1. Numerical Modeling of Ferrofluid Droplets in Magnetic Fields.
- Author
-
Afkhami, S., Renardy, Y., Renardy, M., Riffle, J. S., and Pierre, T. G. St.
- Subjects
FLUID mechanics ,MAGNETIC fluids ,MAGNETIC fields ,VISCOUS flow ,MAXWELL equations ,DROPLETS - Abstract
The motion and shape of a ferrofluid droplet placed in a non-magnetic viscous fluid and driven by a magnetic field are modeled numerically. The governing equations are the Maxwell equations, momentum equation and incompressibility. The numerical simulation uses a volume-of-fluid algorithm with a continuum-surface-force formulation for an axisymmetric geometry. The deformations in the drop under non-uniform magnetic fields are simulated. Droplets exhibit shape changes along the applied magnetic field. We have found that the ferrofluid droplet forms a prolate ellipsoid in the presence of a non-uniform magnetic field. For higher magnetic field strengths, the droplet undergoes dramatic deformation. This in turn influences the motion of the droplet through the viscous medium. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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