ML18096A799
ML18096A799 | |
Person / Time | |
---|---|
Site: | Salem ![]() |
Issue date: | 06/23/1992 |
From: | Public Service Enterprise Group |
To: | |
Shared Package | |
ML18096A798 | List: |
References | |
NUDOCS 9206290175 | |
Download: ML18096A799 (467) | |
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- 1. 0 REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST FOR PUBLIC SERVICE ELECTRIC AND GAS COMPANY SALEM UNIT II PURPOSE The purpose of this report is to vresent a description and analysis of the Third Period, Fi~st Interval, Reactor Containment Building Integrated Leak Rate Test (CILRT) conducted on Public Service Electric and Gas Company Salem Nuclear Generating Station Unit II Containment during the 6th
*refueling outage.
T~is report is submitted as required by 10-CFR-50, Appendix J, paragraph VB.
2.0 REFERENCES
- 1. 10-CFR-50 Appendix J - Primary Reactor Containment Leakage Testing for Water-cooled Power Reactors, January 1, 1990.
- 2. ANSI N 45.4 (1972) - Leakage Rate Testing of Containment Structures for Nuclear Reactors (Technical Specifications commitment)
- 3. ANSI 56.8 (1987) - Containment System Leakage Testing Requirements.
- 4. PSE&G Nuclear Site Services Department Procedure S2.SS-IS.ZZ-0005(Q) Reactor Containment Building Integrated Leak Rate Test (Type 11 A 11 Test)
Salem Unit II.
- 5. Salem Unit II Technical Specification 4.6.1.2 (a),
( b) , and ( c) . 3.0 LIST OF ATTACHMENTS
- 1. Attachment 17 of S2.SS-IS.ZZ-0005(Q) 11 A 11 Test log of events.
- 2. Attachment 24 of S2.SS-IS.ZZ-0005(Q)* Weather prior to and during the 11 A11 Test.
- 3. Containment gas release permit.
- 4. PSE&G Research & Testing Laboratory repor~~
5 . Type II B II & II c II running summary. Salem unit Ir Page 1 of 11
4.0
SUMMARY
OF TEST
- The Containment Integrated Leak Rate Test (CILRT) was directed and coordinated by the Inservice Inspection Department (ISI) and performed in accordance with PSE&G Nuclear Site Services D~partment Procedure S2.SS-IS.ZZ-0005 (Q), Reactor Building Containment Building Integrated Leak Rate Test - Salem Unit II. The CILRT is divided into the following:
4.1 Preparation 4.2 Pressurization 4.3 Stabilization 4.4 Test Period 4.5 Depressurization 4.6 Restoration 4.1 PREPARATION
- a. The test log, Attachment 17 of S2.SS-IS.ZZ-0005(Q),
commenced on 2/21/92 at 0915 to record events of the CILRT .
- b. A temporary pressurization facility was established IAW Attachment 16 of S2.SS-IS.ZZ-0005(Q),
which consisted of portable Atlas Copco diesel driven air compressors. The air compressors supplied*l00% oil free air a~ 58-100 PSIG. The air compressors discharged through an af tercooler and air dryer to supply the containment with clean dry air for pressurization.
- c. A temporary enclosure was erected in the 78' Electric Penetration area to house the Data Acquisition Center to maintain electronic and computer equipment within desired calibrated temperature range.
- d. A temporary CILRT Command Center was established in the Salem Quality Assurance Conference room. This site was chosen because of its central location in the plant which provided easy access to the Control Room, Auxiliary Building and Containment.
- e. Temporary telephone communications were established between the Pressurization Facility, Data Acquisition Center and CILRT Command Center located on elevation 113' in the SQA conference room .
- Salem Unit II Page 2 of 11
4.1 PREPARATION - Continued
- f. The ISI department performed a general inspection of the accessible interior and exterior surfaces of the containment IAW Attachment 19 of S2.SS-IS.ZZ-0005(Q).
The Inspection of the exterior surf ace was satisfactory with no indications found. The Inspection of the interior surface revealed indications of minor corrosion on the liner located on the 78' el. A deficiency report was initiated by the ISI Group IAW Nuclear Department Administrative Procedure NC.NA-AP.ZZ-0020, Nonconformance Program, and was evaluated by the Technical Department System Engineer. The disposition referenced Engineering Evaluation S-2-ZZ-SEE-0676-0. The identified condition does not constitute a deficiency and no immediate actions are required.
- g. Weather conditions were monitored for approximately three days prior to and during the CILRT IAW Attachment 24 of S2.SS-IS.ZZ-0005(Q). Weather conditions for the performance of the CILRT were excellent.
The following temporary modifications and valve lineup were performed IAW Site Services procedure S2.SS-IS.ZZ-0005(Q) for the performance of the Type A Test .
- h. The Operations department performed the valve lineup for the CILRT IAW Attachment 2 of S2.SS-IS.ZZ-0005 (Q). This included administrative control of valves out of their normal position by clearing and tagging IAW Nuclear Department Administrative Procedure NC.NA-AP.ZZ-0015, Safety Tagging Program.
The valve lineup and tagging was performed to ensure all tested components were vented to the containment atmosphere and subjected to post accident differential pressure IAW 10CFR50 APP.J, Section III.d for the Test. The Operations department performed a second verification of all tagged components. In addition, the ISI department performed an independent verification of the valve lineup IAW Attachment 2 of S2.SS-IS.ZZ-0005(Q). During the clearing and tagging of 22 Control Air Header IAW Attachment 2 of S2.SS-IS.ZZ-0005(Q), control of the containment fan coil units service* water outlet flow control valves, 21, 22, 23, 24 and 25SW223 was lost. After evRluation of the situation by the Test Director, which included input from System Engineering, the Test Director de~ided to perform a limited revision to the Test Procedure which allowed the 22 Control Air Header to remain inservice outside the containment in the mechanical Salem Unit II Page 3 of 11
4.1 PREPARATION - Continued
- penetration area during the test to ensure adequate control of service water fo~ proper CFCU's operation.
This was a deviation of the normal CILRT valve lineup and removed penetration #23 and #56 from the Test. A penalty was taken for these penetrations in Attachment 17 Section 6.3. This revision provided instruction for the new valve alignment with the
- addition of Attachment 33 to ensure there would be no in leakage of air into the containment during the CILRT.
The Maintenance Department performed the following temporary modifications:
- 1. Temporarily modified. containment penetration # 20 (2VC5 and 2VC6) !AW Attac~ment 3 of S2.SS-IS.ZZ-0005'(Q) to provide a flow path from the Pressurization Facility to the containment building for pressurization and a flow path from the containment building to the atmosphere to for depressurization.
- A penalty was taken for penetration #20 (2VC5 &
2VC6) and incorporated into the measured CILRT result due to not being aligned in the required test position. This penalty was conservative because 2VC5 was closed and vented once the containment was pressurized to CILRT pressure. 2VC5 was exposed to t~e containment test volume and any leakage was measured in the actual CILRT results.
- 2. Blocked open 2PR1 & 2PR2, !AW Attachment 3 of S2.SS-IS.ZZ-0005(Q), which provided a vent path to the Reactor Coolant System Pressurizer and vented the Pressurizer Relief Tank by removing one of two pressurizer relief tank rupture disks.
- 3. Adjusted the CFCU's inlet guide vanes from their normal setting to 25 degrees open IAW Attachment 4 of S2.SS-IS.ZZ-0005(Q), to prevent motor overcurrent and tripping of CFCU's during test pressure conditions due to high air density.
- j. The Instrumention*and Control/Electrical (I&C) support group performed the following temporary modifications:
- 1. Blocked open containment isolation valve 2VC6
!AW Attachment 5 of S2.SS-IS.ZZ-0005(Q), by the Salem Unit II Page 4 of 11
4.1 PREPARATION - Continued use df a mechanical blocking device on the actuator. This prevented 2VC6 from failing to the closed position due to loss of control air once the control air system was cleared and tagged for the CILRT valve alignment. This was required due to 2VC6 being in the pressurization flow path.
- 2. Installed a temporary N2 supply to the 2VC5 actuator IAW Attachment 5 of S2.SS-IS.ZZ-0005(Q).
This prevented 2VC5 from failing to the closed position due to loss of control air once the control air system was cleared and tagged for the CILRT valve alignment. This was required due to 2VC5 being the control valve in the pressurization and depressurization flow path. The method of installation allowed the Control Room to maintain
*control of the 2VC5.
- 3. Vented various lighting fixtures IAW Attachment 5 of S2.SS-IS.ZZ-0005(Q) to prevent them from being damaged .during the CILRT.
- 4. Installed amperage recorders on the containment fan coil unit breakers to record current demand during CILRT IAW Attachment 5 of 52.SS-IS.ZZ-0005 (Q) .
- k. The Site Protection Fire Department installed jumpers to block the fire alarms on the reactor coolant pumps and CFCUs IAW Attachment 10 of S2.SS-IS.ZZ-0005(Q),
This modification enabled all other fire alarms within the same group to remain operable during the CILRT. Equipment located within the containment, protected by fire suppression systems made inoperable for the CILRT valve lineup and not needed during the CILRT, were made inoperable by clearing and tagging to prevent operation.
- 1. The Radiation Protection Department installed a portable radiation monitor IAW Attachment 12 of S2.SS-IS.ZZ-0005(Q), to monitor the containment air that was released during the depressurization of the containment.
- m. The Research and Test Lab monitored, collected and analyzed the CILRT data. The *Research and Test Lab performed the setup and installation of the Data Acquisition center in accordance with Research and Test Lab procedure PEP-19A .
Salem Unit II Page 5 of 11
- 4.1 PREPARATION - Continued
- n. The Site Security Department established access controlled areas within 30 feet of the containment building for the safety of employees and in areas designated vital to the CILRT. These boundaries were established IAW Attachment 13 of S2.SS-IS.ZZ-0005(Q).
4.2 PRESSURIZATION When all prerequisites were completed, ISI performed a final walkdown of the containment building IAW Attachment 22 of S2.SS-IS.ZZ-0005(Q), and verified that the containment was evacuated of all personnel. The containment building was then secured and ready for pressurization. Pressurization of the containment building commenced at 2132 on 3/22/92 At 2320 on 3/22/92 the pressurization control valve 2VC5 went closed and pressurization was stopped. Investigation of the problem revealed excessive instrument tubing leaks which caused the temporary N2 supply to deplete. The Test Directqr decided to release the normal control air supply v~lve and restore 2VC5 to normal. This had no impact on the Test or the Test results. A work request was initiated for the repair of the 2VC5 instrument tubing. Pressurization of the containment building recommenced at 2132 on 3/22/92 During pressurization, inspection teams made tours of the containment penetration areas to look for any problems which may have arisen. The containment building reached test pressure at 1352 on 3/23/92 and pressurization was terminated. 4.3 Stabilization The stabil~zation began at 1352 on 3/23/92 and ended at 1810 with temperature stable at a rate of change of .18 degree. Removed 22 containment fan coil unit from service at 1749 on 3/23/92 to help stabilize containment temperature. 4.4 TEST PERIOD
- The 24 hour test period began at 1815 on 3/23/92 and ended at 1815 om 3/24/92. The measured result is
.02% per day of containment net free volume.
Salem Unit II Page 6 of 11
- 4.4 TEST PERIOD - Continued After the test period was complete, a successful intrumentation verification test was performed IAW Attachment 14 of S2.SS-IS.ZZ-0005(Q).
4.5 DEPRESSURIZATION Depressurization began -at-21-1;8 on--3/-24-/9z--and-was--- terminated at 0917 on 3/24/92. 4.6 RESTORATION Immediatly after depressurization, ISI performed a general inspection of the interior and exterior surf aces of the containment structure IAW Attachment 30 of S2.SS-IS.ZZ-0005(Q). The interior containment inspection revealed three bolts located at 6 o'clock on the equipment hatch had moved. One bolt located exactly at ~ o'clock had dropped from the hatch and two adjacent bolts, one on each side, dropped about 1/2 inch. A deficiency report was initiated by the ISI Group IAW Nuclear Department Administrative Procedure NC.NA-AP.ZZ-0020, Nonconformance Program, and was evaluated by the Technical Department. System Engineer. An as found locai leak rate test was performed and the result was 11 seem with an allowable of 1900 seem. An inspection of the gap between the hatch and the frame indicated that the hatch was not properly installed. A revision to maintenance procedure SC.MD-EU.CAN-OOOl(Q) was initiated to clarify hatch installation requirements. The hatch was retorqued and an as left local leak rate test was performed with the results 8 seem. The deficiency report was dispositioned as acceptable and not a deficiency. The Test Director requested all departments to perform the required restorations IAW CILRT procedure S2.SS-IS.ZZ-0005(Q).
- 7. Edited Log of Events 2/24/92 at 0840 - Officially made notifications to:
US NRC Salem resident inspector, Salem QA (Vincent) _and ANII (Hewitt). 2/27/92 ISI conducted a meeting with Salem General Manager Cal Vondra, ISI Engineer R. Brandt, Operations Engineer L. Curran, Senior ISI Supervisors C. J. Conner and w. Treston, ISI Supervisors E. Obert and R. Rinaldi. GM Cal Vondra appointed L. Curran as Test Manager. Senior ISI Supervisor C. J. Conner appointed R. Rinaldi and E. Obert as Type A Test Direct~rs. Meeting held IAW Salem Unit II Page 7 of 11
- 7. Edited Log of Events - continued Nuclear Department Administrative Procedure NC.NA-AP.ZZ-0005 (Q) for special tests.
3/22/92 at 2132 - Salem Unit II was in Mode 5 with RCS filled and vented and RHR inservice. Commenced pressurization of the containment at a rate of approximately 3.0 PSI/HR. 3/22/92 - at 2320 Salem- Unit- II- control- room informed the Test Director the 2VC5 valve went closed. 3/23/92 at 0130 2VC5 released and recommenced containment pressurization of Unit II containment. 3/23/92 at 0255 - At 25 PSIA Inspection teams were sent out in the field to inspect areas around the containment. Subsequent inspections were performed at the following pressures: 35 PSIA, 45 PSIA, and 55 PSIA, No abnormalities were reported. 3/23/92 at 0320 Control Room informed the' Test Director the containment pocket sumps were at overflow.* This sump overflows into the main containment sump which has a wide range level indication on it. Will keep an eye on it . 3/23/92 0655 Containment Sump level was 41% at th~ start of pressurization and is still 41%. 3/23/92 1352 Terminated pressurization at 63.199 psia. Commenced minimum 4 hour stabilization period. Data Acquisition center commenced data collection. 3/23/92 1810 Containment reached temperature stabilization with a rate of change of .18 degrees. 3/23/92 1815 24 hour Test start. Control Room notified. 3/24/92 1815 24 hour test period complete, Results .02% per day Dispatched crew to perform instrumentation verification test. 3/24/92 2100 Instrument verification test complete, preparing to depressurize containment. 3/24/92 2118 Begin containment depressurization. 3/24/92 0917 Containment depressurization
- complete .
Salem Unit II Page 8 of 11
SUMMARY
OF TEST RESULTS AND TECHNICAL DATA . A. Containment net free volume 2,620,000 cuft B. Normal operating pressure : Atmospheric C. Calculated peak accident pressure: 47 psig D. Normal operating temperature : 120 degrees F E. Calculated peak accident temperature : 271 degrees F The Salem Unit I I CILRT was performed during the sixth refueling outage. The level indications of liquid containing vessels within the containment were recorded prior to the test and immediately after completion of the test. Only the vessels with level changes are listed below. Containment sump ullage was calculated using the overflow alarm ~etpoint (alarm received during pressurization) to the top of the sump divider plate. This calculation is cons~rvative because this is the maximum amount of water that could be in the containment pocket sump prior to overflow to the main containment sump. The level in the main containment sump did not increase during the Test .
- VESSEL Pressurizer Accumulator #21 PRETEST 63.8%
70.8% POST TEST 60.5% 72.1% VALUE IN CU FT 40.11
+ 3.34 Containment Sump overflow top of + 61.875 setpoint divider plate Total difference + 25.105 CU FT @ 63 psia 50 deg F Total difference = 111.77 STD CU FT @ 14.7 psia 68 deg F = 2197.89 SCCM = .01% I La = .001% I day
- Salem Unit I I Page 9 of 11
SUMMARY
OF TEST RESULTS AND TECHNICAL DATA - CONTINUED
- Type "B" and "C" leakage to be added. (PENALTY FACTORS)
Valve No. Leakage SCCM 2VC5 - 2VC6 2520.0 2SA268 - 2SA270 2.0 - - - - - -- -- 2SA-265- -- -2SA26'7- - ----0.0-2SA262 - 2SA264 0.0 2WL190 - 2SF36 2.6 2CA1715 1.0 2CA1714 1.0 2CS900, 901, 903 6.0 22CA330, 22CA360 65.0 REFUELING CANAL FLANGE 432.0 ELEC~RICAL PENETRATIONS 13.5 Total 3043.1 Type "B 11 and "C 11 leakage to be added to the measured CILRT results. A. As found "B 11 and "C" leakage 40,064.8 seem B. As-left 11 B" and "C" leakage 19,425.2 seem C. Difference added to the CILRT 20,639.6 seem Measured CILRT results + 43,250.0 seem Penalty factor + 3,043.1 seem Tank and sumps levels 2,197.89 seem As found type "B" & c II II
+ 20,639.6 seem Total 69,130.59 seem Convert seem to %/Day
- Calculated as-found containment leakage at 95% UCL 69,130.59 seem x .1%/Day I Salem Unit II 216,250 seem=
Page 10 of 11
.03196%/Day
SUMMARY
OF TEST RESULTS AND TECHNICAL DATA - CONTINUED Results were within the limit of .1-%/Day Calculated as-left containment leakage at 95% UCL Measured CILRT results + 43,250.0 seem Penalty factor + 3,043.1 seem Tank and sumps levels 2,197.89 seem Total 48,490.99 seem Convert seem to %/Day 48,490.99 seem x .1%/Day I 216,250 seem= .0224 %/Day Results were within the limit of 0.075 %/Day END
- Salem Unit II Page 11 of 11
REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST
- FOR PUBLIC SERVICE ELECTRIC AND GAS COMPANY SALEM UNIT II THE CURRENT RUNNING SUMMERY LEAKAGE AS OF 6/12/92 IS 31427.3.
THIS IS 0.15 La THIS IS WITHIN ALLOWABLE TECHNICAL SPECIFICATION LIMITS .
- Salem Unit II - i
S2.SS-IS.ZZ-0005(Q)
- 1.0 REQUIRED DATA ATTACHMENT 17 1.1 The log shall consist of, but is not limited to, the following information:
NOTE Attachment 17 All entries shall be designated by the date, time and initials of the individual who makes the entry. Entries shall be made only by the Test Director or his Desiqnee. 1.1.1 Document any prerequisite, limiting condition and/or precaution not completed or obtained, and the justification for continuing on with the test in Attachment 17, section 3.0.
- 1.1.2 1.1.3 Document any equipment unavailable for the test and justification for continuing on with the test in Attachment 17, section 3.0.
Record the time and date of the start and com-pletion of the Type "A" Test in Attachment 17, section 2.0. 1.1.4 Record any deviations from the test procedure including all ACN's and OTSC's and justification for the deviation in Attachment 17, Section 3.0. 1.1.5 Record any deviations from the suggested valve lineup in Attachment 17, Section 4.0, Valve Lineup Deviations. 1.1.6 Record any unplanned events or unusual condi-tions not expected or anticipated during the test in Attachment 17, Section 3.0. 1.1. 7 Record the results of inspections in Attachment 17, section s.o. 1.1. 8 Summarize the CILRT results in Attachment 17, section 6.0 .
- Salem Unit 2 Page 178 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- 2.0 1.1.9 Record the personnel that performed work in Attachment 17, Section 7.0.
RECORD THE CILRT START AND FINISH= TIME AND DATE Start Time Date 3- J.,3-q:z.,. Finish Time ~~'~£~'-~"--~~~ Date 3-J4-9J.. _.;;...~.......,.:{L::..=J...,e;..;~~--*_*_/ 3-~4-f;.2 Test Director Date If more space is needed to record information in the test loq, attach multiple copies of this section 3.0, and append them to Attachment 17. section 9.0 is available to trend any data the Test Director deems necessary *
- 3.0 COMMENTS SECTION Log Start: Time 09/f' Date ;;i - ;2../-9 ;z Log Terminated: Time t:.tJ/70 Date 4'-f:-92
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- Salem Unit 2 Page 179- of 266 Rev o
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- Salem Unit 2 Page 180 (0
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- Salem Unit 2 Page 180 of 266 Rev o
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S" l!=IP-' c:o ""T Altochh\ca.1d* ~ 1 c..o.u+icl\ ,,o ~mQk ;, 6-b*-.s +k. PRT 5ho.ll be. dr-°'{\e.d be.\oc.U the_ spooa,'n9 l:l\e l\e. egr le."e.I I re.o.SOI\ -roe- -1{,s C,o.u~Ot'\ I k 6 pcpvldC2. a. \/eA,+ po.1-k +c +k-=-e..=--- pre.56ur~?;e.C +o o.llau.J ;+ to rery:;k .+a.st- pressure.! lfu's llQ.t\+ *f>_Q:ti. Is a.c1icwed by =h.uo alfe.r-1\a.~ p;a.tkz. l1e...Ql'li+ i ~ ~le_ ia Jk. g
- Salem Unit 2 Page 180 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued 3-2:i.-~ - Lll ~,w\ On,f 01 ~l room. av c s- -~eAt- cfusd
~~ rJ s&J' ~ k cv-I- k in.i..rB:sf t,Je. Q;Ut3"2-.
- Salem Unit 2 Page 180 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- 3-~3-'1;2
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- bit a+ UA,+-a c.on~o.;"Mesrt .
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=:J.(,,.47
- Salem Unit 2 Page 180 of 266 Rev o
S2.SS-IS.Z~-0005(Q) Attachment 17 continued C)~'2...;- 3'2 ~ .....TL. D &c
- A:T Ojer!a cc'M"""8McW? ~r f1:30. Tw11...1..c.uc..HB" J g.6-k;~T loTH 9r;,1",;::*,ep vT-2 U1SvA-1. CcAA1Nf&.f wfilt' /!CC.0MPA1.11tfb ilY }3. wEsltf&cll (pee).
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S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- I:)~ :2. - Co,.,~nc { f'ieot M. Tt "<.
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- Salem Unit 2 Page 180 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- Ei....c.~..,~;t*~;
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/~:<- ~I
- Salem Unit 2 Page 180 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- ~a?>aS- Presnc)~ drof ot1er J.k ,sf. ~vr wa.s ?.'37 ps~ * .J1J a. lo+
J valve- k!vc-tv~. W,// 1t1:utt~r ckp. o.rar ~ ~llr 0917. 7 G "'--h / ,./ ~cw'-1
- Salem Unit 2 Page 180 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- J
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h A~ Movc.eR .l\11(./*... j ~ tc,,t- ,,_ & ej;v'f~lv't Ex f<:.rt..1 0 f(.. r-.sIl2J Io*~ 4 ue " !(el. d I r fe ~ d. I s - L..odj <.J. /w4u(Af11~ /Oo / O: .. i?e...-< ~*M.. lc.l.o,-z.1;l.o3.2'31.:2.J> Col(. 1~sy(;0£o:V 1'!-~p(/9<...t...M.CN-f.
- Salem Unit 2 *page 180 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued 3*.2'* 9 .(. A - Tc.at ~ys+'-,... E u ,;,,c.c.fl- R.. L&./l'\butt..jer'\. ILc.v;c.'-1<!.J 0
/JS L,1=-r Gf c:-v 1.$. A.s Lc..H ,-Nlt:c+/- Cau1~<. V'1 ..v<:.. /tJAJ'/~
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- Salem Unit 2 Page 180 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued I Lr:..vc--/ c.h12..v5 k"°" Co AJ..J.I? I A; Mc:. JJf S s.1 ¥ Le. f/C// Ji e NJ~ \1/fiJS GJ9 4vfA/c.~
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t;,,...tttL k,q<<=/- MAx1M.~.v AM.Du.Ni aE
- Salem Unit 2 Page 180 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- 4.0 VALVE LINEUP DEVIATIONS P19tje ~/ (30r f};tt.!OG-f.. V19/v'-.S left 1-A/ Natt./f'?'9/ ao.s>6o~
I ' c:...e II'? NO f Re. MouvJ fa..o M l 7i'f ~ C-19 17 ~ (. ll/c.. w1 / / 1,.'.L r ~,, 11t A ;;,,_ L/;,~"'~#,pJ.,,,, ,_~I 1 z fJ
'9 f?C-"J/9/lf h.-t- e\C~IZI<( /
- .la 6F 3et' I(~
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2iiil"
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0 }I.> e...AJ L)O .s I tS I T I Salem Unit 2 Page 181 of 266 Rev o
\\ \
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
\
- 4.0
~
P-#A:cA
.s >'3 VALVI IJNEUP DEVIATIONS .;;. 7 ;2., ~70 UG;<_r F1c:...ol.. ~>")
I 12..e.ri.61/J b7 (.__ Cl*vr\;, Sef~Ts , _l l c__L(_
&a~ l~I *.?>-'2l-q2, PA(nt, ~8 - 2.1 CS{p~ Q~N ?i~ "TJ\<nfrtJN(/{ (lEG..LL~c,r. 0/317'78,, \)'E:v1 ATlO,._j S:~tY\ f\i!k.\ruY.l'i/JT '2. tDl.l,..Jl) -r-b 'oE l\-CC£fr-A~~f, e~L 'f~s-\- "\)1tlt<TOIZ-e ~/
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- eACs\f q'l - 2 f>S So -
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- Atc.t.pTAl!>~t. f u.. -ns1 t>;ucme..
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Ac.~t.PT'A'BL't AS Ql£a.. ~ })\Uc.Ttifl *
- Salem Unit 2 Page 181 of 266 Rev o
, 12S5 G-H S' .I 6357 y~ , I ~*
- OWG NQ~ ZQ5'344-A* 87{0~ SHe I REV Cf DCP NO. 2ec- *~x:J57-.
C::::D NO: ~D~~74
.PAGE""B. of ~3
- S2.SS-IS.ZZ-0005(Q)
Attachment 17 cont.inued
- 4.0 VALVE LINEUP DEVIATIONS
- 3*Pl?*CZ:i Po.cae tt4-u .
~* 55 ~~ vc:.lve-s a.re o.ll +o.g 9 ~J opEI\
foC" :Z: 1 C.. Tke. bool\dory vJ ves fGI" -lie. Cl<:.C.l.liti IJ.or-s
<>,re. .\-le. .S \T 13 ;i v.J "~ ..J,; c.h Ci re. C../T .st...+ .J.l~ ~
kgs;"9 dC>s~ +b_ G5~b vo.lve.s ~s /\of-N?-9. d. lJ. ~-:2~-~~ 1 3-j.'d-*'l:l. Pa5e'.s 4<( ! 45 The. CS~ valve.s noi-ltteh({EJ. wit" a('Q:
--rl.e.. Sf'OO l I' i e.c.e. b baeri 1' .J-s. f' l.._c..<2.,
- Salem Unit 2 C:Y.cu's *-s . . . ~ \ c. - ~ ~~\
*2'2.c ~ S4(o Q.'2J1 'I--, 2.2cA. ~30 ~I~ R~\ "f....*
Page 181 of 266 o '2-C.A;S~5 R~-\- ')(' Rev o
; -;('1..i.{</Z... ?
52.55-IS.ZZ-OOOS(Q) Attachment 17 continued
- 4.0
~~<-2--<i7.
VALVE LINEUP DEVIATIONS
\?~e.. 5'1 C"'-n.,,....e0 ...~ Co""'\ , "-*5""-"t1s% Sv.h\c.\.-.es. \00 t"\~c_'-'
1
\)\?,...._, C:B \-t:n'2.'3J cQ..2.-EM.2.i\ es-~ 2 t[LC-E"~A 1 c.Q.....,\Q..o\ 'i?f?o""'- 2.~~-;:z, ?~~\
tl?.nn \-"'1e.. c\of>e~ ~u- o<¥~ \?o;.*~'o....i To y1&12..ir--X: Q.Q\\~ ~]Ro\?
~nA+/- v..:i .. .......:.'-~ P... P~c C:-\::" "i_*\"-"'L :;:e~~i!.-5 * ~ Ce 312.z/97 (c....i 1Alf.i~~* s1>~~" TEST co1J1CE<: r10.J Ge::Ytg,e I ,.._(\1L te't)cvT to fEeMr\
M1I' ) *z.1 'i;r.. VA1.. Ve: S. ~ Z. CS 'loo Z. c.: s '1 c z_ I
- Salem Unit 2 Page 181 of 266 Rev O
s2.ss-rs.zz-ooqs(Q) Attachment 17 continued
- 5.0 RECORD THE RESULTS OF THE INSPECTIONS rA-.+/-19-tzJJ O.R. c:.uL ,-<.,,( ~n.s n .::-Y) ~,: oo ~; f I
I 0 :A._) ~fl -- N (A . Rs... F ; - E NJ -e ~ -,,,__ l7 Eu/' /._.) ~ ~o~ 1UJ..J
.$ - ;)_ - .Z 2.. - S E G - O "'- 7L - 0 - 0. ~ . A 10 £ ES. r9 L e 19 ftrtcL Y <> h tt / ~ p.tZ.occ cK u (LC,,
- f2.. R., ~ IJ2)f.l
- 1.
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~ ~ t .:2?I
- 7'i' tvted fJe1.Je. It~ fhs e..t.. fJ.=ifJA./r/ l.1P~:- Fj.oM l<<!.11.k .
- Salem Unit 2 Page 182 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- NOTE 6.0 Data from Attachment 17, Section 6.0 shall be included in the NRC Report.
6.0 TEST RESULTS
SUMMARY
Those sections that are not applicable (N/A) to the proce-dure performed, shall be .marked by the Test Director. 6.1 Temperature Stabilization Results 6.1.1 Start of stabilization :J -.z J *9 .2. I 1.3 >2.. Date Time Completion of Stabilization 3-.:i3_,~ / Ill' ID Date Time* Time criteria satisfied -:) -2J-"1 ~ I I 7 \.:>- Date Time h~ M"'.. <- i.:J-.z~°f;/1 ,g~~
- ,~---~-&~T=L--....,...,~i~n-e_e_r~~~~~-
7
~~--;.........oo~"---=-*
- ....;
- ::;::;,._~
Test Director Date _ _ _ _ _ _ _ _ / ::s-~:s-tt::i Date Time I / 1?:2 s-' Time 6.1.2 Average weighted air temperature change over: Last four (4) hours of stabilization ....rr-.31 Last one (1) hour of stabilization . /~ Difference ~~-*~;_g __~~~~~~~~~~~~~~ Temperature Criteria satisfied.
-+-1---+-~~f-:------/!J.. 2 3--. ~z / i f'_3o Date Time
- Salem Unit 2 Page 183 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- 6.2 Level Corrections 6.2.1 Obtain the Test Start and Test Finish levels from the control roam or Section e.o of this Attachment, and calculate the volumetric differ-ence in cubic feet and enter results in Attach-ment 17, section 6.2.2.
Test Test Tank, Vessel or sump Start Finish PRESSURIZER COLO CALIB. 2LI 462 ~3. z c,a.~ 21 STEAM GENERATOR 2LA3977 2RP4 9<-t.< 9'-1* ~ 22 STEAM GENERATOR 2LA1557RB 2RP4
'9 c.. 7 9~.7 23 STEAM GENERATOR 2LA 6978 2RP4 9tt. if 9~- 'I 24 STEAM GENERATOR 2LA 15576RB 2RP4 9:s.I '{'3. 7 RCOT 2LA 4144-A 2RP1 I~ /¥
- PRT 2LI 470 21 ACCUMULATOR 2LI 934A & 935A 22 ACCUMULATOR 2LI 934B & 935B 3 '.':;
7c.~ !t:.."1..7
~~-" !~~2 .:;Y.5 -:J"f.'
7.<.I 70.9 (,,~. 7
""{!. ~ ?";e le. '"'('""** "'"'-7 71 , * . .,
23 ACCUMULATOR 2LI 934C & 935C % % J.. '7:vl.c. IM~"+A ltc:.P ,;, 24 ACCUMULATOR 2LI 9340 & 9350 '- e.uc-l .I. ... ~. f'J 0 tt;j'. J ,8".(° t.Z.J ~~-r' c,..J,., ... ...,,~c:.. RWST 2LI 960 3 t:r. (( 39.'f' eed 3. ')*'1 J. 2. CONT. SUMP . (ULLAGE) OYC'.A £!£.'4> fl~A"'t se:l*L>IU;,,
. f loP - oF*£. Ji#. ;,t c. "- fl.., 1-.:..
REACTOR VESSEL LEVEL {RVLIS) ,LL 91 /,'/ '11 hi ~-;J....q2_ CONTAINMENT SUMP (LVL A 2LA2445) 7'1 ~I
\
CONTAINMENT SUMP (LVL.B 2LA2448) '-// --*
'i I I 't -;;< -1;2..
Date
- Salem Unit 2 Page 184 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- NOTE 6.2.2 control Room tank qraphs will be needed to calculate volume difference.
Record required data form Section a.o Attachment 17 6.2.2 Level Corrections VESSEL TEST START TEST FINISH +/- CU/FT LEVEL LEVEL PRESSURIZER ~3.~ ~o.S- - 'fo.11 RCDT l'i Ii 0 PRT 3q,q 3~.'1 C> ACCUMULATOR #21 70.~ 7.:;;. . I + 3.3Y ACCUMULATOR #22 ,<J.C. c..~.< 0
- ACCUMULATOR #23 ACCUMULATOR #24 CONT. SUMP (ULLAGE)
Ne cJ.... ,..,~ OIJCIC F/-:r;;
*c.*g,\
F'"'-'
<:: .. -t ~*1.Al-t I., 71 :JO"'
1n' Tor
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0
+C,t.;'7S-No .S.u~ (?..,. 11-tS .
RX SUMP 0
<-:J 0 RWST 0 34.4 3 'f. ((
VOLUMETRIC DIFFERENCE
~~./os 6.2.3 Level corrections of all liquid containing vessels inside containment as per Attachment 17, section a.o.
A. Vollime Difference~~.)()~Ff.:: ///.77 ..s-6.J....J;:u.ft. B. Volume Difference ~--=:;;;2....;;;..:.../~9~7~.~~-9._________ seem
- c. Volume Difference .o I %La D. Volume Difference . 00 { % / day
- Salem Unit 2 Page 185 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- 6.3 Penalty Factors 6.3.1 The penetrations that were not in their normal isolation mode during the test and whose Type "B" or "C" leakage must be added to the "A" Test results are:
PENETRATION -- L~G~ SCCM - - 2VC5 - 2VC6 (PEN. 40) ;)._ S'":;.. 0 6<..e µ\ 2SA268 - 270 (PEN. 61)
- J .0 S,,.£,._
2SA265 - 267 (PEN .. 61A) tJ . 0 ~Ge. .c.-\ 2SA262 - 264 (PEN. 61B) o.o (,,..- M 2WL190 - 2SF36 (PEN. 66A)
~- '- ~ t:_<:_ ""
REFUELING CANAL FLANGE
~3~.o .Sec:.. r-..
ELECTRICAL PENETRATIONS l :s.~ sc:..c.. .A-'\
~C:...A 171~ l . () . .s: c.c::... 1'-1 -, ~A. Ir I~ \ .o .s cc......, ..2 es cioo - "o- I - C)o;i
- 90J (,.o .s <:. c.. l"1
~ ~ r .3.'0 ~:>,._,...:z,o /-S".o .5. l". c:..'"'
TOTAL 304~. I 6.4 Calculate the Type "B" and "C" leakage to be added to the measured CILRT results/ r:='ott.. T'4.... A.s. ..cov.... o( ~~ .. ff. A. As found "B" and "C" leakage ~oo(, 'I. I seem B. Subtract the as-left "B" and "C" leakage 1q i.os.;;. seem C. Add Chemistry sample Attachment 31, Step seem (~ D. Equals the total to be added to the CILRT results ;i,o ~ .3.~. G,, seem E. Convert the total to . ooq,r % / day F. Convert the total to . 09$"" % La
-~__.......-)~-. ., . . -. .,£/'-. ./,. -___ / <t-3-9 ~
- Salem Unit 2 Page 186 of 266 TeS~
Rev o Date
Attachment 17 r.r*11Linued S2.SS-IS.ZZ-0005(Q) 6.5 Calculate the penalty factor for the penetrations isolated prior to and during the CILRT to be added to the measured CILRT results. A. Type "B" and "C" leakage 3043,/_ seem .001:1 % I day
- 01 lo/ % I L (Actual as-found leakage for penetrations isolated prior
~ (St;Qp Ei 4 D} ,,., (S'tep 6.4 E) ,;t:JI( , (Ste~ 614 Fk to the CILRT)
C.t.1 B. Type "B" and "C" leakage N *Lll. seem ~% I day 4 % I La (Actual as-found leakage for penetrations isolated during the CILRT) 6.6 Tank and sump level correction factor ;it 'i7. 89 seem .oo I % / day .01 (Attachment 17, Section 6.2.2) 6.7 Add 6.4(C), 6.5(A), 6.5(B) and 6.6 to get the total leakage to be added to the measured CILRT results S" :i. 'i o. '!q seem .oo;l..'"( % I day .OJ. I.( % I La 6.8 Measured CILRT results 4'3/ ::i.s-o seem . 0 ;i % I day -~ % I La 6.9 Add 6.7 and 6.8 to calculate the total CILRT results '{8 L/ClJV. 't_~ seem .;f;o;2..:l<f % I day o.~'j_ % I La 6.10 Total CILRT results: L/ 8 Lf'/O. C/'1 seem ~0-;2.A.'( % / day o.XJ.'f % I La 6.11 Test results acceptable in accordance with Section 5.107, Acceptance Criteria of the procedure.
- Satisfactory ./ ~factory
~ Test~ec~ /4'-3-9.6 Date Salem Unit 2 Page 187 of 266
4.-')"/ % '?bl Lg. *
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. S2.SS-IS.ZZ-0005{Q)
Attachment 17 continued 6.12 CILRT report summary . 6.12.1 List the reportable Type "B" and "C" penetra-tions and their as-found and their as-left leakage that were isolated during the Type "A" Test. P~tion # as-found as-left ( A. ( ) B. ( ) c. ( ) o. ( ) . E*
- Salem Unit 2 Page 188 of 266 Rev o
S2.SS-IS.ZZ-0005(Q) Attachment 17 continued
- 7.0 RECORD THE NAMES, SIGNATURE AND INITIALS OF THE PERSONNEL THAT PERFORMED WORK PRINT NAME SIGNATURE INITIALS COMMENTS
~S.lh(.
- r: S:L 5uPG12.v ,5ue_
;.//.!;/)'?_
Salem Unit 2
..~- ~,
Page 189 of 266 Rev O
s2.ss-rs.zz~ooo5(Q) Attachment 17 continued
- 7.0 RECORD fBI NAMES, SIGNATURE AND INITIALS OF THE PERSONNEL THAT PERFORMED !QB.I PRINT NAME f>1 ~ ~ I ~ ..J (';g ,(
f._ c.J<.:.r-- c; ,.JI L *~I.
- Salem Unit 2 Page 189 of 2*66 Rev o
S2.SS-IS.ZZ-0005{Q) Attachment 17 continued
~- I . ' 0 ('. . <1. 0 '(_. ' lo:. .)( A I "! T
- 3/1-'//'i"Z-8.0 Record the follow~g le~els when required.~,~z~
'5/a1 1.c. 3Jl.7>rt:rl... 3/;.J/9z 3/z.3/'iz. iBiS Z 100 1~'1 1~5") f81.5 '.2o~5S Tank, Vessel Start Stop Start Stop Stab. I Stop Start Stop I I
or Sump Presa. Press. Stab. Start Test Test Instrument Instrument verified Verified PRESS. COLD CAL. 2LI462
'tf.5. 1 C:.i.(. 3 &'f *] {.3,g ~o.S t.no.s loa'-f 21 S/G 2LA 3977 94- _:,/ er4.5 'i if.{.. 9'1.< ~l/.5 qt.J, 5 9"1* ~
22 S/G 2LA 1557 RB qt,,.~ qt;,/ 9t.t 16, 7 'J&,,7 qLs,. 7 q,; 7 23 S/G 2LA 3978 q4 .4- Cf/.{ .4 9Y.'I q'I, t./ 94,Lj qy.y q'{, '/ 24 S/G 2LA 15576 RB q.~ 9 q3. s 11.3 i3. 'i 1l'l q~/7. q), 7 RCDT 2LA 4144 A 14.:J' /Jr I'/ /t..f It..( 1'-l I '-I PRT 2LI 470 2, 9.t, 3'7.'1 39. 'I j1.7 3~.9 2>'i .. q si.-=t REACTOR LEVEL ~elf Cf 4- q7 'l ?- ]J q7 q"T q7 (RVLIS) ~fPr- ~.5' 1g 9~ 7Z tt5 q8 9K" CONTAINMENT SUMP (LVL A 2LA 2445) 4-1 JI I 'ii t; I 41 41 I./ I CONTAINMENT SUMP (LVL B 2LA 2448) 4/ L( t "{I '1 I 41 4\ LI/ 21 ACCUMULATOR 70.t:, 10.t.o 70Jf 71.. l 7i.1 7;,2 i 2LI 934A t'f, 1 ; 2LI 935A l<?*.5 ~1-~ '1. '{ t)Cj, 7 '10. '\ 70 . 't 71./
,-~
I I i 22 ACCUMULATOR (at,,. i ,te;.3 6tf.6 lJ.i,. 7 blP,7 ~6£.7 2LI 9348 t~- f.:. 2LI 9358 11: '?". 4- (p~.~ (;,j'.) 06. f' ~s.5 to8.S 6%".5-23 ACCUMULATOR 2LI 934C r:,q, 7 b'i. 7 b'i*r t!i. / "1q,, i9'l.'7 I 6L71 7 II 2LI 935C
- O.q L,4 .3 f.o'+. 5 6't/. 5 ~4.9 £g4. '6 i! 6/i/. y Ii 24 ACCUMULATOR 2LI 9340 /
- /i *4- l:,<t.5 &:,~.s- 6i.3 (o~.6 t.g .. <; : 6f:s- I
. '1ti.3 2LI 9350 '-~ 3 /p'j,3 t, r. .3 tr.~
f)j-- Ci.~ ti;.8.'3 l'J'- ~ ,,..__ 5f;3 I
-"""* J -w- CJ* -
( ) 8.1 After recording the required readings return to the Appropriate step in the procedure section 5.0 .
- Salem Unit 2 Page 190 of 266 Rev.O
52.SS-IS.ZZ-OOOS(Q) Attachment 17 continued
- To record more data than available on this paqe, make copies of this, section 9.0 and attach each sheet to this Attachment 17.
9.0 This section is for trending any data which the Test Direc-tor deems as necessary for the Type A Test. DAD TIME c ...0 p 0 H B H I I I I
- Salem Unit 2 Page 191 End of Attachment of 266 Rev O
FORM NC.NA-AP.ZZ-0020-1 DR # DEFICIENCY REPORT WO/WR # 910921013 IDENTIFICATION Sl_ S2~ SC HC_
~omponent Equipment Hatch Sys/Code Serial #
Model # ASME Code Item? Y ~ N Description of Nonconforming Item: During the post CILRT liner inspection IAW S2.SS-IS.ZZ-0005(Q) three bolts located at 6:00 on the equipment hatch were revealed to have moved during the CILRT. One bolt located at exactly 6:00 dropped from the hatch and the two adjacent bolts dropped approximately 1/2 'inch. An as found LLRT was performed and the result was 11 seem. The allowable is 1~00 seem. The hatch*was retorqued and an as left-LLRT was performed and t~qresult is 8 seem. An inspection performed before the retorquing revealed the hatch to frame was not metal to metal in the ~oved bolt area. Is t h pco i s ition acceptable. fl ..., / :Jc, R. Rinaldi 3/26/92 I.Ji- )JIJ= Ng., /4 ?------- ,.,->~ -?.?-- supvr/Planner Date LCO # Exp'. Date Time ...-SNSS/NSS Date DISPOSITION REPAIR NUC. CODE COMP. REPAIR NUC. CODE COMP. MODIFICATION USE-AS-IS NUC. CODE COMP. REPLACMNT ASME VESSEL REPAIR (NON-NUC.)~- OTHER 10CFRS0.59 Applies? y N 10CFR21 Applies? y N Design Change/Temp Mod Req'd? y N Change Pkg/Temp Mod #
'uture Item Replacement Req'd? y N WO #
.nstructions: 5'=*~ System Eng. REVIEW:
*Req'd for ASME Code items~--------------~
SQA DATE covered by the NR Manual ANII* Date tlliCTION COMPLETE: Cause Code: Job Supervisor Date SQA Date ANII* Date Nuclear Common Page of 11-07-90
- Disposition:
DR # NA, WO # 910921013, Equipment Hatch The as left condition is acceptable and is not a deficiency as defined in NAAP-20. The as left condition is in accordancs with design documents (with the bolts reinstalled). __ The as found condition demonstrated acceptable leak tightness-during both the Type A test and the LLRT. The bolts have been retorqued through the WO process as part of the test
- evolution.
Note that the hatch seal is designed to utilize the pressure on the hatch to further seat the hatch. The pressure on the hatch was unavailable during the LLRT. The LLRT is a more conservative test than the Type A test for this hatch. The gap between the hatch and the frame is an indication that the hatch was not properly installed on the frame. A revision to Maintenance Procedure SC.MD-EU.CAN-OOOl(Q) has been
- initiated to clarify hatch installation requirements .
FORM NC.NA-AP.ZZ-0020-1 DR # ____;.\)~A.___ _ DEFICIENCY REPORT WO/WR # 900418001 IDEN'l'IFICATION Sl S2x SC_ HC ~omponent CONTAINMENT LINER Sys/Code c_ A>-J Serial # Model # ASME Code Item? Y ~ N Description of Nonconforming Item: DURING ISI INSPECTION OF THE UNIT II INTERIOR CONTAINMENT LINER, CORROSION WAS IDENTIFIED AT VARIOUS LOCATIONS ON ELEVATION 78', WHERE THE LINER MEETS THE CONCRETE FLOOR. PLEASE EVALUATE. RICH RINALDI 3/11/92 Supvr/Planner Date LCO # Exp. Date Time SNSS/NSS DISPOSITION REPAIR NUC. CODE COMP. REPAIR NUC. CODE COMP. MODIFICATION USE-AS-IS NUC. CODE COMP. REPLACMNT ASHE VESSEL REPAIR (NON-NUC.) OTHER 10CFR50.59 Applies? y N 10CFR21 Applies? y N Design Change/Temp Mod Req'd? y N Change Pkg/Temp Mod # Future Item Replacment Req'd? y N WO # Instructions: a..-P-t-cr-
-fh is -1/Je J*~t)- 31t1 /q l_ - Sys tern Eng. Date REVIEW: ~QA DATE *Req'd for ASME Code items covered by the NR Manual ~~II* Date 1'.CTION COMPLETE: Cause Code:
- Job ¥u~rvisor Date
~ "tSQA Date -h ~ANII* Date Nuclear Common 11-07-90
I J PSl~G *\.: : S-2-ZZ-SE!* 676-0 ~ Page 1 i if 8 Pi.:blic Serv~*ce Etectnc al')d ~asi.PJomba~y ,I P.b . Sox 1 236 t-Jar'!icks
- ;~,;dgo. l.w 1
J< oy 08038 Nuclear Deoartment . .. 1 i ! TITLE: EVALUATION OF CONTAINMENT LINER PLATE CORROSION RELEVANT T0°NRC IPAT QUES~ON ~ 1 Nos.*: 50~212/~11-'.90-s1-Qoos SALEM GENERAT!NG STATION
, , * ~ I IT #2 , I** ' ' t '* '
I ~ I.: l't* l.O P!IRPOS! 'l.'.~ !
-- -- ' ~* ~i I
j To perform a yisual inspection walkdow~ of the containment steel ~iner 'pla~e and evaluate lits exiS,ting conditions for evidence* of.degradation, due to corrosion, such as, water stains, loo~~ i~sula~ion mater(al, rus~ stains, mineral deposits, pi~ti~qs, etc., to address NRC IPAT Question 272/3ll-90-~~~QQ057.
; I !
l 2.0 SCOPE Scope of work irlvolves the steel liner plate attached to the inside .surf~p~ ~f the containmert co~cr~te shell, in the Salem Statiort: R~actof Containmert bu1ld~in9 'Unit #2 from elevati.on 7~i* **to. 110', upper elevations to dome and containm~nt l o\:1tside concrete wa~ls. Th~ visual inspect'ion/evaluation consists of the followinn items: I 1 2 .1 Lin~r recess:~;e~s ar e~evations "o I l_ (A~tachment 78 '-0"1* and 110 II -O"' as seen in 7(' 2). 1 1'
*; l ; . I 2.2 Test channel at*bottom of nsulation.
2.3 Li~er p~it~ ~ithout insulalion, atl*elevations above 11~~-oii~o ~ome~. I 2.4 Top ot
. I l t :,
la9q1nq qonnection,
, to , J liner p 1 ate at elevation 1*10 f-Qll J*t . I 1
2.s out~ide*qoncrete I:1t. : walls, fr*m Auxil ary Building at
.i al~V,atf1 ~qs ~4 * -()" and 100' O", south side of containra?-e. nt:.
i.0' r *. l)l:SCVSS*Q!I l ! r: l 1 a 1!1 : d 1 1 .. NRC Inspe,cti,C!n Rrport 272/311-9 QOO 7, dated 7/3/90 disclosed visible signs of corr sion on~portions of Salem No. 2 c9ntai'.rlirient st~el liner p ate. According to the report ~ome ~ust!was :visible th ough gaps, on retention studs, ;n,d or<th~ fl~or at the I I ~ I iner baie elevation 78'-0".
! I1 I, I
- I ! I I d I, I Tr.e C::~ergy People 1 f
\~
l Page 2 of a S-2*-~Z-SEE*0676-0 ': 3.1
- \
Background , I l
- l.: J .
~
I
~ ~ i I The interior cyl,indrical s rface of the containment is J
li~e~ w,i~h a carpon steel ~ea~ tig~t steel membrane which is l/~" thick for the1 loW'er 21 feet 4 inches and 3/8 11 ' thick for the remainde r and is' anchored to the reinforc~? ~o*ncr~te cylinder ~ith l~/2" dic;tmeter hooked studs. In areas
~ '
where thereI is an oexcessive number of penetrat~9n~ and at the knuckle pla~e at the bottom of th* cylip~e~, the liner is ~ncrease~ to 3/4" for reinforcement. The lower 34 feet of the containment lin.er is\ bovered on the ins 1ide by insulation. The insulati?fi ~s provided to p~event b~ckling of the liner due to restricted growth under a rise in temperature exp~~ieq9.~d during a LOCA.*rThe ins?lation is attached to the liner at intervals, ith stu~s, in panels approxi:~~ely 6' wide x 10' high. I Leak te~~*c~annels are welded to pottions of the liner behind i~4 ~nsulation laggi~g. .l I j ', J
- 3.2 Initial ' fnsp'ection Walkdown and Evaluations
- 1 l ~ I l
- 3. 2. l L{b.~r :Plate at Elevation§ 78 '.-on and 110' -0"
- ,I.. - : I ,,
A~: Walkdown f; 1 ~ \ . i,~Th~
'. *wh~ch liner plate 1 coverel wit~ insulati~n consists of 1a stainless steel lagging, ' a vapor barrier and ins~lAtion material " ri9idly attached io the llner plate. This i *insulation laggin9 runs atound the entire
- i*pe~ime~er of the liner plAte, from elevations I l *78;1 -0 11 :tO 110 1 -0 11 except at the recess areas,
- . r'Where the liner p ate is 4xposed behind 1.* :el~ctrical cabineij-s, and t/C instrumentation 1j pa~els ., See ~ttaqhments 1* l and 7. 2. Some l1)c~ttered stains n insul~tion laqqinq at
'*.Elev. 78 '-0 11 were observed. ).:; ~ l I L;soine 1/4" diamete stud heads, attaching the It <i.r;~u~ation laqqin to the 11iner plate are _
I~ .~J.!!5S1n9', or 'broken Also, ~~ome rust stains
*~were observed aro nd the missing heads. '1; :~tiachnient 7 ~ 6 de~ails thd actual findings by , column location. I
- l
\Lrh~ !i >at; the uni:nsulated portion o~ ~he liner ~late, recess are s / showed some rusting and I Ii i :.-:
1 i I
P~ge l 3 of s S-2-ZZ-SEE-0676-0. I I
! .:: I j J f,l~ki9g, especlaI1y* at the right of column 1i lirie B-11 (Elev. 78') (Altachment 7.6).
I l! I ~ II ! 1I 1: Tp~ l~ner below he test; channel exhibited a
! ~ degree of rust a d deterioration and some *i *~ Y:':ater ~ accumulatif n was o9served at the floor i~ J~nct~on, at a c uple of1locations. (See 1 Attachment 7.6.) ~
- [ *. A~ elevation 100 water ~tains were observed
*: *.* b~hind the contalnment spray system (right of personne~ hatch ~nd simi~arly at left of column line? B-sTand B-9~. ;
- Ai though some ru t l stain~ were observed on
,, . insul~tion la99i~:(9, rust~at the junction of insulation and f 1oor are~due to the very hUmid conditionstthat pr~vail inside the containment, esp cially in elevation 78 11
- T~e condition of the lin~r plate can only be opserved at the 1ecess. JThese areas were i
; ". r~garded as a pr totype of the unseen area~.
Ir 1 B~ ** tvaluation 1p I B~sed on the obs rved depth and amount of c9rrosion we con*lude that the loss of liner
.,. p~ate material my be es~imated to be less than 1/16", is irlsi9nificant and does not *
- d~mprqmise its structurai' or leak tight i~tegrity.
l
; . i .
3.2.2 Test Chan el at Bott m o iner
' * ! J l ~f, w~lkdo'wn - oiscu tion j ;J3 T~e bottom i test dhannel attached to the liner h
1 r: was I nspected I at I the rec~ss ( areas (were
- insul~tion is in errupted) 1 and it exhibited 1
some rust combin d with dirt and rubbish on t~ t~e to~ flange, special\y near column lines B.: .;
\ *1'
- l~ ::
; B;S, B9, B-14, B 16 and ,-17.
Nb 76 u:~:o:nd
- j. )
wat\er leakaqe (Attachments were oJserved but it may be i ! ;~: a~sumed that som~ water r&ay have migrated i ~ ,. ftom l'eaks in th~ service water system by
- : . c61umn lines B-1 and B-i7, to the bottom of
! j -~ th~ liner where ome of the corrosion exists.
l :' i lt 1
- 1* lI
- l J~
\. I : .' I I I 2
P)r: e 4 8 S-2-ZZ-SEE-067.6-0 j. I I I Of
* .; .~ Ir.i *adc. .1..;=t"f'i=o-n....,..t""'o....,,t~1'"9if"'s-,-t..h*a-""'~a-c-c""'um-u'"i!'l-a-tsii-o-n-o-f...- *~ ~ di~1 gr~ase, du~t ~nd p~int ~ay hava
- c6nl *ibuted 1
to the appearance of rusting and
'; flakin q on the channel surfaces.
3.2.3
.* 'er.I Plate: Without +/-nsulation I I at Elev tions ioo*-on . ! .~. ~
to Dome A.! W~lkdown - Discussion
~
J
. I
- ________ ;__* __ At ~l~y_t\tion _ll~'l_a11ci abqve, the l_iner:_ !_s_ -~n
'.
- qc?od c.ondi tion w~th minor stains in isolated
- .. areas above _130'-lO" *1 3.2.4 ~dp of Lagging Insul tion atJElevation 110*
~.! :' Walkdown - OiscuJsioo lj
- : :: I I '
'. .: Tl)e in'sulation la99inc; a.t. elevation 110' .. :. **.. consis.ts of a st~el I angld* welded to the liner
- 't ,~ plate (and to thEj test channels} along the l:: e*tire l~ner per~meter. :1t i~ protected with 1
I 1~ l
- t7qht water seal o
i
- j: a 1 meta.llic enclosure or 1lashinq to ensure a
. ! ** Portions of the flashinq. (about 3 to 4 feet) ,:* a*e m~ssinq at s~veral idcations or are loose
- ' p.eft Of COlUIIlll l,ine B*3 ;1 B~lO and B-13) *
- , * (~ee A.ttachment ?.
- 6.) 1 B.: . Evaiua'tion i'
'. Tl:le. in'trusion of water i9 the ; * ~ ii;isula'tion/liner lconnect~on is not possible due to the adequate construction detail ! : . ptovided. The f~ashing
- . protects the top 1angle ptovided at the at elevation 110'
! . '. connec'tion and t e anqle :itself is welded to I :. t~e li.ner plate o ensur~ a tight water. seal. ! " * .J)
- Therefore, *t is co~cluded that the
! '. *:. i~Qlat,ed rusted on~i tioqs of the exposed I :: metal .surtaces a e due tq the extremely humid e~viromnent prev ilinq durinq plant*
l I II,I .. or*eration. I. : I. I. I.' I ~ :u l \~
*1 " l I If I ~
I;;* I I; ..
! I~. ! 1~* ~ l' I
J I PU;e 5 o.: a I S-2-ZZ-SEE-067 6-o'
... I i It, I
I
; .. *. 1I ! I *: I L9I 3.2.5 Visu~l C6~cr~te Surfaces ' *. ~ l ~
Inspection of :ontainment outside
- . J' I ~i *~ Walkd~wn
. I M I
- i . I
.~~A ~or~ion of the exterio surface of the *j~ r~acttjr containm,nt 1 wallJ below grade is 1 '.. acces~ible from the Auxiliary Building, the 1
il: h~lf ~outh side, :eleyati4n 84 1 -0" and 100 1 -
- o~. ~he walls;w~re 1nsp,cted-for evi~ence of
- l~ach1n9, scalin , spall1ng, rust stains,
- j' '. prelinq or 9rack ng.
~1.: Eya1u~tion I
I
!! Accessible areas showed no evidence of
- j . Concrete SUrfaCe degradation I Cracking r nor
, .. signs of water 1 akage.
i ! 4.0 4.2 Test Ch~pne~ at Bottom of J:L*iner. Elev. 78'-0" ThQ rust stains on the sur ace of the test channel are due :to ~li*e ~ccumulation of dust, dirt, paint and extr.emelY' humid *Conditions~that pr~vail inside the 1 contai~~nt: duri.ng operati n and nC? significant loss of metal thickness was observ d on the channel.
.. .. I' l *~1!l j ..:J. I
- q
- i I
- l
- 4. 3 L i ner Plate W thout Insulation, at ;*Elevations above iio~. *;-9n,;l *}t"g ~ome t * ]
l *.~ } . Th :lin~~ pl~te ;is in good cor:iditi<ln from elevation 11 'rO~\ :;t;.o ~ome. Minor st ins were observed above el~v~tio[1~ l~O'-O.". l '. ,, 1 1 i iP1 , i I I ./ il:'. I
'* I I1
- i I I; lj 1 I 1 *~
I I I . 1 IL~..:
j Page 6 of S S-2-ZZ-SEE-067~-0 t ~ I
'; ! i .* : 1 I l I : l I Revi,ew !=>f o~~oul 1 a.tion of R4fa~ence~ 5. 3 "ld 5. 4, 4ti revealeq : ' '
that' . local thinninq*of 1 pl~te d.o.Yin ~Q l/ 16 11 minunum th~ckne~s is acceptable to 1 I 1
~
the 3 cont~inment liner t withstand LO.CA and all other desig1 basis loadings.
- l *: I Below ele~va~ion 110 1 insulation of. the liner is I
required,** even a't the recess areas 'under the current allowable liner stresses specified~in the Salem Gene.rat{nq $tation UFSAR, ~nless t~e UFSAR is updated to the c:u:.rr~nt version of ~he 1989 , 1 A~M~ ~oiler an~ Pressure Vessel .Code, Sectlion III, Division I, which 4.4 would al.low; an uninsulated lliner plate below elevation 11q '* in : the l Cont~1nm~nt'Outs1de This' change wil-1 be ipart of ~a different project ne'ar: 11 ,. 1 . : futu.re. j Wall S rface j Ac~e.ssi~~*e ~~eas showed no !evidenc of degradationq nor si~n~ stru~tu~~11r safe. of *leakage, and the wall is considered l ]
~nspection of 1;he different components of 1
In s.ummk ry, J th~ :lin~r'. p~ate *showed nominal amo~nt of degradation in seyerali:~~e~s w~ich pose n4 siqnif~cant danqer to the st:i;u:ctur.a. l function of the Iliner p~ate as per Referende~ 5.3 and 5.4. G,neral housekeeping and clea*nli~e.ss; of the lagging A channels, floors and walls is* requir_ed
- to preserve th~ life of these elements. At this ti~e it is concluded ~hat alt~ough corrosion is l present', it is not severe inough nor prevalent enough i to inhibit ~he liner platedfrom performing its design 1
S. O REFER:::.:ior:: as: stated in the esign ba~ sis. IPA~ .**2,k/311-90-81-QOO 0
- 5. l NRC 7' date. 5/21/90.
I I I I ~
!I _II 'lo1 ii 1 5.2 NR~ *Infpr:mat: .on :Notice No. s~-79. *~Degraded Coatings and Corrosi9n of Steel Contaitunentjvessels, dated De<re'mbeI 1
1 r :t, l 1989. I"
, I"!L \
- 5. 3 Cal9u1a ~~on*~ 6SO~l369, Thermal1 Calculation" - dat~d 2/7/9~.
Rev. l, "Uninsulated Liner Plate
- I I ' :" ; l ]
Rev.ll - 5.4
- 5. 5 ca+sula t.:i.on: 6S0-1319, Liri~r ~i~te~
1 I Re~~mme:~~ed~ ~ro~r~m 1
- Qualif ica~ion of Minimum Thickne$s of Containment I ~ ;ff I datedJ 2/7/92. l "Col}tainment Liner Study for Co 1 talnmen Liner Inspection for Salem Units *1* and 2 1 S-,C-ZZ-SEE-0476-1.
J i! jI Id I *. 1 I :. ~ I' I l I ;I I 'J ,** i. i :r
'j.
I; I I I i I *~ I*: I
I j II S-2-ZZ-SEE-067~-0
*: I Page J
7 of 8
--------......----==cz=-=============""""'==-"""'""==--....._,,,-------~...-----.,.,.,.-=========
5.6 Fi~l~ o~~ec~lve :s-c-2110-s~o-~s~, 'ev. o - "Inspectio~ ~ I and Restoration of the Int~rnal Liner Plate Surface ano Coatinq' *in the Reactor Buil.dinq *- dated June 30, 1986.
*. . . I I S. 7 Or~w.ing. ;N:o. 207~~0-A-8797 i Salem Nuclear Generating Station No. 2 Unit - Reactor Conta!nment Floor Plan El.
I iI I 1a 1 -*o" a;~d ~1 1 0 11 - Archite,tural. j*
! 5. 8 Draw.inc; N,o.; 201167-A-8709 1 Salem ~uclear .Generating l
- I
!I Station i...; Reactor Containment Slab at El. 78'-0" and 81~~0" ~*cohcrete. j I
l
- 5. 9 Draw.inq Containme'nt:
!~fo.: 201170-A-S709.
Slab El. 78 '-o* SNGS Unit No. 2 - Reactor and 81 i-0 11 Sectioris -
' 1 conc rete.* 1 5.10 Dr~~ing ~o.i201177-A-8710
- I St~tion 1 ~ N~.
I
- I 1 & 2 Units.
Salem Juclear Reacto~ I 41 Generating Containment Cylindrica1:wa11 Liner - Q adrant "A" - Structural .. 6.0 YENDQR TECHNic*AL1! DOCUMENT I 1 I 1
~ .
(VOT) IIMPACT
~
None I ! i. 7*. 0 ATTAClnf,ENTS
- I l'
~ ; j : I 1.1 Containment* Liner and Insu ation Elev. 78'. *~: ' '.< I\ ~ ~
7.2 Liner Typical Recess Area Section A-A.
; I t ~j 7.3 Se9tio~;~-B; - Bqttom of Li er Plat1.
- 1. 4 7.5 7.6 Top .of ~t:aif les~ ~teel Lag]ing Detail.
RuS~ Gr~qe ferc~ntage. Co~~ain~~ntf Lin~r l Plate In pection'Record. l: . I I* : 7.7 Photographs*
.r . .'
I*
- I .
I'.:
'II 'i 'I I I I
III
.* i.
l Page 8 of e l S-2-ZZ-SEE-0676-0 J I l 4t '
- 8. 0 S:IGHATlJ ~
- 1 I
. . I 1 *"'""Cl~t..1" ~- j-~-'l ! Date VT Date Civil/Str~ctural ' Date l,-1,-, ,t.. ,- ~ Mechanical u~lear ~:2o-Jl 5 "q~
ate Supervisqr Enqineerirtq Manaqer I I I
~ . ~
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* '*l** .1 !) j ers . ***
- 1
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- 10*
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1ao* REACTOR f>UllDJNG: t* I: CONTAlNM:EiNT LINER. ~ 1.NSULATION -EL. 78'
- i.
t ., SALEM UN1t
- 2. J I
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COMTM 1T li I I C'ONC((ET!. WALL I, ri:.'~:.,
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LINE~ . --'--:;::"1.~., PLA1i* i
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AT'TACHMENT 7.4
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!9L-..;.____________:.__~1~~'........;..~...;,_------~~----!-----------------__, , I ~
-- - * - - - - - - - - - - *---.-~ .....,.--....,...---*-.,..***-... *~-* -*--- ... ---. **---- - ..... _._._ _________ _._ ______ . ., ...... -...__. __ . ., ____ ,,...... *--*----r**** - **--*...,*-
* ~ -s._,2..z z . J6*7*6-o*--*----~---*-~--~---'-~-----*-- *** - - - - - -
CONTAINMENT LINER* PLATE INSPECTION** SALEM UNIT #2 Date: 2/19/92 By: J. E. Maldanado & J. Buza Checked By: a~ 1 lnspection--started clockwise from Quadrant-D. Column B-5, (see Attachment 7. t) --- **- *-* .. --*** .. - *- - -. ---- *---**** .... .. Attachment 7.6 Paoe 1-LINER PlATE WllHOUT I QUADRANT lELI OOlUM NLINE*-* "INSUt.ATION
.. *-* ----* INSULATION.(RECESS -AREA)
LINER PLATE BELOW .
. * - TEST CHANNEl (TC! - . FLOOR TEST CHANNEL * * *CONDITION* * *PHOTOGRAPH COMMENTS B-6 . 2"'SWAed Oelul Covered *Covered 6% Dirty Panel 245
- T. L Valve*
___ Q___ . . *-* .... .- . -~--- -- ....... . . . .. - .. ---* *- . - ... -- ..... .- -----*
.. . ....... {181 8--4 1~Stalned 0.6'Ki Dirty 5% Rust 10% Rust Fairly Clean 8-3 0.6% Dirty Reoesa at Be00lc1111 5'r>> Ruat Na T*d Ch*nnel Clean Pallel 6-2 CINn 1cnlo Rust 15% Rusi 10% Oirtv Ruat Clean Recess at ptirl1tl 235
- 2 X lnaulatian 00\/9Ald w/mutlc tape (a 2'll3" B:.1. _ _
I
*r...l 1lnht of S.2 S.18
_(;.IHI\__ _ _Contlnuo1.11Jnaulalion--- _ Qorilinu~ _lnsu!ation NoReona Contlnuou1
- * -ln11Uta11on - - --
Clean
------ L c S..17 3%Staln 10"'Allat 15% Rust Dirt 1~Rust Dirt Falfly Clean #1 l.attot B-16 Pfilftal ~~--- I.
(181
. - . -~-Ru11** - ~-Oirty**- -- ....16%~ .,faldy.Qean...__~ . .#2~ '"'-&'le- ~'-Sta------ -* .Recell&ollt<fl8nal.23fi-bv.-
1talr RC-2 water at loor
!unction.
B 8-15 3"' Stained Cover.a with lnMll*Cion Coll9red with lnsul*lion Covered with 10'1. Stained (78'1 lnaula.Uon I 8-14 Slalned 25~ Rult/Aaldng 75'!1. Rllat 46%Rust 75,;, Dltt)I #3 At left of 8-14, Pat1el 234 I I
- - .. - - - * *-------- -- - - - - - - - - ......... --*-- - *-- -*- *.. __ ..;_.... _.::...-_________ -...... ----=*-=** =-=*-=*-=**=--=-~* *=-=**-=*-=--=--=*~--=*==~-~.~-~-.~.-=---~-~-~-~--- ---------------s-2-zz** *CONTAl NMENT*LINER* PLATE* INSPECTION 67'6-0--***--*--*-----*--------*---
SALEM UNII#2 By..aer-Ode: 2/19/92 By: J. E. Malldonado & J. Buz.a Qiodced
*lnepactlon started clockwise from Quadrant D. Column B-5 (see Attachment 7.1)
Attachment 7 6 Paae 2 . -- LINER Pl.ATE WITHOUT
---- -- ... QUADRANT-- -COLUM- - - - - - - - - -INSULATION(RECES$..._ UNERPlATEBELOW. __ .FLOOR -****-. :**-- :- - . !ELI ... - NUNE" *-INSUl.ATIOH". *ARE.ll**
e a.1a Clean ~
- TESTCHANNELrTQ TEST CHANNEL Covwed CONDITION
- 15'l!. Stain, Dirty .,.PHOTOGRAPH *COMMENTS Stud1 mlsalng M I.rt uf
- - - - - - (78') ____ -- - - -- ----*. --- . ---* - - --*- .. .*. . *- - .(Cont'd) - * **Column B-13 * * - -- *
*-* &-12 Ctean Covered with lnaulatlon Cowred wllh in1Ula1ion Cuwredwith Falrly Clean Behnid Pressurizer Relief lnwlatlon Tank ***--- **-- --*- -
8-11 10% ftlSt 25'l. rusted liner 70'1. ruin and dirty ~rust 30%Dirt #5 Recess at panel 232. at>ove8w. Behnid B-11 8(1
&-10 ReONaat 10%Rust Coveredw/lnaulation cowftld 30'1!.Dkty, #6 Al*ashieldedbVateel A Becwlclll w/lnlldatlun Stained
- encloaure.
**--va;-- ----- -P.neerat1on- ------------- - - - - - - - - - - - - ------ ** *-**-* - - --* ------ -------*--***-**- -a.se*p1aw*ar.nd-or---
*nclouure i1 totally rusted.
B-9 11' Dirt .. Mnot Aul~ 200' Auat Dirt 10% Ruat Dirt Dirty At. ri~ht of B-9
- -- **~*----~........__~ . . __. . . . . . . ~--- . -~------=:.aw-At. leh Of B-8 Siuda missing behind DCalr RC-1 ..,d con1alnment IUAlp and I
I elevator aha.ft Fal~Cleen falll~CIMn 17 Eapoud llnet' hN.vl~ corroded, right of Column B-9
. -** ---*--* -**-----*-----~ *----- .. ------=-=-~~ _..--*-***'"'*---..---:-~:-:~=--"'!~~~:'~~-.;--- ... ---*-*- ... *:-*--~!9"'-*- ! .... _ _ .. _.,,,.. .** ~ *--~-:~:*:~*~:---:- -~-=* :*.,..-- - . -*-...----* -
__________s-.2_-zz. CONTAINMENT {IN ER PLATE... NSPECTION SALEM UN IT #2. _6.7.6-0. __ ,__________ _ DI..: 2/19/92 By: J. E. Maldonado & J. Buza 0iecked By:C?e'~ Inspection started clock.wise_ from Quadrant D. Column B-5 (see Attachment 7.1)
- -. - Attac h menl 76 ~age 3 -*
LINER PLATE WITHOUT
- - . -QUADRANT COWM INSUL\T&ON (RECESS LINER PLATE BELOW FLOOR tELT ___ - NLINE
- 1NSUlATION-- -AREA) TEST CHANNEL CTCl - - !EST CHANNEL ** - COMMENTS -
- CONOmON PHOTOGRAPH -- - - -- . 8-6 20'la~ 10% "'at. 15% Rust- 15%.Rlm - 15% "'st Dirt *-Pd right of p.l'M>Mel -- - -
naticn, 1111.lda mhialng on
............ - .. - ---* ***- .... . . . ..... - .. *-. -- ... - -- ** lnauliition ----*--*- - --* - - - * -*---- M *-Cldn -No A9ce61I C.OV.red with lnsuhlllon Cowrad-with Insulation ~d.with Insulation Faitly.aee.n --- ---- -- --
0 8-3 Clean NoReCHS Covered wltll k\sulatlon (;oye,..d wilh Fal1lyON11 #8 . Top tluhing, at 110' - 3' (1001 Co11ered wltll lnl4.lldon lnauldon long aectloo is looM, left of 8-3 8-2 a.an NoReoeas Cowred with lnaulation Covered with Fal1lyClean
... ....._ ... -- ~ .. --* .. Cov.red with Insulation ln1ulatJon. --*--* - .- *- - - ... No*Raceaa 81 CINt'I Covered with lnsulatlon CoveNdwilh fal1lyOean S1ulh mlaalng rigtlt of 8-1
---~*
--- c *c...;a_:-~*4 8-18 ~ ***--..:-=-o=-...=r\*.--..~~
Clean Covltted with lnlUlallon r, c-.*-- ... -- ... * - - ,.,.., .... , *.. *, - NoR8()1tQ Covefed with !n11Ulation
- "' ..... ~ .."! ... -
Covered with lnsulatLon lnaulatlon
~~-----.
0ov&Ndwilh lftsulatlon Clean Studs missing {100') Studs mlSllng lett of B-17 8-17 aean No Reoeaa Covered with lnat.llldion CovelHwith Clean Cowred with ln&ulation lft1ulatlon 8-16 aean NoRec>>sa Covered with Insulation CoYeNdwilh Clean Covered with lnsulaticm lnaulatlon B 8-15 Cl tan No r.oe.. ooverod Covefed W/lnsul&1ion C.OV.red falrly Oean 1119 Top flaaliing loc;:,e right (100') W/lnsulatlon 15'lb Rust W/nulatlon oflH5
-* :--*-:*--*--s-t-z-z** .6 7 6 - o - - - - - -
CONTAINMENT LINER PLATE INSPECTION SALEM UNIT #2 Oa~: 2/19/92 OV: J. E. Maldonado & J. Bw:a c....... ~""Q'~ ;-;-;:.*
* * *..Inspection stanecf clockwise* from Quadrant D:- Column*e-s* (see Attachment-7;1 )*
- Anachment76P*aoe 4
-- *---- .* OUADRAHT. COLUM" ~ -. - LINER PLAlEwrTHOUT - ._LINER Pl.ATE BELOW*-* .**-- - ~
I
. .. * - :FLOOR - -- .. *-. *-
(EL) NLINE INSULATION wst.U.ATION (RECESS TEST CHAHNEL (TC} TESf CHANNEL CONDITION PHOTOGRAPH COMMENTS
- - - ---- --*-* ----* ... _.. - -- --- .. , *AAEM*- . ..... ------ ------* -- ----*--*. . - --- ***** *--- .. -. ..
- .. . ***a . B-14 Clean R9ceu lelt of B-14 Cove,.cl with Insulation Cowled with FaltlyCiean ..
(1001 Cle*n Olean !Aeulation
--(Coft'!I)-' * .. .aean. ------- -*
B-13 CiNn NoR9ceu Covered with lnaulatlon Cowredwlth Falrlv Clean #10 4" of 11*slling at 110" is CowMd with lnaulallOA lnautlllion missing - top .ngle 30% 111118d 8-12 Qean NoRoceu C.Ove111d with Insulation Cowenld with Fa1r11 Clean Saud missing righl of B-12 CoveNMt with lrniulation IJnavldan
~--- -. ~~ ..-.-.-- ... 8-11 . Qlun. .No.Aeoess C.Overed.lllilh.!Mul.OOn Coveredwhh Fairly Cle*n : -~-*
Cowfed with lnaulatlon IMulation
~--.-... .. *A-(100't *
- e10- * *C111n-.. . . -NoReona-Ccwered with Insulation
... O>vefed wittt lnlUl1tion-- *-\41d,,RMM9d ~ -Fald~-C!Nn--- - *** '"-* -4'.of lluhln/l..i.UO'.-~-
mlaUng - ugl* rusted 30'lli F/,~I.;,,~ B-9 Sbllned NoReceu Cove..a wfth ln1ulatlon \Mii. l\.iated 20% FaldyCINn #11 Top portion lmng, rlghl Oov*,.d with Jnaolatloo olB-fl"'f B-8 QNn NolWoeu Qwered wllh ln1Ulatian v.rt.Ar1o1Wld Fairly Clean Studs mlulng right of C.OV.red wtlh ltl1>1.1latlot1 20% 8-3 8-7 Clean Alena right ol B-7 Covered with Insulation Coll9ted wtth Fairly Clean lnullation
----------. --~-***----*:-- - - - * * - - - - . * - - ..-~-------------.:------- *~-~----s-2~zz~*-"67~-~~~~----~--------~~-* ---* ~- .----==-- *coNTAINMENILINER-PLATE-INSPECTION*~
SALEM UNIT #2 DMI: 2/19~2 By: J. E. Ml.tdonadO I. J. Buza Checbd By-t:<?~~ lnapectiorutarted*clockwlse from Ouadrant-D*. CQlumn 8-5 (Attachment 7. t)
------------ Attachment 7.6 Paae 5 LINER PLATE WITHOUT
...-.-... --OllADIW4T- -COLUM* * --------- - -INSULATION<RECESS ** --UNERPLATESEU>W.. ---**-* FLOOR ~-** -- IEL1 -* N LINE ... INSUl,ATION .AREA) - -TEST CHANNEL fTCt. -- *TEST CHANNEL CONOOION PHOTOGRAPH . COMMENTS **
A. EMi a.an ReoMa righl cl EMi Ca~ with lnet.dation Cow19d wilb Faitlv Claan J;,*p tla1hing 110' -
---(1001- -- *-*--*- *- --- --~--- *- - * * -------- -* ...... -* . -- . _ . *-*- -*- ... _lfwolalon_ .. _... __t.oose_~llht_of_B-_6 ____ _
* -*1eon'tt I ------ I I
1-----1----1---- --------- ----------*------~ -----..------- ~-*---*-*--- -------------*---
S- p *r~1 -~**
- r.*:2,"'.-. :...:.1 *
-*.:.~
WORK REQUEST DESCRIPTION --------------------TCM2121 COMMAND INPUT ===> CREATE MdDE PAGE 1 OF 2 WORK REQ NO 920317173 AR STATUS-DATE: INITED l ~ INITIATED: OJ/17 /92 LAST UPDATE 03/17 /92 RlR
~~* DEPT NSS SMT INITIATOR R. RINALDI 2038 R* DEPT SSP_ __ PRIORITY 01 AR YPE CM_ C.R. INST N MUC: SYSTEM: UNIT-CMPNT ID S2 NEUTRON SOURCE FEG NO: F/CMP DESCR: NUCLEAR INSTRUMENTATION SYSTEM NEUTRON SOURCE S-132 _ _ _ _ _ _ __ LOCATION UNIT II REACTOR CAVITY------------------~ ACTION STATMNT: A S DATE-TIME : REFER WO/ACT 910921013 01 EMIS HUNG? : N EMIS TAG NO:
SUMMARY
- VENT NEUTRON SOURCE _ _ _ _ _ _ _ _ _ _ _ _ _ __
A DESC: THE NUCLEAR INSTRUMENTATION SYSTEM SOURCE S-132 NEEDS TO BE VENTED DUE TO IT REMAINING IN THE CONTAINMENT DURING THE TYPE A TEST. PLEASE_ VENT IAW SMD SEAT 92-163 SEE ATTACHED*-------------------~ MESSAGE: PF4 TO COMMIT; 'CAN' TO CANCEL; 'NEXT' FOR NEXT SCREEN
IJq) lll'l' LOG I 91~/lr:J SYSTEM ENGINEERING ASSISTANCE *TRANSMITTAL . QUESTION/PROBLEM DESCRIPTION
., ...~--- -***- -**-** .....s*::r-~--
_. . ~ f'.OHFOlL\Tlo~* sHir ?iNG DATA FORM
. I * ' H ,\ .~ T ti 1°U:-1il'.'I..~'\' *.. en t:r:r-AnTM[HT t.iAT" ul * .ur r.*f.Nl it*;in !'. i' ~- *~l".l!l. "~"- 4!1*l'i7 USAr:C L1ccn:.r. llo. S~f .. .5G7 ~* - ------~- - *.O.lJ
- 01 .. 1 1-2 6-76 i::, r;:C! r,, -. ,,QA!J,
.~~c:i. l.:'.::. .:~ ..Ji! Tet.*11hom: :r,5;;769 l~------n~v~nn. n.h..iMft'--~-~--- VIA Ato.:.1 Code '..ll Co 11 cc t. 10190
- .: ~* t i :~ ~ :1 o ~.: ~ r* E1 cc tr 1 c Co r no r ~ t i fJ n
.: ucn_-ci?" ~i: ~ rcw Sys terns *- - - -- -
P. L'. ~nx ~!j;j Public Service El~ctr1c & Gas Co Pf ttsburq, PA 15230 c/o United Engineers & Cons trl!ctors, , _J J\tt.11: Construction Sup~r1ntenden
-------------------------t Slllc::i ~lucl cJr Gc.icrating Stat1cn Artific1l I~land.
Lot*!i:>r :~ 11 cv:ays Ci"eek Town sh 1;:> Purch.:::!e Orc~r N~. S 1l4-csr:-1~-11;; 1-Xil Salem County, Ne~ Jersey li RC ~ 9 -1 S0 l~ 2 - 0 1 r i.i Cl'n $P. No. t t*:;ri nl r !~rr.*:bor CEi:O'; PT~°" PRICE UNITS OROERED QTY. SHIPPEC I SHIPPING COofTAINER DESCRIPTION ilcnitrc~ Arn-241 Chemical Fonn: ft.mo 2 30 ga 11 on dru* i any): Uer y 11 i 11111 USA DOT . 7~** Tvnfl! A urcc Ho. Am't of Isotope Particle Energy Emission Rate-Date 3.37 C1 or 10.0 gms n.m. 8.35 X 10s n/sec 0.984 gms .) c * * * * , Dl?scription: P!ice ~I S.:>urce(s) 1lP~s steel. 1.25* o.o. x 2.ss* O.L.-< "~"" Conl&iincr deposll/prico Total
'. *l*'1***11-.i.>n'\, window lhickno-;s, ii .1ny) '~--) ~-
i~.o. 1011-a 176-tAt
IS.-.. J*,;lUN
;:, ., .-J~TS DAT .*i'i1 OHIO * .~ i. ~.~~;~HI~I SUR'iEY RECORD
,JSTOMER ~4 --~~ DATE /-~/-// PRODUCT NO(S). -~)7!,~~~~*~c.=~~--L.L.-.M..l.~~~~~~~~~-~~~~-~~~- Type of Source~....,.,-_/--""- Quantity I Type Radiation Emitted )l~ Emission Amount Surface Source Number Contamination
/Jn'} g J..ls ~/,!) ..JL J' J?..!~ el'* ./S ~10"' '~"/I*
hJ!?C- _/I.Ji SH.IP PI NG PACKAGE: OUTER INNER SPECIAL Se r i a 1 No
- H- 3o9A ~Metal Drum 0 Pipe'Nipple O Mod. 2501 S i z e_~,lu.itJ~p-P-4-"dmJ...........,~ 0 Steel Pot 0 Tin Can D Mod. 2511 App ox. Wt. ./# 1' . 0 Fiber Box 0 6M or 8"11 cntr. D Overpack* _ __
11 L . T Type: A. A,_B 0 Other_*_ _ D Other_.____ O Other _ _ __ S lding: 0 Paraffin c~rw.E.P. D Lead/Steel D Other _ _ _ 0 None RADIOLOGICAL CONTROL: Conte- 1er Survey Container Survey (Radiation) (Contan 1ation, µCi) at Surface at 3 Feet Outer S_rface~f11D-b Gamma /,,0 mrem/hr Gamma - O. 6 mrem/hr Inner Cont(s)/9JJo*' Neutrons - /ZO mrem/hr Neutrons - tl.2
- mrem/hr Ho 1 de r ( s ) i 9 x 10 - 6 Total - /.:J .() mrem/hr Total - .J ..l ~*rem/hr Other~----~~~~- *Transport Index SEALED SOURCE TEST SURVEY INSTRUMENTS USED
[]Helium Mass Spectrometer leak Test ~Gamma -Eber*l ine R0-2 [ ] External Pressure Test PSIG ~Neutron -Eberline PHR-4
~Final Bubble Test D Other
[] Other~~~~~~~~~~~~~
--.,MENTS:
- Shi pm~t approved*~: .. ~_,,
I/ . /? .. ~
- ) ~ * **-:.*~ *:!... ... -~ ** ..
NOTlCE - I.
** MONSANTO RESEAR~CORPORATION
- ENGINEERED PRODUCTS DAYTON, OHIO NEUTRON SOURCE UNLOADING INSTRUCTIONS
*1. Remove security seal,* release bolt rin~
Removable Drumhead . and remove drum head. wi t~ .Bo 1t Lock R1nng---,---==:::s-----~
- 2. Remove pipe cap from center pipe.
Center Pipe with
- 3. Using wire loop, withdraw source holder Source Holder . until neutron source 1s clear of top of center pipe.
- 4. Using long tongs or other handling tool, transfer source from holder to shielded storage.
I Neutron Source *NOTE: DO NOT TOUCH RADIOACTIVE SCL~CES BY HANOI KEEP EXPOSED SOURCES AT ARMS LENGTH OR MORE FROM THE BODY.
- 5. Replace source holder 1n center p1pe.
- 6. Replace center pipe cap.
- 7. Replace drum head and bolt ring.
,lltll CllAIA*CIS llAIGllATID.111 ILLWITIATlll rwaPlllS 8. Remove or cover rad1oact1ve labels.
- 9. Label drum "EMPTY".
- 10. Return container to:
Monsanto Research Corporation 1515 Nicholas Road
** r Dayton, Oh1o 45407
.
- ZONE SY. Oi:5CRIPTION . DATE-
*rr - ~ Q Q
0
- G' ,...0 ti)
U> 0 lL--- LO
. I; UNLESS OTHERWISE SPECIFIED APPD DIMENSIONS ARE IN INCHES MONSANTO RESEARC.H CORPORATION TOLERANCES:
DECIMALS
-.. FRACTIONS .__ __,__ _ _
Vi... APPO
*'/) ,.__-t .~
DAYTON LA.110.R.ATOl\Y DAYTON, OHIO i 02 0 a:
*. X**.OoS ANO~S ~~ H* .M ~~~---------------~--------~
Al
. ~x BAsrc SURFACES V /
- 30*
APPO c. £. "!;?. I NN ER CAN 5TANOf\kD $)l.ETCl1 MATERIAL ....}Q.i. ~ u-. e.E. ~- 1-10-7' 4 C\. Ain "Be. souRcE. ~AMMA $HlELDE.D OWG NO. cHEcKm ANISH=S!E-====
--i:....- - - - .-_ ...- 1----------t---1 SCALE NDNf WT ------......-~~-+-----.
PRAWN (\}',~J. l\-S*7! 61GNATUR1t DATE CALC
.-.cT.
COO& lO&NT NO. A24\01-P-02... 11----------- SHEET 2.. OF 2.
- * ... ****N11111"-) tn '"*'* n1Y'tt*M *1 111' ,.ftlNf C'O. 'tOO . ..,,
- .. ---------------------------------------- REVISIONS -.** .
- ZONE &YM DllSCAIP'TION DATE AP'P'ftOVAL
. *'. \ . .~* *. :' .. ... *01'5 M*~.Ch.,,. {
c 0 .
-o 0
0 Cl' t :l lt;
<()
0 q N 0 . - 3 0 lb .* 0 i*. 0 ... rai..IL-------**2. ~ -~~-----~
*1fHERWISE SPECIFIED APPD *; .~.
t4S ARE IN INCHES MONSANTO RESEARCH CORPORATION **
'* i* *fANCES: APPD J>AYTON LABORATORY : . ' 'j .. 02 0 :I: .,4-FRAC1).0N9 APPD l/*1f.)/
DAYTON, omo
.oos ANGLES //. IJ. "' ,, '" .,, l~~ .... ASIC v :I: 30' APPD C.E. /(., - 4 Ct tt*-* OU\E.R Ci\ N STANDARD S~ETCti ~1~L t4 2ur::_1.._ . URFACES .wiAT CHECKED. C.£.1?. 11-11-71 ~OURCE. GAMH" SHlELDf.1) OWO NO. RIV
- ~ !SH-
~~
_,_ - - DRAWN C\}-' ~ ~ / . l\-S*11 Cl~tJ*TllD** OATE SCAL1 )Nf,WT CALC ACT. I COOll IDINT NO. i A 24 I" *1'-0\
ML ,,\ . .iL.."1;,"'ol \,,v~PORATION
- ENGINEERED PRODUCTS DAYTON, OH I 0 SH I PP ER 1 S CE RTI F I CAT I 0 N F0 R RA 0 I 0 ACT IV E MATER I Al S - * - --. - . -
{To be completed fn triplicate) We hereby certify that the named articles are properly classified, described, packaged, marked and labeled, and are 1n proper.~-\fondition for transportation, according to the applicable regulatio"S' of the De p a rt me nt of Trans po rt at i on .*-:-J.$.~
....~ *z-MQNSANTQ RESEARCH CORPORATIOl:,
1515 Nicholas Road Day ton, o*h 1 o 45407
- J"",i :*::.,.'.O ..
(slJ) 268-6769 ~r ~--,o~*-* -
~~~*
Harold L. Coleman "" .- Manager. Manufacturing SuppoP~ 1-26-76
-~<- .ix ... *. -Jlr.
Name of Radionuclide Americ1 um-241'...i-X-- ---~
.. ::i!' . ,.
Transport Group of Radionuc11des Group I Form, Physical & Chemical or Special Form Special Activity (Curie Value) 3. 37 C1 Type of Label" Required
*.. Rad1oact\~~:j"' ***s*
Transport Index -. -'~ . . - -~ .*.3,.:. . . . . *: ~- . .- Type of p*ackage Type A For Fissile Mate~ial: Fissile Class n/a Weight in Grams or Kilograms For Export Shipments . Copy of any Special Permit issued by DOT - Source No: MRC-AmBe-1~36 B/l I 10190
*~ . " !i. ,(:.;:~> ;:.~ ;;;v:*~~c<~,:, E , .* - ";,,~,~ .
- SYSTEM ENGINEERING Sim 101' LOG # 9 2- \lo5 ASSISTANCE TRANSMITTAL QUESTION/PROBLEM DESCRIPTION WORK OIU)IJll. I C\ \OC\ 2. \ 0\ 30 PROILE>h T'fvt: Nt;.:.,iSa.o"-3 Son g_ce.. \$ \10 -\'\.\..e Q..<::lltc°'c£.. CF\U\\1 \l>j.V'b.-\:'I,._,~
?o\,..,...a.. C£-AC'l\2 =:? '2£Qs "*'").. to\::i . i ,\,\ l"&:s)\ '£.::,.~ &~y p..\ ,.
ACTIOll JU:QUSSTJ:D. -t 'r\ e. Co oi'Se;.,, t-V:l:.,l>: W\ \) i>c )f>§?.er-&qR17 >--cl To er M.A'6 'MlJ M o ~ A2 ."BB o:;.,, s:J
- J;s 1 \ ~eif1s,'\->\e.. "to L~a\Je
- ,.,._, 2.oSL
RESPONSE
- DOI.llm - - - - - - - - - - PllOld I --~- __ D\'!-' - - - -
S2.SS~IS.ZZ-0005(Q) Attachment 24 contiuued 2.0 SITE METEOROLOGY PRIOR TO CILRT
- *Record the weather conditions every four (4) hours for a minimum of three (3) days prior to the CILRT.
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DATE DEW V BAROMETRIC REMARKS TIME TEMPERATURE POINT PRESSURE I i
- Salem Unit 2 Page 221 of 266 Rev o
i
~/92 10:09 15-MIN AVERAGES ETER REFO REFl T-IN PRES. RAIN* SOL -TEMB( TEGG DWPT* DTUL UNITS VOLT Mv c INHG INCH LY/M c F F c DTML *wsL WDL SIGL SIGA WSM WDM SIGM wsu WDU c MPli DEG. DEG DEG MPH DEG DEG MPH . DEG SIGU DEG 03/20/92 00:15 2. 4.89 2.50 31.3 29.77:'1 o.oo 0.01 0.6: 34.4 32.3 0.05 *- .........~ -o.~;:,63 4.4 324 g- .*1 ~ lLO 7.2 . 329 5.6 9.2 109 >11. 3 *-~-:
03/20/92 00:30 2.489 2.50 31. 7* ,29. 7W 0
- 0 0 .: *~. ! 01 0.6 34.3 32.5 0.15
, J ' -0.49 4.5 30*7 7.3 14.5 7. 0 . 331.* 5 .*1. 8.7 110 14.8 03/20/92 0:0:.45 *2.489 2.50 (-~~ .1 29. 7& 0.00*.o.01 o.~. 34.3 32 * .t-1 0.00 -0.50 4.6 313 7.1 19. 9** 7.2 323 3.5 8.5 86 03/20/92 01:00*
1* 84.6 2.;489
-0.55 2.50 4.5 * ¢* ~~--4 .29.79~
319 7.9 HIGH
.' ~*..*~
0.00 9.1 0.01 7.5
. o. 6-;i 323 34.3
- 3. 7*
32.4 -0.07 8.8 335 HIGH 6.4 .... !-":"". 03/20/92 ~1;15 r 1 2.489 2~50 32.7 29.79 0.00 0.01 0.7 34.3 32.1 -0.04 I .
-0.5.3 4.9 307 7.9 4.5 8.0 320 4.1 9.0 334 6.3 03/20/92 01:30 2.489 2.50 32.9 29.79 0.00 0.01 0.8 34~4 32.1 -0.29 -0.64 4.7 295 9.8 4.6 7.2 311 6.4 8 .*3 325 ... ~. ~
t*"r'p
'*<11*
5 ."5. 03/20/92 Ol:45 2 .--~89. *.. : 2.50 33 *. 2 29.79 0.00 0.01 0.9 34.4 31. 9 -o. 3 0
*~**.:.: .~ -0.69 .*5,_ 2 *~94 8.6 4.2 6.6 306 6.1 8.3 324 *-:,. 5.5
03/20/92 02:00 2.489 2.50 33.4 29.79 0.00 0.01 0.8 34.2 32.5 -0.25
-0.64 5.0 300 9.0 4.3 7.0 311 5.1 8.9 328 5.0 03/20/92 02:15 2.489 2.50 33.5 29.79 0.00 0.01 0.6 34.0 32.9 0.10 -0.45 5.1 307 6.8 2.3 7.8 317 3.0 9.7 335 3.0 03/20/92 02:30 20489 2o50 33.7 29.79 0.00 0.01 0.6 33.9 32.9 0.37 -0.29 4.8 321 7.1 2.1 8.2 324 2.6 10.4 341 2.4 03/20/92 02:45 2.489 2.50 33.8 29.79 0.00 0.01 0.5 33.7 32.9 0.60 -0.15 5.6 325 5.7 1. 8 9.0 326 2.2 11. 4 344 2o2 03/20/92 03:00 2.489 2.50 33.8 29.79 0.00 0.01 0.4 33.6 32.7 0.80 -Oo04 5.3 327 5.7 1. 8 9.4 331 1.8 11. 4 348 2.2 03/20/92 03:15 20489 2.50 33.9 29.79 0.00 0.01 0.3 33.5 32.8 0.90 0.01 4.3 340 5.2 1. 2 8.0 333 2.8 11. 2 347
- 1. 4 03/20/92 03:30 2.489 2.50 34.1 29.79 0.00 0.01 0.6 34.1 32.9 0.74 0.01 5.4 340 3.3 12.2 8.8 346 4.3 10.1 356 HIGH 15.6 03/20/.92 03:45 2.489 2.50 34.1 29.79 0.00 0.01 0.8 34.2 32.7 0.71 0.45 5.7 336 3.6 N/A 7.7 349 3.6 8.9 37 HIGH 84.6 03/20/92 04:00 2.489 2.50 34.2 29.79 0.00 0.01 0.9 34.3 32.9 0.58 0.40 5.2 340 3.2 N/A 7.5 350 2.9 9.3 359 HIGH 25.4
2.489 2.50 34.4 29.79 o.oo 0.01 1. 0 34.7 33.0 0.10 03/20/92 04:15 0.13 4.0 336 5.3 N/A 7.0 345 4.9 9.3 356 HIGH 22.2 03/20/92 04:30 2.489 2.50 34.5 29.79 0.00 0.01 0.7 34.3 32.5 0.20 0.30 4.7 331 7.3 6.9 8.2 341 4.9 9.6 350 HIGH 15.7 03/20/92 04:45 2.489 2.50 34.6 29.79 0.00 0.01 0.5 34.0 32.7 0.22 0.26 4.1 344 7.5 16.2 7.2 341 8.7 9.1 347 HIGH 13.9 03/20/92 05:00 2.489 2.50 34.6 29.80 0.00 0.01 0.0 33.1 32.2 0.58 0.66 5.0 332 4.2 16.5 9.7 339 3.8 10.8 349 HIGH 14.5 03/20/92 05:15 2.489 2.50 34.7 29.80 0.00 0.01 -0.3 33.0 32.0 0.63 0.69 5.4 320 6.4 7.6 9.6 334 2.7 10.5 344 HIGH 2.7 03/20/92 05:30 2.489 2.50 34.7 29.81 0.00 0.01 -0.2 33.1 31. 9 0.54 0.59 5.1 319 5.2 3.1 9.0 333 3.6 10.8 344 4.5 03/20/92 05:45 2.489 2.50 34.7 29.81 0.00 0.01 -0.5 32.5 31. 8 0.84 0.80 3.5 342 24.6 3.1 8.3 335 3.3 10.6 345 3.3 03/20/92 06:00 2.489 2.50 34.7 29.82 o.oo 0.01 -0.3 33.2 32.0 0.41 ;~ 0.25 3.6 352 9.2 2.3 .6.4 339 5.1 9.2 344 2.7 03/20/92 06:15 2.489 2.50 34.7 29.82 0.00 0.01 0.1 33.3 31. 6 0.23 LOW 0.09 4.9 334 6.7 2.1 8.1 335 3.6 10.2 343
- 2.4
03/20/92 06:30 2.489 2.50 34.7 29.82 0.00 0.04 -0.6 32.1 30.6 0.79 03/20/92 06:45 0.80 2.7 2.489 5.2 2.50 329 9.1 34.7 29.82 2.2 0.00 10.0 0.07 335
-0.5 1.7 32.1 11.2 30.5 344 0.71 0.70 4.9 334 13.7 2.0 10.1 336 1.9 11. 9 346 2.4 03/20/92 07:00 2.489 2.50 34.5 29.82 0.00 0.11 -0.l 32.6 31. 0 0.31 0.37 4.8 325 8.7 2.4 9.9 334 2.6 11. 6 343 3.4 03/20/92 07:15 2.489 2.50 33.7 29.82 0.00 0.12 0.5 33.4 31.1 -0.21 -0.10 5.0 328 10.2 2. ,6 8.7 335 3.5 10.7 345 3.1 03/20/92 07:30 2.489 2.50 32.9 29.82 o.oo 0.16 0.8 33.7 31. 7 -0.41 -0.32 4.3 335 1-2. 3 6.1 7.2 342 6.3 11. 2 354 03/20/92 07:45 18.1 2.489 -0.47 2.50 4.2 32.7 29.83 338 13.0 HIGH o.oo 19.4 0.21 6.5
- 1. 2 343 34.3 7.9
- 31. 6 -0.68 9.9 351 HIGH 9.3 03/20/92 08:00 2.489 2.50 32.6 29.83 0.00 0.26 1. 6 34.8 31. 3 -o. 93 .
-0.59 5.3 336 14.5 23.0 7.3 346 7.4 9.8 346 14.3 03/20/92 08:15 2.489 2.50 32.0 29.83 0.00 0.30 1. 9 35.3 30.7 -1. 05 -0.64 6.8 342 14.2 N/A 8.7 351 8.0 9.7 350 HIGH 23.4 03/20/92 08:30 2.489 2.50 31. 3 29.85 0.00 0.34 2.0 35.4 30.2 -1.05 -0.64 8.1 339 10.9 18.9 9.1 346 6.2 9.7 350 11.1
n1/20/92 08:45 2.489 2.50 31. 0 29.85 0.00 0.41 2.3 35.8 29.7 -1.13 03/20/92 09:00
-0.71 19.4
- 2. 48.9
- 7. 7; 2.50 341 13.5 30.7 29.85 19.5 HIGH 0.00 8.6 0.45 349 2.8 7.8 36.5 9.3 347 29.7 -1. 30
-0.77 6.9 340 14.2 N/A 7.9 349 8.1 8.9 348 HIGH 26.8 03/20/92 09:15 2.489 2.50 30.4 29.85 0.00 0.51 3.1 37.0 29.2 -1. 36 -0.79 6.9 345 16.7 N/A 7.3 357 15.8 8.4 347 HIGH 25.0 03/20/92 09:30 2.489 2.50 30.1 29.85 0.00 0.47 3.0 36.8 28.8 -1. 27 -0.74 7.0 332 15.8 14.3 7.3 343 11. 5 8.4 341 9.8 03/20/92 09:45 2.489 2.50 30.3 29.85 o.oo 0.39 2.9 36.8 29.1 -1. 28 -0.74 6.7 334 15.5 9.2 7.1 336 10.5 7.9 337 8.7 03/20/92 10:00 2.489 2.50 30.2 29.85 0.00 0.46 3.0 36.9 28.1 -1.18 -0.71 5.8 331 19.6 11.8 6.5 341 11. 8 7.3 337 10.7 03/20/92 10:15 2.489 2.50 30.1 29.85 0.00 0.58 3.6 37.6 27.5 -1. 39 -0.81 6.0 339 22.2 15.3 6.7 341 15.2 7.3 334 14.4 03/20/92 10:30 2.489 2.50 29.9 29.85 0.00 0.54 3.7 37.8 27.6 -1. 28 -0.80 5.1 338 32.4 29.8 5.8 344 19.7 7.4 336 HIGH 18.5 03/20/92 10:45 2.489 2.50 30.1 29.85 0.00 0.72 4.1 38.2 27.9 -1. 51 -0.96 5.5 316 26.1 17.6 5.6 327 17.8 6.4 333
- 16.2
o.oo "~/20/92 11:00 2.489 2.50 30.5 29.85 0.60 4.0 38.2 27.2 -1. 37
-0.85 4.6 303 27.7 29.2 4.8 330 22.2 6.0 331 21.3 03/20/92 11:15 2.489 2.50 30.5 29.85 0.00 0.57 4.0 38.2 24.8 -1.28 . -o. 79 5.1 348 26.0 30.0 5.7 353 21.1 6.6 338 HIGH 22.4 03/20/92 11:30 2.489 2.50 30.4 29.84 0.00 0.61 4.2 38.6 23.3 -1.41 -0.84 5.4 3 24.8' N/A 6.2 7 15.9 6.9 333 HIGH 27.6 03/20/92 11:45 2.489 2.50 30.3 29.84 0.00 0.61 4.3 38.9 24.5 -1.43 -0.90 6.6 344 22.3 28.4 7.4 353 14.9 8.4 339 HIGH 18.1 03/20/92 12:00 2.489 2.50 30.l 29.83 0.00 0.51 4.3 39.1 25.2 -1.35 -0.84 5.8 340 25.7 32.3 6.5 349 17.9 7.5 341 HIGH 20.1 03/20/92 12:15 2.489 2.50 30.1 29.83 0.00 0.48 4.5 39.3 24.7 -1. 36 -0.81 4.7 352 32.6 N/A 5.2 354 19.1 6.0 337 HIGH 18.2 03/20/92 12:30 2.489 2.50 30.4 29.83 0.00 0.52 4.7 39.7 23.6 -1. 35 -0.72 5.5 10 21. 6 N/A 6.0 5 16.4 6.9 339 HIGH 24.8 03/20/92 12:45 2.489 2.50 30.4 29.83 0.00 0.63 5.3 40.5 22.8 -1. 51 -0.86 6.0 334 34.6 N/A 6.3 345 23.7 7.3 331 *HIGH 21.9 03/20/92 i3:00 2.489 2.50 30.3 29.83 0.00 0.61 5.5 41. 0 20.5 -1. 58 -0.99 6.2 325 27.1 27.6 7.3 336 21. 9 8.5 331
- 18.9
o.oo "1/20/92 13:15 2.489 2.50 30.1 29.81 0.57 5.3 40.9 19.7 -1.54
-0.94 8.8 352 14.8 24.7 10.0 0 10.9 10.8 344 HIGH 25.9 03/20/92 13:30 2.489 2.50 29.8 29.81 0.00 0.54 5.6 41.4 22.8 -1.76 -1. 09 8.9 349 16.8 N/A 10.6 356 11.4 11. 9 342 HIGH 25.7 03/20/92 13:45 2.489 2.50 29.9 29.81 o.oo 0.58 5.6 41. 5 22.3 -1. 47 -0.93 9.0 312 17.1 13.8 9.8 321 12.7 10.5 320 \._
11.7 03/20/92 14:00 2.489 2.50 29.8 29.80 0.00 0.56 5.9 41. 8 22.8 -1. 58
-1. 08. 8 .. 9 308 20.5 9.7 10.3 322 15.0 11. 4 . 319 13.7 03/20/92 14:15 2.489 2.50 29.7 29.79 0.00 0.47 5.7 41. 6 23.5 -1.49 -1. 00 9.4 328 1*7. 4 10.4 *10. 9 335 12.9 12.2 334
- 11. 3 03/20/92 14:30 2.489 2.50 29.6 29.79 0.00 0.51 6.0 42.2 22.8 -1. 56
-0.98 9.0 318 18.2 11. 7 . 10. 5 328 13.4 11.8 324 12.2 03/20/92 14:45 2.489 2.50 29.6 29.79 0.00 0.49 5.9 42.1 22.2 -1. 49 -1.00 10.2 329 27.0 17.2 11. 8 336 21. 0 12.6 332 19.3 03/20/92 15:00 2.489 2.50 29.6 29.79 0.00 0.42 5.8 42.2 21.5 -1.47 -0.94 10.1 314 19.6 11. 6 11. 9 324 14.6 13.2 322 12.7 03/20/92 15:15 2.489 2.50 29.5 29.79 0.00 0.40 5. 6 . 41. 9 21. 6 -1.46 -0.96 10.6 307 12.6 4.6 12 .1 317 7.5 13.1 317
- 6.1
o.oo f'1/20/92 15:30 2.489 2.50 29.4 29.79 0.36 5.6 41.9 21.8 -1. 37
-0.92 10.5 309 14.4 5.5 12.1 321 6.7 13.l 318 6.1 03/20/92 15:45 2.489 2.50 29.4 29.79 0.00 0.29 5.3 41. 6 21. 0 -1.26 -0.79 9.6 317 13.5 5.3 11. 6 325 8.0 12.6 323 8.7 03/20/92 16:00 2.489 2.50 29.5 29.79 0.00 0.24 5.3 41.7 21.6 -1. 30 -0.79 9.3 322 14.4 7.4 11.4 329 8.0 13.5 327 6.8 03/20/92 16:15 2.489 2.50 29.2 29.79 0.00 0.18 4.9 41. 2 22.6 -1.15 -0.71 10.5 323 12.4 5.1 13.0 331 6.5 14.8 329 5.9 03/20/92 16:30 2*. 489 2. 50. .29. 0 29.79 o.oo 0.15 4.7 40.9 23.1 -1. 04 -0.64 10.4 319 12.2 4.3 13.5 328 7.0 15.7 326 5.5 03/20/92 16:45 2.489 2.50 29.2 29.80 o.oo 0.13 4.6 40.8 23.6 -1. 01 -0.61 9.9 321 13.8 5.5 12.7 327 8.1 14.9 326 6.4 OJ/20/92 17:00 2.489 2.50 29.0 29.80 0.00 0.12 4.5 40.7 23.5 -0.97 -0.59 9.2 316 12.9 5.4 12.2 322 7.0 14.6 317 6.4 03/20/92 17:15 2.489 2.50 28.9 29.80 o.oo 0.09 4.3 40.4 23.3 -0.83 -0.49 10.2 316 12.9 3.3 13.9 323 5.3 16.7 318 3.4 03/20/92 17:30 2.489 2.50 29.2 29.80 0.00 0.07 4.1 40.1 22.6 -0.75 -0.44 10.9 315 12.5 3.5 15.2 324 6.6 18.1 321
- 6.9
o.oo l""l/20/92 17:45 2.489 2.50 28.9 29.81 0.04 3.8 39.7 21.0 -0.66
-0.38 11. 5 320 11. 4 3.3 16.0 328 5.8 19.6 326 3.7 03/20/92 18:00 2.489 2.50 28.7 29.81 0.00 0.03 3.6 39.3 22.0 -0.59 -0.33 11. 8 315 11.1 3.1 16.5 323 6.0 19.7 321 4.6 03/20/92 18:15 2.489 2.50 29.0 29.81 0.00 0.01 3.4 39.1 23.3 -0.51 -0.28 9.9 312 12.1 3.7 13.9 319 5.9 17.2 316 4.9 03/20/92 18:30 2.489 2.50 28.8 29.82 o.oo 0.01 3.3 38.8 23.2 -0.39 -0.21 8.4 318 10.8 2 .*9 11. 9 324 5.5 14.9 320 3.3 03/20/92 18:45 2.489 2.50 28.9 29.82 0.00 0.01 2.8 ;37. 9 23.7 0.01 0.07 6.5 326 8.8 2.6 10.8 326 4.4 14.2 320 3.2 03/20/92 19:00 2.489 2.50 29.5 29.82 0.00 0.01 2.6 37.7 23.1 0.09 0.18 7.2 319 10.3 3.9 11. 6 323 5.0 14.9 320 5.4 03/20/92 19:15 2.489 2.50 29.9 29.83 0.00 0.01 2.7 37.9 22.2 -0.07 0.06 8.8 323 9.7 3.8 13.7 327 4.9 16.9 326 4.4 03/20/92 19:30 2.489 2.50 29.6 29.83 o.oo 0.01 2.5 37.6 22.1 -0.07 0.04 7.9 320 11.4 4.1 12.7 325 5.8 16.2 325 4.1 03/20/92 19:45 2.489 2.50 29.4 29.83 0.00 0.01 2.5 37.5 22.3 -0.13 0.04 7.9 318 10.6 2.7 13.4 323 4.3 16.5 319
- 4.4
o.oo 1"'1/20/92 20:00 2.489 2.50 29.8 29.84 0.01 2.4 37.2 23.0 -0.11 0.02 7.5 315 10.3 3.0 12.1 320 4.5 16.l 316 3.3 03/20/92 20:15 2.489 2.50 30.3 29.85 0.00 0.01 2.1 36.9 23.7 -o. 0*6 0.05 7.9 311 10.1 3.0 13.0 318 3.8 17.0 315 3.2 03/20/92 20:30 2.489 2.50 30.7 29.85 0.00 0.01 1. 9 36.6 23.8 0.40 0.18 9.1 311 9.8 1. 7 14.5 318 3.9 20.0 316 2.0 03/20/92 20:45 2.489 2.50 30.6 29.85 0.00 0.01 2.0 36.7 23.3 0.18 0.12 9.2 311 10.7 1.8 14.3 318 3.8 19.1 314 2.6 03/20/92 21:00 2.489 2.50 30.1 29.85 o.oo 0.01 1. 9 36.4 23.3 0.06 03/20/92 21:15 0.04 2.9 2.489 9.4 2.50 309 9.6 30.0 29.85 2.1 0.00 14.0 0.01 314
- 1. 7 5.2 36.2 19.0 23.5 311 0.36 0.08 9.9 305 9.4 2.6 15.0 313 4.2 20.8 313 2.9 03/20/92 21:30 2.489 2.50 30.3 29.85 0.00 0.01 1. 7 36.2 23.7 0.44 0.05 10.4 306 10.7 2.3 14.9 313 5.9 21. 0 312 3.0 03/20/92 21:45 2.489 2.50 30.4 29.86 o.oo 0.01 1. 7 36.3 23.8 0.55 ' . ~,-
0.12 9.6 307 11. 5 2.7 13.9 312 6.1 20.1 310 3.5 03/20/92 22:00 2.489 2.50 29.9 29.86 o.oo 0.01 1. 5 35.9 23.7 0.76 0.28 8.7 307 10.0 2.5 13.4 312 5.9 19.5 309
- 3.0
"~/20/92 22:15 2.489 2.50 29.9 29.86 0.00 0.01 1. 6 36.1 23.7 0.97 0.31 8.5 303 10.7 1. 9 . 13. 6 312 5.6 19.7 310 2.1 03/20/92 22:30 2.489 2.50 30.3 29.86 0.00 0.01 1. 4 35.6 24.0 1.13 0.42 6.7 306 8.2 1.8 11. 4 312 5.1 17.4 310 2.6 03/20/92 22:45 2.489 2.50 30.8 29.86 0.00 0.01 1. 2 35.4 24.3 1. 42 0.66 5.7 307 7.8 1.3 11.4 314 4.4 16.l 311
- 1. 3 03/20/92 23:00 2.489 2.50 31. 2 29.86 o.oo 0.01 1.1 35.3 24.2 1. 40 0.56 5.4 304 7.3 1. 6 9.2 310 5.2 14.8 311 2.9 03/20/92 23:15 2.489 2.50 31. 6 29.86 o.oo 0.01 1. 2 35.4 24.3 0.96 0.46 4.7 303 9.0 4.8 7.3 306 7.6 12.4 307 5.9 03/20/92 23:30 2.489 2.50 32.0 29.86 0.00 0.01 1. 0 35.1 24.6 1. 25 0.51 4.0 305 5.4 2.7 7.4 309 6.5 12.3 311 3.0 03/20/92 23:45 2.489 2.50 32.3 29. 8*6 0.00 0.01 1. 2 35.5 24.7 0.88 0.45 4.7 296 6.1 2.9 7.3 308 6.9 11. 3 310 5.0 03/21/92 00:00 2.489 2.50 32.6 29.86 0.00 0.01 1. 3 35.7 24.4 0.28 0.27 4.3 294 9.0 7.4 6.2 296 8.8 *8. 8 300 8.1 03/21/92 00:15 2.489 2.50 32.8 29.86 0.00 0.01 1. 3 35.8 24.4 0.08 0.15 4.2 293 8.3 6.9 5.6 297 6.6 8.1 301
- 7.3
. 1 / 9 2 00:30 2.489 2.50 33.0 29.86 o.oo 0.01 1. 0 35.~ 24.6 0.18 0.26 2.6 283 10.4 7.6; 4.6 295 9.1 6.9 300 8.1 03/21/92 00:45 2.489 2.50 33.2 29.86 0.00 0.01 1.1 35.4 24~2 0.08 0.16 2.7 290* 7.9 8.2 4.0 293 6.6 6.4 302 10.l 03/21/92 01:00 2.489 2.50 33.3 29.86 o.oo 0.01 1.1 35.5 23.7 0.11 0.18 3.0 289 13.l 9.2 4.5 295 9.8 7.1 301 9.9 03/21/92 01:15 2.489 2.50 33.4 29.86 0.00 0.01 1.2 35.6 23.4 0.03 0 .16 . 4.5 276 12.1 7.6 5.5 292 8.6 8.1 298 8.7 03/21/92 01:30 2.489 2.50 33.5 29.86 0.00 0.01 1.4 35.9 24.1 -0.24 03/21/92 01:45
-0.10 11.0 2.489 5.0 2.50 269 8.7 33.7 29.86 10.0 o.oo 5.7 0.01 289 1.1 9.2 35.4 8.3 297 25.8 -0.13 -0.10 5.3 266 8.7 10.4 6.0 283 9.3 8.1 292 10.7 03/21/92 02:00 2.489 2.50 33.8 29.86 o.oo 0.01 0.9 35.2 25.3 -0.14 0.01 4.9 262 7.6 12.0 5.6 281 11. 2 7.4 292 13.2 03/21/92 02:15 2.489 2.50 34.0 29.86 o.oo . 0. 01 0.9 35.0 24.9 -0.10 0.00 5.3 282 16.9 8.9 7.2 298 14.7 10.4 305 9.3 03/21/92 02:30 2.489 2.50 34.1 29.86 0.00 0.01 0.9 34.8 24.4 -0.10 -0.03 5.3 291 10.9 3.4 7.6 305 7.8 10.4 308
- 3.9
f\"l /21/92 02:45 2.489 2.50 34.1 29.86 o.oo 0.01 0.8 34.6 24.6 -0.22
-0.12 4.4 297 11.5 5.2 6.2 308 a.4 a.a 315 6.9 03/21/92 03:00 2.489 2.50 34.3 29.a6 0.00 0.01 0.5 34.0 25.4 0.03 0.02 4.6 307 7.2 4.4 6.3 319 5.1 8.9 32a 6.0 03/21/92 03:15 2.489 2.50 34.4 29.a6 0~00 0.01 o.o 33.0 26.0 0.39 0.43 4.5 333 a.6 4.0 7.2 336 6.6 9.5 342 5.6 03/21/92 03:30 2.4a9 2.50 34.5 29.a6 0.00 0.01 -0.4 32.a 26.3 0.34 0.40 4.4 346 7.3 N/A 6.6 350 5.7 a.6 37 HIGH
- 91. 7 03/21/92 03:45 2.4a9 2.50 34.5 29.86 0.00 .0.01 -0.3 33.0 26.6 o.2a 0.30 4.7 341 6.6 N/A 7.7 357 2.9 9.9 55 HIGH a5.7 03/21/92 04:00 2.4a9 2.50 34.6 29.a6 0.00 0.01 -0.5 32.5 26.5 0.29 0.42 6.5 34a 3.0 N/A 9.7 3 4.0 10.1 12 HIGH 23.6 03/21/92 04:15 2.489 2.50 34.5 29.a6 0.00 0. 01* -o.a 31. 5 27.3 0.6a 0.35 6.2 7 9.4 3.0 7.0 22 7.a 10.a 21 4.9 03/21/92 04: 30 2.489 2.50 34.5 29. a6 0.00 0.01 -1.1 31.2 29.3 o.a6 0.31 4.4 3a 11.1 6.0 7.9 42 10.9 13.7 45 14.6 03/21/92 04:45 2.4a9 2.50 34.6 29.a7 o.oo 0.01 -1.1 31.3 28.1 o.ao 0.27 4.3 1a 19.9 3.1 8.2 49 9.2 14.4 55
- 3. 6*
o.oo fl/21/92 05:00 2.489 2.50 34.6 29.87 0.01 -0.9 31. 5 26.5 0.57 0.29 5.1 34 7.9 2.0 9.6 51 5.1 14.6 50 3.4 03/21/92 05:15 2.489 2.50 34.6 29.87 o.oo 0.01 -0.9 31.6 26.0 0.22 0.14 4.8 22 9.4 2.4 8.0 39 5.1 12.0 41 3.5 03/21/92 05:30 2.489 2.50 34.7 29.88 0.00 0.01 -1.1 31. 3 26.6 0.19 0.12 3.3 356 13.5 *3. 0 5.1 25 6.0 9.7 34 3.9 03/21/92 05:45 2.489 2.50 34.8 29.89 o.. 00 0.01 -1. 0 31.13 26.1 0.28 0.12 4.4 354 4.6 2,4 5.8 22 3.1 10.7 33 2.8 03/21/92 06:00 2.489 2.50 34.9 29.89 0.00 0.01 -1.1 31. 2 26.2 0.56
- 0.36 4 *. 4 3 5.1 0.9 7.1 24 2.2 *11. 7 30 1.1 03/21/92 06:15 2.489 2.50 34.9 29.90 0.00 0.01 -0.9 31. 6 25.7 0.29 0.27 4.2 0 4.6 2.2 5.6 23 3.4 9.8 27 3.2 03/21/92 06:30 2.489 2.50 34.9 29.90 0.00 0.02 -0.8 31.7 25.5 -0.02 0.06 4.4 358 5.2 2.3 4.5 18 2.6 8.7 18 4.1 03/21/92 06:45 2.489 2.50 34.2 29.91 0.00 0.05 -0.8 31.7 25.8 0.03 0.03 4.6 1 5.4 6.3 5.7 12 5.6 8.5 15 HIGH 24.6 03/21/92 07:00 2.489 2.50 33.4 29.92 0.00 0.08 -0.7 31. 7 26.7 0.17 0.05 5.2 1 7.6 7.9 8.7 9 4.7 11. 6 13 HIGH 7.2
.21/92 07:15 2.489 2.50 33.1 29.92 0.00 0.13 -0.3 32.4 25.9 -0.11
-0.18 6.0 352 10.6 1. 7 10.8 4 5.6 15.3 11 2.3 03/21/92 07:30 2.489 2.50 32.7 29.93 0.00 0.12 0.5 33.3 24.7 -0.52 -0.43 5.2 355 11. 7 10.8 8.1 1 7.5 12.0 359 HIGH 17.4 03/21/92 07:45 2.489 2.50 32.0 29.94 0.00 0.12 0.8 34.0 23.9 -.o. 80 -0.50 6.3 356 11. 7 N/A 7.8 359 8.0 10.3 51 HIGH N/A HIGH 03/21/92 08:00 2.489 2.50 31. 6 29.94 0.00 0.21 1. 2 34.4 22.9 -1. 01 -0.60 6.9 2 13.1 N/A 8.0 8 10.3 10.6 24 HIGH 68.1 03/21/92 08:15 2.489 2.50 31. 2 29.96 0.00 0.24 1. 5 34.9 22.0 -1.05 03/21/92 08:30 -0.63 12.4 2.489 8.4 2.50 357 16.9 30.6 29.96 13.9 HIGH 0.00 9.2 0.21 1
- 1. 7 13.2 35.1 10.8 354
- 21. 3 -1.11
-0.69 8.3 342 13.4 7.8 9.8 351 9.7 11. 3 351 8.1 03/21/92 08:45 2.489 2.50 30.4 29.96 0.00 0.32 1. 8 35.3 21. 4 -1. 22 -0.73 8.2 338 13.6 5.1 9.3 346 8.5 10.4 345 6.7 03/21/92 09:00 2.489 2.50 30.1 29.96 0.00 0.38 2.1 35.4 21. 7 -1. 32 -0.85 9.2 334 12.9 5.3 10.4 344 6.0 11. 3 343 5.8 03/21/92 09:15 2.489 2.50 29.7 29.96 0.00 0.43 2.5 36.1 21. 2 -1.44 -0.88 9.1 335 15.0 6.3 10.4 344 9.6 11. 6 341
- 7.6
121/92 09:30 2.489 2.50 29.6 29.96 o.oo 0.40 2.6 36.3 21. l -1.54
-0.99 9.1 331 14.0 7.0 *10.7 342 8.1 12.3 339 8.3 03/21/92 09:45 2.489 2.50 29.3 29.96 0.00 0.40 2.6 36.4 20.4 -1. 43 -0.93 8.3 336 15.0 12.7 10.1 346 10.8 11.5 348 HIGH 8.2 03/21/92 10:00 2.489 2.50 29.4 29.97 o.oo 0.49 3.1 36.9 20.7 -1. 52 -1. 01 8.8 345 23.9 10.8 10.7 350 17.8 11.9 350 13.6 03/21/92 10:15 2.489 2.50 29.3 29.97 o.oo 0.63 3.4 37.6 20.6 -1. 73 -1.11 9.0 338 21.1 9.6 11. 3 346 13.8 12.7 341 13.5 03/21/92 10:30 2.489 2.50 29.1 29.97 o.oo 0.57 3.5 37.3 19.6.-1.61 03/21/92 10:45 -0.93 13.3 2.489 9.1 2.50 340 24.9 29.1 29.97 ll. 7 0.00 9.9 0.42 344 3.4 16.3 37.5
- 11. 6 340 20.1 -1. 45
-0.91 7.1 347 25.9 12.1 8.3 350 24.5 10.2 344 17.7 03/21/92 11:00 2.489 2.50 29.3 29.97 0.00 0.51 3.6 38.1 . 21.1 -1. 53 -1.00 8.6 321 26.6 14.9 10.3 331 24.4 11. 4 322 21.0 03/21/92 11:15 2.489 2.50 29.2 29.97 0.00 0.48 3.5 38.1 21. 3 -1. 38 -0.89 9.2 320 22.3 11. 2 10.1 329 18.6 11. 5 326 15.1 03/21/92 11:30 2.489 2.50 29.0 29.96 0.00 0.33 3.8 38.4 21.2 -1. 36 -0.86 9.4 322 18.9 7.9 10.5 332 11.1 12.0 328
- 8.7
o.oo 03/21/92 11: 45 . 2.489 2.50 29.3 29.96 0.31 3.8 38.8 20.6 -1.50
-1.00 11.5 316 14.3 6.3 14.8 326 7.8 17.1 323 7.9 03/21/92 12:00 2.489 2.50 29.0 29.96 o.oo 0.48 3.9 39.2 20.3 -1.50 -0.96 12.1 316 14.6 5.8 15.3 326 8.7 18.0 322 8.4 03/21/92 12:15 2.489 2.50 28.8 29.97 o.oo 0.63 4.3 39.6 20.3 -1.77 -1.18 16.9 306 13.5 7.1 19.2 320 9.5 21.0 317 LOW 8.1 03/21/92 12:30 2.489 2.50 28.9 29.97 0.00 0.69 4.2 39.4 21. 6 -1.83 -1.14 14.6 305 11.9 4.9 17.3 317 6.7 19.3 315 LOW 5.3 03/21/92 12:45 2.489 2.50 28.7 29.97 0.00 0.85 4.4 39.3 21. 9 . -1. 92 -1.21 14.8 311 14.5 5.8 16.9 323 8.2 18.6 321 LOW 6.1 03 / 2*1192 13:00 2.489 2.50 28.6 29.97 0.00 *O. 63 4.3 39.3 20.4 -1.63 -1. 09 12.2 312 17.9 8. 4. 14.3 326 14.3 15.9 324 12.2 03/21/92 13:15 2.489 2.50 28.7 29.97 o.oo 0.34 3.9 39.1 20.0 -1.41 -0.88 13.1 321 16.1 6.1 16.0 330 11. 5 18.3 326 10.2 03/21/92 13:30 2.489 2.50 28.4 29.96 o.oo 0.64 4.5 39.9 21. 3 -1.66 -1.12 15.9 . 308 16.5 6.9 18.5 319 11. 0 21.1 315 8.5 03/21/92 13:45 2.489 2.50 28.4 29.97 0.00 0.63 4.7 40.0 19.6 -1.72 -1.18 15.3 311 12.9 4.7 18.3 319 7.1 20.7 314
- 5.3
o.oo 01/21/92 14:00 2.489 2.50 28.5 29.97 0.29 4.3 39.7 21.1 -1.43
-1.01 16.8 306 11.9 5.6 20.5 318 6.9 23.3 312 6.4 03/21/92 14:15 2.489 2.50 28.2 29.97 0.00 0.60 4.2 39.4 23.4 -1. 65 -1.07 16.1 316 14.1 4.1 19.4 327 7.9 21.4 322 6.5 03/21/92 14:30 2.489 2.50 28.3 29.97 o.oo 0.61 5.0 40.4 22.1 -1. 85 -1. 26 15.4 307 13.3 7.0 18.2 319 9.2 20.9 314 9.1 03/21/92 14:45 2.489 2.50 28.3 29.97 0.00 0.57 4.9 40.5 18.1 -1. 74 -1.12 14.5 313 13.6 5.9 17.7 322 8.2 20.4 318 7.2 03/21/92 15:00 2.489 2.50. 28.1 29.97 0.00 0.34 4.2 39.7 19.5 -1.45 -0.92 15.7 322 14.4 6.5 19.5 333 8.7 22.5 327 8.5 03/21/92 15:15 2.489 2.50 28.1 29.98 0.00 0.58 4.6 40.1 19.3 -1. 66 -1.07 16.6 318 12.9 4.8 20.2 328 7.4 22.9 321 5.7 03/21/92 15:30 2.489 2.50 28.0 29.98 o.oo 0.55 5~1 40.7 18.3 -1. 73 -1.12 14.9 309 14.2 6.2 17.9 323 9.6 20.4 320 8.2 03/21/92 15:45 2.489 2.50 28.0 29.99 o.oo 0.51 4.7 40.2 16.8 -1. 61 -1.08 16.3 311 12~0 6.6 20.5 320 7.7 23.2 316 7.6 03/21/92 16:00 2.489 2.50 28.0 29.99 o.oo 0.45 4.6 39.9 15.1 -1.59 -1.03 16.3 326 14 .1 5.4 20.4 335 6.9 23.1 328
- 5.3
0.38 4.3 39.5 12.7 -1.43 03/21/92 16:15 2.489 2.50 27.7 29.99 0.00
-0.89 15.6 326 12.5 4.7 19.1 335 7.0 22.3 329 5.6 03/21/92 16:30 2.489 2.50 27.9 29.99 0.00 0.33 3.9 39.0 13.7 -1. 34 -0.81 16.2 326 13.8 5.6 20.1 337 7.5 23.8 332 5.6 03/21/92 16:45 2.489 2.50 27.6 29.99 o.oo 0.28 3.7 38.5 13.0 -1. 23 -0.75 14.6 332 12.3 5 .. 4 18.9 340 8.2 22.2 335 7.3 03/21/92 17:00 2.489 2.50 27.6 29.99 0.00 0.22 3.3 38.1 13.0 -1. 08 -0.64 15.7 325 12.6 4 .. 9 20.6 336 6.9 23.5 332 5.9 03/21/92 17:15 2.489 2.50 . 27. 7 30.00 0.00 0.17 3.0 37.6 12.3 -0.95 -0.56 13.9 328 11. 6 4.6 17.5 337 7.5 20.7 333 5.9 03/21/92 17:30 2.489 2.50 27.6 30.00 0.00 0.13 2.8 37.3 12.6 -0.81 -0.47 12.3 318 12.6 3.9 16.6 329 7.0 20.3 326 5.0 03/21/92 17:45 2.489 2.50 28.0 30.01 0.00 0.08 2.4 36.8 11. 6 -0.65 -0.36 12.6 318 12. 0 2.2 18.2 329 5.2 22.1 326 2.7 03/21/92 18:00 2.489 2.50 28.0 30.01 0.00 0.05 2.0 36.3 12.2 -0.46 -0.24 12.6 328 11. 6 2.5 18.0 335 6.0 21.3 331 3.8 03/21/92 18:15 2.489 2.50 27.9 30.01 0.00 0.02 1. 6 35.8 13.0 -0.27 -0.14 9.5 325 11. 7 3.3 14.0 334 6.4 18.1 332
- 4.0
03/21/92 18:30 2.489 2.50 28.5 30.01 o.oo 0.01 1. 3 35.4 12.9 -0.12 03/21/92 18:45 0.02 3.7 2.489 9.9 2.50 327 11.2 28.9 30.01 3.4 0.00 14.3 0.01 334 1.1 5.1 34.9 17.6 13.2 333 0.09 0.15 10.4 327 9.5 2.0 15.5 336 3.9 19.1 334 2.2 03/21/92 19:00 2.489 2.50 29.3 30.01 o.oo 0.01 0.9 34.6 13.7 0.16 0.1,9 9.0 329 10.7 2.2 14.5 338 4.5 18.3 335 2.8 03/21/92 19:15 2.489 2.50 29.5 30.03 0.00 0.01 0.9 34.7 14.1 0.09 0.11 9.3 334 10.8 2.5 14.2 341 4.5 18.1 338 3.2 03/21/92 19:30 2.489 2.50 29.1 30.03 0.00 0.01 0.7 34.4 14.3 0.24 0.23 8.7 335 11. 3 3.3 13.9 346 5.1 17.6 345 3.3 03/21/92 19:45 2.489 2.50 29.1 30.03 o.oo 0.01 0.6 34.1 13.7 0.25 0.23 8.4 355 10.3 11. 6 13.9 359 5.0 17.0 354 HIGH
- 11. 3 03/21/92 20:00 2.489 2.50 29.4 30.04 0.00 0.01 0.3 33.6 13.7 0.48 0.42 8.0 4 9.0 18.2 14.7 3 4.3 17.1 356 7.0 03/21/92 20:15 2.489 2.50 29.7 30.04 0.00 0.01 -0.2 33.1 13.9 0.67 0.64 7.6 0 7.7 5.2 14.8 2 3.1 16.8 357 HIGH 4.8 03/21/92 20:30 2.489 2.50 30.0 30.04 0.00 0.01 -0.4 32.7 14.1 0.70 0.73 7.3 355 6.3 N/A 14.2 2 2.1 15.8 360 HIGH
- 7.6
- o.oo 03/21/92 20:45 2.489 2.50 30.4 30.04 0.01 -0.7 32.2 15.1 0.88 0.90 6.3 5 5.3 7.3 *13.0 5 2.6 14.6 357 HIGH 2.0 03/21/92 21:00 2.489 2.50 30.7 30.05 0.00 0.01 -0.6 32.4 15.3 0.79 0.81 7.3 1 4.0 1. 0 13.2 2 1. 7 14.4 356
- 1. 0 03/21/92 21:15 2.489 2.50 31. 0 30.05 0.00 0.01 -0.6 32.3 15.3 0.75 0.86 7.1 356 3.1 1. 0 11.8 2 1. 2 12.5 355 1.1 03/21/92 21:30 2.489 2.50 31. 3 30.05 o.oo 0.01 -0.5 32.4 15.4 0.60 0.69 7.0 1 4.9 1.8 11. 4. 6 2.9 13.0 1 2.2 03/21/92 21:45 2.489 2.50 31. 5 30.05 0.00 0.01 -1. 2 31.2 16.9 1. 24
*1.22 4. 7 . 28 19.2 1.5 8.9 10 1.5 11.4 6 1.4 03/21/92 22:00 2.489 2.50 31.8 30.05 0.00 0.01 -1. 0 31.8 17.4 0.92 0.95. 5.5 15 4.7 1. 7 9.5 11 4.1 12.2 7 2.9 03/21/92 22:15 2.489 2.50 32.0 30.05 0.00 0.01 -0.9 31. 8 18.3 0.58 0.59 5.1 36 7.0 2.7 7.2 24 4.0 10.9 18 4.9 03/21/92 22:30 2.489 2.50 32.1 30.05 o.oo 0.01 -0.8 32.1 17.5 0.21 0.27 5.7 18 3.4 1. 6 8.6 29 3.0 12.2 24
- 1. 6 03/21/92 22:45 2.489 2.50 32.3 30.05 0.00 0.01 -0.9 31.8 18.3 0.23 0.14 5.2 26* 1. 2 1.4 7.9 35 1. 9 12.2 28
- 1. 3
o.oo 0.35 03/21/92 23:00 2.489 2.50 32.4 30.05 0.01 -1. 2 31. 4 18.6 0.21 5.0 22 3.5 1.1 7.4 34 3.2 12.0 28 2.0 03/21/92 23:15 2.489 2.50 32.5 30.05 o.oo 0.01 -1. 3 31.1 19.5 0.32 0.18 5.1 39 6.4 2.2 7.6 43 3.1 12.2 38 3.0 03/21/92 23:30 2.489 2.50 32.6 30.05 o.oo 0.01 -1. 5 30.9 18.8 0.42 0.26 5.2 38 3.6 0.9 8.8 44 2.4 13.5 38
- 1. 6 03/21/92 23:45 2.489 2.50 32.7 30.05 o.oo 0.01 -1. 6 30.5 18.3 0.50 0.27 5.5 40 4.4 1.1 9.1 46 3.0 13.1 40 1.1 03/22/92 09:00 2.489 2.50 32.7 30.05 0.00 0.01 .;:,1. 8 30.2 18.4 0.51 0.28 6.5 37 3.2 1.1 9.8 48 3.9 13.5 42
- 1. 8 03/22/92 00:15 2.489 2.50 32.7 30.04 o.oo 0.01 -2.0 29.8 18.0 0.52 0.38 6.4 38 3.5 1. 5 10.5 49 2.3 13.6 45 3.2 03/22/92 00:30 2.489 2.50 32.8 30.04 o.oo 0.01 -2.4 29.0 16.8 0.70 0.52 6.1 49 3.0 1. 9 8.9 55 2.4 11. 8 56
- 1. 7 03/22/92 00:45 2.489 2.50 32.8 30.04 0.00 0.01 -2. 4 29.0 16.4 0.49 0.38 6.5 51 2.5 1. 3 8.8 60 2.2 13.0 53
- 1. 8 03/22/92 01:00 2.489 2.50 32.9 30.04 0.00 0.01 -2.5 28.8 16.2 0.66 0.36 6.9 37 5.9 1. 9 10.1 52 3.0 14.3 54
- 3.8
i22/92 01:15 2.489 2.50 32.8 30.04 0.00 0.01 -2.7 28.3 16.8 0.90 0.54 6.1 42 6.4 1. 3 10.9 56 2.9 16.0 50 2.4 03/22/92 01:30 2.489 2.50 32.9 30.04 0.00 0.01 -2.5 28.7 16.0 0.55 0.28 5.4 43 10.5 1.9 9.1 49 5.5 14.5 46 3.3 03/22/92 01:45 2.489 2.50 33.0 30.04 0.00 0.01 -2.6 28.6 15.9 0.40 0.29 4.9 54 6.8 2.5 8.7 56 3.9 13.1 48 2.6 03/22/92 02:00 2.489 2.50 33.1 30.04 0.00 0.01 -2.4 28.8 15.8 0.28 0.15 5.2 52 7.4 2.3 8.7 58 4.2 13.2 51 3.0 03/22/92 02:15 2.489 2.50. 33.2 30.04 0.00 0.01 -2.4 28.9 15.8 0.15 03/22/92 02:30
- 0. 0.8 4.3 2.489 3.9 2.50 49 9.9 33.3 30.04 3.1 0.00 7.2 0.01 58
-2.4 5.5 28.9 6.*1
- 11. 8 14.9 52 0.02 0.05 3.1 80 8.9 4.6 5.7 71 9.5 60 5.5 03/22/92 02:45 2.489 2. 50 . 33.4 30.04 o.oo 0.01 -2.3 29.0 14.5 -0.11
-0.03 4.1 70 7.0 3.7 6.1 74 5.6 9.5 64 5.1 03/22/92 03:00 2.489 2.50 33.6 30.03 0.00 0.01 -2.4 28.9 14.5 -0.07 0.01 3.7 76 11. 2 3.8 5.5 79 5.9 9.4 69 4.6 03/22/92 03:15 2.489 2.50 33.7 30.03 0.00 0.01 -2.2 29.1 13.5 -0.16 -0.11 3.8 71 8.4 3.8 5.7 77 4.7 9.2 68
- 4.3
- I 2.489 2.50 33.7 30.02 o.oo 0.01 -2.3 29.1 13.7 -0.25 03/22/92 03:30
-0.18 3.8 72 7.3 3.9 5.1 79 5.1 8.5 71 4.3 03/22/92 03:45 2.489 2.50 33.8 30.02 o.oo 0.01 -2.3 29.0 14.5 -0.25 -0.17 3.7 80 7.4 3.6 4.7 84 4.9 7.3 76 4.1 03/22/92 04:00 2 *.489 2.50 33.9 30.02 o.oo 0.01 -2.3 28.9 14.6 -0.29 -0.17 2.5 91 21. 6 3.4 4.2 88 7.9 6.3 79 5.1 03/22/92 04:15 2.489 2.50 34.1 30.02 o.oo 0.01 -2.2 29.2 13.6 -0.50 -0.29 1. 9 143 23. o. 8 *.o 3.3 119 10.5 5.1 108 ],4. 0 03/22/92 04:30 2.489 2.50 34.2 30.02 o.oo 0.01 -2.1 29.4 13.9 -0.55 -0.29 3.0 100 14.0 7.1 3.9 122 11. 7 4.7 124 03/22/92 04:45 7.8 2.489 2.50 34.3 30.03 0.00 0.01 -2.0 29.6 13.5 -0.53 -0.28 3.6 111 13.6 7.1 4.5 131 10.1 5.4 131 10.0 03/22/92 05:00 2.489 2.50 34.4 30.03 0.00 0.01 -2.2 29.2 13.3 -0.40 -0.17 4.9 99 7.3 5.7 6.3 112 5.8 7.1 108 7.9 03/22/92 05:15 2.489 2.50 34.5 30.03 0.00 0.01 -2.4 29.0 14.1 -0.36 -0.12 4.5 103 7.2 4. 3. 6. 3 . 112 4.7 7.7 103 5.4 03/22/92 05:30 2.489 2.50 34.5 30.03 0.00 0.01 -2.4 29.0 15.5 -0.41 -0.18 4.8 113 7.2 3.6 6.4 117 4.2 8.2 107
- 4.3
o.oo 03/22/92 05:45 2.489 2. 50 . 34.5 30.03 0.01 -2.4 28.9 15.9 -0.34
-0.15 4.6 109 11. 3 3.5 6.9 120 6.2 8.6 115 4.4 03/22/92 06:00 2.489 2.50 34.6 30.03 0.00 0.01 -2.4 29.0 16.0 -0.36 -0.14 4.9 113 9.0 3.3 7.0 125 5.2 8.7 119 3.5 03/22/92 06:15 2.489 2.50 34.6 30.03 o.oo 0.01 -2.3 29.1 14.2 -0.35 -0.15 5.2 108 8.5 2.8 7.8 123 4.4 9.5 119 3.2 03/22/92 06:30 2.489 2.50 34.6 30.03 0.00 0.03 -2.2 29.2 13.4 -0.46 -0.23 5.1 110 10.0 2.9 7.5 123 5.0 9.6 116 4.4 03/22/92 06:45 2.489 2.50 34.7 30.03 0.00 0.05 -2.2 29.l 13.2 -0.40 -0.25 5.1 113 10.6 2.2 8.1 124 4.2 10.7 117 2.6 03/22/92 07:00 2.489 2.50 34.7 30.03 0.00 0.07 -1. 9 29.6 13.4 -0.42 -o. 31 5.9 111 10.9 3.1 8.5 124 4.9 10.0 124 4.1 03/22/92 07:15 2.489 2.50 34.7 30.02 0.00 0.13 -1. 7 29.9 14.4 -0.62 -0.43 6.1 109 11. 7 2.5 8.5 121 4.0 10.0 122 3.0 03/22/92 07:30 2.489 2.50 34.7 30.01 0.00 0.19 -1. 4 30.2 13.6 -0.89 -0.61 7.1 110 9.6 3.3 8.3 118 6.7 10.7 116 4.2 03/22/92 07:45 2.489 2.50 34.8 30.01 0.00 0.24 -1. 0 30.6 12.8 -1. 06 -0.69 7.8 113 11.9 3.8 9.1 118 6.3 10.7 114
- 5.0
03/22/92 08:00 2.489 2.50 35.0 30.00 o.oo 0.29 -0.7 31. 2 12.7 -1. 24 03/22/92 08:15
-0.83 5.6 2 *.489 718 2.50 113 12 .1 34.6 29.99 4.8 0.00 9.9 0.35 120 -o. 3.
6.4 31.5
- 11. 4 115 11.9 -1. 31
-0.86 9.3 118 10.4 4.8 10.6 122 5.7 11. 4 116 5.8 03/22/92 08:30 2.489 2.50 33.9 29.99 0.00 0.41 0.3 32.3 11.5 -1. 46 -0.87 8.7 117 15.4 6.2 9.3 121 10.7 10.5 116 7.4 03/22/92 08:45 2.489 2.50 33.3 29.98 0.00 0.33 0.4 32.5 11.2 -1. 35 -0.89 9.3 123 13.8 6.2 10.6 129 8.6 11. 7 125 6.0 03/22/92 09:00 2.489 2.50 33.0 29.98 0. 00. 0.51 1. 0 33.5 12.2 -1. 64 -1.05 9.5 127 13.1 5.9 11. 0 133 9.2 12.4 127 7.3 03/22/92 09:15 2.489 2.50 33.1 29.97 0.00 0.45 1. 2 33.6 12.6 -1.66 -1.17 11.5 144 10.4 4.2 13.3 147 5.2 14.5 140 3.4 03/22/92 09:30 2.489 2.50 32.7 29.97 o.oo 0.45 1. 5 34.0 13.4 -1. 80 -1. 26 10.9 142 11. 0 3.9 13.0 146 5.9 14.2 140 4.9 03/22/92 09:45 2.489 2. 5*0 32.2 29.90 o.oo 0.38 1.4 34.0 12.9 -1. 62 LOW -1.12 11. 6 143 11.1 4.0 13.6 149 5.9 14.9 142 4.7 03/22/92 10:00 2.489 2.50 32.0 29.94 o.oo 0.32 1. 3 34.0 13.8 -1.47 -1. 04 11.8 140 10.3 4.1 14.2 145 4.9 15.2 138
- 4.6
03/22/92 10:15 2.489 2.50 32.3 29.93 o.oo 0.22 1.1 34.0 16.1 -1. 36 03/22/92 10:30
-0.94 4.3 2.489 12.3 2.50 141 8.9 32.6 29.93 3.6 0.00 14.4 0.20 144 1.1 5.8 34.2 16.0 139 18.9 -1. 34 -0.93 11. 2 137 12.5 4.3 14.6 144 5.5 16.2 138 HIGH 4.6 03/22/92 10:45 2.489 2.50 32.9 29.91 o.oo 0.17 1.1 34.2 20.1 -1.27 -0.87 12.5 129 9.7 3.8 15.4 142 5.5 16.7 137 4.3 03/22/92 11:00 2.489 2.50 33.0 29.90 0.00 0.14 1.1 34.2 21. 2 -1.19 -0.80 12.6 126 10.0 4.3 15.7 139 4.9 17.0 134 5.0 03/22/92 11:15 2.489 2.50 33.2 29.88 o.oo 0.27 1.4 34.9 22.3 -1. 33 -0.93 12.6 132 10.4 4.3 16.1 143 5.4 17.5 138 4.7 03/22/92 11:30 2.489 2.50 33.3 29.87 0.00 0.37 1. 9 35.2 22.6 -1.52 -1. 04 13.9 132 10.0 3.3 -16.7 144 5.8 18.7 139 4.5 03/22/92 11:45 2.489 2.50 33.5 29.86 0.00 0.36 1.8 35.0 23.6 -1. 56 -1.09 13.6 136 11. 3 5.4 16.7 150 7.8 18.2 144 6.7 03/22/92 12:00 2.489 2.50 33.6 29.85 o.oo 0.39 2.0 35.4 23.8 -1. 53 -1. 08 13.5 134 10.6 5.1 16.5 147 6.5 18.1 141 5.9 03/22/92 12:15 2.489 2.50 33.3 29.84 o.oo 0.41 2.2 35.5 24.8 -1. 63 -1.16 15.3 138 12.8 7.2 18.2 151 9.4 19.9 146
- 8.5
2.489 2.50 32.6 29.84 o.oo 0.32 1.8 34.8 25.9 -1.49 03/22/92 12:30
-1. 05 15.5 146 11. 6 4.5 17 *. 8 158 6.9 19.3 152 5.8 03/22/92 12:45 2.489 2.50 32.2 29.82 0.00 0.24 1. 4 34.5 27.0 -1. 32 -0.89 16.2 139 9.9 4.4 18.6 153 6.0 20.3 147 5.8 03/22/92 13:00 2.489 2.50 32.3 29.81 0.00 0.23 1. 3 34.5 28.2 -1. 30 -0.89 17.8 136 8.7 3.9 20.6 150 4.4 22.2 144 3.9 03/22/92 13:15 2.489 2.50 32.3 29.79 0.00 0.37 1. 6 34.8 29.1 -1. 41 -1. 00 l:-6.8 131 10.2 3.6 21. 0 144 5.8 22.5 139 4.4 03/22/92 13:30 2.489 2. 50 . 32.5 29.77 0.00 0.44 2.2 35.7 29.2 -1. 62 -1.16 16.2 129. 10.3 3. g. 21. 4 143 5.3 23.3 137 4.8 03/22/92 13:45 2.489 2.50 32.6 29.75 0.00 0.35 2.2 35.9 29.1 -1.60 -1.14 18.3 131 9.6 4.2 22.9 145 5.5 24.9 139 4.9 03/22/92 14:00 2.489 2.50 32.7 29.74 o.oo 0.18 1. 8 35.4 29.9 -1. 30 -0.90 19.7 131 9.1 2.8 24.7 145 4.8 26.4 138 4.0 03/2-2/92 14:15 2.489 2.50 32.7 29.72 o.oo 0.15 1. 7 35.6 30.7 -1.18 -0.77 17.9 130 8.9 3.3 23.6 144 4.3 25.5 137 4.4 03/22/92 14:30 2.489 2.50 32.7 29.71 o.oo 0.14 1. 9 36.0 31. 6 -1.12 -0.72 18.5 128 9.2 3.2 24.5 142 4.9 26.3 136
- 3.7
0.14 1. 9 32.5 -1. 08 03/22/92 14:45 2.489 2.50 32.6 29.69 0.00 36.1
-0.72 21. 6 134 8.1 2.9 27.2 149 3.9 28.7 142 3.6 03/22/92 15:00 2.489 2.50 32.4 29.68 o.oo 0.13 1.8 36.1 32.9 -0.97 -0.61 20.7 131 9.0 2.3 27.2 146 3.2 28.2 140 2.7 03/22/92 15:15 2.489 2.50 32.3 29.66 o.oo 0 .13 . 2.4 37.1 32.0 -1.05 -0.65 23.2 134 8.2 2~7 29.6 148 4.4 30.5 1.43 4.6 03/22/92 15:30 2.489 2.50 32.1 29.64 o.* 00 0.12 2.6 37.5 31. 4 -1. 04 -0.64 21. 9 137 8.3 2. -7 27.6 151 3.4 29.1 145 3.3 03/22/92 15:45 2.489 2.50 32.0 29.63 o.oo 0.12 3.1 38.2 32.0 -1. 06 -0.65 22.2 137 . 7. 9 3.2 27.9 151 4.2 29.8 145 3.4 03/22/92 16:00 2.489 2.50 31.9 29.61 0.00 0.06 2.5 37.6 33.5 -0.87 -0.55 24.6 142 7.7 2.7 30.6 156 4.2 31. 9 150 3.7 03/22/92 16:15 2.489 2.50 31. 7 29.61 0.00 0.05 2.0 37.0 35.3 -0.76 -0.48 23.5 138 7.4 2.8 28.4 152 3.7 29.5 147 3.3 03/22/92 16:30 2~489 2.50 31. 6 29.59 0.00 0.05 2.2 37.4 35.8 -0.83 -0.50 23.9 142 6.9 2.6 28.5 157 3.1 30.0 152 2.7 03/22/92 16:45 2.489 2.50 31.5 29.58 0.00 0.04 2.2 37.3 36.1 -0.83 -0.51 22.6 144 7.3 2.9 27.2 158 3.8 28.5 151
- 3.6
('11./22/92 17:00 2.489 2.50 31. 5 29.56 0.01 0.03 2.2 37.5 36.3 -0.85
-0.50 22.3 139 7.4 3.1 27.5 154 4.1 29.0 148 3.8 03/22/92 17:15 2.489 2.50 31. 5 29.55 0.00 0.02 2.3 37~5 36.6 -0.86 -0.50 22.2 141 7.9 3.0 .27.3 155 3.7 29.1 149 3.5 03/22/92 17:30 2.489 2.50 31.4 29.55 0.00 0.02 2.2 37.2 37.0 -0.87 -0.54 20.8 143 . 7. 9 2.4 25.1 157 3.4 26.6 150 2.7 03/22/92 17:45 2.489 2.50 31. 5 29.55 0.02 0.01 2.1 36.9 37.0 -0.85 -0.54 18.0 148 6.8 3.0 21. 0 162 3.4 22.5 155 3.0 03/22/92 18:00 2.489 2.50 31. 6 29.55 0.01 0. 0.1 2. 0- 36.7 37.0 -0.78 -0.50 16.1 143 7;, 3 2.7 18.7 157 3.4 20.2 149 3.0 03/22/92 18:15 2.489 2.50 31. 7 29.55 0.01 0.01 2.4 37.7 37.8 -0.75 -0.47 15.1 140 7.3 2.8 17.2 154 2.6 18.9 146 3.3 03/22/92 18:30 2.489 2.50 31. 9 29.53 0. 01* 0.01 2.7 38.3 38.8 -0.70 -0.43 12.4 135 8.5 3.3 15.3 152 3.5 16.9 145 3.8 03/22/92 18:45 2.489 2.50 32.2 29.52 0.02 0.01 2.8 38.6 39.2 -0.70 -0.42 12.0 137 7.8 3.5 14.6 156 3.5 15.7 154 4.0 03/22/92 19:00 2.489 2.50 32.5 29.53 0.01 0.01 3.0 38.8 39.6 -0.68 -0.41 9.8 144 8.7 4.8 11. 3 162 5.9 12.4 164 HIGH 8.7
2.50 32.8 29.53 0.02 0.01 3.1 38.9 39.9 -0.65 03/22/92 19:15 2.489
-0.41 7.4 150 8.4 7.9 8.4 168 5.7 10.0 174 7.0 03/22/92 19:30 2.489 2.50 33.2 29.53 0.02 0.01 3.1 38.8 39.9 -0.60 -0.38 4.5 154 9.8 9.2 4.6 174 7.1 6.2 186
- 11. 5 03/22/92 19:45 2.489 2.50 33.5 29.53 0.01 0.01 3.0 38.6 40.0 -0.49
-0.34 1. 7 151 20.3 10. 3* 2.3 180 19.4 4.7 205 11.1 03/22/92 20:00 2.489 2.50 33.l 29.54 o.oo 0.01 3.0 38.5 40.2 -0.43 -0.30 0.8 91 35.1 16.1 1.1 160 20.6 2.8 222 22.9 03/22/92 20:15 2.489 2.50 32.6 29.54 0.01 0.01 3.0 38.4 40.2 -0.37 -0.28 1. 3 48 25.2 14.2 0.8 225 32.9 3.0 268 27.6 03/22/92 20:30 2.489 2.50 32.3 29.53 0.00 0.01 3.0 38.2 40.2 -0.25 -0.20 2.2 55 11. 3 19.0 1. 3 101 19.5 1. 3 286 18.1 03/22/92 20:45 2.489 2.50 32.7 29.53 0.00 0.01 3.0 38.2 40.3 -0.10 -0.18 1.3 33 31.4 12.6 0.9 117 55.4 3.9 270 13.8 03/22/92 21:00 2.489 2.50 33.1 29.53 o.oo 0.01 3.0 38.2 4 o .s .::.*.~o:~~:o3 *,' :*:";1 -0.07 1. 6 355 30.6 8 * .() 1. 8 297 20.8 4.8 275 9.9 03/22/92 21:15 2.489 2.50 32.9 29.53 0.00 0.01 3.1 38.3 40.6 -0.05 -0.10 2.2 348 19.2 6.1 3.4 315 8.5 6.6 289
- 8.2
2.489 2.50 32.4 29.53 o.oo 0.01 3.2 38.6 40.6 -0.26 01/22/92 21:30
-0.18 3.7 300 18.8 5.9 5.2 307 8.8 8.5 294 7.0 03/22/92 21:45 2.489 2.50 32.1 29.53 0.00 0.01 3.3 39.1 40.5 -0.44 -0.25 5.0 292 12.6 6.5 6.6 304 8.9 9.3 295 7.0 03/22/92 22:00 2.489 2 .* 50 32.4 29.53 o.oo 0.01 3.2 38.9 40.2 -0.40 -0.25 5.6 304 14.0 7. 2' 7.5 316 13.6 9.9 301 9.0 03/22/92 22:15 2.489 2.50 32.4 29.53 o.oo 0.01 2.9 38.2 39.7 -0.19 -o. 22 . 6.4 311 17.8 8.3 8.3 317 13.6 11.4 302 10.0 03/22/92 22:30 2.489 2.50 31.8 29.53 o.oo 0.01 2.3 37.1 38.7 0.22 -0.03 6.8 327 17.8 10.2 9.5 325 17.2 14.1 ,306 10.9 03/22/92 22:45 2.489 2.50 31.2 29.53 0.00 0.01 2.1 36.9 38.6 0.10 -0.11 6.7 327 14.6 11.4 . 9. 5 327 14.2 13.5 304 *12. 0 03/22/92 23:00 2.489 2.50 31. 3 29.53 0.00 0.01 2.0 36.6 38.3 0.17 -0.08 6.9 323 12.7 10.3 10.1 325 12.1 14.9 306 10.9 03/22/92 23:15 2.489 2.50 31.2 29.55 o.oo 0.01 2.0 36.6 38.3 0.15 -0.14 7.3 330 9.8 11. 7 9.7 330 10.1 13.8 308 12.6 03/22/92 23:30 2.489 2.50 30.6 29.55 0.00 0.01 2.1 36.7 38.3 -0.07 -0.17 6.6 321 16.4 11. 5 9.9 319 16.6 13.9 302
- 13.1
03/22/92 23:45 2.489
-0.20 8.6 2.50 9.4 30.6 29.56 298 19.3 o.oo 8.2 0.01 12.4 2.1 303 37.1 11.8 37.8 16.2 -o. 31 293 03/23/92 00:00 2.489 2.50 31.1 29.56 O*. 00 0.01 2.0 36.8 37.4 -0.44 -0.27 7.6 283 13.8 6.8 9.7 296 8.7 14.0 287 7.3 03/23/92 00:15 2.489 2.50 31. 7 29.56 0.00 0.01 1. 9 36.7 37.4 -0.50 -0.29 7.7 284 13.6 7.9 10.7 297 10.2 14.5 290 8.7 03/23/92 00:30 2.489 2.50 32.1 29.56 0.00 0.01 2.0 36.9 37.4 -0.52 -0.28 9.4 291 14.1 8.5 12.4 303 . 10. 0 15.4 297 9.9 03/23/92 00:45 2.489 2.50 31. 7 29.57 0.00 0.01 2.0 37.0 37.2 -0.52 -0.28 10.7 296 . 11. 4 8.7 13.5 308 9.3 17.1 301 9.5 03/23/92 01:00 2.489 2.50 30.9 29.58 0.00 0.01 2.1 37.4 36.8 -0.48 -0.22 14.1 301 11. 9 7.2 18.0 313 7.3 23.0 306 7.2 03/23/92 01:15 2.489 2.50 30.6 29.59 0.00 0.01 2.1 37.5 36.2 -0.48 -o. 21 15.1 301 10.8 5.8 19.5 313 6.8 23.5 307 6.2 03/23/92 01:30 2.489 2.50 30.2 29.60 0.00 0.01 2.1 37.1 35.5 -0.49 -0.23 13.5 303 13.3 4.6 18.6 315 7.1 23.2 309 5.1 03/23/92 01:45 2.489 2.50 29.7 29.61 0.00 0.01 2.1 36.9 34.6 -0.47 -0.22 14.5 303 10.5 3.7 19.0 314 4.9 22.9 309
- 4.0
2.489 2.50 29.8 29.61 o.oo 0.01 1. 9 36.5 33.9 -0.41 03/23/.92 02:00
-0.18 14.2 303 10.0 3.1 19.2 314 5.0 22.8 309 3.6 03/23/92 02:15 2.489 2.50 29.7 29.61 0 .* 00 0.01 1. 7 36.0 33.3 -0.36 -0.16 14.3 308 10.9 4.3 19.8 318 5.7 23.8 314 4.9 03/23/92 02:30 2.489 2.50 29.2 29.61 o.oo 0.01 1. 4 35.5 32.6 -0.28 -0.10 14.4 312 11. 6 3.2 21.1 320 4.8 24.8 316 3.6 03/23/92 02:45 2.489 2.50 29.3 29.61 0.00 0.01 1. 2 35.1 32.2 -0.25 -0.11 12.4 317 11. 8 3.7 17.5 326 5.9 21.6 323 4.8 \
03/23/92 03:00 2.489 2.50 29.5 29.61 0.00 0.01 1.1 35.0 31.7 -0.25
-0.13 11. 5 316 13.0 3.7 16.3 326 6.0 20.5 323 4.5 03/23/92 03:15 2.489 2.50 29.3 29.63 o.oo 0.01 1. 0 34.8 31.3 -0.30 -0.13 11. 5 320 11.1 4.4 16.1 330 6.2 19.2 326 5.2 03/23/92 03:30 2.489 2.50 29.0 29.63 0.00 0.01 0.8 34.5 31.1 -0.29 -0.15 12.7 322 11. 5 5.1 17.5 333 7.3 21.6 330 5.8 03/23/92 03:45 2.489 2.50 29.1 29.63 0.00 0.01 0.7 34.2 30.3 -o.*. 34* * -0.17 15.0 327 11. 6 4.4 21. 0 336 5,3 25.1 334 4.6 03/23/92 04:00 2.489 2.50 29.1 29.63 0.00 0.01 0.6 33.9 29.9 -0.25 -0.12 13.8 330 11. 8 4.8 19.6 340 5.6 24.1 339
- 5.5
o.oo """/23/92 04:15 2.489 2.50 29.0 29.63 0.01 0.7 34.2 29.4 -0.32
-0.17 17.2 335 11. l 3.3 24.5 346 5.7 28.9 345 3.3 03/23/92 04:30 2.489 2.50 28.9 29.64 0.00 0.01 0.6 33.9 29.3 -0.36 -0.20 14.8 335 12.0 4.4 21.1 345 6.4 25.8 342 4.9 03/23/92 04:45 2.489 2.50 28.8 29.64 0.00 0.01 0.5 33.9 28.8 -0.41 -0.21 16.3 337 10.5 3.4 22.1 346 5.1 26.1 344 3.7 03/23/92 05:00 2.489 2.50 28.8 29.66 o.oo 0.01 0.6 34.0 28.7 -0.42 -0.23 14.7 341 11. 2 3.7 20.6 350 6.8 24.9 347 4.8 03/23/92 05:15 2.489 2.50 28.7 29.66 0.00 0.01 0.7 34.0 28.1 -0.49 -0.26 16.0 335 11. 0 3.6 23.0 344 5.2 26.7 342 4.2 03/23/92 05:30 2.489 2.50 28.7 29.67 o.oo 0.01 0.6 33.8 27.1 -0.51 -0.28 15.9 334 11. 0 3.7 21. 7 342 6.3 25.5 338 5.1 03/~3/92 05:45 2.489 2.50 28.6 *29. 67 0.00 0.01 0.5 33.6 26.5 -0.54 -0.30 14.3 324 12.4 4.3 19.8 333 6.0 23.4 329 4.9 03/23/92 06:00 2.489 2.50 28.8 29.68 o.oo 0.01 . 0. 4 33.4 26. 4**-----oT59 -0.34 12.9 328 12.5 5.1 16.9 337 6.9 20.4 333 6.8 03/23/92 06:15 2.489 2.50 28.5 29.69 0.00 0.01 0.2 33.0 26.1 -0.58 -0.34 11. 7 329 12.5 5.7 16.9 336 7.4 20.6 332
- 6.1
2.50 28.3 29.70 0.00 0.01 -0.2 32.7 24.2 -0.60 03/23/92 06:30 2.489
-0.34 13.9 323 12.4 ;3.6 *20 .1 332 5.1 24.2 328 3.8 03/23/92 06:45 2.489 2.50 28.5 .29.71 0.00 0.01 -0.4 32.3 24.1 -0.63 -0.37 12.1 324 12.7 4.4 16.3 333 7.0 20.5 330 5.4 03/23/92 07:00 2.489 2.50 28.7 29.73 0.00 0.02 -0.4 32.3 24.1 -0.67 -0.40 13.0 330 13.3 6.0 17.1 338 8.3 20.9 335 7.2 03/23/92 07:15 2.489 2.50 28.7 29.73 0.00 0.03 -0.5 32.1 24.0 -0.66 -0.39 13.0 325 12.7 4.7 17.6 334 6.8 21.3 330 5.0 03/23/92 07:30 2.489 2.50 28.9 29.74 0.00 0.05 -0.5 32.1 22.9 -0.72 -0.42 14.1 323 12.4 4.6 19.4 333 7.2 22.9 329 5.2 03/23/92 07:45 2.489 2.50 28.9 29.75 0.00 0.07 -0.6 31. 9 21. 4 -0.73 -0.43 14.8 327 12.5 4.4 20.6 336 6.9 24.2 333 5.8 03/23/92 08:00 2.489 2.50 28.9 29.76 0.00 0.14 -0.7 31. 7 20.3 -0.72 -0.42 14.3 327 11.8 4.7 19.4 336 6.3 22.6 333 5.6 03/23/92 08:15 2.489 2.50 28.8 29.76 O*. 00 0.25 -0.3 32.2 20.3 -0.* :92 -0.56 16.1 335 12.0 6.3 21.0 345 6.6 23.8 342 6~7 03/23/92 08:30 2.489 2.50 28.6 29.77 0.00 0.41 0.3 32.6 19.7 -1. 20 -0.73 17.0 333 11. 7 3.4 22.3 345 5.9 25.6 342
- 3.8
2.50 28.5 29.77 0.00 0.6 20.0 -1.31 03/23/92 08:45 2.489 0.44 33.0
-0.80 16.3 340 12.2 5.7 20.5 348 7.2 23.3 343 7.0 03/23/92 09:00 2.489 2.50 28.4 29.77 0.00 0.50 0.8 33.5 20.9 -1.41 -0.86 14.9 341 13.5 8.4 18.6 349 8.8 21. 3 343 8.7 03/23/92 09:15 2.489 2.50 28.0 29.78 o.oo 0.59 1.1 33.8 20.9 -1.62 -1. 03 15.2 342 13.7 6.1 18.9 349 8.9 21.1 343 6.8 03/23/':?2 09:30 2.489 2.50 28.1 29.79 o.oo 0.49 1. 0 33.6 20.7 -1. 50 -0.95 13.4 343 13 .1 5.8 16.6 350 8.8 18.6 344 6.0 03/23/92 09:45 2.489 2.50 28.0 29.80 o.oo 0.57 0.9 33.4 20.4 -1.48 -0.93 14.5 345 12.0 4.5 17.3 352 6.4 19.4 348 5.5 03/23/92 10:00 2.489 2.50 27.8 29.80 o.oo 0.55 1.1 33.6 21.6 -1.48 -0.96 13.2 336 15.5 7.0 .15. 3 344 8.5 16.6 341 8.7
?
AVGRG 231000 242030 ~/92 09:46 15-MIN AVERAGES ETER REFO REFl T-IN PRES RAIN SOL TEMP TEGG DWPT DTUL UNITS VOLT MV c INHG: INCH LY/M C:1 F F c DTML WSL WDL SIGL SIGA WSM WDM SIGM wsu WDU c MPH DEG DEG DEG MPH DEG DEG MPH DEG SIGU DEG 03/23/92 10:00 2.489 2.50 27.8 29. 80 .. 0.00 0.55 1.1- 33.6 21.6 -1. 48
-0.96 13.2 336 15.5 7.0 15.3 344 8.5 16.6 341 8.7 03/23/92 10:15 2.489 2.50 28.1 29.So".. :
o.oo 0.52 1.11 33.6 22.2 -1.47
-0.92 11. 7 329 18.3 10.0 13.6 340 10.9 15". 0 336 10.9 03/23/92 10:30 2.489 2.50 27.9 29.81 0.00 0.54 1.3 33 ..8 21.8 -1.57 -0.98 1*1. 2 329 14.2 6.6 13.0 336 10.6 14.6 333
- 03/23/92 10:45 8.8 2.489
-0.93 2.50 10.5 28.2 29.81 332 15.9 o.oo 8.1 0.46 12.3
- 1. 2 338 33.7 11.0 21.2 -1. 49 13.9 335 8.4 03/23/92 11:00 2.489 2.50 28.2 29.80 0.00 0.45 1. 5 34.2 21. 6 -1.63
-0.98 10.9 327 18.6 9.7 12.7 334 13.3 15.2 331 13.1 03/23/92 11:15 2.489 2.50 28.1 29.80 0.00 0.42 1. 2 33.9 21.4 -1. 44 -0.89 10.8 324 *20.4 10.9 12.8 333 15.9 14.4 329 14.4 03/23/92 11:30 2.489 2.50 28.4 29.80 0.00 0.78 1.8 34.7 21.1 -1.84 -1. 21 11. 5 330 1*8 .1 7.6 13.8 339 11.8 15.3 340 7.7
.23/92 11:45 2.489 2.50 28.0 29.80 0.00 0.54 1. 2 33.9 20.4 -1. 54
-1. 02 11. 5 336 14. 0 4.9 13.3 340 10.1 14.8 341
- 03/23/92 12:00 7.2 2.489
-0.94 2.50
- 11. 6 28.3 29.80 338 18.0 0.00 9.8 0.56 13.8
- 1. 6 344 34.6
- 11. 9
- 21. 0 -1. 49 15.4 340 10.8 03/23/92 12:15 2.489 2.50 28.2 29.80 0.00 0.61 1. 6 34.7 20.8 -1.56
-1. 06 12.7 334 17. 5 8.6 14.8 341 12.3 16.3 337
- 11. 4 03/23/92 12:30 2.489 2.50 28.0 29.80 0.00 0.78 2.5 35.9 21. 3 -2.03
-1.18 11. 5 338 18.8 7.3 13.6 346 13.8 15.2 342 LOW 10.4 03/23/92 12:45 2.489 2.50 28.3 29.80 0.00 0.62 2.2 35.5 20.6 -1.66 -1. 08 12.3 341 18.2 9.5 14.1 344 14.9 16.1 340 12.3
.23/92 13:00 2.489 2.50 27.9 29.80 0.00 0.47 2.0 35.2 20.2 -1. 48
-1.02 12.2 333 15.3 6.2 14.6 342 9.8 15.9 340 )
9.2 03/23/92 13:15 2.489 2.50 28.1 29.80 0.00 0.62 2.4 36.2 20.3 -1. 59
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-0.52 9.9 266 11.1 4.8 12.1 279 7.4 14.5 275 5.4 03/24/92 17:45 2.489 2.50 31. 5 30.20 0.00 0.09 6.9 44.8 19.3 -0.71 -0.41 9.6 267 11. 5 5.3 11. 4 276 8.3 13.5 271 7.5 03/24/92 18:00 2.489 2.50 31.1 30.21 0.00 0.05 6.5 44.4 19.8 -0.52 -0.26 8.9 265 10.2 3.3 12.1 279 4.5 14.7 275 2.6*
. 4 / 9 2 18:15 2.489 2.50 30.8 30.20 0.00 0.03 6.2 44.1 19.2 -0.28
-0.03 7.1 269 9.0 3.2 10.1 284 5.9 12.3 280 4.4 03/24/92 18:30 2.489 2.50 31.1 30.21 0.00 0.01 5.9 43.6 21. 3 -0.19 0.01 5.9 248 12.8 3.1 7.8 265 11.9 10.2 268 6.4 03/24/92' 18:45 2.489 2.50 31. 7 30.21 0.00 0.01 5.2 42.4 28.0 0.20 0.40 4.2 219 4.8 5.2 6.7 237 2.9 8.3 251 6.1 03/24/92 19:00 2.489 2.50 32.2 30.22 o.oo 0.01 5.1 42.2 26.8 0.49 0.74 4.3 237 21. 4 2.5 6.8 248 6.6 9.1 257 2.6 r- '24/92 19:15 2.489 2.50 32.6 30.22 0.00 0.01 4.5 41.3 25.1 1. 09
1.31 2.8 261 17.8 2.7 7.9 259 2.8 9.1 260
- 03/24/92 19:30 4.0 2.489 0.91 2.50 4.5 33.0 30.23 248 11. 6 o.oo 4.1 0.01 7.9 4.9 267 42.3 8.1 21.3 10.9 0.82 272 5.3 03/24/92 19:45 2.489 2.50 33.3 30.23 0.00 0.01 4.8 41. 8 27.9 0.55 0.55 5.7 208 9.0 9.6 9.3 218 5.3 10.9 223 9.9 03/24/92 20:00 2.489 2.50 33.5 30.24 0.00 0.01 4.9 42.2 25.4 0.69 0.69 6.6 212 6.3 4.6 10.3 228 3.7 12.5 232 4.0 03/24/92 20:15 2.489 2.50 33.8 30.25 o.oo 0.01 4.7 41. 7 25.8 0.81 0.69 7.2 216 5.2 2.3 10.7 230 3.4 13.5 233 3.5
.24/92 20:30 2.489 2.50 34.0 30.25 o.oo 0.01 4.3 40 .* 9 27.7 1. 02 0.58 6.0 212 5.1 1. 7 9.8 225 3.0 13.7 234 3 ."9 03/24/92 20:45 2.489 2.50 34.1 30.26 0.00 0.01 4. o. 40.7 27.2 0.79 0.52 6.3 212 4.9 1. 4 10.5 222 2.9 14.3 228
- 1. 9
? }i}i
~ i'r(A .l \t _e-.\
I 11(_~ / * {lAS~ SALEM UNIT 2 . /OPERATIONS Paq* _J._ ot _l_
- ~ £~*!>.~
fAr II-12.3.JA - REV. 1 CONTAINMENT PURGE TO THE PLANT VENT CONTROL USE CATEGORY: I REVISION
SUMMARY
COPY
- This is a Limited Revision.
- The following LR/ACN/OTSC were incorporated in this revision:
LR A, ACN P-1, ACN P-2, OTSC P-1
- Step 2.2 was revised to clarify FHB Exhaust Fans lineup.
- Deleted option 2. of step 4.1 on Data Sheet 1 which was for using the 22 HEPA ONLY. This option is not available via the Bezel controls. Renumbered the options after deletion and revised the options to reflect the Bezel wording.
- Made editoral changes to steps 5.1.14, 5.2.1, 5.2.4 and 5.2.9 .
IMPLEMENTATION REQUIREMENTS NONE REQUIRED
- APPROVED: ....,..P,,.....___~
r-- _ _&t?--"---~:;___. . .~.......,-->t--=--------- Operations l'Mn~r - Salem
'9-£/;z__
Date
- 1. 0 PURPOSE 1.1 OPERATING PROCEDURE II-12.3.3A CONTAINMENT PURGE TO THE PLANT VENT This procedure provides the necessary steps to perform a Containment Purge through the Plant Vent.
2.0 INITIAL CONDITIONS All Aux. Bldg. Vent Fans are available and Auxiliary Building Ventilation* is in operation IAW OP II-17.3.1, Auxiliary Building Ventilation Operation.
/ 2. 2 At least one Fuel Handling Building Exhaust Fan is in service. ,;/k 2.3 Chemistry's iodine sampier and partic~ sampler are operational and RMS Channel 2Rl2A or R41 is in service (Tech Spec Table 3.3-13 item 2a) IAW o -11.3.1, Process Radiation Monitors - Normal Operation.
2.3.1 If Chemistry's iodine and/or partiqulate samplers are inoperable, effluent releases via the effected pathway may continue provided samples are continuously collected with auxiliary sampling equipment as required in Table 4.11-2. i
/~ 2 .4 The Plant Vent Gross Effluent Monitor RMS Channel 2R16 should be in service to collect historical data. If 2Rl6 is inoperable, 2R41C may be used as a substitute (Tech Spec Table 3.3.13 item Ja). If 1Rl6 and 1R41C are inoperable, the purge may be conducted provided Tech Spec 3.3.3.9b*action 33 is entered and the following requirements are satisfied:
2.4.l Grab samples are taken at least once per 8 hours and these samples are analyzed for gross activity within 24 hours. (Chemistry Dept.)
~/fri.s If RMS Channels 2R12A or 2R41C are to be used, VERIFY the associated APO pump is in service at the required flow.
- rl/fr~2.6 The Plant Vent Flow Monitor is in service. If the Plant Vent Flow Monitor is inoperable, the release may be conducted-provided Tech. Spec. J.J.J.9b action 32 is entered and the following requirements are satisfied:
- Salem Unit 2 1 Rev. l
II-12.3.3a
- 2.6.1 Effluent releases via this pathway may continue provided the flow rate is estimated at least once per 4 hours. Record estimated flow rate on Data Sheet 1 step 5.3.1 every 4 hours as determined by use of Table 1.
3.0 PRECAUTIONS 3.1 The Auxiliary Building should be maintained at a negative pressure. , 3.2 The Radioactive Gaseous Release Initiation Form for the purge (Data Sheet 1) *shall be approved by Chemistry Supervisor (or authorized alternate) and reviewed by the Senior Shift supervisor/Shift Supervisor prior to purging. 3.3 Selection of the same exhaust unit on more than one control bezel may result in isolation of one exhaust header. 3.4 Containment Purge is to be used in Modes 5 & 6 only. 3.5 If during the purge RMS Channels 2Rl6 and 2R41C or 2Rl2A and 2R41C become inoperable, immediately suspend PURGING of radioactive effluents via this pathway. 4.0 CHECK OFF SHEETS 4.1 Figures None 4.2 Tables 4.2.1 Table 1 - Plant Vent Stack Flow Rate 4.3 Check Off Sheets None 4.4 Data Sheets 4.4.1 Data Sheet 1 - containment PUrge Radioactive Gas Release (Computerized Form may be used in place of Data Sheet 1 provided all information required on-' Data Sheet 1 is supplied)
- Salem Unit 2 2 Rev. 1
II-12.3.3a
- 5.0 PROCEDURE 5.1 CONTAINMENT PURGE THROUGH THE PLANT VENT 5.1.1 COMPLETE Section 1.0 of Data Sheet 1. FORWARD to the Chemistry supervisor for completion of Sections 2.0 and 3.0.
HQ'.rg If Containment atmosphere activity levels exceed the limits which can be purged, operate the Iodine Removal Units IAW OP II-16.3.1, Containment Ventilation Operation, until an acceptable level is attained. *
- 5.1.2 ENSURE Section 1.0, 2.0 and 3.0 of Data Sheet 1 are completed and Radioactive Gaseous Release Initiation Form for the purge is approved by Chemistry supervisor (or authorized alternate) has been provided.
5.1.3 Secure final discharge approval from Shift Supervisor. 5.1.4 If Containment pressure is greater than O, RELIEVE the pressure IAW OP II-16.3.1, Containment Ventilation Operation . 5.1.5 PERFORM a channel check. (visual inspection of the monitor readout) and a source check on *RMS channel 2R41C or 2Rl2A as appropriate.
- 5.1.6 DEPRESS FAN START on the 21 Sup Fan Bezel. OBSERVE the red Sequence Complete Bezel illuminate.
5.1.7 DEPRESS the FAN STOP Bezel on 22 sup Fan Bezel Unit. OBSERVE the green FAN STOP Bezel illuminate. 5.1.8 SELECT HEPA 21 ONLY on the Emergency Areas Exhaust Bezel. OBSERVE the Sequence Complete light illuminate. 5.1.9 If HEPA 22 PLUS CHAR is required for purging, SELECT HEPA 23 ONLY on the Normal Areas Exhaust Bezel. OBSERVE the Sequence Complete Bezel illumina~e. 5.1.10 If HEPA 23 ONLY is required for purging, SELECT HEPA 22 ONLY on the Normal Areas Exhaust Bezel. OBSERVE the Sequence Complete Bezel illuminate *
- Salem Unit 2 3 Rev. 1
II-12.3.3a
- 5.1.11 DEPRESS either HEPA 23 ONLY or HEPA 22 PLUS CHAR (designated on Data Sheet 1 section C) on the CONT PURGE EXHAUST Bezel. OBSERVE the corresponding Sequence Complete Bezel illuminate.
5.1.12 VERIFY all Auxiliary Building Ventilation Exhaust Fans operating. START those exhaust fans not operating. CAUTION The purging turnover rates listed in Data Sheet 1 are based upon the availability of all Auxiliary Building Ventilation Exhaust Fans. Purging should not be performed with less than the required number of Auxiliary Building Ventilation Exhaust Fans. 5.1.13 Depress EXHAUST VALVE OPEN 2VC3 and EXHAUST VALVE OPEN 2VC4 Bezels. OBSERVE the red Bezels illuminate. 5.1.14 DEPRESS SUPPLY VALVE OPEN 2VC2 and SUPPLY VALVE OPEN 2VC1 Bezels~ OBSERVE the red OPEN and red DIVERSION DAMPER PURGE Bezel illuminate. ENTER necessary information in section 5.0 of Data Sheet 1, Release Data of the Radioactive Gaseous Release Initiation Form. 5.1.15 DEPRESS FAN START on the 22 SUP FAN Bezel. OBSERVE the red Sequence Complete Bezel illuminate. 5.1.16 If during purging, a containment ventilation isolation occurs as a result of an RMS Channel Alarm, PERFORM the following:
- a. Refer to AOP-RAD-3 Process Radiation system Alarm.
- b. Stop No. 22 Auxiliary Building Ventilation Supply Fan and one Exhaust Fan.
- c. Re-sample the containment atmosphere.
5.2 TERMINATION 5.2.1 The containment has been purged per the criteria of the Radioactive Gaseous Release Initiation Form. Release data has been completed on Data Sheet 1 (excluding Shift Supervisor approval) .
- Salem Unit 2 4 Rev. l
II-12.3.3a
- 5.2.2 5.2.3 DEPRESS SUPPLY VALVE CLOSE 2VC1 Bezel. OBSERVE the green CLOSE and DIVERSION DAMPER NORMAL Bezels illuminate.
DEPRESS the SUPPLY VALVE CLOSE 2VC2 Bezel. the green Bezel illuminate. OBSERVE 5.2.4 DEPRESS the FAN STOP Bezel on 21 or 22 SUP FAN Bezel unit. OBSERVE the green FAN STOP Bezel illuminate. 5.2.5 DEPRESS EXHAUS~ VALVE CLOSE 2VC3 and EXHAUST VALVE CLOSE 2VC4 Bezel. OBSERVE the green Bezels illuminate. 5.2.6 SECURE one Auxiliary Building Exhaust Fan. 5.2.7 Provide Radioactive Gaseous Release Initiation Form to Sh~ft Supervisor for approval. 5.2.8 Forward completed Radioactive Gaseous Release Initiation Form to Chemistry Supervisor. 5.2.9 Notify ISI to perform leak rate test IAW Tech Spec Surveillance 4.6.3.5 *
*I
- END OF PROCEDURE FINAL PAGE
- Salem Unit 2 5 Rev. 1
II-12.3.3a
- TABLE 1 PLANT VENT STACK FLOW RATE DISCHARGE FLOW ESTIMATION PER FAN CONFIGURATION (CFM)
# AUX BLOG EXHAUST # FHB EXHAUST PRESS RELIEF EST.PLANT VENT FANS IN SERVICE FANS IN SERVICE IN SERVICE FLOW RATE 3 1 N 110,600 3 2 N 122,600 3 1 y 113;000 3 2 y 125,000
- Salem Unit 2 TBL 1-1 Rev. 1
II-12.3.3a DATA SHEET 1 CONTAINMENT PURGE BADIOAC'I'IVE GAS RELEASE RELEASE No. Cf - 2Cl~ 1.0 SAMPLE REQUEST No. 2 Reactor Containment is to be purged to the Plant Vent. A pre-purge sample of Containment air and release rate computation is requested. Supervisor/Nuclear Shift Supervisor
- Salem Unit 2 PS 1-1 Rev. 1
II-12.3.3a
- Salem Nuclear Generating Station DATA SHEET 1 RADIOACTIVE GASEOUS RELEASE INITIATION FORM Gaseous Release Sample ID: C.. p 2 05"~
Date ?- 2 4 Time Sampled by: ___\~r-~)A
.l;L4)
CONTAINMENT PURGE 2.0 RADIOCHEMICAL ANALYSIS ISOTOPE UCI/CC EST UCI RELEASED XE - 13 J /. 2 E-8 2.S-5£+-3 TOTALS /.Z.E-%" 2.s3f t-3 (** Indicates Isotope not included in dose analysis) 3.0 DOSE ESTIMATE GAMMA AIR BETA AIR MRAD MRAD
- 3.1 Estimated dose this release 3.2 Est cumulative dose this quarter 3.3 Est cumulative dose this year
- 7. 71£-8 Z_o4 E-5 Z. O'-f E-'5 2.. 52£.-7
- 6. . 7 6.47 E-)
E,-1) 3.4 Projected quarterly dose 2. 2.. I f.. -') 7.o o E - S-
- 3. 5 Total Containment Purge Volume *=2.11E+1 I (CC) = 7.4~ fr& CUFT 3 . 6 Meterolog ical Oispers ion X/Q = 2
- 20 E - (, ( SEC/M3)
O/Q = z
- 1 a £: - I 0 ( l/M2)
- 3. 7 Maximum Allowable Release Rate = i;-. So,;._+ Y SCFM Time
- Salem Unit 2 OS 1-2 . Rev. 1
II-12.3.Ja
- 4.0 RELEASE APPROVAL 4.1 No. 2 Reactor Containment may be purged to the atmosphere via the Plant Vent. This purge is consistent with the release rates given in Technical Specifications 3.11.2.1, 3.11.2.2, 3.11.2.3 and 3.11.2.4. The following purge exhaust path IllYfil be utilized to meet the limits of TS 3.11.2.1, 3.11.2.2, 3.11.2.3 and 3.11.2.4 (check the requirements) .
- 1. No. 23 HEPA ONLY (l.33 air changes/hour)
- 2. No. 22 HEPA PLUS CHARCOAL (0.57 air changes/hour) 3.;zq.q~ 8 I 7~~
Te6hnical~upervisor -*Chemistry Date/Time 4.2 Verify Sections 1, 2 and 3 of this release co~pleted and permission granted to purge No. 2~~or Containment utilizing purge exhaust path ~ . Shlit~~~ift
- Senior 127 (. f /r-6 £. U11t
)/fE-Supervisor /l- /~~
Date/Time V_4t..t/£ Ll,G
/1
('/:tlc £ 44'c.'z u~!)
- l. /,7 c. I-t-y
. '\ ;/ ( L
( c_, /1 !~C'J/'~ t~t ,, A.v/J
- Salem Unit 2 OS 1-3 Rev. l
II-12.3.3a
- 5.0 RELEASE INFOBMATION 5.1 No. 2 Reactor Containment Purge commenced:
1--:i'f-7 J. Date Time and was completed: 3-z5-h.. 0 '11? Date Time 5.2 No{s). .J b., Auxiliary Building Exhaust Fans were operating at the time of the release. Exhaust Filter Units I/S @ the time of release 5.3 Flow rate from Plant Vent during release. { {avg) 8' o K SCFM. G ~c..f-n *~ \'~
\L 5 (, -'6~ ~-J~
5.3.l If the Plant Vent flow monitor is inoperable~ record the estimated flow every 4 RATE
* ~~~~~~~--1.--.,.--~~.p,.-~~~~~~~~.....,.....~~SCFM ~~~~~~-..~~~~-"'4~~~~~~....;_~~-..-..-..scFM ~-..-..-........,,,...::;~-..-..-..-..-11-...i.....-..-..-..~-..-..-..-..-..-..-..scFM ~-..-..-..-..-..-..-..-..-..-..-..-..-..-..-..-..-..-..-..~'-..-..-..-SCFM 5.4 Rl6 readings during the release (avg) _____./....;_.o.._,:/rr'---_CPM.
5.5 Meterological conditions at the time of release were:
- 1. Wind speed /&'.I MPH (at el. 300')
- 2. Wind direction Ftcom ~~r (at el. 300 I)
- 3. Delta T (300' - JQ I) o, '16 *c Performed by_~_"""'.U==--:r:'~/__f_l_tlk___-_ _____
7 Reviewed bY~-..-..-..~-..-..~~-..-..~:.+--..-..-..-..-..-..-..~ Senior Shift Supervisor/Sh~sor 6.0 CHEMISTRY REVIEW AND APPROVAL 1* Salem Unit 2 OS 1-4 5'-2~ fL Date 0 /$£) Time Rev. 1
- 1.0 INTEGRATED
- 1. 1 LEAKAG~
RATE TEST
SUMMARY
- MASS POINT ANALYSIS The Third Periodic Primary Containment Integrated Leakage Rate Test of Salem Unit No. 2 was satisfactorily completed on March 25, 1992 with a measured leakage rate of 0.013 %/day at 62.86 psia. The measured leakage rate with a 95% upper confidence level was 0.02%/day.
Pressurization commenced on March 22 1 1992 at 2130 hours and continued until pressure of 63.196 psia was attained on March 23, 1992 at 1352 hour (Avg. Rate= 3.0 psi/hr.). The temperature stability test was initiated on March 2 3,
- 1992 at 1355 hour and temperature stability criteria was attained on March 23, 1992 at 18:10 hour.
The Integrated Leakage Rate Test commenced on March 23, 1992 at 1815 hour and continued for 24 hours at which time the measured leakage rate (Mass Point) was 0.013%/day and the upper confidence level of 0.02%/day. The verification test (Mass step Change Method) was initiated on March 24, 1992 at 1826 hour and continued until verification criteria was attained on March 24, 1992 at 2041 hour *
- 1.1 Continued Depressurization of the containment started on March 24, 1992 at 2110 hour and continued until March 25, 1992 at 0940 hour at which time the containment pressure was at ambient condition (Avq. Rate= 3.8 psi/hr.) *
- 1.2
SUMMARY
ILRT RESULTS MASS POINT AT 62.86 psia Results
%/Day Acceptance Criteria Calculated Leakage, Lam 0.013 Type c leakage to be added see note 1 Water level correction see note 1 Total 0.100 Calculated Leakage at 95% UCL 0.02 Type c leakage to be added see note 1 water level correction see note 1 Total 0.075
- Note 1: Rasul ts were not available from ISI Group at time of report.
1.3
SUMMARY
VERIFICATION TEST Mass step Acceptance Results Criteria lbm lbrn Measure Mass Removed From containment 963-Difference between ILRT Mass before 867 and after removed air Difference between ~easured Mass and 96.8 206.7 ILRT computed Mass
- 2.0 INSTRUMENTATION 2.1 Instrument Description Containment leakage rate computations are based on the measurement of changes in absolute pressure, water vapor pressure, and drybulb temperature.
Since the changes in the above parameters are small, the accuracy, repeatability and resolution of the sensors, and in essence the complete system, require precise, reliable and accurate measurement .
- The Integrated Leakage Rate S~stem not only uses high accuracy _sensors but also combines these inputs with high accuracy, high resolutioni and reliable electronic net-works to provide a system that can be precisely defined from sensor input to system output.
The drybulb temperature is measured by use of resistance temperature detectors (RTD) and is recorded by the data acquisition system (DAS) in degrees Fahrenheit. The dew point temperature is measured by use of chilled-mirror dewpoint sensors and is recorded by the DAS in
- .degrees Fahrenheit .
- 2. 1 Co_ntinued The absolute pressure is measured by use of a fused quartz bourdon tube. The low internal viscosity of fused quartz makes it the most perfectly elastic material known.
Therefore, this type of sensor offers no measureable hysteresis, fast response, high resolution, and high accuracy. The output of the pressure sensor is in parallel BCD form to the data acquisition. The data acquisition control unit provides the anal.cg multiplexing and digital monitorin~. The digital volt-meter a 6-1/2 digit (20.2 bit) integra~ing voltmeter with parts per million resolution, 100 nanovolt sensitivity and reading rates to 300 readings per second. The integration time may be programmed for 0.01 powerline cycles to 100 powerline cycles. The data acquisition communicates over a HP-IB (IEEE488) interface to* a HP 9000 computer with 3 Megabytes of membry, high-resolution display and a 16.6 MHz processor. Data is stored on a 65.6 Megabyte hard disc with 1/4-inch cartridge tape drive for back-up *
- 2.2 Instrumentation 2.2.1 Temperature The drybulb temperature sensors (RTD) conform to the following:
Configuration: 4 Wire Operating Range: 0 to 150°F Accuracy: 60 - 120°F 0.1°F Repeatability: 0.1°F Sensitivity: 0.01°F Element: Platinum Resistance 100 Ohms @ 32°F 2.2.2 Dewpoint Temperature Measurement The dewpoint temperature measurement sensors con-form to the following: Dewpoint Range: -40°F to +80°F Dewpoint Accuracy: 0.40°F Dewpoint Sensitivity: o.05°F Type of Sensor: Chilled-mirror 2.2.3 Pressure Measurement The pressure measurement is made with pressure sensors that conform as follows: Operating Range: 0 to 100 PSIA Accuracy: 0.15% F.S. Repeatability: 0.001% of Full Scale Stability: Less than 0.001% F.S. Per Degree Fahrenheit Ambient Temperature *'i Range Type of Sensor: Quartz Bourdon Tube 2.2.4 Mass Step Change Rotary Positive Displacement Meter Range o to 3000 cfh Accuracy 100.75%
- 2.2.5 Data Acquisition System Microprocessor - based fully guarded digital multimeter Display: 6-1/2 digits Decimal & Legend Sampling Rate: 48 Reading/Seconds Resolution: lOV range 10 microvolts lV range 1 microvolts Accuracy: lOV range 0.0012 + 5
(% of reading + counts) lV range 0.0011 + 3 2.3 Calibration Check Standard Instruments 2.3.1 Pressure Gage (1) Range: o to 100 psia Resolution: 0.001 psi Accuracy: 0.015% F.S. Repeatability: 0.0001% F.S. 2.3.2 Dew Point Hygrometer (1) Range: -40°F to 80°F Accuracy: 0.40°F Sensitivity: o.05°F 2.3.3 Temperature Sensors Hewlett Packard Quartz Thermometer Model 2804A Range: -50 to 150°C Accuracy: 0.04°C Repeatability: 0.02°C 2.3.4 Hewlett Packard.Data Acquisition. systems
2.4 Instrument Calibration
- 2.5 2.4.1 The ILRT instruments and sensors were calibrated prior to test (Section 10). The calibration test instruments are traceable to National Institute of Standards and Technology (Section 11).
Instrument Calibration Check 2.5.1 Purpose To verify that no significant changes in instru-ment integrity has occurred prior to the conduct of the test. 2.5.2 Description Immediately preceding and after the leakage rate test, containment temperature dew point and pressure instruments were checked with insitu instrumentation. The data from both systems was compared. 2.5.3 Temperature Sensors The differences between the verification tempera-ture and the temperature read by the insitu instrumentation was with-in the allowable. The data is shown in Table 2.1 through 2.4. and Table 2.6 through 2.13 .
- 2.5 Continued 2.5.4 Pressure Gages The difference between the average pressure measured with the precision pressure gages and the pressure indicated by the precision pressure gage used as a standard did not exceed 0.05% of reading as allowed. The data is shown in Table 2.5 and 2.14.
2.6 Instrument Locations 2.6.1 The 24 temperature (RTD) sensors and the eight dew point sensors were located such that they responed accurately to the change in containment atmospheric conditions. Figure No. 2.1 shows the location of the sensors along the north-south axis. Table No. 2.15 is the.computer print-out of the assigned weigb-factors used by the computer .
- 2.7 Pretest Instrumentation Selection Guide (ISG) 2.7.1 The instrumentation selection guide is used to determine the ability of the ILRT instrumentation system to measure the leakage rate of the con-tainment system. In the instrumentation selection formula the sensitivity errors of the transducers are combined using a root-sum-square method. The transducers sensitivity values are used since it is the change in the containment air mass, not the absolute value of the mass, that is used to compute the leakage. A computer program was
_developed using the following formula (ANSI/ANS-56.8 1981) to calculate the instrument selection guide before test and also during testing in the event of a sensor failure. This assures that the ISG did not exceed the 0.25 L!-a!+ at the end of the test. ISG = 2400 (2(!+e!-p/P)!+2!- + 2(!+e!-T/T)!+2!- + 2 t t = test hours p = containment absolute pressure Pv = containment partial pressure of water vapor T = containment absolute temperature e = error associated with measurement of change in a given parameter
- 2.7.1 Continued The following is the computer data of the Instrumen-tation Selection Guide (ISG):
Table No. 2.16 ISG with 2 Pressure, a Dew Point, 24 RTD's, 24 hour test
- .. ..... Jli
~µ; ~H NO 2 ] ' "'" N...;i'i,ii J ~T *= .. NS!.:i-'tf *~
I~:\; i ** I !"! .. !St * '2
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4 Mar 1992
- PSE&G Resarch and Testin~ Lab INSITU CAL-CHEC DATE 4 Mar 1992 TIME l'5:l 7 SENSOR t RTD TEMP STD TEMP DIFF 64.7 64.9 -.2 2 64.7 64.9 -.2 3 64.7 64. 9 - .1 4 64.'5 64.9 -.4 64.6 64.9 -.2 6
7 64.8 64.8 64.9 64.9
-0.0 -.1 8 64.7 64.9 -.1 9 64.8 64.9 -.1 10 64.6 64. 9 -.2 11 64.9 64.9 0.0 12 64.8 64.9 -0.0 13 64. 8 64. 9 - .1 14 64.7 64.9 -.1 1'5 64.7 64.9 -.1 16 64.9 64.9 .1 17 64. 9 64 9 1 18 . .
- 64. 9 64 9 00
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- PSE&G Resarch and Testinq Lab INS!T'_! CAL-CHEC DATE 4 Mar 1992 TIME L:47 SP.60R t RTO :H~P STD -EMP DIFF 99.0
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64.9 - .6 64.9 - .o
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- TlME TIt2687 Tlt2686 SALEM N0.2 ILRT CALIBRATION CHECK QUARTZ PRESSURE MENSORtl MENSORt2 HEISEtOl HElSEt02 15:03 63.002 62.892 62.991 62.962 62.9?0 62.971 15:1)3 6.1. 006 62.896 62.991 62.962 62.953 62.973 15:03 63, 01J4 62.894 62.991 62.962 62.949 62.970 l5:04 63.005 62.895 62.991 62. 962 62.9?1 62.972 15: 0, 65.01)5 62.8Q4 62.991 62. 9o2 62.950 62.971
'3 fpN\)ARO: CEC SERIAL NUMBER: 3630 CALIBRATION DATE: 10129190 CALIBRATION Dus ~T§,i. / ~)jJ/29!)5 TESTED BY: ~~
25 Mar 1992
- Re~arch PSE&G and fest1nq Lab
!NS!TU CAL-CHEC DATE 25 Mar 1992 TIME 20:46 SENSOR t RTD TEMP STD TEMP DIFF 1 50.8 51. 3 -.5 2 51. 2 51. 3 -.1 3 51.1 51. 3 -.3 4 50.6 51.3 -.7 5 50.8 51.3 . -.6 6 50.9 51. 3 -.4 7 50.4 51.3 -.9 B
- 50.B 51.3 -.5 9 51. 0 51. 3 -.4 10 50.5 51. 3 -.9 11 50.6 51.3 -.7 12 51.3 51. 3 -.1 13 51. 0 51. 3 -.3 14 51.1 51. 3 -.3 15 50.7 51.3 -.6 16 50.7 51.3 -.7 17 50.9 51.3 -.4 18 50.7 51.3 -.6 19 50.B 51.3 -.5 Za. I cU r-:- tl'o
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STA!f)ARO: ffl QUARTZ SERIAL NUMBER: 2620A01764 PROBE Tl NUMBER: 2120A-02801 PROBE T2 NUMBER: MOT USED CALIBRATION DATE: 11127191 CALIBRATION JlAJ.EJDlEJ ,,,Jl.f).719rJ TESTED BY:~~
2~ t1ar 1992 PSE&G Resarch and Testina Lab INSITU CAL-CHEC DATE 25 Mar 1992 TIME 20:10 SENSOR t RTO TEMP STD TEMP DIFF
-1 4 -a -2 9 -2 7 -2 0 -2 3 -1 3 -2 2 -2 2 -1 0 -1 4 47 7 -3 0 -2 2 - 7 21 50.9 51. 3 -.4 22 51. 2 51.3 -0.0 23 51. 3 51.3 o.o 24 51. 0 51.3 -.2 STANDARD: HP OUARTZ SERIAL NUMBER: 2620A01764 PROBE Tl NUMBER: 2120A-02901 PROBE T2 NUMBER: NOT USED CALIBRATION DATE: 11127191 CALIBRATION DAJ.E,DUE: ~ - ut27./92 I TESTED BY: --~~---
25 Mar 1992 PSE&G Resarch and Test1na Lab INSITU CAL-CHEC DATE 25 Mar 1992 TIME 23:57 SENSOR t RTD TEMP STD TEMP DIFF 26 53.1
~ tv-~Jc;,-J L;.X vi.) ~ o /iJ 7 STANDARD: HP QUARTZ uc-Q ,..~ f,,.~ J..t>pl/.
SERIAL NUMBER: 2620A01764 PROBE: Tl NUMBER: 2120A-02801 PROBE T2 NUMBER: NOT USED CALIBRATION DATE: 11127191 CALIBRATION D~TE_J)UE: 11127192 TESTED BY: _L~tfc.!_~.:.~ ~
25 Mar 1992 PSE&G Re~arch and Te~t1nq Lab
!NSITU CAL-CHEC DATE 2? Mar 1992 TIME 21:32 SENSOR t O.P. Gen O.P. EG&G
- 39. 0 39.4 2 38.8 39.6 3 38. 8 37.8 tJo;- l.1Jlr"O 4
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(.:..;...,.P ~ Dill ~ L:c;J- ~ 39.1 (iUJ-A,.., i,, -t 6
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i...;-;r'o @I} 19- .J"T It"' P If~ P STANDARD: GEl'ERAl EASTERN SERIAL NUMBER: 127772 .CALIBRATION DATE: 214192 CAL I BRAT ION DATE,. ~.JE: / 24419,} ,1 TESTED BY: -~~-~ Note: D.P. Gen Dew Point Sensor No. 4 (General Eastern) was disconnected when retrieved from the Steam Generator. When it was reconnected it did not calibrate. The test data shows no problem .
- PSE&G Re!arch and Te5t1nq Lab INSITU CAL-CHEC DATE 2? Mar 1992 TIME 22:47 SENSOR t D.P. Gen D.P. EG&G
,-3i-.O- _y-2 --J0-:'r ~
3 ~ ..V-: 4 It f\-¥ - @iJo 44.3 (;:J ~ c....Jo~*s
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6 ~ 8 .J'}fJ.J 01-f~ 0 STANDARD: GENER~ EASTERN SERIAL NUMBER: 12772 ALIBRATION MTE: 214192
- CALIBRATION D~T~DUE~ ;_i.(1193 1 TESTED BY: --~~
Note: D.P. Gen Dew Point Sensor No. 4 (General Eastern) was disconnected when retrieved from the Steam Generator. When it was reconnected it did not calibrate. The test data shows no
- problem .
~4 "or 1992 SALEM GENERATING STATION UNIT 1 WEIGH FACTOR FILE 1ilEIGH2 TEMPERATURE WEIGH FACTOR RTD NO. LABEL WEIGH FACTOR 1 EL 276.5 4.06 2 EL 253 5.12 3 EL 253 5.12 4 EL 229.5 4.37 5 EL 229.5 4.37 6 EL 229.5 4.37 7 EL 203 5.75 8 EL 203 5.75 9 EL 203 5. 75 10 EL 174 5. 75 11 EL 174 5.75 12 EL 174 5.75 13 EL 144.5 5.75 14 EL 144.5 5.75 15 EL 144.5 5. 75 16 EL 120 1. 03 17 EL 115 2. 72 18 EL 103 3.77 19 EL 98 1. 03 20 EL 103 3.77 21 EL 115 2.72 22 EL 88 2.41 23 EL 88 2.41 24 EL 60 1.03 Weich Factor total 1s 100.0 IF total is not 100' then correct D.P. TEMPERATURE l.iEIGH FACTOR D.P. t-0. LABEL WEIGH FACTOR 1 EL 241 13.71 2 EL 241 13. 71 3 EL 103 10.44 4 EL 174 12.93 5 EL 174 12.93 6 HOT USED 0.00 7 EL 174 12. 93 8 EL 103 10.44 9 EL 174 12.93 10 SPARE O.OO, 11 AMB 0.00 12 SPARE 0.00 13 SPARE 0.00 D.P. weiah factor total 1s 100.0 If tot a I 1s not 100' then correct
PRESSURE WE IGH FACTOR QM NO. LABEL WEIGH FACTOR 1 1101 25.00
- 2 3
4
'6 1102 1089 1090 2686 2687 25.00 0.00 0.00 25.00 25.00
PSE&G
- RESEARCH & TESTING LABORATORY INSTRUMENTATION SELEC'I'ION GUIDE (ISG)
INSTRUMENT SENSITIVITY NUMBER MEASUREMENT ERROR ERROR SENSOR ERROR PRESSURE % f s .001 4 0.0000 .00050 DEW POINT Temp f .100 8 .0041 .00033 RTD'S Temp f .010 24 .0042 .00221 TEST TEMPERATURE deg f 70.00 TEST D.P.TEMPERATURE deg f I 60.00 TEST PRESSURE psi a 62.50 TEST DURATION hour 24 INSTRUMENTATION SELECTION GUIDE (.ISG) %/DAY .0015
E1 ' .2 7 6 I - 6 II Al:.. -E1. 2SJ '- o.I E1. 241' A.+* .El. 229'-6"
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*f:t.:// El. 174' 10 E1. 144'-6" El. 13'1' 120' 115' l:'
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- SALEH GENERATING STATION UNIT 2 CONTAINMENT CONDITION DATA - WEIGH FACTOR FILE: WEIGH2 22 Har 1992 AHBIENT CONTAINHENT SCAN TIHE TEHP PRES TEHP or~ PT DIFF PRESS RATE R.K.
No. Hour De?F Psia DecrF DecrF DeoF Ps1a t1'trr \ PJ1011v Q__ '1/~'f/'f'a-1 17:30 57' 8 14.6 55.1 42.9 12.2 14.52 0.00 63.4
*) !?*45 5? 7 14.6 54.8 42. 9 11.9 14.52 -0.00 64.0 !9'00 57 7 14.6 54.5 42.B 11.7 14.52 - 03 64. 6 4 19*15 57 8 14.6 54. 2 42 .7 11. 6 14.51 - . 02 64.8 s li:_I "30 57 8 14.5 54.1 42 5 11.6 14' 51 -.02 64.8
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! ".l' QI) 58 0 59.l 14.5 14.6 53.9 53.8 42 .4 42.2 11.6 11 6 14.50 14.50 -.02 -.02 64.'8 64.7 ~ 19'15 58.0 14 5 53.7 42 .1 11.6 14.49 - 01 64.6 ~ !~*30 58.0 14.6 53.6 42.1 11. 6 14.49 -.01 64.8 ! 1) 19:45 59.1 14.6 53.5 42.0 11. 5 14.49 -.01 64.9 11 20:00 58.l 14.5 53.5 42.0 11. 5 14.49 -.01 65.0 1? 20:15 58 1 14.6 53.4 42. 0 11. 4 14.48 -.01 65.0 1< 21) :31] 58.2 14 5 53.3 41. 9 11.4 14.48 -.01 65.1 14 20: 45 58.1 14.5 53.2 41.8 11.4 14.48 -.01 65.1
- 1c; 16 21:00 21*15 58.2 58 2 14.5 14 5 .
53.2 53.1 41 7 41.7
- 11. 4
- 11. 4 14.48 1448
-.01 -0.00 65.0 65.0
- SALEH GENERATING STATION UNIT 2 CONTAINHENT CONDITION DATA - WEIGH FACTOR FILE: WEIGH2
*22 04~!' 1992 AMBIENT CONTAINHENT SCAN TIHE TEHP PRES TEHP DI.ii PT DIFF PRESS RATE R.H.
No. Hour DeaF Ps1a Deaf DeaF Deaf P~ia .+4if- % P.s I O/Ja- Q_ "'['I' 'I /'7 ,_ 17 21:30 58.3 14.6 53.0 41.6 11.4 14.47 -.01 65.0 18 21*45 58.3 14.6 55.9 42. 6 13.2 15.34 3.48 61. 0 1Q 22:00 58.2 14.5 57.2 42.9 14 3 16.29 3.80 50.6 2Q 22*15 58.2 14.5 57.7 43 0 14.7 17.22 3.71 58.0 1 17 975 2 1?.884 14.573 4 14.554 5 p 827 6 17.920
")1 22*31) 58.2 14 6 57.9 43.0 14.9 18.15 '61 57.6 22 22 :45 58 2 14.6 57.9 43.3 14.7 19.06 3.65 58.0 *)1 23'00 58.l 14.6 57.8 43.3 14.6 19 96 3.58 58.2 24 23:15 50.1 14.6 55.1 42.4 12.7 19.91 -.18 62.2 *Jc; 23:30 58.0 14.6 54. 0 42.3 11 7 19 90 - . 06 64. 5 *)~
23:45 58.0 14.6 53.4 42.1 11. 3 19.88 -.06 65.3
')? IJQ: 00 58.0 14.6 53.2 42. 0 11.2 19 8? -.04 65.7 1)0*15 57.8 14 6 53 0 42. 0 66.1 ')i;j
- 11. 0 19.87 - . 03 29 QIJ '30 57. 9 14 6 52.8 41 9 10.9 19.86 -.03 66.3
*30 00:45 57.8 14.6 52.7 41.8 10 8 19.85 - . 02 66.5
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- SALEH GENERATING STATION UNIT 2 CONTAINHENT CONDITION DATA - WEIGH FACTOR FILE: WEIGH2 13 Mi!!' 1?92 AHBIENT CONTAINHENT
~~RN TIHE TEHP PRES TEHP OW PT DIFF PRESS RATE R.K.
No. Hour DeaF Ps1a DeaF DeaF DeaF Psia ~ 33 01:30 58.0 14.6 52.4 41.7 10.6 19.87 p~l*/h,. ~
.12 ' '-I 67.0 /?.Cf/~,_ *24 01*45 58.0 14.6 55.0 42 4 12.5 20.91 4 14 62.6 !5 1)2: !JI) 58.IJ 14.6 55.8 42. 6 13.l 21. 86 3.78 61.2 36 1)2: 15 57.9 14.6 56.0 42.7 13.3 22 .79 3.73 60.8 *n 02'30 57 g 14.6 56.1 42 .6 13.5 23.71 3.69 60.5
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SB.l 57 7 14 6 14 6 56.l 56.0 42 .8 43 '0 13 .4 13.1 24.63 25.55 3.68 3.66 60 '8
- 61. 5
<!1) 1)3:15 57 7 14.6 56.0 43 0 13 0 26.47 3.70 61. 5 111 1)3 :*30 58.0 14.6 55.9 43. 0 12.9 27.39 3.65 . 61. 8 4'J 1)3: 45 57.5 14.6 55.B 43.0 12.8 28.30 3.65 62.0 4'l 1)4: l)Q 57.6 14.6 55.B 43' 1 12 '7 29.21 3.65 62.3 44 1)4' 15 57 4 14.6 55.7 43 .1 12.6 30.13 3.65 62.5 45 1)4. 30 57' 3 14.6 55.6 43.3 12.3 31.03 3.63 63.1 41-: 1)4*45 57 3 14.6 55.5 43.3 12.1 31. 94 3.62 63.6
- 47 48 OS:QQ 1)5: 15 57 2 57 3 14 6 14 6 55.4 55.3 43 '6 43.6
- 11. 8
- 11. 7 32.85 33.75 3.63 3.63 64.3 64.6
- SALEH GENERATING STATION UNIT 2 CONTAINMENT CONDITION DATA - WEIGH FACTOR FILE: ~IEIGH2
*n ~ar !~~'2 i::lHBIENT CONTAINMENT SCAN TIHE TEHP PRES TEHP DW PT DIFF PRESS RATE R H.
No. Hour DeaF Ps1a DeaF DeaF DeaF Ps1a ~ % ('~**o/1t - ~ 'f/I.I.( /r;- l - 49 1)5:30 57.l 14.6 55.2 43.7 11.5 34.66 3 61 65.1 S*J 1)5: 45 57.2 14 6 55.0 43.6 11. 4 35.56 3.60 65.3
'il 1)6:1)1) 57.l 14 6 54. 9 43.6 11. 3 36.46 3.59 65.6 c;*) 1)6:15 57 Q 14.6 54.8 43.6 11.2 37.35 3 60 65.8 q 06*30 57.0 14.6 54.6 43 6 11.1 38.25 3.59 66.l
- %:45 c;4 56 8 14.6 54.5 43.5 11. 0 39 14 3.57 66.2 c;c; Q7*QO 5~.8 14.6 54.4 43 4 11. 0. 40.04 3.58 66.3 5~ t)7. !5 56.7 14 7 54.2 43 2 11 1 40.92 3 54 66.1 c;7 ')7:30 56.6 14,7 54.l 43.2 10. 9 41. 82 3.58 66.4 c;Q 1)7: 45 56.6 14.7 54.0 43 .1 10.8 42. 70 3.53 66.7 1 !~: 00 56.5 14.7 53.8 42.9 10. Q 43.5Q 3.56 66.4
~I) t)8: 15 c;6. 6 14.7 53.? 42.8 lQ.8 44,48 3.53 66.6 ~1 !8: ~o 1 c;6.? 14.7 53.8 42.8 11. 0 .i5.40 3.68 66.2 ~? *!8: a,c; 56 ..7 14.7 54. l 42.8 1!.~ 46.31 3.60. 65.5
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- 42. 0 c.1. Q 11 1 I
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4.7. ! 0 il8, !)Cl 3*'" 3.58 65.6
- 65. 7
- SALEM 1;ENEf;leiT ! NG STtH!IJN 'JN!T 'l-1:0NTA !NMENT CC1NO!T!ON D~TA - 1.,1E[SH l=".i[T[!P *!LE: IA1t[G!"2
-- M,. 1...i.J'1 '4f"81ENT CONT.::* [NMENT SCAN T["'E TEMP PPES TE!'IP OIJ pr D!FF PPESS RATE R.H.
No. Hour DMF P~ 1a DeaF DeaF DeaF P~1a ~ % .
/7.1'1 t)/' ,,,.. ~ 'f/1..Cf/'; L 6"i 1)9: 30 56.8 14.7 ?4.l 112. 8 11. 3 48.96 3. 48 65.6 ~6 1)9:a" 5~.9 la .7 54.0 a2.8 11.1 4Q. 84 3.53 6?.9 "7 ! 1): QI) 57.D !a.7 53.9 42.8 11.1 50.?l 3.49 66.0 ~8 !0:15 56.8 14,7 53,Q 6.2. 8 11.1 51. 58 3.48 66.0 ~" ! Ii: 31) 5~.8 la.7 53.9 43 .1 10.8 52' 46 3.52 66.6
- 70 71
!I): a5 ! 1: 1JO "6. 8 56.7 la.? !4.7 53.8 53.7 43.1 a3.0 11). 7 liJ. 7 53.32
- 54. l Q 3.44 3.46 o:o 6.7. 0
)') !1:15 56.9 14 ..7 53.7 43' 1 10.6 55' 05 3. 45 67, 2 !1: 31) .0 14.7 53.7 43.2 57 11).' 55.92 3.46 67.5 7,i l l: Ll'j 9.1 14.7 53.7 43.4 10.3 56. 78 3.44 68.0 71; ! 2: 1)1) 57' 2 14.7 53.7 Ll3. 6 10 .1 57.64 3.45 68.6 7~ 12:15 i:;7 .2 14.7 53.6 43.8 Q .8 58 .49 3.39 69.2 17 !2:3D r;7 .3 14.7 53.6 44.0 'l,6 5Q,34 3.3Q 69.9 57 ,4 7!3 !? : (II; la.7 53.5 4L1. l 9.4 60.19 3.40 ?0.2 7Q 13: 1JD 57 ,Q 14.,7 53.5 44.1 9.. 4 61. 02 3.35 70.5 ~o 13: 15 r;7 ,4 14.7 53:4 4.i.2 Cl,3 61. 87 3.38 70.7
- SALE!'I GEt-iERATfNG STAT!IJN IJN!T 2 C0tHAfN'1ENT CONO!T!ON DATA - l..JE!GH !="ACTOR F!LE: ~IE!GH2 AMBIENT CONTAINMENT SCAN TIME TEMP PRES TE11P OW PT 0!1="1=" PRESS RATE R.H.
No. f.1our DeaF Ps1a DeaF DeoF DeoF Ps1a ~ Pi,!:>/J.r " Q_ "I/*-'fI 'i ,_ 81 13: 30 ?7.7 la.7 53.4 44.2 9.2 62. 70 3.3) 71.0 l4, .7 ~2.8 8.7 63.03 !. 32 72. 3
22 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 3
1 2 EL EL EL LOCATION 276.5 253 253 57.9 54.0 54.2 17:45 57.4 53.8 54.0 18:00 56.9 53.4 53.6 CONTAINMENT TEMPERATURE SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 17:30 18:15 56.6 53.2 53.3 18:30 56.5 52.9 53.1 18:45 56.3 52.8 53.1 19:00 56.2 52.7 52.9 19:15 56.1 52.6 52.8 19:30 56.1 52.5 52.7 19:45 55.9 52.4 52.6 4 EL 229.5 56.1 55.8 55.5 55.3 55.1 54.9 55.0 54.7 54.7 54.6 5 EL 229.5 54.1 53.8 53.4 53.2 53.0 52.9 52.8 52.7 52.6 52.5 6 EL 229.5 55.8 55.5 55.2 55.0 54.8 54.6 54.5 54.4 54.3 54.2 7 EL 203 55.3 55.0 54.7 54.4 54.2 54.1 54.a 53.9 53.9 53.7 8 EL 203 53.1 52.9 52.6 52.4 52.2 52.0 51.9 51.8 51. 7 51.6 9 EL 203 54.4 54.3 53.8 53.6 53.4 53.2 53.1 53.0 53.0 52.9 10 EL 174 56.2 55.9 55.4 55.3 55.1 55.a 54.8 54.7 54.6 54.5 11 EL 174 55.1 54.8 54.4 54.1 53.9 53.8 53.6 53.6 53.6 53.4 12 EL 174 51.3 51.1 50.9 50.6 50.5 50.3 50.3 50.2 50.0 49.9 13 EL 144.5 56.0 55.8 55.5. 55.2 55.1 55.0 54.9 54.8 54.7 54.6 14 EL 144.5 54.4 53.7 53.5 53.3 53.2 53.1 52.9 52.8 52.8 52.6 15 EL 144.5 56.2 55.9 55.5 55.4 55.2 55.a 54.9 54.8 54.7 54.6 16 EL 120 56.6 56.3 55.9 55.5 55.1 55.2 55.0 55.0 55.1 54.7 17 EL 115 55.1 55.0 54.7 54.6 54.4 54.4 54.2 54.1 54.0 54.0 18 EL 103 55.3 55.1 54.8 54.7 54.4 54.3 54.2 54.0 53.9 53.8 19 EL 98 55.1 54.9 54.6 54.4 54.1 54.1 53.9 53.8 53.8 53.7 20 EL 103 60.1 59.0 58.4 58.2 58.1 57.7 57.6 57.6 57.3 57.4 21 EL 115 54.4 54.3 54.2 54.0 53.9 53.8 53.8 53.7 53.5 53.5 22 EL 88 53.8 53.7 53.5 53.5 5~.4 53.3 53.2 53.1 52.9 52.9 23 EL 88 54.7 54.6 54.4 54.3 54.1 54.a 53.9 53.8 53.7 53.6 24 EL 60 55.4 55.2 55.1 54.9 54.8 54.7 54.7 54.6 54.5 54.4 25 AMB 57.8 57.7 57.7 57.8 57.8 58.0 58.1 58.0 58.0 58.1 26 GAS METER 48.7 48.7 48.7 48.7 48.7 48.8 48.9 48.9 49.0 49.1 DEW POINT TEMPERATURE
- SENSOR 3
4 5 1 2 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 17:30 42.8 42.7 42.9 42.7 43.0 17:45 42.9 42.6 42.9 42.7 43.a 18:ao 42.7 42.6 42.8 42.6 43.0 18:15 42.7 42.5 42.7 42.3 42.9 18:30 42.6 42.4 42.4 42.3 42.7 18:45 42.4 42.2 42~3 42.2 42.6 19:00 42.3 42.1 42.2 41.9 42.4 19:15 42.1 41.9 42.1 41.9 42.3 19:30 42.2 41.9 42.a 41.9 42.3 19:45 42.0 41.8 42.0 41.8 42.2 6 NOT USED 0.0 o.a a.a o.a 0.0 o.a o.a 0.0 0.0 0.0 7 EL 174 43.4 43.3 43.2 43.2 43.0 43.0 42.8 42.6 42.6 42.5 8 EL 103 43.5 43.4 43.3 43.1 43.1 42.8 42.6 42.6 42.5 42.5 9 EL 174 42.2 42.1 42.0 41.9 41.7 41.6 41.4 41.3 41.3 41.3 10 SPARE 0.0 0.0 0.0 a.a 0.0 0.0 0.0 0.0 o.a o.a 11 AMB 30.1 30.2 30.2 3a.4 30.4 30.4 30.5 30.2 30.5 30.7 12 SPARE 0.0 0.0 0.0 o.o o.o o.o o.o 0.0 0.0 0.0 13 SPARE 0.0 0.0 a.o 0.0 0.0 0.0 0.0 o.a o.a 0.0 PRESSURE psia SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 17:30 17:45 18:0a 18: 15 18:3a 18:45 19:ao 19: 15 19:30 19:45 1 1101 14.52 14.52 14.51 14.51 14.50 14.50 14.49 14.49 14.49 14.48 2 1102 14.53 14.53 14.52 14.52 14.51 14.51 14.50 14.50 14.50 14.49 3 1089 14.57 14.57 14.57 14.57 14.56 14.56 14.57 . 14.56 14.57 14.57 4 1090 14.56 14.55 14.55 14.55 14.54 14.54 14.55 14.54 14 .. 55 14.55 5 2686 14.46 14.46 14.46 14.45 14.45 14.44 14.44 14.44 14.43 14.43 6 2687 14.58 14.58 14.57 14.57 14.56 14.56 14.55 14.55 14.55 14.55
22 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 3
1 2 LOCATION EL 276.5 EL 253 EL 253 SCAN 11 20:00 55.9 52.4 52.5 SCAN 12 20: 15 55.8 52.3 52.5 SCAN 13 SCAN 14 SCAN 15 20:30 55.8 52.2 52.3 20:45 55.7 52.1 52.2 CONTAINMENT TEMPERATURE 21:00 55.5 52.1 52.3 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 20 21:15 55.4 52.1 52.2 21:30 55.5 52.0 52.1 21:45 59.6 56.3 56.5 22:00 61.6 57.9 58.2 22: 15 62.3 57.7 58.7 4 EL 229.5 54.5 54.4 54.3 54.2 54.1 54.1 54.0 57.3 58.7 59.6 5 EL 229.5 52.4 52.4 52.3 52.2 52.1 52.1 52.0 56.0 57.8 58.2 6 EL 229.5 54.1 54.1 54.0 54.0 53.9 53.8 53.7 57.5 59.5 59.8 7 EL 203 53.7 53.6 53.5 53.4 53.3 53.2 53.2 56.7 58.3 58.9 8 EL 203 51.5 51.5 51.4 51.3 51.2 51.2 51.1 53.0 54.7 55.9 9 EL 203 52.8 52.7 52.7 52.5 52.6 52.4 52.4 54.8 56.4 57.4 10 EL 174 54.6 54.4 54.4 54.4 54.2 54.1 54.1 57.1 59.0 59.7 11 EL 174 53.3 53.3 53.2 53.1 53.1 53.0 52.9 57.0 58.8 59.4 12 EL 174 49.9 49.8 49.8 49.7 49.6 49.5 49.4 51. 7 53.8 54.5 13 EL 144.5 54.6 54.5 54.4 54.4 54.3 54.3 54.3 56.9 58.1 58.7 14 EL 144.5 52.7 52.6 52.5 52.4 52.3 52.2 52.2 55.6 56.9 57.7 15 EL 144.5 54.6 54.5 54.4 54.3 54.2 54.2 54.1 57.0 58.2 58.5 16 EL 120 54.7 54~6 54.4 54.4 54.5 54.7 54.5 57.5 58.2 58.3 17 EL 115 54.0 53.9 53.6 53.5 53.4 53.2 53.1 54.9 54.8 54.6 18 EL 103 53.7 53.7 53.4 53.4 53.3 53.1 53.2 53.9 53.9 53.8 19 EL 98 53.6 53.5 53.4 53.4 53.3 53.3 53.3 56.5 56.9 57.2 20 EL 1a3 57.3 57.0 57.a 56.8 56.9 56.8 56.7 57.3 57.2 57.2 21 EL 115 53.4 53.3 53.3 53.2 53.1 53.a 52.9 54.1 54.5 54.5 22 EL 88 52.7 52.7 52.6 52.5 52.4 52.3 52.3 53.3 53.9 53.9 23 EL 88 53.5 53.5 53.3 53.2 53.2 53.1 53.1 54.2 54.2 54.0 24 EL 60 54.4 54.3 54.3 54.2 54.2 54.1 54.0 54.5 54.6 54.6 25 AMB 58.1 58.1 58.2 58.1 . 58.2 58.2 58.3 58.3 58.2 58.2 26 GAS METER 49.1 49.1 49.1 49.1 49.1 49.2 49.2 49.2 . 49.3 49.3 DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 1a3 EL 174 EL 174 SCAN 11 20:00 42.a 41.8 42.1 41.9 42.1 SCAN 12 SCAN 13 SCAN 14 SCAN 15 20: 15 42.0 41.8 41.9
- 41. 7 42.1 2a:30 41.8
- 41. 7 41.9 41.9 42.1 20:45 41.8 41.6 41.8 41.6 42.1 21:00 41.8 41.6 41.6 41.6 41.9 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 2a 21: 15 41.7 41.5 41.6 41.3 41.9 21:30 41.6 41.5 41.6 41.4 41.7 21:45 42.9 42.5 42.3 42.6 43.1 22:aa 43.2 42.9 42.4 42.6 43.5 22: 15 43.4 42.8 42.5 43.2 43.5 6 NOT USED a.o a.o a.a o.a 0.0 a.a a.a a.o 0.0 a.o 7 EL 174 42.4 42.5 42.4 42.3 42.2 42.2 42.1 43.3 43.7 43.8 8 EL 1a3 42.6 42.5 42.4 42.3 42.3 42.2 42.2 42.2 41.9 42.0 9 EL 174 41.3 41.2 41.1 41.1 41.a 41.a 4a.8 42.1 42.5 42.5 10 SPARE a.a a.o 0.0 a.a a.o a.a a.o a.o a.a a.a 11 AMB 30.7 30.7 3a.8 29.9 29.8 27.3 33.3 31.0 29.6 30.7 12 SPARE a.o a.a a.o a.a 0.0 a.o o.o a.a a.a 0.0 13 SPARE 0.0 a.a a.a a.a a.o 0.0 a.o 0.0 0.0 0.0 PRESSURE psia SENSOR LOCATION SCAN 11 SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 20 20:00 20:15 20:30 20:45 21:00 21: 15 21:30 21:45 22:00 22: 15 1 1101 14.48 14.48 14.48 14.47 14.47 14.47 14.47 15.34 16.29 17.23 2 1102 14.49 14.49 14.49 14.48 14.48 14.48 14.48 15.35 16.30 17.23 3 1089 14.56 14.56 14.56 14.56 14.56 14.56 14.56 14.56 14.56 14.56 4 1090 14,54 14.55 14.54 14.54 14.54 14.54 14.55 14.55 14.54 14.54 5 2686 14.43 14.43 14.43. 14.42 14.42 14.42 14.42 15.29 16.24 17.17 6 2687 14.54 14.54 14.54 14.54 14.53 14.53 14.53 15.38 16.34 17.26
22 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 2
3 4 1 LOCATION EL 276.5 EL 253 EL 253 EL 229.5 SCAN 21 22:30 62.5 58.5 58.9 59.4 22:45 62.3 58.8 58.9 59.3 23:00 62.3 58.6 58.9 59.3 CONTAINMENT TEMPERATURE SCAN 22 SCAN 23 SCAN 24 23:15 58.4 54.3 54.8 56.3 SCAN 25 23:30 56.7 53.1 53.4 55.5 SCAN 26 SCAN 27 SCAN 28 23:45 56.2 52.6 52.8 54.6 00:00 56.0 52.2 52.5 54.4 00:15 55.7 52.0 52.3 54.1 SCAN 29 SCAN 30 00:30 55.6 51.9 52.1 54.0 OQ:45 55.2
- 51. 7 52.0 53.9 5 EL 229.5 58.6 58.7 58.6 54.6 53.2 52.7 52.4 52.2 52.0 51.8 6 EL 229.5 60.2 60.3 60.3 56.6 55 .1 54.5 54.2 53.9 53.7 53.6 7 EL 203 59.1 59.3 59.2 55.8 54.3 53.8 . 53.6 53.3 53.2 53.0 8 EL 203 56.2 56.8 56.4 54.2 52.8 52.1 51. 7 51.5 51.2 51.1
.9 EL 203 57.7 57.7 57.5 55.0 53.5 53.0 52.6 52.4 52.2 52.0 10 EL 174 59.9 59.9 60.0 56.9 55.4 54.8 54.6 54.3 54.2 54.0 11 EL 174 59.6 59.7 59.6" 55.5 54.0 53.5 53.3 53.0 52.8 52.7 12 EL 174 54.8 55.0 54.9 52.5 50.7 5a.1 49.8 49.5 49.4 49.3 13 EL 144.5 58.8 58.9 58.8 56.6 55.4 54.9 54.'6 54.4 54.2 54.1 14 EL 144.5 58.a 57.7 57.9 54.6 53.3 52.8 52.4 52.4 52.0 52.1 15 EL 144.5 59.0 58.7 58.6 56.6 55.2 54.7 54.3 54.1 54.a 53.8 16 EL 12a 58.8 58.4 58.3 55.7 55.1 54.8 54.7 54.3 54.2 54.1 17 EL 115 54.7 54.7 54.8 53.9 53.6 53.4 53.1 53.0 52.8 52.6 18 EL 103 53.7 53.5 53.3 52.4 52.1 52.0 51.9 51. 7 51.6 51.5 19 EL 98 57.5 57.3 57.2 54.7 54.0 53.7 53.6 53.1 53.1 53.0 20 EL 103 57.1 56.8 56.5 56.0 55.8 55.4 55.3 55.1 55.4 55.1 21 EL 115 54.5 54.4 54.4 53.5 53.2 53.0 52.8 52.7 52.5 52.4 22 EL 88 53.8 53.6 53.4 52.4 52.0 51.8 51.6 51.4 51.3 51.1 23 EL 88 53.9 53.7 53.7 52.9 52.7 52.5 52.3 52.2 52.1 52~0 24 EL 60 54.6 54.6 54.5 54.0 53.8 53.6 53.5 53.3 53.3 53.* 2 25 AMB 58.2 58.2 58.1 58.1 58.a 58.a 58.a 57.8 57.9 57.8 26 GAS METER 49.4 49.4 49.4 49.4 49.4 49.4 49.3 49.3 49.3 49.3 DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 21 22:30 43.2 42°.9 42.8 43.3 43.4 SCAN 22 SCAN 23 SCAN 24 SCAN 25 SCAN 26 SCAN 27 SCAN 28 SCAN 29 SCAN 30 22:45 43.3 43.1 42.8 43.6 43.7 23:0a 43.6 42.9 42.8 43.3 43.9 23: 15 42.6 42.2 42.4 42.2 42.7 23:30 42.2 42.1 42.4
- 42. 1 42.4 23:45 42.0 41.9 42.3 42.0 42.3 OO:ao 42.0 41.8 42.1 41.9 42.2 00: 15 42.0 41.8 42.1 41.8 42.1 00:3a 41.8 41.7 42.0 41.7 42.0 00:45 41.9 41.6 41.9
- 41. 7 42.0 6 NOT USED 0.0 a.o 0.0 o.a a.o o.a a.o a.o 0.0 a.o 7 EL 174 43.5 44.0 44.1 43.0 42.8 42.6 42.6 42.5 42.4 42.3 8 EL 1a3 42.1 42.2 42.4 42.6 42.8 42.7 42.6 42.5 42.4 42.4 9 EL 174 42.8 43.a 43.0 41.8 41.6 41.3 41.3 41.2 41.1 41.1 10 SPARE 0.0 a.o a.a o.a a.o a.a a.a o.a 0.0 0.0 11 AMB 26.7 19.7 24.2 29.1 27.9 28.6 21. 7 23.6 26.a 34.7 12 SPARE a.o a.a a.o o.a a.o o.a a.a a.a a.a o.o 13 SPARE a.a a.a 0.0 0.0 o.a a.a a.a a.a a.a 0.0 PRESSURE psia
-~
SENSOR LOCATION SCAN 21 SCAN 22 SCAN 23 SCAN 24 SCAN 25 SCAN 26 SCAN 27 SCAN 28 SCAN 29 SCAN 30 22:3a 22:45 23:00 23:15 23:30 23:45 oa:aa oa:15 aa:30 00:45 *1 1 1101 18.15 19.a7 19.96 19.91 19.90 19.88 19.88 19.8! 19.86 19.85 2 1102 18.16 19.a7 19.97 19.92 19.90 19.89 19.88 19.87 19.86 19.86
- 3. 1089 14.57 14.57 14.57 14.58 14.58 14.58 14.58. 14.58 14.58 14.58 4 1090 14.55 14.55 14.55 14.56 14.56 14.56 14.56 14.55 14.56 14.56 5 2686 18.1a 19.a1 19.91 19.87 19.85 19.84 19.83 19.82 19.81 19.81 6 2687 18.19 19 ..10 2a.oo 19.95 19.94 19.93 19.92 19.91 19.9a 19.89
23 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 1
2 3 LOCATION EL 276.5 EL 253 EL 253 SCAN 31 01:00 55.3 51 .6 51.8 01:15 55.0 51.5 51.7 01:30 51.4 51.6 CONTAINMENT TEMPERATURE SCAN 32 SCAN 33 SCAN 34 SCAN 35
- 55. 1 01:45 58.8 54.9 55.4 02:00 59.9 55.9 56.4 SCAN 36 SCAN 37 SCAN 38 SCAN 39 SCAN 40 02:15 60.3 56.5 56.8 02:30 60.5 56.0 56.8 02:45 60.4 55.8 56.3 03:00 60.2 55.5 56.7 03: 15 60.2 55.7 56.7 4 EL 229.5 53.6 53.6 53.5 56.4 57 ~3 57.6 58.2 57.9 58.0 57.9 5 EL 229.5 51. 7 51.6 51.5 55.1 56. 1 56.5 56.6 56.3 56.4 56.3 6 EL 229.5 53.4 53.3 53.2 56.7 57.8 58.2 58.3 58.3 58.2 58.0 7 EL 203 52.8 52.8 52.7 55.7 56.7 57. 1 57.3 S7.4 S7.3 57.2 8 EL 203 S0.9 S0.8 50.7 52.8 S4. 1 S4.S 54.8 ss.o ss.o SS. 1 9 EL 203 S2.0 51.9 S1.7 S4.0 55.4 55.8 56. 1 56.3 56.0 56. 1 10 EL 174 53.9 53.8 S3.6 56.3 57.6 57.9 58. 1 58. 1 58. 1 58. 1 11 EL 174 52.6 52.5 52.5 55.9 57.0 57.4 57.5 57.6 57.4 57.3 12 EL 174 49. 1 49.0 48.9 51.3 52.5 52.9 53.0 53.2 53. 1 53.,
13 EL 144.5 . 54.0 53.9 53.8 56.3 56.9 57.3 57.3 57.4 57.3 57.3 14 EL 144.5 51.9 51.8 51.8 54.8 55.5 56. 1 55.8 56.4 55.7 S5.8 15 EL 144.5 53.8 53.6 53.5 56.9 57.4 57.4 58.0 57.8 57.6 57.9 16 EL 120 53.8 53.8 53.6 56.5 56.5 56.7 56.6 56.6 56.5 56.5 17 EL 115 52.5 52.4 52.3 53.6 53.7 53.7 53.6 53.8 53.7 53.7 18 EL 103 51.4 51.3 51.2 51.9 51.9 51.9 51. 7 51.7 51.5 51.5 19 EL 98 52.7 52.7 52.6 55.4 55.4 55.4 55.7 55.3 55.4 55.5 20 EL 103 55.0 54.8 54.8 55.1 55.0 54.8 54.6 54.5 54.3 54.1 21 EL 115 52.3 52.2 52.1 53.3 . 53.3 53.0 53.0 52.9 53.0 52.9 22 EL 88 51.0 50.9 50.9 52.0 52.1 52.0 51.8 51.7 51 .6 51.4 23 EL 88 51.9 51.9 51.8 52.6 52.6 52.5 52.5 52.4 52.2 52.2 24 EL 60 53. 1 53.0 53.0 S3.4 53.5 53.5 53.4 53.4 53.3 53.2 25 AMB 58.0 57.9 58.0 58.0 58.0 57.9 57.8 S8.1 57.7 57.7 26 GAS METER 49.3 49.3 49.4 49.4 49.4 49.4 49.4 49.4 49.4 49.4 DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 31 01:00 41.7 41.6 42.D 41.7 41.9 SCAN 32 SCAN 33 SCAN 34 SCAN 35 SCAN 36 SCAN 37 SCAN 38 SCAN 39 SCAN 40 01: 15 41.5 41.S 41.8 41.6 41.9 01:30 41.3 41.6 41.8 41.7 41.9 01:45 42.7 42.4 42.2 42.3 42.8 02:00 43.0 42.4 42.3 42.S 43.2 02:15 43.1 42.5 42.3 42.9 43.2 02:30 42.9 42.4 42.1 42.8 43.1 02:45 42.5 42.8 42.2 43.0 43.2 03:00 43.2 42.9 42.2 43.1 43.3 03: 15 43.2 43.0 42.5 43.1 43.4 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 7 EL 174 42.3 42.2 42.3 43.2 43.4 43.5 43.S 43.4 43.7 43.5 8 EL 103 42.4 42.3 42.4 41.9 42.0 41.9 41.9 42.3 42.4 42.4 9 EL 174 41.1 41.0 41.1 41.7 42.0 42.2 42.3 42.4 42.5 42.6 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 11 AMB 48.5 51.5 52.4 55.6 55.9 47.8 43.5 31.0 29.9 29.3 12 SPARE 0.0 0.0 o.o 0.0 0.0 o.o o.o 0.0 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 PRESSURE psia SENSOR LOCATION SCAN 31 SCAN 32 SCAN 33 SCAN 34 SCAN 35 SCAN 36 SCAN 37 SCAN 38 SCAN 39 SCAN 40 01:00 01:15 01:30 01:45 02:00 02:15 02:30 02:45 03:00 03: 15 1 1101 19.85 19.84 19.88 20.92 21.86 22.79 23.70 24.62 25.54 26.46 2 1102 19.86 19.85 19.88 20.92 21.87 22.80 23.72 24.65 25.56 26.48 3 1089 14.59 14.59 14.60 14.60 14.61 14.61 14.61 14.61 14.61 14.61 4 1090 14.57 14.58 14.S8 14.58 14.59 14.59 14.58 14.S9 14.59 14.59 5 2686 19.80 19.80 19.83 20.86 21.81 22.73 23.66 24.58 25.50 26.42 6 2687 19.89 19.89 19.92 20.95 21.90 22.83 23.75 24.68 25.59 26.53
23 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 3
1 2 LOCATION EL 276.S EL 253 EL 253 SCAN 41 03:30 60.1 55.6 56.1 03:45 60.0 55.6 56.3 04:00 59.9 55.3 56.3 CONTAINMENT TEMPERATURE SCAN 42 SCAN 43 SCAN 44 SCAN 45 SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN 50 04:15 59.8 55.5 56.2 04:30 59.7 55.4 56.0 04:45 59.6 55.4 55.9 05:00 59.5 55 .1 55.9 05: 15
-59.3 55.0 55.8 05:30 59.1 55.2 55.6 05:45 59.0 54.9 55.S 4 EL 229.S 57.8 57.7 57.7 57.6 57.5 57 .1 57.2 56.8 57.1 57.0 5 EL 229.S 56.1 56.0 56.1 56.0 55.8 55.7 55.7 55.5 55.5 55.3 6" EL 229.5 58.1 57.9 57.8 57.7 57.4 57.5 57.4 57.3 57.2 57.0 7 EL 203 57.2 57 .1 56.9 56.8 56.7 56.7 56.6 56.5 56.3 56.2 8 EL 203 54.9 55.0 55.0 54.9 54.8 54.7 54.7 54.6 54.5 54.4 9 EL 203 56.1 55.9 55.8 55.7 55.6 55.6 55.5 55.4 55.3' 55.1 10 EL 174 58.0 57.9 57.9 57.8 57.7 57.6 57.5 57.4 57.3 57.0 11 EL 174 57.3 56.8 57.0 56.9 56.8 56.6 56.6 56.S 56.0 56.0 12 EL 174 53. 1 52.9 52.9 52.8 S2.8 S2.6 S2.S S2.S S2.4 S2.2 13 EL 144.S S7.2 S7.3 S7.0 S7. 1 S7.0 S6.9 S7.0 S6.9 S6.6 S6.4 14 EL 144.S SS.7 SS.7 SS.7 SS.7 SS.6 S5.4 S5.4 55.3 S4.9 S4.7 1S EL 144.S S7.4 57.3 S7.8 57.3 56.9 56.6 56.5 56.5 56.4 56. 1 16 EL 120 56.4 56.4 56.4 56.3 56.2 56.3 56.3 56.2 56.0 55.6 17 EL 115 53.6 53.5 53.4 53.3 53.2 53.1 53.1 53.0 52.9 52.9 18 EL 103 51.4 51.4 51.2 51.2 51.2 51.2 51.2 51.0 51.0 50.9 19 EL 98 55.2 55.3 55.2 55.3 55.2 55.2 55.2 55.1 54.9 54.6 20 EL 103 54.1 53.7 53.9 53.7 53.7 53.7 53.5 53.4 53.3 53.1 21 EL 115 52.9 52.9 52.9 52.8 52.8 52.8 52.8 52.8 52.7 52.6 22 EL 88 51.3 51.2 51. 1 51.0 50.9 50.8 50.7 50.6 50.4 50.3 23 EL 88 52.2 52.1 52.0 S2.0 52.0 52.0 52.0- 51.9 51.8 51.8 24 EL 60 53.2 53.1 - 53.1 53.0 53.0 53.0 52.9 52.9 52.8 52.7 25 AMB 58.0 57.5 57.6 . 57.4 57.3 57.3 57.2 57.3 57.1 57.2 26 GAS METER 49.4 49.4 49~4 49.4 49.4. 49.3 49.2 49.1 49.0 49.1 DEW POINT TEMPERATURE
- SENSOR LOCATION 1 EL 241 2 EL 241 3 EL 103 4 EL 174
*5 *EL 174 SCAN 41 03:30 43.2 43.0 42.6 43.0 43.2 SCAN 42 SCAN 43 SCAN 44 SCAN 45 03:45 43.2 43.0 42.6 43.1 43.3 04:00 43.4 42.8 42.7
- 43. 1 43.S 04: 15 43.2 43.1 43.0 43.0 43.4 04:30 43.3 43.1 43.2
- 43. 1 43.6 SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN SO 04:45 43.4 43.2 43.4 43.1 43.6 05:00 43.6 43.4 43.4
- 44. 1 43.9 05: 15 43.7 43.5 43.4 43.4 44.0 05:30 44.0 43.7 43.3 43.6 44.0 05:4S 43.6 43.6 43.3 43.4
- 44. 1 6 NOT USED 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 7 EL 174 43.6 43.7 43.8 43.8 43.9 44.0 44. 1 44.4 44.4 44.3 8 EL 103 42.3 42.5 42.5 42.8 43. 1 43.2 43.3 43.3 43.3 43.4 9 EL 174 42.7 42.5 42.6 42.4 42.7 42.6 42.9 43.0 42.9 42.9 10 SPARE 0.0 o.o 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 11 AMB 28.9 28.4 27.5 27.6 27.0 26.4 25.9 25.3 24.7 24.5 12 SPARE 0.0 0.0 0.0 0.0 o.o 0.0 o.o 0.0 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 o.o 0.0 o.o o.o 0.0 PRESSURE psia SENSOR LOCATION SCAN 41 SCAN 42 SCAN 43 SCAN 44 SCAN 45 SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN SO 03:30 03:45 04:00 04:15 04:30 04:45 05:00 05: 15 05:30 05:45 1 1101 27.38 28.30 29.21 30. 13 31.04 . 31.94 32.85 33.76 34.66 35.56 2 1102 27.40 28.31 29.22 30. 14 31.05 31.95 32.85 33.76 34.66 35.56 3 1089 14.61 14.61 14.61 14.62 14.62 14.62 14.63 14.63 14.64 14.64 4 1090 14.59 14.59 14.59 14.60 14.60 14.60 14.61 14.61 14.62 14.62 5 2686 27.34 28.25 29.16 30.07 30.98 31.89 32.79 33.70 34.60 35.50 6 2687 27.43 28.35 29.25 30.17 31.08 31.98 32.89 33.80 34.70 35.60
23 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 1
2 3 LOCATION EL 276.S EL 253 EL 253 SCAN 51 06:00 58.9 54.4 5~.3 06:1S 58.7 54.7 SS. 1 06:30 58.6 54.4 55.0 CONTAINMENT TEMPERATURE SCAN 52 SCAN 53 SCAN 54 SCAN 55 06:4S 58.5 S4.3 54.9 07:00 58.3 54.0 54.7 SCAN 56 SCAN 57 SCAN S8 SCAN 59 SCAN 60 07:15 S8. 1 53.9 54.6 07:30 58.0 53.S S4.4 07:4S S7.8 S3.6 S4.3 08:00 57.6 S3.5 S4. 1 08:1S S7.S 53.S 53.9 4 EL 229.5 56.6 56.7 56.6 56.S 56.3 56.2 S6.0 5S.8 55.8 SS.6 5 EL 229.S 55.2 55.0 54.6 54.7 S4.S 54.2 S4.2 S4.1 53.9 53.7 6 EL 229.5 S6.8 56.6 S6.6 S6.4 56.3 S6.1 56.0 SS.8 5S.7 5S.S 7 EL 203 56.0 55.9 55.8 5S.6 55.5 5S.4 5S.2 ss.o S4.9 54.7
- 8. EL 203 54.2 54. 1 S3.8 53.8 53.6 S3.S 53.3 S3.2 S3.0 52.8 9 EL 203 5S.O 54.9 54.7 54.6 54.S 54.4 S4.2 54.0 S3.9 53.8 10 EL 174 56.9 S6.8 56.7 56.5 56.S 56.4 56.2 SS.9 5S.8 55.6 11 EL 174 5S.9 55.7 55.6 55.5 55.3 55.1 5S.O S4.9 S4.7 54.S 12 EL 174 52.0 52.0 51.9 51.7 51.S 51.4 51.2 S1.1 51.0 50.8 13 EL 144.5 56.S 56.2 56.1 56.1 55.9 5S.8 SS.8 SS.S SS.4 55.2 14 EL 144.S 54.9 54.6 54.4 54.S 54.3 54.1 S3.9 53.9 53.7 53.S 15 EL 144.S 56.0 56.2 55.7 55.7 55.5 5S.4 SS.3 SS.2 55.0 54.8 16 EL 120 5S.9 55.6 5S.4 55.5 55.4 55.2 SS.1 54.9 54.7 54.7 17 EL 115 52.8 52.7 52.6 52.5 52.4 52.3 S2.2 52.1 S1.9 51.8 18 EL 103 50.8 50.7 50.5 50.S 50.4 50.2 50.1 49.9 49.8 49.6 19 EL 98 54.7 54.6 54.4 54.2 54.1 53.9 S3.9 S3.7 53.5 53.S 20 EL 103 52.9 52.9 52.7 52.6 52.4 52.4 S2.3 52.0 51.9 51.5 21 EL 115 52.S 52.5 52.4 52.4 52.4 52.4 - 52.2 52.1 52.1 52.0 22 EL 88 50.2 50.1 -so.a 49.9 49.7 49.6 49.4 '49.4 49.2 49.0 23 EL 88 51.6 51.6 51.5 51.4 51.3 S1.2 51.2 S1.0 50.9 50.8 24 EL 60 52.6 52.5 52.5 52.4 52.3 52.2 S2.1 51.9 51.8*. 51.7 2S AMS -S7. 1 57.0 57.0 56.8 56.8 56.7 56.6 56.6 56.S 56.6 26 GAS METER 49.1 49.1 49.1 49.1 49.1 49.0 49.0 49.0* 49.0 48.9 DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN S1 06:00 43.9 43.5 43.4 43.4 43.9 SCAN 52 SCAN 53 SCAN 54 06:15 43.8 43.6 43.4 43.4 44.0 06:30 43.6 43.6 43.1 43.4 44.0 06:45 43.7 43.5 43.2 43.4 43.9 SCAN 55 SCAN 56 SCAN S7 SCAN S8 SCAN 59 SCAN 60 07:00 43.7 43.3 43.1 43.1 43.9 07:15 43.3 43.2 43.0 42.9 43.6 07:30 43.3 43.1 43.0 43.3 43.4 07:4S 43.3 42.9 42.9 43.8 43.4 08':00 43.1 43.0 42.8 42.6 43.3 08:1S 43.1 42.7 42.5 42.S 43.3 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 7 EL 174 44.2 44.2 44.3 44.3 44.2 43.9 43.8 43.7 43.S 43.6 8 EL 103 43.3 43.3 43.2 43.3 43.1 43.0 42.9 42.8 42.7 42.6 9 EL 174 43.0 43.0 43.2 42.7 42.6 42.4 42.3 42.2 42.2 42.0 10 SPARE 0.0 0.0 0.0 0.0 0.0 o.o 0.0 o.o 0.0 0.0 11 AMS 23.5 22.4 21.9 21.S 21.5 21.2 20.1 19.S 18.8 18.3 12 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 o.o 0.0 o..o 0.0 . O.O PRESSURE psia SENSOR LOCATION SCAN 51 SCAN 52 SCAN 53 SCAN 54 SCAN 5S SCAN 56 SCAN S7 SCAN S8 SCAN 59 SCAN 60 06:00 06:15 06:30 06:45 07:00 07:1S 07:30 07:45 08:00 08: 15 1 1101 36.46 37.36 38.25 39.14 40.03 40.92 41.81 42.70 43.59 44.48 2 1102 36.46 37.36 38.26 39.16 40.0S 40.94 41.83 42.n 43.60 44.49 3 1089 14.64 14.65 14.65 14.66 14.67 14.67 - 14.67 14.68 14.68 14.68 4 1090 14.62 14.63 14.63 14.64 14.64 14.65 14.6S 14.6S 14.6S 14.6S 5 2686 36.40 37.30 38.20 39.09 39.99 40.87 41.77 42.64 43.54 44.41 6 2687 36.50 37.40 38.29 39.19 40.09 40.97 41.87 42.75 43.65 44.53
23 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 1
2 3 LOCATION EL 276.5 EL 253 EL 253 SCAN 61 08:30 57.6 52.6 54.1 08:45 57.9 53.4 54.3 09:00 58.0 54.0 54.5 CONTAINMENT TEMPERATURE SCAN 62 SCAN 63 SCAN 64 SCAN 65 SCAN 66 SCAN 67 SCAN 68 SCAN 69 SCAN 70 09:15 58.0 54.3 54.5 09:30 58.0 53.5 54.5 09:45 57.9 53.4 54.4 10:00 57.9 53.3 54.3 10: 15 57.8 53.3 54.3 10:30 57.7 53.7 54.2 10:45 57.7 53.5 54.1 4 EL 229.5 55.4 55.8 55.3 55.1 55.7 55.6 55.7 55.6 55.5 55.3 5 EL 229.5 53.7 54.0 54.3 54.3 54.2 54.1 54.0 54.1 54.0 53.9 6 EL 229.5 55.6 55.8 56.1 56.1 . 56.0 56.0 55.9 55.8 . 55.8 55.5 7 EL 203 54.8 55.1 55.2 55.3 55.2 55.2 55.2 55.0 55.0 54.9 8 EL 203 53.0 53.2 53.1 53.1 53.2 53.2 53.0 53.1 53.0 53.0 9 EL 203 53.9 54.2 54.1 54.1 54.3 54.2 54.2 54.2 54.0 53.9 10 EL 174 55.9 56.2 56.3 56.2 56.2 56.2 56.1 56.0 56.0 56.0 11 EL 174 54.9 55.1 55.3 55.3 55.2 55.1 55.1 55.1 55.0 54.9 12 EL 174 51.0 51.4 51.5 51.5 51.5 51.4 51.3 51.3 51.2 51.2 13 EL 144.5 55.7 55.9 55.8 55.8 55.9 55.6 55.7 55.6 55.6 55.5 14 EL 144.5 53.9 54.4 54.5 54.3 54.4 54.2 54.3 54.1 53.9 54.0 15 EL 144.5 55.2 55.7 55.7 55.8 55.6 55.6 55.4 55.4 55.4 55.6 16 EL 120 54.8 55~2 55.0 54.9 54.9 54.8 55.0 54.7 54.8 54.7 17 EL 115 51.7 51.8 51. 7 51.7 51.6 51.5 51.4 51.4 51.4 51.3 18 EL 103 50.0 50.1 49.9 49.9 50.0 49.9 49.8 49.8 49.9 49.9 19 EL 98 53.4 53.7 53.6 53.6 53.6 53.4 53.6 53.5 53.6 53.3 20 EL 103 52.2 52.1 52.0 51.9 51.6 51.2 51.6 51.5 51.8 51.5 21 EL 115 51.9 52.1 52.1 52.0 52.0 51.9 52.0 51.9 51.8 51.9 22 EL 88 48.8 48.7 48.6 48.5 48.4 48.3 48.3 48.2 48.3 48.3 23 EL 88 50.9 51.0 51.0 51.0 50.9 50.9 50.8 50.8 51.0 50.9 24 EL 60 51.8 51. 7 51.7 51. 7 51.6 51.5 51.5 51.4 51.5 51.4 25 AMS 56.7 56.7 56.7 56.8. 56.8 56.9 57.0 56.8 56.8 56.8 26 GAS METER 48.9 49.0 48.9 49.0 48.9 48.9 48.9 48.9 48.9 48.9 DE~ POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 61 08:30 43.0 42.7 42.5 42.7 43.3 SCAN 62 SCAN 63 SCAN 64 SCAN 65 SCAN 66 SCAN 67 SCAN 68 SCAN 69 08:45 42.6 42.8 42.5 42.8 43.3 09:0Q 43.1 42.5 42.4 43.0 43.3 09:15 43.4 42.7 42.4 42.8 43.4 09:30 42.8 42.8 42.3 42.8 43.4 09:45 42.8 42.6 42.4 42.8 43.4 10:00 43.0 42.6 42.5 42.6 43.3 10:15 42.9 42.8 42.5 42.7 43.3 10:30 43.1 42.9 42.8 42.9 43.5 SCAN 70 10:45 43.3 42.9 42.7 43.4 43.5 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 7 EL 174 43.5 43.6 43.7 43.7 43.7 43.7 43.7 43.6 43.8 43.8 8 EL 103 42.5 42.5 42.6 42.5 42.5 42.5 42.6 . 42.5 42.9 42.9 9 EL 174 42.2 42.1 42.3 42.3 42.1 42.3 42.~ 42.2 42.5 42.6 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 11 AMS 18.3 17.7 18.0 17.7 18.1 19.3 20.3 20.4 20.9 20. 1 12 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 PRESSURE psia SENSOR
- LOCATION SCAN 61 SCAN 62 SCAN 63 SCAN 64 SCAN 65 SCAN 66 SCAN 67 SCAN 68 SCAN 69 SCAN 70 08:30 08:45 09:00 09: 15 09:30 09:45 10:00 10: 15 10:30 10:45 1 1101 45.40 46.31 47.20 48.09 48.96 49.83 50.70 51.57 52.45 53.31 2 1102 45.41 46.32 47.21 48.10 48.98 49.86 50.73 51.60 52.48 53.34 3 1089 14.68 14.68 14.69 14.69 14.69 14.70 14.70 14.70 14.70 14. 70 4 1090 14.66 14.66 14.67 14.67 14.66 14.67 14.68 14.67 14.67 14.67 5 2686 45.33 46.24 47.13 48,02 48.89 49.78 50.64 51.52 52.39. 53.26 6 2687 45.44 46.36 47.23 48.14 49.00 49.90 50.77 51.64 52.53 53.38
23 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 1
2 3 LOCATiON EL 276.5 EL 253 EL 253 SCAN 71 11:00 57.6 52.9 54.1 SCAN 72 11:15 57.5 53.3 54.0 57.4 53.3 53.9 CONTAINMENT TEMPERATURE SCAN 73 SCAN 74 SCAN 75 11 :30 11:45 57.4 53.3 53.9 12:00 57.3 53.4 53.9 SCAN 76 12:15 57.2 53.5 53.8 SCAN n 12:30 57.3 53.2 53.8 SCAN 78 SCAN 79 12:45 57.2 53.2 53.7 13:00 57.1 53.3 53.7 SCAN 80 13: 15 57.1 53.1 53.6 4 EL 229.5 55.5 55.5 55.4 55.4 55.5 55.4 55.4 55.4 55.3 55.3 5 EL 229.5 53.9 53.7 53.8 53.7 53.7 53.7 53.6 53.6 53.5 53.4 6 EL 229.5 55.6 55.5 55.4 55.4 55.4 55.3 55.3 55.3 55.2 55 .1 7 EL 203 54.8 54.7 54.7 54.7 54.6 54.6 54.5 54.5 54.4 54.4 8 EL 203 53.0 52.8 52.9 52.8 52.8 52.8 52.7 52.7 52.6 52.6 9 EL 203 53.9 53.9 53.8 53.7 53.7 53.7 53.6 53.6 53.5 53.4 10 EL 174 55.9 55.8 55.7 55.7 55.7 55.6 55.6 55.5 55.5 55.4 11 EL 174 54.7 54.7 54.5 54.6 54.5 54.4 54.4 54.3 54.2 54.1 12 EL 174 51.0 51.0 50.9 50.9 50.9 50.9 50.9 50.8 50.8 50.7 13 EL 144.5 55.3 55.3 55.2 55.2 55.3 55.2 55.2 55.1 55.1 55.0 14 EL 144 .5 53.8 53.9 53.6 53.7 53.7 53.5 53.6 53.4 53.4 53.3 15 EL 144.5 55.3 55.2 55.7 55.5 55.6 55.1 55.4 55.1 55.0 55.0 16 EL 120 54.8 54.8 54.4 54.6 54.6 54.6 54.5 54.5 54.5 54.4 17 EL 115 51.3 51.3 51.2 51.2 51.3 51.2 51.3 51.2 51.2 51.2 18 EL 103 49.9 49.9 49.9 50.1 50.1 50.1 50.2 50.2 50.2 50.1 19 EL 98 53.5 53.6 53.3 53.4 53.2 . 53.3 53.2 53.2 53.2 53.0 20 EL 103 51.2 51.5 51.4 51. 7 51.7 51.9 51. 7 51.9 51.6 51.8 21 EL 115 51.8 51.8 51.7 51.7 51.7 51.6 51.6 51.5 51.5 51.5 22 EL 88 48.3 48.3 48.3 48.4 48.4 48.4 48.5 48.5 48.5 48.6 23 EL 88 50.9 50.9 50.9 51.0 51.0 51.1 51.1 51.1 51.1 51.1 24 EL 60 51.4 51.4 51.5 51.5 51.6 51.6 51.7 51.6 51.7 51. 7 25 AMB 56.7 56.9 57.0 57.1 57.2 57.2 57.3 57.4 57.4 57.4 26 GAS METER 48.8 48.8 48.9 48.9 48.9 49.0 49.1 49*.2 49.3 49.4 DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 71 11:00 43.2 42.9 42.8 42.9 43.4 SCAN 72 SCAN 73 SCAN 74 SCAN 75 SCAN 76 SCAN n 11: 15 43.2 42.9 43.1 42.8 43.4 11:30 43.3 43.1 43.1 42.3 43.6 11:45 43.1 43.2 43.3 43.2 43.8 12:00 43.6 43.3 43.4 43.6 43.8 12:15 43.8 43.6 43.7 43.6 44.1 12:30 44.0 43.8 43.7 44.1 44.4 SCAN 78 SCAN 79 12:45 44.0 43.8 44.0 44.2
.44.4 13:00 44.1 44.0 44.0 44.0 44.5 SCAN 80 13: 15 44.2 44.0 44.1 44.1 44.5 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 7 EL 174 43.8 43.8 44.0 44.1 44.3 44.4 44.6 44.7 44.8 44.7 8 EL 103 43.0 43.1 43.5 43.7 43.9 44.1 4.4.1 44.2 44.2 44.4 9 EL 174 42.3 42.5 42.7 42.8 42.9 43.1 .43~4 43.4 43.5 43.6 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 11 AMB 20.3 20.6 20.2 20.2 19.9 20.3 20.0 19.7 19.9 19.6 12 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 13 SPARE 0.0 a.a a.a o.a a.a a.a a.a a.a a.o a.o PRESSURE psia SENSOR LOCATION SCAN 71 SCAN n SCAN 73 SCAN 74 SCAN 75 SCAN 76 SCAN n SCAN 78 SCAN 79 SCAN.BO 11:00 11:15 11:3a 11:45 12:aa 12:15 12:30 12:45 13:ao 13: 15 .
1 1101 54.18 55.04 55.91 56.78 57.63 58.49 59.33 60.18 61.02 61.86 2 11a2 54.21 55.07 55.93 56.80 57.66 58.50 59.35 60.20 61.a5 61.88 3 1a89 14.69 14.70 14.7a 14.7a 14.70 14.70 14.70 14.7a 14.69 14.69 4 1090 14.67 14*.68 14.67 14.68 14.68 14.67 14.67 14.67 14.67 14.66 5 2686 54.12 54.98 55.85 56.7a 57.57 58.41 59.27 60.12 60.96 61.80 6 2687 54.24 55. 11 55.97 56.83 57. 71 58.55 59.39 60.24 61.06 61.92
23 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 1
2 3 LOCATION EL 276.5 EL 253 EL 253 SCAN 81 13:30 57.1 53.a 53.6 13:45 56.2 52.3 52.8 CONTAINMENT TEMPERATURE SCAN 82 SCAN 83 SCAN 84 SCAN 85 SCAN 86 SCAN 87 SCAN 88 SCAN 89 SCAN 90 a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a
. a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a 4 EL 229.5 55.1 54.4 a.a a.a a.a a.a a.a a.a a.a a.a 5 EL 229.5 53.2 52.3 a.a a.a a.a a.a a.a a.a a.a a.a 6 EL 229.5 55.2 54.3 a.a a.a a.a a.a a.a a.a a.a a.a 7 EL 203 54.4 53.6 a.a a.a a.a a.a a.a a.a a.a a.a 8 EL 203 52.4 51.7 a.a a.a a.a a.a a.a a.a a.a a.a 9 EL 203 53.4 52.7 a.a a.a a.a a.a a.a a.a a.a a.a 10 EL 174 55.4 54.7 a.a a.a a.a a.a a.a a.a a.a a.a 11 EL 174 54.2 53.3 a.a a.a a.a a.a a.a a.a a.a a.a 12 EL 174 50.6 so.a a.a a.a a.a a.a a.a a.a a.a a.a 13 EL 144.5 55.0 54.5 a.a a.a a.a 0.0 a.a a.a a.a a.a 14 EL 144.5 53.3 52.7 a.a a.a a.a a.a a.a a.a a.a 0.0 15 EL 144.5 54.7 54.3 0.0 a.a a.a o.o o.o a.a a.a 0.0 16 EL 120 54.3 53.7 a.a 0.0 0.0 a.a a.a 0.0 o.o 0.0 17 EL 115 51.1 50.9 a.a a.a a.a o.o a.a a.a a.a o.a 18 EL 103 50.2 49.9 0.0 a.a 0.0 0.0 a.a a.a a.a a.a 19 EL 98 53.0 52.3 a.a a.a a.a 0.0 a.a a.a a.a o.a 20 EL 103 51. 7 51.5 a.a a.a a.a a.a o.o a.a a.a a.a 21 EL 115* 51.3 51.3 a.a 0.0 . a.a a.a a.a a.a a.a a.a 22 EL 88 48.5 48.4 a.a 0.0 0.0 0.0 o.o a.a a.a o.o 23 EL 88 51.1 50.8 0.0 a.a 0.0 a.a a.a a.a a.a a.a 24 EL 60 51. 7 51.5 a~o a.a o.a a.a o.o 0.0 0.0 a.o 25 AMB 57.7 57.7 0.0 0.0 o.o 0.0 o.o o.o o.o 0.0 26 GAS METER 49.5 49.6 0.0 o.o 0.0 0.0 o.o o.o o.o a.a DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 81 13:30 44.2 44.0 44.0 44.2 44.6 SCAN 82 SCAN 83 SCAN 84 SCAN 85 SCAN 86 SCAN 87 SCAN 88 SCAN 89 SCAN 90 13:45 44.1 43.9 44.0 43.9 44.4 a.a 0.0 0.0 0.0 a.o a.a 0.0 0.0 0.0 0.0 a.a 0.0 0.0 0.0 0.0 a.o 0.0 0.0 0.0 0.0 0.0 a.a 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 a.a 0.0 a.o a.o o.o a.a a.a o.o o.a a.o 6 NOT USED 0.0 0.0 0.0 0.0 o.a 0.0 0.0 0.0 0.0 0.0 7 EL 174 44.9 44.7 o.a 0.0 0.0 0.0 0.0 a.a 0.0 a.a 8 EL 103 44.5 44.4 a.a a.a 0.0 0.0 0.0 0.0 a.a a.a 9 EL 174 43.4 43.5 a.a a.a 0.0 0.0 o.o 0.0 a.a a.a 10 SPARE a.a 0.0 a.a 0.0 0.0 0.0 o.o 0.0 0.0 a.a 11 AMB 20.0 19.7 o.o a.a 0.0 0.0 0.0 o.o 0.0 a.a 12 SPARE 0.0 a.a 0.0 o.o o.o o.o o.o o.o a.a a.a 13 SPARE a.a 0.0 a.a o.o o.o o.o 0.0 o.o 0.0 a.a PRESSURE psia SENSOR LOCATION SCAN 81 SCAN 82 SCAN 83 SCAN 84 SCAN 85 SCAN 86 SCAN 87 SCAN 88 SCAN 89 SCAN 90 .-0 13:30 13:45 . , 1 1101 62.70 63.03 0.00 0.00 o.ao 0.00 0.00 0.00 0.00 0.00 2 1102 62.72 63.05 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 3 1089 14.69 14.69 0.00 0.00 o.oo 0.00 0.00 0.00 0.00 0.00 4 1090 14.67 14.67 0.00 0.00 a.oo o.oo 0.00 0.00 0.00 0.00 5 2686 62.63 62.97 0.00 0.00 o.oo o.oo 0.00 0.00 0.00 0.00 6 2687 62.75 63.07 0.00 0.00 o.oo 0.00 0.00 0.00 0.00 0.00
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- SALEM GENERAT!~ STAT!ON IJ~[T MASS PLOT DATA - USING WEIGH FACTOR FILE: WE!GH2 2
23 M~r 1'" 0 2 AMBIENT CONTAINMENT SCAN T[ME PRESS TEMP TEMP DEW PT PPESS MASS LEAK RATE UCL 9?'!11 CALC MASS
~o. Hour Ps1a DeaF DeaF OeaF Ps1a Lbm Lbm/Hr lVOav Lbm/Hr %/Dav LiJFTI 18:15 14.74 57.94 50.44 43.58 62.94 870626 0.00 0.000 0.00 0. 00 0 - 18:3Q *1 14.74 57. 06 50.47 43.63 62.95 870602 1).1)0 0.000 0. 00 0. 01) ~ 1~: 4;;; 14. 75 57. 88 51). 45 43.61 62.94 870604 0. IJO 0.000 0.00 0.00 (J. 1Q:01) 14. 75 57. 78 50. 44 43. 57 62.94 870587 0. 00 0.000 0. 00 0.00 >; 19:15 1'1.76 li7. 81 50.41 <i3.58 62.94 870590 0.00 0.000 0.00 0.00 0
- ~
7 l O: ~~ 1°:a5 14.76 14.76 57.81
- 57. 76
~0.<10 50.38 43.72 43.46 62.93 ~2.93 870?66 870?75 -40.)7 -33.93 .111 . 094 -60.35 -50 .16 .17 .14 *P!J570 871]567 ~ 2*:1: Qi) 14. 77 57. 7.7 50. 36 43.44 62.93 870592 -22.86 .063 -42.24 .12 870573 (J
2~:15 l<i. 77 57. 66 51J.35 . 43. 43 62.93 870595 -15.41 .042 -33 .13 .09 970577 1~ 21!: 31) 14.78 '7.68 50.34 43.42 62.93 870545 -21.58 .059 -37.63 . 10 970564 11 21):45 14.78 57.69 50.28 43.36 62.92 870576 -18.43 . 051 -31.93 .09 871)564
. I? 21:00 !a.78 57.67 50.24 43.33 62.91 870563 -17. 81 .049 -28.91 .08 j71Jli61 13 2!: 15 14 ..79 57. 65 50.21 43.22 62.91 870570 -16.03 . 044 -2~.~;7 .07 e105~0 ! ci 21:30 14. 79 57.63 50.18 43.17 62.90 870539 -17.91 . 049 -26.33 .O? ~ 7 0552
- 11;
~~
2! :a,i; 2~:QO
!a. 79 la.79
- 57. 'iii 9.51
~0.12 50.11 43 .12 43.10 62.91) 62.90 870589 870586 -13.74 -10.89 . 038 .030 -22.65 -19.39 .06 .oi; 87055 7 ~ . 1 0~,, 1
- SALEM GENERAT!NG STAT!ON UNIT 2 MASS PLOT DATA - USING WEIGH FACTOR FILE: !1JEIGH2 2:' Ma~ 1~"2 AMB!E"lT CONTAINMENT SCAN TIME PRESS TEMP TEMP DEW PT PRESS MASS LEAK RATE UCL 9'i% CALC MASS No. Hour Ps1a DeaF DeaF DeaF Psia Lbm Lbm/Hr %1Dav Lbm/Hr %/Dav Lbm 17 22:15 14.79 ?7. 41 r;o .10 43 .13 62.90 870607 -7.11 . 020 -l?.89 .04 870%9
!8 22:30 14.80 57.40 r;o .11 43 .10 62.90 870574 -6.?9 .018 -14.38 .04 870?69 10 22:4'5 16.80 57.31 50.0Q 43.09 62.90 870589 -5.18 .014 -12. 32 .03 870?71 20 23:0Q la.80 57.30 50.08 43.10 62.8Q 870?77 -4.75 . 013 -11.17 .. 03 870?71 21 23:1'5 16.80 57.30 50.04 43. 07 . 62.89 870600 -3.20 .009 _Q,28 .03 870?75
- 22 23:30
*n 23:45 14.81) 14.80 '.!7.20
- 57. 09 50.02 50.00 43.03 42.98 62.8Q 62.88 870582 870568
-2.85 -3.16 .008 .009 -8.38 -8.20 .02 .02 870576 870574 *2c. OIJ: 00
- 14.81 5.7. 08 49.95 42.93 62.88 870558 -3.77 .010 -8.44 . 02 870571
)I; 00: 15 14.81 57. 01) 49.90 42.89 62.87 870584 -3.24 .009 -7.57 . 02 870572 .
2~ 00: 31] !ti. 81 56.89 49.88 42.86 62.87 870560 -3.62 .010 -7. 63 .02 870570
*J7 01): 45 14.80 56.93 49.85 42.79 62.86 870569 -3.60 . 010 -7.31 .02 870569 '29 01:00 16.82 5.6.85 49.81 42.78 62.86 870588 -3.00 .008 -6.51 .02 870571 ')0 01:1'5 14.82 56.76 49.79 42.76 62.86 870584 -2.60 .007 -5.90 .02 870572 30 01:30 la.82 56.66 4Q,76 62.74 62.86 870625 -1.21 .003 -4.69 . 01 870?78
- 31 01: 4~
32 02:00 14.82 14.81 56.63 56.?6 49.75. 49 .76 42.74 42.75 62.86 62.86 870636 870619
. 21 .97 .001 .003 -3.45 -2.57 .01 .01 870585 870589
- SALEM GENERATING STAT!ON UNIT ~
MASS PLOT DATA - USING WEIGH FACTOR FILE: IJEIGH2 2a Mar !992 AMBIENT CONTAINMENT SCAN TIME PRESS TEMP TEMP DEW PT PRESS MASS LEAK RATE UCL 95% CAL[ MASS No. Hour Ps1a OeoF OeoF OeoF Psi a Lbm Lbm/Hr %/Dav Lb ml Hr %/Oa*J Ltim 33 02:15 14.82 56.50 49.76 42.78 62.86 870609 1. 40 .004 -1. 96 .01 870'i92
~d 02:30 14.82 56. 4"1 49.76 42.75 62.85 870592 1. 41 . 004. -1. 75 .01 870592 ~" 02:45 16..82 %.39 49.74 42. 79 62.85 870588 1.33 .004 -1. 65 .01 870592 36 03: Qfl 14.82 56.35 49,74 42.77 62.85 870593 1. 34 .004 -1. 46 .01 870592 '7 03:15 14.82 56. 35 49 . .70 42.77 62.B'i 870633 2. 04 .006 -.74 .01 870597 38 03:30 14.82 56.25 49,70 42.Bn 62.8'i 870607 2.20 .006 -.44 . 01 870598 *O 03:45 14.82 56.22 49. 67 42. 76 62.85 870628 2.64 .007 .09 .01 870602 tiO 1)6.: 00 14.83 56.20 6.9.6? 42. 76 62.84 870620 2.89 .008 .46 .01 870604 al 04: 15 14.83 56.1? '19. 66 '12.80 62.84 870588 2.65 .00? .32 . 01 8.70603 a2 Oa:30 14.84 56. 05 49.65 42.83 62 .84 870594 2.53 .007 .-30 .01 870603 a) iJ6.:4'i 16..84 55.97 49.66 42.82 62.84 870581 2.24 .006 .10 . 01 87061)2 eia Q'i: 00 14.81] 55.94 49.64 42.79 62.84 870612 2.36 .007 .31 . 01 870603 a'i O'i: 15 14.85 55. 98 49,63 42.82 62.84 870611 2.45 .007 .49 . 01 870604 a6 l)'i: 30 16.. 8'i 56.00 49.64 42.83 62.84 870612 2. 53 .007 . 65 .01 87061)5
- a7 48 Q'i: 45 o~:oo la.85 lll.86 55.98 55.97
- 49. 68 49 .70 42.89 42.91 62.84 62.B'i 870581]
870592 2.31 2.17
.006 .006 .49 .43 . 01 . 01 870604 870ti04
- SALEM GENERATING STATION UN!T 2 MASS PLOT DATA - USING l.JEIGH FACTOR FILE: WEIGH2 24 H~" lll92 AMBIENT CONTAINMENT SCAN TIME PRESS TEMP TEMP DEW PT i:JQESS MASS LEAK RATE UCL 95" CALC r1ASS No. Hour Ps1a DeaF DeaF DeaF Psi a Lbm
- Lbm/Hr "/Dav Lbm/Hr "/Dav Lbm 49 06:15 14.86 55.92 49.71 42.97 62.85 870578 1. 92 .005 .22 . 01 87061)2 511 06: 3*J 14, 86 55.85 4Q,72 42.95 62.85 870567 1. 58 '1)1)4 -.09 .01 870~00
;; 1 06:45 l.:'i. 87 55.80 49 .68 43. 04 62.84 870577 1. 37 .004 -.25 '01 870599 1;2 07:00 l.:'i. 87 - 55.82 49.66 43.00 62.84 870594 1. 33 .004 -.23 . 01 870599 .; ' 07:15 14.88 55.89 49,63 42.9'5 62.84 870589 1. 25 .003 -.26 '01 870598
- >;4 07:30
.;;; Q7:45 14.88 14.88 51i.87
- 55. 98 49.62 49.58 42.96
.:.2. 93 62.84 62.83 870564 870Wi .97
- 1. 03
.003 .003 -.52 -.40 .01 .01 870596 87051l7 ;;"::- 08: 01) !4.89 'i6 .18 49.57 .:12.90 62.83 870599 1. 05 .003 -.34 . 0l 870597 1;7 01'.1: 15 14.91 57' 06 49' 56 42.89 62.83 870568 .84 .002 -.52 ,-01 870596 ;;Q 08:30 14. 91 57.47 49.52 42.87 62.82 870575 -.69 .002 -.63 .01 870594 ;;4 1)8: 45 14.92 57.82 49.49 42.84 62.82 870552 .40 .001 -.92 0' 00 8-70592
- 61) Q9:QO 14.92 58.23 49,44 42.76 62.81 870589 .38 .001 -.89 0.00 870592 61 QQ: p; la.91 58.36 49.43 42.72 62.81 870517 -.09 0.000 -1.44 0.00 871)587
'c2 OQ:30 14.91 58.47 49 .39 42.6-7 62.80 870520 -.50 .001 -1.89 .01 870583
- 63 Q<l:4'i
'ca 11): 00 14.93 l<i.93 58.90 59.14 49,36
- 49. 32 42.63 42.56 62.80 62.79 870521 870517
-.87 -1. 23 .002 .003 -2.28 -2.65 .01 .01 870579 -871)575
- SALEM GENERATING STAT!ON UNIT 2 11ASS PLOT DATA - USING WEIGH FACTOR FlLE: WEIGH2
~4 M~r l*N2 AM8[ENT CONTAINMENT SCAN TIME PRESS TEMP TEMP DEW PT PRESS MASS LEAK RATE UCL 9'i% CALC 1'1ASS No. Hour Ps1a DeaF DeaF DeaF Ps1a Lbm Lbm/Hr lVDav Lbm/Hr %/Dav Lbm 65 10:15 14.93 59.32 49 '29 42.54 62.7Q 870545 -1. 39 .004 -2.78 .01 870573 ~6 ! I): 30 14.9~ '.iQ,'.i7 49. 29 42. 'l 62.79 871)533 -1. 60 .004 -2.97 . 01 8705 ?Q ~7 10:45 14,93 ">9' 72 49 '28 42.47 62' 79 870535 -1. 78 .005 -3 .13 . 01 870'.i68 ~8 11: 0I) la. 93 59.93 49,27 a2. 50 62. 79 871)541 -1. 92 .005 -3.23 .01 870566 ;Q 11: 15 14.93 60' 12 a9.28 42.48 62. 79 870534 -2.07 .006 -3.36 . 01 870?63
- 11:30 14.92 60.28 a9,27 62.79 7n a2' 51) 870545 -2.16 .006 -3,42 . 01 870562 71 11: 4'i lli,92 60' 46 49 '27 42.49 62. 79 870525 -2.33 .006 - -3. 57
- I) 1 870559 7') l~: QI) la. 91) 60. 57 49,26 42.51 62.79 870536 -2. 43 .007 -3.64 .01 8705'8 71 11: 15 14.92 60.77 <i9,31 42.51 62.79 870522 -2.59 .007 -3.78 .01 871)51';5 7a 12:30 lti.92 60.9? 49.36 42.64 62.80 871)514 -2.77 .OOB -3.94 .01 870552 7 .. !2: 4'.i 14.92 61. 05 49.42 42.75 62.81 870551 -2.77 . 01)8 -3:91 '01 870552 7~ l.~:00 14.92 61.19 49. 48 42.82 62.82 870540 -2.81 .008 -3.93 .01 87Q?'iQ
'7 1~:15 l<i. 91 61. 31 49.52 42.95 62.82 870542 -2.84 .OOB -3.93 .01 871]549 7Q L~: 31) l<i,91 ol.al <i9.55 43.01 62.82 870509 -3.00 .OOB -4.07 .01 8J0546
- 7Cl
~o !5:45 la:OO l<i.91 l<i.91 61.47
- 61. 5.7 49.56 49.55
- 43. 07 43.10 62.82 62.82 870511 870520
-3.13 -3.21 . .009 .009 -4.18 -4.25 . 01 . 01 87054.:i 870542
- SALEM GENERATING STAT!ON IJN!T 2 MASS PLOT DATA - USING WEIGH FPCTOR FILE: WEIGH2 2c1 M~r ~Cl92 AMBIENT CONTAINMENT SCAN TIME PRESS TEMP TEMP DElJ PT PRESS MASS LEAK. RATE UCL 95" CALC MASS No. Hour Psia DeoF DeoF- DeoF Ps1a Lbm LbrRIHr "/Dav Lb ml Hr "/Dav Lbm 81 14: 15 14.88 61. 54 49.56 43.12 62.83 870524 -3.28 .009 -4.28 .01 870'i40 82 lei: 31) lci,91 61. 40 c19. 55 43.15 62.83 870534 -3.30 .009 -4.28
- 1)1 8701;39 83 lc1:41j 14.91 61. 58 49.56 c13.22 62.83 870526 -3.34 .009 -4.30 .01 870538 8a 15:00 14.89 61. 49 c19 .59 43.25 62.83 870479 -3.54 .010 -4.50 . 01 870534 85 15: 15 14.89 61. 36 49.57 43.29 62.83 870507 -3 .62 . 010 -4.57 .01 871)532
- 86
~7 15: 30 15: 6.5 14.89 14.89 61.36
- 61. 35 49.59 a9.59 43.31 43.35 62.83 62.83 870509 870507
-3.70 -3.77 .010 .010 -4.63 -4.68 .01 .01 870530 871)1j28 88 16:00 14.89 ol. 39 49.59 43.38 62.83 870488 -3.89 . 011 -4.79 .01 870'i26 89 16: 15 14.89 61.42 49.57 43.36 62.83 870492 -3.99 . 011 -4.87 . o1 870523 oo 16:30 14.89 61.49 49.55 43.38 62.82 870485 -4.09 . 011 -4.97 .01 870521 l.Jl 16: 45 14.90 61. 57 49.58 43.40 62.83 870466 -4.25 .012 -5.13 .01 810517 i:i2 17: 00 14.90 61.58 49 .58 43.42 62.83 870493 -4.31 . 012 -5.17 .01 g70'31'3 ci3 1.7:15 14,90 61. '38 49.64 43.52 62.84 870490 -4.38 . 012 -5.23 .01 870513 04 17:30 14.90 61. 63 49.71 43.59 62.84 870473 -4.49 .012 -5.32 .01 e7o510
- "" 17: c15 06 18:00 14.90 14.91
- 61. 63 61.68 49.73 49.77 43.6.7 43.80 62.85 62.85 870490 870507
-4.54 -4.54 . 013 . 013 -5.36 -5.34 .01 . 01 8701' 08 870507
- SALEM GENERATING STATION UNIT 2 1'1ASS PLOT DATA - USING lJElGH FACTOR FILE: tiJEIGH2 AMBIENT CONTAINMENT SCAN TIME PRESS TEMP TEMP DEW PT PRESS MASS LEAK RATE UCL 95% CALC MASS No. 1-iour Ps1a DeaF DeaF DeaF Psi a Lbm Lbm!Hr %!Dav Lbm/Hr %/Dav Lbm 97 18: 15 14.91 61. 71 49. 82 .'.13.87 62.86 870472 -4.73 . 013 -5.59 . 02 87 051]4
- SENSOR LOCATION 18:15 18:30 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 18:45 19:00 19:15 19:30 19:45 20:00 20:15 23 Mar 1992 20:30 1 EL 276.5 53.2 53.3 53.3 53.2 53.2 53.2 53.2 53.2 53.1 53.1 2 EL 253 49.6 49.7 49.6 49.6 49.6 49.6 49.6 49.5 49.S 49.5 3 EL 253 49.9 49.9 49.9 49.9 49.9 49.9 49.8 49.7 49.8 49.9 4 EL 229.5 51.5 51.6 51.5 51.5 51.5 51.5 51.5 51.4 51.4 51.4 5 EL 229.5 49.8 49.8 49.8 49.7 49.7 49.7 49.7 49.6 49.7 49.7 6 EL 229.5 51.4 51.4 51.4 51.3 51.3 51.3 51.3 51.3 51.3 51.3 7 EL 203 50.7 50.7 50.7 50.7 50.6 50.6 50.6 50.6 50.6 50.6 8 EL 203 48.8 48.9 48.8 48.8 48.8 48.8 48.8 48.7 48.8 48.8 9 EL 203 49.9 49.9 49.9 49.9 49.8 49.9 49.8 49.8 49.8 49.8 10 EL 174 51.8 51.8 51.9 51.8 51.7 51.8 51.8 51.7 51.7 51.7 11 EL 174 50.8 50.8 50.6 50.8 50.7 50.7 50.7 50.6 50.7 50.7 12 EL 174 47.2 47.3 47.2 47.2 47.2 47.2 47.2 47.2 47.1 47.1 13 EL 144.5 52.0 52.0 52.0 52.0 52.0 52.0 51.9 51.9 51.9 51.9 14 EL 144.5 50.3 50.2 50.3 50.3 50.1 50.2 50.2 50.2 50.1 50.1 15 EL 144.5 51.9 52.0 52.0 52.0 52.0 51.9 51.8 51.9 51.9 51.9 16 EL 120 52.2 52.3 52.3 52.2 52.2 52.2 52.2 52.2 52.2 52.0 17 EL 115 49.5 49.S 49.S 49.5 49.5 49.5 49.5 49.4 49.4 49.4 18 EL 103 49.5 49.5 49.5 49.4 49.4 49.4 49.3"' 49.3 49.4 49.3 19 EL 98 50.9 50.9 S0.9 50.9 50.9 50.8 50.9 50.9 50.8 50.8 20 EL 103 51.0 51.3 51.1 50.9 51. 1 51.0 50.9 51.1 50.9 51.0 21 EL 115 49.5 49.6 . 49.5 49.6 49.7 49.4 49.6 49.5 49.4 49.5 22 EL 88 48.3 48.4 48.4 48.4 48.4 48.3 48.3 48.3 48.3 48.3 23 EL 88 *so.2 50.2 50.2 50.1 50.1 50.1 50.0 50.0 50.0 50.0 24 EL 60 50.9 50.9 so.a 50.7 50.7 50.7 50.7 50.6 50.6 50.6 25 AMB 57.9 58.0 57.9 57.8 57.8 57.8 57.8 57.8 57.7 57.7 26 GAS METER 50.2 50.7 51.0 51.2 51.3 51.2 51.1 51.1 51.0 51.0 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3. SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 18:15 18:30 18:45 19:00 19:15 19:30 19:45 20:00 20:15 20:30*
1 EL 241 43.5 43.5 43.4 43.4 43.6 43.4 43.3 43.3 43.3. 43.3 2 EL 241 43.2 43.3 43.3 43.3 43.2 43.2 43.2 43.1 43.1 43.1 3 EL 103 43.7 43.8 43.7 43.6 43.5 43.5 43.5 43.5 43.5 43.4 4 EL 174 43.3 43.4 43.3 43.2 43.4 43.2 43.2 43.0 43.0 43.2 5 EL 174 43.6 43.7 43.8 43.7 43.7 43.7 43.6 43.6 43.7 43.6 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 7 EL 174 44.1 44.0 44.2 44.1 44.1 44.1 44.0 44.0 44.0 44.0 8 EL 103 44.2 44.4 44.4 44.3 44.3 44.2 44.2 44.3 44.2 44.1 9 EL 174 43.0 43.0 43.0 42.9 42.9 42.9 42.8 42.7 42.8 42.7 10 SPARE 0.0 o.o 0.0 0.0 o.o o.o o.o 0.0 0.0 0.0 11 AMB 15.1 15.3 15.5 15.9 16.0 16.9 17.8 18.3 18.5 19.5 12 SPARE o.o 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 Q.O 0.0 PRESSURE psia SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 18:15 18:30 18:45 19:00 19:15 19:30 19:45 20:00 20:15 20:30 1 1101 62.94 62.94 62.94 62.94 62.94 62.93 62.93 62.93 62.93 62.92 2 1102 62.96 62.97 62.96 62.96 62.96 62.95 62.95 62.95 62.95 62.94 3 1089 14. 75 14.75 14.76 14.n 14.n 14.78 14.78 14.78 14.79 14.79 4 1090 14. 74 14.74 14.75 14.75 14.76 14.76 14.76 14.n 14.77 14.78 5 2686 62.88 62.89 62.88 62.88 62.88 62.87 62.87 62.87 62.87 62.87 6 2687 62.99 62.99 62.99 62.99 62.98 62.98 62.98 62.97 62.97 62.97
23 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 1
2 3 LOCATION EL 276.5 EL 253 EL 253 SCAN 11 20:45 53.1 49.5 49.7 21:00 53.0 49.4 49.7 53.0 49.4 49.7 CONTAINMENT TEMPERATURE SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 20 21: 15 21:30 53.0 49.4 49.7 21:45 52.9 49.3 49.6 22:00 52.9 49.3 49.6 22: 15 52.9 49.3 49.5 22:30 52.9 49.3 49.6 22:45 52.9 49.3 49.5 23:00 52.9 49.3 49.5 4 EL 229.5 51.4 51.3 51.3. 51.2 51.2 51.1 51.1 51.2 51.2 51.1 5 EL 229.5 49.6 49.5 49.5 49.5 49.5 49.4 49.4 49.4 49.4 49.4 6 EL 229.5 51.2 51.2 51.2 51.1 51.1 51.1 51.0 51.0 51.0 51.0 7 EL 203 50.5 50.5 50.5 50.4 50.4 50.4 50.4 50.4 50.3 50.3 8 EL 203 48.7 48.7 48.6 48.6 48.5 48.5 48.5 48.5 48.5 48.5 9 EL 203 49.8 49.7 49.7 49.6 49.6 49.5 49.6 49.6 49.6 49.5 10 EL 174 51. 7 51.6 51.6 51.6 51.5 51.5 51.5 51.5 51.5 51.5 11 EL 174 50.6 50.5 50.4 50.5 50.4 50.3 50.4 50.5 50.4 50.3 12 EL 174 47.1 47.0 47.0 47.0 46.9 46.9 46.9 46.9 46.9 46.9 13 EL 144.5 51.8 51.8 51.8 51. 7 51.7 51. 7 51.7 51.7 51.6 51. 7 14 EL 144.5 50.0 50.1 49.9 50.0 49.9 49.9 49.8 49.9 49.9 50.0 15 EL 144.5 51.9 51.8 51.8 51.7 51.7 51. 7 51.7 51.7 51.6 51.6 16 EL 120 52.1 52.0 52.1 52.0 51.9 52.0 51.9 52.2 51.9 52.0 17 EL 115 49.4 49.3 49.3 49.3 49.2 49.2 49.2 49.2 49.2 49.1 18 EL 103 49.2 49.2 49.1 49.1 49.0 49.0 49.1 49.1 49.1 49.1 19 EL 98 50.7 50.7 50.7 50.6 50.6 50.6 50.5 50.6 50.5 50.6 20 EL 103 50.7 50.8 50.7 50.7 50.4 50.8 50.7 50.5 50.6 50.7 21 EL 115 495 49.3 49.4 49.4 49.4 49.0 49.2 49.3 49.2 49.2 22 EL 88 48.2 48.2 48.1 48.1 48.0 48.0 48.0 48.1 . 48.0 48.0 23 EL 88 50.0 49.9 49.9 49.8 49.8 49.8 49.8 49.8 49.8 49.8 24 EL 60 50.5 50.5 50.4 50.4 50.4 50.3 50.4 50.4 50.4 50.3 25 AMB 57.7 57.7. 57.7 57.6 57.5 57.5 57.4 57.4 57.3 57.3 26 GAS METER 51.1 51.0 51.0 50.9 50.9 51.0 51.0 51.0 51.1 51.3 DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 11 20:45 43.4 43.1 43.3 43.0 43.5 SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 20 21:00 43.2 43.1 43.3 43.1 43.5 21:15 43.1 43.0 43.3 43.0 43.4 21:30 43.1 42.9 43.1 43.0 43.3 21:45 43.1 42.9 43.1 42.9 43.3 22:00 43.1 42.8 43.1 42.8 43.3 22:15 43.0 42.8 43.2 42.9 43.2 22:30 43.1 42.8 43.2 42.9 43.3 22:45 43.0 42.8 43.1 42.9 43.3 23:00 43.0 42.8 43.2 42.9 43.2 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 7 EL 174 43.9 43.9 43.6 43.7 43.6 43.6 43.5 43.5 43.6 43.6
.8 EL 103 44.0 44.1 43.9 43.8 43.7 43.8 43.9 43.7 43.8 43.9 9 EL 174 42.7 42.6 42.5 42.5 42.5 42.4 42.6 42.5 42.4 42.4 .10 SPARE 0.0 0.0 0.0 o.o o.o 0.0 0.0 0.0 0.0 0.0 11 AMB 19.7 20.1 20.0 20.5 20.5 20.1 20.3 20.1 20.1 20.2 12 SPARE 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 . 0.0 o.o o.o 0.0 0.0 PRESSURE psia SENSOR LOCATION SCAN 11 SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 20 20:45 21:00 21:15 21:30 21:45 22:00 22:15 22:30 22:45 23:00 1 1101 62.92 62.91 62.90 62.90 62.90 62.89 62.89 62.89 62.89 62.89 2 1102 62.94 62.93 62.93 62.92 62.91 62.91 62.91 62.91 62.91 62.91 3 1089 14.80 14.80 14.80 14.80 14.80 14.81 14.81 14.81 14.81 14.81 4 1090 14.78 14.78 14.79 14.79 14.79 14.79 14.79 14.80 14.80 14.80 5 2686 62.86 62.86 62.85 62.85 62.84 62.84 62.84 62.84 62.84 62.84 6 2687 62.96 62.96 62.95 62.95 62.95 62.94 62.94 62.94 62.94 62.94
23 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 21 SCAN 22 SCAN 23 SCAN 24 SCAN 25 SCAN 26 SCAN 27 SCAN 28 SCAN 29 SCAN 30 23:15 23:30 23:45 00:00 00: 15 0'1:30 00:45 01:00 01: 15 01:30 1 EL 276.5 52.9 52.9 52.8 52.7 52.7 52.7 52.6 52.6 52.6 52.6 2 EL 253 49.2 49.2 49.2 49.1 49.1 49.0 49.0 49.0 49.0 49.0 3 EL 253 49.5 49.5 49.4 49.4 49.4 49.4 49.3 49.3 49.3 49.3 4 EL 229.5 51.1 51.1 51.1 51.0 50.9 50.9 50.9 50.9 50.9 50.8 5 EL 229.5 49.3 49.3 49.3 49.3 49.2 49.2 49.2 49.1 49.1 49.1 6 EL 229.5 51.0 51.0 50.9 50.9 50.8 50.8 50.7 50.7 50.7 50.7 7 EL 203 50.3 50.3 50.2 50.2 50.1 50.1 50.1 50.1 50.0 50.0 8 EL 203 48.4 48.4 48.4 48.4 48.3 48.3 48.2 48.2 48.2 48.2 9 EL 203 49.5 49.5 49.4 49.4 49.3 49.3 49.3 49.3 49.2 49.2 10 EL 174 51.4 51.4 51.4 51.3 51.3 51.2 51.2 51.2 51.1 51.2 11 EL 174 50.3 50.2 50.3 50.2 50.1 50.3 50.1 50.1 50.1 50.0 12 EL 174 46.8 46.8 46.8 46.8 46.7 46.7 46.6 46.6 46.6 46.6 13 EL 144.5 51.6 51.6 51.6 51.6 51.5 51.4 51.4 51.4 51.3 51.3 14 EL 144.5 49.7 49.8 49.8 49.7 49.6 49.7 49.6 49.6 49.6 49.5 15 EL 144.5 51.6 51.5 51.6 51.5 51.5 51.4 51.4 51.4 51.4 51.3 16 EL 120 51.9 51.9 51.9 51.5 51.8 51.7 51. 7 51.6 51. 7 51.6 17 EL 115 49.1 49.1 49.1 49.1 49.1 49.1 49.0 49.0 49.0 49.0 18 EL 103 49.1 49.0 49.0 48.8 48.8 48.8 48.7 48.7 48.7 48.7 19 EL 98 50.5 50.5 50.4 50.2 50.4 50.4 50.3 50.4 50.2 50.2 20 EL 103 50.7 50.5 50.7 50. 7 50.6 50.4 50.5 50.3 50.4 50.2 21 EL 115 49.3 49.3 49.1 49.2 48.9 49.2 49.1 48.9 49.0 48.7 22 EL 88 48.0 48.0 48.0 47.9 47.8 47.8 47.8 47.7 47.7 47.7 23 EL 88 49.7 49.7 49.7 49.6 49.6 49.5 49.5 49.5 49.5 49.5 24 EL 60 50.3 50.3 50.2 50.2 50.1 50.1 50.1 so.a 50.0 50.0 25 AMB 57.3 57.2 57. 1 57.1 57.0 56.9 56.9 56.8 56.7 56.7 26 GAS METER 51.4 51.4 51.5 51.4 51.4 51.4 51.5 51.6 51.6 51.5 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 21 SCAN 22 SCAN 23 SCAN 24 SCAN 25 SCAN 26 SCAN 27 SCAN 28 SCAN 29 SCAN 30 23: 15 23:30 23:45 00:00 00: 15 00:30 00:45 01:00 01:15 01:30 1 EL 241 43.2 42.9 42.9 42.9 42.8 42.9 42.7 42.7 42.8 42.6 2 EL 241 42.8 42.8 42.7 42.7 42.7 42.6 42.5 42.5 42.5 42.5 3 EL 103 43.0 43.0 43.0 42.9 42.9 42.8 42.7 42.7 42.7 42.7 4 EL 174 42.7 42.7 42.6 42.7 42.5 42.5 42.5 42.5 42.5 42.6 5 EL 174 43.2 43.2 43.2 43.0 43.1 42.9 43.0 42.9 43.0 42.9 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 7 EL 174 43.6 43.6 43.5 43.4 43.4 43.4 43.3 43.3 43.3 43.3 8 EL 103 43.8 43.8 43.7 43.6 43.7 43.5 43.5 43.5 43.4 43.4 9 EL 174 42.4 42.3 42.3 42.3 42.2 42.3 42.1 42.2 42.1 42.1 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 11 AMB 20.2 19.9 19.8 19.5 19.8 19.8 19.5 20.0 20.0 20.3 12 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 13 SPARE 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 0.0 PRESSURE psia SENSOR LOCATION SCAN 21 SCAN 22 SCAN 23 SCAN 24 SCAN 25 SCAN 26 SCAN 27 SCAN 28 SCAN 29 SCAN 30 23: 15 23:30 23:45 00:00 00: 15 00:30 00:45 01:00 01:15 01:30 1 1101 62.89 62.88 62.88 62.87 62.87 62.86 62.86
- 62.85 62.85 62.85 2 1102 62.90 62.90 62.90 62.89 62.88 62.88 62.88 62.87 62.87 62.87 3 1089 14.81 14.81 14.82 14.82 14.82 14.83 14.83 14.83 14.83 14.83 4 1090 14.80 14.80 14.80 14.81 14.81 14.81 14.80 14.82 14.82 14.82 5 2686 62.84 62.83 62.83 62.82 62.82 62.81 62.81 62.81 62.80 62.80 6 2687 62.94 62.93 62.93 62.92 62.92 62.92 62.91 62.91 62.91 62.91
24 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 31 SCAN '32 SCAN 33 SCAN 34 SCAN 35 SCAN 36 SCAN 37 SCAN 38 SCAN 39 SCAN 40 01:45 02:00 02:15 02:30 02:45 03:00 03:15 03:30 03:45 04:00 1 EL 276.5 52.6 52.6 52.6 52.6 52.6 52.5 52.5 52.5 52.5 52.5 2 EL 253 48.9 49.0 48.9 49.0 48.9 48.9 48.9 48.9 48.9 48.9 3 EL 253 49.2 49.3 49.1 49.2 49.2 49.2 49.1 49.2 49.1 49.1 4 EL 229.5 50.8 50.8 50.8 50.8 50.8 50.8 50.7 50.7 50.7 50.7 5 EL 229.5 49.0 49. 1 49.0 49.0 49.0 49.0 49.0 49.0 49.0 49.0 6 EL 229.5 50.7 50.7 50.6 50.7 50.7 50.7 50.6 50.6 50.6 50.6 7 EL 203 50.0 50.0 50.0 50.0 50.0 50.0 49.9 49.9 49.9 49.9 8 EL 203 48. 1 48.2 48.1 48.1 48.1 48.1 48.1 48.1 48.1 48.0 9 EL 203 49.3 49.2 49.2 49.2 49.2 49.2 49.1 49.1 49.1 49.1 10 EL 174 51.1 51.1 51.1 51.1 51.1 51.1 51.0 51.1 51.0 51.0 11 EL 174 50.0 50.1 50.0 50.0 50.1 50.1 50.0 50.0 49.9 49.9 12 EL 174 46.6 46.6 46.6 46.6 46.6 46.6 46.5 46.5 46.5 46.5 13 EL 144.5 51.3 51.4 51.4 51.3 51.3 51.3 51.3 51.3 51.3 51.2 14 EL 144.5 49.6 49.5 49.6 49.5 49.6 49.5 49.5 49.4 49.4 49.5 15 EL 144.5 51.3 51.3 51.3 51.3 51.3 51.2 51.3 51.2 51.2 51.2 16 EL 120 51. 7 51j 51. 7 51.6 51.6 51.6 51.6 51.5 51.6 51.6 17 EL 115 48.9 48.9 48.9 48.9 48.9 48.9 48.9 48.8 48.8 48.8 18 EL 103 48.7 48.7 48.7 48.8 48.8 48.7 48.7 48.7 48.7 48.7 19 EL 98 50.2 50.3 50.3 50.2 50.2 50.2 50.2 50.2 50.1 50.1 20 EL 103 50.2 50.4 50.5 50.6 50.2 50.3 50.4 50.6 50.4 50.3 21 EL 115 48.9 48.8 48.9 48.9 48.8 48.8 48.6 48.7 48.7 48.7 22 EL 88 47.7 47.7 47.7 . 47.7 47.7 47.7 47.7 47.7 47.7 47.7 23 EL 88 49.5 49.5 49.5 49.5 49.5 49.5 49.5 49.5 49.5 49.5 24 EL 60 50.0 50.0 50.0 50.0 50.0 50.0 50.0 50.0 50.0 50.0 25 AMB 56.6 56.5 56.5 56.4 56.4 56.4 56.3 56.2 56.2 56.2 26 GAS METER 51.5 51. 7 51.2 50.5 50.1 49.7 49.5 49.3 49.1 48.8 DE~ POINT TEMPERATURE SENSOR LOCATION SCAN 31 SCAN 32 SCAN 33 SCAN 34 SCAN 35 SCAN 36 SCAN 37 'SCAN 38 SCAN 39 SCAN 40 01:45 02:00 02: 15 02:30 02:45 03:00 03:15 03:30 03:45 04:00 1 .EL 241 42.7 42.6 42.7 42.6 42.8 42.7 42.6 42.7 42.6 42.6 2 EL 241 42.4 42.5 42.5 42.5 42.4 42.5 42.5 42.5 42.4 42.5 3 EL 103 42.7 42.8 42.8 42.8 42.8 42.8 42.8 42.8 42.8 42.8 4 EL 174 42.4 42.5 42.5 42.5 42.4 42.6 42.5 42.5 42.5 42.4 5 EL 174 42.9 42.9 42.9 42.9 43.0 42.9 42.9 43.0 42.9 43.0 6 NOT USED 0.0 o.o 0.0 0.0 0.0 o ..o 0.0 0.0 0.0 0.0 7 EL 174 43.3 43.3 43.3 43.2 43.3 43.2 43.3 43.4 43.3 43.3 8 EL 103 43.5 43.5 43.6 43.5 43.6 43.5 43.5 43.6 43.5 43.6 9 EL 174 42.1 42. 1 42. 1 42. 1 42.1 42.2 42.2 42. 1 42. 1 42. 1 10 SPARE 0.0 0.0 o.o 0.0 0.0 0.0 0.0 o.o 0.0 0.0 11 AMB 20.2 19.9 19.8 20.2 20.2 20.4 20.1 20.5 20.3 20.3 12 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 o.a a.a a.a a.a 0.0 PRESSURE psia SENSOR LOCATION SCAN 31 SCAN 32 SCAN 33 SCAN 34 SCAN 35 SCAN 36 SCAN 37 SCAN 38 SCAN 39 SCAN 40 a1:45 a2:0a 02:15 02:30 02:45 03:0a 03: 15 03:30 03:45 04:00 1 1101 62.85 62.85 62.85 62.85 62.84 62.84 62.84 62.84 62.84 62.84 2 1102 62.87 62.87 62.87 62.87 62.86 62.86 62.86 62.86 62.86 62.85 3 1089 14.83 14.83 14.83 14.83 14.83 14.83 14.83 14.84. 14.84 14.84 4 1a9a 14.82 14.81 14.82 14.82 14.82 14.82 14.82 14.82 14.82 14.83 5 2686 62.80 62.80 62.80 62.80 62.80 62.80 62.8a 62.79 62.79 62.79 6 2687 62.91 62.91 62.90 62.90 62.90 62.90 62.90 62.90 62.89 62.89
24 Mer 1992 SALEM GENERATING STATION UNIT 2 CONTAiNMENT TEMPERATURE SENSOR LOCATION SCAN 41 SCAN 42 SCAN 43 SCAN 44 SCAN 45 SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN 50 04: 15 04:30 04:45 05:00 05: 15 05:30 05:45 06:00 06: 15 0,:30 1 EL 276.5 52.5 52.4 52.5 52.5 52.4 52.5 52.5 52.5 52.5 52.5 2 EL 253 48.9 48.9* 48.9 48.8 48.8 48.8 48.9 48.9 48.9 48.9 3 EL 253 49. 1 49.1 49.1 49.1 49.1 49.1 49.0 49.2 49.2 49.2 4 EL 229.5 50.7 50.7 50.7 50.5 50.6 50.6 50.7 50.7 50.7 50.7 5 EL 229.5 49.0 49.0 49.0 48.9 48.9 48.9 49.0 49.0 49.0 49.0 6 EL 229.5 50.6 50.6 50.6 50.6 50.6 50.5 50.6 50.6 50.6 50.6 7 EL 203 49.9 49.9 49.9 49.9 49.9 49.8 49.9 49.9 49.9 49.9 8 EL 203 48.0 48.0 48.0 48.0 48.0 48.0 48.1 48.1 48.1 48.1 9 EL 203 49.1 49.1 49.0 49.1 49.1 49.1 49.1 49.1 49.1 49.1 10 EL 174 51.0 51.0 51.0 51.0 51.0 51.0 51.1 51.0 51.0 51.1 11 EL 174 49.9 49.9 49.9 49.9 49.9 49.9 50.0 50.0 50.0 50.1 12 EL 174 46.5 46.4 46.5 46.5 46.5 46.4 46.5 46.5 46.5 46.5 13 EL 144.5 51.3 51.2 51.2 51.2 51.2 51.3 51.2 51.3 51.3 51.3 14 EL 144.5 49.4 49.4 49.5 49.5 49.3 49.5 49.5 49.4 49.5 49.5 15 EL 144.5 51.2 51.2 51.2 51.2 51.1 51.2 51.2 51.3 51.3 51.3 16 EL 120 51.6 51.4 51.5 51.5 51.4 51.5 51.6 51.6 51.5 51.6 17 EL 115 48.8 48.8 48.8 48.8 48.8 48.8 48.8 48.8 48.8 48.8 18 EL 103 48.7 48.7 48.7 48.7 48.7 48.7 48.8 48.9 48.9 48.9 19 EL 98 50.2 50.1 50.2 50.1 50.2 50.1 S0.1 S0.2 S0.1 S0.2 20 21 EL 103 EL 11S . S0.4 48.7 S0.4 48.7 50.4 48.S S0.3 48.S 50.4 48.7 50.2
. 48.S S0.3 48.S S0.4 48.6 S0.6 48.6 S0.3 48.6 22 EL 88 47.6 47.7 47.7 47.7 47.7 47.7 47.7 47.8 47.8 47.8 23 EL 88 49.S 49.S 49.S 49.S 49.S 49.S 49.S 49.6 49.6 49.6 24 EL 60 49.9 so.a so.a so.a so.a so.a so.a S0.1 S0.1 S0.1 2S AMB S6.2 S6.1 S6.0 SS.9 S6.0 S6.0 S6.0 S6.0 SS.9 SS.8 26 GAS METER 48.6 48.4 48.3 48.2 48.1 47.9 47.6 47.S 47.4 47.S DE~ POINT TEMPERATURE SENSOR LOCATION SCAN 41 SCAN 42 SCAN 43 SCAN 44 SCAN 4S SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN SO 04: 1S 04:30 04:4S OS:OO OS: 1S OS:30 OS:4S 06:00 06:1S 06:30 1 EL 241 42.8 43.1 42.6 42.S 42.7 42.7 42.7 42.8 42.8 42.7 2 EL 241 42.S 42.S 42.S 42.S 42.S 42.S 42.6 42.6. 42.6 42.7 3 EL 103 42.8 42.8 42.9 42.8 42.8 42.9 43.0 43.0 43.1 43.0 4 EL 174 42.S 42.6 42.6 42.S 42.6 42.6 42.7 42.6 42.7 42.7 5 EL 174 42.9 43.0 43.0 43.0 43.1 43.0 43.1 43.0 43.1 43.1 6 NOT USED 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 0.0 0.0 7 EL 174 43.3 43.3 43.3 43.3 43.3 43.3 43.4 43.4 43.5 43.S 8 EL 103 43.6 43.S 43.6 43.S 43.S 43.S 43.6 43.7 43.7 43.8 9 EL 174 42.1 42.1 42.2 42.2 42.2 42.2 42.2 42.3 42.4 42.3 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 11 AMB 19.9 20.S 19.8 18.9 18.7 18.1 17.9 17.4 17.4 17.3 12 SPARE 0.0 o.o 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 PRESSURE psie SENSOR LOCATION SCAN 41 SCAN 42 SCAN 43 SCAN 44 SCAN 4S SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN SO 04:1S 04:30 04:4S OS:OO OS: 1S OS:30 OS:4S 06:00 06: 1S 06:30 1 1101 62.83 62.84 62.84 62.83 62.83 62.84 62.84 62.84 62.84 62.84 2 1102 62.8S 62.8S 62.8S 62.8S 62.8S 62.8S 62.86 62.86 62.86 62.86 3 1089 14.84 14.8S 14.8S 14.86 14.86 14.86 14.87 14.87 14.88 14.88 4 1090 14..83 14.84 14.84 14.8S 14.8S 14.8S 14.8S 14.86 14.86 14.86 s 2686 62.79 62.79 62.79 62.79 62.79 62.78 62.79 62.79 62.79 62.79 6 2687 62.89 62.89 62.89 62.89 62.89 62.89 62.89 62.89 62.90 62.90
24 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE . SENSOR LOCATION SCAN 51 SCAN 52 SCAN 53 SCAN 54 SCAN 55 SCAN 56 SCAN 57 SCAN 58 SCAN 59 SCAN 60 06:45 07:00 07:15 07:30 07:45 08:00 08:15 08:30 08:45 09:00 1 EL 276.5 52.5 52.5 52.4 52.4 52.4 52.4 52.4 52.3 52.3 52.3 2 EL 253 48.9 48.8 48.8 48.8 48.8 48.8 48.8 48.7 48.7 48.6 3 EL 253 49.1 49.1 49.1 49.1 49.1 49.0 49.0 48.9 48.9 48.9 4 EL 229.5 50.6 50.7 50.7 50.6 50.6 50.6 50.6 50.5 50.5 50.5 5 EL 229.5 49.0 . 49.0 48.9 48.9 48.9 48.9 48.9 48.8 48.8 48.7 6 EL 229.5 50.6 50.6 50.6 50.5 50.5 50.5 50.5 50.4 50.4 50.3 7 EL 203 49.8 49.9 49.8 49.8 49.8 49.8 49.8 49.8 49.7 49.6 8 EL 203 48.1 48.0 48.0 48.0 48.0 48.0 47.9 47.9 47.8 47.8 9 EL 203 49.1 49.1 49.0 49.1 49.0 49.0 49.0 49.0 48.9 48.9 10 EL 174 51.0 51.0 51.0 51.0 50.9 50.9 50.9 50.9 50.8 50.8 11 EL 174 49.9 49.9 49.9 49.9 49.7 49.8 49.8 49.8 49.8 49.6 12 EL 174 46.5 46.5 46.4 46.4 46.4 46.4 46.4 46.3 46.3 46.3 13 EL 144.5 51.3 51.2 51.2 51.2 51.2 51.1 51.1 51.1 51.0 51.1 14 EL 144.5 49.6 49.5 49.4 49.4 49.4 49.3 49.5 49.3 49.3 49.2 15 EL 144.5 51.2 51.2 51.2 51.1 51.2 51.1 51.1 51.0 51.0 51.0 16 EL 120 51.5 51.5 51.4 51.4 51.4 51 .4 51.4 51.2 51.3 51.3 17 EL 115 48.8 48.8 48.8 48.8 48.7 48.7 48.7 48.7 48.7 48.7 18 EL 103 48.8 48.7 48.7 48.7 48.7 48.7 48.7 48.6 48.5 48.5 19 EL 98 50.1 50.1 50.1 50.1 50.0 50.0 50.0 49.9 49.9 49.9 20 EL 103 50.5 50.3 50.3 50.4 50.2 50.1 50.2 50.3 50.3 50.0 21 EL 115 48.6 48.5 48.5 48.6 48.5 48.5 48.4 48.4 48.6 48.4 22 EL 88 47.7 47.7 47.7 47.7 47.6 47.6 47.6 47.6 47.5 47.5 23 EL 88 49.6 49.5 49.5 49.4 49.4 49.4 49.4 49.3 49.3 49.2 24 EL 60 50.0 50.0 49.9 49.9 49.9 49.9 49.9 49.8 49.8 49.7 25 AMB 55.8 55.8 55.9 55.9 56.0 56.2 57.1 57.5 57.8 58.2 26 GAS METER 47.7 47.7 47.7 47.7 47.7 47.8 47:8 47.9 47.8 47.9 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 51 SCAN 52 SCAN 53 SCAN 54 SCAN 55 SCAN 56 SCAN 57 SCAN 58 SCAN 59 SCAN 60 06:45 07:00 07:15 07:30 07:45 08:00 08:15 08:30 08:45 09:00 1 EL 241 43. 1 42.9 42.7 42.9 42.8 42.8 42.9 42.8 42.8 42.8 2 EL 241 42.7 42.7 42.7 42.6 42.6 42.6 42.6 42.6 42.6 42.5 3 EL 103 43.0 43.0 42.9 42.9 43.0 42.9 42.8 42.8 42.7 42.7 4 EL 174 42.7 42.7 42.7 42.6 42.6 42.6 42.7 42.5 42.6 42.5 5 EL 174 43.0 43.2 43.2 43.2 43.1 43.1 43.0 43. 1 42.9 42.9 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 7 EL 174 . 43.6 43.6 43.6 43.5 43.5 43.5 43.5 43.5 43.4 43.3 8 EL 103 43.8 43.8 43.7 43.7 43.7 43.6 43.5 43.6 43.5 43.4 9 EL 174 42.4 42.3 42.3 42.3 42.3 42.2 42.3 42.3 42.2 42.2 10 SPARE 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 0.0 0.0 11 AMB 17.6 17.8 18.0 18.1 18.0 17.9 18.4 18.3 18.7 18.3 12 SPARE o.o 0.0 0.0 0.0 0.0 o.o 0.0 o.o 0.0 0.0 13 SPARE 0.0 o.o 0.0 o.o 0.0 0.0 0.0 0.0 o*.o o.o PRESSURE psia SENSOR LOCATION SCAN 51 SCAN 52 SCAN S3 SCAN S4 SCAN SS SCAN S6 SCAN 57 SCAN S8 SCAN 59 SCAN 60 06:45 07:00 07:1S 07:30 07:45 08:00 08:15 08:30 08:45 09:00 1 1101 62.84 62.84 62.83 62.83 62.83 62.83 62.82 62.82 62.81 62.81 2 1102 62.86 62.85 62.85 62.8S 62.84 62.~ 62.84 62.83 62.83 62.83 3 1089 14.88 14.89 14.89 14.89 14.90 14.91 14.93 14.93 14.93 14.94 4 1090 14.87 14.87 14.88 14.88 14.88 14.89 14.91 14.91 14.92 14.92 5 2686 62.79 62.79 62.78 62.78 62.78 62.78 62.77 62.77 62.76 62.76 6 2687 62.89 62.89 62.89 62.89 62.88 62.88 62.88 62.87 62.87 62.87
24 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 61 SCAN 62 SCAN 63 SCAN 64 SCAN 6S SCAN 66 SCAN 67 SCAN 68 SCAN 69 SCAN 70 09: 1S 09:30 09:4S 10:00 10: 1S 10:30 10:4S 11:00 11: 1S 11:30 1 EL 276.S S2.2 S2.2 S2. 1 S2.2 S2. 1 S2. 1 S2. 1 S2. 1 S2. 1 S2.1 2 EL 2S3 48.7 48.6 48.6 48.S 48.S 48.S 48.S 48.S . 48.S 48.S 3 EL 2S3 48.9 48.8 48.8 48.8 48.8 48.8 48.7 48.8 48.7 48.8 4 EL 229.S so.s S0.4 S0.4 S0.3 S0.3 S0.3 S0.3 S0.3 S0.3 S0.2 s EL 229.S 48.8 48.7 48.7 48.6 48.6 48.6 48.6 48.6 48.6 48.6 6 EL 229.S S0.3 S0.3 S0.3 S0.2 50.2 S0.2 50.2 S0.2 S0.2 50.2 7 EL 203 49.6 49.6 49.6 49.S 49.S 49.S 49.S 49.S 49.S 49.5 8 EL 203 47.8 47.8 47.8 47.7 47.7 47.7 47.7 47.6 47.7 47.7 9 EL 203 48.9 48.8 48.8 48.8 48.8 48.7 48.7 48.7 48.7 48.7 10 EL 174 so.a S0.7 50.7 50.7 50.6 S0.7 S0.6 S0.6 S0.6 S0.6 11 EL 174 49.8 49.6 49.6 49.S 49.S 49.6 49.6 49.S 49.6 49.6 12 EL 174 46.2 46.2 46.2 46.2 46.1 46.1 46.1 46.1 46.1 46.1 13 EL 144.S S1.0 S1.0 S0.9 S0.9 50.9 50.9 so.a S0.8 S0.9 so.a 14 EL 144.S 49.2 49.2 49.2 49.3 49.0 49.2 49.1 49.1 49.1 49.1 1S EL 144.S S1.0 S0.9 S0.9 S0.9 50.8 so.a S0.8 so.a so.a so.a 16 EL 120 S1.2 S1.2 51.2 51.2 51.2 51. 1 S1.0 S1.1 S1.0 S1.0 17 EL 11S 48.6 48.6 48.S 48.S 48.S 48.5 48.4 48.5 48.S 48.4 18 EL 103 48.S 48.4 48.4 48.3 48.3 48.3 48.4 48.4 48.4 48.3 19 EL 98 49.9 49.8 49.8 49.7 49.7 49.7 49.7 49.7 49.7 49.7 20 EL 103 so.o 50.0 49.9 49.9 50.0 49.8 50.0 so.a 49.9 49.9 21 EL 11S 48:S 48.4 48.2. 48.3 48.2 48.2 48.3 48.2 48.3 48.1 22 EL 88 47.S 47.4 47.4 47.3 47.3 47.3 47.3 47.3 47.3 47.3 23 EL 88 49.2 49.2 49.1 49.1 49.1 49.1 .49.a 49.1 49.1 49. 1 24 EL 6a 49.7 49.7 49.6 49.6 49.6 49.6 49.6 49.6 49.6 49.S 25 AMB SS.4 sa.s SS.9 S9.1 59.3 S9.6 S9.7 S9.9. 6a.1 6a.3 26 GAS METER 47.9 48.a 48.2 48.4 48.6 48.7 48.9 49.0 49.1 49.2 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 61 SCAN 62 SCAN 63 SCAN 64 SCAN 6S SCAN 66 SCAN 67 SCAN 68 SCAN 69 SCAN 70 09:1S 09:3a 09:4S 10:00 10:1S 10:30 10:4S 11:aa 11:1S 11 :30 1 EL 241 42.6 42.6* 42.6 42.S 42.S 42.4 42.4 42.S 42.4 42.4 2 EL 241 42.5 42.4 42.3 42.3 42.2 42.3 42.2 42.2 42.2 42.2 3 EL 103 42.6 42.6 42.5 42.5 42.5 42.4 42.4 "42.5 42.5 42.5 4 EL 174 42.5 42.3 42.3 42.2 42.2 42.3 42.2 42.3 42.2 42.2 5 EL 174 42.9 42.9 42.8 42.7 42.7 42.6 42.6 42.7 42.6 42.6 6 NOT USED 0.0 0.0 0.0 0.0 0.0 o.a a.a a.a 0.0 0.0 7 EL 174 43.3 43.2 43.2 43.1 43.1 43.0 43.a 43.a 43.0 43.0 8 EL 103 43.4 43.4 43.3 43.3 43.3 43.2 43.3 43.2 43.2 43.2 9 EL 174 42.1 42.1 42.0 42.0 41.9 41.9 41.9 41.9 41.9 41.9 1a SPARE 0.0 0.0 0.0 0.0 0.0 a.a o:o a.o 0.0 0.0 11 AMB 18.0 18.2 17.4 17.3 17.1 17.2 17.a 17.3 16.9 16.4 12 SPARE a.a 0.0 o.a 0.0 0.0 o.a o.a a.a 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 a.a a.a 0.0 o.o a.o 0.0 PRESSURE psi a SENSOR LOCATION SCAN 61 SCAN 62 SCAN 63 SCAN 64 SCAN 65 SCAN 66 SCAN 67 SCAN 68 SCAN 69 SCAN 70 09:15 09:30 09:4S 10:00 1a:15 10:3a 10:45 11:0a 11:15 11 :30 1 1101 62.80 62.80 62.79 62.79 62.79 62.79 62.79 62.79 62.79 62.79 2 1102 62.82 62.81 62.81 62.81 62.81 62.8a 62.8a 62.80 62.80 62.80 3 1089 14.92 14.92 14.94 14.94 14.94 14.94 14.94 14.94 14.94 14.94 4 1090 14.91 14.91 14.93 14.93 14.93 14.93 14.93 14.93 14.93 14.92 s 2686 62.75 62.74 62.74 62.73 62.73 62.73 62.n 62.73 62.73 62.73 6 2687 62.86 62.86 62.8S 62.85 62.84 62.84 62.84 62.84 62.84 62.84
24 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 71 SCAN 72 SCAN 73 SCAN 74 SCAN 75 SCAN 76 SCAN n SCAN 78 SCAN 79 SCAN 80 11 :45 12:00 12: 15 12:30 12:45 13:00 13: 15 13:30 13:45 14:0(' 1 El 276.5 52.1 52.1 52.1 52.1 52.2 52.3 52.3 52.3 52.4 52.3 2 El 253 48.5 48.5 48.5 48.5 48.6 48.6 48.7 48.7 48.7 48.7 3 El 253 48.7 48.8 48.8 48.8 48.9 48.9 49.0 49.0 49.0 49.0 4 El 229.5 50.3 50.3 50.3 50.3 50.4 S0.4 50.5 50.5 50.5 S0.5 5 El 229.5 48.6 48.6 48.6 48.7 48.7 48.8 48.8 48.9 48.8 48.8 6 El 229.5 50.2 50.1 50.2 50.3 50.3 50.4 50.4 50.5 50.5 50.5 7 EL 203 49.4 49.5 49.5 49.5 49.6 49.6 49.7 49.7 49.7 49.8 8 El 203 47.6 47.7 47.7 47.7 47.8 47.8 47.9 47.9 47.9 47.9 9 El 203 48.7 48.7 48.7 48.8 48.8 48.8 48.9 48.9 48.9 48.9 10 El 174 50.6 50.6 50.7 50.7 50.7 50.8. 50.8 so.a 50.8 50.8 11 El 174 49.5 49.5 49.6 49.7 49.7 49.8 49.7 49.8 49.9 49.7 12 El 174 46.1 46.1 46.1 46.1 46.2 46.3 46.3 46.3 46.3 46.3 13 El 144.5 50.9 50.9 50.8 50.9 S1.0 51.0 51.1 51.1 51.1 51.1 14 El 144.5 49.1 49.0 49.0 49.2 49.3 49.4 49.3 49.4 49.5 49.3 15 El 144.5 50.8 50.8 50.8 50.9 50.9 51.0 51.0 51.1 51.0 51.1 16 El 120 51.1 51.0 51.1 51.1 51.1 51.3 51.4 51.4 51.3 51.4 17 El 115 48.4 48.4 48.4 48.4 48.4 48.5 48.S 48.S 48.5 48.6 18 El 103 48.4 48.3 48.4 48.6 48.8 48.9 48.9 48.9 48.9 48.9 19 El 98 49.7 49.7 49.7 49.7 49.8 49.9 50.0 so.o so.a so.a 20 El 103 50.0 49.9 50.S S0.4 S0.4 50.4 so.s S0.6 SO.S 50.5 21 El 11S 48.3 48.1 48.2 48.2 48.3 48.4 48.4 48.4 48.4 48.4 22 El 88 47.3 47.3 47.3 47.4 47.S 47.fJ 47.6 47.6 47.6 47.6 23 El 88 49.1 49.1 49.1 49.3 49.4 49.4 49.S 49.S 49.S 49.S 24 EL 60 49.6 49.6 49.6 49.7 49.8 49.9 so.a so.a so.a 49.9 2S AMB 60.S 60.6 60.8 61.0 61.0 61.2 61.3 61.4 61.S 61.6 26 GAS METER 49.4 49.S 49.6 49:6 49.7 49.8 49.9 49.9 49.8 49.7 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 71 SCAN 72 SCAN 73 SCAN 74 SCAN 75 SCAN 76 SCAN n SCAN 78 SCAN 79 SCAN 80 11:45 12:00 12:1S 12:30 12:4S 13:00 13:1S 13:30 13:45 14:00 1 EL 241 42.4 42.3 42.4 42.6 42.S 42.7 42.7 42.9 42.9 42.9 2 El 241 42.2 42.2 42.2 42.2 . 42.3 42.S 42.6 42.7 42.7 42.8 3 El 103 42.S 42.5 42.6 42.8 42.9 43.0 43.1 43.1 43.2 43.2 4 El 174 42.2 42.2 42.1 42.3 42.6 42.4 42.8 42.8 42.8 42.9 s El 174 42.6 42.7 42.6 42.8 42.8 43.0 43.0 43.1 43.2 43.2 6 NOT USED a.a 0.0 a.a a.a 0.0 0.0 a.a 0.0 a.a a.a 7 El 174 43.0. 43.1 43.1 43.2 43.2 43.4 43.5 43.4 43.6 43.6 8 El 103 43.3 43.3 43.2 43.4 43.6 43.6 43.8 43.8 43.9 43.8 9 El 174 41.9 42.0 41.9 42.1 42.1 42.2 42.4 42.S 42.4 42.4 10 SPARE 0.0 0.0 0.0 a.a a.a a.a 0.0 0.0 a.a a.a 11 AMB 16.0 1S.9 16.0 15.S 15.S 1S.3 14.8 14.6 15.S 16.2 12 SPARE 0.0 a.a a.a 0.0 a.a 0.0 0.0 0.0 0.0 0.0 13 SPARE 0.0 a.a a.a 0.0 0.0 a.a o.o 0.0 0.0 a.a PRESSURE psia SENSOR LOCATION SCAN 71 SCAN 72 SCAN 73 SCAN 74 SCAN 75 SCAN 76 SCAN 77 SCAN 78 SCAN 79 SCAN 80 11 :45 12:00 12:1S 12:30 12:4S 13:00 13:15 13:30 13:4S 14:00 1 1101 62.78 62.78 62.79 62.80 62.80 62.81 62.82 62.82 62.82 62.82 2 1102 62.80 62.80 62.81 62.81 62.82 62.83 62.84 62.84 62.84 62.84 3 1089 14.94 14.92 14.94 14.93 14.93 14.93 14.93 14.93 14.93 14.92 4 1090 14.92 14.90 14.92 14.92 14.92 14.92 14.91 14.91 14.91 14.91 s 2686 62.73 62.73 62.73 62.74 62.75 62.76 62.76 62.76 62.n 62.n 6 2687 62.84 62.84 62.84 62.8S 62.86 62.87 62.87 62.87 62.87 62.87
24 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 81 SCAN 82 SCAN 83 SCAN 84 SCAN 85 SCAN 86 SCAN 87 SCAN 88 SCAN 89 SCAN 90 14:15 14:30 14:45 15:00 15: 15 15:30 15:45 16:00 16:15 16:30 1 EL 276.5 52.4 52.3 52.4 52.4 52.4 52.4 52.4 52.4 52.4 52.4 2 EL 253 48.7 48.7 48.8 48.8 48.7 48.8 48.8 48.8 48.7 48.8 3 EL 253 49.0 49.0 49.0 49.1 49.1 49.1 49.0 49.1 49.0 49.0 4 EL 229.5 50.5 50.S 50.5 so.s 50.5 50.6 50.5 50.5 so.s 50.5 5 EL 229.5 48.8 48.8 48.8 48.9 48.8 48.9 48.9 48.9 48.9 48.9 6 EL 229.5 50.5 50.4 50.5 50.5 50.S 50.5 50.S 50.S 50.4 50.4 7 EL 203 49.7 49.7 49.7 49.8 49.8 49.8 49.8 49.8 49.7 49.7 8 EL 203 47.9 47.9 47.9 48.0 47.9 47.9 48.0 47.9 47.9 47.9 9 EL 203 48.9 48.9 48.9 49.0 48.9 49.0 49.0 49.0 49.0 48.9 10 EL 174 50.8 50.8 50.8 50.9 50.8 50.9 50.9 50.9 50.9 50.8 11 EL 174 49.8 49.8 49.8 49.9 49.8 49.7 49.9 49.8 49.9 49.8 12 EL 174 46.3 46.4 46.4 46.4 46.3 46.4 46.4 46.4 46.4 46.3 13 EL 144.S 51.1 51.1 51.1 51.1 51.1 51.1 51.1 51.1 51.1 51.1 14 EL 144.S 49.4 49.4 49.3' 49.3 49.3 49.2 49.3 49.3 49.4 49.3 15 EL 144.S 51.1 SL1 51. 1 51.1 51.1 51.1 51.1 51.1 51.1 51.1 16 EL 120 51.4 51.4 51.4 51.3 51.4 51.4 51.3 51.4 51.3 51.4 17 EL 115 48.6 48.6 48.6 48.6 415.6 48.6 48.7 48.7 48.6 48.7 18 EL 103 48.9 48.9 48.9 48.9 48.9 48.9 49.0 48.9 48.9 48.9 19 EL 98 50.0 50.0 50.0 50.0 50.0 50.1 50.0 50.0 50.0 so.a 20 EL 103 50.6 so.s 50.6 50.6 50.7 50.6 50.4 50.7 50.4 50.5 21 EL 115 48.4 48.4 48.5 48.4 48.5 48.5 48.5 48.5 48.5 48.4 22 EL 88 47.6 47.6 47.6 47.6 47.7 47.7 47.7 47.7 47.6 47.6 23 EL 88 49.5 49.5 49.5 49.5 49.5 49.6 49.6 49.6 49.5 49.5 24 EL 60 50.0 50.0 50.0 50.0 50.0 50.0 50.0 50.0 so.o 50.0 25 AMB 61.5 61.4 61.6 61.5 61.4 61.4 61.3 61.4. 61.4 61.5 26 . GAS METER 49.8' 49.9 49.9 49.9 50.0 50.5 49.2 50.2 50.2 50.2 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 81 SCAN 82 SCAN 83 SCAN 84 SCAN 85 SCAN 86 SCAN 87 SCAN 88 SCAN 89 SCAN 90 14: 15 14:30 14:45 15:00 15:15 15:30 15:45 16:00 16: 15 16:30 1 EL 241 42.9 43.0 43.1 43.1 43.1 43.2 43.2 43.3* 43.2 43.3 2 EL 241 42.8 42.8 42.9 42.9 42.9 43.0 43.0 43.1 43.0 43.1 3 EL 103 43.1 43.3 43.3 43.3 43.4 43.4 43.4 43.4 43.4 43.4 4 EL 174 42.9 42.9 42.9 43.0 43.0 43.0 43.1 43.1 43.0 43.2 5 EL 174 43.3 43.3 43.3. 43.2 43.4 43.5 43.S 43.4 43.5 43.5 6 NOT USED 0.0 0.0 0.0 0.0 0.0 o.o 0.0 o.o 0.0 0.0 7 EL 174 43.7 43.7 43.7 43.8 43.8 43.9 43.9 43.9 43.9 44.0 8 EL 103 . 43.9 43.9 44.0 44.0 44. 1 44.0 44.2 44.1 44.1 44.0 9 EL 174 42.5 42.6 42.6 42.7 42.7 42.7 42.7 42.8 42.8 42.8 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 11 AMB 16.5 16.5 16.8 17.6 16.8 17.5 17.5 17.3 18.0 18.1 12 SPARE 0.0 o.o o.o 0.0 0.0 0.0 0.0 o.o 0.0 0.0 13 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 o.o o.o . o.o 0.0 PRESSURE psi a SENSOR LOCATION SCAN 81 SCAN 82 SCAN 83 SCAN 84 SCAN 85 SCAN 86 SCAN 87 SCAN 88 SCAN 89 SCAN 90 14:.15 14:30 14:45 15:00 15: 15 15:30 15:45 16:00 16:15 16:30 1 1101 62.82 62.82 62.82 62.82 62.82 62.82 62.82 62.82 62.82 62.82 2 1102 62.84 62.84 62.84 62.84 62.84 62.84 62.84 62.84 62.84 62.84 3 1089 14.89 14.93 14.92 14.90 14.90 14.90 14.91 14.91 14.91 14.91 4 1090 14.88 14.91 14.91 14.89 14.89 14.89 14.89 14.89 14.89 14.89 5 2686 62.77 62.77 62.77 62.77 62.77 62.77 62.77 62.77 62.77 62.77 6 2687 62.87 62.88 62.88 62.88 62.88 62.88 62.88 62.88 62.87 62.87
1- - 24 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 91 SCAN 92 SCAN 93 SCAN 94 SCAN 95 SCAN 96 SCAN 97 SCAN 98 SCAN 99 SCAN100 16:45 17:00 17: 15 17:30 17:45 18:00 18: 15 1 EL 276.5 52.4 52.4 52.4 52.5 52.5 52.5 52.6 0.0 o.o 0.0 2 EL 253 48.8 48.7 48.8 48.9 48.9 48.9 49.0 0.0 o.o 0.0 3 EL 253 49.0 49.0 49.1 49. 1 49.2 49.2 49.3 o.o 0.0 0.0 4 EL 229.5 50.5 50.5 50.6 50.6 50.6 50.7 50.8 0.0 o.o o.o 5 EL 229.5 48.9 48.9 48.9 49.0 49.0 49.0 49. 1 0.0 o.o 0.0 6 EL 229.5 50.5 50.5 50.5 50.6 50.6 50.6 50.7 0.0 o.o 0.0 7 EL 203 49.8 49.7 49.8 49.9 49.9 49.9 49.9 0.0 o.o 0.0 8 EL 203 48.0 47.9 48.0 48.0 48. 1 48. 1 48.2 0.0 o.o o.o 9 EL 203 49.0 49.0 49.0 49.0 49. 1 49. 1 49.2 o.o o.o o.o 10 EL 174 50.9 50.9 50.9 50.9 50.9 51.0 51.1 0.0 o.o 0.0 11 EL 174 49.8 49.8 49.9 50.0 50.0 50.0 49.9 0.0 o.o 0.0 12 EL 174 46.4 46.4 46.4 46.4 46.5 46.5 46.6 0.0 o.o 0.0 13 EL 144.5 51. 1 51. 1 51.2 51.2 51 .2 51.3 51.4 0.0 o.o 0.0 14 EL 144.5 49.3 49.3 49.4 49.5 49.5 49.4 49.4 0.0 o.o 0.0 15 EL 144.5 51. 1 51. 1 51.1 51.2 51.2 51 .3 51.4 0.0 o.o 0.0 16 EL 120 51.4 51.3 51.5 51.6 51.5 5L5 51.6 0.0 o.o 0.0 17 EL 115 48.6 48.6 48.7 48.8 48.8 48.8 48.8 0.0 o.o 0.0 18 EL 103 49.0 48.9 49.1 49.2 49.3 49.4 49.4 0.0 o.o 0.0 19 EL 98 50.0 50.0 50. 1 50.2 50.2 50.2 50.3 0.0 o.o 0.0 20 EL 103 50.6 50.7 50.7 50.8 50.7 50.8 51.1 0.0 o.o 0.0 21 EL 115 48.5 48.5 48.6 48.7 48.7 48.8 48.8 0.0 o.o 0.0 22 EL 88 47.6 47.6 47.7 47.8 .47.8 47.9 48.0 0.0 o.o 0.0 23 EL 88 49.5 49.6 49.7 49.8 49.8 49.9 50.0 o.o o.o 0.0 24 EL 60 50.0 50.1 50.2 50.2 SU.3 50.3 50.4 0.0 o.o 0.0 25 AMB 61.6 61.6 61.6 61.6 61.6 61.7 61.7 o..o o.o 0.0 26 GAS METER 50.2 50.2 50.2 50.4 50.4 50.3 50.1 0.0 o.o 0.0 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 91 SCAN 92 SCAN 93 SCAN 94 SCAN 95 SCAN 96 SCAN 97 SCAN 98 SCAN 99 SCAN100 16:45 17:00 17: 15 17:30 17:45 18:00 18:15 1 EL 241 43.2 43.2 43.4 43.4 43.4 43.6 43.7 0.0 0.0 0.0 2 EL 241 43.0 43.1 43. 1 43.2 43.3 43.4 43.5 0.0 0.0 0.0 3 EL 103 43.4 43.5 43.6 43.8 43.8 43.9 44.0 0.0 0.0 0.0 4 EL 174 43.2 43.2 43.2 43.3 43.4 43.4 43.6 0.0 0.0 0.0 5 EL 174 43.5 43.6 43.6 43.8 43.7 44.1 44.0 0.0 0.0 0.0 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 7 EL 174 44.0 44.0 44.1 44.2 44.3 44.4 44.4 0.0 0.0 0.0 8 EL 103 44.2 44.1 44.4 44.3 44.4 44.5 44.8 o.o 0.0 0.0 9 EL 174 42.9 42.8 43.0 43.0 43.1 43.3 43.3 0.0 0.0 0.0 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 11 AMB 18.5 18.7 19.0 19.1 19.1 19.6 19.7 o.o 0.0 0.0 12 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 13 SPARE 0.0 o.o 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 PRESSURE psia SENSOR LOCATION SCAN 91 SCAN 92 SCAN 93 SCAN 94 SCAN 95 SCAN 96 SCAN 97 SCAN 98 SCAN 99 SCAN100 16:45 17:00 17:15 17:30 17:45 18:00 18:15
- 1. 1101 62.82 62.82 62.83 62.84 62.84 62.85 62.85 o.oo 0.00 0.00 2 1102 62.84 62.84 62.85 62.86 62.86 62.87 62.88 0.00 0.00 0.00 3 1089 14.91 14.91 14.91 14.92 14.92 14.92 14.92 o.oo 0.00 0.00 4 1090 14.90 14.90 14.90 14.90 14.90 14.91 14.91 0.00 0.00 0.00 5 2686 62.77 62.77 62.78 62.78 62.79 . 62.79 62.80 0.00 0.00 0.00 6 2687 62.88 62.88 62.88 62.89 62.89 62.90 62.91 0.00 0.00 0.00
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~~ H~r 1002 >IMB!ENT CONTAINMENT ST~l3!L! Ty SCAN TIME PRESS TE!'1P TEMP DEW PT PRESS MASS AVG DIFF14hr AVG DIFF!lhr AlJG DIFJ:"
No. Hour Ps1a DeoF DeoF DeoF Ps1a Lbm De9F DeoF DMF 13 :5, 14.67 57. 82 52.48 43.97 63 .18 870338 0.00 0.00 0. 00
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- SALEM GENERAT ! ~G ST AT ! ON IJN JT 2 TEMPERATURE STABILITY - WEIGH F.ACTOR F!LE: WE!GH2 AMBIE~T CONTAINMENT STAB!L! TY SCAN T!ME PRESS TEMP TEMP DEW PT PRESS MASS AVG OIFF14hr AtJG DIFFllhr AUG D!FF No. Hour Ps1a DeoF DeoF DeaF Ps1a Lbm DeaF DeaF De"F 17 17:,5 14.73 57.98 50. 28 43. 49 62.93 870676 .5? .03 -.52 1Q
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23 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN a SCAN 9 SCAN 10 13:SS 14:10 14:2S 14:40 14:SS 1S:10 1S:25 15:40 15:SS 16:10 1 EL 276.S 55.7 54.a 54.3 54.0 53.a S3.6 53.4 53.3 53.3 53.2 2 EL 2S3 52.0 51.0 50.6 S0.2 S0.1 49.9 49.a 49.7 49.6 49.6 3 EL 2S3 S2.4 51.4 S0.9 S0.6 S0.4 S0.3 50.1 so.a *so.a 49.a 4 EL 229.5 54.1 53.2 52.6 S2.4 S2.1 S1.9 51.a s1.a S1.6 S1.S S EL 229.S 52.3 51.2 50.7 S0.4 S0.3 S0.1 49.9 49.9 49.a 49.7 6 EL 229.S 54.0 53.0 52.4 S2.1 S1.9 s1.a S1.6 S1.5 S1.4 S1.3 7 EL 203 53.2 52.3 51. 7 51.S S1.2 S1.1 S0.9 50.9 so.a 50.7 a EL 203 S1.S 50.6 50.0 49.7 49.S 49.3 49.2 49.0 4a.9 4a.a 9 EL 203 52.4 51 .3 so.a SO.S S0.3 S0.2 S0.1 so.a 49.9 49.9 10 EL 174 54.3 S3.3 52.9 S2.6 S2.3 S2.2 S2.1 52.0 S1.9 S1.a 11 EL 174 52.9 52.0 51.5 S1.3 S1.2 51.0 so.a S0.7 50.6 S0.6 12 EL 174 49.6 4a.7 4a.2 4a.o 47.7 47.6 47.4 47.4 47.3 47.2 13 EL 144.S 54.2 S3.4 52.9 S2.7 52.4 52.3 52.2 S2.1 S2.0 52.0 14 EL 144.5 52.3 51.3 51.0 S0.8 so.s 50.4 50.3 S0.4 S0.1 50.1 15 EL 144.S 53.9 S3.2 52.7 S2.S S2.3 52.2 52.0 52.0 si.a S1.a 16 EL 120 S3.5 52.9 52.9 S2.8 S2.5 52.2 S2.2 52.2 52.1 S2.0 17 EL 11S 50.7 S0.4 50.2 so.a 49.9 49.a 49.7 49.6 49.S 49.4 1a EL 103 49.9 49.6 49.4 49.3 49.2 49. 1 49.1 49.1 49.0 49.0 19 EL 9a 52.3 51.S 51.6 S1.7 S1.4 S1.2 51.1 S1.0 so.a so.a 20 EL 103 S1.6 51.1 S1.2 S0.9 S0.9 so.a S0.9 S0.7 S0.6 S0.7 21 EL 11S 50.7 50.3 50.2 so.a so.a 49.a S0.1 S0.2 50.1 50.2 22 EL 88 4a.3 4a. 1 47.9 47.a 47.7 47.6 47.6 47.S 47.S. 47.5 23 EL 88 50.7 S0.4 50.2 S0.1 so.a 49.9 49.9 49.9 49.a 49.a 24 EL 60 51.4 S1.2 51. 1 51.0 S0.9 S0.9 so.a S0.7 S0.7 50.7 2S AMB 57.a 57.a S7.a S7.9 sa.1 5a.1 sa.1 sa.1 sa.1 sa.2 26 GAS METER 49.6 49.7 49.7 49.8 49.a 49.a 49.a 49.a 49.a 49.a DEW POINT TEMPERATURE SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN S SCAN 6 SCAN 7 SCAN a SCAN 9 SCAN 10 13:5S 14:10 14:2S 14:40 14:55 15:10 15:25 15:40 15:55 16:10 1 EL 241 43.9 43.7 43.6 43.3 43.2 43.2 43.0 43.0 43.1 43.0 2 EL 241 43.a 43.5 43.3 43.2 43.0 43.0 42.9 42.a 42.a 42.a 3 EL 103 43.9 43.7 43.5 43.3 43.3 43.3 43.2 43.2 43.2 43.3 4 EL 174 43.7 43.4 43.3 43.5 43.2 43.0 42.9 42.9 42.9 42.9 S EL 174 44.4 44.0 43.9 43.S 43.6 43.4 43.5 43.3 43.2 43.2 6 NOT USED o.o 0.0 0.0 0.0 o.o 0.0 0.0 0.0 o.o 0.0 7 EL 174 44.6 44.4 44.2 44.0 43.9 43.a 43.7 43.7 43.6 43.6 a EL 103 44.3 44.0 44.0 43.7 43.7 43.6 43.7 43.6 43.7 43.a 9 EL 174 43.2 42.a 42.8 42.7 42.6 42.4 42.4 42.4 42.4 42.2 10 SPARE o.o o.o 0.0 0.0 0.0 o.o o.o o.o o.o 0.0 11 AMB 20.1 20.0 19.a 1a.9 17.a 17.6 17 .1 15.6 16.6 16.2 12 SPARE 0.0 o.o 0.0 0.0 0.0 o.o o.o o.o 0.0 0.0 13 SPARE o.o o.o 0.0 0.0 o.o 0.0 o.o o.o o.o o.o PRESSURE psia SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3 SCAN* 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 13:55 ~4:10 14:25 14:40 14:55 15:10 15:25 15:40 15:55 16:10 1 1101 63.17 63.08 63.04 63.01 62.99 62.97 62.96 62.95 62.94 62.93 2 1102 63.19 63.10 63.06 63.03 63.01 62.99 62.9a 62.97 62.96 62.95 3 1oa9 14.69 14.69 14. 71 14. 71 14. 71 14.71 14.71 14.n 14.n 14. 72 4 1090 14.67 14.67 14.68 14.68 14.70 14.70 14.70 14.70 14. 71 14. 71 5 2686 63.11 63.02 62.9a 62.9S 62.92 62.91 62.a9 62.88 62.a7 62.a7 6 2687 63.22 63.13 63.0a 63.0S 63.03 63.02 63.00 62.99 62.9a 62.97
23 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 2
3 1 LOCATION EL 276.5 EL 253 EL 253 SCAN 11 16:2S 53.1 49.5 49.7 16:40 53.1 49.5 49.8 CONTAINMENT TEMPERATURE SCAN 12 SCAN 13 16:55 53.1 49.5 49.8 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 20 17:10 53.1 49.5 49.7 17:25 53.1 49.4 49.7 17:40 53.0 49.4 49.7 17:55 53.1 49.4 49.7 18:10 53.2 49.6 49.8 0.0 o.o 0.0 0.0 0.0 o.o 4* EL 229.S 51.4 51.4 S1.4 51.4 51.4 51.4 51.3 51.5 0.0 o.o 5 EL 229.5 49.6 49.6 49.7 49.6 49.6 49.6 49.6 49.7 0.0 0.0 6 EL 229.5 51.3 51.2 51.2 51.2 51.2 51.2 S1.2 51.3 0.0 0.0 7 EL 203 50.6 S0.6 50.6 50.5 50.S 50.S 50.S 50.7 o.o 0.0 8 EL 203 48.8 48.8 48.8 48.7 48.7 48.7 48.7 48.8 o.o 0.0 9 EL 203 49.8 49.7 49.7 49.8 49.7 49.7 49.7 49.8 0.0 o.o 10 EL 174 51.8 51. 7 51.7 51. 7 51. 7 51.6 S1.6 51.8 o.o o.o 11 EL 174 50.5 50.5 50.S 50.5 50.5 50.4 50.S 50.8 0.0 0.0 12 EL 174 47.1 47.1 47.1 47.1 47.1 47.1 47.0 47.2 0.0 0.0 13 EL 144.5 51.9 51.9 51.9 51.9 51.8 51.9 S1.9 52.0 o.o 0.0 14 EL 144.5 50.1 50.1 50.1 50.1 49.9 50.0 S0.1 50.3 0.0 0.0 15 EL 144.S 51.8 51. 7 51.7 51.7 51. 7 51. 7 51. 7 52.0 0.0 0.0 16 EL 120 51.9 S1.9 S2.0 51.9 51.8 51.8 52.0 52.3 o.o 0.0 17 EL 11S 49.4 49.4 49.4 49.4 49.4 49.4 49.4 49.S 0.0 0.0 18 EL 103 49.0 49.1 49.2 49.2 49.2 49.2 49.4 49.S 0.0 0.0 19 EL 98 50.7 50.7 50.7 50.6 50.7 50.6 50.7 50.8 0.0 0.0 20 EL 103 50.7 so.a 51.0 so.a 50.7 so.a 51.2 S1.1 0.0 0.0 21 EL 11S 50.1 50.1 50.1 50.2 50.1 50.2 49.7 49.6 0.0 0.0 22 EL 88 47.4 47.S 47.6 47.6 47.6 47.7 47.9 48.2 0.0 0.0 23 EL 88 49.a 49.a 49.9 49.9 49.9 49.9 so.a 50.2 0.0 0.0 24 EL 60 50.7 50.7 50.a 50.8 so.a so.a so.a 50.9 0.0 0.0
- 25. AMB 5a.1 5a.1 58.0 5a.o 5a.o sa.o 5a.o S7.9 0.0 o.o 26 GAS METER 49.a 49.7 49.a 47.4 49.4 49.S 49.6 so.a 0.0 0.0 DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 11 16:25 42.9 42.9 43.2 42.9 43.2 SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 1a SCAN 19 SCAN 20 16:40 43.1 42.8 43.4 43.0 43.3 16:SS 43.0 42.9 43.5 43.1 43.3 17: 10 43.1 42.9 43.5 43.1 43.5 17:2S 43.4 43.1 43.5 42.9 43.5 17:40 43.4 43.1 43.6 43.2 43.5 17:5S 43.2 43.2 43.7 43.3 43.6 1a: 10 43.3 43.3 43.a 43.3 43.6 o.o o.o o.o o.o 0.0 0.0 o.o o.o 0.0 0.0 6 NOT USED 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 o.o 0.0 7 EL 174 43.6 43.6 43.7 43.a 43.9 43.9 44.0 44.1 o.o 0.0 a EL 103 43.7 44.0 44.1 43.9 44.0 44.1 44.4 44.3 0.0 0.0 9 EL 174 42.4 42.4 42.S 42.6 42.6 42.a 42.8 42.9 0.0 0.0 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 11 AMB 16.4 1S.9 1S.a 15. 1 15.1 1S.O 1S.O 15.S o.o 0.0 12 SPARE 0.0 0.0 0.0 0.0 0.0 o.o o.o 0.0 o.o 0.0 13 SPARE 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 o.o 0.0 PRESSURE psia SENSOR LOCATION SCAN 11 SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 1a SCAN 19 SCAN 20 16:2S 16:40 16:5S 17: 10 17:2S 17:40 17:SS 18:10 1 1101 62.92 62.92 62.92 62.92 62.91 62.91 62.93 62.94 0.00 0.00 2 1102 62.94 62.94 62.94 62.94 62.94 62.94 62.95 62.96 0.00 0.00 3 1089 14.73 14. 73 14.73 14.73 14.74 14.74 14.75 14.75 0.00 0.00 4 1090 14. 71 14.71 14.72 14.n* 14.n 14.73 14.73 14.74 0.00 0.00 s 2686 62.86 62.86 62.86 62.86 62.86 62.86 62.a7 62.88 0.00 0.00 6 2687* 62.97 62.96 62.97 62.96 62.96 62.96 62.97 62.9a 0.00 0.00
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24 Mar 1992 SALEM GENERATING STATION UNIT 2 VERIFICATION TEST (Acceptance Criteria 206.7 Lbrn) ILRT VERIFICATION DIFFERENCE SCAN TIME TEMP DEW PT PRESS MASS MASS GAS GAS TEMP PRES MASS MASS No. Hour DegF DegF Psi a Lbrn Lbrn read cuft DegF Psi a Lbrn Lbrn 1 18:26 49.8 43.9 62.859 870460 0 89363.8 0.0 50.3 62. 786 0 0.0 2 18:31 49.8 43.9 62.857 870419 41 89592.8 229.0 48.4 30.038 56 *15.1 3 18:36 49.8 43.9 62.854 870400 61 89700.4 336.6 50.1 60.470 91 -30.5 4 18:41 49.8 43.9 62.853 870393 67 89738.1 374.3 50.1 60.507 106 -38.5 5 18:46 49.8 43.9 62.851 870417 44 89781'.3 417. 5 50.2 57.495 120 -76. 1 6 18:51 49.8 43.9 62.849 870376 85 89841. 7 477. 9 50.5 57.493 139 -53.7 7 18:56 49.8 43.9 62.847 870369 92 89902.1 538.3 50.7 57.499 157 -65.3 8 19:01 49.8 43.9 62.845 870360 101 89962.5 598.7 50.6 57.477 176 -75.2 9 19:06 49.8 43.9 62.841 870302 158 90108.3 744.5 50.3 37.697 211 -52.7 10 19:11 49.8 43.9 62.837 870282 178 90293.0 929.2 50.1 37.683 255 -77 .1 11 19:16 49.7 43.9 62.833 870253 207 90478.3 1114.5 50.0 . 37.492 298 -91.3 12 19:21 49.7 44.0 62.829 870206 255 90662.9 1299.1 50.0 37.485 340 -85.5 13 19:26 49.7 43.9 62.826 870194 266 90848.2 1484.4 50.0 37.665 382 -115.3 14 19:31 49.7 43.9 62.822 870114 346 91032.8 1669.0 50.0 37.651 422 -75.9 15 19:36 49.7 43.9 62.818 870097 364 91218.1 1854.3 49.9 37.659 463 -99.0
- 16 19:41 17 19:46 18 19:51 19 19:56 49.7 49.7 49.7 49.7 43.8 43.9 43.8 43.8 62.814 62.810 62.806 62.801 870065 870029 870001 869958 395 431 459 502 91402.7 91588.0 91772.6 91957.9 2038.9 2224.2 2408.8 2594.1 49.8
.49.9 49.9 49.9 37.641 37.822 37.659 37.819 502 542 581 620 -106.7 -110.5 -121. 7 -117.5 20 20:01 49.6 43.9 62.796 869902 558 92142.4 2778.6 49.8 37.644 659 -100.3 21 20:06 49.6 43.8 62.792 869877 583 92327.7 2963.9 49.8 37.622 697 -113.8 22 20:11 49.6 43.8 62.788 869837 623 92512.3 3148.5 49.8 37.630 735 -112.4 23 20:16 49.6 43.8 62.784 869811 649 92697.5 3333.7 49.8 37.630 774 -124.6 24 20:21 49.6 43.8 62.780 869749 711 92882.1 3518.3 49.7 37.648 812 *100.6 25 20:26 49.6 43.8 62.776 869740 720 93067.3 3703.5 49.7 37.465 850 -129 .2 26 20:31 49.6 43.8 62.771 869698 762 93252.0 3888.2 49.7 37.805 888 -125 .2 27 20:36 49.5 43.7 62.766 869671 790 93437.1 4073.3 49.6 37.619 926 -135 .8 28 20:41 49.5 43.7 62.761 869594 867 93621 ..8 4258.0 49.6 37.635 963 -96.8
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- SALEM GENERATING STAT!ON IJN!T 2 CONTAINMENT CONDITION DATA - WEIGH FACTOR FILE: lJEIGH2 2.:i H<!r 19Q2 AMBIENT CONTAINMENT
*SCAN T!ME TEMP PRES TEMP OW PT OIFF PRESS RATE R.H.
No. Hour Oe1JF Ps1a OeaF OeaF DeaF P51a p~~/ r.~@ ~/ l-'f /7 ... 21:10 61. 6 14.9 49.5 43.6 5.B 62. 75 0.00 81). 2
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';\ 22: ltJ 61. 5 14.9 44.4 40.9 3.5 56.71 -9.63 87.4 6 22:25 61.' 1.i.9 43.6 .i0.2 3.4 54.42 -9 .17 87.7 .., 22:.iQ 87.0 61.4 14.9 43.1 39.5 3.6 52.25 .-8. 68 ~ 2'2: 5'i 61. ci 14.9 42.B 38.9 3.9 50 .18 -8.25 86.0 ll 23:10 61. 4 14.9 42.6 38.4 4.2 48.21 -7.91 . 85. 0 !D 23:25 61. 4 14.9 42.3 37.9 4.5 46.31 -7.57 84.0 !1 23: 40 61.4 14.9 42.2 37.4 ci, 8 44.50 -7.26 82.9 1') 23:55 61. 3 14.9 42.1 36.9 5.2 42 .76 -6.95 81.7 !3 Qi): lQ 61. 3 14.9 42. 0 36.4 5.6 41.10 -6.65 80.5 lei 00:25 61. 3 14.9 41. 9 36.0 6.0 39.51 -6.36 79.2
- 15 16 DD: al) 00:55
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- 61. 2 14.9 14.9
- 41. 9
- 41. 9
- 35. 6 35.1 6.3 6.B 37.99 36.53
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- 78. 0 76.6
- SALEM GENERAT[NG STAT[IJN IJN!T 2 CONTA!N~ENT CONDITION DATA - WEIGH FACTOR FILE: laJEIGH2 25 M~r 1QQ2
'lMBIENT CONTAINMENT SCPN TIME TE~P PRES TEMP OW PT DIFF PRESS RATE R.H.
No. Hour OeoF Ps1a DeoF DeoF DeoF P~1a -+'tTr % PS1D/hl"' .._c.J_ '-f/L*dt:f l..... 17 01:10 61. 2 14.9 41. 9 34.7 7.2 35.13 -5.61 7?.5 18 01: 2':i 61. 2 14.9 41. 9 34.3 7.6 33.79 -5.35 74.3 lQ 01: 40 61. l 14.9 41. 9 33.9 8.0 3Vil -5.13 73.0 20 01:55 61. l l<i.9 41. 9 33.? 8.5 31. 28 -4.92 71.7 21 02: 10 61. 2 14.9 41. 9 33. 0 8. 9* 30 .11 -4.67 70.3
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02:25 61. l 14.9 42.0 32.6 9,4 29.99 -4.49 69.1 23 02: 41) 61. l 14.9 42.1 32.2 9.8 27.92 -4.27 67. 9 24 1)2:55 61. l 14.9 42.1 31. 8 10.3 26.89 -4, 09 lJ':i.2
')I; rJ): 10 61.1 14.9 42.2 31. 4 10.8 21:i.93 -3.87 132.4 26 03:25 61. 0 14.9 42.3 31.1 11. 2 25.00 -3.73 129.9 27 03: .:ii) 61. 2 14.9 42.4 30.7 lL' 24.12 -3.?0 127 .1 28 03:55 61. 2 14.9 42.'.i 30.4 12. 1 23.28 -3.35 124.7 ~Q 06:10 61.1 14.9 42.6 30.0 12.6 22. 49 -3.1.7 122.2
- 31) 1)4:25 61. 0 14.9 42.7 29.7 13. 0 21.74 -2.98 119. 9
- 31 32 04:41)
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- SALEM GENERATING STAT!ON IJN!T 2 CONTAINMENT CONDITION DATA - WEIGH FACTOR FILE: WEIGH2 25 Mar 1QQ2 AMB!ENT CONTAINMENT SCAN TIME TEMP PRES TEMP OW PT DIFF PRESS RATE R.H.
No. Hour DeaF P51a DeaF DeaF DeaF Ps1a ~ ~ f)S 10/J, r (_Q. '{ (J. '{/f I-33 0?:10 61. 0 1?. 0 43.1 28.7 14.4 19.7? -2.49 112.8
~4 oi:;: 25 61. 0 15.0 '13. 3 28.4 14.9 19 .16 -2.3' 110.4 35 05:40 61. 0 1?.0 43, lj 28.1 l?.4 18.62 -2 .1? 108.1 56 05:55 61. 0 15.0 43.6 27.Q l?.8 18.12 -2.00 106.3 0 06: 10 61. l 1?. 0 43.9 27.7 16.2 17.6? -1.87 104,lj 58 1)6:25 61. l 15.0 44.1 27.5 16.6 17.22 -1. 73 102.7 5Q 06: 41) 61. 2 15.0 44.3 27.3 1.7. 0 16.83 -1. ?6 101. l al) Q6:55 61. 3 15.0 44.5 27 .1 17.4 16. 47 -1. 41 9Q,5 41 1)7:10 61. 3 15. 0 44.7 27 .1 17.6 16 .16 -1.25 98.5 42 1)7:25 61. 3 15.0 44.9 27.0 17.9 15.89 -1.10 97.4 a3 1)7:41) 61. 3 15.0 45.2 27.0 18.2 15.6? -.96 96.4 0.4 1)7: 55 61. 3 14.9 45.4 27.0 18.4 l?.44 -.82 95.5 41; 08:10 61. 3 15.0 45.7 27.1 18.5 15.27 -.67 9? .1 46 1)8:25 61. 4 15. o 45.9 27.2 18.B 15.14 -.53 94.3
- 47 48 08: a.o 08:55 61.;
- 61. 7 15.0 15.0 46.2 46.5 27.3 27.5 18.9 19.0
- 15. 04 14.98
-.38 -.26 93.9 93.7
- SALEM GENERAT!NG STATION UNIT 2 CONTAINMENT CONDITION DATA - WEIGH FACTOR FILE: lJ£1GH2 25 l'1i!~ 1QQ2 A1'181ENT CONTAINMENT SCPN TIME TEMP PRES TEMP Dlil PT DIFF PRESS RATE R.H.
No. Hour DeaF P51a
- DeaF DeaF OeoF Ps1a ~
4Q P,;,o/Jtr ~ <j/i.'f/t; ,_ 1)9: 10 61. 8 15.0 46.9 27.7 19.2 l4.9'i - .13 93.3
~o t)Q: 25 ~2.0 15.0 47.1 27.9 19.2 l<i, 94 -.03 93.3 51 1)Q: a.o 62.1 15. 0 a.7,4 28.2 19.2 14.95 .02 Q3,6
24 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 21:10 21:25 21:40 21:55 22:10 22:25 22:40 22:55 23:10 23:25 1 EL 276.5 52.3 50.7 49.4 48.4 46.6 45.8 45.4 45.1 44.8 44.5 2 EL 253 48.7 47.2 45.6 44.6 42.8 41.9 41.4 41.1 40.9 40.9 3 EL 253 49.0 47.3 46.0 45.1 43.3 42.6 42.1 41. 7 41.6 41.4 4 EL 229.5 50.4 49.0 47.6 46.7 45.1 43.8 43.6 43.3 43.1 42.7 5 EL 229.5 48.8 47.2 45.7 44.7 42.8 42.0 41.5 41.3 41.0 40.8 6 EL 229.5 50.4 48.8 47.5 46.3 44.5 43.7 43.2 42.8 42.6 42.4 7 EL 203 49.6 48.3 47.0 45.8 44.0 43.1 42.6 42.2 42.0 41.8 8 EL 203 47.8 46.5 45.1 43.9 42.0- 41.1 40.8 40.3 40.1 39.9 9 EL 203 48.9 47.8 46.4 45.2 43.4 42.5 42.2 41.9 41. 7 41.3 10 EL 174 50.8 49.6 48.1 47.0 45.1 44.2 43.7 43.3 43.0 42.8 11 EL 174 49.7 48.1 46.6 45.5 43.4 42.4 42.0 41.7 41.4 41.3 12 EL 174 46.3 45.2 44.0 42.6 40.9 40.1 39.5 39.3 39.0 38.7 13 EL 144.5 51.0 49.8 48.4 47.3 45.4 . 44.4 43.9 43.6 43.4 43.2 14 EL 144.5 49.1 47.8 46.5 45.3 43.4 42.4 41.8 41.6 41.2 41.1 15 EL 144.5 51.0 49.6 48.2 47.0 45.2 44.3 43.8 43.6 43.3 43.0 16 EL 120 51.4 50.0 48.8 47.7 45.3 43.9 43.3 43.0 42.9 42.7 17 EL 115 48.7 48.0 47.6 47.2 46.2 45.7 45.2 44.9 44.6 44.4 18 EL 103 48.9 48.3 47.9 47.5 46.7 46.1 45.8 45.6 45.4 45.3 19 EL 98 49.9 48.6 47.4 46.5 44.2 42.6 42.1 41.8 41.6 41.4 20 EL 103 50.2 49.8 49.4 48.9 48.2 48.1 47.6 47.6 47.5 47.3 21 EL 115 48.5 48.0 47.3 47.0 46.4 46.1 45.9 45.6 45.3 45.0 22 EL 88 47.6 46.9 46.5 45.9 45.0 44.5 44.1 43.8 43.5 43.3 23 EL 88 49.5 48.7 48.3 47.8 46.8 45.8 45.0 44.6 44.3 44.1 24 EL 60 49.9 49.5 49.1 48.7 47.8 47.3 46.9 46.6 46.4 46.3 25 AMB 61.6 61.6 61.6 61.6 61.5 61.5 61.4 61.4 61.4 61.4 26 GAS METER 50.9 50.9 50.7 50.6 50.7 50.7 50.6 50.6 50.6 50.6 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 21:10 21:25 21:40 21:55 22:10 22:25 22:40 22:55 23:10 23:25 1 EL 241 43.7 43.0 42.2 41.8 40.7 40.0 39.2 38.3 38.0 37.6 2 EL 241 43.4 42.9 42.2 41.5 40.5 39.7 39.1 38.5 37.9 37.4 3 EL 103 43.5 43.1 42.5 42.0 40.9 40.3 39.4 39.0 38.3 37.8 4 EL 174 43.3 42.9 42.1 41.7 40.6 . 39.8 39.5 38.9 38.4 37.9 5 EL 174 43.8 43.2 42.7 42.0 41.0 40.2 39.5 38.9 38.2 37.8 6 NOT USED 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 7 EL 174 44.3 43.8 43.1 42.5 41.5 40.7 40.0 39.4 38.8 38.3 8 EL 103 44.2 43.8 43.2 42.5 41.8 41.2 40.5 40.1 39.4 38.9 9 EL 174 43.0 42.6 42.0 41.4 40.4 39.6 39.1 38.6 38.0 37.6 10 SPARE 0.0 0.0 0.0 o.o o.o o.o 0.0 o.o 0.0 0.0 11 AMB 22.3 22.3 22.1 22.3 21 .6 21.5 21.3 21.0 21.2 21.2 12 SPARE 0.0 o.o 0.0 o.o 0.0 0.0 0.0 0.0 o.o 0.0 13 SPARE o.o 0.0 o.o 0.0 0.0 o.o o.o o:o 0.0 0.0 PRESSURE psia SENSOR LOCATION SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN 5 SCAN 6 SCAN 7 SCAN 8 SCAN 9 SCAN 10 21:10 21:25 21:40 21:55 22:10 22:25 22:40 22:55 23:10 23:25 1 1101 62.75 61.92 60.68 59.12 56.71 54.41 52.24 50.18 48.20 46.31 2 1102 62.77 61.94 60.69 59.14 56.73 54.43 52.27 50.20 48.22 46.33 3 1089 14.96 14.96 14.96 14.96 14.95 14.96 14.96 14.96 14.96 14.96. 4 1090 14.94 14.94 14.94 14.94 14.93 14.94 14.94 14.94 14.95 14.95 5 2686 62.69 61.86 60.61 59.05 56.64 54.35 52.19 50.13 48.15 46.25 6 2687 62.80 61.98 60.n 59.17 56.76 54.48 52.30 50.24 48.26 46.36
24 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 11 SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN. 16 SCAN 17 SCAN 18 SCAN 19 SCAN 20 23:40 23:55 00:10 00:25 00:40 00:55 01: 10 01:25 01:40 01:55 1 El 276.5 44.4 44.4 44.2 44.2 44.2 44.2 44.2 44.2 44.2 44.2 2 EL 253 40.6 40.5 40.4 40.4 40.4 40.4 40.3 40.3 40.4 40.4 3 EL 253 41.3 41.2 41.0 41.0 41.0 41.1 41.0 41.0 41.0 41.0
.4 El 229.5 42.5 42.5 42.4 42.5 42.3 42.3 42.3 42.4 42.3 42.3 5 El 229.5 40.7 40.6 40.5 40.5 40.5 40.5 40.S 40.5 40.5 40.5 6 EL 229.5 42.3 42.1 42.1 42.0 42.0 42.0 42.0 41.9 41.9 42.0 7 EL 203 41. 7 41.5 41.4 41.3 41.2 41.3 41.3 41.2 41.3 41.3 8 EL 203 39.7 39.7 39.6 39.S 39.5 39.S 39.5 39.4 39.5 39.4 9 El 203 41.2 41.2 41.0 40.9 40.9 41.2 40.8 40.9 40.9 41.1 10 El 174 42.7 42.6 42.5 42.4 42.4 42.5 42.4 42.4 42.4 42.4 11 El 174 41.0 40.9 40.9 40.8 40.8 40.7 40.7 40.7 40.8 40.8 12 El 174 38.6 38.5 38.4 38.3 38.3 38.3 38.3 38.3 38.3 38.3 13 EL 144.S 43.0 42.9 42.8 42.8 42.8 42.9 42.7 42.8 42.8 42.8 14 El 144.5 41.0 40.8 40.7 40.6 40.6 40.7 40.6 40.6 40.7 40.7 15 El 144.5 42.8 42.7 42.7 42.6 42.6 42.6 42.5 42.7 42.5 42.7 16 El 120 42.4 42.4 42.1 42.0 42.0 42.0 42.0 42.2 42.0 42.2 17 EL 115 44.2 44.0 43.9 43.8 43.7 43.6 43.6 43.6 43.6 43.6 18 El 103 45.2 45.1 . 45.0 45.1 45.1 45.1 45.1 45.1 45.1 45.1 19 EL 98 41.1 41.1 40.8 40.8 40.6 40.7 40.6 40.8 40.7 40.8 20 El 103 47.2 47.1 47.1 47.3 47.2 47.2 47.3 47.3 47.3 47.4 21 El 115 44.7 44.5 44.4 44.3 44.2 44.1 44.0 44.0 43.9 43.9 22 El 88 43.1 43.0_ 42.9 42.9 42.8 42.8 42.8 42.8 42.8 42.8 23 El 88 43.8 43.7 43.6 43.5 43.5 43.5 43.4 43.4 43.5 43.5 24 El 60 46.1 46.1 . 46.0 46.0 46.0 46.0 46.0 46.0 46.1 46.1 25 AMB 61.4 61.3 61.3 61.3 61.3 61.2 61 .2 61.2 6L1 61.1 26 GAS METER 50.4 so.5 50.4 50.4 50.4 50.3 50.3 50.2 so. 1 50.2 DEW POINT TEMPERATURE SENSOR LOCATION SCAN 11 SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 20 23:40 23:55 00:10 00:25 00:40 00:55 01: 10 01:25 01:40 01:55 1 El 241 37.0 36.6 36.2 35.7 35.3 34.9 34.5 34.1 33.5 33.2 2 El 241 36.9 36.4 36.0 35.6 35.2 34.8 34.4 33.9 33.6 . 33.0 3 El 103 37.3 36.7 36.1 35.7 35.4 34.9 34.4 34.0 33.S 33.2 4 El 174 37.4 37.1 36.6 36.1 35.7 35.2 34.9 34.8 34.0 33.5 5 EL 174 37.3 36.9 36.3 35.8 35.4 35.1 34.6 34.1 33.8 33.3 6 NOT USED 0.0 0.0 a.a 0.0 a.a a.a a.a a.a 0.0 o.a 7 EL 174 37.7 37.3 36.7 36.3 35.8 35.5 35.1 34.S 34.2 33.8 8 El 103 38.3 37.9 37.4 37.0 36.5 36.1 35.7. 35.4 35.a 34.6 9 El 174 37.2 36.6 36.1 35.7 35.3 34.9 34.'4 34.1 33.7 33.1 1a SPARE 0.0 a.a a.a a.a a.a a.a a.a a.a a.o 0.0 11 AMB 21.3 21.1 21.0 21.7 21.9 22.7 23.2 23.7 24.1 24.4 12 SPARE a.a a.a o.o a.a a.a a.a a.a a.a a.a a.a 13 SPARE a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a PRESSURE psi a SENSOR LOCATION SCAN 11 SCAN 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 SCAN 18 SCAN 19 SCAN 2a 23:4a 23:55 aa:1a 00:25 aa:4a aa:55 a1: 1a a1:25 a1:40 a1:55 1 11a1 44.5a 42.76 41.09 39.50 37.98 36.53 35.13 33.79 32.51 31.28 2 1102 44.51 42.77 41.11 39.52 38.aa 36.53 35.13 33.79 32.51 31.28 3 1089 14.96 14.96 14.96 14.96 14.96 14.96 14.96 14.96 . 14.96 14.96 4 1a9a 14.94 14.94 14.95 14.95 14.94 14.95 14.95 14.95 14.94 14.95 5 2686 44.44 42.71 41.aS 39.46 37.94 36.48 35.as 33.74 32.45 31.23 6 2687 44.55 42.81 41. 15 39.55 38.a4 36.58 35.17 33.84 32.55 31.32
25 Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 21 SCAN 22 SCAN 23 SCAN 24 SCAN *25 SCAN 26 SCAN 27 SCAN 28 SCAN 29 SCAN 30 02: 10 02:25 02:40 02:55 03:10 03:25 03:40 03:55 04: 10 04:25 1 EL 276.5 44.2 44.3 44.3 44.5 44.S 44.5 44.7 44.8 44.9 45.0 2 EL 253 40.4 40.4 40.5 40.6 40.7 40.8 40.9 41.0 41.1 41.2 3 EL 253 41.0 41.1 41. 1 41.3 41.3 41.3 41.4 41.5 41.6 41.7 4 EL 229.5 42.3 42.4 42.6 42.5- 42.7 42.7 42.7 42.9 42.9 43.0 5 EL 229.5 40.5 40.6 40.6 40.8 40.8 40.9 41.0 41.1 41.2 41.3 6 EL 229.5 42.0 42.1 42.2 42.2 42.3 42.4 42.S 42.6 42.7 42.8 7 EL 203 41.3 41.3 41.4 41.4 41.5 41.6 41.7 41.8 41.9 42.0 8 EL 203 39.5 39.S- 39.6 39.7 39.8 39.8 40.0 40.0 40.1 40.2 . 9 EL 203 41.1 41.0 . 41.0 41.1 41.3 41.4 41.4 41.5 41.5 41.7 10 EL 174 42.4 42.S 42.6 42.6 42.8 42.9 43.0 43.1 43.2 43.3 11 EL 174 40.8 40.8 40.9 41.0 41.1 41.2 41.4 41.4 41.5 41.7 12 EL 174 38.4 38.4 38.5 38.5 38.5 38.6 38.7 38.8 '38.9 39.0 13 EL 144.5 42.9 43.0 43.0 43.1 43.2 43.3 '43.4 43.6 43.7 43.8 14 EL 144.S 40.7 40.8 40.9 40.9 41.0 41.1 41.3 41.4 41.5 41.6 15 EL 144.5 42.6 42.6 42.7 42.8 42.9 42.9 43.1 43.2 43.3 43.4 16 EL 120 42.2 42.2 42.4 42.4 42.5 42.6 42.6 42.8 43.0 43.1 17 EL 115 43.6 43.6 43.7 43.7 43.4 43.4 43.3 43.3 43.4 43.3 18 EL 103 45.1 45.2 45.2 45.3 45.4 45.5 45.6 45.6 45.7 45.7 19 EL 98 40.7 40.8 40.9 41.0 41.2 41.2 41.1 41.4 41.5 41.8 20 EL 103 47.5 47.4 47.6 47.6 47.8 47.8 48.0 48.1 48.2 48.4 21 EL 115 43.8 43.8 43.8 43.7 43.8 43.9 44.0 44.0 44.0 44.1 22 EL 88 42.9 42.9 43.0 43.0 43.0 43.0 43.1 43.2 43.3 43.4 23 EL 88 43.5 43.5 43.7 43.7 43.8 44.0 44.1 44.2 44.3 44.4 24 EL 60 46.1 46.2 46.2 46.3. 46.5 46.6 46.7 46.9 47.0 47.1 25 AMS 61.2 61.1 61.1 61.1 61.1 61.0 61.2 61.2 61.1 61.0' 26 GAS METER 50.1 50.0 50.0 50.1 50.1 50.1 50.1 50.1 50.1 so.a DEW POINT TEMPERATURE SENSOR LOCATION SCAN 21 SCAN 22 SCAN 23 SCAN 24 SCAN 25 SCAN 26 SCAN 27 SCAN 28 SCAN 29 SCAN 30 02: 10 02:25 02:40 02:55 03:10 03:25 03:40 03:55 04:10 04:25 1 EL 241 32.7 32.4 31.9 31.6 31.4 31.0 30.4 30.1 29.7 29.5 2 EL 241 32.7 32.3 31.9 31.6 31.1 30.8 30.4 30.0 29.7 29.4 3 EL 103 32.6 32.4 31.9 31.5 31.1 30.8 30.5 30.0 29.7 29.5 4 EL 174 33.1 32.6 32.4 31.9 31.4 31.1 30.7 30.6 30.1 29.6 5 EL 174 32.8 32.S 32.1 31.7 31.3 31.0 30.7 30.3 29.9 29.6 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 7 EL 174 33.3 32.9 32.5 32.1 31.7 31.3 31.0 30.7 30.3 30.0 8 EL 103 34.2 33.7 33.5 32.9 32.5 32.3 31.8 31.S 31.2 30.9 9 EL 174 32.7 32.3 31.9 31.5 31.1 30.7 30.3 29.9 29.6 29.2 10 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 11 AMS 25.0 25.3 26.4 26.1 26.8 27.2 27.1 27.0 27.6 27.9 12 SPARE 0.0 o.o 0.0 0.0 o.o o.o o.o o.o 0.0 0.0 13 SPARE o.o 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 PRESSURE psia SEN.SOR LOCATION SCAN 21 SCAN 22 SCAN 23 SCAN 24 SCAN 25 SCAN 26 SCAN 27 SCAN 28 SCAN 29 SCAN 30 02:10 02:25 02:40 02:55 03:10 03:25 03:40 03:55 04: 10 04:25
, 1101 30.10 28.98 27.91 26.89 25.91 24.98 24.10 23.27 22.48 21. 73 2 1102 30.11 28.99 27.92 26.90 25.93 25.01 24.13 23.30 22*.50 21. 75 3 1089 14.96 14.96 14.96 14.96 14.96 14.96 14.97 14.97 14.97 14.97 4 1090 14.95 14.95 14.95 14.95 14.95 14.95 14.95 14.95 14.95 14.95 5 2686 30.06 28.93 27.87 26.85 25.88 24.95 24.07 23.24 22.44 21.70 6 2687 30.16 29.04 27.97 26.94 25.98 25.04 24.17 23.33 22.54 21.79
2S Mar 1992 SALEM GENERATING STATION UNIT 2 CONTAINMENT TEMPERATURE SENSOR LOCATION SCAN 31 SCAN 32 SCAN 33 SCAN 34 SCAN 3S SCAN 36 SCAN 37 SCAN 38 SCAN 39 SCAN 4a a4:40 a4:SS as: 1a aS:2S as:40. as:SS a6:10 a6:2S a6:40 06:SS 1 EL 276.S 4S.1 45.2 4S.4 45.6 45.8 46.0 46.2 46.S 46.7 46.9 2 EL 2S3 41.4 41.5 41.7 41.9 42.1 42.3 42.S 42.8 43.0 43.4 3 EL 2S3 41.9 42.a 42.2 42.4 42.6 42.8 43.0 43.2 43.4 43.7 4 EL 229.S 43.1 43.3 43.4 43.7 43.8 44.0 44.2 44.4 44.6 44.9 s EL 229.S 41.S 41.S 41.8 41.9 42.1 42.4 42.6 42.8 43.0 43.2 6 EL 229.S 42.9 43.a 43.2 43.4 43.6 43.8 44.1 44.3 44.S 44.8 7 EL 203 42.1 42.3 42.4 42.6 42.8 43.0 43.2 43.4 43.6 43.8 8 EL 203 40.4 40.S 4a.7 4a.9 41.1 41.3 41.5 41.7 42.0 42.2 9 EL 203 41.8 42.a 42.1 42.2 42.4 42.7 42.8 43.1 43.3 43.4 1a EL 174 43.4 43.6 43.8 44.a 44.2 44.4 44.6 44.8 4S.O 4S.3 11 EL 174 41.8 41.9 42.2 42.3 42.5 42.7 43.0 43.2 43.4 43.7 12 EL 174 39.2 39.3 39.4 39.6 39.7 39.9 40.1 40.3 40.S 40.7 13 EL 144.5 43.9 44.1 44.2 44.4 44.7 44.8 45.1 45.3 45.S 4S.7 14 EL 144.S 41.8 41.8 42.1 42.2 42.S 42.6 42.9 43.1 43.3 43.6 1S EL 144.5 43.S 43.6 43.8 44.0 44.2 44.4 44.6 44.8 4S.1 4S.3 16 EL 120 43.4 43.5 43.6 43.8 44.1 44.4 44.6 44.9 45.1 4S.3 17 EL 11S 43.3 43.S 43.1 43.6 43.4 43.4 43.7 44.0 44.3 44.S 18 EL 1a3 45.8 45.9 46.a 46.2 46.3 46.5 46.6 46.7 46.9 46.9 19 EL 98 42.1 42. 1 42.2 42.4 42.6 42.9 43.1 43.5 43.7 43.9 2a EL 103 48.6 48.8 48.9 49.1 49.3 49.3 49.8 49.8 S0.2 S0.3 21 EL 115 44.2 44.3 44.3 44.4 44.S 44.5 44.6 44.6 44.7 44.8 22 EL 88 43.S 43.6 43.7 43.7 43.8 43.9 44.0 44.2 44.4 44.6 23 EL 88 44.S 44.7 44.8 4S.O 4S.1 45.3 4S.4 4S.5 45.7 4S.9 24 EL 60 47.2 47.3 47.S 47.7 47.8 48.1 48.3 48.4 48.5 48.S 2S AMB 61.0 61.0 61.0 61.a 61.0 61.0 61.1 61.1 61.2 61.3 26 GAS METER so.a S0.1 50.1 S0.1 S0.1 50.1 50.1 so*.1 S0.1 so.a DEW POINT TEMPERATURE SENSOR LOCATION SCAM 31 SCAN 32 SCAN 33 SCAN 34 SCAN 35 SCAN 36 SCAN 37 SCAN 38 SCAN 39 SCAN 40 a4:40 04:SS as:1a a5:25 a5:40 OS:SS a6:10 06:2S 06:40 a6:SS 1 EL 241 29.2 28.8 28.6 28.2 27.9 27.7 27.8 27.2 27.a 26.7* 2 EL 241 29.0 28.7 28.3 28.0 27.8 27.6 27.3 27.2 27.0 26.9 3 EL 103 29.0 28.7 28.4 28.2 27.9 27.7 27.6 27.2 27.1 27.0 4 EL 174 29.1 28.9 28.6 28.2 27.9 27.7 27.4 27.3 27.1 27.0 s EL 174 29.3 28.9 28.6 28.3 28.0 27.8 27.6 27.S 27.4 27.2 6 NOT USED 0.0 a.a a.a a.a a.a a.a a.a 0.0 a.a a.a 7 EL 174 29.7 29.3 29.0 28.7 28.S 28.2 28.1 27.9 27.8 27.6 8 EL 1a3 30.5 30.1 30.a 29.6 29.2 29.1 28.7 28.7 28.S 28.4 9 EL 174 28.8 28.S 28.2 27.9 27.S 27.3 27.1 26.9 26.8 26.6 10 SPARE 0.0 a.a a.a a.a a.a 0.0 a.a a.a a.a a.a 11 AMB 27.7 28.2 28.3 28.3 28.5 28.5 28.8 29.2 28.4 29.1 12 SPARE a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a 13 SPARE a.a a.a a.a a.a a.a a.a a.a a.a a.a a.a PRESSURE psia SENSOR LOCATION . SCAN 31 SCAN 32 SCAN 33 SCAN 34 SCAN 3S SCAN 36 SCAN 37 SCAN 38 SCAN 39 SCAN 40 04:40 04:SS OS: 10 OS:2S OS:40 05:55 06:10 06:2S 06:40 a6:SS 1 1101 21.03 20.36 19. 74 19.16 18.61 18.11 17.*64 17.21 16.82 16.47 2 1102 21.04 2a.38 19. 75 19.17 18.62 18.12 17.6S 17.22 16.83 16.48 3 1089 14.97 14.96 14.97 14.97 14.97 14.98 14.98 14.98 14.98 14.97 4 1090 14.95 14.95 14.96 14.96. 14.96 14.96 14.96 14.96 14.96 14.96 s 2686 20.98 20.32 19.70 19.11 18.57 18.07 17.60 17 .17 16.78 16.42 6 2687 21.07 2a.41 19.79 19.19 18.66 18.16 17.70 17.25 16.87 16.S3
2S Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 1
2 3 LOCATION EL 276.S EL 2S3 EL 2S3 SCAN 41 07: 10 47.2 43.S 43.9 07:2S 47.4 43.8 44.1 07:40 47.7 44.0 44.3 CONTAINMENT TEMPERATURE SCAN 42 SCAN 43 SCAN 44 SCAN 4S SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN SO 07:SS 47.9 44.4 44.7 08:10 48.2 44.7 44.9 08:2S 48.S 44.9 4S.2 08:40 48.9 4S.3 4S.S 08:SS 49.1 4S.6 4S.9 09:10 49.4 46.0 46.2 09:2S 49.7 46.3 46.S 4 EL 229.S 4S.1 4S.3 4S.6 4S.9 46.2 46.4 46.8 47.1 47.S 47.8 s EL 229.S 43.S . 43.7 44.0 44.3 44.S 44.8 4S..2 4S.S 4S.9 46.2 6 EL 229.S 4S.O 4S.3 4S.S 4S.8 46.1 46.4 46.8 47.1 47.S 47.8 7 EL 203 44.0 44.3 44.S 44.8 4S.1 4S.4 4S.7 46.0 46.3 46.7 8 EL 203 42.3 42.S 42.8 43.1 43.3 43.S 43.9 44.2 44.6 44.8 9 EL 203 43.7 43.9 44.2 44.4 44.7 4S.1 4S.3 4S.S 4S.9 46.4 10 EL 174 4S.S 4S.7 4S.9 46.2 46.S 46.7 47.0 47.2 47.6 47.9 11 EL 174 43.9 44.2 44.S 44.8 4S.1 45.4 45.8 46.2 46.6 47.0 12 EL 174 40.9 41.1 41.4 41.7 42.0 42.2 42.S 42.8 43.2 43.5 13 EL 144.5 4S.9 46.2 46.4 46.6 46.9 47.1 47.4 47.7 48.0 48.4 14 EL 144.5 43.8 44.1 44.3 44.6 4S.O 45.3 45.6 46.0 46.3 46.6 15 EL 144.S 45.S 4S.7 46.0 46.3 46.6 46.9 47.2 47.5 47.8 48.2 16 EL 120 45.8 46.0 46.S 46.8 47.2 47.8 48.3 48.7 49.0 49.4 17 EL 115 44.6 44.8 45.0 45.2 4S.4 45.6 45.8 45.9 46.1 46.3 18 EL 103 47.1 47.1 47.3 47.S 47.6 47.8 '47.9 48.0 48.2 48.3 19 EL 98 44.S 44.8 45.3 45.7 46.1 46.7 47.0 47.4 47.8 48.1 20 EL 103 S0.8 S1.0 S1.1 S1.2 S1.3 51.3 51.6 S1.9 51.9 S2.1 21 EL 115 44.7 44.7 44.8 45.0 45.3 45.4 45.5 45.7 45.8 45.9 22 EL 88 44.7 44.8 45.0 4S.1 45.3 45.5 45.7 45.9 46.1 46.3 23 EL 88 46.1 46.1 46.3 46.5 46.7 46.9 47.1 47.3 47.5 47.7 24 EL 60 48.6 48.6 48.7 48.8 48.9 48.9 48.9 49.0 49.0 49.1 25 AMB 61.3 61.3 61.3 61.3 61.3 61.4 61.5 61. 7 61.. 8 62.0 26 GAS METER 50.1 50.0 S0.1 50.1 '50.2 50.4 50.5 50.6 50.7 S0.8 DEW POINT TEMPERATURE
- SENSOR 1
2 3 LOCATION EL 241 EL 241 EL 103 SCAN 41 07:10 26.8 26.8 27.0 SCAN 42 SCAN 43 SCAN 44 SCAN 45 SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN SO 07:25 26.9 26.7 26.9 07:40 26.8 26.7 26.9 07:S5 26.8 26.7 26.9 08:10 27.0 26.8 27.0 08:25 27.0 26.9 27.0 08:40 27.2 27.0 27.2 08:55 27.3 27.2 27.3 09:10 27.6 27.4 27.5 09:2S 27.8 27.7 27.7 4 EL 174 26.9 26.9 26.9 26.7 26.9 26.9 27.0 27.3 27.4 27.7 5 EL 174 27.1 27.1 27.0 27.0 27.1 27.1 27.2 27.5 27.5 27.9 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 7 EL 174 27.6 27.S 27.4 27.5 27.6 27.7 27.9 28.0 28.2 28.4 8 EL 103 28.3 28.1 28.2 28;3 28.4 28.4 28.5 ' 28.7 28.9 29.0 9 EL 174 26.S 26.4 26.5 26.5 26.6 26.6 26.8 26.9 27.1 27.3 10 SPARE 0.0 0.0 0.0 o.o 0.0 o.o a.a a.a 0.0 0.0 11 AMB 29.1 29.1 29.3 29.9 29.0 30.0 29.1 29.6 29.4 30.7 12 SPARE 0.0 0.0 o.o 0.0 0.0 o.o 0.0 o.o 0.0 0.0 13 SPARE 0.0 o.o 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 PRESSURE psia SENSOR LOCATION SCAN 41 SCAN 42 SCAN 43 SCAN 44 SCAN 45 SCAN 46 SCAN 47 SCAN 48 SCAN 49 SCAN SO 07:10 07:25 07:40 07:SS 08:10 08:25 08:40 08:55 09: 10 09:25 1 1101 16.16 15.88 15.64 15.44 1S.28 15.1S 15.05 14.99 14.95 14.94 2 1102 16.16 15.89 15.6S 15.4S 15.28 15.15 15.05 14.99 14.95 14.9S 3 1089 14.97 14.97 14.98 14.97 14.98 14.98 14.98 14.98 14.98 14.97 4 1090 14.96 14.96 14.96 14.95 14.96 14.96 14.96 14.96 14.96 14.96 s 2686 16 *.11 15.84 15.59 15.39 15.22 15.09 14.99 14.92 14.89 14.88 6 2687 16.21 1S.94 1S.70 15.49 15.31 15.19 15.09 15.03 15.00 14.99
25 Mar 1992 SALEM GENERATING STATION UNIT 2
- SENSOR 3
1 2 LOCATION EL 276.5 EL 253 EL 253 SCAN 51 09:40 50.0 46.6 46.8 0.0 0.0 0.0 0.0 CONTAINMENT TEMPERATURE SCAN 52 SCAN 53 SCAN 54 SCAN 55 o.o o.o 0.0 0.0 0.0 0.0 0.0 0.0 SCAN 56 SCAN 57 SCAN 58 SCAN 59 SCAN 60 0.0 0.0 o.o 0.0 0.0 0.Q o.o 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 4 EL 229.5 48.1 o.o 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 5 EL 229.5 46.5 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 6 EL 229.5 48.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 7 EL 203 46.9 0.0 0.0 o.o 0.0 0.0 o.o 0.0 0.0 0.0 8 EL 203 45. 1 0.0 0.0 0.0 0.0 0.0 0.0 . o.o 0.0 0.0 9 EL 203 46.6 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 o.o 10 EL 174 48.2 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 11 EL 174 47.2 o.o 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o 12 EL 174 43.7 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 13 EL 144.5 48.6 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 0.0 14 EL 144.5 46.8 0.0 0.0 o.o 0.0 0.0 o.o 0.0 0.0 0.0 15 EL 144.5 48.4 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 16 EL 120 49.6 0.0 0.0 0.0 0.0 0.0 o.o 0.0 o.o 0.0 17 EL 115 46.4 o.o 0.0 0.0 o.o 0.0 0.0 o.o 0.0 0.0 18 EL 103 48.3 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 19 EL 98 48.4 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 20 EL 103 52.1 o.o o.o o.o 0.0 o.o 0.0 0.0 0.0 0.0 21 EL 115* 45*.9 0.0 0.0 o.o 0.0 0.0 o.o 0.0 0.0 0.0 22 EL 88 46.4 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 23 EL 88 47.9 0.0 0.0 o.o 0.0 0.0 o.o 0.0 0.0 0.0 24 EL 60 49.1 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 25 AMB 62.1 0.0 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 26 GAS METER 50.9 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 DEW POINT TEMPERATURE
- SENSOR 1
2 3 4 5 LOCATION EL 241 EL 241 EL 103 EL 174 EL 174 SCAN 51 09:40 28.0 28.0 28.0 27.9 28.0 SCAN 52 SCAN 53 SCAN 54 SCAN 55 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 0.0 0.0 0.0 0.0 0.0 SCAN 56 SCAN 57 SCAN 58 SCAN 59 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 SCAN 60 0.0 0.0 0.0 0.0 o.o 6 NOT USED 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 7 EL 174 28.7 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 0.0 8 EL 103 29.2 0.0 0.0 0.0 o.o 0.0 0.0 o.o 0.0 0.0 9 EL 174 27.6 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 10 SPARE 0.0 0.0 0.0 0.0 0.0 o.o o.o 0.0 0.0 o.o 11 AMB 30.9 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 0.0 12 SPARE 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 0.0 13 SPARE o.o 0.0 0.0 0.0 0.0 0.0 0.0 o.o 0.0 0.0 PRESSURE psia SENSOR LOCATION SCAN 51 SCAN 52 SCAN 53 SCAN 54 SCAN 55 SCAN 56 SCAN 57 SCAN 58 SCAN 59 SCAN 60 09:40 1 1101 14.95 0.00 o.oo 0.00 0.00 o.oo 0.00 0.00 0.00 0.00 2 1102 14.96 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 3 1089 14.98 o.oo 0.00 0.00 o.oo 0.00 0.00 0.00 0.00 0.00 4 1090 14.96 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 5 2686 14.89 0.00 0.00 o.oo 0.00 0.00 o.oo 0.00 0.00 0.00 6 2687 14.99 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
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- 8.0 COMPUTER PROGRAM 8.1 The computer programs (Scan and Observe) used for the data acquisition and compilation calculation of the leakage rate and the analysis of this data were developed by PSE&G Research Corporation, Research and Testing Laboratory specifically for the purposes of containment integrated leakage rate testing. The formulas used in these test programs are taken from the formulas and guidelines presented in ANSI N45.4-1972, ANSI/ANS 56.8 - 1987, and ANS 274. The computer program logic is controlled by user options (Menu) .
The Menu options and a description of the function of each sub program is as follows. Scanning Program - Initiates all tests and controls data acquisition system. Also does all calculation. 8 2 o MENU 1 8.2.1 PREVIOUS DATA - Loads previous test data so program can be checked *
- 8.2.2 ENTER SENSOR WEIGHT FACTOR - Allows the user to enter each sensor's (RTD, Dew Point, Pres-sure) subvolume weighting factor. It deter-mines if the weighting factors total 100% and if so proceeds to create a file with the data.
8.2.3 MONITOR PRESSURE - Allows the user to monitor pressure at anytime. 8.2.4 LOAD DATA - Allows the user to load data from file and restart from last scan. 8.3 MENU 2
- - 8.3.1 CONTAINMENT.CONDITION (CONT-COND). The.
containme.nt condition subprogram scans all test sensors through the Data Acquisition System (DAS) at the preset time interval and is used as interim tests, before and during pressuri-zation and depressurization. It calculates the weighted average containment temperature, dew point, pressure, pressurization rate (calculated per scan expressed as psia/hour) , the differential temperature between the containment temperature and dew point temperature, and the percent relative humidity, The data is stored on file (CONTDATA) and results printed after each scan.
- 8.3.2 STABILITY - The temperature stability test scans all test sensors (DAS) at the preset time interval. It then calculates the weighted average containment, temperature, dew point, pressure. The containment temperature stability is calculated in accordance with ANSI/ANS 56.8-1987 appendix F. The data is stored on file (STABDATA) and results printed after each scan.
8.3.3 INTEGRATED LEAKAGE RATE TEST - The Integrated Leakage Rate program scans all test sensors (DAS) at the preset time interval. It then
- checks each sensor to determine the differ-ential from.the last scan.
Point 5°F1. Pressur~ (RTD's 1°F, Dew 0.1 psia) if the differ-ential exceeds the allowable a warning message is printed with the sensor. number and the differential. This allows the test engineer to monitor this sensor and determine what action to initiate. The weighted average containment temperature, dew point and pressure are calculated and these are then used to calculate the containment mass. If sufficient data scans have been recorded (6 scans) the least square regression is calculated and the slope (lbm/h~) recorded. The percentage daily leakage rate is ~alculated from the rate of
- 8.3.3 continued change of mass and the mass (intercept) in the containment at each scan. The uncertainty in the estimated value is assessed in terms of the standard deviation of the slope, intercept and their convariance, followed by the computation of an upper limit of the 95th confidence level.
The data is stored on file (ILRTDATA) and results printed after each scan. 8.3~4 VERIFICATION - This test confirms that the ILRT measurement system is working correctly and
- accurately. Two methods of conformation are made available throught the computer Program.
- 1. Mass Step Change With this method the quanity of air is metered out of containment over a short time interval. The expelled air flows through a gas meter. With each scan of the containment sensors, a reading of the gas meter, temperature and pressure are taken and manually entered into the computer. The printout will show the change of mass as measured by the ILRT instrumentation and as measured by the gas metero
- 8.3.4 Continued
- 2. Superimposed Leak With this method a quanity of air is let out over along period of time to create a calibrated leak. The expelled air is measured through a turbine flow meter and the output signal is recorded with each scan of the ILRT instrumentation. This allows a comparison of the Composite (superimposed leak and measured containment leak) and the superimposed leak"
- 8.3.5 END SCAN - Allows user to end anytime.
scann~ng at 8.3.6 OBSERVE PROGRAM - Allows user to print and plot all data in file and also to recalculate data. 804 MENU 1 8o4ol PREVIOUS DATA - Loads previous test data so program can be checked. 8.4.2 WEIGH FACTOR - Allows user to change Weight Factor file being used *
- 8.4.3 PRINT CONTAINMENT.CONDITION - Allows user to pri.nt containment condition data from file.
8.4.4 PRINT WEIGH FACTOR - Allows user to print out Weigh Factor file that is being used. 8.4.5 LOAD DATA - Allows user to load test data from file. 8.5 MENU 2 8.5.1 STORE ILRT - Allows user to create a back up file of ILRT data. I' 8.5.2 STORE VERIFICATION - Allows user to create a backup file of Verification data. 8.5.3 STORE CONTAINMENT CONDITION - Allows users to create a backup file containment condition data. 8.5.4 STORE STABILITY - Allows users to create a backup file containment condition data. 8.5.5
- PRINT STABILITY - Print out stability data
- from file .
- 8.5.6 PRINT LEAK PERCENT - Calculates regression on.
percent leakage and print outs results. 8.5.7 TREND PLOTS - Plots leakage rate %/day either measure and calculated vs time or UCL and calculated vs time. 8.6 MENU 3 8.6.1 PRINT MASS - Pri.nts out mass data file. 8.6.2 PLOT SENSORS - A plot of any individual sensor {RTD, Dew Point, Pressure can be viewed on the
- - 8.6.3 CRT and a hard copy plotted if desired.
PLOT AVERAGES - A plot of any containment weighted average, temperature, dew point or pressure can be viewed on the CRT and a hard copy plotted if desired. 8.6.4 PLOT MASS - A plot of the containment mass can be viewed on the CRT and a hard copy plotted if desired *
- 8.6.5 PLOT LEAK - A plot of either containment leakage rate and upper confidence level in pounds mass per hour or containment leakage rate and upper confidence level in precent/day can be viewed ori the CRT and a hard copy plotted if desired.
8.6.6 CHANGE DATA - Takes previous data file and
.recalculates with updated weigh factors.
8.6.7 PRINT DATA - Allows user to print out raw data of all sensors from file.
- - 8.6.8 PRINT AVERAGES - Allows user to print out weighted averages of temperature, dew point and pressure for any number of scans.
8.6.9 PRINT VERIFY - Allows use~ to printout verification data from file *
9.0 REFERENCES
- 9. 1 Appendix J to 10CFR50 - "Primary Reactor Conta_inment Leakage Testing for Water-cooled Power Plant Reactors, "dated March 6, 1973 as amended.
- 9. 2 ANSI, N45. 4-1972 "Leakage Rate Testing of Containment Structures for Nuclear reactors" dated March 15, 1972.
9.3 ANSI/ANS 56.8-1987 "Containment System Leakage Testing Requirements". (Reference and guidance only) . 9.4 PSE&G Research and Testing Laboratory Manual .
- 9.5 S2.SS-IS.ZZ-005Q Rev.
Integrated Leak Rate Test 2 Reactor Containment Building
9 Mar 1992 PSE&G Research and Testing Lab QUARTZ PRESSURE GAGE CALIBRATION ~ jUFACTURER: MENSOR SERIAL NO. PI-1 VARIABLE FOR X MENSOR PI-1 VARIABLE FOR Y STANDARD AOV OF LINEAR REGRESSION Y = A + BX SOURCE SS DF MS F RATIO REG 4549.804 1 4549.804 3128972.34 RES .016 11 .001 TOTAL COR 4549.820 12 R SQUARED = 1.0000 YHAT = (-.0534749043163 ) + ( 1.00115612357 )X Y EVALUATED AT X X(I) YHAT y (I)_ RES(I) 1 .003 -.0505 .00300 .05347 2 5. 021 . 4.9733 5.00000 .02667 3 10.032 9.9901 10.00000 .00988 4 15.038 15.0019 15.00000 .00191
- 5 6
7 8 9 10 11 20.048 25.057 30.069 35.057 40.042 45.017 49.985 20.0177 25.0325 30.0503 35.0441 40.0348 45.0156 49.9893 20.00000 25.00000 30.00000 35.00000 40.00000 45.00000 50.00000
.01770 .03249 .05029 .04406 .03482 .01557 .01069 12 540954 54.9641 55.00000 .03594 13 59.924 59.9398 60.00000 .06020 STANDARD: RUSKA S/N 43666 CALIBRATION DATE: 7-30-91 CALIBRATION DUE DAj'~ 7-30-96 TESTED BY:~
9 Mar 1992 PSE&G Research and Testing Lab QUARTZ PRESSURE GAGE CALIBRATION ~UFACTURER: MENSOR SERIAL NO. PI-1 VARIABLE FOR X MENSOR PI-1 VARIABLE FOR Y STANDARD AOV OF LINEAR REGRESSION Y = A + BX SOURCE SS OF MS F RATIO REG 50.000 1 50.000 32994147.73 RES 0.000 1 0.000 TOTAL COR 50.000 2 R SQUARED = 1. 0000 YHAT = (-.231679598971 ) + ( 1.00512611287 )X Y EVALUATED AT X X (I) YHAT Y(I) RES(I) 1 59.924 59.9995 60.00000 .00050 2 64.900 65.0010 65.00000 .00101 J 69.873 69.9995 70.00000 .00050
- STANDARD:
CALIBRATION DATE: RUSKA S/N 43666 CALIBRATION DUE DATE: TESTED BY: ~~ 7-30-91 7-30-96
OPS~G RESEARCH AND TESTING LABORATORY TEST DATA SHEET
- TEST ORDER NO.
DATE OFTEST f/- 7 4- 6 /9 Z - 9 Z. DESCRIPTION OF MATERIAL /'J'7e>?.so;- Tr~.S.>,. Ga~:J'f!.; meu:I~/ /t:JZOS, MATERIAL RECEIVED F R O M - - - - - - - - , - - - - - - - - - - - - - - - TEST PROCEDURE IDENT. PERFORMED AT
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9 Mar 1992 PSE&G Research and Testing Lab QUARTZ PRESSURE GAGE CALIBRATION ~UFACTURER: MENSOR SERIAL NO. PI-2 VARIABLE FOR X MENSOR PI-2 VARIABLE FOR Y STANDARD AOV OF LINEAR REGRESSION Y = A + BX SOURCE SS OF MS F RATIO REG 4549.819 1 4549.819 53930955.36 RES 0001 11 0.000 TOTAL COR 4549.820 12 R SQUARED = 1.0000 YHAT = ( .00502091088671 ) + ( 1. 00616627659 )X Y EVALUATED AT x X (I)
- YHAT Y(I) RES(I) 1 .003 .0080 .00300 .*00504 2 4.980 5.0157 5.00000 .01573 3 9.934 10.0003 10.00000 .00028 4 14.902 14.9989 15.00000 .00109 5 19.870 19.9975 20.00000 .00246 6 24.833 24.9911 25.00000 .00885 7 29.801 29.9898 30.00000 .01022 8 34.771 34.9904 35.00000 .00957 9 39.742 39.9921 40.00000 .00792 10 44.716 44.9968 45.00000 .00325 11 49.688 49.9994 50.00000 .00059 12 54.665 55.0071 55.00000 .00710 13 59.643 60.0158 60.00000 .01580 STANDARD: RUSKA S/N 43666 CALIBRATION DATE: 7-30-91 CALIBRATION DUE D!-T~;, _ 7-30-96 TESTED BY:___...~~-"-~~-'---~-='---
9 Mar 1992 PSE&G Research and Testing Lab QUARTZ PRESSURE GAGE CALIBRATIO~ ~NUFACTURER: MENSOR SERIAL NO. PI-2 VARIABLE FOR X MENSOR PI-2 VARIABLE FOR Y STANDARD AOV OF LINEAR REGRESSION Y = A + BX SOURCE SS DF MS F RATIO REG 50.000 1 50.000 4674383.22 RES 0.000 1 0.000 TOTAL COR 50.000 2 R SQUARED = 1.0000 YHAT = ( .274731785249 ) + ( 1.00140174852 )X Y EVALUATED AT X X(I) YHAT y (I) RES(I) 1 59.643 60.0013 60.00000 .00134 2 64.632 64.9973 65.00000 .00267 3 69.629 70.0013 70.00000 .00133 STANDARD: RUSKA S/N 43666 CALIBRATION DATE: 7-30-91 CALIBRATION DUE_QDAATT~~: ~ 7-30-96
~~
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TEST EQUIPMENT USED A CALIB. DUE DATE:
,-t=".w,s .i:a. /JI0 c/e, I z 4-: ~/\/ 43{.U TESTED BY __,.,~~~:lo:* ~~-~ad,ll::ij*'"""'---_,.._--,..._
Ca/. z:>~e PQ.,Le. - 7/3r:>/9b / :Z: REVIEWED ev _ __..~...........;;...:;:~~=--Z-;;__~_P"'f...;_-V_ L.o477 I (SIGNATURES AND DATE)
13 Har 1992 ~EISE PRESSURE GAGE t 1101 C:JRRENT CALIBRATION DATE: 01127/92 CALIBRATION DATA PRES 000003 CNTS 000003
~
PRES 005000 CNTS 005151 3 ?RES 010000 C'NTS :Jl 03 03
.4 PRES 015000 CNTS 015468 5 PRES :)20000 CNTS 020621 .,s I
PRES PRES 025000 noooo CN'I'S CNTS 025790 030927 8 PRES 035000 CNTS 036088 9 PRES 040000 CNTS 041267 10 PRES 045000 CNTS 046415 11 PRES 050000 CNTS 051595 12 PRES 055000 CNTS 056759 13 PRES 060000 CNTS 061912 14 PRES 065000 CNTS 067080 15 PRES 070000 CNTS 072245 16 PRES 075000 CNTS 077428 17 PRES 080000 CNTS 082610 18 PRES 085000 CNTS 087787 e20 19 21 PRES PRES PRES 090000 095000 100000 CNTS CNTS CNTS 092964 098153 103351
OPS~G RESEARCH AND TESTING LABORATORY TEST DATA SHEET
- DATE OFTEST DESCRIPTION OF MATERIAL
'?/ - 7 4- 6 /9 TESTORDERNO. - - - - - - - - - - TESTPROCEDUREIDENT. /;'/ /- z 8 - 9Z..
MATERIAL RECEIVED FROM------------------~---- PERFORMED AT ~ech. Dt v. r7r-e.ss. &-ew~e ,~41 rPG 1£1-9, 7 A,;1 e, .C /
.ff. /_
0 / /\ I e..v. 7
,tt?,
S/N //Of TEST RESULTS
-----::11* . *-** -*----*---- -- ~~I' ~.S/~
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--- ___3.S-._ppo . _q _- -- ~_!?* P.c>.D . +~ P.00
_______sp_~__?/ !>t:> 3b C> 88 4:.I z 6 7 1-6 1-(S' ___S- I _C9~ _______ *-- _ /Z _____ __ S£~..t2.l>o __ -* S: b 7~1 --*----*-- -- -------*---**-- -- *-- _(~-- -* . 6-o!! ~o *-* .. __p /_ _ 'l!__2. ---* ---------*- . _./9- b~ .. 0 00 --~ 7-_c;_So _________ . I!;___ .. Zo ~ ~9-_Q_ ... 7. z ~1_$'_ - -*-* -- -- *- ----- lb __ .. __75. _e>_op 7.7 +Z._$_ . ______ _ __ _/? ___ '8-_o .. o ot:> B Z _6/D
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13 Har 1992 .HEISE PRESSURE GAGE I 1102 GURRENT CALIBRATION DA'fE: 01127192 CALIBRATION DATA PRES 000001 GNTS 000000
'"~ PRES 005000 CNTS 005105 3 PRES 010000 CNTS !)10210 4 PRES 015000 CNTS 015310 5 PRES 020000 GNTS 020397 6 PRES 025000 CNTS 025494 PRES 030000 CNTS 030581 8 PRES 035000 CNTS 035659 9 PRES 040000 CNTS 040730 1!) PRES 045000 CN'l'S 045795 11 PRES 050000 CNTS 050863 12 PRES 055000 CNTS 055933 13 .PRES 060000 CN'l'S 061004 14 PRES 065000 CNTS 066077 15 PRES 1J70000 CNTS 071132 16 PRES 075 000 CNTS 076170 17 PRES 080000 CNTS 081209 18 PRES 085000 CNTS 086242 PRES 090000 CNTS 091284
.19 20 ?RES 095000 CNTS 096330 21 ?RES 100000 CN'l'S 101378
OPS~G RESEARCH ANO TESTING LABORATORY TEST DATA SHEET
- TESTORDER NO.
DATE OF TEST 9/- 74-~/9
/ - 2 B- 9 2-DESCRIPTION OF MATERIAL~/$'e fl--e s>. G&:?~e. Mais./ PPG /40; ~
TEST PROCEDURE IDENT. PERFORMED AT ~ ( I 1
~ec~. ..6, R v. 7 L.:::;i, I ~~.c A. l/1 Y. )
S//V 11 oz.. TEST RESULTS P S / ,,,,:f _0. D_O_/ 0 0 Ot:> 2 - __.$'". .() 0 0 ~ /o.S
'-~"5 Io.. o_o_p__ lb ZID . - ------- *-- ....*
- 4 / 5: ODO /S',310
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14
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IS_______ 70. O<?._D ______ _ 71.!_;#_2 ___ _ I b .___ __7$.: ooq _______ *-- 76:17...o____ .... 17 ____ __SQ_L ~PD _______ g I :z o 9: . ______ _
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- 7~.s~_.r~~: __?_4: ,,.:::- / ~.{___ ~v~,.df.;L.~-~- _zo .% ___ _
9 Mar 1992 PSE&G Research and Testing Lab QUARTZ PRESSURE GAGE CALIBRATION ~UFACTURER: TEXAS INSTR. SERIAL NO. 2687 VARIABLE FOR X TEX..l\S INSTR. 2687 VARIABLE FOR Y -- STANDARD AOV OF LINEAR REGRESSION Y = A + BX SOURCE SS OF MS F RATIO REG 4550.000 1 4550.000 109024129.85 RES 0.000 11 0.000 TOTAL COR 4550.000 12 R SQUARED = 1.0000 YHAT = .00155218273584 ) + ( .999809825369 )X Y EVALUATED AT x X(I) YHAT y (I) RES(I) 1 0.000 .0016 0.00000 .00155 2 4.995 4.9956 5.00000 .00440 3 10.008 10.0076 10.00000 .00765 4 15.000 14.9987 15.00000 .00130 5 20.000 19.9977 20.00000 .00225 6 24.998 24.9948 25.00000 .00520 7 30.016 30.0118 30.00000 .01184 8 35.001 34.9959 35.00000 .00410 9 40.005 39.9989 40.00000 .00106 10 45.000 44.9930 45.00000 .00701 11 50.008 50.0000 50.00000 .00004 12 55.003 54.9941 55.00000 . 00591* 13 60.020 60.0101 60.00000 .01014 STANDARD: RUSKA S/N 43666 CALIBRATION DATE: 7-30-9tl ~ CALIBRATION~E-~E:: 7-30-96 TESTED BY:~~~=-"-~~~;.i.:::.:::..:...!:::=-~-
9 Mar 1992 PSE&G Research and Testing Lab QUARTZ PRESSURE GAGE CALIBRATION ~UFACTURER: TEXAS INSTR. SERIAL NO. 2687 VARIABLE FOR X TEXAS INSTR. 2687 VARIABLE FOR Y -- STANDARD AOV OF LINEAR REGRESSION Y = A + BX SOURCE SS OF MS F RATIO REG 50.000 1 50.000 2481819.23 RES 0.000 1 o.ooo TOTAL COR 50.000 2 R SQUARED = 1.0000 YHAT = ( .00818877254383 ) + ( .999499847146 )X Y EVALUATED AT X X(I) YHAT y (I) RES(I) 1 60.020 59.9982 60.00000 .00183 2 65.028 65.0037 65.00000 .00366 3 70.025. 69.9982 70.00000 .00183 STANDARD: RUSKA S/N 43666 CALIBRATION DATE: 7-30-91 CALIBRATION £?,UE e?-;D.A.;T/~E.: / 7-30-96 TESTED BY: ~~~
-~--'......__'"--"--__;;__;;--
O*PS~G RESEARCH AND TESTING LABORATORY TEST DATA SHEET
- TESTORDERNO.
DATE OFTEST
?/- 746/9
- 2. ;?z__
oesch1moN oF MATERIAL T'?X..t.f TESTPROCEDUREIDENT./.1?"'ec#.' PERFORMED AT If'(/ ka+/- /?=eJ.ss. Gw.,.~, #?t?dbl 14-S- o I, .>//'I Z.613 7 MATERIAL RECEIVED F R O M - - - - - - - - - - - - - - - - - - - - - - -
;:; /
b< K'-ev. 7 L-~ -~e..c;;,,4'_ I 2/1y. TEST RESULTS
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~:~~__,__*___._~ _________4-o~.12_ i o . $ ' - - - - - - - - - - - -
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'50:, obs; ' I D*. '{)Z,O --=-b=-~--02. 8_ ,__.--=...;m/.£"---~7-o____ 7 O. D 2,~ '~-*_ _z._. . ~'i ______ -__ -~=---~~--=--0::1=6;;;._*-=--=--=--=--=--=--=----_---=--~~
7--=-_ 17 ___ Bo~*----------* go.au____________ __
- _2$_*_____ B.-.S'_____ ------- ___BS:_o-2&....__ _ _ _ _ _ _ _ ___.
'------"-1_._9_* - _ __,,'/_Q_:.- - - 9o.~_<..,;J~-----------~----___;
Z?1 9£ I _7" _ _ _ _ _ _ 9._r.:_~Z-_._9~_ _ z.r ____l__()_o *----*-**** /oo __._o4o:_____________ _____ . ______ _
- Bbw~,w 'Coeu-w~ /a-~.*-'99.f_C_*__ _
-~6~ ~~ ..* 76 ,e /f"'b/. R~~/~/y: ~% *----* I I
9 Mar 1992 PSE&G Research and Testing Lab QUARTZ PRESSURE GAGE CALIBRATION ~NUFACTURER: TEXAS INSTR. SERIAL NO. 2686 VARIABLE FOR X TEXAS INSTR. 2686 VARIABLE FOR Y -- STANDARD AOV OF LINEAR REGRESSION Y = A + BX SOURCE SS DF MS F RATIO REG 4549.999 1 4549.999 33924037.13 RES .001 11 0.000 TOTAL COR 4550.000 12 R SQUARED = 1. 0000 YHAT = (-.0191994373291 ) + ( 1.00001945635 )X Y EVALUATED AT X X(I) YHAT Y(I) RES(I)
.1 0.000 -.0192 0.00000 .*01920 2 5.005 4.9859 5.00000 .01410 3 10.020 10.0010 10.00000 .00100 4 15.030 15.0111 15.00000 .01109 5 20.036 20.011i 20.00000 .01719 6 25.025 25.0063 25.00000 .00629 7 30.029 30.0104 30.00000 .01038 8 35.025 35.0065 35.00000 .00648 9 40.025 40.0066 40.00000 .00658 10 45.014 44.9957 45.00000 .00432 11 50.018 49.9998 50.00000 .00023 12 55.005 54.9869 55.00000 .01313 13 60.010 59.9920 60.00000 .00803 STANDARD: RUSKA S/N 43666 CALIBRATION DATE: 7-30-91 CALIBRATION pDUUJ!E D DAA}'~:: ~ 7-30-96 TESTED BY: ~~ ......L.o:;......c..c....L..~.::;..;_=~-
9 Mar 1992 PSE&G Research and Testing Lab ~ QUARTZ PRESSURE GAGE CALIBRATION ~NUFACTURER: TEXAS INSTR. SERIAL NO. 2686 VAiUABLE FOR X TEXAS INSTR. 2686 VARIABLE FOR Y -- STANDARD AOV OF LINEAR REGRESSION Y = A + BX SOURCE SS OF MS F RATIO REG 50.000 1 50.000 33286649.23 RES 0.000 1 0.000 TOTAL COR 50.000 2 R SQUARED = 1.0000 YHAT = (-.0525348214321 ) + ( 1.00070046028 )X Y EVALUATED AT X X (I) YHAT Y(I) RES{I) 1 60.010 59.9995 60.00000 .00050 2 65.008 65.0010 65.00000 .00100 3 70.003 69.9995 70.00000 .00050 STANDARD: RUSKA S/N 43666 CALIBRATION DATE: 7-30-91 CALIBRATION DUE.,...7D.A..;;T::;;E* / 7-30-96
~~
TESTED BY: -=--"-.;;.....L...t:......::;__::......::.<=--
OPS~G RESEARCH AND TESTING LABORATORY TEST DATA SHEET
?/- 74b./ ~ AAe,c,~ / AC',.:i '~ 7 TEST ORDER NO. / TEST PROCEDURE IDENT. /rri ' t7 I'\ L. '
- DATE OFTEST z - ? PERFORMED AT f ( r .L..ab., /Jl&aA. Pn/.
DESCRl~ON OF MATERIAL r?Xll kz_<'+/- /'l-8.SS. G~J'7' /J?pd-4/ /.,tS- 0 ~' stW Z 6 ~ MATERIALRECEJVED F R O M - - - - - - - - - - - - - - - - - - - - - - TEST RESULTS . I ;*: o~ooo
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FROM PS~&G k&I LH8 MPLwO 3, 16. 1992 10: :27 p. 4
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PSl&G ~IS!.ARCH AND T!STING t..A!ORATORY I Motrology/Instrumenc SQrvice Test. No,: l'l'Oq l?aqe: 1 of :; ~JUT OiQital Volemeter eo. No. =~N~/d.._______~~-- Mtqr.: Hewlete-Paekard Hodel: J456A ser. No.: .2.'20IA071'"1'"4 User : ,MOT1i.;81t1i'rS Q1\/ CP..-f,) Proc. No.: lCCP-l Rev.: 0 Cal. Interval: 1 Year Elerformed Sy: D.F. HARRISON Oace:~/~/.:!L,
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Proc. No.: lOCP-l Rev.: 0 ?-lr;e: AC V~J.t~~;zg T~J!~. I
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O.OlV < +-!- 0.01: 4*Wire Ohms lOR: Ohms 100:t( Ranqa IQ,,;2g g :ZB ~ IQ.CCX? 76 t( 101 OOQSC:H< +I - 0
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. l.OOIC Ohm* 2-Wire o.c. u:JC*CC!;!3~ JOO, QOJ.'1.l( ..l&'O PO d' ISa - I - 0
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-~. 16. 1992 10: 28 P. 6
- Te*a t No, : 11609 Hodel: 3456A Proc. We.: lDCP-l Rev. : O Paqe: 3 cf 3 wa*************************************************a**********************aza Equipment; Yi'ed rp Nurnp:r Calibrated eal,1 Due El. 91."2..I .,aa/ ...z6../ -9.L- ~!..la.I~
~/ ~I~ ~/ ..u_J ..!2:... ..,m_I ...QS..I .9..1-... ~I~/ .:i.3:... ~IN 'l,19~ !le ~/ ...!JA/ -9.L._ ...1.a...I .Q.B..I ~
_1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1_ _ 1 _ 1 __ _ 1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1 _ _ 1_1_ Authorited Si~n~~ure cat.e: JJ...1a1::u_
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27 Feti 1992 PSE&G Resarch and Test1no Lab RTD CALIBRATION RTD SCAN 1 SCAN 2 SCAN 3 SCAN 4 SCAN ? SCAN 6 St.:AN 7 SCAN 8 SlAN 9 ~.I rlM 1U 50.5 ?2.8 52.8 5?. 3 ?7. 7 6U.l 62.5 64.9 i;,).,) o,i. lj 2 51J. 3 52.7 52.7 ??.3 57.6 60. 0 62.4 64.9 6/. 3 o~.8 3 50.4 52.8 ?2. 8 55.4 57.7 6U.2 62.6 6?.l bl. ii i;1. 1 4 50. 7 53.0 53.0 55.5 57. 9 60.3 62.7 6"j .1 71.1. u b '.' 5 5U.6 52.9 52.9 55.5 57.8 60.2 62.6 6?.l t.).' ;, .. 0 6 51J. 9 5:u 53.1 5'.i.6 57. 9 60.3 62.6 65.0 n /. ~ t."I, 9 7 50.8 53 .1 53 .1 55.5 57.9 60.2 62.6 64.9 67. _'. t:~. 7 8 5U.6 5*2 .7 52.7 55.3 57.7 60.1 62.5 64.9 6:.. 3 6'1. 8 9 ':i0.6 52.8 52.8 55.4 57.7 60.2 62.6 65.0 67.4 711. u 10 51.1 53.2 53.2 55.7 58.0 60.4 62.8 65.2 t>I'. ~ c-J.9 11 51. 0 53.1 53.2 55. 6 57.8 60.2 62.? 64. ':I o?. 2 "". 6 12 51J. l 52.5 52.5 55.1 57.5 60.0 62.5 6"}. 0 6}. 5 7i]. u 13 50.7 53.0 53.0 ?5.6 58.U 61J. 4 62.8 65.3 1<'. 7 )11. L 14 50.3 52.6 52.6 5?. 2 57.5 60.0 62.4 64.9 6/. 5 6\<.8
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C:, L I o'l.6 19 50.7 53.U 53.0 55.5 57.8 60.3 62.6 '65 .1 t,,i. 4 't.~. 9
- 22 23 24
- ~ '25 50.8
- 50. 7 49.7 49.8 49.9 49.7 52.9 53.0
- 52. 0
':i2.2 52.2 ?2 .1 53.0 53.0 52.1
- 52. 2 52.2 52.1 55.5 55.5 54.7
'54.9 54.9 54.7 57.9 57.8 57 .1 '57.2
- 57. 2 57 .1 60.3 60.2 59.6
?9.8 59.7 59.6 62.6 62.5 62.0
- 62. 2 62.0
- 61. 9 6'i.1 65.U 64.6 r\4.8 64.6 64.5 t.?.4 1:.?. 3 t.~. 9
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8 8
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~ 26 50. 2 5'2.5 52.6 55.2 57.6 60 .1 62.5 c':i. 2 0 '. s 7[1. 1 ~ 27 49.8 52.2 52.2 54.9 57.3 5~.8 62.2 64.8 '",:'. 'j o*.8 STANDARD TEMPF.RAfURE 50.1 52.? 52.5 55.2 57.6 6tl. 1 62.5 65.1 c./. ~ 7u. J STANDARD: HP QUARTZ SERIAL NUMBER: 2620A01764 PRUSE Tl NUM~~R: 212UA-028Ul PROBE T'2 NUMBER: 2120A-03630 CALll:lRATION DATE: 11127191 CAL.!BRATION_.~~E~: \) 11127192 , TbrED.BY: .:_._£;---~
~ rJr:.Jt l.J..I" ~,, /e.Jsr
25 Feb 1992 PSE&G Resarch and Test1nq Lab RTD CALI bR!i TlON RrO Si~AN 11 SCl1N 12 SCAN 13 SCAN 14 SCAN 15 SCAN 16 SCAN 17 Si"AN lti ~; H~ l'"" *:: -iN 20 1 72 .1 74.7 77.0 79.3 Bl. 8 84.3 86.7 lj~. 3 I!. Li !:. /J 2 7'2. 1 74.8 77.1 79.5 82.0 84.6 86.9 89.5 (1 !I u. IJ 3 72.5 75. 2. 77.5 79.9 82.4 B':i. U 87.4 '10. u :! . u 11.IJ 7'2. 3 75. 0 77.2 79.6 8'2 .1 84.6 86.9 89.6 O.ii 0.0
" 72.3 7'.0 77.3 79.7 82.2 84.7 87.1 l:l9.? IJ 0 '7
- I. 1.
6 72. 2 74.8 77.1 79.4 81. 8 ~4.3 86.6 89.~ (I :j I!. U
- 72. u 74.6 76.8 79.l 81. 4 83.9 86.2 H8.7 u.u I!. 0 8 72.l 74.7 77 .0 79.4 81.8 84.3 86.6 89.2 u0 O.ll 9 72.3 74.9 77.3 79.7 82.1 84.7 87 .1 H9.7 11. (I II. 0 10 72.2 74.8 77.1 79.4 Bl. 8 84.3 86.7 89.2 U. II LI. 0
*11 71. 9 74.5 76.7 79 .1 81. 4 83.9 86.2 Hti.l:l ii.II JI. 0 12 72.4 75.2 77.5 80.0 82.5 85.1 87.5 9U.l ,1,1_1 u.u 13 72.6 75.3 77.6 80.1 82.5 85.1 87.5 90. (I u.o :; . 0 14 72.2 74.9 77.2 79.7 82.1 84.7 87.1 89.7 (I. II 0. 0 15 72.2 74.8 77.1 79.5 81. 9 84.4 86.7 89.3- 11, l_I '" 0 16 71. 7 74.3 76.5 78.9 81. 3 83.8 86.l 8l:l. 6 i). 1J 0.0 17 72. 0 74.7 76.9 79.4 81. 8 84.3 86.6 89.2 11,IJ .i.0 18 71. 9 74.5 76.8 79. 2 81. 5 84.0 86.4 88.9 (I. I) l).il 19 72.3 74.9 77.2 79. 6 82.0 84.6 86.9 89.5 Ii, 1) :. u 7~.2 74.8 77.1 79.5* 81. 9 84.4 86.8 BY.3 IJ.IJ IJ-.IJ
- ~
72 .1 74.8 77.1 79.5 81. 9 84.4 86.8 1:19. 4 11, [I JI. I)
- 71. 9 74.6 77.0 79 .5 81. 9 84.5 86.9 89.5 I!. u u.u 23 72 .2 74.9 77.3 79. 8 82.3 84.8 87.3 l:lY. 9 II. U ". 0
. 24 72. 0 74.7 77.0 79.5 81. 9 84.5 87.0 89.5 1,i u 0.0
- 6 71. 9 74.6 76.9 79.4 81. 8 84.4 86.9 89.4 II.(! :1. 0 26 72. 6 7'?. 3 77.6 SU .1 8/.6 B'i .1 87.6 90. 2 LI II I) LI 27 72.2 74.9 77.3 19. 7 82.2 84.8 87 .:.! 8'i'.8 :1. (; ,, . u STANDARD TEMPERATURt:
72.' 75.2 77.6 80 .1 82.5 85 .1 87.6 90. 2 1), 0 0. II STANDARD: HP QUARTZ' SE~lAL NIJMblR: 26'LOA1l1764 PR1.1HE Tl NUMlit:R: 2120A-02801 PRu8E T2 NUMBER: 2120A-U3630 CALIHRATION DATE: 11127191 [ALI8RATIO~~~~~UE: (-;, 11127192 TESTED 8Y: L;k~~
- uARIAnLE FUR X --
lJRf.l IAHLE FOR Y -- RTD I 1 STD TEMP PSE!!.G Resarch and Test1no Lab ADU OF LINEAR REGRESSION Y = A + BX SCIURCt 55 DF MS F RHr IU t-1tG '1 H49. }92 ~~49.)¥2 1U74~73 ~7
~'t'.5 . IJ4{ 16 .003 Tl! I AL l 111< '/l:i49. 4;5 17 R SuUAt\'r.U = 1. 0000 YHAT = (-2.12430343184 ) t ( 1.0349280'2189 1X Y El.'ALUfHED AT X Xl I l YHAT Yt I l RESt ! l 'iiJ. 41.14 50.1330 'i0.111.lOU . IJ'"i~t. 'i2 .:-:tll6 'i2. 'i26U 52. 481JllU . IJ.4r.*i 1 2 ?2.8111 5'2. 5208 'i2. 'i O'iO U ' uI 'i /~.
4 ?5.336 'i?. 1449 ?5.17250 . or**.1
'il. 6~2 57.5418 57.56UUO . Olw!: '6 7
- 60. IJ93 6:.!.4'11 60.U675 62.?491 6ll. 090iJO 62.47250
. IJ2'/.- ~ .071')61 8 64.900 65.0428 65.09UUO . IJ4:**1 9 67. 288 67.5144 67.'iOOUO . u1.:..:i4 10 69. 7ti9 70.0816 7U.052'iU . 02'1117 11 72.064 72. 4564 72 .51?00 .0586!
12 74. 711 75.1960 75.237'>0 . 041"4 13 76. 9'tl 77. 5559 77.6UOOO .044U.; 14 79.~40 79.9864 8lJ.08UU0 .U9}.,9 l'.i 81.800 8'L.5}n 82.52'i0ll
- 1i lltfL 1 16 84. 346 85.1676 85.lO'iUU . U6 ~*
- 0 17 86.674 Bl.5770 87.59'250 .01541' 18 89.291 90.2857 90.19'2,U .09:\°i SLOPE 1.0349 INl~RCE~r -2.1~43 STANDARD: ~p QUARrz
'IAL NUMH~R: 26?UA01~64 JBE Tl NUMBER: 2120A-01801
- RU8£ T2 NUMI:-!* R: 212 IJR- 036 S0 CAL!8t(ATION DATE: 1~127191 CALI l:lRAT I ll~)J'T~-cllllE() . l 1127t92 TESTED B'r"t:_,~<----
- VARIA~LE FOR X --
VARIABLE FOR Y-- Re~arch RTD t 2 STD TEMP PSEll.G and Test1no Lab 25 Feo 1992 AOV OF LINEAR REGRESSION Y = A + 8X SOURCE SS DF MS F RAf 10 RtG 2849.393 1 2tl49.393 1097635' 18 RES . 042 16 * (11]3 TOTAL ClJR 2849.435 17 R SDUARED = 1.0000 YHAT = (-1.44689384?91 l + I 1.02451573842 IX Y EVALUATED AT X XCI l YHAT Y(J l RES! I l 1 50. 325 50.1114 50.11000 . 00138 2 52.702 52.5471 52.48UUO '067*;? 3 52. 714 52.?594 52.51)500 . O'i43~ 4 55. 21:!0 ?5. 11:!83 ?5.17250 . 01 '1:;; 5 57.554 57.5180 57.?600U . 0421].:; 6 60.023 60.0480 60.09000 '041'~5 7 62.419 6L.5U28 62. 47250 . 03u:;*! B 64.1:!80 65.0236 65.09000 .U6c44 9 67. 2~0 67.4931 67.50000 .00688 10 69.820 70.0&52 70.052r;o . U32 '4 11 7'2. 142 72.4b32 72.51500 . JJ?l 76 12 74.825 75.2124 7?.237?0 . U2~* 1. ; l3 77.1U2 77.5458 77.60000 .05424 14 79.497 79.9994 80.U80UO . 081)'?8 15 81. 995 82.5?87 82.52500 . o:n7 1* 16 84.550 85.1762 85. 105ilfJ .071'!2 17 86.902 87.5853 87.59250 . UIJ720 18 89.514 90.2621 90.19250 .06'/ir'.O SLOPE 1. 0245 INTERCEPT -l.4469
'lDARD: Hf' ~llJARTZ <!AL NUMBER: 262UAOP64 BE Tl NUMBER: 2120A-02801
- PR08E T2 NUMBER: 2120A-03o30 CALI BRAT ION DATE: I1127191 CALl8~ATl~E~U£: ~J 11127192 TESTED BY: (.l_T~~---*
- VARIH~LE FfJR X --
VARIAl:lLE FOR Y -- RTO t 3 STD TEMP PSE~G Re5arch and Test1na Lab 2, Feo 1992 HOV OF LI NEAR Rt.L;RESS lliN Y = A + BX SOURCE s.:; DF MS F RAT ICI RF.G '.1849.407 ~C!49 . .:i07 165U290.63 RES .028 16 .002 TOTAL CUR '2849.435 17 R S61UARED = 1. 0000 YHAT = (-.865536848195 J + ( 1. 01202013228 lX Y EVALUATED AT X X(J) YHAT Yl I l RESI I l 50.357 50.0966 50.11000 . 0133/ 2 52.768 52.5372 ?2. 48fJUO . 057' 2 1 3 52.768 5'2.5368 52.50500 . 05l75 4 55. )69 55 .1688 ".1.7250 .U03/~ r; ?7.689 57.5173 57.56000 . 04170 6 60. 199 60.0573 60.U9UUO . U32*.7 7 6'2.616 62.5U33 62.472,0 .u;u81 8 65. 126 65.0435 65.09UUO . IJ4t-*6 9 67.5'6 67.5028 o7.5000u . iJ II"~.':* 10 70. 13) 70.l!U3 70.0~NI 11~7 '~ 11 72 .4?5 7? .4tili'i n .51500 . 03.:+46 l'2 75. l'd 75. 2}15 75.23750 '006'*1 ll 77.49? 77.5615 77.60000 .038'i4 14 79.934 80.0290 B0.080UU .o5u~n I? B2. 4)2 82 .5573 82.52500 .0323"..' 16 85.020 l:l?.1760 85.lO?uO . 07li"9 17 87. 367 87.5ljl2 87. 5925U . U4lY'* 18 90. [103 90.2191 90.192'>0 . li26"*ii SLOP~ 1.Dl~O INfERCt~T -.8~~5 10Ai.!O: 1-\1-' [111AHZ lAL NUMt-**f'(: ~tiLl1AOi.:e.4
- . LHf Tl NL!i18~R: 21'2UA-0'L801 PRudE T2 NUMHFR: 'll~UA-03610 CAL J 81<A f I ON DA 1E: c--r}lt*</91 l A~IHi<ATlll~fErlJIE~~ ,11127d2 H:"iTFll 8Y:/._(;__~ ..~'l::.~- -~
/
2~ Feo 199'2 PSE&G Resarch and Testina Lab Ui1RIHHLE rllR X-- RTD I 4 l'i-l!o! ! i-.t1LE FUR Y -- STD TEMP AOV OF L!Ni:AR REGRt.SS!ON Y = A + BX SOURCE SS OF MS F RATIO
~EG 2849.401 1 2li49,4Ul 13?1J274.!8 Rt:S .034 16 .002 TOIAL COR 21:149.435 17 R SOUARED = 1. 0000 YHAT = l-2.214U3220916 l + ( 1.032~622~661 JX Y EVALUATED AT X XI I l YHAT YI ll RESI I l 1 50.725 50.1623 50 .11000 . O'i'l3ll 2 52.968 52.4784 52.48000 .UOlnl 3 5'2. 991 52 .5027 52.50500 . OIJ227 4 5'.>. r;i;o ".1443 '?5.17250 .028t6 '7. 879 57.5497 57.56000 . 010.3 l 6 60.327 60.0778 60.09000 .01219 7 6'2 .711 62.5386 62. 47250 .Oc6lli 8 65. 142 65.0496 65.09UOO .U4U;8 9 67. 5j3 67.5176 67.50000
- O17o4 10 70.U28 70.0'il43 70.05250 .041H2 11 72. 33> 72.4738 72.51500 . 0411 ~
12 74. 971:1 75.2059 75.23750 . 03 lt.4 13 77. 250 77.5509 77.60000 .04907 14 79. 623 80.0014 80.08000 .U78ti2 15 82.079 82.5377 82.52500 .0126~ 16 84.625 85 .1662 85.10500 .06118 17 86.944 87.5606 87. 59250 . U3 li:l~ 18 89.'766 90.2681 90.192?0 . 07~:".'6 SLOPE 1.U326 INTERCEPT -2.2140
'OARD: HP OIJARTZ
. . !AL NUM~t:R: 26:LUA0Pri4 ~8£ Tl NUMBER: 212UA-O'l801 PROBE n NUM8ER: 2,lJ_~_A'-03630 CALIBRATION DATE: li'r!}l9l CAL I Hl<AT I U~~~JE: . ')) l/27192 TES rrn BY: {~-~/YJT~-<--
- UARlAHLE FUR X --
t)AR lABLE FOR Y -- RTD t 5 STD TEMP PSE&G Resarch and Test1no Lao AOV OF LlNEA~ RfGRESS!UN Y = A + BX SOURCE SS OF ~IS F RHTI 0 REG '/849.404 2~49.4U4 147l366.a2 Rt:S .031 16 . 002 TOIAL COR 2~49.435 17 R SOUARtD = 1. 00 00 YHAT = 1-1.72988584443 ) + ( 1.02572004194 lX YEVALUATED AT X XI l J YHAT YI I J R£5( I l
?0.607 ?O .178? ?il.11000 . U68'i3 2 52.872 52.5U'/0 52. 48000 . 021'-19 3 52.909 ?2.5394 52. 50500 .03444 4 5?.472 . 1692 55.1721)0 . uo:, '0 i; ?7.768 ?7.5244 ?7.?6000 .o;?58 6 60.241 60.06U9 6U.09UOO .U2~:U 7 6£.615 6?.49?8 62. 472?0 . 0233?
8 65 .1185 6?. U'ifJ7 65.0901JO . U6 l.~4 9 61.482 67. 4879 07.50000
- 0121J9 10 70.003 70.0732 70.U5250 , 02lfc6 11 72.329 72.45'17 72.51500 . o.:;i;25 12 75. 010 75.2093 7'i. 237?0 .U28*6 13 77.297 77.5??5 77.60000 .0444t 14 79. 711 80.0312 80.080UO . U48 1 15 82 .163 82.5460 82.52?00 . U'2098 16 84. 727 85 .1762 8?.105UO .07115 17 87. 078 07.5881 87. 59250 .OU4}7 18 89.677 90.2538 90.192?0 '061 ,,
SLOPE 1.0257 lNTERCEt-T -1. 7:!99 tOARO: HP QUARTZ
- JAL NUMB~R: 262LIAOL'64 PROBE Tl NUMBER: 2120A-02801 PRt18E T2 NUMHtR: 212UA-036}0 CALIBflAT!ON DATE: ~27191 CAL IHRAT 11)~ .P!4 lE I1UE: \ ) l 1127.t92 TESTFD BY:/~r-4'-*../r---
- VARIHHLE Fl~ X --
VARIABLE FOR Y -- RTO t 6 STD TEMP PSEi!.G Resarch and Test1nq Lab 2'5 Feb 19'12 AOV OF LI NEAR RFGRESS IDN Y = A + 8X SOURCE SS OF MS F RATIO i-IEG il:t49. '86 2l:t49.3H6 93J445. 44 RES .049 16 .U03 TQTAL COR 2849. 435 17 R SlJUARED = 1. 0000 YHAT = l-2.97'i3'1884912 l + I 1. Li4'i2778?872 lX Y EVALUATED AT X Xl I l YHAT Yl I J RES(! l 1 'iU.8'iO 50.1773 'iiJ.11000 .Ot:i??..,, 2 'i3. 131 'i2.5616 52.48UUO .IJBl.,6 3 'i3.134 'i2.5640 'i'2.'iU'iOU .O'i898 4 ?5.619 55.1623 55 .172?0. . OlU 0
'i 57.866 57.5108 ?7.'i6000 , 1)492~
6 60.264 60.0168 60.090110 .Ohil 7 62.620 6'2.4798 62.47'2'i0 . 1Jll/2it 8 65. 031 64.9~99 65.090UO . U90*1';1 9 67 .405 67 .4813 67.50U00 . 0lB67 10 69.882 70.0708 70. 052'10
- Ult- 1 9 11 72 .158 72 .4495 72 .51500 . U6'i4'1 12 74.1:11Jl 75.2122 7?.2)7?0 . 021i '2 13 77. 0/6 77.5909 77.60UOU .u0~011 14 79.4U9 80.0293 80.UBLIUO . 050*
15 81. 828 82.5579 B'L. 5'.i?UU .03L86 16 84. 313 85.1555 85 .105UU . u50 .. g 17 86.641 87.5890 87.5~2'iu . uuJ'i i 18 89.208 90. 2713 90.192?0 .078H2 SLOPE 1.0453 INTERCE~T -2.9754
'OARD: HP OUARTZ
- "1AL NUMBER: 2621JA01i'64 PROB~ Tl NUMBER: 2120A-02801 PROBE T2 NUM8tR: 21~'0A-03o.SO CALIBRATION DATE: 11127191 I AL I HRAT I UN_ v:;u:uE~-~ 1112719~
TESTED BY: l'::i~-~-~+-~.:J>"_,,::'o-~
2':i Feb 1992 PSE&G Resarch and Test1no Lab lJAR I Al:lLE FUR X -- RTD t 7 VAR !ABLE FOR Y -- STD TEMP Ai.JV OF LI NEAR REGRr SS I ON Y = A + jjX SOURCE SS DF MS F RAT!O f?EG '2f:l49. 402 '2f:l49. 41J2 1391613. U2 f;:ES .033 16 . 011'2 TOTAL CUR '.~H49. 43? 17 R SLlUARtO = 1. ouuo YHi4T = (-3. r.?2 3c.i:.9 i11i,9 ) + ( 1. [1')~3?031 tJ64 iX Y EVf.iUIHTED AT X XI. I) YHAT '(( [J RESl I)
'iU .1:147 'i0.1416 'i0.11000 . IJ3 lo.i
- '2 4
~
6 3 7
'i3.061 i;:;. O':iU * [;/'16 57.8.;l 60.:.Ul 6'2 .5611 'i2.48'?3 'i2.473'i 'i?.0956 57.?,46 60.0621 b~.'546'i '.i2. 480UtJ 'i2.50')00 '>5 .172'30 'i"l.'i6U00
- 60. O't1j111J t*'.i.4725U
. 110*, "f . IJ il4~ . IJ7b"'4 . l_ill"*-'
_w2_:.-";
. u/4u*
8 64.944 65.U609 65.u911uo . tJ2'i119 9 6 l. 297 67.5517 o7.'i0000 , l_I..; [ ,i, 10 69. 727 70.1235 7U.052~0 . U7i :1] 11 71. 99 t] 7'2. 'j 187 72.51?00 . 011}61-i 12 74.'i63 75.2412 75.23750 . IJO '.-,9 u 76.813 77 .6226 77.60tJ00 . u225:; 14 79. IJBU 80.0215 80.08000 .05846 l'; 81. 438 82.5177 82.52500 .OU.726 16 83.886 85 .1083 85.10500 .U03'4 1i' 86 .172 8-7 .5278 87.59250 .U646o 18 88. 724 90.2287 90.19'2?0 .Ok.'3 SLOPE 1.0'584 lNTERCE~T -3.6/24
!ARO: 11P QUARTZ AL NUM8ER: '.2621JAOP64
- E Tl NUMBtR: 2120A-01801 PRUBE T2 NUM8~_R: 2120A-036j0 LAL I BRAT I ON OAfE: " 11127191 -
t:AL lfiRATI IJNzj, f1~1J *i'i~t: -~;------'f 1127192 TESTED BY: '.{°f,0t~/- *: ~
-7 -7 7
2? Feo l'i92 PSE~G Resarch and Test1na Lab UAR l AHLE F1)R X -- RfD i d UA~IABLE FOR Y -- STD TEMP AOV OF L I ~~EHR REGRESS I ON Y = A + BX SOURCE SS DF MS F RAT IO 1-1EG t849.381 2H49.381 84,987.~0 RES . 054 16 .003 TfJTAL Cll~ 21:!49. <i35 17 R SQUARED = 1. OUUO 11 YHAT = (-2.17091900113 l + ( 1. 03'i0648b?23 JX YEVALUATED AT X Xl I l YHAT Y!I l RE'.ir l l 1 50.619 'ill. 2532 50.11000 . 14522 2 52.714 52.4231 52.48000
- 050'-I')
3 5'l.737 52.4470 ?2.50500 . U'i8Ul 4 5?.286 ??. 0873 55.17250 .U8'7t7 5 57.61J'2 57.5788 57.56UOU . Llll:J84 6 60 .1U9 60.U824 61J.U90UO . IJOi63 7 62.4H7 62.5447 62 .41'250 .07'221 B 64.958 65.0833 6?.090UU . UOc~.8 9 67.284 67.5126 67.5UOOU . 01261 10 69.778 70. 0960 70. OWiO .04347 11 72. 072 72. 4710 7'2.51500 .043~8 12 74.723 75.2169 75.23750 . 02iJ6 l 13 76.997 71.5718 77.60000 . 02821 14 79.)63 80.0223 80.080UO . 05! 'l 1'; 81. 791\ 82.5421 82.52500 . 0170r; 16 84. 313 85.1495 85.105UO .04£.'-'6 17 86.641 87.5606 87.59250 .U519t 18 89.2:26 90.2375 90.192'i0 . 04~111 SLOPF 1.0357 INT~RCE~T -2.l?U9
)ARO: HP QUARTZ IAL NUt18ER: 2621JA01764
- U8E Tl NUMBER: 2120A-02801 PRUBE T2 NLJMfjF.R:* 2l?UA-031>}0 CAll 8,_,A TION DA TE: r11-(2 7191 CALIHl<ATl1Jloi r)l)E 1).J£:,, ) 11127192 1
TESTED Br:('_:{~~~ I . / -
2~ Feb 199'2 PSE~G Resarch and Test1na Lab vARlf1oLE FUR X -- RTD t 9 VARIA8LE FO~ Y -- STD TEMP AQV OF LINEAR RtGRtSSIUN Y = A + BX SIJURCE SS OF MS F RAT IO REG ~~49,:;91 2t149.)81 856646.U4 R~S .053 16 .003 TOTAL CQR 2i:i49. 435 17 R Sl:1UAREO = 1. 001)0 YHAT = (-1.57043048~44 ) + { 1.0241794~375 lX Y EVALUATED AT X X( I l YHAT Yl I l RESi I l 1 ?ll.590 50.242? 50.11000 .15252
- 2 J
4 5 6 7 52.772 52.798
- 55. 376 57.716 60 .170 62.573 52.4777
- 52. 5043
.1442 57.5413 60.0546 62 .5152 52.48000
- 52. 50500 r;r; .1725 0 57.56000 60.090!10 62.47250
. U02'.'6 .00075 .028'27 .0186'i .03?44 . U427'L 8 65.036 65.0380 65.090UO . 051"*5 9 6).4'29 67.4888 67.50000 . 01116 10 69.959 70.0806 70.052~0 . 02Bi3 11 72.259 72. 4361 72.51500 . 07893 12 74. ~43 75 .1848 75. 23750 . 052~.8 u 77.285 77.5836 77.60000 . 0164'1 14 79.651 80.0061 80.08000 .075115 15 8'2.125 82.5408 82.52500 . Ol 5titJ 16 84.699 85.1765 85.10500 . 07b3 17 87.0'iO 87.5849 97.59250
- OU7o2 18 89.682 90.2799 90.192?0 .08741 SLOPE 1.0242 INTERCE~T -1. 5/U4 IARO: HP QUARTZ
. . . JAL NUM8tR: :i62UA01?64 ~BE Tl NUMBER: 2120A-02801 Pl<08£ T2 NUMti~R: 212UA-03:d0 CHLIBRATION OF11E: 11127191 CALl"t(ATluN LlH}E 1-J.USJll!27lY2 r~STEIJ BY: ---/,~W4-- i..:r>1 ~ J t--*7------::--
,..
- T ~, -
- VARIAHLE FQR X --
UAR IABLE FOR Y -- PSHG Resarch and Test1na Lab RTO t 10 STD TEMP 2~ Feo 199'2 AOV OF LINEAR RtGRESSION Y = A + 8X SOURCt: SS DF MS F RATIO REG ~\j49.>84 ?849.384 89~~9(1,.,6 RES . 0'51 16 .003 TOTAL CUR [849.435 17 R SuUAl<tO = 1. 0000 YHAT = (-3.30754899405 J + ( 1.04896837656 JX Y EVALUATED Af X X(!) YHAT Y( l l RESr!J 1 51. 051 50.2431 50.11000 .13314 2 53.165 52.4609 52.480UO . 019 ! l 3 53.184 52.4813 52.50500 .02575 4 i;5. 713 55.1339 5?.17250 . 031fo2
'i 58.046 57.?814 ?7.56000 . 0213'1 6 60.425 60.0760 60.09000 .014U3 7 6'£. 75\j 62.5235 62. 47250 .U'i09~
8 6? .172 65. 0554 6?.090UO . 03u~*6 9 67. 484 67.4810 67.50000 .01890 10 69.931 70.0481 70.05250 .00.:..4~ 11 72.22? 72. 4547 72.51500 . 0603 ~ 12 74.832 75.1892 7?.23750 . 048-'4 13 77.0'f9 77.5666 77.6UOOO . 03343 14 79.432 80.0145 80.080UU . 065'-19 l'i Bl. 828 82.5277 82.52501) .OU27U 16 84.332 85.1540 85.105UO . 048'78 17 86.651 87.5863 87. 59250 .OU616 18 89.240 90.3025 90.192'1U .110113 SLOPE 1. 049 0 INTERCEPT -3.3075
!ARO: HP QUARTZ
- 1 AL NUMBFR: 26211AOL'64 PRUBE Tl NUMBER: 2120A-0280l Pl<08£ T2 NUMHrR: 212UA-03630 CALIB~ATION DATE: ~191 CALIHRATJllN_!~,~~~\ j1127l92 TESTFD BY: (:.::~:-~v~
- VARIH~LE FOR X --
VARfH8LE FOR Y -- RTD t 11 STD TEMP PSEl!.G Resarch and Testina Lab AOV OF LI NEAR REGRESS I IJN Y= A + BX SOURCE SS m= MS F RATIO l<'t:.G /849. 311 2849.311 371JU65. 'L4 RES .123 lfi . 01J8 TOfAL CUR 2849.435 17 R SDIJARC:O = 1.00UO YHAT = (-3.72697945026 l +. ( 1.05925030791 ix Y EVALUATED AT X X( IJ YHAT YI I l RESI I l 1 'ilJ.976 50.2t.'J3 50.11000 . Will3 2 53 .149 52. 5715 '52.48UUO .U91"? 3 53. lbO 52.5832 52.'iO'iOO . u?8'!U 4 55.?84 55. l?Ul . u2:.: ,.,
'"' 172'50 'i 'iJ.829 57. 'i28'i 'i7. 'itiOOU .U3Pi1i 6 60. 184 60. 0224 60.U90UO . U67-,6 7 62 .4lH 62.4'i56 62.47250 .01695 8 64.884 65. OIJlO 6?.090UU '08-t113 9 67' 175 67.4281 67.'iUOOIJ . 0718')
10 69.607 70.0045 71L 0525U .048!i0 11 71. 877 72 .4085 72.':il'iOU '10647 12 74.488 75.1741 75.23?'>U .U6.~41 13 76. 734 77.5?30 77.6UOUU . ll46't6 14 79.070 BO. 0'2tB 8U.U80UU . U'il '4 15 81. 429 82. 5'266 82. 'i'L500 .00158 16 83. 'll28 85.1735 8?. lU?UO . 06&"' l 17 86.237 . 87.6197 87. 59250 . 0:!7211 18 88.845 90.3tJ20 90.19'2'0 .18\1.,2 SLOPE 1.0593 INTERCEH -3.7'1.70
'1ARO: Hr' QUARTZ ~l NUMBER: 262UA01764
- BE Tl NUMBER: 212UA-02801 PRIJBE T2 NUM8t-:R: 2121JA-03630 CALl8RATION DATE: llll(l9l C~~ I~~AT 11J~.J-~~,ff,.Y~JE:. \ fl ll27.t~2 ni;Tt.n sv: z~T~!:-:.~;J.t.:F/'*'L-
~5 Feb 1992 PSE&G Resarch and Test1no Lab VARIH~LE FUR X -- RTD i 12 VARIA~LE FOR Y -- STD TEMP AOV OF LINEAR REGRtSSJON Y = A + HX SUURCE SS DF MS F RAf II)
REG '1849.421 /849.421 33U'i U25. ;9 RES .014 16 .OUl TOfAL CO~ '!B49,435 17 R SDUAREO = 1. 0000 YHAT = (-.154551150104 ) + ( 1.0030758JU29 lX Y EVALUATED AT X X(!) YHAT Y( I l RES<Il 1 ?u.1n 50 .1223 50.11000 . ill22ti
- 2 52.497 ?2. 5iJ36 52.480110 .023:.4 3 5'.l .522 ?'l, 5287 '!2.?0500 .O'L56' 4 55. 145 55.1600 55.172?0 .012'16
'i 9.499 57. 5216 57.56000 .U584U 6 60.U39 60. 061:l8 60.09000 . 02}] 9 7 t>'2. 4"'4 62.5015 62. 4.7250 . o*m97 8 65. 013 65.0587 6?.09000 .031>3 9 67.4':>8 67.5105 67.5000U .010~:>
10 70.025 70.0857 70.052?0 . 03316 11 72.428 72. 4963 72.51500 .IJ186~ 12 75.152 75.2290 75. 237?0 . 00&"'2 D 77.479 77.5625 77.60000 .0)746 14 79.957 80.041l4 80.080110 . 031,.4 l 'i 8~.451 8'2.5496 82. 5'2500 . 02464 16 85. (l'i2 85 .1592 tt'i .105110 . 05416 11 87 .4'il) 87.5647 87.59250 . 02781.i 18 90.U86 90.2U90 90.19250 . 016';* 0 SLOPE 1. 0031 lNTC:RCEPT -.1~*46
~- "IARU: HP QUARTZ L NUM8~R: 262UA01764
- Tl NUMBER: 2l20A-02801 PROBE T2 NUMB~R: 2120A-03630
[ALIBRATION DATE: 111,~191 CALIHRATIO~-~~JE: "/"_:}~1~27192 fESTElJ BY:~-.:.~~-,.,__,;'
- VAR I AHLE Fl JR X --
VAR I A8LE FUR Y -- RTD t 13 STD TEMP PSE&G Resarch and Te5ttna Lah 2'.i Feo 1~92 AOlJ or LI NEAR RE1;RtSS I UN Y = A + l:IX SOURCE SS DF MS F RHf Ill fil:G 2849.410 2tt49.410 189':il9?.~8 RES .024 lr:i .002 TOIAL CJ1R 2849. 43? 17 R S~IUAREO = 1.0000 YHAT = (-1. ?l 983770792 ) + ( 1. 0190443'1681 lX Y EVALUArEO AT X XI I) YHAT Y([) RESl I l l ?0.743 ?0'.1896 50'.11000 .u7%; 2 ?3.on 52.5117 52.480UO . 03] r.8 3 'i3. 047. 52.5376 52.50500 . O:~l'iii 4 55.616 55. l':i':i5 ' ' .172~1] . Ul/!!) 5 57.96? ?7. 5487 57.56000 . 0113! 6 60.429 60. 0602 60.U90UO . 029 15 7 62.786 6:.!.4615 62.47250 . 011 Oli 8 65. 321 65. 0454 65. 090UO .04461 9 67.b~\I 67.4'180 67.500UO . 04 ['11" 10 70.nB 70. 04?? 70. U'i2':iU .11u:* 1 i~ 11 12
?l. 6U4
- 75. 51J')
- 72. 4667
/'>. *2 1. "~
- ! . 'l ~1j11
/"" , ?~', .i~ LI . !If. \
D 7 :'. ""'! ~)I:-"),;~ 77.6UOOIJ . 04~"! 1.:+ ~u .11~.11 80.07~4 8U. UBu1111 . u01i*,~ l ** 8'L.5U2 B't.?'130 ti~. 5~'?UU l6 tt5. U6 l 85.161? 85. lU'iuu . 05f.~1 17 87. 4~"i BJ.61J06 ~l.5'1'l51J
- UIJtiU'?
18 YO .114U '10.2349 90 .192'i0 * [14~ ...7
~.1_1jPE I. 0 ! ':Ii) lNIF.RCtPT -1.51~8 UAh'U: hP QUAR[Z
- IAL NUMf:i1:.R: l6illA01 *64 Ph'LIHE Tl N11t18~.r<: 'ff/IJ':l-IJ~:HUl f't<'!1t11::: T2 NUrir--t<: 'L]fllH-O)n ~o I.HI lt:t(~i ILJN [!Hit: ~ 1 /':I[
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- 1. 1 f1fd~tH ~OR Ur1RIA8LE FuR Y --
X -- RTD i 14 STD TEMP h"t<.G Re;arch and Test1na Lab 25 Feb l~i12 AOV [I~ L!Nt.41< Rt6RF.SS10N Y = A + 8X Si"!Ul<'I t SS [I~ MS F RH I lO REG '2849.1121 '!l:l49.411 349,248. 14 RES . 013 16 . IJOl TOlAL CUR 2849.435 17 R SOUA!'<Hl = 1. oouo YHAT = (-.9120~~828441 J + ( 1. 016160?~.509 IX Y EVALUATED Al X X( I J YHAT Y( I J RESt I)
- 1 2
3 4 5 6
?U.272 52' 'i'i2 '52. 58~
55 .171
- 57. 'i35 60.019 5U.17'23
'52.4894 52 .?'.270 ?5.1504 'i7.5':i31 60.0772 50.11000 ?2.400UO 5'2,?0?0U 55 .172'>0 57.56000 60.0900U . Li6:t2~* . oui,.:,2 . U'.'19~ . 02:':16
- OL108-:-
.01'!~3 7 6'!. .3J'i 6~.4715 62.47'150 . 00lli i 8 64*. Yl 9 65.0559 61i.090UO . U3413 9 67.298 67.4738 67.50000 . 0:1623 10 69.837 70. 05}2 70.05250 . OOJJ '2 11 /2.231 7'2. 486} 72 .51500 . 02~7l 12 74.931 75. 2'i95 /?. 23750 . oo.~.,. 7 13 77. 228 77.5642 77.6000U .03'i74 14 79.6t18 80.0635 80.0BOUO . 0lt:'"2 l~ 82.139 82.5548 &2.?2500 . O'L<te L 16 84.690 85 .1463 85.lO?UO . 041'.'9 17 87.092 87.5077 87.59250 .OIJ476 18 89.687 90.2239 90.192~0 . 031 '9 SLOPE 1. Ii 162 !MrERC~PT -.9120
. . * ,NUARU: HP QUARTZ
'£RIAL NUMttt:R: 26~llA01/64 PROBE Tl MJM8t:R: 2120A-0~801 PRIJ8E T2 NUMl:it-:R: 2l?!IA-03630 CALIBl"AT!ONDATE:* 11 7191 c~_ll::lRATlflN~JE n1_JE: ! 11127192 n:s rm. BY: ei.#'=--~--~._,.
25 Feb l 9'i'2 PSE&G Resarch and T~st1n~ Lab
\,IARIAHLE FUR X -- RTD t 15 VHRIABLE FO~ Y-- STD TEMP ALiV LiF L I NEAf.I REGRESS WN Y = A + BX SUURCE SS OF ~JS F RH r IO r.it.G 21:149.376 2i.i49.376 774669 1'15 ~*~s .059 16 .* OIJ4 TCllAL l!iR ~l:l49. 4}5 17 R SUUARtO = 1.0000 YHRT = 1-2.62546601128 l + ( l.0403137ij273 JX Y EVALUATED AT X XC I l YHAT YC I l RESl I l l ?0.8?6 50.2810 50.11000 .1710.:i
- 2 3
4 6 7 52.970 52.983 55.504 57.852 60.265 6'2, 598 52.4i:i04' 52.4'134 55.11?9 57.5585 60.0t.85 62.4958
?2.480UO 52.50500 55.1721)0 57.56000 60.090UO
- 62. 47250
'00fl42 . 011011 , U?r*r* 2 . U1J14'i .021'17 .02320 8 65.U43 65.04UO 65.09UUU . 04~"' ")
9 67'. 379 67.4701 67' 50000 .02985 10 69.~M 70.04}0 70.05250 '0il'*"'4 11 72 .167 72. 4509 72 .. 51500 . 1]6410 12 74.804 75.1942 75.237?0 .04)'3 13 77' 083 77.56?0 77.60000 .O?'.iO'! 14 79.460 80. 0"}81 80.08UUO . 0411'.9 1~ 81. 870 82.54?1 82.52500 . U'.2001:1 16 84. 383 85.1594 85.105u0 . 05.:. l8 17 86. 720 87.5910 87. 59250 . 00147 18 89.315 90. 21:197 90.192~0 . 09i' I. 7 SLOPE l.04U3
!NfF.RCEl-'T -2.6£55 'lDARD: HP QUARTZ . JAL NUMt:Jl:.R: 262UA0l/64
- DBE Tl NUMBER: 2120A-02801 PRUHE T2 NUMl:ibR: 212UA-036}0 CALl8k'AT!ON DArE: 11127191 CALl8RATIO~ ~~~2.IE:
TESTto BY: (_7~-1-~~
/) 111271'72
- 1JARlhnLE ~tJR x --
\!Ar! I A8LE FUR Y --
RTD t 16 STD TEMP PSE!!.G Resarch and Test1n9 Lab AUV OF LI NEAR Rt 1;RE SS I UN Y = A + HX SUURCE SS OF MS F RFff ID k'E::G i'tt49.>37 1 :l1'.J49. 337 4ti~400.'18 RES . 0':18 16 .006 TUIAL U.tR £849.435 17 R SQUARtO = 1. ooou YHAT = l-3.3336U5383~9 ). + ( 1. 0561f2879 l26 iX Y EVALUArED Ar X XI l J YHAT YC I l k'ES( l)
?tJ, 726 50. 27'il 50.11000 . ln'i L1.1 2 52.tt72 52.5430 52. 48LttJt] . 06)11? }. 52.901 52.5733 'i'2. 5U?OO .061:133 4 55.354 55. lt.66 55.17250 .oo~.,,,
57.5\18 57.5579 6 7 59.'160 60.0339 6'/. .4335 57.561J0tl 60.U9UIJU
.IJ22ll'- .ll?o1'2 6'2. 23 l 62.47:.!50 .0590) 8 64.676 65.0180 6'i.0901JU . 07£11'2 9 66.941 67.4111 61.50000 .088"K 10 69.387 69. 9967 70. 052'iU .05"i~3 11 71. 679 72.4186 72.51500 . 0963.7 12 74.?tt8 75 .1763 75.237'ill . 06i"19 13 76.528 77.5429 7i'.6000U . 0571:'
14 78.912 80.0634 80. 0801JO . 0161:-.3 15 81.262 82.5461 82.52?00 *021111 16 83.751 85.1771 85. lOl'illO . 07*19 l) 86.093 87.6520 87.59'250 . O'ii,.49 18 88.612 90.3146 90.192.,0 .12~tJ? SLOPE 1.0568 INIERCE::~T ~3.3336
*iuA~D: HP QUARTZ
- ~!AL NUM8~R: 26~UA01J64
~k'08E Tl NUMBER: 2l20A-02801 PROBE T2 NUMH~R: 2l:tUA-03n30
('AL IBRAT lON DHl'E: 1112-\19 l CA~ I'1RA i 1uN_,;~8.J: ~: / )11127."~2 Lt..JrEll BY: ur-~~
- l!ARIAHLE FOR X --
VARIAoLE FOR Y -- RTD t 17 STD TEMP PSE&G Resarch and Te5t1nq Lao 2'i Feo 19'72 AOV OF LI NEAR REL;RESS ION Y = A + 8X SOURCE SS OF MS F RATIO
~tG £1:149.Wi 1 ~l:l49.}91j 114j416.?9 RES .040 16 .002 Tl11AL COR 2849.43'.i 17 R SCJUAREO = 1.0000 YHAT = (-2.16794970424 l + ( 1.03020296081 IX Y EVALUATED AT X X(I J YHAT Y( l J RES([ l l lj0. 5'6 1)0. 2178 50.11000 .10784 2 52.774 52.5162 52.48000 .03ti7 3 52.799 5t.5430 52.5050U .U)7911 4 5?.322 55.1565 55' 17250 .Okn4 5 57. 626 57.5438 57.56000 . 016P 6 60.054 60.0601 60.090UO '029:-16 7 62.372 62.4619 62.47250 .01064 8 64.862 65.0421 65.09000 '047':14 9 67.194 67. 4'.i87 67.50000 .04135 10 69.668 70. 0227 70.052.,0 . 02'i'H4 11 72.U09 72.4479 72.51500 . 06 70H 12 74. 659 75.1937 7?.23750 . 04.'\.'7 13 76. 946 77.5633 77.60000 .03670 14 79.353 BO. O?f!3 80.0BOUO . 02h5 15 81. 754 82.54?7 8L'.?250U . O'L073 16 84. 272 1:!5. l'i4? 85.10500 .04'147 17 86.646 87.61?0 87.59250 :0224':1 18 89. 217 90.27H9 90.19250 . U&t. *lj SLUPE 1.0362 INI ERCl:.f'T -2 .1679 lDARIJ: HP QUARTZ
- !AL NUMBER: 262UA01?64 P~OBE Tl NUMBER: 2120A-02801 PRlll::lE T2 NUM8FR: 2120A-03630 CALIBRATION DAIE: 11127~91 CALll:lRATIUtU1~~** U1 E: -* 7 i\;27192 ftSTED BY:~--~ 'l..!.~
- VAR I i18LE F1lR X --
Vi:tR l ABLE FOkl Y - - PSE&G RP.sarch and Testing Lao RTD t 18 STD TEMP
- 2~ Feo 1':192 AOV OF LI NEAR RE1;Ri:ss l ON Y = A + HX SOURCE SS OF MS F RATIO h'EG '2849.358 1 2849.31j8 597138.46 RES . 076 16 . OU5 TOiAL C11R 2849.435 17 R SWUARED = l.OOUO YHAT = l-3.J6211725185 l + l 1.04987736812 JX Y EVALUATED AT x*
Xl I l YHAT Y(J l RESI! l 1 50.788 50.2?90 50.11000 .14~~'? 2 52.957 52.53'>8 52.48UOO . o?-.~o 3 52.985 52.5659 52.50500 .06088 4 55.454 55.1576 55.172t;O . 01.:.:-,g 5 57. 723 57.5396 57.56000 .02030 6 60.101 60.0362 60.090UO .oi;3,5 7 6'2.395 62.4449 62.47250
- IJ2J6 I 8 64.847 65.0188 65.090UO .Oh*~
9 67 .143 67.4298 67.5000U .07011-i 10 69.596 70.00?3 70.05250 . 04?!4 11 71. 91)'2 ?2. 426? 72.51500 , l}tjJ:i~j 12 74.'.i24 75.1.793 ?? . 237?0 .u%.1 4 13 76.BUO 77.5688 77.60000 .O.Hl/ 14 79 .172 80.0'.>92 80.080UO . 021.1 J8 15 8l.550 82. 5550 82.52500 .029'18 16 84. 039 85.16~8 85.10?00 . 06?.* '8 17 8fi.3lH 87. 627'.> 87. 59'.l'.>0 .03'>u> 18 88.929 90.31J2U 90.19250
- lU\'":' l SLOPE 1.049~
!NfERCE~T -3.U62l *~DARO: HP Q11ARTZ
- _.<IAL NUMbr:R: 26211AOP64 PRU8E Tl NUMB~R: 212UR-0~8Ul PR118E T2 NUMBER: 21211A-03n30 CAL I 8i;iAT I ON DAT t : 1112l.J 1 CALIHRATIU~fi 1 Cl).JE: .T.* 11127192 TESTED BY: ~~b~
25 F~b 1992 UC\RIAHLE ~r1R X -- PT(! i 1o l!ARIABLE FfJR Y -- *: Tl.l r~ !"'OJ Al.I' .I (IL L ! 'I!. w'-' pc *-F*i.. *~c; I rr~J
"( ~ C)
- o.<:{
SOURCE sc; MS F RATIO REG *:*q49. 'H6 '/'J49. ~A6 RES nao .003 TOTAL COR ')µ.49. i:i 15 1) R Sf;HIARto = .nnnn YHAT = c-2.22~nn90'J~8 I . r. ]
- I! \ < o ( J~. C' L, IJ6 1x
'{ ~IJi'.ll f_'JJ]Lj1 Llf x*
xr 1l 'd.JQf i( I) RESI I) 1 50.749 51 . ;***11 i:;n .110011
.11303 2 52. 976 ;;.,*2. h . ioj 52. 48f!!JO . 04YJ0 3 53.oni; " ' r...... i:.!r... r;2.r;ni;on .04947 4 55. "'.l5 .i:; I'- L*'.J "r; .17;n;o .014~2 i; "7. 83° I- * ~ l: JI~ 57.51'000 .01021 6 60.?.?9 ldl, 1*11...1!U 6n.09nno .03914 7 6'.'.?R5 ;n A7..6)2 1;n . n19i;i; 8 65.n~o .i.:,t.:.
Ll'"
~I ' * [I ~5.n9nno . 051:-"5 9 67.4l3 .; . 6t..:.d./ hl,')0000 . 05'i76 10 ' 69.9[13 :111. :l I *~ ;n.oi;2i;o . 03519 11 72.2'i0 ?'_'. UlL ~*6 72.'!1500 .07163 12 74,919 7'1.2[f7 )~.
- 1 *111"/
7". 237';0 .owu 13 T' '-'.L *-.U
'?7.60000 .03407 14 79. f.119 Yfl l*!J/ .J sn. ospno . 032'19 15 82.028 9 I. ~.J ,1q ~~'2. 5'2500 . 02276 16 84. "" ~,' 1"*'J '* 85. 1.0li'JO . 056'15 17 8"'. 939 8, . t 1',JLl 87.59250 .03043 18 89.514 \)n. 'l!J64 00.1921i0 . 09212 SLOPE l.OfM J~ITERCEPT -2.nso c~**10ARO: HP QUARTZ .~l NUMRFR: 26'l11A0171i4
- . .8E Tl NUMBER: 2120A-02~~0 I PROBE T2 NUMB~R: 217DA-OJ~l0 CALIB~ATION DATE: ~1 -&i1o1 CAlll=IRATlrJNJJPz;~1E:
TESTED BY: ~7-'"-~ ___ ,./
/111r;**42
- 11AR [ ARLE l=nR X --
l!OR f ABLE FOR Y-- Pa~~*~h ~"~ PTO t 'ill sTr_i ;p*!.! ("- - 'J~ TP*lt~n Lab QI 11 I (It' J_ 11.;i: c.)L* C*" .p .. *~s I I )~I y = LI ' U'.' 51.lURCE 11_1.. HS F RAT I 0 PEG 'iR49. '".7 .*:~49. 397 121/211.61 RES .n*µ .on2 TnfAL CflR *,i'l49. air; R 501 IAPF.D = Y f:::\.101 *!:.J'L.-, (jj '.i xr I l "!'0 13 77.0\lli ~* i.:,\-.*~o 77.60000 , 1)411 l 14 79,4A8 !JrJ. 1}1: It, 80.080110 .Oj848 15 Bl. 9ug ~". c;,.:,.i; 82.72'i00 .nl750 16 84.411 ~". ! .. "~ B'i. 1oi;;no . 04i:L;5 17 8~.. 7911 ' .. h ,*Ji; 8). 59250 .02731 18 89. ~62 '!(I, .-,1-.u~ 90.'!92'i0 . 07610 SLOPE 1.037R INTERCEPT -2.6"~2 cu,~IOAP.O: HP IJIJARTZ Al NUMRF.R: 26211A01764
- BE Tl NUMBER: 212no-n*,ifin1 PRfJ8E T2 NUM8'-R: 212flA-O:'" 30 CALI ~uAT I ON DATE: 11<2?191 CALIRRAT!IJN.~ia: ( / l 1!2?*J2 TESTED BY:{,-.!'/'---~~----
- 2'i Ft:"b l 992 P*~rd; P~~~r~h ~~rl r~~t1nn Lab lJARIARLE FOR X -- RTD t :!!
UARIABLE FOR Y -- srn TF!1P Al II) :=rL l ! *r!. JL' ~- '-L"* '-.';I I l~j y ~ A * '"'" SOURCE SS M~ F RATIO PEG 2869. '73 7P.49. 373 734730 18 RES .11~.2 .0114 TOlAL cnR '..l~49 . .!.i 15 ,, R SOIJARE:O = 1. l)fln11
)(( J) Y'-!AT *" I t RES( l l 1 50.718 t=.11.')*;,j! "0.11noo '10913 2 52.9'18 "-2 L;a:._i 5 72.480011 .06?10 3 52.979 S* . "'"' 'Jll 5'/. 501;00 ,0'1935 4 'i'i.493 : IR i. 17?'>0 5 57. 774 "" * ! . 0011.-,7 " * . '.. " *'!-. 57.5~0011 .02238 6 60.191 "n. "~.:i" i.n. 0911110 . 045i.;4 7 62.517 ti/. a'* )~.:, 6}. 47250 .01527 8 64.9% ,:,5, ,.. 'Wil 6".09nno . 062110 9 67.321 ,, /. ll<.:!! ! P.50000 .O'i97l J0 69. 796 Jfl. l!I! : ~ 70. 052">0 .04516 11 7'I.. 1?9 7' . a*.4 72.51500 .08863 12 74,/A5 75. I ci J? 75.237'?0 .05"84 13 77. Of\9 7 ~. ~(~ 11',l 77.60000 . 04977 14 79,4.97 Hn.rr~~a 80.080fl0 .010S6 ir; 81. 8R9 8'.'.5ul.J7 B2.52'i00 .Q2469 16 84.416 \:l?, 1 /If? 85.105fl0 . 065"17 17 86.781 ~-_;. e4" 91,50250 .03l'i2 18 89.356 '10.}'Jl..4 90.19250 .10287 SLOPE 1. 03 72 INTERCEPT -2.3'-166 STl'"IARO: HP IJIJARTZ - NUMBER: 2620A01 >64
- Tl NUMBER: 2120A-0280l PRrJBE T2 NUM8~R: 2120A-03~ lO CALIBRATION DA~E: 11 91 CALl8RAT10N .!J'Ji ,n : _ 11127.:1.J2 TESTED BY: ~tf:~*--- --~-<<"- \....
- UARIARLE f:rJR X --
\!ARIA8LE FIJR Y --
P~~~*rh ~nrl l*=t1r~ L~~ PTO! -.'2 c; TQ rFr*P pq.*.i; Af'ilJ (Ii- I_ I **C'wi.. c;. .i->f:*-,c; !"fl Y = >i
- u,*
SllURCE SS 1*1L NS F RATIO PEG /849 ,<dO /-i49.4rn 1007~107.?2 RES
- 011t.; I* n. ooo TQTAL CDR 2R49 ..:d'i 17 R SQ1JARtD = l !11111'1 YHAT = ( .1R'i6676nn1u4 I * ( [. 1111'-*'H [ h1146'i ix y ~.11µ1 .. *lu ! "ri .:> T X XCI) ~~14T
"' l) RESr I) 1 49.6R4 ~II . J '. c;n.11ono . 022}2 2 ?2.075 ':2. '-'H~' '?2. 480110 .00'3~2 3 'i'l. 0"-6 ~. ~. ~ 't-. 7 'i~1 .5rt5DO . n?.161.
4 54.701 ... , . I.*- 7 c;i;, 172'?1) . 00)'1.1
'i}. 0"9 ...... <.,;,_ n 6
7 59.'i83
- 61. 91;2
'-0. "' '* 7 A". !1.'.aH 57.51,1)00 60.090fl0 62.47250 .01401) .006')6 .nnn1 8 64. ,,, "'.OH I 4 6'i.n9onn .0081.0 9 66.938 ~ : . 11
- 1n 67.50000 . 1)2301 10 69.500 /0, il"!V 70.052'i0 .00040 11 71.935 *.F*.5nn-, 7?.51500 . 01466 12 74. 646 * ;.- 11-2 7'i.2J750 .OlJ.iO
- 1) 76. 98'1. ~n. "7all 77.60000 .02597 14 79,474 HO. O?<J~ 00.neono .00042 15 81.930 8'!. ""~~ R'l. 52500 . 02381 16 84.504 H'i.] l'-8 8'i. 10500 . 031182 17 8,C,. 944 Jl.: .""l"l4 87.59250 .00408 18 89.542 YO. *2111 n 90.19250 . 00047 SLOPE 1. 005 3 INTERCEPT , l!-l'i7
OARO: HP IJtlARTZ
- 1L NUN8ER: 2620A01 *'64 flROBE Tl NUMBER: 2120A-n?.Ri11 PROBE T2 NUMRl:R: 212nA-03til0 CALI BRAT J nN DATE: .-H4Z._19 l CAURRATl~~;: ~: ~) l');~;.o *<J2 TESTED 8Y *t'L'-7:_c:::::ry~ . .\. . . . . _
- 1 IAR!AHLE H_IR X --
ltAR I A81.E F[lP Y --
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H"w
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- ar-"l fo-: ~ ""ll'J L~b A(ll,I PL L; I ;i: wi:J PL *:v -.C. i 1)'*1 y = 4 * "'>'.
SOURCE sc; j I~ M~. F RAT[I] REG '.-'449.~Hr 0M49,450 96]"'579. 10 RES 11 n" ! .. n.oon HlfAL CflR !7 R SOIJAPl=:O =
'!'HAT = ( . >2729':!47<:~*1.,,i; l * ( . U'"'JL, ,fl*Jflli<;l3 IX y ~'."-*!.1'4 * -r1 uT :x X(J) . .,.~.:ir Y' I l RES! l l 1 d9.81l '**I I *l!"I r;o.11noo .01019 2 52.J':i7 i.;2 ..~~ :.J.:.., 52.a8nno .01?~7 3 r;2.2n3 ~ *' ,r; 11:..i 'i?.. 51J'i00 .OO'i83 4 'i4. R'i3 :...r; -'I~ "" .172"0 . 01'2'?1 5 57.242 r..; .. I~ {JI~ ' 57; 5A I] 0n .01171) 6 'i9.7R9 '"'IJ. q*.J.:::r~ 60. 091]110 . 006Sl 7 ~:.!. lRI) ~ ' . J'* ., ~* *62.47250 . 01753 8 64.7?9 "i~. I!!*<'~ 65.090110 . 007~.9 9 6"? .196 ": *1
- a'..!L(} 67.50000 ,00306 10 69. ?R7 ::o. fl*~~:q 70.052'i0 .03~63 11 77. 21)6 )'1
. "-11~'-. 77..515on .00837 12 74. 960 ;r;' ~*,JI! 11 75. 237?0 . 002':i2 13 77. 278 ... _J~f, 77.60000 .02338 14 79. 767 RO. 11.;.::5 80.08000 . 015 1H l'i 82.2'il 8'.'. r;47p 82.52'i00 . 112282 16 84.R34 ~ ){UJ w;.1oi;no . 02all 17 87. 278 81,'j)I' 8?.59250 ,01919 18 89.891 90., 4" 3 ~0.19250 .007:14 SLOPE .9996 !N.TERCEPT
- 32J3
... l)ARO: HP IJUAP.TZ A 4L NUMf:lr:R: 26?.0AOl 764
~BF: T1 N!IM8~R: 2120A-n".!Rl)1 PRIJAE T2 Nl_IMR~R: 21211A-03f '0 CAI.I 8!,JAT I!JN DATE: CALl8RAT1~N, ~z ~{, TESTED BY.
\
11~01 1)12;7 J2 U~J.?-~_-t..-1/-----.......__ I
- IJAR l AYLE HW X --
UAR [A8LE FOP Y -- PP~~rrh ~n~
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fp;t*~o L~h AC1! J o~* I_ i >J~ wl.* PL; .PL~.*~ 11 lN y = A* ~' SOURCE SS r1L ,.,., F RATrO REG 7!-!49. t..7.6 1 '."~49. u?.6 522?504,!19 Rl:S * (1119 l" . 001 TOTAL U1R ?R49,!!<5 I 7 R S!JIJARED = 1 n l)lin YHAT = (-. 21926').211>J9P * ( J. nl '""%' 1 -167 IX
'i ~l.1 *i1_ 11u fcT' A-, '<
X! l) Y<<~T Yt [ J RES<[) 1 49.858 -, 11 . [.:i !I~' 50.11000 .03017
- 2 52. J 90 . _. -/,*Jt.;.C:: 52.4anuo .0Wi2
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3 52. TH ,.,'. 5' l. J 'i2. 51)1;00 . OJ113 4 54. 858 c;c;. 1 '.!*J'-! ~'. 172"0 .OFP
- 77. 2\11 ~ .'. s- '- 0 6
7 59.7nn 6?.. 041 i'. ii. llI'.-~ .(J 90.19250 .031142 SLOPE 1.01on [NTER(FPT -. 21'12 r-*~OAPO: HP IJI IARTZ
. AL NUMRER: 26211A0l/M
- IJBE Tl Nl_IM8F.R: 2l2QA-02Rnl PRnRE T2 NUMRFR: 2l'lnA-03* 10 CAI_ 181,JATION DATE: ~/ J191 CALIRRATIO~)l~E~iE: 11127 10 2 TESTEO BY:biy-=~- __ ,,~"'- . . . ._
- tJARlHHLE f-UR X --
~.1 A~ I AHLE FDR Y --
Resarch and RTD t 2'i STD TEMP PS1::6G Te~t1no Lan 2'> Fen 1992 ACIV OF LINEAR RF1~Rt-SSIUN Y = A + HX
~.UlJ~[E SS MS F RATIO ,,.~:G /849. 4'.6 }~49.4i'i 49'i393'i.H9 Rt S .00~ ln .UUl TU I AL iJ 1R '2H49.43'i 17 R SQUA~tO = 1.ooou YHAT = 1-.0181298840436 ) t ( 1. 00Hti't6] \llJ35 JX YEVALUATED AT X X(() 'rHAT Yl l) RESl ! l 1 49.714 50.13tl4 'i0.11000 . 02841 2 'i2. U'>2 'i2. 4':i71 52.41lUIJU . 01?118
- ~ ?! . Ottl 'ii-".260 51. 'ill'iOU
- 0'20':19 4 ?4. 7?5 .,, .1 \1:;9 ,'i,172".>U . 021 ,9
~ '17. 073 'ii. '.i12':i ?7.'inUOO * (llJ24?
6 '19. ':>JO 60.U813 6U. 09UUIJ
- 00ttl'i9 I 61.91J7 6/.4401 62.471'i1J . OJ24U 8 64,,27 6'i. 08i'i o'i. 091.ILIO . 007"i
~ o6.8H'i 61.4619 b7.'iUOOU . 03813 10 69.41U 70.UU92 7U. O'i2'>0 . 043 ;i; ll 71.87'i 72 .4962 7'2.51500 .Ul878 12 74.'i/8 15. '2i' ~o 7?.237"iU .014?3 11 76.937 77. 6ll.i6 77. 61JOOO . OU3?6 14 79. 41J5 80.0'nll 80.UBUuO .012H0 l 'i 81. 814 Bl. 'i'240 82.'i~'iOO .OU097 16 tt4. 369 H'i .1 Ul 'i ll'i. lO'iUU . 00.'.*'16 1/ till. 874 81. 6'2H6 8/.'i':l".60 .U5606 18 89.440 9U.2176 90.1921:iU . 02"i 13 51.l:tPE l.UUtl'il INfERC~PT - . u1.ttl OAJ.:U: HP GlUARTZ Al NUMH~.R: 26 2UAO L'64 * ~W08E Tl NUM8EW: 2120H-U2801 Pf<11H£ T'L NUMrH: 2121~,03d0 Ct=tt 18WAT ION OA1E:
CALl.tJRAllO~i&f
- j' l°t(19l
)11127.192 rhTFU BY:aTz,, ~
- UARli-.HLE F1JR X --
UAl<IA~LE ~U~ Y -- RTO t '26 STD ffMP PSE&G Resarch ann Test1na Lab 2'.i Feb 1992 AUV OF LI NEAR RI: 1;RFSS J 1:iN Y = A + HX
':IJURCE SS F RATIO ~EG '!H49. 432 '.!H49.432 22404227.44 f.i~ '1 . Ull'l lri u. oou T0'AL '111R '.'ti49. 4)5 17 k' S[11JARtD = 1.0UUU YHAT = (-.112621871414 ) + ( 1. U0119993Y628 JX Y EVALUAfEO Al x X! l l YHAT Y( I J 1<£51 l) '.iO. ln9 511.1(164 'i0.11000 . 00364 2 52. 519 ?2.4'iH8 '.i2.48UllU .021'13 5 5'/, 5'll '5'2.4'167 'i'L.'JU'jU(I .001m 4 'i'5. ~'.'4 ?".>.172':i0 . 001irJ9 ' ' .11'>66 5 'i). 6 j\ ')7. ?i'i6 'ii'.'ioOUU .Ul'i63 6 60. J <!'ii 60.U963 6/J. U9llUU .00o51 7 6'2. 5'1'1 6:2.4)'10 b'L.41'L'ii)
- UU653 8 65 .160 65.1121. 6'l.U9UIJU . 022 l 0
~ 6).556 6/.4'112 o).5UUOO .OJJ877 l0 70.UH9 70. 0462 7U.U?2?U . OOti'IB lI 7'1. '.in'i 7!. 5'248 72.51'iUO
- 00"177 12 75, :!?9 7'.i.2421 7'i.237">U .00460 13 77.o47 77.6122 77.oUOOO . 01222 14 t:!0.11 '.i 80.Ufm t:f0.U8UUU .00'2'.!8 1~ If/. 5'7 8'LS273 82.5£'i0U .OU230 16 t:f'.i.122 H5. [J'l43 t:f'.i. lO'illU .OlU/4 1: t:f/ .608 8l.58}'l Si'. ')'l'l?U .U093(1 18 "10. 21!1 90. 11:149 9U.192'lU .00760 SLOPE 1. 0010
!NfERCEPT . - . l 1 :26 ~OAt<[J: HP (IUARTZ
. * . /AL NUMktR: i6i1JA0l?n4
,. 081: Tl NI IM8ff;': 2J20A-028lll P~~E T2 NUMHrR: 2l~UA-03~~0 Cfil 18~ATillN 0Alr: ~i/}yl9\
[AL_IHRAT I~~/j'~~E:_ ) 11121-'~2 ThffL1 ~Y//~=f.c --~
- IJARIAHLE FUR x --
UAi.' I AkLE FOR Y -- RTD t 27 STD TEMP. PSE&G Resarch and Test1na Lab 2? Feo 1992 AOU OF Ll NEAR RE1;RF.SS ION Y = A + l:!X SUUt<t:f. SS DF F RAT 10 k'tG '2849' 432 :1849.432 ?0247170. l'.i Rt5 . OU1 Iii 0. 000 TUI AL 111R 'IH49.4'5 17 R SOUARED = 1.00UO YrlAT = ( . 178??321'.JtlB ) + ( 1. 00 l IJ686U229 JX Y EVALUATtO AT X X( I J YHAT Y( I l RES( I l
- l. 49 '84.~ '.iU.1148 '.iO.llUUO . OU41:i'.i 2 ?2. tll8 ?2. 4tt4'.i 52. 481J110 .00445 3 ?'2.244 ?'2,,.,u1 'i2.W.iOU ' 0l'.i10 4 54.89'2 ' ' .1732 ~' .17??0 .00010
'i 'j). 2?/ ?7.'.i4<!9 ?J.56UOO .01706 6 ?9.i'J6 60.Ul161 6U, 090110 . 003\1'.i 7 6/' 186 6:/.41:lU9 61.472?0 .00tl4U 8 o4:Jin 6'.i.0822 6~. 09U 110 . OO/J7 9 t-7' 187 6i.4'JIJ7 67.50000 .00933 I0 69 . .'~6 70.01\49 70. O'i2'1U . 01>'41 11 7'!. .1'15 7'L. 506? 72.'il'.iOO .0081jl) 12 74. Yl lj 7'i.FH4 7?.237'10 . 004'19 n 7J.'h7 Tl.'.iBU3 77.6UU0ll .01966 14 79. 745 tl0.0710 80.0BUllO .009112 l'i l:L!.204 8:1.5366 82 .?'L?OO
- Ul16U 16 84.)'12 8'.i .1289 85.105UU . 02}.,.0 11 8)' '246 8/.5873 8/.5':12'.iO . 00?'22 18 89' ~49 90, l\l'i7 90. i92'1U . 00}~1 4
~LUPE 1 .0Ul9 lNlERCfPT .1~116 "IDMRU: r,p CJ11~rirz IAL NUM~~R: '26/UA01?64
- 8F Tl NUM8ER: 212UA-U2801 Plo/11Ht: T2 NUMHr.R: ~1:1 uA-03fd0 CAL 181o/HTIUN OAIE: i~/n.191 CALliiRAT lljN~J;Ci;t: *h }1 ll27i'J2 I fE~fflJ BY: ZA7-'-'<-(-;J-rf.2~~M..J
lt 24 Feb 1992 U£1J POINT 1~All11RAI 1(JN I UR DPCALl
.9940342
- IJ'>\I l 2 .'793PU1 - .16113
- 1. 0'136\142 -.8844 4 1. (JIJOOOllO *21)110
- 1. 0'2'L8 IJ9? - . 39'il:l 6 1. Ull 94'/6 .0~110 7 1. UO'i5:$8\I . o:iu.;
8 1. LI 1678'14 -. Pr.O
\I l.1JlU4167 -.3li94
- lU 11 l.11'.!02143
- 1. 0183\181
- . l1J45 - . l 5'i4
---~----------=----:---------------------
=#I 7 Jan 199'2 PSE&G ~esarch and Te~t1na Lan DEW POlNT HYGROMEIER 1:AUHRAT 1UN SERlHL NO. L'76'l VAR!HHLE FllR X -- G~:Nf"t<AL EASTEi;.N 12?62 IJPlf!AhLE FOfl Y -- Sfi-<NOARD Al.llJ Of LI NEAi<> l*HRE SS! ON Y = A + tiX SIJURLE SS DF MS F RAflO t<F.G 17?.'?66 l 1.75. 'J66 11837. 29 RtS .Ul4 l .014 TOIAL CIJR 175.l:ii:iO 2 R SGUARFO = .9999 YHAT = .U~Y0612336?8? ) * ( .994U342J~82 JX Y EVALUAIEO AT X
- 2 1
3 X( I J
.900 9.lUO 19.700 YHAT .9737
- 9. 1048 19.6415 Y( l J 9.20UUO
- 19. 6UUOU RESlll
.901JUU .05369 . 09?23 .04154 'ilANOARO: EG&G I 776 CAL 18flATION OAIE: 2111191.
l~AL I HRAT I ON Y.9f. [JAffiJ L/11192 TESfEO 8Y: ~~::f.j.2_!:!?:::_-!e
7 Jan 19~'2 PSl'.f.G Resarch and Test1no Lab LHJ PO I NT HYGROMEI ER LALi HRAT ! \JN MANlJFACfURER: Gt:NERAL ERSTERN SERIAL NO. 1?764 uAR!AliLE FUR X -- 1;l)H::RAL t.ASTE!-!N 12764 VA~IA8LE FOR Y -- SfANOARD AlilJ o~ Ll NEAR Rt: GRt s~ I ON Y : A + HX SS oi: ns F RATIO lll.2U5 7li~99 .l:!B REG* 111.'20? 1
.001 1
- OU l RtS TOtAL CUR lll.'L07 2 R SUUARtO = l.OOUO YHAT = (-. l~U2?;68l!JS6 ) + ( .993170121.)~?4 )X
\ Y EVALUATED AT X YHAT Yl I l f.IESI l)
X.l I l
- 3. 41JIJ 3.216?r 3. '21JOOIJ .016?7 1
10.3UO 10.06~4 1U.10UUU . 03060 2 18.1141 18.101100 .01408 3 HL4UIJ StANDARO: EG&G I :;/6 CALtB~AI ION DAfE: 21111~1 LAL IHRA 11 ON t tUE [JA l E:!':) *u,11192 TE~lr:u Br:$i.r;Z.~
#3 MA~HJl-ACTURHI:
PS£1!.G Resarch and Test1no Lab DEIJ PO l NT HYGkOMET ER CALI li~AT 11jN Gf:Nf'.RAL Ef-lSrERN S~RIAL
? Jiln 19n NO. li766 '.!HR IHHLE Fl.JR x -- bENEf.'.AL b6TE~N 12/66 VHk' I At1LE FOR Y -- SrANOAtiD AL1U OF LINEAR REGR~SSlUN Y = A + i'lX SOURCE SS MS F RATIO t<FG 131.210 Ul. 210 8U1J. l3 Rb .016 1 .016 TUIAL CUR ui.n7 2 R 5UlJAk'£0 = . 9999 YHAT = (-.U8844U44?1)07 l + ( 1.02)~941~899 IX
- 2 X( I l
- 2. 2011 12.)UO Y EVALUATEO AT X YHAT 2.1637 12.')1130 YI I l RES! I l 2.201JOO 12.4UUIJ0
.03631 . 103 00 3 ll.8UU 18.13}3 18. 20UOO . 06668' STANOAr<U: E1;;;G I 776
.CALIE:k'ArtON OAfE: 2111191 LALl.1RATION~~ [1AT~ 2111192 lESfE11 8i':4-"~:J~
1'1ANIJr ArTURFR: GENERAL EH:i rt-RN
~esarch DfUJ POINT PSC.1'.G and lest1na Lab H~bROMHER LALJf:ilo(ATIUN St!'< l AL Nll. l'? ?6B lJi1Rli4HLE ~1:~ X -- 1iENr~AL ~i4STH<N l2/il8 VHI<' I R-<1 _~- FLJR Y -- SfAMDAk'i)
AlJU OF LI NtAt.' I(~ 1;Rr SS I [IN Y= A + t1X Dr MS F RATIO t"t:G l36.140 136.140 RFS 0. OOIJ U.000 TUI AL C11R 136. 140 R SOUA"'EO = 1.0000 YHAT = l .2 l + t. 1 JX Y EVALUATED AT X
- 2 3
XI I l 1.900
- 10. UIJO 18.4UO YHAT 2.1000 10.2UOO 18.60UO Y(f) RES( I l 2.10000 10.200UO 18.60000 0.00000 u.ouuuo o.oouoo 51AN0Ht.'0: EG~G I 1?6 CAL!Bk'AT ION DAIE: 2111191 lA~l~RATION UUf D~iF;o ?111192 fE':ifEO BY:;?%£tI/E...a~
Mf.tNI IF i4L. flJflr..R: GENE!i'AL EASTERN PSl'.1'.G Resarch and Test1no Lab OElJ PO l NT HYGROnrn:R CALI HkAT IUN 15 Feb 199'2 SERIAL NO. 1~770 EL p;i.2 7 VAR!H~LE Fiii< X -- l~ENEl-'AL bASTFt<N 1277U VAt<IAHLE FUR Y -- ':ifANUARO AOV (I~ LI NEAR ~t:GR~_ss j 1j~1 Y = A t HX SOURCE SS MS F RAf!O i<f.G 87. 218 1 87.210 1U'i20.17 RES .008 1 .008 HHAL LUR 87.::27 '2 R SQUARED s .9999 YHAT = (-.39504191~72 J t ( l.U228095U763 IX
- 1
'2 )
X( I J
- 2. 7UU 9.6?0 15.6UO Y EVALUATED AT YHAT 2.3657 9.4743 17.5600 X
Y( I l RESl I l 2.40000 9.40UUO 15.61JUOO
.U342o .074~7 .04001
':i l ANOHt<O: GENt.RAL EA U1L I8r1Af ION D~HE: 2I 419'2 CALJfil-iHflON ir2I. ~~ ~93 HSTEU BY:~~~
31.1 Jan 19'.l'l PSEll.G Resarch and Te.st1no Lab DEIJ POlNT HYGROME1ER CALIH~ATlllN SERIAL NU. 7Hl vARIAHLE ~UR X -- Ebt".G )81 UAI<' IAt-<U:: FIJI( Y -- 5Tf1N0ARO AOU O~ LINtAR Rf-GRl:.S':i!UN Y = A + HX SllUi<-CE SS OF F RAT IO f.'tG 177. 679 1 177.679 139304.'i'S Rh .001 1
- OUl H.11 AL CUR 177.61:l0 2 R SQUARED = 1. OOJJO YHAT = (
- IJ21J':i091240184 J + I 1. UIJ'J,)891J'il2 1X
- 1 2
X< I l
-1. 4(11) 9.lUO i EUALUAtED Ar X YHAT -1.3872 9 .17U9 YU J ~ESI l) -1.40000 9.20UIJU . 01275
- 02'.1119 3 [7.300 17.4163 17.4UU00 .01633 STANDAtiU: El~l'.G I i76 CAl 18k'AllON DHTE: 2111191 I ALIHRA1 ION~M~~/11192 Th ff u f'Jf :4/!)?~f'J..JC'/
MANI 1~ AUUhi~.R: EG&G DEIJ Re~arch PSt&G and Te5t1no Lan POINT HYGfi!OMETER 1~ALIH~ATl1JN 3U Jan 19~2 SERIAL NO. 732 El 7). or
\IAR!AHLE ~UR X -- Eb&G 7}2 VAl-<lABLE FOi-< Y -- STANDARD AD 1J Qt-" Ll NEAR RFGRt SS l ON Y = A + 8X SS Dr M'i F RATIO r<EG 165.1:>45 l6r;.o45 ll1JL99.H t<E.':i .OU2 .002 T1JIAL CUR 16r;,047 2 R SOUA~ED = 1.0000 YHAT = l-.17604)35/U~l J t ( l.0167894Jqr;5 JX
- 2 l
xrn
- . r;o1J 8.6uo Y EUALUA i"ED A.T X YHAT -.6844 8,')iJ83 Yl l l t<ESl I J -.70UOO B.6UUUO .01556 .03165 3 17.4UU 17.5161 17.r;ouuo .01609 SIAND;.;r<O: EGl'.G I 776 CHLIB~AflON OHfE: 2111191 l_AlfHt<AT IONJ!_ ~-.#. ~1192 TfS~O B~-~
7 Jan l '19'2 PSE~G
~e5arch and Test1no Lao DEW PO l NT HYGROMETER CALI Ht<AT I UN ~IHNUF hCTURER: EGl!.G SERIAL ND. 815 VARI fiHLE FU~ X -- Eh&G l:ll 5 VAi" I AHLE rCtR Y -- SrANOARlJ ACIU OF LI NEAR Rf bRb.SS l ON Y = A + i'lX SS OF M':i F RATIO t<EG 188.lHU 188.180 3136. ~3 RtS .U60 1
- OoO TUIAL CUR i l:l8. ~4ll 2 R SOUAl\'i:D = .9997 YHAT = (-.309j75 J + ( 1.01U4l666667 JX Y EVALUATED AT X
- 1 2
X!l)
.9UO 10.?UO 2U.1UO YHAT .61JUU 10.30UO
- 20. 0000 YI I J 10.?00UO l~.90000 RESt I l
. 500Ull .lOOOll .20UU0 .10000 SfRN(l1-;l(O: EG&G I 776 CALl8~ATIUN OAfE: 2111191 t.:ALIHRA.l ION ~-:;))192 Th fEU BY:L~ .
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*- Research & Testing Laboratory II 200 Boyden Avenue Maplewood, NJ 07040 / 201 761-1981 II ARTIFICIAL ISLAND LABORA'l'OR Y FAC ILI'l'Y GAGE CALIBRATION .SHEEI' PROCEDURE M'.Be If 6 t:eFB fY1 EC}-! I~ Afv 2 CALIBRATED AT S:i.k~ Un,*t I AS FOUND - AS LEFT X CALIBRATED ITEM Rc?~e MC>Qr,+t\~\u{e.. LAB NO 7:/.04 ACCURACY - CALIBRATION DATE ?J/1L.1/0i.2 ~I bov-c.md-er o. t ro. (i b ro:f )'c."' -: /l-{.6\'6 STANDARD <<<---------- G.i\GE READING --------->>)
PRESSURE fJC.:>1A UP . DOWN . AVERAGE CORRECTION W. D()() _Llj.:~l~--- ------------- ~.boD 4.oco
- 2. !:Lh.l_~ __ ___i~~-~_3 ___ - - _]_;_ ~-~_l __ - - - - -----r--------
7,260
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*I <1 DATE OF LAST CALIBRATOIN l I
- COMMENTS:
CALIBRATED REVIEWED BY B~
~
Sta'V'da...-.9 Lo-h ND q BADGE ~B-:- b~b BADGE 02 -t;<1-z.... S"/3
------ DATE DATE 3/,~[<~. 1-J//4/~z.
~~-------~~~::::::======7(nR~U~S~K~~~~===-------------
SUJ\1MARY \. One CEC, model 6-201 deadweight gage was calibrated for: Public Seivice Electric & Gas Research Testing .Laboratory 200 Boyden Avenue Maplewood, NJ 07040 Purchase Order No.: 368364 Sales Order No.: C701253 The deadweight gage piston calibration includes a determination of the effective cross-sec(ional area and a decemtinacion of the mass of the tare componencs. The results of the piston calibration are listed in TABLE I. The deac..Jweighc gage mass calibration consists of a decermin:uion of each individual mass in the set and the results are listed in TABLE 11. Definitionc; of che terms used in chis report are listed in TABLE HI.
- Rus~~-~~rument Co~ration 1 6
";,,;~-- ~**S_
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1(' _t_. Donal'c.J n: Francis _Manager - Service Center Date: October 29, 1990
------------....-ojQ<usKAJ1.-------------
TABLE I
- STATEMENT OF ACCURACY DEADWEIGHT GAGE PISTON Serial Number: 3630 Date: October 29, 1990 Base Model: 6-201 Submitted By: Public Service Electric & Gas Purchase Order: 368364 Manufacturer: CEC Sales Order: C701253 P /C Model: 6-201-0002 P/C Serial Number: P2-109/C2-171 The deadweight gage piston calibration was performed through crossfloat comparison with Ruska In.'itrument Corporation deadweight gage piston serial number C-77B. The reported values for the piston constant'i are traceable to the National Institute of Standards and Technology through test number PG28. . . .
A measure of the total uncertainty in the effective area can be obtained by adding the random uncenaimy of the calibration process t_o the systematic unccnainty of the standard. An estimate of the systematic uncertainty of the Ruska Instrument Corporation crossfloat standard, based on an error analysis of the crossfloat process, is 74 parts per million. 111e random uncertainty of the calibration process can be expressed as the doubled standard deviation of the predicted values of area for the 6 independent observations and is 29 pans per milHon. Thus, the total uncertainty (two sigma) in the effective area is 103 parts per million.
- The mass calibr~tion of the tare componcntc; was performed through comparison with Ru.ska In.'itrument Corporation mass stamJards. The reponed values of mass for the tare components are estimated to be correct within 1.0E-06 kilogram and are traceable to the National Institute of Standards and Technology through test number 731/LA84.
All measurements were conducted in a controlled environment with instrumentation adequate for assurance that the rcponed values arc reliable. The calibration process satisfies the requirements of the latest revision of MIL-STD-45662. .
-------------------------------;~us:<~~----------------------~
TABLE II STATEMENT OF ACCURACY DEADWEIGHT GAGE :MASSES Mnss Set Model: 6-201 Serial Number: 3630 Date: October 28, 1990 Submitted By: Public Service Electric & Gas Purchase Order: 368364 Manufacturer: Ruska Instrument Corp. Sales Order: C701253 The deadweight gage mnss calibration was perfonned through direct comparison of each individual mass with Ruska Instrument Corporation mass standards. The total uncertainty in the reported values of mass is 10 parts per million, or 1.0E-06 kilogram, whichever is greater. The reported values of mass a.re traceable to the National Institute of Standards and Technology through test number 731/LA.84. All measurements were conducted in a controlled environment with instrumentation adequate for assurance that the reponed values are reliable. The calibration process satisfies the requirements of the latest revision of MIL-STD-45662.
-------------.CB us l<&ii-~- - - - - - - - - - -
- TAilLE III DEFINITION OF TERMS The effective cross-sectional area of a piston/cylinder assembly at pressure and temperature is found from the following equation:
Ac = Aux [I+ (b 1 xp) + (b 2 xp2) + {cx(t-23)}J where Ac = effective cross-sectional area at p and t I\ = cross-sectional area at zero pressure and 23 °C bl = coe~ficicnt of elastic distortion due to pressure b*2 = coefficient of elastic distortion due to pressure p = nominal deadweight gage pressure c = coefficient of superficial expansion due to temperature
= dcadweight gage temperature (°C)
- The following parameters arc used in the fluid head calculations:
I; = effective height of the deadweight gage piston assembly D = reference depth of the locati.ng seat in the hanger weight For information on the proper application of theses variables please refer to the appropriate sections m the operating manual. When estimating the total uncertainty in the 12ressure generated with a piston pressure ~age, the estimate should include the uncertainties associated wich the effective piston area, masses, local gravity, air density (and/or reference pressure for absolute reference), t1uic.1 head corrections, and any other significant disturbances not listed here .
~--------------~!RUSKA~~----------------
SUMMARY
This report is issued for calibrations performed using standards that are certified and maintained according to accepted procedures. The attached tables incorporate the results of the calibrations and other pertinent information such as model number, serial number, date of calibration and purchase order number. Correspondence regarding the equipment listed in the report should include this information. PSE&G Companv Research & Testing tab 200 Boyden Avenue Maplewood. NJ 07040 Purchase Order No.: Pl-393224 Sales Order No.: C010855 The deadweight gage piston calibration includes a determination of the* effective cross-sectional area and a determination of the mass of the tare
- components. The results of the piston calibration are listed in TABLE I. The deadweight gage mass calibration consists of a determination of each individual mass in the set and the results are listed in TABLE II. Definitions of the terms used in this report are listed in TABLE III.
Ruska Instrument Corporation enneth A Kolb Calibr *on Laboratory Manager Date: July 30, 1991
--------------4(jfUSK~J~-------------
- TABLE I STATE:MENT OF ACCURACY DEADWEIGHT GAGE PISTON Base Model: 2465-754 Serial Number: 43666 Date: July 30, 1991 Submitted By: PSE&G Company Purchase Order: Pl-393224 Manufacturer: Ruska Instrument Corp. Sales Order: C010855 P/C Model: 2465-727 P/C Serial Number: C-273 The deadwei~t gage piston calibration was performed through crossfloat comparison with Ruska Instrument Corporation deadweight gage piston serial number C-1 lOB. The reponed values for the piston constants are traceable to the National Institute of Standards and Technology piston assembly PG-23.
A measure of the total uncertainty *in the effective area can be obtained by adding the random uncenainty of the calibration process to the systematic uncenainty of the standard. The systematic uncenainty of the Ruska Instrument Corporation crossfloat standard is estimated to be 20 pans per million. The random uncertainty of the calibration process can be expressed as the doubled two sigma process control limit or two times the standard deviation of the predicted values of area for the 7 independent observations, whichever is greater, and is 6 pans per million. Thus, the total uncenainty (two sigma) in the effective area is 26 parts per million. The mass calibration of the tare components was performed through comparison with Ruska Instrument Corporation mass standards. The reponed values of mass for the tare components are estimated to be correct within 1.0E-06 kilogram and are traceable to the National Institute of Standards and Technology through test number 731/LA84. All measurements were conducted in a controlled environment with instrumentation adequate for assurance that the reported values are reliable. The calibration process satisfies the requirements of the latest revision of " MIL-STD-45662*
---------------~OfUSKAJ~------------------
- TABLE II STATEMENT OF ACCURACY DEADWEIGHT GAGE MASSES Mass Set Model: 2465-799 Serial Number: 43643 . Date: July 30, 1991 Submitted By: PSE&G Company Purchase Order: Pl-393224 Manufacturer: Ruska Instrument Corp. Sales Order: C010855 The deadweight gage mass calibration was performed through direct comparison o( each individual mass with Ruska Instrument Corporation mass standards. The total uncertainty in the reported values of mass lS 10 parts per million, or 1.0E-06 kilogram, whichever is greater. The reported values of mass are traceable to the National Institute of Standards and Technology through test number 731/I..A84.
All
- measurements were conducted in a controlled environment with instrumentation adequate for assurance that the reported values are reliable.
The calibration process satisfies the requirements of the latest revision of MIL-STD-45662.
.\METEK MANSflHU & GRHN OIVISION .8600 SOMERSET DRIVE, LARGO, FLORIDA 34643 TELEPHONE: (813) 536*7831 CERTIFICATION OF ACCURACY FROM M & G STANDARDS LABORATORY M & G Model HK-1000 Purchase Order f\!o. oo8 7 31 Serial No. 822l 7 M/F: P.O. #Pl-385907 Certification Date: Recommended Recertification Date:
4/9/91 4/9/92 ACCURACY: THE INSTRUMENT IS CERTIFIED TO BE ACCURATE WITHIN A MAXIMUM ERROR OF .025% OR */- .025 PSI OF INDICATED READING, I WHICHEVER rs GREATER. II. CERTIFICATION PROCEDURE I This Certification was made by direct comparison with Ametek/Mansfield & Green Division Laboratory master standards, which are periodically referred to one or more of the primary standards traceable to NIST or other national physical measures recognized as equivalent by NIST. This calibranon procedure meets the requirements of MIL-STD-45662, ANSI/ ASME N45.2, and 1 OCFA50 Appendix B. The above standards are traceable to the National Institute of Standards and Technology on Report Numbers: BALL AND ~OZZLE REFERENCED @ 23 D~G. C NIST AREA REPORT NUMBER * * *
- P-8037(5/l9/86JP-Bl09(6/5/87J P-8085C2/l9/B7J
~ASS J 35~ ~ELATIVE HUKIDITY NIST MASS REPORT :*s 737*/0670-MET48 ( 3/88 J, 737/0670-MET49tl0/24/89J PRESSURE READINGS ARE REFERENCED TD A GRAVITY OF 980 .1140 GALS.
I I CERTIFIED CORRECT f FOAM 71*7 RF.V. 9 MAY 1989 by 2'.££/
.\Mi!il!K MANSFIELU & GREEN UIVISION ouAt1rv ff~/
ASSURANCE MANAGER
--. - *-~
IDENTIFICATION NO. f>: M*PL-Q() t 3
- SPECIFICATION SHEET M&TE/STANDARD DS-SS-001 MODEL NO: SERIAL NO: 2- 6...2..0A 0 I 7 6 NOMENCLATURE:
MANUFACTURER: (MO Is): ()Q CLASS: j:Et MEASUREMENT & TEST EQUIPMENT (M&TE) 0 STANDARD SPECIFICATION SOURCE: 0 M&TE CALIBRATION LAB ~MANUFACTURER PROCEDURE (S) : M9-CCP-DATA SHEET(S): OS-CC- '§O'f.3 OS-CC-
- FUNCTION(S):
ACCURACY: :!:° CJ. (!) ~ 0 oc_ +o /5D 0 c__
+/- (). 07 5~c..
REMARKS: L i=J PLEASE SEE ADDITIONAL SPECIFICATION SHEET(S) ATTACHED. DATE: 9. . /3,.. gz DATE: tf-f 3- t:l
M9-CCP-504J REV. 02 **:. ATTACHMENT 2 PACE l OF 2, H&TE CALIBRATION CENTER DATA. SHEET OS-CC-504J IDENTIFICATION NO . P /Tl PL-0013 A-MANUFACTUP~ MODEL SERIAL NO .26 2..0A 0176 'f H~w letf- ctck.orrJ 2J'OLJ/l- Probe_ 212..01-n~O/ AS FOUND RESULTS DATE DUE CALIBRATION
~ CJ CJ SAT UN SAT ER #
SEE REMARKS
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()r TOLERANCE TESTED PARAMETERS AS FOUND MIN MAX AS LEFT Yce{Po1~T ~2.voo 3). q ~g 3/,q2~ 32.072_ '=52..000 R~~°'- e_ bh _q52'-/ bb ,gqq 66.JJO {; l ov./ 66.9 5to
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M9-CCP-S04J REV. 02 ...: ATTACHMENT 2 PAGE ~OF 3> v- - H&TE CALIBRATION CENTER DAT.A SHEET DS-CC-5043 3 ..B IDENTIFICATION NO. P:_s. f'1fl-QOl MANUFAC~R MODEL SERIAL NO i!-6 2..0A 0 I 76 'f J./ e L0 / f'# c. a fL rd '2.ZO '114- /Y'oDP 21 '2-0k *f'1 Sh~ n AS FOUND RESULTS DATE DUE CALIBRATION C8r CJ CJ SAT tJNSAT ER # SEE REM.AR.KS
//-2 7-9 L 6.0 INITIAL CONDITIONS COMPLETED BY: A/IX =======================================~=========================~-==
7.1 CALIBRATION FUNCTION StiPA~ &4P1.vc..
"F TOLERANCE TESTED AR.AMETERS AS FOUND MIN MAX AS I.EFT *p:-cttrvT. )2-.000 '32.003 3/.928 "32.072-.
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- IDDITIFIC::.T:ION NO. BtfPL -0()/ .3 Ac:J_JS
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Trac:eabi.lity to the Nationa.l Bureau 0£ Stalldards is t.hrduq.b. the tol1owinq s~andards, which were used tc per~orm the ca1.il:lration. ID DUE ID DUE ID DUE NUMBER CAl.. NUMBER CAL NUMBER C.AL 1-/6 AS LEFT RESULTS D LEFT AS FOUND D AFTER REPAIR REMARXS:~CF-~~~t~2----~..;...J..:...~~;__~Cg=!J..J./~'b~*~v~ri~~~~~?~L~~-r_'ri..:.-.:::.O__:l3~6~.~~-~-~---== c
- TO be_ rJ()J 3 B 01 ENTERED ON TJSE LOG:
- CALIBRAT:ION PERFORMED CALIBRATION APPROVED BY:
-J-1-,~~---i-~~~DATE //-? 7-9'/ '-::;~~~~~---DATE//-2-2-9/.
GENERAL EASTERN)
- CERTIFICATE OF CONFORMANCE CALIBRATION PERFORMED IN ACCORDANCE WITH MIL-STD 45662A The Humidity Experts GENERAL EASTERN INSTRUMENTS MEASUREMENT STANDARD DEW POINT AIR TEMPERATURE MODEL: M-3 S/N: 34198 MODEL: A1011-XX-XX-RT41-RT41 S/N: T1189-9142 SENSOR: 1311DRX S/N: 5494-10 PROBE: A 12001 SIN: 308458 CURRENT NIST l.D. II: H-4739 CURRENT INSTRUMENT NIST TEST I: 241233 CURRENT NIST TEST II: 248330 CURRENT PROBE NIST TEST II: 209527/222173 CALIBRATION DATE: 6-10-1991 CALIBRATION DATE: 10-9-1991 DVM MODEL: Data Precision I S/N: 2021 I DATE CALIBRATED: 11-19-1991 CURRENT NIST TEST NUMBER:2431 90 GENERAL EASTERN INSTRUMENT CALIBRATION PROCEDURE: A4QQ7§~Q~
REPORT OF CALIBRATION/SYSTEM UNDER TEST MODEL: 1 20Q APS S/N: 12772 MODEL:_1'-'1_,,1..:..1.:....H_ _ _ _ _ _ _ _ __ S/N: 314Q192 MODEL: _ _ _ _ _ _ _ _ _ _ __ SIN: _ _ _ _ _ _ _ _ _ __ NIST HAS A MAXIMUM UNCERTAINTY OF +/- 0.04 DEGREES CELSIUS FROM 25 TO -35 DEGREES CELSIUS AND
+/- 0.1 DEGREES CELSIUS FOR FROST POINTS FROM -35 TO -70 DEGREES CELSIUS. GEl'S TRANSFER STANDARD AND MANUFACTURING STANDARD ARE COMPENSATED TO THIS UNCERTAINTY BAND.
GEi SECONDARY STD CUSTOMER DIFFERENCE SPECIFICATION SIN 3616 DEW POINT /RH OF UNIT 1.) -10.1°C -9.9°C -0.2°C +/- 0.2 °C 2.) -5.6°C -5.5°C -0. 1°C +/- 0.2 °C 3.) 0.4°C 0.6°C -o.2°c +/- 0.2 °C 4.) io.s 0 c 11.0°c -o.2°c +/- 0.2 °C 5.) 23.0°C 22.9°C 0.1°C +/- 0.2 °C GEi AIR TEMP. STD CUSTOMER DIFFERENCE SPECIFICATION SIN 18308 AIR TEMP. OF UNIT 1.) oe oc oc +/- 0.2 °C 2.) oc oc oc +/- 0.2 °C .COMMENDED CAL/BRA TJON INTERVAL: 1 year TESTED BY: S. ~~ RM# A401030468.01 DATE: February 4, 1992 APPROVED BY:~<£'-- ../ GENERAL EASTERN INSTRUMENTS 20 COMMERCE WAY, WOBURN, MA 01801 Tel. (617) 938-7070 FAX: (617) 938-1071}}