One of the strategies used for impr

One of the strategies used for improving the ethanolic
fermentation is the utilization of immobilized cells that
allow the implementation of continuous processes with
higher yields and productivities (see Table 4), and with
increased cell concentrations (Claassen et al., 1999). Nevertheless,
ethanol concentrations in the effluent tend to be
lower that in other variants of continuous processes (see
Table 3). Microbial cells are immobilized by entrapping
them within porous solid supports like calcium alginate,
carrageenan or polyacrylamide. In addition, they can be
adsorbed on the surface of materials like wood chips,
bricks, synthetic polymers, or other materials with a large
surface area (Gong et al., 1999). Nowadays, most of the
configurations using immobilized cells are far of commercial
operation. Certain support particles have influence
on cell metabolism as it has been shown in the case of
solid-state fermentation, biofilm reactors, and immobilized
cell reactors. Prakasham et al. (1999) claim that the simple
addition of a small fraction of solids facilitates the cell
anchorage in submerged cultures. This kind of adhesion
on materials like river sand, delignified sawdust, chitin
and chitosan, enhances the metabolic activity and is a easier
and more economical method than the cell immobilization.
Hence, the application of these techniques of ‘‘passive
immobilization” to continuous cultures should be experimentally
tested.