Density-driven unstable flows of miscible fluids in a Hele-Shaw cell

J. FERNANDEZ; P. KUROWSKI; P. PETITJEANS; E. MEIBURG

doi:10.1017/S0022112001006504

Abstract

Density-driven instabilities between miscible fluids in a vertical Hele-Shaw cell are investigated by means of experimental measurements, as well as two- and three-dimensional numerical simulations. The experiments focus on the early stages of the instability growth, and they provide detailed information regarding the growth rates and most amplified wavenumbers as a function of the governing Rayleigh number Ra. They identify two clearly distinct parameter regimes: a low-Ra, ‘Hele-Shaw’ regime in which the dominant wavelength scales as Ra−1, and a high-Ra ‘gap’ regime in which the length scale of the instability is 5±1 times the gap width. The experiments are compared to a recent linear stability analysis based on the Brinkman equation. The analytical dispersion relationship for a step-like density profile reproduces the experimentally observed trend across the entire Ra range. Nonlinear simulations based on the two- and three-dimensional Stokes equations indicate that the high-Ra regime is characterized by an instability across the gap, wheras in the low-Ra regime a spanwise Hele-Shaw mode dominates.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Chen, Ching-Yao and Meiburg, Eckart 2002. Miscible displacements in capillary tubes: Influence of Korteweg stresses and divergence effects. Physics of Fluids, Vol. 14, Issue. 7, p. 2052.

Martin, J. Rakotomalala, N. Salin, D. and Böckmann, M. 2002. Buoyancy-driven instability of an autocatalytic reaction front in a Hele-Shaw cell. Physical Review E, Vol. 65, Issue. 5,

Meiburg, E. Graf, F. and Haertel, C. 2002. Miscible Hele-Shaw flows - Three-dimensional linear stability results.

Schröter, Matthias Kassner, Klaus Rehberg, Ingo Claret, Josep and Sagués, Francesc 2002. Experimental investigation of the initial regime in fingering electrodeposition: Dispersion relation and velocity measurements. Physical Review E, Vol. 65, Issue. 4,

Yang, J. D’Onofrio, A. Kalliadasis, S. and De Wit, A. 2002. Rayleigh–Taylor instability of reaction-diffusion acidity fronts. The Journal of Chemical Physics, Vol. 117, Issue. 20, p. 9395.

Demuth, Rainer and Meiburg, Eckart 2003. Chemical fronts in Hele-Shaw cells: Linear stability analysis based on the three-dimensional Stokes equations. Physics of Fluids, Vol. 15, Issue. 3, p. 597.

Debacq, M. Hulin, J-P. Salin, D. Perrin, B. and Hinch, E. J. 2003. Buoyant mixing of miscible fluids of varying viscosities in vertical tubes. Physics of Fluids, Vol. 15, Issue. 12, p. 3846.

De Wit, A. De Kepper, P. Benyaich, K. Dewel, G. and Borckmans, P. 2003. Hydrodynamical instability of spatially extended bistable chemical systems. Chemical Engineering Science, Vol. 58, Issue. 21, p. 4823.

Igonin, M. and Cebers, A. 2003. Labyrinthine instability of miscible magnetic fluids. Physics of Fluids, Vol. 15, Issue. 6, p. 1734.

Zeng, Jie Yortsos, Yannis C. and Salin, Dominique 2003. On the Brinkman correction in unidirectional Hele-Shaw flows. Physics of Fluids, Vol. 15, Issue. 12, p. 3829.

Bánsági, T. Horváth, D. Tóth, Á. Yang, J. Kalliadasis, S. and Wit, A. De 2003. Density fingering of an exothermic autocatalytic reaction. Physical Review E, Vol. 68, Issue. 5,

MEIBURG, ECKART VANAPARTHY, SURYA H. PAYR, MATTHIAS D. and WILHELM, DIRK 2004. Density‐Driven Instabilities of Variable‐Viscosity Miscible Fluids in a Capillary Tube. Annals of the New York Academy of Sciences, Vol. 1027, Issue. 1, p. 383.

Govindarajan, Rama 2004. Effect of miscibility on the linear instability of two-fluid channel flow. International Journal of Multiphase Flow, Vol. 30, Issue. 10, p. 1177.

De Wit, A. 2004. Miscible density fingering of chemical fronts in porous media: Nonlinear simulations. Physics of Fluids, Vol. 16, Issue. 1, p. 163.

Kuang, J. Petitjeans, P. and Maxworthy, T. 2004. Velocity fields and streamline patterns of miscible displacements in cylindrical tubes. Experiments in Fluids, Vol. 37, Issue. 2, p. 301.

Kalliadasis, S. Yang, J. and De Wit, A. 2004. Fingering instabilities of exothermic reaction-diffusion fronts in porous media. Physics of Fluids, Vol. 16, Issue. 5, p. 1395.

Böckmann, Martin and Müller, Stefan C. 2004. Coarsening in the buoyancy-driven instability of a reaction-diffusion front. Physical Review E, Vol. 70, Issue. 4,

Eckert, Kerstin Acker, Margret and Shi, Ying 2004. Chemical pattern formation driven by a neutralization reaction. I. Mechanism and basic features. Physics of Fluids, Vol. 16, Issue. 2, p. 385.

Séon, T. Hulin, J.-P. Salin, D. Perrin, B. and Hinch, E. J. 2004. Buoyant mixing of miscible fluids in tilted tubes. Physics of Fluids, Vol. 16, Issue. 12, p. L103.

Chen, Ching-Yao Chen, Chen-Hau and Miranda, José A. 2005. Numerical study of miscible fingering in a time-dependent gap Hele-Shaw cell. Physical Review E, Vol. 71, Issue. 5,

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Density-driven unstable flows of miscible fluids in a Hele-Shaw cell

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