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Numerical simulation of biofilm formation in a microchannel

The focus of this paper is the numerical solution of a pore-scale model for the growth of a permeable biofilm. The model includes water flux inside the biofilm, different biofilm components, and shear stress on the biofilm-water interface. To solve the resulting highly coupled system of model equations, we propose a splitting algorithm. The Arbitrary Lagrangian Eulerian (ALE) method is used to track the biofilm-water interface. Numerical simulations are performed using physical parameters from the existing literature. Our computations show the effect of biofilm permeability on the nutrient transport and on its growth.

preprint2018arXivOpen access
David Landa-MarbánIuliu S. PopKundan KumarFlorin A. Radu
physics.flu-dyn
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David Landa-MarbánIuliu S. PopKundan KumarFlorin A. Radu

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