Optimal Designing Grid-Connected PV Systems

A. Reisi, Ashkan Alidousti
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引用次数: 2

Abstract

Photovoltaic systems, direct conversion of solar energy to electrical energy, are produced in the form of DC power by photovoltaic arrays bathed in sunlight and converted into AC power through an inverter system, which is more convenient to use. There are two main paradigms for optimal designing of photovoltaic systems. First, the system can be designed such that the generated power and the loads, that is, the consumed power, match. A second way to design a photovoltaic system is to base the design on economics, as pinpointed in the following. Photovoltaic grid connected through shunt active filter by considering maximum power point tracking for these systems is known as the optimal design. This chapter is organized as follows: First, we discuss an overview of grid-connected photovoltaic systems. After that, we take a more detailed look on grid-connected photovoltaic system via active filter; in this section, we explain the modeling of photovoltaic panel and shunt active filter. In the next section, we learn different maximum power point tracking methods and also learn how to design DC link as a common bus of shunt active filter and photovoltaic system. Finally, MATLAB/Simulink simulations verify the performance of the proposed model performance.
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并网光伏系统的优化设计
光伏系统是将太阳能直接转换为电能的系统,是由光伏阵列沐浴在阳光下以直流电的形式产生,通过逆变器系统转换成交流电,使用起来更加方便。光伏系统的优化设计主要有两种范式。首先,可以对系统进行设计,使系统产生的功率与负载即消耗的功率相匹配。设计光伏系统的第二种方法是基于经济的设计,如下所述。考虑最大功率点跟踪的并联有源滤波器并网光伏系统的优化设计。本章组织如下:首先,我们讨论了并网光伏系统的概述。之后,我们对通过有源滤波器的光伏并网系统进行了更详细的研究;在本节中,我们将解释光伏板和并联有源滤波器的建模。在下一节中,我们将学习不同的最大功率点跟踪方法,并学习如何设计直流链路作为并联有源滤波器和光伏系统的公共总线。最后通过MATLAB/Simulink仿真验证了所提模型的性能。
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