Morteza Bayareh scite author profile

The rising dynamics of a deformable drop in a linearly stratified fluid is numerically obtained using a finite-volume/front-tracking method. Our results show that the drag coefficient of a spherical drop in a stratified fluid enhances as \documentclass[12pt]{minimal}\begin{document}$C_{d,s}/C_{d,h}-1\sim Fr_d^{-2.86}$\end{document}Cd,s/Cd,h−1∼Frd−2.86 for drop Froude numbers in the range of 4 < Frd < 16. The role of the deformability of the drop on the temporal evolution of the motion is investigated along with stratification and inertial effects. We also present the important role of stratification on the transient rising motion of the drop. It is shown that a drop can levitate in the presence of a vertical density gradient. The drop undergoes a fading oscillatory motion around its neutrally buoyant position except for high viscosity ratio drops where the oscillation occurs around a density level lighter than the neutral buoyancy level. In addition, a detailed characterization of the flow signature of a rising drop in a linearly stratified fluid including the buoyancy induced vortices and the resultant buoyant jet is presented.

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An updated review on particle separation in passive microfluidic devices

Bayareh

2020

Chemical Engineering and Processing - Process Intensification

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Inertial focusing of CTCs in a novel spiral microchannel

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Chemical Engineering Science

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Magnetic field effects on natural convection flow of a non-Newtonian fluid in an L-shaped enclosure

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J Therm Anal Calorim

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Binary collision of drops in simple shear flow at finite Reynolds numbers: Geometry and viscosity ratio effects

Bayareh

Mortazavi

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Advances in Engineering Software

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On magnetophoretic separation of blood cells using Halbach array of magnets

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Bayareh

2020

Meccanica

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Numerical and experimental study on mixing performance of a novel electro-osmotic micro-mixer

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Meccanica

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Morteza Bayareh

Active and passive micromixers: A comprehensive review

On the rising motion of a drop in stratified fluids

An updated review on particle separation in passive microfluidic devices

Inertial focusing of CTCs in a novel spiral microchannel

Magnetic field effects on natural convection flow of a non-Newtonian fluid in an L-shaped enclosure

Binary collision of drops in simple shear flow at finite Reynolds numbers: Geometry and viscosity ratio effects

On magnetophoretic separation of blood cells using Halbach array of magnets

Numerical and experimental study on mixing performance of a novel electro-osmotic micro-mixer

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