This paper presents derivation of the pressure correction equation appropriate for colocated grids within the framework of the SIMPLE algorithm. It is shown that checkerboard prediction of pressure can be prevented by employing algebraic smoothing pressure correction [Numer. Heat Transfer, Part B 29 (1996) 441] that is very simple to implement on both the structured as well as unstructured grids. The ability of the smoothing correction (which is shown to be independent of transformations of the system of coordinates) in providing the necessary dissipation is explained and the connection of the former with requirements of the Stokes's laws is established. (C) 200
The present work studies the interactions between fictitious-domain methods on structured grids and ...
In this work, a pressure-based composite grid method is developed for solving the incompressible Nav...
Summary. Algebraic flux correction schemes of TVD and FCT type are extended to systems of hyperbolic...
This paper presents a finite-volume discretisation procedure for the solution of Navier-Stokes equat...
When Navier-Stokes equations for incompressible flow are solved on a nonstaggered grid, Be problem o...
The present author recently devised a pressure correction algorithm for solution of incompressible N...
An overview is given of recent research progress in developing a unified numerical algorithm capable...
In this paper, a pressure correction algorithm for computing incompressible flows is modified and im...
Abstract This work is an overview of algebraic pressure segregation methods for the incompressible N...
This paper describes discretization of transport equations on unstructured meshes with cell-centered...
The space discretized conservation equations for laminar flames are formulated as a system of differ...
Summary. Algebraic FEM-FCT and FEM-TVD schemes are integrated into in-compressible flow solvers base...
Summary. An algebraic approach to the design of high-resolution schemes for convection-dominated flo...
Checkerboard pressure is one of the most significant problems arising from the use of col- located ...
International audienceIn this paper we present a pressure correction scheme for the compressible Nav...
The present work studies the interactions between fictitious-domain methods on structured grids and ...
In this work, a pressure-based composite grid method is developed for solving the incompressible Nav...
Summary. Algebraic flux correction schemes of TVD and FCT type are extended to systems of hyperbolic...
This paper presents a finite-volume discretisation procedure for the solution of Navier-Stokes equat...
When Navier-Stokes equations for incompressible flow are solved on a nonstaggered grid, Be problem o...
The present author recently devised a pressure correction algorithm for solution of incompressible N...
An overview is given of recent research progress in developing a unified numerical algorithm capable...
In this paper, a pressure correction algorithm for computing incompressible flows is modified and im...
Abstract This work is an overview of algebraic pressure segregation methods for the incompressible N...
This paper describes discretization of transport equations on unstructured meshes with cell-centered...
The space discretized conservation equations for laminar flames are formulated as a system of differ...
Summary. Algebraic FEM-FCT and FEM-TVD schemes are integrated into in-compressible flow solvers base...
Summary. An algebraic approach to the design of high-resolution schemes for convection-dominated flo...
Checkerboard pressure is one of the most significant problems arising from the use of col- located ...
International audienceIn this paper we present a pressure correction scheme for the compressible Nav...
The present work studies the interactions between fictitious-domain methods on structured grids and ...
In this work, a pressure-based composite grid method is developed for solving the incompressible Nav...
Summary. Algebraic flux correction schemes of TVD and FCT type are extended to systems of hyperbolic...