摘要
在基于马格纳斯力驱动的垂直轴风力机理论研究的基础上,研究了风场中旋转柱形叶片所能够获取最大马格纳斯力的方法.从最大风能利用率和最低能耗角度出发,把叶片在风力机中所处动态方位角与叶片的合理旋转速度联系起来,提出了旋转叶片的最大功率跟随的叶片转速控制问题并进行系统研究,为马格纳斯力驱动的垂直轴风力机的控制和实际应用提供理论基础.
Based on the theoretical study of the wheel-track vertical axis wind turbine driven by Magnus force,this paper studies the method of obtaining the maximum Magnus force on the rotating cylindrical blade in the wind field,and from the maximum wind energy utilization rate and the lowest energy. From the perspective of maximum wind energy utilization and minimum energy consumption,the dynamic azimuth of the blade in the wind turbine is related to the reasonable rotational speed of the blade. This paper systematically studies blade rotation speed control of the maximum power of the rotating blade and provides a theoretical basis for the control and practical application of the vertical axis wind turbine driven by Magnus force.
作者
宋奇
李超
刘宸宇
Song Qi;Li Chao;Liu Chenyu(School of Energy and Mechanical Engineering,Nanjing Normal University,Nanjing 210042,China)
出处
《南京师范大学学报(工程技术版)》
CAS
2019年第1期65-71,共7页
Journal of Nanjing Normal University(Engineering and Technology Edition)
关键词
马格纳斯效应
垂直轴风力机
转子叶片控制
跟随控制
最大风能利用率
Magnus effect
wheel-track vertical axis wind turbine
rotor blade control
follow control
maximum wind power generation
