A volume penalization approach to simulate magnetohydrodynamic (MHD) flows in confined domains is presented. Here the incompressible visco-resistive MHD equations are solved using parallel pseudo-spectral solvers in Cartesian geometries. The volume penalization technique is an immersed boundary method which is characterized by a high flexibility for the geometry of the considered flow. In the present case, it allows to use other than periodic boundary conditions in a Fourier pseudo-spectral approach. The numerical method is validated and its convergence is assessed for two- and three-dimensional hydrodynamic (HD) and MHD flows, by comparing the numerical results with results from literature and analytical solutions. The test cases considere...
A numerical algorithm has been developed to solve the incompressible magnetohydrodynamics (MHD) equa...
Recent and potential applications of spectral method computation to incompressible, dissipative magn...
Magnetohydrodynamics (MHD) models describe the behaviour of electrically conducting fluids such as a...
International audienceWe present a Fourier pseudo-spectral method for solving the resistive magnetoh...
International audienceWe present a Fourier pseudo-spectral method for solving the resistive ă magnet...
Dans ce travail de thèse, une méthode de pénalisation en volume pour la simulation d'écoulements mag...
The present work reports on a study of flows of conducting fluids in confined geometries, driven by ...
The dynamics of a magnetically forced conducting fluid in confined geometries is studied. A pseudosp...
The large-scale dynamics of plasma flows can often be described within a fluidistic approximation kn...
In this dissertation, we are concerned with the numerical simulation for flows of electrically condu...
A magnetohydrodynamic description is used to study magnetic fusion plasmas in two different configur...
In our everyday life, turbulence is an omnipresent phenomenon and yet remains poorly understood. Its...
The immersed boundary method (IB hereafter) is an efficient numerical methodology for treating purel...
The set of eight nonlinear partial differential equations of magnetohydrodynamics (MHD) is used for ...
A description is given of the algorithms implemented in the AstroBEAR adaptive mesh-refinement code ...
A numerical algorithm has been developed to solve the incompressible magnetohydrodynamics (MHD) equa...
Recent and potential applications of spectral method computation to incompressible, dissipative magn...
Magnetohydrodynamics (MHD) models describe the behaviour of electrically conducting fluids such as a...
International audienceWe present a Fourier pseudo-spectral method for solving the resistive magnetoh...
International audienceWe present a Fourier pseudo-spectral method for solving the resistive ă magnet...
Dans ce travail de thèse, une méthode de pénalisation en volume pour la simulation d'écoulements mag...
The present work reports on a study of flows of conducting fluids in confined geometries, driven by ...
The dynamics of a magnetically forced conducting fluid in confined geometries is studied. A pseudosp...
The large-scale dynamics of plasma flows can often be described within a fluidistic approximation kn...
In this dissertation, we are concerned with the numerical simulation for flows of electrically condu...
A magnetohydrodynamic description is used to study magnetic fusion plasmas in two different configur...
In our everyday life, turbulence is an omnipresent phenomenon and yet remains poorly understood. Its...
The immersed boundary method (IB hereafter) is an efficient numerical methodology for treating purel...
The set of eight nonlinear partial differential equations of magnetohydrodynamics (MHD) is used for ...
A description is given of the algorithms implemented in the AstroBEAR adaptive mesh-refinement code ...
A numerical algorithm has been developed to solve the incompressible magnetohydrodynamics (MHD) equa...
Recent and potential applications of spectral method computation to incompressible, dissipative magn...
Magnetohydrodynamics (MHD) models describe the behaviour of electrically conducting fluids such as a...