The interaction between turbulent separation bubble breathing and wall pressure on a 2D wing

IF 2.3 3区 工程技术 Q2 ENGINEERING, MECHANICAL
Sen Wang, Bradley Gibeau, Sina Ghaemi
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Abstract

This investigation characterized the relation between the breathing motion and wall-pressure fluctuations for a turbulent separation upstream of the trailing edge of a two-dimensional wing with NACA 4418 profile. The experiments were conducted at a freestream velocity U = 10.2 m/s with a turbulent intensity of 0.4%. The wing had an aspect ratio of 1.2 and an angle of attack of 9.7°. The corresponding chord-based Reynolds number was 620,000. The measurements consisted of simultaneously acquired wall-pressure measurements at various streamwise locations and time-resolved particle image velocimetry (PIV) in a streamwise-wall-normal plane. Both measurements showed unsteadiness related to the breathing motion at low Strouhal number Stl ≈ 0.05. Here, Stl is defined based on the characteristic length, l, of the mean turbulent separation bubble (TSB). Cross-correlation between the measured wall pressures at different streamwise locations revealed that the breathing motion propagated at approximately 0.8U downstream of the mean detachment (MD) point. The breathing motion was observed to establish a stronger correlation with the low-frequency wall-pressure fluctuations in the low-intermittency regions as opposed to the high-intermittency regions. Spectral proper orthogonal decomposition was performed using the combined PIV velocity fields and wall-pressure measurements. The results revealed that the expansion (or contraction) of TSB preceded a reduction (or increase) in wall pressure measured upstream of MD and an increase (or reduction) in wall pressure measured downstream of MD. The findings align with the fact that TSB expansion occurs when local adverse pressure gradient (APG) increases, whereas contraction corresponds to a decrease in APG.

Abstract Image

Abstract Image

二维机翼上湍流分离气泡呼吸与壁压之间的相互作用
这项研究描述了 NACA 4418 型二维机翼后缘上游湍流分离时呼吸运动与壁压波动之间的关系。实验在自由流速度 U∞ = 10.2 米/秒、湍流强度为 0.4% 的条件下进行。机翼的长宽比为 1.2,攻角为 9.7°。相应的基于弦线的雷诺数为 620,000 。测量包括在不同流向位置同时获取壁压测量值,以及在流向-壁面-法线平面上进行时间分辨粒子图像测速(PIV)。这两项测量结果表明,当斯特劳哈尔数 Stl ≈ 0.05 时,呼吸运动会产生不稳定性。这里的 Stl 是根据平均湍流分离气泡(TSB)的特征长度 l 来定义的。不同流向位置测得的壁压之间的交叉相关性表明,呼吸运动在平均分离(MD)点下游约 0.8U∞ 处传播。与高间歇区相比,呼吸运动与低间歇区的低频壁压波动具有更强的相关性。利用综合 PIV 速度场和壁压测量值进行了频谱正交分解。结果表明,在 MD 上游测得的壁压降低(或升高)和 MD 下游测得的壁压升高(或降低)之前,TSB 会膨胀(或收缩)。这些发现与 TSB 在局部不利压力梯度(APG)增加时扩张,而在 APG 降低时收缩这一事实相吻合。
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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来源期刊
Experiments in Fluids
Experiments in Fluids 工程技术-工程:机械
CiteScore
5.10
自引率
12.50%
发文量
157
审稿时长
3.8 months
期刊介绍: Experiments in Fluids examines the advancement, extension, and improvement of new techniques of flow measurement. The journal also publishes contributions that employ existing experimental techniques to gain an understanding of the underlying flow physics in the areas of turbulence, aerodynamics, hydrodynamics, convective heat transfer, combustion, turbomachinery, multi-phase flows, and chemical, biological and geological flows. In addition, readers will find papers that report on investigations combining experimental and analytical/numerical approaches.
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