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- Title
Simulation of the transfer of water with a fine-disperse gas phase in porous media.
- Authors
Dem'yanov, A.; Dinariev, O.; Ivanov, E.
- Abstract
The problem on the transfer of a three-phase water-gas-oil mixture in a porous medium was solved for the case where the water contains a fine-disperse gas phase in the form of microsized or nanosized bubbles. It was suggested that the transfer of bubbles is mainly due to the flow of the disperse phase (water). In this case, the large aggregates of the gas phase in the porous space, in the water, and in the oil are transferred in accordance with the modified Darcy law for multiphase mixtures. A mathematical model of movement of the indicated mixture has been constructed for the case where the main phases (water, gas, and oil) adhere to the filtration equations and the fine-disperse gas phase is defined by a kinetic equation like the Boltzmann equation. Some one-dimensional numerical solutions of the indicated problem were analyzed.
- Subjects
WATER transfer; GAS phase reactions; POROUS materials; MIXTURES; BOLTZMANN'S equation; MATHEMATICAL models; MULTIPHASE flow; BUBBLES
- Publication
Journal of Engineering Physics & Thermophysics, 2012, Vol 85, Issue 6, p1243
- ISSN
1062-0125
- Publication type
Article
- DOI
10.1007/s10891-012-0767-x