Mar 12 2008
David Petti, Sc.D., and technical director for the INL research, says the team used reverse engineering methods to help turn the fuel test failures from the early 1990s into successes in 2008. “We wanted to close this loop for the high-temperature gas reactor fuels community,” he said. “We wanted to put more science into the tests and take the process and demonstrate its success.”This work is important in Idaho because the Idaho National Laboratory is the U.S. Department of Energy's lead nuclear research and development laboratory.
The research is also key in supporting reactor licensing and operation for high-temperature reactors such as the Next Generation Nuclear Plant and similar reactors envisioned for subsequent commercial energy production. “Hats off to the R&D fuels team on this major milestone,” said Greg Gibbs, Next Generation Nuclear Plant Project director. “This is a major accomplishment in demonstrating TRISO fuel safety. This brings us one step closer to licensing a commercially-capable, high-temperature gas reactor that will be essentially emission free, help curb the rising cost of energy and help to achieve energy security for our country.”The work is a team effort of more than 40 people from INL, The Babcock & Wilcox Company, General Atomics and Oak Ridge National Laboratory.
“I salute the team effort that made the research the success it is today,” said David Hill, INL deputy laboratory director for Science and Technology. “I saw the research start while I was part of the ORNL team, and to see it succeed today is hugely satisfying and a tribute to everyone involved.”
The team has now set its sights on reaching its next major milestone – achievement of a 12-14 percent burnup expected later this calendar year.
Posted March 12th,2008