Comprehensive Characterization of Interfacial Behavior for the Mixture CO2 + H2O + CH4: Comparison between Atomistic and Coarse Grained Molecular Simulation Models and Density Gradient Theory

Miguez, JM; Garrido JM; Blas, FJ; Segura H.; Mejía A.; Pineiro, MM

Abstract

The accurate description of the phase equilibria and interfacial behavior of the ternary mixture H2O + CO2 + CH4 is of fundamental importance in processes related with enhanced natural gas recovery, CO2 storage, and gas-oil miscibility analysis. For this reason, the physical understanding and theoretical modeling of this remarkably complex mixture, in a wide range of thermodynamic conditions, constitutes a challenging task both for scientists and engineers. This work focuses on the description of the interfacial behavior of this mixture, with special emphasis on several regions that yield different scenarios (vaporliquid, liquidliquid, and vaporliquidliquid equilibria) and in pressure and temperature ranges related with the practical applications previously mentioned. A comparison between three alternative approaches has been performed: atomistic Monte Carlo simulations (MC), coarse grained molecular dynamics (CG-MD) simulations, and density gradient theory (DGT) have been used to characterize the interfacial region, describing in detail complex phenomena, including preferential adsorption and wetting phenomena even in the ternary triphasic region. Agreement between the results obtained from different methods indicate that the three alternative approaches are fully equivalent to analyze the interfacial behavior. It has been also found that the preferential adsorption of CO2 over H2O interface is greater if compared to CH4 in all conditions characterized. In fact, we have also demonstrated that CH4 under triphasic conditions has very limited influence on the complete wetting of the binary system H2O + CO2.

Más información

Título según WOS: Comprehensive Characterization of Interfacial Behavior for the Mixture CO2 + H2O + CH4: Comparison between Atomistic and Coarse Grained Molecular Simulation Models and Density Gradient Theory
Título según SCOPUS: Comprehensive characterization of interfacial behavior for the mixture CO2 + H2O + CH4: Comparison between atomistic and coarse grained molecular simulation models and density gradient theory
Título de la Revista: JOURNAL OF PHYSICAL CHEMISTRY C
Volumen: 118
Número: 42
Editorial: AMER CHEMICAL SOC
Fecha de publicación: 2014
Página de inicio: 24504
Página final: 24519
Idioma: English
DOI:

10.1021/jp507107a

Notas: ISI, SCOPUS