Transient Analysis on the Crosswind Effect to the Aerodynamics of High-speed Train Travelled on the Bridge Between Two Tunnels at Jakarta -Bandung Track

Q2 Mathematics CFD Letters Pub Date : 2024-06-02 DOI:10.37934/cfdl.16.10.6480
Harinaldi Harinaldi, Farhan T Pratama
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Abstract

The rapid evolution of global transportation technology is exemplified by Indonesia's innovative high-speed train initiative, linking Jakarta and Bandung in an impressive 45 minutes. Operating at 350 km/h, the HST CR400AF underscores the importance of aerodynamics in high-speed rail systems. This study delves into the significant impact of crosswind on key aerodynamic factors (drag, lift, rolling moment) within the tunnel-bridge-tunnel configuration. Leveraging Computational Fluid Dynamics (CFD) through ANSYS FLUENT, the analysis explores crosswind variations at 0 m/s, 10 m/s, and 25 m/s. Results reveal a proportional increase in aerodynamic load with higher crosswind intensities: 1.67 times for drag, 58.8 times for lift, and 29.8 times for rolling moment. Notable observations include pronounced aerodynamic load fluctuations during the "OUT" process, with the head section bearing the greatest load, followed by the tail and middle sections. These findings contribute valuable insights to the global discourse on enhancing safety and efficiency in high-speed rail systems
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高速列车在雅加达-万隆轨道两隧道之间桥梁上行驶时的横风对空气动力学影响的瞬态分析
全球运输技术的飞速发展体现在印度尼西亚创新的高速列车计划上,该计划将雅加达和万隆连接起来只需 45 分钟,令人印象深刻。HST CR400AF 以 350 公里/小时的速度运行,突出了空气动力学在高速铁路系统中的重要性。本研究深入探讨了隧道-桥梁-隧道结构中的横风对关键空气动力因素(阻力、升力、滚动力矩)的重大影响。利用 ANSYS FLUENT 计算流体动力学(CFD),分析探讨了 0 米/秒、10 米/秒和 25 米/秒的横风变化。结果显示,随着横风强度的增加,空气动力负荷也成比例增加:阻力增加 1.67 倍,升力增加 58.8 倍,滚动力矩增加 29.8 倍。值得注意的是,在 "OUT "过程中,气动载荷波动明显,头部承受的载荷最大,其次是尾部和中部。这些发现为全球关于提高高速铁路系统安全和效率的讨论提供了宝贵的见解
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来源期刊
CFD Letters
CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes
CiteScore
3.40
自引率
0.00%
发文量
76
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