A simple dynamic model is presented for fast simulation of the removal of m
ultiple substrates by different bacterial species growing in a biofilm reac
tor. The model is an extension to the well-known half-order reaction concep
t that combines a zero-order kinetic dependency on substrate concentration
with diffusion limitation. The basic idea behind this model implementation
is to decouple the calculations of the two major processes in the biofilm:
substrate diffusion and biochemical conversion. The separate assessment of
substrate diffusion allows to relate the penetration depth of substrates to
a fraction of biomass that is active in conversion. The conversion is then
calculated considering only the active fraction of the biomass. The model
is compared to experimental data from the literature and is found to be abl
e to closely replicate the overall dynamics in a biofilm system. The major
advantage of the proposed model is the simple structure which leads to a re
duction of the computational effort as compared to state-of-the-art mixed-c
ulture biofilm models. (C) 1999 Elsevier Science Ltd. All rights reserved.