Simulation of cogging in a 100 kW permanent magnet octagonal linear generator for ocean wave conversion

Proceedings of the 2004 International Symposium on Underwater Technology (IEEE Cat. No.04EX869) Pub Date : 2004-04-20 DOI:10.1109/UT.2004.1405602

Irina Ivanova, Olov Ågren, H. Bernhoff, M. Leijon

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引用次数: 22

Abstract

Fluctuations in the torque acting on the rotor in a rotating electric generator i.e., cogging, gives unstable rotor motion and can venture reliable operation of the machine. Cogging also gives a similar fluctuation in the output power. This paper presents a study of the cogging force in a linear permanent magnet generator. A constant output power is possible in a rotating machine with three phases winding. In a linear generator, due to the reciprocate piston motion, power fluctuations on the slow time scale of the piston bounce period cannot be avoided. Associated with power variations on a time scale shorter than the piston bounce motion is fluctuations on the force (torque) acting on the piston, i.e., cogging. Cogging is not less dangerous in linear generators compared to rotation machines and the problem requires investigation. The paper investigates means to reduce cogging by improving the geometrical design of the stator. In particular, rational number of the slots per pole and phase reduce the cogging by one order of magnitude

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100kw永磁八角形直线发电机波浪转换齿槽仿真

在旋转发电机中，作用在转子上的扭矩波动，即齿槽，使转子运动不稳定，并可能危及机器的可靠运行。齿槽也使输出功率产生类似的波动。本文研究了直线永磁发电机的齿槽力。在三相绕组的旋转机器中，恒定的输出功率是可能的。在直线发电机中，由于活塞的往复运动，在活塞弹跳周期的慢时间尺度上，功率波动是不可避免的。在比活塞弹跳运动更短的时间尺度上，与功率变化相关的是作用在活塞上的力(扭矩)的波动，即齿槽。与旋转电机相比，直线发电机的齿槽故障的危险性并不小，这一问题需要进一步研究。本文研究了通过改进定子的几何设计来减小齿槽的方法。特别是，每极和相位的合理槽数可以减少一个数量级的齿槽

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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Proceedings of the 2004 International Symposium on Underwater Technology (IEEE Cat. No.04EX869)

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