介质阻挡放电(DBD)等离子体作动器定常和非定常驱动下NACA 4415翼型周围流动控制

2022 International Conference on Electrical and Computing Technologies and Applications (ICECTA) Pub Date : 2022-11-23 DOI:10.1109/ICECTA57148.2022.9990080

H. Mitsudharmadi, Y. Bouremel

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引用次数: 0

摘要

采用光谱研究方法研究了介电阻挡放电(DBD)等离子体对NACA 4415型10°迎角和12800雷诺数尾迹旋涡脱落的稳态和非稳态控制效果。流向和法向波动速度分量(分别为$\text{u}^{\prime}$和$\text{v}^{\prime}$)的谱显示它们的功率谱密度大大降低。这种主动流动控制有助于边界层中的低动量流体克服逆压梯度的不利影响，控制翼型吸力面的流动分离。频谱研究结果表明，涡脱落是由所使用的占空比$(f_{\text{d}\text{c}})$控制的。这一结果显示了DBD等离子体非定常驱动作为主动流动控制的潜在应用。

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Flow control around the NACA 4415 airfoil by steady and unsteady actuations of Dielectric Barrier Discharge (DBD) plasma actuator

Spectral study was conducted to investigate the outcome of steady and unsteady actuations of dielectric barrier discharge (DBD) plasma as an active flow control for vortex shedding in the wake of the NACA 4415 airfoil with a 10° angle of attack and Reynolds number of 12,800. The spectra of both streamwise and normal fluctuating velocity components ($\text{u}^{\prime}$ and $\text{v}^{\prime}$ respectively) show that their power spectral densities are greatly diminished. This active flow control helps the low momentum fluid in the boundary layer to overcome the unfavorable effect of the adverse pressure gradient and control flow separation on the suction surface of the airfoil. The spectral study results reveal that the vortex shedding is controlled by the duty cycle frequency $(f_{\text{d}\text{c}})$ used. This result demonstrates a potential application of unsteady actuation of DBD plasma as an active flow control.

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2022 International Conference on Electrical and Computing Technologies and Applications (ICECTA)

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