Nuclear Engineering Division | |||
| Session 424 - Advanced Hydrogen Storage Systems | |||
| Significant improvements over currently available hydrogen storage technologies are required if hydrogen is to become a viable energy carrier. Compact, lightweight carbon adsorbent materials have become interesting for possible use in a hydrogen storage system. Other advanced storage material made of various hydrides and ceramics are also being investigated. This session will cover hydrogen storage topics related to all types of advanced adsorbent materials. Topic areas will cover advanced carbon nano tube, ceramics and metal hydrides technologies and metal organic compounds. | |||
| Chair: | William A. Summers | ||
| CoChair: | Bill Holtzscheiter | ||
| 424a | Hydrogen Storage in Carbon Nanotube and Palladium Composite Materials Yong-Won Lee, Ranadeep Bhowmick, Hongjie Dai, Bruce M. Clemens | ||
| 424b | The Application of Steam Hydrolysis of Chemical Hydrides to Facilitate Hydrogen Storage and Generation Joshua R. Gray, Eyma Y. Marrero-Alfonso, Amy M. Beaird, Casey Campbell, Thomas A. Davis, Michael A. Matthews | ||
| 424c | Modeling Hydrogen Adsorption in Microporous Metal-Organic Frameworks Jin-Chen Liu, Bing Dai, Karl Johnson | ||
| 424d | Destabilized Libh4 / Mgh 2 for Reversible Hydrogen Storage Luis Rivera, Sesha Srinivasan, Matthew Smith, John Wolan, Elias Stefanakos | ||
| 424e | Simulation of the Rapid Charging of a Metal Hydride Hydrogen Storage System Armin D. Ebner, YongFeng Wang, James A. Ritter | ||
| 424f | High Capacity Reversible Hydrogen Storage Material James A. Ritter, Tao Wang, Jun Wang, Armin D. Ebner | ||
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