Pouyan Fayzi scite author profile

Local velocities and aspect ratios of rising bubbles were measured to investigate the e ects of bubble detachment shape on rising bubble hydrodynamics. Two types of capillary were employed to generate bubbles of identical volume: one glassy nozzle aligned vertically and the other stainless steel needle aligned horizontally. Horizontally injected bubbles have a spherical initial shape, and their values of aspect ratio slightly uctuate around unity. However, vertically injected bubbles have a surface-stretched initial shape, and their values of aspect ratios decrease sharply from 1.1 to 0.65. There is a notable correspondence between the variation of local velocities and aspect ratios that re ects the relevance of the detachment shape of the bubbles to their surface energy. Correlations of Taylor & Acrivos and Vakhrushev & Efremov for aspect ratio were examined by experimental data.

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Influence of Surface‐Modified Nanoparticles on the Hydrodynamics of Rising Bubbles

Fayzi

Bastani

Lotfi

et al. 2021

Chem Eng & Technol

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Local velocities of bubbles rising in four different nanosilica solutions were investigated experimentally. Also, the density, viscosity, and surface tension of fumed nanosilica and modified nanosilica solutions were measured. Heat treatment and chemical functionalization were used to modify the properties of silica nanoparticles. It was found that the addition of nanosilica affected the hydrodynamics of the rising bubble by increasing the drag friction at the interface. However, environmentally responsive nanosilica particles behaved like surfactant molecules, due to the interfacial activity of hydrophilic and hydrophobic chains. Silica nanoparticles coated with both hydrophilic and hydrophobic agents had a stronger effect on the interfacial properties than those coated only with the hydrophobic agent.

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Pouyan Fayzi

CFD simulation of bubble in flow field: Investigation of dynamic interfacial behaviour in presence of surfactant molecules

A note on the synergistic effect of surfactants and nanoparticles on rising bubble hydrodynamics

The effects of bubble detachment shape on rising bubble hydrodynamics

Influence of Surface‐Modified Nanoparticles on the Hydrodynamics of Rising Bubbles

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