BLBS102-c40 BLBS102-Simpson March 21, 2012 14:23 Trim: 276mm X 219mm Printer Name: Yet to Come
40 Separation Technology in Food Processing 771
CO 2 pump
Heatexchanger
CO 2 source
Cooling
bath
Heat exchanger
Extractor column
Separator
Back pressure valve
Pressure valve Extracts outlet
CO 2 outlet
Figure 40.2.Schematic diagram of a typical single-stage supercritical fluid extraction system with CO 2.
circulates the supercritical medium throughout the system.
Figure 40.2 shows an example of a typical single-stage su-
percritical CO 2 fluid extraction system. Once the supercritical
CO 2 and the feed reach equilibrium in the extraction vessel,
through the manipulation of pressure and temperature to achieve
the ideal operating conditions, the extraction process proceeds.
The mobile phase consisting of the supercritical CO 2 fluid
and the solubilized components is transferred to the separator
where the solvating power of the fluid is reduced by raising the
temperature and/or decreasing the pressure of the system. The
extract precipitates in the separator while the supercritical CO 2
fluid is either released to the atmosphere or recycled back to the
extractor. In the case where highly volatile components are being
extracted, a multistage configuration may have to be employed
as shown in Figure 40.3 (Shi et al. 2007a, 2007b, Kasamma et al.
2008).
The processes described above are semi-batch continuous
processes where the supercritical CO 2 flows in a continuous
mode while the extractable solid feed is charged into the extrac-
tion vessel in batches. In commercial-scale processing plants,
multiple extraction vessels are sequentially used to enhance
process performance and output. Although the system is in-
terrupted at the end of the extraction period, when the process is
switched to another vessel prepared for extraction, the unload-
ing and/or loading of the spent vessels can be carried out while
extraction is in progress, reducing the downtime and improving
the production efficiency.
A semi-continuous approach on a commercial scale uses a
multiple stage extraction processes that involve running the sys-
tem concurrently by harnessing a series of extraction vessels
in tandem, as shown in Figure 40.4. In this system, the pro-
cess is not interrupted at the end of extraction period for each
Dry test
meter
Extracts
Co-solvent inlet
Extractor column
CO 2 pump
3-stage separator columns
Pressure
regulator
Mixer
CO-solvent pump
Ice water trap
CO
(^2) inlet
Figure 40.3.Schematic diagram of supercritical fluid extraction system used to fractionate bioactive components from plant matrix using
supercritical carbon dioxide.