侧风条件下极高效车辆的空气动力学研究

IF 0.2 Q4 ENGINEERING, MULTIDISCIPLINARY
A. Yudianto, M. Solikin, Sutiman Sutiman, Z. Arifin, I. Adiyasa, A. Yudantoko
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引用次数: 0

摘要

当几何中心、重心和止动点在一条直线上时,车辆更加稳定。然而,道路车辆运行环境的入流方向和流速大小是不同的。本研究旨在研究水滴型车辆在侧风条件下的气动特性。对车辆在0度、10度和20度侧风向下的一些基本气动性能进行了数值和图形分析。阻力系数、阻力系数、升力系数和升力随偏航角的增大呈指数增长。压力系数、摩擦系数和车壁总剪应力沿车面分布结果表明,前轮室下部区域成为关键位置。增加侧风角会在轮舱周围和车辆的背风侧产生更显著的涡区。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Aerodynamic investigation of extremely efficient vehicles under side wind conditions
A vehicle is more stable when the geometric center, center of gravity, and stagnation point are in line. However, the inflow direction and velocity magnitude of the operational environment of road vehicles are varying. This study aims to investigate the aerodynamic behavior of a water-drop-shaped vehicle under side wind conditions. Some essential aerodynamic performances of the vehicle are numerically and graphically analyzed at 0 deg, 10 deg, and 20 deg of side wind directions. The value of the coefficient of drag, drag force, coefficient of lift, and lift force exponentially increases as the yaw angle elevates. The lower part on the area of the front-wheel compartment becomes the critical location indicated by the results on pressure coefficient, friction coefficient, and total wall shear stress distribution along the vehicle surface. Increasing the side wind angle triggers more significant vortex regions generated around the wheel compartment and on the leeward side of the vehicle.
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