超导故障限流器减轻直流-高压直流系统直流线路故障的影响

P. Manohar, W. Ahmed
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引用次数: 51

摘要

基于电压源变换器的架空输电系统在线路故障时容易出现严重过电压。目前,它们仅应用于背靠背和/或地下电缆传输,具有低额定功率。传统直流输电系统采用控制器和平滑电抗器能很好地抑制直流故障,而基于电压源变换器的直流输电系统则不能很好地抑制直流故障。这就需要某种保护装置的操作。在这方面,超导故障限流器是一种可能的装置,可以减轻直流线路故障的影响。本研究的目的是评估超导故障限流器集成的vdc - hvdc系统的动态性能。利用MATLAB对电阻式超导故障限流器进行建模,并在PSCAD/EMTDC环境下与低压vdc - hvdc系统接口。给出了各种交流和直流故障条件下的分析结果。
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Superconducting fault current limiter to mitigate the effect of DC line fault in VSC-HVDC system
Voltage source converter based HVDC systems involving overhead transmission lines are prone to severe over-voltages during line faults. At present, they find applications only in back to back and/or underground cable transmission, with low power ratings. A conventional HVDC system suppresses the dc fault very well with the controllers and smoothing reactors while the same is not true with voltage source converter based HVDC systems. This necessitates the operation of some kind of protective devices. A superconducting fault current limiter, in this regard, is a possible device which can mitigate the effects of dc line faults. In this work, it is aimed to evaluate the dynamic performance of VSC-HVDC system integrated with a superconducting fault current limiter. The resistive superconducting fault current limiter is modeled in MATLAB and is interfaced with low voltage VSC-HVDC system, in PSCAD/EMTDC environment. The results of analysis for various ac and dc fault conditions are presented.
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