Aerodynamic design on high-speed trains

被引:3
作者
SanSan Ding [1 ,2 ]
Qiang Li [1 ]
AiQin Tian [2 ]
Jian Du [2 ]
JiaLi Liu [2 ]
机构
[1] School of Mechanical,Electronic and Control Engineering,Beijing Jiaotong University
[2] CSR Qingdao Sifang Locomotive & Rolling Stock Co,Ltd
关键词
High-speed train; Aerodynamic design; Optimization design; Smooth design;
D O I
暂无
中图分类号
U270.2 [车辆设计、计算];
学科分类号
080204 ; 082304 ;
摘要
Compared with the traditional train,the operational speed of the high-speed train has largely improved,and thedynamicenvironmentofthetrainhaschangedfromoneof mechanical domination to one of aerodynamic domination.The aerodynamic problem has become the key technological challenge of high-speed trains and significantl affects the economy,environment,safety,and comfort.In this paper,the relationships among the aerodynamic design principle,aerodynamic performance indexes,and design variables are firs studied,and the research methods of train aerodynamics are proposed,including numerical simulation,a reducedscale test,and a full-scale test.Technological schemes of train aerodynamics involve the optimization design of the streamlined head and the smooth design of the body surface.Optimization design of the streamlined head includes conception design,project design,numerical simulation,and a reduced-scale test.Smooth design of the body surface is mainly used for the key parts,such as electric-current collecting system,wheel truck compartment,and windshield.The aerodynamic design method established in this paper has been successfully applied to various high-speed trains(CRH380A,CRH380 AM,CRH6,CRH2 G,and the Standard electric multiple unit(EMU)) that have met expected design objectives.The research results can provide an effective guideline for the aerodynamic design of high-speed trains.
引用
收藏
页码:215 / 232
页数:18
相关论文
共 19 条
[1]  
Study on the operational safety of high-speed trains exposed to stochastic winds[J]. Meng-Ge Yu,Ji-Ye Zhang,Ke-Yue Zhang,Wei-Hua Zhang.Acta Mechanica Sinica. 2014(03)
[2]  
Multi-objective optimization design method of the high-speed train head[J]. Meng-ge YU,Ji-ye ZHANG,Wei-hua ZHANG.Journal of Zhejiang University-Science A(Applied Physics & Engineering). 2013(09)
[3]  
A numerical approach to the interaction between airflow and a high-speed train subjected to crosswind[J]. Tian LI,Ji-ye ZHANG,Wei-hua ZHANG.Journal of Zhejiang University-Science A(Applied Physics & Engineering). 2013(07)
[4]  
Multi-objective optimization of the streamlined head of high-speed trains based on the Kriging model[J]. YAO ShuanBao 1 , GUO DiLong 1 , SUN ZhenXu 1* , YANG GuoWei 1 & CHEN DaWei 2 1 Key Laboratory for Application of Mechanics to Engineering Systems, Institute of Mechanics, Chinese Academy of Sciences, Beijing 100190, China;2 CSR Qingdao Sifang Locomotive Co., Ltd., Qingdao 266111, China.Science China(Technological Sciences). 2012(12)
[5]  
A framework for the consideration of the effects of crosswinds on trains[J] . Chris Baker.Journal of Wind Engineering & Industrial Aerodynamics . 2013
[6]  
Large eddy simulation of the flow around a simplified train moving through a crosswind flow[J] . Journal of Wind Engineering & Industrial Aerodynamics . 2012
[7]  
Wind tunnel measurements of crosswind loads on high sided vehicles over long span bridges[J] . F. Dorigatti,M. Sterling,D. Rocchi,M. Belloli,A.D. Quinn,C.J. Baker,E. Ozkan.Journal of Wind Engineering & Industrial Aerodynamics . 2012
[8]  
The flow around high speed trains[J] . Chris Baker.Journal of Wind Engineering & Industrial Aerodynamics . 2009 (6)
[9]  
Development of an experimental facility for measuring pressure waves generated by high-speed trains[J] . Tetsuya Doi,Takanobu Ogawa,Takanori Masubuchi,Jiro Kaku.Journal of Wind Engineering & Industrial Aerodynamics . 2009 (1)
[10]  
Aerodynamic behaviour investigation of the new EMUV250 train to cross wind[J] . F. Cheli,F. Ripamonti,D. Rocchi,G. Tomasini.Journal of Wind Engineering & Industrial Aerodynamics . 2009 (4)