Spatial adaption procedures for the accurate and efficient solution of steady and unsteady inviscid flow problems are described. The adaption procedures were developed and implemented within a two-dimensional unstructured-grid upwind-type Euler code. These procedures involve mesh enrichment and mesh coarsening to either add points in a high gradient region or the flow or remove points where they are not needed, respectively, to produce solutions of high spatial accuracy at minimal computational costs. A detailed description is given of the enrichment and coarsening procedures and comparisons with alternative results and experimental data are presented to provide an assessment of the accuracy and efficiency of the capability. Steady and unst...
A two-dimensional numerical scheme for the compressible Euler equations is presented and applied her...
A space-time adaptive gridding technique for unsteady flows is presented. The technique is applied t...
Improved algorithm for the solution of the time-dependent Euler equations are presented for unsteady...
Spatial adaptation procedures for the accurate and efficient solution of steady and unsteady invisci...
Computational methods to solve large-scale realistic problems in fluid flow can be made more efficie...
The current status of unstructured grid methods development in the Unsteady Aerodynamics Branch at N...
A general purpose unstructured mesh solver for steady-state two-dimensional inviscid and viscous flo...
The current status of the development of unstructured grid methods in the Unsteady Aerodynamics Bran...
Dynamic mesh adaption on unstructured grids is a powerful tool for computing unsteady flows that req...
The use of unstructured mesh techniques for solving complex aerodynamic flows is discussed. The prin...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76130/1/AIAA-1992-443-336.pd
The development of unstructured-grid methods for the solution of the equations of fluid flow and wha...
An upwinding flux difference splitting method has been used to solve the Euler equations for compre...
Accurate capturing of discontinuities within compressible flow computations is achieved by coupling ...
A numerical method for the solution of the unsteady Euler equations is presented. The grid used in t...
A two-dimensional numerical scheme for the compressible Euler equations is presented and applied her...
A space-time adaptive gridding technique for unsteady flows is presented. The technique is applied t...
Improved algorithm for the solution of the time-dependent Euler equations are presented for unsteady...
Spatial adaptation procedures for the accurate and efficient solution of steady and unsteady invisci...
Computational methods to solve large-scale realistic problems in fluid flow can be made more efficie...
The current status of unstructured grid methods development in the Unsteady Aerodynamics Branch at N...
A general purpose unstructured mesh solver for steady-state two-dimensional inviscid and viscous flo...
The current status of the development of unstructured grid methods in the Unsteady Aerodynamics Bran...
Dynamic mesh adaption on unstructured grids is a powerful tool for computing unsteady flows that req...
The use of unstructured mesh techniques for solving complex aerodynamic flows is discussed. The prin...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76130/1/AIAA-1992-443-336.pd
The development of unstructured-grid methods for the solution of the equations of fluid flow and wha...
An upwinding flux difference splitting method has been used to solve the Euler equations for compre...
Accurate capturing of discontinuities within compressible flow computations is achieved by coupling ...
A numerical method for the solution of the unsteady Euler equations is presented. The grid used in t...
A two-dimensional numerical scheme for the compressible Euler equations is presented and applied her...
A space-time adaptive gridding technique for unsteady flows is presented. The technique is applied t...
Improved algorithm for the solution of the time-dependent Euler equations are presented for unsteady...