基于粒子图像测速的二维仿水母扑翼涡动力学研究

Research on the vortex dynamics of two-dimensional jellyfish-like flapping wings based on particle image velocimetry

  • 摘要: 仿水母扑翼飞行器是一种新型的微型飞行器构型,具有噪声小、灵活机动等特点。本文以定轴往复转动的一对二维平板作为仿水母扑翼的简化模型,采用时间解析的粒子图像测速技术测量了静水中二维扑翼的扰动流场。通过控制舵机改变扑翼拍动周期和拍动角度幅值,研究了扑翼运动参数对流场旋涡特性和演化规律的影响;采用相位平均和环量追踪技术,分析了旋涡生成、脱落及相互作用的演化过程;从涡动力学角度解释了推力形成机理。研究结果对仿水母扑翼飞行器设计具有一定参考意义。

     

    Abstract: As a new type of micro aircraft configuration, the jellyfish-like flying aircraft has the advantages of low noise and flexible maneuvering, which has attracted the attention of the academic community. In this paper, a pair of two-dimensional plates rotating around fixed axes is used as a simplified model of jellyfish-like flapping wings. The disturbed flow fields in static water are measured by the time-resolved particle image velocimetry. By controlling the frequency and angular amplitude of the flapping motion, the influence of the motion parameters on the vortex characteristics and evolution law is studied. The vortex generation, shedding, and interaction processes are analyzed by using the phase average method and the circulation tracking technique. The forming mechanism of thrust is explained from the perspective of vortex dynamics. The experimental results provide certain references for the design of the jellyfish-like flying machines.

     

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