2 research outputs found
Flow Characteristics in a Crowded Transport Model
The aim of this paper is to discuss the appropriate modelling of in- and
outflow boundary conditions for nonlinear drift-diffusion models for the
transport of particles including size exclusion and their effect on the
behaviour of solutions. We use a derivation from a microscopic asymmetric
exclusion process and its extension to particles entering or leaving on the
boundaries. This leads to specific Robin-type boundary conditions for inflow
and outflow, respectively. For the stationary equation we prove the existence
of solutions in a suitable setup. Moreover, we investigate the flow
characteristics for small diffusion, which yields the occurence of a maximal
current phase in addition to well-known one-sided boundary layer effects for
linear drift-diffusion problems. In a one-dimensional setup we provide rigorous
estimates in terms of , which confirm three different phases.
Finally, we derive a numerical approach to solve the problem also in multiple
dimensions. This provides further insight and allows for the investigation of
more complicated geometric setups