Design of Robust Frequency Stabilizers of Superconducting Magnetic Energy Storages

I. Ngamroo, W. Kongprawechnon
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引用次数: 1

Abstract

When large load disturbances occur in a power system, a system frequency may be heavily perturbed and oscillatory. To stabilize frequency oscillations, the active power controlled by superconducting magnetic energy storage (SMES) can be applied. In this paper, a new robust design of a frequency stabilizer equipped with SMES is presented. The frequency stabilizer is based on a second-order lead/lag compensator. To enhance the robust stability of the controlled system against uncertainties such as system parameters variations, various load changes etc., the multiplicative uncertainty is included in system modeling. As a result, the robust stability can be easily guaranteed in terms of the multiplicative stability margin (MSM). Control parameters of the frequency stabilizer are tuned by a tabu search, so that the desired damping ratio of the target inter-area mode and the best MSM are obtained. Simulation studies confirm the high robustness of the frequency stabilizer against system uncertainties
超导磁储能系统鲁棒稳频器的设计
当电力系统中出现较大的负载扰动时,系统频率可能会受到严重的扰动和振荡。为了稳定频率振荡,可以采用超导磁储能(SMES)控制有功功率。本文提出了一种新的带有SMES的频率稳定器鲁棒设计方法。频率稳定器是基于二阶超前/滞后补偿器。为了提高被控系统对系统参数变化、各种负荷变化等不确定性的鲁棒稳定性,在系统建模中引入乘法不确定性。因此,用乘法稳定裕度(MSM)可以很容易地保证鲁棒稳定性。通过禁忌搜索对频率稳定器的控制参数进行调谐,从而获得目标区域间模式所需的阻尼比和最佳MSM。仿真研究证实了该频率稳定器对系统不确定性具有较高的鲁棒性
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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