This paper reports an experimental investigation of the vortical structures in the pharynx/larynx region of an idealised human extra-thoracic airway obtained using particle image velocimetry (PIV). The inlet velocity was 0.13 m/s yielding a Reynolds number, based on the inlet condition, of 670. Two thousand imageswere acquired at each location at a framing rate of 2 Hz. The proper orthogonal decomposition method was applied to the PIV data. Only a few modes were used for POD reconstruction which recovered about 60 % of the turbulent kinetic energy. A vortex identification algorithm was employed to identify and measure properties of the structures. This step was followed by a statistical analysis of the distribution of number, size, and strength of these vortices. The results reveal the formation of a large number of structures identified along two planes in the pharynx/larynx region. This study also revealed an increased strength in the counter-clockwise structures as compared to clockwise structures in the pharynx region. As well, there is some evidence to suggest that the vortical structures, whose axes are perpendicular to the sagittal plane, change their orientation as they proceed further into the laryngeal region.
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机译:本文报道了使用粒子图像测速仪(PIV)获得的理想化人胸外气道咽/喉区旋涡结构的实验研究。入口速度为0.13 m / s,根据入口条件得出的雷诺数为670。在每个位置以2 Hz的帧频采集了两千张图像。将适当的正交分解方法应用于PIV数据。 POD重建仅使用了几种模式,该模式回收了约60%的湍动能。使用涡旋识别算法来识别和测量结构的特性。此步骤之后是对这些旋涡的数量,大小和强度分布的统计分析。结果揭示了在咽/喉区域中沿着两个平面识别的大量结构的形成。这项研究还表明,与咽部区域的顺时针结构相比,逆时针结构的强度有所增加。同样,有一些证据表明,其轴垂直于矢状面的涡旋结构随着它们进一步进入喉部区域而改变了它们的方向。
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