摩托车赛车车轮气动研究:基于数值CFD模拟的性能评估

F. Concli, M. Gobbi, C. Gorla
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引用次数: 0

摘要

在任何赛车比赛中,设备的气动性能都是决定性的。例如,对于汽车来说,车身和机翼的几何形状可以确保更低的Cx系数和/或更高的下压力和更高的操控性。在其他比赛中,如赛艇,船体的空气动力学可以减少运动员所做的努力。在自行车和摩托车比赛中,与空气动力学相关的其他方面变得重要,如机动性和稳定性。在目前的研究中,为了比较不同的前轮几何形状(一辆赛车)在阻力、升力和轴向力方面的影响,采用了数值方法。对三种不同的车轮设计进行了比较。第一个车轮由传统的七辐条铝制设计组成,第二个车轮是六辐条镁溶液,第三个车轮是固态盘车轮。稳态和瞬态模拟是用OpenfOaM®(一个免费的开源软件)进行的。之所以选择它,是因为它相对于任何闭源商业软件具有更高的灵活性。自定义求解器以及边界条件的可能性允许对感兴趣的物理问题进行分析。免费许可证允许计算的高度并行化。通过冻结车轮位置和引入旋转参照系进行稳态仿真。这样,大大减少了计算时间。对于瞬态仿真,将计算域划分为两个子域。内部的一个是圆柱形的,包含轮子。通过对内部子域的网格施加刚性旋转来施加车轮的旋转速度。网格接口确保了解决方案跨域的连续性。
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aerodynamic study of moto rcycle racing wheels: A performance evaluation based on numerical CFD simulations
In any racing competitions, the aerodynamic performances of the equipment are determinant. This is true, for example, for cars, where the geometry of the bodywork and of the wings can ensure a lower Cx coefficient and/or a higher down-force and a higher handling. In other competitions, like rowing, the aerodynamics of the hull can reduce the effort done by the athletes. In the cycle and motorcycle racing competitions, other aspects related to aerodynamics become important, such as the manoeuvrability and stability. In the present research, a numerical approach was used in order to compare different front-wheel geometries (of a racing motor-bike) in terms of drag, lift and axial forces. Three different wheel designs have been compared. The first one consists in a traditional seven spokes aluminium design, the second wheel is a 6 spokes magnesium solution and the third a solid-disk wheel. Steady state as well as transient simulations was performed with OpenfOaM®, a free open-source software. This was selected because it allows a higher flexibility with respect to any close-source commercial software. The possibility to customize the solver as well as the boundary conditions allows the analysis of the physical problem of interest. The free license allows a high parallelization of the computations. The steady-state simulations were performed by freezing the wheel position and introducing a rotating reference frame. In this way, the computational time was significantly reduced. for the transient simulations, the computational domain was split into two subdomains. The internal one is cylindrical and contains the wheel. The rotational velocity of the wheel was imposed by applying a rigid rotation to the mesh of the internal subdomain. Mesh interfaces ensures the continuity of the solution across the domains.
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1.10
自引率
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发文量
24
审稿时长
33 weeks
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