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Compact Process Development at Babcock & Wilcox
Author(s) -
Eric Shaber,
Jeffrey Phillips
Publication year - 2012
Language(s) - English
Resource type - Reports
DOI - 10.2172/1042352
Subject(s) - compaction , volume (thermodynamics) , process (computing) , process engineering , yield (engineering) , scale (ratio) , nuclear fuel , environmental science , engineering , nuclear engineering , waste management , computer science , materials science , metallurgy , physics , geotechnical engineering , quantum mechanics , operating system
Multiple process approaches have been used historically to manufacture cylindrical nuclear fuel compacts. Scale-up of fuel compacting was required for the Next Generation Nuclear Plant (NGNP) project to achieve an economically viable automated production process capable of providing a minimum of 10 compacts/minute with high production yields. In addition, the scale-up effort was required to achieve matrix density equivalent to baseline historical production processes, and allow compacting at fuel packing fractions up to 46% by volume. The scale-up approach of jet milling, fluid-bed overcoating, and hot-press compacting adopted in the U.S. Advanced Gas Reactor (AGR) Fuel Development Program involves significant paradigm shifts to capitalize on distinct advantages in simplicity, yield, and elimination of mixed waste. A series of compaction trials have been completed to optimize compaction conditions of time, temperature, and forming pressure using natural uranium oxycarbide (NUCO) fuel at packing fractions exceeding 46% by volume. Results from these trials are included. The scale-up effort is nearing completion with the process installed and operable using nuclear fuel materials. Final process testing is in progress to certify the process for manufacture of qualification test fuel compacts in 2012

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