Impact of a multi-star winding on the reliability of a permanent magnet generator for marine current turbine

Christophe Olmi, Franck Scuiller, Jean-Frédéric Charpentier
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引用次数: 2

Abstract

For Marine current turbine (MCT), low speed Surface-mounted Permanent Magnet generator is a solution to satisfy the efficiency and fault tolerant requirements. This is supposed to be true if the winding is made with several non-shifted three-phase stars that could be supplied with standard modular voltage source inverters. This paper investigates the impact of the star number on the MCT energy yield if the system is conceived to operate with disconnected inverters. For this purpose, a method to calculate the extracted power according to the tidal speed for a given star number and a given activated star number is detailed. A rainflow counting method is used to account the stress due to the tidal speed change on the star converter: the impact of the star number on the resilience capability of the MCT is then quantified. By assuming a ten-year period without converter repair, according to the introduced probabilistic approach, the star number increase improves the reliability and three-star configuration appears as a trade-off.

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多星绕组对船用水轮机永磁发电机可靠性的影响
对于船用水轮机(MCT)来说,低速表面贴装永磁发电机是满足效率和容错要求的一种解决方案。这应该是正确的,如果绕组是由几个非移位三相星,可以提供标准的模块化电压源逆变器。本文研究了如果系统被设想为与不连接的逆变器一起运行,星数对MCT能量产生的影响。为此,详细介绍了给定星数和给定激活星数下,根据潮汐速度计算提取功率的方法。采用雨流计数法计算潮汐速度变化对星形变换器的应力,从而量化星形数对MCT恢复能力的影响。根据引入的概率方法,假设十年不修理变流器,星数的增加提高了可靠性,而三星结构则是一种权衡。
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