A procedure based on MATLAB combined with ANSYS is presented and utilized for the multi-objective aerodynamic and structural optimization of horizontal-axis wind turbine (HAWT) blades. In order to minimize the cost of energy (COE) and improve the overall performance of the blades, materials of carbon fiber reinforced plastic (CFRP) combined with glass fiber reinforced plastic (GFRP) are applied. The maximum annual energy production (AEP), the minimum blade mass and the minimum blade cost are taken as three objectives. Main aerodynamic and structural characteristics of the blades are employed as design variables. Various design requirements including strain, deflection, vibration and buckling limits are taken into account as constraints. To ...
In spite of the enlarging interest in wind turbines development, the design optimization of wind tur...
The main purpose of this project was the creation of a tool, based on the research performed by Sche...
The design of wind turbine blades is a true multi-objective engineering task. The aerodynamic effect...
A procedure based on MATLAB combined with ANSYS is presented and utilized for the multi-objective ae...
A procedure based on MATLAB combined with ANSYS is presented and utilized for the aerodynamic and st...
A multi-objective optimization method for the structural design of horizontal-axis wind turbine (HA...
A multi-objective optimization method for the structural design of horizontal-axis wind turbine (HAW...
procedure based on MATLAB combined with ANSYS is presented and utilized for the aerodynamic and stru...
An extensively automated optimization procedure is presented for a horizontal axis wind turbine (HAW...
Purpose Wind turbines are one of the best candidates to solve the problem of increasing energy deman...
A wind turbine rotor should capture as much wind power as possible. However, the more energy extract...
The AOC 15/50 wind turbine blade has been considered as the baseline configuration for a structural ...
This paper describes a multi-objective optimization method for the design of stall-regulated horizon...
This paper presents an aerodynamic shape optimization methodology for rotor blades of horizontal axi...
This paper describes an optimization method for the design of horizontal axis wind turbines using th...
In spite of the enlarging interest in wind turbines development, the design optimization of wind tur...
The main purpose of this project was the creation of a tool, based on the research performed by Sche...
The design of wind turbine blades is a true multi-objective engineering task. The aerodynamic effect...
A procedure based on MATLAB combined with ANSYS is presented and utilized for the multi-objective ae...
A procedure based on MATLAB combined with ANSYS is presented and utilized for the aerodynamic and st...
A multi-objective optimization method for the structural design of horizontal-axis wind turbine (HA...
A multi-objective optimization method for the structural design of horizontal-axis wind turbine (HAW...
procedure based on MATLAB combined with ANSYS is presented and utilized for the aerodynamic and stru...
An extensively automated optimization procedure is presented for a horizontal axis wind turbine (HAW...
Purpose Wind turbines are one of the best candidates to solve the problem of increasing energy deman...
A wind turbine rotor should capture as much wind power as possible. However, the more energy extract...
The AOC 15/50 wind turbine blade has been considered as the baseline configuration for a structural ...
This paper describes a multi-objective optimization method for the design of stall-regulated horizon...
This paper presents an aerodynamic shape optimization methodology for rotor blades of horizontal axi...
This paper describes an optimization method for the design of horizontal axis wind turbines using th...
In spite of the enlarging interest in wind turbines development, the design optimization of wind tur...
The main purpose of this project was the creation of a tool, based on the research performed by Sche...
The design of wind turbine blades is a true multi-objective engineering task. The aerodynamic effect...