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Paper detail

Controlling capillary fingering using pore size gradients in disordered media

Capillary fingering is a displacement process that can occur when a non-wetting fluid displaces a wetting fluid from a homogeneous disordered porous medium. Here, we investigate how this process is influenced by a pore size gradient. Using microfluidic experiments and computational pore-network models, we show that the non-wetting fluid displacement behavior depends sensitively on the direction and the magnitude of the gradient. The fluid displacement depends on the competition between a pore size gradient and pore-scale disorder; indeed, a sufficiently large gradient can completely suppress capillary fingering. By analyzing capillary forces at the pore scale, we identify a non-dimensional parameter that describes the physics underlying these diverse flow behaviors. Our results thus expand the understanding of flow in complex porous media, and suggest a new way to control flow behavior via the introduction of pore size gradients.

preprint2019arXivOpen access
Nancy B. LuChristopher A. BrowneDaniel B. AmchinJanine K. NunesSujit S. Datta
cond-mat.stat-mechcond-mat.softnlin.PSphysics.flu-dyncond-mat.dis-nn
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Nancy B. LuChristopher A. BrowneDaniel B. AmchinJanine K. NunesSujit S. Datta

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