Add to ORKGWe study the influence of fringing magnetic fields on turbulent thermal convection in a horizontally extended rectangular domain. The magnetic field is created in the gap between two semi-infinite planar magnetic poles, with the convection layer located near the edge of the gap. We employ direct numerical simulations in this setup for fixed Rayleigh and small Prandtl numbers, but vary the fringe-width by controlling the gap between the magnetic poles and the convection cell. The magnetic field generated by the magnets is strong enough to cease the flow in high magnetic flux region of the convection cell. We observe that as the local vertical magnetic field strength increases, the large scale structures become thinner and align themselves pe...
The magnetic field effect on laminar natural convection flow is investigated in a filled enclosure w...
A horizontal fluid layer heated from below in the presence of a vertical magnetic field is considere...
Thermal convection in magnetic fluids can be driven by buoyancy or by magnetic forces (due to the th...
We study the structure of a magnetoconvective flow. The magnetic field modifies the heat fluxes at t...
Numerical simulations of quasi-static magnetoconvection with a vertical magnetic field are carried o...
This is the final version of the article. Available from the publisher via the DOI in this record.Mo...
International audienceWe provide a numerical analysis of three-dimensional free convection of a liqu...
Convection flow in a vertical layer of ferrofluid heated from a side and subject to the transverse m...
This paper reports 3D numerical simulations of compressible, thermal convection in a small rectil...
Magnetoconvection is the type of flows in which the effects of thermal convection and magnetohydrody...
AbstractA horizontal layer of magnetic fluid subjected to a vertical temperature gradient and a spat...
We determine the nonlinear drift velocities of the mean magnetic field and nonlinear turbulent magne...
Here we investigate the effects of fluid properties on the morphology and dynamics of convection in ...
Context. A hypothesis for sunspot formation is the buoyant emergence of magnetic flux tube...
Lecture (Conference) 11th PAMIR International Conference- Fundamental and Applied MHD July 1-5, 201...
The magnetic field effect on laminar natural convection flow is investigated in a filled enclosure w...
A horizontal fluid layer heated from below in the presence of a vertical magnetic field is considere...
Thermal convection in magnetic fluids can be driven by buoyancy or by magnetic forces (due to the th...
We study the structure of a magnetoconvective flow. The magnetic field modifies the heat fluxes at t...
Numerical simulations of quasi-static magnetoconvection with a vertical magnetic field are carried o...
This is the final version of the article. Available from the publisher via the DOI in this record.Mo...
International audienceWe provide a numerical analysis of three-dimensional free convection of a liqu...
Convection flow in a vertical layer of ferrofluid heated from a side and subject to the transverse m...
This paper reports 3D numerical simulations of compressible, thermal convection in a small rectil...
Magnetoconvection is the type of flows in which the effects of thermal convection and magnetohydrody...
AbstractA horizontal layer of magnetic fluid subjected to a vertical temperature gradient and a spat...
We determine the nonlinear drift velocities of the mean magnetic field and nonlinear turbulent magne...
Here we investigate the effects of fluid properties on the morphology and dynamics of convection in ...
Context. A hypothesis for sunspot formation is the buoyant emergence of magnetic flux tube...
Lecture (Conference) 11th PAMIR International Conference- Fundamental and Applied MHD July 1-5, 201...
The magnetic field effect on laminar natural convection flow is investigated in a filled enclosure w...
A horizontal fluid layer heated from below in the presence of a vertical magnetic field is considere...
Thermal convection in magnetic fluids can be driven by buoyancy or by magnetic forces (due to the th...