, Gloucester, MA

August 14, 2013

Nuke panel clears Seabrook concrete safety

By Angeljean Chiaramida
Staff Writer

---- — SEABROOK, N.H. — An inspection report by the Nuclear Regulatory Commission found that NextEra Energy Seabrook has shown the nuclear power plant’s staff is taking necessary steps to address the plant’s concrete degradation, leading the NRC to close the books on any remaining action items first issued by the panel.

However, the results of more testing — ongoing at the University of Texas — are necessary to determine a long-term solution for the problem as it relates to the NextEra’s request for a 20-year extension of the plant’s operating license. The result of that testing isn’t expected until some time in 2014.

The plant and its safety records have drawn interest from lawmakers and residents across Cape Ann because, while none of the Cape rests within the plant’s recognized evacuation zone, parts of Rockport and Gloucester sit just 17 miles across the water from the facility. The plant is visible on a clear day from both Rockport’s Halibut Point, and Gloucester’s village of Lanesville.

Records show that, on June 27, a team from the NRC completed a weeks-long inspection at Seabrook Station. The team reviewed procedures and records, observed activities and interviewed station personnel regarding the adequacy of NextEra’s actions to address the impact of alkali-silica reaction on reinforced concrete structures, according to the letter written by Raymond Lorson, director of reactor safety for the NRC.

The team also examined the plant’s safety and compliance with agency rules and regulations.

Alkali-silica reaction, or ASR, is defined as a slow chemical reaction among water, the alkaline cement and reactive silica found in some aggregates used to make concrete. ASR forms a gel that expands, causing cracks that affect concrete properties, but which can take five to 15 years to show up.

More commonly found in transportation structures like dams, bridges and roads, where it has been successfully mitigated, Seabrook Station was the first nuclear power plant to discover and report the presence of ASR in 2009.

It was found in an electrical conduit tunnel located about 40 feet below ground level, in one of the deepest sections of the plant. The tunnel contains wires that lead from the control room to the rest of the plant. The tunnel holds wiring that connects the plant’s controls to machinery throughout the facility.

The NRC has repeatedly assured the public that the ASR has not affected the safety of Seabrook Station because the affected parts of the 2-foot-thick walls still meet federal standards for load-bearing capacity due to the lattice of steel rebar within the walls.

However, the discovery grew into a major concern for many antinuclear advocates, state and federal officials, especially when NextEra filed an application with the NRC requesting a 20-year extension of its operating license from 2030 to 2050.

On May 16, 2012, a “confirmation action letter” spelling out actions the power plant had to take to resolve the issue was sent to Seabrook Station by the NRC.

The letter included 11 commitments made by NextEra in regard to evaluating the ASR-affected reinforced concrete at Seabrook Station. Based on its initial inspections, the NRC late last year closed five of the original 11 items listed in the letter.

According to NRC regional spokesman Neil Sheehan, the closure of the remaining actions on their letter indicates that NextEra has satisfactorily implemented steps now and in the near future that show appropriate corrective actions are being carried out.

“Based on our reviews,” Sheehan said, “we have found that an acceptable basis has been established to assure that the continued operability of Seabrook (Station’s) concrete structures will be maintained.”