Effects of surfactant transport on electrodeformation of a viscous drop
Document Type
Article
Publication Date
6-10-2019
Abstract
In this work we quantify the effects of surfactant transport on the deformation of a viscous drop under a DC electric field. We study how convective and diffusive transport of surfactants at drop surfaces influence the equilibrium and dynamic deformation of a leaky dielectric drop and a conducting drop. Focusing on the prolate drop shape (elongates along the electric field), we show the differences in equilibrium deformation and flow circulation between a leaky dielectric drop and a conducting drop. We quantify the drop electrodeformation via its dependence on the interior flow circulation and the dominant surfactant transport regime (characterized by the surface Péclet number Pes). For a leaky dielectric drop with dominant surfactant diffusion (Pes1), equator-to-pole (pole-to-equator) circulation yields smaller (larger) equilibrium deformation with increasing surfactant coverage, compared to a clean drop. However, when convection dominates (Pes≫1), the equilibrium drop deformation increases (decreases) with larger surfactant coverage for equator-to-pole (pole-to-equator) circulation. Larger equilibrium drop deformation is found for a leaky dielectric drop than a conducting drop when the interior flow is from equator to pole. For an interior flow from pole to equator, we identify cases where larger deformation is found for a conducting interior fluid. Finally, we study the effect of the surfactant transport on the dynamic evolution of drop shape. We found the drop undergoes an overshoot in the early deformation phase, before settling to its equilibrium shape - similar to the overshoot observed for unsteady Stokes flow.
Identifier
85067346638 (Scopus)
Publication Title
Physical Review E
External Full Text Location
https://doi.org/10.1103/PhysRevE.99.063104
e-ISSN
24700053
ISSN
24700045
PubMed ID
31330602
Issue
6
Volume
99
Grant
1830958
Fund Ref
National Science Foundation
Recommended Citation
Nganguia, Herve; Pak, On Shun; and Young, Y. N., "Effects of surfactant transport on electrodeformation of a viscous drop" (2019). Faculty Publications. 7526.
https://digitalcommons.njit.edu/fac_pubs/7526
