Robust finite-time integral terminal sliding mode control design for maximum power extraction of PMSG-based standalone wind energy system

Lyu-Guang Hua, Ammar Ali, S. Ullah, Ghulam Hafeez, Monji Mohamed Zaidi, Liu Jun Jun
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Abstract

This paper introduces a novel control strategy called Finite-time Integral Terminal Sliding Mode Control (FITSMC), explicitly designed for a permanent-magnet synchronous generator (PMSG)-based standalone Wind Energy Conversion System (WECS). The primary objective of the FITSMC strategy is to regulate the operation of the wind turbine efficiently and maximize power extraction from the WECS. To achieve this, the system is driven onto a sliding surface within a predefined terminal time, ensuring rapid convergence and overall stability. An important advantage of the FITSMC strategy is its ability to maintain a standalone wind power system close to the maximum power point, even under varying wind conditions and load changes. In addition, the controller demonstrates robustness against uncertainties and disturbances, making it highly suitable for real-world applications. Extensive simulations and analyses have been conducted to validate the effectiveness of the proposed FITSMC. The results show a superior control performance compared to traditional methods. Consequently, the FITSMC strategy represents a promising advancement in control techniques for standalone wind power systems, providing an efficient and reliable approach for harnessing power from wind energy.
基于 PMSG 的独立风能系统最大功率提取的鲁棒有限时间积分终端滑模控制设计
本文介绍了一种名为 "有限时间积分终端滑模控制(FITSMC)"的新型控制策略,该策略专门针对基于永磁同步发电机(PMSG)的独立风能转换系统(WECS)而设计。FITSMC 策略的主要目标是有效调节风力涡轮机的运行,最大限度地从风能转换系统中提取电能。为实现这一目标,系统会在预定的终端时间内被驱动到滑动面上,从而确保快速收敛和整体稳定性。FITSMC 策略的一个重要优势是,即使在风力条件和负载变化的情况下,它也能使独立风力发电系统保持在最大功率点附近。此外,该控制器对不确定性和干扰具有鲁棒性,因此非常适合实际应用。为了验证所提出的 FITSMC 的有效性,我们进行了大量的模拟和分析。结果表明,与传统方法相比,FITSMC 具有更优越的控制性能。因此,FITSMC 策略代表了独立风力发电系统控制技术的一大进步,为利用风能发电提供了一种高效可靠的方法。
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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