计及频率耦合和汇集网络的风电场序阻抗模型等值方法

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英文篇名：Equivalent Method for Sequence Impedance Model of Wind Farms Considering Frequency Coupling and Collecting Network 作者：汪海蛟 ; 何国庆 ; 刘纯 ; 王超 ; 李渝 ; 王衡 英文作者：WANG Haijiao;HE Guoqing;LIU Chun;WANG Chao;LI Yu;WANG Heng;State Key Laboratory of Operation and Control of Renewable Energy & Storage Systems(China Electric Power Research Institute);State Grid Corporation of China;State Grid Xinjiang Electric Power Company; 关键词：风电场 ; 振荡 ; 序阻抗模型 ; 频率耦合 ; 等值模型 英文关键词：wind farm;;oscillation;;sequence impedance model;;frequency coupling;;equivalent model 中文刊名：DLXT 英文刊名：Automation of Electric Power Systems 机构：新能源与储能运行控制国家重点实验室(中国电力科学研究院有限公司);国家电网有限公司;国网新疆电力有限公司; 出版日期：2019-07-01 09:46 出版单位：电力系统自动化 年：2019 期：v.43;No.661 基金：国家重点研发计划资助项目(2017YFB0902000);; 国家自然科学基金资助项目(U1766202);; 中国电力科学研究院创新基金资助项目(NY83-19-005)~~ 语种：中文; 页：DLXT201915013 页数：9 CN：15 ISSN：32-1180/TP 分类号：144-152

摘要

近年来,中国河北沽源、新疆哈密等风电基地频繁发生电网振荡问题,呈现次、超同步频率振荡分量强耦合现象。频域小信号阻抗方法是建模和分析这类由电力电子并网装置引起的控制不稳定和振荡问题的有效方法。目前针对单个逆变器或风电机组频率耦合阻抗模型已有研究基础,文中基于此提出一种考虑频率耦合和汇集网络的风电场序阻抗模型等值方法,建立的风电场等值阻抗与单个逆变器或风电机组的模型定义和形式统一,能够用于分析次、超同步频率耦合的振荡问题。以直驱风电场并入弱电网系统为例,对所提出的模型应用于系统稳定性分析及振荡频率预测的准确性进行了仿真验证。
        In recent years,power grid oscillation problems frequently occur in the wind generation bases of China,such as Guyuan in Hebei Province and Hami in Xinjiang Uygur Autonomous Region.These new oscillation problems often contain two closely coupled components at sub-synchronous and super-synchronous frequencies.Frequency-domain small-signal impedance is proven as an effective method for modeling and analyzing this kind of unstable and oscillation problems caused by the control of power electronic devices.Given that the frequency coupling impedance models for single inverter or wind turbines have been developed,an equivalent method for the sequence impedance model of wind farms is proposed considering both the frequency coupling and the collecting network.The definition and form of the developed equivalent impedance are consistent with the models of single inverter or wind turbines,and can be used to analyze the sub-synchronous and super-synchronous oscillations.Finally,case studies are presented with the PMSG-based wind farm integrated into weak power grid.The accuracy of the proposed model to analyze system stability and predict oscillation frequency is verified by simulation.

引文

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