Eow et al., 2003 - Google Patents
Motion, deformation and break-up of aqueous drops in oils under high electric field strengthsEow et al., 2003
- Document ID
- 6112363490596236859
- Author
- Eow J
- Ghadiri M
- Publication year
- Publication venue
- Chemical Engineering and Processing: Process Intensification
External Links
Snippet
In the chemical and oil industries, high electrostatic fields have been applied to separate aqueous drops from an oil phase by electrocoalescence. However, very high electrostatic fields can also cause disintegration of aqueous drops which is detrimental to the overall …
- 230000005684 electric field 0 title abstract description 142
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Eow et al. | Motion, deformation and break-up of aqueous drops in oils under high electric field strengths | |
Eow et al. | Experimental studies of deformation and break-up of aqueous drops in high electric fields | |
Eow et al. | Electrostatic enhancement of coalescence of water droplets in oil: a review of the current understanding | |
Aryafar et al. | Electrocoalescence: effects of DC electric fields on coalescence of drops at planar interfaces | |
Halsey | Electrorheological fluids | |
Otsubo et al. | Effect of drop size distribution on the flow behavior of oil-in-water emulsions | |
Mhatre et al. | Electrocoalescence of a drop pair | |
Eow et al. | The behaviour of a liquid–liquid interface and drop-interface coalescence under the influence of an electric field | |
Ha et al. | Rheological responses of oil-in-oil emulsions in an electric field | |
Yang et al. | Critical electric field strength for partial coalescence of droplets on oil–water interface under DC electric field | |
Guo et al. | Coalescence behaviour of two large water-drops in viscous oil under a DC electric field | |
Luo et al. | Electrocoalescence criterion of conducting droplets suspended in a viscous fluid | |
Scott | Use of electric fields in solvent extraction: a review and prospectus | |
Zhang et al. | EHD effects on periodic bubble formation and coalescence in ethanol under non-uniform electric field | |
Zhang et al. | Effect of surfactants on the deformation and break-up of an aqueous drop in oils under high electric field strengths | |
Hokmabad et al. | An experimental investigation on hydrodynamics of charged water droplets in dielectric liquid medium in the presence of electric field | |
Eow et al. | Electrocoalesce-separators for the separation of aqueous drops from a flowing dielectric viscous liquid | |
Atten | Electrohydrodynamics of dispersed drops of conducting liquid: From drops deformation and interaction to emulsion evolution | |
Eow et al. | Electrostatic and hydrodynamic separation of aqueous drops in a flowing viscous oil | |
Li et al. | Electrocoalescence of water droplet trains in sunflower oil under the coupling of Non-uniform electric and Laminar flow fields | |
Li et al. | Molecular dynamics simulations of nanoparticle-laden drop–interface electrocoalescence behaviors under direct and alternating current electric fields | |
Zhang et al. | Experimental investigation on bubble coalescence regimes under non-uniform electric field | |
Eow et al. | Electro-hydrodynamic separation of aqueous drops from flowing viscous oil | |
Qiu et al. | Interaction of a pair of ferrofluid drops in a rotating magnetic field | |
Sun et al. | Experimental study on the falling and coalescence characteristics of droplets under alternating electric fields |