• Title/Summary/Keyword: Ultra-high-speed train

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Dynamic analysis of guideway structures by considering ultra high-speed Maglev train-guideway interaction

  • Song, Myung-Kwan;Fujino, Yozo
    • Structural Engineering and Mechanics
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    • v.29 no.4
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    • pp.355-380
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    • 2008
  • In this study, the new three-dimensional finite element analysis model of guideway structures considering ultra high-speed magnetic levitation train-bridge interaction, in which the various improved finite elements are used to model structural members, is proposed. The box-type bridge deck of guideway structures is modeled by Nonconforming Flat Shell finite elements with six DOF (degrees of freedom). The sidewalls on a bridge deck are idealized by using beam finite elements and spring connecting elements. The vehicle model devised for an ultra high-speed Maglev train is employed, which is composed of rigid bodies with concentrated mass. The characteristics of levitation and guidance force, which exist between the super-conducting magnet and guideway, are modeled with the equivalent spring model. By Lagrange's equations of motion, the equations of motion of Maglev train are formulated. Finally, by deriving the equations of the force acting on the guideway considering Maglev train-bridge interaction, the complete system matrices of Maglev train-guideway structure system are composed.

Systems Engineering Plan for the Development of Ultra-High-Speed Maglev Train System (초고속 자기부상철도 개발을 위한 시스템엔지니어링 계획서)

  • Lee, Young-Hoon;Min, Sung-Ki
    • Journal of the Korean Society of Systems Engineering
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    • v.5 no.1
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    • pp.21-32
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    • 2009
  • The systems engineering (SE) process shall be applied to the project for successful development of ultra-high-speed (UHS) Maglev train system which is one of very large and complex systems. It is important to abolish technology differentials from the advanced developers such as Germany, Japan, etc. and to ensure discriminatory competitiveness of the application of systems engineering process for the development of the system based on appropriate concepts and requirements. General operation concept and stakeholder's requirements of UHS Maglev train system must be elicited with system concept for initiating the project. The management plan should be devised for all sorts of systems engineering activities of risk management, performance management, lifecycle cost management, etc. This paper would support to establish the systems engineering management plan (SEMP) for the program of UHS Maglev train system development with associated documents.

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Parametric Study on the Aerodynamic Drag of Ultra High-speed Train in Evacuated Tube - Part 2 (진공튜브 내 초고속열차의 공기저항 파라메타 연구 - 2)

  • Kwon, Hyeok-Bin;Nam, Seong-Won;Kim, Dong-Hyeon;Jang, Yong-Jun;Kang, Bu-Byoung
    • Journal of the Korean Society for Railway
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    • v.13 no.1
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    • pp.51-57
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    • 2010
  • The aerodynamic drag of ultra high-speed train in evacuated tube have been calculated using computational fluid dynamics and the variation of aerodynamic drag for the change of major system parameter of tube-vehicle system such as the train speed, air density, and the tunnel diameter. The aerodynamic drag in the tube increases with increasing train speed, however, the ratio of drag increase in tube is larger than that on the open field, the V square rule. The aerodynamic drag decreases with increasing tunnel diameter and increasing air density, and the drag increasing for air density is almost linear just like that on open field. For some combination of the parameters, the trend of aerodynamic drag of train showed irregularity.

Analysis of Design Parameters for Earthwork/Bridge Transition Structure for Ultra-High Speed Running (초고속 주행시 교량/토공 접속부 보강방안의 설계변수 분석)

  • Lee, Il-Wha;Lee, Sung-Jin;Lee, Su-Hyung;Lee, Kang-Myung
    • Journal of the Korean Society for Railway
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    • v.18 no.2
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    • pp.117-126
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    • 2015
  • The development of railway roadbed for 600km/h train speed level is very difficult because unpredictable static and dynamic interaction occurs between the ultra-high speed train and the infrastructure. Especially, an earthwork-bridge transition zone is a section in which influential factors react, such as bearing capacity, compression, settlement, drainage, and track irregularity; these interactions can include complicated dynamic interaction. Therefore, if static and dynamic stability are secured in transition zones, it is possible to develop roadbeds for ultra-high speed railways. In the present paper, design parameters for transition reinforcement applied to present railway design criteria are analytically examined for ultra-high speed usage on a preferential basis. Design parameters are the presence of reinforcing materials, geometric shape, stiffness of materials, and so on. Analysis is focused on the deformation response of the track and running stability at ultra-high speed.

Analysis of Dynamic Characteristics for Concept Design of Independent-Wheel Type Ultra-High-Speed Train (독립차륜형 초고속 열차 개념 설계안의 동특성 해석)

  • Lee, Jin-Hee;Kim, Nam-Po;Sim, Kyung-Seok;Park, Tae-Won
    • Journal of the Korean Society for Railway
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    • v.17 no.1
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    • pp.28-34
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    • 2014
  • In this paper, a concept design of a rail type ultra-high-speed train is proposed and its dynamic characteristics are analyzed. Instead of the existing solid axle, a new type bogie system and independently rotating wheels are applied in the proposed train. In order to analyze the dynamic characteristics, a multibody dynamic model of a vehicle is developed and the basic validity is verified by eigenvalue analysis. Also, it is shown that the critical speed is improved in comparison to that of existing high-speed train model HEMU-430X. Finally, through 7000R curved track driving analysis at a speed of 550 km/h, the lateral force of the wheels and the derailment quotient are estimated and the applicability of the new concept railway vehicle is confirmed.

The Study on Analysis of Absolute Train Positioning System for Maglev System (자기부상철도의 절대위치검지시스템 구조 분석 연구)

  • Shin, Kyung-Ho;Shin, Duc-Ko;Lee, Jae-Ho
    • Proceedings of the KIEE Conference
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    • 2009.07a
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    • pp.1179_1180
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    • 2009
  • In the maglev system, accurate train position is essential for safe and efficient train operation. Train positioning systems in the maglev systems are different from conventional railway system because railway train has no wheels. And various train positioning principles and systems have been used in maglev systems. In this paper, we study several positioning principles and systems on adapting existing various maglev systems and analyze functional structure of absolute positioning system in ultra high speed maglev system. Then we propose development scheme on absolute positioning system for developing ultra high speed maglev system.

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Core Technologies of Superconducting Magnet for High-speed Maglev and R&D Activities in Korea (초고속 Maglev용 초전도 마그넷 요소 기술 및 국내 연구 개발 현황)

  • Lee, Chang-Young;Kang, Bu-Byoung;Han, Young-Jae;Sim, Ki-Deok;Park, Dong-Keun;Ko, Tae-Kuk
    • Proceedings of the KSR Conference
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    • 2009.05a
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    • pp.1454-1460
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    • 2009
  • Ultra-speed tube train, which runs in vacuum atmosphere to overcome aero-dynamic dragging force, is considered as a high-speed ground transportation system to back up long-distance air travel. To realize the ultra-speed tube train, feasibility study of currently available Maglev technologies especially for propulsion and levitation system is needed. Propulsion by linear synchronous motor(LSM) and levitation by electro-dynamic suspension(EDS) which are utilized in the Japan's MLX system could be one of candidated technologies for ultra-speed tube train. In the LSM-EDS system, the key component is superconducting magnet, and its reliability and performance is very important to guarantee the safe-operation of Maglev. As the initiative of the feasibility study, this paper deals with the basic structure of superconducting magnet and core technologies to design and operate it. And by surveying the current R&D achievement in Korea, the nation's capability to develop advanced superconducting magnet for Maglev is presented.

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Study on the Design of a Rotary-type LSM and Test Equipment for Design Verification of LSM for Ultra-high-speed Train (초고속열차용 LSM 설계 검증을 위한 회전형 구조의 LSM 및 시험기 설계 연구)

  • Park, Chan-Bae
    • Journal of the Korean Society for Railway
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    • v.20 no.2
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    • pp.196-202
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    • 2017
  • A very long test track is required for high-speed operation test of the real-scale Linear Synchronous Motor (LSM) for ultra-high-speed trains. The required length results in huge construction cost and economic loss if any error occurs during development. Therefore, validation study of the LSM design technology using a low-cost small-scale model must be carried out in the early research stages. It is possible to deduce an optimal winding method for the armature and determine the mechanical properties of the LSM through a performance tester that applies a rotary-type small-scale LSM model. In addition, it is possible to utilize previous research on LSM control systems. Therefore, a basic design model, comprising a rotary-type LSM tester that meets the requirements for the propulsion of 600km/h-class ultra-high-speed trains, is derived in this study. Finally, an optimal model, which has a stable structure under the condition of 1500rpm or more high-speed rotation, is derived by electromagnetic and mechanical stiffness analysis.