Stability enhancement of a hybrid micro-grid system in grid fault condition

2012 15th International Conference on Electrical Machines and Systems (ICEMS) Pub Date : 2012-10-01 DOI:10.11142/JICEMS.2013.2.2.225

M. N. Ambia, A. Al‐Durra, Cedric Caruana, S. Muyeen

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引用次数: 11

Abstract

Low voltage ride through capability augmentation of a hybrid micro-grid system is presented in this paper which reflects enhanced reliability in the system. The control scheme involves parallel connected multiple ac-dc bidirectional converters. When the micro-grid system is subjected to a severe voltage dip by any transient fault single power converter may not be able to provide necessary reactive power to overcome the severe voltage dip. This paper discusses the control strategy of additional power converter connected in parallel with main converter to support extra reactive power to withstand the severe voltage dip. During transient fault, when the terminal voltage crosses 90% of its pre-fault value, additional converter comes into operation. With the help of additional power converter, the micro-grid system withstands the severe voltage fulfilling the grid code requirements. This multiple converter scheme provides the micro-grid system the capability of low voltage ride through which makes the system more reliable and stable.

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电网故障条件下混合微电网系统稳定性增强研究

本文提出了混合微电网系统低压穿越能力的增强，这反映了系统可靠性的增强。该控制方案涉及并联多个交直流双向变换器。当微电网系统由于任何暂态故障而遭受严重电压陡降时，单个电源变流器可能无法提供克服严重电压陡降所需的无功功率。本文讨论了与主变流器并联的附加功率变流器的控制策略，以支持额外的无功功率以承受严重的电压跌落。在暂态故障中，当终端电压超过故障前电压的90%时，附加变流器开始工作。在附加功率变换器的帮助下，微电网系统能够承受满足电网规范要求的高电压。这种多变流器方案为微电网系统提供了低电压穿越能力，使系统更加可靠和稳定。

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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来源期刊

2012 15th International Conference on Electrical Machines and Systems (ICEMS)

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