Aerodynamic Drag Reduction of Heavy Vehicle Using Computational Fluid Dynamics (CFD)

International journal of scientific and research publications Pub Date : 2024-02-24 DOI:10.29322/ijsrp.14.02.2023.p14634

Rutuja Ravindra Kapote

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Abstract

The aerodynamic study of State Transport Bus minimizes road accidents and fuel consumption. The increasing fuel prices has made private transportation uneconomical. The Vehicle utilizes around 40% of available engine power to overcome the drag resistance. Drag coefficient can be reduced by streamlining the surface, modifying the outer structure of bus, roof optimization, etc. considering ergonomics and aesthetics. Drag resistance can be reduced by reducing drag coefficient. Exterior design of city bus is poor considering aerodynamic aspect. The objective of this paper is to optimize state bus and use Computational Fluid Dynamics to calculate drag coefficient which will eventually reduce the fuel consumption of vehicle. For this 3D CAD (SOLIDWORKS) model of Maharashtra State Transport bus is prepared and optimized considering standard parameters and drag coefficient is calculated using CFD software ANSYS 2021 R1 (FLUENT). The drag coefficient has reduced from 0.9 to 0.6 Around 33 % reduction in drag coefficient is achieved. Due to which the fuel economy is reduced by 26%. The turbulent model standard k-eplison is used for better approximation of results.

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利用计算流体动力学（CFD）减少重型车辆的空气动力阻力

国营运输巴士的空气动力学研究最大限度地减少了道路事故和燃料消耗。燃油价格的不断上涨使私人交通变得不经济。车辆利用大约 40% 的可用发动机功率来克服阻力。考虑到人体工程学和美学因素，可以通过流线型表面、改装外部结构、优化车顶等方法来降低阻力系数。可以通过降低阻力系数来减少阻力。从空气动力学方面考虑，城市公交车的外观设计较差。本文的目的是优化公交车的状态，并使用计算流体动力学来计算阻力系数，从而最终降低车辆的油耗。为此，编制了马哈拉施特拉邦运输巴士的三维 CAD（SOLIDWORKS）模型，并根据标准参数对其进行了优化，使用 CFD 软件 ANSYS 2021 R1（FLUENT）计算了阻力系数。阻力系数从 0.9 降至 0.6，大约降低了 33%。因此，燃油经济性降低了 26%。使用标准 k-eplison 湍流模型可以更好地逼近结果。

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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International journal of scientific and research publications

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