Nuclear Engineering Division | |||
| Session 126 - Developments in Thermochemical and Electrolytic Routes to Hydrogen Production: Part II | |||
| 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: | Amy C. Taylor | ||
| 126a | Hybrid Sulfur Cycle Flowsheets for Hydrogen Production from Nuclear Energy Maximilian B. Gorensek, William A. Summers, John W. Weidner | ||
| 126b | Thermodynamic Modeling for the Hybrid Sulfur Process in Chemcad David F. McLaughlin, Edward J. Lahoda, Lauren A. Paoletti, Willem Kriel | ||
| 126c | Generation of Hydrogen Using Electrolyzer with Sulfur Dioxide Depolarized Anode John L. Steimke, Timothy J. Steeper | ||
| 126d | Electrochemical Generation of Hydrogen Via Thermochemical Cycles John W. Weidner, John Staser, Premkumar Sivasubramanian | ||
| 126e | Investigation of the Reactive Distillation Separation for Hi-I2-H2 in the S-I Process for Thermochemical Hydrogen Production John P. O'Connell, Katie P. Bellezza, James E. Murphy, Maximilian B. Gorensek, Paul M. Mathias, Mark C. Thies, Jacob M. Crosthwaite | ||
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