Abstract
This study provides new insights into some pore-scale displacement events occurring in the presence of adverse mobility ratio through mixed-wet porous media with different pore throat sizes. This type of flow is normally created in surfactant-based chemical flooding of heavy oil reservoirs. The experiments were carried out in three etched micromodel networks (each with a different pore throat size) containing oleic phase, aqueous surfactant solution, and connate water film. We discussed the first part of the pore-scale mechanisms and events, which were observed in the micromodel experiments, in Yadali Jamaloei and Kharrat (2011). Here we present the second part of our analysis of the pore-scale displacement events and the interactions between oleic phase, aqueous surfactant solution, and connate water film in pore networks with different pore throat sizes. Furthermore, some implications for the pore-scale network modeling of this type of flow are discussed. Finally, the effects of pore throat size on the distribution of the pore-scale capillary number and the mean pore-scale Weber number are evaluated.
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