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This fact sheet discusses why advanced nuclear energy is a key climate solution. It focuses on modeling results that show the role of advanced nuclear energy in reaching net-zero, advanced nuclear's value proposition compared to other power sources, and the role of flexible resources (like advanced nuclear energy) in a clean energy system. 

This report summarizes NIA's 2022 Chatham House Rules workshop on Advanced Reactor Licensing Efficiency. The workshop convened stakeholders from both industry and public interest groups to share experiences and insights from prior licensing activities, best practices for licensing engagement and activities, and emerging best practices for new reactor licensing. This report synthesizes workshop presentations and discussions, and provides recommendations on how applicants, NRC staff and management, and the NRC Commission can work together to improve the efficiency and effectiveness of advanced reactor licensing reviews. To read the recommendations only, please follow the link here.

This fact sheet provides discussion points on why advanced nuclear energy should be considered economical competitive and will play an important role in helping reach climate and energy security goals in the energy transition.

This fact sheet provides discussion points on why advanced nuclear is poised to help decarbonize applications beyond our electricity, including providing clean heat and steam for hydrogen production, desalination, and chemical processes.

This fact sheet gives an overview of commercial spent nuclear fuel (SNF).  It discusses how SNF is safely and effectively managed in the United States, the potential innovative solutions for long-term disposal of SNF, and the characterization of SNF from advanced reactors.  

This fact sheet gives the case for why we need advanced nuclear energy. It discusses the many benefits advanced nuclear energy has to offer and why we need them to meet our energy security and net-zero emissions goals. 

Multiple advanced reactor developers have announced domestic demonstration projects to be built in the 2020s. These nuclear reactors will provide the licensing, construction, and operational basis for rapid commercial expansion of advanced nuclear energy in the late 2020s and early 2030s. Technology, business, and regulatory lessons learned from first-of-a-kind (FOAK) projects will facilitate lower costs and shorter construction timelines for subsequent nth-of-a-kind (NOAK) reactors due to wide-scale deployment and technological learning. Utilities and other customers that gain early experience with FOAK or early NOAK projects will be in competitive positions to become technology leaders. Property of the Nuclear Innovation Alliance (NIA). For more information about advanced reactor deployments, please contact vibarrajr@nuclearinnovationalliance.org.

Improving the Effectiveness and Efficiency of the Advisory Committee on Reactor Safeguards

Danielle Emche, Judi Greenwald, Victor Ibarra Jr., et al |

This new publication follows NIA’s December 2021 report wherein NIA explored how the Nuclear Regulatory Commission (NRC) (and industry) can make advanced reactor licensing both more effective and more efficient while ensuring safety. In this new report, NIA provides recommendations on how the Advisory Committee on Reactor Safeguards (ACRS), an independent advisory committee to the NRC, can be more effective and efficient in reviewing nuclear energy technologies. To read the recommendation only, please follow the link here.