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Length optimization of straight line connecting turnout on main line in high-speed railway station yard
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作者 YIN Guo-dong SHI Jin +1 位作者 WEI Qing-chao LAI Lin 《Journal of Central South University》 SCIE EI CAS CSCD 2017年第5期1111-1120,共10页
Taking the development of high-speed railway in China as background, and referring to the dynamic theory and wheel-rail contact mode, dynamic analysis model was established, considering the setting position of straigh... Taking the development of high-speed railway in China as background, and referring to the dynamic theory and wheel-rail contact mode, dynamic analysis model was established, considering the setting position of straight lines and running conditions of train in high-speed railway station yard. Using the established model, and choosing vehicle lateral acceleration and wheel suspension as the evaluation indexes, dynamic characteristic of vehicle traveling in turnout and adjacent area on main line was analyzed, and effects on travelling safety and stability of train aroused by length variation of straight lines were calculated based on analyzing the damping rules of vibration. The results show that, a certain length of straight lines can alleviate the vibration aroused in turnout and curve(turnout), length of straight lines connecting turnouts in different sections on main line was proposed to meet the demand of traveling stability, and shortening or cancelation of straight line for the scale limitation of station yard has less influence on operation safety of train. 展开更多
关键词 high-speed railway station YARD STRAIGHT line TURNOUT dynamic theory LENGTH OPTIMIZATION
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Calculation method for station carrying capacity of high-speed railway based on station blocking time method
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作者 Li Xiaojuan Han Baoming +1 位作者 Yan Zhenying Yang Yang 《Journal of Southeast University(English Edition)》 EI CAS 2019年第4期491-501,共11页
A station carrying capacity calculation method based on the station blocking time method is proposed.According to the station track circuit groups,signal system and station topological structure,the station blocks are... A station carrying capacity calculation method based on the station blocking time method is proposed.According to the station track circuit groups,signal system and station topological structure,the station blocks are divided and the division principle is proposed.Then the train routes model is built based on the station blocking time method.The calculation methods of the train arrival headway and departure headway at the station are redefined.The optimal capacity calculation model and algorithm based on a given train operation plan are studied by analyzing the optimal operation sequence of trains with different train speeds and operation types.With the case study of Jinan West Railway Station of Beijing-Shanghai high-speed railway in China,the minimum arrival headway between two trains with the speeds of 300 and 250 km/h can be reduced to 3.0 and 2.7 min,respectively.The maximum calculation results of the calculation methods can be increased from 13 train/h to 16 train/h.This method can increase the number of trains within a period of time in a station while meeting the transport organization and passenger service requirements. 展开更多
关键词 high-speed railway station block carrying capacity HEADWAY train routes
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Simulation Modeling on Emergency Evacuation in High-Speed Railway Stations in China
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作者 MA Qing-yuan WANG Chen LU Jian 《Journal of Donghua University(English Edition)》 EI CAS 2016年第6期836-842,共7页
A simulation study on occupant evacuation in high-speed railway stations (HSRSs) was presented in China. Pathfinder was employed as the simulation platform and a typical HSRS in a medinm-sized city in China was sele... A simulation study on occupant evacuation in high-speed railway stations (HSRSs) was presented in China. Pathfinder was employed as the simulation platform and a typical HSRS in a medinm-sized city in China was selected for model development. The model was carefully calibrated and validated by comparing simulation results with field data. Evacuation efficiency could be improved with the increased door width while such effect decreased when the door width reached a marginal value. And the marginal value varied under different occupant densities. An exponential function between evacuation lime and occupant density was fitted, indicating that occupant density significantly affected evacuation efficiency. A set of different evacuation strategies were compared, in terms of their evacuation performances. It was found that a balanced door usage would result in more efficient evacuations in HSRSs. Thus occupant flows were suggested to be managed considering door capacity. To avoid potential safety issues caused by such strategy ( e. g. , more occupants could be evacuated from a smaller area designed with higher door capacity ), occupants needed to enhance their awareness of following evacuation guidance instead of panic escape in emergencies. Moreover, such safety issues could also be avoided during the design phase that the evacuation capacity was designed to be proportional to the room capacity for each floor. The results of this study provide valuable information for HSRS design and flow management in China. 展开更多
关键词 simulation modeling emergency evacuation high-speed railway stations(HSRSs) evacuation time
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A power-quality monitoring and assessment system for high-speed railways based on train-network-data center integration
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作者 Jun Zhu Haitao Hu +2 位作者 Zhengyou He Xiaomin Guo Weiguo Pan 《Railway Engineering Science》 2021年第1期30-41,共12页
In recent years,with the rapid development of high-speed railways(HSRs),power interruptions or disturbances in traction power supply systems have become increasingly dangerous.However,it is often impossible to detect ... In recent years,with the rapid development of high-speed railways(HSRs),power interruptions or disturbances in traction power supply systems have become increasingly dangerous.However,it is often impossible to detect these faults immediately through single-point monitoring or collecting data after accidents.To coordinate the power quality data of both traction power supply systems(TPSSs)and high-speed trains(HSTs),a monitoring and assessing system is proposed to access the power quality issues on HSRs.By integrating train monitoring,traction substation monitoring and data center,this monitoring system not only realizes the real-time monitoring of operational behaviors for both TPSSs and HSTs,but also conducts a comprehensive assessment of operational quality for train-network systems.Based on a large number of monitoring data,the field measurements show that this real-time monitoring system is effective for monitoring and evaluating a traction-network system. 展开更多
关键词 high-speed railway traction power supply system Power quality monitoring Data center
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New-concept Design Innovation of Passenger Station Construction for Qinghe Railway Station of the Beijing-Zhangjiakou HSR
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作者 HUANG Jiahua 《Chinese Railways》 2022年第1期54-59,共6页
Qinghe Railway Station is the largest passenger station along the Beijing-Zhangjiakou HSR and will serve as the originating station of this line during the A 2022 Winter Olympics.It is also one of the eight major pass... Qinghe Railway Station is the largest passenger station along the Beijing-Zhangjiakou HSR and will serve as the originating station of this line during the A 2022 Winter Olympics.It is also one of the eight major passenger stations in.Beijing.During the construction of this station,all units involved in the construction have made their effors to learn and understand the new concept of building up a“well-connected,filly-integrated,environment-friendly,passenger-oriented,economically-efficient,culturally-rich,inelligent and convenient”passenger station in the new era.Qinghe Railway Station of the Beijing-Zhangjiakou HSR was completed and opened to traffic by the end of 2019 through exploration of new-concept design innovation for passenger station construction in the new era,which was widely praised by the general public.The paper summarizes how the new design concept of passenger station construction is innovated and implemented during the construction of Qinghe Railway Station,thus providing a reference for the future construction of passenger stations. 展开更多
关键词 Beijing-Zhangjiakou HSR Qinghe station high-speed railway passenger station construction design innovation
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Distributed Energy Management of Integrated Electricity-thermal Systems for High-speed Railway Traction Grids and Stations 被引量:5
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作者 Lizhou Jiang Zhaohong Bie +2 位作者 Tao Long Haipeng Xie Yao Xiao 《CSEE Journal of Power and Energy Systems》 SCIE CSCD 2021年第3期541-554,共14页
This paper proposes an integrated electricity-ther-mal energy management system(EMS)for high-speed railways.First,an operational model is built for the integrated electricity-thermal system,including a train operation... This paper proposes an integrated electricity-ther-mal energy management system(EMS)for high-speed railways.First,an operational model is built for the integrated electricity-thermal system,including a train operation EMS(TO-EMS)model and station operation EMS(SO-EMS)model.In the TO-EMS model,traction grids(TGs)are formulated with a solvable second-order cone programming problem.In the SO-EMS model,station indoor thermal systems are taken into account,and the building heat exchange process and solar radiation influence upon station indoor temperature are also included.Then the TO-EMS and the SO-EMS are coordinated with an alternating direction method of the multipliers-based(ADMM-based)algo-rithm,protecting the privacy and interests both for the train dispatch center and stations.To demonstrate the effectiveness of the proposed railway EMS,a modified realistic high-speed railway segment with six stations in North China with summer and winter scenarios is studied. 展开更多
关键词 Alternating direction method of multipliers algorithm distributed optimization railway energy management system(R-EMS) station thermal system traction grid(TG)
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Improved fault location method for AT traction power network based on EMU load test
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作者 Guosong Lin Xuguo Fu +1 位作者 Wei Quan Bin Hong 《Railway Engineering Science》 2022年第4期532-540,共9页
The autotransformer(AT)neutral current ratio method is widely used for fault location in the AT traction power network.With the development of high-speed electrified railways,a large number of data show that the relat... The autotransformer(AT)neutral current ratio method is widely used for fault location in the AT traction power network.With the development of high-speed electrified railways,a large number of data show that the relation between the AT neutral current ratio and the distance from the beginning of the fault AT section to the fault point(Q-L relation)is mostly nonlinear.Therefore,the linear Q-L relation in the traditional fault location method always leads to large errors.To solve this problem,a large number of load-related current data that can be used to describe the Q-L relation are obtained through the load test of the electric multiple unit(EMU).Thus,an improved fault location method based on the back propagation(BP)neural network is proposed in this paper.On this basis,a comparison between the improved method and the traditional method shows that the maximum absolute error and the average absolute error of the improved method are 0.651 km and 0.334 km lower than those of the traditional method,respectively,which demonstrates that the improved method can effectively eliminate the influence of nonlinear factors and greatly improve the accuracy of fault location for the AT traction power network.Finally,combined with a shortcircuit test,the accuracy of the improved method is verified. 展开更多
关键词 Fault location EMU load test BP neural network AT traction power network high-speed electrified railway
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Review and prospect of maintenance technology for traction system of high-speed train 被引量:3
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作者 Shaolong Xu Chunyang Chen +3 位作者 Zhenjun Lin Xiao Zhang Jisheng Dai Liangjie Liu 《Transportation Safety and Environment》 EI 2021年第3期196-215,共20页
In the past few decades,high-speed trains have witnessed tremendous and vigorous development with the appearance of the oil crisis and industrialization,which became a significant trend in the transportation industry ... In the past few decades,high-speed trains have witnessed tremendous and vigorous development with the appearance of the oil crisis and industrialization,which became a significant trend in the transportation industry the world over.With the increase of high-speed railway mileage,the amount of high-speed train has grown sharply,the service life of the trains has increased gradually and the components of the vehicle traction system have become worn and aged as a result.Therefore,advanced maintenance technology and its application are key factors to reduce maintenance cost,human resource input and ensure safe,stable and reliable operation of trains.This paper summarizes and discusses the development,application mode,maintenance management and maintenance technology of high-speed railways of the major countries in the world,especially discusses the condition-based maintenance and the key technology of the traction electrical system,and offers the prospect of research direction and the development of traction maintenance technology. 展开更多
关键词 high-speed railway traction system maintenance technology condition assessment life prediction condition-based maintenance Prognostic and health management(PHM)
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Life in the Slow Lane China’s unprofitable slow trains give villagers an affordable travel option
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作者 Li Jing 《ChinAfrica》 2019年第10期26-27,共2页
What comes to mind at the men-tion of China's railway?A high-speed train traveling at 350 km per hour?A rail network&nbsp;extending over 130,000 km?Overcrowded stations?Or perhaps,Chinese rail projects in Afri... What comes to mind at the men-tion of China's railway?A high-speed train traveling at 350 km per hour?A rail network&nbsp;extending over 130,000 km?Overcrowded stations?Or perhaps,Chinese rail projects in Africa and elsewhere in the world? 展开更多
关键词 railway high-speed stationS
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Simulation software for CRH2 and CRH3 traction driver systems based on SIMULINK and VC
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作者 Qin-fen LU Bin WANG +4 位作者 Xiao-yan HUANG Ji-en MA You-tong FANG Jin YU Wen-ping CAO 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2011年第12期945-949,共5页
Simulation models of traction driver systems were established using SIMULINK,according to the actual structure and parameters of China Railway High-Speed 2 (CRH2) and China Railway High-Speed 3 (CRH3) trains.In these ... Simulation models of traction driver systems were established using SIMULINK,according to the actual structure and parameters of China Railway High-Speed 2 (CRH2) and China Railway High-Speed 3 (CRH3) trains.In these models,the traction motor adopts transient current control and an indirect rotor magnetic field orientation vector control strategy,and the traction converter uses sinusoidal pulse width modulation (SPWM) and space vector pulse width modulation (SVPWM) methods.After these models are transformed in VC++ program,and a friendly interface and data processing system are constructed,simulation software is obtained for CRH2 and CRH3 traction driver systems.On this basis,the operational performance of a traction converter was simulated and analyzed at different train speeds and in different conditions.The simulation results can provide a reference for the actual design and production of a traction converter. 展开更多
关键词 high-speed train traction driver system VC China railway high-speed (CRH)
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