Beaumont Fabien1*, Cilindre Clara2, Abdi Ellie3, Maman Marjorie4 Polidori Guillaume1
1GRESPI EA 4694, Université de Reims, 51687 Reims Cedex 2, France
2GSMA, UMR CNRS 7331, Université de Reims, 51687 Reims Cedex 2, France
3Montclair State University, Center of Pedagogy. New Jersey, USA
4Jérôme Lohez Scholarship Foundation 124 W 60th Street, NY 10023, USA
Corresponding Author Email: fabien.beaumont@univ-reims.fr
This study is based on the findings that a glass of sparkling wine that releases its dissolved CO2 too quickly will see the effervescence and aromas carried by the bubble disappear prematurely. Thus, a thorough knowledge of the processes related to the release of gaseous CO2 is fundamental for the consumer as well as the oenologist or the glassmaker. In this study, the contribution of the glass shape on the gradual release of dissolved carbon dioxide was assessed during the first ten minutes following the pouring process. Measurements carried out on 4 glasses showed that for the same quantity of wine and under identical tasting conditions, the dissolved CO2 concentration evolved differently from one glass shape to another. The results showed that in the first 10 minutes after the pouring process, INAO glass loses 34% of its initial dissolved CO2 concentration compared to 58% for the flute "effervescent". Ultimately, these results demonstrate the existence of a close link between the glass shape and the amount of dissolved CO2 which is the main parameter in the tasting of sparkling wine. The link between the amount of dissolved gas, the glass shape and the release of aromas from the wine is a huge challenge which will be the subject of future studies.
CO2; Glass Shape; Sparkling Wine; Volatile Organic Compounds (VOCs)