Research on Active Protection Method for Microgrids Based on Harmonic Injection

IF 9.8 1区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Smart Grid Pub Date : 2024-09-02 DOI:10.1109/TSG.2024.3453369

Linyi Xue;Longhua Mu;Chongkai Fang;Jiran Zhu

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Abstract

With the increasing penetration of inverter interfaced distributed generators (IIDGs) in microgrids, traditional protection schemes are difficult to cope with the complexities of microgrids. Harmonic-injected protection schemes based on power electronic devices can simplify the harmonic component equivalent network of the microgrid into a single-source radial structure. However, the performance of these schemes is degraded by the shunt effect of the non-harmonic injection source IIDGs and the utility grid. This paper focuses on the active protection method for microgrids based on harmonic injection. A fault control strategy based on harmonic current control and principles for PCC filter parameter design are proposed to address the shunt effect. With the proposed strategy, harmonic currents of varying frequencies are injected into the microgrid by the IIDGs, and the major portion of the injected harmonic currents can flow to the fault point. By analyzing the fault characteristics, a fault location method based on harmonic injection is proposed. Finally, simulation analysis is carried out on MATLAB/Simulink platform, and the effectiveness of the proposed active protection scheme is verified by the results.

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基于谐波注入的微电网主动保护方法研究

随着逆变接口分布式发电机（iidg）在微电网中的日益普及，传统的保护方案难以应对微电网的复杂性。基于电力电子器件的谐波注入保护方案可以将微电网的谐波分量等效网络简化为单源径向结构。然而，这些方案的性能受到非谐波注入源iidg和公用电网的分流效应的影响。研究了基于谐波注入的微电网主动保护方法。提出了一种基于谐波电流控制和PCC滤波器参数设计原则的故障控制策略，以解决并联效应。采用该策略，iidg向微电网注入不同频率的谐波电流，注入的谐波电流大部分可流向故障点。在分析故障特征的基础上，提出了一种基于谐波注入的故障定位方法。最后，在MATLAB/Simulink平台上进行了仿真分析，结果验证了所提主动保护方案的有效性。

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来源期刊

IEEE Transactions on Smart Grid ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

22.10

自引率

9.40%

发文量

526

审稿时长

6 months

期刊介绍： The IEEE Transactions on Smart Grid is a multidisciplinary journal that focuses on research and development in the field of smart grid technology. It covers various aspects of the smart grid, including energy networks, prosumers (consumers who also produce energy), electric transportation, distributed energy resources, and communications. The journal also addresses the integration of microgrids and active distribution networks with transmission systems. It publishes original research on smart grid theories and principles, including technologies and systems for demand response, Advance Metering Infrastructure, cyber-physical systems, multi-energy systems, transactive energy, data analytics, and electric vehicle integration. Additionally, the journal considers surveys of existing work on the smart grid that propose new perspectives on the history and future of intelligent and active grids.