Add to ORKGWe present a matched asymptotic analysis of the fluid flow and solute transport in a small aspect ratio hollow fibre membrane bioreactor. A two-dimensional domain is assumed for simplicity, enabling greater understanding of the typical behaviours of the system in a setup which is analytically tractable. The model permits analysis related to Taylor dispersion problems, and allows us to predict the dependence of the mean solute uptake and solute exposure time on key parameters such as the inlet fluid fluxes, porous membrane porosity and cell layer porosity and width, which could be controlled or measured experimentally
Thesis submitted in fulfilment of the requirements for the degree Doctor technologiae (engineering:...
International audienceThe hollow fiber membrane bioreactor (HFMB) has been investigated for the cult...
The porous medium approach has been used to study hydrodynamics in hollow-fiber (HF) membrane biorea...
We present a matched asymptotic analysis of the fluid flow and solute transport in a small aspect ra...
Predicting the distribution of solutes or particles in flows within porous-walled tubes is essential...
A 2D model is developed for fluid flow, mass transport and cell distribution in a hollow fibre membr...
Predicting the distribution of solutes or particles in flows within porous-walled tubes is essential...
Tissue engineering has great potential as a method for replacing or repairing lost or damaged tissue...
Hollow fibre membrane bioreactors (HFMBs) have been shown to overcome the diffusion limitation of nu...
Hollow fibre membrane bioreactors (HFMBs) have been shown to overcome the diffusion limitation of nu...
Hollow fibre membrane bioreactors (HFMBs) have been shown to overcome the diffusion limitation of nu...
We present a simplified two-dimensional model of fluid flow, solute transport, and cell distribution...
A mathematical model (the Porous Medium Model, PMM) was developed to predict the fluid flow and sol...
The current paper presents a theoretical analysis of the transport of solutes through a fixed-film m...
Generating autologous tissue grafts of a clinically useful volume requires efficient and controlled ...
Thesis submitted in fulfilment of the requirements for the degree Doctor technologiae (engineering:...
International audienceThe hollow fiber membrane bioreactor (HFMB) has been investigated for the cult...
The porous medium approach has been used to study hydrodynamics in hollow-fiber (HF) membrane biorea...
We present a matched asymptotic analysis of the fluid flow and solute transport in a small aspect ra...
Predicting the distribution of solutes or particles in flows within porous-walled tubes is essential...
A 2D model is developed for fluid flow, mass transport and cell distribution in a hollow fibre membr...
Predicting the distribution of solutes or particles in flows within porous-walled tubes is essential...
Tissue engineering has great potential as a method for replacing or repairing lost or damaged tissue...
Hollow fibre membrane bioreactors (HFMBs) have been shown to overcome the diffusion limitation of nu...
Hollow fibre membrane bioreactors (HFMBs) have been shown to overcome the diffusion limitation of nu...
Hollow fibre membrane bioreactors (HFMBs) have been shown to overcome the diffusion limitation of nu...
We present a simplified two-dimensional model of fluid flow, solute transport, and cell distribution...
A mathematical model (the Porous Medium Model, PMM) was developed to predict the fluid flow and sol...
The current paper presents a theoretical analysis of the transport of solutes through a fixed-film m...
Generating autologous tissue grafts of a clinically useful volume requires efficient and controlled ...
Thesis submitted in fulfilment of the requirements for the degree Doctor technologiae (engineering:...
International audienceThe hollow fiber membrane bioreactor (HFMB) has been investigated for the cult...
The porous medium approach has been used to study hydrodynamics in hollow-fiber (HF) membrane biorea...