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{{Adams | |||
| number = ML20135E529 | |||
| issue date = 03/04/1997 | |||
| title = Insp Rept 50-298/96-25 on 961118-22 & 1209-13.Violations Noted.Major Areas Inspected:Review of Licensee Programs for Corrective Action & self-assessment Process,Activities of Safety Review Committee & Operating Experience Feedback | |||
| author name = | |||
| author affiliation = NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION IV) | |||
| addressee name = | |||
| addressee affiliation = | |||
| docket = 05000298 | |||
| license number = | |||
| contact person = | |||
| document report number = 50-298-96-25, NUDOCS 9703070124 | |||
| package number = ML20135E504 | |||
| document type = INSPECTION REPORT, NRC-GENERATED, TEXT-INSPECTION & AUDIT & I&E CIRCULARS | |||
| page count = 43 | |||
}} | |||
See also: [[see also::IR 05000298/1996025]] | |||
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ENCLOSURE 2 l | |||
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U.S. NUCLEAR REGULATORY COMMISSION j | |||
REGION IV j | |||
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Docket No.: 50-298 ! | |||
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License No.: DPR-46 | |||
Report No.: 50-298/96-25 | |||
Licensee: Nebraska Public Power District | |||
Facility: Cooper Nuclear Station | |||
Location: P.O. Box 98 | |||
Brownville, Nebraska l | |||
Dates: November 18-22 and December 9-13,1996 | |||
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inspectors: T. Stetka, Team Leader ! | |||
R. Azua, Reactor Inspector , | |||
P. Goldberg, Reactor inspector | |||
P. Qualls, Reactor inspector | |||
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P. Madden, Senior Fire Protection Engineer j | |||
T. Eaton, Fire Protection Engineer-Intern | |||
Approved By: C. VanDenburgh, Chief, Engineering Branch l | |||
Division of Reactor Safety | |||
Attachment: Supplemental information | |||
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9703070124 970304 | |||
PDR ADOCK 05000298 | |||
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EXECUTIVE SUMMARY | |||
Cooper Nuclear Station | |||
NRC Inspection Report 50-298/96-2 | |||
This inspection evaluated the effectiveness of the licensee's controls in identifying, | |||
resolving, and preventing issues that degrade the quality of plant safety. Specifically, the | |||
inspection team reviewed the licensee's programs for the corrective action and self | |||
assessment process. The team reviewed the activities of the safety review committees | |||
and operating experience feedback program. The inspection also included a review of the | |||
fire protection program to determine if the corrective actions taken to resolve the fire | |||
protection program deficiencies identified in Licensee Event Report 96-06 were thcough | |||
and complete. The inspection covered a 4-week period with 2 weeks of onsite inspection. | |||
Operations | |||
* The corrective action program provided an effective method for reporting, | |||
prioritizing, and tracking licensee findings, in addition, the licensee's efforts to | |||
educate plant personnel regarding the problem identification reporting process, and | |||
their continuing efforts to keep the plant management informed as to the progress | |||
of the corrective action program was notable (Section 01.1). | |||
* Operations had done a very good job of identifying and reporting plant problems | |||
(Section 01.1). | |||
* The Safety Review and Audit Board and the Condition Review Group were 1 | |||
effectively implementing their license requirements. However, the Station 1 | |||
Operations Review Committee f ailed to review station operations to detect potential l | |||
nuclear safety hazards. This was identified as a violation of the Technical | |||
Specifications (Section 01.2). | |||
* The backlog of open items for the Operations Department was low and the licensee | |||
was effectively managing this backlog. In addition, operations was appropriately | |||
resolving emergent issues and had good engineering support (Sections 07.1 | |||
and 07.2). | |||
* The operator aids and operator workaround programs were properly controlled | |||
(Section 07.3). | |||
Maintenance | |||
* The inspection team noted that mechanical maintenance had a low plant problem | |||
reporting level (Section 01.1). | |||
* The backlog of open items for the maintenance department was low and the ! | |||
licensee was effectively managing this backlog. However, problems with 1 | |||
maintenance planning workloads and a cumbersome maintenance work request l | |||
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process combined with an upcoming refueling outage, were considered to be | |||
precursors to increased backlogs. The licensee was taking action to address this | |||
increase (Section M7.1). | |||
* | |||
Maintenance was appropriately resolving emergent issues. However, an issue was | |||
identified where the completed corrective actions for a plant problem involving | |||
personnel training on prejob briefings and the use of a prejob briefing form were not i | |||
complete and contradicted the proposed corrective actions (Section M7.2). l | |||
* | |||
Quality assurance audits were thorough and critical as evidenced by the quality | |||
assurance audits of design control and corrective maintenance. These audits t | |||
identified issues similar to the issues identified by the NRC inspection. The quality I | |||
assurance department's aggressive efforts in identifying licensee problems was | |||
notable (Sections M7.3 and E7.8). | |||
Enaineerina | |||
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* | |||
Compared with other single unit nuclear plants, engineering had a high open item | |||
backlog of approximately 3000 items. Although a slight decrease in the backlog , | |||
was noted due to a recently initiated backlog reduction effort, the team was I | |||
concemed that the licensee's efforts to address this issue had not been effective j | |||
(Section E7.1). | |||
* | |||
Engineering involvement with operability determinations, maintenance work orders, ! | |||
temporary modifications and engineering problem requests was appropriate and | |||
effective (Sections E7.2, E7.3, and E7.5). | |||
* The licensee effectively used their design criteria documents, which were | |||
maintained as living documents (Section E7.6). | |||
* | |||
Due to a high amount of emergent work, system engineers indicated they were | |||
restricted in their ability to proactively approach problems involving their systems j | |||
(Section E7.4), | |||
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* In general, engineering properly dispositioned plant problems (Section E7.6). ) | |||
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The inspection identified an unresolved item involving the acceptability of increased | |||
emergency diesel generator cylinder exhaust differential temperatures. The licensee i | |||
had increased the differential temperature limit, in lieu of identifying and correcting j | |||
the cause of the temperature increase (Section E8.1.2). 1 | |||
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* | |||
The licensee's engineering self assessment and self-assessment followup were | |||
thorough, comprehensive, and resulted in many good findings. These self- | |||
assessment findings were consistent with those identified by the NRC team. | |||
However, due to resource constraints in the engineering department, the resolution | |||
of these self-assessment findings was not effective in fact, the followup | |||
assessment indicated that there was a concern in the engineering organization | |||
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regarding the commitment of management, the availability of resources, and the ' | |||
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authority of the finding owners to implement action plans effectively (Section E7.7). | |||
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The operating experience review program was effective in identifying, determining | |||
applicability, tracking, and responding to both NRC and industry events 1 | |||
, (Section E7.9). l | |||
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Plant Suonort | |||
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* Prompt and effective corrective actions were taken to resolve deficiencies identified | |||
3 while re-evaluating the 10 CFR Part 50, Appendix R safe shutdown analysis. As a | |||
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result of these efforts, the licensee identified additional examples of violations of | |||
Appendix R. However, in accordance with Section Vll.B.4 of the " General | |||
l Statement of Policy and Procedures for NRC Enforcement Actions," NUREG 1600, | |||
, these violations were not cited nor considered for escalated enforcement because | |||
; they were identified as a result of the licensee's corrective actions for a previous | |||
! Severity Level ill violation (EA 96-94) (Section F8). | |||
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l * The inspection identified a corrective action violation involving ineffective corrective | |||
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action for the control of transient combustible material (Section F8). | |||
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j * The inspection identified three unresolved items involving the licensee's Appendix R | |||
; fire protection program. These items involved: | |||
* | |||
i The use of automatic depressurization and the core spray systems as an | |||
alternate post-fire shutdown method did not appear to meet the requirements | |||
: of Appendix R. | |||
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, The originallicensing basis for the fire detection system was unclear. | |||
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The originallicensing basis of the fire suppression system in the area where | |||
; the reactor recirculation pump motor generator sets were located, was | |||
; unclear. | |||
These items will be referred to the Office of Nuclear Reactor Regulation for | |||
l clarification of the Appendix R and originallicensing conditiorn (Section F8). l | |||
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TABLE OF CONTENTS | |||
EX EC UTIVE S U M M A RY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ii | |||
R e p o rt D e t a il s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 | |||
1. O P E R AT I O N S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 | |||
01 CO N D U CT O F O PER ATIO N S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 | |||
01.1 Corrective Action Program implementation . . . . . . . . . . . . . . . . . 1 | |||
01.2 Safety Review Committee Activities ..................... 3 | |||
1 | |||
07 QUALITY ASSURANCE IN OPERATIONS . . . . . . . . . . . . . . . . . . . . . . . 4 ! | |||
07.1 Control of Open item Backlog . . . . . . . . . . . . . . . . . . . . . . . . . . 4 | |||
07.2 Condition Report and Problem identification Report Reviews . . . . 4 | |||
07.3 Operator Aids and Workarounds . . . . . . . . . . . . . . . . . . . . . . . . 5 | |||
07.4 Self-Assessment Activities . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 | |||
11. M AINTEN ANCE . . . . . . . . . . . . . . . . . . . ............................. 7 | |||
M7 QUALITY ASSURANCE IN MAINTENANCE ACTIVITIES . . . . . . . . . . . . 7 | |||
M7.1 Control of Open item Backlog . . . . . . . . . . . . . . . . . . . . . . . . . . 7 | |||
M7.2 Condition Report, Problem identification Report and | |||
Maintenance WorF Request Reviews . . . . . . . . . . . . . . . . . . . . . 8 | |||
M7.3 Quality Assurance Audit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 j | |||
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111. E N G I N E E R I N G . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 l | |||
E7 QUALITY ASSURANCE IN ENGINEERING ACTIVITIES . . . . . . . . . . . . . 10 | |||
E7.1 Control of Open item 8acklog . . . . . . . . . . . . . . . . . . . . . . . . . 10 5 | |||
E7.2 Operability Determinations and Corrective Maintenance Work 1 | |||
Orders ......................................... 11 | |||
E7.3 Temporary Modifications ............................ 12 | |||
E7.4 System Engineering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 | |||
E7.5 Engineering Project Requests . . . . . . . . . . . . . . . . . . . . . . . . . . 13 ! | |||
E7.6 Engineering Disposition of Problem identification Reports . . . . . . 13 | |||
E7.7 Self- Assessment Activities . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 | |||
E7.8 Quality Assurance Audit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 l | |||
E7.9 Operating Experience Feedback . . . . . . . . . . . . . . . . . . . . . . . . 18 l | |||
E8 MISCELLANEOUS ENGINEERING ISSUES . . . . . . . . . . . . . . . . . . . . 19 l | |||
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l I V. Pl a nt S u p po rt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 l | |||
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F8 MISCELLANEOUS FIRE PROTECTION ISSUES . . . . . . . . . . . . . . . . . . . 22 | |||
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V. MANAGEMENT MEETINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 | |||
X1 EX IT M E ETI N G S U M M A R Y . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . 28 | |||
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Report Details | |||
1. OPERATIONS | |||
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01 CONDUCT OF OPERATIONS I | |||
01.1 Cortective Action Proaram imolementation | |||
a. Insnection Scope | |||
The team reviewed the administrative procedures that control the identification, | |||
evaluation, and resolution of identified problems. In addition, the team interviewed | |||
five individuals involved with the implementation of the licensee's problem | |||
identification process. | |||
b. . Observations and Findinas | |||
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The licensee ~s corrective action program was described in Administrative i | |||
Procedure 0.5, " Problem Identification and Resolution," Revision 8. This program I | |||
was in effect since April 1996, and constituted a change to the former program. In ; | |||
this new program, problem identification reports replaced condition reports as the | |||
reporting mechanism for plant identified problems. When the new program was | |||
introduced, the corrective action program staff held a number of meetings to | |||
provide training on the new reporting documentation, and to provide guidance on ; | |||
the threshold for reporting. As a result of this training, the number of reported ! | |||
problems increased. This was noted by the team during review of problem | |||
identification reports. This was further corroborated when operations and | |||
maintenance personnel interviewed indicated that they were not hesitant to write i | |||
problem identification reports for identified problems, regardless of how small or l | |||
insignificant they may seem. | |||
The team found that two levels of review were performed on each problem | |||
identification report. The first levelinvolved a determination of the immediate | |||
safety significance of the identified problem by a daily condition review group | |||
meeting. During this meeting the problem identification report was designated as ; | |||
either a signitm mt condition adverse to quality, condition adverse to quality, work | |||
item, departmental disposition, trending, or closure based on actions taken. This | |||
process was used to determine if a root-cause analysis was needed. For a | |||
significant condition adverse to quality, a mandatory root-cause analyses was | |||
performed. | |||
Following a determination of safety significance, the second review level set a | |||
priority for the proposed corrective actions. Each corrective action was given a | |||
priority number from one to six (most to least significant) in accordance with | |||
Nuclear Power Group Directive 4.12, " Work Prioritization." Once an action item | |||
was assigned a priority number, the action was assigned to one of the departments | |||
for closure responsibility. Each item, depending on its assigned priority, was | |||
required to be completed within a specific time period. | |||
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When a department anticipated that the action would not be closed within the | |||
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specified time period, the department would submit an extension request that | |||
stipulated the cause of the delay. Approval of the extension request could be | |||
obtained from the responsible department manager or a corrective action review ! | |||
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board chairman. This afforded licensee management the opportunity to assess the | |||
, | |||
significance of the delay, and to take action if the delay was unacceptable. r | |||
The team found that the corrective action program staff were proactive in their | |||
efforts to provide information regarding the status of the corrective action program. l | |||
One example of this was a series of graphs that depicted the percentage of findings | |||
identified within each department (operations, maintenance, etc.). The graphs | |||
; provided a comparison between the percentage of findings that were identified by , | |||
personnel within each department versus those findings identified in each | |||
department by personnel outside the departments. | |||
The team noted that more than 50 percent of the findings in the maintenance | |||
department were identified by personnellocated outside these departments. The | |||
corrective action program staff provided a breakdown of the maintenance | |||
department findings. These graphs indicated that while the instrumentation and | |||
controls personnelidentified 60 percent of the totalinstrumentation and controls | |||
findings, the mechanical maintenance staff only identified 25 percent of the total | |||
; mechanical maintenance findings. | |||
As a result of the corrective action program staff findings, the maintenance . | |||
department issued a problem identification report to determine the reason for the 25 | |||
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percent finding level in mechanical maintenance, in the interim, maintenance | |||
, management personnel indicated that they planned to hold discussions with each of t | |||
their departments regarding the problem identification report process and the | |||
; corrective action program staff findings. | |||
The team noted that a similar program did not exist for engineering. However, the | |||
team was informed that the corrective action program staff planned to provide a | |||
similar status program for engineering. | |||
c. Conclusions | |||
The licensee's corrective action program provided an effective method for reporting, | |||
prioritizing, and tracking licensee findings. The corrective action program staff's | |||
; efforts to educate plant personnel regarding the problem identification reporting ; | |||
process, and their continuing efforts to keep the plant management informed as to 1 | |||
' | |||
the progress of the corrective action program was notable. Licensee efforts in | |||
identifying and reporting plant problems was found to be very good overall, but | |||
some areas (e.g., mechanical maintenance) needed improvement. Procedural | |||
compliance with the problem identification report process was good. | |||
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01.2 Safety Review Committee Activities | |||
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a. Insoection Scone | |||
The licensee's safety review committees consisted of the onsite Station Operations | |||
Review Committee and the offsite Safety Review and Audit Board. The licensee | |||
also convened condition review group meetings. The condition review group | |||
reviewed emergent problem identification reports and dispositioned these reports in | |||
accordance with their corrective action program (see Section 01.1). The team l | |||
reviewed approximately 73 meeting minutes for the Station Operations Review | |||
Committee for the period of July 2 through November 25,1996. The team | |||
reviewed Safety Review and Audit Board meeting minutes for the May 24, July 26, | |||
and September 27,1996, meetings. I | |||
in addition, the team attended two Station Operations Review Committee meetings, I | |||
three Safety Review and Audit Board subcommittee meetings, and two condition j | |||
review group meetings to verify that the license conditions were satisfied and that ' | |||
the reviews were effective in identifying problems, | |||
b. Observations and Findinas l | |||
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The team noted that the Safety Review and Audit Board and the condition review | |||
group were performing all activities required by license conditions and implementing , | |||
procedures. The observed Safety Review and Audit Board subcommittee meetings { | |||
included critical and in-depth discussions of the reviewed activities. The team noted ' | |||
that one Safety Review and Audit Board subcommittee concluded that while the | |||
licensee was effective in identifying plant problems they were not as effective in | |||
correcting or resolving those problems. ) | |||
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As a result of the team's Station Operations Review Committee meeting minutes ! | |||
review and the attendance at two Station Operations Review Committee meetings, | |||
the team observed that not alllicense requirements were being implemented. | |||
Specifically, the Technical Specification requirement to review station operation to | |||
detect potential nuclear safety hazards was not being performed. | |||
In response to this finding, the licensee stated that they were reviewing completed | |||
operations activities and proposed procedure changes, which they believed met the | |||
intent of this Technical Specification requirement. However, following additional | |||
discussions, the licensee agreed that they were not reviewing potential safety | |||
j hazards that could occur during station operations. ' | |||
Technical Specification 6.2.1.A.4.e requires the Station Operations Review I | |||
Committee to review station operations so that potential safety hazards could be ! | |||
detected. The failure to review station operation to detect potential safety hazards | |||
is a violation of Technical Specification 6.2.1.A.4.e (50-298/9625-01). | |||
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c. Conclusion _q i | |||
, The team conclud d that the Safety Review and Audit Board and the condition | |||
j review group were effectively implementing license requirements. The team | |||
, concluded that, except for the failure to review station operation to detect potential | |||
. | |||
, nuclear safety hazards, the Station Operations Review Committee was implementing - | |||
1 license requirements. Notwithstanding this failure, the team concluded that the | |||
j review committees were effective in their oversight of licensee activities. . | |||
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07 QUALITY ASSURANCEIN OPERATIONS | |||
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07.1 Control of Open item Backloa | |||
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a. Insoection Scope | |||
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The team reviewed the operations backlog to determine the backlog size, the trend | |||
2 (i.e., increasing, decreasing or steady), how the backlog was tracked and managed, | |||
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and how priorities were determined. The team also discussed these backlogs with | |||
, applicable operations personnel. | |||
b. Observations and Findinas | |||
! The team noted that the operations department backlog was small(22 open items | |||
, which included 5 procedural reviews and changes). The team's review found that | |||
all of these items had been appropriately prioritized in terms of their safety | |||
significance. As a result of these findings, the team determined that the operations | |||
department were appropriately managing their open item backlog. | |||
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c. Conclusions ' | |||
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The team concluded that the backlog of open items for operations were low and l | |||
that the licensee was effectively managing the backlog. ' | |||
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07.2 Condition Report and Problem Identification Report Reviews | |||
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; a. Insoection Scoce i | |||
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The team reviewed control room shift supervisor logs, condition reports, and | |||
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problem identification reports to determhe the status of problem tracking and | |||
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resolution. In addition, the team interviewed five operations personnel and the | |||
operations manager. | |||
b. Observations and Findinas | |||
The team reviewed the control room shift supervisor logs for the months of | |||
- September, October, and November of 1996 and noted that all incidents identified : | |||
; | |||
in the logs were documented in problem identification reports. The team verified | |||
that each of the problem identification reports clearly identified the issue and were | |||
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reviewed and categorized (significant condition adverse t a quality, etc.) in j | |||
accordance with the requirements set forth in Administrative Procedure 0.5, ' | |||
" Problem Identification and Resolution". The team selected ten of these problem | |||
identification reports and verified that the assigned priority categories were | |||
consistent with the safety significance of tha conditions identified. | |||
The team also reviewed ten additional condition reports / problem identification | |||
reports that had all actions completed. The team verified that these condition | |||
reports / problem identification reports were reviewed and properly categorized. The l | |||
team also verified that operability determinations associated with these condition I | |||
reports / problem identification reports were properly dispositioned. | |||
I For those condition / problem identification reports requiring a root-cause analysis, | |||
the team reviewed the conclusions and the resultant recommended corrective | |||
actions. The team found the licensee's analyses to be thorough and the | |||
i recommended corrective actions to be appropriate. The team also verified that each | |||
* | |||
of the corrective actions were assigned a priority in accordance with Directive 4.12, , | |||
" Work Prioritization," and reviewed the completed corrective actions. As the result l | |||
of these reviews, the team found the corrective actions to be properly closed. ' | |||
The team also reviewed 25 open problem identification reports assigned to | |||
' | |||
operations for resolution and determined that each item had been appropriately | |||
pricritized. No problems were noted from these reviews. In all cases reviewed, and | |||
, as the result of operator interviews, the team determined that engineering support | |||
l | |||
of the operations department was good. 1 | |||
c. Conclusions | |||
The team concluded that operations was appropriately resolving emergent issues | |||
4 and that engineering support of operations was good. | |||
07.3 Operator Aids and Workarounds | |||
, | |||
i a. Inspection Scone | |||
< | |||
The team reviewed control room shift supervisor logs to determine the number, | |||
status and use of operator aids and workarounds. In addition, the team interviewed | |||
five operations personnel and the operations manager, | |||
b. Observations and Findinas | |||
a | |||
The team reviewed the licensee's operator aid and workaround programs. The | |||
status of these programs, which were maintained in togs, was found to be current, | |||
with each log identifying the number of outstanding items in the plant. | |||
The team found that the licensee h'ad a total of 18 operator aids logged. The team | |||
inspected 5 of these operator aids and found that they were appropriately reviewed | |||
and approved. The team found that the licensee reviewed the operator aids log on | |||
; 5 | |||
. _ _ _ _ _- _ _ _ _--__. _ ._..__...._. _ . _ - | |||
- _ _ _ . . . _ . _ _ ._ .._._ ._ _ . . | |||
' | |||
.. | |||
, | |||
i | |||
. | |||
' | |||
a periodic basis. For those operator aids that were taken from the Technical | |||
Specifications, piping and ir.strumentation drawings, and plant procedures, the team , | |||
!. verified that the latest revision of these documents were used. No unapproved ! | |||
l operator aids were identified by the team and none of the operator aids were found j | |||
j | |||
" | |||
to constitute an operator workaround, j | |||
i | |||
j' The operator workaround program was maraged by the operations shift supervisor | |||
' | |||
assigned to the work control center. The team found that the licensee logged 14 | |||
; items as workarounds. Operator Instruction 15, " Operator Workarounds," defined ! | |||
' | |||
an operator workaround as any equiprnent, plant, training, policy, or procedure l | |||
: deficiency which, during normal, abnormal, or emergency conditions, would impede -! | |||
l- effective operator response. The instruction also provided a scale that was used to I | |||
! establish pnorities. l | |||
! | |||
Of the 14 items listed, the licensee identified 5 that were assigned an A, B, or C l | |||
l (high, medium, low ) priority, with only one considered to be a high (A) priority l | |||
; item. The other items, which did not impact plant operations, were not assigned a , | |||
; priority in accordance with the operator instruction, prioritized workarounds were ' | |||
assigned an aging criteria (i.e., a cuggested time limit for item correction). The i | |||
' | |||
team noted that four of the five prioritized items exceeded the recommended time | |||
period listed in the operator instruction. The team also noted that the licensee : | |||
reviewed these workarounds and determined that the plant could be operated safely [ | |||
with these workarounds in-place until the next refueling outage. The team | |||
considered management of operator workarounds to be appropriate. | |||
c. Conclusions . | |||
! | |||
! | |||
The team concluded that the operator aids and operator workarounds were properly " | |||
controlled. | |||
07.4 Self-Assessment Activities j | |||
a. Inspection Scoce . [ | |||
The team reviewed self-assessment activities in operations to determine the extent | |||
of these activities. | |||
, | |||
b. Observations and Findinas | |||
The team found that the operations department had not performed a recent self | |||
assessment. However, the team noted that operations personnel recently | |||
implemented (only about 6 weeks prior to this inspection) individual operations | |||
performance assessments. Operations personnel were required to fill out | |||
f | |||
, | |||
! | |||
6 | |||
L | |||
-- ymt-,-w w e-- v---, -, - , . -r. . . -- -- - , , .---e-., ,e.--, .,w-- - , . , y | |||
- . - . -- . . - - . . .. - ~ ~ . - - . - --- -_- - . | |||
* | |||
. | |||
- | |||
I | |||
assessment forms of different areas on a periodic basis. At the end of the quarter, l' | |||
the sheets were then compiled by operations management who put out a report | |||
with the results. The team reviewed the first self-assessment report that was ! | |||
issued. This report covered the November time period. The team considered the i | |||
report to be a useful tool for identifying problems in operations. i | |||
c. Conclusions | |||
! | |||
While the team noted that there were no recent self assessments in operations, the j | |||
team concluded that the newly implemented self-assessment program appeared , | |||
useful for identifying problems within the operations department. However, due to l | |||
' | |||
the recent implementation of this program, the team could not assess the | |||
effectiveness of the program. | |||
II. MAINTENANCE | |||
M7 QUALITY ASSURANCEIN MAINTENANCE ACTIVITIES | |||
M7.1 Control of Open item Backloa | |||
a. Inspection Scope | |||
The team reviewed the maintenance backlog to determine the backlog size, the | |||
trend (i.e., increesing, decreasing or steady), how the backlog was tracked and | |||
managed, and how priorities were determined. The team also discussed the | |||
backlog with applicable maintenance personnel. j | |||
b. Observations and Findinas | |||
To determine the maintenance backlog, the team requested a listing of all open | |||
items assigned to the maintenance department that met the criteria for their { | |||
backlog. The licensee provided approximately 120 items that they considered to be | |||
part of their backlog. The team's review found that all of these items had been | |||
appropriately prioritized in terms of their safety significance. | |||
! | |||
The team found through interviews with maintenance planners that their workload | |||
was significant with regard to the preparation of maintenance work requests and | |||
responses to problem identification reports. Some planners indicated that this j | |||
workload had an effect on the quality of their work activity. Maintenance planners i | |||
' | |||
also indicated that the maintenance work request development process was a | |||
cumbersome process which contributed to delays in the development of the | |||
maintenance work requests. | |||
The licensee recently hired contractors to assist with their backlog management | |||
efforts to address the problems identified by the maintenance planners and to | |||
address the potential backlog increase due to the upcoming refueling outage. The | |||
team noted that the licensee formed a "Fix-It-Now" team. The team consisted of | |||
7 | |||
_. | |||
. | |||
. | |||
members from each department including a maintenance planner, an operator, craft | |||
personnel, and engineers. The main purpose of this team was to address emergent | |||
work, thus, allowing other plant personnel to concentrate on scheduled | |||
maintenance activities. | |||
1 | |||
; Another aspect of the Fix-It-Now team was to identify and implement process | |||
improvementr, and to address backlogged maintenance work requests. The team | |||
noted that this was a pilot program that was recently implemented and, therefore, | |||
it~s effectiveness could not be determined at this time. | |||
; c. Conclusions l | |||
The team concluded that the backlog of open items for maintenance was low and | |||
that the licensee was effectively managing this backlog. However, the team noted | |||
that with the advent of the upcoming refueling outage, problems with the | |||
maintenance planning workloads and the cumbersome maintenance work request | |||
process, were precursors to increased backlogs. The team also noted that the | |||
licensee was taking action to preclude a backlog increase. | |||
M7.2 Condition Report, Problem Identification Report and Maintenance Work Reauest | |||
Reviews | |||
a. Insoection Scope | |||
The team reviewed maintenance condition reports, problem identification reports, | |||
and work requests to determine the status of problem tracking and resolution. In | |||
addition, the team interviewed five members of the maintenance planning group, | |||
four maintenance craft personnel, and the maintenance manager. | |||
b. Observations and Findinas | |||
The team reviewed ten condition / problem identification reports that had all actions | |||
completed. The team verified that these condition / problem identification reports | |||
were reviewed and properly categorized. The team found the licensee's analyses to | |||
be thorough and the recommended corrective actions to be appropriate. The team i | |||
also verified that each of the corrective actions were assigned a priority in l | |||
accordance with Management Directive 4.12, " Work Prioritization," and reviewed j | |||
the completed corrective actions. As the result of these reviews, the corrective ! | |||
actions for all but one condition report were found to be properly closed. | |||
l | |||
A review of Condition Report 96-0604 indicated that the final corrective actions did | |||
not appear to address, and in one case appeared to contradict, the recommended | |||
corrective actions. The recommended corrective actions, from the root-cause | |||
analyses, involved personnel training on prejob briefings and the use of a prejob | |||
briefing form. The final corrective actions did not document that all recommended | |||
training had been completed or if any had been performed. The contradiction | |||
involved a memorandum issued to maintenance supervisors involving information | |||
that was to be conveyed to work crew leaders. This memo stated that it was not | |||
) | |||
' | |||
8 | |||
' | |||
\ | |||
.. - .. . - . .. | |||
. | |||
: | |||
, . | |||
expected that a formal briefing sheet or set routine be used on each job and that the | |||
work crew leaders need only to review the work to be performed with their craft | |||
personnel. | |||
A discussion of this finding with the licensee personnelindicated that while the | |||
package had not gone through its final review, they agreed that all the | |||
reuommended corrective shouid be implemented. j | |||
- | |||
The team also reviewed 25 open problem identification reports assigned to | |||
maintenance for resolution, and determined that each item had been appropriately | |||
prioritized. The team also reviewed six maintenance work requests which resulted | |||
from priority one and two problem identification reports and were closed over the l | |||
last 6 months. No problems were noted from these reviews. However, as the | |||
result of these reviews, the team found that engineering support of maintenance | |||
: was inconsistent. Interviews with maintenance personnel indicated that | |||
# | |||
communication and cooperation with engineering was good as long as engineering | |||
was not impacted by their own emergent issues. If engineering was impacted by | |||
such issues, their communication and cooperation was not as effective. | |||
c. Conclusions | |||
The team concluded that while maintenance was resolving emergent issues, the l | |||
' | |||
corrective action process needed improvements to assure that the proposed and | |||
' | |||
completed corrective actions are consistent and fully resolved the problem. | |||
M7.3 Ouality Assurance Audit | |||
a. Insoection Scoce | |||
I' | |||
, | |||
The team reviewed Quality Assurance Audit 96-15," Corrective Maintenance," | |||
* | |||
which was performed during the period of October 18 through November 1,1996. | |||
The team reviewed this audit and discussed the findings with licensee personnel to | |||
' | |||
determine if the corrective actions that resulted from the audit were adequate and | |||
completed in a timely manner. | |||
I | |||
' | |||
b. Observations and Findinas | |||
This audit was found to be thorough and very critical of maintenance department | |||
processes. Specifically, it noted that process inefficiencies, lack of a global | |||
commitment to the schedule, and difficulty with intra-departmentalinterfaces made | |||
the overall process ineffective. The ndit also identified a management failure to | |||
encourage teamwork between departments. As a result of this audit, a number of | |||
problem identification reports were issued by the licensee. Since this audit was l | |||
recent (completed during this inspection), the licensee response to the audit was | |||
not available. This audit review and interviews with quality assurance personnel, | |||
further demonstrated that the quality assurance department was a0gressive in | |||
identifying problem areas in the plant. | |||
, | |||
t | |||
9 | |||
. | |||
- | |||
. | |||
c. Conclusions | |||
The team concluded that the audit performed by quality assurance was thorough | |||
and critical. The quality assurance department's aggressive efforts in identifying | |||
licensee problems was notable. | |||
Ill. ENGINEERING | |||
E7 QUALITY ASSURANCEIN ENGINEERING ACTIVITIES | |||
E7.1 Control of Open item Backloa | |||
a. Insoection Scoce | |||
The team reviewed the backlog in engineering to determine the backlog size, the | |||
trend (i.e., increasing, decreasing or steady), how the backlog was tracked and | |||
managed, and how priorities were determined. The team also discussed these | |||
backlogs with applicable engineering personnel, | |||
b. Observations and Findinos | |||
The team requested the engineering backlog and noted that the licensee was not | |||
readily able to provide this information. The licensee could not initially provide this | |||
information, because the licensee's backlog was listed in at least six different data | |||
bases. The licensee stated that the information listed in these data bases | |||
collectively represented the enginuring open item backlog and current work. The | |||
licensee listed the backlog as follows: | |||
* Special Procedure completion reports 25 | |||
* Special test procedure completion reports 48 | |||
* Design change completion reports 136 | |||
* Engineering work / projects requests 474 | |||
*- Nuclear action item tracking items 936 | |||
* Drawing change notices 528 | |||
* Component evaluation packages 190 | |||
* Replacement component evaluation completion reports 141 | |||
* Maintenance work requests engineering review 267 | |||
* Maintenance work requests final engineering review 155 | |||
* Calculations with engineering judgments outstanding 145 | |||
10 | |||
. | |||
. | |||
The team found that the backlog consisted of approximately 3000 items which the | |||
team considered, based upon comparison with other single unit nuclear plants, to be , | |||
high. The team noted that the engineering work / projects requests had 8 priority | |||
one items and 449 priority two items and the nuclear action item tracking system | |||
had 9 priority one items and 115 priority two items. The licensee stated that all | |||
engineering items were assigned priorities based on the corrective action program. , | |||
l | |||
The team reviewed the priority one items and concluded that they were not safety | |||
significant. The team reviewed Administrative Procedure 0.15 "NPG Action item l | |||
Tracking," which contained a list of items included in the nuclear action tracking | |||
, | |||
' | |||
system. These items were licensing documents, industry operating experience ; | |||
documents, corrective action program documents, and self assessments. The l | |||
team's review found that all of these items had been appropriately prioritized in l | |||
terms of their safety significance. The team noted that the licensee supplemented ) | |||
the engineering staff with contractors in an effort to reduce the backlog and that | |||
; there was a slight decrease in the backlog. | |||
t | |||
c. Conclusions | |||
' | |||
l | |||
' | |||
The team concluded that the engineering backlog of approximately 3040 items was | |||
excessive. Although a slight decrease in the backlog number was acted, the team | |||
was concerned that the engineering backlog was excessive. ! | |||
l | |||
E7.2 Operability Determinations and Corrective Maintenance Work Orders f | |||
l | |||
1 | |||
a. Inspection Scope | |||
The team reviewed six operability determinations to determine the adequacy of l | |||
engineering involvement and discussed these determinations with engineering ! | |||
personnel. The team also reviewed 13 corrective maintenance work orders to j | |||
determine the extent of engineering involvement. The team reviewed the work i | |||
orders to determine the adequacy of the licensee's corrective actions for repetitive | |||
equipment problems. | |||
b. Observations and Findinas | |||
The team found that the six operability determinations were adequate and had l | |||
appropriate engineering involvement. In addition, the team found that the 13 | |||
corrective maintenance work requests provided adequate corrective actions for | |||
repetitive equipment problems. | |||
I | |||
c. Conclusions | |||
The team concluded that engineering involvement with operability determinations | |||
and maintenance work orders was appropriate and effective. | |||
. | |||
11 | |||
T- | |||
__ _ | |||
. | |||
. | |||
E7.3 Temporary Modifications | |||
a. Inspection Scope | |||
The team reviewed all 25 of the temporary modifications that the licensee had | |||
installed in the plant to determine the age of modifications, if the modifications were | |||
marked on control room drawings and to determine if the 50.59 screening and | |||
applicable safety evaluations were accomplished. | |||
b. Observatlons and Findinos | |||
The licensee tracks temporary modifications through the use of a log located in the | |||
control room and maintained by operators. The team reviewed the temporary | |||
modification packages and verified that they were complete. The packages | |||
contained sufficient information to clearly identify the in-place modifications and | |||
that applicable 10 CFR 50.59 reviews were performed. Plant drawings located in | |||
the control room, affected by any of these temporary modifications, were labeled | |||
with a temporary modification stamp. The operations personnelinterviewed by the | |||
team were aware to consult the temporary modification log when a control room | |||
drawing with a temporary modification stamp was encountered. | |||
In addition, the team walked down five of these modifications and noted that they | |||
were consistent with the modification package, and were properly labeled. The | |||
team also performed a general walkdown of the facility and did not identify any | |||
temporary modifications that were not already identified in the control room log. | |||
The licensee's documentation indicated that 16 of these temporary modifications | |||
were scheduled to be corrected and/or removed by the end of the next refueling | |||
outage. The team concluded that the safety impact of the temporary modifications | |||
on plant operations was minimal and that none of these modifications constituted | |||
an operator workaround. | |||
c. Conclusions | |||
The team concluded that engineering processing of temporary modifications was | |||
appropriate and effective. | |||
E7.4 System Enoineerina | |||
a. Insoection scope | |||
The team interviewed three system engineers to determine their ability to handle ; | |||
their assigned workload and their ability to manage their time. l | |||
l | |||
b. Observations and Findinos | |||
The system engineers stated that approximately 50 percent of their time involved | |||
emergent work. The engineers also stated that their remaining time involved | |||
' | |||
12 | |||
i | |||
l | |||
! | |||
! | |||
- _ _ . -. . -_ . _ . -- | |||
' | |||
1 | |||
; | |||
: | |||
' | |||
. | |||
witnessing surveillance tests. They indicated that they received good support from | |||
design engineering. They also stated that while 25 percent of their time involved in- | |||
plant activities, most of this time was used to resolve emergent issues. This lef t | |||
l | |||
them very little time to be proactive toward identifying system problems. | |||
' | |||
c. Conclusions | |||
i | |||
The team concluded that due to a high amount of emergent work, system engineers l | |||
were restricted in their ability to proactively approach problems with their systems. | |||
E7.5 Enaineerina Project Reauests | |||
a a. Inspection Scope | |||
The team reviewed two backlogged open engimering project requests and | |||
interviewed the applicable engineers to detes. ,.ne the validity of the open status. | |||
I | |||
Engineering project requests were used to request engineering assistance or | |||
evaluation for problems identified in the plant. | |||
b. Observations and Findinas ! | |||
The team found that one request was a system improvement that added a second | |||
" | |||
power source to the control room ventilation exhaust fan and, therefore, did not | |||
impact plant safety or operation. The team also found that the other request, which j | |||
, requested an engineering review of design piping analysis and hanger calculations | |||
was not an operability concern. | |||
j | |||
c. Conclusions | |||
The team concluded that engineering processing of the selected engineering project | |||
requests was appropriate. The team also concluded that while these engineering | |||
project requests were still open, this status did not impact plant operation and that | |||
they were on track for closure. | |||
E7.6 Enaineerina Disoosition of Problem Identification Reoorts | |||
a. Inspection Scone | |||
The team reviewed 45 problem identification reports (which included both open and | |||
closed reports) and discussed a number of them with the applicable engineers to | |||
determine if engineering had adequately dispositioned the reports and if the | |||
engineering actions were timely. In addition, the team assessed the quality of the | |||
root-cause evaluations and evaluated the adequacy of engineering involvement. | |||
13 | |||
- | |||
. .- . - . . _ - - - - . ~ _ _ . - . - . - . - | |||
.- .- . . . - | |||
.. | |||
: . | |||
b. Observations and Findinas | |||
l | |||
I | |||
During the review, the team noted that the licensee used design criteria documents | |||
1 | |||
' | |||
to determine their design bases. The team noted that the licensee considered these i | |||
' | |||
documents to be "living" documents and was maintaining the documents current. | |||
The team challenged the design criteria document process, by requesting design | |||
i information to assist with a system review, and noted that the licensee had little | |||
difficulty retrieving the requested information. j | |||
in general, the problern identification reports reviewed contained resolutions that | |||
had proper engineering justification and proposed corrective actions that were | |||
adequate to preclude recurrence of the problem. The team also noted through , | |||
interviews with licensee personnel that personnel were not hesitant to write | |||
problem identification reports if issues were identified. Nevertheless, the team | |||
' | |||
identified a problem identification report with a questionable engineering resolution. | |||
I- | |||
Problem identification Report 96-0509, dated May 20,1996, identified that the | |||
emergency diesel generator cylinder exhaust differential temperatures exceeded the | |||
licensee's 250'F differential temperature limit. The team determined that the | |||
, licensee originally had a 100 F differential temperature limit which was considered | |||
i an industry-accepted standard. Over time, the 1 censee had increased the | |||
{ acceptable differential temperature limit because they were unable to maintain the | |||
j original 100 F limit. In addition to the differential temperature increase, the | |||
licensee also increased the cylinder maximum differential firing pressure from 75 psi | |||
, | |||
to 160 psi. | |||
I . | |||
The team noted that the accepted industry standard of 100 F maximum differential ! | |||
j temperature and 75 psi differential pressure was based on maintaining an even | |||
. power balance between cylinders. According to this standard, the cylinder balance | |||
j was determined from the temperatures and pressures occurring in each cylinder and | |||
! that cylinder temperatures should be within 100 F of the average while the cylinder | |||
! firing pressures should be within 75 psi of each other. While the team was aware | |||
'' | |||
that the licensee's emergency diesel generator vendor concurred with the present | |||
operation, the team was concerned that the licensee, by continuing to raise the | |||
temperature limit, was living with the problem rather than resolving the problem. | |||
4 The team was also concerned that continued operation with such cylinder | |||
- imbalances could result in diesel degradation. | |||
I | |||
This issue will be followed as an unresolved item pending further evaluation of the | |||
' | |||
acceptability of increasing the emergency diesel generator cylinder exhaust | |||
differential temperatures (50-298/9625-02). | |||
: | |||
c. Conclusions | |||
] | |||
The team concluded that engineering, in general, properly dispositioned plant | |||
problems. However, the inspection identified an unresolved item involving the | |||
, | |||
acceptability of increased emergency diesel generator cylinder exhaust differential | |||
i temperatures. | |||
; | |||
14 | |||
] | |||
: | |||
J | |||
1 | |||
- - | |||
-_ _ , __ - _- _- | |||
. | |||
. | |||
E7.7 Self-Assessment Activities | |||
: | |||
a. Inspection Scoce | |||
The team reviewed self-assessment activities in engineering. The team selected l | |||
and reviewed portions of the licensee's engineering self assessment which was l | |||
conducted February 5-23,1996. The team reviewed this self assessment to ' | |||
determine if the corrective actions identified from this self assessment were ; | |||
1 adequate and if the actions were completed in a timely manner. In addition, the i | |||
team reviewed the licensee's engineering self-assessment followup, dated October ] | |||
1996, which the licensee conducted to evaluate the effectiveness of the corrective | |||
, | |||
actions from the engineering self assessment. The team also interviewed i | |||
engineering managers to determine the effectiveness of the corrective actions. | |||
l | |||
b. Observations and Findinas | |||
1 | |||
. The team found that the licensee developed engineering department action plans to | |||
process the corrective actions for the 36 items found during the engineering self | |||
assessment. Since the licensee determined that the scope of work exceeded their | |||
, resource capability, they decided to consider only the most important items first. | |||
This reduced the scope of work to 12 items being actively resolved and 24 items l | |||
' | |||
l being deferred. The team reviewed the list of 24 items that were deferred and | |||
noted that unauthorized modifications, operability ac3essments/50.59s, plant design | |||
and configuration control, accessibility of design basis information, and procedural | |||
compliance and attention to detail were included as part of the 24 items deferred. , | |||
l | |||
As a result of an NRC violation (NRC !nspection Report 50-298/96-04),regarding a i | |||
modification being performed using a maintenance work request instead of the ; | |||
design process, the licensee initiated corrective actions to examine additional work l | |||
activitiem The licensee sampled 10 percent of the existing 21,000 maintenance | |||
work requests and found that 128 were unauthorized modifications. The licensee | |||
stated that they evaluated them for operability by walkdowns and review of | |||
. documentation and found no safety concerns. Since 128 out of the 2100 reviewed | |||
were unauthorized modifications, the licensee committed to the NRC to review the | |||
! remainder of the maintenance work requests by December 31,1997 and to | |||
disposition all identified unauthorized modifications by June 30,1998. At the time | |||
' | |||
this inspection, the licensee identified a total of 350 unauthorized modifications. | |||
The team reviewed nine of the unauthorized modifications and found no safety | |||
concerns. The teem noted that the self assessment found that there was no | |||
process to ensure that these unauthorized modifications were evaluated for ; | |||
acceptability of the design as is, that the design inputs were not invalidated and i | |||
that configuration control was maintained. Based upon this review by the team and | |||
discussions with licensee personnel, the licensee expanded their 12 item list to | |||
13 items to include unauthorized modifiq,ations. | |||
The licensee also provided interoffice Correspondence K0960050, dated | |||
December 3,1996, concerning the licensee's engineering acti,on plans. This | |||
15 | |||
. _ ._. | |||
. | |||
l | |||
. | |||
correspondence addressed the implementation of the 36 items. The team noted | |||
that the list was increased to 14 items which were listed as "must do" items. | |||
These items included; integrated planning and scheduling between engineering and | |||
plant organizations, system engineering problems, plant configuration control and | |||
design basis, improving the efficiency of engineering processes and procedures, | |||
reducing backlog, outage maintenance work plan, procedure programs for the | |||
outage, refueling outage engineering contract preparation, outage modifications, l | |||
, | |||
' | |||
Appendix R program validation, training and certification, improved technical ! | |||
specifications, nonoutage task modification and task action plan, and formation of l | |||
an unauthorized modifications focus group. The team noted that some of these ! | |||
I | |||
items were not included on the former list of 13 action items. The team found that | |||
this was due to the fact that some of the other items were either deferred, included | |||
as part of another item, or closed out. The team concluded that the licensee's | |||
actions were acceptable. I | |||
The licensee's engineering manager stated that these action items and theii large | |||
4 | |||
engineering backlog (discussed in Section E7.1) had a severe impact on available | |||
resources. Furthermore, he stated that recent management changes (including the | |||
' | |||
l engineering manager), staffing levels, industry evaluation teams, and NRC i | |||
inspection teams, impacted the licensee's ability to cope with their workload. The | |||
team noted that the licensee's engineering staffing was 209 engineers which | |||
included 109 on-staff engineers and approximately 100 contract engineers. | |||
! | |||
The team also reviewed the engineering self-assessment followup, dated October | |||
1996. The team found that the followup assessment determined that while there | |||
was some progress in improving engineering effectiveness to perform routine and | |||
emergent site activities including the identification and resolution of technical | |||
issues, overall progress was poor. | |||
The followup team noted that there was a concern in the engineering organization | |||
regarding the commitment of management, the availability of resources, and the | |||
authority of the plan owners to implement the action plans effectively. The | |||
followup team also concluded that the engineering workload appeared to exceed the | |||
available resources and that system engineering performance did not meet | |||
expectations due to the volume of emergent work that prevented the system | |||
engineers from performing their primary responsibilities. The licensee's followup | |||
team concluded that, although the engineering self assessment had been effective | |||
in the identification of performance problems, engineering had not been effective ir | |||
resolving the identified problems. | |||
The NRC inspection team noted that the licensee's initial self assessment and | |||
followup self assessment were very critical of the engineering organization. The | |||
self-assessment findings were consistent with the team's findings. The team | |||
concluded that the self assessment was very effective toward identifying problems | |||
within the engineering organization. | |||
16 | |||
_ . .- - . __ _ _ . _ . -- . ._ .- | |||
. | |||
. | |||
c. Conclusions | |||
The licensee's engineering self assessment and self-assessment followup were | |||
thorough and comprehensive which resulted in many good findings. The self- | |||
assessment findings were found to be consistent with those identified by the NRC | |||
inspection team. The current NRC inspection did not identify any issues that were | |||
net already identified in the self-assessn'ent report. The licensee's followup self | |||
assessment found that engineering had not been effective in resolving the findings | |||
of the first self assessment. | |||
E7.8 Quality Assurance Audit | |||
a. Insoection Scoce | |||
The team reviewed Quality Assurance Audit 96-07, " Design Control," that was | |||
performed during the period of May 3-22,1996. The team reviewed this audit and | |||
discussed the findings with licensee personnel to determine if the corrective actions | |||
that resulted from the audit were adequate and completed in a timely manner. | |||
b. Observations and Findinas | |||
The team noted that the audit was thorough and had good findings. The findings | |||
included a determination that the design control processes were inadequate, that | |||
design engineers did not have a uniform understanding of processes and | |||
procedures, and that maintenance of the Updated Safety Analysis Report was | |||
inadequate. The licensee's audit team concluded that when there were deficiencies | |||
associated with the Updated Safety Analysis Report, there was no consolidated, | |||
formal, effective corrective action effort or plan in place to resolve these | |||
deficiencies. | |||
The team also reviewed the engineering response to this audit. The team noted | |||
that engineering agreed that the audit raised valid issues and commended the | |||
quality assurance audit team on a high value added audit. The team reviewed the ; | |||
engineering recommended corrective actions, developed in response to this audit, l | |||
and found them acceptable. | |||
The team noted that the Updated Safety Analysis Report issues were directed to the | |||
licensing organization. A review of the licensing response indicated that licensing | |||
did not agree with the audit findings. Specifically, licensing reviewed the audit j | |||
findings and concluded that maintenance of the Updated Safety Analysis Report I | |||
was adequate and that no further corrective actions were necessary. In response to | |||
this position, the quality assurance department documented their disagreement in | |||
Letter QAD960256, dated August 30,1996. The purpose of this letter was to | |||
escahte the issue for consideration of additional resolution actions. The licensee | |||
informed the team that this issue was still being resolved and that they planned to | |||
address this issue when they responded to the NRC issued letter regarding | |||
compliance with NRC regulation .10 CFR 50.54 (f) that addressed discrepancies | |||
between the Updated Safety Analysis Report and the as-built plant configuration. | |||
17 | |||
_ __ _ . ._ _ _ __ _ _ ___ . _ _ _ _ _ -_ . _ __-__ _ ___ | |||
" | |||
l | |||
4 -e | |||
l | |||
. l | |||
c. Conclusions | |||
I | |||
The team concluded that the audit performed by quality assurance was thorough | |||
; and critical. The audit identified issues similar to the issues identified by the team. | |||
; The quality assurance department was aggressively pursuing resolution of its | |||
findings. | |||
E7.9 Operatina Experience Feedback : | |||
* | |||
a. Insoection Scope ; | |||
l The team evaluated the effectiveness of the licensee's operating experience | |||
, feedback program by reviewing the program and interviewing five system engineers. | |||
l The team reviewed Administrative Procedure 0.10, " Operating Experience | |||
Program," and Cooper Nuclear Station Operations Experience Review Desktop i | |||
Guide 5, " Guideline for the Communication of Industry Operating Experience to | |||
i CNS." ' '. also reviewed the licensee's activities on the following five recent | |||
j indust 5 a. .a determine the licensee's effectiveness in implementing this | |||
2 | |||
progran,. ) | |||
, | |||
* The lubricating oil fire which occurred at Arkansas Nuclear One, Unit One, on | |||
October 16,1996; | |||
: | |||
! | |||
. | |||
* General Electric Service information Letter 604, " Reactor Water Clean-Up ! | |||
l System Break Detection", i | |||
l | |||
l * Licensee Event Report 95-013 for the Duane Arnold nuclear plant, j | |||
j concerning the potential for water hammer in the high pressure coolant 1 | |||
injection turbine exhaust pipe; | |||
. | |||
* An industry event which occurred in October 1996, concerning potential | |||
i standby liquid control system problems at the Hope Creek nuclear plant due | |||
to operating procedures not specifying a maximum system temperature; and, | |||
s | |||
* General Electric Service Information Letter 603, which documented that the | |||
i net-positive suction head calculations for low pressure emergency core | |||
cooling systems were not consistent with plant licensing bases, | |||
b. Observations and Findinas | |||
The team noted that the licensee's procedures directed that the Operating | |||
l Experience Review staff review information provided from the NRC and from the | |||
industry regarding plant events on a daily basis. The procedures also directed that | |||
; events be reviewed by the responsible system engineer for applicability and for the | |||
initiation of problem identification and corrective action documentation. | |||
. | |||
i | |||
i | |||
j | |||
i' 18 | |||
i | |||
l | |||
l | |||
_ | |||
_. __ _ . _ . _ _ _ _ _ | |||
, | |||
. _ _._ _.._ _ -__ _ . _ _ . . . . _ . _ | |||
. ___ _ _ _ ..__ _ q | |||
, | |||
. | |||
2 | |||
, | |||
3 | |||
For the selected plant events, the team found that the licensee assigned followup | |||
{ - responsibility, properly identified applicability to the Cooper Nuclear Station and | |||
initiated appropriate corrective actions when applicable. | |||
The team noted that while the licensee's actions for the reactor water cleanup . | |||
system break detection and for the standby liquid control system high operating | |||
j | |||
' | |||
temperature were not complete, their evaluation was ongoing and the completion | |||
was appropriately scheduled. | |||
I | |||
c. Conclusions | |||
The team concluded that the licensee's operating experience review program was | |||
effective in identifying, determining applicability, tracking, and responding to both | |||
NRC and industry events. ) | |||
l | |||
l | |||
.E8 MISCELLANEOUS ENGINEERING ISSUES | |||
a. -Insoection Scope | |||
l | |||
The team conducted a followup of activities that were performed as the result of a | |||
safety system functionalinspection of the emergency electrical system and auxiliary | |||
support systems conducted during the period of May 11 through June 19,1987. | |||
The purpose. of the followup activity was to determine if the corrective' actions | |||
developed to resolve issues during the safety system functionalinspection were | |||
. | |||
treated generically to address similar potential problems with other plant systems. | |||
' | |||
The team's followup activities involved addressing specific items identified in the | |||
safety system functionalinspection. These activities were accomplished using | |||
personnel interviews and record reviews. ! | |||
, | |||
b. Observations and Findinas | |||
The safety system functionalinspection review of the service water system | |||
identified deficiencies involving the measurement of heat removal capabilities and | |||
te, sung to assure that essential components receive required flows. This inspection | |||
reviewed the reactor equipment cooling, fuel pool cooling, and turbine equipment | |||
cooling systems to deterrnine if the lessons-learned from the service water system | |||
were implemented, as appropriate, for these systems. | |||
Measurement of Heat Removal Capabilities (item 8710-01) | |||
The licensee uses Procedures 13.15.1," Reactor Equipment Cooling Heat Exchanger | |||
Performance Analysis," and 13.16.1," Turbine Equipment Cooling Heat Exchanger | |||
Performance Analysis," to measure the heat removal capabilities of the system heat | |||
exchangers. The team reviewed these procedures and the test results from the last | |||
heat exchanger heat removal tests. No problems were identified with the | |||
procedures or the test results. | |||
19 | |||
i | |||
i | |||
1 | |||
* | |||
, .--m. , | |||
, m. m . . . -. , - | |||
, . - . ,. , , . . . - | |||
. . . . - - . - , , -- | |||
-. .~. - - . - - - - - . . = _ - - -.. . - - . .- .. | |||
. | |||
e | |||
* | |||
. | |||
The team also determined that the licensee does not measure the heat removal I | |||
capabilities of the fuel pool cooling system. The team discussed this observation i | |||
with the system engineer and was informed that since the fuel pool cooling system j | |||
' | |||
uses chemically controlled water on both sides of the heat exchanger, that fouling | |||
was not considered to be a problem. The engineer further stated that they never , | |||
experienced any fouling problems with these heat exchangers. - | |||
Testing for Adequate System Flows (ltem 8710-02) | |||
{ | |||
i | |||
! | |||
The licensee uses Procedure 6.2 REC.102," REC Critical Subsystem Emergency . ! | |||
, Mode Flow Test," during a refueling outage to verify that the reactor equipment I' | |||
i | |||
cooling system flow is adequate during system emergency operations. The licensee | |||
' | |||
alco uses Procedure 6.1 REC.101," REC Surveillance Operation," to perform monthly | |||
i or quartarly flow tests of the reactor equipment cooling pumps. The team reviewed i | |||
these procedures and the completed data from these procedures and verified that ' | |||
the appropriate system flows were obtained. No problems were identified with | |||
, | |||
either the procedures or the completed flow data. | |||
The team was informed that flow testing is not performed for either the turbine | |||
' | |||
equipment cooling or the fuel pool cooling systems. The team noted that these | |||
; systems are not used for accident mitigation and did not affect the plant's risk : | |||
2 | |||
profile, i | |||
Adequacy of Operator Training for Casualty Responses (Item 8710-03) j | |||
The team reviewed current emergency operating procadures for the reactor j | |||
! equipment cooling system and abnormal operating procedures for the turbine | |||
; equipment cooling and the fuel pool cooling systems. In addition, the team | |||
discussed the use of these procedures with operations personnel. As the result of | |||
' | |||
these reviews and discussions, the team determined that the procedures adequately i | |||
addressed casualty conditions for these systems. | |||
l The team also reviewed training lesson plans for these systems and discussed | |||
training activities with licensee personnel. Plant training has changed significantly | |||
' | |||
since 1987 with implementation of detailed training plans and the addition of the | |||
, plant simulator in 1990. Based upon this review and discussions, the team | |||
; determined that operator training and guidance was adequately addressing system | |||
casualty responses. | |||
i Service Water System Flow Testing (Item 8710-04) | |||
i | |||
< | |||
As the result of the Safety System FunctionalInspection, the licensee conducted a , | |||
# | |||
special test of the service water system in accordance with Special Test l | |||
Procedure 87 011," Post-LOCA Service Water System Flow Test," on May 21 and ; | |||
i | |||
May 25-26,1988. This test was performed to verify that the service water was ' | |||
, capable of meeting the post-LOCA flow rates. The results of this test were | |||
l reviewed'by the NRC as documented in NRC Inspection Report 50-298/89-03. | |||
! | |||
20 | |||
J | |||
f | |||
. l | |||
. | |||
During this inspection, the team verified that periodic surveillance | |||
Procedure 6.SW.102, " Service Water System Post-LOCA Flow Verification," was | |||
developed and implemented to periodically verify that the post-LOCA flow rates | |||
were still adequate. The team also reviewed the completed surveillance conducted | |||
on December 24,1995, and found the test results to be satisfactory. | |||
Normal Power Transformer Sizing (item 8710-05) | |||
The Safety System FunctionalInspection addressed the sizing of the startup and | |||
emergency power transformers, but did not address the sizing of the normal power | |||
transformers. During discussions with licensee engineers, the team was informed | |||
that the normal transformers were not used for accident events and, as a result, did | |||
not power emergency core cooling system components. The team also reviewed | |||
electrical drawings and the NRC electrical distribution system functional inspection | |||
(NRC Inspection Report 50-298/91-02) conducted in July 15 through August 16, | |||
1991. This report documented that the normal transformers were properly sized for j | |||
their application. I | |||
i | |||
Adequacy of the DC Power System (item 8710-06) | |||
The safety system functionalinspection did not address the adequacy of the | |||
de power system. Review of this issue by the team indicated that the licensee | |||
demonstrated that the dc power system was adequate based on a dc voltage drop | |||
study and a de load study performed by their vendor and documented in licensee , | |||
letters dated August 14 and November 23,1987. These studies, which I | |||
demonstrated that the de power system was adequate, was reviewed by the | |||
licensee's engineering department and confirmed to be adequate. The team also | |||
reviewed the electrical distribution system functional inspection (NRC Inspection | |||
Report 50-298/91-02)that was conducted in 1991. These studies were reviewed ' | |||
during this inspection. The results of this review supported the licensee's findings. | |||
Sizing of the 240V AC Power System (Item 8710-08) | |||
Since the Safety System Functional Inspection did not address the sizing of the | |||
240V ac power system, there was a concern that this system was not reviewed for | |||
proper sizing. The team followed up on this concern by reviewing the AC critical | |||
buses one-line diagram, conducting discussions with the applicable engineer, and | |||
review of the electrical distribution system functional inspection (NRC Inspection | |||
Report 50-298/91-02)that was conducted in 1991. Based upon this review, the | |||
teare concluded that there is no 240V ac system used at the Cooper Nuclear | |||
Station. | |||
480V AC Switchgear Sizing (Item 8710-09) | |||
Since the Safety System Functional inspection did not address the sizing of the | |||
480V ac power system, there was a concern that this system was not reviewed for | |||
proper sizing. The team reviewed the electrical distribution system functional | |||
21 | |||
. | |||
. | |||
inspection (NRC Inspection Report 50-298/91-02)that was conducted in 1991. | |||
This 1991 inspection verified that the 480 Vac switchgear was properly sized. | |||
Equipment Performance Trending (Item 8710-13) | |||
The safety system functional inspection identified that the service water system did | |||
not have an adequate trending program as evidenced by the fact that some pumps | |||
were operating in the " ALERT" range. This issue was resolved by issuance of a | |||
revised service water pump procedure. | |||
. | |||
There was a concern that other systems, such as the reactor equipment cooling, I | |||
turbine equipment cooling, and the fuel pool cooling systems may also lack a I | |||
trending program. The team reviewed tho equipment trending program (which ! | |||
included the trending curves and procedures) and the discussed the program with | |||
the assigned engineer. From this review, the team determined that trending was | |||
being performed on the pumps for the three listed systems. The team also | |||
determined that trending was being conducted on all safety-related system pumps ) | |||
and on a limited extent on the nonsafety-related equipment. l | |||
c. Conclusions | |||
The team concluded that the issues identified in the 1987 safety system functional ! | |||
inspection for specific systems and components were properly addressed on a | |||
generic level for other in-plant systems. | |||
IV. Plant SuppoE | |||
F8 MISCELLANEOUS FIRE PROTECTION ISSUES | |||
a. Inspection Scope | |||
The team toured the plant, reviewed the licensee's 10 CFR, Appendix R, Safe and | |||
Alternate Shutdown Report, reviewed Safe Shutdown Procedure 5.4.3.2, " Post-Fire | |||
Shutdown to Cold Shutdown Outside Control Room," and interviewed licensee | |||
personnel. In addition, the team conducted a review of the licensee's actions for | |||
fire protection issues identified in Licensee Event Reports 96-006 and 96-009. | |||
b. Observations and Findinas | |||
Licensee Event Report 94-016, Supplement 1 | |||
As part of the corrective actions for Licensee Event Report 94-016, Supplement 1, | |||
which identified that the control power for Emergency Diesel Generator 2 did not | |||
meet the fire protection requirements of 10 CFR Part 50, Appendix R, the licensee | |||
conducted a re-evaluation of the Cooper Nuclear Station's Safe and Alternate | |||
l | |||
. | |||
Shutdown Analysis Report. As a result of this re-evaluation, the licensee | |||
documented in Licensee Event Report 96-006, issued on June 6,1996, that safe | |||
22 | |||
! | |||
1 | |||
e | |||
. | |||
shutdown deficiencies potentially existed which were contrary to the requirements | |||
of 10 CFR Part 50, Appendix R. | |||
Licensee Event Report 96-006 | |||
Licensee Event Report 96-006 documented that these discrepancies involved | |||
control power for Reactor Equipment Coo!!ng Pumps 1C and 1D, the high pressure | |||
safety injection room cooler f an control relays, and an inappropriate installation of a | |||
test jack in the control circuitry of Motor-Operated Valve HPCI-MOV-M058. The | |||
conclusions documented in the licensee event report were that these issues were of | |||
minor safety significance because the emergency operating procedures provided | |||
coping strategies and that the test jack installed in the control circuitry of | |||
valve HPCI-MOV-M058 did not affect the ability of the plant to achieve and | |||
maintain hot shutdown. | |||
The team verified through procedure review that the licensee could cope with the | |||
control power problems identified in this licensee event report. While the recovery | |||
from these failures were not in Procedure 5.4.3.2, the operators were trained to | |||
deal with these vulnerabilities. The team concluded that these deficiencies did not | |||
constitute a violation of 10 CFR Part 50 Appendix R, Section Ill G. | |||
Licensee Event Report 96-009 | |||
On July 25,1996, the licensee again reported to the NRC, that as a result of their | |||
Appendix R re-evaluation, they identified additiorial items which did not have | |||
acceptable Appendix R coping strategies. These items, which were reported in | |||
Licensee Event Report 96-009, included: | |||
1 | |||
* Fire-induced ground faults at multiple locations which could cause the failure | |||
of the reactor core isolation cooling pump control power fuses. This failure | |||
would prevent the reactor core isolation cooling pump turbine from | |||
exceeding idle speed. | |||
* Fire-induced ground faults at multiple locations which could cause failure of | |||
control power fuses for Emergency Diesel Generator 2. If the failure | |||
occurred prior to diesel generator isolation for alternate shutdown, the failure | |||
could make this diesel generator unavailable. | |||
* Fire-induced ground faults at multiple locations that caused the control | |||
circuits for Circuit Breaker 1GE (the tie-circuit breaker for Emergency Diesel | |||
Generator 2) and Circuit Breaker 1GS (the emergency transformer circuit | |||
breaker) to be damaged, thereby, preventing closure. This would cause | |||
Emergency Diesel Generator 2 to be unavailable and prevent the shutdown | |||
bus from being energized. | |||
. | |||
23 | |||
i | |||
e | |||
. | |||
* | |||
A failure to analyze the initiation logic for the automatic depressurization | |||
system for potential spurious operation. A fire-induced short circuit could | |||
cause the automatic depressurization system valves to fail to close following | |||
initiation. | |||
* | |||
A failure to analyze for the potential of the control building emergency | |||
ventilation dampers (HV-PNL-ECBH1 and HV-PN-ECBHil) to spuriously close | |||
due to a fire-induced hot short. | |||
* A failure to analyze for the potential for spurious operation of reactor | |||
equipment cooling pump discharge valves (REC-MO-713 and REC-MO-712) | |||
due to a fire-induced hot short. This spurious operation could cause a run | |||
out condition for the reactor equipment cooling pumps and result in pump | |||
damage. | |||
* A failure to analyze for potential fire-induced spurious operation of residual | |||
heat removal valves (RHR-MO-25A,25B,27A, and 27B) due to a hot short. | |||
Spurious opening of these valves could place the unit in an unanalyzed | |||
operating mode with the residual heat removal system operating concurrently | |||
in the suppression pool cooling mode and the low pressure coolant injection | |||
mode. | |||
* A failure to identify that manual actions were needed to re-open service | |||
water outlet valves (SW-MOV-89A and SW-MOV-898) for the residual heat | |||
removal heat exchangers if fire-induced ground faults at multiple locations | |||
caused a loss of remote positioning capability. | |||
The team reviewed the licensee's actions to correct the identified deficiencies. The | |||
first two deficiencies, involving the reactor core isolation cooling and the Emergency | |||
Diesel Generator 2 control power fuses were corrected with plant modifications. | |||
The team verified that Modification Packages MP 96-112,"RCIC Appendix R | |||
Modifications," and MP 96-113," Diesel Generator #2 Appendix R Modifications," | |||
corrected these ground fault deficiencies. | |||
The remaining deficiencies were corrected with revisions to Procedure 5.4.3.2. The | |||
team reviewed these revisions and verified that the revised procedure provided | |||
sufficient instructions to allow the operators to mitigate any problems caused by the | |||
ground faults or hot shorts. The team noted that the licensee's corrective actions | |||
were prompt and effective. | |||
On April 17,1996 the NRC issued a Severity Level lli violation (EA 96-094) for the | |||
Appendix R discrepancies identified in Licensee Event Report 94-16 as documented | |||
in NRC Inspection Report 50-298/96-08. The team's review of the discrepancies | |||
identified in Licensee Event Reports 96-006 and 96-009 indicated that: | |||
* These new discrepancies were identified by the licensee as part of its l | |||
corrective action for EA 96-094 and reported in licensee event reports; j | |||
l | |||
i | |||
24 0 | |||
1 | |||
i | |||
. | |||
. | |||
* The root cause involved an inadequate Appendix R evaluation which I | |||
was identical to the violation documented in NRC Inspection | |||
Report 50-298/96-08; | |||
* | |||
These new discrepancies also involved the effects of fire induced ground | |||
faults and hot shorts and therefore did not change the safety significance of | |||
the regulatory concern; and, | |||
* | |||
The licensee's corrective actions appear to be prompt and comprehensive. , | |||
I | |||
This licensee-identified and corrected violation is being treated as a noncited | |||
violation, consistent with Section Vll.B.4 of the " General Statement of Policy and | |||
Procedures for NRC Enforcement Actions," NUREG-1600 (50-298/9625-03). | |||
Alternate Safe Shutdown using Automatic Depressurization and Core Spray | |||
Systems l | |||
l | |||
During the review of the licensee's Safe and Alternate Safe Shutdown Analysis l | |||
Report, the team noted that the licensee was using an alternate shutdown method ; | |||
in lieu of the normal shutdown method to cover and cool the reactor core for some i | |||
post-fire safe shutdown scenarios. Specifically, the automatic depressurization | |||
system was being used to depressurize the reactor vessel and the core spray | |||
system was being used to cover and cool the reactor core. | |||
10 CFR Part 50 Appendix R, Section Ill.L.2 establishes the performance goals for | |||
safe shutdown functions. Section Ill.L.2.b. specifies that the reactor coolant l | |||
makeup function shall be capable of maintaining the reactor core coolant levels l | |||
above the top of the core for boiling water reactors. During an NRC inspection ; | |||
conducted April 21-25,1986 (NRC Inspection Report 50-298/86-15),the NRC i | |||
identified that if depressurization is begun within 6 minutes after rod insertion with | |||
the water level at normal operating level the level would not go below the top of , | |||
active fuel. The inspection found that this was not consistent with the reactor i | |||
safety considerations used in the development of the emergency operating | |||
procedures. The emergency operating procedures in use at that time prescribed the | |||
use of the automatic depressurization/ core spray system method only when other | |||
methods were not available and the water level was at the top of the active fuel. | |||
This 1986 inspection concluded that the licensee's analysis was not complete and | |||
that the analysis should consider the top of active fuel as the starting point for the | |||
alternate safe shutdown scenarios. In addition, the report concluded that the re- | |||
analysis would probably result in partial core uncovery, and that this condition | |||
would require are exemption from the technical requirements of Appendix R. This | |||
was considered to be an unresolved item. | |||
In a subsequent NRC inspection conducted January 26-29,1987 (NRC inspection | |||
Report 50-298/87-04),the NRC reviewed the licensee's re-analysis and concluded | |||
that the core would be uncovered. This inspection found the licensees core | |||
uncovery re-analysis satisf actory and, based on this finding, closed the unresolved | |||
25 | |||
. | |||
. | |||
item. However, this closure action did not relieve the need for the licensee to | |||
request an exemption from the Appendix R requirements. | |||
While the team noted that the licensee's re-analysis indicated that an exemption | |||
from the technical requirements of Appendix R was required, no exemption was | |||
requested. | |||
1 | |||
l | |||
' | |||
This issue will be discussed with the NRR program office for further review and | |||
analysis of the altemate safe shutdown method using the automatic | |||
depressurization and core spray systems. This issue is considered to be unresolved | |||
pending the results of this review and analysis (50-298/9625-04). | |||
Fire Detection System Capability | |||
i | |||
During plant tours, the team observed an apparent lack of area-wide fire detection m | |||
the plant. In addition, the team noted that the placement, spacing, and application | |||
of fire detection devices did not satisfy industry fire protection engineering | |||
practices. | |||
The team reviewed the Cooper Nuclear Station, Design Criteria Document 11, Fire l | |||
Protection. Section 5.1 of this document, " Fire Detection and Alarm System," j | |||
Subsection 5.1.3, " Performance Requirements, Criteria, and Basis," Item I, specified ) | |||
that the fire protection systems and related equipment shall be designed in ! | |||
accordance with the National Fire Protection Association standards. The licensee l | |||
was unable to provide an engineering evaluation or the National Fire Protection i | |||
Association code of record. | |||
Based upon the design criteria document review, the team noted that for the type of | |||
heat detectors used at the plant, the manufacturer recommended a maximum area | |||
coverage (spacing) under ideal conditions (smooth ceilings with ceiling heights | |||
below that of the UL tested conditions) of 2500 square feet. Since the conditions | |||
at Cooper Nuclear Station were not ideal in that several plant areas existed where | |||
the ceiling was subdivided by beams that created irregular deep beam pockets, | |||
closer spacing of the detectors were required to achieve a responsive warning to a | |||
fire. | |||
In addition, the team noted that the spacing of the smoke (ionization) detectors in | |||
the reactor building was not consistent with the manufacturers recommended | |||
spacing. The maximum recommended spacing was 30 feet (area coverage 900 ) | |||
square feet) on a 15 feet 9-inch high smooth ceiling with no air movement and no | |||
' | |||
physical obstructions between the fire source and the detector. With conditions | |||
other than these, the manufacturer recommended the application of engineering | |||
judgement for detector location and spacing. The team observed that generally only | |||
four smoke detectors were located on each elevation of the reactor building. Since | |||
the observed plant configurctions, which included high ceilings, physical | |||
obstructions, and air flow, were different than the ideal conditions, the detector | |||
spacing had to be reduced. The licensee's present fire detector installations appear | |||
to be inconsistent with industry fire protection engineering standards. | |||
26 | |||
_ _ _ . _ .. | |||
. | |||
. | |||
The team noted that the licensee had not performed a detailed design / code | |||
evaluation of the fire detection system to demonstrate that the fire detection system | |||
would rapidly detect an incipient fire. The licensee did inform the team, however, | |||
that they implemented an Appendix R program validation project plan to evaluate | |||
the adequacy of the fire detection system for Appendix R compliance. | |||
This issue will he discussed with the NRR program office for further review and | |||
analysis of the adequacy of the fire detection system. This issue is considered to | |||
be unresolved pending the results of this review and analysis (50-298/9625-05). | |||
Recirculation Pumo Motor-Generator Set Fire Protection | |||
The Cooper Nuclear Station has two reactor recirculation pump motor-generator | |||
sets located on elevation 958'-0" of the reactor building. Due to the presence of | |||
1500 gallons of oilin each of these units, the motor-generator sets are considered a | |||
major fire hazard and represent a significant fire control and mitigation challenge | |||
that could affect safety-related plant areas. | |||
The team conducted a walkdown of this area and noted that the motor-generator | |||
sets were protected by a pre-action automatic sprinkler system. However, this | |||
system did not appear to be designed in accordance with the applicable National | |||
Fire Protection Association codes. The team noted that the system used reduced | |||
flow orifice type sprinkler heads that did not provide complete coverage throughout | |||
the area. For example, the team observed that sprinkler protection was not | |||
provided under significant obstructions created by duct work. The team also noted | |||
that it appeared that activation of an excessive number of reduced orifice sprinkler | |||
heads were required in order to supply the necessary water to mitigate a | |||
combustible liquid fire. | |||
The team also observed that the overall fire protection design for this area did not | |||
consider smoke propagation or have adequate curbing to collect the potential oil | |||
spillage during a motor generator fire. As a result, smoke from a motor-generator | |||
set tube oil fire could fill the refueling floor area and inadequate curbing could allow | |||
burning oil to flow through the equipment hatch to lower levels of the reactor ; | |||
building. | |||
1 | |||
This issue will be discussed with the NRR program office for further review and j | |||
analysis of the adequacy of the recirculation pump motor generator set fire j | |||
suppression system. This issue is considered to be unresolved pending the results | |||
of this review and analysis (50-298/9625-06). | |||
, | |||
Control of Combustible Material | |||
l | |||
l During a plant tour on November 20,1996, to inspect combustible material | |||
l controls, the team observed three instances where small quantities of transient | |||
' | |||
combustible materials were lef t in the reactor building after the end of the work | |||
shif t. The team noted that paragraph 8.1.11.1 of Procedure 0.7.1, " Control of | |||
i | |||
27 | |||
! | |||
i | |||
. | |||
* | |||
Combustibles," required that all unnecessary combustible materials be removed or | |||
properly stored and that the area be cleared at the end of each work shift. | |||
The team also noted that Quality Assurance Audit 96-08, conducted in July 1996, | |||
identified weaknesses with the control of combustible materials. One of the | |||
corrective actions from this audit was to revise Procedure 0.7.1 to clarify | |||
combustible control requirements and to provide training on this procedure. | |||
Procedure 0.7.1 was revised to clarify the transient combustible control | |||
requirements; however, the training was not completed. In the interim, the | |||
corrective action was to conduct continuing plant walkdowns to check that | |||
transient combustible material controls were being followed. | |||
10 CFR Part 50, Appendix B, Criterion XVI, requires that measures shall be | |||
adequate to assure that conditions adverse to quality are promptly identified and | |||
corrected. In the case of significant conditions adverse to quality, the measures | |||
shall ensure that .ne cause of the condition is determined and corrective action | |||
taken to preclude repetition. The licensee's failure to implement adequate corrective , | |||
action for the control of transient combustibles is a violation of 10 CFR Part 50, 1 | |||
Appendix B, Criterion XVI (50-298/9625-07). | |||
c. Conclusions | |||
The team concluded that the licensee has been taking prompt and effective | |||
corrective actions to resolve deficiencies identified by their on-going Appendix R | |||
compliance re evaluation program. The failure to take adequate corrective actions | |||
for controlling transient combustible materials was considered to be a violation | |||
involving an inadequate corrective action. | |||
Three unresolved items requiring resolution by the NRR program office were | |||
identified. These items involved the use of the automatic depressurization system | |||
and the core spray system as an alternate safe shutdown method, the adequacy of | |||
the fire detection system, and the adequacy of the fire suppression system in the | |||
reactor recirculation pump motor generator sets. | |||
V. MANAGEMENT MEETINGS . | |||
X1 EXIT MEETING SUMMARY | |||
The team presented the inspection resu!ts to members of licensee management at | |||
the conclusion of the inspection on December 13,1996. The licensee | |||
acknowledged the findings presented. | |||
The team asked the licensee whether any materials examined during the inspection | |||
were proprietary. No proprietary information was identified. | |||
28 | |||
. | |||
. | |||
ATTACHMENT 1 | |||
PARTIAL LIST OF PERSONS CONTACTED | |||
Licensee | |||
L. Bergen, Senior Manager, Safety Assessment / Site Support | |||
M. Boyce, Engineering Manager | |||
D. Buman, Design Engineering Manager | |||
J. Dillich, Maintenance Manager | |||
F. Diya, Acting Engineering Support Manager | |||
R. Gardner, Operations Manager | |||
M. Gillan, Corrective Action Program Supervisor | |||
R. Godley, Plant Engineering Manager | |||
P. Graham, Vice-President, Nuclear | |||
B. Houston, Manager, Nuclear Licensing | |||
J. Lechner, Senior Staff Engineer, Fire Protection | |||
J. Long, Manager, Events Analysis | |||
M. Peckham, Plant Manager | |||
J. Pelletier, Senior Manager, Engineering | |||
D. Reeves, Senior Staff Engineer, Operating Experience Review | |||
M. Spencer, Engineering Programs Supervisor | |||
B. Toline, Quality Assurance Manager | |||
M. Unruh, Maintenance Planning Supervisor | |||
R. Wenzl, Operations Support Engineering Supervisor | |||
INSPECTION PROCEDURES USED | |||
IP40500 Effectiveness of Licensee Controls in Identifying, Resolving, and Preventing | |||
Problems | |||
IP92903 Followup - Engineering | |||
IP92700 Onsite Followup of Written Reports of Nonroutine Events at Power Reactor | |||
Facilities | |||
ITEMS OPENED AND CLOSED | |||
Opened | |||
50-298/9625-01 VIO Failure of the Station Operations Review Committee to review | |||
station operations so that potential safety hazards could be | |||
detected. | |||
50-298/9625-02 URI Acceptability of the emergency diesel generator cylinder | |||
differential temperatures. | |||
29 | |||
3 | |||
* t | |||
* | |||
. I | |||
50-298/9625-03 NCV Eight examples of the failure to implement the requirements of ; | |||
10 CFR Part 50, Appendix R involving fire induced ground ; | |||
faults and hot short circuits. | |||
50-238/9625-04 URI Adequacy of the alternate safe shutdown method for a fire. | |||
! | |||
50-298/9625-05 URI Adequacy of the fire detection system. | |||
50-298/9625-06 URI Adequacy of the fire suppression system in the reactor | |||
recirculation pump motor-generator area. | |||
50-298/9625-07 VIO Failure to identify and correct transient combustible control | |||
problems. | |||
Closed | |||
50-298/9625-03 NCV Eight examples of the failure to implement the requirements of | |||
10 CFR Part 50, Appendix R involving fire induced ground | |||
faults and hot short circuits. | |||
LIST OF DOCUMENTS REVIEWED | |||
Plant Procedures | |||
Procedure Revision Title | |||
No. | |||
2.2.65 33 Reactor Equipment Cooling Water System | |||
2.2.65.1 9.2 REC Operations . | |||
2.2.66 38 Reactor Water Cleanup | |||
2.4.8.1 12.2 TEC System Failure - Loss of Pumps 1 | |||
2.4.8.6 12 Fuel Pool Cooling System Failure j | |||
! | |||
3.4.5 O Engineering Evaluations i | |||
3.9 10C1 ASME Code Testing of Pumps and Valves 4 | |||
5.2.4 10 Loss of All Reactor Equipment Cooling Water l | |||
5.4.3.2 13 Post-Fire Shutdown to Cold Shutdown Outside Control Room l | |||
7.0.1.7 O Troubleshooting Plant Equipment i | |||
13.15.1 5&6 Reactor Equipment Cooling Heat Exchanger Performance | |||
Analysis | |||
13.16.1 2C1 & 2C2 Turbine Equipment Cooling Heat Exchanger Performance | |||
Analysis | |||
6.SW.102 1.1 Service Water system Post-LOCA Flow Verification | |||
6.2 REC.102 O REC Critical Subsystem Emergency Mode Flow Test (Div 2) | |||
6.1 REC.101 2 REC Surveillance Operation | |||
6.1 REC.102 O REC Critical Subsystem Emergency Mode Flow Test (Div 1) | |||
STP 87-011 4 Post-LOCA Service Water System Flow Test | |||
30 | |||
~. . , , - | |||
. | |||
4 | |||
0.7.1 6 Control of Combustibles | |||
0.5 8 Problem identification and Resolution | |||
0.10 2.1 Operating Experience Program | |||
0.15 9 NPG Action item Tracking | |||
Dir. 4.12 1 Work Prioritization | |||
lostr.14 0 Operations Performance Assessment | |||
Instr.15 0 Operator Workaround= | |||
Design Changes (DC) and Modification Packages (MP) | |||
No. Title | |||
DC 88-201C HPCI Room Cooling Modification | |||
DC 92-109 Alternative Shutdown Hot-Short Modification | |||
DC 93-057 SW and REC System Modifications | |||
MP 96-112 RCIC Appendix R Modifications . | |||
MP 96-113 Diesel Generator #2 Appendix R Modifications | |||
l | |||
Temporary Modifications l | |||
4 | |||
No. Title j | |||
94-11 MPF EFF Rad Monitor sample flow control valve, RMV-MOV-431MV | |||
94-20 Install gauges on Gland Steam Exhaust line annulars | |||
94-21 Install gauges on MS Bypass Valve Exhaust line annulars ; | |||
94-23 | |||
' | |||
Caps on Drains No.6 and No.7 in the reactor building | |||
94-32 To install and document metal sampler in Main Condensate System | |||
94-37 No.1 DG Exhaust Muffler Bypass Valve doesn't have 4 bolts | |||
95-14 Move Westinghouse Office to south end of Turbine building | |||
95-38 MS-V-186 MSL C Vent in steam tunnel | |||
95-40 Seal Weld Union te RCIC-LS-74 | |||
96-01 MS-ADV-DRV4 Gv i outlet drain inlet flange | |||
96-02 Low pressure turbine No.2 Intercept Valve No.4 downstream flange | |||
96-04 T-932-HP Turbine. Right top side of HP Turbine, GV No.2 inlet flange | |||
96-07 Fire system No.2. Disconnect HAD C from loop | |||
96-14 Appendix R criteria on HPCI-MO-58. Lift leads to ensure valve will perform | |||
under Appendix R conditions | |||
96-15 Main Turbine Stop Valve No.1 has steam leak. Leak repair flange and | |||
sealant | |||
96-18 MS-LS-101. Bolt to hold down the instrument cover broke off | |||
96-20 A RRMG positioner internal electrical stop jumpered out. Extra stop not | |||
required , | |||
96-21 B RRMG positioner internal electrical stop jumpered out. Extra stop not | |||
required | |||
96-22 C phase main power transformer alarm. Lifted laad for low oil level and relief | |||
. | |||
valve | |||
96-23 DG-AOV-MB2 Replacement valve installed | |||
31 | |||
l | |||
. - - _.- _ . _ ~ . - - . _- _ -. - - . . - .. .- -- _- | |||
4 | |||
* | |||
. | |||
4 - | |||
96-24 A Air Compressor moisture separator outlet trap. Install Tee and extra drain | |||
, line and valve I | |||
' ' | |||
96-26 Temporary repairs to the discharge piping of the fire system jockey pump | |||
96-27 No.1 DG Muffler Bypass /DGSA-PRV-7. Fails open the muffler bypass valve | |||
' | |||
2 | |||
96-28 No.2 DG Muffler Bypass /DGSA-PRV-8. Fails open the muffler bypass valve | |||
! Condition Reports | |||
' | |||
CR No. Title | |||
; 96-0636 Discrepancy between as installed and drawing | |||
' | |||
96-0721 Ineffective corrective action | |||
j 96-0709 45 DCNs found in box | |||
96-0509 Diesel generator differential temperature | |||
96-0724 Failure to perform 50.59 analysis | |||
96-0881 Problem with plant temporary modification procedure | |||
96-0482 Unauthoriz0d modification | |||
96-0729 Vibration points in alert range | |||
96-0763 Test equipment attached to diesel | |||
96-0816 Nontested valves used for containment isolation | |||
96-0626 Inspection document sheet incorrectly completed | |||
96-0737 Contractor control deficiencies | |||
96-0215 Breaker spares | |||
96-0316 Unauthorized modification i | |||
96-0363 Procedural problems | |||
l | |||
1 | |||
96-0689 Unauthorized modification | |||
94-0712 Unauthorized modification | |||
96-0607 Valve does not conform to vendor drawing | |||
95-1159 Supports found not matching as-built drawings | |||
96-0422 Unauthorized modification | |||
96-0604 Misread PM card - Operated on wrong Diesel Generator Supply Fan | |||
96-0474 Operator bumped relay 13A-K31 causing a half group 5 isolauon | |||
96-0765 PMT performed for MWR 95-2979 without Shift Supervisor review | |||
96-0763 Test equipment left attached to Diesel Generator after it was declared l | |||
operable | |||
96-0585 NRC Information Notices and associated responses were inappropriately | |||
stored , | |||
96-0481 Added PMT for MWR 96-0684 was made without engineering review l | |||
96-0527 12.5kV disconnect switches mispositioned during Aux Boiler Start ; | |||
96-0446 Drawings in MWR 96-0537 were stamped with an expired date j | |||
95-0856 Halted PM 06452 due to Procedure 14.27.5 did not indicate entry into an i | |||
LCO | |||
95-1380 Failure to isolate sensing line during flushing of condensing chamber sensor ! | |||
caused scram l | |||
96-0433 MS-V-159 was missing caution tag | |||
06-1081 PC-MOV-1303MV was found open during LLRT after being tagged closed | |||
h | |||
32 | |||
! | |||
, | |||
e | |||
96-0406 Divers were in 'D' Circ. Water Pump Bay D2 without signing on clearance | |||
order | |||
95-1327 Danger tag for 'A' Condenser Booster Pump A inadvertently removed | |||
96-0236 In Procedure 6.1DG.401 Acceptance Criteria for fuel oil transfer pump vias | |||
outside operability limit | |||
95-1158 Welders inadvertently cut through energized heat trace | |||
Problem Identification Reports | |||
PIR No. Title | |||
1-17287 SW-MOV-MO650 initially f ailed to close | |||
2-05772 Flow indicator found sticking | |||
2-00478 Relief valve lifted early | |||
2-00641 Potential unauthorized modification | |||
2-00925 As-found values out of tolerance | |||
2-00928 As-found values out of tolerance | |||
2-00353 Unauthorized modification | |||
2-00658 Chemical addition tank overflowed | |||
2-01723 Operability basis not sufficiently documented | |||
2-04386 Housekeeping issue in HPCI room | |||
2-07235 Sump cover bolts missing | |||
2-02370 Failures of GE relays | |||
2-01574 Classification evaluation packages found in box | |||
2-04979 Unauthorized modification | |||
2-08241 Unauthorized modifications | |||
2-01226 Unauthorized modification | |||
2-00310 Water spraying from SW valve | |||
2-05592 Service water supply leaking through | |||
2-01141 Substandard quality fasteners | |||
2-00594 As-found values outside limit | |||
2-02131 Service water pump lift I' | |||
2-03857 EDG cylinder exhaust differential temperature exceeded | |||
2-01334 Configuration control | |||
2-07022 Configuration Control l | |||
2-07020 Configuration control | |||
2-05770 Configuration control | |||
2-05769 Configuration control | |||
2-04511 Pump bearing high alarm | |||
2-00319 Relief valve test stand | |||
2-03656 DG muffler typass valve | |||
2-03164 Failure to perform 50.F'* evaluation l | |||
2-01582 MOV motor and operator classified nonessential l | |||
2-03861 Valve failed to open and close | |||
2-00243 RCIC pump high pressure suction alarm | |||
2-01276 Check valve seat leakage I | |||
2-22767 Movement of DG air intake line | |||
2-01425 Missing screws on panel | |||
! | |||
33 | |||
l | |||
I | |||
- _ _ _ . ___ . . - .__._ _ _ . . _.___ | |||
' i | |||
; | |||
I | |||
o l | |||
2-00451 Testing method for contacts | |||
2-01706 Lack of procedure to address performance of self assessments | |||
2-02162 RHR placed in shutdown cooling with temperature difference between RCS l | |||
and RHR greater than 50 degrees. | |||
1-20507- The KAMAN high range monitor failed the leak test. , | |||
2-02511 Failure to take readings within the time limit specified in Procedure 6.3.1.2. l | |||
2-05528 DG-2 Room High Pressure CO 2 actuator cylinder missed 5 year hydro test l | |||
2-03580 Annunciator R-1/B-4 ' Battery Room 1 A Temp'will not stay reset 1 | |||
2-05724 Annunciator FP-3/A 1 came in and cleared. Fire Pump C started. No fire l | |||
2 03861 During performance of 6.HPCI.101, HPCI-MO25 failed to open and close i | |||
2-02070 Found RMV-V-301 shut. Should have been open ; | |||
2-02071 Intentiona'ly entered LCO due to fire door N103 being made inoperable ; | |||
2-03957 Large fan used/ stored in Aux Relay room not secured. Seismic concern l | |||
2-03912 AC-V 70 Feedwater stop valve for electrode boiler found in open position i | |||
2-03016 EOPs direct entry into procedure 2.2.69.2. Provides conflicting steps during j | |||
ATWS | |||
2-01426 Potential for RHR waterhammer exists per GE plant experience report | |||
2-06736 SW-TCV-451 B failed to stroke open within time limit ! | |||
2-04841 When DG-2 was declared inoperable, verification of ECCS operability was | |||
not logged in SS Log | |||
, | |||
2-01835 Weld rod oven receptacle not energized j | |||
l | |||
2-03817 'E' Fire Pump is steam bound due to running dead headed for 2 hour J | |||
2-03287 Clearance Order 96-680 issued for MWR 95-3868,which had already been !' | |||
completed | |||
2-05601 RWCU-MO-M015 failed to cycle with IST operability limit | |||
2-03497 Temperature of holding ovens for weld rods was not verified or logged 'i | |||
2-02382 Surveillance Procedure inadequacy | |||
2-04210 Mechanical personnel walked down MWR 961399 without work control | |||
center authorization | |||
2-01738 Two incidents identified of failure to sign off steps in procedures when work | |||
, | |||
was completed | |||
! 2 04570 Communication problem resulted in procedural step in Procedure 6.PAM.304 | |||
l not being performed | |||
2-00573 Housekeeping around SLC Tank Access cover is poor | |||
1 | |||
2-04962 Sketch SKE-DG-235 for Minor Maintenance 95-174 provided erroneous | |||
j information | |||
2-04475 RWCU Pump A has indications of melted coupling, Mechanical seal and | |||
discharge line leaking water | |||
2-05557 Inappropriate installation of Drywell Reliable Air Supply Check valve lA-CV- | |||
l | |||
14CV | |||
2-05564 EPA 1 A4 tripped on under voltage. Caused loss of Mernate power to RPS | |||
bus A | |||
2-07054 Surveillance Procedure 6.FP.102 step 8.2.70 calls for local alarm to sound. It | |||
did not | |||
. 2-02511 Failure to take readings within the time limits specified in SP 6.3.13.2 | |||
2-07050 SP 6.2DG.301 acceptance criteria for steps 8.12.1 and 8.12.2 were not met | |||
2-04205 Weld sheets and drawings give conflicting information on material to be used | |||
# | |||
i | |||
* | |||
! | |||
. 34 | |||
; | |||
! | |||
l | |||
_ _ | |||
. _ _ , . _. _.. _. _ | |||
- - - . . -- -. ..-- - . - - _ - . - - - - _ . . . _ ~ . - . . - . . . - . . _ - - . ~ | |||
. | |||
-o | |||
2-05807 Procedure 14.2.5 did not provide calibration tolerances for ICPS voltages | |||
2-04805 Failure to initial a step in Procedure 6.1 ARI.301 | |||
2-04397 Significant increase in CS Pump B vibrations | |||
2-02514 Fan units in DG rooms 1 and 2 have had their expansion joints painted over | |||
2-03279 Limitorque Spare Motor 04299 apparently repaired by unqualified vendor | |||
2-01714 ASME Section XI pressure test was not performed at the specified required | |||
l | |||
test pressure , | |||
' | |||
2-01716 Inadequate and Untimely review was performed on Pressure test Nos. | |||
95-492 and 95-493 , | |||
2-02038 Outage Schedule called for MSIV closure during power ascension at f | |||
50-70 percent power. Not achieved on time, requiring power reduction to | |||
perform | |||
2-00536 Deficiencies noted with tool and equipment control in FME Zone I around | |||
spent fuel pool | |||
2-00094 Scaffol&ng boards noted to be butted up against A Air Compressor | |||
Aftercooler Moisture Separator | |||
l Engineering Project Requests | |||
l | |||
EPR No. Title | |||
I | |||
I | |||
96-097 Review SW piping analysis / hanger calculations | |||
95-168 Exhaust fan power from division 11 | |||
, | |||
Maintenance Work Requests | |||
MWR No. Title | |||
96-1092 Adjust packing | |||
96-1514 Excessive oilleak | |||
96-1095 .DG muffler bypass valve failed | |||
96-1162 Flow indicator problems | |||
96-1126 Exhaust f an for DG room | |||
96-1530 DG oil day tank high alarm level | |||
96-1406 Screen wash pump discharge joint leaking | |||
96-1238 ADS control logic | |||
96-0747 RCIC turbine terminal box is loose | |||
96 1012 SW pump discharge pressure low | |||
96-1125 DG muffler bypass valve | |||
96-1039 Circulating water pump motor | |||
96-1673 RCIC test return root | |||
j 96-0883 Repair Control Rod Drive Pump 'A' | |||
96-1500 Repair Diesel Generator Day Tank No. 2 High Level Pump Stop | |||
96 1279 Repair Service Air Compressor i | |||
! | |||
! | |||
I | |||
' | |||
: | |||
. | |||
. | |||
. | |||
35 | |||
l | |||
l | |||
' | |||
i | |||
I | |||
! | |||
-_4_ ._ _ . _ . _. | |||
4_. .-_ _ __ _ ,, _ | |||
.4 | |||
r | |||
? | |||
1* | |||
Miscellaneous Documents | |||
Technical Specifications | |||
Final Safety Analysis Report | |||
NRC Inspection Report 50-298/87-10, dated September 22,1987 | |||
l NRC Inspection Report 50-298/89-03, dated April 10,1989 | |||
NRC Inspection Report 50-298/89-22, dated July 24,1989 | |||
NRC Inspection Report 50-298/90-33, dated November 21,1990 | |||
NRC Inspection Report 50-298/91-02, dated October 1,1991 | |||
3pecial Test Procedure 87-011, Post-LOCA Service Water System Flow Test, dated | |||
May 21 and May 25-26,1988 | |||
Nebraska Public Power District letter dated July 24,1987, to U.S. Nuclear Regulatory | |||
Commission; Subject: Safety System Functional inspection at Cooper Nuclear Station, | |||
Brownville, Nebraska | |||
Nebraska Public Power District letter dated August 14,1987, to U.S. Nuclear Regulatory ; | |||
Commission; Subject: Safety System Functional Inspection at Cooper Nuclear Station, | |||
Brownville, Nebraska | |||
Nebraska Public Power District letter dated November 23,1987, to U.S. Nuclear | |||
Regulatory Commission; Subject: Nebraska Public Power District's Response to inspection | |||
Report No. 50-298/87-10 | |||
NRC Memorandum dated December 22,1987 from William O. Long, Project Manager, | |||
Project Directorate - IV, Office of Nuclear Reactor Regulation, to Mr. George A. Trevors, | |||
Division Manager - Nuclear Support, Nebraska Public Power District; SUBJECT: SAFETY | |||
SYSTEM FUNCTIONAL INSPECTION, 50-298/87-10 | |||
MEMORANDUM dated November 6,1967, from F. Hess to I. Gabel, SUBJECT: | |||
W.O. 2520-02, Consumers Public Power District Design of Reactor Building Closed Cooling | |||
System | |||
BR-65, Reactor Building Closed Cooling Water System Summary of Preoperational Test, | |||
dated October 31,1973 and completed data for this test | |||
MEMORANDUM dated December 12,1973, to E.M. Kuchers from F. Hess/H.Reh/l. Gabel; | |||
SUBJECT: Work Order 2593 NPPD Cooper Nuclear Station BR-65 RBCCW System | |||
Summary of Preoperational Test (11/28/73) | |||
I | |||
36 | |||
' | |||
1 | |||
l | |||
e | |||
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s ! | |||
Cooper Nuclear Station, Response to 10 CFR Part 50 Appendix R, " Fire Protection of Safe | |||
Shutdown Capability," Volume I and 11, June 28,1982 l | |||
1 | |||
l Cooper Nuclear Station, Response to 10 CFR Part 50 Appendix R, " Fire Protection of Safe ! | |||
Shutdown Capability," Volume Ill, December 2,1983 | |||
L | |||
Cooper Nuclear Station, Appendix R Program Validation Project Plan, Revision 1, l | |||
November 15,1996 i | |||
: | |||
l | |||
Cooper Nuclear Station, Project instruction PI-004,10 CFR Part 50 Appendix R Functional i | |||
Requirements Analysis, Revision 0, N Jeber 4,1996 l | |||
1 | |||
l_ Cooper Nuclear Station, Project instruction PI-003, Fire Protection Features Assessment, | |||
. | |||
Revision 0, October 11,1996 , | |||
! | |||
Cooper Nuclear Station, Project instruction PI-006,10CFR50 Appendix R Manual Action I | |||
Feasibility, Revision 0, November 8,1996 j | |||
i | |||
l Cooper Nuclear Station, Project Instruction Pl-001, Appendix R Safe Shutdown Equipment ! | |||
List, Revision 0, November 8,1996 | |||
i 1 | |||
Cooper Nuclear Station, Project instruction PI-002, Cable Selection and Validation, : | |||
Revision 0, October 11,1996 l | |||
! | |||
Cooper Nuclear Station, Safe and Alternative Shutdown Analysis Report, July 1996 ! | |||
! | |||
! | |||
Cooper Nuclear Station, Appendix R Program Validation Project Plan, Revision 1, dated ? | |||
November 15,1996 ! | |||
I | |||
Cooper Nuclear Station OER Desktop Guide 5, Guideline for the Communication of Industry | |||
Operating Experience to CNS, Revision 1, Dated July 16,1996 | |||
NRC Safety Evaluation Report, Fire Protection Program, May 23,1979 | |||
l | |||
NRC Safety Evaluation Report, Exemption Requests - 10CFR 50.48 Fire Protection and | |||
Appendix R to 10 CFR Part 50, September 21,1983 | |||
l | |||
l | |||
NRC Safety Evaluation Report, Safety Evaluation for Appendix R to 10 CFR Part 50, | |||
items Ill G.3 and Ill.L, Alternative or Dedicated Shutdown Capability, April 16,1984 ; | |||
i | |||
' | |||
NRC Safety Evaluation Report, Outstanding Fire Protection Modifications, August 21,1985 | |||
i | |||
! | |||
. | |||
; 37 | |||
i | |||
i | |||
l | |||
4 | |||
- - | |||
}} |
Latest revision as of 06:25, 1 July 2020
ML20135E529 | |
Person / Time | |
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Site: | Cooper |
Issue date: | 03/04/1997 |
From: | NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION IV) |
To: | |
Shared Package | |
ML20135E504 | List: |
References | |
50-298-96-25, NUDOCS 9703070124 | |
Download: ML20135E529 (43) | |
See also: IR 05000298/1996025
Text
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ENCLOSURE 2 l
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U.S. NUCLEAR REGULATORY COMMISSION j
REGION IV j
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Docket No.: 50-298 !
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License No.: DPR-46
Report No.: 50-298/96-25
Licensee: Nebraska Public Power District
Facility: Cooper Nuclear Station
Location: P.O. Box 98
Brownville, Nebraska l
Dates: November 18-22 and December 9-13,1996
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inspectors: T. Stetka, Team Leader !
R. Azua, Reactor Inspector ,
P. Goldberg, Reactor inspector
P. Qualls, Reactor inspector
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P. Madden, Senior Fire Protection Engineer j
T. Eaton, Fire Protection Engineer-Intern
Approved By: C. VanDenburgh, Chief, Engineering Branch l
Division of Reactor Safety
Attachment: Supplemental information
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9703070124 970304
PDR ADOCK 05000298
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EXECUTIVE SUMMARY
Cooper Nuclear Station
NRC Inspection Report 50-298/96-2
This inspection evaluated the effectiveness of the licensee's controls in identifying,
resolving, and preventing issues that degrade the quality of plant safety. Specifically, the
inspection team reviewed the licensee's programs for the corrective action and self
assessment process. The team reviewed the activities of the safety review committees
and operating experience feedback program. The inspection also included a review of the
fire protection program to determine if the corrective actions taken to resolve the fire
protection program deficiencies identified in Licensee Event Report 96-06 were thcough
and complete. The inspection covered a 4-week period with 2 weeks of onsite inspection.
Operations
- The corrective action program provided an effective method for reporting,
prioritizing, and tracking licensee findings, in addition, the licensee's efforts to
educate plant personnel regarding the problem identification reporting process, and
their continuing efforts to keep the plant management informed as to the progress
of the corrective action program was notable (Section 01.1).
- Operations had done a very good job of identifying and reporting plant problems
(Section 01.1).
- The Safety Review and Audit Board and the Condition Review Group were 1
effectively implementing their license requirements. However, the Station 1
Operations Review Committee f ailed to review station operations to detect potential l
nuclear safety hazards. This was identified as a violation of the Technical
Specifications (Section 01.2).
- The backlog of open items for the Operations Department was low and the licensee
was effectively managing this backlog. In addition, operations was appropriately
resolving emergent issues and had good engineering support (Sections 07.1
and 07.2).
- The operator aids and operator workaround programs were properly controlled
(Section 07.3).
Maintenance
- The inspection team noted that mechanical maintenance had a low plant problem
reporting level (Section 01.1).
- The backlog of open items for the maintenance department was low and the !
licensee was effectively managing this backlog. However, problems with 1
maintenance planning workloads and a cumbersome maintenance work request l
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process combined with an upcoming refueling outage, were considered to be
precursors to increased backlogs. The licensee was taking action to address this
increase (Section M7.1).
Maintenance was appropriately resolving emergent issues. However, an issue was
identified where the completed corrective actions for a plant problem involving
personnel training on prejob briefings and the use of a prejob briefing form were not i
complete and contradicted the proposed corrective actions (Section M7.2). l
Quality assurance audits were thorough and critical as evidenced by the quality
assurance audits of design control and corrective maintenance. These audits t
identified issues similar to the issues identified by the NRC inspection. The quality I
assurance department's aggressive efforts in identifying licensee problems was
notable (Sections M7.3 and E7.8).
Enaineerina
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Compared with other single unit nuclear plants, engineering had a high open item
backlog of approximately 3000 items. Although a slight decrease in the backlog ,
was noted due to a recently initiated backlog reduction effort, the team was I
concemed that the licensee's efforts to address this issue had not been effective j
(Section E7.1).
Engineering involvement with operability determinations, maintenance work orders, !
temporary modifications and engineering problem requests was appropriate and
effective (Sections E7.2, E7.3, and E7.5).
- The licensee effectively used their design criteria documents, which were
maintained as living documents (Section E7.6).
Due to a high amount of emergent work, system engineers indicated they were
restricted in their ability to proactively approach problems involving their systems j
(Section E7.4),
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- In general, engineering properly dispositioned plant problems (Section E7.6). )
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The inspection identified an unresolved item involving the acceptability of increased
emergency diesel generator cylinder exhaust differential temperatures. The licensee i
had increased the differential temperature limit, in lieu of identifying and correcting j
the cause of the temperature increase (Section E8.1.2). 1
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The licensee's engineering self assessment and self-assessment followup were
thorough, comprehensive, and resulted in many good findings. These self-
assessment findings were consistent with those identified by the NRC team.
However, due to resource constraints in the engineering department, the resolution
of these self-assessment findings was not effective in fact, the followup
assessment indicated that there was a concern in the engineering organization
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regarding the commitment of management, the availability of resources, and the '
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authority of the finding owners to implement action plans effectively (Section E7.7).
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The operating experience review program was effective in identifying, determining
applicability, tracking, and responding to both NRC and industry events 1
, (Section E7.9). l
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Plant Suonort
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- Prompt and effective corrective actions were taken to resolve deficiencies identified
3 while re-evaluating the 10 CFR Part 50, Appendix R safe shutdown analysis. As a
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result of these efforts, the licensee identified additional examples of violations of
Appendix R. However, in accordance with Section Vll.B.4 of the " General
l Statement of Policy and Procedures for NRC Enforcement Actions," NUREG 1600,
, these violations were not cited nor considered for escalated enforcement because
- they were identified as a result of the licensee's corrective actions for a previous
! Severity Level ill violation (EA 96-94) (Section F8).
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l * The inspection identified a corrective action violation involving ineffective corrective
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action for the control of transient combustible material (Section F8).
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j * The inspection identified three unresolved items involving the licensee's Appendix R
- fire protection program. These items involved
i The use of automatic depressurization and the core spray systems as an
alternate post-fire shutdown method did not appear to meet the requirements
- of Appendix R.
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, The originallicensing basis for the fire detection system was unclear.
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The originallicensing basis of the fire suppression system in the area where
- the reactor recirculation pump motor generator sets were located, was
- unclear.
These items will be referred to the Office of Nuclear Reactor Regulation for
l clarification of the Appendix R and originallicensing conditiorn (Section F8). l
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TABLE OF CONTENTS
EX EC UTIVE S U M M A RY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ii
R e p o rt D e t a il s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
1. O P E R AT I O N S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
01 CO N D U CT O F O PER ATIO N S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
01.1 Corrective Action Program implementation . . . . . . . . . . . . . . . . . 1
01.2 Safety Review Committee Activities ..................... 3
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07 QUALITY ASSURANCE IN OPERATIONS . . . . . . . . . . . . . . . . . . . . . . . 4 !
07.1 Control of Open item Backlog . . . . . . . . . . . . . . . . . . . . . . . . . . 4
07.2 Condition Report and Problem identification Report Reviews . . . . 4
07.3 Operator Aids and Workarounds . . . . . . . . . . . . . . . . . . . . . . . . 5
07.4 Self-Assessment Activities . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
11. M AINTEN ANCE . . . . . . . . . . . . . . . . . . . ............................. 7
M7 QUALITY ASSURANCE IN MAINTENANCE ACTIVITIES . . . . . . . . . . . . 7
M7.1 Control of Open item Backlog . . . . . . . . . . . . . . . . . . . . . . . . . . 7
M7.2 Condition Report, Problem identification Report and
Maintenance WorF Request Reviews . . . . . . . . . . . . . . . . . . . . . 8
M7.3 Quality Assurance Audit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 j
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111. E N G I N E E R I N G . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 l
E7 QUALITY ASSURANCE IN ENGINEERING ACTIVITIES . . . . . . . . . . . . . 10
E7.1 Control of Open item 8acklog . . . . . . . . . . . . . . . . . . . . . . . . . 10 5
E7.2 Operability Determinations and Corrective Maintenance Work 1
Orders ......................................... 11
E7.3 Temporary Modifications ............................ 12
E7.4 System Engineering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
E7.5 Engineering Project Requests . . . . . . . . . . . . . . . . . . . . . . . . . . 13 !
E7.6 Engineering Disposition of Problem identification Reports . . . . . . 13
E7.7 Self- Assessment Activities . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
E7.8 Quality Assurance Audit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 l
E7.9 Operating Experience Feedback . . . . . . . . . . . . . . . . . . . . . . . . 18 l
E8 MISCELLANEOUS ENGINEERING ISSUES . . . . . . . . . . . . . . . . . . . . 19 l
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l I V. Pl a nt S u p po rt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 l
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F8 MISCELLANEOUS FIRE PROTECTION ISSUES . . . . . . . . . . . . . . . . . . . 22
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V. MANAGEMENT MEETINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
X1 EX IT M E ETI N G S U M M A R Y . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . 28
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Report Details
1. OPERATIONS
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01 CONDUCT OF OPERATIONS I
01.1 Cortective Action Proaram imolementation
a. Insnection Scope
The team reviewed the administrative procedures that control the identification,
evaluation, and resolution of identified problems. In addition, the team interviewed
five individuals involved with the implementation of the licensee's problem
identification process.
b. . Observations and Findinas
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The licensee ~s corrective action program was described in Administrative i
Procedure 0.5, " Problem Identification and Resolution," Revision 8. This program I
was in effect since April 1996, and constituted a change to the former program. In ;
this new program, problem identification reports replaced condition reports as the
reporting mechanism for plant identified problems. When the new program was
introduced, the corrective action program staff held a number of meetings to
provide training on the new reporting documentation, and to provide guidance on ;
the threshold for reporting. As a result of this training, the number of reported !
problems increased. This was noted by the team during review of problem
identification reports. This was further corroborated when operations and
maintenance personnel interviewed indicated that they were not hesitant to write i
problem identification reports for identified problems, regardless of how small or l
insignificant they may seem.
The team found that two levels of review were performed on each problem
identification report. The first levelinvolved a determination of the immediate
safety significance of the identified problem by a daily condition review group
meeting. During this meeting the problem identification report was designated as ;
either a signitm mt condition adverse to quality, condition adverse to quality, work
item, departmental disposition, trending, or closure based on actions taken. This
process was used to determine if a root-cause analysis was needed. For a
significant condition adverse to quality, a mandatory root-cause analyses was
performed.
Following a determination of safety significance, the second review level set a
priority for the proposed corrective actions. Each corrective action was given a
priority number from one to six (most to least significant) in accordance with
Nuclear Power Group Directive 4.12, " Work Prioritization." Once an action item
was assigned a priority number, the action was assigned to one of the departments
for closure responsibility. Each item, depending on its assigned priority, was
required to be completed within a specific time period.
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When a department anticipated that the action would not be closed within the
specified time period, the department would submit an extension request that
stipulated the cause of the delay. Approval of the extension request could be
obtained from the responsible department manager or a corrective action review !
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board chairman. This afforded licensee management the opportunity to assess the
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significance of the delay, and to take action if the delay was unacceptable. r
The team found that the corrective action program staff were proactive in their
efforts to provide information regarding the status of the corrective action program. l
One example of this was a series of graphs that depicted the percentage of findings
identified within each department (operations, maintenance, etc.). The graphs
- provided a comparison between the percentage of findings that were identified by ,
personnel within each department versus those findings identified in each
department by personnel outside the departments.
The team noted that more than 50 percent of the findings in the maintenance
department were identified by personnellocated outside these departments. The
corrective action program staff provided a breakdown of the maintenance
department findings. These graphs indicated that while the instrumentation and
controls personnelidentified 60 percent of the totalinstrumentation and controls
findings, the mechanical maintenance staff only identified 25 percent of the total
- mechanical maintenance findings.
As a result of the corrective action program staff findings, the maintenance .
department issued a problem identification report to determine the reason for the 25
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percent finding level in mechanical maintenance, in the interim, maintenance
, management personnel indicated that they planned to hold discussions with each of t
their departments regarding the problem identification report process and the
- corrective action program staff findings.
The team noted that a similar program did not exist for engineering. However, the
team was informed that the corrective action program staff planned to provide a
similar status program for engineering.
c. Conclusions
The licensee's corrective action program provided an effective method for reporting,
prioritizing, and tracking licensee findings. The corrective action program staff's
- efforts to educate plant personnel regarding the problem identification reporting ;
process, and their continuing efforts to keep the plant management informed as to 1
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the progress of the corrective action program was notable. Licensee efforts in
identifying and reporting plant problems was found to be very good overall, but
some areas (e.g., mechanical maintenance) needed improvement. Procedural
compliance with the problem identification report process was good.
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01.2 Safety Review Committee Activities
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a. Insoection Scone
The licensee's safety review committees consisted of the onsite Station Operations
Review Committee and the offsite Safety Review and Audit Board. The licensee
also convened condition review group meetings. The condition review group
reviewed emergent problem identification reports and dispositioned these reports in
accordance with their corrective action program (see Section 01.1). The team l
reviewed approximately 73 meeting minutes for the Station Operations Review
Committee for the period of July 2 through November 25,1996. The team
reviewed Safety Review and Audit Board meeting minutes for the May 24, July 26,
and September 27,1996, meetings. I
in addition, the team attended two Station Operations Review Committee meetings, I
three Safety Review and Audit Board subcommittee meetings, and two condition j
review group meetings to verify that the license conditions were satisfied and that '
the reviews were effective in identifying problems,
b. Observations and Findinas l
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The team noted that the Safety Review and Audit Board and the condition review
group were performing all activities required by license conditions and implementing ,
procedures. The observed Safety Review and Audit Board subcommittee meetings {
included critical and in-depth discussions of the reviewed activities. The team noted '
that one Safety Review and Audit Board subcommittee concluded that while the
licensee was effective in identifying plant problems they were not as effective in
correcting or resolving those problems. )
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As a result of the team's Station Operations Review Committee meeting minutes !
review and the attendance at two Station Operations Review Committee meetings,
the team observed that not alllicense requirements were being implemented.
Specifically, the Technical Specification requirement to review station operation to
detect potential nuclear safety hazards was not being performed.
In response to this finding, the licensee stated that they were reviewing completed
operations activities and proposed procedure changes, which they believed met the
intent of this Technical Specification requirement. However, following additional
discussions, the licensee agreed that they were not reviewing potential safety
j hazards that could occur during station operations. '
Technical Specification 6.2.1.A.4.e requires the Station Operations Review I
Committee to review station operations so that potential safety hazards could be !
detected. The failure to review station operation to detect potential safety hazards
is a violation of Technical Specification 6.2.1.A.4.e (50-298/9625-01).
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c. Conclusion _q i
, The team conclud d that the Safety Review and Audit Board and the condition
j review group were effectively implementing license requirements. The team
, concluded that, except for the failure to review station operation to detect potential
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, nuclear safety hazards, the Station Operations Review Committee was implementing -
1 license requirements. Notwithstanding this failure, the team concluded that the
j review committees were effective in their oversight of licensee activities. .
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07 QUALITY ASSURANCEIN OPERATIONS
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07.1 Control of Open item Backloa
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a. Insoection Scope
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The team reviewed the operations backlog to determine the backlog size, the trend
2 (i.e., increasing, decreasing or steady), how the backlog was tracked and managed,
and how priorities were determined. The team also discussed these backlogs with
, applicable operations personnel.
b. Observations and Findinas
! The team noted that the operations department backlog was small(22 open items
, which included 5 procedural reviews and changes). The team's review found that
all of these items had been appropriately prioritized in terms of their safety
significance. As a result of these findings, the team determined that the operations
department were appropriately managing their open item backlog.
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c. Conclusions '
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The team concluded that the backlog of open items for operations were low and l
that the licensee was effectively managing the backlog. '
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07.2 Condition Report and Problem Identification Report Reviews
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- a. Insoection Scoce i
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The team reviewed control room shift supervisor logs, condition reports, and
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problem identification reports to determhe the status of problem tracking and
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resolution. In addition, the team interviewed five operations personnel and the
operations manager.
b. Observations and Findinas
The team reviewed the control room shift supervisor logs for the months of
- September, October, and November of 1996 and noted that all incidents identified :
in the logs were documented in problem identification reports. The team verified
that each of the problem identification reports clearly identified the issue and were
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reviewed and categorized (significant condition adverse t a quality, etc.) in j
accordance with the requirements set forth in Administrative Procedure 0.5, '
" Problem Identification and Resolution". The team selected ten of these problem
identification reports and verified that the assigned priority categories were
consistent with the safety significance of tha conditions identified.
The team also reviewed ten additional condition reports / problem identification
reports that had all actions completed. The team verified that these condition
reports / problem identification reports were reviewed and properly categorized. The l
team also verified that operability determinations associated with these condition I
reports / problem identification reports were properly dispositioned.
I For those condition / problem identification reports requiring a root-cause analysis,
the team reviewed the conclusions and the resultant recommended corrective
actions. The team found the licensee's analyses to be thorough and the
i recommended corrective actions to be appropriate. The team also verified that each
of the corrective actions were assigned a priority in accordance with Directive 4.12, ,
" Work Prioritization," and reviewed the completed corrective actions. As the result l
of these reviews, the team found the corrective actions to be properly closed. '
The team also reviewed 25 open problem identification reports assigned to
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operations for resolution and determined that each item had been appropriately
pricritized. No problems were noted from these reviews. In all cases reviewed, and
, as the result of operator interviews, the team determined that engineering support
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c. Conclusions
The team concluded that operations was appropriately resolving emergent issues
4 and that engineering support of operations was good.
07.3 Operator Aids and Workarounds
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i a. Inspection Scone
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The team reviewed control room shift supervisor logs to determine the number,
status and use of operator aids and workarounds. In addition, the team interviewed
five operations personnel and the operations manager,
b. Observations and Findinas
a
The team reviewed the licensee's operator aid and workaround programs. The
status of these programs, which were maintained in togs, was found to be current,
with each log identifying the number of outstanding items in the plant.
The team found that the licensee h'ad a total of 18 operator aids logged. The team
inspected 5 of these operator aids and found that they were appropriately reviewed
and approved. The team found that the licensee reviewed the operator aids log on
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a periodic basis. For those operator aids that were taken from the Technical
Specifications, piping and ir.strumentation drawings, and plant procedures, the team ,
!. verified that the latest revision of these documents were used. No unapproved !
l operator aids were identified by the team and none of the operator aids were found j
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to constitute an operator workaround, j
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j' The operator workaround program was maraged by the operations shift supervisor
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assigned to the work control center. The team found that the licensee logged 14
- items as workarounds. Operator Instruction 15, " Operator Workarounds," defined !
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an operator workaround as any equiprnent, plant, training, policy, or procedure l
- deficiency which, during normal, abnormal, or emergency conditions, would impede -!
l- effective operator response. The instruction also provided a scale that was used to I
! establish pnorities. l
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Of the 14 items listed, the licensee identified 5 that were assigned an A, B, or C l
l (high, medium, low ) priority, with only one considered to be a high (A) priority l
- item. The other items, which did not impact plant operations, were not assigned a ,
- priority in accordance with the operator instruction, prioritized workarounds were '
assigned an aging criteria (i.e., a cuggested time limit for item correction). The i
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team noted that four of the five prioritized items exceeded the recommended time
period listed in the operator instruction. The team also noted that the licensee :
reviewed these workarounds and determined that the plant could be operated safely [
with these workarounds in-place until the next refueling outage. The team
considered management of operator workarounds to be appropriate.
c. Conclusions .
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The team concluded that the operator aids and operator workarounds were properly "
controlled.
07.4 Self-Assessment Activities j
a. Inspection Scoce . [
The team reviewed self-assessment activities in operations to determine the extent
of these activities.
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b. Observations and Findinas
The team found that the operations department had not performed a recent self
assessment. However, the team noted that operations personnel recently
implemented (only about 6 weeks prior to this inspection) individual operations
performance assessments. Operations personnel were required to fill out
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assessment forms of different areas on a periodic basis. At the end of the quarter, l'
the sheets were then compiled by operations management who put out a report
with the results. The team reviewed the first self-assessment report that was !
issued. This report covered the November time period. The team considered the i
report to be a useful tool for identifying problems in operations. i
c. Conclusions
!
While the team noted that there were no recent self assessments in operations, the j
team concluded that the newly implemented self-assessment program appeared ,
useful for identifying problems within the operations department. However, due to l
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the recent implementation of this program, the team could not assess the
effectiveness of the program.
II. MAINTENANCE
M7 QUALITY ASSURANCEIN MAINTENANCE ACTIVITIES
M7.1 Control of Open item Backloa
a. Inspection Scope
The team reviewed the maintenance backlog to determine the backlog size, the
trend (i.e., increesing, decreasing or steady), how the backlog was tracked and
managed, and how priorities were determined. The team also discussed the
backlog with applicable maintenance personnel. j
b. Observations and Findinas
To determine the maintenance backlog, the team requested a listing of all open
items assigned to the maintenance department that met the criteria for their {
backlog. The licensee provided approximately 120 items that they considered to be
part of their backlog. The team's review found that all of these items had been
appropriately prioritized in terms of their safety significance.
!
The team found through interviews with maintenance planners that their workload
was significant with regard to the preparation of maintenance work requests and
responses to problem identification reports. Some planners indicated that this j
workload had an effect on the quality of their work activity. Maintenance planners i
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also indicated that the maintenance work request development process was a
cumbersome process which contributed to delays in the development of the
maintenance work requests.
The licensee recently hired contractors to assist with their backlog management
efforts to address the problems identified by the maintenance planners and to
address the potential backlog increase due to the upcoming refueling outage. The
team noted that the licensee formed a "Fix-It-Now" team. The team consisted of
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members from each department including a maintenance planner, an operator, craft
personnel, and engineers. The main purpose of this team was to address emergent
work, thus, allowing other plant personnel to concentrate on scheduled
maintenance activities.
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- Another aspect of the Fix-It-Now team was to identify and implement process
improvementr, and to address backlogged maintenance work requests. The team
noted that this was a pilot program that was recently implemented and, therefore,
it~s effectiveness could not be determined at this time.
- c. Conclusions l
The team concluded that the backlog of open items for maintenance was low and
that the licensee was effectively managing this backlog. However, the team noted
that with the advent of the upcoming refueling outage, problems with the
maintenance planning workloads and the cumbersome maintenance work request
process, were precursors to increased backlogs. The team also noted that the
licensee was taking action to preclude a backlog increase.
M7.2 Condition Report, Problem Identification Report and Maintenance Work Reauest
Reviews
a. Insoection Scope
The team reviewed maintenance condition reports, problem identification reports,
and work requests to determine the status of problem tracking and resolution. In
addition, the team interviewed five members of the maintenance planning group,
four maintenance craft personnel, and the maintenance manager.
b. Observations and Findinas
The team reviewed ten condition / problem identification reports that had all actions
completed. The team verified that these condition / problem identification reports
were reviewed and properly categorized. The team found the licensee's analyses to
be thorough and the recommended corrective actions to be appropriate. The team i
also verified that each of the corrective actions were assigned a priority in l
accordance with Management Directive 4.12, " Work Prioritization," and reviewed j
the completed corrective actions. As the result of these reviews, the corrective !
actions for all but one condition report were found to be properly closed.
l
A review of Condition Report 96-0604 indicated that the final corrective actions did
not appear to address, and in one case appeared to contradict, the recommended
corrective actions. The recommended corrective actions, from the root-cause
analyses, involved personnel training on prejob briefings and the use of a prejob
briefing form. The final corrective actions did not document that all recommended
training had been completed or if any had been performed. The contradiction
involved a memorandum issued to maintenance supervisors involving information
that was to be conveyed to work crew leaders. This memo stated that it was not
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expected that a formal briefing sheet or set routine be used on each job and that the
work crew leaders need only to review the work to be performed with their craft
personnel.
A discussion of this finding with the licensee personnelindicated that while the
package had not gone through its final review, they agreed that all the
reuommended corrective shouid be implemented. j
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The team also reviewed 25 open problem identification reports assigned to
maintenance for resolution, and determined that each item had been appropriately
prioritized. The team also reviewed six maintenance work requests which resulted
from priority one and two problem identification reports and were closed over the l
last 6 months. No problems were noted from these reviews. However, as the
result of these reviews, the team found that engineering support of maintenance
- was inconsistent. Interviews with maintenance personnel indicated that
communication and cooperation with engineering was good as long as engineering
was not impacted by their own emergent issues. If engineering was impacted by
such issues, their communication and cooperation was not as effective.
c. Conclusions
The team concluded that while maintenance was resolving emergent issues, the l
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corrective action process needed improvements to assure that the proposed and
'
completed corrective actions are consistent and fully resolved the problem.
M7.3 Ouality Assurance Audit
a. Insoection Scoce
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,
The team reviewed Quality Assurance Audit 96-15," Corrective Maintenance,"
which was performed during the period of October 18 through November 1,1996.
The team reviewed this audit and discussed the findings with licensee personnel to
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determine if the corrective actions that resulted from the audit were adequate and
completed in a timely manner.
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b. Observations and Findinas
This audit was found to be thorough and very critical of maintenance department
processes. Specifically, it noted that process inefficiencies, lack of a global
commitment to the schedule, and difficulty with intra-departmentalinterfaces made
the overall process ineffective. The ndit also identified a management failure to
encourage teamwork between departments. As a result of this audit, a number of
problem identification reports were issued by the licensee. Since this audit was l
recent (completed during this inspection), the licensee response to the audit was
not available. This audit review and interviews with quality assurance personnel,
further demonstrated that the quality assurance department was a0gressive in
identifying problem areas in the plant.
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c. Conclusions
The team concluded that the audit performed by quality assurance was thorough
and critical. The quality assurance department's aggressive efforts in identifying
licensee problems was notable.
Ill. ENGINEERING
E7 QUALITY ASSURANCEIN ENGINEERING ACTIVITIES
E7.1 Control of Open item Backloa
a. Insoection Scoce
The team reviewed the backlog in engineering to determine the backlog size, the
trend (i.e., increasing, decreasing or steady), how the backlog was tracked and
managed, and how priorities were determined. The team also discussed these
backlogs with applicable engineering personnel,
b. Observations and Findinos
The team requested the engineering backlog and noted that the licensee was not
readily able to provide this information. The licensee could not initially provide this
information, because the licensee's backlog was listed in at least six different data
bases. The licensee stated that the information listed in these data bases
collectively represented the enginuring open item backlog and current work. The
licensee listed the backlog as follows:
- Special Procedure completion reports 25
- Special test procedure completion reports 48
- Design change completion reports 136
- Engineering work / projects requests 474
- - Nuclear action item tracking items 936
- Drawing change notices 528
- Component evaluation packages 190
- Replacement component evaluation completion reports 141
- Maintenance work requests engineering review 267
- Maintenance work requests final engineering review 155
- Calculations with engineering judgments outstanding 145
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The team found that the backlog consisted of approximately 3000 items which the
team considered, based upon comparison with other single unit nuclear plants, to be ,
high. The team noted that the engineering work / projects requests had 8 priority
one items and 449 priority two items and the nuclear action item tracking system
had 9 priority one items and 115 priority two items. The licensee stated that all
engineering items were assigned priorities based on the corrective action program. ,
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The team reviewed the priority one items and concluded that they were not safety
significant. The team reviewed Administrative Procedure 0.15 "NPG Action item l
Tracking," which contained a list of items included in the nuclear action tracking
,
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system. These items were licensing documents, industry operating experience ;
documents, corrective action program documents, and self assessments. The l
team's review found that all of these items had been appropriately prioritized in l
terms of their safety significance. The team noted that the licensee supplemented )
the engineering staff with contractors in an effort to reduce the backlog and that
- there was a slight decrease in the backlog.
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c. Conclusions
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The team concluded that the engineering backlog of approximately 3040 items was
excessive. Although a slight decrease in the backlog number was acted, the team
was concerned that the engineering backlog was excessive. !
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E7.2 Operability Determinations and Corrective Maintenance Work Orders f
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1
a. Inspection Scope
The team reviewed six operability determinations to determine the adequacy of l
engineering involvement and discussed these determinations with engineering !
personnel. The team also reviewed 13 corrective maintenance work orders to j
determine the extent of engineering involvement. The team reviewed the work i
orders to determine the adequacy of the licensee's corrective actions for repetitive
equipment problems.
b. Observations and Findinas
The team found that the six operability determinations were adequate and had l
appropriate engineering involvement. In addition, the team found that the 13
corrective maintenance work requests provided adequate corrective actions for
repetitive equipment problems.
I
c. Conclusions
The team concluded that engineering involvement with operability determinations
and maintenance work orders was appropriate and effective.
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a. Inspection Scope
The team reviewed all 25 of the temporary modifications that the licensee had
installed in the plant to determine the age of modifications, if the modifications were
marked on control room drawings and to determine if the 50.59 screening and
applicable safety evaluations were accomplished.
b. Observatlons and Findinos
The licensee tracks temporary modifications through the use of a log located in the
control room and maintained by operators. The team reviewed the temporary
modification packages and verified that they were complete. The packages
contained sufficient information to clearly identify the in-place modifications and
that applicable 10 CFR 50.59 reviews were performed. Plant drawings located in
the control room, affected by any of these temporary modifications, were labeled
with a temporary modification stamp. The operations personnelinterviewed by the
team were aware to consult the temporary modification log when a control room
drawing with a temporary modification stamp was encountered.
In addition, the team walked down five of these modifications and noted that they
were consistent with the modification package, and were properly labeled. The
team also performed a general walkdown of the facility and did not identify any
temporary modifications that were not already identified in the control room log.
The licensee's documentation indicated that 16 of these temporary modifications
were scheduled to be corrected and/or removed by the end of the next refueling
outage. The team concluded that the safety impact of the temporary modifications
on plant operations was minimal and that none of these modifications constituted
an operator workaround.
c. Conclusions
The team concluded that engineering processing of temporary modifications was
appropriate and effective.
E7.4 System Enoineerina
a. Insoection scope
The team interviewed three system engineers to determine their ability to handle ;
their assigned workload and their ability to manage their time. l
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b. Observations and Findinos
The system engineers stated that approximately 50 percent of their time involved
emergent work. The engineers also stated that their remaining time involved
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witnessing surveillance tests. They indicated that they received good support from
design engineering. They also stated that while 25 percent of their time involved in-
plant activities, most of this time was used to resolve emergent issues. This lef t
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them very little time to be proactive toward identifying system problems.
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c. Conclusions
i
The team concluded that due to a high amount of emergent work, system engineers l
were restricted in their ability to proactively approach problems with their systems.
E7.5 Enaineerina Project Reauests
a a. Inspection Scope
The team reviewed two backlogged open engimering project requests and
interviewed the applicable engineers to detes. ,.ne the validity of the open status.
I
Engineering project requests were used to request engineering assistance or
evaluation for problems identified in the plant.
b. Observations and Findinas !
The team found that one request was a system improvement that added a second
"
power source to the control room ventilation exhaust fan and, therefore, did not
impact plant safety or operation. The team also found that the other request, which j
, requested an engineering review of design piping analysis and hanger calculations
was not an operability concern.
j
c. Conclusions
The team concluded that engineering processing of the selected engineering project
requests was appropriate. The team also concluded that while these engineering
project requests were still open, this status did not impact plant operation and that
they were on track for closure.
E7.6 Enaineerina Disoosition of Problem Identification Reoorts
a. Inspection Scone
The team reviewed 45 problem identification reports (which included both open and
closed reports) and discussed a number of them with the applicable engineers to
determine if engineering had adequately dispositioned the reports and if the
engineering actions were timely. In addition, the team assessed the quality of the
root-cause evaluations and evaluated the adequacy of engineering involvement.
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b. Observations and Findinas
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During the review, the team noted that the licensee used design criteria documents
1
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to determine their design bases. The team noted that the licensee considered these i
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documents to be "living" documents and was maintaining the documents current.
The team challenged the design criteria document process, by requesting design
i information to assist with a system review, and noted that the licensee had little
difficulty retrieving the requested information. j
in general, the problern identification reports reviewed contained resolutions that
had proper engineering justification and proposed corrective actions that were
adequate to preclude recurrence of the problem. The team also noted through ,
interviews with licensee personnel that personnel were not hesitant to write
problem identification reports if issues were identified. Nevertheless, the team
'
identified a problem identification report with a questionable engineering resolution.
I-
Problem identification Report 96-0509, dated May 20,1996, identified that the
emergency diesel generator cylinder exhaust differential temperatures exceeded the
licensee's 250'F differential temperature limit. The team determined that the
, licensee originally had a 100 F differential temperature limit which was considered
i an industry-accepted standard. Over time, the 1 censee had increased the
{ acceptable differential temperature limit because they were unable to maintain the
j original 100 F limit. In addition to the differential temperature increase, the
licensee also increased the cylinder maximum differential firing pressure from 75 psi
,
to 160 psi.
I .
The team noted that the accepted industry standard of 100 F maximum differential !
j temperature and 75 psi differential pressure was based on maintaining an even
. power balance between cylinders. According to this standard, the cylinder balance
j was determined from the temperatures and pressures occurring in each cylinder and
! that cylinder temperatures should be within 100 F of the average while the cylinder
! firing pressures should be within 75 psi of each other. While the team was aware
that the licensee's emergency diesel generator vendor concurred with the present
operation, the team was concerned that the licensee, by continuing to raise the
temperature limit, was living with the problem rather than resolving the problem.
4 The team was also concerned that continued operation with such cylinder
- imbalances could result in diesel degradation.
I
This issue will be followed as an unresolved item pending further evaluation of the
'
acceptability of increasing the emergency diesel generator cylinder exhaust
differential temperatures (50-298/9625-02).
c. Conclusions
]
The team concluded that engineering, in general, properly dispositioned plant
problems. However, the inspection identified an unresolved item involving the
,
acceptability of increased emergency diesel generator cylinder exhaust differential
i temperatures.
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E7.7 Self-Assessment Activities
a. Inspection Scoce
The team reviewed self-assessment activities in engineering. The team selected l
and reviewed portions of the licensee's engineering self assessment which was l
conducted February 5-23,1996. The team reviewed this self assessment to '
determine if the corrective actions identified from this self assessment were ;
1 adequate and if the actions were completed in a timely manner. In addition, the i
team reviewed the licensee's engineering self-assessment followup, dated October ]
1996, which the licensee conducted to evaluate the effectiveness of the corrective
,
actions from the engineering self assessment. The team also interviewed i
engineering managers to determine the effectiveness of the corrective actions.
l
b. Observations and Findinas
1
. The team found that the licensee developed engineering department action plans to
process the corrective actions for the 36 items found during the engineering self
assessment. Since the licensee determined that the scope of work exceeded their
, resource capability, they decided to consider only the most important items first.
This reduced the scope of work to 12 items being actively resolved and 24 items l
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l being deferred. The team reviewed the list of 24 items that were deferred and
noted that unauthorized modifications, operability ac3essments/50.59s, plant design
and configuration control, accessibility of design basis information, and procedural
compliance and attention to detail were included as part of the 24 items deferred. ,
l
As a result of an NRC violation (NRC !nspection Report 50-298/96-04),regarding a i
modification being performed using a maintenance work request instead of the ;
design process, the licensee initiated corrective actions to examine additional work l
activitiem The licensee sampled 10 percent of the existing 21,000 maintenance
work requests and found that 128 were unauthorized modifications. The licensee
stated that they evaluated them for operability by walkdowns and review of
. documentation and found no safety concerns. Since 128 out of the 2100 reviewed
were unauthorized modifications, the licensee committed to the NRC to review the
! remainder of the maintenance work requests by December 31,1997 and to
disposition all identified unauthorized modifications by June 30,1998. At the time
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this inspection, the licensee identified a total of 350 unauthorized modifications.
The team reviewed nine of the unauthorized modifications and found no safety
concerns. The teem noted that the self assessment found that there was no
process to ensure that these unauthorized modifications were evaluated for ;
acceptability of the design as is, that the design inputs were not invalidated and i
that configuration control was maintained. Based upon this review by the team and
discussions with licensee personnel, the licensee expanded their 12 item list to
13 items to include unauthorized modifiq,ations.
The licensee also provided interoffice Correspondence K0960050, dated
December 3,1996, concerning the licensee's engineering acti,on plans. This
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correspondence addressed the implementation of the 36 items. The team noted
that the list was increased to 14 items which were listed as "must do" items.
These items included; integrated planning and scheduling between engineering and
plant organizations, system engineering problems, plant configuration control and
design basis, improving the efficiency of engineering processes and procedures,
reducing backlog, outage maintenance work plan, procedure programs for the
outage, refueling outage engineering contract preparation, outage modifications, l
,
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Appendix R program validation, training and certification, improved technical !
specifications, nonoutage task modification and task action plan, and formation of l
an unauthorized modifications focus group. The team noted that some of these !
I
items were not included on the former list of 13 action items. The team found that
this was due to the fact that some of the other items were either deferred, included
as part of another item, or closed out. The team concluded that the licensee's
actions were acceptable. I
The licensee's engineering manager stated that these action items and theii large
4
engineering backlog (discussed in Section E7.1) had a severe impact on available
resources. Furthermore, he stated that recent management changes (including the
'
l engineering manager), staffing levels, industry evaluation teams, and NRC i
inspection teams, impacted the licensee's ability to cope with their workload. The
team noted that the licensee's engineering staffing was 209 engineers which
included 109 on-staff engineers and approximately 100 contract engineers.
!
The team also reviewed the engineering self-assessment followup, dated October
1996. The team found that the followup assessment determined that while there
was some progress in improving engineering effectiveness to perform routine and
emergent site activities including the identification and resolution of technical
issues, overall progress was poor.
The followup team noted that there was a concern in the engineering organization
regarding the commitment of management, the availability of resources, and the
authority of the plan owners to implement the action plans effectively. The
followup team also concluded that the engineering workload appeared to exceed the
available resources and that system engineering performance did not meet
expectations due to the volume of emergent work that prevented the system
engineers from performing their primary responsibilities. The licensee's followup
team concluded that, although the engineering self assessment had been effective
in the identification of performance problems, engineering had not been effective ir
resolving the identified problems.
The NRC inspection team noted that the licensee's initial self assessment and
followup self assessment were very critical of the engineering organization. The
self-assessment findings were consistent with the team's findings. The team
concluded that the self assessment was very effective toward identifying problems
within the engineering organization.
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c. Conclusions
The licensee's engineering self assessment and self-assessment followup were
thorough and comprehensive which resulted in many good findings. The self-
assessment findings were found to be consistent with those identified by the NRC
inspection team. The current NRC inspection did not identify any issues that were
net already identified in the self-assessn'ent report. The licensee's followup self
assessment found that engineering had not been effective in resolving the findings
of the first self assessment.
E7.8 Quality Assurance Audit
a. Insoection Scoce
The team reviewed Quality Assurance Audit 96-07, " Design Control," that was
performed during the period of May 3-22,1996. The team reviewed this audit and
discussed the findings with licensee personnel to determine if the corrective actions
that resulted from the audit were adequate and completed in a timely manner.
b. Observations and Findinas
The team noted that the audit was thorough and had good findings. The findings
included a determination that the design control processes were inadequate, that
design engineers did not have a uniform understanding of processes and
procedures, and that maintenance of the Updated Safety Analysis Report was
inadequate. The licensee's audit team concluded that when there were deficiencies
associated with the Updated Safety Analysis Report, there was no consolidated,
formal, effective corrective action effort or plan in place to resolve these
deficiencies.
The team also reviewed the engineering response to this audit. The team noted
that engineering agreed that the audit raised valid issues and commended the
quality assurance audit team on a high value added audit. The team reviewed the ;
engineering recommended corrective actions, developed in response to this audit, l
and found them acceptable.
The team noted that the Updated Safety Analysis Report issues were directed to the
licensing organization. A review of the licensing response indicated that licensing
did not agree with the audit findings. Specifically, licensing reviewed the audit j
findings and concluded that maintenance of the Updated Safety Analysis Report I
was adequate and that no further corrective actions were necessary. In response to
this position, the quality assurance department documented their disagreement in
Letter QAD960256, dated August 30,1996. The purpose of this letter was to
escahte the issue for consideration of additional resolution actions. The licensee
informed the team that this issue was still being resolved and that they planned to
address this issue when they responded to the NRC issued letter regarding
compliance with NRC regulation .10 CFR 50.54 (f) that addressed discrepancies
between the Updated Safety Analysis Report and the as-built plant configuration.
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c. Conclusions
I
The team concluded that the audit performed by quality assurance was thorough
- and critical. The audit identified issues similar to the issues identified by the team.
- The quality assurance department was aggressively pursuing resolution of its
findings.
E7.9 Operatina Experience Feedback :
a. Insoection Scope ;
l The team evaluated the effectiveness of the licensee's operating experience
, feedback program by reviewing the program and interviewing five system engineers.
l The team reviewed Administrative Procedure 0.10, " Operating Experience
Program," and Cooper Nuclear Station Operations Experience Review Desktop i
Guide 5, " Guideline for the Communication of Industry Operating Experience to
i CNS." ' '. also reviewed the licensee's activities on the following five recent
j indust 5 a. .a determine the licensee's effectiveness in implementing this
2
progran,. )
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- The lubricating oil fire which occurred at Arkansas Nuclear One, Unit One, on
October 16,1996;
!
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- General Electric Service information Letter 604, " Reactor Water Clean-Up !
l System Break Detection", i
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l * Licensee Event Report 95-013 for the Duane Arnold nuclear plant, j
j concerning the potential for water hammer in the high pressure coolant 1
injection turbine exhaust pipe;
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- An industry event which occurred in October 1996, concerning potential
i standby liquid control system problems at the Hope Creek nuclear plant due
to operating procedures not specifying a maximum system temperature; and,
s
- General Electric Service Information Letter 603, which documented that the
i net-positive suction head calculations for low pressure emergency core
cooling systems were not consistent with plant licensing bases,
b. Observations and Findinas
The team noted that the licensee's procedures directed that the Operating
l Experience Review staff review information provided from the NRC and from the
industry regarding plant events on a daily basis. The procedures also directed that
- events be reviewed by the responsible system engineer for applicability and for the
initiation of problem identification and corrective action documentation.
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For the selected plant events, the team found that the licensee assigned followup
{ - responsibility, properly identified applicability to the Cooper Nuclear Station and
initiated appropriate corrective actions when applicable.
The team noted that while the licensee's actions for the reactor water cleanup .
system break detection and for the standby liquid control system high operating
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temperature were not complete, their evaluation was ongoing and the completion
was appropriately scheduled.
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c. Conclusions
The team concluded that the licensee's operating experience review program was
effective in identifying, determining applicability, tracking, and responding to both
NRC and industry events. )
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.E8 MISCELLANEOUS ENGINEERING ISSUES
a. -Insoection Scope
l
The team conducted a followup of activities that were performed as the result of a
safety system functionalinspection of the emergency electrical system and auxiliary
support systems conducted during the period of May 11 through June 19,1987.
The purpose. of the followup activity was to determine if the corrective' actions
developed to resolve issues during the safety system functionalinspection were
.
treated generically to address similar potential problems with other plant systems.
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The team's followup activities involved addressing specific items identified in the
safety system functionalinspection. These activities were accomplished using
personnel interviews and record reviews. !
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b. Observations and Findinas
The safety system functionalinspection review of the service water system
identified deficiencies involving the measurement of heat removal capabilities and
te, sung to assure that essential components receive required flows. This inspection
reviewed the reactor equipment cooling, fuel pool cooling, and turbine equipment
cooling systems to deterrnine if the lessons-learned from the service water system
were implemented, as appropriate, for these systems.
Measurement of Heat Removal Capabilities (item 8710-01)
The licensee uses Procedures 13.15.1," Reactor Equipment Cooling Heat Exchanger
Performance Analysis," and 13.16.1," Turbine Equipment Cooling Heat Exchanger
Performance Analysis," to measure the heat removal capabilities of the system heat
exchangers. The team reviewed these procedures and the test results from the last
heat exchanger heat removal tests. No problems were identified with the
procedures or the test results.
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e
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The team also determined that the licensee does not measure the heat removal I
capabilities of the fuel pool cooling system. The team discussed this observation i
with the system engineer and was informed that since the fuel pool cooling system j
'
uses chemically controlled water on both sides of the heat exchanger, that fouling
was not considered to be a problem. The engineer further stated that they never ,
experienced any fouling problems with these heat exchangers. -
Testing for Adequate System Flows (ltem 8710-02)
{
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The licensee uses Procedure 6.2 REC.102," REC Critical Subsystem Emergency . !
, Mode Flow Test," during a refueling outage to verify that the reactor equipment I'
i
cooling system flow is adequate during system emergency operations. The licensee
'
alco uses Procedure 6.1 REC.101," REC Surveillance Operation," to perform monthly
i or quartarly flow tests of the reactor equipment cooling pumps. The team reviewed i
these procedures and the completed data from these procedures and verified that '
the appropriate system flows were obtained. No problems were identified with
,
either the procedures or the completed flow data.
The team was informed that flow testing is not performed for either the turbine
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equipment cooling or the fuel pool cooling systems. The team noted that these
- systems are not used for accident mitigation and did not affect the plant's risk
2
profile, i
Adequacy of Operator Training for Casualty Responses (Item 8710-03) j
The team reviewed current emergency operating procadures for the reactor j
! equipment cooling system and abnormal operating procedures for the turbine
- equipment cooling and the fuel pool cooling systems. In addition, the team
discussed the use of these procedures with operations personnel. As the result of
'
these reviews and discussions, the team determined that the procedures adequately i
addressed casualty conditions for these systems.
l The team also reviewed training lesson plans for these systems and discussed
training activities with licensee personnel. Plant training has changed significantly
'
since 1987 with implementation of detailed training plans and the addition of the
, plant simulator in 1990. Based upon this review and discussions, the team
- determined that operator training and guidance was adequately addressing system
casualty responses.
i Service Water System Flow Testing (Item 8710-04)
i
<
As the result of the Safety System FunctionalInspection, the licensee conducted a ,
special test of the service water system in accordance with Special Test l
Procedure 87 011," Post-LOCA Service Water System Flow Test," on May 21 and ;
i
May 25-26,1988. This test was performed to verify that the service water was '
, capable of meeting the post-LOCA flow rates. The results of this test were
l reviewed'by the NRC as documented in NRC Inspection Report 50-298/89-03.
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During this inspection, the team verified that periodic surveillance
Procedure 6.SW.102, " Service Water System Post-LOCA Flow Verification," was
developed and implemented to periodically verify that the post-LOCA flow rates
were still adequate. The team also reviewed the completed surveillance conducted
on December 24,1995, and found the test results to be satisfactory.
Normal Power Transformer Sizing (item 8710-05)
The Safety System FunctionalInspection addressed the sizing of the startup and
emergency power transformers, but did not address the sizing of the normal power
transformers. During discussions with licensee engineers, the team was informed
that the normal transformers were not used for accident events and, as a result, did
not power emergency core cooling system components. The team also reviewed
electrical drawings and the NRC electrical distribution system functional inspection
(NRC Inspection Report 50-298/91-02) conducted in July 15 through August 16,
1991. This report documented that the normal transformers were properly sized for j
their application. I
i
Adequacy of the DC Power System (item 8710-06)
The safety system functionalinspection did not address the adequacy of the
de power system. Review of this issue by the team indicated that the licensee
demonstrated that the dc power system was adequate based on a dc voltage drop
study and a de load study performed by their vendor and documented in licensee ,
letters dated August 14 and November 23,1987. These studies, which I
demonstrated that the de power system was adequate, was reviewed by the
licensee's engineering department and confirmed to be adequate. The team also
reviewed the electrical distribution system functional inspection (NRC Inspection
Report 50-298/91-02)that was conducted in 1991. These studies were reviewed '
during this inspection. The results of this review supported the licensee's findings.
Sizing of the 240V AC Power System (Item 8710-08)
Since the Safety System Functional Inspection did not address the sizing of the
240V ac power system, there was a concern that this system was not reviewed for
proper sizing. The team followed up on this concern by reviewing the AC critical
buses one-line diagram, conducting discussions with the applicable engineer, and
review of the electrical distribution system functional inspection (NRC Inspection
Report 50-298/91-02)that was conducted in 1991. Based upon this review, the
teare concluded that there is no 240V ac system used at the Cooper Nuclear
Station.
480V AC Switchgear Sizing (Item 8710-09)
Since the Safety System Functional inspection did not address the sizing of the
480V ac power system, there was a concern that this system was not reviewed for
proper sizing. The team reviewed the electrical distribution system functional
21
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.
inspection (NRC Inspection Report 50-298/91-02)that was conducted in 1991.
This 1991 inspection verified that the 480 Vac switchgear was properly sized.
Equipment Performance Trending (Item 8710-13)
The safety system functional inspection identified that the service water system did
not have an adequate trending program as evidenced by the fact that some pumps
were operating in the " ALERT" range. This issue was resolved by issuance of a
revised service water pump procedure.
.
There was a concern that other systems, such as the reactor equipment cooling, I
turbine equipment cooling, and the fuel pool cooling systems may also lack a I
trending program. The team reviewed tho equipment trending program (which !
included the trending curves and procedures) and the discussed the program with
the assigned engineer. From this review, the team determined that trending was
being performed on the pumps for the three listed systems. The team also
determined that trending was being conducted on all safety-related system pumps )
and on a limited extent on the nonsafety-related equipment. l
c. Conclusions
The team concluded that the issues identified in the 1987 safety system functional !
inspection for specific systems and components were properly addressed on a
generic level for other in-plant systems.
IV. Plant SuppoE
F8 MISCELLANEOUS FIRE PROTECTION ISSUES
a. Inspection Scope
The team toured the plant, reviewed the licensee's 10 CFR, Appendix R, Safe and
Alternate Shutdown Report, reviewed Safe Shutdown Procedure 5.4.3.2, " Post-Fire
Shutdown to Cold Shutdown Outside Control Room," and interviewed licensee
personnel. In addition, the team conducted a review of the licensee's actions for
fire protection issues identified in Licensee Event Reports96-006 and 96-009.
b. Observations and Findinas
Licensee Event Report 94-016, Supplement 1
As part of the corrective actions for Licensee Event Report 94-016, Supplement 1,
which identified that the control power for Emergency Diesel Generator 2 did not
meet the fire protection requirements of 10 CFR Part 50, Appendix R, the licensee
conducted a re-evaluation of the Cooper Nuclear Station's Safe and Alternate
l
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Shutdown Analysis Report. As a result of this re-evaluation, the licensee
documented in Licensee Event Report 96-006, issued on June 6,1996, that safe
22
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shutdown deficiencies potentially existed which were contrary to the requirements
of 10 CFR Part 50, Appendix R.
Licensee Event Report 96-006
Licensee Event Report 96-006 documented that these discrepancies involved
control power for Reactor Equipment Coo!!ng Pumps 1C and 1D, the high pressure
safety injection room cooler f an control relays, and an inappropriate installation of a
test jack in the control circuitry of Motor-Operated Valve HPCI-MOV-M058. The
conclusions documented in the licensee event report were that these issues were of
minor safety significance because the emergency operating procedures provided
coping strategies and that the test jack installed in the control circuitry of
valve HPCI-MOV-M058 did not affect the ability of the plant to achieve and
maintain hot shutdown.
The team verified through procedure review that the licensee could cope with the
control power problems identified in this licensee event report. While the recovery
from these failures were not in Procedure 5.4.3.2, the operators were trained to
deal with these vulnerabilities. The team concluded that these deficiencies did not
constitute a violation of 10 CFR Part 50 Appendix R, Section Ill G.
Licensee Event Report 96-009
On July 25,1996, the licensee again reported to the NRC, that as a result of their
Appendix R re-evaluation, they identified additiorial items which did not have
acceptable Appendix R coping strategies. These items, which were reported in
Licensee Event Report 96-009, included:
1
- Fire-induced ground faults at multiple locations which could cause the failure
of the reactor core isolation cooling pump control power fuses. This failure
would prevent the reactor core isolation cooling pump turbine from
exceeding idle speed.
- Fire-induced ground faults at multiple locations which could cause failure of
control power fuses for Emergency Diesel Generator 2. If the failure
occurred prior to diesel generator isolation for alternate shutdown, the failure
could make this diesel generator unavailable.
- Fire-induced ground faults at multiple locations that caused the control
circuits for Circuit Breaker 1GE (the tie-circuit breaker for Emergency Diesel
Generator 2) and Circuit Breaker 1GS (the emergency transformer circuit
breaker) to be damaged, thereby, preventing closure. This would cause
Emergency Diesel Generator 2 to be unavailable and prevent the shutdown
bus from being energized.
.
23
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A failure to analyze the initiation logic for the automatic depressurization
system for potential spurious operation. A fire-induced short circuit could
cause the automatic depressurization system valves to fail to close following
initiation.
A failure to analyze for the potential of the control building emergency
ventilation dampers (HV-PNL-ECBH1 and HV-PN-ECBHil) to spuriously close
due to a fire-induced hot short.
- A failure to analyze for the potential for spurious operation of reactor
equipment cooling pump discharge valves (REC-MO-713 and REC-MO-712)
due to a fire-induced hot short. This spurious operation could cause a run
out condition for the reactor equipment cooling pumps and result in pump
damage.
- A failure to analyze for potential fire-induced spurious operation of residual
heat removal valves (RHR-MO-25A,25B,27A, and 27B) due to a hot short.
Spurious opening of these valves could place the unit in an unanalyzed
operating mode with the residual heat removal system operating concurrently
in the suppression pool cooling mode and the low pressure coolant injection
mode.
- A failure to identify that manual actions were needed to re-open service
water outlet valves (SW-MOV-89A and SW-MOV-898) for the residual heat
removal heat exchangers if fire-induced ground faults at multiple locations
caused a loss of remote positioning capability.
The team reviewed the licensee's actions to correct the identified deficiencies. The
first two deficiencies, involving the reactor core isolation cooling and the Emergency
Diesel Generator 2 control power fuses were corrected with plant modifications.
The team verified that Modification Packages MP 96-112,"RCIC Appendix R
Modifications," and MP 96-113," Diesel Generator #2 Appendix R Modifications,"
corrected these ground fault deficiencies.
The remaining deficiencies were corrected with revisions to Procedure 5.4.3.2. The
team reviewed these revisions and verified that the revised procedure provided
sufficient instructions to allow the operators to mitigate any problems caused by the
ground faults or hot shorts. The team noted that the licensee's corrective actions
were prompt and effective.
On April 17,1996 the NRC issued a Severity Level lli violation (EA 96-094) for the
Appendix R discrepancies identified in Licensee Event Report 94-16 as documented
in NRC Inspection Report 50-298/96-08. The team's review of the discrepancies
identified in Licensee Event Reports96-006 and 96-009 indicated that:
- These new discrepancies were identified by the licensee as part of its l
corrective action for EA 96-094 and reported in licensee event reports; j
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- The root cause involved an inadequate Appendix R evaluation which I
was identical to the violation documented in NRC Inspection
Report 50-298/96-08;
These new discrepancies also involved the effects of fire induced ground
faults and hot shorts and therefore did not change the safety significance of
the regulatory concern; and,
The licensee's corrective actions appear to be prompt and comprehensive. ,
I
This licensee-identified and corrected violation is being treated as a noncited
violation, consistent with Section Vll.B.4 of the " General Statement of Policy and
Procedures for NRC Enforcement Actions," NUREG-1600 (50-298/9625-03).
Alternate Safe Shutdown using Automatic Depressurization and Core Spray
Systems l
l
During the review of the licensee's Safe and Alternate Safe Shutdown Analysis l
Report, the team noted that the licensee was using an alternate shutdown method ;
in lieu of the normal shutdown method to cover and cool the reactor core for some i
post-fire safe shutdown scenarios. Specifically, the automatic depressurization
system was being used to depressurize the reactor vessel and the core spray
system was being used to cover and cool the reactor core.
10 CFR Part 50 Appendix R, Section Ill.L.2 establishes the performance goals for
safe shutdown functions. Section Ill.L.2.b. specifies that the reactor coolant l
makeup function shall be capable of maintaining the reactor core coolant levels l
above the top of the core for boiling water reactors. During an NRC inspection ;
conducted April 21-25,1986 (NRC Inspection Report 50-298/86-15),the NRC i
identified that if depressurization is begun within 6 minutes after rod insertion with
the water level at normal operating level the level would not go below the top of ,
active fuel. The inspection found that this was not consistent with the reactor i
safety considerations used in the development of the emergency operating
procedures. The emergency operating procedures in use at that time prescribed the
use of the automatic depressurization/ core spray system method only when other
methods were not available and the water level was at the top of the active fuel.
This 1986 inspection concluded that the licensee's analysis was not complete and
that the analysis should consider the top of active fuel as the starting point for the
alternate safe shutdown scenarios. In addition, the report concluded that the re-
analysis would probably result in partial core uncovery, and that this condition
would require are exemption from the technical requirements of Appendix R. This
was considered to be an unresolved item.
In a subsequent NRC inspection conducted January 26-29,1987 (NRC inspection
Report 50-298/87-04),the NRC reviewed the licensee's re-analysis and concluded
that the core would be uncovered. This inspection found the licensees core
uncovery re-analysis satisf actory and, based on this finding, closed the unresolved
25
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item. However, this closure action did not relieve the need for the licensee to
request an exemption from the Appendix R requirements.
While the team noted that the licensee's re-analysis indicated that an exemption
from the technical requirements of Appendix R was required, no exemption was
requested.
1
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This issue will be discussed with the NRR program office for further review and
analysis of the altemate safe shutdown method using the automatic
depressurization and core spray systems. This issue is considered to be unresolved
pending the results of this review and analysis (50-298/9625-04).
Fire Detection System Capability
i
During plant tours, the team observed an apparent lack of area-wide fire detection m
the plant. In addition, the team noted that the placement, spacing, and application
of fire detection devices did not satisfy industry fire protection engineering
practices.
The team reviewed the Cooper Nuclear Station, Design Criteria Document 11, Fire l
Protection. Section 5.1 of this document, " Fire Detection and Alarm System," j
Subsection 5.1.3, " Performance Requirements, Criteria, and Basis," Item I, specified )
that the fire protection systems and related equipment shall be designed in !
accordance with the National Fire Protection Association standards. The licensee l
was unable to provide an engineering evaluation or the National Fire Protection i
Association code of record.
Based upon the design criteria document review, the team noted that for the type of
heat detectors used at the plant, the manufacturer recommended a maximum area
coverage (spacing) under ideal conditions (smooth ceilings with ceiling heights
below that of the UL tested conditions) of 2500 square feet. Since the conditions
at Cooper Nuclear Station were not ideal in that several plant areas existed where
the ceiling was subdivided by beams that created irregular deep beam pockets,
closer spacing of the detectors were required to achieve a responsive warning to a
fire.
In addition, the team noted that the spacing of the smoke (ionization) detectors in
the reactor building was not consistent with the manufacturers recommended
spacing. The maximum recommended spacing was 30 feet (area coverage 900 )
square feet) on a 15 feet 9-inch high smooth ceiling with no air movement and no
'
physical obstructions between the fire source and the detector. With conditions
other than these, the manufacturer recommended the application of engineering
judgement for detector location and spacing. The team observed that generally only
four smoke detectors were located on each elevation of the reactor building. Since
the observed plant configurctions, which included high ceilings, physical
obstructions, and air flow, were different than the ideal conditions, the detector
spacing had to be reduced. The licensee's present fire detector installations appear
to be inconsistent with industry fire protection engineering standards.
26
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The team noted that the licensee had not performed a detailed design / code
evaluation of the fire detection system to demonstrate that the fire detection system
would rapidly detect an incipient fire. The licensee did inform the team, however,
that they implemented an Appendix R program validation project plan to evaluate
the adequacy of the fire detection system for Appendix R compliance.
This issue will he discussed with the NRR program office for further review and
analysis of the adequacy of the fire detection system. This issue is considered to
be unresolved pending the results of this review and analysis (50-298/9625-05).
Recirculation Pumo Motor-Generator Set Fire Protection
The Cooper Nuclear Station has two reactor recirculation pump motor-generator
sets located on elevation 958'-0" of the reactor building. Due to the presence of
1500 gallons of oilin each of these units, the motor-generator sets are considered a
major fire hazard and represent a significant fire control and mitigation challenge
that could affect safety-related plant areas.
The team conducted a walkdown of this area and noted that the motor-generator
sets were protected by a pre-action automatic sprinkler system. However, this
system did not appear to be designed in accordance with the applicable National
Fire Protection Association codes. The team noted that the system used reduced
flow orifice type sprinkler heads that did not provide complete coverage throughout
the area. For example, the team observed that sprinkler protection was not
provided under significant obstructions created by duct work. The team also noted
that it appeared that activation of an excessive number of reduced orifice sprinkler
heads were required in order to supply the necessary water to mitigate a
combustible liquid fire.
The team also observed that the overall fire protection design for this area did not
consider smoke propagation or have adequate curbing to collect the potential oil
spillage during a motor generator fire. As a result, smoke from a motor-generator
set tube oil fire could fill the refueling floor area and inadequate curbing could allow
burning oil to flow through the equipment hatch to lower levels of the reactor ;
building.
1
This issue will be discussed with the NRR program office for further review and j
analysis of the adequacy of the recirculation pump motor generator set fire j
suppression system. This issue is considered to be unresolved pending the results
of this review and analysis (50-298/9625-06).
,
Control of Combustible Material
l
l During a plant tour on November 20,1996, to inspect combustible material
l controls, the team observed three instances where small quantities of transient
'
combustible materials were lef t in the reactor building after the end of the work
shif t. The team noted that paragraph 8.1.11.1 of Procedure 0.7.1, " Control of
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Combustibles," required that all unnecessary combustible materials be removed or
properly stored and that the area be cleared at the end of each work shift.
The team also noted that Quality Assurance Audit 96-08, conducted in July 1996,
identified weaknesses with the control of combustible materials. One of the
corrective actions from this audit was to revise Procedure 0.7.1 to clarify
combustible control requirements and to provide training on this procedure.
Procedure 0.7.1 was revised to clarify the transient combustible control
requirements; however, the training was not completed. In the interim, the
corrective action was to conduct continuing plant walkdowns to check that
transient combustible material controls were being followed.
10 CFR Part 50, Appendix B, Criterion XVI, requires that measures shall be
adequate to assure that conditions adverse to quality are promptly identified and
corrected. In the case of significant conditions adverse to quality, the measures
shall ensure that .ne cause of the condition is determined and corrective action
taken to preclude repetition. The licensee's failure to implement adequate corrective ,
action for the control of transient combustibles is a violation of 10 CFR Part 50, 1
Appendix B, Criterion XVI (50-298/9625-07).
c. Conclusions
The team concluded that the licensee has been taking prompt and effective
corrective actions to resolve deficiencies identified by their on-going Appendix R
compliance re evaluation program. The failure to take adequate corrective actions
for controlling transient combustible materials was considered to be a violation
involving an inadequate corrective action.
Three unresolved items requiring resolution by the NRR program office were
identified. These items involved the use of the automatic depressurization system
and the core spray system as an alternate safe shutdown method, the adequacy of
the fire detection system, and the adequacy of the fire suppression system in the
reactor recirculation pump motor generator sets.
V. MANAGEMENT MEETINGS .
X1 EXIT MEETING SUMMARY
The team presented the inspection resu!ts to members of licensee management at
the conclusion of the inspection on December 13,1996. The licensee
acknowledged the findings presented.
The team asked the licensee whether any materials examined during the inspection
were proprietary. No proprietary information was identified.
28
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ATTACHMENT 1
PARTIAL LIST OF PERSONS CONTACTED
Licensee
L. Bergen, Senior Manager, Safety Assessment / Site Support
M. Boyce, Engineering Manager
D. Buman, Design Engineering Manager
J. Dillich, Maintenance Manager
F. Diya, Acting Engineering Support Manager
R. Gardner, Operations Manager
M. Gillan, Corrective Action Program Supervisor
R. Godley, Plant Engineering Manager
P. Graham, Vice-President, Nuclear
B. Houston, Manager, Nuclear Licensing
J. Lechner, Senior Staff Engineer, Fire Protection
J. Long, Manager, Events Analysis
M. Peckham, Plant Manager
J. Pelletier, Senior Manager, Engineering
D. Reeves, Senior Staff Engineer, Operating Experience Review
M. Spencer, Engineering Programs Supervisor
B. Toline, Quality Assurance Manager
M. Unruh, Maintenance Planning Supervisor
R. Wenzl, Operations Support Engineering Supervisor
INSPECTION PROCEDURES USED
IP40500 Effectiveness of Licensee Controls in Identifying, Resolving, and Preventing
Problems
IP92903 Followup - Engineering
IP92700 Onsite Followup of Written Reports of Nonroutine Events at Power Reactor
Facilities
ITEMS OPENED AND CLOSED
Opened
50-298/9625-01 VIO Failure of the Station Operations Review Committee to review
station operations so that potential safety hazards could be
detected.
50-298/9625-02 URI Acceptability of the emergency diesel generator cylinder
differential temperatures.
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50-298/9625-03 NCV Eight examples of the failure to implement the requirements of ;
10 CFR Part 50, Appendix R involving fire induced ground ;
faults and hot short circuits.
50-238/9625-04 URI Adequacy of the alternate safe shutdown method for a fire.
!
50-298/9625-05 URI Adequacy of the fire detection system.
50-298/9625-06 URI Adequacy of the fire suppression system in the reactor
recirculation pump motor-generator area.
50-298/9625-07 VIO Failure to identify and correct transient combustible control
problems.
Closed
50-298/9625-03 NCV Eight examples of the failure to implement the requirements of
10 CFR Part 50, Appendix R involving fire induced ground
faults and hot short circuits.
LIST OF DOCUMENTS REVIEWED
Plant Procedures
Procedure Revision Title
No.
2.2.65 33 Reactor Equipment Cooling Water System
2.2.65.1 9.2 REC Operations .
2.2.66 38 Reactor Water Cleanup
2.4.8.1 12.2 TEC System Failure - Loss of Pumps 1
2.4.8.6 12 Fuel Pool Cooling System Failure j
!
3.4.5 O Engineering Evaluations i
3.9 10C1 ASME Code Testing of Pumps and Valves 4
5.2.4 10 Loss of All Reactor Equipment Cooling Water l
5.4.3.2 13 Post-Fire Shutdown to Cold Shutdown Outside Control Room l
7.0.1.7 O Troubleshooting Plant Equipment i
13.15.1 5&6 Reactor Equipment Cooling Heat Exchanger Performance
Analysis
13.16.1 2C1 & 2C2 Turbine Equipment Cooling Heat Exchanger Performance
Analysis
6.SW.102 1.1 Service Water system Post-LOCA Flow Verification
6.2 REC.102 O REC Critical Subsystem Emergency Mode Flow Test (Div 2)
6.1 REC.101 2 REC Surveillance Operation
6.1 REC.102 O REC Critical Subsystem Emergency Mode Flow Test (Div 1)
STP 87-011 4 Post-LOCA Service Water System Flow Test
30
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4
0.7.1 6 Control of Combustibles
0.5 8 Problem identification and Resolution
0.10 2.1 Operating Experience Program
0.15 9 NPG Action item Tracking
Dir. 4.12 1 Work Prioritization
lostr.14 0 Operations Performance Assessment
Instr.15 0 Operator Workaround=
Design Changes (DC) and Modification Packages (MP)
No. Title
DC 88-201C HPCI Room Cooling Modification
DC 92-109 Alternative Shutdown Hot-Short Modification
DC 93-057 SW and REC System Modifications
MP 96-112 RCIC Appendix R Modifications .
MP 96-113 Diesel Generator #2 Appendix R Modifications
l
4
No. Title j
94-11 MPF EFF Rad Monitor sample flow control valve, RMV-MOV-431MV
94-20 Install gauges on Gland Steam Exhaust line annulars
94-21 Install gauges on MS Bypass Valve Exhaust line annulars ;
94-23
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Caps on Drains No.6 and No.7 in the reactor building
94-32 To install and document metal sampler in Main Condensate System
94-37 No.1 DG Exhaust Muffler Bypass Valve doesn't have 4 bolts
95-14 Move Westinghouse Office to south end of Turbine building
95-38 MS-V-186 MSL C Vent in steam tunnel
95-40 Seal Weld Union te RCIC-LS-74
96-01 MS-ADV-DRV4 Gv i outlet drain inlet flange
96-02 Low pressure turbine No.2 Intercept Valve No.4 downstream flange
96-04 T-932-HP Turbine. Right top side of HP Turbine, GV No.2 inlet flange
96-07 Fire system No.2. Disconnect HAD C from loop
96-14 Appendix R criteria on HPCI-MO-58. Lift leads to ensure valve will perform
under Appendix R conditions
96-15 Main Turbine Stop Valve No.1 has steam leak. Leak repair flange and
sealant
96-18 MS-LS-101. Bolt to hold down the instrument cover broke off
96-20 A RRMG positioner internal electrical stop jumpered out. Extra stop not
required ,
96-21 B RRMG positioner internal electrical stop jumpered out. Extra stop not
required
96-22 C phase main power transformer alarm. Lifted laad for low oil level and relief
.
valve
96-23 DG-AOV-MB2 Replacement valve installed
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. - - _.- _ . _ ~ . - - . _- _ -. - - . . - .. .- -- _-
4
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4 -
96-24 A Air Compressor moisture separator outlet trap. Install Tee and extra drain
, line and valve I
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96-26 Temporary repairs to the discharge piping of the fire system jockey pump
96-27 No.1 DG Muffler Bypass /DGSA-PRV-7. Fails open the muffler bypass valve
'
2
96-28 No.2 DG Muffler Bypass /DGSA-PRV-8. Fails open the muffler bypass valve
! Condition Reports
'
CR No. Title
- 96-0636 Discrepancy between as installed and drawing
'
96-0721 Ineffective corrective action
j 96-0709 45 DCNs found in box
96-0509 Diesel generator differential temperature
96-0724 Failure to perform 50.59 analysis
96-0881 Problem with plant temporary modification procedure
96-0482 Unauthoriz0d modification
96-0729 Vibration points in alert range
96-0763 Test equipment attached to diesel
96-0816 Nontested valves used for containment isolation
96-0626 Inspection document sheet incorrectly completed
96-0737 Contractor control deficiencies
96-0215 Breaker spares
96-0316 Unauthorized modification i
96-0363 Procedural problems
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96-0689 Unauthorized modification
94-0712 Unauthorized modification
96-0607 Valve does not conform to vendor drawing
95-1159 Supports found not matching as-built drawings
96-0422 Unauthorized modification
96-0604 Misread PM card - Operated on wrong Diesel Generator Supply Fan
96-0474 Operator bumped relay 13A-K31 causing a half group 5 isolauon
96-0765 PMT performed for MWR 95-2979 without Shift Supervisor review
96-0763 Test equipment left attached to Diesel Generator after it was declared l
96-0585 NRC Information Notices and associated responses were inappropriately
stored ,
96-0481 Added PMT for MWR 96-0684 was made without engineering review l
96-0527 12.5kV disconnect switches mispositioned during Aux Boiler Start ;
96-0446 Drawings in MWR 96-0537 were stamped with an expired date j
95-0856 Halted PM 06452 due to Procedure 14.27.5 did not indicate entry into an i
LCO
95-1380 Failure to isolate sensing line during flushing of condensing chamber sensor !
caused scram l
96-0433 MS-V-159 was missing caution tag
06-1081 PC-MOV-1303MV was found open during LLRT after being tagged closed
h
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96-0406 Divers were in 'D' Circ. Water Pump Bay D2 without signing on clearance
order
95-1327 Danger tag for 'A' Condenser Booster Pump A inadvertently removed
96-0236 In Procedure 6.1DG.401 Acceptance Criteria for fuel oil transfer pump vias
outside operability limit
95-1158 Welders inadvertently cut through energized heat trace
Problem Identification Reports
PIR No. Title
1-17287 SW-MOV-MO650 initially f ailed to close
2-05772 Flow indicator found sticking
2-00478 Relief valve lifted early
2-00641 Potential unauthorized modification
2-00925 As-found values out of tolerance
2-00928 As-found values out of tolerance
2-00353 Unauthorized modification
2-00658 Chemical addition tank overflowed
2-01723 Operability basis not sufficiently documented
2-04386 Housekeeping issue in HPCI room
2-07235 Sump cover bolts missing
2-02370 Failures of GE relays
2-01574 Classification evaluation packages found in box
2-04979 Unauthorized modification
2-08241 Unauthorized modifications
2-01226 Unauthorized modification
2-00310 Water spraying from SW valve
2-05592 Service water supply leaking through
2-01141 Substandard quality fasteners
2-00594 As-found values outside limit
2-02131 Service water pump lift I'
2-03857 EDG cylinder exhaust differential temperature exceeded
2-01334 Configuration control
2-07022 Configuration Control l
2-07020 Configuration control
2-05770 Configuration control
2-05769 Configuration control
2-04511 Pump bearing high alarm
2-00319 Relief valve test stand
2-03656 DG muffler typass valve
2-03164 Failure to perform 50.F'* evaluation l
2-01582 MOV motor and operator classified nonessential l
2-03861 Valve failed to open and close
2-00243 RCIC pump high pressure suction alarm
2-01276 Check valve seat leakage I
2-22767 Movement of DG air intake line
2-01425 Missing screws on panel
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2-00451 Testing method for contacts
2-01706 Lack of procedure to address performance of self assessments
2-02162 RHR placed in shutdown cooling with temperature difference between RCS l
and RHR greater than 50 degrees.
1-20507- The KAMAN high range monitor failed the leak test. ,
2-02511 Failure to take readings within the time limit specified in Procedure 6.3.1.2. l
2-05528 DG-2 Room High Pressure CO 2 actuator cylinder missed 5 year hydro test l
2-03580 Annunciator R-1/B-4 ' Battery Room 1 A Temp'will not stay reset 1
2-05724 Annunciator FP-3/A 1 came in and cleared. Fire Pump C started. No fire l
2 03861 During performance of 6.HPCI.101, HPCI-MO25 failed to open and close i
2-02070 Found RMV-V-301 shut. Should have been open ;
2-02071 Intentiona'ly entered LCO due to fire door N103 being made inoperable ;
2-03957 Large fan used/ stored in Aux Relay room not secured. Seismic concern l
2-03912 AC-V 70 Feedwater stop valve for electrode boiler found in open position i
2-03016 EOPs direct entry into procedure 2.2.69.2. Provides conflicting steps during j
2-01426 Potential for RHR waterhammer exists per GE plant experience report
2-06736 SW-TCV-451 B failed to stroke open within time limit !
2-04841 When DG-2 was declared inoperable, verification of ECCS operability was
not logged in SS Log
,
2-01835 Weld rod oven receptacle not energized j
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2-03817 'E' Fire Pump is steam bound due to running dead headed for 2 hour2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> J
2-03287 Clearance Order 96-680 issued for MWR 95-3868,which had already been !'
completed
2-05601 RWCU-MO-M015 failed to cycle with IST operability limit
2-03497 Temperature of holding ovens for weld rods was not verified or logged 'i
2-02382 Surveillance Procedure inadequacy
2-04210 Mechanical personnel walked down MWR 961399 without work control
center authorization
2-01738 Two incidents identified of failure to sign off steps in procedures when work
,
was completed
! 2 04570 Communication problem resulted in procedural step in Procedure 6.PAM.304
l not being performed
2-00573 Housekeeping around SLC Tank Access cover is poor
1
2-04962 Sketch SKE-DG-235 for Minor Maintenance 95-174 provided erroneous
j information
2-04475 RWCU Pump A has indications of melted coupling, Mechanical seal and
discharge line leaking water
2-05557 Inappropriate installation of Drywell Reliable Air Supply Check valve lA-CV-
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2-05564 EPA 1 A4 tripped on under voltage. Caused loss of Mernate power to RPS
bus A
2-07054 Surveillance Procedure 6.FP.102 step 8.2.70 calls for local alarm to sound. It
did not
. 2-02511 Failure to take readings within the time limits specified in SP 6.3.13.2
2-07050 SP 6.2DG.301 acceptance criteria for steps 8.12.1 and 8.12.2 were not met
2-04205 Weld sheets and drawings give conflicting information on material to be used
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2-05807 Procedure 14.2.5 did not provide calibration tolerances for ICPS voltages
2-04805 Failure to initial a step in Procedure 6.1 ARI.301
2-04397 Significant increase in CS Pump B vibrations
2-02514 Fan units in DG rooms 1 and 2 have had their expansion joints painted over
2-03279 Limitorque Spare Motor 04299 apparently repaired by unqualified vendor
2-01714 ASME Section XI pressure test was not performed at the specified required
l
test pressure ,
'
2-01716 Inadequate and Untimely review was performed on Pressure test Nos.95-492 and 95-493 ,
2-02038 Outage Schedule called for MSIV closure during power ascension at f
50-70 percent power. Not achieved on time, requiring power reduction to
perform
2-00536 Deficiencies noted with tool and equipment control in FME Zone I around
spent fuel pool
2-00094 Scaffol&ng boards noted to be butted up against A Air Compressor
Aftercooler Moisture Separator
l Engineering Project Requests
l
EPR No. Title
I
I
96-097 Review SW piping analysis / hanger calculations95-168 Exhaust fan power from division 11
,
Maintenance Work Requests
MWR No. Title
96-1092 Adjust packing
96-1514 Excessive oilleak
96-1095 .DG muffler bypass valve failed
96-1162 Flow indicator problems
96-1126 Exhaust f an for DG room
96-1530 DG oil day tank high alarm level
96-1406 Screen wash pump discharge joint leaking
96-1238 ADS control logic
96-0747 RCIC turbine terminal box is loose
96 1012 SW pump discharge pressure low
96-1125 DG muffler bypass valve
96-1039 Circulating water pump motor
96-1673 RCIC test return root
j 96-0883 Repair Control Rod Drive Pump 'A'
96-1500 Repair Diesel Generator Day Tank No. 2 High Level Pump Stop
96 1279 Repair Service Air Compressor i
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Miscellaneous Documents
Technical Specifications
Final Safety Analysis Report
NRC Inspection Report 50-298/87-10, dated September 22,1987
l NRC Inspection Report 50-298/89-03, dated April 10,1989
NRC Inspection Report 50-298/89-22, dated July 24,1989
NRC Inspection Report 50-298/90-33, dated November 21,1990
NRC Inspection Report 50-298/91-02, dated October 1,1991
3pecial Test Procedure 87-011, Post-LOCA Service Water System Flow Test, dated
May 21 and May 25-26,1988
Nebraska Public Power District letter dated July 24,1987, to U.S. Nuclear Regulatory
Commission; Subject: Safety System Functional inspection at Cooper Nuclear Station,
Brownville, Nebraska
Nebraska Public Power District letter dated August 14,1987, to U.S. Nuclear Regulatory ;
Commission; Subject: Safety System Functional Inspection at Cooper Nuclear Station,
Brownville, Nebraska
Nebraska Public Power District letter dated November 23,1987, to U.S. Nuclear
Regulatory Commission; Subject: Nebraska Public Power District's Response to inspection
Report No. 50-298/87-10
NRC Memorandum dated December 22,1987 from William O. Long, Project Manager,
Project Directorate - IV, Office of Nuclear Reactor Regulation, to Mr. George A. Trevors,
Division Manager - Nuclear Support, Nebraska Public Power District; SUBJECT: SAFETY
SYSTEM FUNCTIONAL INSPECTION, 50-298/87-10
MEMORANDUM dated November 6,1967, from F. Hess to I. Gabel, SUBJECT:
W.O. 2520-02, Consumers Public Power District Design of Reactor Building Closed Cooling
System
BR-65, Reactor Building Closed Cooling Water System Summary of Preoperational Test,
dated October 31,1973 and completed data for this test
MEMORANDUM dated December 12,1973, to E.M. Kuchers from F. Hess/H.Reh/l. Gabel;
SUBJECT: Work Order 2593 NPPD Cooper Nuclear Station BR-65 RBCCW System
Summary of Preoperational Test (11/28/73)
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Cooper Nuclear Station, Response to 10 CFR Part 50 Appendix R, " Fire Protection of Safe
Shutdown Capability," Volume I and 11, June 28,1982 l
1
l Cooper Nuclear Station, Response to 10 CFR Part 50 Appendix R, " Fire Protection of Safe !
Shutdown Capability," Volume Ill, December 2,1983
L
Cooper Nuclear Station, Appendix R Program Validation Project Plan, Revision 1, l
November 15,1996 i
l
Cooper Nuclear Station, Project instruction PI-004,10 CFR Part 50 Appendix R Functional i
Requirements Analysis, Revision 0, N Jeber 4,1996 l
1
l_ Cooper Nuclear Station, Project instruction PI-003, Fire Protection Features Assessment,
.
Revision 0, October 11,1996 ,
!
Cooper Nuclear Station, Project instruction PI-006,10CFR50 Appendix R Manual Action I
Feasibility, Revision 0, November 8,1996 j
i
l Cooper Nuclear Station, Project Instruction Pl-001, Appendix R Safe Shutdown Equipment !
List, Revision 0, November 8,1996
i 1
Cooper Nuclear Station, Project instruction PI-002, Cable Selection and Validation, :
Revision 0, October 11,1996 l
!
Cooper Nuclear Station, Safe and Alternative Shutdown Analysis Report, July 1996 !
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Cooper Nuclear Station, Appendix R Program Validation Project Plan, Revision 1, dated ?
November 15,1996 !
I
Cooper Nuclear Station OER Desktop Guide 5, Guideline for the Communication of Industry
Operating Experience to CNS, Revision 1, Dated July 16,1996
NRC Safety Evaluation Report, Fire Protection Program, May 23,1979
l
NRC Safety Evaluation Report, Exemption Requests - 10CFR 50.48 Fire Protection and
Appendix R to 10 CFR Part 50, September 21,1983
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NRC Safety Evaluation Report, Safety Evaluation for Appendix R to 10 CFR Part 50,
items Ill G.3 and Ill.L, Alternative or Dedicated Shutdown Capability, April 16,1984 ;
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NRC Safety Evaluation Report, Outstanding Fire Protection Modifications, August 21,1985
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