Decentralized Servomechanism Control Design for Inter-Area Oscillations Damping in Power System

2019 North American Power Symposium (NAPS) Pub Date : 2019-10-01 DOI:10.1109/NAPS46351.2019.9000201

R. Biroon, P. Pisu, D. Schoenwald

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引用次数: 1

Abstract

Inter-area oscillations are one of the main concerns in power system small signal stability. Since they involve a wide area in power systems, identifying the causes and damping the oscillations are considerably challenging. Undamped inter-area oscillations cause severe problems in power grids including large-scale blackouts. Designing a proper controller to damp inter-area oscillations in power systems is challenging due to the complexity of the system. Moreover, for a large-scale system it is difficult to collect all system information in one location as required for the design of a centralized controller. In this paper, we develop a new decentralized strategy to identify and damp oscillations in a large-scale power system. We consider a large-scale power system consisting of three areas in a loop shape configuration. After decomposing the system into three subsystems, each subsystem is modeled with a lower order system. Finally, a decentralized robust servomechanism controller is designed for each subsystem to maintain the large-scale system frequency at the desired level even in the presence of disturbances.

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电力系统区域间振荡阻尼的分散伺服控制设计

区域间振荡是电力系统小信号稳定性研究的主要问题之一。由于它们涉及电力系统的广泛领域，确定振荡的原因和抑制振荡是相当具有挑战性的。无阻尼区域间振荡在电网中引起严重问题，包括大规模停电。由于系统的复杂性，设计一个合适的控制器来抑制电力系统的区域间振荡是一项挑战。此外，对于一个大型系统来说，设计一个集中的控制器很难在一个地方收集到所有的系统信息。在本文中，我们提出了一种新的分散策略来识别和抑制大型电力系统中的振荡。我们考虑一个由三个区域组成的大型电力系统。将系统分解为三个子系统，每个子系统用一个低阶系统建模。最后，为每个子系统设计了分散的鲁棒伺服机构控制器，即使存在干扰，也能将大尺度系统的频率保持在期望的水平上。

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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2019 North American Power Symposium (NAPS)

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