Add to ORKGLaminar two-dimensional sudden expansion flow of different nanofluids is studied numerically. The governing equations are solved using stream function-vorticity method. The effect of volume fraction of the nanoparticles and type of nanoparticles on flow behaviour is examined and found significant impact. The flow response to Reynolds number in the presence of nanoparticles is examined. The presence of nanoparticles decreases the flow bifurcation Reynolds number. The size and the reattachment length of the bottom wall recirculation increase with increasing volume fraction and particle density. The effect of volume fraction and density of nanoparticles on friction factor is reported. The bottom wall recirculation strongly respond to the varia...
The Reynolds averaged N-S equation and dynamic equation for nanoparticles are numerically solved in ...
The impact of presence of nano-scale particles inside a flow between two flat plates which known as...
This study deals with the boundary layer flow and heat transfer near the stagnation point on a perme...
Laminar forced convection heat transfer from two-dimensional sudden expansion flow of different nano...
Laminar forced convection heat transfer from two-dimensional sudden expansion flow of different nano...
The heat transfer and flow pattern of Al2O3-water nanofluid in a micro planar sudden expansion with ...
In this paper, the Al2O3-water nanofluid flow in laminar and turbulent flows inside tubes fitted wit...
Thermal performance of energy systems can be improved by adding metal or metal-oxide nanoparticles t...
In this paper, an analysis is made for the unsteady flow due to an expanding cylinder in a nanofluid w...
The laminar 2-D blended convection of the nanofluids at different volume fractions has gained intere...
The flow instability of nanofluids in a jet is studied numerically under various shape factors of th...
International audienceNanofluids have emerged as powerful instruments in heat transfer applications ...
In this article, a numerical study is carried out to analyze the effect of nanoparticle volume fr...
The classical problems of forced convection boundary layer flow and heat transfer near the stagnatio...
AbstractA numerical analysis of steady, laminar and 2-D nanofluid flow around a circular cylinder ha...
The Reynolds averaged N-S equation and dynamic equation for nanoparticles are numerically solved in ...
The impact of presence of nano-scale particles inside a flow between two flat plates which known as...
This study deals with the boundary layer flow and heat transfer near the stagnation point on a perme...
Laminar forced convection heat transfer from two-dimensional sudden expansion flow of different nano...
Laminar forced convection heat transfer from two-dimensional sudden expansion flow of different nano...
The heat transfer and flow pattern of Al2O3-water nanofluid in a micro planar sudden expansion with ...
In this paper, the Al2O3-water nanofluid flow in laminar and turbulent flows inside tubes fitted wit...
Thermal performance of energy systems can be improved by adding metal or metal-oxide nanoparticles t...
In this paper, an analysis is made for the unsteady flow due to an expanding cylinder in a nanofluid w...
The laminar 2-D blended convection of the nanofluids at different volume fractions has gained intere...
The flow instability of nanofluids in a jet is studied numerically under various shape factors of th...
International audienceNanofluids have emerged as powerful instruments in heat transfer applications ...
In this article, a numerical study is carried out to analyze the effect of nanoparticle volume fr...
The classical problems of forced convection boundary layer flow and heat transfer near the stagnatio...
AbstractA numerical analysis of steady, laminar and 2-D nanofluid flow around a circular cylinder ha...
The Reynolds averaged N-S equation and dynamic equation for nanoparticles are numerically solved in ...
The impact of presence of nano-scale particles inside a flow between two flat plates which known as...
This study deals with the boundary layer flow and heat transfer near the stagnation point on a perme...