在带吸力的横向磁场作用下，耦合应力流体在矩形通道中的稳定流动

Q1 Mathematics

Partial Differential Equations in Applied Mathematics Pub Date : 2024-10-10 DOI:10.1016/j.padiff.2024.100956

Pavan Kumar Reddy Muduganti , Aparna Podila , Pothanna Nalimela , Mahesh Garvandha , Venkata Ramana Murthy Josyula

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引用次数: 0

摘要

在这项研究中，我们分析了横向磁场对不可压缩传导耦合应力流体在横截面均匀的矩形通道内稳定流动的影响，其中包括侧壁的吸力或注入力。为了得到沿矩形管轴线的速度 "w"，我们忽略了感应电场和磁场。为了求得 w，我们采用了标准的超棒和无滑移边界条件。速度 w 和温度 θ 使用傅里叶级数进行计算。在吸入速度为零的情况下，比较了不同磁参数值下的速度分布，结果与现有结果非常吻合（99.99%）。得出了体积流量和表皮摩擦力，并通过图表研究了磁参数、雷诺数和耦合应力参数等物理参数对其的影响。

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Steady flow of couple stress fluid through a rectangular channel under transverse magnetic field with suction

In this work, we have analysed the impact of a transverse magnetic field on the steady flow of an incompressible conducting couple stress fluid within a rectangular channel of uniform cross-section, incorporating suction or injection at the lateral walls. In order to get the velocity ‘w’ along the axis of the rectangular tube, we ignore the induced electric and magnetic fields. To find w, we apply the standard hyper stick and no slip boundary conditions. The velocity w and temperature θ were calculated using Fourier series. The velocity distribution compared for various magnetic parameter values by taking suction velocity zero and the results are in good agreement (99.99 %) with the existing results. The volumetric flow rate and skin friction are obtained and the effects of physical parameters like magnetic parameter, Reynolds number and couple stress parameter on this are studied through graphs.

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