Influence of pore-scale disorder on viscous fingering during drainage

Abstract

We study viscous fingering during drainage experiments in linear Hele-Shaw cells filled with a random porous medium. The central zone of the cell is found to be statistically more occupied than the average, and to have a lateral width of 40% of the system width, irrespectively of the capillary number Ca. A crossover length wf Ca-1 separates lower scales where the invader's fractal dimension D1.83 is identical to capillary fingering, and larger scales where the dimension is found to be D1.53. The lateral width and the large scale dimension are lower than the results for Diffusion Limited Aggregation, but can be explained in terms of Dielectric Breakdown Model. Indeed, we show that when averaging over the quenched disorder in capillary thresholds, an effective law v (∇ P)2 relates the average interface growth rate and the local pressure gradient.

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