Mixing within a drop immersed in a fluid and subjected to translation and unsteady rotation.

Rodolphe Chabreyrie; Pushpendra Singh; Nadine Aubry; Tounsia Benzekri; Cristel Chandre; Xavier Leoncini

Mixing within a drop immersed in a fluid and subjected to translation and unsteady rotation.

ORAL

Abstract

The flow within a spherical drop induced by an external flow consisting of unsteady translation and rotation is studied using dynamical systems theory and direct numerical simulation tools. The goal being to optimize mixing within the drop, particle trajectories are traced and Liouville sections plotted from the corresponding Stokes flow. Both regular dynamics and chaotic advection are shown to occur. In the case of the latter, the chaotic sea may be rather localized within the drop. Parameter values are then varied in order to optimize the volume of the chaotic region. These results are then compared to those obtained by using direct numerical simulations based on the Level Set Method (LSM).

Nov. 19, 2006, 9:31 AM – Nov. 19, 2006, 9:44 AM

Authors

Rodolphe Chabreyrie
- Department of Mechanical Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania, USA
Pushpendra Singh
- Department of Mechanical Engineering, New Jersey Institute of Technology, Newark, New Jersey, USA.
Nadine Aubry
- Carnegie Mellon
- Mechanical Engineering, Carnegie-Mellon University
- Carnegie Mellon University
- Department of Mechanical Engineering, Carnegie Mellon University
- Department of Mechanical Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania, USA.
Tounsia Benzekri
Cristel Chandre
Xavier Leoncini
- \'Equipe de Dynamique Nonlin\'eaire, Centre de Physique Th\'eorique-CNRS, Marseille, France