ML14126A543: Difference between revisions
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{{#Wiki_filter:May 19, 2014 | {{#Wiki_filter:May 19, 2014 LICENSEE: Exelon Generation Company, LLC FACILITY: Byron Station, Units 1 and 2 Braidwood Station, Units 1 and 2 | ||
==SUBJECT:== | ==SUBJECT:== | ||
Line 24: | Line 24: | ||
==SUMMARY== | ==SUMMARY== | ||
OF TELEPHONE CONFERENCE CALL HELD ON APRIL 22, 2014, BETWEEN THE U.S. NUCLEAR REGULATORY COMMISSION AND EXELON GENERATION COMPANY, LLC CONCERNING DRAFT REQUEST FOR ADDITIONAL INFORMATION, SET 24, PERTAINING TO THE BYRON STATION AND BRAIDWOOD STATION, LICENSE RENEWAL APPLICATION (TAC NOS. MF1879, MF1880, MF1881, AND MF1882) | OF TELEPHONE CONFERENCE CALL HELD ON APRIL 22, 2014, BETWEEN THE U.S. NUCLEAR REGULATORY COMMISSION AND EXELON GENERATION COMPANY, LLC CONCERNING DRAFT REQUEST FOR ADDITIONAL INFORMATION, SET 24, PERTAINING TO THE BYRON STATION AND BRAIDWOOD STATION, LICENSE RENEWAL APPLICATION (TAC NOS. MF1879, MF1880, MF1881, AND MF1882) | ||
The U.S. Nuclear Regulatory Commission (NRC or the staff) and representatives of Exelon Generation Company, LLC (Exelon | The U.S. Nuclear Regulatory Commission (NRC or the staff) and representatives of Exelon Generation Company, LLC (Exelon or the applicant), held a telephone conference call on April 22, 2014, to discuss and clarify the staffs draft request for additional information (DRAI), | ||
Set 24, concerning the Byron Station, Units 1 and 2, and the Braidwood Station, Units 1 and 2, license renewal application. The telephone conference call was useful in clarifying the intent of the staffs DRAIs. provides a listing of the participants, and Enclosure 2 contains a listing of the DRAIs discussed with the applicant, including a brief description on the status of the items. | |||
The applicant had an opportunity to comment on this summary. | The applicant had an opportunity to comment on this summary. | ||
/RA/ | |||
Lindsay Robinson, Project Manager Projects Branch 1 Division of License Renewal Office of Nuclear Reactor Regulation Docket Nos. 50-454, 50-455, 50-456, and 50-457 | |||
-457 | |||
==Enclosures:== | ==Enclosures:== | ||
: 1. List of Participants | : 1. List of Participants | ||
: 2. List of Draft Request for Additional Information | : 2. List of Draft Request for Additional Information cc w/encls: Listserv | ||
ML14126A543 *concurred via email OFFICE LA:DLR* PM: RPB1:DLR BC:RPB1:DLR PM:RPB1:DLR NAME IKing LRobinson YDiazSanabria LRobinson DATE 5/14/14 5/15/14 5/15/14 5/19/14 | |||
ML14126A543 | |||
==SUBJECT:== | ==SUBJECT:== | ||
==SUMMARY== | ==SUMMARY== | ||
OF TELEPHONE CONFERENCE CALL HELD ON APRIL 22, 2014, BETWEEN THE U.S. NUCLEAR REGULATORY COMMISSION AND EXELON GENERATION COMPANY, LLC CONCERNING DRAFT REQUEST FOR ADDITIONAL INFORMATION, SET | OF TELEPHONE CONFERENCE CALL HELD ON APRIL 22, 2014, BETWEEN THE U.S. NUCLEAR REGULATORY COMMISSION AND EXELON GENERATION COMPANY, LLC CONCERNING DRAFT REQUEST FOR ADDITIONAL INFORMATION, SET 24, PERTAINING TO THE BYRON STATION AND BRAIDWOOD STATION, LICENSE RENEWAL APPLICATION (TAC NOS. MF1879, MF1880, MF1881, AND MF1882) | ||
DISTRIBUTION: | |||
EMAIL: | |||
LRobinson DMcIntyre, OPA EDuncan, RIII JBenjamin, RIII AGarmoe, RIII JMcGhee, RIII JRobbins, RIII VMitlyng, RIII PChandrathil, RIII | PUBLIC RidsNrrDlr Resource RidsNrrDlrRpb1 Resource RidsNrrDlrRarb Resource RidsNrrDlrRasb Resource RidsOgcMailCenter RidsNrrPMByron Resource RidsNrrPMBraidwood Resource | ||
Don Warfel Exelon Al Fulvio Exelon Pete Tamburro Exelon Jim Annett Exelon Gary Becknell Exelon Paul Cervenka Exelon Dylan Cimock Exelon Don Brindle Exelon ENCLOSURE | ---------------------------------- | ||
DRAI 3.5.2-6 | LRobinson DMcIntyre, OPA EDuncan, RIII JBenjamin, RIII AGarmoe, RIII JMcGhee, RIII JRobbins, RIII VMitlyng, RIII PChandrathil, RIII | ||
: | |||
TELEPHONE CONFERENCE CALL BYRON STATION, UNITS 1 AND 2, AND BRAIDWOOD STATION, UNITS 1 AND 2 LICENSE RENEWAL APPLICATION LIST OF PARTICIPANTS April 22, 2014 PARTICIPANTS AFFILIATIONS Lindsay Robinson U.S. Nuclear Regulatory Commission (NRC) | |||
John Wise NRC George Thomas NRC Gautam Banerjee NRC Angie Buford NRC John Hufnagel Exelon Generating Company, LLC (Exelon) | |||
Don Warfel Exelon Al Fulvio Exelon Pete Tamburro Exelon Jim Annett Exelon Gary Becknell Exelon Paul Cervenka Exelon Dylan Cimock Exelon Don Brindle Exelon ENCLOSURE 1 | |||
DRAFT REQUEST FOR ADDITIONAL INFORMATION BYRON STATION, UNITS 1 AND 2, AND BRAIDWOOD STATION, UNITS 1 AND 2, LICENSE RENEWAL APPLICATION April 22, 2014 The U.S. Nuclear Regulatory Commission (NRC or the staff) and representatives of Exelon Generation Company, LLC (Exelon or the applicant), held a telephone conference call on April 22, 2014, to discuss and clarify the following draft request for additional information (DRAI), Set 24, concerning the Byron Station (Byron), Units 1 and 2, and the Braidwood Station (Braidwood), Units 1 and 2, license renewal application (LRA). | |||
DRAI 3.5.2-6 Applicability: | |||
Byron and Braidwood | Byron and Braidwood | ||
==Background:== | |||
-LR Table 3.5 | Item 24 located in SRP-LR Table 3.5-1references the GALL Report item II.A1.CP-100. The AMP recommended for item II.A1.CP-100 in the GALL Report is XI.S2, ASME Section XI, Subsection IWL, or XI.S6, Structures Monitoring. | ||
-1references the GALL Report item II.A1.CP | The GALL Report AMP XI.S2, ASME Section XI, Subsection IWL, Program Description states that 10 CFR 50.55a imposes the examination requirements of ASME Code, Section XI, Subsection IWL, for Class CC reinforced and prestressed concrete containments. The GALL Report AMP Scope of Program (Program Element 1) states that the components within the scope of Subsection IWL are reinforced concrete and unbonded post-tensioning systems of Class CC containments. Subsection IWL exempts from examination portions of the concrete containment that are inaccessible such as concrete covered by liner, foundation material, or backfill or obstructed by adjacent structures or other components. However, 10 CFR 50.55a(b)(2)(viii) specifies additional requirements for inaccessible areas that requires the licensee to evaluate the acceptability of concrete in inaccessible areas when conditions exist in accessible areas that could indicate the presence of or result in degradation of inaccessible areas. | ||
-100. The AMP recommended for item II.A1.CP | Issue: | ||
-100 in the GALL Report is XI.S2, | The corresponding LRA Table 3.5.1, Item 3.5.1-24, states in the Discussion column that this item is consistent with the GALL Report and cites the Structures Monitoring (LRA Section B.2.1.34) program as the AMP for managing this aging effect and mechanism for inaccessible areas of containment concrete exposed to groundwater and soil environments, including groundwater chemistry. In the context of the LRA, the description for Item II.A1.CP-100 in the GALL Report does include containment pressure-resisting boundary concrete components in inaccessible areas above grade in an Air - Outdoor environment as well as below-grade areas in a Groundwater/Soil environment. The applicant has not addressed inaccessible components in the Air - Outdoor environment for this AMR line item. Further, the ASME Section XI, Subsection IWL program, mandated by the GALL Report and 10 CFR 50.55a for concrete containment pressure-resting boundary components in both accessible and ENCLOSURE 2 | ||
The GALL Report AMP XI.S2, | |||
-tensioning systems of Class CC containments. Subsection IWL exempts from examination portions of the concrete containment that are inaccessible such as concrete covered by liner, foundation material, or backfill or obstructed by adjacent structures or other components. However, 10 CFR 50.55a(b)(2)(viii) specifies additional requirements for inaccessible areas that requires the licensee to evaluate the acceptability of concrete in inaccessible areas when conditions exist in accessible areas that could indicate the presence of or result in degradation of inaccessible areas. Issue: | |||
-24, states in the | |||
-100 in the GALL Report does include containment pressure | |||
-resisting boundary concrete components in inaccessible areas above grade in an | |||
- Outdoor | |||
-grade areas in a | |||
- Outdoor | |||
-resting boundary components in both accessible and | |||
inaccessible areas, is not included as an applicable AMP for AMR line item 3.5.1-24 and the corresponding line items in LRA Table 3.5.2-4. | |||
: | Request: | ||
With regard to AMR line item 3.5.1-24 in LRA Table 3.5-1 that corresponds to Item II.A1.CP-100 in the GALL Report, provide the technical basis to justify why the ASME Code, Section XI, Subsection IWL program, recommended by the GALL Report and required by 10 CFR 50.55a for concrete containment pressure-resisting boundary components in both accessible and inaccessible areas, is not included as an applicable AMP for the line item and corresponding line items in LRA Table 3.5.2-4. Update the LRA, as necessary, based on the response to this request. | |||
Discussion: The applicant requested clarity on the staffs concern. No edits were proposed. | |||
This question will be sent as part of the formal request titled: RAI 3.5.2-6. | |||
DRAI B.2.1.12-1a Applicability: | |||
Byron and Braidwood | |||
==Background:== | |||
The response to RAI B.2.1.12-1, dated February 27, 2014, stated that existing station procedures require a general visual inspection of internal surfaces of components within the scope of the Closed Treated Water Systems program when the systems are opened. In addition, the personnel performing the inspections are qualified to Exelon job qualifications and in accordance with the Institute of Nuclear Power Operations (INPO) National Academy for Nuclear Training accredited training program. | |||
The staff notes that, similar to the Closed Treated Water Systems program, the Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components program uses opportunistic visual inspections to monitor aging effects of component internal surfaces. However, during its AMP audit, the staff noted that the Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components program does not rely on the use of existing station procedures to identify age-related degradation. Rather, a new procedure was proposed to inspect for evidence of loss of material, leakage, cracking, and reduction of heat transfer when the internal surfaces of metallic components were made accessible. | The staff notes that, similar to the Closed Treated Water Systems program, the Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components program uses opportunistic visual inspections to monitor aging effects of component internal surfaces. However, during its AMP audit, the staff noted that the Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components program does not rely on the use of existing station procedures to identify age-related degradation. Rather, a new procedure was proposed to inspect for evidence of loss of material, leakage, cracking, and reduction of heat transfer when the internal surfaces of metallic components were made accessible. | ||
Issue: | Issue: | ||
Line 87: | Line 77: | ||
: 1. The details within the INPO training program and Exelon job qualifications that demonstrate that personnel performing the opportunistic inspections are qualified to identify the applicable aging effects, and | : 1. The details within the INPO training program and Exelon job qualifications that demonstrate that personnel performing the opportunistic inspections are qualified to identify the applicable aging effects, and | ||
: 2. The details within the INPO training program, Exelon job qualifications, or existing station procedures that demonstrate that, when piping internal surfaces are made accessible, personnel will be inspecting for parameters that are capable of detecting the presence and extent of aging effects. | : 2. The details within the INPO training program, Exelon job qualifications, or existing station procedures that demonstrate that, when piping internal surfaces are made accessible, personnel will be inspecting for parameters that are capable of detecting the presence and extent of aging effects. | ||
Request: | Request: | ||
: 2. State the details within the INPO training program and Exelon job qualifications State the process-based (in lieu of knowledge | : 1. State the details within the INPO training program and Exelon job qualifications that demonstrate that personnel performing the opportunistic inspections are qualified to identify loss of material due to general, pitting, crevice, and galvanic corrosion; and cracking due to stress corrosion cracking. | ||
-based) controls that exist in station procedures that will ensure that, when component internal surfaces are made accessible, personnel will be inspecting for parameters that are capable of detecting the presence and extent of loss of material due to general, pitting, crevice, and galvanic corrosion; and cracking due to stress corrosion cracking. Alternatively, state the process | : 2. State the details within the INPO training program and Exelon job qualifications State the process-based (in lieu of knowledge-based) controls that exist in station procedures that will ensure that, when component internal surfaces are made accessible, personnel will be inspecting for parameters that are capable of detecting the presence and extent of loss of material due to general, pitting, crevice, and galvanic corrosion; and cracking due to stress corrosion cracking. Alternatively, state the process-based controls in existing station procedures (e.g., prejob brief details, checklists within the work order) that will ensure that personnel will be inspecting for the appropriate parameters. Alternatively, propose a new procedure that specifically addresses these controls. | ||
-based controls in existing station procedures (e.g., prejob brief details, checklists within the work order) that will ensure that personnel will be inspecting for the appropriate parameters. Alternatively, propose a new procedure that specifically addresses these controls. | Discussion: The applicant and staff discussed this DRAI during a previous teleconference, which occurred April 9, 2014. The staff needed additional time to address the applicants question. The applicant asked whether a sufficiently detailed response to request 1 could effectively respond to request 2. The staff responded that, if it could be demonstrated that training and qualifications could ensure that appropriate inspections will take place, then the request for specific process-based controls in station procedures may not be necessary. The staff made minor revisions to the RAI to reflect this potential resolution to the staffs concerns. | ||
Discussion | The underlined portion indicates an addition to the original question and the strikethrough indicates a deletion. This question will be sent as part of the formal request titled: RAI B.2.1.12-1a. | ||
: | DRAI B.2.1.3-4 Applicability: | ||
-based controls in station procedures may not be necessary. The staff made minor revisions to the RAI to reflect this potential resolution to the | Braidwood | ||
The underlined portion indicates an addition to the original question and the strikethrough indicates a deletion. This question will be sent as part of the formal request titled: | |||
-4 | ==Background:== | ||
: | |||
Braidwood | During the audit of the operating experience program element for Braidwood Units 1 and 2, the staff found that operating experience provided by the applicant in the license renewal application (LRA) was incomplete. Specifically, the applicants onsite database contained information related to a stuck reactor vessel closure stud at the Braidwood Unit 2. Based on the information provided by the applicant during the audit, Stud No. 35 became stuck during the 1991 outage, but it had enough thread engagement to be tensioned. The applicant was able to tension the stuck stud. The stuck stud was cut at the flange level in May of 1995 in order to facilitate safer fuel transfer during refueling outages. In an effort to repair Stud Hole No. 35, the remnant of the stud was bored out in 2002. Due to human error, the stud bore hole was over | ||
, the stud bore hole was over bored , and the applicant decided to abandon its repair efforts. Currently , Braidwood Unit 2 has only 53 of 54 studs operable. | bored, and the applicant decided to abandon its repair efforts. Currently, Braidwood Unit 2 has only 53 of 54 studs operable. | ||
Issue: | Issue: | ||
-specific operating experience relative to Stud No. 35 for Braidwood Unit 2. In addition, no information was provided in the LRA or during the audit on the root cause of the failure | The LRA does not provide any information regarding the significant plant-specific operating experience relative to Stud No. 35 for Braidwood Unit 2. In addition, no information was provided in the LRA or during the audit on the root cause of the failure. Without a root cause, the staff is concerned that similar failures could reoccur and further challenge the integrity of the reactor vessel head. | ||
. Without a root cause | Request: | ||
, the staff is concerned that similar failures could reoccur and further challenge the integrity of the reactor vessel head. | : 1. Perform a comprehensive complete plant-specific operating experience search for Braidwood Units 1 and 2. In addition to Stud No. 35, provide search results that include all instances of stuck studs, missing threads, damaged threads, or any form of degradation in reactor pressure vessel studs, guide studs, washers, vessel flange threads, and nuts. | ||
Request: | : 2. Provide a detailed chronology of the events related to Braidwood Unit 2, Stud No. 35. | ||
In addition to Stud No. 35 , provide search results that include all instances of stuck | : 3. Provide a root cause analysis related to the failure of Stud No. 35. Include corrective actions, inspection results, engineering changes, repair replacement activities related to Stud No. 35 and its respective flange hole. | ||
: 4. Provide details of the current configuration of Stud Hole No. 35 and inspection results from 2002 to present. | |||
: 5. Provide inspection results for Stud and Stud Hole Nos. 33, 34, 36 and 37 for Braidwood Unit No. 2 from 1995 to present. | |||
: 4. Provide | Discussion: The applicant requested clarity on the staffs concern. Specifically, the applicant requested clarity on the first questions request for a complete plant-specific operating experience search. The staff discussed the applicants concern and agreed to change complete to comprehensive, as indicated by the editorial marks. This question will be sent as part of the formal request titled: RAI B.2.1.3-4. | ||
DRAI B.2.1.24-1 Applicability: | |||
Discussion | Braidwood | ||
: | |||
-specific operating experience search. | ==Background:== | ||
DRAI B.2.1.24 | |||
-1 | In LRA Section B.2.1.24, the applicant provided brief discussions covering the operating experience of the Byron and Braidwood Units 1 and 2. In these discussions, it was noted that the Braidwood Unit 1 and 2 flux thimbles have experienced more wear than the Byron Unit 1 and 2 flux thimbles. Due to the observed higher wear rates, the examination frequency for both Braidwood Units was changed to every refueling outage. In addition, the operating experience provided in the LRA indicated that there have been instances when, either due to an obstruction | ||
or due to other outage related work, all the Braidwood flux thimbles were not examined. | |||
Issue: | Furthermore, the staffs review of operating experience data base for Braidwood also revealed that eddy current examinations were not performed for certain flux thimbles, due to the presence of moisture in the flux thimble tubes. | ||
-specific operating experience discussion in the LRA section states that Braidwood Units 1 and 2 flux thimble tubes examination frequency is every outage, due to higher than anticipated wear rates. The staff noted that the | Issue: | ||
Request: | The applicants plant-specific operating experience discussion in the LRA section states that Braidwood Units 1 and 2 flux thimble tubes examination frequency is every outage, due to higher than anticipated wear rates. The staff noted that the applicants operating experience discussion in the LRA did not fully address the reasons for the unexpected high wear rates observed for Braidwood Units 1 and 2 or address all the issues during eddy current testing which precluded the testing of all flux thimbles. The staff is concerned about the sufficiency of the proposed AMP if these issues are not properly addressed and corrected. | ||
Request: | |||
: 1. Provide information in terms of root cause analyses and corrective actions which can explain and account for the higher than anticipated observed wear rates for Braidwood Units 1 and 2 flux thimble tubes. | |||
: 2. Explain what root cause analyses and corrective actions have been performed to correct the occurrences of moisture in the thimble tubes given that these occurrences interfere in eddy current examinations of the flux thimble tubes. | : 2. Explain what root cause analyses and corrective actions have been performed to correct the occurrences of moisture in the thimble tubes given that these occurrences interfere in eddy current examinations of the flux thimble tubes. | ||
: 3. Justify the adequacy of the program if the unexpected high wear rates are not accounted for and mitigated, given that there are issues related to the eddy current examinations of all flux thimble tubes (i.e., conflicting outage schedule, tube blockage, and the presence of moisture in the flux thimbles). | : 3. Justify the adequacy of the program if the unexpected high wear rates are not accounted for and mitigated, given that there are issues related to the eddy current examinations of all flux thimble tubes (i.e., conflicting outage schedule, tube blockage, and the presence of moisture in the flux thimbles). | ||
Discussion | Discussion: The applicant requested clarity on the staffs concern. No edits were proposed. | ||
: | This question will be sent as part of the formal request titled: RAI B.2.1.24-1. | ||
-1 | DRAI 3.5.1-1 Applicability: | ||
: | |||
Byron Station (Byron) and Braidwood Station (Braidwood), all units | Byron Station (Byron) and Braidwood Station (Braidwood), all units | ||
==Background:== | |||
-foundations, the continued functionality of a site de-watering system is monitored. | The license renewal application (LRA) states, in Sections B.2.1.34 and B.2.1.30, respectively, that the Structures Monitoring and ASME Section XI, Subsection IWL programs are consistent, with enhancements, with the General Aging Lessons Learned (GALL) Report chapters XI.S6, Structures Monitoring, and XI.S2, ASME Section XI, Subsection IWL. The GALL Report XI.S6 Scope of Program program element states that the program includes all structures, structural components, component supports, and structural commodities in the scope of license renewal that are not covered by other structural age management programs (AMPs) (i.e., ASME Section XI, Subsection IWE (AMP X1.S1) and ASME Section XI, Subsection IWL (AMP X1.S2)). The Parameters Monitored or Inspected program element states: If necessary for managing | ||
The GALL Report AMP XI.S2 Program Description section states that 10 CFR 50.55a imposes the examination requirements of ASME Code, Section XI, Subsection IWL, for Class CC reinforced and prestressed concrete containments. The | |||
-tensioning systems of Class CC containments. Subsection IWL exempts from examination portions of the concrete containment that are inaccessible such as concrete covered by liner, foundation material, or backfill or obstructed by adjacent structures or other components. However, 10 CFR 50.55a(b)(2)(viii) specifies additional requirements for inaccessible areas that require the licensee to evaluate the acceptability of concrete in inaccessible areas when conditions exist in accessible areas that could indicate the presence of or result in degradation of inaccessible areas. | settlement and erosion of porous concrete sub-foundations, the continued functionality of a site de-watering system is monitored. | ||
LRA Table 3.5.1, Item 3.5.1 | The GALL Report AMP XI.S2 Program Description section states that 10 CFR 50.55a imposes the examination requirements of ASME Code, Section XI, Subsection IWL, for Class CC reinforced and prestressed concrete containments. The Scope of Program program element states that the components within the scope of Subsection IWL are reinforced concrete and unbonded post-tensioning systems of Class CC containments. Subsection IWL exempts from examination portions of the concrete containment that are inaccessible such as concrete covered by liner, foundation material, or backfill or obstructed by adjacent structures or other components. However, 10 CFR 50.55a(b)(2)(viii) specifies additional requirements for inaccessible areas that require the licensee to evaluate the acceptability of concrete in inaccessible areas when conditions exist in accessible areas that could indicate the presence of or result in degradation of inaccessible areas. | ||
-1 corresponds to Item II.A1.CP | LRA Table 3.5.1, Item 3.5.1-1 corresponds to Item II.A1.CP-101 in the GALL Report for containment concrete components (Concrete: dome; wall; basemat; ring girders; buttresses; Concrete elements, all) for the aging effect of concrete cracking and distortion due to the aging mechanism of increased stress levels from settlement in a soil environment. For this item, the LRA states in the Discussion column: Consistent with NUREG-1801. The Structures Monitoring (B.2.1.34) program will be used to manage cracking and distortion of the concrete dome, wall, basemat, and buttresses in inaccessible areas of the Containment Structure exposed to a groundwater and soil environment. [Byron and Braidwood Stations] BBS do not rely upon a de-watering system to control settlement. See subsection 3.5.2.2.1.1. LRA Section 3.5.2.2.1.1 states that Item 3.5.1-1 is applicable to Byron and Braidwood and that inaccessible below grade containment concrete surfaces will be examined by the Structures Monitoring (B.2.1.34) program when excavated for any reason. | ||
-101 in the GALL Report for containment concrete components (Concrete: dome; wall; basemat; ring girders; buttresses; Concrete elements, all) for the aging effect of concrete cracking and distortion due to the aging mechanism of increased stress levels from settlement in a soil environment. For this item, the LRA states in the Discussion column: | |||
-1801. The Structures Monitoring (B.2.1.34) program will be used to manage cracking and distortion of the concrete dome, wall, basemat, and buttresses in inaccessible areas of the Containment Structure exposed to a groundwater and soil environment. | |||
-watering system to control settlement. See subsection 3.5.2.2.1.1. | |||
-1 is applicable to Byron and Braidwood and that inaccessible below grade containment concrete surfaces will be examined by the Structures Monitoring (B.2.1.34) program when excavated for any reason. | |||
Issue: | Issue: | ||
For the aging effect of cracking and distortion due to increase in stress levels from settlement, although settlement can occur in a soil environment, the symptoms can be manifested in either an air-indoor uncontrolled or air | For the aging effect of cracking and distortion due to increase in stress levels from settlement, although settlement can occur in a soil environment, the symptoms can be manifested in either an air-indoor uncontrolled or air-outdoor environment (see Table IX.E of the GALL Report for the aging effect term Cracks; distortion; increase in component stress level). NUREG-1800, Standard Review Plan for Review of License Renewal Applications for Nuclear Power Plants (SRP-LR), Section 3.5.2.2.1.1 acceptance criterion for the aging effect or mechanism of cracking and distortion due to increased stress levels from settlement states that the existing program relies on ASME Section XI, Subsection IWL to manage these aging effects on concrete components of the containment pressure-resisting boundary in both accessible and inaccessible areas. | ||
-outdoor environment (see Table IX.E of the GALL Report for the aging effect term | Contrary to the scope and program descriptions for the GALL Report AMP XI.S2 and GALL Report AMP XI.S6 and the SRP-LR Section 3.5.2.2.1.1 acceptance criterion, LRA Table 3.5.1-1 does not identify the ASME Section XI, Subsection IWL as an applicable AMP. Also, LRA Table 3.5.2-4 does not identify the aging effect or mechanism corresponding to LRA Table 3.5-1, Item 3.5.1-1, for containment pressure boundary concrete component (Concrete: dome; wall; basemat; ring girders; buttresses; reinforcing steel) as an aging effect requiring management for accessible areas and for inaccessible areas; it identifies the Structures Monitoring Program as the only applicable AMP. The applicant has not provided the technical basis justifying these determinations and consistency with NUREG-1801 in the LRA for LRA Table 3.5.1, Item 3.5.1-1, and corresponding line items in LRA Table 3.5.2-4. | ||
-resisting boundary in both accessible and inaccessible areas. | |||
Contrary to the scope and program descriptions for the GALL Report AMP XI.S2 and GALL Report AMP XI.S6 and the SRP | Request: | ||
-LR Section 3.5.2.2.1.1 acceptance criterion, LRA Table 3.5.1 | With regard to aging management review (AMR) line item 3.5.1-1 in LRA Table 3.5-1 that corresponds to Item II.A1.CP-101 in the GALL Report, provide the technical basis to justify: (a) why the ASME Section XI, Subsection IWL program is not listed for aging management of concrete containment pressure-resisting boundary components in accessible and inaccessible areas for this AMR line item and corresponding items in LRA Table 3.5.2-4 and (b) why the aging effect or mechanism corresponding to the AMR line item is not identified as an aging effect or mechanism requiring management in LRA Table 3.5.2-4 for containment pressure boundary concrete components in accessible areas. | ||
-1 does not identify the ASME Section XI, Subsection IWL as an applicable AMP. Also, LRA Table 3.5.2-4 does not identify the aging effect or mechanism corresponding to LRA Table 3.5 | Discussion: The applicant requested clarity on the staffs concern. No edits were proposed. | ||
-1, Item 3.5.1-1, for containment pressure boundary concrete component (Concrete: dome; wall; basemat; ring girders; buttresses; reinforcing steel) as an aging effect requiring management for accessible areas and for inaccessible areas; it identifies the Structures Monitoring Program as the only applicable AMP. The applicant has not provided the technical basis justifying these determinations and consistency with NUREG | This question will be sent as part of the formal request titled: RAI 3.5.1-1.}} | ||
-1801 in the LRA for LRA Table 3.5.1, Item 3.5.1-1, and corresponding line items in LRA Table 3.5.2 | |||
-4. | |||
-1 in LRA Table 3.5 | |||
-1 that corresponds to Item II.A1.CP | |||
-101 in the GALL Report, provide the technical basis to justify: (a) why the ASME Section XI, Subsection IWL program is not listed for aging management of concrete containment pressure | |||
-resisting boundary components in accessible and inaccessible areas for this AMR line item and corresponding items in LRA Table 3.5.2 | |||
-4 and (b) why the aging effect or mechanism corresponding to the AMR line item is not identified as an aging effect or mechanism requiring management in LRA Table 3.5.2 | |||
-4 for containment pressure boundary concrete components in accessible areas. | |||
Discussion | |||
: | |||
-1. |
Revision as of 04:59, 4 November 2019
ML14126A543 | |
Person / Time | |
---|---|
Site: | Byron, Braidwood |
Issue date: | 05/19/2014 |
From: | Robinson L License Renewal Projects Branch 1 |
To: | |
Robinson L | |
References | |
TAC MF1879, TAC MF1880, TAC MF1881, TAC MF1882 | |
Download: ML14126A543 (11) | |
Text
May 19, 2014 LICENSEE: Exelon Generation Company, LLC FACILITY: Byron Station, Units 1 and 2 Braidwood Station, Units 1 and 2
SUBJECT:
SUMMARY
OF TELEPHONE CONFERENCE CALL HELD ON APRIL 22, 2014, BETWEEN THE U.S. NUCLEAR REGULATORY COMMISSION AND EXELON GENERATION COMPANY, LLC CONCERNING DRAFT REQUEST FOR ADDITIONAL INFORMATION, SET 24, PERTAINING TO THE BYRON STATION AND BRAIDWOOD STATION, LICENSE RENEWAL APPLICATION (TAC NOS. MF1879, MF1880, MF1881, AND MF1882)
The U.S. Nuclear Regulatory Commission (NRC or the staff) and representatives of Exelon Generation Company, LLC (Exelon or the applicant), held a telephone conference call on April 22, 2014, to discuss and clarify the staffs draft request for additional information (DRAI),
Set 24, concerning the Byron Station, Units 1 and 2, and the Braidwood Station, Units 1 and 2, license renewal application. The telephone conference call was useful in clarifying the intent of the staffs DRAIs. provides a listing of the participants, and Enclosure 2 contains a listing of the DRAIs discussed with the applicant, including a brief description on the status of the items.
The applicant had an opportunity to comment on this summary.
/RA/
Lindsay Robinson, Project Manager Projects Branch 1 Division of License Renewal Office of Nuclear Reactor Regulation Docket Nos. 50-454, 50-455, 50-456, and 50-457
Enclosures:
- 1. List of Participants
- 2. List of Draft Request for Additional Information cc w/encls: Listserv
ML14126A543 *concurred via email OFFICE LA:DLR* PM: RPB1:DLR BC:RPB1:DLR PM:RPB1:DLR NAME IKing LRobinson YDiazSanabria LRobinson DATE 5/14/14 5/15/14 5/15/14 5/19/14
SUBJECT:
SUMMARY
OF TELEPHONE CONFERENCE CALL HELD ON APRIL 22, 2014, BETWEEN THE U.S. NUCLEAR REGULATORY COMMISSION AND EXELON GENERATION COMPANY, LLC CONCERNING DRAFT REQUEST FOR ADDITIONAL INFORMATION, SET 24, PERTAINING TO THE BYRON STATION AND BRAIDWOOD STATION, LICENSE RENEWAL APPLICATION (TAC NOS. MF1879, MF1880, MF1881, AND MF1882)
DISTRIBUTION:
EMAIL:
PUBLIC RidsNrrDlr Resource RidsNrrDlrRpb1 Resource RidsNrrDlrRarb Resource RidsNrrDlrRasb Resource RidsOgcMailCenter RidsNrrPMByron Resource RidsNrrPMBraidwood Resource
LRobinson DMcIntyre, OPA EDuncan, RIII JBenjamin, RIII AGarmoe, RIII JMcGhee, RIII JRobbins, RIII VMitlyng, RIII PChandrathil, RIII
TELEPHONE CONFERENCE CALL BYRON STATION, UNITS 1 AND 2, AND BRAIDWOOD STATION, UNITS 1 AND 2 LICENSE RENEWAL APPLICATION LIST OF PARTICIPANTS April 22, 2014 PARTICIPANTS AFFILIATIONS Lindsay Robinson U.S. Nuclear Regulatory Commission (NRC)
John Wise NRC George Thomas NRC Gautam Banerjee NRC Angie Buford NRC John Hufnagel Exelon Generating Company, LLC (Exelon)
Don Warfel Exelon Al Fulvio Exelon Pete Tamburro Exelon Jim Annett Exelon Gary Becknell Exelon Paul Cervenka Exelon Dylan Cimock Exelon Don Brindle Exelon ENCLOSURE 1
DRAFT REQUEST FOR ADDITIONAL INFORMATION BYRON STATION, UNITS 1 AND 2, AND BRAIDWOOD STATION, UNITS 1 AND 2, LICENSE RENEWAL APPLICATION April 22, 2014 The U.S. Nuclear Regulatory Commission (NRC or the staff) and representatives of Exelon Generation Company, LLC (Exelon or the applicant), held a telephone conference call on April 22, 2014, to discuss and clarify the following draft request for additional information (DRAI), Set 24, concerning the Byron Station (Byron), Units 1 and 2, and the Braidwood Station (Braidwood), Units 1 and 2, license renewal application (LRA).
DRAI 3.5.2-6 Applicability:
Byron and Braidwood
Background:
Item 24 located in SRP-LR Table 3.5-1references the GALL Report item II.A1.CP-100. The AMP recommended for item II.A1.CP-100 in the GALL Report is XI.S2, ASME Section XI, Subsection IWL, or XI.S6, Structures Monitoring.
The GALL Report AMP XI.S2, ASME Section XI, Subsection IWL, Program Description states that 10 CFR 50.55a imposes the examination requirements of ASME Code,Section XI, Subsection IWL, for Class CC reinforced and prestressed concrete containments. The GALL Report AMP Scope of Program (Program Element 1) states that the components within the scope of Subsection IWL are reinforced concrete and unbonded post-tensioning systems of Class CC containments. Subsection IWL exempts from examination portions of the concrete containment that are inaccessible such as concrete covered by liner, foundation material, or backfill or obstructed by adjacent structures or other components. However, 10 CFR 50.55a(b)(2)(viii) specifies additional requirements for inaccessible areas that requires the licensee to evaluate the acceptability of concrete in inaccessible areas when conditions exist in accessible areas that could indicate the presence of or result in degradation of inaccessible areas.
Issue:
The corresponding LRA Table 3.5.1, Item 3.5.1-24, states in the Discussion column that this item is consistent with the GALL Report and cites the Structures Monitoring (LRA Section B.2.1.34) program as the AMP for managing this aging effect and mechanism for inaccessible areas of containment concrete exposed to groundwater and soil environments, including groundwater chemistry. In the context of the LRA, the description for Item II.A1.CP-100 in the GALL Report does include containment pressure-resisting boundary concrete components in inaccessible areas above grade in an Air - Outdoor environment as well as below-grade areas in a Groundwater/Soil environment. The applicant has not addressed inaccessible components in the Air - Outdoor environment for this AMR line item. Further, the ASME Section XI, Subsection IWL program, mandated by the GALL Report and 10 CFR 50.55a for concrete containment pressure-resting boundary components in both accessible and ENCLOSURE 2
inaccessible areas, is not included as an applicable AMP for AMR line item 3.5.1-24 and the corresponding line items in LRA Table 3.5.2-4.
Request:
With regard to AMR line item 3.5.1-24 in LRA Table 3.5-1 that corresponds to Item II.A1.CP-100 in the GALL Report, provide the technical basis to justify why the ASME Code,Section XI, Subsection IWL program, recommended by the GALL Report and required by 10 CFR 50.55a for concrete containment pressure-resisting boundary components in both accessible and inaccessible areas, is not included as an applicable AMP for the line item and corresponding line items in LRA Table 3.5.2-4. Update the LRA, as necessary, based on the response to this request.
Discussion: The applicant requested clarity on the staffs concern. No edits were proposed.
This question will be sent as part of the formal request titled: RAI 3.5.2-6.
DRAI B.2.1.12-1a Applicability:
Byron and Braidwood
Background:
The response to RAI B.2.1.12-1, dated February 27, 2014, stated that existing station procedures require a general visual inspection of internal surfaces of components within the scope of the Closed Treated Water Systems program when the systems are opened. In addition, the personnel performing the inspections are qualified to Exelon job qualifications and in accordance with the Institute of Nuclear Power Operations (INPO) National Academy for Nuclear Training accredited training program.
The staff notes that, similar to the Closed Treated Water Systems program, the Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components program uses opportunistic visual inspections to monitor aging effects of component internal surfaces. However, during its AMP audit, the staff noted that the Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components program does not rely on the use of existing station procedures to identify age-related degradation. Rather, a new procedure was proposed to inspect for evidence of loss of material, leakage, cracking, and reduction of heat transfer when the internal surfaces of metallic components were made accessible.
Issue:
It is unclear to the staff how the existing station opportunistic inspections will be capable of detecting the specific applicable aging effects of components internal surfaces in the Closed Treated Water Systems program. The RAI response did not provide sufficient information regarding:
- 1. The details within the INPO training program and Exelon job qualifications that demonstrate that personnel performing the opportunistic inspections are qualified to identify the applicable aging effects, and
- 2. The details within the INPO training program, Exelon job qualifications, or existing station procedures that demonstrate that, when piping internal surfaces are made accessible, personnel will be inspecting for parameters that are capable of detecting the presence and extent of aging effects.
Request:
- 1. State the details within the INPO training program and Exelon job qualifications that demonstrate that personnel performing the opportunistic inspections are qualified to identify loss of material due to general, pitting, crevice, and galvanic corrosion; and cracking due to stress corrosion cracking.
- 2. State the details within the INPO training program and Exelon job qualifications State the process-based (in lieu of knowledge-based) controls that exist in station procedures that will ensure that, when component internal surfaces are made accessible, personnel will be inspecting for parameters that are capable of detecting the presence and extent of loss of material due to general, pitting, crevice, and galvanic corrosion; and cracking due to stress corrosion cracking. Alternatively, state the process-based controls in existing station procedures (e.g., prejob brief details, checklists within the work order) that will ensure that personnel will be inspecting for the appropriate parameters. Alternatively, propose a new procedure that specifically addresses these controls.
Discussion: The applicant and staff discussed this DRAI during a previous teleconference, which occurred April 9, 2014. The staff needed additional time to address the applicants question. The applicant asked whether a sufficiently detailed response to request 1 could effectively respond to request 2. The staff responded that, if it could be demonstrated that training and qualifications could ensure that appropriate inspections will take place, then the request for specific process-based controls in station procedures may not be necessary. The staff made minor revisions to the RAI to reflect this potential resolution to the staffs concerns.
The underlined portion indicates an addition to the original question and the strikethrough indicates a deletion. This question will be sent as part of the formal request titled: RAI B.2.1.12-1a.
DRAI B.2.1.3-4 Applicability:
Braidwood
Background:
During the audit of the operating experience program element for Braidwood Units 1 and 2, the staff found that operating experience provided by the applicant in the license renewal application (LRA) was incomplete. Specifically, the applicants onsite database contained information related to a stuck reactor vessel closure stud at the Braidwood Unit 2. Based on the information provided by the applicant during the audit, Stud No. 35 became stuck during the 1991 outage, but it had enough thread engagement to be tensioned. The applicant was able to tension the stuck stud. The stuck stud was cut at the flange level in May of 1995 in order to facilitate safer fuel transfer during refueling outages. In an effort to repair Stud Hole No. 35, the remnant of the stud was bored out in 2002. Due to human error, the stud bore hole was over
bored, and the applicant decided to abandon its repair efforts. Currently, Braidwood Unit 2 has only 53 of 54 studs operable.
Issue:
The LRA does not provide any information regarding the significant plant-specific operating experience relative to Stud No. 35 for Braidwood Unit 2. In addition, no information was provided in the LRA or during the audit on the root cause of the failure. Without a root cause, the staff is concerned that similar failures could reoccur and further challenge the integrity of the reactor vessel head.
Request:
- 1. Perform a comprehensive complete plant-specific operating experience search for Braidwood Units 1 and 2. In addition to Stud No. 35, provide search results that include all instances of stuck studs, missing threads, damaged threads, or any form of degradation in reactor pressure vessel studs, guide studs, washers, vessel flange threads, and nuts.
- 2. Provide a detailed chronology of the events related to Braidwood Unit 2, Stud No. 35.
- 3. Provide a root cause analysis related to the failure of Stud No. 35. Include corrective actions, inspection results, engineering changes, repair replacement activities related to Stud No. 35 and its respective flange hole.
- 4. Provide details of the current configuration of Stud Hole No. 35 and inspection results from 2002 to present.
- 5. Provide inspection results for Stud and Stud Hole Nos. 33, 34, 36 and 37 for Braidwood Unit No. 2 from 1995 to present.
Discussion: The applicant requested clarity on the staffs concern. Specifically, the applicant requested clarity on the first questions request for a complete plant-specific operating experience search. The staff discussed the applicants concern and agreed to change complete to comprehensive, as indicated by the editorial marks. This question will be sent as part of the formal request titled: RAI B.2.1.3-4.
DRAI B.2.1.24-1 Applicability:
Braidwood
Background:
In LRA Section B.2.1.24, the applicant provided brief discussions covering the operating experience of the Byron and Braidwood Units 1 and 2. In these discussions, it was noted that the Braidwood Unit 1 and 2 flux thimbles have experienced more wear than the Byron Unit 1 and 2 flux thimbles. Due to the observed higher wear rates, the examination frequency for both Braidwood Units was changed to every refueling outage. In addition, the operating experience provided in the LRA indicated that there have been instances when, either due to an obstruction
or due to other outage related work, all the Braidwood flux thimbles were not examined.
Furthermore, the staffs review of operating experience data base for Braidwood also revealed that eddy current examinations were not performed for certain flux thimbles, due to the presence of moisture in the flux thimble tubes.
Issue:
The applicants plant-specific operating experience discussion in the LRA section states that Braidwood Units 1 and 2 flux thimble tubes examination frequency is every outage, due to higher than anticipated wear rates. The staff noted that the applicants operating experience discussion in the LRA did not fully address the reasons for the unexpected high wear rates observed for Braidwood Units 1 and 2 or address all the issues during eddy current testing which precluded the testing of all flux thimbles. The staff is concerned about the sufficiency of the proposed AMP if these issues are not properly addressed and corrected.
Request:
- 1. Provide information in terms of root cause analyses and corrective actions which can explain and account for the higher than anticipated observed wear rates for Braidwood Units 1 and 2 flux thimble tubes.
- 2. Explain what root cause analyses and corrective actions have been performed to correct the occurrences of moisture in the thimble tubes given that these occurrences interfere in eddy current examinations of the flux thimble tubes.
- 3. Justify the adequacy of the program if the unexpected high wear rates are not accounted for and mitigated, given that there are issues related to the eddy current examinations of all flux thimble tubes (i.e., conflicting outage schedule, tube blockage, and the presence of moisture in the flux thimbles).
Discussion: The applicant requested clarity on the staffs concern. No edits were proposed.
This question will be sent as part of the formal request titled: RAI B.2.1.24-1.
DRAI 3.5.1-1 Applicability:
Byron Station (Byron) and Braidwood Station (Braidwood), all units
Background:
The license renewal application (LRA) states, in Sections B.2.1.34 and B.2.1.30, respectively, that the Structures Monitoring and ASME Section XI, Subsection IWL programs are consistent, with enhancements, with the General Aging Lessons Learned (GALL) Report chapters XI.S6, Structures Monitoring, and XI.S2, ASME Section XI, Subsection IWL. The GALL Report XI.S6 Scope of Program program element states that the program includes all structures, structural components, component supports, and structural commodities in the scope of license renewal that are not covered by other structural age management programs (AMPs) (i.e., ASME Section XI, Subsection IWE (AMP X1.S1) and ASME Section XI, Subsection IWL (AMP X1.S2)). The Parameters Monitored or Inspected program element states: If necessary for managing
settlement and erosion of porous concrete sub-foundations, the continued functionality of a site de-watering system is monitored.
The GALL Report AMP XI.S2 Program Description section states that 10 CFR 50.55a imposes the examination requirements of ASME Code,Section XI, Subsection IWL, for Class CC reinforced and prestressed concrete containments. The Scope of Program program element states that the components within the scope of Subsection IWL are reinforced concrete and unbonded post-tensioning systems of Class CC containments. Subsection IWL exempts from examination portions of the concrete containment that are inaccessible such as concrete covered by liner, foundation material, or backfill or obstructed by adjacent structures or other components. However, 10 CFR 50.55a(b)(2)(viii) specifies additional requirements for inaccessible areas that require the licensee to evaluate the acceptability of concrete in inaccessible areas when conditions exist in accessible areas that could indicate the presence of or result in degradation of inaccessible areas.
LRA Table 3.5.1, Item 3.5.1-1 corresponds to Item II.A1.CP-101 in the GALL Report for containment concrete components (Concrete: dome; wall; basemat; ring girders; buttresses; Concrete elements, all) for the aging effect of concrete cracking and distortion due to the aging mechanism of increased stress levels from settlement in a soil environment. For this item, the LRA states in the Discussion column: Consistent with NUREG-1801. The Structures Monitoring (B.2.1.34) program will be used to manage cracking and distortion of the concrete dome, wall, basemat, and buttresses in inaccessible areas of the Containment Structure exposed to a groundwater and soil environment. [Byron and Braidwood Stations] BBS do not rely upon a de-watering system to control settlement. See subsection 3.5.2.2.1.1. LRA Section 3.5.2.2.1.1 states that Item 3.5.1-1 is applicable to Byron and Braidwood and that inaccessible below grade containment concrete surfaces will be examined by the Structures Monitoring (B.2.1.34) program when excavated for any reason.
Issue:
For the aging effect of cracking and distortion due to increase in stress levels from settlement, although settlement can occur in a soil environment, the symptoms can be manifested in either an air-indoor uncontrolled or air-outdoor environment (see Table IX.E of the GALL Report for the aging effect term Cracks; distortion; increase in component stress level). NUREG-1800, Standard Review Plan for Review of License Renewal Applications for Nuclear Power Plants (SRP-LR), Section 3.5.2.2.1.1 acceptance criterion for the aging effect or mechanism of cracking and distortion due to increased stress levels from settlement states that the existing program relies on ASME Section XI, Subsection IWL to manage these aging effects on concrete components of the containment pressure-resisting boundary in both accessible and inaccessible areas.
Contrary to the scope and program descriptions for the GALL Report AMP XI.S2 and GALL Report AMP XI.S6 and the SRP-LR Section 3.5.2.2.1.1 acceptance criterion, LRA Table 3.5.1-1 does not identify the ASME Section XI, Subsection IWL as an applicable AMP. Also, LRA Table 3.5.2-4 does not identify the aging effect or mechanism corresponding to LRA Table 3.5-1, Item 3.5.1-1, for containment pressure boundary concrete component (Concrete: dome; wall; basemat; ring girders; buttresses; reinforcing steel) as an aging effect requiring management for accessible areas and for inaccessible areas; it identifies the Structures Monitoring Program as the only applicable AMP. The applicant has not provided the technical basis justifying these determinations and consistency with NUREG-1801 in the LRA for LRA Table 3.5.1, Item 3.5.1-1, and corresponding line items in LRA Table 3.5.2-4.
Request:
With regard to aging management review (AMR) line item 3.5.1-1 in LRA Table 3.5-1 that corresponds to Item II.A1.CP-101 in the GALL Report, provide the technical basis to justify: (a) why the ASME Section XI, Subsection IWL program is not listed for aging management of concrete containment pressure-resisting boundary components in accessible and inaccessible areas for this AMR line item and corresponding items in LRA Table 3.5.2-4 and (b) why the aging effect or mechanism corresponding to the AMR line item is not identified as an aging effect or mechanism requiring management in LRA Table 3.5.2-4 for containment pressure boundary concrete components in accessible areas.
Discussion: The applicant requested clarity on the staffs concern. No edits were proposed.
This question will be sent as part of the formal request titled: RAI 3.5.1-1.