Add to ORKGThis work proposes the use of nanoparticles (NPs) to stabilize foams/emulsions for gas mobility control and to improve the gas sweep efficiency. First, NPs were used alone to stabilize emulsion. Second, NPs and surfactants were used synergistically to improve the stability of foam. Surface modified silica NPs with DCDMS, hidden chemical, and PEG were used to assess the ability of NPs to stabilize gas-liquid emulsions at reservoir conditions. Silica modified with DCDMS was able to increase the CO2 viscosity 26-60 fold. Silica modified with hidden chemical was able to increase the CO2 viscosity 25-53 fold and N2 viscosity 22-54 fold. Finally, the presence of silica modified with PEG was able to increase the CO2 viscosity 24-49 fold. All tes...
Foam flooding as a mechanism to enhance oil recovery has been intensively studied and is the subject...
This work uses silica nanoparticles to stabilize oil-in-water and water-in-water emulsions. These em...
textThe ability of nanoparticles to stabilize oil/water emulsions provides many interesting opportun...
Foams and emulsions hold immense potential in assisting in the different stages of oil recovery proc...
Foamed fluids have been used for decades to diminish formation damage in nearly all kinds of reservo...
Carbon dioxide (CO2) gas injection is one of the most successful Enhanced Oil Recovery (EOR) methods...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
Nanoparticles have gained attention for increasing the stability of surfactant-based foams during CO...
This experimental research investigates the opportunity to enhance the oil recovery by enhancing the...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
In this study, nanoparticle stabilized foam experiments were performed in bulk tests, micromodels, a...
AbstractSynergistic interactions between appropriately designed surface-modified nanoparticles and s...
CO2-foam yields improved sweep efficiency in enhanced oil recovery (EOR) applications over that of p...
textFoam has been used as a mobility control technique in CO₂ flooding to improve volumetric sweep e...
Previous studies of nanoparticles stabilized surfactant foam flooding are mainly conducted in the wa...
Foam flooding as a mechanism to enhance oil recovery has been intensively studied and is the subject...
This work uses silica nanoparticles to stabilize oil-in-water and water-in-water emulsions. These em...
textThe ability of nanoparticles to stabilize oil/water emulsions provides many interesting opportun...
Foams and emulsions hold immense potential in assisting in the different stages of oil recovery proc...
Foamed fluids have been used for decades to diminish formation damage in nearly all kinds of reservo...
Carbon dioxide (CO2) gas injection is one of the most successful Enhanced Oil Recovery (EOR) methods...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
Nanoparticles have gained attention for increasing the stability of surfactant-based foams during CO...
This experimental research investigates the opportunity to enhance the oil recovery by enhancing the...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
In this study, nanoparticle stabilized foam experiments were performed in bulk tests, micromodels, a...
AbstractSynergistic interactions between appropriately designed surface-modified nanoparticles and s...
CO2-foam yields improved sweep efficiency in enhanced oil recovery (EOR) applications over that of p...
textFoam has been used as a mobility control technique in CO₂ flooding to improve volumetric sweep e...
Previous studies of nanoparticles stabilized surfactant foam flooding are mainly conducted in the wa...
Foam flooding as a mechanism to enhance oil recovery has been intensively studied and is the subject...
This work uses silica nanoparticles to stabilize oil-in-water and water-in-water emulsions. These em...
textThe ability of nanoparticles to stabilize oil/water emulsions provides many interesting opportun...
