Ahstract~~alculations for the two-dimensional driven cavity incompressible flow problem are presented. A p-type Jinite element scheme for the fully coupled stream function-vorticity formulation of the Navier-Stokes equations is used. Graded meshes are used to resolve vortex flow features and minimize the impact of comer singularities. Incremental continuation in the Reynolds number allows solutions to be computed for Re = 12 500. A significant feature of the work is that new tertiary and quaternary corner vortex features are observed in the flow field. Comparisons are made with other solutions in the literature. 0 1997 Elsevier Science Ltd. 1
(Communicated by Jean-Luc Guermond) Abstract. In the present article, a new methodology has been dev...
An eigen function expansion procedure is developed for Stokes flow in two-dimensional rectangular ca...
Cavity flow past an obstacle in the presence of an inflow vorticity is considered. The proposed appr...
The numerical solutions of 2-D steady incompressible flow in a driven cavity are presented. The Navi...
The goal of this work is to present results for 2D viscous incompressible flows governed by the Nav...
The streamfunction-vorticity equations for two-dimentional cavity flow are solved by a new finite el...
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AbstractIn this paper we present a new method to solve the 2D generalized Stokes problem in terms of...
A number of formulations for the solution of the Navier-Stokes equations are given with reference to...
This paper proposes a method to numerically study viscous incompressible two-dimensional steady flow...
In this paper, an incompressible, two-dimensional (2D), time-dependent, Newtonian, laminar, and inte...
In this work, computer simulation results of steady incompressible flow in a 2-D square lid-driven c...
A numerical method is presented which is designed to solve the Navier- Stokes equations for two-dime...
(Communicated by Jean-Luc Guermond) Abstract. In the present article, a new methodology has been dev...
An eigen function expansion procedure is developed for Stokes flow in two-dimensional rectangular ca...
Cavity flow past an obstacle in the presence of an inflow vorticity is considered. The proposed appr...
The numerical solutions of 2-D steady incompressible flow in a driven cavity are presented. The Navi...
The goal of this work is to present results for 2D viscous incompressible flows governed by the Nav...
The streamfunction-vorticity equations for two-dimentional cavity flow are solved by a new finite el...
WOS: 000379036300003This paper presents the two-dimensional (2D) steady incompressible flow in a lid...
This report presents the solution to the Navier-Stokes equa-tions. Standard fundamental methods like...
Abstract:- A numerical approach called ‘SIMPLER ’ being used to carry out studying the flow and heat...
AbstractIn this paper we present a new method to solve the 2D generalized Stokes problem in terms of...
A number of formulations for the solution of the Navier-Stokes equations are given with reference to...
This paper proposes a method to numerically study viscous incompressible two-dimensional steady flow...
In this paper, an incompressible, two-dimensional (2D), time-dependent, Newtonian, laminar, and inte...
In this work, computer simulation results of steady incompressible flow in a 2-D square lid-driven c...
A numerical method is presented which is designed to solve the Navier- Stokes equations for two-dime...
(Communicated by Jean-Luc Guermond) Abstract. In the present article, a new methodology has been dev...
An eigen function expansion procedure is developed for Stokes flow in two-dimensional rectangular ca...
Cavity flow past an obstacle in the presence of an inflow vorticity is considered. The proposed appr...