Thesis (MTech (Chemical Engineering))--Peninsula Technikon, 2001 / Certain fungi have been shown to excrete extracellular enzymes, including peroxidases,
laccases, etc. These enzymes are useful for bioremediation of aromatic pollutants
present in industrial effluents (Leukes, 1999; Navotny et aI, 1999).
Leukes (1999) made recent significant development in the form of a capillary membrane
gradostat (fungal) bioreactor that offers optimal conditions for the production of these
enzymes in high concentrations. This system also offers the possibility for the polluted
effluent to be treated directly in the bioreactor. Some operating problems relating to
continuous production of the enzymes and scale-up of the capillary modules, were,
however, indentified.
In an attempt to solve the above-mentioned identified problems the research group at
Peninsula Technikon considered a number of alternative bioreactor configurations. A
pulsed packed bed bioreactor concept suggested by Moreira et at. (1997) was selected for
further study. Their reactor used polyurethane pellets as the support medium for the
fungal biofilm and relied upon pulsing of the oxygen supply and recycle of nutrient
solution in order to control biomass accumulation. These authors reported accumulation
due to the recycle of proteases that were believed to destroy the desired ligninases. We
experimented with a similar concept without recycle to avoid backrnixing and thereby
overcome protease accumulation. In our work, a maximum enzyme productivity of 456
Units.L1day·1 was attained. Since this was significantly greater than the maximum
reported by Moreira et aI, 1997 (202 Units.L-1day-I) it appeared that the elimination of
recycle had significant benefits.
In addition to eliminating recycle we also used a length / diameter (L / D) ratio of 14: 1
(compared with 2.5: 1 used by Moreira et aI, 1997) in order to further reduce backrnixing.
Residence time distributions were investigated to gain insight into mechanisms of
dispersion in the reactor.
It was found that the pulsed packed bed concept presented problems with regard to
blockage by excess biomass. This led us to consider the advantages of a fluidized bed
using resin beads. Accordingly, growth of fungi on resin beads in shake flasks was
investigated with favorable results. An experimental program is proposed to further
investigate the fluidized bed concept with a view to extending the operation time of the
bioreactor.
From our literature survey to date, packed bed fungal bioreactors are still the best reactor
configuration for continuous production ofligninolytic enzymes.
An interesting study of the application of laccases to the degradation of naphthalene and
MTBE is described in an addendum to this thesis.
Identifer | oai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:cput/oai:localhost:20.500.11838/910 |
Date | January 2001 |
Creators | Fillis, Vernon William |
Publisher | Peninsula Technikon |
Source Sets | South African National ETD Portal |
Language | English |
Detected Language | English |
Type | Thesis |
Rights | http://creativecommons.org/licenses/by-nc-sa/3.0/za/ |
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