Exploiting Bidirectional Power Flow Control to Capture Wind Gust Power in Small and Medium Wind Turbines

The 9th Renewable Power Generation Conference (RPG Dublin Online 2021) Pub Date : 1900-01-01 DOI:10.1049/icp.2021.1352

B. M. Gavgani, T. Staessens, J. V. Damme, J. D. De Kooning, D. Bozalakov, L. Vandevelde, G. Crevecoeur

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Abstract

Among renewable energy sources, wind energy is one of the most promising ones. However, small and medium wind turbines need to cope with the natural intermittent nature of wind speed at lower altitudes. This imposes challenges on optimally tracking the Maximum Power Point (MPP) of the turbine. Up to now, various MPPT techniques have been proposed. However, most of these algorithms have poor performances in gusty weather conditions exhibiting sudden changes in the wind speed. Conventional Tip Speed Ratio (TSR) control fails to track the MPP under these strong wind variations. Therefore, it is not able to capture the energy contained in wind gusts. To tackle this problem, this paper proposes and experimentally validates a bidirectional power flow controller, where a permanent magnet synchronous machine acts both as a generator and as a motor. The performance of the proposed bidirectional controller is validated through simulations and experimental results on a 7.5 kW wind turbine drivetrain to verify the improvements in terms of captured wind energy.

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利用双向潮流控制捕获中小型风力发电机组的阵风功率

在可再生能源中，风能是最有前途的能源之一。然而，中小型风力涡轮机需要应对低海拔地区风速的自然间歇性。这对优化跟踪涡轮机的最大功率点(MPP)提出了挑战。到目前为止，已经提出了各种各样的MPPT技术。然而，大多数这些算法在阵风天气条件下表现不佳，表现出风速的突然变化。传统的叶尖速比(TSR)控制无法跟踪这些强风变化下的MPP。因此，它无法捕获阵风中包含的能量。为了解决这一问题，本文提出并实验验证了一种双向功率流控制器，其中永磁同步电机既作为发电机又作为电动机。通过7.5 kW风力发电机传动系统的仿真和实验结果验证了所提出的双向控制器的性能，以验证其在捕获风能方面的改进。

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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The 9th Renewable Power Generation Conference (RPG Dublin Online 2021)

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