Showing papers by "Christophe Baravian published in 2015"
TL;DR: In this paper, the kinetics of mechanical emulsification in vane geometry were investigated using an original rheo-optic device using a nonionic polymeric surfactant (Brij700®) as stabilizer.
Abstract: The kinetics of mechanical emulsification in vane geometry was investigated using an original rheo-optic device. Hexadecane-in-water micronic emulsions were prepared using a nonionic polymeric surfactant (Brij700®) as stabilizer. The viscosity of aqueous phase was adjusted using a commercial viscosifier (Emkarox®) which ensured Newtonian behavior to the continuous phase. The influences of two variables (rotational speed and oil volume fraction) on the kinetics of droplet fragmentation were examined in detail. Rotational speed was varied between 50 and 100 rad s−1 and had a strong effect on the kinetics of emulsion formation which was discussed on the basis of droplet fragmentation by shear forces. On the contrary, oil volume fraction (between 20 and 60% v/v) showed no marked effect, which appeared as an important result for scale-up considerations. A theoretical description of fragmentation mechanism was proposed and experimental results were compared to calculated values. © 2014 American Institute of Chemical Engineers AIChE J, 61: 277–284, 2015
6 citations
TL;DR: In this article, the authors investigated the kinetics of droplet formation and the simultaneous variation of global shear stress using a laboratory-made experimental device coupling rheometry and backscattered light analysis.
4 citations