零偏航角条件下掀背式汽车尾流的双稳态性

IF 0.5 Q4 TRANSPORTATION SCIENCE & TECHNOLOGY SAE International Journal of Passenger Vehicle Systems Pub Date : 2023-12-09 DOI:10.4271/15-17-02-0007
Haidong Yuan, Haiyang Wang, Guangjun Fan
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引用次数: 0

摘要

汽车的空气动力性能,尤其是阻力和升力,在很大程度上取决于尾流,而尾流是三维的、不稳定的和湍流的。车身后部的造型对尾流结构有很大影响,通常包括方背式、槽背式和掀背式。车身尾流的双稳态会使空气动力产生振荡,从而影响能量消耗和行驶稳定性。本文在全尺寸汽车风洞中研究了掀背式 SUV 车身尾流的双稳定性。测量了车辆后部的空气动力和表面压力。空气动力和压力足迹的时间序列用于证实双稳态的存在。分析了一些敏感因素对双稳定性的影响。结果表明,在存在双稳态现象的给定条件下,阻力和升力的变化分别为 6.36% 和 111%。被测掀背式越野车尾流的双稳态现象与车辆尾流的流动结构变化有关,这可以用临界斜角下掀背式车辆的阻力危机来解释。
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Bi-stability of the Wake Flow of a Hatchback Car under Zero Yaw Angle Condition
The aerodynamic performance of automobile especially drag and lift was largely determined by the wake flow, which is three-dimensional, unsteady, and turbulent. The styling of the rear back of the vehicle body has much influence on the wake flow structure, typically including squareback, notchback, and hatchback. Bi-stability of the wake flow of vehicle body makes the aerodynamic force oscillating, which affects the energy consumption and driving stability. This article investigates the bi-stability of wake flow of a hatchback SUV in full-scale automotive wind tunnel. Both aerodynamic force and surface pressure on the rear back of the vehicle were measured. Time series of aerodynamic force and pressure footprint are used to confirm the existence of bi-stability. The effects of some sensitive factors on the bi-stability have been analyzed. The results show that for the given condition with bi-stability phenomenon existing, the change of drag and lift can be 6.36% and 111%, respectively. The bi-stability of wake of the tested hatchback SUV is related to the change of flow structure in the wake of the vehicle, which can be explained by the drag crisis of hatchback vehicle under critical slant angle.
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