About: Hydrodynamics and Mass Transport in Wall Tube and Microjet Electrodes. 1. FiniteElement Simulations

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Attributs	Valeurs
type	work Article
Is Part Of	http://hub.abes.fr/acs/periodical/jpcbfk/2002/volume_106/issue_10/w
Subject	Article
Title	Hydrodynamics and Mass Transport in Wall Tube and Microjet Electrodes. 1. FiniteElement Simulations
has manifestation of work	http://hub.abes.fr/acs/periodical/jpcbfk/2002/volume_106/issue_10/101021jp013897a/m/print http://hub.abes.fr/acs/periodical/jpcbfk/2002/volume_106/issue_10/101021jp013897a/m/web
related by	http://hub.abes.fr/acs/periodical/jpcbfk/2002/volume_106/issue_10/101021jp013897a/authorship/2 http://hub.abes.fr/acs/periodical/jpcbfk/2002/volume_106/issue_10/101021jp013897a/authorship/3 http://hub.abes.fr/acs/periodical/jpcbfk/2002/volume_106/issue_10/101021jp013897a/authorship/5 http://hub.abes.fr/acs/periodical/jpcbfk/2002/volume_106/issue_10/101021jp013897a/authorship/1 http://hub.abes.fr/acs/periodical/jpcbfk/2002/volume_106/issue_10/101021jp013897a/authorship/4
Author	Coles Barry A. Compton Richard G. Simjee Nafeesa Melville James Unwin Patrick R.
Abstract	We report a general numerical strategy for the simulation of the hydrodynamics and mass transfer at a walltube electrode based on finite element modeling. Previous empirical and approximate analytical treatmentspredicting the current as a function of flow rate and cell geometry are critically assessed and shown to havelimited general applicability. Good agreement between experiment and simulation is found, providing a rigorousbasis for future work with these electrodes.
article type	research-article
is part of this journal	The Journal of Physical Chemistry B

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