Add to ORKGReducing the loads experienced by wind turbine rotor blades can lower the cost of energy of wind turbines. “Smart rotor control” concepts have emerged as a solution to reduce fatigue loads on wind turbines. In this approach, aerodynamic load control devices are distributed along the span of the blade, and through a combination of sensing, control, and actuation, these devices dynamically control the blade loads. While smart rotor control approaches are primarily focused on fatigue load reductions, extreme loads on the blades may also be critical in determining the lifetime of components, and the ability to reduce these loads as well would be a welcome property of any smart rotor control approach. This research investigates the extreme load ...
Load reduction is increasingly seen as an essential part of controller and wind turbine design. On l...
Active distributed aerodynamic control for load reduction on wind turbine blades is an innovative co...
The largest commercial wind turbines today are rated at powers between 12 MW to 16 MW, with rotor di...
Modern wind turbines have been steadily increasing in size, and have now become very large, with rec...
Modern wind turbines have been steadily increasing in size, and have now become very large, with rec...
This thesis investigates particular concepts and technologies that can alleviate fatigue loads on wi...
This paper presents a newly developed aero-servo-elastic platform for implementing smart rotor contr...
With wind turbines growing in size, operation and maintenance has become a more important area of re...
Currently there is significant research into the inclusion of localised active flow control on wind ...
Wind turbines convert kinetic energy of the wind into electrical energy. Unfortunately, this process...
Placement of additional control devices along the span of the wind turbine blades is being considere...
This study aims to design several types of aerodynamic control devices using smart material actuator...
Horizontal axis wind turbines are an attractive renewable energy source because of their low carbon ...
Through numerical simulations that use trailing edge flaps as active aerodynamic load control device...
The recent trend towards large multi-MW wind turbines resulted in the role of the control system bec...
Load reduction is increasingly seen as an essential part of controller and wind turbine design. On l...
Active distributed aerodynamic control for load reduction on wind turbine blades is an innovative co...
The largest commercial wind turbines today are rated at powers between 12 MW to 16 MW, with rotor di...
Modern wind turbines have been steadily increasing in size, and have now become very large, with rec...
Modern wind turbines have been steadily increasing in size, and have now become very large, with rec...
This thesis investigates particular concepts and technologies that can alleviate fatigue loads on wi...
This paper presents a newly developed aero-servo-elastic platform for implementing smart rotor contr...
With wind turbines growing in size, operation and maintenance has become a more important area of re...
Currently there is significant research into the inclusion of localised active flow control on wind ...
Wind turbines convert kinetic energy of the wind into electrical energy. Unfortunately, this process...
Placement of additional control devices along the span of the wind turbine blades is being considere...
This study aims to design several types of aerodynamic control devices using smart material actuator...
Horizontal axis wind turbines are an attractive renewable energy source because of their low carbon ...
Through numerical simulations that use trailing edge flaps as active aerodynamic load control device...
The recent trend towards large multi-MW wind turbines resulted in the role of the control system bec...
Load reduction is increasingly seen as an essential part of controller and wind turbine design. On l...
Active distributed aerodynamic control for load reduction on wind turbine blades is an innovative co...
The largest commercial wind turbines today are rated at powers between 12 MW to 16 MW, with rotor di...