Mitigation strategies for communication networks induced impairments in autonomous microgrids control: A review

Q3 Engineering
Olayanju Sunday Akinwale, D. Mojisola, Ponnle Akinlolu
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引用次数: 2

Abstract

The advancement in communication technology and the availability of intelligent electronic devices (IEDs) have impacted positively on the penetration of renewable energy sources (RES) into the main electricity grid. High penetration of RES also come along with greater demand for more effective control approaches, congestion management techniques, and microgrids optimal dispatch. Most of the secondary control methods of microgrid systems in the autonomous mode require communication links between the distributed generators (DGs) for sharing power information and data for control purposes. This article gives ample review on the communication induced impairments in islanded microgrids. In the review, attention is given to communication induced delay, data packet loss, and cyber-attack that degrades optimal operations of islanded microgrids. The review also considered impairments modelling, the impact of impairments on microgrids operation and management, and the control methods employed in mitigating some of their negative impacts. The paper revealed that innovative control solutions for impairment mitigation rather than the development of new high-speed communication infrastructure should be implemented for microgrid control. It was also pointed out that a sparse communication graph is the basis for communication topology design for distributed secondary control in the microgrid.
自主微电网控制中通信网络诱发损伤的缓解策略综述
通信技术的进步和智能电子设备(ied)的可用性对可再生能源(RES)渗透到主电网产生了积极的影响。可再生能源的高度普及也伴随着对更有效的控制方法、拥塞管理技术和微电网优化调度的更大需求。在自主模式下,微电网系统的二次控制方法大多需要分布式发电机组之间的通信链路,以共享电力信息和数据,实现控制目的。本文对孤岛微电网的通信损伤进行了综述。在这篇综述中,重点关注了通信引起的延迟、数据包丢失和网络攻击,这些都会降低孤岛微电网的最佳运行。该审查还考虑了损害建模、损害对微电网运行和管理的影响,以及为减轻其某些负面影响而采用的控制方法。研究表明,微电网控制应采用创新的控制解决方案来减轻损害,而不是发展新的高速通信基础设施。指出稀疏通信图是微电网分布式二次控制通信拓扑设计的基础。
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
AIMS Electronics and Electrical Engineering
AIMS Electronics and Electrical Engineering Engineering-Control and Systems Engineering
CiteScore
2.40
自引率
0.00%
发文量
19
审稿时长
8 weeks
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