Electrolytic reduction of spent nuclear oxide fuel as part of an integral process to separate and recover actinides from fission products SD Herrmann, SX Li, MF Simpson, S Phongikaroon Separation Science and Technology 41 (10), 1965-1983, 2006 | 142 | 2006 |
Electrolytic reduction of spent light water reactor fuel bench-scale experiment results S Herrmann, S Li, M Simpson Journal of Nuclear Science and Technology 44 (3), 361-367, 2007 | 137 | 2007 |
Separation and recovery of uranium metal from spent light water reactor fuel via electrolytic reduction and electrorefining SD Herrmann, SX Li Nuclear Technology 171 (3), 247-265, 2010 | 135 | 2010 |
Anodic process of electrorefining spent driver fuel in molten LiCl-KCl-UCl3/Cd system SX Li, MF Simpson Mining, Metallurgy & Exploration 22 (4), 192-198, 2005 | 103* | 2005 |
Engineering-scale liquid cadmium cathode experiments D Vaden, SX Li, BR Westphal, KB Davies, TA Johnson, DM Pace Nuclear Technology 162 (2), 124-128, 2008 | 97 | 2008 |
Electrorefining experience for pyrochemical reprocessing of spent EBR-II driver fuel SX Li, TA Johnson, BR Westphal, KM Goff, RW Benedict Idaho National Lab.(INL), Idaho Falls, ID (United States), 2005 | 96 | 2005 |
Actinide recovery experiments with bench-scale liquid cadmium cathode in real fission product-laden molten salt SX Li, SD Herrmann, KM Goff, MF Simpson, RW Benedict Nuclear Technology 165 (2), 190-199, 2009 | 82 | 2009 |
Pyroprocessing progress at Idaho national Laboratory RW Benedict, C Solbrig, B Westphal, TA Johnson, SX Li, K Marsden, ... Advanced Nuclear Fuel Cycles and Systems (GLOBAL 2007), 2007 | 60 | 2007 |
Separation and recovery of uranium and group actinide products from irradiated fast reactor MOX fuel via electrolytic reduction and electrorefining SD Herrmann, SX Li, BR Westphal Separation Science and Technology 47 (14-15), 2044-2059, 2012 | 48 | 2012 |
Development of computational models for the mark-IV electrorefiner—effect of uranium, plutonium, and zirconium dissolution at the fuel basket-salt interface RO Hoover, S Phongikaroon, MF Simpson, SX Li, TS Yoo Nuclear technology 171 (3), 276-284, 2010 | 45 | 2010 |
Electrochemical analysis of actinides and rare earth constituents in liquid cadmium cathode product from spent fuel electrorefining SX Li, SD Herrmann, MF Simpson Nuclear technology 171 (3), 292-299, 2010 | 30 | 2010 |
A computational model of the Mark-IV electrorefiner: phase I—fuel basket/salt interface R Hoover, S Phongikaroon, S Li, M Simpson, TS Yoo | 28 | 2009 |
Experimental observations on electrorefining spent nuclear fuel in molten LiCl-KCl/liquid cadmium system SX Li, T Sofu, TA Johnson, DV Laug Journal of New Materials for Electrochemical Systems 3 (3), 259-268, 2000 | 27 | 2000 |
The effect of cathodic polarisation on the floatability of chalcopyrite in the absence of oxygen LX Iwasaki I. Minerals & metallurgical processing 9 (1), 1992 | 26* | 1992 |
Computational model of the Mark-IV electrorefiner: two-dimensional potential and current distributions RO Hoover, S Phongikaroon, MF Simpson, TS Yoo, SX Li Nuclear Technology 173 (2), 176-182, 2011 | 24 | 2011 |
Electrolytic Reduction of Spent Nuclear Oxide Fuel--Effects of Fuel Form and Cathode Containment Materials on Bench-Scale Operations SD Herrmann Idaho National Lab.(INL), Idaho Falls, ID (United States), 2007 | 24 | 2007 |
Fate of noble metals during the pyroprocessing of spent nuclear fuel BR Westphal, D Vaden, SX Li, GL Fredrickson, RD Mariani Idaho National Lab.(INL), Idaho Falls, ID (United States), 2009 | 23 | 2009 |
Integrated efficiency test for pyrochemical fuel cycles SX Li, D Vaden, BR Westphal, GL Frederickson, RW Benedict, ... Nuclear technology 166 (2), 180-186, 2009 | 21 | 2009 |
High current density cathode for electrorefining in molten electrolyte SX Li US Patent 7,744,734, 2010 | 19 | 2010 |
Experimental investigations into U/TRU recovery using a liquid cadmium cathode and salt containing high rare earth concentrations SX Li, SD Herrmann, MF Simpson Idaho National Lab.(INL), Idaho Falls, ID (United States), 2009 | 19 | 2009 |