• Title/Summary/Keyword: maglev train

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Design and Analysis of a New Hybrid Electromagnetic Levitation System

  • Na, Uhn Joo
    • Journal of the Korean Society of Industry Convergence
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    • v.22 no.1
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    • pp.29-37
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    • 2019
  • A new permanent magnet biased hybrid maglev actuator is developed. Compared to the classical hybrid maglev actuators, the new maglev has unique flux paths such that bias fluxes are separated with control flux paths. The control flux paths have minimum reluctances only developed by air gaps, so the currents to produce control fluxes can be minimized. The consumed power to operate this maglev system can also be minimized. The gravity load can be compensated with the static magnetic forces developed by the permanent magnet bias fluxes while external disturbances are controlled with the bidirectional AC magnetic forces developed by control fluxes by currents. 1-D circuit model is developed for this model such that the flux densities and magnetic forces are extensively analyzed. 3-D finite element model is also developed to analyze the performances of the maglev actuator.

Development of Simulation Model for Predicting Dynamic Behavior of Maglev Train (자기부상 열차 동특성 예측을 위한 해석 모델 개발)

  • Kim, Chi-Ung;Park, Kil-Bae;Lee, Kang-Wun;Woo, Kwan-Je
    • Proceedings of the KSR Conference
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    • 2011.10a
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    • pp.2585-2593
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    • 2011
  • Maglev train system has been continuously received attention as it provides good ride quality and low noise and vibration level. Furthermore it is an eco-friendly transport system with little dust pollutant. However the dynamic performance of the vehicle has been influenced by the track layout and the structural stability of guideways and girders, etc. Especially the levitation control of magnetic module is the most important performance of the Maglev system and is very sensitive about the control algorithm and the parameters of the controller. In this paper, the co-simulation of the control and dynamic model has been proposed and the simulation results for the running simulation on the curve track has been shown.

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The Review of RAMS for Urban Maglev (자기부상 철도차량의 RAMS 현황)

  • Park, Jun-Seo;Kim, Jong-Woon;Kim, Jae-Hoon;Choe, Gang-Yun
    • Proceedings of the KSR Conference
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    • 2006.11a
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    • pp.123-134
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    • 2006
  • Putting the urban maglev train to practical use requires the systematic management to predict and solve the problems in advance, which are expected to occur in the operation of the vehicle, at each lifecycle step such as concept design, manufacture, commissioning and maintenance. In this article, we review the trend of international specification for railway RAMS and suggest the RAMS program from the viewpoint of system engineering. In addition, RAMS requirements for the advance into the foreign market are presented through the investigation of RAMS specifications for Metro transit in various principal countries. Lastly, we suggest the direction of RAMS research on maglev train for putting it to use by analysing the trend of RAMS researches in Japanese railway.

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A Study on the Method to Prepare System Operational Concept for Practical Use Project of Urban Maglev train (도시형 자기부상열차 실용화사업을 위한 시스템 운영개념 작성 방안에 대한 연구)

  • Chung, Kyung-Ryul;Park, Chul-Ho;Yoon, Se-Kyun;Kim, Chan-Mook
    • Proceedings of the KSR Conference
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    • 2007.05a
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    • pp.1505-1510
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    • 2007
  • When developers conduct a systems engineering approach the first problems that they will be faced are how to define and analyze the operational concept. In case of practical use project of MAGLEV train, those problems are also important since end products of practical use project must be assured for commercial service level. Lack of domestic developer's experience on systems engineering activity can cause a confusion a progress of the project. This study will propose a guide to establish an operational concept of project to develop or construct urban transit system.

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Estimation of Rail Joint Shape Using Signals Available in a MagLev Train (자기부상열차 계측 신호를 이용한 궤도 조인트 부 형상 추정)

  • Noh, M.;Song, I.;Nam, S.;Park, Y.-W.;Kang, H.
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2014.10a
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    • pp.622-624
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    • 2014
  • A maglev train records a host of physical variables such as gaps, voltages and currents for suspension control and monitoring purposes. These data available from a maglev contains wealth of information that can be explored for various uses. One possible of such application is to use the gap data to estimate the shape of the rail, especially at the joints where rails are connected. The eddy current sensors that measure the gap between the rail and the car body produce large peaks around the joints. The suspension controller discards these peaks. Since the shape of the peaks is related to the joint, however, these peaks can be utilized to estimate the shape of the joints. In this paper, we present preliminary results on estimating the joint shape using the peak data. The results show that the approach is promising, albeit several technical difficulties to overcome.

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Study on Optimal Design of Traverse Switch System for Maglev Train (자기부상열차용 트레버스 분기기 최적설계 연구)

  • Lee, Younghak;Kim, Chang-Hyun;Lee, Jong-Min
    • Journal of the Korean Society for Railway
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    • v.19 no.6
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    • pp.717-726
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    • 2016
  • Emergency tracks are necessary in case a broken down train evacuates, a train needs to make way for a faster train behind it, or a train suddenly stops and following trains must avoid colliding with it. Magnetic Levitated (maglev) Trains can change track to enter an emergency track using a segmented switch or a traverse switch. On a traverse switch, a train can change its track when the part of the track that the train is on moves to the other track. Currently manufactured Maglev trains have two bodies and the total length is 25 meters. If a traverse switch is used, it will only require 30 meters of track to move the train to the other track, so, when it comes to efficiency of costs and space, the traverse switch surpasses the articulated switch. Therefore, in this paper, an optimized design to secure structural safety and weight lightening is suggested. To achieve these results, the heights of the piled concrete and girders which are both placed on the top of the traverse switch, are set as design variables. The Finite Element Method (FEM), in application of kriging and in the design of the experiments (DOE), is used. Maximum stress, deformation, and structural weight are compared with the results, and through this process structural safety and weight lightening is proven.

Learning an Application of Superconductivity in Modern Mass Transportation

  • Ping, Jin;Hui, Liu;Li, Wan
    • International Journal of Railway
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    • v.5 no.4
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    • pp.148-151
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    • 2012
  • Applications of superconducting technology in transportation is more straightforward than others, such as magnetic levitation (maglev) trains. A maglev train is of high speed & low power-consumption, environmental friendly and safe, accompanied by some drawbacks. This article will introduce the application of superconducting technology in the urban mass transport system, and the bottleneck of this application.

An Operation Simulation of MAGLEV using DEVS Formalism Considering Traffic Wave (승객 유동을 고려한 DEVS 기반 자기부상열차 운행 시뮬레이션)

  • Cha, Moo-Hyun;Lee, Jai-Kyung;Beak, Jin-Gi
    • Journal of the Korea Society for Simulation
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    • v.20 no.3
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    • pp.89-100
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    • 2011
  • The MAGLEV (Magnetically Levitated Vehicle) system, which is under commercialization as a new transportation system in Korea, is operated by means of unmanned automatic control system. Therefore the plan of train operation should be carefully established and validated in advance. In general, when making the train operation plan, the statistically predicted traffic data is used. However, traffic wave can occur when real train service is operated, and the demand-driven simulation technology is required to review train operation plans and service qualities considering traffic wave. This paper presents a method and model to simulate the MAGLEV's operation considering continuous demand changes. For this purpose, we employed the discrete event model which is suitable for modeling the behavior of railway passenger transportation, and modeled the system hierarchically using DEVS (Discrete Event System Specification) formalism. In addition, through the implementation and experiment using DEVSim++ simulation environment, we tested the feasibility of the proposed model and it is also verified that our demand-driven simulation technology could be used for the prior review of the train operation plans and strategies.

A Study on a Concept and Basic Design of a Small-Scaled LSM for Ultra-High Speed Railway Transit (초고속열차용 축소모델 선형동기전동기의 개념 및 기본설계 연구)

  • Park, Chan-Bae;Lee, Hyung-Woo;Lee, Byung-Song;Park, Hyun-June
    • Proceedings of the KSR Conference
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    • 2009.05a
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    • pp.905-911
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    • 2009
  • The viscosity drive method by the wheel which is widely used in the conventional railway systems needs a large friction force between the wheel and the guide-rail, which brings on a thrust force for a quick acceleration and a high-speed travelling. In addition, the viscosity drive method needs an increase of the vehicle weight for a large friction force. However, a maglev train is possible to be driven by the electro-magnet instead of the wheel, which produces a levitation and thrust force without any contact. In general, low-speed maglev train uses a linear induction motor(LIM) for propulsion that is operated under 300[km/h] due to the power-collecting and end-effect problems of LIM. In case of high-speed maglev train, a linear synchronous motor(LSM) is more suitable than LIM because of a high-efficiency and high-output properties. LSM has a driving principle as same as a conventional rotary synchronous motor(RSM), and the torque of RSM becomes the thrust force of LSM. A conventional LSM has relatively large air-gap compared with a conventional RSM. So, it must be achieved a design that is considered normal force by finite-asymmetric structure, end-effect on the entry and exit part, and support structure of a moving part. Therefore, in this research, authors accomplish a conceptualizing and basic design of a small-scaled LSM, and characteristics analysis using FEM.

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The research to improve Thrust and Levitation Force characteristic of Linear Synchronous Motor for High-speed Maglev train (초고속 자기부상열차용 선형 동기 전동기의 추력 및 부상력 특성 개선을 위한 연구)

  • Hong, Hyun-Seok;Oh, Se-Young;Han, Jung-Ho;Lee, Ju
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.28 no.6
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    • pp.75-84
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    • 2014
  • A linear synchronous motor (Linear Synchronous Motor, under LSM) is suitable for Maglev train. This is 500km/h or more for running high-speed propulsion system of high-efficiency, high-output characteristics. Also, as high-speed running, it is needed solution to reduce output ripple component cause bad riding like noise and vibration. So this paper was designed 500km/h-class Maglev train and analyzed characteristics of the LSM base model using finite element analysis method. Further, improved model is designed to improve characteristics of thrust and levitation force by enforcing design parameters analysis and sensitivity analysis. And it was applied skew on field in order to reduce the ripple component still remaining. Skew interpretation of the two-dimensional is proposed and this is verified by carrying out three-dimensional finite element analysis comparing two values. It proved to be valid of skew of the two-dimensional analysis.