Description: Website for the Advanced Reactors and Fuel Cycles group
Advanced nuclear reactors often involve complex geometries, unique materials, and new physical regimes. To simulate the coupled physics in such designs, current tools must be extended to capture those geometries, materials, and regimes. Our work focuses on extending current tools with features essential to simulating advanced reactor multiphysics.
Our nuclear energy future may involve a mixture of technologies, reprocessing schemes, and waste management strategies. Deployments may be driven by politics or demand, the options may be constrained by complex logistics, and the assessment of impacts requires analysis at scale. Our work focuses on modeling, simulation, and analysis of the global nuclear fuel cycle, with an emphasis on sustainability.
A crosscutting theme of our research is an emphasis on advancing methods and software for computational nuclear engineering. Simulations of reactors and fuel cycle systems are sufficiently complex that sophisticated scientific software and high-performance computing resources are essential to understanding and improving them. Accordingly, the Advanced Reactors and Fuel Cycles group is proud to be affiliated with the University of Illinois National Center for Supercomputing Applications and its Blue Waters c