Add to ORKGAn inhomogeneous magnetic field exerts a magnetic body force on magnetically permeable fluids. A recent experiment [D. Braithwaite, E. Beaugnon, and R. Tournier, Nature (London) 354, 134 (1991)] demonstrates that this force can be used to compensate for gravity and to control convection in a paramagnetic solution of gadolinium nitrate. We provide the theory of magnetically controlled convection in a horizontal paramagnetic fluid layer heated from either above or below. Our theoretical predictions agree with the experiments
In this work we studied the convective heat transfer in a magnetic fluid in both zero and applied ma...
128 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.Microgravity conditions pose ...
The effects of a nonuniform temp. gradient and magnetic field on the onset of convection driven by s...
Inhomogeneous magnetic fields exert a body force on electrically nonconducting, diamagnetic fluids....
Nonuniform magnetic fields exert a magnetic body force on electrically nonconducting classical fluid...
Inhomogeneous magnetic fields exert a magnetic body force on electrically nonconducting, magneticall...
Over the last decade or so it has became possible to build high-temperature super-conducting magnet...
Microgravity conditions pose unique challenges for fluid handling and heat transfer applications. By...
In industrial heat transfer processes, natural convection enters in various forms. One form of natur...
AbstractA horizontal layer of magnetic fluid subjected to a vertical temperature gradient and a spat...
Purpose - Thermo-magnetic convection and heat transfer of paramagnetic fluid placed in a micro-gravi...
International audienceLarge-scale convection in planetary or stellar interiors plays a significant r...
A horizontal ferrofluid layer is submitted to a lateral heating and to a strong oblique magnetic fie...
A magnetic fluid consists of magnetic nanoparticles suspended in nonmagnetic solvent. The buoyancy-i...
The average heat transfer rate of joint gravitational and magnetic convection of a paramagnetic flui...
In this work we studied the convective heat transfer in a magnetic fluid in both zero and applied ma...
128 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.Microgravity conditions pose ...
The effects of a nonuniform temp. gradient and magnetic field on the onset of convection driven by s...
Inhomogeneous magnetic fields exert a body force on electrically nonconducting, diamagnetic fluids....
Nonuniform magnetic fields exert a magnetic body force on electrically nonconducting classical fluid...
Inhomogeneous magnetic fields exert a magnetic body force on electrically nonconducting, magneticall...
Over the last decade or so it has became possible to build high-temperature super-conducting magnet...
Microgravity conditions pose unique challenges for fluid handling and heat transfer applications. By...
In industrial heat transfer processes, natural convection enters in various forms. One form of natur...
AbstractA horizontal layer of magnetic fluid subjected to a vertical temperature gradient and a spat...
Purpose - Thermo-magnetic convection and heat transfer of paramagnetic fluid placed in a micro-gravi...
International audienceLarge-scale convection in planetary or stellar interiors plays a significant r...
A horizontal ferrofluid layer is submitted to a lateral heating and to a strong oblique magnetic fie...
A magnetic fluid consists of magnetic nanoparticles suspended in nonmagnetic solvent. The buoyancy-i...
The average heat transfer rate of joint gravitational and magnetic convection of a paramagnetic flui...
In this work we studied the convective heat transfer in a magnetic fluid in both zero and applied ma...
128 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2005.Microgravity conditions pose ...
The effects of a nonuniform temp. gradient and magnetic field on the onset of convection driven by s...