Open AccessFreeze-casting as a Novel Manufacturing Process for Fast Reactor Fuels. Final Report
Author(s) -
Ulrike G. K. Wegst,
Todd R. Allen,
Kumar Sridharan
Publication year - 2014
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/1154737
Subject(s) - combustor , waste management , process engineering , raw material , cermet , process (computing) , ceramic , environmental science , nuclear engineering , materials science , engineering , computer science , combustion , metallurgy , chemistry , operating system , organic chemistry
Advanced burner reactors are designed to reduce the amount of long-lived radioactive isotopes that need to be disposed of as waste. The input feedstock for creating advanced fuel forms comes from either recycle of used light water reactor fuel or recycle of fuel from a fast burner reactor. Fuel for burner reactors requires novel fuel types based on new materials and designs that can achieve higher performance requirements (higher burn up, higher power, and greater margins to fuel melting) then yet achieved. One promising strategy to improved fuel performance is the manufacture of metal or ceramic scaffolds which are designed to allow for a well-defined placement of the fuel into the host, and this in a manner that permits greater control than that possible in the production of typical CERMET fuels.
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