Critical point network for drainage between rough surfaces

Abstract: In this paper, we present a network method for computing two-phase flows between two rough surfaces with significant contact areas. Low-capillary number drainage is investigated here since one-phase flows have been previously investigated in other contributions. An invasion percolation algorithm is presented for modeling slow displacement of a wetting fluid by a non wetting one between two rough surfaces. Short-correlated Gaussian process is used to model random rough surfaces.The algorithm is based on a netwo… Show more

“…Numerical analysis of the fluid flow through contact interfaces was carried out between real [4,47,48,17] or model rough topographies [36,14,34]. In contrast to the complexity and lack of scale separation of nominally flat realistic surface roughness, surface patterning allows to use the concept of scale separation to a certain extent and to limit the analysis to major geometrical features of the surface [40,41,35].…”

Fluid flow across a wavy channel brought in contact

“…Numerical analysis of the fluid flow through contact interfaces was carried out between real [4,47,48,17] or model rough topographies [36,14,34]. In contrast to the complexity and lack of scale separation of nominally flat realistic surface roughness, surface patterning allows to use the concept of scale separation to a certain extent and to limit the analysis to major geometrical features of the surface [40,41,35].…”

Fluid flow across a wavy channel brought in contact