一种用于抑制电力系统区域间振荡的自适应神经模糊电力系统稳定器

A. Venugopal, G. Radman, M. Abdelrahman
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引用次数: 16

摘要

提出了一种基于PSS的自适应神经模糊推理系统(ANFIS)。该控制器主要分为两个子系统,一个是用于发电机的递归最小二乘辨识器,另一个是用于抑制振荡的自适应神经模糊PSS。PSS与每个区域的单个机器耦合,该PSS的参数在线调整,以最小化成本函数。成本函数由多项求和组成,其中每项由PSS连接的机器与同一区域内另一台机器之间的速度差的平方组成(项数等于该区域内不包括安装PSS的机器的机器数量)。PSS经过训练,可以减少每个区域机器之间的速度差异,同时有助于减少区域间的振荡。该技术在一个2区4机13总线系统上进行了说明。这种ANFIS PSS在严重故障条件下表现出令人满意的性能,其中三相故障应用于线路,经过一段时间后被清除。传统的PSS和使用原始成本函数(由安装PSS的发电机的转速差的平方组成)的ANFIS在这种情况下无法执行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An adaptive neuro fuzzy power system stabilizer for damping inter-area oscillations in power systems
An adaptive neuro-fuzzy inference system (ANFIS) based PSS is proposed in this paper. The controller is essentially divided into two sub-systems, a recursive least square identifier for the generator and an adaptive neuro fuzzy PSS to damp the oscillations. The PSS is coupled to a single machine in every area and the parameters of this PSS are tuned online in order to minimize a cost function. The cost function consists of a summation of terms, in which each term is made up of the square of the difference in speed between the machine to which the PSS is connected and another machine in that same area (the number of terms equal the number of machines in that area excluding the machine installed with a PSS). The PSS is trained to reduce the speed difference between machines in every area while helping to reduce inter area oscillations. The proposed technique is illustrated on a 2 area 4-machine 13 bus system. This ANFIS PSS showed satisfactory performance under severe faulting conditions, where a three-phase fault applied to a line, was cleared after a extended period of time. The conventional PSS and the ANFIS using the original cost function (consisting of just the square of the speed difference of the generator installed with the PSS) failed to perform under such conditions.
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