Two numerical issues important to proper problem specification for pressure-based algorithms are investigated, including (1) well posedness of the pressure-correction equation, and (2) proper prescription of flow variables at open boundaries, particularly if inflow occurs. Lid-driven cavity flow and flow past a backward-facing step are used to help discuss the issues. It is shown that during each iteration, the explicit enforcement of global mass conservation is important even for the intermediate, nonconvergent flow field in order to maintain good convergence rates. This requirement stems from the fact that the pressure distribution is an outcome of the continuity equation. Furthermore, it seems that the global continuity constraint is oft...
In this paper we consider different aspects of conservation in the finite element method. In particu...
To impose boundary conditions, data at the boundaries must be known, and consequently measurements o...
A pressure-based algorithm for incompressible flows is presented. The algorithm employs a finite-vol...
In numerical simulations of unsteady incompressible flow, mass conservation can be enforced using a ...
Selecting compute nodes and solution grid generation are the first steps of numerical solutions. The...
When Navier-Stokes equations for incompressible flow are solved on a nonstaggered grid, Be problem o...
An enhanced solution strategy for the SIMPLER algorithm is presented for low pressure heat and mass ...
This work is concerned with the implementation and testing, of four incompressible-segregated multi-...
We propose a technique for improving mass‐conservation features of fractional step schemes applied t...
In this paper seven segregated single-fluid pressure-based algorithms are extended to predict multi-...
In the multi-block computation of the Navier - Stokes equations, the interface treatment is a key is...
Numerical solutions for the incompressible flow equations encounter a numerical problem because of t...
Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)Complementing a previous compara...
In this paper we consider different aspects of conservation in the finite element method. In particu...
To impose boundary conditions, data at the boundaries must be known, and consequently measurements o...
A pressure-based algorithm for incompressible flows is presented. The algorithm employs a finite-vol...
In numerical simulations of unsteady incompressible flow, mass conservation can be enforced using a ...
Selecting compute nodes and solution grid generation are the first steps of numerical solutions. The...
When Navier-Stokes equations for incompressible flow are solved on a nonstaggered grid, Be problem o...
An enhanced solution strategy for the SIMPLER algorithm is presented for low pressure heat and mass ...
This work is concerned with the implementation and testing, of four incompressible-segregated multi-...
We propose a technique for improving mass‐conservation features of fractional step schemes applied t...
In this paper seven segregated single-fluid pressure-based algorithms are extended to predict multi-...
In the multi-block computation of the Navier - Stokes equations, the interface treatment is a key is...
Numerical solutions for the incompressible flow equations encounter a numerical problem because of t...
Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)Complementing a previous compara...
In this paper we consider different aspects of conservation in the finite element method. In particu...
To impose boundary conditions, data at the boundaries must be known, and consequently measurements o...
A pressure-based algorithm for incompressible flows is presented. The algorithm employs a finite-vol...