3CHS*V467 C 421.0 421.0 458.0 421.0 421.0 221.0 200.0 18(o) 3CHS*MV8109C 458.0 221.0 19(i) 3CHS*V501 C 20.0 20.0 152.6 120.8 20.0 20.0 0 19(o) 3CHS*MV8109D 152.6 120.8 23(1) 3CHS*MV8112 C 20.0 20.0 20.0 20.0 20.0 20.0 0 23(o) 3CHS*MV8100 20.0 20.0 3CHS*RV8113 24 3CHS*CV8160 C 20.0 20.0 20.0 20.0 20.0 20.0 0 3CHS*CV8152 3CHS*RV8117 26(1) 3CHS*V58 C 20.0 20.0 20.0 303.0 20.0 20.0 0 26(o) 3CHS*MV8105 20.0 303.0 MP3 /cwmD.PF/WAK/gek 4
APPENDIX D1 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
(UNITS IN SCCM) Penetratiore No./ Type Barrier Summation by Max. ILRT Min. Pathway Leskage Coonents Description Test Leakage Pathway Savings Barrier Tested As Found As Lef t As Found As Left As Found As Left 27 3DGS*CTV24 C 20.0 20.0 20.0 20.0 20.0 20.0 0 3DGS*CTV25 3DGS*RV51 28(1) 3DAS*CTV24 C 20.0 20.0 20.0 20.0 20.0 20.0 0 28(o) 3DAS*CTV25 20.0 20.0 3DAS*RV87 29(i) 3VRS*CTV20 C 20.0 20.0 20.0 20.0 20.0 20.0 0 29(o) 3VRS*CTV21 20.0 20.0 32(1) 3 CMS *CTV20 C 22.1 22.1 22.1 22.1 21.0 21.0 0 32(o) 3 CMS *CTV21 21.0 21.0 39(1) 3CCP*V18 C 88.2 92.6 88.2 92.6 20.0 20.0 0 39(o) 3CCP*MOV45A 20.0 20.0 40(i) 3CCP*V60 C 9,100.0 8,940.0 9,100.0 8,940.0 20.0 20.0 0 40(o) 3CCP*MOV45B 20.0 20.0 41(1) 3CCP*MOV48A C 25.6 25.6 25.6 25.6 20.0 20.0 0 41(o) 3CCP*MOV49A 20.0 20.0 3CCP*RV275A 42(1) 3CCP*MOV48B C 20.0 20.0 20.0 20.0 20.0 20.0 0 42(o) 3CCP*MOV49B 20.0 20.0 3CCP*RV275B 51(1) 3SIH*CV8843 C 20.0 20.0 335.0 1328.0 39.0 20.0 19.0 3SIH*V5 315.0 1,308.0 51(i) 1DTAL 335.0 1,328.0 51(o) 3SIH*MV8801B C 39.0 20.0 3SIH*MV8801A 62(1) 3CHS*V372 288.0 288.0 288.0 288.0 38.1 22.8 15.3 3CHS*RV8351 C 62(o) 3CHS*V371 38.1 22.8 63(1) 3 CMS *MOV24 C 20.0 20.0 314.0 314.0 20.0 20.0 0 63(o) 3 CMS *CTV23 314.0 314.0 91(i) 3RHS*MV8701A C 64.0 64.0 251.0 124.0 64.0 64.0 0 91(o) 3RHS*MV8701B 251.0 124.0 3RHS*RV8708A MP3 /ctso979.rJr/wAK/gek 5
APPENDIX D1 .o 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
(UNITS IN SCCM) Penetration No./- Type ' Barrier Susention by Max. ILRT Min.'rathway Leakage. Coneents-Description' Test Leakage Pattmsy Savings Carrier Tested As Found As Left As Found As Left As Found As Left' 92(i) 3RHS*MV8702B C 20.0 37.0 65,000 58,000 20.0 37.0 0 3RHS*MV8702A 65,000.0 58,000 3RHS*MV87088 93(1) 3SIL*V6 C 61.8 61.8 101.8 110.3 48.3 101.8 0 3SIL*CV8890A 20.0 20.0 3SIL*V7 20.0 20.0 93(i)2DTAL 101.8 101.8 93(o) 3SIL*MV8809A 48.3 110.3 94(1) 3SIL*V12 C 8,280.0 15,100.0 9,618.0 16,438.0 107.5 160.8 0 3SIL*CV8890B 20.0 20.0 3SIL*V28 1,318.0 1,318.0 94(1) 2DTAL 9,618.0 16,438.0 94(o) 3SIL*MV8809B 107.5 160.8 95(1) 3SIL*V26 C 676.0 676.0 1,022.7 1,330.0 75.0 983.7 0 3SIL*CV8825 82.7 43.7 3SIL*V28 264.0 264.0 95(1) 1DTAL 1,022.7 983.7 95(o) 3SIL*MV8340 75.0 1,330.0 96(1) 3SIL*V29 C 264.0 264.0 960.0 960.0 92.9 438.0 0 3SIL*V27 676.0 676.0 3SIL*CV8881 20.0 20.0 96(i) 2DTAL 960.0 960.0 96(o) 3SIH*MV8802A 92.9 438.0 97(i) 3SIH*V112 C 20.0 20.0 830.0 106.2 60.0 60.0 0 3SIH*CV8824 20.0 20.0 3SIH*V110 20.0 20.0 97(1) 1DTAL 60.0 60.0 97(o) 3SIH*MV8802B 830.0 106.2 98(i) 3SIH*V22 C 20.0 20.0 9699.8 16,519.8 496.0 515.0 0 3SIH*V28 61.8 61.8 3SIH*CV8823 20.0 20.0 3SIH*V24 1,318.0 1,318.0 3SIH*V26 8,280.0 15,100.0 98(i) 1DTAL 9699.8 16,519.8 98(o) 3SIH*MV8835 496.0 515.0 MP3 /cTso970.rJrtwArtgek 6
APPENDIX D1 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
(UNITS IN SCCM) Penetration No./ Type Barrier Suesation by Max. ILRT Min. Pathway-Leakage Coseents Description Test Leaknge Pathway Savings Barrier Tested As Found As left As Found As Left As Found As Left 99(i) 3SIH*CVS871 C 22.0 20.0 80.0 20.0 22.0 20.0 2.0 99(o) 3SIH*CV8964 80.0 20.0 3SIH*CV8888 3SIH*RV8870 100(i) 3QSS*V4 C 1,788.0 830.0 1,788.0 830.0 39.4 39.4 0 100(o) 3QSS*MOV34A 39.4 39.4 101(i) 3QSS*V8 C 15,910.0 290.0 15,910.0 290.0 20.0 20.0 0 101(o) 3Q5S*Mov34B 20.0 20.0 102 3RSS*MOV23A C 132.0 51.6 132.0 51.C 132.0 51.6 80.4 103 3RSS*MOV23C 201.0 134.5 201.0 134.5 201.0 134.5 66.5 104 3RSS*MOV23B 320.0 75.4 310.0 75.4 320.0 75.4 244.6 105 3RSS*MOV23D 1,590.0 20.0 1,590.0 20.0 1,590.0 20.0 1,570.0 107(1) 3RSS*V3 C 7,700.0 1,010.0 7,700.0 1,010.0 20.0 20.0 0 N 107(o) 3RSS*MOV20D 20.0 20.0 108(i) 3RSS*V6 C 1,536.0 1,536.0 1,536.0 1,536.0 381.0 381.0 0 108(o) 3RSS*MOV20B 381.0 381.0 109(i) 3RSS*V9 C 8,090.0 366.0 8,090.0 366.0 30.7 30.7 0 _109(o) 3RSS*MOV20C 30.7 30.7 110(i) 3RSS*V12 C 298.0 298.0 298.0 298.0 20.0 20.0 0 _110(o) 3RSS*MOV20A 20.0 20.0 111(o) 3HCS*V2 C 419.0 419.0 419.0 419.0 388.0 388.0 0 111(o) 3HCS*V3 388.0 388.0 112(o) 3HCS*V9 C 2,100.0 2,100.0 2,110.0 2,110.0 2,100.0 2,100.0 0 112(o) 3HCS*V10 2,110.0 2,110.0 113(1) 3HCS*V7 C 253.0 253.0 253.0 253.0 26.8 26.8 0 113(o) 3HCS*V6 26.8 26.8 114(1) 3HCS*V14 C 20.0 20.0 20.0 20.0 20.0 20.0 0 114(o) 3HCS*V13 20.0 20.0 115(1) 3 SSP *CTV7 C 112.9 112.9 112.9 112.9 20.0 26.9 0 115(o) 3 SSP *V13 20.0 26.9 3 SSP ~RV62 MP3 /cTsoo70.rJr/ wax / gen 7
APPENDIX D1 g 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
(UNITS IN SCCM) Penetration No./ Type Barrier Sumsation by Max. -ILRT Min. Pattmay Leakage Coseents Description Test Leskage Pattany Savings Barrier. Tested As Found As Left As Found. As Left As Found As left 120(i) 3 SSP *CTV8 C 44.8 44.8 59.8 44.8 44.8 20.0 24.8 120(o) 3 SSP *V14 59.8 20.0 3 SSP *RV63 121(i) 3cVS*MOV25 C 20.0 20.0 20.0 20.0 20.0 20.0 0 121(o) 3cVS*V13 20.0 20.0 TYPE C Non Bypass Total: AS FOUND = 142,055.5 sccm AS LEFT = 116,159.6 accm MP3 /cTso970.rittwAK! et s
APPENDIX D1 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
BYPASS LEAKAGE (UNITS IN SCCM) 4 Penetration No./ Type Barrier Summat. ton by Max. ILRT Min. Pathway Leakage Comments Description-Test Leakage Pathway Savings .Earrier Tested As Found As Left As Found-As Left As Found As Left 14 3SIL*CV8968 C 38.0 29.3 38.0 29.3 3SIL*CV8880 15(i) 3PGS*CV8046 C 20.0 20.0 20.0 20.0 15(o) 3PGS*CV8028 3PGS*RV77 35(o) 3CVS*CTV20A C 30.0 30.0 30.0 30.0 35(o) 3CVS*CTV21A 20.0 20.0 36(c) 3CVS*CTV2OB C 20.0 20.0 23.4 23.4 36(o) 3CVS*CTV21B 23.4 23.4 37(1) 3CVS*AOV23 C 27.0 27.0 9,000.0 9,000.0 37(o) 3CVS*V2O 9,000.0 9,000.0 38(i) 3CDS*CTV91A C 20.0 512.0 317.0 512.0 38(o) 3CDS*CTV38A 317.0 20.0 3CDS*RV105A 45(i) 3CDS*CTV40B C 316.0 20.0 316.0 20.0 45(o) 3CDS*CTV39B 20.0 20.0 3CDS*RV106B 52(1) 3SAs*V875 C 370.0 20.0 370.0 67.6 52(o) 3SAS*V50 67.6 67.6 54 31AS*MOV72 C 75.2 75.2 75.2 75.2 3IAS*PV15 56(1) 3FPW*CTV49 C 227.0 227.0 227.0 304.0 3FPW*V661 56(o) 3FPW*CTV48 129.8 304.0 3FPW*V666 3FPW*RV87 59(1) 3SFC*V991 C 20.0 20.0 20.0 20.0 59(o)'3SFC*V992' 20.0 20.0 60(1) 3SFC*V990 C 466.0 80.0 862.0 80.0 60(o) 3SFC*V989 862.0 20.0 MP3 /ctSO97D.PJP/WAK/ gelt. 9 l-.
.. 7 APPENDIX D1 1993 LOCAL LEAKAGE RATE TEST
SUMMARY
BYPASS LEAKAGE (UNITS IN SCCM) Penetration No.1: Type Barrier Summation by Max. Pathuray ILRT Min. Pattmay Leakage Comments Description Test Leakage Savings Barrier Tested As Found As Left-As Found-As Left' As Found As Left: 70(i) 3CCP*V886 C 20.0 20.0 20.0 20.0 70(o) 3CCP*V887 20.0 20.0 72(i) 3CDS*CTV91B C 20.0 332.0 20.0 332.0 72(o) 3CDS*CTV38B 20.0 20.0 3CDS*RV105B 85 3HVU*CTV338 C 58.0 1,900.0 58.0 1,900.0 3HVU*CTV32B 86 3HVU*CTV33A C 20.0 20.0 20.0 20.0 3HVU*CTV32A 3HVU-V5 116(i) 3CDS*CTV40A C 510.0 247.0 510.0 247.0 116(o) 3CDS*CTV39A 20.0 190.0 3CDS*RV106A 124 3GSN*CTV105 C 20.0 20.0 20.0 20.0 3GSN*CV8033 TYPE C Bypass Total: AS FOUND = 12,705.5 sccm TOTAL LEAKAGE SAVINGS: 2,229.6 sccm AS LEFT = 11,946.6 acca TOTAL TYPE B & C (Bypass & Non-Bypass): AS EDOND = 159,629.1 scca AS LEFT = 134,507.1 sccm 1DTAL TYPE B & C (Bypass only): AS FOUND = 12,006.6 sccm AS LEFT = 12,780.5 sccm MP3/cno9mrnVWAK/gek-10
o APPENDIX D2 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENCTRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS Als ELEC/3RCP-Al DBL SEAL B 0.076/1-25-91 0.076/1-25-91 A3: ELEC/3RCP-A3 DBL SEAL B 0.076/1-25-91 0.076/1-25-91 -A4: ELEC/3RCP-A4 DBL SEAL B 0.076/1-25-91 0.076/1-25-91 A5: ELEC/3RCP-A5 DBL SEAL B 0.076/1-25-91 0.076/1-25-91 A6: ELEC/3RCP-A6 DBL SEAL B 0.076/1-24-91 0.076/1-24-91 A7: ELEC/3RCP-A7 DBL SEAL B O.076/1-24-91 0.076/1-24-91 A8: ELEC/3RCP-A8 DBL SEAL B 0.076/1-24-91 0.076/1-24-91 A9: ELEC/3RCP-A9 DBL SEAL B O.076/1-24-91 0.076/1-24-91 A10: ELEC/3RCP-A10 DBL SEAL B 0.076/1-24-91 0.076/1-24-91 All: ELEC/3RCP-A11 DBL SEAL B 0.076/1-24-91 0.076/1-24-91 A12: ELEC/3RCP-A12 DBL SEAL B 0.076/1-24-91 0.076/1-24-91 A13: ELEC/3RCP-A13 DBL SEAL B 0.076/1-25-91 0.076/1-25-91 B3: ELEC/3RCP-B3 DBL SEAL B 0.076/1-25-91 0.076/1-25-91 B4: ELEC/3RCP-B4 DBL SEAL B 0.076/1-25-91 0.076/1-25-91 B5: ELEC/3RCP-B5 DBL SEAL B 0.076/1-25-91 0.076/1-25-91 B6: ELEC/3RCP-B6 DBL SEAL B 0.076/1-23-91 0.076/1-23-91 B7.ELEC/3RCP-B7 DBL SEAL B 0.076/1-24-91 0.076/1-24-91 B8: ELEC/3RCP-B8 DBL SEAL B 0.076/1-24-91 0.076/1-24-91 B9: ELEC/3RCP-B9 DBL' SEAL B 0.076/1-24-91 0.076/1-24-91 crswanrmx
,3 + APPENDIX D2 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION No./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTIO1f TESTED TEST SLM/DATE SLM/DATE COMMENTS B10: ELEC/3RCP-B10 DBL SEAL B O.076/1-24-91 0.076/1-24-91 Bil: ELEC/3RCP-B11 DBL SEAL B O.076/1-24-91 0.076/1-24-91 B12: ELEC/3RCP-B12 DBL SEAL B O.076/1-24-91 0.076/1-24-91 C1: ELEC/3RCP-Cl DBL SEAL B O.076/1-25-91 0.076/1-25-91 C3: ELEC/3RCP-C3 DBL SEAL B O.076/1-25-91 0.076/1-25-91 C4 ELEC/3RCP-C4 DBL SEAL B O.076/1-25-91 0.076/1-25-91 C5: ELEC/3RCP-C5 DBL SEAL B O.076/1-25-91 0.076/1-25-91 C6: ELEC/3RCP-C6 DBL SEAL B O.076/1-24-91 0.076/1-24-91 C7: ELEC/3RCP-C7 DBL SEAL B O.115/2-24-91 0.115/2-24-91 C9: ELEC/3RCP-C9 DBL SEAL B O.076/1-24-91 0.076/1-24-91 C10: ELEC/3RCP-C10 DBL SEAL B O.076/1-24-91 0.076/1-24-91 C11: ELEC/3RCP-C11 DBL SEAL B O.076/1-24-91 0.076/1-24-91 C12: ELEC/3RCP-C12 DBL SEAL B O.076/1-24-91 0.076/1-24-91 C13: ELEC/3RCP-C13 DBL SEAL B O.076/1-24-91 0.076/1-24-91 D3: ELEC/3RCP-D3 DBL SEAL B O.076/1-25-91 0.076/1-25-91 D4: ELEC/3RCP-D4 DBL SEAL B O.076/1-25-91 0.076/1-25-91 D5: ELEC/3RCP-D5 DBL SEAL B O.076/1-25-91 0.076/1-25-91 D6: ELEC/3RCP-D6 DBL SEAL B O.076/1-24-91 0.076/1-24-91 D7: ELEC/3RCP-D7 DBL SEAL 'B O.076/1-25-91 0.076/1-25-91 CT5097B.PJP/WAK
APPENDIX D2 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS D8: ELEC/3RCP-D8 DBL SEAL B O.076/1-25-91 0.076/1-25-91 D9: ELEC/3RCP-D9-DBL SEAL B O.076/1-25-91 0.076/1-25-91 D10: ELEC/3RCP-D10 DBL SEAL B O.076/1-25-91 0.076/1-25-91 D11: ELEC/3RCP-D11 DBL SEAL B O.076/1-25-91 0.076/1-25-91 D12: ELEC/3RCP-D12 DBL SEAL B O.076/1-24-91 0.076/1-24-91 E1: ELEC/3RCP-El DBL SEAL B O.076/1-25-91 0.076/1-25-91 E2: ELEC/3RCP-E2 DBL SEAL B O.076/1-23-91 0.076/1-23-91 E3: ELEC/3RCP-E3 DBL SEAL B O.076/1-23-91 0.076/1-23-91 E4: ELEC/3RCP-E4 DBL SEAL B O.076/1-23-91 0.076/1-23-91 E5: ELEC/3RCP-E5 DBL SEAL B O.076/1-23-91 0.076/1-23-91 E6: ELEC/3RCP-E6 DBL SEAL B O.076/1-23-91 0.076/1-23-91 F.7 : ELEC/3RCP-E7' DBL SEAL B O.076/1-23-91 0.076/1-23-91 E8: ELEC/3RCP-E8 DBL SEAL B O.076/1-23-91 0.076/1-23-91 E9: ELEC/3RCP-E9 DBL SEAL B O.076/1-22-91 0.076/1-22-91 E10: ELEC/3RCP-E10 DBL SEAL B O.076/1-22-91 0.076/1-22-91 Ell: ELEC/3RCP-E11 DBL SEAL B O.076/1-22-91 0.076/1-22-91 E12: ELEC/3RCP-E12 DBL SEAL B O.168/1-22-91 0.168/1-22-91 F1: ELEC/3RCP*F1 DBL SEAL B O.076/1-23-91 0.076/1-23-91 F2: ELEC/3RCP*F2 DBL SEAL B. 0.076/1-23-91 0.076/1-23-91 crswanmvax
APPENDIX D2 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS F3: ELEC/3RCP*F3 DBL SEAL B O.076/1-23-91 0.076/1-23-91 F4: ELEC/3RCP*F4 DBL SEAL B O.076/1-23-91 0.076/1-23-91 F5: ELEC/3RCP*F5 DBL SEAL B O.076/1-23-91 0.076/1-23-91 F6: ELEC/3RCPaF6 DBL SEAL B O.076/1-23-91 0.076/1-23-91 F7: ELEC/3RCP*F7 DBL SEAL B O.076/1-23-91 0.076/1-23-91 F8: ELEC/3RCP*F8 DBL SEAL B O.076/1-22-91 0.076/1-22-91 F9: ELEC/3RCP*F9 DBL SEAL B O.076/1-22-91 0.076/1-22-91 F10: ELEC/3RCP*F10 DBL SEAL B O.076/1-22-91 0.076/1-22-91 F11: ELEC/3RCP*F11 DBL SEAL B O.076/1-22-91 0.076/1-22-91 F12: ELEC/3Rc7+F12 DBL SEAL B O.076/1-23-91 0.076/1-23-91 G1: ELEC/3RCP*G1 DBL SEAL B O.076/1-23-91 0.076/1-23-91 G2: ELEC/3RCP*G2 DBL SEAL B O.076/1-23-91 0.076/1-23-91 G3: ELEC/3RCP*G3 DBL SEAL B O.076/1-23-91 0.076/1-23-91 G6: ELEC/3RCP*G4 DBL SEAL B O.076/1-23-91 0.076/1-23-91 G5: ELEC/3RCP*GS ' DBL SEAL B O.076/1-23-91 O.076/1-23-91 G6: ELEC/3RCP*G6 DBL SEAL B O.076/1-23-91 0.076/1-23-91 G7: ELEC/3RCP*G7 DBL SEAL B O.076/1-23-91 0.076/1-23-91 G8: ELEC/3RCP*G8 DBL SEAL B O.076/1-22-91 0.076/1-22-91 G9: ELEC/3RCP*G9 DBL SEAL B O.076/1-22-91 0.076/1-22-91 CT3a97B.PJPNAK a
1 APPENDIX D2 4 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS G10: ELEC/3RCP*G10 DBL SEAL B O.099/1-22-91 0.099/1-22-91 Gil: ELEC/3RCP*G11 DBL SEAL B O.076/1-22-91 0.076/1-22-91 G12: ELEC/3RCP*G12 DBL SEAL B O.076/1-22-91 0.076/1-22-91 EH: EQUIPMENT HATCH DBL SEAL B O.076/7-3-89 0.076/7-3-89 EM: EQUIPMENT MANWAY DBL SEAL B 1.565/12-3-89 1.565/12-3-89 FUL: 3RCP-FUEL DBL SEAL B O.076/6-20-89 0.076/6-20-89 LFV: LOCK FULL DBL SEAL B 18.236/12-12-90 18.236/12-12-90 VOLUME LIS: LOCK INNER DBL SEAL B O.076/1-4-89 0.076/1-4-89 SEAL LMI: MANWAY INNER DBL SEAL B O.076/1-4-89 0.076/1-4-89 SEAL LMO: MANWAY OUTER DBL SEAL B O.076/1-4-89 0.076/1-4-89 SEAL LOS: LOCK OUTER DBL SEAL B O.076/1-4-89 0.076/1-4-89 SEAL 12A(I): RC HOT LEG 3SSR*CTV26 C O.095/1-13-92 0.095/1-13-92 SAMPLE (O): 3SSR*CTV27 C O.020/1-13-92 0.095/1-13-92 12B(I): PzR LIQ 3SSR*CTV22 C' O.020/1-14-92 0.020/1-14-92 SPACE SAMPLE (O): 3SSR*CTV23 C O.239/1-14-92 0.239/1-14-92 cnwarmWAK
APPENDIX D2 's-1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS 12C(I): PZR VAPOR 3SSR*CTV20 C 0.207/1-16-92 0.207/1-16-92 SPACE SAMPLE (O): 3SSR*CTV21 C 0.043/1-16-92 0.043/1-16-92 12D(I): PZR RELIEF 3SSR*CTV8026 C 0.538/1-16-92 0.538/1-16-92 TANK GAS (O): 3SSR*CTV8025 C 0.292/1-16-92 0.292/1-16-92 13A(1): RC COLD LEG 3SSR*CTV29 C O.096/2-15-91 0.096/2-15-91 SAMPLE (O): 3SSR*CTV30 C 0.020/2-15-91 0.020/2-15-91 13B(I): SAFETY INJ 3SSR*CTV32 C 0.033/3-14-91 0.033/3-14-91 ACCU SAMPLE (O): 3SSR*CTV33 C O.020/5-12-93 0.020/5-12-93 16(I): RCP PUMP 3CHS*V394 C 0.051/2-18-91 0.051/2-18-91 SEAL IN (O): 3CHV*MV8109A C 0.196/2-18-91 0.196/2-18-91 17(I): RCP PUMP 3CHS*V434 C O.060/2-13-91 0.060/2-13-91 SEAL IN (O): 3CHV*MV8109B 'C 0.020/2-13-91 0.020/2-13-91 18(I): RCP PUMP 3CHS*V467 C 0.256/2-18-91 0.256/2-18-91 SEAL IN (O): 3CHV*MV8109C C 0.302/2-18-91 0.302/2-18-91 19(I): RCP PUMP 3CHS*V501 C 0.020/3-15-91 0.020/5-20-92 SEAL IN (O): 3CHV*MV8109D C O.020/3-15-91 0.035/5-20-92 23(I): RCP PUMP 3CHS*MV8112 C 0.194/2-13-91 0.194/2-13-91 RETURN (O): 3CHV*MV8100 C 0.020/3-11-91 0.020/3-11-91 3CHV*MV8113 crso97s.rmwAK .. m - - ~. -
APPENDIX D2 4 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS 24: RX COOLANT 3CHS*CV8160 C 0.020/2-21-91 0.020/2-21-91 LET DOWN .3CHS*CV8152 C 3CHS*RV8117 C 26(I): RX COOLANT 3CHS*V58 C 0.088/2-28-91 0.087/2-28-91 CHARGING (O): 3CHV*MV8105 C 0.151/3-09-91 0.151/3-09-91 3CHV*MV8113 27s PRT & CONT 3DGS*CTV24 C 0.042/10-03-92 0.042/10-03-92 DRAINS 3DGS*CTV25 C 3DGS*RV51 C 28(I): CONT DRAINS -3DAS*CV24 C 0.020/1-15-92 0.020/1-15-92 DISCHARGE (O) 3DAS*CV25 C 0.020/1-15-92 0.020/1-15-92 3DAS*RV87 C 29(I): PRT & CONT 3VRS*CTV2O C 0.020/2-25-91 0.020/2-25-91 VENT (O) 3VRS*CTV21 C 0.020/2-25-91 0.020/2-25-91 32(I): CTM 3 CMS *CTV20 C 0.021/5-19-92 0.021/5-19-92 ATMOSPHERE MONT (O) 3 CMS *CTV21 C 0.312/5-19-92 0.312/5-19-92 39(I): RX COMPONENT 3CCP*V18 C 0.116/5-23-92 0.081/5-23-92 COOLING (O) 3CCP*MOV45B C 0.081/5-23-92 0.081/5-23-92 60(I): RX COMPONENT 3CCP*V60 C 7.170/2-18-91 7.170/2-18-91 COOLING (0) 3CCP*MOV45B C-0.244/2-18-91 0.244/2-18-91 cnone.nWWAK
APPENDIX D2 4 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS 41(I): RX COMPONENT 3CCP*MOV48A C 0.073/2-15-91 0.023/2-15-91 COOLING (O) 3CCP*MOV49A C 0.020/2-15-91 0.020/2-15-91 42(I): RX COMPONENT 3CCP*MOV48B C 0.020/2-24-91 0.020/2-24-91 COOLING _(O) 3CCP*MOV49B C 0.020/2-17-91 0.020/2-24-91 3CCP*Rv275B C 51(I): HP BORON 3SIH*CV8843 C 0.020/1-06-92 0.020/1-08-92 INSPECTION 3SIH*V5 C 0.020/2-08-92 0.020/1-08-92 S1(I) TOTAL TOTAL 0.040 0.040 (O): 3S1H*MV8801B C 0.024/1-08-92 0.020/1-27-92 3SIH*MV8801A C 62(I): LOOP FILL 3CHS*V372 C -0.446/3-07-91 0.446/3-07-91 3CHS*RV8351 C (O): 3CHS*V371 C 0.050/3-11-91 0.050/3-11-91 63(I): CTMT 3 CMS *Mov24 C 0.020/5-19-92 0.020/5-19-92 MONITORING DISCHARGE (O): 3 CMS *CTV23 C 0.320/5-19-92 0.320/5-19-92 91(I): RHR SUCTION 3RHS*MV8701A C 0.099/3-08-91 0.099/3-08-91 (O): 3RHS*MV8701B C 0.260/3-08-91 0.260/3-08-91 3RHS*RV8708A C 92(I): RHR SUCTION '3RHS*MV8702B C 0.159/1-11-92 0.159/1-11-92 (O)* '3RHS*MV8702A C 78.000/1-11-92 78.000/1-11-92 -3RHS*RV8708B C CT5097B. PIP /WAK
) APPENDIX D2 s 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS 93(I): LPSI RHR 3SIL*V6 C 0.161/10-24-92 0.161/10-24-92 DISCHARGE 3SIL*CV8890A C O.020/2-28-92 0.020/2-28-92 3SIL*V7 C O.369/10-24-92 0.369/10-24-92 2DTM 0.550 0.550 (O): 3SIL*MV8809A C O.203/3-09-91 0.203/3-09-91 94(I): LPSI RHR 3SIL*V12 C 7.350/1-10-92 7.350/1-10-92 DISCHARGE 3SIL*CV8890B C O.020/1-09-92 0.020/1-09-92 3SIL*V13 C 1.783/1-09-92 1.783/1-09-92 TOTE 9.153 9.153 (O): 3SIL*MV88098 C 0.288/1-08-92 0.288/1-08-92 95(I): LPSI RHR 3SIL*V26 C 0.020/2-10-91 0.020/2-10-91 DISCHARGE 3SIL*CV8825 C 0.117/2-10-91 0.117/2-10-91 3SIL*V28 C O.291/2-10-91 0.291/2-10-91 TOTE 0.426 0.428 (O): 3SIL*MV8840 C 0.124/2-05-91 0.124/2-05-91 96(I): HPSI TO 3SIH*V29 C 0.291/2-10-91 0.291/2-10-91 HOT LEG 3SIH*V27 C 0.020/2-10-91 0.020/2-10-91 3SIH*CV8881 C 0.026/2-10-91 0.026/2-10-91 TOTE 0.337 (O): 3SIH*MV8802A C 0.020/3-03-91 0.020/3-03-91 97(I): HPSI TO 3SIH*V112 C 0.020/3-15-91 0.020/3-15-91 HOT LEG 3SIH*CV8824 C 0.020/3-15-91 0.020/3-15-91 3SIH*V110 C O.487/3-15-91 0.487/3-15-91 97(I). TOTE 0.527 0.527 (O): 3SIH*MV8802B C 0.588/3-09-91 0.588/3-15-91 CT3091.MWWAK
- D APPENDIX D2 3
1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS 98(I): HPSI TO 3SIH*V22 C 0.369/10-24-92 0.369/10-24-92 COLD LEG 3SIH*V28 C 0.161/10-24-92 0.161/10-24-92 3SIH*CV8823 C 0.028/1-10 0.028/1-09-92 3SIH*V24 C 1.783/1-09-92 1.783/1-09-92 3SIH*V26 C 7.350/1-10-92 7.350/1-10-92 98(I) YOTAL 9.691 9.691 98(O): 3SIH*MV8835 C O.034/1-10-92 0.034/1-10-92 99(I): SAFETY INJ 3SIH*CV8871 C 0.020/3-16-91 0.020/3-16-91 TEST (O) 3SIH*CV8964 C 0.020/3-16-91 0.020/3-16-91 3SIH*CV8888 C 3SIH*RV8870 C 100(I) QUENCH SPRAY 3QSS*V4 C 1.308/5-18-92 1.308/5-18-92 DISCHARGE (0) 3QSS*MOV34A C 0.133/5-18-92 0.133/5-18-92 101(I) QUENCH SPRAY 3QSS*V8 C O.723/2-12-91 0.723/2-12-91 DISCHARGE (O) 3QSS*MOV34B C O.020/3-11-91 0.020/3-11-91 102 RECIRC SPRAY 3RSS*MOV23A C 0.076/2-17-91 0.076/2-17-91 SUCTION 103 RECIRC SPRAY 3RSS*MOV23C C 0.142/2-19-91 0.142/2-19-91 SUCTION 104 RECIRC SPRAY 3RSS*MOV23B C O.745/3-22-91 0.745/3-22-91 SUCTION 105 RECIRC SPRAY 3RSS*MOV23D C 5.490/2-19-91 5.490/2-19-91 SUCTION 107(I) RECIRC SPRAY 3RSS*V3 C 16.170/3-01-91 16,170/3-01-91 DISCHARGE (0) 3RSS*MOV20D C 0.038/4-07-91 0.038/04-07-91 cno978.rJPtWAK
APPENDIX D2 8 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION.NO.l BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS 10B(I) RECIRC SPRAY 3RSS*V6 C 1.371/3-01-91 1.371/3-01-91 DISCHARGE (O) 3RSS*MOV20B C 0.228/4-07-91 0.228/4-07-91 109(I) RECIRC SPP.AY 3RSS*V9 C 0.768/3-01-91 0.768/3-01-91 DISCHARGE (0) 3RSE*MOV20C C 2.000/3-12-91 2.000/3-12-91 110(I) RECIRC SPRAY 3RSS*V12 C 2.030/3-01-91 2.030/3-01-91 DISCHA.RGE (O) 3RSS*MOV20A C 0.020/3-11-91 0.020/3-11-91 111(I) H2 RECOMBINER 3HCS*V2 C 0.792/10-06-92 0.136/10-07-92 SUCTION (0) 3HCS*V3 C 0.131/10-06-92 0.144/10-07-92 112(I) H2 RECOMBINER 3HCS*V9 C 1.483/10-05-92 1.483/10-05-92 SUCTION (0) 3HCS*V10 C 1.481/10-05-92 1.481/10-05-92 113(I) H2 RECOMBINER 3HCS*V7 C 0.207/10-04-92 0.207/10-04-92 SUCTION (O) 3HCS*V6 C 0.095/10-04-92 0.095/10-04-92 114(I) H2 RECOMBINER 3HCS*V14 C 0.035/10-04-92 0.035/10-04-92 SUCTION (O) 3HCS*V13 C 0.026/10-04-92 0.026/10-04-92 115(I) POST ACCIDENT JSSP*CTv7 C 0.830/2-09-91 0.830/2-09-91 SAMPLE (0) 3 SSP *V13 C O.020/10-09-92 0.020/10-09-92 120(I) POST ACCIDENT 3 SSP *CTV8 C 0.119/10-08-92 0.119/10-08-92 SAMPLE (O) 3 SSP *V14 C 0.081/10-08-92 0.081/10-08-92 3 SSP *RV63 C l crswarma I i .~
D. APPENDIX D2 1 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS 121(I) CTMT VAC PUMP 3CVS*MOV25 C O.020/10-12-92 0.020/10-12-92 DISCHARGE (O) -3CVS*V13 c 0.020/10-12-92 0.020/10-12-92 AS-FOUND NON BYPASS AS-LEFT NON BYPASS TOTALS 2DTALS 143.225 SLM 142.619 CTS 097EMP/WAK
.d: APPENDIX D2 1 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
BYPASS LEAKAGE PENETRATION.No./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE COMMENTS 14 N2 TO SATISFY INJ 3SIL*CV8969 C O.035/3-11-91 0.035/3-11-91 3SIL*CV8880 C 15(I): PRI GRADE 3PGS*CV8046 C 0.020/10-28-92 0.020/10-28-92 WATER (O): 3PGS*CV8028 C O.033/10-26-92 0.033/10-28-92 3PGS*RV77 C 0.020/10-28-92 35(O): CTMT VACUUM 3CVS*CTV20A C 0.021/5-19-92 0.021/5-19-92 SUCTION 3CVS*CTV21A C O.020/5-19-92 0.021/5-19-92 36(O): CTMT VACUUM 3CVS*CTV20B C 0.020/5-19-92 0.020/5-19-92 SUCTION 3CVS*CTV21B C 0.022/5-19-92 0.022/5-19-92 37(O): CTMT VACUUM 3CVS*AOV23 C O.056/5-18-92 0.056/5-18-92 SUCTION 3CVS*V20 C 14.730/5-18-92 14.730/5-18-92 38(1): CHILL WATER 3CDS*CTV91A C 0.020/1-15-92 0.020/1-15-92 SUPPLY (O): 3CDS*CTV38A C 0.020/1-15-92 0.020/1-15-92 3CDS*RV105A 45(I): CHILL WATER 3CDS*CTV40B C 0.025/5-19-92 0.025/5-19-92 RETURN (O): 3CDS*CTV39B C 0.020/5-19-92 0.020/5-19-92 3CDS*RV106B 52(I): SERVICE AIR 3SAS*V875 C O.160/10-11-92 0.*60/10-11-92 3SAS*v50 C 0.149/10-11-92 0.149/10-11-92 54: INSTRUMENT AIR 3IAS*MOV72 C 0.075/3-03-91 0.075/3-03-91 3IAS*PV15 C 56(I): FIRE 3FPW*CTV49 C 0.077/2-27-91 0.077/2-27-91 PROTECTION 3FPW*V661 C (O): 3FPW*CTV48 C 0.841/2-27-91 0.841/2-27-91 3FPW*V666 C 3FPW*RV87 C c1309m.rmWAK -.,,~. _ ~. ~,, _. -,,.. _ _ - _, _..... ~.
b APPENDIX D2 ) 1991/1992 LOCAL LEAKAGE RATE TEST
SUMMARY
BYPASS LEAKAGE PENETRATION NO./ BARRIER TYPE AS FOUND LEAKAGE AS LEFT LEAKAGE DESCRIPTION TESTED TEST SLM/DATE SLM/DATE CO_MMENTS 59(I): CTMT FPC IN 3SFC*V991 C O.020/2-06-91 0.020/2-06-91 (O): 3SFC*V992 C 0.042/2-06-91 0.042/2-06-91 60(I): CTMT FPC OUT 3SFC*V990 C O.732/2-06-91 0.732/2-06-91 (O): 3SFC*V989 C O.850/2-06-91 0.850/2-06-91 70(I): DIMIN WATER 3CCP*V886 C 0.020/2-11-91 0.020/2-11-91 (O): 3CCP*V887 C O.020/2-11-91 0.020/2-11-91 72(I): CHILL WATER 3CDS*CTV918 C 0.c20/5-19-92 0.020/5-19-92 SUPPLY (O) 3CDS*CTV38B C 0.020/5-19-92 0.020/5-19-92 3CDS*RV105B C 85: CTMT PURGE 3HVU*CTV33B C 0.127/2-09-91 0.127/2-09-91 SUPPLY 3HVU*CTV32B C 86: CTMT PURGE 3HVU*CTV33A C 0.615/2-09-91 0.615/2-09-91 RETURN 3HVU*CTV32A C 3HvU*V5 C 116(I): CHILL WATER 3CDS*CTV40A C 0.020/1-18-92 0.020/1-18-92 RETURN (O): 3CDS*CTV39A C O.655/1-13-92 0.655/1-13-92 3CDS*RV106A 124(I): N2 SUPPLY 3GSN*CTV105 C 0.020/10-11-92 0.020/10-11-92 HEADER 3GSN*CTV8033 C AS-FOUND BYPASS AS-LEFT BYPASS LEAKAGE 18.315 SLM LEAKAGE 18.492 SLN cTso978,rJP/WAK
_ _ - = - / WA [. ' e 1 t b ? APPENDIX E SENSOR LOCATIONS AND VOLUME FRACTIONS m
A Page 1 of 2 SENSOR LOCATIONS AND VOLUME FRACTIONS I APPENDIX E SENSOR LOCATIONS AND VOLUME FRACTIONS ORIGINAL REVISED VOLUME VOLUME SENSOR ELEV. ZONE WElGHTING WEIGHTING NUMBER (FEET-IN.) NO. FACTOR FACTOR TE-20A 145-00 1 0.06820 0.06820 TE-208 141-09 1 0.06820 0.06820 TE-20C 144-06 1 0.06820 0.06820 TE-20D 94-00 11 0.05057 0.05057 TE-20F 86-00 11 0.05057 0.05057 TE-20K 70-00 11 0.05057 0.05057 TE-20E 88-00 til 0.06755 0.06755 TE-20G 75-00 111 0.06755 0.06755 TE-20H 75-00 111 0.06755 0.06755 TE-20J 86-06 Ill 0.06755 0.06755 TE-20M 32-00 IV 0.03523 0.03523 TE-20N 33-00 IV 0.02826 0.02826 TE-20T 15-06 IV 0.03114 0.031'i4 TE-20U 15-06 IV 0.02488 0.02488
- TE-20L 45-00 V
0.01287 0.00000 TE-20P 26-00 V 0.02210 0.02531 TE-200 30-00 V 0.02107 0.02428 3 TE-20R 30-00 V 0.02107 0.02428 TE-20S 26-00 V 0.02210 0.02531 TE-20V 06 VI 0.03870 0.03870 i l TE-20W 00 VI 0.03870 0.03870 i L
y#,. -} Page 2 of 2 APPEi4 DIX E SENSOR LOCATIONS AND VOLUME FRACTIONS ORIGINAL REVISED VOLUME VOLUME SENSOR ELEV. ZONE WEIGHTING WEIGHTING NUMBER (FEET-IN.) NO. FACTOR FACTOR TE-20X 00 VI 0.03870 0.03870 TE-20Y 00 VI 0.03870 0.03870 ME-22A 145-00 A 0.27530 0.27530 ME-22B 147-00 A 0.27530 0.27530 ME-22C 00 B 0.14980 0.14980 ME-22D 06 B 0.14980 0.14980 ME-22E 00 B 0.14980 0.14980 F This sensor wvs 'ocated in a high radiation area. As a result, no in-situ check was pe" med and the sensor's volume fraction was set to zero. The volume fn,u an for sensor T E-20L was redistributed to sensors TE-20P, TE-200, TE-2L'i, and TE-20S. 9 5 i l i b ,}}