多孔介质壁面流道的铁磁流体磁粘性控制

China Particuology Pub Date : 2007-02-01 DOI:10.1016/j.cpart.2006.12.001

Faïçal Larachi, Damien Desvigne

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引用次数: 7

摘要

分析了高磁导率m勒类非磁性多孔介质中铁磁流体的磁粘现象。在对孔隙级铁磁流体力学模型进行升级后，得到了稳态等温不可压缩牛顿铁磁流体在多孔介质中的非达西非湍流流动的简化体积平均零阶轴对称模型，该介质在固体中经历了恒定的体流定向梯度磁场、铁磁流体自相容退磁场和感应磁场。该模型是在低柱粒直径比导致壁面流动不均匀的情况下探索的。结果表明，在适当的磁场布置下，可以通过磁粘性增稠和开尔文体力密度来增加壁流阻力，使部分壁流转向床芯，从而减少壁流。

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Ferrofluid magnetoviscous control of wall flow channeling in porous media

We analyzed the phenomenon of ferrofluid magnetoviscosity in high-permeability wall-region non-magnetic porous media of the Müller kind. After upscaling the pore-level ferrohydrodynamic model, we obtained a simplified volume-average zero-order axisymmetric model for non-Darcy non-turbulent flow of steady-state isothermal incompressible Newtonian ferrofluids through a porous medium experiencing external constant bulk-flow oriented gradient magnetic field, ferrofluid self-consistent demagnetizing field and induced magnetic field in the solid. The model was explored in contexts plagued by wall flow maldistribution due to low column-to-particle diameter ratios. It was shown that for proper magnetic field arrangement, wall channeling can be reduced by inflating wall flow resistance through magnetovisco-thickening and Kelvin body force density which reroute a fraction of wall flow towards bed core.

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China Particuology

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