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Modeling and Simulation of Diffusion-Convection-Reaction in Heterogeneous Nanochannels Using Openfoam

Modeling and Simulation of Diffusion-Convection-Reaction in Heterogeneous Nanochannels Using Openfoam, Hrushikesh G. Pimpalgaonkar, Volkert van Steijn, Michiel T. Kreutzer, and Chris R. Kleijn. In Proceedings of the International Conference on Numerical Analysis and Applied Mathematics 2015 (Icnaam-2015), pp. 480056, 2016.

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Abstract

We present a finite volume implementation of a phase field method in OpenFOAM as a tool to simulate reactive multiphase flows on heterogeneous surfaces. Using this tool, we simulate the formation and growth of a droplet due to a chemical reaction on a hydrophilic catalytic patch surrounded by a hydrophobic wall. We compare the growth dynamics with a quasi-static growth model from literature and show that they qualitatively agree.

BibTeX

@inproceedings{ ISI:000380803300509,
Author = {Pimpalgaonkar, Hrushikesh G. and van Steijn, Volkert and Kreutzer, Michiel T. and Kleijn, Chris R.},
Editor = {Simos, T and Tsitouras, C},
Title = {Modeling and Simulation of Diffusion-Convection-Reaction in Heterogeneous Nanochannels Using Openfoam},
Booktitle = {Proceedings of the International Conference on Numerical Analysis and Applied Mathematics 2015 (Icnaam-2015)},
Series = {AIP Conference Proceedings},
Year = {2016},
Volume = {1738},
Note = {},
Abstract = {We present a finite volume implementation of a phase field method in OpenFOAM as a tool to simulate reactive multiphase flows on heterogeneous surfaces. Using this tool, we simulate the formation and growth of a droplet due to a chemical reaction on a hydrophilic catalytic patch surrounded by a hydrophobic wall. We compare the growth dynamics with a quasi-static growth model from literature and show that they qualitatively agree.},
DOI = {10.1063/1.4952292},
Pages = {480056},
ISSN = {0094-243X},
ISBN = {978-0-7354-1392-4},
Unique-ID = {ISI:000380803300509},
}

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