IR 05000456/2016007: Difference between revisions
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| number = ML16267A152 | | number = ML16267A152 | ||
| issue date = 09/23/2016 | | issue date = 09/23/2016 | ||
| title = | | title = NRC Problem Identification and Resolution Inspection Report 05000456/2016007; 05000457/2016007 | ||
| author name = Duncan E R | | author name = Duncan E R | ||
| author affiliation = NRC/RGN-III/DRP/B3 | | author affiliation = NRC/RGN-III/DRP/B3 |
Revision as of 02:01, 2 February 2019
ML16267A152 | |
Person / Time | |
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Site: | Braidwood |
Issue date: | 09/23/2016 |
From: | Duncan E R Region 3 Branch 3 |
To: | Bryan Hanson Exelon Generation Co, Exelon Nuclear |
References | |
IR 2016007 | |
Download: ML16267A152 (28) | |
Text
UNITED STATES NUCLEAR REGULATORY COMMISSION REGION III 2443 WARRENVILLE RD. SUITE 210 LISLE, IL 60532-4352 September 23, 2016
Mr. Bryan Senior VP, Exelon Generation Company, LLC President and CNO, Exelon Nuclear 4300 Winfield Road Warrenville, IL 60555
SUBJECT: BRAIDWOOD STATION, UNITS 1 AND 2 - NRC PROBLEM IDENTIFICATION AND RESOLUTION INSPECTION REPORT 05000456/2016007; 05000457/2016007
Dear Mr. Hanson:
On August 11, 2016, the U.S. Nuclear Regulatory Commission (NRC) completed a Problem Identification and Resolution (PI&R) Biennial Inspection at your Braidwood Station, Units 1 and 2. The NRC inspection team discussed the results of this inspection with Ms. M. Marchionda and other members of your staff. The inspection team documented the results of this inspection in the enclosed inspection report. Based on the inspection samples selected for review, the inspection team determined that the Braidwood staff's implementation of the corrective action program (CAP) supported nuclear safety. In reviewing the CAP, the team assessed how well the staff identified problems at a low threshold, how well the station's process for prioritizing and evaluating these problems was implemented, and the effectiveness of corrective actions taken by the staff to resolve these problems. In each of these areas, the team determined that the station's performance was adequate to support nuclear safety. The team also evaluated other processes used to identify issues for resolution. These included the use of audits and self-assessments to identify latent problems and incorporation of lessons learned from industry operating experience into station programs, processes, and procedures. The team determined that the station's performance in each of these areas supported nuclear safety. The team determined that the station's management maintained a safety conscious work environment adequate to support nuclear safety. Based on the team's interviews and observations, employees were willing to raise concerns related to nuclear safety through at least one of the several means available. Based on the results of this inspection, the NRC identified one issue that was evaluated under the significance determination process as having very low safety significance (Green). The NRC also determined that the issue had an associated violation. Because t his finding was of very low safety significance and was entered into the CAP to address the issue, this violation is being treated as a Non-Cited Violation (NCV), consistent with Section 2.3.2 of the Enforcement Policy. This NCV is described in the subject inspection report. If you contest the violation or significance of the NCV, you should provide a response within 30 days of the date of this inspection report, with the basis for your denial, to the U.S. Nuclear Regulatory Commission, ATTN: Document Control Desk, Washington, DC 20555-0001, with copies to: (1) the Regional Administrator, Region III; (2) the Director, Office of Enforcement, U.S. Nuclear Regulatory Commission, Washington, DC 20555-0001; and (3) the NRC Resident Inspector at Braidwood Station. In accordance with Title 10 of the Code of Federal Regulations (10 CFR) 2.390, "Public Inspections, Exemptions, Requests for Withholding,"
of the NRC's "Rules of Practice," a copy of this letter, its enclosure, and your response (if any) will be available electronically for public inspection in the NRC's Public Document Room or from the Publicly Available Records System (PARS) component of the NRC's Agencywide Documents Access and Management System (ADAMS). ADAMS is accessible from the NRC Web site at http://www.nrc.gov/reading-rm/adams.html (the Public Electronic Reading Room).
Sincerely,/RA/
Eric R. Duncan, Chief Branch 3 Division of Reactor Projects
Docket Nos. 50-456 and 50-457
License Nos. NPF-72 and NPF-77
Enclosure:
IR 05000456/2016007; 05000457/2016007 cc: Distribution via ListServ
Enclosure U.S. NUCLEAR REGULATORY COMMISSION REGION III Docket Nos: 50-456; 50-457 License Nos: NPF-72; NPF-77 Report No: 05000456/2016007; 05000457/2016007 Licensee: Exelon Generation Company, LLC Facility: Braidwood Station, Units 1 and 2 Location: Braceville, IL Dates: July 11 through August 11, 2016 Inspectors: D. Betancourt, Resident Inspector, Team Leader M. Holmberg, Senior Reactor Inspector J. Bozga, Reactor Inspector G. O'Dwyer, Reactor Inspector
Approved by: E. Duncan, Chief Branch 3 Division of Reactor Projects 2
SUMMARY
Inspection Report (IR) 05000456/2016007; 05000457/2016007; 07/11/2016 - 08/11/2016;
Braidwood Station, Units 1 and 2; Biennial Problem Identification and Resolution Inspection Report. This team inspection was performed by three U.S. Nuclear Regulatory Commission (NRC) regional inspectors and the Braidwood resident inspector. One Green finding was identified by the team. This finding was considered a non-cited violation (NCV) of NRC regulations. The significance of most findings is indicated by their color (Green, White, Yellow, Red) using Inspection Manual Chapter (IMC) 0609, "Significance Determination Process." The NRC's program for overseeing the safe operation of commercial nuclear power reactors is described in NUREG-1649, "Reactor Oversight Proc ess," Revision 6, dated July 2016.
Problem Identification and Resolution On the basis of the samples selected for review, the team determined that implementation of the corrective action program (CAP) at Braidwood Station, Units 1 and 2, was generally good. The licensee demonstrated a low threshold for identifying problems and entering them into the CAP.
Items entered into the CAP were screened and prioritized in a timely manner using established criteria; were properly evaluated commensurate wi th their safety significance; and corrective actions were generally implemented in a timely manner, commensurate with the safety significance of the issue. The use of operating experience was integrated into daily activities.
Audits and self-assessments were performed at appropriate frequencies and at an appropriate level to identify issues. On the basis of the interviews conducted during the inspection, workers at the site expressed a willingness to raise safety concerns without the fear of retaliation. The team did not identify any impediment to the establishment of a safety conscious work environment at Braidwood Station. On the basis of the interviews conducted, workers at the site expressed a willingness to enter safety concerns directly into the CAP or make safety concerns known through their supervisors. Some non-supervisory personnel questioned the value of identifying concerns for what they perceived as low level issues.
Cornerstone: Mitigating Systems
- Green.
A finding of very low safety significance and an associated NCV of Title 10 of the Code of Federal Regulations (CFR) Part 50, Appendix B, Criterion V, "Instructions, Procedures, and Drawings," was self-revealed when the licensee failed to prescribe essential service water (SX) system operating and/or surveillance procedures appropriate to the circumstances. Specifically, the licensee failed to provide SX operating procedure guidance to limit the closure position of valves 1SX007, 2SX007 and 0SX007, such that cavitation-induced damage/failure of components did not occur or to establish a procedure to monitor and correct cavitation-induced damage prior to component failure associated with the operation of these valves. Consequently, a through-wall leak occurred downstream of valve 1SX007 that was caused by cavitation-induced wall loss at the neck of the pipe flange supporting this valve. The licensee replaced the damaged valve and piping and entered this issue into their CAP as Issue Report (IR) 02697962.
The team determined that the performance deficiency was more than minor because it was associated with the Equipment Performance attribute of the Mitigating Systems cornerstone and adversely affected the cornerstone objective of ensuring the availability, reliability, and capability of systems that respond to initiating events to prevent undesirable consequences.
Specifically, continued operation of the SX007 valves without monitoring or correcting cavitation-induced damage could result in a more significant failure resulting in the loss of an SX train and/or an internal flooding event. The team determined that this finding was of very low safety significance because although it was determined to be a deficiency affecting the design or qualification of a mitigating structure, system, and component (SSC), the operability or functionality of the component was not affected. The team did not identify a cross-cutting aspect for this finding because the finding did not reflect current licensee performance. (Section 4OA2.1(3))
4
REPORT DETAILS
OTHER ACTIVITIES
Cornerstone:
4OA2 Problem Identification and Resolution
The activities documented in Sections
.1 through .4 constituted one biennial sample of problem identification and resolution as defined in Inspection Procedure (IP) 71152. .1 Assessment of the Corrective Action Program Effectiveness
a. Inspection Scope
The team reviewed the licensee's corrective action implementing procedures and attended corrective action program (CAP) meetings to assess the implementation of the CAP by site personnel. The team reviewed risk and safety significant issues in the licensee's CAP since the last NRC PI&R inspection, completed in August 2014.
The issues selected were represented in all of the NRC's Reactor Oversight Process (ROP) cornerstones. The
team reviewed a sample of issues identified through NRC generic communications, department self-assessments, licensee audits, operating experience reports, and NRC documented findings. Additionally, the team reviewed issue reports (IRs) generated as a result of daily plant activities. The team also reviewed a sample of work orders (WOs), performance indicator reports, system health reports, and completed causal evaluations from the licensee's various methods, which included root cause evaluations (RCEs) and apparent cause evaluations (ACEs). A five year review related to leaks in the essential service water (SX) system was also performed to assess the licensee's efforts in monitoring for system degradation due to aging. The team also performed a partial system walkdown of the SX system, auxiliary feedwater system, and equipment contained in the lake screenhouse to determine whether the condition of the equipment was appropriately represented in plant health reports, WOs, and the CAP. During these reviews, the team evaluated whether the licensee's actions were in compliance with the facility's CAP and Title 10 of the Code of Federal Regulations (CFR) Part 50, Appendix B requirements. Specifically, the team assessed whether licensee personnel were identifying station issues at the proper threshold, whether identified issues were being entered into the CAP in a timely manner with the appropriate significance characterization, and whether identified issues were appropriately prioritized for resolution. The team also assessed whether the licensee assigned the appropriate evaluation method to ensure the proper determination of root, apparent, and contributing causes. Finally, the team evaluated the timeliness and effectiveness of corrective actions (CAs) for selected IRs, completed causal evaluations, and previously identified NRC findings and NCVs. Documents reviewed are listed in the Attachment.
b. Assessment
- (1) Effectiveness of Problem Identification Based on the results of the inspection, the team concluded that problem identification was generally effective. Based on the information reviewed, including initiation rates of IRs and information from interviews, the team determined that the licensee had an appropriate and low threshold for initiating IRs and that all station departments were active in generating IRs. The team also determined that the station was generally effective at trending low level issues to prevent larger issues from developing. The team assessed the effectiveness of problem identification as adequate to support nuclear safety. Findings No findings were identified.
- (2) Effectiveness of Prioritization and Evaluation of Issues Based on the results of the inspection, the team concluded that the prioritization and evaluation of issues was generally appropriate. The team determined that station ownership committee (SOC) and management review committee (MRC) meetings were generally thorough and meeting participants were actively engaged and well-prepared.
The results of SOC and MRC meetings were also determined to accurately prioritize issues. Higher level evaluations, such as RCEs and ACEs, were generally technically accurate; of sufficient depth to effectively identify the cause(s); and generally considered extent of condition, generic implications, and previous occurrences in an adequate manner. However, the team found one example for which a contributing cause in a RCE did not include an assigned corrective action (CA). The licensee entered this issue in their CAP as IR 02696896, "No Corrective Action Tracking Item (ATI) for Root Cause Identified for Contributing Cause," and provided a justification as to why a CA was not needed to address the contributing cause. The team reviewed the IR and associated justification and determined the actions were appropriate. Unresolved Item (URI): Identification of Significant Conditions Adverse to Quality in Accordance with the Quality Assurance Topical Report
Introduction:
The team identified an Unresolved Item (URI) regarding the identification of significant conditions adverse to quality (SCAQs) in the CAP. Specifically, the team determined that the CAP, as implemented by PI-AA-125,"Corrective Action Program," and PI-AA-120, "Issue Identification and Resolution," appeared to not ensure that SCAQs were appropriately identified and corrected to prevent recurrence.
Description:
Chapter 16 of the Braidwood Quality Assurance Topical Report (QATR) describes the licensee's program to identify and correct conditions adverse to quality. Procedure PI-AA-125 implemented the requirements established in the QATR. During this inspection, the team reviewed the CAP procedure to determine how it ensured that SCAQs were identified and resolved. As part of this review, the team requested a copy of identified SCAQs over the last two years and were subsequently informed that none had been identified.
Issue #1 The team reviewed the QATR and noted that the following requirements applied:
- Section 2.1 stated that measures are required to assure that the cause of any significant condition adverse to quality is determined and that corrective actions to prevent recurrence [CAPRs] are implemented.
- Section 2.2.1, "Significant Conditions Adverse to Quality," stated that in cases of significant conditions adverse to quality the cause of the condition must be determined and documented, the resolution determined and documented, and the corrective actions taken and documented to prevent recurrence.
- Step 2.116 of Appendix D of the QATR defined a significant condition adverse to quality as, "a condition, which if left uncorrected, could have a serious effect on safety or operability." The team reviewed procedure PI-AA-125 and PI-AA-120, which delineated the process for the identification and screening of issues, and identified that these procedures did not include a provision to classify an identified issue as a SCAQ. The team also noted that the definition of a SCAQ was not being used to determine whether a RCE was needed; therefore, a CAPR did not appear to be directly associated with a SCAQ. Based on the above, the team questioned whether CAP procedure PI-AA-125 prescribed a process through which SCAQs were identified and documented, and corrective actions taken and documented to prevent recurrence as required by the QATR. The team discussed this issue with the licensee. The licensee stated that since the terms SCAQ and condition adverse to quality (CAQ) were not explicitly defined in NRC regulations, that they had created a graded approach of significance level and likelihood (which included risk and uncertainty) to ensure that items were properly dispositioned and the level of resources and rigor applied appropriately followed the CAP governance. The licensee further stated that the graded approach, along with a well-trained management team that has nuclear safety and conservative decision-making as their primary focus, provided for an effective CAP. Finally, the licensee stated that even if a CAPR was not issued, that CAs would prevent recurrence of the events entered into the CAP.
The team questioned whether a CAPR and a CA would be equally effective as corrective actions to prevent the recurrence of issues dispositioned in the CAP. The licensee agreed that the two types of CAs were treated differently. For example, 1) the MRC was required to assess changes to the intent of a CAPR, which was not required for a CA, 2) an effectiveness review may not necessarily be assigned if an issue was corrected using only a CA, and 3) if there was a desire to suspend or modify a previously implemented CAPR, then a risk analysis and MRC concurrence was necessary; which was not the case for a CA. At the end of the inspection it was not clear how procedures PI-AA-120 and PI-AA-125 ensured that SCAQs were identified and documented, and corrective actions taken and documented to prevent recurrence. Additiona lly, it was not clear if the licensee's process implemented the requirements in the QATR.
Resolution of this issue will be based on additional NRC review to determine if a violation of NRC requirements occurred.
Issue #2 The team identified an example of a potential SCAQ for which the licensee implemented CAs that failed to prevent the issue from recurring. Specifically, for a December 30, 2013 oil leak on the inboard bearing housing of the Unit 1 Train B (1B) SX pump, the licensee's CAs restored operability, but were not adequate to prevent recurrence and consequently an oil leak recurred on November 18, 2014. Both of these oil leaks resulted in the licensee declaring the 1B SX pump inoperable and required entry into Technical Specification (TS) Limited Condition for Operation (LCO) 3.7.8 (reference Non-Cited Violation (NCV)05000456/2014005-02; Failure to Correct Undersized Essential Service Water Pump Bearing Casing Drain Line Resulted in System Inoperability). The team questioned whether the oil leaks on the inboard pump bearing housing of the 1B SX pump should have been categorized as a SCAQ as defined in the licensee's QATR. Specifically, QATR Section 2.116, "Definitions," defined a SCAQ as, "A condition, which if left uncorrected, could have a serious effect on safety or operability."
In this case, although the oil leakage at the inboard pump bearing housing first identified in 2013 was specifically addressed through repairs, the CAs were not adequate to prevent recurrence and a second oil leak occurred in 2014 that caused a serious effect on the operability of the 1B SX pump (i.e. rendered the 1B SX pump inoperable). Additionally, the team considered this issue to have a potentially "serious" effect on operability, because if left uncorrected the oil leakage would have depleted the oil supply reservoir resulting in a loss of lubrication to the pump shaft bearings that could damage the pump shaft and require substantial repairs to return the pump to operation.
The team discussed this issue with the licensee. The licensee's response was that because there was no potential for common cause failure, and there was no significant change to plant risk after removing the 1B SX pump from service, the events discussed above were appropriately screened as Significance Level 3 issues. The licensee also stated that a SCAQ would typically be assigned for a Significance Level 1 or 2 issue, but even if an issue was assigned this level of significance, it would not necessarily be categorized as a SCAQ. At the end of the inspection it was not clear how the definition of SCAQ in the QATR was utilized in the CAP. Resolution of this issue will be based upon additional NRC review and a determination of whether the failure of the 1B SX pump constituted a SCAQ as defined in the QATR. (URI 05000456/2016007-01; 05000457/2016007-01, Identification of SCAQs in Accordance with the QATR)
- (3) Effectiveness of Corrective Actions Based on the results of the inspection, the team concluded that the CAs appeared generally appropriate for the identified issues. The CAs associated with selected NRC documented findings and violations, as well as licensee-identified violations, were generally appropriate to correct the problem and were implemented in a timely manner. Problems identified through RCEs or ACEs were generally resolved in accordance with CAP procedures.
Observations Five Year Review of Essential Service Water System Issues That May be Age-Related (IP 71152 Section 03.05.m) The team performed a walkdown of accessible portions of the Unit 1 and Unit 2 SX system in the lake screenhouse (including the chemical addition system) and the accessible SX system piping in the auxiliary building, focusing on areas that had been subject to through-wall leakage and/or repair activities, to identify issues related to potential aging of structures, systems, and components (SSCs).
The exterior of SX system piping was found to be generally clean and painted with no visual evidence of through-wall leakage. There was also no oil leakage observed at any of the SX pump bearings.
Additionally, the team reviewed photographs of a component cooling water (CC) system heat exchanger (HX) and an emergency diesel generator jacket water cooler with the end-bells removed to assess aging degradation mechanisms that affected the internal condition of the SX piping supply at these locations.
From those photographs, it was visually discernible that the interior surface of these HXs and the SX supply piping were covered with a relatively uniform corrosion layer intermixed with irregular formations (tubercles). The team considered this condition typical and acceptable for an SX system in commercial service for over 30 years.
The team performed a review of CAP records, focusing on SX system performance over the past five years, to evaluate the CAs following leakage events. Specifically, the team focused on aging issues related to leakage events to ensure CAs were complete, accurate, and timely; considering extent of condition; were appropriately classified and prioritized; correctly identified root and contributing causes; were appropriately focused on actions that resulted in the correction of the identified problem; identified negative trends; adequately evaluated operating experience for applicability; and communicated applicable lessons learned to appropriate organizations. In general, the licensee implemented effective CAs for the issues reviewed. However, an issue of concern was identified that indicated opportunities existed to improve CAP effectiveness. This example was associated with cavitation-induced degradation and leakage that occurred downstream of the 1SX007 valve in May of 2015.
Findings Operation of SX System Valves Results in Cavitation Damage and Pipe Leakage
Introduction:
A self-revealed finding of very low safety significance (Green) and an associated NCV of 10 CFR Part 50, Appendix B, Criterion V, "Instructions, Procedures, and Drawings," was identified for the licensee's failure to prescribe SX system operating and/or surveillance procedures appropriate to the circumstances. Specifically, the licensee failed to provide SX system operating procedure guidance to limit the position of valves 1SX007, 2SX007 and 0SX007 to preclude the cavitation-induced damage/failure of components or to establish a procedure to monitor and correct cavitation-induced damage prior to component failure associated with the operation of these valves.
Description:
During cold weather conditions, the overall flow requirements for the SX system is very low and, as a consequence, the licensee reduces SX system flow through the CC HXs by throttling closed SX system valves 1SX007, 2SX007 and 0SX007 at the outlet of the CC HX. The throttling of these butterfly-type valves has resulted in cavitation-induced damaged (e.g. wall loss and through-wall leakage) at the 2SX007 valve body and 1SX007 downstream piping flange in the past. The team was concerned that continued operation of the SX007 valves in this manner could result in a more significant event; including the loss of an SX system train and/or internal flooding. Cavitation is the sudden vaporization and condensation of a liquid downstream of a valve due to localized low pressure zones. When flow passes through a throttled valve, a localized low pressure zone forms immediately downstream of the valve. If the localized pressure falls below the vapor pressure of the fluid, the liquid vaporizes (boils)and forms a vapor pocket. As the vapor bubbles flow downstream, the pressure recovers, and the bubbles violently implode causing localized stresses in the piping walls and valve body that can result in severe pitting of the surrounding material. For example, valve vendor guidance document, "Flowserve Cavitation Control," stated, "Cavitation damage destroys both piping and control valves, often resulting in catastrophic failure. It causes valves to leak by eroding seat surfaces. It can drill holes through pressure vessel walls. Even low levels of cavitation will cause cumulative damage, steadily eroding parts until the part is either repaired, or it fails." The team noted that many valve vendors provide guidance to properly size and select flow control valves to avoid operation that results in cavitation. On April 22, 2003, the licensee replaced valve 1SX007 due to seat leakage using WO 00452527. During this valve replacement, the licensee documented the identification of "major corrosion damage" on the east side flange (downstream side of valve) in the closure section of the WO.
On April 15, 2008, the licensee identified that the as-found seating torque for motor-operated butterfly valve 2SX007 exceeded the acceptance criteria. The licensee removed the valve and identified portions of the carbon steel valve body that had eroded away as a result of cavitation-induced erosion (IR 00763398). Specifically, the licensee concluded that the flow of water around the valve disc during the months when the valve was nearly closed during cold weather conditions created a low pressure region resulting in the formation and collapse of bubbles (cavitation) and resultant damage.
On May 17, 2015, the licensee identified a 0.125 gallon per minute (gpm) leak from a through-wall hole downstream of valve 1SX007 at the neck of the 24-inch diameter pipe flange supporting this valve. The licensee replaced the pipe and sent the removed pipe section to a vendor for examination. The vendor identified a patch of localized internal thinning that measured 18 inches in circumferential extent and 2 inches in axial extent. The vendor report stated, "The sponge-like jagged appearance is typical of cavitation damage." The vendor did not attempt to determine the extent of material lost in the through-wall direction, but took a photograph of a cross-section through the damaged area. Based upon this photograph, which included an overlay, the team observed that the loss of material reached 0.75 inches in the 1.25 inch thick pipe-wall for this cross-section of flange/pipe wall.
The damage to the piping and valves in these examples was the result of operation with the SX007 valves in a significantly throttled position, which created cavitation conditions.
During cold weather conditions with colder supply water, the licensee reduced SX flow through the CC HX by throttling closed on the outlet valves. Specifically, Steps F.1.i and F.2.d of procedure BwOP CC-1, "Component Cooling Water System Startup," directed operators to adjust the position of SX007 valves as required to maintain CC HX outlet temperature between 70-100 degrees Fahrenheit without restrictions. Although the licensee was aware of this problem, procedure BwOP CC-1 was not revised to limit closure (throttling) of these butterfly valves to prevent cavitation. The team was concerned that without additional guidance, procedure BwOP CC-1 was inadequate because continued operation of these valves in this manner would result in cavitation-induced damage to the valves and downstream piping. The licensee entered this issue into their CAP as AR 02697962. The licensee stated that the cavitation-induced damage associated with the SX007 valves was a long-standing issue and various options to address this concern had been considered. Specifically, the licensee considered revising the operating procedure to allow lower temperature SX operation and avoid throttling these valves to the point that cavitation occurred; however, this option was not selected.
Additionally, the licensee considered implementation of a design change to install a bypass valve to avoid throttling SX007 valves into the cavitation range, but again this option was not selected. Instead, the licensee stated that they relied on the Raw Water Program to monitor cavitation damage. Specifically, in IR 02701110, the licensee stated that WO 00452527 closure comments should have been entered into the CAP and because of this error a formal evaluation of the observed condition and potential extent of condition were not completed as required by the Generic Letter 89-13 Program and Raw Water Program.
The licensee also identified 23 other SX system locations potentially susceptible to cavitation-induced damage and had actions planned to perform visual inspections or replacements of these components. However, as of August 9, 2016, the licensee had not updated the Raw Water Program to monitor these areas. Instead, the licensee was
relying on engineering judgment to schedule visual inspections of the SX007 downstream piping and this inspection did not include the SX007 valve body areas subject to cavitation damage. Specifically, the licensee determined that it was not possible to perform ultrasonic examinations of the areas affected by cavitation on the SX007 valves or downstream flange/pipe and instead assigned an Action Tracking Item to perform internal visual inspections of the SX007 segments of pipe in February and September of 2017. Further, these visual inspections had been deferred from the original planned inspection interval of one year based upon engineering judgment. The team could not independently confirm that engineering judgment would support the increased inspection interval to ensure that additional SX component leakage or failures would not occur. The licensee entered this issue into their CAP as IR 02697529 and concluded that the SX piping segments subject to cavitation damage were operable because currently there was no leakage at these locations. The licensee also assigned a CA to develop an evaluation for the material condition of these piping segments.
Analysis:
The team determined that the licensee's failure to prescribe SX system operating procedures appropriate to the circumstances and limit the position of valves 1SX007, 2SX007 and 0SX007 to avoid cavitation damage and/or implement a procedure to monitor and correct this damage prior to component failure was contrary to 10 CFR Part 50, Appendix B, Criterion V, and was a performance deficiency.
This finding was determined to be of more than minor because it was associated with Mitigating Systems cornerstone attribute of Equipment Performance and adversely affected the cornerstone objective of ensuring the availability, reliability, and capability of systems that respond to initiating events to prevent undesirable consequences. Specifically, continued operation of the SX007 valves with an inadequate operating procedure could result in continued cavitation-induced damage resulting in a more significant failure such as the loss of an SX system train and/or an internal flooding event which would adversely affected the capability of the SX system to respond to initiating events to prevent undesirable consequences. The team determined the finding could be evaluated using the Significance Determination Process in accordance with Inspection Manual Chapter (IMC) 0609, "Significance Determination Process," Attachment 0609.04, "Initial Characterization of Findings," dated June 19, 2012, and Appendix A, Exhibit 2 - Mitigating Events Screening Questions, dated June 19, 2012. The team answered "Yes" to Question A.1 of Exhibit 2 of Appendix A of IMC 609 because the finding was a deficiency affecting the design or qualification of a mitigating SSC, but the affected SSC maintained operability or functionality. Therefore, the team determined that this finding was of very low safety significance (Green). The team did not identify a cross-cutting aspect associated with this finding because the issue did not reflect current performance.
Enforcement:
Title 10 CFR Part 50, Appendix B, Criterion V, "Instructions, Procedures, and Drawings," states, in part, that activities affecting quality shall be prescribed by documented instructions, procedures, or drawings, of a type appropriate to the circumstances and shall be accomplished in accordance with these instructions, procedures, or drawings. Contrary to the above, prior to May 17, 2015, the licensee failed to prescribe SX system operating and/or surveillance procedures appropriate to the circumstances for SX system operation, which was an activity affecting quality. Specifically, the licensee failed to provide SX system operating procedure guidance to limit the position of valves 1SX007, 2SX007 and 0SX007 such that cavitation-induced damage/failure of components did not occur and/or the licensee failed to establish a procedure to monitor and correct cavitation-induced damage prior to component failure associated with operation of these valves. Consequently, on May 17, 2015, a through-wall leak occurred downstream of valve 1SX007 that was caused by cavitation-induced wall loss at the neck of the pipe flange supporting this valve. Because this finding was of very low safety significance and was entered into the licensee's CAP as IR 02697962, the
associated violation is being treated as a NCV , consistent with Section 2.3.2 of the NRC Enforcement Policy. (NCV 05000456/2016007-02; NCV 05000457/2016007-02; Operation of SX System Valves Results in Cavitation Damage and Pipe Leakage)
.2 Assessment of the Use of Operating Experience
a. Inspection Scope
The team reviewed the licensee's implementati on of their Operating Experience (OE) program. Specifically, the team reviewed OE program procedures; attended CAP meetings to observe the use of OE information, completed evaluations of OE-related issues and events; and selected monthly assessments of the OE composite performance indicators. The objective of this review was to determine whether the licensee was effectively integrating OE into the performance of daily activities, whether evaluations of issues were appropriate and conducted by qualified personnel, whether the licensee's program was sufficient to prevent future occurrences of previous industry events, and whether the licensee effectively used the information in developing departmental assessments and facility audits.
The team also assessed if corrective actions, as a result of OE, were identified and implemented in an effective and timely manner. b. Assessment In general, OE was appropriately utilized at Braidwood Station. Industry OE was disseminated across the various plant departments. No issues were identified during the team's review of licensee OE evaluations. The team also verified that the use of OE in formal CAP products, such as RCEs and ACEs, was appropriate and adequate.
Generally, OE that was applicable to the station was thoroughly evaluated and actions were implemented in a timely manner to address any issues that resulted from the evaluations.
Findings No findings were identified.
.3 Assessment of Self-Assessments and Audits
a. Inspection Scope
The team assessed the licensee's ability to identify and enter issues into the CAP, prioritize and evaluate those issues, and implement effective corrective actions, resulting from departmental self-assessments and audits. b. Assessment Based on the results of the inspection, the team did not identify any issues of concern regarding Braidwood Station's ability to conduct self-assessments and audits.
Assessments were conducted in accordance with plant procedures, were generally thorough and intrusive, adequately covered the subject area, and were effective at identifying issues and enhancement opportunities at an appropriate threshold. Identified issues were entered into the CAP with the appropriate significance characterization and corrective actions were completed and/or scheduled to be completed in a timely manner commensurate with their safety significance.
Findings No findings were identified.
.4 Assessment of Safety Conscious Work Environment
a. Inspection Scope
The team assessed the licensee's safety conscious work environment through a review of the facility's Employee Concerns Program (ECP) implementing procedures, discussions with coordinators of the ECP, interviews with personnel from various
departments, and a review of IRs. Additionally, the site's most recent safety culture assessment was reviewed.
b. Assessment Based on the results of the inspection, the team did not identify any issues that suggested conditions were not conducive to the establishment and existence of a safety conscious work environment at Braidwood Station. Information obtained during the interviews indicated that an environment was established where employees felt free to raise nuclear safety issues without fear of retaliation; were aware of and generally familiar with the CAP and other processes, including the ECP and the NRC, through which concerns could also be raised; and safety significant issues could be freely communicated to supervision.
Observations All interviewees indicated that they could, and would, bring up safety issues with supervision, management, or through the CAP. None of the interviewed personnel stated that there was intimidation or retaliation, or a perception of such, when they raised issues. Those same interviewees predominantly stated that although they would utilize the ECP, they saw no need to use that program for issue reporting. Several of those interviewed questioned the value of identifying concerns for what they perceived as low level issues. For nearly all departments interviewed, there was a desire for better communication and feedback on issues entered into the CAP which were not addressed or were deferred.
Findings No findings were identified.
4OA6 Management Meetings
.1 Exit Meeting Summary On August 11, 2016, the team presented the inspection results to the Site Vice President, Ms. M. Marchionda, and other members of the licensee's staff.
The licensee acknowledged the issues presented. The team confirmed that none of the potential report input discussed was considered proprietary and that all material considered proprietary by the licensee was returned. ATTACHMENT:
SUPPLEMENTAL INFORMATION
KEY POINTS OF CONTACT
Licensee
- M. Marchionda, Site Vice President
- A. Ferko, Plant Manager
- J. Bashor, Engineering Director
- P. Rausch, Operations Director
- S. Reynolds, Regulatory Assurance Manager
- H. Rosenboom, CAP Manager
- R. Schliessmann, NRC Coordinator
- U.S. Nuclear Regulatory Commission E. Duncan, Chief, Reactor Projects Branch 3
LIST OF ITEMS OPENED, CLOSED, AND DISCUSSED
Opened
- 05000456/2016007-01 URI Identification of SCAQs in Accordance with the QATR (Section 4OA2.1(2))
- 05000457/2016007-02; NCV Operation of SX System Valves Results in Cavitation Damage and Pipe Leakage (Section 4OA2.1(3))
Closed
- 05000457/2016007-02; NCV Operation of SX System Valves Results in Cavitation Damage and Pipe Leakage (Section 4OA2.1(3))
Discussed
- 05000456/2014005-02 NCV Failure to Correct Undersized Essential Service Water Pump Bearing Casing Drain Line Resulted in System
Inoperability (Section 4OA2.1(2))
LIST OF DOCUMENTS REVIEWED
The following is a list of documents reviewed during the inspection.
- Inclusion on this list does not imply that the NRC team reviewed the documents in their entirety, but rather, that selected sections of portions of the documents were evaluated as part of the overall inspection effort.
- Inclusion of a document on this list does not imply NRC acceptance of the document or any part of it, unless this is stated in the body of the inspection report.
Procedures
- Number Description or Title Revision
- PI-AA-115 Operating Experience Program 1
- PI-AA-126 Self-Assessment and Benchmark Program 1
- PI-AA-120 Issue Identification and Screening Process 6
- PI-AA-125-1001 Root Cause Analysis Manual 2
- PI-AA-125-1003 Apparent Cause Evaluation Manual 3 BwMS 3350-009 Auxiliary Building Floor Drain Basket Surveillance
- NO-AA-110 Quality Assurance Topical Report 90
- LS-AA-116 Nuclear Safety Review Board 12
- LS-AA-106 Plant Operations Review Committee 10
- EI-AA-101-1001 Employee Concerns Program Process 14
- ER-AA-340 Generic Letter-8913 Program Implementing
Procedure
- ER-AA-5400-1001 Raw Water Corrosion Program Guide 0
- ER-AA-340 Generic Letter-8913 Program Implementing
Procedure
- ER-AA-5400-1001 Raw Water Corrosion Program Guide 8
Action Request
- Number Description or Title
- 02457576 AFI IN
- 02542819 2AF01PB - Diesel Driven Auxiliary Feed Pump 2B
- VD-100 Discrepancy
- VA-403 Discrepancy
- 02680210 Problem Identification & Resolution DEF #5: Generic Information Used for Operability
- 01697622 EACE For Through-Wall Leak on 1SX25AA
- 02487895 1B Turbine Driven Feedwater PP Improper Response on Pump Start
- 02501820 Thru Wall Leak Downstream of 1SX007
- 02582928 Voids Found During 2AF01PA SX Suction Piping Ultrasonic Testing Exam
- 02585155 Receipt of 2015 American Nuclear Insurers Inspection Report
- 02615400 Inadequate Test For Auxiliary Feedwater Pump Suction Press Loops
- 02618488 NOS ID:
- Parts/Material Control and Traceability
- 02642611 1B Auxiliary Feedwater Pump Non-
- Inservice Test Program Vibration Monitoring
- 02643379 2016 DCS - Fuel Assembly G28T Grid Strap Issue
- 01666784 1SX01PA-M - Essential Service Water Pump 1A Motor
- 01667656 1SX010 Diagnostic Testing Results
- 01667849 Unable to Perform Scheduled Leak Inspection
- 01688431 Monthly Chemistry Sampling Requirements Not Completed -
- 01694561 Low DO In Braidwood Lake
- 02383230 Jacket Water Heater Would Not Turn Off
- 02457552 Area for Improvement in
- WM.1, Shortfalls In Parts and Material Process
- 02478824 1CB01MA - 1A Feedwater Pump Suction Strainer
- 02479760 U1 Refuel Cavity Sulfate Above Limit
- 02238242 BWAP 1110-3 Flood Measure Non-Conservative
- 02385204 NRC Questions on Auxiliary Building Flood Evaluation
- 02419145 3Q14 - NRC Non-Cited Violation -
- CLS 2010 Violation for Floor Drains
- 02413941 EACE
- 1601971 (1B Essential Service Water System Oil Leak) Not Complete
- 02413452 Oil Leak from 1B Essential Service Water System Pump - 1SX01PB
- 02483208 NRC Bulletin 88-09 Not Incorporated into Updated Final Safety Analysis Report
- 02537481 2Q15 - NRC S/L 4 NCV - Not Updating Updated Final Safety Analysis Report for Bulletin 88-09
- 02519208 2A DOST Tank Valve 2DO001A Leakage
- 02582918 3Q15 NRC Licensee Identified Violation - Failure to Establish Performance Criteria
- 02482746 As Found Testing of 1CV8117 Failed Inservice Test
- 02391778-04 Rework Investigation for 0SX115C Leak
- 02610048-02 Rework Investigation for 0SX147
- 01164026 Failed Post-Maintenance Test WO#1359794 Boric Acid Leakage -
2RH0 2AB
- 01177608 2WF06PA Discharge Line is Leaking
- 01215761 2A Residual Heat Removal Pump Seal and Bolt Leak
- 02504226 Sulfur Reducing Bacteria Higher than Goal
- 01236673 0SX115A Leak through Valve Stem
- 01282930 2FT-0435-1 Drop per 5 Minute Leak Boric Acid
- 01327178 1SI087, Pipe Under Valve Covered with Boric Acid
- 01334192 Leakage at 2VF87BA
- 01424937 2RH03AB-8" Boric Acid Residue in ASME Bolted Connection
- 01472355 D-1 Fuel Building Door Not Opening From Inside
- 01472889 1A Residual Heat Removal Service Water Cubicle Cooler Leaking
- 01486881 OPS ID:
- 1SD045K Steam Leak (1A Main Steam Isolation Valve Room)
- 01498331 1SD054B Steam Leak
- 01503914 Borated Water Leak - Unknown Location
- 01542372 SX Piping Leak - 1SX27DA
- 01594572 Dry Boric Acid at Pump Seal on 1CV03P
- 01600510 30 DPM Outboard Bearing Leak
- 01599672 30 DPM Outboard Bearing Leak
- 01604876 2RY8028 Body to Bonnet Leak
- 01631448 1SX01PA Oil Pump Discharge Line Flange Weeping Oil
- 01659136 Pinhole Leak Upstream of 1AF017A
- 01661987 2B Residual Heat Removal Pump Seal Leak
- 01673324 0SX02P Leak
- 01696142 60-80 DPM Leak Fitting Downstream of 0TW081
- 02476256 2SX01FB Packing Leak
- 02561390 1SX131-PLV Downstream Piping Has a Leak
- 02570122 Dry Boric Acid on 1AB03P Discharge Isolation Valve
- 02398394 NRC Question on Design Basis for Aux Building Flooding
- 02672421 2FW12016R Hanger Not Supporting Pipe (2FW12015R
- 02506005 Documentation of EDG Exhaust Pipe Minimum Wall
- 02503899 NRC Concern for Flood Seal
- PBI 17793
- 02672157 2Q13 NRC Non-Cited Violation - Inadequate Control of Special Lifting Device
- 02482749
- 02421520 Failure of Embed Plate for Support M-1MS01027S
- 02545534 Potential Updated Final Safety Analysis Report Revision to Active Valve List
- 02401659 Adverse Trend in Engineering Cap Performance
- 02491314 Trend in Equipment Issues Associated with Cranes and Hoists
- 02502467 Permanent Scaffolds Lost Tracking Numbers
- 02538535 2SX01PA ASME Issues
- 02572587 2015 Equipment Reliability Evaluation
- 02644532 NRC Identified - Implementation of
- 02454721 4Q14 - NRC Non-Cited Violation - Incorporating Plant Mods into Design Basis for
- PMP 02397321 NRC Question on PMP Event Impact to Main Steam Isolation Valve Rooms
- 02396124 Effect of Site Flood on Turbine Building
- 02482480 CCR: 'A' Crew Surveillance Review
- 02482267 NRC Unresolved Item ASME Section XI Pressure Test Indication Resolution
- 02537499 2Q15 - NRC Non-Cited Violation* - Section XI Code Pressure Testing
- 02400960 The UHS Elevation at Top Of The East Slope Found Less Than 590
- Feet
- 02582897 3Q15 NRC Licensee-Identified Violation For Ultimate Heat Sink Berm Height Not in Procedures
- 02482365
- OSP-A IWF Pipe Support 1SI19013X Rotated Out of Tolerance
- 02414147 OPEX Evaluation For NRC
- IN 2014-12, Crane and Heavy Lift Issues Identified During NRC inspections
- 02658031 Incorrect Foundation Loads in
- 006160
- 02604989 2015 Motor-Operated Valve Program FASA Deficiencies
- 02604986 2015 Motor-Operated Valve Program FASA Deficiencies
- 02604984 2015 Motor-Operated Valve Program FASA Deficiencies
- 02602508 2015 Motor-Operated Valve Program FASA Deficiencies
- 02632243 Snubber IDDEAL Database: Inadequate Historic Data Migration
- 01662489
- OSP-A GVN Differential Expansion Probe Reading Backwards - 2VE-TS002P
- 01661428
- OSP-A 1/4" Solder Tubing Leak 2MS010A
- 01535396
- PMT 1427356 02 Failed
- 01643505
- SAT 242-2 Oil Sample Port Valve Not Working
- 01652546 Cannot Maintain Oil Level In Prestart of Chiller - 0WO03CC
- 01645591
- 1C Reactor Containment Fan Cooler Low Speed Time in Specifications But Out of Administrative Band
- 01637777 Sample Lines Not Properly Secured
- 01641794 New Turbine #4 Vibration Probe Potentially Bad
- 01678065 Maintenance Rule (A) (1) Determination Required 2LS-WF018
- 02516976 AP6 Criteria Requires Maintenance Rule (A)(1) Determination
- 02581898 RH2 Criteria Requires Maintenance Rule (A)(1) Determination
- 2537523
- 2Q15 - NRC Self Revealing Non-Cited Violation - Oil Addition to VC
- Chiller
- 02513190 Supply Identified:
- Ceiling in Office in Warehouse 17 Collapsing
- OP.1 - CPE Observation
- 02457545 AFI in
- MA.1, Prevention of Foreign Material
- 02457552 AFI IN
- WM.1, Shortfalls in Parts and Material Process
- 2477095
- B&W Steam Generator (SG) Tube/Tubesheet Weld ASME Section III
- Code Question
- 02494354 RSGS Lacking ASME Section III
- NB-3000 Analyses
- 2455800
- Need WO to Support High Energy Line Break Barrier For 2A Emergency Diesel Generator Rollup Door
- 2381329
- High Energy Line Break Mitigation Strategy Final Scope Additional Funding
- 01675107
- High Energy Line Break Issue Resolution Needed for DOST
- Surveillance
- 02633579 Two Pipe Supports Broken on Line 2ES87AB-3"
- 01682938 A2R18 Prepare/Restore Steam Generator Snubber 2RC01BB-A
- 01682877
- A2R18 Insulation Request for Snubber 2RC19049S, Containment 390'
- 01675053 Supply Review of Issues for Potential Trend, May 2014
- 01677706 Roll-Up of Issues with 0VI03C
- 01678043 M&TE Not Returned by Expected Return Date
- 01085729 IM 0PS-1025 Needs to be Replaced
- 01605160 Associated with Operability Evaluation 14-001:
- Viscosity of Braidwood Fuel Oil Leads Roper to Recommend Pump with Outboard Bearing.
- 01658641 Associated with Operability Evaluation 14-002:
- Non-Safety Related Actuator Bearings
- 01673323 NOS Identified Exam Failure Not Recognized
- 01674557 Question on UHS License Amendment Request Impact on Pumps
- 01675291 Unanalyzed Condition Identified During
- IR 1674557 Response
- 01699087 NOS Identified: Elevation of Quality Parts Traceability Issues
- 02419179 4Q2014 NRC Non-Cited Violation - Multiple Failures to Follow the Operability Evaluation Process Following the Discovery of a Non-Conforming Condition in the Ultimate Heat Sink
- 02443510 1B EDG Emergency Stopped
- 02485172 Associated with Operability Evaluation 15-003, Rev. 0:
- Voiding Identified in CV Cold Leg Injection Piping
- 02490560 Weapon Discharge During Dry Fire Training
- 02565513 Auxiliary Feedwater Auto-Start On
- LO-2, Low Steam Generator Water Level
- 02566239 U2 AF Actuation On 2C Steam Generator Low Water Level
- 02567811 OSP - A 2RH606 2A Residual Heat Removal Heat Exchanger Flow Control Valve Mechanically Bound
- 02569022 Liquid Radwaste Discharge Flow Recorder
- 02589256 NSRB Top Site Issues - November 2015
- 02664542 Untimely IR Generation
- 02668842 1Q2016 NRC Non-Cited Violation - Loss of Shut Down Cooling Train During Cavity Fill
- 01678065 Maintenance Rule a(1) Determination Required
- 02627173 WGE Quality Needs Improvement
- 01669853 Indicated Flow Low during 1A CS Flow Verification Surveillance
- 02499616 What is the Max Reactor Coolant Pump Rating?
- 02550413 Train VC EMU Flow High
- 02500802 Obsolesce Procedure Adherence Issue
- 02439880 2A AF Follow-Up Ultrasonic Testing Troubleshooter Results
- 02479960 1RH-02207S - Mechanical Snubber Support
- 02570338 Refuel Bridge Mast Support Spring Needs Upgrade
- 02419219 3Q 2014 NRC Non-Cited Violation EP Evacuation Time Estimates
- Root Cause Evaluations Number Description or Title
- 02589930 Severe Corrosion and Degraded Coating Observed on Line 0SXH2AA-6
- 01361456 Unit 1 Refuel Machine Gripper Failure
- 02490560 Root Cause Evaluation on Weapon Discharge During Dry Fire Training
- 02489348 Adverse Trend in Station Performance
- 02457674 AFI in
- RP.1 Planning for Unexpected Radiological Conditions Apparent Cause Evaluations Number Description or Title
- 02615400 Inadequate Testing of the Auxiliary Feedwater (AF) Pump Suction Pressure Channels
- 01668160 Trend in Human Performance Errors Associated with Contracted Groups
- 1696160 Roll Up of Appendix J Program Issues
- 2460491 Perform an ACE to Address Issues in
- IR 2446357 (RW Crane)
- 01681037 Apparent Cause Evaluation for NSRB/NOS Manager Top Issue
- 02566239 Apparent Cause Evaluation for Post Event Critique of Auxiliary Feedwater Automatic Start on 2C Steam Generator Low Level
- 02567811 Power Labs Residual Heat Removal Key Failure Analysis
- 02517832 Adverse Trend in
- RD-10B Detector Performance
- 02601488 FIN Effectiveness
Operating Experience
- Number Description or Title
- 01641107 Potential Leak Pressurizer Heater Bank
- 02386729 Op Ex
- 02438018 Op Ex
- 02446609 Op Ex
- 02477095 Steam Generator Tube/Tubesheet Weld ASME Section III Code Question
- 02530719 Op Ex
- 02563163 OPEX Evaluation for NRC
- IN 2015-09, Mechanical Dynamic Restraint (Snubber) Lubricant Degradation Not Identified Due to Insufficient
- Service Life Monitoring
- 02592034 NRC
- RIS 2015-13, Seismic Stability Analysis Methodologies for Spent Fuel Dry Cask Loading Stack-Up Configuration
- 02668778 OPEX Evaluation for NRC
- RIS 2016-07:
- Containment Shell or Liner Moisture Barrier Inspection
- 02655994 OPEX Evaluation of NRC
- RIS 16-03:
- 10
- CFR 50.59 Issues Identified in NRC's San Onofre Steam Generator Tube Degradation Lessons Learned
- Report
- 02384875 OPEX Evaluation For NRC
- Recent Issues Related to The Qualification of Safety-Related Components
- Audits, Assessments, Effectiveness Reviews, and Self-Assessments Number Description or Title
- 01508489 Boric Acid Program FASA
- 02457552-EFR Parts Issues Due to Planning or Procurement Errors
- 2457576-EFR
- Implementation of Under-Deposit Sampling and Microbiological Analysis During Essential Service Water Heat Exchanger Inspections
- 02489348-EFR Adverse Trend in Station Performance
- NOSA-BRW-14-08
(AR 1604765) Inservice Inspection, Inservice Testing, and Appendix J Audit Report
- NOSA-BRW-14-08
- NOSA-BRW-15-07
(AR 2420107) Nuclear Fuels Audit Report
- 01344435-04
- Flow Accelerated Corrosion (FAC) Program Focused Area Self-Assessment
- 02447812-04 Raw Water Peer Review Self-Assessment
- NOSA-BRW-15-05
- Engineering Design Control Audit Report Braidwood Station
- NOSA-BRW-16-05
- Engineering Programs and Station Blackout Audit Report Braidwood Station Self-Assessment
- 1350459-04 Braidwood Motor Operated Valve Program 2015 Engineering Programs Self-Assessment
- 1684011-04 Braidwood Station Snubbers Engineering Programs
- CIAR
- 2435892 Check-in on PCM Program CIAR
- 2599122
- IR 2452079; Material Storage Issues Identified During NOS Audit
- NOSA-BRW-15-04
(AR 2420102) Corrective Action Program Audit Operability Evaluations Number Description or Title Date or Revision Operability Evaluation 14-001
- EC 396606:
- Operability Evaluation for the Fuel Oil Replacement Pump Not Having Outboard Bushing Like Original Pump Revision 0
- Operability Evaluation 14-002
- EC 398150:
- Non-Safety Related Actuator Bearings Installed on Three Unit 1 Safety
- Related Air-Operated Valves Revision 0
- Operability Evaluation 13-006
- Potential High Energy Line Crack (HELC) Locations Identified In Auxiliary Feedwater
- Tunnel Revision 1
- Operability Evaluation 15-003
- EC 401855:
- Voiding Identified in CV Cold Leg Injection Piping Revision 0
Miscellaneous
- Number Description or Title Date or Revision Calculation No.
- BRW-15-0015-M Evaluation of Through Wall Leakage for Line 1SX27DA-10" per Code Case N-513-3
- Revision 0
- Calculation No.
- 2-7720-B162 Damping Values For Steam Generator Lower Shell Internals Revision 0
- Nuclear Engineering Standard
- NES-MS-03.1 Piping Minimum Wall Thickness Calculation Revision 5
- Nuclear Engineering
- Standard
- NES-MS-03.2 Evaluation of Discrepant Piping and Support Systems
- Revision 6
- Calculation No.
- 13.1.30BR Pipe Support Calculation for 1SI19013X
- Revision 5
- Work Request
- 531542 WM Pipe Support Clamp Disengaged June 6, 2016
- Work Request
- 211715 P/A Converter Control Bank Indication Digit Failing June 8, 2006
- Work Request
- Work Request
- 531174 Guide Support 1HD08004G Damaged June 1, 2016
- Work Request
- 517505 Broken Control Element Assembly in 1RE-AR023C Support January 12, 2016
- Work Request
- 491254 0TR01FB Degraded Concrete Support Base March 19, 2015
- Work Order
- October 16, 2012
- Work Order
- 215453 MM - Seismic Support 1CC03023X Has (Loose Clamp Bolting)
- March 3, 2009
- Work Order
- 24862
- MM-Clean Corrosion/Repaint Pipe Support and Bracket April 20, 2007
- Work Order
- 1919761 ES Pipe Support Disengaged/Not Supporting Pipe
- April 27, 2016
- Work Order
- 23135 Pipe Support for Line 1HD34AD Rubbing on Line
1OG0 4C March 13, 2013
- Work Order
- 01356439 Repair IM 0PS-1025 March 5 2015
- Work Order
- 01555778 Spent Resin Storage Tank 0WX07T Level Switch August 13, 2012
- Work Order
- 01869303 Repair Liquid Radwaste Discharge Flow Recorder October 15, 2015
- Work Order
- 01916868 IM 0PR31J Investigate and Repair Gas Channel Spiking April 16, 2016
- Work Order
- 01929422 Replaced SG 2C Steam Pressure Transmitter July 22, 2016
- Work Order
- 01926976 Revised Background Data for (2RE-PR006) June 1, 2016
- Work Order
- 01930572 Troubleshoot and Repair C/S 0WX707 June 9, 2016
- Work Order
- 284628 Baseline Test Case for, 1P-0507/1MS004H; Steam Dump Valve June 29, 2002
- Work Request
- 00340102 IM 0PS-1025 Needs Replacement June 29, 2002
- Work Request
- 00406153 FNI:
- 0L-WX688; 0WX56JE-1-B4
- Alarm In June 29, 2002
- Work Request
- 00491792 0SR-SY077 Indicating in Wide Range Frequency Mode April 12, 2003
- Work Request
- 00509590 Liquid Radwaste Discharge Flow Recorder May 22, 2003
- Work Request
- December 26, 2002
- Work Request
- 00528460 0WX707 Control Switch Manipulated Ten Times Before Valve Closed July 10, 2003
- Work Request
- 00528965 2PR06J High Energy Channel (2RE-PR006)
- Reads Low April 26, 2003
- Work Request
- 00530827 2PI-0536 Appears to Be Slowly Drifting Low May 17, 2003
Condition Reports
- Generated During the Inspection Number Description or Title
- 02693179 0FP221 Valve Leak Catch Basin Overflowing
- 02693222 2SX01PB Oil Reservoir Missing Level Indicator
- 02693233 Inconsistencies in Procedure Definitions
- 02696782 Need Revision to Auxiliary Building Floor Drain Surveillance
- 2696896
- No Corrective Action Tracking Item (ATI) for Root Cause Identified for Contributing Cause
- 02697247 Electrical Equipment Room Unit 1 & 2 Floor Drain Not Inspected for 2015
- 02697529 Concern for OSX007 & 2SX007 Through Wall Leak Potential
- 02697874 Unit 1 and 2 Volume Control Tank Floor Drain Basket Changes
- 02697962 Inadequate Procedure Criteria for Throttling Valves
- 02701067 Quality Assurance Topical Report Implementing Procedures
- 02701070 Corrective Actions Taken Did Not Preclude Repetition
- 02701110 Potential Component Monitoring Implementation Deficiency
LIST OF ACRONYMS
- USED [[]]
NCV, you should provide a response within 30 days of the date of this inspection report, with the basis for your denial, to the U.S. Nuclear
Regulatory Commission, ATTN: Document Control Desk, Washington, DC 20555-0001, with
copies to: (1) the Regional Administrator, Region
- NRC Resident Inspector at the Braidwood Station. In accordance with Title 10 of the Code of Federal Regulations (10
CFR) 2.390, "Public Inspections, Exemptions, Requests for Withholding,"
of the NRC's "Rules of Practice," a copy of this letter, its enclosure, and your response (if any) will be available electronically for public
inspection in the
- NRC 's Public Document Room or from the Publicly Available Records System (PARS) component of the NRC's Agencywide Documents Access and Management System (ADAMS).
NRC Web site at http://www.nrc.gov/reading-rm/adams.html (the Public Electronic Reading Room).
Sincerely, /RA/ Eric R. Duncan, Chief
Branch 3 Division of Reactor Projects
Docket Nos. 50-456 and 50-457
License Nos. NPF-72 and NPF-77
Enclosure: