Operation challenges of feeder shunt capacitors in islanded microgrids

2015 IEEE Electrical Power and Energy Conference (EPEC) Pub Date : 2015-10-01 DOI:10.1109/EPEC.2015.7379948

Nader A. El-Taweel, H. Farag

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引用次数: 7

Abstract

Active distribution systems are moving towards a new paradigm shift, where they can be clustered into microgrids capable of operating in both grid-tied and islanded modes depending on the penetration levels and types of the distributed generation (DG) units. Previous studies put on view lots of advantages and concerns for microgrids operation in islanded mode, whether it is initiated for emergency, intentionally planned or permanent island system purposes. One of the concerns that have not been addressed yet, is the functionality of the existing feeders shunt capacitors (FSCs) when microgrids operate in islanded mode. Hence, this paper investigates the operation conflicts between DG units and FSCs during the islanded microgrid mode of operation. These operation conflicts have been validated through conducting simulations for different local control schemes of FSCs. The results show that major voltage regulation and reactive power control problems might arise when DG units are droop-controlled and FSCs utilize conventional control schemes. Further, a new local control scheme for FSCs has been proposed to mitigate their operational challenges in islanded microgrids.

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孤岛微电网馈线并联电容器的运行挑战

主动配电系统正朝着新的模式转变，根据分布式发电(DG)单元的渗透水平和类型，它们可以聚集成能够以并网和孤岛模式运行的微电网。无论是出于应急、有意规划还是永久孤岛系统的目的，以往的研究都指出了孤岛模式微电网运行的诸多优势和担忧。其中一个尚未解决的问题是，当微电网在孤岛模式下运行时，现有馈线并联电容器(FSCs)的功能。因此，本文研究孤岛微网运行模式下DG机组与FSCs之间的运行冲突。通过对fsc不同局部控制方案的仿真，验证了这些操作冲突。结果表明，当DG机组采用下垂控制而fsc采用常规控制方案时，可能会出现主要的电压调节和无功控制问题。此外，还提出了一种新的fsc局部控制方案，以减轻其在孤岛微电网中的运行挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Electrical Power and Energy Conference (EPEC)

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