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191. Improvement on the oxidative beer flavor stability using active packaging material—Advantages or disadvantages in comparison to SO₂-addition

Victoria Schiwek, Technische Universität Berlin, Department of Biotechnology, Chair of Brewing Sciences, Berlin, Germany

 

ABSTRACT: The beer off-flavor caused by oxidation has been attributed to the formation of specific aging compounds (e.g., aldehydes), through several reaction mechanisms. Although the mechanisms differ in their reactive components, they all involve species formed from molecular oxygen, highlighting the importance of avoiding oxygen entry in the brewing process and the final beer by using suitable packaging material. The aim of this study was to figure out the influence of SO₂ addition as an antioxidant before filling in comparison to the use of different crown liner materials with O₂ scavenger properties and the effect of a combination of both on oxidative flavor stability. Recent studies have illustrated that the application of EPR spectroscopy in combination with the determination of specific aging compounds by GC-MS, such as 3-/2-methyl butanal as an oxygen indicator, SO₂ determination, and sensory analysis are useful tools to demonstrate the influencing factors on consumption of natural antioxidants and oxidative flavor stability over the course of shelf life. The described technique combination is predetermined for the evaluation of SO₂ addition in the brewing process or active packaging materials and their impact on oxidative beer stability. For the investigation it was necessary to use the same beer matrix and the same filling station with different crown caps to get an objective comparison with significant results. A part of the beer was separated in a different tank to add 6 mg of SO₂/L before filling at the same filling station. As expected, the beer with SO₂ addition and oxygen scavenger in the crown cap exhibited higher flavor stability (as measured by all measurement techniques) during storage in comparison to the non-scavenger controls or without SO₂ addition. But, the influence on oxidative beer stability of each O₂ scavenger material was very different. A remarkable and, for the reaction mechanism, important point is the comparable increase in oxidative stability with SO₂ addition or O₂ scavenger. It also leads to a different positive effect on the formation of specific aging compounds during storage. In summary, the highest oxidative stability was observed with the best crown liner and SO₂ addition. On the other hand the best O₂ scavenger was able to compensate for more than 6 mg of SO₂ addition per liter during storage so the beer had a higher oxidative stability after 4 months of storage, suggesting it acts directly after filling and during storage. The worst but cheapest O₂ scavenger showed an effect only after longer storage through the inhibition of oxygen diffusion through the crown cap. All together this research work offers brewers useful knowledge about the best procedure for increasing oxidative beer stability through SO₂ addition and/or active packaging material.