Loading...
| Friend's email | |
| Your name | |
| Your email | |
| enter code | |
This page was sent successfuly
LBM simulation of electro-osmotic flow (EOF) in nano/micro scales porous media with an inclusive parameters study
Zakeri, R ; Sharif University of Technology
989
Viewed
- Type of Document: Article
- DOI: 10.1115/IMECE2014-37831
- Abstract:
- In this paper, we present our results about simulation of 2D-EOF in Nano/Micro scales porous media using lattice Boltzmann method (LBM) in micro-channel for EOF. The high efficient numerical code use strongly high nonlinear Poisson Boltzmann equation to predicate behavior of EOF in complex geometry. The results are developed with precisely investigation of several effective parameters on permeability of EOF, such as geometry (channel height and number and location of charge), external electric field, thickness of Debye length (ionic concentration), and zeta potential. Our results are in excellent agreement with available analytical results. Our results show that for certain external electric field, zeta potential and porosity, there is an optimal Kh parameter (ionic concentration and channel height in this study) for velocity profiles. Based on the current study, homogenous zeta potential distribution on solid porous media, zeta potential and thickness of Debye length (Kh parameter) can dramatically affect on EOF permeability linearly or non-linearly, depend on amount of quantities. Thus, different arrangements are also considered. We show that prediction of EOF behavior in complex geometry with regarding role of effective parameters is completely possible for various applicable conditions
- Keywords:
- Boltzmann equation ; Computational fluid dynamics ; Electric fields ; Electroosmosis ; Geometry ; Nonlinear equations ; Poisson equation ; Porous materials ; Zeta potential ; Analytical results ; Applicable conditions ; Effective parameters ; Electroosmotic flow ; External electric field ; Ionic concentrations ; Lattice boltzmann methods (LBM) ; Zeta potential distributions ; Mechanical permeability
- Source: ASME International Mechanical Engineering Congress and Exposition, Proceedings (IMECE) ; Vol. 7 , November , 2014 ; ISBN: 9780791849545
- URL: http://proceedings.asmedigitalcollection.asme.org/proceeding.aspx?articleid=2205167