Modelling and Simulation of the Hybrid System PV-Wind

Statistics, Optimization & Information Computing Pub Date : 2023-01-23 DOI:10.19139/soic-2310-5070-1535

A. A. Bangura, Mustapha Errouha, H. Hihi, Z. Chalh

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Abstract

In this paper, we focused on modeling and simulation of a hybrid solar-wind energy system, consisting of a photovoltaic cell and a wind turbine driven by a Permanent Magnet Synchronous Generator (PMSG). The proposed system gives details of the hybrid solar-wind system. In the PV subsystem, there will be a photovoltaic energy subsystem, MPPT controller, and a DC-DC boost converter. The wind turbine subsystem includes a wind turbine energy subsystem, PMSG, and MPPT controller. The MPPT controllers were designed to extract the maximum power regardless of the weather conditions and temperatures. The P and O algorithm is introduced in the MPPT used in the PV energy subsystem and on the control of the machine side converter (MSC). The proposed wind turbine energy subsystem is based on Direct Torque and Flux Control (DTFC). The simulated results are demonstrated to show that the hybrid solar-wind generating system can realize a maximum power point tracking control of wind and solar power to satisfy the energy demand over an extensive range under unpredictable atmospheric conditions. The system has been demonstrated by MATLAB/Simulink and tested for variable weather conditions and temperatures.

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PV-Wind混合系统的建模与仿真

本文主要研究了由光伏电池和由永磁同步发电机(PMSG)驱动的风力发电机组成的混合太阳能-风能系统的建模与仿真。提出的系统给出了混合太阳风系统的细节。在光伏分系统中，将会有一个光伏能源分系统、MPPT控制器和一个DC-DC升压变换器。所述风力发电机子系统包括风力发电机能量子系统、PMSG和MPPT控制器。MPPT控制器的设计目的是无论天气条件和温度如何，都能提取最大功率。将P和O算法引入到光伏能源分系统的MPPT和机侧变换器的控制中。所提出的风力发电机能量子系统是基于直接转矩和磁链控制(DTFC)。仿真结果表明，该混合太阳能-风力发电系统能够实现风能和太阳能的最大功率点跟踪控制，在不可预测的大气条件下满足大范围的能源需求。该系统已通过MATLAB/Simulink进行了演示，并在不同的天气条件和温度下进行了测试。

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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Statistics, Optimization & Information Computing

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