Lattice Boltzmann modeling of backward-facing step flow controlled by a synthetic jet

IF 2.5 3区 工程技术
Tian-yang Lu, Hai-bao Hu, Jian Song, Fan Zhang, Heng Zhang, Zhen-lin Xie, Feng Ren
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引用次数: 0

Abstract

This article investigates the effect of a synthetic jet (SJ) on the flow over a backward-facing step (BFS) in the weakly turbulent flow regime using the lattice Boltzmann method. The SJ operates with various momentum coefficients Cμ and forcing frequencies f *jet . As Cμ increases, the reattachment length decreases, whereas increasing f *jet causes the reattachment length at first decrease and then increase. A minimum reattachment length appears at Cμ = 0.3125, f *jet = 1.6, corresponding to a 40% reduction compared with the uncontrolled case. Two mechanisms for the mediated flow are found: (1) A suitable control frequency leads to a lock-on state that prompts vertical momentum transfer and laminarizes the flow near the separation point, (2) Regular vortices emerge after wall reattachment in controlled cases. Fast Fourier and wavelet transform of the velocity near the separation point reveal that the monitored frequency becomes locked-on when f *jet > 1.6, making the flow quasi-periodic and dramatically reducing the reattachment length. Turbulent kinetic energy spectra indicate that the monitored frequencies are dominated by the forcing frequency and that active control laminarizes the local flow. Proper orthogonal decomposition is used to extract coherent structures at multiple scales. In the dominant mode, reattaching wake vortices are regulated by active control. In the second mode, irregular wake vortices emerge after f *jet = 2, which attenuates the SJ forcing and increases the reattachment length. This study provides insights on typical flows past a BFS and will shed more light on the design of closed-loop control strategies for separation flows.

合成射流控制后向台阶流的格子Boltzmann模型
本文用格子Boltzmann方法研究了弱湍流状态下合成射流(SJ)对后向台阶(BFS)流动的影响。SJ在不同的动量系数Cμ和强迫频率f*射流下运行。随着Cμ的增加,再附着长度减小,而f*射流的增加导致再附着长度先减小后增大。最小再附着长度出现在Cμ=0.3125,f*jet=1.6处,与未控制的情况相比减少了40%。发现了介导流动的两种机制:(1)适当的控制频率会导致锁定状态,从而促进垂直动量转移并使分离点附近的流动分层;(2)在受控情况下,壁重新附着后会出现规则的涡流。分离点附近速度的快速傅立叶和小波变换表明,当f*jet>;1.6,使流动具有准周期性,并显著减少了再附着长度。湍流动能谱表明,监测的频率由强迫频率主导,主动控制使局部流动分层。适当的正交分解用于提取多尺度上的相干结构。在主导模式下,重新附着的尾流旋涡由主动控制调节。在第二种模式中,在f*jet=2之后出现不规则尾流旋涡,这减弱了SJ作用力并增加了再附长度。这项研究提供了通过BFS的典型流动的见解,并将为分离流闭环控制策略的设计提供更多的启示。
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
自引率
12.00%
发文量
2374
审稿时长
4.6 months
期刊介绍: Journal of Hydrodynamics is devoted to the publication of original theoretical, computational and experimental contributions to the all aspects of hydrodynamics. It covers advances in the naval architecture and ocean engineering, marine and ocean engineering, environmental engineering, water conservancy and hydropower engineering, energy exploration, chemical engineering, biological and biomedical engineering etc.
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