基于自适应神经模糊推理系统的潮流发电水轮机变桨距控制策略
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摘要
变桨距水轮机能在低流速下保持最小桨距角实现功率的最大捕获,还可在高流速下通过变桨来实现恒功率输出,减少了过载冲击。通过分析变桨距伺服控制系统,改进了基于自适应神经模糊推理系统的变桨控制方法,实现了更为平滑高效的变桨操作,并在Matlab/Simulink下进行了系统仿真,验证了所提控制方法的有效性。
Variable pitch turbine can not only maintain the minimum pitch angle at low flow rate to achieve the maximum power capture,but also achieve the constant power output by changing the paddle at high flow rate to reduce the overload impact.By analyzing the variable pitch servo control system,the variable pitch control method based adaptive neural fuzzy reasoning system is improved,and a smoother and more efficient variable pitch operation is realized.System simulation is carried out under Matlab/Simulink.The effectiveness of the proposed control scheme is verified.
Variable pitch turbine can not only maintain the minimum pitch angle at low flow rate to achieve the maximum power capture,but also achieve the constant power output by changing the paddle at high flow rate to reduce the overload impact.By analyzing the variable pitch servo control system,the variable pitch control method based adaptive neural fuzzy reasoning system is improved,and a smoother and more efficient variable pitch operation is realized.System simulation is carried out under Matlab/Simulink.The effectiveness of the proposed control scheme is verified.
引文
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[2] Lin W M,Hong C M,Ou T C,et al.Hybrid Intelligent Control of PMSG Wind Generation System Using Pitch Angle Control with RBFN[J].Energy Conversion&Management,2011,52(2):1 244-1 251.
[3] Asghar A B,Liu X.Estimation of Wind Turbine Power Coefficient by Adaptive Neuro-fuzzy Methodology[J].Neurocomputing,2017,238:227-233.
[4]厉文超.水平轴潮流发电水轮机最大功率捕获技术研究[D].青岛:中国海洋大学,2011.
[5]谢哲.水平轴潮流能水轮机变桨距系统的研究[D].哈尔滨:哈尔滨工程大学,2012.
[6]潘庭龙,孙承奇,纪志成,等.数据驱动的变速变桨风能转换系统恒功率控制[J].南京理工大学学报:自然科学版,2015,39(1):115-121.