AbstractA mathematical model is presented in this work, based on the Blade Element Momentum (BEM) theory for the horizontal-axis wind turbine design, taking into account the influence of the wake on the rotor plane in the general form. This influence is considered when the tip-speed-ratio is small, justifying the development of formulations that predict the effects of the wake on the rotor plane. The proposed mathematical model in this work is an extension of the BEM method, using the Glauert’s model modified for the wind turbine design
The aerodynamic performance of an upwind, three-bladed, small horizontal axis wind tur-bine (HAWT) r...
ABSTRACT: The wind energy research has grown substantially in the past few years, considerably foste...
Uncertainty in aerodynamic load prediction is an important parameter driving the price of wind energ...
In this work, a mathematical model based on the compact Blade Element Momentum theory (BEM) is used ...
In this study, a combination of CFD (Computational Fluid Dynamics) and BEM (Blade Element Momentum M...
The aerodynamic modelling of the wind turbine blades is a vital step in the design of the turbine. S...
A horizontal axis wind turbine design and analysis have been investigated using a numerical code bas...
A small biomimetic horizontal axis wind turbine (HAWT) with tubercles was analyzed using the Blade E...
This article aims to study the forces applied to the rotors of horizontal axis wind turbines. The ae...
Summarization: The Blade Element Momentum (BEM) theory is nowadays the cornerstone of the horizontal...
In this paper, a design method based on blade element momentum (BEM) theory is explained for horizon...
International audienceThe blade element momentum (BEM) theory introduced by Lock et al. and formulat...
It is well established that the power generated by a Horizontal-Axis Wind Turbine (HAWT) is a functi...
The Blade Element Momentum (BEM) equations are widely used for analyzing the wind turbine aerodynami...
The present work uses the blade element momentum theory method for evaluating the performance of hor...
The aerodynamic performance of an upwind, three-bladed, small horizontal axis wind tur-bine (HAWT) r...
ABSTRACT: The wind energy research has grown substantially in the past few years, considerably foste...
Uncertainty in aerodynamic load prediction is an important parameter driving the price of wind energ...
In this work, a mathematical model based on the compact Blade Element Momentum theory (BEM) is used ...
In this study, a combination of CFD (Computational Fluid Dynamics) and BEM (Blade Element Momentum M...
The aerodynamic modelling of the wind turbine blades is a vital step in the design of the turbine. S...
A horizontal axis wind turbine design and analysis have been investigated using a numerical code bas...
A small biomimetic horizontal axis wind turbine (HAWT) with tubercles was analyzed using the Blade E...
This article aims to study the forces applied to the rotors of horizontal axis wind turbines. The ae...
Summarization: The Blade Element Momentum (BEM) theory is nowadays the cornerstone of the horizontal...
In this paper, a design method based on blade element momentum (BEM) theory is explained for horizon...
International audienceThe blade element momentum (BEM) theory introduced by Lock et al. and formulat...
It is well established that the power generated by a Horizontal-Axis Wind Turbine (HAWT) is a functi...
The Blade Element Momentum (BEM) equations are widely used for analyzing the wind turbine aerodynami...
The present work uses the blade element momentum theory method for evaluating the performance of hor...
The aerodynamic performance of an upwind, three-bladed, small horizontal axis wind tur-bine (HAWT) r...
ABSTRACT: The wind energy research has grown substantially in the past few years, considerably foste...
Uncertainty in aerodynamic load prediction is an important parameter driving the price of wind energ...