Research on Coordinated Optimization of Cascaded Hydro–Photovoltaic Complement Power Stations for Ultra–Low Frequency Oscillation Suppression

2021 IEEE Sustainable Power and Energy Conference (iSPEC) Pub Date : 2021-12-23 DOI:10.1109/iSPEC53008.2021.9736034

W. Liu, Linjun Shi, Jie Lin, Feng Wu, Min Xu, Jian Zhou

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Abstract

Based on the phenomenon of ultra–low frequency oscillation after asynchronous interconnection of Yunnan power grid, this paper proposes a method to suppress ultra–low frequency oscillation by renewable energy base with hydropower units and grid connected photovoltaic. Firstly, the linear model of the system including grid connected photovoltaic power station and hydropower unit is established, and the ultra–low frequency oscillation mode of the system is analyzed according to the eigenvalue analysis method. Then, an supplementary damping controller (SDC) is added to the grid connected photovoltaic active power control channel side, and a power system stabilizer is added to the turbine governor side of the hydropower unit (GPSS). The particle swarm optimization algorithm is used to coordinate and optimize the parameters of GPSS and SDC. Finally, the simulation results in the four-machines and two-areas system show that the proposed method can significantly suppress the ultra–low frequency oscillation of the system and reduce the output fluctuation of hydropower units.

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级联水电光伏互补电站超低频振荡抑制协调优化研究

针对云南电网异步并网后的超低频振荡现象，提出了利用水电机组和光伏并网的可再生能源基地抑制超低频振荡的方法。首先，建立并网光伏电站和水电机组系统的线性模型，根据特征值分析方法对系统的超低频振荡模式进行分析。然后，在并网光伏有功控制通道侧增加补充阻尼控制器(SDC)，在发电机组水轮机调速器侧增加电力系统稳定器(GPSS)。采用粒子群优化算法对GPSS和SDC的参数进行协调优化。最后，对四机两区系统的仿真结果表明，该方法能显著抑制系统的超低频振荡，减小水电机组的输出波动。

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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2021 IEEE Sustainable Power and Energy Conference (iSPEC)

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