The tip vortex of a wind turbine rotor blade originates as a result of a complex distribution of vorticity along the blade tip thickness. While the tip vortex evolution was extensively studied previously in other work, the mechanism of the initiation of the tip vorticity in a 3D rotating environment is still somewhat obscured due to lack of detailed experimental evidence. This paper therefore aims at providing an understanding of how tip vorticity is formed at the wind turbine blade tip and what happens just behind the tip trailing edge. Stereo Particle Image Velocimetry (SPIV) is used to measure the flow field at the tip of a 2m diameter, two- bladed rotor at the TU Delft Open Jet Facility (OJF). The rotor has a rectangular blade tip. Span...
The Vertical Axis Wind Turbine, in its 2D form, is characterized by a complex unsteady aerodynamic f...
An experimental study of the near wake up to four rotor diameters behind a model wind turbine rotor ...
For a wind turbine, the flow downstream of the turbines (wake) is influenced by the power extraction...
The tip vortex of a wind turbine rotor blade originates as a result of a complex distribution of vor...
A combined numerical and experimental investigation is performed on the fundamental aspects of tip v...
The current paper describes the characteristics of the tip vortex in the near wake of a three-bladed...
The increased application of Wind Turbines in the built environment has lead to the recurrence of Ve...
Investigating the flow physics in the vicinity of the wind turbine blade is a challenging endeavour....
Measurements of the structure and evolution of the tip vortex from a rotor in low-speed forward flig...
Models for the rate of decay of rotor tip vortices, based on near-wake data and computations, are in...
Wind turbine dynamics, wake effects and environmental impacts have been identified the most signific...
In order to investigate change of vortex structures and its evolving processes, two dimensional LDV ...
An experimental investigation into the properties of the vortex wake behind a wind turbine rotor has...
The blade-tip vortex of a rotating and pitching DSA-9A blade was investigated numerically and experi...
The tip vortex of a finite rotor blade tip model undergoing pitch oscillations is investigated by me...
The Vertical Axis Wind Turbine, in its 2D form, is characterized by a complex unsteady aerodynamic f...
An experimental study of the near wake up to four rotor diameters behind a model wind turbine rotor ...
For a wind turbine, the flow downstream of the turbines (wake) is influenced by the power extraction...
The tip vortex of a wind turbine rotor blade originates as a result of a complex distribution of vor...
A combined numerical and experimental investigation is performed on the fundamental aspects of tip v...
The current paper describes the characteristics of the tip vortex in the near wake of a three-bladed...
The increased application of Wind Turbines in the built environment has lead to the recurrence of Ve...
Investigating the flow physics in the vicinity of the wind turbine blade is a challenging endeavour....
Measurements of the structure and evolution of the tip vortex from a rotor in low-speed forward flig...
Models for the rate of decay of rotor tip vortices, based on near-wake data and computations, are in...
Wind turbine dynamics, wake effects and environmental impacts have been identified the most signific...
In order to investigate change of vortex structures and its evolving processes, two dimensional LDV ...
An experimental investigation into the properties of the vortex wake behind a wind turbine rotor has...
The blade-tip vortex of a rotating and pitching DSA-9A blade was investigated numerically and experi...
The tip vortex of a finite rotor blade tip model undergoing pitch oscillations is investigated by me...
The Vertical Axis Wind Turbine, in its 2D form, is characterized by a complex unsteady aerodynamic f...
An experimental study of the near wake up to four rotor diameters behind a model wind turbine rotor ...
For a wind turbine, the flow downstream of the turbines (wake) is influenced by the power extraction...