Product category:
Food Processing News
News Release from: Hielscher USA | Subject: Ultrasound
Edited by the Processingtalk Editorial
Team on 01 February 2005
Non-thermal food processing and
preservation
Gentle, targeted non-thermal food processing and preservation gain importance: ultrasound is the simplest and most versatile method for the disruption of cells and for the production of food extracts
Gentle targeted non-thermal food processing and preservation gain importance: ultrasound is probably the most simple and most versatile method for the disruption of cells and for the production of food extracts Hielscher ultrasound is efficient, safe and reliable
This article was originally published on Processingtalk on 29 Sep 2004 at 8.00am (UK)
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Today, thermal treatment is the most common processing method for food extraction or microbial inactivation that leads to longer shelf-life (preservation).
Because of the exposure to high temperature this method has often disadvantages for many food products.
Thermal treatment can cause undesirable alterations of sensory attributes, i.e texture, flavor, colour, smell, and nutritional qualities, i.e vitamins and proteins.
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Ultrasound is an efficient non-thermal alternative.
Ultrasonic cavitation creates shear forces that break cell walls mechanically and improve material transfer.
This effect is being used in the extraction of liquid compounds from solid cells (solid-liquid extraction).
In this case, the compound to be dissolved into a solvent is enclosed in an insoluble structure.
In order to extract it, the cell membrane must be destroyed.
For this, ultrasound is faster and more complete than maceration or stirring.
The particle size reduction by the ultrasonic cavitation increases the surface area in contact between the solid and the liquid phase, significantly.
The mechanical activity of the ultrasound enhances the diffusion of the solvent into the tissue.
As ultrasound breaks the cell wall mechanically by the cavitation shear forces, it facilitates the transfer from the cell into the solvent.
* ultrasonic extraction of phenolic compounds from vacuolar structures by disrupting plant tissue.
* ultrasonic extraction of Betacyanin (red pigments, e.g from beets) and Betaxanthin (yellow pigments).
* ultrasonic extraction of lipids and proteins from plant seeds, such as soybean.
* cell membrane permeabilisation of fruits, such as grapes, plums, mango.
* ultrasonic processing for the following.
** fruit juices, e.g orange, grapefruit, mango, grape, plum.
** purees.
** sauces, eg tomato, asparagus, bell pepper, mushroom.
** dairy products.
* improve stability of dispersions, such as orange juice, i.e reduce settling.
Unlike other non-thermal processes, such as high hydrostatic pressure (HP), compressed carbon dioxide (cCO2) and supercritical carbon dioxide (ScCO2) and high electric field pulses (HELP), Hielscher ultrasound can be easily tested in lab or bench-top scale - generating reproducible results for scale-up.
The intensity and the cavitation characteristics can be easily adapted to the specific extraction process to target specific objectives.
Amplitude and pressure can be varied in a wide range, e.g to identify the most energy efficient extraction setup.
Microbial and enzyme inactivation (preservation) is another application of ultrasound in the food processing.
In this case ultrasonication is often more effective when combined with other anti-microbial methods, such as: a] thermo-sonication, heat and ultrasound.
b] mano-sonication, pressure and ultrasound.
c] mano-thermo-sonication, pressure, heat and ultrasound.
Eg for Bacillus subtilis, Bacillus coagulans, Bacillus cereus, Bacillus sterothermophilus, Saccharomyces cerevisiae, Aeromonas hydrophila.
Ultrasound is also used in the emulsification, dispersing and homogenising as well as to improve chemical reactions and surface chemistry (sonochemistry) or to influence crystallisation processes. Request a free brochure from Hielscher USA ...
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