Growth Rates of the Buoyancy-Driven Instability of an Autocatalytic Reaction Front in a Narrow Cell
- 18 September 2000
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 85 (12) , 2506-2509
- https://doi.org/10.1103/physrevlett.85.2506
Abstract
Experimental studies were performed on the buoyancy-driven instability of an autocatalytic reaction front in a quasi-2D cell. The unstable density stratification at an ascending front leads to convection that results in a fingerlike front deformation. The growth rates of the spatial modes of the instability are determined at the initial stage. A stabilization is found at higher wave numbers, while the system is unstable against low wave number perturbations. Whereas comparison with a reported model governed by Hele-Shaw flow fails, a two-dimensional Navier-Stokes model yields more satisfactory results. Still, present deviations suggest the presence of an additional mechanism that suppresses the growth.Keywords
This publication has 19 references indexed in Scilit:
- Nonlinear interactions of chemical reactions and viscous fingering in porous mediaPhysics of Fluids, 1999
- Viscous fingering in reaction-diffusion systemsThe Journal of Chemical Physics, 1999
- Pattern formation and evolution near autocatalytic reaction fronts in a narrow vertical slabPhysical Review E, 1996
- Influence of surface tension changes on hydrodynamic flow induced by traveling chemical wavesPhysical Review E, 1996
- Convective fingering of an autocatalytic reaction frontPhysical Review E, 1996
- Periodic Convection in the Bromate-Sulfite Reaction: A "Jumping" WaveThe Journal of Physical Chemistry, 1995
- Nonaxisymmetric and Axisymmetric Convection in Propagating Reaction-Diffusion FrontsThe Journal of Physical Chemistry, 1994
- Onset of convection for autocatalytic reaction fronts in a vertical slabPhysical Review E, 1993
- Convective effects on chemical waves. 2. Simple convection in the iodate-arsenous acid systemThe Journal of Physical Chemistry, 1991
- Convective effects on chemical waves. 1. Mechanisms and stability criteriaThe Journal of Physical Chemistry, 1990