Finite element model for nutrient distribution analysis of a hollow fiber membrane bioreactor

h this work, the effect of neglecting fiber lumen radial concentrations gradients in the onedimensional mathematical model of isothermal anaerobic acetate biodegradation in hollow-fiber bioreactor has been analyzed. The results show a significant increase of the error resulting from neglection of ra

A hollow-fiber membrane bioreactor was used to separate trichloroethylene (TCE) from a gaseous waste stream with subsequent cometabolic biodegradation by a pure culture of Methylosinus trichosporium OB3b PP358. The two-stage bioreactor system was successfully operated for 20 days. PP358 was grown in

## Abstract Extravascular bioartificial pancreas based on hollow fiber seems to be a promising treatment of diabetes mellitus. However, solutes mass‐transport limitations in such a device could explain its lack of success. To determine critical device parameters, we have developed a novel tridimens

To explore the mechanical non-linear behaviour of anisotropic arterial walls on a computational basis, the formulation of a continuum based elastic potential is a major task and challenge to the analyst. The present communication is concerned with the constitutive modelling and numerical analysis of

In the present paper, a "nite-element model for simulating muscle mechanics is described. Based on nonlinear continuum mechanics an algorithm is proposed that includes the contractile active and passive properties of skeletal muscle. Stress in the muscle is assumed to result from the superposition o

## Abstract A thermal model based on explicit time integration is developed and implemented into the explicit finite element code DYNA3D to model simultaneous forming and quenching of thin‐walled structures. A staggered approach is used for coupling the thermal and mechanical analysis, wherein each