摘要
针对低风速、山地环境、机位分散、风速多湍流与风向存在极端变化等特点的风场设计智能增功方案,基于通用化平台技术、智能降载增功技术、定制化偏航技术等关键技术,提出了定制化智能增功控制解决方案,可以明显提高风力发电机组的发电效率,极大降低风力发电机组的运行载荷,大幅度提升风力发电机组的运行稳定性。
This scheme is designed for the wind power field with low wind speed, mountain environment, dispersed position, wind speed and turbulence and extreme changes in wind direction. The scheme is based on generalized platform technologies, intelligent load shedding and ergonomics, and customization. Key technologies such as yaw technology have proposed a customized intelligent power-increasing control solution which can significantly improve the power generation efficiency of wind turbines and reduce the operating load of wind turbines. It will improve the operational stability of wind turbines.
作者
汪航
Wang Hang(School of Electrical Engineering, Anhui Polytechnic University, Wuhu, Anhui 241000, China)
出处
《黑龙江工业学院学报(综合版)》
2019年第10期27-32,共6页
Journal of Heilongjiang University of Technology(Comprehensive Edition)
关键词
低风速发电
智能监控
智能增功
low wind speed power generation
intelligent monitoring
intelligent power gain
