Cold pasteurization for preservation of wine instead sulphite addition
The sulphites that dissolve in wine can cause allergic reactions, including asthma. Within the EU they must therefore be declared as an ingredient on the label and the limits for sulphites in wine have been reduced. The TÜV-approved pilot plant can treat up to 120 litres of wine per hour at a pressure of 250 to 500 bar and at temperatures below 40°C. The results are promising for the treatment of white wine as well as red wine
Sulphites unfold their preservative action in two ways. On the one hand they inactivate microorganisms, such as unwanted yeasts, acetic acid bacteria and lactic acid bacteria, thus protecting wine from spoilage. Secondly, they act as antioxidants and protect delicate flavours against oxidation. Both effects ensure that wine is preserved and can be stored for ageing. Conventional alternative physical preservation methods such as filtration are suited for wine only to a limited extent, because they also remove colour and valuable flavours. Other methods operating at high temperatures, such as pasteurization, are unsuited as they destroy heat-sensitive ingredients.
A new method for preservation of liquid foods, working at moderate temperatures and therefore referred to as "cold pasteurization," is the so-called pressure change technology, which has been developed and patented by the Dresden company Edecto for fruit juice within the framework of a nationally funded project. "The physical process has effects similar to those of sulphurization of the wine: growth of microorganisms is prevented because the cells are mechanically disrupted. In addition, the protective atmosphere of an inert gas decreases oxidation reactions, so drinks are stabilized," explains Edith Klingner, a physicist at Edecto, who coordinates the EU-funded project "PreserveWine-DEMO."
In the initial PreserveWine project, international partners including Edecto investigated whether the new method can also be applied to wine. At the Fraunhofer IGB a batch plant was modified and on the basis of initial results a continuous plant was developed and built. The TÜV-approved pilot plant can treat up to 120 litres of wine per hour at a pressure of 250 to 500 bar and at temperatures below 40°C. The results are promising for the treatment of white wine as well as red wine. "Unwanted oxidizing enzymes are inactivated, while neither temperature-sensitive ingredients nor colour and taste are altered by the treatment," confirms Dr. Ana Lucía Vásquez-Caicedo, food technologist and group manager at the Fraunhofer IGB.
In the pressure change technology a chemically inert gas, such as nitrogen or argon, is dissolved at high pressure in the liquid to be preserved. When the liquid is exposed to a high pressure of up to 500 bar, the solubility of the gas increases in the liquid. As a result, the dissolved gas also diffuses into the microbial cells. When the pressure is finally abruptly decreased, the gas expands -- even within the cells -- and causes these to burst. The previously dissolved gas then goes back into the gas phase and is recovered for reuse.
"In studies at the Fraunhofer IGB and our partner institute ADERA we have shown that the colour of the wine is maintained over time during storage in barrels or bottles. In wine tastings, we found that the taste is not affected," says Vásquez-Caicedo. The new preservation method can be used in different stages of wine production: after vinification (wine pressing) of white wine, after the alcoholic fermentation, after the malolactic fermentation employed mainly in red wine for acid degradation as well as when racking and filling.
In the follow-up project "PreserveWine-DEMO" the process will be transferred as a winery process to industrial scale. To this end, the researchers want to build a mobile plant that can be tested on site in various wineries. In parallel, the consortium aims to ensure product quality and process feasibility and wants to examine consumer acceptance of the new technology.