Add to ORKGTwo dimensional problems are solved using numerical techniques. Navier-Stokes equations are studied both in the vorticity-stream function formulation which appears to be the optimal choice for two dimensional problems, using a storage approach, and in the velocity pressure formulation which minimizes the number of unknowns in three dimensional problems. Analysis shows that compact centered conservative second order schemes for the vorticity equation are the most robust for high Reynolds number flows. Serious difficulties remain in the choice of turbulent models, to keep reasonable CPU efficiency
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
Two dimensional quasi-three dimensional Navier-Stokes solvers were used to predict the static and dy...
The effect of reducing the extent of the computational domain for transonic lifting flow over an aer...
The current status of computational methods for unsteady aerodynamics and aeroelasticity is reviewed...
After vigorous development for over twenty years, Computational Fluid Dynamics (CFD) in the field of...
In the past decade, there has been much activity in the development of computational methods for the...
Aerodynamic methods for aeroelastic analysis are applied to various flow problems. These methods inc...
The feasibility of obtaining two-dimensional, unsteady transonic aerodynamic data by numerically int...
A solution procedure was developed to investigate the two-dimensional, one- or two-dimensional flutt...
Research in the area of computational, unsteady transonic flows about airfoils and wings, including ...
An analysis and a numerical lifting surface method are developed for predicting the unsteady airload...
Unsteady transonic flow calculations are presented for aerodynamically interfering lifting surface c...
Modifications to an existing three-dimensional, implicit, upwind Euler/Navier-Stokes code (CFL3D Ver...
A compressible time-dependent procedure for the two-dimensional ensemble averaged Navier-Stokes equa...
Computational fluid dynamics methods have been widely accepted for transonic aeroelastic analysis. P...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
Two dimensional quasi-three dimensional Navier-Stokes solvers were used to predict the static and dy...
The effect of reducing the extent of the computational domain for transonic lifting flow over an aer...
The current status of computational methods for unsteady aerodynamics and aeroelasticity is reviewed...
After vigorous development for over twenty years, Computational Fluid Dynamics (CFD) in the field of...
In the past decade, there has been much activity in the development of computational methods for the...
Aerodynamic methods for aeroelastic analysis are applied to various flow problems. These methods inc...
The feasibility of obtaining two-dimensional, unsteady transonic aerodynamic data by numerically int...
A solution procedure was developed to investigate the two-dimensional, one- or two-dimensional flutt...
Research in the area of computational, unsteady transonic flows about airfoils and wings, including ...
An analysis and a numerical lifting surface method are developed for predicting the unsteady airload...
Unsteady transonic flow calculations are presented for aerodynamically interfering lifting surface c...
Modifications to an existing three-dimensional, implicit, upwind Euler/Navier-Stokes code (CFL3D Ver...
A compressible time-dependent procedure for the two-dimensional ensemble averaged Navier-Stokes equa...
Computational fluid dynamics methods have been widely accepted for transonic aeroelastic analysis. P...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
Two dimensional quasi-three dimensional Navier-Stokes solvers were used to predict the static and dy...
The effect of reducing the extent of the computational domain for transonic lifting flow over an aer...