磁场和旋转对多孔介质非对称通道中宾汉流体蠕动流动的影响

Q4 Earth and Planetary Sciences
Mohammed Obayes Kadhim, L. Hummady
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引用次数: 0

摘要

本文研究了在长波长和低雷诺数近似假设下,旋转和磁场对多孔介质不对称通道中宾汉流体蠕动流动的影响。 采用扰动法和 Mathematica 程序求解非线性偏微分方程,将动量方程与旋转方程和磁场方程耦合。流体被认为受到磁场作用,并在多孔介质中流动。图表显示了速度、应力梯度、磁主体、电流密度、旋转影响和漂移函数的表达式。研究结果表明,旋转、密度、磁导率、耦合多样性和非维度波幅在这一现象中都起着重要作用。量流已针对不同参数进行了测试。宾厄姆数、哈特曼数和达西数的影响也在不同数值下进行了测试,以显示对流动流体运动的影响。通过许多图形可以看到应用情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of the Magnetic Field and Rotation on Peristaltic Flow of A Bingham Fluid in Asymmetric Channel with Porous Medium
     In this paper, we investigate the influence of the rotation and magnetic field on the peristaltic flow of the Bingham fluid in an asymmetric channel with a porous medium under the long wavelength and low Reynolds number approximation assumptions.                                                                                                                            The perturbation method and the Mathematica program for solving nonlinear partial differential equations are used to couple the momentum equations with the rotational and magnetic field equations. The fluid is considered to be subject to a magnetic field and to flow within a porous medium. Graphs are used to display expressions for speed, stress gradient, magnetic subject, current density, rotation impact, and drift function. The findings reveal that the rotation, density, permeability, coupling diversity, and non-dimensional wave amplitude all play significant roles in the phenomenon. The quantities flow has been tested for variant parameters. The impact of the Bingham, Hartman and Darcy numbers are also tested for different values to indicate the effect on the movement of flow fluid. The applications can be seen through many graphics. 
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来源期刊
Iraqi Journal of Science
Iraqi Journal of Science Chemistry-Chemistry (all)
CiteScore
1.50
自引率
0.00%
发文量
241
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