改进的转子极几何形状的永磁同步电机的风力涡轮机应用与多高速发电机

2014 International Conference on Optimization of Electrical and Electronic Equipment (OPTIM) Pub Date : 2014-05-22 DOI:10.1109/OPTIM.2014.6851002

C. Andrei, Tobias Kauder, Jan Karthaus, M. Hombitzer, R. Appunn, K. Hameyer

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引用次数: 5

摘要

风力涡轮机是一种能量转换系统，具有非常复杂的机电结构，由高度互联的子系统组成，这些子系统不断受到动态电气和机械应力的影响。为了提高它们的技术和经济效率，人们正在寻求新的替代传动系统概念。提出了一种由多台高速发电机组成的小波传动系统。对不同的电机进行了分析研究，选择了v形内磁体的永磁同步电机(VI-PMSM)作为最适合该应用的拓扑结构。开发了一个简单的MATLAB Simulink模型来验证所提出的小波变换配置的效率增益。此外，采用正弦转子磁场极改善了VI-PMSM的运行性能。

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Improved rotor pole geometry of a PMSM for wind turbine applications with multiple high-speed generators

Wind turbines (WTs) are energy conversion systems with a very complex electromechanical structure, consisting of highly interconnected subsystems, which are constantly exposed to dynamic electrical and mechanical stress. In order to improve their technical and economic efficiency, new alternative drive train concepts are being sought. This paper proposes a WT drive train with multiple high-speed generators. Different electrical machines are investigated analytically and the permanent magnet synchronous machine with V-shaped internal magnets (VI-PMSM) is chosen as the most suited topology for this application. A simple MATLAB Simulink model is developed to validate the proposed WT configuration in terms of efficiency gain. Furthermore, the operational behavior of the VI-PMSM is improved by means of sinusoidal rotor field poles.

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2014 International Conference on Optimization of Electrical and Electronic Equipment (OPTIM)

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