A series of micro‐scale core‐flooding experiments were performed on reservoir core samples at elevated temperature and pressure conditions to develop better insights into wettability alteration and pore‐scale displacement mechanisms taking place during low‐salinity waterflooding (LSWF). Two individual miniature core samples were cut from a preserved reservoir whole core, saturated to establish initial reservoir fluid saturation conditions, and subsequently waterflooded with low‐salinity and high‐salinity brines. A third miniature sister core sample was also cut, solvent‐cleaned, and subjected to a dynamic wettability restoration process (to reestablish native state wettability) and then a low‐salinity waterflood. All samples were imaged during the experiments using a micro‐CT scanner to obtain fluid occupancy maps and measure in situ oil‐water contact angles. The results of the experiments performed on the preserved core samples show a significantly improved performance of low‐salinity waterflooding compared to that of high‐salinity waterflooding (HSWF). Pore‐scale contact angle measurements provide direct evidence of wettability alteration from weakly oil‐wet toward weakly water‐wet conditions during LSWF, whereas contact angles measured during HSWF remain unchanged. We believe that the reduction in oil‐water contact angles toward increased water‐wetness lowers the threshold water pressure needed to displace oil from some medium‐sized pore elements. Contact angles measured during the dynamic wettability restoration process show an equilibrium wettability state very similar to the initial one observed in the preserved samples. This indicates that drilling fluid contaminants had a negligible effect on the reservoir rock wettability. The experimental results also reveal similarities between saturation trends for the preserved‐LSWF and restored‐LSWF tests.
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