Addition of slightly CO2-soluble, brine-soluble, surfactants to high pressure CO2 for EOR may facilitate in-situ generation of CO2-in-brine foams for mobility control. These non-ionic surfactants have been demonstrated to dissolve in CO2 to concentrations of 0.1wt% at reservoir conditions and stabilize CO2-in-brine foams in a high pressure windowed cell. One such surfactant is Huntsman SURFONIC® N, a branched nonylphenol ethoxylates with averages of 12 (N-120) or 15(N-150) ethylene oxide repeat units in the hydrophile. SURFONIC® N-120 was selected for mobility reduction studies involving flow of CO2 into brine-saturated porous media. \ud Transient mobility measurements were conducted using a water-wet Berea core (104mD), water-wet Benth...
An understanding of how CO2 foam flows through a reservoir rock is useful for many subsurface applic...
The amount of greenhouse gases in the atmosphere has increased significantly the last 250 years, cau...
Aiming at improving the stability of Supercritical CO2 (SC-CO2) foam in high temperature and salinit...
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...
The first intention of this research is to identify specific CO2-philic solids from two candidates, ...
Abstract The ability of a novel nonionic CO2-soluble surfactant to propagate foam in porous media wa...
The partitioning of non-ionic surfactants in a CO2/synthetic brine system was studied for a selectio...
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 ...
AbstractThe design of switchable amine surfactants for CO2 EOR in carbonate reservoirs at high tempe...
The design of switchable amine surfactants for CO2 EOR in carbonate reservoirs at high temperatures ...
Aiming at improving the stability of Supercritical CO2 (SC-CO2) foam in high temperature and salinit...
Large-scale carbon capture and storage is needed to achieve the target set forward by the Paris agre...
This paper probes the transport of CO2 soluble surfactant for foaming in porous media. We numericall...
An understanding of how CO2 foam flows through a reservoir rock is useful for many subsurface applic...
The amount of greenhouse gases in the atmosphere has increased significantly the last 250 years, cau...
Aiming at improving the stability of Supercritical CO2 (SC-CO2) foam in high temperature and salinit...
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...
The first intention of this research is to identify specific CO2-philic solids from two candidates, ...
Abstract The ability of a novel nonionic CO2-soluble surfactant to propagate foam in porous media wa...
The partitioning of non-ionic surfactants in a CO2/synthetic brine system was studied for a selectio...
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 ...
AbstractThe design of switchable amine surfactants for CO2 EOR in carbonate reservoirs at high tempe...
The design of switchable amine surfactants for CO2 EOR in carbonate reservoirs at high temperatures ...
Aiming at improving the stability of Supercritical CO2 (SC-CO2) foam in high temperature and salinit...
Large-scale carbon capture and storage is needed to achieve the target set forward by the Paris agre...
This paper probes the transport of CO2 soluble surfactant for foaming in porous media. We numericall...
An understanding of how CO2 foam flows through a reservoir rock is useful for many subsurface applic...
The amount of greenhouse gases in the atmosphere has increased significantly the last 250 years, cau...
Aiming at improving the stability of Supercritical CO2 (SC-CO2) foam in high temperature and salinit...