Turbulent/non-turbulent interface of the turbulent boundary-layer over a spanwise-heterogeneous converging/diverging riblets rough wall

IF 1.3 4区 工程技术 Q3 MECHANICS Fluid Dynamics Research Pub Date : 2024-03-05 DOI:10.1088/1873-7005/ad2b74
Jianda Huang, Honglei Bai
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Abstract

Turbulent boundary layer (TBL) flows over various spanwise-heterogeneous rough walls exhibit spanwise variations in turbulence statistics, implying modifications of the turbulent/non-turbulent interface (T/NTI). In this work, based on the datasets of TBL flows over a spanwise-alternating converging/diverging riblets wall, we investigate behavior of T/NTI, properties of ‘bubble’ and ‘drop’ that are associated with T/NTI, as well as connections between T/NTI and large-scale structures within the boundary layer. The flow datasets were obtained through stereoscopic particle image velocimetry measurements on the cross-stream plane of the TBL flow at a Reynolds number Reθ = 1.3 × 104. The T/NTI and associated ‘bubble’ and ‘drop’ are identified using a kinetic energy criterion, while the large-scale structures by a streak detection algorithm. It is observed that the T/NTI height and the occurrence of ‘bubble’ and ‘drop’ display a spanwise-heterogeneous feature, with lower T/NTI height and higher occurrence probability of ‘bubble’ over the diverging section of riblets than over the converging section of riblets. Results of conditional average show that the ‘bubble’ is associated with positive streamwise fluctuations, common-down flow and a pair of counter-rotating streamwise vortices, while the ‘drop’ with negative streamwise fluctuation, common-up flow and a pair of counter-rotating streamwise vortices. Probability density functions of the ‘bubble’ size and fractal dimensions of the T/NTI are found similar for both the riblets and smooth wall flows. Furthermore, it is observed that the large-scale low-speed structures occurring preferentially over the converging section of riblets play a role in elevating T/NTI while the large-scale high-speed ones over the diverging section of riblets lowering down T/NTI.
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跨向均质收敛/发散波纹粗糙壁上湍流边界层的湍流/非湍流界面
流经各种跨向异质粗糙壁面的湍流边界层(TBL)在湍流统计上表现出跨向变化,这意味着湍流/非湍流界面(T/NTI)发生了变化。在这项研究中,我们基于在跨度交变的会聚/发散波纹壁上的 TBL 流数据集,研究了 T/NTI 的行为、与 T/NTI 相关的 "气泡 "和 "水滴 "的特性,以及 T/NTI 与边界层内大尺度结构之间的联系。流动数据集是通过对雷诺数 Reθ = 1.3 × 104 时 TBL 流动的横流平面进行立体粒子图像测速测量获得的。利用动能标准识别了 T/NTI 及相关的 "气泡 "和 "液滴",并利用条纹检测算法识别了大尺度结构。观察发现,T/NTI 高度以及 "气泡 "和 "水滴 "的出现呈现出跨度异质性特征,波纹发散段的 T/NTI 高度和 "气泡 "出现概率均低于波纹收敛段。条件平均结果表明,"气泡 "与正向流向波动、共同向下流动和一对反向旋转的流向漩涡有关,而 "水滴 "与负向流向波动、共同向上流动和一对反向旋转的流向漩涡有关。研究发现,波纹流和平滑壁流的 "气泡 "大小和 T/NTI 分形尺寸的概率密度函数相似。此外,研究还发现,在波纹汇聚段上优先出现的大尺度低速结构起到了提升 T/NTI 的作用,而在波纹发散段上出现的大尺度高速结构则降低了 T/NTI。
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来源期刊
Fluid Dynamics Research
Fluid Dynamics Research 物理-力学
CiteScore
2.90
自引率
6.70%
发文量
37
审稿时长
5 months
期刊介绍: Fluid Dynamics Research publishes original and creative works in all fields of fluid dynamics. The scope includes theoretical, numerical and experimental studies that contribute to the fundamental understanding and/or application of fluid phenomena.
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