The physico-chemistry of surfactants (amphiphilic surface active agents) is
often used to control the dynamics of viscous drops and bubbles. Surfactant
sorption kinetics has been shown to play a critical role in the deformation of
drops in extensional and shear flows, yet to the best of our knowledge these
kinetics effects on a viscous drop in an electric fieldhave not been accounted
for. In this paper we numerically investigate the effects of sorption kinetics
on a surfactant-covered viscous drop in an electric field. Over a range of
electric conductivity and permittivity ratios between the interior and exterior
fluids, we focus on the dependence of deformation and flow on the transfer
parameter J, and Biot number Bi that characterize the extent of
surfactant exchange between the drop surface and the bulk. Our findings suggest
solubility affects the electrohydrodynamics of a viscous drop in distinct ways
as we identify parameter regions where (1) surfactant solubility may alter both
the drop deformation and circulation of fluid around a drop, and (2) surfactant
solubility affects mainly the flow and not the deformation
