Ostwald ripening of multi-component bubbles in porous media: A theory and a pore-scale model of how bubble populations equilibrate

“…In pore network modeling approaches, line segments represent transport between neighboring pores and the statistics of their connectivity reveal information about the rate-limiting conductance of large systems . The geometry of the pore space and physical processes are still simplified compared to their original complexity − and the simplification means that the foam changes due to local pore shape or surface roughness changes can be modeled only in an averaged sense. How to appropriately address the dependence of the trapped-gas saturation on various flow conditions in the foam model remains unexplored, especially during transient foam flow in a complex geometry based on three-dimensional (3D) X-ray microtomography images.…”

Direct Pore-Scale Modeling of Foam Flow through Rough Fractures

“…In pore network modeling approaches, line segments represent transport between neighboring pores and the statistics of their connectivity reveal information about the rate-limiting conductance of large systems . The geometry of the pore space and physical processes are still simplified compared to their original complexity − and the simplification means that the foam changes due to local pore shape or surface roughness changes can be modeled only in an averaged sense. How to appropriately address the dependence of the trapped-gas saturation on various flow conditions in the foam model remains unexplored, especially during transient foam flow in a complex geometry based on three-dimensional (3D) X-ray microtomography images.…”

Direct Pore-Scale Modeling of Foam Flow through Rough Fractures

A generalized kinetic theory of Ostwald ripening in porous media