Abstract
Nanotechnology has found its way to petroleum engineering, it is well-accepted path in the oil and gas industry to recover more oil trapped in the reservoir. But the addition of nanoparticles to a liquid can result in the simplest flow becoming complex. To understand the working mechanism, there is a need to study the flow behaviour of these particles. This review highlights the mechanism affecting the flow of nanoparticles in porous media as it relates to enhanced oil recovery. The discussion focuses on chemical-enhanced oil recovery, a review on laboratory experiment on wettability alteration, effect of interfacial tension and the stability of emulsion and foam is discussed. The flow behaviour of nanoparticles in porous media was discussed laying emphasis on the physical aspect of the flow, the microscopic rheological behaviour and the adsorption of the nanoparticles. It was observed that nanofluids exhibit Newtonian behaviour at low shear rate and non-Newtonian behaviour at high shear rate. Gravitational and capillary forces are responsible for the shift in wettability from oil-wet to water-wet. The dominant mechanisms of foam flow process were lamellae division and bubble to multiple bubble lamellae division. In a water-wet system, the dominant mechanism of flow process and residual oil mobilization are lamellae division and emulsification, respectively. Whereas in an oil-wet system, the generation of pre-spinning continuous gas foam was the dominant mechanism. The literature review on oil displacement test and field trials indicates that nanoparticles can recover additional oil. The challenges encountered have opened new frontier for research and are highlighted herein.
Highlights
As most of the oil fields in the world are approaching maturation, more emphasis is placed on enhanced oil recovery (EOR) methods, because two thirds of the original oil in place (OOIP) is left unproduced
Hendraningrat and Torsaeter [30] using Aluminium, Silicium and Titanium oxide nanoparticles on Berea sandstone core, reported a 5–7% increase in recovery by Titanium oxide, this shows that the wettability was altered as Titanium made the quartz plate more water-wet. They concluded that oil recovery increases as nanoparticles size decreases and the contact angle alteration decreases towards more water-wet quartz
Studies have shown that when nanoparticles are coated with polymer, it results to stable particles in solution, but it can lead to high adsorption and retardation of nanoparticles when injected into the porous media [99, 100]
Summary
As most of the oil fields in the world are approaching maturation, more emphasis is placed on enhanced oil recovery (EOR) methods, because two thirds of the original oil in place (OOIP) is left unproduced. Keywords Nanoparticles · Porous media · Adsorption · Stability · Mechanisms · Enhanced oil recovery Surfactant lowers the interfacial tension between the oil and water, alter the wettability of the rock, generate emulsion and stabilize foam.
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