• Title/Summary/Keyword: AC Traction Power Supply System

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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.

Development of Integrated Simulator for AC Traction Power Supply System (윈도우즈 기반의 교류 전기철도 급전시스템 통합 시뮬레이터 개발)

  • Kim, Joo-Rak;Kim, Jung-Hoon
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.59 no.1
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    • pp.76-81
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    • 2010
  • This paper describes the development of integrated simulator with GUI(Graphic User Interface) for traction power supply system. This simulator consists of a lot of calculation modules such as TPS, train time schedule, line constant, and power supply system analysis. Each module has input and output structure respectively. The algorithms of all modules have confirmed the validity to comparison with field test that is performed on both high speed railway line and conventional line.

Reliability Analysis of AC traction System Substation by using Bayes' Theory (베이즈 이론을 이용한 교류전철변전소의 신뢰도 분석)

  • Kim, Yong-Hyun;Koo, Bon-Hui;Cha, Jun-Min;Kim, Hyung-Chul
    • Proceedings of the KSR Conference
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    • 2008.06a
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    • pp.445-450
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    • 2008
  • The primary role of traction power systems is to provide reliable and continuous electrical energy to satisfy traction loads. AC traction substation transforms power from generation company and supply the power to the electric railway power line. Forced outage rate(FOR) of the equipment of substation should be used in the evaluation. This paper proposes the fast and easy way to evaluate by using Bayes' theory when a new equipment is added to the existing substation facility.

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Development of Simulator for AC Traction Power Supply System (교류 급전시스템 해석을 위한 윈도우즈 기반 시뮬레이터 개발)

  • Kim, Joo-Rak;Lee, Chang-Mu;Chang, Sang-Hoon;Kim, Jung-Hoon
    • Proceedings of the KSR Conference
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    • 2009.05a
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    • pp.411-417
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    • 2009
  • This paper describes the development of integrated simulator for traction power supply system with GUI (Graphic User Interface). This simulator consists of a lot of calculation modules such as TPS, time table, line constant, and power supply system analysis. Each module has input and output structure respectively. The proposed simulator is tested on both high speed railway line and metropolitan subway line. The test has confirmed the function of the developed simulator.

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Power System Simulation in Seoul matropolitain subway Line-6 system (서울 지하철 6호선에 대한 전력계통 시뮬레이션)

  • Lee, Tae-Shik;Moon, Young-Hyun;Sung, Soo-Young;Yoon, Kap-Koo
    • Proceedings of the KIEE Conference
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    • 1993.07a
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    • pp.137-139
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    • 1993
  • This paper details methods used to verify the adquacy of a dc traction power supply for design in Seoul matropolitain subway Line-6 system. Examples of the approach are given for a major subway presently under construction. The performance of trains operating at maximum system design capacity is modelled using a train simulation program. Using a dc network analyser program, the maximum train operating timetable, and a model of the ac and dc electrical suppy system, the electrical performance of the entire system can be modelled over a 24-hour period. The results of this analysis are used to determime: train voltage at a level sufficient to ensure train schedules: adequacy of traction transformers, rectifier, and switchgear ratings; sizes of the overhead contact systern conductors, and ac and de feeder cables: and power and energy demands at the utility company's supply points for inital and final timetable operations.

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Controllable Harmonic Generating Method for Harmonic Impedance Measurement of Traction Power Supply Systems Based on Phase Shifted PWM

  • Liu, Qiujiang;Wu, Mingli;Li, Jing;Zhang, Junqi
    • Journal of Power Electronics
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    • v.18 no.4
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    • pp.1140-1153
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    • 2018
  • The harmonic impedance characteristic of a traction power supply system (TPSS) is necessary for taking actions to suppress the high-order harmonic resonances caused by AC electric locomotives. This paper proposes a controllable harmonic generating method (CHGM) for measuring the TPSS harmonic impedance by injecting harmonic disturbances of different frequencies and amplitudes into the TPSS. This method applies phase shifted pulse-width modulation (PSPWM) and ensures that the undesired sideband harmonics can be negligible while the desired harmonic is both controllable and adjustable. Multiple harmonics can be emitted at the same time. The implementation of the method is also presented. Simulations are carried out to validate the performance of the proposed method. Finally, experimental results on a 5 H-bridge converters platform verified the effectiveness and feasibility of the proposed method.

A Control Method of Phase Angle Regulator for Parallel-Feeding Operation of AC Traction Power Supply System (교류전기철도 병렬급전 운영을 위한 위상조정장치 제어기법)

  • Lee, Byung Bok;Choi, Kyu Hyoung
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.21 no.5
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    • pp.672-678
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    • 2020
  • The parallel-feeding operation of an AC traction power supply system has the advantages of extending the power supply section and increasing the power supply capacity by reducing the voltage drop and peak demand caused by a train operation load. On the other hand, the parallel-feeding operation is restricted because of the circulating power flow induced from the phase difference between substations. Moreover, the power supply capacity is limited because of the unbalanced substation load depending on the trainload distribution, which can be changed by the train operation along the railway track. This paper suggests a Thyristor-controlled Phase Angle Regulator (TCPAR) to reduce the circulating power flow and the unbalanced substation load, which depends on the phase difference and the trainload distribution and provides a feasibility study. A dedicated control model of TCPAR is also provided, which uses substation power supplies as the input to control the circulating power flow and an unbalanced substation load depending on the phase difference and the trainload distribution. Simulation studies using PSCAD/EMTDC shows that the proposed TCPAR control model can reduce the circulating power flow and the unbalanced substation load depending on the phase difference and the trainload distribution. The proposed TCPAR can extend the parallel-feeding operation of an AC traction power system and increase the power supply capacity.

Reliability Analysis of AC Railway Substation by using FTA (FTA를 이용한 교류전철변전소의 신뢰도 분석)

  • Ku, Bon-Hui;Cha, Jun-Min;Kim, Hyung-Chul
    • Proceedings of the KSR Conference
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    • 2008.11b
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    • pp.248-254
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    • 2008
  • Electric railway system consists of traction power system, rolling stock, track, and overhead line system. A railway substation transforms the electric power transmitted from a electric power company and supply it to the railway power system for the operation of traction system.. It is very important to prevent a possible accident and keep the security of electric power system. This paper proposes a reliability analysis of AC railway substation by using Fault Tree Analysis(FTA). Failure rates of each equipment of railway substation are used to evaluate the reliability of railway substation. The analyzed results can be used to improve the system reliability. FTA is performed by the commercialized program of Relex(Ver. 7.7).

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Investigation of Autotransformer Configuration to Enhance Collecting Voltage in Train (집전 전압 향상을 위한 교류급전시스템의 단권변압기 구성 검토)

  • Kim, Joo-Rak;Kim, Jung-Hoon
    • Journal of the Korean Society for Railway
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    • v.13 no.1
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    • pp.65-70
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    • 2010
  • AC traction power supply system has adopted autotransformer (AT) feeding method. This system has an advantage as long feeding distance. However, the countermeasure for voltage drop should be considered, because load capacity grows larger and headway grows shorter in recent electric railway system. This paper proposes the improved system configuration to enhance voltage drop in ac railway system without additional power electronic device. That is to increase turn ratio between contact wire and rail of AT. By modifying turn ratio of AT at SSP or SP, collecting voltage on train will be enhanced.

A Study on the Propagation of Harmonic Current in the Traction Power Supply System (철도 전력공급시스템에서의 고조파전류 확대현상에 관한 연구)

  • Oh, K.H.;Chang, S.H.;Han, M.S.;Lee, C.M.;Shin, H.S.
    • Proceedings of the KIEE Conference
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    • 1998.07c
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    • pp.908-910
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    • 1998
  • Modern AC electric car has PWM(Pulse Width Modulation) -controlled converters, which give rise to higher harmonics. The current harmonics injected from AC electric car is propagated through power feeding circuit. As the feeding circuit is a distributed constant circuit composed of RLC, the capacitance of the feeding circuit and the inductance on the side of power system cause a parallel resonance and a magnification of current harmonics at a specific frequency. The magnified current harmonics usually brings about various problems. That is, the current harmonics makes interference in the adjacent lines of communications and the railway signalling system. Furthermore, in case it flows on the side of power system, not only overheating and vibration at the power capacitors but also wrong operation at the protective devices can occur. Therefore, the exact assessment of the harmonic current flow must be undertaken at design and planning stage for the electric traction systems. From these point of view, this study presents an approach to model and to analyse traction power feeding system focused on the amplification of harmonic current. The proposed algorithm is applied to a standard AT(Auto-transformer)-fed test system in which electric car with PWM-controlled converters is running.

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