2015, Volume 17, Issue 4
Strategic Study of CAE >> 2015, Volume 17, Issue 4
Technology challenges and strategies of the new generation Chinese high-speed railway EMU
State Key Laboratory of Traction Power, Southwest Jiaotong University, Chengdu 610031, China
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Abstract
Based on the study on key technical problems and prospect of a new generation of China high-speed trains (electric multiple unit, EMU), the development trend and strategies are discussed in detail. The main contents include: firstly, the advanced design technology and concept of international advanced rail vehicle manufacturers used in the new generation vehicles developing process were introduced. And their respective characteristics of the core technology and its possible future technology development trend were hierarchically studied. Secondly, based on the study of domestic and foreign literatures, combined with the Chinese high-speed rail vehicle development of its own characteristics and the actual situation, some suggestions and specific analysis, which included the traction drive technology, bogie, carbody design technology and other key technical problems were put forward here. Finally, based on the development of a comprehensive consideration of rail vehicle styling trends and design principles, according to the design method of integrated design theory and multidisciplinary optimization, some specific suggestions and strategy of development for major technical challenges in the new generation of Chinese high-speed rail EMU were put forward. In conclusion, through the study of the paper, some useful suggestions were put forward for the future development of high-speed train in China.
Keywords
high-speed railway ; high-speed train ; new generation ; key technology ; integrated design ; multi-disciplinary design optimization
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References
[ 1 ] 乔英忍.世界铁路动车组的技术进步、水平和展望(待续)[J].国 外铁道车辆,2007,44 (2):1-7. link1
[ 2 ] 乔英忍.世界铁路动车组的技术进步、水平和展望(续完)[J].国 外铁道车辆,2007,44(3):7-12. link1
[ 3 ] БЕЛОВ Л Ф.世界高速铁路干线的现状与发展[J]. 国外铁道车 辆,2010,47(2):1-5. link1
[ 4 ] 李春阳.高速电动车组的发展动态及我国应用探讨[C]//推进铁 路新跨越加快经济大发展—中国科协2004年学术年会铁道分 会场论文集.2004. link1
[ 5 ] 仲 川·滋.欧洲与日本高速铁路的发展动向[J].变流技术与电 力牵引,2000(3):1-6. link1
[ 6 ] 石津一正 .欧洲高速车辆发展动向[J].国外铁道车辆,2000,(3): 1-6. link1
[ 7 ] 董锡明.近代高速列车技术进展[J].铁道机车车辆,2006,26(5): 1-11. link1
[ 8 ] 佐藤·芳彦.欧洲高速列车最新技术发展动向[J].国外机车车辆 工艺,2010(2):1-6. link1
[ 9 ] Masashi Ishizuka Kawasaki’s. Approach to US high speed rail [C]// Japan :Rail Conference Kobe,2013.
[10] Takeshi Kawasaki,Takashi Yamaguchi,Toshihiko Mochida. Railway- vehicle technologies for european railways[J].Hitachi Review,2008,57 (1):61-65. link1
[11] Yasushi Yokosuka,Takenori Wajima,Sumiyuki Okazaki. Versatile,environmentally- friendly,and comfortable railway systems [J]. Hitachi Review ,2008,57(1):9-17. link1
[12] Katsutoshi Horihata,Hirofumi Sakamoto,Hideo Kitabayashi,et al.Environmentally friendly railway- car technology[J]. Hitachi Review,2008,57 (1):18-22. link1
[13] 栗山敬.日本为国外开发的新型高速铁道车辆“efSET”[J].国外 铁道车辆,2011,4. link1
[14] 李瑞淳,王 騃.德国高速列车综述[J].国外铁道车辆,2005,42 (6):1-6. link1
[15] Dipl.- Ing. Martin Steuger. Velaro-customer oriented further development of a high- speed train[J].Erlangen ZEVrail,2009, 133(10):1-16. link1
[16] Jochen Eickholt.On track to target achievement[D]. London : Capital Market Day,2013.
[17] 戴维·布里金肖.法国新一代高速列车AGV[J].国外铁道车辆 2001(4):25-27. link1
[18] Alstom Transport. The AGV,a cutting-edge technology integrator[J]. Inno-trans Berlin.September,2008.
[19] Salwa Fouda.ECO4 - bombardier’s new formula for total train performance[C]//Canada :Bombardier Calgary,2009.
[20] Bombardier Inc. Annual information form for the year ended December 31,2013 [D]. 2014.
[21] 海因茨·库尔兹.德国新一代 ICE 高速列车 ICE3[J].国外铁道 车辆,1998(3):21-23. link1
[22] 海因茨·库尔兹. ICE3 的新设计思想[J].国外铁道车辆,2004 (1):13-18. link1
[23] Moshe Givoni. Development and impact of the modern highspeed train:A review [J]. Transport Reviews,2006,26(5):593- 611. link1
[24] Masyuki Miyamoto. Recent research and development on advanced technologies of high speed trains in Japan[J].Vehicle System Dynamics,2003(3):55-99. link1
[25] Maksym Spiryagin,Colin Cole,Sun Yanquan,et al. Design and Simulation of Rail Vehicles[M].USA:CRC Press,2014.
[26] Paolo Belforte. Numerical simulation for improving the design of running gear:Improvement of vehicle dynamic behavior[C]// Bogie 07 conference,sept 3rd-6th,Budapest,Hungary,2007.
[27] Morimura T,Seki M. The course of achieving 270 km/h operation for tokaido shinkansen - part 1:Technology and operations overview[J].Proceedings of the Institution of Mechanical Engineers,Part F:Journal of Rail and Rapid Transit,2005,219: 21-26. link1
[28] 李 强,金新灿.动车组设计[M].北京:中国铁道出版社,2008.
[29] 任尊松.车辆系统动力学[M]. 北京:中国铁道出版社,2007.
[30] 陈泽深,王成国.完整的车辆-轨道系统动力学研究是铁路发 展的迫切需要(1)[J].铁道机车车辆,2004,24(2):1-8. link1
[31] Michael Pepple.Simulation of agriculated trains with consideration of elastic carbodies[D].France:Alstom corporation,2003. link1
[32] David Wennberg. Multi- functional composite design concepts for rail vehicle car bodies[D]. Sweden :KTH Royal Institute of Technology,2013. link1
[33] Martin Kozek,Christian Benatzky Alexander .Vibration damping of a flexible car body structure using piezo- stack actuators [C]//17th IFAC World Congress (IFAC.08).Korea,2008,(6- 11):8286-8292.
[34] Dories Mohr.Efficient modelling and post processing of spot welded railway vehicle car bodies[D].Canada:Bombardier Corporation,2008.
[35] 公江·茂树.新干线车辆车体的强度和安全性评价[J].国外铁道 车辆,2003,40(6):12-16. link1
[36] 伊藤顺一.改善空气动力学性能实现新干线的高速[J].国外铁 道车辆,2002,39(3):9-12. link1
[37] Tado Takiggami,Takanhiro Tomioka,Joel Hansson.Vibration suppression of railway vehilce carbody with pizeoelectric elements[J].Journal of Advanced Mechanical Design System and Manufacture,2007 (5):649-660. link1
[38] Takahiro Tomioka,Tadao Takigami,Ken- Ichiro Aida. Modal analysis of railway vehicle carbodies using a linear prediction model [J]. Journal of System Design and Dynamics,2009,3(6): 918-931. link1
[39] Stribersky,Moser F,Rulka W. Structural dynamics and ride comfort of a rail vehicle system[J].Advanced Engineering Software,2002(33):541-552. link1
[40] Jung- Seok Kim,Sang- Jin Lee,Kwang-Bok Shin. Manufacturing and structural safety evaluation of a composite train carbody [J]. Composite Structures,2007,78:468-476. link1
[41] Tsuyoshi YAGI,何晓蕾.用于铝合金车体外壳焊缝的疲劳设计 图[J].国外铁道车辆,2008,45(3):23-28. link1
[42] David Wennberg. A light weight car body for high-speed trains [D]. KTH University,2009. link1
[43] 田红旗.列车空气动力学[M].北京:中国铁道出版社,2007.
[44] 王 玮,王 喆.韩国高速铁路列车外观设计分析[J].包装工 程,2014,35(14):28-31. link1
[45] 徐伯初,李 洋,管聪颖.高速列车造型的美学特征分析[J].包装 工程,2012,33(2):23-26. link1
[46] 具·嶋,和·也.静电测定法传感器在铁道车辆上的应用[J]. 国 外铁道车辆,2013,50(1):26-31. link1
[47] 徐伯初,李 洋,管聪颖.高速列车造型的美学特征分析[J].包 装工程,2012,33(2):23-26. link1
[48] 具·嶋,和·也.静电测定法传感器在铁道车辆上的应用[J]. 国 外铁道车辆,2013,50(1):26-31. link1
[49] Michael Steenbergen.Extending the lifetime of rail infrastructure by proper energy management[J].European Railway Review,2010,1,61-63.
[50] Michael Renner,Gary Gardner. Global competitiveness in the rail and transit industry[D].US:Northeastern University,2010:1-36.
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