In this paper, numerical simulations are performed in a single and double lid driven square cavity to study the flow of a Bingham viscoplastic fluid. The governing equations are discretized with the help of finite element method in space and the nonconforming Stokes element Q~1/Q0 is utilized which gives 2nd-order accuracy for velocity and 1st-order accuracy for pressure. The discretized systems of nonlinear equations are treated by using the Newton method and the inner linear subproablems are solved by the direct solver UMFPACK. A qualitative comparison is done with the results reported in the literature. In addition to these comparisons, some new reference data for the kinetic energy is generated. All these implementations are done in the...
A numerical simulation of an incompressible viscous flow using the finite element method is presente...
This article is concerned with the equations governing the steady motion of a viscoelastic incompres...
<p>In recent years, due to rapidly increasing computational power, computational methods have become...
In this paper, a numerical model is developed which can predict behavior of non-Newtonian fluids. Th...
A finite element method (FEM) based tool is used in this work to numerically modeling mineral-slurry...
The problem of flow inside a square cavity whose lid has constant velocity is solved. This problem i...
We propose a numerical method to calculate unsteady flows of Bingham fluids without any regularizati...
In this work, computer simulation results of steady incompressible flow in a 2-D square lid-driven c...
A numerical algorithm for the solution of the velocity-vorticity formulation of Navier-Stokes equati...
The objective of this work is to model computationally Bingham and Herschel-Bulkley viscoplastic flu...
In this paper a smoothed particle hydrodynamics (SPH) method is introduced for simulating two-dimens...
This project is to develop a finite volume code to solve the Navier-Stokes (NS) equations coupled wi...
After reviewing the existing operator-splitting schemes for incompressible Bingham fluids, a new sch...
The two-dimensional Navier-Stokes equation is solved numerically using a finite differenced based me...
The aim of this work is to provide numerical solutions for the fluid flow and the heat transfer gene...
A numerical simulation of an incompressible viscous flow using the finite element method is presente...
This article is concerned with the equations governing the steady motion of a viscoelastic incompres...
<p>In recent years, due to rapidly increasing computational power, computational methods have become...
In this paper, a numerical model is developed which can predict behavior of non-Newtonian fluids. Th...
A finite element method (FEM) based tool is used in this work to numerically modeling mineral-slurry...
The problem of flow inside a square cavity whose lid has constant velocity is solved. This problem i...
We propose a numerical method to calculate unsteady flows of Bingham fluids without any regularizati...
In this work, computer simulation results of steady incompressible flow in a 2-D square lid-driven c...
A numerical algorithm for the solution of the velocity-vorticity formulation of Navier-Stokes equati...
The objective of this work is to model computationally Bingham and Herschel-Bulkley viscoplastic flu...
In this paper a smoothed particle hydrodynamics (SPH) method is introduced for simulating two-dimens...
This project is to develop a finite volume code to solve the Navier-Stokes (NS) equations coupled wi...
After reviewing the existing operator-splitting schemes for incompressible Bingham fluids, a new sch...
The two-dimensional Navier-Stokes equation is solved numerically using a finite differenced based me...
The aim of this work is to provide numerical solutions for the fluid flow and the heat transfer gene...
A numerical simulation of an incompressible viscous flow using the finite element method is presente...
This article is concerned with the equations governing the steady motion of a viscoelastic incompres...
<p>In recent years, due to rapidly increasing computational power, computational methods have become...