Analysis and prototyping of a low-speed small scale permanent magnet generator for wind power applications

2012 Electric Power Quality and Supply Reliability Pub Date : 2012-06-11 DOI:10.1109/PQ.2012.6256193

E. Lepa, A. Kilk

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引用次数: 2

Abstract

Many companies engaged in wind generator development are investigating permanent magnet generators (PMG) mainly because of higher efficiency over a broad range of wind speed and reduced costs of maintenance. One important parameter of PM generators is the primary magnetic flux that has certain influence to no load voltage of the machine. Thus, needs for efficient calculation methods for primary magnetic field is required. Finite element method is one of the most common and efficient way to analyze the magnetic flux of the machine. But on the other hand it is relatively complicated calculation method and it might be incomprehensible. Analytic calculation or calculations based on reluctance network are comprehensive and suitable for engineers-designers. This paper deals with the primary magnetic field analysis and basic winding calculations by an example of 54 slots and 20 poles PM synchronous generator. Modeling of the primary magnetic field distribution by the finite element method in software FEMM is described. Results from the analytic calculations and the finite element method are compared with experimental data of PM prototype generator study.

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风力发电用低速小型永磁发电机的分析与原型设计

许多从事风力发电机开发的公司都在研究永磁发电机(PMG)，主要是因为永磁发电机在很大的风速范围内效率更高，维护成本更低。永磁发电机的一个重要参数是一次磁通，它对电机的空载电压有一定的影响。因此，需要有效的一次磁场计算方法。有限元法是分析电机磁通最常用、最有效的方法之一。但另一方面，它是一种比较复杂的计算方法，可能会让人难以理解。分析计算或基于磁阻网络的计算是全面的，适合工程设计人员。本文以54槽20极永磁同步发电机为例，进行了一次磁场分析和基本绕组计算。介绍了利用有限元法在有限元分析软件FEMM中对一次磁场分布进行建模的方法。将解析计算和有限元计算结果与永磁样机研究的实验数据进行了比较。

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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来源期刊

2012 Electric Power Quality and Supply Reliability

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