Small wind turbines are gaining popularity due to their ability to meet community or domestic needs in isolated areas with relatively easier installation and lower cost than large wind turbines. This study looks at optimizing airfoils for use in small horizontal axis wind turbines. The optimization looks to maximize the lift coefficient (Cl ) while minimizing or fixing the drag coefficient (Cd). To satisfy these two objectives a multi–objective genetic algorithm is used. The airfoil is parameterized using a composite Bezier curve with two Bezier segments and 11 control points. Appropriate curvature conditions are implemented at the leading and trailing edge of the airfoil and geometric constraints are applied to maintain the maximum thickn...
An aerodynamic shape optimization methodology based on Genetic Algorithm and Blade Element Momentum ...
This thesis presents an aerodynamic shape optimization methodology for rotor blades of horizontal ax...
This paper describes an optimization method for the design of horizontal axis wind turbines using th...
Small wind turbines (SWTs) are ideal for supplying electricity to small remote communities that do n...
Flatback airfoils show several potential benefits in the design of wind turbine blades. Structurally...
The purpose of this study is the development of an automated two-dimensional airfoil shape optimizat...
This paper presents an aerodynamic shape optimization methodology for rotor blades of horizontal axi...
This work aims to optimize the aerodynamic parameters (airfoil chord lengths and twist angles smooth...
ii Two important criteria for wind turbine performance are the power coefficient, defined as the por...
This study presents a methodology first built up for the aerodynamic shape optimization for wind tur...
AbstractThe performance of a wind turbine rotor depends on the wind characteristics of the site and ...
There are different types of airfoil used in many applications such as energy production, aerospace,...
Optimization of 10.6m diameter, constant speed and stall regulated horizontal axis wind turbine was ...
This thesis presents a process to optimize a cambered airfoil with the MATLAB genetic algorithm (GA)...
A Computational Fluid Dynamics (CFD) and response surface-based multiobjective design optimization w...
An aerodynamic shape optimization methodology based on Genetic Algorithm and Blade Element Momentum ...
This thesis presents an aerodynamic shape optimization methodology for rotor blades of horizontal ax...
This paper describes an optimization method for the design of horizontal axis wind turbines using th...
Small wind turbines (SWTs) are ideal for supplying electricity to small remote communities that do n...
Flatback airfoils show several potential benefits in the design of wind turbine blades. Structurally...
The purpose of this study is the development of an automated two-dimensional airfoil shape optimizat...
This paper presents an aerodynamic shape optimization methodology for rotor blades of horizontal axi...
This work aims to optimize the aerodynamic parameters (airfoil chord lengths and twist angles smooth...
ii Two important criteria for wind turbine performance are the power coefficient, defined as the por...
This study presents a methodology first built up for the aerodynamic shape optimization for wind tur...
AbstractThe performance of a wind turbine rotor depends on the wind characteristics of the site and ...
There are different types of airfoil used in many applications such as energy production, aerospace,...
Optimization of 10.6m diameter, constant speed and stall regulated horizontal axis wind turbine was ...
This thesis presents a process to optimize a cambered airfoil with the MATLAB genetic algorithm (GA)...
A Computational Fluid Dynamics (CFD) and response surface-based multiobjective design optimization w...
An aerodynamic shape optimization methodology based on Genetic Algorithm and Blade Element Momentum ...
This thesis presents an aerodynamic shape optimization methodology for rotor blades of horizontal ax...
This paper describes an optimization method for the design of horizontal axis wind turbines using th...