快速作用负载控制

LESCOPE'02. 2002 Large Engineering Systems Conference on Power Engineering. Conference Proceedings Pub Date : 2002-12-10 DOI:10.1109/LESCPE.2002.1020662

K. Xiong, W. Rosehart

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引用次数: 2

摘要

随着开放接入市场原则在电力系统中的应用，稳定边际一直在稳步下降。这导致了一些事件，例如在加州的几个电力系统中轮流停电，并普遍导致电价上涨。一种新的降低电力系统张力的方法是建立一个快速作用的负荷控制程序，以保证价格和系统的稳定性。这与需要安装额外输电线路和发电机的传统方法不同。利用这种方法，负荷可以像发电机一样建模和控制，证明了旋转储备。本文综述了现有的快速作用负载控制实现方法。此外，本文还采用了两种基于拉格朗日的方法来确定快速作用负荷控制的最佳位置。这些方法的制定考虑了经济成本和稳定性限制。应用这些方法的效果分析了一个30总线系统，该系统是由IEEE 30总线测试系统衍生的。

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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Fast acting load control

As open access market principles are applied to power systems, stability margins have been steadily decreasing. This has lead to events such as rolling black-outs in several power systems, for example, California, and has generally resulted in increased electricity prices. A novel approach to reduce the tension in electrical systems is to establish a fast acting load control program for price and system stability. This differs from traditional approaches where additional transmission lines and generators need to be installed. Using this approach, load can be modeled and controlled similar to a generator, proving spinning reserve. The paper reviews existing implementations of fast acting load control. Furthermore, in this paper, two Lagrangian based approaches are used to determine optimal locations for fast acting load control. The approaches are formulated to consider economic cost and stability limits. The effects of applying these approaches are analyzed using a 30-bus system, which is derived from the IEEE 30-bus test system.

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LESCOPE'02. 2002 Large Engineering Systems Conference on Power Engineering. Conference Proceedings

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