Synthetic jet actuator with two opposite diaphragms

Q3 Engineering Mechanics and Mechanical Engineering Pub Date : 2020-09-01 DOI:10.2478/mme-2020-0004

E. Smyk, S. Wawrzyniak, K. Peszyński

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引用次数: 10

Abstract

Abstract The synthetic jet actuators are one of the most investigated types of actuators used in heat transfer and active flow control. The energetic efficiency of actuators is a key parameter determining the possibility of device use. The actuators with two or more diaphragms have higher efficiency than the actuators with only one. The paper presents the investigations of the acoustic synthetic jet actuator with two opposite diaphragms. In the paper, synthetic jet velocity, Reynolds number and the energetic efficiency as a function of oscillating actuator frequency, for a different cavity, orifice configuration and one real input power P0 = 2 W were studied. The possibility of theoretical calculation of first and second resonance frequency were checked. The coupling ratio for actuators was calculated. The maximum energetic efficiency was η = 8.67% and Reynolds number Re = 8503. The possibility of using the same dependencies and rules during the design of actuators with two opposite diaphragms as in the case of actuators with one diaphragm was demonstrated. The results may be useful in the design of the actuators of the two membranes.

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具有两个相对隔膜的合成射流致动器

摘要合成射流执行器是目前研究最多的用于传热和主动流动控制的执行器之一。执行器的能量效率是决定装置使用可能性的关键参数。具有两个或多个膜片的执行器比只有一个膜片的执行器效率更高。本文研究了双相对膜片声合成射流作动器。本文研究了不同腔型、孔型和实际输入功率P0 = 2w时，合成射流速度、雷诺数和能量效率随执行器振荡频率的变化规律。验证了理论计算第一共振频率和第二共振频率的可能性。计算了各作动器的耦合比。最大能效率η = 8.67%，雷诺数Re = 8503。演示了在设计具有两个相反膜片的执行器时使用与具有一个膜片的执行器相同的依赖关系和规则的可能性。研究结果可为两种膜的致动器的设计提供参考。

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Mechanics and Mechanical Engineering Engineering-Automotive Engineering

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