Food Biochemistry and Food Processing (2 edition)

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BLBS102-c40 BLBS102-Simpson March 21, 2012 14:23 Trim: 276mm X 219mm Printer Name: Yet to Come


40 Separation Technology in Food Processing 767

separation process affected by a fluid involving the transfer of
solutes from a solid matrix to a solvent. It is an operation ex-
tensively used to recover many important high-value food com-
ponents such as oil from oilseeds, protein from soybean meal,
phytochemicals from plants, etc. Solid–liquid extraction is also
used to remove undesirable contaminants or toxins from food
materials.

Liquid–Liquid Extraction, e.g., Two-Phase
Aqueous Extraction

Liquid–liquid extraction separates a dissolved component from
its solvent by transfer to a second solvent, mutually nonmisci-
ble with the carrier solvent. The liquid–liquid extraction as a
technology has been used in the antibiotics industry for several
decades and now is recognized as a potentially usefully separa-
tion step in protein recovery on a commercial production.

Supercritical Fluid Extraction

Supercritical CO 2 fluid extraction is mostly for high value-added
products that are sensitive to heat, light, and oxygen. The extrac-
tion process is implemented in a supercritical region where the
extraction fluid (e.g., CO 2 ) has liquid-like densities and solvating
strengths but retains the penetrating properties of a gas.

Distillation

Distillation is a physical separation process used to separate the
components of a solution (mixture) that contains more compo-
nents in the liquid mixture, by the distribution of gas and liquid
in each phase. The principle of separation is based on the dif-
ferences in composition between a liquid mixture and the vapor
formed from it, because each substance in the mixture has its
own unique boiling point.

Chromatographic Methods

Chromatography is a separation technique based on the uneven
distribution of analytes between a stationary (usually a solid) and
a mobile phase (either a liquid or a gas). Chromatography can be
conducted in two or three dimensions. Two-dimensional chro-
matography, for example paper chromatography, is almost solely
used for analytical purposes. Column chromatography separa-
tion is the most common form of chromatography used in the
food processing field for further purification of high value-added
components. Many variations exist on the basic chromatography
methods. Some well-established methods are listed below.

Liquid–Solid Absorption Chromatography
(e.g., Hydroxyapatite)

In absorption, molecules in a fluid phase concentrate on a solid
surface without any chemical change. Physical surface forces
from the solid phase attract and hold certain molecules (sub-
strate) from the fluid surrounding the surface.

Affinity Chromatography

Affinity chromatography exploits the natural, biospecific inter-
actions that occur between biological molecules. These inter-
actions are very specific and because of this affinity separation
process are very high resolution methods for the purification of
food products such as proteins. Affinity chromatography has a
gel surface that is covered with molecules (ligand) binding a
particular molecule or a family of molecules in the sample.

Size-Exclusion Chromatography

Size-exclusion chromatography, also known as gel permeation
chromatography when organic solvents are used, is used to
control the pore size of the stationary phase so as to separate
molecules according to their hydrodynamic volume and molec-
ular size.

Ion-Exchange Chromatography

Ion-exchange chromatography and a related technique called
ion-exclusion chromatography are based on differences in the
electric charge density of their molecules during charge–charge
interaction of molecules. It is a variation of absorption chro-
matography in which the solid adsorbent has charged groups
chemically linked to an inert support. Ion-exchange chromatog-
raphy is usually used for recovery and purification of amino
acids, antibiotics, proteins, and living cells.

Hydrophobic Interaction Chromatography

Hydrophobic interaction chromatography is based on a mild ad-
sorption process, and separates solutes by exploiting differences
in their hydrophobicity.

Reverse Phase Chromatography

Reverse phase chromatography is based on the similar principles
of hydrophobic interaction chromatography. The difference is
that the solid support is highly hydrophobic in reverse phase
chromatography, which allows the mobile phase to be aqueous.

ENGINEERING ASPECTS OF
SEPARATION PROCESSES

Much of the recent process development for the separation of
valuable components from natural materials has been directed
toward high value-added products. For the recovery of valuable
components from raw materials, applications of separation tech-
nologies to recover major or minor components from agricul-
tural commodities is usually a solid–liquid contacting operation.
As research moves into commercial production, there is a great
need to develop scalable and cost-effective methods of separa-
tion technologies. The successful and effective development of
separation technologies is a critical issue in the chain of value-
added processing of agricultural materials such as developments
in functional food ingredients, nutrients, and nutraceuticals.
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