Dynamic Wall Shear Stress Measurement using Event-based 3D Particle Tracking

arXiv - PHYS - Fluid Dynamics Pub Date : 2024-09-03 DOI:arxiv-2409.01757

Christian E. Willert, Joachim Klinner

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Abstract

We describe the implementation of a 3d Lagrangian particle tracking (LPT) system based on event-based vision (EBV) and demonstrate its application for the near-wall characterization of a turbulent boundary layer (TBL) in air. The viscous sublayer of the TBL is illuminated by a thin light sheet that grazes the surface of a thin glass window inserted into the wind tunnel wall. The data simultaneously captured by three synchronized event-cameras is used to reconstruct the 3d particle tracks within 400 $\mu$m of the wall on a field of view of 12.0 mm x 7.5 mm. The velocity and position of particles within the viscous sublayer permit the estimation of the local vector of the unsteady wall shear stress (WSS) under the assumption of linearity between particle velocity and WSS. Thereby, time-evolving maps of the unsteady WSS and higher order statistics are obtained that are in agreement with DNS data at matching Reynolds number. Near-wall particle acceleration provide the rate of change of the WSS which exhibits fully symmetric log-normal superstatistics. Two-point correlations of the randomly spaced WSS data are obtained by a bin-averaging approach and reveal information on the spacing of near-wall streaks. The employed compact EBV hardware coupled with suited LPT tracking algorithms provide data quality on par with currently used, considerably more expensive, high-speed framing cameras.

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利用基于事件的三维粒子跟踪进行动态墙壁剪切应力测量

我们介绍了基于事件视觉（EBV）的三维拉格朗日粒子跟踪（LPT）系统的实施情况，并演示了该系统在空气湍流边界层（TBL）近壁表征中的应用。湍流边界层的粘性子层由薄薄的光片照射，光片擦过插入风洞壁的薄玻璃窗表面。三台同步事件相机同时捕获的数据用于在 12.0 mm x 7.5 mm 的视场上重建距离墙壁 400 $\mu$m 范围内的三维粒子轨迹。根据颗粒在粘性子层中的速度和位置，可以在颗粒速度和 WSS 之间线性关系的假设下，估算出非稳定壁面切应力（WSS）的局部矢量。因此，在雷诺数匹配的情况下，可以获得与 DNS 数据一致的非稳态 WSS 和高阶统计量的时变图。近壁粒子加速度提供了 WSS 的变化率，该变化率表现出完全对称的对数正态超统计量。随机间隔的 WSS 数据的两点相关性是通过二进制平均方法获得的，揭示了近壁条纹的间隔信息。所采用的紧凑型 EBV 硬件与合适的 LPT 跟踪算法可提供与目前使用的、昂贵得多的高速取景相机相当的数据质量。

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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arXiv - PHYS - Fluid Dynamics

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