Enhanced Oil Recovery Eor Research Centre 1
1. Interfacial tension of smart water and various crude oils
2. Dimensionless analysis of foam stability for application in enhanced oil recovery
3. Experimental screening of various asphaltene deposition inhibitors for utilization in flowlines
4. Formation and stability of emulsion in the presence of nano particles in the modified smart aqueous phase: Effect of ultrasonic, salt, and surfactant
5. Impact of nanopore confinement on phase behavior and enriched gas minimum miscibility pressure in asphaltenic tight oil reservoirs
6. Enhanced desulfurization Pervaporate via tailored Polypyrrolidone membranes with functionalized graphene oxide nanoparticles and silver ions
7. Use of mixed low/high vapor pressure solvent as a novel solvent design strategy for tuning fiber diameter in electrospun mats
8. Modeling the Interfacial Dynamics of Carbonated Water-Crude Oil Systems Using Intelligent Boosting Algorithms
9. Application of Smoothed Particle Hydrodynamics for Modeling of Multiphase Fluid Flow in Non-Uniform Porous Media
10. Investigation of smoothed particle hydrodynamics (SPH) method for modeling of two-phase flow through porous medium: application for drainage and imbibition processes
11. A mechanistic study of the synergistic and counter effects of ultrasonic and solvent treatment on the rheology and asphaltene structure of heavy crude oil
12. Investigating the role of carbon dots in modifying reservoir rock and fluid properties for enhanced oil recovery
13. Quantifying the impact of surface roughness on contact angle dynamics under varying conditions
14. Mechanistic insight into the colloidal gas aphrons stability in the presence of petroleum hydrocarbons
15. An approach for optimization of controllable drilling parameters for motorized bottom hole assembly in a specific formation
16. Experimental and numerical study of the water-in-oil emulsions in porous media
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