05000338/LER-2015-001

Reported lessons learned are incorporated into the licensing process and fed back to industry.

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1.0 DESCRIPTION OF THE EVENT On February 26, 2015, at 1511 hours0.0175 days <br />0.42 hours <br />0.0025 weeks <br />5.749355e-4 months <br /> with Unit 1 operating at 96 percent power in an end of cycle coastdown, an automatic reactor trip occurred. The initiating signal was a low-low level on the "B" steam generator (SG) (EIIS System AB, Component SG) caused by closure of the "B" main feedwater regulating valve (MFRV) (EIIS System SJ, Component FCV). This resulted in a reactor and turbine trip.

Following the reactor trip the Reactor Protection System (RPS) and all Engineered Safety Feature Actuation System (ESFAS) (EIIS System JE) equipment actuated as designed, including Alternate Mitigation System Actuation Circuitry (AMSAC) and the Auxiliary Feedwater (AFW) (EIIS System BA) pumps. The control room operators responded to the event in accordance with emergency procedure 1-E-0, Reactor Trip or Safety Injection. The operators then stabilized the plant using 1-ES-0.1, Reactor Trip Recovery.

At 1639 hours0.019 days <br />0.455 hours <br />0.00271 weeks <br />6.236395e-4 months <br />, a 4-hour Non-Emergency Report was made to the NRC in accordance with 10 CFR 50.72(b)(2)(iv)(B) for "an event causing actuation of the Reactor Protection System when the reactor is critical" and an 8-hour report was also made in accordance with 10 CFR 50.72(b)(3)(iv)(A) for "an event causing actuation of the Auxiliary Feedwater System.

Approximately 30 minutes after the reactor trip with AFW flow throttled, the Turbine Driven (TD) AFW pump, 1-FW-P-2, (EIIS System BA, Component P) discharge relief valve (EIIS System BA, Component RV) lifted and discharged approximately 200 gallons per minute (gpm) to the ground. Troubleshooting determined that while the TD AFW pump was throttled back on its head curve via 1-FW-MOV-100D (EllS System BA, Component 20) to near maximum recirculation, the relief valve opened as a result of the inability of the governor valve, 1-FW-GOV-2-VALVE (EIIS System BA, Component 65), which regulates steam flow to the TD AFW pump, to travel an additional 3/16" in the closed direction. This was due to improper installation of the governor valve during maintenance. The improper installation resulted in steam leakage past the governor valve to the TD AFW pump.

An engineering evaluation determined that with the loss of the approximately 200 gpm of Emergency Condensate Storage Tank (ECST) (EIIS System BA, Component TK) inventory, the ECST could not have met its mission time for certain accident conditions.

However, there are multiple water sources via the Condensate header makeup capability to refill the ECST as well as the Fire Protection system, the Service Water system, and the Beyond Design Basis (BDB) connections which provide AFW so the safety significance of this issue is low. This condition is reportable in accordance with 10 CFR 50.73(a)(2)(i)(B) for an "any operation or condition which was prohibited by North Anna Power Station Unit 1 05000338 Technical Specifications.

2.0 SIGNIFICANT SAFETY CONSEQUENCES AND IMPLICATIONS No significant safety consequences resulted from this event because the RPS and ESFAS systems actuated as designed following the trip. The health and safety of the public were not affected by this event.

Given the extensive network of defense-in-depth capability, via the Condensate header makeup capability to refill the ECST and the Fire Protection system, the Service Water system, and the BDB connections to provide AFW, the safety significance regarding the previously inoperable condition of the ECST is considered low and did not present a threat to the health and safety of the public.

3.0 CAUSE The direct cause of the "B" MFRV closure while in automatic and subsequent reactor trip was a failure of 1-FW-FCY-1488, final driver card for "B" MFRV, due to a loss of power. The root cause leading to the failure of 1-FW-FCY-1488 was contamination within a silicon controlled rectifier (SCR) on the circuit board power supply. The investigation found that the SCR prematurely failed due to embedded contaminates within the device package originating from the manufacturing process. The contaminates caused progressive thermal damage which led to the premature failure of the SCR. The failure was a short circuit condition which resulted in a loss of input power to the power supply.

The apparent cause for 1-FW-P-2 running at a pump speed outside of the acceptable range is the incorrect installation of the governor valve linkage in accordance with 0- MCM-0412-02. Procedure steps for correctly installing the governor valve linkage were performed without obtaining the correct outcome.

4.0 IMMEDIATE CORRECTIVE ACTION(S) The control room operators responded to the event in accordance with emergency procedure 1-E-0, Reactor Trip or Safety Injection. The operators then stabilized the plant using 1-ES-0.1, Reactor Trip Recovery. All safety systems responded appropriately. The unit was stabilized at no-load conditions, the Main Feedwater system was placed in service to all three SGs, and the AFW system was secured and returned to AUTO, with 1-FW-P-2 declared inoperable.

5.0 ADDITIONAL CORRECTIVE ACTIONS 7300 system NCD and NMD circuit card assemblies that had been identified as single point vulnerabilities.

The governor valve for 1-FW-P-2 was repaired and the pump was declared operable at 1609 hours0.0186 days <br />0.447 hours <br />0.00266 weeks <br />6.122245e-4 months <br /> on February 28, 2015. Additionally, 0-MCM-0412-02 is being improved to help ensure the correct outcome is obtained in the future. Also, the post-maintenance testing is being enhanced to ensure the governor valve operates correctly for all pump operating conditions.

6.0 ACTIONS TO PREVENT RECURRENCE A similar design change to that of DC NA-15-00031 is being prepared for Unit 2 and will be implemented during the next outage of sufficient duration. Additional design changes are being created for each unit to eliminate these single point vulnerability cards on the MFRVs, as well as on other control systems. The design changes for the MFRVs were already scheduled for the respective 2016 refueling outages.

7.0 SIMILAR EVENTS LER N1-07-001-00 dated 02/27/07, documents an automatic reactor trip from "B" SG low level coincident with a steam flow greater than feed flow mismatch caused by the closure of the "B" MFRV. Closure of the "B" MFRV was the result of a shorted capacitor on the final control card that provides input to the "B" MFRV. The root cause was attributed to organizational and programmatic deficiencies that allowed the card to be placed in service without new upgrades.

LER N2-06-001-00 dated 11/16/06, documents an automatic reactor trip from the "B" SG low level coincident with a steam flow greater than feed flow mismatch caused by closure of the "B" MFRV. Closure of the "B" MFRV was the result of a failed isolator card in the SG water level control system for "B" SG. The isolator card failure was a result of one or more failed transistors in the power supply circuit of the card. The root cause of the transistor failure was age-related degradation.

LER N2-03-001-00 dated 03/31/03, documents an automatic reactor trip from the "C" SG low level coincident with a steam flow greater than feed flow mismatch caused by closure of the "C" MFRV. Closure of the "C" MFRV was the result of a failed driver card in the SG water level control system for "C" SG. The driver card failed as a result of a blown fuse. The corrective actions from this event focused solely on the driver cards.

Fuses were inspected on both units with repairs made to several cards.

8.0 ADDITIONAL INFORMATION Unit 2 continued operating in Mode 1, 100 percent power during this event.