A mathematical model is presented for nanoparticle transport and retention in oilfield rocks under net repulsion condition. The model accounts for the particle capture rate proportional to the accessible suspension flux, the inlet concentration and outlet dilution effects. A new formulation for experimental study in engineered porous media allows excluding other mechanisms of particle retention except straining. The laboratory coreflooding tests show good agreement with the modeling results. The developed model allows calculating different particle concentrations in suspension and in deposit. It allows estimating depth penetration of nanoparticles and their propagation/accumulation in each reservoir point. Copyright 2012, Society of Petrole...
Adsorption is a rock surface phenomenon and has increasingly become popular, especially in particle-...
Master's thesis in Petroleum engineeringUtilization of silica nanofluid is a promising technology fo...
textThe phenomenon of particle retention in granular materials has a wide range of implications. For...
Document ID : 157097-MSAbstract A mathematical model is presented for nanoparticle tr...
textWith a number of advantages hitherto unrecognized, nanoparticle-stabilized emulsions and foams h...
In order to develop and apply nanotechnology in oil industry, nanoparticles transport in porous medi...
textThe unique properties of engineered nanoparticles have many potential applications in oil reserv...
textWith a number of advantages newly recognized, use of surface-coated nanoparticles is being propo...
The use of nanoparticles for a wide variety of purposes is attracting much interest among large oil ...
Recently, considerable attention has been focused on the application of nanoparticles (NPs) for enha...
textAn aqueous nanoparticle dispersion is a complex fluid whose mobility in porous media is controll...
Nowadays, nanotechnology has become a very attractive subject in Enhanced Oil Recovery (EOR) researc...
Nanoparticles (diameter of approximately 5 to 50 nm) easily pass through typical pore throats in res...
Particle detachment from the rock during suspension transport in porous media was widely observed in...
Application of nanoparticles is envisaged for enhanced oil recovery applications because of their un...
Adsorption is a rock surface phenomenon and has increasingly become popular, especially in particle-...
Master's thesis in Petroleum engineeringUtilization of silica nanofluid is a promising technology fo...
textThe phenomenon of particle retention in granular materials has a wide range of implications. For...
Document ID : 157097-MSAbstract A mathematical model is presented for nanoparticle tr...
textWith a number of advantages hitherto unrecognized, nanoparticle-stabilized emulsions and foams h...
In order to develop and apply nanotechnology in oil industry, nanoparticles transport in porous medi...
textThe unique properties of engineered nanoparticles have many potential applications in oil reserv...
textWith a number of advantages newly recognized, use of surface-coated nanoparticles is being propo...
The use of nanoparticles for a wide variety of purposes is attracting much interest among large oil ...
Recently, considerable attention has been focused on the application of nanoparticles (NPs) for enha...
textAn aqueous nanoparticle dispersion is a complex fluid whose mobility in porous media is controll...
Nowadays, nanotechnology has become a very attractive subject in Enhanced Oil Recovery (EOR) researc...
Nanoparticles (diameter of approximately 5 to 50 nm) easily pass through typical pore throats in res...
Particle detachment from the rock during suspension transport in porous media was widely observed in...
Application of nanoparticles is envisaged for enhanced oil recovery applications because of their un...
Adsorption is a rock surface phenomenon and has increasingly become popular, especially in particle-...
Master's thesis in Petroleum engineeringUtilization of silica nanofluid is a promising technology fo...
textThe phenomenon of particle retention in granular materials has a wide range of implications. For...