Edwards et al., 1996 - Google Patents
Magnetothermal convection in nonconducting diamagnetic and paramagnetic fluidsEdwards et al., 1996
View PDF- Document ID
- 17189424612392980746
- Author
- Edwards B
- Gray D
- Huang J
- Publication year
- Publication venue
- Third Microgravity Fluid Physics Conference
External Links
Snippet
Nonuniform magnetic fields exert a magnetic body force on electrically nonconducting classical fluids. These include paramagnetic fluids such as gaseous and liquid oxygen and diamagnetic fluids such as helium. Recent experiments show that this force can overwhelm …
- 239000012530 fluid 0 title abstract description 27
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Rosensweig | Fluidmagnetic buoyancy. | |
| Bernstein et al. | Superconducting magnetic levitation: principle, materials, physics and models | |
| Rosensweig | Fluid dynamics and science of magnetic liquids | |
| Shliomis | Magnetic fluids | |
| Rosensweig | Magnetic fluids | |
| Bozhko et al. | Thermomagnetic convection as a tool for heat and mass transfer control in nanosize materials under microgravity conditions | |
| Mukhopadhyay et al. | A scaling analysis to characterize thermomagnetic convection | |
| Brooks et al. | New opportunities in science, materials, and biological systems in the low-gravity (magnetic levitation) environment | |
| Auernhammer et al. | Thermal convection in a rotating layer of a magnetic fluid | |
| Stiles et al. | Thermoconvective instability of a ferrofluid in a strong magnetic field | |
| Edwards et al. | Magnetothermal convection in nonconducting diamagnetic and paramagnetic fluids | |
| Wang et al. | Control of natural convection in non-and low-conducting diamagnetic fluids in a cubical enclosure using inhomogeneous magnetic fields with different directions | |
| Nanjundappa et al. | Effect of MFD viscosity on the onset of ferromagnetic fluid layer heated from below and cooled from above with constant heat flux | |
| Nikolayev et al. | Magnetic gravity compensation | |
| Seybert et al. | Suppression/reversal of natural convection by exploiting the temperature/composition dependence of magnetic susceptibility | |
| Teranishi et al. | Static and dynamic characteristics in levitating XY transporter using HTS bulks | |
| Reddy et al. | Simultaneous effects of radiation and variable heat source/sink on MHD flow of keosene Fe3O4 ferroliquid over a bidirectional stretched geometry | |
| US20230170827A1 (en) | Magnetic levitation based low-gravity system | |
| Sekar et al. | Ferroconvection in an anisotropic porous medium | |
| Hebard | A superconducting suspension with variable restoring force and low damping | |
| Qi et al. | The combined effects of magnetic field and magnetic field gradients on convection in crystal growth | |
| Bisio et al. | Magnetic systems depending on three or two variables; thermodynamic analysis and some existing and possible applications | |
| Bouhrour et al. | Thermomagnetic convection of a magnetic nanofluid influenced by a magnetic field | |
| Houston et al. | Heat transport in microgravity via magnetothermal conversion | |
| Mesch | Magnetic components for the attitude control of space vehicles |