风力发电用250千瓦铁氧体轴向磁通永磁的设计与试验

The 10th International Conference on Power Electronics, Machines and Drives (PEMD 2020) Pub Date : 1900-01-01 DOI:10.1049/icp.2021.1045

S. Ademi, A. Ridge, R. McMahon, H. Kelly, P. Clifton

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引用次数: 1

摘要

本文介绍了一种用于风力发电的铁氧体基轴向磁通永磁电机(PMg)的结构和测试。该技术通过节省资本支出和运营费用，显著降低了能源成本，这是海上行业的一个重要目标。直接驱动(DD) PMG技术使用铁氧体磁铁产生磁场，这是降低成本的重要来源。铁氧体的使用还可以消除整个行业对钕铁硼的依赖，钕铁硼是一种稀缺且昂贵的稀土磁铁，用于现有的设计中。使用基于铁氧体的设计的另一个好处是，它对现有的dd - pmg所面临的冷却问题不那么敏感。进一步的技术优势体现在磁平衡轴向设计，优化磁铁和铝/铜比，对气隙不敏感和齿槽消除。本文详细介绍了额定功率为250千瓦的样机的设计、制造、热工性能和试验情况。

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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DESIGN AND TESTING OF A 250 kW FERRITEBASED AXIAL FLUX PERMANENT MAGNET FOR APPLICATION IN WIND POWER GENERATION

This paper presents the construction and testing of a ferrite-based axial flux permanent magnet machine (PMg) for applications in wind power generation. This technology offers significant levelized cost of energy reductions via capital expenditure and operating expense savings - a crucial objective for the offshore industry. The direct-drive (DD) PMG technology uses ferrite magnets to create the magnetic field, which is a significant source of cost reduction. The use of ferrite could also eliminate an industry wide reliance on neodymium iron boron, the scarce and expensive rare-earth magnet used in existing designs. Another benefit of using ferrite-based design is that it is less sensitive to the cooling problems that currently face existing DD-PMGs. Further technical advantages come in the form of magnetically balanced axial design, optimized magnet and aluminium/copper ratio, insensitivity to air gap and cogging elimination. This paper details aspects of design, construction, thermal performance and testing of a nominal 250 kW power rating prototype.

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The 10th International Conference on Power Electronics, Machines and Drives (PEMD 2020)

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