波浪面对Taylor-Couette系统水动力不稳定性影响的实验研究

Lamia Gaied, M. Lippert, L. Keirsbulck, F. Aloui, Emna Berrich
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引用次数: 0

摘要

在这项工作中,我们提出了一个实验研究的影响表面粗糙度的内缸库埃特-泰勒系统,以探讨流动的流体动力不稳定性。实验中,内筒表面粗糙,呈u形圆柱波纹,以给定角速度旋转,外筒光滑,保持固定。研究的主要目的是证明几何参数对流动的影响(粗糙度的形状)。实验结果表明,表面不规则性的形状对第一不稳定性的出现有影响,这在很大程度上取决于粗糙度的大小、形状和性质。事实上,表面粗糙度的性质不仅会影响壁面上的摩擦,而且还会强烈影响给定流动状态下质量和动量的传递。因此,当内部(旋转)圆筒表面粗糙时,流动会引起更多的摩擦。这种摩擦会减慢流体颗粒的速度,很大程度上取决于与流体接触的表面性质。因此,这些不规则颗粒的运动将作为粗糙度形状的函数而受到抑制。此外,研究结果还表明,一旦存在Couette-Taylor涡,表面粗糙度会促进持续的流动扰动。由此产生的流动在表面不规则的槽中变得不那么缓慢;因此,导致较少的摩擦。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Investigations on the Effect of a Wavy Surface on Hydrodynamic Instabilities in a Taylor-Couette System
In this work, we propose an experimental study of the effect of surface roughness of the internal cylinder Couette-Taylor system in order to investigate the hydrodynamic instabilities of the flow. During experiments, the inner cylinder, which presents a rough surface with u cylinder corrugations, rotates at a given angular speed and the outer cylinder, which is smooth, is kept fixed. The main objective of the study is to demonstrate the effect of geometric parameters on the flow (the shape of the roughness). Experimental results have shown that the shapes of the surface irregularities have an effect on the appearance of the first instabilities, which strongly depend on the size, shape and nature of the roughness. In fact, the nature of surface roughness not only affects the friction on the wall, but also strongly influences the transport of mass and momentum in a given flow regime. The flow therefore evokes more friction when the inner (rotating) cylinder has a rough surface. This friction, which slows the speed of the fluid particles, strongly depends on the surface nature in contact with the fluid. The movement of the particles in these irregularities will therefore, be damped as a function of the shape of the roughness. In addition, the results also showed that once Couette-Taylor vortices are present, surface roughness can promote continued flow disturbance. The resulting flow then becomes less slow in the troughs of surface irregularities; thus, leads to less friction.
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