Energy Department invests $82 million in advanced nuclear power technology

Tennessee nuclear plant

Tennessee nuclear plant

DOE selected 93 projects that will investigate nuclear fuel and material applications

WASHINGTON –The US Department of Energy is investing over $82 million in nuclear energy research, facility access, crosscutting technology development, and infrastructure awards in 28 states.

Nuclear waste

Nuclear waste.

In total, 93 projects were selected to receive funding that will help push innovative nuclear technologies toward commercialization and into the market, the DOE announced in a press release.

“Nuclear power is our nation’s largest source of low-carbon electricity and is a vital component in our efforts to both provide affordable and reliable electricity and to combat climate change,” said Energy Secretary Ernest Moniz.

“These awards will help scientists and engineers as they continue to innovate with advanced nuclear technologies.”

These awards provide funding for nuclear energy-related research through the Nuclear Energy University Program, Nuclear Science User Facilities, and Nuclear Energy Enabling Technology programs.

In addition to financial support, a number of recipients will receive technical and regulatory assistance through the Gateway for Accelerated Innovation in Nuclear (GAIN) initiative.

NUCLEAR ENERGY UNIVERSITY PROGRAM

DOE is awarding nearly $36 million through its Nuclear Energy University Program (NEUP) to support 49 university-led nuclear energy research and development projects in 24 states.

Additionally, 15 universities will receive nearly $6 million for research reactor and infrastructure improvements – providing important safety- performance- and student education-related upgrades to a portion of the nation’s 25 university research reactors as well as enhancing university research and training infrastructure.

PUBLIC PRIVATE PARTNERSHIPS

The awards announced today are part of a significant first set of actions to implement the GAIN initiative that was announced November 2015, which provides the nuclear energy community with access to the technical, regulatory, and financial support necessary to move new or advanced nuclear reactor designs toward commercialization while ensuring the continued safe, reliable, and economic operation of the existing nuclear fleet.

GAIN will provide the nuclear community with a single point of access to the broad range of capabilities – people, facilities, materials, and data – across the DOE complex and its National Laboratory capabilities.

The Department is making approximately $2 million available through the Nuclear Science User Facilities (NSUF) to provide access to world-class neutron and gamma irradiation and post-irradiation examination services to General Electric Hitachi. The project will cover the cost of placing selected material samples from additive manufacturing processes into a NSUF-affiliated nuclear reactor to analyze the effects of nuclear reactor irradiation on material property changes.

Additionally, under the innovative GAIN public private partnership model, DOE  is supporting a nearly $3 million collaborative effort with Westinghouse as the lead of one project and as a collaborator in two other projects, led by Argonne National Laboratory and Virginia Polytechnic Institute to develop advanced communication methods for nuclear facilities.

The Department is also awarding $21 million for 6 Integrated Research Projects (IRPs), which include a jointly-funded project between the Office of Nuclear Energy and the Office of Environmental Management for enhanced glass forms for nuclear waste immobilization.

CROSSCUTTING RESEARCH PROJECTS

Additionally, nearly $7 million will be awarded for seven research and development projects led by Department of Energy national laboratories, industry and U.S. universities to conduct research to address crosscutting nuclear energy challenges that will help to develop advanced sensors and instrumentation, advanced manufacturing methods, and materials for multiple nuclear reactor plant and fuel applications.

Advanced innovative robust communication methods will be developed to demonstrate the ability to transmit greater amounts of data and other signals through physical boundaries in nuclear facilities. Multiple additive manufacturing techniques and a solid-phase cladding process will undergo microstructural and mechanical testing and irradiation evaluation.

A rapid qualification process for laser-based powder bed additive manufacturing will also be examined. Advanced materials characterization techniques and tools will also be developed to provided advanced methods for sample preparation and new tools and techniques for examining and understanding material microstructures in a variety of conditions ranging from as-received to treated and irradiated.

NUCLEAR SCIENCE USER FACILITIES

The DOE selected eight university, two national laboratory, and one industry-led project that will take advantage of NSUF capabilities to investigate important nuclear fuel and material applications.

DOE will fund over $9 million in facility access costs and expertise for experimental neutron and ion irradiation testing, post-irradiation examination facilities, synchrotron beamline capabilities, and technical assistance for design and analysis of experiments through the NSUF.

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