Super-twisting sliding mode control for brushless doubly fed reluctance generator based on wind energy conversion system

Electrical Engineering & Electromechanics Pub Date : 2023-03-05 DOI:10.20998/2074-272x.2023.2.13

O. Oualah, D. Kerdoun, A. Boumassata

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Abstract

Introduction. Recently, wind power generation has grown at an alarming rate in the past decade and will continue to do so as power electronic technology continues to advance. Purpose. Super-twisting sliding mode control for brushless doubly-fed reluctance generator based on wind energy conversion system. Methods. This paper deals with the robust power control of a grid-connected brushless doubly-fed reluctance generator driven by the variable speed wind turbine using a variable structure control theory called sliding mode control. The traditional sliding mode approach produces an unpleasant chattering phenomenon that could harm the system. To eliminate chattering, it is necessary to employ a high-order sliding mode controller. The super-twisting algorithm is one type of nonlinear control presented in order to ensure the effectiveness of the control structure we tested these controllers in two different ways reference tracking, and robustness. Results. Simulation results using MATLAB/Simulink have demonstrated the effectiveness and robustness of the super-twisting sliding mode controller.

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基于风能转换系统的无刷双馈磁阻发电机超扭滑模控制

介绍。最近，风力发电在过去十年中以惊人的速度增长，并且随着电力电子技术的不断进步，风力发电将继续这样做。目的。基于风能转换系统的无刷双馈磁阻发电机超扭滑模控制。方法。本文采用滑模变结构控制理论研究了变速风力发电机组驱动的并网无刷双馈磁阻发电机的鲁棒功率控制问题。传统的滑模方法会产生令人不快的抖振现象，可能会损害系统。为了消除抖振，需要采用高阶滑模控制器。超扭转算法是提出的一种非线性控制算法，为了保证控制结构的有效性，我们从两种不同的方式对这些控制器进行了参考跟踪和鲁棒性测试。结果。MATLAB/Simulink仿真结果验证了超扭滑模控制器的有效性和鲁棒性。

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Electrical Engineering & Electromechanics

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