利用Luo变换器提高并网光伏系统的性能

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
P. Anbarasan;M. Venmathi;M. Vijayaragavan;V. Krishnakumar
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引用次数: 5

摘要

本文的主要目的是实现一种新型的基于有功功率解耦的Luo变换器,用于弱电网系统与光伏(PV)系统的接口。修正的扰动和观测(P&O)算法已用于从光伏源提取最大功率。所提出的系统能够在独立模式和并网模式下运行。Luo变换器具有浪涌电流小、电压增益高、纹波小、功率密度高、效率高、结构简单等优点,具有广阔的应用前景。因此,Luo转换器已用于从光伏电源中提取最大功率,这适用于并网和孤岛运行模式。改进的P&O算法已用于最大功率提取。所提出的MPPT技术通过在传统P&O算法中使用的数据之外还包括电流变化数据($\Delta I$)来减少在传统MPPT方法中出现的漂移问题。这种提取是通过使用一种新的去耦方法实现的,这反过来又减小了滤波器的大小。转换器和去耦方法还确保电网输出处的谐波减少。分析了所提出的转换器在不同运行模式下的工作原理和稳定性分析,如并网模式和单机模式。仿真是在MATLAB/Simulink环境下进行的。转换器的实现是使用基于微控制器的原型模型来验证性能的。所提出的转换器在并网模式下运行时的效率计算为87.53%,而在独立模式下运行的效率为92.46%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance Enhancement of Grid Integrated Photovoltaic System Using Luo Converter
The main aim of this article is to implement a novel active power decoupling-based Luo converter for the weak grid system interfacing photovoltaic (PV) system. The modified Perturb and Observe (P&O) algorithm has been used for maximum power extraction from the PV source. The proposed system is capable of operating in the standalone mode and the grid-connected mode. The Luo converter is promising with the viewpoint of low inrush current, high voltage gain, small ripples along with high power density, high efficiency, and simple structure. Hence, the Luo converter has been used for maximum power extraction from the PV source, which is appropriate for both grid-tied and islanding modes of operation. The modified P&O algorithm has been used for maximum power extraction. The proposed MPPT technique reduces the drift problem, which occurs in the conventional MPPT methods by including the data of change in current ( $\Delta I$ ) in addition to the data used in the conventional P&O algorithm. This extraction has achieved by using a novel decoupling method, which, in turn, reduces the size of the filter. The converter along with the decoupling method also ensures reduced harmonics at the grid output. The operational principle and the stability analysis of the proposed converter have been analyzed in different modes of operation, such as grid-connected mode and standalone. The simulation has been carried out in MATLAB/Simulink environment. The implementation of the converter is carried out using a microcontroller-based prototype model to validate the performance. The efficiency of the proposed converter has been calculated to be 87.53% when operating under the grid-connected mode, whereas the efficiency is 92.46% when operating under the standalone mode.
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CiteScore
3.70
自引率
0.00%
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