摘要
次同步振荡(sub-synchronous oscillation,SSO)一直是电力系统广泛关注的稳定性问题。目前已存在特征根分析法、频域分析法(如阻抗分析法)等多种次同步振荡分析方法,但每种方法均有其优缺点。结合特征根分析易量化与频域分析易建模的优点,提出了一种基于导纳频响特性来直接估算次同步振荡特征根的新方法。该方法仅根据系统聚合导纳和导纳积分频响曲线的极值特征(包括极值点频率和斜率信息)便可直接估算出次同步振荡的特征根,计算简便、快捷。通过与MATLAB特征值分析工具的结果对比,验证了估算方法的有效性。该方法适用于常规发电的次同步扭振、新能源发电的次/超同步振荡以及新能源、常规发电打捆送出的复合次同步振荡等不同类型次同步振荡的定量分析,分析结果均得到EMTDC仿真验证。
Sub-synchronous oscillation(SSO)has always been a widely concerned stability issue in power systems.Currently,there are multiple methods for analyzing SSO,such as eigenvalue analysis method and frequency-domain analysis method(such as impedance analysis method),but each method has its own advantages and disadvantages.Combing the advantages of frequency-domain analysis easy to quantify and eigenvalue analysis methods easy to model,a new method for directly estimating the SSO eigenvalues is proposed based on the admittance frequency response characteristics.The method can directly estimate the SSO eigenvalues based solely on the extreme features(including extreme point frequency and slope information)of the frequency response curves of the system aggregated admittance and admittance integral,making the calculation simple and fast.The effectiveness of the proposed method is verified by comparing it with the results of eigenvalue analysis tool in MATLAB.The method is suitable for quantitative analysis of different types of SSO,such as sub-synchronous torsional oscillation in the conventional power generation,sub/supersynchronous oscillation in the renewable energy generation,and composite sub-synchronous oscillation in the conventional and renewable energy power bundling delivery.The analysis results have all been verified by PSCAD/EMTDC simulation.
作者
赵爽
袁豪
王志敏
ZHAO Shuang;YUAN Hao;WANG Zhimin(Center of Power Grid Planning and Constructing,Yunnan Power Grid Co.,Ltd.,Kunming 650011,China;Electric Power Research Institute,CSG,Guangzhou 510663,China)
出处
《南方电网技术》
CSCD
北大核心
2024年第7期55-62,共8页
Southern Power System Technology
基金
国家重点研发计划资助项目(2022YFB2403504)。
关键词
次同步振荡
导纳特性
频域分析
特征根
风火打捆
sub-synchronous oscillation
admittance characteristic
frequency domain analysis
eigenvalue
wind and thermal power bundling
