Analysis and Mitigation of Resonance Propagation in Grid-Connected and Islanding Microgrids

He Jinwei; Li Yun Wei; Wang RuiqiZhang Chenghui

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Analysis and Mitigation of Resonance Propagation in Grid-Connected and Islanding Microgrids

机译：Analysis and Mitigation of Resonance Propagation in Grid-Connected and Islanding Microgrids

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摘要

The application of underground cables and shunt capacitor banks may introduce power distribution system resonances. In this paper, the impacts of voltage-controlled and current-controlled distributed generation (DG) units to microgrid resonance propagation are compared. It can be seen that a conventional voltage-controlled DG unit with an LC filter has a short-circuit feature at the selected harmonic frequencies, while a current-controlled DG unit presents an open-circuit characteristic. Due to different behaviors at harmonic frequencies, specific harmonic mitigation methods shall be developed for current-controlled and voltage-controlled DG units, respectively. This paper also focuses on developing a voltage-controlled DG unit-based active harmonic damping method for grid-connected and islanding microgrid systems. An improved virtual impedance control method with a virtual damping resistor and a nonlinear virtual capacitor is proposed. The nonlinear virtual capacitor is used to compensate the harmonic voltage drop on the grid-side inductor of a DG unit LCL filter. The virtual resistor is mainly responsible for microgrid resonance damping. The effectiveness of the proposed damping method is examined using both a single DG unit and multiple parallel DG units.

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来源
《IEEE Transactions on Energy Conversion》 |2015年第1期|70-81|共12页
作者
He Jinwei; Li Yun Wei; Wang RuiqiZhang Chenghui;
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作者单位

Accuenergy Canada Inc, Toronto, ON M2J 4P8, Canada;

Univ Alberta, Edmonton, AB T6G 2R3, Canada;

State Grid Corp China, Shandong Elect Power Res Inst, Beijing 100053, Peoples R ChinaShandong Univ, Jinan 250100, Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
中图分类电工技术;
关键词
Active power filter; distributed power generation; droop control; grid-connected converter; microgrid; power quality; renewable energy system; resonance propagation; virtual impedance;

Analysis and Mitigation of Resonance Propagation in Grid-Connected and Islanding Microgrids

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