Insights into the Microscopic Oil–Water Flow Characteristics and Displacement Mechanisms during Waterflooding in Sandstone Reservoir Rock Based on Micro-CT Technology: A Pore-Scale Numerical Simulation Study

Abstract: The low oil recovery rate observed in current oil fields is largely attributed to the presence of remaining oil trapped in the pores of porous media during waterflooding. To improve the recovery rate, it is imperative to gain an understanding of the oil–water flow characteristics and displacement mechanisms during waterflooding, as well as to elucidate the underlying mobilization mechanisms of residual oil at the pore scale. In this paper, we explore these issues in depth by numerically investigating the influ… Show more

“…The paramount influence on the efficiency of polymer flooding is produced by the non-Newtonian characteristic of the polymer solution [ 79 , 80 , 81 , 82 , 83 ]. Water-soluble polymers commonly used in oilfield practice are characterized by shear thinning or pseudoplastic rheology [ 83 ], which results in low viscosity at high speeds of flow through porous media and maximum viscosity for very slow flows of liquid [ 83 ].…”

Evaluating Factors Impacting Polymer Flooding in Hydrocarbon Reservoirs: Laboratory and Field-Scale Applications

“…The paramount influence on the efficiency of polymer flooding is produced by the non-Newtonian characteristic of the polymer solution [ 79 , 80 , 81 , 82 , 83 ]. Water-soluble polymers commonly used in oilfield practice are characterized by shear thinning or pseudoplastic rheology [ 83 ], which results in low viscosity at high speeds of flow through porous media and maximum viscosity for very slow flows of liquid [ 83 ].…”

Evaluating Factors Impacting Polymer Flooding in Hydrocarbon Reservoirs: Laboratory and Field-Scale Applications

Influence of pore structure heterogeneity on channeling channels during hot water flooding in heavy oil reservoir based on CT scanning