Quantification of braking particles emission by PIV analysis — Application on railway

IF 3.8 Q2 ENVIRONMENTAL SCIENCES Atmospheric Environment: X Pub Date : 2024-11-23 DOI:10.1016/j.aeaoa.2024.100306

Matthieu Ems , Damien Méresse , Jérémy Basley , Marc Lippert , David Boussemart , Laurent Keirsbulck , Laurent Dubar , Karine Pajot

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Abstract

The work focuses on particle trajectories from a railway braking device. We have developed an experimental method based on Particle Image Velocimetry analysis to evaluate the dispersion of the particulate matter. The motion of a train is simulated with an airflow imposed in a wind tunnel and a reduced-scale braking bench is embedded in the test section. The particle motion can be observed using a laser sheet in the rubbing contact plane. Images are recorded with cameras synchronized with braking bench measurements such as braking pressure, disc and pad temperature, sliding speed. The results demonstrate some correlation with particle counters and the stages of braking events regarding the concentration. They highlight opposing effects of the flow induced by the disc and by the wind tunnel. The particle motions are initially dominated by the disc induced airflow until they leave the boundary layer. The induced airflow becomes dominant.

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通过 PIV 分析对制动颗粒排放进行量化 - 在铁路上的应用

这项工作的重点是铁路制动装置产生的颗粒轨迹。我们开发了一种基于粒子图像测速仪分析的实验方法，用于评估颗粒物质的分散情况。我们在风洞中用气流模拟火车的运动，并在试验段中嵌入一个缩小比例的制动台。在摩擦接触面上使用激光片可以观察到颗粒的运动。使用与制动台测量（如制动压力、制动盘和制动片温度、滑动速度）同步的相机记录图像。结果表明，颗粒计数器和制动事件的阶段与浓度有一定的相关性。它们突出显示了制动盘和风洞引起的流动所产生的相反效果。颗粒运动最初由制动盘诱导气流主导，直到它们离开边界层。诱导气流成为主导。

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