Methanol Diffusion through a Porous Plate in Anode Backing of a Passive Direct Methanol Fuel Cell under Closed Circuit Conditions
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概要
- 論文の詳細を見る
The performance of passive direct methanol fuel cells employing porous plates in the anode backing was investigated under closed circuit conditions to clarify the mechanism of methanol diffusion through the porous plate under closed circuit conditions. Three kinds of porous plates were tested to clarify the effect of porosity and water absorptivity on the steady current density using various methanol concentrations. Under the limiting current conditions, where the steady current density was proportional to the methanol concentration, a porous plate with lower porosity lowered the stable current density at a certain methanol concentration. However, the maximum steady current density was hardly changed as compared to that for the case without a porous plate. The effective diffusion coefficient of methanol through the porous plate showed direct proportion to the porosity of the porous plate, suggesting that the entire pores in the plate were filled with CO2 gas produced at the anode surface, through which the methanol diffused as a vapor from the reservoir to the anode.
- 社団法人 化学工学会の論文
- 2007-12-01
著者
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Nakazato Tsutomu
Dep. Of Applied Chemistry And Chemical Engineering Kagoshima Univ.
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Nakazato Tsutomu
Department Of Applied Chemistry And Chemical Engineering Kagoshima University
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Nakazato Tsutomu
Department Of Biological And Chemical Engineering Gunma University
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Nakagawa Nobuyoshi
Department Of Biological And Chemical Engineering Gunma University
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Abdelkareem Mohammad
Department Of Biological And Chemical Engineering Gunma University
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Hirao Naoya
Research Laboratory For Nuclear Reactors Tokyo Institute Of Technology
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Hirao Naoya
Department Of Biological And Chemical Engineering Gunma University
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NAKAZAWA Akimichi
Department of Biological and Chemical Engineering, Gunma University
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Nakazawa Akimichi
Department Of Biological And Chemical Engineering Gunma University
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Nakagawa Nobuyoshi
Department of Biological & Chemical Engineering, Gunma University
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Ali Abdelkareem
Department of Biological and Chemical Engineering, Gunma University
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