Buoyancy driven convection in vertically shaken granular matter

Devaraj van der Meer; Peter Eshuis; Meheboob Alam; Henk Jan van Gerner; Ko van der Weele; Stefan Luding; Detlef Lohse

Buoyancy driven convection in vertically shaken granular matter

ORAL

Abstract

Buoyancy driven granular convection is studied for a shallow, vertically shaken granular bed in a quasi-two-dimensional container. At sufficiently strong shaking counter-rotating convection rolls form with pronounced density variations. These rolls are also found in molecular dynamics simulations. The onset of convection is analyzed through a linear stability analysis of the hydrodynamic continuum model presented in Phys. Rev. Lett. 95, 258001 (2005). There is very good agreement between experiments, simulations, and theory.

Nov. 24, 2008, 11:14 AM – Nov. 24, 2008, 11:27 AM

Authors

Devaraj van der Meer
- University of Twente
Peter Eshuis
- University of Twente
Meheboob Alam
- Jawaharlal Nehru Center for Advanced Scientific Research
Henk Jan van Gerner
- University of Twente
Ko van der Weele
- University of Patras
Stefan Luding
- University of Twente
Detlef Lohse
- University of Twente