Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by Crossref.
Adamiak, K.
1999.
Force of attraction between two conducting droplets in electric field.
Vol. 3,
Issue. ,
p.
1795.
Hirata, Takuya
Kikuchi, Tsutomu
Tsukada, Takao
and
Hozawa, Mitsunori
2000.
Finite Element Analysis of Electrohydrodynamic Time-Dependent Deformation of Dielectric Drop under Uniform DC Electric Field..
JOURNAL OF CHEMICAL ENGINEERING OF JAPAN,
Vol. 33,
Issue. 1,
p.
160.
Ha, Jong-Wook
and
Yang, Seung-Man
2000.
Rheological responses of oil-in-oil emulsions in an electric field.
Journal of Rheology,
Vol. 44,
Issue. 2,
p.
235.
Dong, Junhang
and
Tsouris, Costas
2001.
Phase Inversion of Liquid–Liquid Dispersions Under Applied Electric Fields.
Journal of Dispersion Science and Technology,
Vol. 22,
Issue. 1,
p.
57.
Pozrikidis, C.
2001.
Interfacial Dynamics for Stokes Flow.
Journal of Computational Physics,
Vol. 169,
Issue. 2,
p.
250.
Tryggvason, G.
Fernández, A.
Esmaeeli, A.
and
Bunner, B.
2002.
Turbulent Flow Computation.
Vol. 66,
Issue. ,
p.
313.
Dong, Junhang
de Almeida, Valmor F.
and
Tsouris, Costas
2002.
Effects of Applied Electric Fields on Drop—Interface and Drop—Drop Coalescence*.
Journal of Dispersion Science and Technology,
Vol. 23,
Issue. 1-3,
p.
155.
Tryggvason, G.
Fernández, A.
and
Lu, J.
2003.
Computational Fluid and Solid Mechanics 2003.
p.
1166.
Zhang, Junfeng
and
Kwok, Daniel Y.
2005.
A 2D lattice Boltzmann study on electrohydrodynamic drop deformation with the leaky dielectric theory.
Journal of Computational Physics,
Vol. 206,
Issue. 1,
p.
150.
Fernández, Arturo
Tryggvason, Gretar
Che, Judy
and
Ceccio, Steven L.
2005.
The effects of electrostatic forces on the distribution of drops in a channel flow: Two-dimensional oblate drops.
Physics of Fluids,
Vol. 17,
Issue. 9,
Margetis, Dionisios
and
Savva, Nikos
2006.
Low-frequency currents induced in adjacent spherical cells.
Journal of Mathematical Physics,
Vol. 47,
Issue. 4,
Singh, Pushpendra
and
Aubry, Nadine
2007.
Transport and deformation of droplets in a microdevice using dielectrophoresis.
ELECTROPHORESIS,
Vol. 28,
Issue. 4,
p.
644.
DUBASH, N.
and
MESTEL, A. J.
2007.
Behaviour of a conducting drop in a highly viscous fluid subject to an electric field.
Journal of Fluid Mechanics,
Vol. 581,
Issue. ,
p.
469.
LAC, ETIENNE
and
HOMSY, G. M.
2007.
Axisymmetric deformation and stability of a viscous drop in a steady electric field.
Journal of Fluid Mechanics,
Vol. 590,
Issue. ,
p.
239.
Petera, J.
Weatherley, L.R.
Hume, A.P.
and
Gawrysiak, T.
2007.
A finite element algorithm for particle/droplet trajectory tracking, tested in a liquid–liquid system in the presence of an external electric field.
Computers & Chemical Engineering,
Vol. 31,
Issue. 11,
p.
1369.
Tomar, G.
Gerlach, D.
Biswas, G.
Alleborn, N.
Sharma, A.
Durst, F.
Welch, S.W.J.
and
Delgado, A.
2007.
Two-phase electrohydrodynamic simulations using a volume-of-fluid approach.
Journal of Computational Physics,
Vol. 227,
Issue. 2,
p.
1267.
Fernández, Arturo
2008.
Response of an emulsion of leaky dielectric drops immersed in a simple shear flow: Drops less conductive than the suspending fluid.
Physics of Fluids,
Vol. 20,
Issue. 4,
Nudurupati, Sai
Janjua, Mohammad
Aubry, Nadine
and
Singh, Pushpendra
2008.
Concentrating particles on drop surfaces using external electric fields.
ELECTROPHORESIS,
Vol. 29,
Issue. 5,
p.
1164.
Hua, Jinsong
Lim, Liang Kuang
and
Wang, Chi-Hwa
2008.
Numerical simulation of deformation/motion of a drop suspended in viscous liquids under influence of steady electric fields.
Physics of Fluids,
Vol. 20,
Issue. 11,
Fernández, Arturo
2008.
Response of an emulsion of leaky dielectric drops immersed in a simple shear flow: Drops more conductive than the suspending fluid.
Physics of Fluids,
Vol. 20,
Issue. 4,