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FE 462 BIOCHEMICAL ENGINEERING. DOWNSTREAM PROCESSING. The variables: pH, air-flow rates, surfactants . Using lauric acid, stearyl amine t-octyl amine as surfactants, it was shown that up 90% of the cells were removed in 1 minute and 99% in 10 minutes. PRECIPITATION.
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FE 462 BIOCHEMICAL ENGINEERING DOWNSTREAM PROCESSING
Thevariables: pH, air-flow rates, surfactants. Using lauric acid, stearyl aminet-octyl amine as surfactants, it was shown that up90% of the cells were removed in 1 minute and 99%in 10 minutes.
In some processes such as microbial biomass production, filter aids cannot be used and cell pretreatment byflocculation or heating must be considered
Plate and filter press • most suitable forfermentation broths with a low solids content and lowresistance to filtration. • used as a 'polishing‘device in breweries to filter out residual yeast cellsfollowing initial clarification by centrifugation or rotary vacuum filtration. • It may also be used for collecting high value solids. • Because of high labour costs and the time involved in dismantling, cleaning and reassembly,not be used when removing large quantities of worthless solids from a broth.
increased temperature would lower media density but is of little practical use with fermentationbroths), • the diameter of the cells (could be increased by coagulation/flocculation) and the viscosityof the liquid. • In practice, the cells are usually very small, of low density and are often suspended in viscousmedia.
Micro-organisms: held as discreteunits in three ways. Firstly, their surfaces arenegatively charged and therefore repulse each other. Secondly, hydrophilic cellwalls a shell of bound water is associated with the cell which acts as a thermodynamic barrier to aggregation. Finally, due to the irregular shapes of cell walls steric hindrance will also playapart.
Freezing and thawing • Freezing and thawing of a microbial cell paste willinevitably cause ice crystals to form and their expansionfollowed by thawing will lead to some subsequentdisruption of cells. • It is slow and has not often been used as atechnique on its own( used incombination with other techniques. ) (ie α-Glucosidase from S. Cerevisiae)
Ultrasonication • High frequency vibration (- 20 kHz) at the tip of an ultrasonication probe leads to cavitation, and shock waves thus produced cause cell disruption. • very effective on a small scale, unsuitable for large-scaleoperations. • Power requirements are high, there is alarge heating effect so cooling is needed, the probeshave a short working life and are only effective over ashort range.
CHROMATOGRAPHY • chromatographictechniques are used to isolate and purify relatively lowconcentrations of metabolic products. Dependingon the mechanism by which the solutes may bedifferentially held in a column, the techniques can begrouped as follows: • (a) Adsorption chromatography. • (b) Ion-exchange chromatography. • (c) Gel permeation chromatography. • (d) Affinity chromatography. • (e) Reverse phase chromatography. • (f) High performance liquid chromatography.
Drying • The drying of any product (including biologicalproducts) is often the last stage of a manufacturingprocess • -spray dryer( commonly used , economic) • -drum dryer- • -fluidized bed dryer ( common in pharmaceutical ind) • -freeze dryer( suitable for heat sensitive materials)
