Abstract- In this research, an optimization of a wind turbine airfoil is performed by Genetic Algorithm (GA) as optimization method, coupled with CFD (Computational Fluid Dynamics) and Artificial Neural Network (ANN). A pressure-based implicit procedure is applied to solve the Navier-Stokes equations on a nonorthogonal mesh with collocated finite volume formulation to calculate the aerodynamic coefficients. The boundedness criteria for the numerical procedure are determined by Normalized Variable Diagram (NVD) scheme and the k eddy-viscosity turbulence model is utilized. ANN has been used as surrogate model to reduce computational cost and time. Single objective and multi objective optimization of wind turbine airfoil have been performed...
ii Two important criteria for wind turbine performance are the power coefficient, defined as the por...
In this paper, a new multiploid genetic optimization method handling surrogate models of the CFD sol...
Optimization methods have been widely applied to the aerodynamic design of gas turbine blades. While...
This paper deals with an alternative design method of airfoil for wind turbine blade for low wind s...
Abstract-A new approach to high-fidelity aerodynamic design optimization of a wind turbine blade con...
A Computational Fluid Dynamics (CFD) and response surface-based multiobjective design optimization w...
To achieve the highest energy level from a wind turbine, the prediction of its performance is essent...
In this paper, we employ a genetic algorithm (GA) for shape optimization of low Reynolds number airf...
Small wind turbines are gaining popularity due to their ability to meet community or domestic needs...
Aerodynamic shape optimization of gas turbine blades is a very challenging task, given e.g. the flow...
Abstract: The aerodynamic design of wind turbine blades is carried out by means of evolutionary tech...
This paper presents a description of the method and results of rotor blade shape optimization. The r...
This work aims to optimize the aerodynamic parameters (airfoil chord lengths and twist angles smooth...
The airfoil is the prime component of flying vehicles. For low-speed flights, low Reynolds number ai...
An aerodynamic shape optimization methodology based on Genetic Algorithm and Blade Element Momentum ...
ii Two important criteria for wind turbine performance are the power coefficient, defined as the por...
In this paper, a new multiploid genetic optimization method handling surrogate models of the CFD sol...
Optimization methods have been widely applied to the aerodynamic design of gas turbine blades. While...
This paper deals with an alternative design method of airfoil for wind turbine blade for low wind s...
Abstract-A new approach to high-fidelity aerodynamic design optimization of a wind turbine blade con...
A Computational Fluid Dynamics (CFD) and response surface-based multiobjective design optimization w...
To achieve the highest energy level from a wind turbine, the prediction of its performance is essent...
In this paper, we employ a genetic algorithm (GA) for shape optimization of low Reynolds number airf...
Small wind turbines are gaining popularity due to their ability to meet community or domestic needs...
Aerodynamic shape optimization of gas turbine blades is a very challenging task, given e.g. the flow...
Abstract: The aerodynamic design of wind turbine blades is carried out by means of evolutionary tech...
This paper presents a description of the method and results of rotor blade shape optimization. The r...
This work aims to optimize the aerodynamic parameters (airfoil chord lengths and twist angles smooth...
The airfoil is the prime component of flying vehicles. For low-speed flights, low Reynolds number ai...
An aerodynamic shape optimization methodology based on Genetic Algorithm and Blade Element Momentum ...
ii Two important criteria for wind turbine performance are the power coefficient, defined as the por...
In this paper, a new multiploid genetic optimization method handling surrogate models of the CFD sol...
Optimization methods have been widely applied to the aerodynamic design of gas turbine blades. While...