Application of Particle Image Velocimetry (PIV) for Measuring Water Velocity in Laboratory Sedimentation Tank

IRA-International Journal of Technology & Engineering Pub Date : 2017-12-29 DOI:10.21013/JTE.V9.N3.P1

K. Kuok, P. Chiu

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引用次数: 4

Abstract

Over the past three decades, Particle Image Velocimetry (PIV), fundamentally based on pattern matching principles, has seen a rapid growth in its usage as a flow measurement technique. PIV is a ‘digital’ tracking process to measure the time taken for water to move from one point to the other. The particle displacements can be ascertained by measuring the movement of the fluid of interest from the images captured by a camera. In this study, PIV is employed to measure surface flow velocity. The flow velocity was obtained by analyzing the series of captured images using MatPIV codes. The experiment was carried out at Swinburne Sarawak Fluid Lab. Digital SLR camera model used is Nikon D40X which is capable of taking 5 frames per second. Various tracer particles were used for the experiments include food dye, beads and ping pong balls. The experiments were conducted in a SOLTEQ Sedimentation Tank. Through the implementation of a standardized correction factor, the corrected PIV velocity has an error margin less than 5% which is deemed to be fairly accurate. The PIV velocity (V piv ) results showed to be in good agreement with the actual velocity (V actual ).

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粒子图像测速法(PIV)在实验室沉淀池流速测量中的应用

在过去的三十年里，基于模式匹配原理的粒子图像测速技术(PIV)作为一种流量测量技术得到了迅速的发展。PIV是一种“数字”跟踪过程，用于测量水从一个点移动到另一个点所需的时间。通过测量摄像机拍摄的图像中感兴趣的流体的运动，可以确定颗粒位移。在本研究中，PIV被用于测量表面流速。利用MatPIV编码对采集的一系列图像进行分析，得到流速。实验是在斯威本沙捞越流体实验室进行的。使用的数码单反相机型号为尼康D40X，每秒可拍摄5帧。实验中使用了各种示踪颗粒，包括食用染料、珠子和乒乓球。实验在SOLTEQ沉淀池中进行。通过标准化校正系数的实施，校正后的PIV速度误差小于5%，认为是相当准确的。PIV速度(V PIV)结果与实际速度(V actual)吻合较好。

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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IRA-International Journal of Technology & Engineering

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