Monodisperse droplet formation for both low and high capillary numbers in a T-junction microdroplet generator

In a T-junction microdroplet generator, the relation between the droplet length and the flow-rate ratio of the immiscible fluids is studied experimentally at both low and high capillary numbers. In particular, different geometries of the T-junctions are designed for monodisperse droplet formation, and the droplet length as a function of the flow-rate ratio is measured for various viscosity of the fluids. It is observed that there is a linear relation between the droplet length and the flow-rate ratio at a low capillary number(C-a <= 0.1), while the droplet length is varying nonlinearly with the flow-rate ratio at a high capillary number(0.1 <= C-a <= 1.0). More importantly, by using the feedback control of the droplet size, a closed-loop control droplet microfluidic system is demonstrated. Especially, by choosing specific control method, good agreements are shown between the predicted and the measured droplet size for a wide range of the capillary numbers of monodisperse droplet production. (C) 2021 Elsevier Ltd. All rights reserved.

Automated summary

The relationship between droplet length and flow-rate ratio in a T-junction microdroplet generator was experimentally studied at low and high capillary numbers. It was found that there is a linear relationship at low capillary numbers, while a non-linear relationship exists at high capillary numbers. By utilizing feedback control of droplet size, a closed-loop control droplet microfluidic system was demonstrated with good agreement between predicted and measured droplet sizes across a wide range of capillary numbers.