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A molecular perspective on the microscopic mechanisms of CO2 injection and water films in fluid transport and enhanced oil recovery

Junyao Bao, Jiapei Du, Shiyuan Zhan, Lu Wang, Yongcheng Luo

2025ADVANCES IN GEO-ENERGY RESEARCH17 citationsDOIOpen Access PDF

Abstract

Molecular dynamics simulation has emerged as a powerful tool to shed light on the fundamental mechanisms that govern fluid behavior across multiple phases, such as gas, liquid and solid, at the molecular-scale. In shale reservoirs, understanding nanoscale phenomena such as microscopic friction, oil-gas interactions during CO2 huff-n-puff processes, and the influence of co-solvents, is crucial for enhanced oil recovery and informing strategies for CO2 geological sequestration in shale. This paper explores the unique role of molecular dynamics simulations in revealing the microscopic mechanisms of fluid transport and enhanced recovery during CO2 injection, with particular attention to the effects of hydration film, CO2 affected areas and co-solvents. The regulatory mechanism of hydration films on the friction behavior of montmorillonite provides new insights into interfacial mechanics, with implications for the mobility of confined fluids. In tight reservoir systems, the microscopic oil recovery mechanisms of CO2 under varying sweep conditions water film thicknesses highlight the complexity of fluid displacement at the nanoscale. Furthermore, the co-injection of CO2 with selected co-solvents is shown to enhance both oil mobilization and carbon storage efficiency within shale nanopores, offering a promising pathway to improve recovery outcomes under diverse reservoir conditions. By providing a molecular-level understanding of these critical processes, this work lays the groundwork for bridging atomistic insights with field-scale applications for unconventional resources development. Document Type: Perspective Cited as: Bao, J., Du, J., Zhan, S., Wang, L., Luo, Y. A molecular perspective on the microscopic mechanisms of CO2 injection and water films in fluid transport and enhanced oil recovery. Advances in Geo-Energy Research, 2025, 16(3): 288-292. https://doi.org/10.46690/ager.2025.06.08

Topics & Concepts

Perspective (graphical)Enhanced oil recoveryChemical engineeringPetroleum engineeringChemistryNanotechnologyMaterials scienceComputer scienceGeologyEngineeringArtificial intelligenceEnhanced Oil Recovery TechniquesReservoir Engineering and Simulation MethodsCO2 Sequestration and Geologic Interactions
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