One-dimensional nonlinear instability study of a slightly viscoelastic, perfectly conducting liquid jet under a radial electric field

Abstract: A one-dimensional electrified viscoelastic model is built to study the nonlinear behavior of a slightly viscoelastic, perfectly conducting liquid jet under a radial electric field. The equations are solved numerically using an implicit finite difference scheme together with a boundary element method. The electrified viscoelastic jet is found to evolve into a beads-on-string structure in the presence of the radial electric field. Although the radial electric field greatly enhances the linear instability of the … Show more

“…They found that one-dimensional models work well in this regime. One-dimensional nonlinear instability of a slightly viscoelastic, perfectly conducting liquid jet has been used by Li et al (2016). The one-dimensional model has been also used by Eggers and Dupont (1994) to study drop formation of viscous liquid jets.…”

Spatial instability and break-up of viscoelastic Giesekus curved jets with surfactants

“…They found that one-dimensional models work well in this regime. One-dimensional nonlinear instability of a slightly viscoelastic, perfectly conducting liquid jet has been used by Li et al (2016). The one-dimensional model has been also used by Eggers and Dupont (1994) to study drop formation of viscous liquid jets.…”

Spatial instability and break-up of viscoelastic Giesekus curved jets with surfactants

Effects of a radial electric field on the thinning of a slightly viscoelastic liquid jet

Theoretical analysis on electrohydrodynamic instability of a low viscous electrified jet