高速列车尾部客车在非稳定空气动力载荷下的横向振动研究

IF 1.9 Q3 ENGINEERING, MECHANICAL
Vibration Pub Date : 2023-12-08 DOI:10.3390/vibration6040061
Tian Li, Yifan Li, Lai Wei, Ji-ye Zhang
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引用次数: 0

摘要

随着高速列车速度的提高,车辆的横向稳定性不断恶化。有人观察到尾车厢有异常振动,特别是在铁路线的某些路段。在对列车空气动力学和多体动力学进行数值模拟的基础上,建立了3节车厢组队的高速列车气动仿真模型和8节车厢组队的多体动力学仿真模型。研究了车辆在400 km/h时的定常和非定常气动载荷、流场特性以及不同气动载荷下的动力性能。结果表明,高速列车运行过程中产生的气动载荷具有高度非定常特性。定常气动载荷对飞行器动力性能的影响较小,而非定常气动载荷对飞行器动力性能的影响较大。在非定常气动力作用下,尾车横向振动剧烈。在非定常工况下,尾车的横向稳定指数为2.26,位移为7.54 mm,速度为0.53 m/s2,加速度为0.53 m/s2。与稳定负荷相比,这些值分别增加了17.71%、148.84%和111.24%以上。较大的振荡幅度导致车辆的横向位移和加速度更为显著。这一现象是造成高速列车“摇尾”效应的关键因素。本研究强调了在评估高速列车横向稳定性时考虑非定常气动效应的重要性,并强调了减轻这种动态响应的不利影响的重要性,特别是在尾车中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on Lateral Vibration of Tail Coach for High-Speed Train under Unsteady Aerodynamic Loads
As the speed of high-speed trains increases, the vehicle’s lateral stability steadily deteriorates. There have been observations of abnormal vibrations in the tail car, particularly on certain sections of the railway line. This study built a high-speed train aerodynamic simulation model for a three-car consist, and a multibody dynamics simulation model for an eight-car consist based on numerical simulations of train aerodynamics and multibody dynamics. It investigated both steady and unsteady aerodynamic loads, flow field characteristics, and the dynamic performance of vehicles under varied aerodynamic loads at 400 km/h. The results indicate that the aerodynamic loads generated during high-speed train operation exhibit highly unsteady characteristics. Steady aerodynamic loads have a relatively minor impact on the vehicle’s dynamic performance, whereas unsteady loads exert a more significant influence. Under unsteady aerodynamic forces, the tail car experiences severe lateral vibrations. The lateral stability index, displacement, velocity, and acceleration of the tail car under unsteady conditions were measured at 2.26, 7.54 mm, and 0.53 m/s2, respectively. These values represent increases of over 17.71%, 148.84%, and 111.24%, respectively, compared to the steady loads. Large oscillation amplitudes result in more significant lateral displacements and accelerations of the vehicle. This phenomenon is a crucial factor contributing to the “tail swing” effect observed in high-speed trains. This study emphasizes the importance of considering unsteady aerodynamic effects in assessing the lateral stability of high-speed trains and highlights the significance of mitigating the adverse impacts of such dynamic responses, particularly in the tail car.
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CiteScore
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