A method for accurately solving inviscid compressible flow in the subcritical and supercritical regimes about complex configurations is presented. The method is based on the use of unstructured triangular meshes in two dimensions, and special emphasis is placed on the accuracy and efficiency of the solutions. High accuracy is achieved by careful scaling of the artificial dissipation terms, and by reformulating the inner and outer boundary conditions for both the convective and dissipative operators. An adaptive grid refinement strategy is presented which enhances the solution accuracy for complex flows. When coupled with an unstructured multigrid algorithm, this method is shown to produce an efficient solver for flows about arbitrary config...
The applicants have developed a finite element based approach for the solution of three-dimensional ...
The present report deals with a numerical scheme for solving the two-dimensional Euler equations on ...
Multigrid techniques for unstructured meshes have proven to be very successful for both 2D and 3D in...
A multigrid algorithm has been developed for solving the steady-state Euler equations in two dimensi...
A general purpose unstructured mesh solver for steady-state two-dimensional inviscid and viscous flo...
Some important advances took place during the last several years in the development of genuinely mul...
A grid generation and flow solution algorithm for the Euler equations on unstructured grids is prese...
The system of equations consisting of the full Navier-Stokes equations and two turbulence equations ...
In the present study, a scheme capable of solving very fast and robust complex nonlinear systems of ...
The numerical solution of the two-dimensional inviscid Euler flow equations is given. The unstructur...
In this work the compressible Euler equations are solved using finite volume techniques on unstructu...
The use of unstructured mesh techniques for solving complex aerodynamic flows is discussed. The prin...
AbstractThe multigrid method based on multi-stage Jacobi relaxation, earlier developed by the author...
A critical assessment of the accuracy of Cartesian-mesh approaches for steady, transonic solutions o...
An upwinding flux difference splitting method has been used to solve the Euler equations for compre...
The applicants have developed a finite element based approach for the solution of three-dimensional ...
The present report deals with a numerical scheme for solving the two-dimensional Euler equations on ...
Multigrid techniques for unstructured meshes have proven to be very successful for both 2D and 3D in...
A multigrid algorithm has been developed for solving the steady-state Euler equations in two dimensi...
A general purpose unstructured mesh solver for steady-state two-dimensional inviscid and viscous flo...
Some important advances took place during the last several years in the development of genuinely mul...
A grid generation and flow solution algorithm for the Euler equations on unstructured grids is prese...
The system of equations consisting of the full Navier-Stokes equations and two turbulence equations ...
In the present study, a scheme capable of solving very fast and robust complex nonlinear systems of ...
The numerical solution of the two-dimensional inviscid Euler flow equations is given. The unstructur...
In this work the compressible Euler equations are solved using finite volume techniques on unstructu...
The use of unstructured mesh techniques for solving complex aerodynamic flows is discussed. The prin...
AbstractThe multigrid method based on multi-stage Jacobi relaxation, earlier developed by the author...
A critical assessment of the accuracy of Cartesian-mesh approaches for steady, transonic solutions o...
An upwinding flux difference splitting method has been used to solve the Euler equations for compre...
The applicants have developed a finite element based approach for the solution of three-dimensional ...
The present report deals with a numerical scheme for solving the two-dimensional Euler equations on ...
Multigrid techniques for unstructured meshes have proven to be very successful for both 2D and 3D in...