Mitigation of Photovoltaic Solar System Harmonics using Shunt Active Power Filter

2020 Fourth International Conference on Computing Methodologies and Communication (ICCMC) Pub Date : 2020-03-01 DOI:10.1109/ICCMC48092.2020.ICCMC-000105

B.Neelakanteshwar Rao, P. Krishna, Venu Yarlagadda

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引用次数: 3

Abstract

Modern power systems are equipped with green and renewable energy resources; one among them is Photovoltaic solar generating plant. This article aims at extracting maximum power from the solar power plant at various loading conditions, using maximum power point tracking algorithm. Solar plant output is fed to boost converter to enhance the dc output voltage. The increased dc voltage is fed to the three phase five level voltage source inverter to transform dc voltage into ac voltage. Inverter operation introduces harmonics into the system. Hence, this article also focuses on implementation of the active filter to minimize the harmonics introduced by the inverter into the system. The work progresses in two parts, one is stand alone photovoltaic solar system and the second is solar system tied to the grid. The active filter is designed and implemented using MATLAB Simulink for both of the systems to mitigate harmonics. Fast Fourier analysis has been used to obtain the total harmonic distortion in both the systems. The result shows the tremendous improvement in mitigation of system harmonics.

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并联有源电力滤波器对光伏太阳能系统谐波的抑制

现代电力系统采用绿色可再生能源;其中之一是光伏太阳能发电厂。本文利用最大功率点跟踪算法，对不同负荷条件下太阳能电站的最大功率进行提取。太阳能发电厂的输出被馈送到升压变换器以提高直流输出电压。增加的直流电压被馈送到三相五电平电压源逆变器，将直流电压转换成交流电压。逆变器的运行将谐波引入系统。因此，本文还侧重于有源滤波器的实现，以最大限度地减少逆变器引入系统的谐波。工作进展分为两部分，一是独立式光伏太阳能系统，二是并网式太阳能系统。利用MATLAB Simulink设计并实现了两个系统的有源滤波器，以减轻谐波。利用快速傅立叶分析得到了两种系统的总谐波畸变。结果表明，该方法对系统谐波的抑制有很大的改善。

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 Fourth International Conference on Computing Methodologies and Communication (ICCMC)

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