Emulsification on a Microscale: Faster, Better, and More Effective

Abstract

Emulsions are traditionally prepared with the application of high shear forces generated by the use of static mixers, homogen - isers, or ultrasound. The resulting emulsions are sensitive to change of process conditions. The application of high forces and temperatures can significantly affect the constituents of the emulsions and their final stability. Microfluidic technology seems to be a very efficient alternative to classic emulsification methods. The dimensions of microdevices in combination with continu ous processes offer a great advantage over classic batch emulsification processes carried out on a larger scale. The small dimen - sions of the microdevices allow easy transport of equipment, better control and safety of the process, and intensified mass and energy transfer. The mixing time in microdevices is reduced to a few milliseconds because the molecules in the microchannels have a short diffusion path. In this paper, an overview of emulsification processes, the advantages of use of microfluidics in emulsification, and future perspectives of microemulsification are presented.