The results of a mimetic finite difference discretization of the three-dimensional, incompressible Navier–Stokes equations are compared with more traditional finite difference schemes. The proposed method handles both momentum advection and diffusion in a vorticity-preserving manner and allows for simple treatment of rigid wall boundary conditions. The results obtained in various tests demonstrate the advantages of the proposed method
AbstractComputations of unsteady incompressible flows are carried out using the three-dimensional un...
The Navier Stokes equations are ones that describe the behavior of fluids. The computational solutio...
A finite-difference scheme for the direct simulation of the incompressible time-dependent three-dime...
The results of a mimetic finite difference discretization of the three-dimensional, incompressible Na...
A mimetic finite difference discretization of the three-dimensional, incompressible Navier-Stokes eq...
We present a general procedure to construct a non-linear mimetic finite-difference operator. The me...
In this work, a finite difference method to solve the incompressible Navier–Stokes equations in cyli...
We discretize the incompressible Navier–Stokes equations on a polytopal mesh by using mimetic recons...
Stokes flow is fluid flow where advective in-ertial forces are negligibly small compared to viscous ...
We introduce a mimetic dual-field discretization which conserves mass, kinetic energy and helicity f...
Summarization: Modern CFD applications require the treatment of general complex domains to accuratel...
We introduce a mimetic Cartesian cut-cell method for incompressible viscous flow that conserves mass...
Abstract. We describe and illustrate numerical procedures that combine grid and particle solvers for...
This book describes the theoretical and computational aspects of the mimetic finite difference metho...
In the given paper, we confront three finite difference approximations to the Navier-Stokes equation...
AbstractComputations of unsteady incompressible flows are carried out using the three-dimensional un...
The Navier Stokes equations are ones that describe the behavior of fluids. The computational solutio...
A finite-difference scheme for the direct simulation of the incompressible time-dependent three-dime...
The results of a mimetic finite difference discretization of the three-dimensional, incompressible Na...
A mimetic finite difference discretization of the three-dimensional, incompressible Navier-Stokes eq...
We present a general procedure to construct a non-linear mimetic finite-difference operator. The me...
In this work, a finite difference method to solve the incompressible Navier–Stokes equations in cyli...
We discretize the incompressible Navier–Stokes equations on a polytopal mesh by using mimetic recons...
Stokes flow is fluid flow where advective in-ertial forces are negligibly small compared to viscous ...
We introduce a mimetic dual-field discretization which conserves mass, kinetic energy and helicity f...
Summarization: Modern CFD applications require the treatment of general complex domains to accuratel...
We introduce a mimetic Cartesian cut-cell method for incompressible viscous flow that conserves mass...
Abstract. We describe and illustrate numerical procedures that combine grid and particle solvers for...
This book describes the theoretical and computational aspects of the mimetic finite difference metho...
In the given paper, we confront three finite difference approximations to the Navier-Stokes equation...
AbstractComputations of unsteady incompressible flows are carried out using the three-dimensional un...
The Navier Stokes equations are ones that describe the behavior of fluids. The computational solutio...
A finite-difference scheme for the direct simulation of the incompressible time-dependent three-dime...