A recirculating flow studied by three colour particle image velocimetry

20th International Congress on Instrumentation in Aerospace Simulation Facilities, 2003. ICIASF '03. Pub Date : 2003-08-25 DOI:10.1109/ICIASF.2003.1274872

S. de Ponte, S. Malavasi, C. Svelto, G. Matteazzi

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引用次数: 2

Abstract

In the last ICIASF conference a novel particle image velocimetry (PIV) system using two different time intervals by means of three colour flashes was presented. The system was jointly developed for the aerospace, hydraulics and electronic departments of "Politecnico di Milano", for the study of water flow and for the water tunnel simulation of aerodynamic phenomena. Here an improved three colour PIV system version is tested on a fundamental physical model. In this test we study the flow field around an obstacle normal to the free-stream direction. The phenomenon modelled is a water stream flowing over a sill, were we have both upstream and downstream recirculation and large velocity gradient. By using two different time intervals three velocity fields were obtained by applying the cross-correlation algorithm on the same image. This information was used to solve the whole velocity field with a more uniform distribution of the uncertainty of velocity measurement. The latter is mainly due to the displacement of the particles, therefore it was possible to choose the best one, having three different possibilities. Moreover different and close time delay allowed the evaluation of local rate of change of velocity which was computed using a first-order differencing scheme.

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用三色粒子图像测速法研究了一个循环流

在去年的ICIASF会议上，提出了一种采用三色闪烁的两种不同时间间隔的粒子图像测速(PIV)系统。该系统是为“米兰理工大学”的航空航天、液压和电子部门联合开发的，用于研究水流和空气动力学现象的水洞模拟。在这里，改进的三色PIV系统版本在基本物理模型上进行了测试。在这个实验中，我们研究了垂直于自由流动方向的障碍物周围的流场。所模拟的现象是在上游和下游都有再循环和大速度梯度的情况下，水流流过一个窗台。通过两个不同的时间间隔，在同一幅图像上应用互相关算法得到三个速度场。利用该信息求解整个速度场，速度测量的不确定度分布更加均匀。后者主要是由于粒子的位移，因此有可能选择最好的一个，有三种不同的可能性。此外，不同和相近的时间延迟使得用一阶差分格式计算局部速度变化率成为可能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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20th International Congress on Instrumentation in Aerospace Simulation Facilities, 2003. ICIASF '03.

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