The potential of micromixers for contacting of disperse liquid phases

The present study concerns the separation of fine liquid-liquid dispersions having mean droplet diameters between 20 and 100 pm by phase inversion. A theoretical model based on gravity separation is proposed. Two modes of operation of the settling device are studied: without and with bed formation.

A physical model is presented which descri'bes the local mixing in the liquid phase of twophase gas-liquid flows agitated by rising bubbles. It corresponds to the stochastic mathematical model descrii by Nassar et al (1992). The transport of liquid in the bubble wakes is assumed to be the dominating

## Abstract The classical emulsion is made up of drops of one liquid dispersed in a containing liquid. Under certain circumstances, however, some of the containing phase may form drops within the drops of the dispersed liquid, giving rise to a structure known as a double‐multiple emulsion. This stu

A novel temperature measurement technique integrated with a high-speed data acquisition system allowed temperature distributions to be obtained in droplets rising in a liquid-liquid, direct-contact heat exchanger. Heat transfer results were computed from the temperature data and were correlated in