Nuclear Engineering Division | |||
| Session 230 - Developments in Thermochemical and Electrolytic Routes to Hydrogen Production: Part IV | |||
| 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: | Maximilian B. Gorensek | ||
| CoChair: | Bill Holtzscheiter | ||
| 230a | Platinum Group Metal Catalysts for Sulfur-Based Thermochemical Water Splitting Cycles Daniel M. Ginosar, Lucia M. Petkovic, Harry W. Rollins, Kyle C. Burch | ||
| 230b | Sulfuric Acid Decomposition with Heat and Mass Recovery Using a Direct Contact Exchanger Fred Gelbard, Robert C. Moore, Milton E. Vernon, Edward J. Parma, Dion A. Rivera, Howard B. J. Stone, James C. Andazola, Gerald E. Naranjo, Paul S. Pickard | ||
| 230c | Decomposition of Sulfuric Acid to Produce Sulfur Dioxide and Oxygen in Is Cycle Kwang-Deog Jung, Hoggon Kim, Byung Gwon Lee, Oh-Shim Joo, Gyeong-Taek Gong, Chae-Ho Shin, Hee-Young Jeon | ||
| 230d | A Corrosion Resistant Sulfuric Acid Decomposer for the Sulfur-Iodine Process Roger X. Lenard | ||
| 230e | Solar Configuration Study of Sulphuric Acid Thermal Decomposition in the S-I Thermochemical Hydrogen Production Process Salvatore Sau, Giampaolo Caputo, Claudio Felici, Alberto Giaconia, Roberto Grena, Valeria Russo | ||
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