Droplet breakup mechanisms in premix membrane emulsification and related microfluidic channels

• Published in: Advances in colloid and interface science Vol. 290; p. 102393
• Main Authors: Nazir, Akmal, Vladisavljević, Goran T.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.04.2021
• Subjects: Droplet breakup; Membrane emulsification; Microfluidic channel; Non-dimensional correlations; Non-dimensional correlations; Microfluidic channel; Membrane emulsification; Droplet breakup
• ISSN: 0001-8686; 1873-3727
• DOI: 10.1016/j.cis.2021.102393

Premix membrane emulsification (PME) is a pressure driven process of droplet breakup, caused by their motion through membrane pores. The process is widely used for high-throughput production of sized-controlled emulsion droplets and microparticles using low energy inputs. The resultant droplet size depends on numerous process, membrane, and formulation factors such as flow velocity in pores, number of extrusions, initial droplet size, internal membrane geometry, wettability of pore walls, and physical properties of emulsion. This paper provides a comprehensive review of different mechanisms of droplet deformation and breakup in membranes with versatile pore morphologies including sintered glass and ceramic filters, SPG and polymeric membranes with sponge-like structures, micro-engineered metallic membranes with ordered straight-through pore arrays, and dynamic membranes composed of unconsolidated particles. Fundamental aspects of droplet motion and breakup in idealized pore networks have also been covered including droplet disruption in T-junctions, channel constrictions, and obstructed channels. The breakup mechanisms due to shear interactions with pore walls and localized shear (direct breaking) or due to interfacial tension effects and Rayleigh-Plateau instability (indirect breaking) are systematically discussed based on recent experimental and numerical studies. Non-dimensional droplet size correlations based on capillary, Weber, and Ohnesorge numbers are also presented. [Display omitted] •Premix membrane emulsification is a process of droplet breakup in membrane pores•Glass, ceramic, polymeric, metallic, and dynamic membranes can be applied•The droplet breakup is an interplay of various disruptive and restoring forces•Various dimensionless numbers are presented to describe droplet breakup mechanisms•Droplet breakup occurs due to shear interactions or interfacial tension effects