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    Dissolving Nonionic Surfactants in CO2 to Improve Oil Recovery in Unconventional Reservoirs via Wettability Alteration

    Year: 2022

    Journal: Energy Fuels, Volume 36, OCT 6, page 11913–11929

    Authors: Burrows, Lauren C.; Haeri, Foad; Tapriyal, Deepak; Sanguinito, Sean; Shah, Parth G.; Lemaire, Peter; Crandall, Dustin; Enick, Robert M.; Goodman, Angela

    Organizations: U.S. Department of Energy's Fossil Energy Crosscutting Technology Research Program

    CO2 injection is a promising method for enhanced oil recovery (EOR) in unconventional shale reservoirs. In this work, we postulate that CO2 EOR may be improved by the dissolution of surfactants into CO2. Although CO2 is a relatively good solvent for oil, we show that CO2 and Eagle Ford oil are immiscible at compositions above 70 wt % CO2, even at pressures as high as 62 MPa. The presence of a CO2-oil interface at reservoir conditions indicates that the addition of a surfactant has the potential to improve oil recovery-via wettability alteration from oil-wet to CO2-wet, CO2-oil interfacial tension (IFT) reduction, or both. Three nonionic surfactants (branched tridecyl ethoxylate Indorama SURFONIC TDA-9, branched nonylphenol ethoxylate Indorama SURFONIC N-100, and linear dodecyl ethoxylate Indorama SURFONIC L12-6) were evaluated for CO2-solubility, shale wettability alteration, effect on CO2-oil IFT, ability to generate CO2-oil foams, and ability to increase oil extraction from Eagle Ford, Mancos, and Bakken shale cores. Each surfactant dissolved in CO2 up to 1 wt % at pressures and temperatures commensurate with CO2 EOR. CO2-dissolved surfactants did not significantly affect CO2-oil IFT or generate CO2-oil foams, but they did induce a dramatic change in the contact angle of an oil droplet on an oil-aged shale chip in CO2 from strongly oil-wet (11 degrees) toward intermediate CO2-oil wettability (82 degrees) (at 80 degrees C, 27.6 MPa). The branched tridecyl ethoxylated surfactant, SURFONIC TDA-9, afforded the highest oil recovery in core soaking experiments-75%, compared to 71% by pure CO2. Analysis of oil extracts by gas chromatography revealed that heavier oil components were produced when the surfactant was added to CO2. These results indicate that CO2-dissolved surfactants may increase oil recovery from shale by wettability alteration from oil-wet toward CO2-wet.
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