Adaptive Control of Controlled Series Compensators for Power System Stability Improvement

2007 IEEE Lausanne Power Tech Pub Date : 2007-07-01 DOI:10.1109/PCT.2007.4538343
N. Johansson, L. Angquist, H. Nee
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引用次数: 10

Abstract

This paper describes the design and verification of a time-discrete adaptive controller for damping of inter-area power oscillations, power flow control, and transient stability improvement. Only locally measured signals are used as inputs to the controller. The controller may be used with any FACTS device which operates as a variable series reactance in the power grid, such as for example the TCSC. The controller is based on a reduced system model which relies on the assumption of one dominating inter-area oscillation mode in the power system where the FACTS device is placed. Verification of the controller is performed by means of digital simulations of a four-machine system commonly used to study inter-area oscillations.
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可控串联补偿器自适应控制提高电力系统稳定性
本文描述了一种时间离散自适应控制器的设计和验证,用于阻尼区域间的功率振荡,控制功率流,提高暂态稳定性。只有本地测量的信号被用作控制器的输入。该控制器可与电网中作为可变串联电抗运行的任何FACTS设备一起使用,例如TCSC。该控制器基于一个简化的系统模型,该模型依赖于假设在放置FACTS设备的电力系统中存在一个占主导地位的区域间振荡模式。通过通常用于研究区域间振荡的四机系统的数字仿真来验证控制器。
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2007 IEEE Lausanne Power Tech
2007 IEEE Lausanne Power Tech
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