Arla milk fractionation breakthrough promises ‘infinite innovation possibilities’

By Oliver Morrison

- Last updated on GMT

Image: Getty/Monty Rakusen
Image: Getty/Monty Rakusen

Related tags Milk Dairy Arla

Dairy supplier Arla claims ‘revolutionary’ new technology to separate milk into its different protein components opens the door to ‘infinite innovation possibilities’.

Milk protein fractionation using synthetic membranes is seen as an attractive option for the dairy industry for both environmental and economic reasons. It has long been believed that the separation of milk into well-defined fractions will lead to more optimal use of milk components (such as milk fat, casein and serum proteins) and their functional properties. But one problem that has traditionally held back the milk fractionation process has been fouling.

Arla now claims to have developed a patented method of milk fractionation, after setting itself the challenge of delivering the scientific breakthrough to enable scientists, nutritionists and health professionals to create next generation dairy products.

This is now made possible, said Arla, through the selection of specific pure milk proteins, for example, casein and serum whey proteins.

The new method opens the door to new opportunities in areas such as infant formula, sports nutrition and medical nutrition, it claimed, adding it wants to cater to other vulnerable groups such as the elderly and people with medical nutrition needs as well.

Arla milk frac

Unique technology creates bigger potential raw material pool

The separation of milk’s different proteins from whey, previously relied on cheese-making as whey is a by-product of this process. Now, by bypassing the cheese-making process, Arla’s new patented milk fractionation technology not only allows for a bigger potential raw material pool it also creates protein streams in a unique and fully controlled process with significantly reduced processing steps and a much more gentle processing of the milk.     

Arla Foods Ingredients CEO Henrik Andersen said: “The method has been several years in development and I’m delighted to see what was once a vision become a commercial reality with the power to completely revolutionize targeted nutrition for vulnerable groups. As science-based innovators, we are driven to invent and reinvent our processes to ensure we have the best possible products available and continue to lead the way in whey.”

The milk fractionation process is being pioneered for infant formula at AFI’s dairy in Videbaek, Denmark to fulfil a growing demand for organic infant formula, a market estimated to increase by 14.1% in the next two years according to Marketreportsworld.com.

“Traditional cheese making demands significant quantities of organic milk to produce the volumes of whey we require to meet demand and now we’re not reliant on this we can significantly increase production and, at the same time, offer parents and guardians greater clarity of the provenance of the organic infant milk formula because just a few Arla farms supply the milk to our factory in Videbaek,”​ explained Andersen.

Arla Foods Ingredients is currently using the new technology manufacturing the organic Baby&Me brand for Arla Foods and AFI expects to launch its first organic private label infant formula solutions based on the technology during 2022.

Related products

show more

Mastering taste challenges in good-for-you products

Mastering taste challenges in good-for-you products

Content provided by Symrise | 11-Sep-2023 | White Paper

When food and beverage manufacturers reduce sugar, salt, or fat and add fibers, minerals or vitamins, good-for-you products can suffer from undesirable...

Download Südzucker’s Consumer Trend Study 2023

Download Südzucker’s Consumer Trend Study 2023

Content provided by Südzucker AG | 14-Aug-2023 | White Paper

For the third time, Südzucker has conducted a research study on consumer needs and purchase drivers in processed foods and drinks, which will be another...

Related suppliers

Follow us

Products

View more

Webinars