Hydrogen Evolution by Plasma Electrolysis in Aqueous Solution
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概要
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Hydrogen has recently attracted attention as a possible solution to environmental and energy problems. If hydrogen should be considered an energy storage medium rather than a natural resource. However, free hydrogen does not exist on earth. Many techniques for obtaining hydrogen have been proposed. It can be reformulated from conventional hydrocarbon fuels, or obtained directly from water by electrolysis or high-temperature pyrolysis with a heat source such as a nuclear reactor. However, the efficiencies of these methods are low. The direct heating of water to sufficiently high temperatures for sustaining pyrolysis is very difficult. Pyrolysis occurs when the temperature exceeds 4000°C. Thus plasma electrolysis may be a better alternative, it is not only easier to achieve than direct heating, but also appears to produce more hydrogen than ordinary electrolysis, as predicted by Faraday's laws, which is indirect evidence that it produces very high temperatures. We also observed large amounts of free oxygen generated at the cathode, which is further evidence of direct decomposition, rather than electrolytic decomposition. To achieve the continuous generation of hydrogen with efficiencies exceeding Faraday efficiency, it is necessary to control the surface conditions of the electrode, plasma electrolysis temperature, current density and input voltage. The minimum input voltage required induce the plasma state depends on the density and temperature of the solution, it was estimated as 120 V in this study. The lowest electrolyte temperature at which plasma forms is ${\sim}75$°C. We have observed as much as 80 times more hydrogen generated by plasma electrolysis than by conventional electrolysis at 300 V.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2005-01-15
著者
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Azumi Kazuhisa
Division Of Molecular Science Graduate School Of Engineering Hokkaido University
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Aoki Yoshiaki
Center For Advanced Research Of Energy Technology Of Hokkaido University
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MIZUNO Tadahiko
Division of Quantum Energy Engineering, Graduate School of Engineering, Hokkaido University
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AKIMOTO Tadashi
Division of Quantum Energy Engineering, Graduate School of Engineering, Hokkaido University
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OHMORI Tadayoshi
Catalysis Research Center, Hokkaido University
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Takahashi Akito
Department Of Nuclear Engineering Graduate School Of Engineering Osaka University
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Aoki Yoshiaki
Center for Advanced Research of Energy Technology of Hokkaido University, Kita 13 Nishi 8, Kita-ku, Sapporo 060-8628, Japan
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Akimoto Tadashi
Division of Quantum Energy Engineering, Graduate School of Engineering, Hokkaido University, Kita 13 Nishi 8, Kita-ku, Sapporo 060-8628, Japan
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Ohmori Tadayoshi
Catalysis Research Center, Hokkaido University, Kita 11 Nishi 10, Kita-ku, Sapporo 060, Japan
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Azumi Kazuhisa
Division of Molecular Science, Graduate School of Engineering, Hokkaido University, Kita 13 Nishi 8, Kita-ku, Sapporo 060-8628, Japan
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Azumi Kazuhisa
Division of Materials Chemistry, Graduate School of Engineering, Hokkaido University, Sapporo 060-8628, Japan
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Mizuno Tadahiko
Division of Quantum Energy Engineering, Graduate School of Engineering, Hokkaido University, Kita 13 Nishi 8, Kita-ku, Sapporo 060-8628, Japan
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