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Exelon Generation provides CANES funding for research on Advanced Nuclear Fuel Cladding Coatings

Department of Nuclear Science & Engineering April 7, 2017

Assistant Professor of Nuclear Science and Engineering Michael Short and collaborators — Professors Bilge Yildiz, Matteo Bucci, and Evelyn Wang, as well as the MIT Nuclear Reactor Laboratory and the Westinghouse Electric Company — have received funding from Exelon Generation to support research which could transform the performance of the fuel cladding in Light Water Reactors (LWRs).

Four known issues can impact the safe and reliable operation of LWR fuel cladding. They include fretting and wear from grid-to-rod-fretting (GTRF) and foreign material; the buildup of porous corrosion deposits; hydrogen absorption and boiling crisis. Fretting can wear through the fuel cladding, while deposits and hydrogen absorption can lead to corrosion-based fuel failure, respectively. Finally, a “boiling crisis” is when the normally bubbly mode of coolant boiling, called sub-cooled nucleate boiling, transitions to film boiling, insulating the fuel with a layer of steam and worsening heat transfer. All four can and have caused failure of the fuel cladding, leading to radioactive releases into the coolant and costing reactor operators over $1M per day of downtime to fix the problem. The goal of the MIT project is to address all four issues at once by developing a viable solution within three years, consisting of engineered cladding surface coatings and micro/nano geometric modifications to reduce or eliminate all four problems in one fell swoop. The team will design a set of coatings and surface modifications for Zircaloy-based fuel cladding currently in use. The combination will simultaneously

This targeted three-year development time from lab-scale tests to commercial reactor implementation is unprecedented. The normal process for most new reactor components is between 10 and 15 years.

The MIT team will work with fuel vendor Westinghouse Electric Company and the nation’s largest nuclear operator Exelon Generation to test and identify the best coating for commercialization and use in a commercial US reactor by 2019. The project brings together MIT researchers from the Departments of Nuclear Science and Engineering, Materials Science and Engineering, Mechanical Engineering, and the MIT Nuclear Reactor Lab.

The funding will support research in the Center for Advanced Nuclear Energy Studies (CANES), one of the MIT Energy Initiative’s eight Low-Carbon Energy Centers, which Exelon joined as a member in 2016 to advance key enabling technologies for addressing climate change.

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