Insulation coordination study for a 50 kV traction feeder station

机译：50 kV牵引馈线站的绝缘配合研究。

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The heavy haul rail network in Queensland Australia generally adopts a lightning impulse withstand voltage rating of 250 kV for the switchgear and autotransformers within its 50 kV ac traction feeder stations. The aging switchgear across a number of feeder stations in this network are undergoing upgrade and the rail network operator is considering the possibility of using 200 kV rating for the upgraded switchgear. This paper investigates the lightning over-voltages that could occur at the feeder stations under review. Fast front transient models of the feeder stations and the associated traction corridors are developed in PSCAD/EMTDC software. Simulations are conducted to evaluate the likely over-voltages under various scenarios and the results are presented. Finally, the required lightning impulse withstand voltage rating for the switchgear is determined based on the simulation results.

机译：澳大利亚昆士兰州的重载铁路网通常在其50 kV交流馈电站内的开关设备和自耦变压器采用250 kV的雷电冲击耐受电压。该网络中多个馈线站的老化开关设备正在接受升级，铁路网络运营商正在考虑将200 kV额定值用于升级后的开关设备的可能性。本文研究了在审查中的馈线站可能发生的雷电过电压。在PSCAD / EMTDC软件中开发了馈线站和相关牵引通道的快速瞬态模型。进行了仿真，以评估在各种情况下可能发生的过电压，并给出了结果。最后，根据仿真结果确定开关设备所需的雷电冲击耐受电压额定值。

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《Australasian Universities Power Engineering Conference》|2014年|1-6|共6页
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Perera L.B.; Mishra Y.;
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autotransformers; lightning protection; switchgear; traction power supplies; Australia; PSCAD-EMTDC software; Queensland; ac traction feeder stations; autotransformers; heavy haul rail network; insulation coordination; lightning impulse; lightning over-voltages; switchgear; traction corridors; voltage 200 kV; voltage 250 kV; voltage 50 kV; Conductors; Earth; Lightning; Power transformers; Surge protection; Surges; Wires; back-flashover; fast front transient study; insulation coordination; lightning impulse withstand voltage rating; lightning surge; surge arrestor; switchgear;

机译：自耦变压器;防雷;开关设备;牵引电源;澳大利亚; PSCAD-EMTDC软件;昆士兰州;交流牵引馈电站;自耦变压器;重载铁路网;绝缘配合;雷电冲击;雷电过电压;开关设备;牵引走廊;电压200 kV;电压250 kV;电压50 kV;导体;地球;闪电;电力变压器;电涌保护;电涌;电线;反向击穿;快速瞬态瞬变研究;绝缘配合;雷电冲击耐压等级;雷电浪涌;避雷器;开关柜;

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Insulation coordination study for a 50 kV traction feeder station

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