Interconnected system frequency response

Proceedings of 28th Southeastern Symposium on System Theory Pub Date : 1996-03-31 DOI:10.1109/SSST.1996.493519

R. King, M. Ngo, R. Luck

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引用次数: 5

Abstract

Frequency management is a primary goal in the control of an electric power system. Traditionally, this has been accomplished via tie-line bias control within a well defined control area. However, the control area's frequency bias characteristic, which is an important component in the tie-line bias control equation, is a difficult term to quantify. This is due to the fact that this term represents the combined droop characteristics of all the generators serving the load plus the frequency dependency of the load. However, since most load frequency controllers use integral controllers, this inability to accurately quantify the control area's frequency response characteristic has not caused unacceptable control errors. But, as the power industry moves into a new era, the control schemes must be re-examined in the light of the new system operating rules. This paper introduces some new ideas on frequency management that utilize what is referred to in this paper as the interconnected system frequency response characteristic, /spl beta//sub sys/. It explains the problems associated with the present approach and why this new method offers improvements for large control areas, especially in the new competitive environment.

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互联系统频率响应

频率管理是电力系统控制的一个主要目标。传统上，这是通过在一个明确的控制区域内控制联络线偏置来实现的。然而，作为联络线偏置控制方程的重要组成部分，控制区的频率偏置特性是一个难以量化的概念。这是因为这一项代表了为负载服务的所有发电机的综合下垂特性加上负载的频率依赖性。然而，由于大多数负载频率控制器使用积分控制器，这种无法准确量化控制区域的频率响应特性并没有造成不可接受的控制误差。但是，随着电力工业进入新时代，必须根据新的系统运行规则对控制方案进行重新审视。本文介绍了一些利用互连系统频响特性/spl beta//sub sys/进行频率管理的新思路。它解释了与当前方法相关的问题，以及为什么这种新方法为大型控制区域提供了改进，特别是在新的竞争环境中。

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 28th Southeastern Symposium on System Theory

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