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Design and experimental implementation of a wind energy conversion platform with education and research capabilities
Computers & Electrical Engineering ( IF 4.0 ) Pub Date : 2020-07-01 , DOI: 10.1016/j.compeleceng.2020.106661
Elhoussin Elbouchikhi , Gilles Feld , Yassine Amirat , Mohamed Benbouzid , Franck Le Gall

Abstract Today, pitch-controlled variable speed wind turbines (WTs) are the most installed Wind Energy Conversion (WEC) systems. They mainly use two types of generators: the permanent magnet synchronous generator (PMSG) and the double-fed induction generator (DFIG). In this paper, the overall configuration of DFIG-based WEC systems is reviewed and its control strategy is experimentally implemented using dSPACE DS1104 controller board. In this context, emphasis is placed on active power transfer management, reactive power compensation, and sinusoidal current injection into the main grid to improve power quality. The built lab-scale prototype allows validating different subsystems operation and demonstrating DFIG-based WEC capabilities. This paper specifically provides a thorough and consistent step-by-step modeling and control design methodology for a DFIG-based WEC simulation and experimentation platform that could be used for education and research addressing the wind energy conversion timely topic.

中文翻译:

具有教育科研能力的风能转换平台设计与实验实现

摘要 今天,变桨控制变速风力涡轮机 (WT) 是安装最多的风能转换 (WEC) 系统。他们主要使用两种类型的发电机:永磁同步发电机(PMSG)和双馈感应发电机(DFIG)。在本文中,回顾了基于 DFIG 的 WEC 系统的整体配置,并使用 dSPACE DS1104 控制器板通过实验实现了其控制策略。在这种情况下,重点放在有功功率传输管理、无功功率补偿和向主电网注入正弦电流以提高电能质量。构建的实验室规模原型允许验证不同的子系统操作并演示基于 DFIG 的 WEC 功能。
更新日期:2020-07-01
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