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Surfactant–Nanoparticle Foam to Increase CO<sub>2</sub> Storage in High-Salinity Carbonate Reservoirs

Jieqiong Pang, Kishore K. Mohanty

2024Energy & Fuels28 citationsDOI

Abstract

Depleted oil and gas reservoirs are being considered along with aquifers for storage of CO 2 produced during industrial activities, including power generation. CO 2 injection into carbonate reservoirs often suffers from poor sweep efficiency due to an unfavorable viscosity ratio, gravity segregation, and reservoir heterogeneity. This study aims to evaluate foam flooding as a method to improve CO 2 storage in a high-salinity carbonate reservoir. Several surfactants and nanoparticles were examined to identify an effective foam formulation. Foam stability at ambient and reservoir pressure was used to screen suitable foaming agents. The foam mobility was measured through a carbonate rock at 80% purity with selected foaming agents. Finally, CO 2 flood and CO 2 -foam flood experiments were performed in carbonate reservoir cores under the reservoir conditions. Many surfactants and nanoparticles were insoluble in brine under the high salinity and temperature conditions of this study. A combination of the nonionic surfactant Aspiro S 2410 and the nanoparticle enhanced oil recovery (EOR) 12-V3 was found to be the most effective. The addition of nanoparticles significantly increased the half-life of the foam at the reservoir pressure (from 120 to 540 min). The surfactant–nanoparticle foam exhibited a higher apparent viscosity compared to the foam generated by the surfactant alone (from 28.7 to 43.2 cP at 1 ft/d). Core flood experiments demonstrated that CO 2 -foam flooding with the surfactant–nanoparticle solution achieved higher CO 2 storage and oil recovery compared to both continuous CO 2 injection and CO 2 surfactant-foam flooding. In conclusion, the surfactant–nanoparticle formulation developed in this study shows promise as a CO 2 foaming agent for use in high-salinity carbonate reservoirs.

Topics & Concepts

Pulmonary surfactantCarbonateSalinityNanoparticleChemical engineeringMaterials scienceEnvironmental scienceChemistryNanotechnologyGeologyMetallurgyEngineeringOceanographyEnhanced Oil Recovery TechniquesCO2 Sequestration and Geologic InteractionsHydrocarbon exploration and reservoir analysis
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