扇形介质阻挡放电等离子体致动器的时空演变规律

Pub Date : 2024-10-01 DOI:10.1088/2058-6272/ad5d4f
Borui ZHENG, Jianbo ZHANG, Shaojie QI, Jianghua XU, Yiche LI, Yuanzhong JIN, Dongliang BIAN
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引用次数: 0

摘要

介质阻挡放电(DBD)等离子体致动器因其设计简单、反应迅速而被广泛应用于主动流量控制领域。然而,它们需要更高的有效性和放电扩展性。为了克服这些局限性,我们开发了一种喷射角度可调的扇形介质阻挡放电(SS-DBD)等离子体致动器,以提高流量控制效果。利用粒子图像测速仪(PIV)对 SS-DBD 等离子致动器诱导的流场动力学进行了定量分析。实验研究表明,精确调节致动电压可以调节诱导射流的最大速度。此外,SS-DBD 的扇形角与偏转射流角之间建立了准线性关系,表明扇形角的变化直接影响偏转射流的方向。这种相关性实现了对射流角度的精确控制,通过调整 SS-DBD-PA 的扇形角大大增强了流量控制能力。
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Spatiotemporal evolution laws of sector-shaped dielectric-barrier-discharge plasma actuator
Dielectric barrier discharge (DBD) plasma actuators are widely used in active flow control due to their simple design and rapid responsiveness. However, they need more effectiveness and discharge extension. To overcome these limitations, a sector-shaped dielectric barrier discharge (SS-DBD) plasma actuator with an adjustable jet angle was developed to enhance flow control effectiveness. The flow field dynamics induced by the SS-DBD plasma actuator were quantitatively analyzed using particle image velocimetry (PIV). Experimental investigations showed that precise adjustments to the actuation voltage can modulate the maximum velocity of the induced jet. Furthermore, a quasi-linear relationship between the sector-shaped angles of the SS-DBD and the deflected jet angles was established, indicating that changes in the sector-shaped angles directly influence the direction of the deflected jet. This correlation enables precise control over jet angles, significantly enhancing flow control by adjusting the SS-DBD-PA’s sector-shaped angle.
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