Initial wettability of rock surfaces plays a crucial role in displacement efficiency during core flooding experiments.In this study,linear alkylbenzene sulfonic acid(LABSA)and silica nanoparticles(NPs)were utilized as...Initial wettability of rock surfaces plays a crucial role in displacement efficiency during core flooding experiments.In this study,linear alkylbenzene sulfonic acid(LABSA)and silica nanoparticles(NPs)were utilized as enhanced oil recovery(EOR)agents to improve oil recovery from carbonate rock samples.Prior to the core flooding experiments,effects of the presence of LABSA and SiO_(2)NPs on oil-water interfacial tension(IFT),wettability alteration,and surfactant adsorption on the rock surfaces were evaluated.The results of IFT/contact angle measurements showed that by adding 0.03 wt%LABSA,the IFT,and contact angle reduced from the initial values of 36.9 mN/m and 115.6°±0.2°to 8.3 mN/m and 100.3°±0.4°,respectively.Furthermore,incorporating SiO_(2)NPs(0.1 wt%)into the system causes a further decrease in IFT value(dropped to 2.2 mN/m),along with a substantial reduction in contact angle(final contact angle after 6 h soaking into the solution was measured as 64.8°±0.3°).In addition,surfactant loss due to the adsorption on the rock surfaces decreased up to 35%in the presence of SiO_(2)NPs(0.1 wt%).Moreover,various core flooding scenarios in carbonate plugs with different initial wettability conditions were conducted,and the performance of the EOR agents in enhancing oil recovery from oilwet and water-wet core samples in the secondary and tertiary mode of flooding was evaluated.The outcomes revealed that the injection of a combination of chemicals,containing LABSA(0.03 wt%)and SiO_(2)(0.1 wt%)in the secondary mode leads to the highest ultimate oil recovery from sister carbonate core samples.展开更多
文摘Initial wettability of rock surfaces plays a crucial role in displacement efficiency during core flooding experiments.In this study,linear alkylbenzene sulfonic acid(LABSA)and silica nanoparticles(NPs)were utilized as enhanced oil recovery(EOR)agents to improve oil recovery from carbonate rock samples.Prior to the core flooding experiments,effects of the presence of LABSA and SiO_(2)NPs on oil-water interfacial tension(IFT),wettability alteration,and surfactant adsorption on the rock surfaces were evaluated.The results of IFT/contact angle measurements showed that by adding 0.03 wt%LABSA,the IFT,and contact angle reduced from the initial values of 36.9 mN/m and 115.6°±0.2°to 8.3 mN/m and 100.3°±0.4°,respectively.Furthermore,incorporating SiO_(2)NPs(0.1 wt%)into the system causes a further decrease in IFT value(dropped to 2.2 mN/m),along with a substantial reduction in contact angle(final contact angle after 6 h soaking into the solution was measured as 64.8°±0.3°).In addition,surfactant loss due to the adsorption on the rock surfaces decreased up to 35%in the presence of SiO_(2)NPs(0.1 wt%).Moreover,various core flooding scenarios in carbonate plugs with different initial wettability conditions were conducted,and the performance of the EOR agents in enhancing oil recovery from oilwet and water-wet core samples in the secondary and tertiary mode of flooding was evaluated.The outcomes revealed that the injection of a combination of chemicals,containing LABSA(0.03 wt%)and SiO_(2)(0.1 wt%)in the secondary mode leads to the highest ultimate oil recovery from sister carbonate core samples.