Adaptive Sub-synchronous Resonance Damping Controller for AC/DC Hybrid Power System with High Penetration Wind Power

Jun Suo, Tong Wang, Jun Deng, Junchen Li, Haijing Zhang, Yanli Zhang, Jiuliang Liu
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引用次数: 1

Abstract

An adaptive sub-synchronous resonance (SSR) damping controller using Kalman filters are proposed for AC/DC hybrid system with high penetration wind in this paper. First, the supplementary damping coordinated controller of DFIG and HVDC are designed using multiple input multiple output LMIs. Then the adaptive method using Kalman online estimations for tracking the operating points caused by the variable wind power output. The AC/DC hybrid system integration with wind power generation is used as test system. The characteristic of variable SSR modes with wind power outputs is investigated, and the simulation results demonstrated that the adaptive SSR damping control method could not only track the operating condition, but also could give robust and effective control in the case of large fluctuation of wind power output.
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高渗透风电交直流混合电力系统的自适应次同步谐振阻尼控制
针对高穿透风交直流混合系统,提出了一种基于卡尔曼滤波的自适应次同步谐振阻尼控制器。首先,采用多输入多输出lmi设计了DFIG和HVDC的补充阻尼协调控制器。然后采用卡尔曼在线估计的自适应方法对风电出力变化引起的工作点进行跟踪。以交/直流混合系统与风力发电集成作为测试系统。研究了风电输出变SSR模式的特性,仿真结果表明,自适应SSR阻尼控制方法不仅可以跟踪风电输出的运行状态,而且在风电输出波动较大的情况下也能进行鲁棒有效的控制。
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