@inproceedings{86a594b7ea584644865b228fe17a700b,
title = "A fully coupled 3d transport model in SPH for multi-species reaction-diffusion systems",
abstract = "In this paper we present a fully generalized transport model for multiple species in complex two and three-dimensional geometries. Based on previous work [1] we have extended our interfacial reaction-diffusion model to handle arbitrary numbers of species allowing for coupled reaction models. Each species is tracked independently and we consider different physics of a species with respect to the bulk phases in contact. We use our SPH model to simulate the reaction-diffusion problem on a pore-scale level of a solid oxide fuel cell (SOFC) with special emphasize on the effect of surface diffusion.",
keywords = "Porous media, Reaction-diffusion, SPH",
author = "S. Adami and Hu, {X. Y.} and Adams, {N. A.} and Ryan, {E. M.} and Tartakovsky, {A. M.}",
year = "2011",
language = "English",
isbn = "9788489925670",
series = "Particle-Based Methods II - Fundamentals and Applications",
pages = "139--151",
booktitle = "Particle-Based Methods II - Fundamentals and Applications",
note = "2nd International Conference on Particle-Based Methods, PARTICLES 2011 ; Conference date: 26-10-2011 Through 28-10-2011",
}