Investigating simultaneous effects of temperature, surface heterogeneity and geometry on fluid mixing in electroosmotic flow considering temperature dependent properties by Nernst-Planck Poisson method
From MaRDI portal
Publication:2698404
DOI10.1016/J.CNSNS.2023.107238OpenAlexW4324344880MaRDI QIDQ2698404
Mohammad Saeed Borji, Jafar Jamaati, Mehdi Bahiraei
Publication date: 21 April 2023
Published in: Communications in Nonlinear Science and Numerical Simulation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cnsns.2023.107238
Cites Work
- Mixed convection magnetohydrodynamic heat and mass transfer past a stretching surface in a micropolar fluid-saturated porous medium under the influence of ohmic heating, Sorét and dufour effects
- Using resonances to control chaotic mixing within a translating and rotating droplet
- Analysis of electroosmotic flow with periodic electric and pressure fields via the lattice Poisson-Boltzmann method
- A microfluidic systems-based DNA algorithm for solving special 0-1 integer programming problem
- Electro-osmotically driven MHD flow and heat transfer in micro-channel
- Analytical and numerical study of electroosmotic slip flows of fractional second grade fluids
- Combined electroosmosis-pressure driven flow and mixing in a microchannel with surface heterogeneity
- Mixing and charge transfer in a nanofluidic system due to a patterned surface
- Enhanced electroosmotic flow in a nano-channel patterned with curved hydrophobic strips
- Electrically-excited (electroosmotic) flows in microchannels for mixing applications
- The effects of depletion layer for electro-osmotic flow of fractional second-grade viscoelastic fluid in a micro-rectangle channel
- LATTICE BOLTZMANN SIMULATIONS OF MIXING ENHANCEMENT BY THE ELECTRO-OSMOTIC FLOW IN MICROCHANNELS
This page was built for publication: Investigating simultaneous effects of temperature, surface heterogeneity and geometry on fluid mixing in electroosmotic flow considering temperature dependent properties by Nernst-Planck Poisson method
