Add to ORKGresolution schemes. A High-resolution Algorithm for all speed flows 2 A new collocated finite volume-based solution procedure for predicting viscous compressible and incompressible flows is presented. The technique is equally applicable in the subsonic, transonic, and supersonic regimes. Pressure is selected as a dependent variable in preference to density because changes in pressure are significant at all speeds as opposed to variations in density which become very small at low Mach numbers. The newly developed algorithm has two new features; (i) the use of the Normalized Variable and Space Formulation methodology to bound the convective fluxes; and (ii) the use of a high-resolution scheme in calculating interface density values to enhance...
The accuracy of many existing codes, originally implemented for transonic or supersonic problems, of...
The thesis presents a mixed spectral/finite volume method for compressible viscous flows. The method...
Multiphase, compressible and viscous flows are of crucial importance in a wide range of scientific a...
A new finite volume-based numerical algorithm for predicting incompressible and compressible multi-p...
The present lecture deals with issues related mainly to the geometric and algorithmic complexities, ...
The basic idea of pressure based method to predict compressible flows solving the governing partial ...
A pressure-based algorithm for the simulation of compressible interfacial flows is presented. The al...
When attempting to compute unsteady, variable density flows at very small or zero Mach number using ...
Calculation procedure is presented for computation of steady,recirculating viscous flows in complex ...
This effort investigates the accuracy of some flux-split algorithms in high-speed viscous flows. Thr...
Several high-resolution schemes are formulated with the goal of improving the accuracy of solutions ...
A generalized finite-volume framework for the solution of fluid flows at all speeds in complex geome...
Mach-uniform algorithms are unified numerical algorithms for the computation of fluid flows at arbit...
Mach-uniform algorithms are unified numerical algorithms for the computation of fluid flows at arbit...
The accuracy of many existing codes, originally implemented for transonic or supersonic problems, of...
The accuracy of many existing codes, originally implemented for transonic or supersonic problems, of...
The thesis presents a mixed spectral/finite volume method for compressible viscous flows. The method...
Multiphase, compressible and viscous flows are of crucial importance in a wide range of scientific a...
A new finite volume-based numerical algorithm for predicting incompressible and compressible multi-p...
The present lecture deals with issues related mainly to the geometric and algorithmic complexities, ...
The basic idea of pressure based method to predict compressible flows solving the governing partial ...
A pressure-based algorithm for the simulation of compressible interfacial flows is presented. The al...
When attempting to compute unsteady, variable density flows at very small or zero Mach number using ...
Calculation procedure is presented for computation of steady,recirculating viscous flows in complex ...
This effort investigates the accuracy of some flux-split algorithms in high-speed viscous flows. Thr...
Several high-resolution schemes are formulated with the goal of improving the accuracy of solutions ...
A generalized finite-volume framework for the solution of fluid flows at all speeds in complex geome...
Mach-uniform algorithms are unified numerical algorithms for the computation of fluid flows at arbit...
Mach-uniform algorithms are unified numerical algorithms for the computation of fluid flows at arbit...
The accuracy of many existing codes, originally implemented for transonic or supersonic problems, of...
The accuracy of many existing codes, originally implemented for transonic or supersonic problems, of...
The thesis presents a mixed spectral/finite volume method for compressible viscous flows. The method...
Multiphase, compressible and viscous flows are of crucial importance in a wide range of scientific a...