利用已识别系统参数检测 SSR 的基于隐函数的开环分析方法

IF 6.9 2区 工程技术 Q2 ENERGY & FUELS
Luonan Qiu;Tianhao Wen;Yang Liu;Q. H. Wu
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引用次数: 0

摘要

本文提出了一种基于隐函数的开环分析方法,用于检测穿透式双馈异步发电机风电场(DFIG-WFs)电力系统的次同步谐振(SSR),包括非对称次同步模态吸引(ASSMA)和非对称次同步模态排斥(ASSMR)。由于 DFIG-WF 的一些重要参数难以获得,因此采用了强化学习和最小二乘法来确定这些重要参数。通过基于特征方程偏微分计算预测闭环次同步振荡(SSO)模式的位置,可以找到 ASSMA 和 ASSMR。本文提出的方法可以选择随控制参数变化而向右半复平面移动的 SSO 模式。此外,本文提出的开环分析方法还能适应参数的不确定性。本文对 4 机 11 总线电力系统进行了仿真研究,以验证所提方法的特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implicit Function Based Open-Loop Analysis Method for Detecting the SSR Using Identified System Parameters
This paper proposes an implicit function based open-loop analysis method to detect the subsynchronous resonance(SSR), including asymmetric subsynchronous modal attraction(ASSMA) and asymmetric subsynchronous modal repulsion(ASSMR), of doubly-fed induction generator based wind farms(DFIG-WFs) penetrated power systems. As some important parameters of DFIG-WF are difficult to obtain, reinforcement learning and least squares method are applied to identify those important parameters. By predicting the location of closed-loop subsynchronous oscillation(SSO) modes based on the calculation of partial differentials of characteristic equation, both ASSMA and ASSMR can be found. The proposed method in this paper can select SSO modes which move to the right half complex planes as control parameters change. Besides, the proposed open-loop analysis method is adaptive to parameter uncertainty. Simulation studies are carried out on the 4-machine 11-bus power system to verify properties of the proposed method.
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来源期刊
CiteScore
11.80
自引率
12.70%
发文量
389
审稿时长
26 weeks
期刊介绍: The CSEE Journal of Power and Energy Systems (JPES) is an international bimonthly journal published by the Chinese Society for Electrical Engineering (CSEE) in collaboration with CEPRI (China Electric Power Research Institute) and IEEE (The Institute of Electrical and Electronics Engineers) Inc. Indexed by SCI, Scopus, INSPEC, CSAD (Chinese Science Abstracts Database), DOAJ, and ProQuest, it serves as a platform for reporting cutting-edge theories, methods, technologies, and applications shaping the development of power systems in energy transition. The journal offers authors an international platform to enhance the reach and impact of their contributions.
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