存在霍尔和离子滑移电流的倾斜磁场时微通道中瞬态 MHD 自由对流的计算分析

Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengineering and Nanosystems Pub Date : 2024-02-06 DOI:10.1177/23977914231214860

B. Jha, P. Malgwi

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引用次数: 0

摘要

本分析涉及磁场倾斜对垂直微通道中牛顿粘性流体瞬态 MHD 流动的影响，并考虑了霍尔和离子滑移电流以及诱导磁场效应。通过采用合适的参数，得到的偏微分方程变得无量纲化，然后在 MATLAB 中进行数值求解。参数对不同流动特征的相关作用都有明确的描述，同时还使用了各种适用参数的表格。该方向的分析与许多 MHD 控制应用相关。分析结果表明，在倾斜磁场以及霍尔和离子滑动电流同时出现的早期阶段，整个微通道域的速度和感应磁场行为都是振荡的。

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Computational analysis on transient MHD free convection flow in a microchannel in presence of inclined magnetic field with Hall and ion slip current

The present analysis is concerned with the effect of magnetic field inclination on transient MHD flow of Newtonian viscous fluid in a vertical microchannel with the consideration of Hall and ion slip currents as well as induced magnetic field effects. Obtained dimensional partial differential equation are rendered dimensionless by employing suitable parameters and thereafter solved numerically in MATLAB. Relevant actions of parameters on different flow features are depicted explicitly and also using Tables for various applicable parameters. Analysis in this direction is relevant in many MHD controlled applications. Results obtained from the present analysis shows that at the early stages of time and in the simultaneous occurrence of inclined magnetic field as well as Hall and ion slip currents, velocity and induced magnetic field behavior are found to be oscillatory all through the microchannel domain.

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Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengineering and Nanosystems

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