Effects of induced magnetic field on conducting viscous fluid flowing in a constricted channel

IF 3.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Mani Shankar Mandal , G.C. Layek
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引用次数: 0

Abstract

We report the effects of an externally applied magnetic field on an electrically conducting fluid flow in a locally constricted channel. With the use of finite-difference discretization and the ADI (Alternating directions implicit) scheme, the non-linear coupled magnetohydrodynamic (MHD) equations in two dimensions were numerically solved. When the magnetic Reynolds number RM >> 1, an induced magnetic field forms in the motion and significantly affects flow. The electromagnetic force (Lorentz force) is developed and acts as a damping force. It results the suppression of flow separation regions developed due to the channel constrictions. It delays the onset of flow separation and the flow become stable. By employing suitable value of magnetic field one can completely suppress the flow separation. The induced magnetic field and current density vectors are dense at the constriction site due to high velocity shear in the downstream of the constriction, resulting in the creation of high shear magnetic and electric fields.

感应磁场对狭窄通道中粘性流体传导的影响
我们报告了外加磁场对局部狭窄通道中导电流体流动的影响。采用有限差分离散和交替方向隐式格式,对二维非线性耦合磁流体动力学方程进行了数值求解。当磁雷诺数RM >>1、在运动中形成感应磁场,显著影响流量。电磁力(洛伦兹力)被发展成一种阻尼力。它抑制了由于通道收缩而形成的流动分离区。它延缓了流动分离的发生,使流动趋于稳定。采用合适的磁场值可以完全抑制流动分离。由于收缩体下游的高速剪切,感应磁场和电流密度矢量在收缩部位密集,从而产生高剪切磁场和电场。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Forces in mechanics
Forces in mechanics Mechanics of Materials
CiteScore
3.50
自引率
0.00%
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0
审稿时长
52 days
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