Open AccessThe role of Z-pinch fusion transmutation of waste in the nuclear fuel cycle.
Author(s) -
J.T. Smith,
Thomas E. Drennen,
Gary E Rochau,
William Joseph Martin,
William Kamery,
Phiphat Phruksarojanakun,
Ryan Grady,
Benjamin B. Cipiti,
Paul Wilson,
T. A. Mehlhorn,
Avery Guild-Bingham,
Pavel V. Tsvetkov
Publication year - 2007
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/920827
Subject(s) - nuclear transmutation , nuclear engineering , spent nuclear fuel , actinide , fusion power , environmental science , radioactive waste , nuclear fuel cycle , waste management , nuclear physics , fuel cycle , neutron , engineering , physics , plasma
The resurgence of interest in reprocessing in the United States with the Global Nuclear Energy Partnership has led to a renewed look at technologies for transmuting nuclear waste. Sandia National Laboratories has been investigating the use of a Z-Pinch fusion driver to burn actinide waste in a sub-critical reactor. The baseline design has been modified to solve some of the engineering issues that were identified in the first year of work, including neutron damage and fuel heating. An on-line control feature was added to the reactor to maintain a constant neutron multiplication with time. The transmutation modeling effort has been optimized to produce more accurate results. In addition, more attention was focused on the integration of this burner option within the fuel cycle including an investigation of overall costs. This report presents the updated reactor design, which is able to burn 1320 kg of actinides per year while producing 3,000 MWth
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