Numerical study of aerodynamics drag and flow characteristics of the high-speed train head design

Q4 Engineering

ARPN Journal of Engineering and Applied Sciences Pub Date : 2024-05-15 DOI:10.59018/032448

引用次数: 0

Abstract

A native design of the Indonesian high-speed train has been developed as an improvement of the previous medium-speed train model. As the design speed is proposed to be increased from 160 km/h to 250 km/h, the nose shape and nose length of the train head were modified into a sharper and longer nose. In this study, numerical simulation of computational fluid dynamics was used to investigate the aerodynamic phenomena and flow behavior around the modified train head and carbodies. The CFD simulation was used as the verification of the shape design and a tool for rapid design changes and optimization. The model configuration is three cars on a real scale by ignoring other parts like the train window and door, pantograph, and train connecting. A k-ε turbulence model was used in the simulation. From this investigation, it is found that the coefficient of drag on the model is calculated to be 0.34. Meanwhile, an experimental wind tunnel test validates the result with a coefficient drag is 0.38 or 10% divergence from the numerical method.

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高速列车头部设计的空气动力学阻力和流动特性数值研究

印尼高速列车的本土设计是对以前的中速列车模型的改进。由于设计速度拟从 160 公里/小时提高到 250 公里/小时，因此列车头部的形状和车头长度被修改为更尖更长的车头。本研究采用计算流体动力学数值模拟来研究改进后的列车头部和车体周围的空气动力现象和流动行为。CFD 模拟被用作形状设计的验证以及快速设计变更和优化的工具。模型配置为实际比例的三节车厢，忽略了其他部件，如列车车窗和车门、受电弓和列车连接装置。模拟中使用了 k-ε 湍流模型。研究发现，模型的阻力系数为 0.34。同时，风洞试验验证了这一结果，阻力系数为 0.38，与数值方法相差 10%。

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

ARPN Journal of Engineering and Applied Sciences Engineering-Engineering (all)

CiteScore

0.70

自引率

0.00%

发文量

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