Boundary layer transition modeling on leading edge inflatable kite airfoils [0.03%]
充气风筝翼型前缘边界层转捩模拟研究
Mikko Folkersma,Roland Schmehl,Axelle Viré
Mikko Folkersma
We present a computational fluid dynamic analysis of boundary layer transition on leading edge inflatable kite airfoils used for airborne wind energy generation. Because of the operation in pumping cycles, the airfoil is generally subject t...
Sliding Mode Control for Efficiency Optimization of Wind Electrical Pumping Systems [0.03%]
风力发电系统效率优化的滑模控制
R. D. Fernandez; R. J. Mantz; P. E. Battatotto
R. D. Fernandez; R. J. Mantz; P. E. Battatotto
Load Mitigation with Bending/Twist-coupled Blades on Rotors using Modern Control Strategies [0.03%]
采用现代控制策略的转子弯曲/扭曲耦合叶片负载缓解
Don W. Lobitz; Paul S. Veers
Don W. Lobitz; Paul S. Veers
K. Chaney; A. J. Eggers Jr
K. Chaney; A. J. Eggers Jr
Grid Integration of Wind Farms [0.03%]
风电场并网
John Olav Giæver Tande
John Olav Giæver Tande
Influence of wave modelling on the prediction of fatigue for offshore wind turbines [0.03%]
波浪模型对海上风力发电机疲劳预测的影响
H. F. Veldkamp; J. van der Tempel
H. F. Veldkamp; J. van der Tempel
Herbert J. Sutherland
Herbert J. Sutherland
Smoothing effects of distributed wind turbines. Part 2. Coherence among power output of distant wind turbines [0.03%]
分布式风力涡轮机的平滑效应。第二部分:远距离风力涡轮机功率输出之间的相干性
Toshiya Nanahara; Masahiro Asari; Tsutomu Maejima; Takamitsu Sato; Koji Yamaguchi; Masaaki Shibata
Toshiya Nanahara; Masahiro Asari; Tsutomu Maejima; Takamitsu Sato; Koji Yamaguchi; Masaaki Shibata
Power system frequency response from fixed speed and doubly fed induction generator-based wind turbines [0.03%]
基于恒速和双馈感应发电机的风力发电机组的电力系统频率响应
L. Holdsworth; J. B. Ekanayake; N. Jenkins
L. Holdsworth; J. B. Ekanayake; N. Jenkins
L. Kristensen; J. Højstrup; O. Rathmann
L. Kristensen; J. Højstrup; O. Rathmann