Aqueous-Phase Plasma Method for Selective Decomposition of Ammonia Generated as a Byproduct in a Hydrazine Hydrate Fuel Cell System
Author:
Affiliation:
1. Advanced R&D Division, Technical Center, Daihatsu Motor Co., Ltd.
2. Trans-regional Center for Industrial Materials Research, Institute for Materials Research, Tohoku University
Publisher
Society of Chemical Engineers, Japan
Subject
General Chemical Engineering,General Chemistry
Link
https://www.jstage.jst.go.jp/article/kakoronbunshu/45/2/45_18wh054/_pdf
Reference12 articles.
1. Asazawa, K., K. Yamada, H. Tanaka, A. Oka, M. Taniguchi and T. Kobayashi; “A Platinum-Free Zero-Carbon-Emission Easy Fuelling Direct Hydrazine Fuel Cell for Vehicles,” Angew. Chem. Int. Ed., 46, 8024–8027 (2007)
2. Asazawa, K., T. Sakamoto, S. Yamaguchi, K. Yamada, H. Fujikawa, H. Tanaka and K. Oguro; “Study of Anode Catalysts and Fuel Concentration on Direct Hydrazine Alkaline Anion-Exchange Membrane Fuel Cells Fuel Cells and Energy Conversion,” J. Electrochem. Soc., 156, B509 (2009)
3. Mizukoshi, Y., S. Hatanaka, K. Okitsu, Y. Iseki, R. Iwasaki, T. Sakamoto, S. Yamaguchi, H. Tanaka and S. Tanabe; “Plasma Generation in Aqueous Solution Containing Volatile Solutes,” Jpn. J. Appl. Phys., 57, 0102B7 (2018)
4. Mukasa, S., S. Nomura, H. Toyota, T. Maehara, F. Abe and A. Kawashima; “Temperature Distributions of Radio-Frequency Plasma in Water by Spectroscopic Analysis,” J. Appl. Phys., 106, 113302 (2009)
5. Qian, W., D. P. Wilkinson, J. Shen, H. Wang and J. Zhang; “Architecture for Portable Direct Liquid Fuel Cells,” J. Power Sources, 154, 202–213 (2006)
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