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Main Authors: Balike, Dieudonné Zirhumanana, Mattei, Maria Rosaria, Frunzo, Luigi
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.16977
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author Balike, Dieudonné Zirhumanana
Mattei, Maria Rosaria
Frunzo, Luigi
author_facet Balike, Dieudonné Zirhumanana
Mattei, Maria Rosaria
Frunzo, Luigi
contents We present the stability analysis of two free boundary problems arising in biofilm modelling. The first, introduced in the 1980s by Wanner and Gujer, is related to the competition between autotrophic and heterotrophic bacteria in a biofilm bioreactor. It is a free boundary problem consisting of a system of hyperbolic PDEs modelling biofilm growth and the competition between species, a parabolic system accounting for substrate consumption, and an ODE for biofilm thickness. The second, also based on the former, arises from the modelling of trace-metal precipitation in biofilms, with a special focus on the role of sulfate-reducing bacteria in the methane production process. The analysis is made into two steps, the first one being the existence and uniqueness of the stationary solutions. The second one allows to show that the calssical solutions converge to the stationary solutions by using a semigroup approach and the energy method. We also extend the study to the precipitation model, in which the substrates are modelled by a parabolic system with variable diffusion coefficients.
format Preprint
id arxiv_https___arxiv_org_abs_2411_16977
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Stability analysis of hyperbolic-parabolic free boundary problems modelling biofilms
Balike, Dieudonné Zirhumanana
Mattei, Maria Rosaria
Frunzo, Luigi
Analysis of PDEs
We present the stability analysis of two free boundary problems arising in biofilm modelling. The first, introduced in the 1980s by Wanner and Gujer, is related to the competition between autotrophic and heterotrophic bacteria in a biofilm bioreactor. It is a free boundary problem consisting of a system of hyperbolic PDEs modelling biofilm growth and the competition between species, a parabolic system accounting for substrate consumption, and an ODE for biofilm thickness. The second, also based on the former, arises from the modelling of trace-metal precipitation in biofilms, with a special focus on the role of sulfate-reducing bacteria in the methane production process. The analysis is made into two steps, the first one being the existence and uniqueness of the stationary solutions. The second one allows to show that the calssical solutions converge to the stationary solutions by using a semigroup approach and the energy method. We also extend the study to the precipitation model, in which the substrates are modelled by a parabolic system with variable diffusion coefficients.
title Stability analysis of hyperbolic-parabolic free boundary problems modelling biofilms
topic Analysis of PDEs
url https://arxiv.org/abs/2411.16977