The streamfunction-vorticity equations for two-dimentional cavity flow are solved by a new finite element method which uses finite spectral basis functions as shape functions for rectangular elements. Simulations for several cases with different Renolds numbers are performed. Good agreement was obtained in the comparison between the present results with the bench mark solutions
We show a successful numerical study of lid-driven square cavity flow with embedded circular obstacl...
This research presents a mathematical model (finite element) to calculate the flow due to natural co...
In this paper we consider a model for the motion of incompressible viscous flows proposed by Ladyzhe...
Ahstract~~alculations for the two-dimensional driven cavity incompressible flow problem are presente...
A high-order numerical method is employed to investigate flow in a rotor/stator cavity without heat ...
An eigen function expansion procedure is developed for Stokes flow in two-dimensional rectangular ca...
Abstract:- In this paper we consider a pure-streamfunction equation of Ladyzhenskaya equations. For ...
MI: Global COE Program Education-and-Research Hub for Mathematics-for-IndustryグローバルCOEプログラム「マス・フォア・イ...
The two-dimensional Navier-Stokes equation is solved numerically using a finite differenced based me...
in a rotor/stator cavity without heat transfer and buoyant flow in a rotor/rotor cavity. The numeric...
A numerical algorithm for the solution of the velocity-vorticity formulation of Navier-Stokes equati...
Abstract. We consider two-level ¯nite element discretization methods for the stream function formula...
The numerical solutions of 2-D steady incompressible flow in a driven cavity are presented. The Navi...
Abstract: Although studies of ows in cavities without internal blockages are extremely common, those...
The problem of singularities caused by boundary conditions is studied in the flow of lid driven cavi...
We show a successful numerical study of lid-driven square cavity flow with embedded circular obstacl...
This research presents a mathematical model (finite element) to calculate the flow due to natural co...
In this paper we consider a model for the motion of incompressible viscous flows proposed by Ladyzhe...
Ahstract~~alculations for the two-dimensional driven cavity incompressible flow problem are presente...
A high-order numerical method is employed to investigate flow in a rotor/stator cavity without heat ...
An eigen function expansion procedure is developed for Stokes flow in two-dimensional rectangular ca...
Abstract:- In this paper we consider a pure-streamfunction equation of Ladyzhenskaya equations. For ...
MI: Global COE Program Education-and-Research Hub for Mathematics-for-IndustryグローバルCOEプログラム「マス・フォア・イ...
The two-dimensional Navier-Stokes equation is solved numerically using a finite differenced based me...
in a rotor/stator cavity without heat transfer and buoyant flow in a rotor/rotor cavity. The numeric...
A numerical algorithm for the solution of the velocity-vorticity formulation of Navier-Stokes equati...
Abstract. We consider two-level ¯nite element discretization methods for the stream function formula...
The numerical solutions of 2-D steady incompressible flow in a driven cavity are presented. The Navi...
Abstract: Although studies of ows in cavities without internal blockages are extremely common, those...
The problem of singularities caused by boundary conditions is studied in the flow of lid driven cavi...
We show a successful numerical study of lid-driven square cavity flow with embedded circular obstacl...
This research presents a mathematical model (finite element) to calculate the flow due to natural co...
In this paper we consider a model for the motion of incompressible viscous flows proposed by Ladyzhe...