自由表面湍流中凹陷和疤痕下的涡旋结构

Jørgen R. Aarnes, Omer Babiker, Anqing Xuan, Lian Shen, Simen Å. Ellingsen
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引用次数: 0

摘要

自由表面下的湍流会在表面留下特征性的长效痕迹,例如上涌的 "疖子"、近圆形的 "凹陷 "和拉长的 "疤痕",这些痕迹很容易用肉眼识别,例如在河流中。在本文中,我们使用直接数值模拟来探索这些表面特征与底层涡旋结构之间的联系。我们通过分析表面特征下的点位于涡核内的条件概率以及子特征涡度的倾角,研究了已知的表面附着涡的印记 "丘疹 "和尚未被广泛研究的 "疤痕"。分析表明,受凹陷大小和体层湍流的影响,凹陷下方出现涡旋的概率从表面向下穿过粘性层和阻塞层,以近似高斯的方式递减。当表示为泰勒微尺度 $\lambda_T$ 上深度的函数时,该概率与雷诺数和韦伯数无关。相反,在疤痕下面发现涡旋的概率从表面急剧增加到粘性层边缘的峰值,深度大约为 $\lambda_T/4$。涡旋方向的分布也显示出一种明显的模式:在凹陷下面强烈倾向于垂直排列,而在疤痕下面同样强烈倾向于水平排列。我们的研究结果表明,疤痕可以被定义为表面下约四分之一泰勒微尺度的水平涡的印记,类似于凹坑可以被定义为表面附着的垂直涡管的印记。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vortex structures under dimples and scars in turbulent free-surface flows
Turbulence beneath a free surface leaves characteristic long-lived signatures on the surface, such as upwelling 'boils', near-circular 'dimples' and elongated 'scars', easily identifiable by eye, e.g., in riverine flows. In this paper, we use Direct Numerical Simulations to explore the connection between these surface signatures and the underlying vortical structures. We investigate dimples, known to be imprints of surface-attached vortices, and scars, which have yet to be extensively studied, by analysing the conditional probabilities that a point beneath a signature is within a vortex core as well as the inclination angles of sub-signature vorticity. The analysis shows that the likelihood of vortex presence beneath a dimple decreases from the surface down through the viscous and blockage layers in a near-Gaussian manner, influenced by the dimple's size and the bulk turbulence. When expressed as a function of depth over the Taylor microscale $\lambda_T$, this probability is independent of Reynolds and Weber number. Conversely, the probability of finding a vortex beneath a scar increases sharply from the surface to a peak at the edge of the viscous layer, at a depth of approximately $\lambda_T/4$. Distributions of vortical orientation also show a clear pattern: a strong preference for vertical alignment below dimples and an equally strong preference for horizontal alignment below scars. Our findings suggest that scars can be defined as imprints of horizontal vortices approximately a quarter of the Taylor microscale beneath the surface, analogous to how dimples can be defined as imprints of surface-attached vertical vortex tubes.
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