Active power control from large offshore wind farms

2012 47th International Universities Power Engineering Conference (UPEC) Pub Date : 2012-12-31 DOI:10.1109/UPEC.2012.6398457

D. Banham-Hall, C. Smith, G. Taylor, M. Irving

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引用次数: 1

Abstract

Wind power represents a growing share of electricity supply on many power systems around the world. The UK has plans for over 33GW of offshore wind power to be developed before 2020, which would substantially alter the generation mix. The GB electric grid has traditionally depended on fossil fuel fired synchronous plant to control power output and maintain the balance between supply and demand through system frequency regulation. Modern wind turbines are equipped with advanced power electronic converters which provide flexible, controllable, interfaces to the power system, but are inherently driven by an intermittent resource. This paper addresses the control of large offshore wind farms, in order to contribute to the frequency stability of the GB electric grid. It shows that wind farms can be controlled to provide frequency response, within the limitations of the available wind power. The paper then addresses the possibility of using Vanadium Redox Flow Batteries to provide reserve capacity for the wind farm. The paper highlights the many benefits of these batteries in conjunction with wind farms and demonstrates that they can contribute to providing reliable frequency regulation from offshore wind farms.

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大型海上风电场的有功功率控制

风能在全球许多电力系统中所占的份额越来越大。英国计划在2020年前开发超过33吉瓦的海上风电，这将大大改变发电结构。传统上，英国电网依靠化石燃料同步电厂通过系统频率调节来控制电力输出，维持供需平衡。现代风力涡轮机配备了先进的电力电子转换器，为电力系统提供灵活、可控的接口，但本质上是由间歇性资源驱动的。本文讨论了大型海上风电场的控制，以促进英国电网的频率稳定。这表明风电场可以在可用风力的限制范围内控制提供频率响应。然后，论文讨论了使用钒氧化还原液流电池为风电场提供备用容量的可能性。这篇论文强调了这些电池与风力发电场结合的许多好处，并证明它们可以为海上风力发电场提供可靠的频率调节。

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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2012 47th International Universities Power Engineering Conference (UPEC)

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