Nanoparticles have gained attention for increasing the stability of surfactant-based foams during CO2 foam-enhanced oil recovery (EOR) and CO2 storage. However, the behavior and displacement mechanisms of hybrid nanoparticle–surfactant foam formulations at reservoir conditions are not well understood. This work presents a pore- to core-scale characterization of hybrid nanoparticle–surfactant foaming solutions for CO2 EOR and the associated CO2 storage. The primary objective was to identify the dominant foam generation mechanisms and determine the role of nanoparticles for stabilizing CO2 foam and reducing CO2 mobility. In addition, we shed light on the influence of oil on foam generation and stability. We present pore- and core-scale experi...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
CO2-foam yields improved sweep efficiency in enhanced oil recovery (EOR) applications over that of p...
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...
Carbon dioxide (CO2) flooding is a well-established and extensively used enhanced oil recovery techn...
Miscible carbon dioxide (CO2) flooding is a well-established and promising enhanced oil recovery (EO...
One of the major issues in foam application for enhanced oil recovery (EOR) is the foam stability in...
textFoam has been used as a mobility control technique in CO₂ flooding to improve volumetric sweep e...
Enhancement of foam stability has been recently evidenced with addition of nanoparticles (NPs), espe...
Nanoparticles-stabilized foam has recently attracted increasing attention for enhanced oil recovery ...
(B.Raman), which is the largest oil field of Turkey's already existing CO2 injection system, does no...
AbstractSynergistic interactions between appropriately designed surface-modified nanoparticles and s...
Nanoparticles have thrived in importance over the last decade with substantial end user and industri...
Foam flooding as a mechanism to enhance oil recovery has been intensively studied and is the subject...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
CO2-foam yields improved sweep efficiency in enhanced oil recovery (EOR) applications over that of p...
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...
Carbon dioxide (CO2) flooding is a well-established and extensively used enhanced oil recovery techn...
Miscible carbon dioxide (CO2) flooding is a well-established and promising enhanced oil recovery (EO...
One of the major issues in foam application for enhanced oil recovery (EOR) is the foam stability in...
textFoam has been used as a mobility control technique in CO₂ flooding to improve volumetric sweep e...
Enhancement of foam stability has been recently evidenced with addition of nanoparticles (NPs), espe...
Nanoparticles-stabilized foam has recently attracted increasing attention for enhanced oil recovery ...
(B.Raman), which is the largest oil field of Turkey's already existing CO2 injection system, does no...
AbstractSynergistic interactions between appropriately designed surface-modified nanoparticles and s...
Nanoparticles have thrived in importance over the last decade with substantial end user and industri...
Foam flooding as a mechanism to enhance oil recovery has been intensively studied and is the subject...
Nanoparticles have emerged with substantially to the end user and industrial applications. The appli...
textCarbon dioxide (CO₂) flooding is the second most common tertiary recovery technique implemented ...
CO2-foam yields improved sweep efficiency in enhanced oil recovery (EOR) applications over that of p...