Interfacial Phenomena and Heat Transfer
Publicado 4 números por año
ISSN Imprimir: 2169-2785
ISSN En Línea: 2167-857X
IF:
0.5
5-Year IF:
0.8
Immediacy Index:
0.2
Eigenfactor:
0.00018
JCI:
0.11
SJR:
0.286
SNIP:
1.032
CiteScore™::
1.6
H-Index:
10
Indexed in
APPLICATION OF THE NONLINEAR POISSON-BOLTZMANN MODEL TO THE STABILITY OF AN ELECTROLYTE FILM
Volumen 2,
Edición 1, 2014,
pp. 75-84
DOI: 10.1615/InterfacPhenomHeatTransfer.2014010040
SINOPSIS
The stability of a thin liquid film of an electrolyte on a solid substrate is investigated. The effects of surface tension, viscous flow, and electric field described by the nonlinear Poisson-Boltzmann equation are considered in the framework of a lubrication-type model. Conditions for film breakup due to electrostatic interaction of interfacial charges are investigated. Linear stability criteria are formulated using elliptic integrals. Nonlinear evolution of the film is then investigated using numerical finite-difference-based methods. Comparison to the predictions of the approximate Debye-Huckel model is discussed.
594 Vistas de artículos
299 Descargas de artículos
Métrica
Artículos con contenido similar:
Último edicion
Próximos Artículos
NUMERICAL THREE-DIMENSIONAL MODEL OF ULTRASONIC COAGULATION OF AEROSOL PARTICLES IN VORTEX ACOUSTIC STREAMING
Simulation of Capillary Wave Turbulence on the Basis of Fully Nonlinear Plane-Symmetric Model
Characteristics of weak evaporative convection in dependence on thermal load of walls of channel filled by two binary fluids
EXPERIMENTAL STUDY OF CONDENSATION OF WATER ON POLYDIMETHYLSILOXANE-COATED COPPER SURFACES