AERODYNAMIC ANALYSIS OF SPORT UTILITY VEHICLE (SUV) BY COMPUTATIONAL FLUID DYNAMICS (CFD) APROACH

IF 0.1 0 MUSIC

Revista Vortex-Vortex Music Journal Pub Date : 2022-01-15 DOI:10.28989/vortex.v3i1.1161

B. Junaidin

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Abstract

The main purpose of aerodynamics analysis of a vehicle is optimizing it’s form to increase aerodynamics efficiency. More streamline of aerodynamic design of a vehicle not just effecting to lower fuel consumption which is cause by lower drag due to wind at highspeed, but also increasing stability dan control of the vehicle itself. The vehicles are existed with many variations of form so they have difference aerodynamic characteristics. For a personal vehicle like cars, have many variants such as sedan, sport utility vehicle (SUV), multipurposes utility vehicle (MPV), ect. It becomes a motivation to do research about aerodynamic analysis of a SUV car which is a car variant with huge utilize in Indonesia. In this research, aerodynamic characteristics of SUV car are evaluated by computational simulation with computational fluid dynamics (CFD) approach. CFD simulation yields aerodynamic characteristics data and flow behaviors around car model. Simulation results show that critical drag coefficient (CDcrit) of SUV car is 0.36 with lift coefficient is 0.25. the CDcrit of the car is lower than typical value for a modern car. So that, optimalization of SUV car form which analyzed is needed. Contours of pressure at car surfaces show that high pressure area are located at front of grill and windshield, and low-pressure area are located at nose and leading-trailing roof due to the form nose and leading-trailing roof are streamlines. At back surface of the car, low pressure area are formed by flow separation which creates wake.

查看原文本刊更多论文

基于计算流体动力学(cfd)方法的运动型多功能车(suv)气动分析

车辆空气动力学分析的主要目的是优化车辆的外形，提高车辆的空气动力学效率。更流线型的车辆气动设计不仅影响到降低燃油消耗，这是由于在高速行驶时由于风的阻力更小，而且还增加了车辆本身的稳定性和控制。这些飞行器的外形多种多样，因而具有不同的气动特性。对于像轿车这样的个人交通工具，有许多变体，如轿车、运动型多用途车(SUV)、多用途多用途车(MPV)等。SUV是一种在印尼有着巨大应用的汽车变体，因此对其进行气动分析研究成为一种动力。本研究采用计算流体力学(CFD)方法对SUV轿车的气动特性进行了计算仿真。CFD仿真得到了汽车模型周围的气动特性数据和流动特性。仿真结果表明，SUV轿车的临界阻力系数(CDcrit)为0.36，升力系数为0.25。这辆车的信用值低于现代汽车的典型价值。因此，需要对分析后的SUV车型进行优化。汽车表面压力轮廓图显示，由于车头和前后车顶为流线型，高压区位于前格栅和挡风玻璃前，低压区位于车头和前后车顶。在汽车后表面，流动分离形成低压区，产生尾迹。

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

Revista Vortex-Vortex Music Journal MUSIC-

自引率

0.00%

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审稿时长

12 weeks