Numerical Investigation of Fluctuating Aerodynamic Lift Acting on the Road Vehicle Which Affects Drivability

Volume 3A: Fluid Applications and Systems Pub Date : 2019-11-20 DOI:10.1115/ajkfluids2019-5253

Jun Ikeda, Javier Sanchez Rios, N. Kuratani, Ken Ogawa, M. Tsubokura

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Abstract

In this study, unsteady flow simulations using a large-eddy simulation are conducted to analyze vehicle aerodynamics. The objective is to investigate flow structures that cause unsteady lift fluctuations potentially affecting the drivability of a vehicle. In addition, the dependence on the yaw angle of the incoming flow yaw angle is studied. The target model is a sedan-type vehicle that includes a complex underbody geometry and engine compartment. The model is based on production CAD drawings. The yaw angle of the incoming flow is set to 0°, 3°, and 5°. The simulation results are analyzed by several post-processing methods, such as root-mean-square of the transient pressure field, power spectral density of the lift force, and dynamic mode decomposition method to extract the flow features associated with the unsteady lift fluctuation. It is concluded that the aerodynamic fluctuation that may affect a vehicle’s vertical stability is concentrated on the rear tire and bumper area. In addition, when the yaw angle of the incoming flow increases, the fluctuation of the lift and the disturbance of flow structures are enhanced.

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影响道路车辆驾驶性能的波动气动升力数值研究

本文采用大涡非定常流场模拟方法对车辆空气动力学进行了分析。目的是研究引起非定常升力波动的流动结构，这些结构可能会影响车辆的驾驶性能。此外，还研究了来流偏航角与来流偏航角的关系。目标模型是轿车类型的车辆，包括一个复杂的底盘几何形状和发动机舱。该模型是基于生产CAD图纸。入流的偏航角设置为0°，3°和5°。采用瞬态压力场均方根、升力功率谱密度和动态模态分解等后处理方法对仿真结果进行分析，提取与非定常升力波动相关的流动特征。结果表明，影响车辆垂直稳定性的气动波动主要集中在后轮胎和保险杠区域。此外，当来流偏航角增大时，升力波动和流动结构扰动增强。

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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Volume 3A: Fluid Applications and Systems

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