Interfacial viscosity-induced suppression of lateral migration of a surfactant-laden droplet in a non-isothermal Poiseuille flow
Devi Prasad Panigrahi, Somnath Santra, Theneyur Narayanaswamy, Banuprasad, Sayan Das, Suman Chakraborty

TL;DR
This study investigates how interfacial viscosity affects the lateral migration of surfactant-coated droplets in non-isothermal Poiseuille flow, combining theoretical modeling and experimental validation to understand droplet dynamics.
Contribution
It introduces a theoretical model considering interfacial viscosity effects under different surfactant transport regimes and validates it through experiments, highlighting the impact on droplet migration.
Findings
Interfacial viscosities suppress droplet lateral migration.
Droplets migrate faster towards the centerline in confined channels.
Theoretical predictions align with experimental observations.
Abstract
Understanding and modulating the cross-stream motion of a surfactant-coated droplet in pressure driven flow has great implications in many practical applications. A combination of interfacial viscosity and Marangoni stress acting over a surfactant-coated droplet in pressure driven flow offers greater flexibility to modulate the cross-stream motion of it. Despite the intense theoretical and numerical research towards manipulating the surfactant-laden Newtonian droplets in Poiseuille flow, the experimental investigations are seldom explored. Herein, we report our study on understanding the influence of interfacial viscosity on the cross-stream motion of a surfactant-coated Newtonian droplet in both isothermal and non-isothermal Poiseuille flow from a theoretical as well as an experimental perspective. A theoretical model has been developed to understand the effect of interfacial viscosity…
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