Abstract
This research has been concerned with the continuous productionof alcohol in tower fermenters and the development of equations to
describe such systems. Initially the increasing market for both
potable alcohol and ethanol as a fuel have been discussed. Detailed
attention was also paid to the design of inlet/outlet ports for reactants/ products to ensure efficient operation of a pilot-scale tower fermenter.
A number of batch fermentations, with flocculent yeasts later
employed in the continuous fermenter, have been described. The kinetic data from these experiments were used to develop a mathematical model
of the batch alcohol fermentation. The variables in the model are
easily measured and although the model is empirical in nature it was
found to be able to account for wide variations in results from fermentations.
During continuous fermentations it was found that the tower consisted
of three distinct reaction zones;
(a) the base of the fermenter where a packed bed of yeast
(20% of the tower height) existed.
(b) the top zone of the fermenter (60% of the tower height) which
could be considered as a continuous well mixed stirred reactor.
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(c) a transition zone between the latter two zones.
Sugar utilisation, nitrogen utilisation, and alcohol production rates were among the variables investigated during experimental work and some suggestions have been made for the stable operation of tower fermenters.
Finally, a mathematical model of the continuous fermenter, which
combined the batch kinetic model with the physical characteristics of
continuous operation, was developed. Results predicted by the model have been compared with those obtained by experiment; the differences have been discussed although not fully explained.
| Date of Award | Mar 1980 |
|---|---|
| Original language | English |
| Awarding Institution |
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Keywords
- continuous production
- alcohol
- tower fermenters