In this work we consider the spatial homogenization of a coupled transport and fluid-structure interaction model, to the end of deriving a system of effective equations describing the flow, elastic deformation, and transport in an active poroelastic medium. The `active' nature of the material results from a morphoelastic response to a chemical stimulant, in which the growth timescale is strongly separated from other elastic timescales. The resulting effective model is broadly relevant to the study of biological tissue growth, geophysical flows (e.g. swelling in coals and clays) and a wide range of industrial applications (e.g. absorbant hygiene products). The key contribution of this work is the derivation of a system of homogenized partial...
In this thesis we consider several approaches to modelling interactions between fluid flow and cell ...
In this thesis we consider several approaches to modelling interactions between fluid flow and cell ...
International audienceWe study the homogenization (or upscaling) of the transport of a multicomponen...
A new mathematical model is developed for the macroscopic behaviour of a porous, linear elastic soli...
A new mathematical model is developed for the macroscopic behaviour of a porous, linear elastic soli...
Multiscale homogenization represents a powerful tool to treat certain fluid-structure interaction pr...
A new mathematical model for the macroscopic behavior of a material composed of a poroelastic solid ...
In this paper, we consider the derivation of macroscopic equations appropriate to describe the growt...
International audienceAdvective-diffusive solute transport in a poroelastic medium is usually modell...
A new mathematical model for the macroscopic behavior of a material composed of a poroelastic solid ...
In this paper, we consider the derivation of macroscopic equations appropriate to describe the growt...
Within this work, we upscale the equations that describe the pore-scale behaviour of nonlinear porou...
In this paper, we consider the derivation of macroscopic equations appropriate to describe the growt...
In this paper we present a framework for computational homogenization of the fluid-solid interaction...
The Theory of Poroelasticity is embraced to model the effective mechanical behaviour of a porous ela...
In this thesis we consider several approaches to modelling interactions between fluid flow and cell ...
In this thesis we consider several approaches to modelling interactions between fluid flow and cell ...
International audienceWe study the homogenization (or upscaling) of the transport of a multicomponen...
A new mathematical model is developed for the macroscopic behaviour of a porous, linear elastic soli...
A new mathematical model is developed for the macroscopic behaviour of a porous, linear elastic soli...
Multiscale homogenization represents a powerful tool to treat certain fluid-structure interaction pr...
A new mathematical model for the macroscopic behavior of a material composed of a poroelastic solid ...
In this paper, we consider the derivation of macroscopic equations appropriate to describe the growt...
International audienceAdvective-diffusive solute transport in a poroelastic medium is usually modell...
A new mathematical model for the macroscopic behavior of a material composed of a poroelastic solid ...
In this paper, we consider the derivation of macroscopic equations appropriate to describe the growt...
Within this work, we upscale the equations that describe the pore-scale behaviour of nonlinear porou...
In this paper, we consider the derivation of macroscopic equations appropriate to describe the growt...
In this paper we present a framework for computational homogenization of the fluid-solid interaction...
The Theory of Poroelasticity is embraced to model the effective mechanical behaviour of a porous ela...
In this thesis we consider several approaches to modelling interactions between fluid flow and cell ...
In this thesis we consider several approaches to modelling interactions between fluid flow and cell ...
International audienceWe study the homogenization (or upscaling) of the transport of a multicomponen...