Analysis of entropy generation in biomimetic electroosmotic nanofluid pumping through a curved channel with joule dissipation
Author:
Publisher
Elsevier BV
Subject
Fluid Flow and Transfer Processes
Reference61 articles.
1. Bioinspired heterogeneous ion pump membranes: unidirectional selective pumping and controllable gating properties stemming from asymmetric ionic group distribution;Zhang;J. Am. Chem. Soc.,2018
2. A biomimetic dna based channel for the ligand controlled transport of charged molecular cargo across a biological membrane;Burns;Nat. Nanotechnol.,2016
3. Numerical study of slip effects on asymmetric bioconvective nanofluid flow in a porous microchannel with an expanding/contracting upper wall using buongiorno’s model;Beg;J. Mech. Med. Biol.,2017
4. Biomimetic multifunctional nanochannels based on the asymmetric wettability of heterogeneous nanowire membranes;Zhang;Adv. Mater.,2014
5. Experimental investigation of biomimetic self-pumping and self-adaptive transpiration cooling;Jiang;Bioinspir. Biomim.,2017
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