Research & Applications


BWXT makes progress on TRISO production restart

May 4, 2020, 4:38PMNuclear News

BWX Technologies has announced the successful formation and sintering of uranium oxycarbide (UCO) fuel kernels that, once coated, will make up the fissile core of TRISO (tristructural isotropic) fuel particles. With that process demonstrated, BWXT has shifted the focus of its TRISO production restart to bringing two more furnaces online—an additional sintering furnace, used to apply heat and pressure to a solid fuel kernel, and a coating furnace.

DOE offers $12 million for fusion QIS research

April 30, 2020, 3:09PMNuclear News

The Department of Energy will provide $12 million for research in quantum information science (QIS) for fusion energy and plasma science. The research is expected to focus on a range of topics, including the design of quantum computing algorithms to solve problems in fusion energy, the development of quantum sensing diagnostics for fusion experiments, and the formation of novel quantum materials using high-energy-density plasmas.

DOE explores cost-sharing program for fusion reactors

April 29, 2020, 1:20PMNuclear News

The Department of Energy’s Office of Science is inviting input on its plan to develop a cost-share program in fusion reactor technologies. A request for information was published in the Federal Register, inviting interested parties to comment on the topical areas, program objectives, eligibility requirements, program organization and structure, public and private roles and responsibilities, funding modalities, and assessment criteria of such an initiative.

DOE issues RFP for Savannah River contract

April 23, 2020, 12:33PMNuclear News

The Department of Energy’s Office of Environmental Management (EM) has issued a draft request for proposal for the stand-alone management and operations (M&O) contract for Savannah River National Laboratory, located at the Savannah River Site near Aiken, S.C. The five-year contract, with possible award terms of up to five additional years, is anticipated to have a value of approximately $381 million a year.

Jacobs wins $25 million in ITER, UKAEA contracts

April 21, 2020, 8:45AMNuclear News

Jacobs has been awarded several contracts to support work on the ITER fusion project. Photo: ITER Organization

The global engineering company Jacobs announced on April 14 that it has been awarded several contracts with an estimated combined value of more than $25 million. The contracts are with the ITER Organization, Fusion for Energy, and the United Kingdom Atomic Energy Authority (UKAEA) and are intended to support fusion energy projects in France and the United Kingdom.

ARPA-E awards $32 million for fusion energy research

April 20, 2020, 1:50PMNuclear News

The winners of $32 million in funding for 15 projects to develop timely, commercially viable fusion energy were announced by the Department of Energy in April. As part of the DOE Advanced Research Projects Agency–Energy’s (ARPA-E) Breakthroughs Enabling THermonuclear-fusion Energy (BETHE) program, the projects will work to increase the number and performance levels of lower-cost fusion concepts.

Nuclear-derived techniques to tackle COVID-­19

March 17, 2020, 1:24PMNuclear News

The International Atomic Energy Agency plans to provide diagnostic kits, equipment, and training in nuclear-­derived detection techniques to countries asking for assistance in tackling the worldwide spread of the coronavirus that has caused the COVID-­19 pandemic. IAEA Director General Rafael Mariano Grossi announced the plans on March 9 during his first formal address to the IAEA’s Board of Governors (see previous story).

“The IAEA is not a specialized health agency and has no role in controlling the disease,” Grossi said, “but we do have expertise and experience that help in detecting outbreaks of certain viral diseases and in diagnosing them.”

Microreactor work at ORNL fueled by BWXT

March 13, 2020, 12:04PMNuclear News

BWX Technologies announced on March 11 that its BWXT Nuclear Operations Group (BWXT NOG) subsidiary had been awarded a contract from the Department of Energy’s Oak Ridge National Laboratory to manufacture TRISO nuclear fuel to support the continued development of the Transformational Challenge Reactor (TCR). Plans to restart a TRISO production line at the company’s Lynchburg, Va., manufacturing site will be finalized to allow for production to be completed by the fall of 2020.

Tags:
Share:

Helping to bring a new generation of reactors to life

March 13, 2020, 9:13AMNuclear NewsJoel Hiller

As the nuclear industry pursues a new generation of reactors to meet economic and political realities, the process for developing and qualifying new fuels and materials has come into focus. It’s clear that the 30-year development process the industry has come to expect is no longer viable, just as the economic reality of the current reactor fleet is increasingly coming under pressure from low-cost alternatives, particularly natural gas. To reduce carbon emissions while meeting ever-growing energy needs, new nuclear plants must be built soon.

Accelerating the deployment of advanced nuclear energy systems

March 13, 2020, 8:51AMNuclear NewsKurt Terrani

The TCR program is leveraging an agile approach—one that is centered around continuously informing the process—to accelerate deployment timelines and introduce performance improvements. Image: Adam Malin, ORNL

Soon after Enrico Fermi’s Chicago Pile-­1 went critical for a brief duration in December 1942, the construction of the first continuously operating reactor, the X-­10 Graphite Reactor, was initiated in February 1943 at Clinton Engineer Works in Oak Ridge, Tenn. On November 4 of that year, a mere nine months after the start of construction, the reactor began operation. This marked the onset of what Alvin M. Weinberg referred to as “the first nuclear era,” during which many reactors of various designs and operating parameters were built and demonstrated across the United States. Forty years ago, the Fast Flux Test Facility was the last U.S. non-­light-­water reactor to reach criticality, and it has since been decommissioned.

CNL, NNL develop action plan to boost collaboration

March 12, 2020, 1:26PMNuclear News

National laboratories from Canada and the United Kingdom have developed an action plan under an existing memorandum of understanding designed to boost collaboration across the areas of clean energy, medical isotopes, waste management, and decommissioning. Canadian Nuclear Laboratories (CNL), Canada’s nuclear science and technology organization, and the National Nuclear Laboratory (NNL), the nuclear services technology provider owned and operated by the United Kingdom, announced the plan on March 4. The agreement will address shared challenges in relation to climate change, public health, and environmental stewardship.

The promise of nuclear thermal propulsion

March 11, 2020, 12:19PMNuclear NewsJud Simmons

The United States is pursuing the objective to land humans more than 100 million miles away on Mars, and nuclear power has the potential to be a key technology in getting to the Red Planet and providing power while there. Specifically, nuclear thermal propulsion (NTP) is a promising approach that could enable astronauts to travel from Earth’s orbit to Mars and back in a fraction of the time, and with greater safety, than is available with other options.

DOE to award $30 million for new fusion research

March 5, 2020, 12:06PMNuclear News

The Department of Energy announced on March 4 that it will provide $30 million for new research on fusion energy. The funding will provide $17 million for research focused specifically on artificial intelligence (AI) and machine learning (ML) approaches for the prediction of key plasma phenomena, management of facility operations, and accelerated discovery through data science, among other topics. An additional $13 million under a separate funding opportunity will be devoted to fundamental fusion theory research, including computer modeling and simulation, focused on factors affecting the behavior of hot plasmas confined by magnetic fields in fusion reactors.