Letter Sequence Other |
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Results
Other: 05000366/LER-1984-001, :on 840203,personnel Detected Fracture in 66- Inch Vent Header in Bay 5.Caused by Brittle Facture of Vent Header Matl.Vent Header Will Be Repaired & Addl Changes or Sys Mod Will Be Made to Improve Sys, BECO-84-150, Responds to IE Bulletin 84-01, Cracks in BWR Mark I Containment Vent Headers. Util Endorses GE Svc Info Ltr 402 Recommendations.Equipment Damage Has Not Occurred & Inerting Sys Operation Suitable, FVY-84-110, Forwards Response to NRC Request Re Actions Taken in Response to GE Significant Info Ltr 420 Concerning Hatch-2 Vent Header Crack, GO2-84-512, Discuss GE Recommendations Re Hatch Unit 2 Event Concerning Large Crack in Torus Vent Header Due to Brittle Fracture,Per GE 840214 Info Ltr 402.Only Recommendations 1 & 2 Apply,As Sys Not Yet Used to Inert Containment, ML18029A151, ML20080R767, ML20083L655, ML20083R739, ML20084L425, ML20084L444, ML20084R170, ML20091B787, ML20097E003, ML20097H269, ML20098A026, ML20098F071, ML20098F159, ML20098G674, ML20098G682, ML20198P818, NLS8400242, Submits List of Actions Taken on Recommendations from GE 840214 Svc Info Ltr 402, Wetwell/Drywell Inerting. Evaluation of Inerting Sys Design Determined That Failure of Cold Temp Shutdown Switch Cause of Problem, SNRC-1082, Submits Status of Evaluation Re IE Info Notice 84-17, Problems W/Liquid Nitrogen Cooling Components Below Nil Ductility Temp & GE Svc Info Ltr SIL-402, Wetwell/Drywell Inerting
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MONTHYEARML20080R7671984-02-10010 February 1984
Responds to IE Bulletin 84-01 Re Insp for Cracks in Mark I Containment Torus Vent Header.No Apparent Cracking or Relevant Indications Found on Unit 1.No Addl Cracking Found Beyond Original Cracking on Unit 2
Project stage: Other
ML20080N5661984-02-10010 February 1984
Forwards Drywell Coating Evaluation, Technical Data Rept, Per SEP Topic VI-1, Organic Matls & Post-Accident Chemistry
Project stage: Request
ML20198P8181984-02-14014 February 1984
Svc Instruction Ltr 402, Wetwell/Drywell Inerting. Related Info Encl
Project stage: Other
05000366/LER-1984-001, :on 840203,personnel Detected Fracture in 66- Inch Vent Header in Bay 5.Caused by Brittle Facture of Vent Header Matl.Vent Header Will Be Repaired & Addl Changes or Sys Mod Will Be Made to Improve Sys1984-03-0404 March 1984
- on 840203,personnel Detected Fracture in 66- Inch Vent Header in Bay 5.Caused by Brittle Facture of Vent Header Matl.Vent Header Will Be Repaired & Addl Changes or Sys Mod Will Be Made to Improve Sys
Project stage: Other
ML20087H1481984-03-13013 March 1984
Forwards GE Repts on Metallographic Exam of Metal Samples Taken from Cracked Vent Header,Per NRC 840206 Meeting W/ Util,Bwr Regulatory Response Group & Ge.Vent Header Cracking Brittle Fracture Caused by Injection of Cold Nitrogen
Project stage: Meeting
ML20083L6551984-03-30030 March 1984
Submits Info on IE Bulletin 84-01, Entitled Cracks in BWR Mark I Containment Vent Headers. Primary Containment Drywell to Torus Bypass Tests Performed.Status of GE SIL 402 Recommended Actions Listed
Project stage: Other
ML20084L4441984-03-31031 March 1984
Analysis of Vent Header Cracking at Hatch 2
Project stage: Other
ML20084R1701984-04-0505 April 1984
Comments on Status of Recommendations of GE Svc Info Ltr 402 Re Wetwell/Drywell Inerting.Evaluation of Nitrogen Inerting Sys Design Performed & Redundant Low Temp Shutoff Valve Added
Project stage: Other
ML20083R7391984-04-18018 April 1984
Forwards Response to GE SIL 402 Generated Due to Large Crack in Torus Vent Header at Another Operating Plant Attributed to Brittle Fracture Identified During Insp of Cold Nitrogen Into Torus During Inerting
Project stage: Other
ML20084L4251984-05-0707 May 1984
Forwards Analysis of Vent Header Cracking at Hatch 2. Analysis Shows That Observed Cracking Can Be Explained by Injection of Cold Nitrogen Into Containment & Any Cracking Expected to Be through-wall,detectable by Visual Insp
Project stage: Other
ML20091B7871984-05-23023 May 1984
Provides Status of GE Svc Info Ltr 402 Re Vent Header Cracking Incident.Recommended Ultrasonic Testing Not Planned Due to Lack of Baseline Test Data.Cracking from Injection of Cold Nitrogen Detectable by Surface Exam
Project stage: Other
NLS8400242, Submits List of Actions Taken on Recommendations from GE 840214 Svc Info Ltr 402, Wetwell/Drywell Inerting. Evaluation of Inerting Sys Design Determined That Failure of Cold Temp Shutdown Switch Cause of Problem1984-09-12012 September 1984
Submits List of Actions Taken on Recommendations from GE 840214 Svc Info Ltr 402, Wetwell/Drywell Inerting. Evaluation of Inerting Sys Design Determined That Failure of Cold Temp Shutdown Switch Cause of Problem
Project stage: Other
FVY-84-110, Forwards Response to NRC Request Re Actions Taken in Response to GE Significant Info Ltr 420 Concerning Hatch-2 Vent Header Crack1984-09-14014 September 1984
Forwards Response to NRC Request Re Actions Taken in Response to GE Significant Info Ltr 420 Concerning Hatch-2 Vent Header Crack
Project stage: Other
ML20097E0031984-09-14014 September 1984
Forwards Response to IE Bulletin 84-01 Re Potential for Cracking in BWR Vent Headers Using Nitrogen Inerting Sys. Nitrogen Inerting Sys Not Used at Facility.Recommendations Identified in GE Svc Info Ltr 402 Addressed
Project stage: Other
GO2-84-512, Discuss GE Recommendations Re Hatch Unit 2 Event Concerning Large Crack in Torus Vent Header Due to Brittle Fracture,Per GE 840214 Info Ltr 402.Only Recommendations 1 & 2 Apply,As Sys Not Yet Used to Inert Containment1984-09-14014 September 1984
Discuss GE Recommendations Re Hatch Unit 2 Event Concerning Large Crack in Torus Vent Header Due to Brittle Fracture,Per GE 840214 Info Ltr 402.Only Recommendations 1 & 2 Apply,As Sys Not Yet Used to Inert Containment
Project stage: Other
BECO-84-150, Responds to IE Bulletin 84-01, Cracks in BWR Mark I Containment Vent Headers. Util Endorses GE Svc Info Ltr 402 Recommendations.Equipment Damage Has Not Occurred & Inerting Sys Operation Suitable1984-09-14014 September 1984
Responds to IE Bulletin 84-01, Cracks in BWR Mark I Containment Vent Headers. Util Endorses GE Svc Info Ltr 402 Recommendations.Equipment Damage Has Not Occurred & Inerting Sys Operation Suitable
Project stage: Other
ML20098G5571984-09-14014 September 1984
Submits Supplemental Info in Response to IE Bulletin 84-01, Cracks in BWR Mark I Containment Vent Headers. Program Initiated to Address Concerns of GE SIL 402 & Implementation Schedule
Project stage: Supplement
ML20098A0261984-09-17017 September 1984
Forwards Responses to Recommendations Contained in IE Bulletin 84-01, Cracks in BWR Mark I Containment Vent Headers & GE Svc Info Ltr 402, Wetwell/Drywell Inerting. No Anomalies Indicated in Drywell/Wetwell Pressures
Project stage: Other
ML20097H2691984-09-17017 September 1984
Forwards Response to GE Significant Info Ltr 402 & IE Info Notice 84-17 Re Nitrogen Inerting Sys
Project stage: Other
SNRC-1082, Submits Status of Evaluation Re IE Info Notice 84-17, Problems W/Liquid Nitrogen Cooling Components Below Nil Ductility Temp & GE Svc Info Ltr SIL-402, Wetwell/Drywell Inerting1984-09-18018 September 1984
Submits Status of Evaluation Re IE Info Notice 84-17, Problems W/Liquid Nitrogen Cooling Components Below Nil Ductility Temp & GE Svc Info Ltr SIL-402, Wetwell/Drywell Inerting
Project stage: Other
ML20098F1591984-09-26026 September 1984
Submits Mods Identified for Completion Prior to Liquid Nitrogen Inerting of Containment.Low Temp Switch Will Be Replaced & Relocated to Improve Response Time & Eliminate Adverse Impact of Cold Outdoor Ambient Temps
Project stage: Other
ML20098F0711984-09-27027 September 1984
Responds to GE Svc Info Ltr 402 Re Wetwell/Drywell Temp. Design & Operation of Nitrogen Sys Provides Adequate Assurance That Impingement of Liquid or Extremely Cold Nitrogen Against Vital Plant Components Will Not Occur
Project stage: Other
ML20098G6821984-10-0101 October 1984
Responds to Verbal Questions Concerning Recommendations of GE Svc Info Ltr 402 Re IE Bulletin 84-01, Cracks in BWR Mark I Containment Vent Headers. Steps Taken to Evaluate & Implement Containment Inerting Recommendations
Project stage: Other
ML20098G6741984-10-0101 October 1984
Responds to IE Bulletin 84-01, Cracks in BWR Mark I Containment Vent Headers. No Evidence of Outside or Inside Vent Header & Nitrogen Penetration Cracking Found.Addl Insps & Evaluations Will Be Performed
Project stage: Other
ML18029A1511984-10-0505 October 1984
Forwards Responses to GE Svc Info Ltr 402 Re Wetwell/Drywell Inerting.Operating Instructions for Containment Inerting Sys & Primary Containment Sys Revised
Project stage: Other
ML20138A2251985-11-29029 November 1985
Summarizes 851108 Mgt Meeting at Region II Ofc Re Util Response to Recommendations of Svc Info Ltr 402 in Handling Unit 1 Nitrogen Inerting & Purge Line Crack Discovered on 841215.Summary of Topics & List of Attendees Encl
Project stage: Meeting
1984-04-05
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Text
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- f'~'() Commonwealth Edison
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Oni First Nationit Pina. Chictgo, lilinois i
3 ' Address Reply to: Post Office Box 767
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Chicago, Illinois 60690 September 17, 1984 Mr. Harold R. Denton,' Director Office of Nuclear Reactor Regulation U.S. Nuclear Regulatory Commission Washington, DC 20555
~
Sub ject:
LaSalle Count ~y Station Units 1 and 2 Response.to General Electric SIL No. 402 Docket Nos. 50-373 and 50-374
Reference:
SIL No. 402, dated February 14, 1984 I.E.
Information-Notice 84-17
Dear Mr.-Denton:
The attac'he'd'information is submitted in response to a telephone conversation with Dr. A. Bournia of.your staff.
It constitutes Common-wealth Ediscn's plans with regard-to SIL No. 402 and I.E. Information Notice 84-17.
One signed original and 15 copies of this letter and attachments are provided for your use.
Please direct any questions you may have concerning this matter to this office.
Very truly yours, N.,
s hJA %4 M J. G. Marshall Nuclear Licensing Administrator 1m cc:
Dr. A. Bournia.- NRR Region'III~ Inspector - LSCS 9163N 84j9200 Oh o
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$e COMMONWEALTH EDISON COMPANY LASALLE COUNTY STATION UNITS 1 and 2 ATTACHMENT 1.
Evaluate Inerting System Design Evaluate the design of the nitrogen inerting system.
Investigate the 0
potential for introducing cold (less than 40 F) nitrogen and the orientation of the nitrogen cort relative to the vent header, down-comers, or other equipment in the wetwell and drywell which may be in the path of the injected nitrogen.
Assure that temperature monitoring devices, the low temperature shutoff valve, and overall system design are adequate to prevent the injection of cold nitrogen into the containment.
RESPONSE 1 A modification proposal is under investigation to install a nitrogen inerting " Low Temperature" alarm in the main control room.
This would alert operating personnel of a potential line freeze and preclude the possibility of admitting " Cold" nitrogen into the containment.
The orientation of the nitrogen inlet ports relative to other equipment has been investigated.
It was shown that the introductioh of liquid nitrogen to the containment would not impinge on any equipment.
2..
Evaluate Inerting System Operation Review the operating experience of the inerting system to assure that the vaporizer, the low temperature shutoff valve and the temperature indicators have functioned properly.
Evaluate the plant eclibration, maintenance and operating procedures for the inerting system.
Assure that cold nitrogen injection would be detected and prevented.
RESPONSE 2 To date, the inerting system has been closely monitored by station personnel whenever it has been in use.
All system components, including the temperature control shutoff valves operate satisfac-torily.
A procedure change proposal is being made to include a periodic check for frost on the inerting lines during initial inerting for unit startup.
.~
i 3.
Test for Drywell/Wetwell Bypass Leakage Perform a bypass leakage test as soon as convenient to confirm the integrity of the vent system.
This test should be conducted during plant operation following normal plant procedures.
If no procedures exist, the following is a general guide for preparing your procedure; pressurize the drywell to approximately 0.75 psi above the wetwell pressure, maintain this drywell pressure and measure the pressure buildup in the wetwell.
Any bypass leak area can then be calculated (and is limited by Technical Specifications on many plants) from the wetwell pressure and the drywell/wetwell pressure difference.
This will provide an indication that the vent system integrity is intact and that no gross failure exists.
RESPONSE 3 LSCS is not a BWR-4 and does not intend to perform a bypass leakage test at the next planned outage.
An integrated leak test (ILRT) will be performed at the first refuel outage.
4.
Inspect Nitrogen Injection Line Conduct an ultrasonic test (UT) as soon as convenient of all accessible welds in the nitrogen injection line from the last isolation valve to the wetwell and drywell penetratioiss.
Also UT the containment penetrations and the containment shell within 6 inches of the penetration.
UT is recommended because cracks would be most likely to initiate on the inside of the pipe or on the site of the metal in contact with cold nitrogen.
RESPONSE 4 The drywell inerting system to date, has had relatively little use.
Station personnel are confident that pipe. temperatures less than 400F have never been reached, in fact N2 delivery temperatures are maintained at approximately 90oF.
LSCS does not intend to perform UT testing.
5.
Inspect Containment During the next planned uutage, perform a visual inspection of the vent header, downcomers and other equipment in the containment which might be expected to be affected by the injection of cold nitrogen.
The vent header should be inspected on the outside and the inside.
Also inspect the containment shell or steel liner for at least 6 inches around the nitrogen penetration.
.,4:
7..
! RESPONSE 5-Y-
-A~ primary containment inspection per LTS-600-3 will be conducted priorito the next' integrated (ILRT) leak test which will be performed at;the'first refuel _ outage.
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