Effect of rotor field winding MMF on performance of grid-compliant hybrid-PM slip synchronous wind generator

L. L. Amuhaya, M. Kamper
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引用次数: 4

Abstract

Grid-compliant wind-turbine systems require compensation of reactive power into the grid to maintain voltages and increase power system stability under variable load levels. To provide a solution a conventional PM synchronous generator of a slip synchronous wind generator system is upgraded to a hybrid-PM synchronous generator (hybrid-PMSG) by introducing slots in the rotor that are wound with field coils. In this way the flux in the generator and reactive power can be controlled by rotor-field MMF control. In addition, it is possible to operate the wind generator as synchronous condenser under zero-wind conditions so that it will act as a source of lagging and leading VARs to the grid. In this paper the effects of the rotor field winding MMF of the proposed hybrid-PMSG and its performance as a source of dynamic VARs (both capacitive and inductive) of a grid compliant slip synchronous wind-turbine system are described.
转子磁场绕组MMF对并网混合型永磁滑差同步风力发电机性能的影响
适应电网的风力涡轮机系统需要补偿进入电网的无功功率,以维持电压并增加电力系统在可变负荷水平下的稳定性。为了解决这一问题,将滑差同步风力发电系统的传统永磁同步发电机升级为混合永磁同步发电机(hybrid-PMSG),在转子上引入用磁场线圈缠绕的槽。这样,发电机的磁通和无功功率就可以通过转子磁场MMF控制来控制。此外,还可以在零风条件下将风力发电机作为同步冷凝器运行,这样它就可以作为滞后源并将var引入电网。本文描述了混合永磁同步电机的转子磁场绕组MMF的影响及其作为电网柔性滑差同步风力发电系统动态var(包括电容和电感)来源的性能。
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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