A new system for large-scale tomographic particle image velocimetry in low-speed wind tunnels is presented. The system relies upon the use of sub-millimetre helium-filled soap bubbles as flow tracers, which scatter light with intensity several orders of magnitude higher than micron-sized droplets. With respect to a single bubble generator, the system increases the rate of bubbles emission by means of transient accumulation and rapid release. The governing parameters of the system are identified and discussed, namely the bubbles production rate, the accumulation and release times, the size of the bubble injector and its location with respect to the wind tunnel contraction. The relations between the above parameters, the resulting spatial concentration of tracers and measurement of dynamic spatial range are obtained and discussed. Large-scale experiments are carried out in a large low-speed wind tunnel with 2.85 x 2.85 m(2) test section, where a vertical axis wind turbine of 1 m diameter is operated. Time-resolved tomographic PIV measurements are taken over a measurement volume of 40 x 20 x 15 cm(3), allowing the quantitative analysis of the tip-vortex structure and dynamical evolution.
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机译:提出了一种新的低速风洞层析X射线层析成像系统。该系统依赖于使用亚毫米氦填充的肥皂泡作为流动示踪剂,其散射光的强度比微米大小的液滴高出几个数量级。对于单个气泡发生器,该系统通过瞬态累积和快速释放来提高气泡发射速率。确定并讨论了系统的控制参数,即气泡产生速率,累积和释放时间,气泡喷射器的尺寸及其相对于风洞收缩的位置。获得并讨论了上述参数之间的关系,所得到的示踪剂的空间集中度和动态空间范围的测量值。在具有2.85 x 2.85 m(2)测试段的大型低速风洞中进行了大规模实验,其中运行着直径为1 m的垂直轴风力涡轮机。时间分辨层析PIV测量是在40 x 20 x 15 cm(3)的测量体积上进行的,从而可以对尖端涡结构和动力学演化进行定量分析。
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