05000482/LER-2015-003
Docket Number | |
Event date: | 05-03-2015 |
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Report date: | 07-01-2015 |
Reporting criterion: | 10 CFR 50.73(a)(2)(iv), System Actuation 10 CFR 50.73(a)(2)(iv)(A), System Actuation |
4822015003R00 - NRC Website | |
PLANT CONDITIONS PRIOR TO THE EVENT
Mode - 1 Power - 25% There were no systems, structures or components (SSC) that were inoperable at the start of the event and contributed to the event.
DESCRIPTION
On May 3, 2015 at 1021 Central Daylight Time (CDT), Wolf Creek Generating Station (WCGS) was at approximately 25% power during startup from Refueling Outage 20. Feedwater control [EIIS: JB] was in the process of being transferred, from the Main Feedwater Regulating Valve (MFRV) bypass valves [EIIS:
SJ-V] to the MFRVs. During transfer to the MFRV for the 'C' steam generator (SG) [EIIS: SB-SG], the indicated feedwater flow to the SG increased to a rate higher than expected. Actions were taken to lower the MFRV open demand signal, but it was not adequate to turn the rising SG level trend. A feedwater isolation occurred due to the 'C' SG level >78% and the main turbine tripped. An auxiliary feedwater actuation occurred which started the motor-driven auxiliary feedwater pumps [EIIS: BA-P]. The reactor was manually tripped at 1022 CDT and all safety systems responded as expected.
During the transfer between the MFRV bypass valves and MFRVs, both the 'A' and 'C' SG MFRVs were operated simultaneously by two Reactor Operators. Both MFRVs were operated with approximately 10- 30% valve position movements. The 'A' MFRV transfer occurred in approximately 40 seconds while the 'C' MFRV transfer occurred at a similar rate before the plant trip. The 'B' MFRV transfer was being performed at the time of the plant trip.
It was noted that the operation of the pushbutton for AEFK0530, 'C' MFRV Controller, had a distinct difference from the other three MFRV controllers. The 'C' controller was replaced as a precaution. No tuning adjustments were performed on the control loop.
The plant returned to Mode 1 on May 4, 2015 at 0424 CDT. Feedwater control was successfully transferred from the MFRV bypass valves to the MFRVs on May 4, 2015 at 1342 CDT.
REPORTABILITY
The manual reactor trip and actuation of Engineered Safety Feature Actuation System (ESFAS) instrumentation actuation described in this event is reportable per 10 CFR 50.73(a)(2)(iv)(A), which requires reporting of "Any event or condition that resulted in manual or automatic actuation of any of the systems listed in paragraph (a)(2)(iv)(B) of this section." Paragraph (B)(1) of 10 CFR 50.73(a)(2)(iv) includes "Reactor Protection System (RPS) including: reactor scram or reactor trip." Paragraph (B)(6) of 10 CFR 50.73(a)(2)(iv) includes "PWR auxiliary or emergency feedwater.
CAUSE
The root cause was the lack of a reliable and consistent standardization between the operating crews to control the transfer of the SG feedwater flow between the MFRV bypass valves and MFRVs.
This cause is supported by the sense of urgency by the operators to perform the MFRV transfer evolution, which has been reinforced through prior experience, briefings, and training focus. This led to more than minor adjustments in MFRV controller output, and these tasks being performed simultaneously on more than one SG. In addition, the procedure allows operators to develop their own methods for MFRV transfer which varied among the operators making adjustments on SG level simultaneously.
CORRECTIVE ACTIONS
The 'C' MFRV Controller, was replaced.
Operators were provided training in the current training cycle on what occurred on May 3, 2015 to cause the main turbine trip and subsequent manual reactor trip. A similar malfunction was incorporated into a MFRV controller on the WCGS simulator.
During the May 4, 2015 startup, additional actions were implemented to standardize the transfer of the MFRV bypass valves to the MFRVs. An optimized process of SG level control transfer between the MFRV bypass valves and MFRVs was incorporated into procedures.
SAFETY SIGNIFICANCE
The safety significance of this event is low. There were no adverse effects on the health and safety of the public. This event is analyzed as reported in WCGS Updated Safety Analysis Report (USAR) Section 15.2.7, "Loss of Normal Feedwater Flow." Results of the analysis show that a loss of normal feedwater does not adversely affect the core, the reactor coolant system, or the steam system, since the auxiliary feedwater capacity is such that reactor coolant water is not relieved from the pressurizer relief or safety valves.
OPERATING EXPERIENCE/PREVIOUS EVENTS
of the plant during power ascension outside the MFRV bypass valves optimum operating region and the feedwater preheating limitations. Procedures were revised to correct this condition.
adequately maintain SG levels using the MFRV bypass valves.
N RC FORM 366A (02-2014)