Aerodynamic Effects of Different Tire Models on a Sedan Type Passenger Car

Q2 Engineering

SAE International Journal of Passenger Cars-Electronic and Electrical Systems Pub Date : 2012-04-16 DOI:10.4271/2012-01-0169

Christoffer Landström, Linda Josefsson, T. Walker, L. Löfdahl

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引用次数: 36

Abstract

Targets for reducing emissions and improving energy efficiency present the automotive industry with many challenges. Passenger cars are by far the most common means of personal transport in the developed part of the world, and energy consumption related to personal transportation is predicted to increase significantly in the coming decades. Improved aerodynamic performance of passenger cars will be one of many important areas which will occupy engineers and researchers for the foreseeable future. The significance of wheels and wheel housings is well known today, but the relative importance of the different components has still not been fully investigated. A number of investigations highlighting the importance of proper ground simulation have been published, and recently a number of studies on improved aerodynamic design of the wheel have been presented as well. This study is an investigation of aerodynamic influences of different tyres. Two different tyre models were investigated in combination with three different wheel designs using the Volvo Aerodynamic Wind Tunnel; including moving ground and rotating wheels. In addition to force measurements, flow field investigations were also performed using both surface pressure probes and 12- hole pressure probes. The tyre sizes investigated in this study were 215/50R17 and 215/55R16. An investigation of changes to the tyre geometry for 215/55/R16 tyres was also performed using two high speed cameras in the wind tunnel. Results show that different tyre types have a significant effect on not only aerodynamic drag, but also on lift to some extent. Drag differences between 5 – 10 drag counts were measured depending on wheel and vehicle configuration. It was also concluded that the drag difference between tyre types was dependent on wheel design. The flow field investigations showed noticeable changes to the front wheel wake structures as well as significant changes in the rear wheel and base wake structures. Investigations of the tyre deformations showed changes in wheel lift, as well as radial expansion and axial compression correlating with the observed drag changes.

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不同轮胎型号对轿车气动性能的影响

减少排放和提高能源效率的目标给汽车工业带来了许多挑战。到目前为止，乘用车是世界发达地区最常见的个人交通工具，预计在未来几十年里，与个人交通有关的能源消耗将显著增加。在可预见的未来，改善乘用车的空气动力学性能将是工程师和研究人员所关注的重要领域之一。车轮和轮壳的重要性今天是众所周知的，但是不同部件的相对重要性仍然没有得到充分的研究。许多研究都强调了适当的地面模拟的重要性，最近也提出了一些改进车轮气动设计的研究。本文研究了不同轮胎对空气动力学的影响。采用沃尔沃空气动力学风洞对两种不同的轮胎模型和三种不同的车轮设计进行了研究;包括移动地面和旋转车轮。除了力测量外，还使用表面压力探头和12孔压力探头进行了流场调查。本研究调查的轮胎尺寸为215/50R17和215/55R16。对215/55/R16轮胎几何形状变化的调查也在风洞中使用两个高速摄像机进行。结果表明，不同轮胎类型不仅对气动阻力有显著影响，而且对升力也有一定影响。根据车轮和车辆配置，测量了5 - 10个阻力计数之间的阻力差异。不同轮胎类型之间的阻力差异取决于车轮的设计。流场研究表明，前轮尾迹结构发生了明显的变化，后轮和底轮尾迹结构也发生了明显的变化。对轮胎变形的调查显示，车轮升力、径向膨胀和轴向压缩随观察到的阻力变化而变化。

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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来源期刊

SAE International Journal of Passenger Cars-Electronic and Electrical Systems TRANSPORTATION SCIENCE & TECHNOLOGY-

CiteScore

2.10

自引率

0.00%

发文量