This paper presents a method for wing aerostructural analysis and optimization, which needs much lower computational costs, while computes the wing drag and structural deformation with a level of accuracy comparable to the higher fidelity CFD and FEM tools. A quasi-threedimensional aerodynamic solver is developed and connected to a finite beam element model for wing aerostructural optimization. In a quasi-three-dimensional approach an inviscid incompressible vortex lattice method is coupled with a viscous compressible airfoil analysis code for drag prediction of a three dimensional wing. The accuracy of the proposed method for wing drag prediction is validated by comparing its results with the results of a higher fidelity CFD analysis. The ...
Aerodynamic shape optimization of a common airliner elastic wing is presented and compared with opti...
Within the next few years, numerical shape optimisation based on high-fidelity methods is likely to ...
Novel aircraft concepts employing ultrahigh-aspect-ratio wings, such as the strut-braced wing (SBW) ...
This paper presents a method for wing aerostructural analysis and optimization, which needs much low...
A quasi-three-dimensional method for wing aerodynamic analysis for drag prediction is presented. Thi...
A method is presented for concurrent aerostructural optimization of wing planform, airfoil and high ...
This paper presents the development of a quasi-three-dimensional aerodynamic solver, which provides ...
A coupled-adjoint aerostrutctural wing optimization tool has been modified to include the optimizati...
This thesis is motivated by the desire to discover fuel efficient aircraft concepts through explorat...
The application and computational efficiency of wing aerostructural optimization us- ing simultaneou...
As the wing flies, its structural elasticity interacts with the aerodynamic loads and the wing defor...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
The application and computational efficiency of wing aerostructural optimization using siumultaneous...
Aerodynamic optimization based on continuous adjoint method for a flexible wing is developed using F...
By virtue of their efficiency, gradient-based algorithms can play a profound role in assessing wing ...
Aerodynamic shape optimization of a common airliner elastic wing is presented and compared with opti...
Within the next few years, numerical shape optimisation based on high-fidelity methods is likely to ...
Novel aircraft concepts employing ultrahigh-aspect-ratio wings, such as the strut-braced wing (SBW) ...
This paper presents a method for wing aerostructural analysis and optimization, which needs much low...
A quasi-three-dimensional method for wing aerodynamic analysis for drag prediction is presented. Thi...
A method is presented for concurrent aerostructural optimization of wing planform, airfoil and high ...
This paper presents the development of a quasi-three-dimensional aerodynamic solver, which provides ...
A coupled-adjoint aerostrutctural wing optimization tool has been modified to include the optimizati...
This thesis is motivated by the desire to discover fuel efficient aircraft concepts through explorat...
The application and computational efficiency of wing aerostructural optimization us- ing simultaneou...
As the wing flies, its structural elasticity interacts with the aerodynamic loads and the wing defor...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
The application and computational efficiency of wing aerostructural optimization using siumultaneous...
Aerodynamic optimization based on continuous adjoint method for a flexible wing is developed using F...
By virtue of their efficiency, gradient-based algorithms can play a profound role in assessing wing ...
Aerodynamic shape optimization of a common airliner elastic wing is presented and compared with opti...
Within the next few years, numerical shape optimisation based on high-fidelity methods is likely to ...
Novel aircraft concepts employing ultrahigh-aspect-ratio wings, such as the strut-braced wing (SBW) ...