Modelling oxygenic photogranules: microbial ecology and process performance
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Publication:6597827
DOI10.1137/22M1483013zbMATH Open1546.9217MaRDI QIDQ6597827
L. Frunzo, A. Tenore, M. R. Mattei
Publication date: 4 September 2024
Published in: SIAM Journal on Applied Mathematics (Search for Journal in Brave)
Cites Work
- A mixed-culture biofilm model with cross-diffusion
- A time-space model for the growth of microalgae biofilms for biofuel production
- Longtime behavior of one-dimensional biofilm models with shear dependent detachment rates
- Free boundary problem for the role of planktonic cells in biofilm formation and development
- Discrete attachment to a cellulolytic biofilm modeled by an Itô stochastic differential equation
- Multiscale modelling of de novo anaerobic granulation
- Modelling the ecology of phototrophic-heterotrophic biofilms
- A fluid dynamics model of the growth of phototrophic biofilms
- Free boundary approach for the attachment in the initial phase of multispecies biofilm growth
- A modeling and simulation study of the role of suspended microbial populations in nitrification in a biofilm reactor
- A fluid dynamics multidimensional model of biofilm growth: stability, influence of environment and sensitivity
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