Fractionation technology developed by VTT increases diverse uses of oats
The technology can also be used to produce high-quality oat protein, starch and lipid fractions. The new fractions increase the possibilities to use oats in the food, cosmetics and pharmaceutical industries.
The blood cholesterol lowering effects of beta-glucan, the soluble oat fibre, is well known. Still, the usage of â-glucans in industry is relatively low. One reason for this is the lack of â-glucan-rich fractions that are feasible in food applications.
The dry processing method developed by VTT is based on fractionation of fat-free oats using milling and classification technology. In the first processing stage, the fat is removed form oats using supercritical extraction technology developed by MTT. This technology is previously used to remove pesticides from rice and to extract berry oils from seeds. Milling and classifications of this material results in three types of oat fractions: The main product is a coarse, light-coloured bran, with a beta-glucan content of approximately 40 per cent; defatted starch-protein flour; and small amounts of nearly white, extremely light fraction with a beta-glucan content of over 50 per cent. Traditionally, dry fractionation methods for oats have resulted in oat bran concentrates with only slightly over 20 per cent beta-glucan content.
The developed technology has several benefits. As a dry process, it is economically far more feasible than wet processes. Until now, the wet processes have been the only option for production of fractions with such high beta-glucan content. With the used extraction method oat fats can be efficiently removed, increasing the self-life of the fractions and decreasing the well-known rancidity problems often related to oat products. Due to the gentle processing method, both the beta-glucans and other bioactive compounds in oats remain in their natural state.
Oat fractions produced with the new method are well-suited, for instance, for beverages, dairy applications, baking, snack products and fermented products. The cosmetics and pharmaceutical industries can also utilise them.
VTT has developed special know-how in dry milling and classification technology of plant-based food raw materials for years. The dry milling method is suitable for processing of versatile plant raw materials and plant-based side-streams. The technology offers the opportunity to isolate fractions from plant raw materials that can, for instance, be used to deliver improved taste and additional health benefits into products.
The development of oat fractionation technology has been carried out during years 2004-2007 and has been financed by the Ministry of Forestry and Agriculture. The management group of the research project included several Finnish companies.
Approximately 25 million tonnes of oats is produced annually worldwide.
Half of the production is used as cattle feed and only a quarter for food, seed and other products. Due to the health-promoting effects of soluble beta-glucan fibre in oats, oats have a string position as a raw material for functional foods.
Further information:
VTT
Anu Kaukovirta-Norja
Technology Manager
tel. +358 20 722 7117
anu.kaukovirta-norja@vtt.fi
Further information on VTT:
Senior Vice President
Olli Ernvall
Tel. +358 20 722 6747
olli.ernvall@vtt.fi
VTT Technical Research Centre of Finland is the biggest contract research organization in Northern Europe. VTT provides high-end technology solutions and innovation services. From its wide knowledge base, VTT can combine different technologies, create new innovations and a substantial range of world-class technologies and applied research services, thus improving its clients' competitiveness and competence. Through its international scientific and technology network, VTT can produce information, upgrade technology knowledge and create business intelligence and value added to its stakeholders.
Media Contact
More Information:
http://www.vtt.fi/?lang=enAll latest news from the category: Agricultural and Forestry Science
Newest articles
New anti-cancer agent works without oxygen
Why tumors shrink but don’t disappear. “As tumors grow very quickly, consume a lot of oxygen and their vascular growth can’t necessarily keep pace, they often contain areas that are…
First blueprint of the human spliceosome revealed
Researchers detail the inner workings of the most complex and intricate molecular machine in human biology. Researchers at the Centre for Genomic Regulation (CRG) in Barcelona have created the first…
A paper-aluminum combo for strong, sustainable packaging
Takeout containers get your favorite noodles from the restaurant to your dining table (or couch) without incident, but they are nearly impossible to recycle if they are made from foil-lined…