Add to ORKGThe focus of this paper is the derivation of an effctive model for biofilm growth in a porous medium and its effect on fluid flow. The starting point is a pore-scale model in which the local geometry of the pore is represented as a thin strip. The model accounts for changes in pore volume due to biomass accumulation. As the ratio of the width of the strip to its length approaches zero, we apply a formal limiting argument to derive a one-dimensional upscaled (effective) model. For a better understanding of the terms and parameters involved in the equations derived here, we compare these equations to a well-known core-scale model from the literature
<div><p>A two-dimensional pore-scale numerical model was developed to evaluate the dynamics of prefe...
A computer-aided simulator has been developed for the prediction of the pattern of evolution and th...
This dissertation addresses the applications and challenges of both laboratory experiments and mathe...
The focus of this paper is the derivation of an effctive model for biofilm growth in a porous medium...
The focus of this paper is the derivation of an effective model for biofilm growth in a porous mediu...
As biofilms intervene in a porous medium, they affect the porosity and permeability, which in turn a...
In this paper, we derive upscaled equations for modeling biofilm growth in porous media. The resulti...
AbstractBiofilms are very important in controlling pollution in aquifers. The bacteria may either co...
Biofilm growth in porous media: derivation of a macroscopic model from the physics at the pore scale...
In this paper, we derive a pore-scale model for permeable biofilm formation in a two-dimensional por...
International audienceIn this paper, we present a two-dimensional pore-scale numerical model to inve...
Understanding microbial biofilm growth is important to public health because biofilms are a leading ...
In my research I studied differential equations, which are ubiquitous in science and engineering. Th...
Biofilm growth in subsurface porous media, and its treatment with biocides (antimicrobial agents), i...
This thesis relates to the mathematical modelling of biofilm in two primary areas: biofilm growth, a...
<div><p>A two-dimensional pore-scale numerical model was developed to evaluate the dynamics of prefe...
A computer-aided simulator has been developed for the prediction of the pattern of evolution and th...
This dissertation addresses the applications and challenges of both laboratory experiments and mathe...
The focus of this paper is the derivation of an effctive model for biofilm growth in a porous medium...
The focus of this paper is the derivation of an effective model for biofilm growth in a porous mediu...
As biofilms intervene in a porous medium, they affect the porosity and permeability, which in turn a...
In this paper, we derive upscaled equations for modeling biofilm growth in porous media. The resulti...
AbstractBiofilms are very important in controlling pollution in aquifers. The bacteria may either co...
Biofilm growth in porous media: derivation of a macroscopic model from the physics at the pore scale...
In this paper, we derive a pore-scale model for permeable biofilm formation in a two-dimensional por...
International audienceIn this paper, we present a two-dimensional pore-scale numerical model to inve...
Understanding microbial biofilm growth is important to public health because biofilms are a leading ...
In my research I studied differential equations, which are ubiquitous in science and engineering. Th...
Biofilm growth in subsurface porous media, and its treatment with biocides (antimicrobial agents), i...
This thesis relates to the mathematical modelling of biofilm in two primary areas: biofilm growth, a...
<div><p>A two-dimensional pore-scale numerical model was developed to evaluate the dynamics of prefe...
A computer-aided simulator has been developed for the prediction of the pattern of evolution and th...
This dissertation addresses the applications and challenges of both laboratory experiments and mathe...