二阶滑移对分数阶Maxwell MHD流体流动的影响

Yaqing Liu , Boling Guo
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引用次数: 36

摘要

考虑壁面与壁面流体之间的二阶滑移,研究了广义麦克斯韦流体在移动板作用下的磁流体动力学流动。采用分数阶演算方法建立了非牛顿流体模型的本构关系模型。利用拉普拉斯变换,得到了速度场和剪应力的Fox h函数精确解析解。对于无磁场的广义Maxwell二阶滑移模型、无滑移效应的广义Maxwell流的MHD流或一阶滑移模型的特殊情况,可以导出其解。此外,还详细分析和讨论了分数阶导数阶数、磁体力、滑移系数和功率指数对速度和剪应力的影响。结果表明:滑移条件下的流动速度小于无滑移条件下的流动速度,二次滑移条件下的流动速度小于一阶滑移条件下的流动速度;
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of second-order slip on the flow of a fractional Maxwell MHD fluid

The magnetohydrodynamic (MHD) flow of a generalized Maxwell fluid induced by a moving plate has been investigated, where the second-order slip between the wall and the fluid in the wall is considered. The fractional calculus approach is used to establish the constitutive relationship model of the non-Newtonian fluid model. Exact analytical solutions for the velocity field and shear stress in terms of Fox H-function are obtained by means of the Laplace transform. The solutions for the generalized Maxwell second-order slip model without magnetic field, the MHD flow of generalized Maxwell flow without slip effects or first-order slip model can be derived as the special cases. Furthermore, the influence of the order of fractional derivative, the magnetic body force, the slip coefficients and power index on the velocity and shear stress are analyzed and discussed in detail. The results show that the velocity corresponding to flows with slip condition is lower than that for flow with non-slip conditions, and the velocity with second-slip condition is lower than that with first-order slip condition.

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