Experimental Investigation on Microscopic Force Measurement of Foam and Heavy Oil

Abstract: This paper combined experiments with a theoretical model to simulate the behavior between a foam and heavy oil during contact pressing, separation, and adsorption. We discuss the changes in the elasticity and adsorption forces during the pressing and adsorption of the two fluids. The influence of the changes in temperature and pressure, the concentration of the sodium dodecyl sulfate surfactant, the heavy oil viscosity, and the addition of partially hydrolyzed polyacrylamide and hydrophobic SiO 2 nanoparticles… Show more

“…In the Plateau border, heavy oil formed large droplets, and light oil formed tiny droplets, which were easier to distribute across the lamellas. Gu has investigated that the higher the amount of heavier components in the oil phase, the stronger the micromechanical force between the foam and oil. It also strengthens the wrapping and carries the foam film to the oil droplets.…”

Nanoparticle and Surfactant Stabilized Carbonated Water Induced In-Situ CO₂ Foam: An Improved Oil Recovery Approach

“…In the Plateau border, heavy oil formed large droplets, and light oil formed tiny droplets, which were easier to distribute across the lamellas. Gu has investigated that the higher the amount of heavier components in the oil phase, the stronger the micromechanical force between the foam and oil. It also strengthens the wrapping and carries the foam film to the oil droplets.…”

Nanoparticle and Surfactant Stabilized Carbonated Water Induced In-Situ CO₂ Foam: An Improved Oil Recovery Approach

Nanoparticle-reinforced foam system for enhanced oil recovery (EOR): Mechanistic review and perspective

CO2 foam to enhance geological storage capacity in hydrocarbon reservoirs