Power estimation of induction generators fed from wind turbines

O. D. Mipoung, L. Lopes, P. Pillay
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引用次数: 6

Abstract

Wind energy has good potential for reducing the environmental impact and cost of electricity generation in diesel based stand-alone systems (mini-grids). However, due to the stochastic nature of wind and the highly variable loads typical of remote communities, the diesel power plants can be subject to significant variation in the power demand. This can create large variations in the grid frequency and also make the diesel gensets operate at low load what can lead to carbon build up in the engines and increased maintenance costs. Some power electronic based wind turbines can provide frequency support to mitigate these problems but might be too costly for operation in small mini-grids. Conversely, there is the fixed-pitch fixed-speed induction generator based (type 1) wind turbine which does not allow any active control but presents low capital and maintenance costs. In this paper, an approach for obtaining the power vs. grid frequency characteristics of a type 1 wind turbine is described and validated experimentally. It shows that the power injected into the grid by a type 1 wind turbine reduces as the grid frequency increases. Therefore, it can help with frequency regulation in a passive way.
风力发电机供电的感应发电机功率估计
风能在减少以柴油为基础的独立系统(微型电网)的环境影响和发电成本方面具有良好的潜力。然而,由于风的随机性和偏远社区典型的高度可变负荷,柴油发电厂可能会受到电力需求的显著变化的影响。这可能会造成电网频率的巨大变化,也会使柴油发电机组在低负荷下运行,从而导致发动机中的碳积聚并增加维护成本。一些基于电力电子的风力涡轮机可以提供频率支持,以缓解这些问题,但对于小型微型电网来说,可能过于昂贵。相反,有固定螺距固定转速感应发电机为基础(类型1)风力涡轮机不允许任何主动控制,但呈现低资本和维护成本。本文描述了一种获取1型风力发电机功率与电网频率特性的方法,并进行了实验验证。结果表明,1型风力机注入电网的功率随着电网频率的增加而减小。因此,它可以以被动的方式帮助频率调节。
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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