Affiliation:
1. Department of Ocean and Mechanical Engineering, Florida Atlantic University, Boca Raton, FL 33431, USA
Abstract
Modifying reservoir surface wetting properties is an appealing topic to the upstream oil and gas industry for enhancing hydrocarbon recovery as the shifting of reservoir rock surface wetting from oil-wet to water-wet has enhanced the oil recovery by as much as 70–80%. In the last few decades, research has been conducted on core flooding experiments to reveal wettability alteration mechanisms associated with macroscopic fluid flow in reservoirs. In recent years, the microscopic wetting state and fluid distribution behavior have been studied using micromodel experimental techniques to promote the fundamental mechanisms of wettability alteration. To provide the concurrent knowledge and technology development, this comprehensive review focuses on micromodel investigations for wettability alteration in chemical-enhanced oil recovery using surfactants and/or nanofluids that reveal microscopic behaviors on the wetting state, fluid distribution, and their associated mechanisms. This comprehensive review focuses on micromodel investigations for wettability alteration in chemical-enhanced oil recovery using surfactants and/or nanofluids that reveal microscopic behaviors on the wetting state, fluid distribution, and their associated mechanisms. Wettability characteristics and measurement techniques are thoroughly assessed to understand the critical role of wettability for enhanced oil recovery. With the microfluidic-based studies, the effect of relative permeability along with the pore network and wetting order on oil recovery have been discussed. Later on, the new development in phase diagram related to viscus fingering and capillary fingering regime have been reviewed via various micromodels. Then, the wettability alteration mechanisms and governing parameters by surfactant and nanoparticles are summarized. Additionally, recent micromodel experiments on surfactants and nanofluid-assisted enhanced oil recovery are reviewed and listed, along with their fabrication methods.
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference175 articles.
1. (2023, December 03). International Energy Outlook—2021—U.S. Energy Information Administration (EIA), Available online: https://www.eia.gov/outlooks/ieo/narrative/introduction/sub-topic-01.php.
2. Perera, M.S.A., Gamage, R.P., Rathnaweera, T.D., Ranathunga, A.S., Koay, A., and Choi, X. (2016). A Review of CO2-Enhanced Oil Recovery with a Simulated Sensitivity Analysis. Energies, 9.
3. Wu, Y.-S. (2016). Multiphase Fluid Flow in Porous and Fractured Reservoirs, Gulf Professional Publishing.
4. Rackley, S.A. (2017). Carbon Capture Storage, Butterworth-Heinemann. [2nd ed.].
5. Ahmed, T. (2010). Principles of Waterflooding. Reserv. Eng. Handb., 909–1095.