Effect of solute transfer and interfacial instabilities on scalar and velocity field around a drop rising in quiescent liquid channel

Abstract: Physics of development of flow structures around the drop rising with solute transfer is highly influenced by the interfacial behaviour and is remarkably different than a particle rising under the same conditions. We report on the use of simultaneous particle image velocimetry-planar laser induced fluorescence technique to measure scalar and velocity fields around a drop rising in a quiescent liquid channel. The selected continuous phase is glycerol, and the drop consists of a mixture of toluene, acetone, and … Show more

“…They determined diffusion coefficients and described the mass transfer behavior for both stagnant and flowing continuous phase. For creeping flow, Khadamkar and Khanwale , were able to observe Marangoni instabilities due to non‐uniform shear distribution close at the interface of a droplet within a liquid bulk phase. In combination with PIV data, they calculated energy transfer rates during the mass transfer process.…”

Laser‐Induced Fluorescence in Multiphase Systems

“…They determined diffusion coefficients and described the mass transfer behavior for both stagnant and flowing continuous phase. For creeping flow, Khadamkar and Khanwale , were able to observe Marangoni instabilities due to non‐uniform shear distribution close at the interface of a droplet within a liquid bulk phase. In combination with PIV data, they calculated energy transfer rates during the mass transfer process.…”

Laser‐Induced Fluorescence in Multiphase Systems

On nature of mass transfer near liquid-liquid interface in the presence of Marangoni instabilities

Joint mass transfer of two components associated with the spontaneous interfacial convection in the liquid-liquid extraction system