内部加热和Robin热边界条件下微极性铁流体层中的穿透Bénard-Marangoni对流

H. Nagarathnamma, A. Pavithra, C. Nanjundappa, S. Suma
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引用次数: 1

摘要

利用内部加热模型研究了均匀垂直磁场作用下微极性铁磁流体层中的穿透Benard-Maranagoni对流。在恒定温度下,下边界被认为是刚性的,而向大气自由开放的上边界是平坦的,并受到对流表面边界条件的影响。用伽辽金方法对所得到的特征值问题进行了数值求解。系统的稳定性取决于无量纲内部热源强度Ns、磁性参数M1、磁化参数M3的非线性、耦合参数N1、自旋扩散参数N3和微电极热传导参数N5。结果表明,随着N1和N5的增加,二次转化的开始延迟,但随着M1、M3、N3和Ns的增加而加速二次转化。当M3、N1、N5和Ns增加而M1和N3减少时,共转化单元的尺寸增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Penetrative Bénard-Marangoni Convection in a Micropolar Ferrofluid Layer via Internal Heating and Submitted to a Robin Thermal Boundary Conditions
Penetrative Benard-Maranagoni convection in micropolar ferromagnetic fluid layer in the presence of a uniform vertical magnetic field has been investigated via internal heating model. The lower boundary is considered to be rigid at constant temperature, while the upper boundary free open to the atmosphere is flat and subject to a convective surface boundary condition. The resulting eigenvalue problem is solved numerically by Galerkin method. The stability of the system is found to be dependent on the dimensionless internal heat source strength Ns, magnetic parameter M1, the non-linearity of magnetization parameter M3, coupling parameter N1, spin diffusion parameter N3 and micropolar heat conduction parameter N5. The results show that the onset of ferroconvection is delayed with an increase in N1 and N5 but hastens the onset of ferroconvection with an increase in M1, M3, N3 and Ns. The dimension of ferroconvection cells increases when there is an increase in M3, N1, N5 and Ns and decrease in M1 and N3.
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