%T Rheological properties of surface-modified nanoparticles-stabilized CO2 foam %I Taylor and Francis Inc. %A A. Rahim Risal %A M.A. Manan %A N. Yekeen %A A. Mohamed Samin %A N.B. Azli %V 39 %P 1767-1779 %K Carbon dioxide; Enhanced recovery; Foams; Porous materials; Rheology; Shear thinning, Apparent viscosity; Capillary-porous media; Enhanced oil recovery; Heterogeneous reservoirs; Porous media permeabilities; Shear-thinning behavior; Surface modified nanoparticles; Surface-modified silica nanoparticles, Silica nanoparticles %X This study investigates the rheological properties of surface-modified nanoparticles-stabilized CO2 foam in porous media for enhanced oil recovery (EOR) applications. Due to the foam pseudo-plastic behavior, the foam apparent viscosity was estimated based on the power law constitutive model. The results show that foam exhibit shear-thinning behavior. The presence of surface-modified silica nanoparticles enhanced the foam bulk apparent viscosity by 15. Foam apparent viscosity in the capillary porous media was four times higher than that in capillary viscometer, and foam apparent viscosity increased as porous media permeability increases. The high apparent viscosity of the surface-modified nanoparticles-stabilized foam could result in effective fluid diversion and pore blocking processes and enhance their potential applications in heterogeneous reservoir. © 2018, © 2018 Taylor & Francis. %D 2018 %N 12 %R 10.1080/01932691.2018.1462201 %O cited By 23 %J Journal of Dispersion Science and Technology %L scholars9496