Foam can reduce CO2 mobility to improve the sweep efficiency during injection into subsurface geological formations for CO2 storage and enhanced oil recovery. However, CO2 foams are thermodynamically unstable, so they must be stabilized. Surfactants are often used to generate and stabilize foams in porous media and can be soluble in the aqueous phase, or in the CO2 phase. Aqueous- and CO2-soluble surfactants must be characterized for their ability to reduce CO2 mobility and stabilize foam at reservoir conditions. In addition, numerical models are necessary to predict and evaluate the effect of foam for field-scale applications and require empirical data obtained from core-scale flooding experiments. This study presents a series of steady-st...
Miscible carbon dioxide (CO2) flooding is a well-established and promising enhanced oil recovery (EO...
CO₂ flood has become a routine technology for enhanced oil recovery worldwide. However, the problem ...
There are two strategies for using CO2-soluble compounds to decrease the mobility of supercritical c...
Foam can reduce CO2 mobility to improve the sweep efficiency during injection into subsurface geolog...
Reduction of the CO2 mobility is beneficial during subsurface sequestration of anthropogenic CO2 in ...
Reduction of the CO2 mobility is beneficial during subsurface sequestration of anthropogenic CO2 in ...
Addition of slightly CO2-soluble, brine-soluble, surfactants to high pressure CO2 for EOR may facili...
The experimental dataset used in the publication "CO2 Mobility Reduction using Foam Stabilized by CO...
This paper probes the transport of CO2 soluble surfactant for foaming in porous media. We numericall...
Carbon dioxide (CO2) flooding is a conventional process in which the CO2 is injected into the oil re...
Abstract The ability of a novel nonionic CO2-soluble surfactant to propagate foam in porous media wa...
Large-scale carbon capture and storage is needed to achieve the target set forward by the Paris agre...
Foam is a promising means to assist in the permanent, safe subsurface sequestration of CO2, whether ...
CO2 flood is one of the most successful and promising enhanced oil recovery technologies. However th...
The amount of greenhouse gases in the atmosphere has increased significantly the last 250 years, cau...
Miscible carbon dioxide (CO2) flooding is a well-established and promising enhanced oil recovery (EO...
CO₂ flood has become a routine technology for enhanced oil recovery worldwide. However, the problem ...
There are two strategies for using CO2-soluble compounds to decrease the mobility of supercritical c...
Foam can reduce CO2 mobility to improve the sweep efficiency during injection into subsurface geolog...
Reduction of the CO2 mobility is beneficial during subsurface sequestration of anthropogenic CO2 in ...
Reduction of the CO2 mobility is beneficial during subsurface sequestration of anthropogenic CO2 in ...
Addition of slightly CO2-soluble, brine-soluble, surfactants to high pressure CO2 for EOR may facili...
The experimental dataset used in the publication "CO2 Mobility Reduction using Foam Stabilized by CO...
This paper probes the transport of CO2 soluble surfactant for foaming in porous media. We numericall...
Carbon dioxide (CO2) flooding is a conventional process in which the CO2 is injected into the oil re...
Abstract The ability of a novel nonionic CO2-soluble surfactant to propagate foam in porous media wa...
Large-scale carbon capture and storage is needed to achieve the target set forward by the Paris agre...
Foam is a promising means to assist in the permanent, safe subsurface sequestration of CO2, whether ...
CO2 flood is one of the most successful and promising enhanced oil recovery technologies. However th...
The amount of greenhouse gases in the atmosphere has increased significantly the last 250 years, cau...
Miscible carbon dioxide (CO2) flooding is a well-established and promising enhanced oil recovery (EO...
CO₂ flood has become a routine technology for enhanced oil recovery worldwide. However, the problem ...
There are two strategies for using CO2-soluble compounds to decrease the mobility of supercritical c...