基于DIW -PSO的PID控制器用于UPFC集成多机电力系统的区间和区内振荡阻尼

2020 International Conference on Computational Intelligence for Smart Power System and Sustainable Energy (CISPSSE) Pub Date : 2020-07-01 DOI:10.1109/CISPSSE49931.2020.9212286

N. Nayak, Sirajuddin Khan, Sonu Kumar Bansfore

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引用次数: 1

摘要

电力系统中经常出现多频率分量(模态)的区间振荡和区内振荡。为了提高稳定性和性能，提供足够的控制器和补偿装置是必不可少的。本文研究了一种基于统一潮流控制器(UPFC)的方法，以较好的稳定时间和较小的超调量在短时间跨度内抑制这些波动。采用最优分形PI (FPI)控制对UPFC参数进行控制，达到比传统PID控制更好的控制效果。由于FPI的性能在很大程度上取决于其参数，因此采用粒子群算法求出最优值。计算结果证明了该方法能够有效地抑制区域间和区域内的振动。与传统PI的比较结果表明，基于PSO-FPI的方法性能有所提高。

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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Inter-Area and Intra-Area Oscillation Damping for a Multi-machine Power System Integrated with UPFC Using DIW -PSO Based PID Controller

Inter-area and intra-area oscillations with multiple frequencies components (modes) are very often occurred in power system. To enhance the stability and performance, it is indispensable to provide adequate controller and compensating devices. This paper investigates to arrive at an approach based on Unified Power Flow Controller (UPFC) to damp these fluctuations with better settling time and lesser overshoot in quick span of time duration. Optimal Factional PI (FPI) control is applied to control the UPFC parameters for achieving better control in comparison to conventional PID controller. As the performance of the FPI mostly depends on its parameters, the optimal value is found out by applying particle swarm optimization. Computational result are presented to justify the proposed approach capability to damp the inter-area and intra-area oscillations effectively. The comparative results are also provided with conventional PI to show the enhanced performance of the PSO-FPI based approach.

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来源期刊

2020 International Conference on Computational Intelligence for Smart Power System and Sustainable Energy (CISPSSE)

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