学术文献库

Brine fluids have recently been of high interest to enhanced oil recovery. Mechanisms for such improvement were widely proposed, including wettability alteration and reduction in the oil-brine interfacial tension (IFT), although their synergistic contributions were vaguely clarified. Crude oil displacement by spontaneous imbibition was conducted in the current research with focus on the effects of brine valency and concentration. Monovalent (NaCl) and divalent (CaCl2) brines at elevated concentrations were examined. Imbibition results showed that NaCl brine at suitable concentration (100 mM) displaced greater oil than too-low or too-high concentrations, and these monovalent brines displaced more effective than those of divalent CaCl2 due to an oil-wetting as a result of divalent ion bridging phenomenon. This echoes crucial influences of both brine valency and concentration. The findings revealed that in a given imbibition system a required IFT is a wettability-dependent, water-wet system needs high IFT to enhance a driving capillarity while oil-wet system prefers lower IFT to weaken a resisting capillary force. Brine formula directly attributed to wettability and IFT, NaCl brines secure water-wetting with high IFT while CaCl2 brines reduced IFT more effectively with an assured oil-wetting. Low-salinity enhanced oil recovery mechanism was thus found to be contributed from capillary effect, which was an interplay between the interfacial tension and wettability. Paring these two parameters by formulating imbibing brine to anticipate high oil recovery is crucial and of challenge.