Response of an emulsion of leaky dielectric drops immersed in a simple shear flow: Drops more conductive than the suspending fluid

Abstract: Direct numerical simulation is used to examine the rheological properties of an emulsion of leaky dielectric fluids when an electric field is applied to the system. The emulsion consisting of neutrally buoyant drops is immersed in a simple shear flow where an electric potential difference is applied between the plates. It is assumed that drops are more conductive than the suspending fluid and that the electrical conductivity ratio between the drops and the suspending fluid, R=σi∕σo, is larger than the dielectr… Show more

“…Additional field effects, commonly via electrical forcing, have been considered to impose a more precise control on their spatio-temporal evolution, 11–16 culminating in the form of a desired emulsion rheology. 17–20…”

Electrically modulated relaxation dynamics of pre-stretched droplets post switched-off uniaxial extensional flow

“…Additional field effects, commonly via electrical forcing, have been considered to impose a more precise control on their spatio-temporal evolution, 11–16 culminating in the form of a desired emulsion rheology. 17–20…”

Electrically modulated relaxation dynamics of pre-stretched droplets post switched-off uniaxial extensional flow

“…While the prototypical problem of an isolated drop in a uniform electric field has been extensively studied (see for a recent review (Vlahovska 2019)), investigations of the collective dynamics of many drops are scarce (Fernandez 2008 a , b ; Casas et al. 2019) and mainly focused on the near-contact interaction preceding electrocoalescence (Anand et al.…”

Numerical and asymptotic analysis of the three-dimensional electrohydrodynamic interactions of drop pairs

“…Although the rate of coalescence is faster in nonuniform than the uniform electric field, there is a tendency for long‐chain formation in both fields 3 . Chain formation as a result of noncoalescence events has been also demonstrated through simulations 4‐6 …”

Effectiveness and limitations of two drop studies to explain emulsion dehydration under modulated electric fields