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Experimental and Theoretical Investigation of Glycol-Based Hydrogels through Waterflooding Processes in Oil Reservoirs Using Molecular Dynamics and Dissipative Particle Dynamics Simulation

A.N. El-hoshoudy

2021ACS Omega41 citationsDOIOpen Access PDF

Abstract

) confirms that the two hydrogels are more overextended and can align perpendicularly toward the water/oil boundary. Experimental displacement was operated on a linear sandpack model using different slug concentrations. The oil recovery factor, the water-cut, and the differential pressure data during the flooding process were estimated as a function of the injected pore volume. The obtained results show that the oil recovery factor reaches 72 and 88% in the cases of PEG and PPG hydrogels at 80 °C with concentrations of 1.0 and 1.5 g/L, which reveals that both hydrogels are effective enhanced oil recovery (EOR) agents for the depleted reservoirs. This study establishes a new route that employs MD and DPD simulation in the field of enhanced oil recovery and the petroleum industry.

Topics & Concepts

Dissipative particle dynamicsDynamics (music)Dissipative systemMolecular dynamicsSelf-healing hydrogelsParticle (ecology)Materials scienceMechanicsPhysicsChemistryGeologyThermodynamicsPolymerComposite materialComputational chemistryPolymer chemistryAcousticsOceanographyEnhanced Oil Recovery TechniquesBlock Copolymer Self-AssemblySurfactants and Colloidal Systems
Experimental and Theoretical Investigation of Glycol-Based Hydrogels through Waterflooding Processes in Oil Reservoirs Using Molecular Dynamics and Dissipative Particle Dynamics Simulation | Litcius