Investigation of Interfacial Tension Reduction, Wettability Alteration, and Oil Recovery Using a New Non‐ionic Oil‐Based Surfactant from Gemini Surfactants Family Coupled with Low‐Salinity Water: Experimental Study on Oil‐Wet Carbonate Rock

Abstract Low‐salinity surfactant (LSS) flooding is a combined enhanced oil recovery (EOR) technique that increases oil recovery (OR) by altering the rock surface wettability and reducing oil–water interfacial tension (IFT). In this study, optimum concentrations of several types of salt in distilled water were obtained on the basis of IFT experiments for the preparation of low‐salinity water (LSW). Then, a new oil‐based natural surfactant (Gemini surfactant, GS) was combined with LSW to investigate their effects on IFT, wettability, and OR. Experimental results showed that LSW is capable of reducing IFT and contact angle, but the synergy of GS and the active ions Mg 2+ , Ca 2+ , and SO 4 2− in LSW was more effective on IFT reduction and wettability alteration. The combination of 1000 ppm MgSO 4 and 3000 ppm GS led to a decrease in contact angle from 134.82° to 36.98° (oil‐wet to water‐wet). Based on core flooding tests, LSW injection can increase OR up to 71.46% (for LSW with 1000 ppm MgSO 4 ), while the combination of GS and LSW, as LSS flooding, can improve OR up to 84.23% (for LSS with 1000 ppm MgSO 4 and 3000 ppm GS). Therefore GS has great potential to be used as a surfactant for EOR.