Add to ORKGSeveral algorithms for introducing artificial dissipation into a central difference approximation to the Euler and Navier Stokes equations are considered. The focus of the paper is on the convective upwind and split pressure (CUSP) scheme, which is designed to support single interior point discrete shock waves. This scheme is analyzed and compared in detail with scalar and matrix dissipation (MATD) schemes. Resolution capability is determined by solving subsonic, transonic, and hypersonic flow problems. A finite-volume discretization and a multistage time-stepping scheme with multigrid are used to compute solutions to the flow equations. Numerical results are also compared with either theoretical solutions or experimental data. For transoni...
Anapproach which closely maintains the non-dissipative nature of classical fourth or higher-order sp...
High-speed turbulent flows are encountered in most space-related applications (including exploration...
International audienceHigh-speed turbulent flows are encountered in most space-related applications ...
Several algorithms for introducing artificial dissipation into a central difference approximation to...
Several schemes for introducing an artificial dissipation into a central difference approximation to...
Several schemes for introducing an artificial dissipation into a central difference approximation to...
A class of numerical dissipation models for central-difference schemes constructed with second- and ...
grantor: University of TorontoThe implementation of the convective upstream split pressur...
grantor: University of TorontoThe implementation of the convective upstream split pressur...
The effect of artificial diffusion on discrete shock structures is examined for a family of schemes ...
A comparative study of five upwind schemes was performed to evaluate their ability accurately model ...
This thesis presents and verifies a numerical method for solving the compressible Euler equations. T...
Conservative dissipative difference schemes, the recognition and representation of discontinuities, ...
General difference approximations to the fluid dynamic equations require an artificial viscosity in ...
Anapproach which closely maintains the non-dissipative nature of classical fourth or higher-order sp...
Anapproach which closely maintains the non-dissipative nature of classical fourth or higher-order sp...
High-speed turbulent flows are encountered in most space-related applications (including exploration...
International audienceHigh-speed turbulent flows are encountered in most space-related applications ...
Several algorithms for introducing artificial dissipation into a central difference approximation to...
Several schemes for introducing an artificial dissipation into a central difference approximation to...
Several schemes for introducing an artificial dissipation into a central difference approximation to...
A class of numerical dissipation models for central-difference schemes constructed with second- and ...
grantor: University of TorontoThe implementation of the convective upstream split pressur...
grantor: University of TorontoThe implementation of the convective upstream split pressur...
The effect of artificial diffusion on discrete shock structures is examined for a family of schemes ...
A comparative study of five upwind schemes was performed to evaluate their ability accurately model ...
This thesis presents and verifies a numerical method for solving the compressible Euler equations. T...
Conservative dissipative difference schemes, the recognition and representation of discontinuities, ...
General difference approximations to the fluid dynamic equations require an artificial viscosity in ...
Anapproach which closely maintains the non-dissipative nature of classical fourth or higher-order sp...
Anapproach which closely maintains the non-dissipative nature of classical fourth or higher-order sp...
High-speed turbulent flows are encountered in most space-related applications (including exploration...
International audienceHigh-speed turbulent flows are encountered in most space-related applications ...