Molecular Dynamics Study of N-Formyl Morpholine Surfactant In CO2/H2O/Oil Interfacial System

J Selvag and T Kuznetsova and B Kvamme, PROCEEDINGS OF THE INTERNATIONAL CONFERENCE OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING 2017 (ICCMSE-2017), 1906, 200017 (2017).

DOI: 10.1063/1.5012493

Alternating water/carbon dioxide flooding has proven to be an efficient method of improved oil recovery but is often economically unfeasible for small CO2 sources. A similar beneficial effect can be achieved through an injection of CO2 in water emulsions, stabilized by low molecular- weight emulsifying agents with additional affinity for the oil-water interface. To investigate the possibilities of such an approach, we have performed molecular dynamics simulations to study the impact of N-formyl morpholine (NFM) surfactant on the behavior of near-supercritical CO2/water/oil system at T = 300 K and P = 100 Atm. Our simulations showed that NFM tended to adsorb on both water-CO2 and oil-water interfaces, indicating its strong dual affinity. Analysis of molecular orientations revealed that the aromatic part of hydrocarbons exhibited a strong orientational preference in the vicinity of the oil-water interface in an NFM-free system. However, the introduction of NFM appeared to disrupt the ordering of aromatics. The consequence of this phenomena may significantly affect the transport properties across and along the oil-water interface.

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