10兆瓦风力涡轮机直接驱动发电机设计与俯仰或主动速度失速控制

2007 IEEE International Electric Machines & Drives Conference Pub Date : 2007-05-03 DOI:10.1109/IEMDC.2007.383632

H. Polinder, D. Bang, R. V. Rooij, A. McDonald, M. Mueller

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引用次数: 149

摘要

本文的目的是研究10兆瓦发电机用于直接驱动风力涡轮机的可行性，并比较发电机系统的俯仰控制和主动速度失速控制。主动速度失速控制概念背后的想法是使转子尽可能简单，因此非常坚固，适合海上风力涡轮机。这是通过去除桨叶的螺距控制来实现的。在额定风速以上，功率不是通过控制桨距来控制，而是通过控制转子转速来控制:转子转速大大降低，气动功率被限制在额定值。给出了一个10mw永磁直驱发电机的初步设计，说明了这种发电机是可行的。结果表明，要对主动速度失速控制进行全面的评价，需要对风速的变化有更多的了解。然而，要实现主动速度失速控制，需要大幅度增加发电机系统成本。

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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10 MW Wind Turbine Direct-Drive Generator Design with Pitch or Active Speed Stall Control

The objectives of this paper are to investigate the feasibility of a 10 MW generator for a direct-drive wind turbine and to compare the generator systems for pitch control and for active speed stall control. The idea behind the active speed stall control concept is to make a rotor that is as simple as possible, and therefore very robust and suitable for offshore wind turbines. This is done by removing the pitch control of the blades. Above rated wind speed, the power is not controlled by controlling the pitch, but by controlling the rotor speed: the rotor speed is so much reduced that the aerodynamic power is limited to the rated value. A rough 10 MW permanent-magnet direct- drive generator design is presented, indicating that such a generator is feasible. It is shown that for a thorough evaluation of active speed stall control, more knowledge is required about changes in the wind speed. However, a considerable increase in generator system cost is necessary to enable active speed stall control.

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2007 IEEE International Electric Machines & Drives Conference

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