(B.Raman), which is the largest oil field of Turkey's already existing CO2 injection system, does not produce at the desired efficiency due to the natural fracture characteristics. Therefore, this research is performed to control the CO2 mobility in the reservoir by creating nanoparticle stabilized CO2 foam using the property of nanoparticles to be adsorbed at the gas-water interface permanently and to achieve additional oil recovery at the B. Raman oil field. In the initial stage of the research, dispersion stabilization and foamability of different nanosilicas are considered. The effects of nanoparticle concentration, salinity, temperature, and pH on foamability and dispersion stabilization were examined. Research results suggested that h...
In this study, nanoparticle stabilized foam experiments were performed in bulk tests, micromodels, a...
Despite the increasing interest in CO2 foam flooding for enhanced oil recovery applications, it is c...
textThe petroleum industry has been utilizing surfactant stabilized foams for mobility control and e...
Because of the natural fractured characteristic of the B. Raman field which is the largest field of ...
Carbon dioxide (CO2) flooding is a well-established and extensively used enhanced oil recovery techn...
textFoam has been used as a mobility control technique in CO₂ flooding to improve volumetric sweep e...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
Carbon dioxide (CO2) gas injection is one of the most successful Enhanced Oil Recovery (EOR) methods...
Miscible carbon dioxide (CO2) flooding is a well-established and promising enhanced oil recovery (EO...
Utilizing nanoparticles (NPs) for stabilizing CO2-foams has recently become an interesting subject a...
Foam flooding as a mechanism to enhance oil recovery has been intensively studied and is the subject...
Enhancement of foam stability has been recently evidenced with addition of nanoparticles (NPs), espe...
Nanoparticles have gained attention for increasing the stability of surfactant-based foams during CO...
Nanoparticles have gained attention for increasing the stability of surfactant-based foams during CO...
AbstractSynergistic interactions between appropriately designed surface-modified nanoparticles and s...
In this study, nanoparticle stabilized foam experiments were performed in bulk tests, micromodels, a...
Despite the increasing interest in CO2 foam flooding for enhanced oil recovery applications, it is c...
textThe petroleum industry has been utilizing surfactant stabilized foams for mobility control and e...
Because of the natural fractured characteristic of the B. Raman field which is the largest field of ...
Carbon dioxide (CO2) flooding is a well-established and extensively used enhanced oil recovery techn...
textFoam has been used as a mobility control technique in CO₂ flooding to improve volumetric sweep e...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
Carbon dioxide (CO2) gas injection is one of the most successful Enhanced Oil Recovery (EOR) methods...
Miscible carbon dioxide (CO2) flooding is a well-established and promising enhanced oil recovery (EO...
Utilizing nanoparticles (NPs) for stabilizing CO2-foams has recently become an interesting subject a...
Foam flooding as a mechanism to enhance oil recovery has been intensively studied and is the subject...
Enhancement of foam stability has been recently evidenced with addition of nanoparticles (NPs), espe...
Nanoparticles have gained attention for increasing the stability of surfactant-based foams during CO...
Nanoparticles have gained attention for increasing the stability of surfactant-based foams during CO...
AbstractSynergistic interactions between appropriately designed surface-modified nanoparticles and s...
In this study, nanoparticle stabilized foam experiments were performed in bulk tests, micromodels, a...
Despite the increasing interest in CO2 foam flooding for enhanced oil recovery applications, it is c...
textThe petroleum industry has been utilizing surfactant stabilized foams for mobility control and e...