The aim of this work is to investigate the capabilities of current engineering tools based on Blade Element Momentum (BEM) and free vortex wake codes for the prediction of key aerodynamic parameters of wind turbines in yawed flow. Axial induction factor and aerodynamic loads of three wind turbines (NREL VI, AVATAR and INNWIND.EU) were investigated using wind tunnel measurements and numerical simulations for 0 and 30 degrees of yaw. Results indicated that for axial conditions there is a good agreement between all codes in terms of mean values of aerodynamic parameters, however in yawed flow significant deviations were observed. This was due to unsteady phenomena such as advancing & retreating and skewed wake effect. These deviations were mor...
Horizontal axis wind turbines (HAWTs) experience yaw misalignments due to the physical limitations o...
The presence of wake flows caused by wind turbines (WTs) diminish the expected power generation of w...
A new analytical wake model for wind turbines, considering ambient turbulence intensity, thrust coef...
This work presents a significantly improved engineering model for the prediction of the loads in yaw...
Wind power is currently one of the most reliable new energy sources serving as an alternative to fos...
Wind turbine design codes for calculating blade loads are usually based on a blade element momentum ...
This paper analyses the aerodynamics of wind turbines under yaw with different modelling fidelities ...
The aerodynamics of a wind turbine is governed by the flow around the rotor. One of the most severe ...
The earlier EU-sponsored project MEXICO (model experiments in controlled conditions) provided a huge...
International audienceThe characterization of wind turbines in yawed conditions is one of the most i...
This work is dedicated to systematically studying and predicting the wake characteristics of a yawed...
The current practice in aerodynamic design and load analysis of wind turbines is to use codes based ...
This work is aimed to investigate the effects of elastic blade deformations on the aerodynamics of l...
To account for the problem of an azimuthally constant induction in the BEM method, which influences ...
In this research, the three-dimensional CFD simulation of the complex flow around a two-bladed rotor...
Horizontal axis wind turbines (HAWTs) experience yaw misalignments due to the physical limitations o...
The presence of wake flows caused by wind turbines (WTs) diminish the expected power generation of w...
A new analytical wake model for wind turbines, considering ambient turbulence intensity, thrust coef...
This work presents a significantly improved engineering model for the prediction of the loads in yaw...
Wind power is currently one of the most reliable new energy sources serving as an alternative to fos...
Wind turbine design codes for calculating blade loads are usually based on a blade element momentum ...
This paper analyses the aerodynamics of wind turbines under yaw with different modelling fidelities ...
The aerodynamics of a wind turbine is governed by the flow around the rotor. One of the most severe ...
The earlier EU-sponsored project MEXICO (model experiments in controlled conditions) provided a huge...
International audienceThe characterization of wind turbines in yawed conditions is one of the most i...
This work is dedicated to systematically studying and predicting the wake characteristics of a yawed...
The current practice in aerodynamic design and load analysis of wind turbines is to use codes based ...
This work is aimed to investigate the effects of elastic blade deformations on the aerodynamics of l...
To account for the problem of an azimuthally constant induction in the BEM method, which influences ...
In this research, the three-dimensional CFD simulation of the complex flow around a two-bladed rotor...
Horizontal axis wind turbines (HAWTs) experience yaw misalignments due to the physical limitations o...
The presence of wake flows caused by wind turbines (WTs) diminish the expected power generation of w...
A new analytical wake model for wind turbines, considering ambient turbulence intensity, thrust coef...