Microscopic distribution of two immiscible fluids in pore space of sandstone

## Abstract In the present work, we propose the use of the Laser Scanning Confocal Microscopy (LSCM) to determine the effect of water repellents on rock's pore‐network configuration and interconnection. The rocks studied are sandstones of Miocene age, a building material that is commonly found in t

We study adsorption in pores with curved hard walls that are made of two uniaxial cylinders by using a density functional approach. Two cases are considered: adsorption of hard spheres and adsorption of a Lennard-Jones fluid. In the case of hard spheres, we perform a comparison with the results of g

An extension of the Gibbs ensemble simulation technique is presented, which permits the simultaneous treatment of multiple fluid-phase equilibria involving a bulk and a confined fluid. The method incorporates separate phase simulation boxes for the two regions and possible coexisting phases within e

Free energy coupling of electron and ion transfers across a liquid-liquid interface is treated theoretically assuming electroneutrality of each phase and complete dissociation of electrolytes. A general method is presented for calculating the equilibrium inner potential difference between the two ph

Experimental and theoretical studies of axial solid distributions in slurry bubble columns have been carried out extensively (Cova, 1966;Smith et al., 1986; Jean et al., 1989;Reilly et al., 1990). Most of the experimental works performed in this area have characterized the solid concentration profil

## Abstract The problem of fully developed laminar mixed convection flow in a vertical wavy channel filled with two immiscible viscous fluids is studied analytically. Non‐linear equations governing the motion have been solved by linearization technique, wherein the flow is assumed to be in two part