Two methods are presented for inviscid transonic flows: unsteady Euler equations in a rotating frame of reference for transonic-vortex flows and integral solution of full-potential equation with and without embedded Euler domains for transonic airfoil flows. The computational results covered: steady and unsteady conical vortex flows; 3-D steady transonic vortex flow; and transonic airfoil flows. The results are in good agreement with other computational results and experimental data. The rotating frame of reference solution is potentially efficient as compared with the space fixed reference formulation with dynamic gridding. The integral equation solution with embedded Euler domain is computationally efficient and as accurate as the Euler e...
The numerical simulation of three-dimensional transonic flow about propeller blades is discussed. Th...
The steady full-potential equation is written in the form of Poisson's equation, and the solution fo...
Computational fluid dynamics methods have been widely accepted for transonic aeroelastic analysis. P...
An implicit, two factor, split flux, finite volume Euler equations solution algorithms is applied to...
Two transonic computational schemes which are based on the Integral Equation Formulation of the full...
The well developed surface panel method is extended by adding a volume integral term allowing calcul...
Computational methods for unsteady transonic flows are surveyed with emphasis on prediction. Computa...
A finite volume implicit approximate factorization method which solves the thin layer Navier-Stokes ...
Papers resulting from work performed from January 1, 1987 to July 31, 1987 are listed. Transonic com...
The 1980s may well be called the Euler era of applied aerodynamics. Computer codes based on discrete...
The Euler code is used extensively for computation of transonic unsteady aerodynamics. The boundary ...
The integral equation solution of the full-potential equation is presented for steady and unsteady t...
In the last two decades there have been extensive developments in computational unsteady transonic a...
A new multigrid relaxation scheme, lower-upper symmetric successive overrelaxation (LU-SSOR) is deve...
A time accurate approximate factorization (AF) algorithm is formulated for solution of the three dim...
The numerical simulation of three-dimensional transonic flow about propeller blades is discussed. Th...
The steady full-potential equation is written in the form of Poisson's equation, and the solution fo...
Computational fluid dynamics methods have been widely accepted for transonic aeroelastic analysis. P...
An implicit, two factor, split flux, finite volume Euler equations solution algorithms is applied to...
Two transonic computational schemes which are based on the Integral Equation Formulation of the full...
The well developed surface panel method is extended by adding a volume integral term allowing calcul...
Computational methods for unsteady transonic flows are surveyed with emphasis on prediction. Computa...
A finite volume implicit approximate factorization method which solves the thin layer Navier-Stokes ...
Papers resulting from work performed from January 1, 1987 to July 31, 1987 are listed. Transonic com...
The 1980s may well be called the Euler era of applied aerodynamics. Computer codes based on discrete...
The Euler code is used extensively for computation of transonic unsteady aerodynamics. The boundary ...
The integral equation solution of the full-potential equation is presented for steady and unsteady t...
In the last two decades there have been extensive developments in computational unsteady transonic a...
A new multigrid relaxation scheme, lower-upper symmetric successive overrelaxation (LU-SSOR) is deve...
A time accurate approximate factorization (AF) algorithm is formulated for solution of the three dim...
The numerical simulation of three-dimensional transonic flow about propeller blades is discussed. Th...
The steady full-potential equation is written in the form of Poisson's equation, and the solution fo...
Computational fluid dynamics methods have been widely accepted for transonic aeroelastic analysis. P...