![]() developed a new compositional model to characterize non-Darcy flow in tight/shale gas reservoirs. measured the physical properties of samples from representative tight gas reservoirs before and after high temperature treatment. reported the results of experimental investigation of flow resistance in a coal mine ventilation air methane preheated catalytic oxidation reactor. theoretically modeled the wettability variation during long-term water flooding. investigated the adsorption stability of surfactant on the rock mineral surface. proposed a model for local skin factor and productivity of horizontal well. ![]() studied the transient flow in fractured/shale reservoirs. Cho et al.įor transport process in complex reservoir media, J. A water alternating CO 2-LPG enhanced oil recovery simulation model was developed by J. constructed a mathematical model to describe gas from porous coalbed methane reservoirs with complex boundary conditions. established a multiscale comprehensive mathematical model to simulate different flow regimes. presented the applicability of different fluid media to measure effective stress coefficient for rock permeability. The first group of papers focuses on the transport phenomena in porous media. This special issue includes a number of recent works on transport phenomenon and applications of fractal geometry theory in porous media. Fractal geometry has been shown to have potential in the analysis of flow and transport properties of porous media (consult recent special issue ). However, the microstructures and transport mechanisms in porous media are very complex in nature. Transport phenomena in porous media, from microscopic to upward scales, cover general theories behind flow and transport in porous media and form the basis for deterministic and stochastic models that describe them. Transport phenomena in porous media, including single phase and multiphase fluid flow through porous media, heat transfer in porous media, and electrical and acoustical transport in porous media, are a subject of most common interest and have emerged as a separate field of study. Vermaas, H.The concept of porous media is used in many areas of applied science and engineering. van Steijn, Breakup of elongated droplets in microfluidic T-junctions, Phys. Henkes, Formation and break-up of rigid agglomerates in turbulent channel and pipe flows, J. Li, Endothelium resolving simulations of wall shear-stress dependent mass transfer of LDL in diseased coronary arteries, Comp. Kleijn, Moving reaction fronts in fractal nanoparticle agglomerates, Chem. Tummers, An experimental study of flow and heat transfer in a differentially side heated cavity filled with coarse porous media, Int. ![]() Garbin, Bubble Dynamics in Soft and Biological Matter, Annu. Garbin, Collapse mechanisms and extreme deformation of particle-laden interfaces, Curr. Bhattacharya, Laser speckle imaging of flowing blood: A numerical study, Phys. Kreutzer, Thermal fluctuations in capillary thinning of thin liquid films, J. van den Akker, Droplet-turbulence interactions and quasi-equilibrium dynamics in turbulent emulsions, J. Van Tichelen, Sasa Keneres, Numerical and experimental analysis of a planar jet with heated co-flow at medium and low Prandtl-number values, Nuc. Garbin, Acoustic trapping of microbubbles in complex environments and controlled payload release, PNAS, 2020 Vermaas, Orientation of a bipolar membrane determines the dominant ion and carbonic species transport in membrane electrode assemblies for CO 2 reduction, J.
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