Time-domain Modeling of a Distribution System to Predict Harmonic Interaction Between PV Converters

2020 IEEE Power & Energy Society General Meeting (PESGM) Pub Date : 2020-08-02 DOI:10.1109/PESGM41954.2020.9281745

G. Todeschini, S. Balasubramaniam, P. Igić

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Abstract

Due to the interaction converter control, pre-existing distortion and grid impedance, the harmonic levels caused by renewable energy sources (RESs) are continuously changing, and their assessment requires the use of dedicated computer models. Several time-domain models have been proposed to carry out this analysis, however, they fall short of at least one requirement: either they do not provide accurate results, or they require an excessively long simulation time. This paper presents a novel time-domain model to address the gap described above: the proposed model employs average functions and a novel switching emulator. Therefore, it is referred to as ‘average model with switching emulator’ (AMSE). The proposed model is compared with existing models, and the results indicate that the AMSE meet both requirements stated above, as it accurately represents harmonic distortion while reducing significantly the simulation time. The second part of the paper discusses mitigating solutions to harmonic amplification in systems with a high penetration of VSCs, and shows the effectiveness of using an Active Filter to reduce harmonic levels in system experiencing resonance conditions.

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分布式系统的时域建模以预测光伏变流器之间的谐波相互作用

由于变流器控制、预先存在的失真和电网阻抗的相互作用，可再生能源引起的谐波水平是不断变化的，其评估需要使用专用的计算机模型。已经提出了几个时域模型来进行这种分析，然而，它们至少缺乏一个要求:要么它们不能提供准确的结果，要么它们需要过长的模拟时间。本文提出了一种新的时域模型来解决上述问题:该模型采用平均函数和新颖的开关仿真器。因此，它被称为“带切换仿真器的平均模型”(AMSE)。将所提出的模型与现有模型进行了比较，结果表明，AMSE既能准确地表示谐波失真，又能显著缩短仿真时间，满足了上述两个要求。论文的第二部分讨论了在vsc高渗透系统中缓解谐波放大的解决方案，并展示了在经历谐振条件的系统中使用有源滤波器降低谐波电平的有效性。

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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2020 IEEE Power & Energy Society General Meeting (PESGM)

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