05000410/LER-2012-002
| Docket Number | |
| Event date: | 05-25-2012 |
|---|---|
| Report date: | 07-23-2012 |
| Reporting criterion: | 10 CFR 50.73(a)(2)(v)(D), Loss of Safety Function - Mitigate the Consequences of an Accident |
| 4102012002R00 - NRC Website | |
I. DESCRIPTION OF EVENT
A. PRE-EVENT PLANT CONDITIONS:
Prior to this event, Nine Mile Point Unit 2 (NMP2) was in Mode 4, Cold Shutdown, with a temperature of 99.9 °F and pressure of 3.4 psig.
B. EVENT:
On May 25, 2012 at 1322 EDT, with Nine Mile Point Unit 2 (NMP2) in Mode 4 Cold Shutdown, the 600V emergency load center 2EJS*US1 lost power coincident with taking Division I Remote Shutdown System Disconnect Switch SW1-2CESA20 to actuate. The normal supply breaker, 1-3B, was supplying 2EJS*US1 before the switch operation and tripped when SW1-2CESA20 was actuated. 2EJS*US1 tripped due to the trip test switch contacts being made up (latent condition) which completed the circuit to the trip coil when SW1- 2CESA20 was actuated. The result of the event was that both the Division I and Division II containment isolation valves on the common Residual Heat Removal (RHR) shutdown cooling suction line (2RHS*MOV112 and 2RHS*MOV113) were open with no motive power. Thus, neither valve was capable of automatically closing in the event of a reactor level low (level 3) signal due to a leak in the RHR shutdown cooling system, which constitutes a loss of containment isolation function.
There was no impact on Nine Mile Point Unit 1 (NMP1) from this event.
C. INOPERABLE STRUCTURES, COMPONENTS, OR SYSTEMS THAT CONTRIBUTED TO THE
EVENT:
At the time of the event, Division II shutdown cooling suction line primary containment isolation valve 2RHS*MOV112 was de-energized open to prevent inadvertent or spurious closure, which would interrupt the shutdown cooling decay heat removal function.
D. DATES AND APPROXIMATE TIMES OF MAJOR OCCURRENCES (Note: All events occurred on May 25, 2012):
1322 — Load Center 2EJS*US1 lost electrical power Declared Division I Primary Containment Isolation instrumentation inoperable for RHR shutdown cooling isolation on low reactor water level Entered Technical Specification (TS) Limiting Condition for Operation 3.3.6.1 Condition A, which requires the channel to be placed in trip within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> Condition B, which requires isolation capability to be restored within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> Condition C, which requires the immediate entry into Condition J Condition J, which requires actions to be initiated immediately to restore channel to operable Declared 2RHS*MOV113 inoperable Entered TS 3.6.1.3 Condition G, which requires actions to be initiated immediately to restore valves to operable status.
..% 1807 — Load Center 2EJS*US1 energized 1824 — Declared Division I Primary Containment Isolation instrumentation operable for RI-IR shutdown cooling isolation on low reactor water level Exited TS 3.3.6.1 Conditions Declared 2RI-IS*MOV113 operable Exited TS 3.6.1.3 Condition
E. OTHER SYSTEMS OR SECONDARY FUNCTIONS AFFECTED:
None
F. METHOD OF DISCOVERY:
On May 25, 2012, at 1322, Operations noted that Load Center 2EJS*US I lost electrical power.
G. MAJOR OPERATOR ACTION:
Entered TS 3.6.1.3 Condition G, Required Action G.2, which requires actions to be initiated immediately to restore 2RHS*MOV113 to operable status.
H. SAFETY SYSTEM RESPONSES:
None. No operational conditions requiring the response of safety systems occurred as a result of this event.
II. CAUSE OF THE EVENT:
The direct cause of this event was the trip of 2EJS*US1 Normal Supply Breaker due to the trip test switch contacts being made up (latent condition) which completed the circuit to the trip coil when SW1-2CESA20 was actuated. The breaker failure that initiated the event is attributed to an assembly deficiency.
The affected breaker was manufactured by Gould Inc, and was refurbished by ABB Inc. After returning from ABB, the refurbished breaker was installed in June 2011 as part of planned preventative maintenance. Post event inspection determined that the local switches for TRIP and CLOSE were out of adjustment. This condition likely existed since the date of installation. The breaker is used in a configuration that includes an Appendix R disconnect switch (Division I Remote Shutdown System Disconnect Switch SW1-2CESA20, located outside the Control Room) that enables local control of the breaker. When this switch was actuated, the circuit was completed through the inadvertently actuated TRIP switch, causing the breaker trip.
The apparent cause of this event is that NMPNS maintenance procedures, including post-maintenance checks, did not verify proper function of the Trip/Close pushbuttons of the circuit breaker.
This event was entered into the NMPNS corrective action program (Condition Report CR-2012-005170).
III. ANALYSIS OF THE EVENT:
The loss of containment isolation function is reportable in accordance with 10 CFR 50.73 (a)(2)(v)(D), "Any event or condition that could have prevented the fulfillment of the safety function of structures or systems that are needed to mitigate the consequences of an accident.
There were no systems inoperable and no system failures related to this event. There were no actual safety consequences from this event. Reactor vessel low water level initiates closure of various valves, intended to isolate a breach of the reactor coolant pressure boundary (RCPB) pipes, and conserve reactor coolant by closing off process lines. There were no leaks or breaches in the RHR shutdown cooling system, and therefore no reactor level low signal requiring the isolation valves to be actuated was received. Had a RCPB pipe breach occurred concurrent with this event, it could have created a condition that would challenge the ability to maintain reactor coolant inventory. Based on the above considerations, the safety significance of this event is low, and the event did not pose a threat to the health and safety of the public or plant personnel.
This event affects the NRC Regulatory Oversight Process (ROP) Index for Safety System Functional Failures because the event could have prevented the fulfillment of the safety function of structures or systems needed to mitigate the consequences of an accident.
The breaker failure that initiated the loss of containment isolation is attributed to a breaker assembly deficiency, and is reportable in accordance with 10 CFR Part 21. In the event that the reactor was at power and an emergency evacuation of the control room was required, the 600V emergency load center would have lost power while transferring control to the Division I Remote Shutdown Panel. The loss of the Division I emergency loads powered by load center 2EJS*US1 in conjunction with the control room evacuation could have impaired the ability to achieve and maintain a safe shutdown condition. The Division II normal feeder breaker of the Unit Substation (2EJS*US3-3B) did not exhibit the same condition with the local trip pushbutton as was observed in Division I.
IV. CORRECTIVE ACTIONS:
A. ACTION TAKEN TO RETURN AFFECTED SYSTEMS TO PRE-EVENT NORMAL STATUS:
1. Removed 2EJS*US1-3B from Switchgear, repaired breaker trip pushbutton, and reinstalled breaker back in 2EJS*US1
B. ACTION TAKEN OR PLANNED TO PREVENT RECURRENCE:
1. Verified that Division II normal feeder breaker of the Unit Substation (2EJS*US3-3B) did not exhibit the same condition with the local trip pushbutton as was observed in Division I.
2. Revise Procurement Requirements Evaluation Forms for circuit breakers of this type to:
■ Provide specific direction to the vendor to conduct checks for the proper setup of the breaker TRIP and CLOSE pushbuttons.
■ Require the vendor to certify that the checks have been completed, and ■ Require NMPNS Procurement Test & Receipt Inspection to verify the checks have been documented as complete.
3. Revise the appropriate maintenance procedure to include checks of the breaker TRIP and CLOSE switches for proper operation with the escutcheon plate installed on the breaker. This will include an Open-Close- Open (OCO) test of both switches with the escutcheon plate installed.
V. ADDITIONAL INFORMATION:
A. FAILED COMPONENTS:
2EJS*US1-3B Manufacturer: Gould Inc / Frmly ITE Imperial Model: K-3000S
B. PREVIOUS LERs ON SIMILAR EVENTS:
There are no similar LERs.
C. THE ENERGY INDUSTRY IDENTIFICATION SYSTEM (EIIS) COMPONENT FUNCTION
IDENTIFIER AND SYSTEM NAME OF EACH COMPONENT OR SYSTEM REFERRED TO IN THIS
LER:
COMPONENT IDENTIFIER SYSTEM IDENTIFICATION
Supply Breaker BKR� ED RHR Isolation Valve ISV BO
D. SPECIAL COMMENTS:
None