Pore-level modeling of gas and condensate flow in two- and three-dimensional pore networks: Pore size distribution effects on the relative permeability of gas and condensate

Bustos, CI; Toledo, PG

Abstract

We present a mechanistic model of retrograde condensation processes in two- and three-dimensional capillary tube networks under gravitational forces. Condensate filling-emptying cycles in pore segments and gas connection - isolation cycles are included. With the pore-level distribution of gas and condensate in hand, we determine their corresponding relative permeabilities. Details of pore space and displacement are subsumed in pore conductances. Solving for the pressure field in each phase, we find a single effective conductance for each phase as a function of condensate saturation. Along with the effective conductance for the saturated network, the relative permeability for each phase is calculated. Our model porous media are two- and three-dimensional regular networks of pore segments with distributed size and square cross-section. With a Monte Carlo sampling we find the optimum network size to avoid size effects and then we investigate the effect of network dimensionality and pore size distribution on the relative permeabilities of gas and condensate.

Más información

Título según WOS: Pore-level modeling of gas and condensate flow in two- and three-dimensional pore networks: Pore size distribution effects on the relative permeability of gas and condensate
Título de la Revista: TRANSPORT IN POROUS MEDIA
Volumen: 53
Número: 3
Editorial: Springer
Fecha de publicación: 2003
Página de inicio: 281
Página final: 315
DOI:

10.1023/A:1025026332475

Notas: ISI