Since their appearance in the early eighties, microfluidic experiments have revolutionized the knowledge in porous media research. In this paper, we review the state-of-the-art computational microfluidics for geosciences, the open challenges, and the future trends. Although the field is still in its infancy, the recent progress in modeling multiphase flow and reactive transport at the pore-scale has shed new light on the coupled mechanisms occurring in geological porous media already. ![]() ![]() Computational microfluidics intends to complement and augment laboratory experiments. This modeling approach solves the fundamental equations of continuum mechanics in the exact geometry of porous materials. 2Institute of GeoEnergy Engineering, Heriot-Watt University, Edinburgh, United KingdomĬomputational microfluidics for geosciences is the third leg of the scientific strategy that includes microfluidic experiments and high-resolution imaging for deciphering coupled processes in geological porous media. ![]() 1Earth Sciences Institute of Orléans, University of Orléans-CNRS-BRGM, Orléans, France. ![]() Cyprien Soulaine 1 *, Julien Maes 2 and Sophie Roman 1
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