[1]李军,张云飞,高健博.遭遇横风时高墩高架上的地铁车辆运行安全性[J].华侨大学学报(自然科学版),2019,40(4):421-428.[doi:10.11830/ISSN.1000-5013.201810055]
 LI Jun,ZHANG Yunfei,GAO Jianbo.Running Safety of Metro Vehicle Over High-PierViaduct Under Crosswind[J].Journal of Huaqiao University(Natural Science),2019,40(4):421-428.[doi:10.11830/ISSN.1000-5013.201810055]
点击复制

遭遇横风时高墩高架上的地铁车辆运行安全性()
分享到:

《华侨大学学报(自然科学版)》[ISSN:1000-5013/CN:35-1079/N]

卷:
第40卷
期数:
2019年第4期
页码:
421-428
栏目:
出版日期:
2019-07-10

文章信息/Info

Title:
Running Safety of Metro Vehicle Over High-PierViaduct Under Crosswind
文章编号:
1000-5013(2019)04-0421-08
作者:
李军12 张云飞1 高健博1
1. 重庆交通大学 机电与车辆工程学院, 重庆 400074;2. 重庆交通大学 城市轨道交通车辆系统集成与控制重庆市重点实验室, 重庆 400074
Author(s):
LI Jun12 ZHANG Yunfei1 GAO Jianbo1
1. School of Mechatronics and Vehicle Engineering, Chongqing Jiaotong University, Chongqing 400074, China; 2. Chongqing Key Laboratory of Integration and Control for Urban Rail Transit Vehicle System, Chongqing Jiaotong University, Chongqing 400074, China
关键词:
地铁车辆 横风 高墩高架 地铁线路 山区城市 车辆-轨道-桥梁耦合振动
Keywords:
metro vehicle crosswind high-pier viaduct metro lines mountain city vehicle-track-bridge coupled vibration
分类号:
U27
DOI:
10.11830/ISSN.1000-5013.201810055
文献标志码:
A
摘要:
首先,基于山区城市地铁线路条件,建立风区横风-车辆-高墩桥梁模型;然后,选取计算参数并确定评价指标,对风-车-桥系统的特性进行分析;最后,对车速及风速的影响规律和安全阈值进行研究.结果表明:风区条件和高墩条件不可忽视;横风引起车、梁及墩的剧烈振动,由于高墩稳定性较差,加剧车辆运行的不稳定性;车-桥系统响应随风速显著增加,且随车速出现波动;当标准高度风速达到21.4 m·s-1时,已无法保证车辆以最高时速运行.
Abstract:
According to actual construction conditions of the mountain city, a dynamic model of the vehicle-track-bridge system was established first. Then its calculation parameters were selected and evaluation indices were determined. The characteristics of the wind-vehicle-bridge system were analyzed. Finally the effect of vehicle speed and wind speed were studied. The experimental results indicates that the wind condition and high-pier condition cannot be neglected. The crosswind caused strong vibration of car, beam and pier. The responses of vehicle-bridge system increased significantly with wind speed, and fluctuated with train speed. When the wind speed of standard height reaches 21.4 m·s-1, the highest speed of the vehicle on the bridge cannot be guaranteed.

参考文献/References:

[1] CAI C S, HU Jiexuan,CHEN Suren,et al.A coupled wind-vehicle-bridge system and its applications: A review[J].Wind and Structures,2015,20(2):117-142.DOI:10.12989/was.2015.20.2.117.
[2] OLMOS J M,ASTIZ M á.Improvement of the lateral dynamic response of a high pier viaduct under turbulent wind during the high-speed train travel[J].Engineering Structures,2018,65:368-385.DOI:10.1016/j.engstruct.2018.03.054.
[3] XIANG Huoyue,LI Yongle,CHEN Suren,et al.Wind loads of moving vehicle on bridge with solid wind barrier[J].Engineering Structures,2018,65:188-196.DOI:10.1016/j.engstruct.2017.11.009.
[4] LI Xiaozhen,WANG Ming,XIAO Jun,et al.Experimental study on aerodynamic characteristics of high-speed train on a truss bridge: A moving model test[J].Journal of Wind Engineering and Industrial Aerodynamics, 2014, 179:26-38.DOI:10.1016/j.jweia.2018.05.012.
[5] NIU Jiqiang,ZHOU Dan,LIU Tanghong,et al.Numerical simulation of aerodynamic performance of a couple multiple units high-speed train[J].Vehicle System Dynamics,2017,55(5):1-23.DOI:0.1080/00423114.2016.1277769.
[6] LI Yongle,XIAN Huoyue,WANG Bin,et al.Dynamic analysis of wind-vehicle-bridge coupling system during the meeting of two trains[J].Advances in Structural Engineering,2013,16(10):1663-1670.DOI:10.1260/1369-4332.16.10.1663.
[7] 张云飞,李军.轨道客运车辆山区小半径曲线通过性能分析[J].华侨大学学报(自然科学版),2018,39(3):343-348.DOI:10.11830/ISSN.1000-5013.201711036.
[8] 张云飞,李军.轮径差对轨道客车山区小半径曲线通过的影响[J].华侨大学学报(自然科学版),2018,39(4):489-495.DOI:10.11830/ISSN.1000-5013.201803037.
[9] 金曼.高架轨道交通引起的车桥振动及控制研究[D].北京:北京交通大学,2015.
[10] 杭锦,张允士.高架城市轨道交通车辆及桥梁振动的理论研究[J].城市轨道交通研究,2018(4):83-87.DOI:10.16037/j.1007-869x.2018.04.020.
[11] British Standards Institution.BSI standards limited railway applications: Aerodynamics-part 6: BS EN 14067-6:2018[S].London:Standards Policy and Strategy Committee,2018.
[12] CHELI F R,CORRADI R,SABBIONI E,et al.Wind tunnel tests on heavy road vehicles: Crosswind induced loads: Part 1&Part 2[J].Journal of Wind Engineering and Industrial Aerodynamics,2011,99(10):1011-1024.DOI:10.1016/j.jweia.2011.07.007.
[13] 北京市规划委员会.地铁设计规范: GB/T 50157-2013[S].北京:中国建筑工业出版社,2013.
[14] 于梦阁,张继业,张卫华.桥梁上高速列车的强横风运行安全性[J].机械工程学报,2012,48(18):104-111.DOI:10.3901/JME.2012.18.104.
[15] 豆丁网.重庆风速与风向[EB/OL].[2016-01-20] .https://www.docin.com/p-1434128238.html20161.
[16] 百度文库.重庆风速与风向[EB/OL].[2005-07-21] .https://wenku.baidu.com/view/98ca3cbf31126edb6e1a 104a.html2015.7.

备注/Memo

备注/Memo:
收稿日期: 2018-10-23
通信作者: 李军(1964-),男,教授,博士,主要从事新能源汽车、自动驾驶车辆及城市轨道交通的研究.E-mail:cqlee-jun@163.com.
基金项目: 国家自然科学基金资助项目(51305472); 重庆市轨道交通车辆系统集成与控制重庆市重点实验室项目(CSTC2015yfpt-zdsys30001)
更新日期/Last Update: 2019-07-20