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Category:DEFICIENCY REPORTS (PER 10CFR50.55E & PART 21)
MONTHYEARML20217A1691999-09-22022 September 1999
Part 21 Rept Re Engine Sys,Inc Controllers,Manufactured Between Dec 1997 & May 1999,that May Have Questionable Soldering Workmanship.Caused by Inadequate Personnel Training.Sent Rept to All Nuclear Customers
ML20153D0191998-09-18018 September 1998
Part 21 Rept Re Defect in Gap Conductance Analyses for co- Resident BWR Fuel.Initially Reported on 980917.Corrective Analyses Performed Demonstrating That Current Operating Limits Bounding from BOC to Cycle Exposure of 8 Gwd/Mtu
ML20153C6771998-09-17017 September 1998
Part 21 Rept Re Defect Relative to MCPR Operating Limits as Impacted by Gap Conductance of co-resident BWR Fuel at Facilities.Operating Limit for LaSalle Unit 2 & Quad Cities Unit 2 Will Be Revised as Listed
ML20217D0281998-04-22022 April 1998
Part 21 Rept Re Additive Constants Used in MCPR Determination for Siemens ATRIUM-9B Fuel by Core Monitoring Sys Were Found to Be non-conservative.SPC Personnel Notified All Customers w/ATRIUM-9B Lead Test Assemblies
ML20217J6131997-07-14014 July 1997
Part 21 Rept Re Incomplete Defined Changes Made to Standby DG W/Emd Diesel Engines by Mfg
ML20140A4761997-05-27027 May 1997
Provides Addl Info to 970429 Part 21 Rept Re Potential safety-related Problem W/Asco HV 266000-007J Scram Solenoid Pilot Valves.Corrective Actions Also Listed
ML20148B0181997-05-0202 May 1997
Part 21 Rept Re Failure of Plunger on Solenoid Number 1 to Return to de-actuated Position in Timely Manner When Solenoid Was de-energized.Caused by Plunger Moving While in Energized Condition.Added 'Noise' Test
ML20134D8571996-10-28028 October 1996
Part 21 Rept Re Steam Isolation Valved Failed to Close within 3-5 Seconds Required by Ts.Caused by One Plunger from Solenoid Missed Machining Operation After Vitron Insert Pressed In.Solenoid Energized
ML20095K3911995-12-21021 December 1995
Final Part 21 Rept 95-015 Re Bldg of Achor Darling Valves W/ Cavitation Trim.Plant Will Perform Monthly Testing of Running Loads on a Loop Valve Until Modified
ML20078S1931994-12-21021 December 1994
Final Part 21 Rept Re Nonconservative Assumptions of Turbine Bypass Vot in Plant Transient Analyses for Unit 2.GE Analyses Determined That Deviation Created Potential Substantial Safety Hazard
ML20059L9861993-11-11011 November 1993
Part 21 Rept Re Deviation Wherein Fully Open Butterfly Valve Located 15 Pipe Diameters Upstream of Sensors Was Disturbing Flow Profile Enough to Cause Ultrasonic Meter to Indicate 3 to 4% Low.Customers Notified & Valve Removed
ML20056D7071993-07-15015 July 1993
Part 21 Rept Re Reportable defect-75 PSIG Relief Check Valve 1 Npt,Emd 9521844,Kepner 416C-1-75
ML20072R6731991-03-27027 March 1991
Part 21 Rept Re Increased Air Leakage in Pathway Bellows Corp Bellows Assembly.Assembly Replaced by Parker-Metal Bellows Corp
ML20153G0111988-05-0606 May 1988
Part 21 Rept Re Potential Defect in Bussman Buss KTK-R Fuse Blocks W/Part Numbers 2078,2079 & 2080.Purchasing Records Reviewed to Identify If Any Parts Were Actually Used or Shipped to Customers.Results Listed
ML20211P7211987-02-23023 February 1987
Part 21 Rept Re Rockbestos Coaxial Cable Used in Sorrento Electronics Digital & Analog high-range Radiation Monitor. Insulation Resistance at High Temp Not High Enough for Ion Chamber & Associated Electronics to Operate Properly
ML20212E5631986-12-19019 December 1986
Part 21 Rept Re Valve Problem.Houghto 620 Lubricant Attacks & Degrades Aluminum in Valves.Valves Have Been or Being Rebuilt
ML20215D2371986-12-0909 December 1986
Part 21 Rept Re Environ Qualification of AMP Butt Splices in GE Drywell Penetrations.Splices Retested by Simulating Postulated LOCA & Failed Due to Excessive Leakage.Ge Contacted Re Repair of Splices
ML20213F9661986-11-10010 November 1986
Part 21 Rept Re Failure of Battery inter-rack Connecting Cable Assembly Supplied by Gnb Batteries,Inc.Initially Reported on 861107.Battery Cables Replaced
ML20214M3181986-09-0404 September 1986
Potential Part 21 Rept Re Contromatics Actuator W/Jackscrew/ Handwheel Emergency Override Operator.Jackscrew/Handwheel Should Be Used for Emergency Manual Operation Only.Encl Ltr Also Sent to Listed Utils/Ae Firms
ML20141D8051986-04-0101 April 1986
Part 21 Rept Re Model 402 Series Level Control Used for safety-related Application Shipped W/O Torque Check. Customers Will Be Notified by 860428 & Requested to Perform Torque Check.List of Plants Using Component Encl
ML20133N4691985-08-0505 August 1985
Part 21 Rept Re Raychem Wcsf Shrink Sleeving for Sensor/ Connecting Assembly of Safety Relief Valve Monitoring Sys. Testing & Retesting in Progress.Sensor Installation Utilizing Shrink Sleeving Recommended
ML20117L5891985-05-14014 May 1985
Part 21 Rept Re Hatch Transfer Starters & Transfer Starter Assemblies.Evaluation of Implementation of QA Program Performed on 850429-0503.Results of Evaluation Verified Seismic Adequacy of Equipment
ML20127N0621985-05-13013 May 1985
Part 21 Rept Re Incorrect Short Time Delay Band Lever Inadequately Installed in Low Voltage K-line Circuit Breaker Electromechanical Overcurrent Trip Device.Visual Insp to Determine If Correct Lever Installed Recommended
ML20086U4251984-02-24024 February 1984
Followup Part 21 Rept Re Defective Mechanical Snubber Capstan Springs Supplied by Pacific Scientific.Affected Utils Listed.Purchasers Have Been Notified & Advised to Work Directly W/Pacific Scientific in Disposition
ML20085E7651976-08-0505 August 1976
Final Deficiency Rept Re Incorrect Installation of Reactor Pressure Vessel (RPV) Seismic Stabilizer Plates.Initially Reported on 760513.Formal QA Program Developed & Implemented Since Pvs Stabilizer Assembly Installed
1999-09-22
[Table view]
Category:TEXT-SAFETY REPORT
MONTHYEARML20217A9931999-09-30030 September 1999
NRC Regulatory Assessment & Oversight Pilot Program, Performance Indicator Data
SVP-99-204, Monthly Operating Repts for Sept 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With1999-09-30030 September 1999
Monthly Operating Repts for Sept 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With
ML20217A1691999-09-22022 September 1999
Part 21 Rept Re Engine Sys,Inc Controllers,Manufactured Between Dec 1997 & May 1999,that May Have Questionable Soldering Workmanship.Caused by Inadequate Personnel Training.Sent Rept to All Nuclear Customers
ML20212J0501999-09-21021 September 1999
Safety Evaluation Re Licensee Implementation Program to Resolve USI A-46 at Plant,Per GL 87-02,Suppl 1
SVP-99-179, Monthly Operating Repts for Aug 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With1999-08-31031 August 1999
Monthly Operating Repts for Aug 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With
ML20210L8661999-08-0202 August 1999
Safety Evaluation Accepting License 60-day Response to GL 96-05, Periodic Verification of Design-Basis Capability of Safety-Related Movs
SVP-99-155, Monthly Operating Repts for July 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With1999-07-31031 July 1999
Monthly Operating Repts for July 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With
SVP-99-148, Monthly Operating Repts for June 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With1999-06-30030 June 1999
Monthly Operating Repts for June 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With
ML20196H8621999-06-30030 June 1999
NRC Regulatory Assessment & Oversight Pilot Program, Performance Indicator Data, June 1999 Rept
ML20195K1481999-06-16016 June 1999
Safety Evaluation Authorizing Relief Request RV-23A for Duration of Current 10 Yr IST Interval on Basis That Compliance with Code Requirements Would Result in Hardship Without Compensating Increase in Level of Quality & Safety
SVP-99-123, Monthly Operating Repts for May 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With1999-05-31031 May 1999
Monthly Operating Repts for May 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With
ML20195B2591999-05-19019 May 1999
Rev 66a to CE-1-A,consisting of Proposed Changes to QAP for Dnps,Qcs,Znps,Lcs,Byron & Braidwood Stations
SVP-99-104, Monthly Operating Repts for Apr 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With1999-04-30030 April 1999
Monthly Operating Repts for Apr 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With
SVP-99-102, Summary Rept of Changes,Tests & Experiments Completed, Covering Period 990201-0430. with1999-04-30030 April 1999
Summary Rept of Changes,Tests & Experiments Completed, Covering Period 990201-0430. with
ML20205Q5291999-04-16016 April 1999
SER Concluding That Quad Cities Nuclear Power Station,Unit 1,can Be Safely Operated for Next Fuel Cycle with Weld O2BS-F4 in Current Condition Because Structural Integrity of Weld Will Be Maintained
ML20205J6011999-04-0707 April 1999
Safety Evaluation Accepting Proposed Merger of Calenergy Co, Inc & Midamerican Holdings Co for Quad Cities Nuclear Power Station,Units 1 & 2
SVP-99-071, Monthly Operating Repts for Mar 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With1999-03-31031 March 1999
Monthly Operating Repts for Mar 1999 for Quad Cities Nuclear Power Station,Units 1 & 2.With
ML20205C5671999-03-19019 March 1999
Simulator Four-Yr Certification Rept
ML20207D2341999-03-0101 March 1999
Post Outage (90 Day) Summary Rept, for ISI Exams & Repair/Replacement Activities Conducted 981207-1205
ML20204B1571999-02-28028 February 1999
Monthly Operating Repts for Feb 1999 for Quad Cities,Units 1 & 2.With
SVP-99-021, Quarterly Summary SER of Changes,Tests & Experiments Completed, Covering Period of 981101-990131,IAW 10CFR50.59 & 10CFR50.71(e).With1999-01-31031 January 1999
Quarterly Summary SER of Changes,Tests & Experiments Completed, Covering Period of 981101-990131,IAW 10CFR50.59 & 10CFR50.71(e).With
ML20205D1311998-12-31031 December 1998
1998 Decommissioning Funding Status Rept for Yr Ending 981231 for Quad Cities Nuclear Power Station,Units 1 & 2
ML20205M7061998-12-31031 December 1998
Unicom Corp 1998 Summary Annual Rept. with
SVP-99-007, Monthly Operating Repts for Dec 1998 for Quad Cities Nuclear Power Station,Units 1 & 2,IAW GL 97-02 & TS 6.9.With1998-12-31031 December 1998
Monthly Operating Repts for Dec 1998 for Quad Cities Nuclear Power Station,Units 1 & 2,IAW GL 97-02 & TS 6.9.With
ML20196C8391998-11-30030 November 1998
Rev 0 to GE-NE-B13-01980-030-2, Assessment of Crack Growth Rates Applicable to Induction Heating Stress Improvement (IHSI) Recirculation Piping in Quad Cities Unit 1
SVP-98-364, Monthly Operating Repts for Nov 1998 for Quad Cities Nuclear Power Station,Units 1 & 2.With1998-11-30030 November 1998
Monthly Operating Repts for Nov 1998 for Quad Cities Nuclear Power Station,Units 1 & 2.With
ML20196G1241998-11-30030 November 1998
COLR for Quad Cities Unit 1 Cycle 16
ML20196D9651998-11-30030 November 1998
Safety Evaluation Supporting Relief Requests CR-21 & CR-24, Respectively.Relief Request CR-23,proposed Alternative May Be Authorized,Per 10CFR50.55a & Relief Request CR-22 Was Withdrawn by Licensee
ML20196C8731998-11-30030 November 1998
Rev 0 to GE-NE-B13-01980-30-1, Fracture Mechanics Evaluation on Observed Indications at Two Welds in Recirculation Piping of Quad Cities,Unit 1 Station
ML20196A9761998-11-20020 November 1998
Safety Evaluation Re Licensee 180-day Response to GL 95-07, Thermal Binding of Safety-Related Power-operated Gate Valves
ML20196A4191998-11-19019 November 1998
Safety Evaluation Accepting QA TR CE-1-A,Rev 66 Re Changes in Independent & Onsite Review Organization by Creating NSRB
SVP-98-346, Monthly Operating Repts for Oct 1998 for Quad Cities Nuclear Power Station,Units 1 & 2.With1998-10-31031 October 1998
Monthly Operating Repts for Oct 1998 for Quad Cities Nuclear Power Station,Units 1 & 2.With
SVP-98-358, Summary Rept of Changes,Tests & Experiments Completed, Including SEs Covering Period on 980716-1031.With1998-10-31031 October 1998
Summary Rept of Changes,Tests & Experiments Completed, Including SEs Covering Period on 980716-1031.With
SVP-98-326, Monthly Operating Repts for Sept 1998 for Quad Cities Nuclear Power Station,Units 1 & 2.With1998-09-30030 September 1998
Monthly Operating Repts for Sept 1998 for Quad Cities Nuclear Power Station,Units 1 & 2.With
ML20153D0191998-09-18018 September 1998
Part 21 Rept Re Defect in Gap Conductance Analyses for co- Resident BWR Fuel.Initially Reported on 980917.Corrective Analyses Performed Demonstrating That Current Operating Limits Bounding from BOC to Cycle Exposure of 8 Gwd/Mtu
ML20153C6771998-09-17017 September 1998
Part 21 Rept Re Defect Relative to MCPR Operating Limits as Impacted by Gap Conductance of co-resident BWR Fuel at Facilities.Operating Limit for LaSalle Unit 2 & Quad Cities Unit 2 Will Be Revised as Listed
ML20151T2711998-09-0404 September 1998
Safety Evaluation Accepting Licensee Response to NRC Bulletin 95-002
ML20151Y7261998-08-31031 August 1998
Monthly Operating Repts for Aug 1998 for Quad Cities Nuclear Power Station
ML20237E2331998-08-21021 August 1998
Revised Pages of Section 20 of Rev 66 to CE-1-A, QA Topical Rept
ML20151Y7301998-07-31031 July 1998
Revised MOR for Jul 1998 for Quad Cities Nuclear Power Station,Units 1 & 2
ML20237A6251998-07-31031 July 1998
Monthly Operating Repts for July 1998 for Quad Cities Nuclear Power Station,Unit 1 & 2
SVP-98-328, Summary Rept of Changes,Tests & Experiments Completed, Including SEs Covering Period of 971001-980715,per 10CFR50.59 & 10CFR50.71(e).With1998-07-15015 July 1998
Summary Rept of Changes,Tests & Experiments Completed, Including SEs Covering Period of 971001-980715,per 10CFR50.59 & 10CFR50.71(e).With
SVP-98-249, Monthly Operating Repts for June 1998 for Quad Cities Nuclear Power Station,Units 1 & 21998-06-30030 June 1998
Monthly Operating Repts for June 1998 for Quad Cities Nuclear Power Station,Units 1 & 2
SVP-98-215, Monthly Operating Repts for May 1998 for Quad Cities Nuclear Power Station Units 1 & 21998-05-31031 May 1998
Monthly Operating Repts for May 1998 for Quad Cities Nuclear Power Station Units 1 & 2
ML20247N6281998-05-19019 May 1998
Rev 2 to COLR for Quad Cities Unit 2 Cycle 15
ML20216C0561998-04-30030 April 1998
Safe Shutdown Rept for Quad Cities Station,Units 1 & 2, Vols 1 & 2.W/22 Oversize Figures
SVP-98-176, Monthly Operating Repts for Apr 1998 for Quad Cities Nuclear Power Station,Units 1 & 21998-04-30030 April 1998
Monthly Operating Repts for Apr 1998 for Quad Cities Nuclear Power Station,Units 1 & 2
ML20217D0281998-04-22022 April 1998
Part 21 Rept Re Additive Constants Used in MCPR Determination for Siemens ATRIUM-9B Fuel by Core Monitoring Sys Were Found to Be non-conservative.SPC Personnel Notified All Customers w/ATRIUM-9B Lead Test Assemblies
ML20217G3951998-04-0808 April 1998
TS 3/4.8.F Snubber Functional Testing Scope Quad Cities Unit 2 TS (Safety-Related) Snubber Population 129 Snubbers
SVP-98-128, Monthly Operating Repts for Mar 1998 for Quad Cities Nuclear Station Units 1 & 21998-03-31031 March 1998
Monthly Operating Repts for Mar 1998 for Quad Cities Nuclear Station Units 1 & 2
1999-09-30
[Table view] |
Text
,
/ N C:mm:nwealth Edison "(.
( '-_ /^J Downers Grove, Ulinois 60515 N J March 27, 1991 Mr, A. Bert Davis Regional Administrator U.S. Nuclear Regulatory Commission 799 Roosevelt Road Glen Ellyn, IL 60137
Subject:
Quad Cities Nuclear Power Station Unit I and 2 10 CFR Part 21 Notification NRC_DocheLNon _50:254. and 50-265. _ 2 Mr. Davis:
During the performance of the Quad Cities Station Unit 1 containment 16tegrated leak rate test pursuant to 10 CFR 50 Appendix J, increased air leakage was identified from containment penetration X-25. An investigation to identify the cause of the leakage was conducted. During that investigation, it was found that the two-ply bellows assembly had been successfully tested pursuant to the 10 CFR 50 Appendix 3 Type B test requirements. As a result of the inconsistent test data, Commonwealth Edison conducted various tests of the two-ply bellows and has concluded that a valid Type B test cannot be performed on the bellows assembly.
On March 22, 1991, Commonwealth Edison notified B. Burgess, Branch Chief via telephone of the evaluation of the two-ply bellows assembly, which was performed pursuant to 10 CFR Part 21. While the evaluation conclusions did not strictly meet the criteria which is contained in 10 CFR Part 21, Commonwealth Edison considered the evaluation conclusions to be significant and thereby warranted formal notification to the Commission. Enclosed are three (3) copies of the report which contains the information required by 10 CFR Part 21.21(b)(2).
If there are any questions regarding this notification, please direct them to R. Stols at (708) 515-7283 or H. Massin at (708) 515-7450.
, Very truly yours, b ( !' A /
l 38
- O T.J. Kovach Nuclear Licensing Manager I$
l88 ma O cc: gulations (NRR)
$cc Director, Office of Nuclear Reat B.L. Burgess, Section Chief, Region III Ng% g\ 1
& T.L. Taylor, Senior Resident Inspector, Region III L.H. 01shan, Project Manager, NRR
,4l p=Lr tBI jb' RS/TK/imw YNfI t/
4 i
10 CFR 21 NOTIFICATION Type B Testability of Primary Containment Penetration Bellows Applicability This Notification is submitted in accordance with the requirements of 10 CFR 21, Section 21.1.(b), 21.3.a.(3), and 21.3.d.(4).
Identification _of_fAtilltrand Component This Notification concerns the local leak rate testing of primary containment mechanical penetrations fitted with two-ply expansion bellows.
Recent integrated and local leak rate testing, which was conducted on an expansion bellows assembly at the Quad Cities Nuclear Power Station, indicates that these bellow assemblies are not testable per the requirements of 10 CFR 50 Appendix J (Type B testing only). The evaluation of information regarding the bellows testing discrepancy was completed oa March 22, 1991.
I d e n t i f i Cat 10D_of_ComponeAt_flitWfAC t uffr The subject bellows assemblies were manufactured and supplied by:
Pathway Bellows Corporation 115 Franklin Road Oak Ridge, TN 37330 (615) 483-7444 These assemblies are original plant equipment which were manufactured and installed in the late 1960's and early 1970's. It is believed that t.he bellows design has remained essentially unchanged; therefore, bellows which were manufactured in subsequent years would also be subject to the same concern regarding the ability to perform a valid Type B test.
Natur1_Qf_Deftti The bellows assemblies which were supplied by Pathway Bellows Corporation were in full compliance with the procurement specification. Commonwealth Edison has determined that any potential leakage of the bellows during the performance of a 10 CFR 50 Appendix J, Type B test cannot be properly quantified due to the construction of the bellows. This testing deficiency is the subject of this Notification.
l zuwee m
Tha flexible metallic bellows are constructed with two plies of austenitic, type 300 series stainless steel which are formed together into a cylindrical corrugated element. This design configuration is typical of bellows penetrations that are installed at major piping penetrations and for the drywell ventilation and purge lines (in-line ballows assemblies). The forming process can bring the plies into contact, thus limiting flow of the local leak rate test medium (inert gas or air) between the inner and outer plies. Based upon our evaluation of the local leak rate test (LLRT) and integrated leak rate test (ILRT) results of this flexible metallic bellows assembly, the LLRT is capable of detecting leakage but cannot be relied upon to accurately quantify the actual leakage rate.
A Type B test was performed on the 18" Orywell Ventilation Penetration.
X-25. The measured leakage rate was 6 scfh. Approximately two days after the LLRT, the primary containment ILRT was performed. While the containment was at pressure, application of a soap solution to the surface of the bellows revealed one large crack and over a hundre; small indications. Following the ILRT, a Type B test was again performed and the results duplicated the initial LLRT leakage rate. A soap solution was applied to the bellows during this LLRT and Identified only a few small leaks.
A " local" ILRT was subsequently performed in an effort to quantify actual leakage from the bellows. A steel plate was welded to the ventilation line inlet inside of the drywell. The bellows were pressurized from ite inside through a threaded hole in the plate and a leakage rate test was performed on the entire ventilation penetration. The soap solution revealed a large leak along with many small leak 3 which were similar to the ILRT results. A leakage rate 137 scfh was measured.
With the validity of the Type B tests now in question, Station personnel examined the sensitivity of the LLRT procedure to detect and quantify new cracks. A 0.25" hole wcs drilled through the two bellows from the outside diameter to the inside diameter. A Type B test was performed and resulted in a small increase in leakage to 7 scfh. A second 0.25" hole was drilled through each of the bellows. The subsequent Type B test resulted in a leakage of 8 scfh. It was concluded that air flow between the bellows through the area which contained the large crack was vnry restricted. The Type B test, therefore, can only detect additional through-wall leakage and cannot quantify the extent of the leakage.
The bellows were subsequently sent offsite to Argonne National Laboratory (AHL) to conduct destructive testing of the bellows. Physical examination of the bellows cross-saction revealed that a tight metal-to-metal contact occurs in the convolutions, at the inflection point between the inner and outer apexes. The shape of the convolutions as-formed is such that the inner and outer convolutions are tightly interlocked at the inflection point. A gap size of 0.002-0.010 was measured at the apexes, which is the maximum gap location.
I 1
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d e
Safety _SL9attt iance The perfermance of an ILRT properly challenges the bellows elements. i Operability c/ the Primary Containment structure was, therefore, demonstrated through ine iLRT performed at the end of the refueling outage. Bellows with high leak'ge rates which are undetected by the local leak test will result in a acti.eable increase in ILRT results. Based upon an ILRT value adjusted for the X-25 leakage, it was determined that all other plant bellows collectively have a leakage rate sufficiently low such that the overall ILRT performance is not impacted.
COIR.eitirelttions To ensure the acceptable performance of the. penetration, the bellows assembly was replaced during the outage. The new bellows assembly was supplied by Parker-Hetal Bellows Corporation. Six other penetration bellows with known positive leakage rates as established by recent LLRT's, were examined. Visual and penetrant examinations of these bellows showed no indication of flaws. Commonwealth Edison is currently investigating several leak rate testing methods that would provide accurate LLRT results for bellows assembly penetrations.
Hellow LQIAt1001-Bellows assemblies of this design are installed at the Quad Cities Nuclear Power Station and the Dresden Nuclear Power Station. Attachments A and B list the locations of all bellows assembly penetrations for Quad Cities and Dresden, respectively.
Contas11 Questions pertaining to this Notification should be addressed to:
Mr. H.L. Massin BWR Systems Design Superintendent Commonwealth Edison Company 1400 Opus Place, Suite 400 Downers Grove,_IL 60515 (708) 515-7460 Mr. D. Fisher BHR Systems Design System Engineer Commonwealth Edison Company 1400 Opus Place, Suite 400 Downers Grove, IL 60515
-(708) 515-7428 ZHLD808/21
_ m- - - - . _ _ , . - . , . , _ _ . , . _ _ , . _ _ , _ . . _ _ . - , . _ . - _ , m ___. ,_ .,.. _.m. .,. .. .._ _.
10 CFR 21 Nottfl'.ation Attachment A Quad Cities Station Bellows Locations Quad Cities Nuclear Power Station Penetration Unit 1 Unit 2 X-7A A Main Steam Line X X X-78 8 Main Steam Line X X X-7C C Main Steam Line X X X-7D D Main Steam Line X X X-8 Main Steam Line Drain X X X-9A A Feedwater Line X X X-96 B Feedwater Line X X X-10 RCIC Steam Supply X X X-11 HPCI Steam Supply X X X-12 SDC Supply X X X-13A A LPCI Injection X X X-13B b LPCI Injection X X X-14 PHCU Suction X X X-16A A Core Spray (*) X X-16B B Core Spray (*) (*)
X-17 Head Spray X X X-23 RBCCH Supply X X X-24 RBCCH Return X X l X-25 Drywell Vent X X X-26 Drywell Supply X X X-36 CR0 Return X X X-47 Standby Liquid X X l
X - Installed on this Unit.
! (*) - Bellows replaced with clamshell design l
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. . . .~ \
10 CFR 21 Notification '
Attachment D Dresden Station Bellows Locations Dresden Nuclear Power Station Penetration Unit 1 Unit 2 X_195A A Steam Line X X X-1058 8 Mu Steam Line X X X-105C C Nain Steam Line X X X-105D D Mcin Steam Line X X X-106 Main Steam Line Drain X X X-107A A Feedwater Line X X X_107B B Feedvater Line X X X_108A Iso. Cond. Steam X X X_109A Iso. Cond. Return (N/A) X X-1098 Iso. Cond. Return X (N/A)
X-Illa A Shutdown Cooling X X X_111B B Shutdown Cooling X X X-113 RHCU X
X '16A A LPCI Injection X X X-)l6B B LPCI Injection X X X-123 RBCCH Supply X X X-124 RBCCH Return X X X-125 Drywell Vent X X X-126- Drywell Supply X X X-115A HPCI Steam Supply X (N/A)
X-12B HPCI-Steam Supply (N/A) X X-130 Standby Liquid Inlet X (N/A)
X-138 Standby Liquid Inlet (N/A) X X-144 CRD Return X (N/A)
X-147 Head Spray X X X-149A A Core Spray X X X-1498 B Core Spray X X X - Installed on this Unit.
(N/A) - Not applicable to this Unit.
l znwe r:e n 3
