One of the major issues in foam application for enhanced oil recovery (EOR) is the foam stability in presence and absence of oil. In this study, a systematic experimental study of the bulk and bubble scale stability of air and CO2 foams stabilised by sodium dodecyl sulphate (SDS) and nanoparticles were conducted. Foam-oil interactions were further study in etched glass micromodel in order to investigate and compare the foam performance at static and dynamic conditions. Influence of nanoparticles hydrophobicity and oil types on foam behaviors were assessed. Static bulk and bubble-scale experiments were conducted with KRÜSS dynamic foam analyser while the flow characteristics experiments were conducted in etched glass porous medium. Results s...
Nanoparticles and surfactant stabilized foams have versatile applications in enhanced oil recovery p...
In this study, nanoparticle stabilized foam experiments were performed in bulk tests, micromodels, a...
This study was conducted in order to identify the pore-level mechanisms controlling the nanoparticle...
Enhancement of foam stability has been recently evidenced with addition of nanoparticles (NPs), espe...
Influence of silicon oxide (SiO2) and aluminum oxide (Al2O3) nanoparticles on the stability of nanop...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
Carbon dioxide (CO2) flooding is a well-established and extensively used enhanced oil recovery techn...
Foams stabilized by a mixture of nanoparticles and surfactants are presently being considered for im...
The influence of silica nanoparticles on the bulk stability of SDS-foam in the presence of oil was i...
Utilizing nanoparticles (NPs) for stabilizing CO2-foams has recently become an interesting subject a...
Nanoparticles-stabilized foam has recently attracted increasing attention for enhanced oil recovery ...
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...
Nanoparticles have thrived in importance over the last decade with substantial end user and industri...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
Nanoparticles and surfactant stabilized foams have versatile applications in enhanced oil recovery p...
In this study, nanoparticle stabilized foam experiments were performed in bulk tests, micromodels, a...
This study was conducted in order to identify the pore-level mechanisms controlling the nanoparticle...
Enhancement of foam stability has been recently evidenced with addition of nanoparticles (NPs), espe...
Influence of silicon oxide (SiO2) and aluminum oxide (Al2O3) nanoparticles on the stability of nanop...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
Carbon dioxide (CO2) flooding is a well-established and extensively used enhanced oil recovery techn...
Foams stabilized by a mixture of nanoparticles and surfactants are presently being considered for im...
The influence of silica nanoparticles on the bulk stability of SDS-foam in the presence of oil was i...
Utilizing nanoparticles (NPs) for stabilizing CO2-foams has recently become an interesting subject a...
Nanoparticles-stabilized foam has recently attracted increasing attention for enhanced oil recovery ...
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...
Nanoparticles have thrived in importance over the last decade with substantial end user and industri...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
Nanoparticles and surfactant stabilized foams have versatile applications in enhanced oil recovery p...
In this study, nanoparticle stabilized foam experiments were performed in bulk tests, micromodels, a...
This study was conducted in order to identify the pore-level mechanisms controlling the nanoparticle...