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    Dewetting dynamics of heavy crude oil droplet in low-salinity fluids at elevated pressures and temperatures

    Year: 2021

    Journal: J. Colloid Interface Sci., Volume 596, AUG 15, page 420–430

    Authors: Tangparitkul, Suparit; Hodges, Chris S.; Ballard, Dewi A.; Niu, Zhen; Pradilla, Diego; Charpentier, Thibaut V. J.; Xu, Zhenghe; Harbottle, David

    Organizations: Center of Excellence in Natural Disaster Management (CENDiM); WhiteElephant Academics Scheme of Chiang Mai University; Royal Academy of Engineering IndustryAcademia PartnershipProgram [IAPP1/100150]; Natural Science and Engineering Research Council of Canada under the Industrial Research Chair Program in Oil Sands Engineering

    Keywords: Low-salinity waterflooding; Enhanced oil recovery; Contact angle; Dewetting dynamics; Disjoining pressure; Wettability alteration

    Hypothesis: Improved oil recovery by low-salinity injection correlates to the optimal brine concentration to achieve maximum dewetting of oil droplets on rock surfaces. While interfacial tension and electrical double layer forces are often cited as being determinant properties, we hypothesize that other structural/interfacial forces are more prominent in governing the system behavior. Experiments: The sessile droplet technique was used to study the receding dynamics of oil droplets from flat hydrophilic substrates in brines of different salt type (NaCl and CaCl2) and concentration, and were studied at both low and elevated temperatures (60 and 140 ?C) and pressures (1, 10, 100 and 200 bar). Findings: At 1 bar and 60 ?C, the minimum oil droplet-substrate adhesion force (FA) was determined at 34 mM NaCl and 225 mM CaCl2. For NaCl this strongly correlated to strengthening hydration forces, which for CaCl2 were diminished by long-range hydrophobic forces. These results highlight the importance of other non-DLVO forces governing the dewetting dynamics of heavy crude oil droplets. At 140 degrees C and 200 bar, the optimal brine concentrations were found to be much higher (1027 mM NaCl and 541 mM CaCl2), with higher concentrations likely attributed to weakening hydration forces at elevated temperatures. (c) 2021 Elsevier Inc. All rights reserved.
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