打破对称的流向均质表面引起的净跨向流动

IF 3.6 2区 工程技术 Q1 MECHANICS
Oleksandr Zhdanov, Angela Busse
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引用次数: 0

摘要

通过直接数值模拟,研究了脊型粗糙度的对称破坏效应对湍流河道中次级流的影响。水脊的横截面为三角形,横截面从等腰三角形到直角三角形有系统地变化,从而在保持水脊表面流向均匀性的同时,引入了水脊侧表面斜率的不平衡。在所有情况下,都会产生次级电流涡流,但不对称的脊横截面会打破这些涡流的对称性。由于不对称引起的二次流涡的错位和不平衡,出现了净跨向流。跨向流的大小随脊侧表面斜率的增加而增加,并显著改变了平均流拓扑结构,导致直角三角形脊形状的临界点合并。在空腔内部,净跨向流伴随着非零的平均跨向压力梯度,而从外部流的角度来看,斜边脊表面具有类似于在跨向缓慢移动的壁面的效果。总之,目前的结果表明存在一种特殊的第二类普朗特次级流,即导致净跨向流动的次级流。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Net spanwise flow induced by symmetry-breaking streamwise homogeneous surfaces
The influence of symmetry-breaking effects of ridge-type roughness on secondary currents in turbulent channel flow is investigated using direct numerical simulations. The ridges have triangular cross-section, which is systematically varied from isosceles to right-angled triangle, introducing an imbalance to the slopes of the ridges’ lateral surfaces while the streamwise homogeneity of the surfaces is maintained. In all cases, secondary current vortices are produced, but asymmetric ridge cross-sections break the symmetry of these vortices. As a result of the asymmetry-induced misalignment and imbalance in the secondary current vortices, net spanwise flow emerges. The magnitude of the spanwise flow increases with the slope ratio of the ridge lateral surfaces and significantly modifies the mean flow topology, leading to the merging of critical points in the case of the right-angled triangular ridge shape. Within the cavities, the net spanwise flow is accompanied by a non-zero mean spanwise pressure gradient, while from the perspective of the outer flow, the scalene ridge surfaces have a similar effect as a wall that is slowly moving in the spanwise direction. Overall, the present results suggest the existence of a special type of Prandtl's secondary currents of the second kind, namely those that result in net spanwise flow.
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来源期刊
CiteScore
6.50
自引率
27.00%
发文量
945
审稿时长
5.1 months
期刊介绍: Journal of Fluid Mechanics is the leading international journal in the field and is essential reading for all those concerned with developments in fluid mechanics. It publishes authoritative articles covering theoretical, computational and experimental investigations of all aspects of the mechanics of fluids. Each issue contains papers on both the fundamental aspects of fluid mechanics, and their applications to other fields such as aeronautics, astrophysics, biology, chemical and mechanical engineering, hydraulics, meteorology, oceanography, geology, acoustics and combustion.
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