Mass Transfer Process by Magneto-convection at a Solid-liquid Interface in a Heterogeneous Vertical Magnetic Field
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概要
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When an external magnetic field is vertically imposed on a solid–liquid interface, the mass transfer process of a solute dissolving from or depositing on the interface was theoretically examined. In a heterogeneous vertical magnetic field, a material receives a magnetic force in proportion to the product of the magnetic susceptibility, the magnetic flux density $B$ and its gradient $(\mathrm{d}B/\mathrm{d}z)$. As the reaction proceeds, a diffusion layer of the solute with changing susceptibility is formed at the interface because of the difference of the the magnetic susceptibility on the concentration of the solute. In the case of an unstable condition where the dimensionless number of magneto-convection $S$ takes a positive value, the magnetic force is applied to the layer and induces numerous minute convection cells. The mass transfer of the solute is thus accelerated, so that it is predicted that the mass flux increases with the 1/3rd order of $B(\mathrm{d}B/\mathrm{d}z)$ and the 4/3rd order of the concentration. The experiment was then performed by measuring the rate of the dissolution of copper sulfate pentahydrate crystal in water.
- 2003-08-15
著者
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Aogaki Ryoichi
Department Of Industrial Design Polytechnic University
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SUGIYAMA Atsushi
Domestic Research Fellowship, Japan Society for the Promotion of Science, Saitama Industrial Technol
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MORISAKI Shigeyoshi
Department of Applied Chemistry, Graduate school of Engineering, Tokyo Metropolitan University
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Aogaki Ryoichi
Department of Product Design, Polytechnic University, 4-1-1 Hashimotodai, Sagamihara, Kanagawa 229-1196, Japan
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Morisaki Shigeyoshi
Department of Applied Chemistry, Graduate school of Engineering, Tokyo Metropolitan University, 1-1 Minami-Ohsawa, Hachiouji, Tokyo 192-0397, Japan
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AOGAKI Ryoichi
Department of Electronic System Engineering, Polytechnic University
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