The present paper reports on numerical investigations of vortical structures in transient flow regimes generated by the local action of the Lorentz force on an electrically conductive fluid. The locally imposed non-uniform magnetic field generates similar effects as observed for flows over submerged solid obstacles. It is demonstrated that complex flow patterns can be generated by imposing magnetic fields of different strengths. The initial validation of the electromagnetically extended Navier–Stokes solver on unstructured numerical grids is performed in the low-Reynolds number range 100 ? Re ? 400 for different values of the magnetic interaction parameter. A generally good agreement is obtained in comparison with similar numerical studies ...
In an electrically conducting fluid, vortices stretch out a weak, large-scale magnetic field to form...
The impact of a strong magnetic eld on the turbulent flow of an electrically conductive fluid is enc...
We conducted a large eddy simulation (LES) of a locally applied electromagnetic control of turbulent...
This paper analyses numerically the quasi-two-dimensional flow of an incompressible electrically con...
The paper reports on numerical and experimental investigations of electromagnetically driven vortica...
We use a combination of numerical simulations and experiments to elucidate the structure of the flow...
Numerical simulations and analysis of flow and heat transfer of an electrically conducting fluid pas...
The generation of vorticity in localized magnetic fields is explored under the low magnetic Reynolds...
We present results of a series of numerical simulations of an initially fully developed turbulent fl...
Electromagnetic fields may be used to control the flow separation during the flow of electrically co...
We report on hybrid numerical simulations of a turbulent magnetic dynamo. The simulated set-up mimic...
A numerical study is carried out of the magnetic field effects on the coherent structures and the as...
The flow transformation and the generation of vortex structures by a strong magnetic dipole field in...
Context. Strongly stratified hydromagnetic turbulence has previously been found to produce magnetic ...
Motivated by the concept of interdependency of turbulent flow and electromagnetic fields inside the ...
In an electrically conducting fluid, vortices stretch out a weak, large-scale magnetic field to form...
The impact of a strong magnetic eld on the turbulent flow of an electrically conductive fluid is enc...
We conducted a large eddy simulation (LES) of a locally applied electromagnetic control of turbulent...
This paper analyses numerically the quasi-two-dimensional flow of an incompressible electrically con...
The paper reports on numerical and experimental investigations of electromagnetically driven vortica...
We use a combination of numerical simulations and experiments to elucidate the structure of the flow...
Numerical simulations and analysis of flow and heat transfer of an electrically conducting fluid pas...
The generation of vorticity in localized magnetic fields is explored under the low magnetic Reynolds...
We present results of a series of numerical simulations of an initially fully developed turbulent fl...
Electromagnetic fields may be used to control the flow separation during the flow of electrically co...
We report on hybrid numerical simulations of a turbulent magnetic dynamo. The simulated set-up mimic...
A numerical study is carried out of the magnetic field effects on the coherent structures and the as...
The flow transformation and the generation of vortex structures by a strong magnetic dipole field in...
Context. Strongly stratified hydromagnetic turbulence has previously been found to produce magnetic ...
Motivated by the concept of interdependency of turbulent flow and electromagnetic fields inside the ...
In an electrically conducting fluid, vortices stretch out a weak, large-scale magnetic field to form...
The impact of a strong magnetic eld on the turbulent flow of an electrically conductive fluid is enc...
We conducted a large eddy simulation (LES) of a locally applied electromagnetic control of turbulent...