Plasma Actuators Optimization Using Stair Shaped Dielectric Layers

F. Rodrigues, J. Marques, M. Trancossi
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引用次数: 1

Abstract

Plasma actuators are very simple devices which have been shown to be effective in a wide variety of applications, such as separation control, wake control, aircraft noise reduction, modification of velocity fluctuations and boundary layer control. More recently, it has been also proved their ability for applications within the heat transfer field, such as film cooling of turbine blades or ice accumulation prevention. These simple devices are inexpensive, present robustness, low weight and are fully electronic. Considering the importance of these devices, the improvement of their efficiency is a subject of great interest for worldwide scientific community. It is known that, by reducing the plasma actuator dielectric thickness, the induced flow velocity increases. However, it is also known that, thin plasma actuators present short lifetime and quick dielectric layer degradation. Till now, only actuators with constant dielectric thickness have been studied. In the present work, a new concept of plasma actuator is studied: The stair shaped dielectric barrier discharge plasma actuator. This new device present a dielectric layer which provides a decrease of the dielectric thickness along the covered electrode width. This lead to an extended plasma discharge and an increase of the induced flow velocity and efficiency. In addition, the plasma discharge is weakened on the onset of plasma formation which prevents the quick degradation of the dielectric layer and leads to an increased actuator lifetime.
利用阶梯状介质层优化等离子体致动器
等离子体致动器是一种非常简单的装置,在分离控制、尾流控制、飞机降噪、速度波动修正和边界层控制等方面都有广泛的应用。最近,它也证明了它们在传热领域的应用能力,如涡轮叶片的膜冷却或积冰预防。这些简单的装置价格低廉,坚固耐用,重量轻,而且完全电子化。考虑到这些装置的重要性,提高它们的效率是全世界科学界非常感兴趣的课题。我们知道,通过减小等离子体作动器的介电厚度,诱导流速增大。然而,我们也知道,薄等离子体致动器存在寿命短和介质层退化快的问题。到目前为止,只对介电厚度恒定的作动器进行了研究。本文研究了一种新的等离子体作动器概念:阶梯状介质阻挡放电等离子体作动器。这种新装置呈现一个介电层,它提供沿覆盖电极宽度的介电厚度的减少。这导致了等离子体放电的延长和诱导流速度和效率的增加。此外,等离子体放电在等离子体形成时减弱,这阻止了介电层的快速降解并导致执行器寿命的增加。
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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