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CPP: Fachverband Chemische Physik und Polymerphysik
CPP 37: Poster Session 2
CPP 37.14: Poster
Mittwoch, 2. April 2014, 15:00–19:00, P3
Spatial distributions of surface energies in porous media: Insights from experiments and simulations on the displacement of immiscible fluids — •Julie Murison1, Thomas Hiller1, Benoit Semin3,1, Stephan Herminghaus1, Jean-Christophe Baret1, Matthias Schröter1, and Martin Brinkmann2,1 — 1Max Planck Institute of Dynamics and Self Organisation, Göttingen — 2Experimental Physics, Saarland Univeristy — 3Laboratoire de Physique Statistique, ENS, Paris
Various phenomena observed during immiscible displacement in a porous medium can be related to pore wall wettability. Traditionally the overall wettability of a rock sample is quantified by measuring capillary pressure saturation curves (CPS). To establish a link between these global quantities and the pore-scale distribution of surface energies, we developed a series of model porous media with the same average surface energy, but differing in the typical extension of the wettable surface domains. Complementary to the experiments we use multiple particle collision dynamics (MPCD) to simulate two-phase flow in porous media. The MPCD algorithm is extended to allow for different surface energies to create similar model porous media as used in the experiments. Experimental CPS measurements show that the work dissipated in a complete cycle is monotonically decreasing with the size of the heterogeneities. Imaging of the invading liquid fronts using x-ray tomography revealed front smoothening for small correlation lengths, consistent with a dissipation of energy. The same quantitative behavior is observed in the simulations.