• Title/Summary/Keyword: traction system

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A Study of Traction Power System Reliability (철도 급전시스템 신뢰도 평가 연구)

  • Kim Hyungchul;Cha Jun-Min;Kim Jin-O;Han Moonseob
    • Proceedings of the KSR Conference
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    • 2005.05a
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    • pp.806-812
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    • 2005
  • This paper proposes a new reliability evaluation for traction power system. The electric railway consists of traction power systems, various vehicles, operating equipment, track, overhead line and electric equipment. It is a fundamental function of traction power systems that supply customers with reasonable price, acceptable reliability and high quality power. In a general way, the power system reliability deals with the ability to satisfy load demands in supply capability or rating of every factor. On the other hand, the reliability of traction power systems has been focused on train time delay caused by power outage. In this paper, we make a selection optimum reliability indices for the reliability evaluation of electric traction power systems. The reliability study not only applies a plan for traction supply system after detecting the vulnerable point of existing traction supply systems but also makes a role in stable operating railway.

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Configuration design of the trainset of a high-speed train using neural networks

  • Lee, Jangyong;Soonhung Han
    • Proceedings of the Korea Inteligent Information System Society Conference
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    • 2001.01a
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    • pp.116-121
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    • 2001
  • Prediction of the top(service) speeds of high-speed trains and configuration design to trainset of them has been studied using the neural network system The traction system. The traction system of high-speed trains is composed of transformers, motor blocks, and traction motors of which locations and number in the trainset formation should be determine in the early stage of train conceptural design. Components of the traction system are the heaviest parts in a train so that it gives strong influence to the top speeds of high-speed trains. Prediction of the top speeds has been performed mainly with data associated with the traction system based on the frequently used neural network system-backpropagation. The neural network has been trained with the data of the high-speed trains such as TGV, ICE, and Shinkanse. Configuration design of the trainset determines the number of trains motor cars, traction motors, weights and power of trains. Configuration results from the neural network are more accurate if neural networks is trained with data of the same type of trains will be designed.

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Traction System Combined Test of KHST for Propulsion System Performance Verification (한국형 고속전철 추진성능 검증을 위한 추진시스템 통합시험)

  • Ryoo H.J.;Kim J.S.;Kim Y.J.;Knoh A.S.;Jung E.S.;Choi J.M.
    • Proceedings of the KIPE Conference
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    • 2003.07b
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    • pp.886-890
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    • 2003
  • This paper introduces the combined test results of the traction system for KHST(Korean High Speed Train: hereafter refer to KHST). The main purpose of this combined test is to verify the performance of the traction system that is designed to operate up to maximum 350km/h speed. Combined test system consists of a traction transformer, two AC-DC PWM converters, a PWM Inverter, two traction motors and flywheel system. Flywheel system represents equivalent model of the train inertia. Also traction control system and MASCON Interfaces are included. Various kinds of experiments are performed to prove total traction system performance and detail waveforms are described

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A Phase-shifter for Regulating Circulating Power Flow in a Parallel-feeding AC Traction Power System

  • Choi, Kyu-Hyoung
    • Journal of Electrical Engineering and Technology
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    • v.9 no.4
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    • pp.1137-1144
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    • 2014
  • A parallel-feeding AC traction power system increases the power supply capacity and decreases voltage fluctuations, but the circulating power flow caused by the phase difference between the traction substations prevents the system from being widely used. A circuit analysis shows that the circulating power flow increases almost linearly as the phase difference increases, which adds extra load to the system and results in increased power dissipation and load unbalance. In this paper, we suggest a phase shifter for the parallel-feeding AC traction power system. The phase shifter regulates the phase difference and the circulating power flow by injecting quadrature voltage which can be obtained directly from the Scott-connection transformer in the traction substation. A case study involving the phase shifter applied to the traction power system of a Korean high-speed rail system shows that a three-level phase shifter can prevent circulating power flow while the phase difference between substations increases up to 12 degrees, mitigate the load unbalance, and reduce power dissipation.

Performance Analysis of the Linear Induction Motor for the Deep-Underground High-Speed GTX

  • Park, Chan-Bae;Lee, Hyung-Woo;Lee, Ju
    • Journal of Electrical Engineering and Technology
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    • v.7 no.2
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    • pp.200-206
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    • 2012
  • In order to develop a deep-underground great train express (GTX) in South Korea, the specifications decision and development of a traction control system (including an inverter and a traction motor), which considers a variety of route conditions, must be advanced. In this study, we examined the running resistance properties of a high-speed traction system based on a variety of tunnel types and vehicle organization methods. Then, we studied the power requirements necessary for the traction motor to maintain balanced speed in the high-speed traction system. From this, we determined the design criteria for the development of a high-speed traction system for use in the deep-underground GTX. Finally, we designed a linear induction motor (LIM) for a propulsion system, and we used the finite element method (FEM) to analyze its performance as it travelled through deep-underground tunnels.

Development of EMU Traction Control System (전동차 추진제어장치 개발)

  • 이일호;이인석;정은성;한성수;배본호
    • Proceedings of the KSR Conference
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    • 2000.11a
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    • pp.659-665
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    • 2000
  • EMU Traction Control System has been largely relied on foreign technology until now. In this time, this system is developed by own local technology according to national technology development policy during 3 years. In this paper, the new developed Traction Control System of EMU and its testing results are introduced. The Traction Control System is consisted latest IGBT switching elements and its traction control algorithm is realized by the state-of-the-art technology, vector control. The system is fully tested in various conditions and the quality is well verified in those tests.

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A Study on Railway Electric Traction Protection System (전철용 보호계전기 시스템에 관한 연구)

  • Lee, Hee-Yong;Kim, Wang-Gon;Lee, Jong-Woo
    • Proceedings of the KSR Conference
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    • 2004.10a
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    • pp.1390-1395
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    • 2004
  • Recently, the load increasement and new regenerative systems of electrified railway system make it a difficult to distinguish between the load current and fault current. The failure of traction system perhaps causes over-current to flow. The high current can collapse other railway systems. If failures of the traction system takes place, the failures are detected and protected lest it should provoke high current flow. The over current from such a traction system failure permit to charge high tension voltage and produces high temperature arc, voltage instability, current cutting, and break down railway systems. The traction system failures detect and the system has to immediately cut off from over-current flow. To isolate the failure, the system can distinguish failure current from current flows. It forces us to adapt such as a new intelligent protection system. The protective system in traction system play a role of detecting and isolating failure points. In this paper, we proposed intelligent algorithm for discriminating normal and abnormal situation instead of the system being operated abnormally.

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A Trend of Direct Drive Traction Motor for Next Generation Railway Vehicles (차세대 철도차량용 직접구동방식 T/M개발관련 기술개발 동향)

  • 권중록;김남해;김근웅;이정일;이종인
    • Proceedings of the KSR Conference
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    • 2002.10a
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    • pp.434-439
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    • 2002
  • The researches on the direct drive system, which directly transfers axle load of the traction motor to wheels, have been developed as a next generation drive system in Japan and Europe. As a result of excluding couplings and gear units, the direct drive system has advantages on the bogie mount space to be smaller sized, lower noisy, more efficient and less weighted than the conventional drive system - indirect drive system. Since the simplification of the direct drive system design depends on the design of the traction motors, the researches on the direct drive system with focusing on the traction motors get started. The advantages/disadvantages of direct drive system, types, structures, cooling systems and interfaces of the traction motors are presented on this paper. Furthermore, the development of other countries on the electric equipments of the next generation railway vehicles are discussed and the necessity & requirement for developing new concepts of traction motors are assured.

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A Study on the Applicability of the Conventional TTX Propulsion System on the High-speed Propulsion System for a Deep-underground GTX

  • Park, Chan-Bae;Lee, Byung-Song;Lee, Ju
    • International Journal of Railway
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    • v.3 no.2
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    • pp.54-59
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    • 2010
  • In order to develop the deep-underground GTX (Great Train eXpress) in domestic, the running performance analysis of the propulsion system by a variety of route condition must be carried out before studying the specification and the development of the high-speed propulsion system with inverter and traction motor. Then it is necessary to study the running resistance properties of the high-speed traction system for the variety of tunnel type and vehicle organization method at first. In addition, the properties of the power requirement of the traction motors needed to maintain the balanced speed of the high-speed traction system are next studied. We need to study properties of the emergency braking distance caused by the highest operation speed of the high-speed traction system and present the fundamental design technologies to develop the high-speed traction system for the deep-underground GTX. Finally, the paper analyzes the applicability of the conventional Korean Tilting Train eXpress (TTX) propulsion system on the high-speed propulsion system for the deep-underground GTX.

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