Nuclear Engineering Division | |||
| Session 275 - Developments in Thermochemical and Electrolytic Routes to Hydrogen Production: Part V | |||
| This symposium focuses on nontraditional methods for generating hydrogen that would reduce reliance on fossil fuels. A leading candidate is the use of heat from an advanced, high temperature nuclear reactor to dissociate water into hydrogen and oxygen. However, papers on any novel process for generating hydrogen, whether based on a nuclear energy source or otherwise, are encouraged. Typical processes include: - thermochemical cycles (e.g. Sulfur-Iodine) - hybrid cycles (e.g. Hybrid Sulfur) - electrolysis - photoelectrochemical methods - photobiological methods | |||
| Chair: | Michael F. Simpson | ||
| CoChair: | Steven Sherman | ||
| 275a | High Temperature Electrolysis for Hydrogen Production Using Solid Oxide Electrolyte Tubular Cells Assembly Unit Kazuya Yamada, Shinichi Makino, Kiyoshi Ono, Kentaro Matsunaga, Masato Yoshino, Takashi Ogawa, Shigeo Kasai, Seiji Fujiwara, Hiroyuki Yamauchi | ||
| 275b | Status of the R&D Effort for the Cu-CL Cycle Joseph Masin, Michele Lewis | ||
| 275c | Hydrogen Production by Thermochemical Water-Splitting Is Process Gab-Jin Hwang, Seong-Dae Hong, Jeong-Geun Kim, Sang-Ho Lee, Sang-Il Choi, Ki-Kwang Bae | ||
| 275d | Simulation of Sulfur-Iodine Thermochemical Cycle Coupled to Nuclear Heat Transport System Seungmin Oh, Shripad T. Revankar, Nicholas Brown, Sal B. Rodríguez Jr., Karen Vierow | ||
| 275e | Dynamic Flow of Micro-Channels in a Ceramic Heat Exchanger James Cutts, Merrill A. Wilson | ||
| 275f | Optimizing the Micro-Channels Features in a Ceramic Heat Exchanger for Sulphuric Acid Decomposition Merrill A. Wilson, Charles Lewinsohn, James Cutts, E. N. Wright, Valery I. Ponyavin | ||
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