Entropy generation analysis of MHD nanofluid flow in a porous vertical microchannel with nonlinear thermal radiation, slip flow and convective-radiative boundary conditions
Author:
Funder
FOMIX-CONACYT
Publisher
Elsevier BV
Subject
Fluid Flow and Transfer Processes,Mechanical Engineering,Condensed Matter Physics
Reference41 articles.
1. Effect of a magnetic field on natural convection in an inclined half-annulus enclosure filled with Cu-water nanofluid using CVFEM;Sheikholeslami;Adv. Powder Technol.,2013
2. Analysis of entropy generation between co-rotating cylinders using nanofluids;Mahian;Energy,2012
3. Temperature and entropy generation analyses between and inside rotating cylinders using copper-water nanofluid;Torabi;J. Heat Transfer,2015
4. Magnetohydrodynamic flow in a permeable channel filled with nanofluid;Sheikholeslami;Sci. Iran,2014
5. Lattice Boltzmann method for MHD natural convection heat transfer using nanofluid;Sheikholeslami;Powder Technol.,2014
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