风电并网系统电压源变流器建模与控制

E. Hamatwi, I. Davidson, M. N. Gitau, G. Adam
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引用次数: 12

摘要

与传统能源(化石燃料)相比,风能具有成本竞争力,是最有前途的可再生能源之一。风力发电场通常位于远离负荷的地方,以实现最小的干扰和最佳的发电。高压直流(HVDC)输电是长距离输电系统的首选,因为传输损耗小,成本低,对环境的影响小。在本研究中,对一台配备PMSG的690V, 2MW风力涡轮机进行建模,并通过2级基于vsc的HVDC传输系统将其集成到本地33kV交流电网中。该系统采用了三种控制方案:风力机模型采用叶片-俯俯角控制器,整流器采用面向磁场的转子转速控制器以实现最大功率提取,并网侧逆变器采用面向矢量的直流链路电压控制器以保持直流链路电压恒定并保证功率因数统一。在MATLAB/Simulink中实现了所提出的子系统,并进行了仿真,分析了系统的整体性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling and control of voltage source converters for grid integration of a wind turbine system
Wind energy is one of the most promising renewable energy sources for generating electricity due to its cost competitiveness when compared to the conventional energy sources (fossil fuels). Wind farms are usually located far from the loads for minimal disturbances and optimal power generation. High Voltage Direct Current (HVDC) transmission is the preferred bulk power transmission system over long distances due to the minimal transmission losses, low costs and reduced environmental impacts. In this research investigation, a 690V, 2MW wind turbine equipped with a PMSG is modelled to be integrated into a local 33kV AC grid via a 2-level VSC-based HVDC transmission system. Three control schemes are implemented on the proposed system: a blade-pitch-angle controller applied on the wind turbine model, a field-oriented rotor speed controller applied on the rectifier for maximum power extraction, and a vector-oriented direct-current-link voltage controller applied on the grid-side inverter to keep the DC-link voltage constant and to ensure unity power factor. The proposed subsystems are implemented in MATLAB/Simulink and simulations are carried out to analyze the overall system's performance.
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