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W3131031138 abstract "The salt content and composition of the water that is either produced with the oil or injected in an oil reservoir can change the composition of the oil at the oil/water interface. Having identified these compositional changes is key to designing the most optimized water ionic recipe to be used in waterflooding of an oil reservoir. Hence, there is a need to better understand the physicochemical interactions at the oil/water interface because of salinity effects. This study elucidates the effect of salinity on the interfacial interactions through pendant drop measurements of crude oil/water interfacial tension, surface charge evaluation by zeta potential, water content measurements by Karl Fischer titration, Fourier transform infrared (FT-IR), and ultraviolet–visible spectroscopy analyses. The interfacial tension results indicate that the interfacial tension increases with reduction in water salinity, which is shown for the first time by FT-IR and water content measurements to be proportional to the spontaneous formation of water microdispersion as the main mechanism of low salinity water injection. Formation of microdispersions and partitioning of surface-active materials by conjugated acidic compounds and/or acidic asphaltenes and low-molecular weight acidic compounds, respectively, are the main parameters controlling the crude oil/water interactions. Asphaltenes and acidic materials are shown to be the underlying compounds in the crude oil phase promoting the microdispersion formation." @default.
W3131031138 created "2021-03-01" @default.
W3131031138 creator A5003521712 @default.
W3131031138 creator A5057921386 @default.
W3131031138 creator A5083301361 @default.
W3131031138 date "2021-02-22" @default.
W3131031138 modified "2023-10-16" @default.
W3131031138 title "Debunking the Impact of Salinity on Crude Oil/Water Interfacial Tension" @default.
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W3131031138 cites W1974106044 @default.
W3131031138 cites W1975027990 @default.
W3131031138 cites W1978911465 @default.
W3131031138 cites W1981317866 @default.
W3131031138 cites W1981968323 @default.
W3131031138 cites W1982968814 @default.
W3131031138 cites W1989716604 @default.
W3131031138 cites W1992210899 @default.
W3131031138 cites W1993092841 @default.
W3131031138 cites W2013149784 @default.
W3131031138 cites W2015488668 @default.
W3131031138 cites W2016440112 @default.
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W3131031138 cites W2042301882 @default.
W3131031138 cites W2050717326 @default.
W3131031138 cites W2055857218 @default.
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W3131031138 cites W2728719176 @default.
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W3131031138 cites W2792444326 @default.
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W3131031138 doi "https://doi.org/10.1021/acs.energyfuels.0c03411" @default.
W3131031138 hasPublicationYear "2021" @default.
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