Piezoelectric fans have been studied extensively and are seen as a promising technology for thermal management due to their ability to provide quiet, reliable cooling with low power consumption. The fluid mechanics of an unconfined piezoelectric fan are complex which is why the majority of the literature to date confines the fan in an attempt to simplify the flow field. This paper investigates the fluid mechanics of an unconfined fan operating in its first vibration frequency mode. The piezoelectric fan used in this study measures 12.7mm x 70mm and resonates at 92.5Hz in air. A custom built experimental facility was developed to capture the fan's flow field using phase locked Particle Image Velocimetry (PIV). The phase locked PIV results are presented in terms of vorticity and show the formation of a horse shoe vortex. A three dimensional λ_2 criterion constructed from interpolated PIV measurements was used to identify the vortex core in the vicinity of the fan. This analysis was used to clearly identify the formation of a horse shoe vortex that turns into a hairpin vortex before it breaks up due to a combination of vortex shedding and flow along the fan blade. The results presented in this paper contribute to both the fluid dynamics and heat transfer literature concerning first mode fan oscillation.
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机译:压电风扇已被广泛研究,并且被视为热管理的有希望的技术,因为它们提供了具有低功耗的安静,可靠的冷却。不包含束缚的压电风扇的流体力学是复杂的,这就是为什么大多数文献迄今为止限制了风扇,以便简化流场。本文研究了在其第一振动频率模式下运行的无凝结风扇的流体力学。本研究中使用的压电风扇衡量12.7mm x 70mm,并在空气中以92.5Hz谐振。开发了一种定制的实验设施,以使用相位锁定的粒子图像VELOCIMETRY(PIV)捕获风扇的流场。阶段锁定的PIV结果以涡旋性呈现,并显示出马鞋涡旋的形成。由内插PIV测量构成的三维λ_2标准用于识别风扇附近的涡旋芯。该分析用于清楚地识别马蹄形涡旋的形成,该马蹄形涡旋中变成发夹涡流,然后由于涡流脱落和沿着风扇叶片的流量的组合而发生故障。本文提出的结果有助于第一模式风扇振荡的流体动力学和传热文献。
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