电力系统故障限流器技术的研究。
超导故障限流器应用于电力系统具有重大的意义。
The applications of SFCL to electric power systems are of great importance.
介绍了一种适用于三相不接地系统的短路故障限流器。
This paper introduces a novel short circuit fault current limiter applicable to the three-phase ungrounded power systems.
超导故障限流器可以在限流的同时实现控制非故障线路电压跌落的目的。
The superconducting fault current limiter (SFCL) can limit current and realize to control the voltage dip in non-faulted line.
首先,本文概述了故障限流器的研究现状、存在问题以及本文所作的工作。
The fault-current limiter (FCL) problems and the background of this thesis are summarized in the first chapter, as well as what's this thesis does.
为降低大容量输电系统的短路电流水平,提出一种基于饱和电抗器的串联谐振式故障限流器。
With a view to reducing the short circuit current level of large capacity transmission systems, an in-series resonant type FCL based on saturated inductor is presented.
从第四章开始主要研究具有可控串联补偿功能的故障限流器(FCL)对改善电力系统暂态稳定性的影响。
Begin with chapter 4, the influence of Fault Current Limiter (FCL) with controllable series compensation on improving transient stability of power systems is described.
给出了超导限流器的数学模型,着重分析了超导限流器限流电阻和故障检测时间对短路电流峰值、非故障线电压、超导限流器上的电压的影响。
The limiting resistance in SFCL and the fault detection time impact on peak value of fault current, line voltage of feeders without fault and voltage across SFCL are analysed.
该文指出整流式故障电流限制器在限流过程中降低了短路电流幅值,改变了短路电流波形,明显地影响到高压断路器的关合开断能力。
The rectifier type FCL not only reduces the amplitude of short circuit currents but also changes their waveform which seriously affects the making and breaking capability of HV circuit breakers.
探讨了中性点接地三相桥式固态限流器桥路故障诊断方法。
This paper presents a fault diagnosis method for neutral grounding three-phase bridge type solid-state fault current limiter (SSFCL).
该方法用于在线监测、诊断桥式固态限流器整流桥桥臂故障,具有监测量更少、得到的故障判据更简洁等诸多优点。
This method can reduce monitoring points, get more concise criterions of fault types and has many other advantages when it is used to on-line monitor and diagnose SSFCL bridge arm fault.
该方法用于在线监测、诊断桥式固态限流器整流桥桥臂故障,具有监测量更少、得到的故障判据更简洁等诸多优点。
This method can reduce monitoring points, get more concise criterions of fault types and has many other advantages when it is used to on-line monitor and diagnose SSFCL bridge arm fault.
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