Add to ORKGWe examine the use of natural boundary conditions and conditions of the Sommerfeld type for finite element simulations of convective transport in viscous incompressible flows. We show that natural boundary conditions are superior in the sense that they always provide a correct boundary condition, as opposed to the Sommerfeld‐type conditions, which can lead to a singular formulation and a great loss of accuracy. For the Navier–Stokes equations, the natural boundary conditions must be combined with a simple method to eliminate perturbations on the pressure at the open boundary, which is the source of most errors
Several topics arising in the finite element solution of the incompressible Navier-Stokes equations ...
AbstractThe problem of the specification of artifical outflow conditions in flow problems is studied...
Numerical simulation of flow problems usually requires the truncation of an unbounded flow region to...
Boundary conditions come from Nature. Therefore these conditions exist at natural boundaries. Often,...
International audienceWe deal with numerical simulations of incompressible Navier-Stokes equations i...
Part I: We consider the numerical solution of the Navier-Stokes equations governing the unsteady ...
The proper specification of boundary conditions at artificial boundaries for the simulation of time-...
A new equal order velocity--pressure finite element procedure is presented for the calculation of 2-...
The article discusses the selection of boundary conditions at the boundary between adjacent layers i...
The Free (or Open) Boundary Condition (FBC, OBC) was proposed by Papanastasiou et al. (A new outflow...
Abstract. — Efficient natural conditions on open boundaries for incompressible fiows are derived fro...
AbstractThe problem of the specification of artifical outflow conditions in flow problems is studied...
Non reflecting boundary conditions on artificial frontiers of the domain are proposed for both incom...
Non reflecting boundary conditions on artificial frontiers of the domain are proposed for both incom...
Non reflecting boundary conditions on artificial frontiers of the domain are proposed for both incom...
Several topics arising in the finite element solution of the incompressible Navier-Stokes equations ...
AbstractThe problem of the specification of artifical outflow conditions in flow problems is studied...
Numerical simulation of flow problems usually requires the truncation of an unbounded flow region to...
Boundary conditions come from Nature. Therefore these conditions exist at natural boundaries. Often,...
International audienceWe deal with numerical simulations of incompressible Navier-Stokes equations i...
Part I: We consider the numerical solution of the Navier-Stokes equations governing the unsteady ...
The proper specification of boundary conditions at artificial boundaries for the simulation of time-...
A new equal order velocity--pressure finite element procedure is presented for the calculation of 2-...
The article discusses the selection of boundary conditions at the boundary between adjacent layers i...
The Free (or Open) Boundary Condition (FBC, OBC) was proposed by Papanastasiou et al. (A new outflow...
Abstract. — Efficient natural conditions on open boundaries for incompressible fiows are derived fro...
AbstractThe problem of the specification of artifical outflow conditions in flow problems is studied...
Non reflecting boundary conditions on artificial frontiers of the domain are proposed for both incom...
Non reflecting boundary conditions on artificial frontiers of the domain are proposed for both incom...
Non reflecting boundary conditions on artificial frontiers of the domain are proposed for both incom...
Several topics arising in the finite element solution of the incompressible Navier-Stokes equations ...
AbstractThe problem of the specification of artifical outflow conditions in flow problems is studied...
Numerical simulation of flow problems usually requires the truncation of an unbounded flow region to...