Manual Reactor Scram and Group I Isolation Due to Main Turbine Bypass Valve Failing Open

ML23045A162
Person / Time
Site:	Cooper
Issue date:	02/14/2023
From:	Dia K Nebraska Public Power District (NPPD)
To:	Office of Nuclear Reactor Regulation, Document Control Desk
References
NLS2023009 LER 2022-004-00
Download: ML23045A162 (4)
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text

N Nebraska Public Power District

"Always there when you need us"

l0 cFR 50.73

NLS2023009 February 14,2023

ATTN: Document Control Desk U.S. Nuclear Regulatory Commission Washington, D.C. 20555-0001

Subject: Licensee Event Report No. 2022-004-00 Cooper Nuclear Station, Docket No. 50-298, DPR-46

Dear Sir or Madam:

The purpose of this correspondence is to forward Licensee Event Report 2022-004-00

There are no regulatory commitments contained in this letter.

Sincerely,

Khalil Dia Site Vice President

/io

Attachment: Licensee Event Report 2022-004-00

cc: Regional Administrator w/attachment NPG Distribution dattachment USNRC - Region IV

Cooper Project Manager dattachment INPO Records Center w/attachment USNRC - NRR Plant Licensing Branch IV via IRIS entry

Senior Resident Inspector dattachment S ORC Chairman w/attachment USNRC - CNS

SRAB Administrator dattachment CNS Records w/attachment

COOPER NUCLEAR STATION 72676 648A Ave / P.O. Box 98 / Brownville, NE 68321 http://www.nppd.com

Abstract

A reduction in power was performed on December 1 5,2022, to repair a hydrogen leak on the main generator. On December 16, Operations personnel noted that both electro-hydraulic (EH) oil pressure and reactor vessel pressure were lowering and that two of three turbine bypass valves were closed with one full open. Operations personnel responded by starting a second EH fluid pumpto restore EH system pressure, however, reactorvessel pressure continued to lower. As a result of reactor vessel pressure lowering, a manual reactor scram was inserted.

lmmediately following the manual reactor scram, a Primary Containment Group 1 lsolation was received. The cause of one of the turbine bypass valves being open was the failure of the fast-open solenoid operated valve (SOV) coil. However, all three of the fast-open SOV coils were sent to a lab for analysis to determine if there were any additional failure modes of the coil. CNS will provide additional information in a supplement to this Licensee Event Report based on the results of the lab analysis. There was no impact to nuclear safety, radiological safety, or industrial safety. This event was also reported under Event Notification 56278 on December 17,2022.

PLANT STATUS

Cooper Nuclear Station was in Mode 1, Power Operation, at approximately 13 percent power, with the main turbine generator [EllS:TA] out of service, at the time of the event on December 16,2022.

BACKGROUND

The Main Turbine Bypass System [EllS:SO] is designed to control steam pressure when reactor steam generation exceeds turbine [EllS:TB] requirements during unit startup, sudden load reduction, and cooldown. lt allows excess steam flow from the reactor [EllS:RPVI to the condenser without going through the turbine. The bypass capacity of the system is 25 percent of the Nuclear Steam Supply System [EllS:SB] rated steam flow. Sudden load reductions within the capacity ofthesteambypasscanbeaccommodatedwithoutsafetyreliefvalves[EllS:RV]openingorareactorscram. TheMain Turbine Bypass System consists of three bypass valves (BPV) [EllS:V] connected to the main steam lines between the main steam isolation valves [EllS:lSV]and the turbine stop valves.

The turbine utilizes a Digital Electro-Hydraulic (DEH) [EllS:TG] system to control reactor pressure by positioning governor valves and condenser bypass valves. lt consists of solid state governor devices, governor, startup control devices, emergency devices for turbine and plant protection (overspeed governor, master trip, vacuum trip, motoring protection, thrust bearing wear trip, low bearing oil pressure trip) and special control and test devices. The control system operates the main stop valves, governor valves, bypass valves, reheat stop and intercept valves and other protective devices. DEH system oil pressure is maintained by two hydraulic pumps [EllS:P] located at the DEH reservoir tank [EllS:T].

The function of the fast open permissive solenoid operated valve (SOV) is controlled by the DEH control system to be energized and closed when reactor power is below 115 MWe with the output breaker closed, or anytime the output breaker is open. During normal operation, above 1 15 MWe, the SOV is de-energized and open. There is a single SOV on each of the bypass valve actuators and controlled by redundant interposing relays atthe DEH control cabinet rack.

The fast open permissive SOV is only installed on the bypass valves.

EVENT DESCRIPTION

On December9,2022, a hydrogen leakwas detected on the main generator. To repairthis leak, a reduction in power was performed on December 1 5. On December 16, the three turbine BPVs were 40 percent open for reactor pressure control. At23:49 hours, Operations personnel noted that both the electro-hydraulic (EH) oil pressure and reactor vessel pressure were lowering and that two of the three BPVs were closed with one full open. Operations personnel responded by starting a second EH fluid pump to restore EH system pressure, however, reactor vessel pressure continued to lower.

As a result of reactor vessel pressure lowering, Operations personnel inserted a manual reactor scram at 23:51 hours.

lmmediately following the manual reactor scram, a Primary Containment Group 1 lsolation on Main Steam Line Low Pressure was received, and all Main Steam lsolation Valves and Steam Line Drain Valves closed. As a result, the station entered Mode 3, Hot Shutdown. During this time, repairs were made to resolve the hydrogen leak and troubleshooting was performed to determine why one BPV failed open. lnitial finding determined the cause to be the failure of the fast-open SOV (TGF-SOV-BV-1) coil.

NRC FORM 3664 (01-10-2023) Page 2 ol 3 After removal and inspection of TGF-SOV-BV-1, it was discovered the epoxy casing around the coil was bulged indicating signs of overheating. The other two coils were removed and inspected and showed no visible signs of degradation.

However, the decision was made to replace all three SOV coils on the BPVs. Post work testing was completed satisfactorily, and the BPVs were returned to service to support plant startup. The station entered Mode 2, Plant Startup, at 00:52 on December 19, and Mode 1, Power Operations, al 14:42 the same day.

BASIS FOR REPORT

The event is reportable under 10 CFR 50.73(aX2XivXA) - Any event or condition that resulted in manual or automatic actuation of any of the systems listed in 10 CFR 50.73(a)(2)(iv)(B), specifically, (a)(2)(iv)(B)(1) - Reactor protection system including: reactor scram or reactor trip; and (a)(2)(iv)(B)(2) - General containment isolation signals affecting containment isolation valves in more than one system or multiple main steam isolation valves.

This event was also reported under Event Notification 56278 on December 17,2022.

SAFETY SIGNIFICANCE

The resultant manual shutdown of the reactor is the direct consequence of the event, including the reactor manual scram in response to the decrease in reactor pressure that was caused by a failed open main turbine bypass valve. The scram occurred with no complications, including the expected and as designed isolation of the main steam isolation valves on low reactor pressure while the reactor mode switch was in the Run position.

Operators achieved safe shutdown in accordance with plant procedures. Mitigating systems required for safe shutdown remained available and responded as designed. This included the availability of emergency core cooling systems, the main condenser, and feedwater systems. There was no impact to the general safety of the public, nuclear safety, industrial safety, or radiological safety.

CAUSE

lnitial validation and troubleshooting identified the cause for BPV #1 to fail open was due to the fast-open SOV coil (TGF-SOV-BV-1) failing.

CORRECTIVE ACTIONS

All three of the fast-open SOV coils were replaced.

PREVIOUS EVENTS

There have been no Licensee Event Reports submitted within the past 10 years regarding failure of bypass valves resulting in a manual or automatic scram.