Grid Side Inverter Control for a Grid Connected Synchronous Generator Based Wind Turbine Experimental Emulator

European Journal of Electrical Engineering Pub Date : 2021-02-28 DOI:10.18280/EJEE.230101

Dekali Zouheyr, Baghli Lotfi, Lubin Thierry, Boumédiène Abdelmadjid

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引用次数: 2

Abstract

This paper describes the real time implementation and control of a wind energy conversion chain emulator based on a synchronous generator (SG) using a full-scale power converter configuration. The proposed structure consists of the mechanical coupling of two 1.5 kW machines, a DC motor which emulates the static-dynamic behaviors of a three-blade wind turbine with a horizontal axis including an ideal gearbox, and a synchronous generator that ensures the electromechanical conversion and manages the different operating modes. The aim of the first part in this work is the design and the implementation of the control of the grid side converter in order to control the flow of the produced/consumed active and reactive power (PGSC / QGSC) in both directions between the generator and the grid. An improved experimental grid voltage vector-orientation control algorithm (VOC) is investigated and applied to the grid inverter to control the GSC powers independently and instantly. The control algorithms are implanted in C, using dSPACE DS1104 control board to drive the 6-IGBT’s inverter. The experimental results validate the effectiveness of the proposed control scheme of the GSC.

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基于并网同步发电机的风力机实验仿真器并网侧逆变器控制

本文介绍了一种基于同步发电机(SG)的风能转换链仿真器的实时实现与控制，该仿真器采用全尺寸功率变换器结构。所提出的结构包括两台1.5 kW电机的机械耦合，一台模拟三叶片风力机的静动态特性的直流电动机(包括理想的齿轮箱)，以及一台确保机电转换和管理不同运行模式的同步发电机。本文第一部分的目的是设计和实现电网侧变流器的控制，以控制发电机和电网之间产生/消耗的有功和无功功率(PGSC / QGSC)的双向流动。研究了一种改进的实验性电网电压矢量定向控制算法(VOC)，并将其应用于电网逆变器中，实现了对GSC功率的独立实时控制。采用C语言编写控制算法，利用dSPACE DS1104控制板驱动6-IGBT逆变器。实验结果验证了GSC控制方案的有效性。

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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European Journal of Electrical Engineering

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