Analytical study of the Ekman angle for the Benard–Marangoni convective flow of viscous incompressible fluid

A. Gorshkov, E. Prosviryakov
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Abstract

The paper considers the convective flow of a viscous incompressible fluid over a rotating surface. It studies the angle between the fluid velocity vector in the upper layer and the temperature gradient vector on the free surface. For the study, an analytical solution to the Oberbeck–Boussinesq equations is constructed, which describes the stratified Ekman flow taking into account two components of the Coriolis force. The temperature gradient and the conditions of Marangoni thermocapillary convection are set at the upper (free) boundary, and the condition of fluid adhesion is set on the lower (solid) boundary. The representation of velocities in the form of linear functions of horizontal coordinates is used. It is shown that, when the flow depth tends to infinity, the angle between the upper layer fluid velocity vector and the temperature gradient vector tends to π/2 .
粘性不可压缩流体Benard-Marangoni对流的Ekman角分析研究
本文研究粘性不可压缩流体在旋转表面上的对流流动。它研究了上层流体速度矢量与自由表面温度梯度矢量之间的夹角。本文构造了考虑科里奥利力两个分量的分层Ekman流的Oberbeck-Boussinesq方程的解析解。温度梯度和Marangoni热毛细对流条件设置在上边界(自由),流体粘附条件设置在下边界(固体)。用水平坐标的线性函数表示速度。结果表明,当流动深度趋于无穷大时,上层流体速度矢量与温度梯度矢量之间的夹角趋于π/2。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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