基于差分电流法的IEEE 9总线直流微电网系统故障检测

2020 3rd International Conference on Energy, Power and Environment: Towards Clean Energy Technologies Pub Date : 2021-03-05 DOI:10.1109/ICEPE50861.2021.9404533

S. K. Prince, Shaik Affijulla, G. Panda

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引用次数: 5

摘要

与传统的交流电力系统相比，直流微电网的故障电流变化很快。这是由于直流微电网中基于低无源的分布式能源通过电子转换器传输电力。此外，由于故障电流的大小有限，故障检测和识别是一项具有挑战性的任务。针对9母线直流微电网系统的短路快速检测和故障隔离问题，提出了一种新的有效保护系统。这是通过允许，通过累积的差分和反向电流为基础的方法，由固态断路器动作的故障隔离完成的。通过对局部测量的电流和电压信号进行边界分析，识别出故障线路。有缺陷的分支通过系统中每个节点的跳闸隔离。最后，设计了PSS®SINCAL系统在极-极故障下的两个仿真结果，验证了该方法的可靠性。仿真结果表明，系统故障可以通过系统各节点的跳闸隔离。

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Fault Detection in IEEE 9-Bus DC Microgrid System using Differential Current Method

The fault current in DC microgrids changes quickly compared to conventional AC power systems. This is due to low passivity-based distributed energy resources in DC microgrids that transfer power through electronic converters. Additionally, due to the limited magnitude of fault current, fault detection and identification is an additional challenging task. This paper proposes a new effective protection system for rapid short-circuit detection and isolation of faults in a 9 bus DC microgrid system. This is accomplished by allowing, via a cumulative sum of differential forward and reverse current based method, the fault Isolation by a solid-state circuit breaker action. The faulty line is identified through boundary analysis of locally measured current and voltage signals. The defective branch is isolated by a trip at each node in the system. Finally, two tests of simulation results of the system under pole-pole fault in PSS®SINCAL have been designed which achieve the reliability of the method. The simulation result showed that the system fault can be isolated by a trip at each node in the system.

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2020 3rd International Conference on Energy, Power and Environment: Towards Clean Energy Technologies

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