Add to ORKGAn unsteady TVD Navier-Stokes solver was developed and applied to the problem of shock reflection on a circular cylinder. The obtained numerical results were compared with the Schlieren photos from an experimental study. These results show that the present computer code has the ability of capturing moving shocks
A class of high-resolution implicit total variation diminishing (TVD) type algorithms suitable for t...
A systematic study has been conducted to assess the performance of the TVD schemes for practical flo...
A new streamwise upwind algorithm was derived to compute unsteady flow fields with the use of a movi...
A total variation diminishing (TVD) scheme has been developed and incorporated into an existing time...
This research aims to improve the modeling of stationary and moving shock waves by adding an unstead...
The goal of this study is to evaluate the accuracy of several high resolution total variation dimini...
We present a shock capturing method for unsteady laminar and turbulent flows. The proposed approach ...
An accurate shock capturing scheme is developed for high speed flow. The flux limited dissipation sc...
A class of numerical dissipation models for central-difference schemes constructed with second- and ...
At high Mach numbers the two-dimensional time-developing mixing layer develops shock waves, position...
A comparative study of five upwind schemes was performed to evaluate their ability accurately model ...
A survey of some popular upwind flux-difference schemes, both explicit and implicit, has been carrie...
A survey of some popular upwind flux-difference schemes, both explicit and implicit, has been carrie...
Recent developments which have improved the understanding of how finite difference methods resolve d...
The numerical performance of a second-order upwind-based total variation diminishing (TVD) scheme an...
A class of high-resolution implicit total variation diminishing (TVD) type algorithms suitable for t...
A systematic study has been conducted to assess the performance of the TVD schemes for practical flo...
A new streamwise upwind algorithm was derived to compute unsteady flow fields with the use of a movi...
A total variation diminishing (TVD) scheme has been developed and incorporated into an existing time...
This research aims to improve the modeling of stationary and moving shock waves by adding an unstead...
The goal of this study is to evaluate the accuracy of several high resolution total variation dimini...
We present a shock capturing method for unsteady laminar and turbulent flows. The proposed approach ...
An accurate shock capturing scheme is developed for high speed flow. The flux limited dissipation sc...
A class of numerical dissipation models for central-difference schemes constructed with second- and ...
At high Mach numbers the two-dimensional time-developing mixing layer develops shock waves, position...
A comparative study of five upwind schemes was performed to evaluate their ability accurately model ...
A survey of some popular upwind flux-difference schemes, both explicit and implicit, has been carrie...
A survey of some popular upwind flux-difference schemes, both explicit and implicit, has been carrie...
Recent developments which have improved the understanding of how finite difference methods resolve d...
The numerical performance of a second-order upwind-based total variation diminishing (TVD) scheme an...
A class of high-resolution implicit total variation diminishing (TVD) type algorithms suitable for t...
A systematic study has been conducted to assess the performance of the TVD schemes for practical flo...
A new streamwise upwind algorithm was derived to compute unsteady flow fields with the use of a movi...