Mapping gas-phase CO2 2 in the headspace of two champagne glasses through infrared laser absorption spectroscopy: ŒnoXpert glass versus INAO glass

被引:1
作者
Alfonso, Vincent [1 ]
Lecasse, Florian [1 ]
Vallon, Raphael [1 ]
Cilindre, Clara [1 ]
Parvitte, Bertrand [1 ]
Zeninari, Virginie [1 ]
Liger-Belair, Gerard [1 ]
机构
[1] Univ Reims, CNRS, GSMA UMR 7331, F-51097 Reims, France
关键词
champagne; gaseous CO2; tasting glasses; CO2; 2; sensor; TDLAS; SPARKLING WINES; DISSOLVED CO2; PERCEPTION; CHEMISTRY; LOSSES;
D O I
10.20870/oeno-one.2024.58.2.7886
中图分类号
TS2 [食品工业];
学科分类号
0832 ;
摘要
Champagne wines are complex hydroalcoholic mixtures supersaturated with dissolved carbon dioxide (CO2). During tasting, while serving the champagne in a glass and for the few minutes that follow, the headspace of the glass is progressively invaded by many chemical species, including gas-phase CO2 (likely to disrupt the perception of the wine's bouquet beyond a certain threshold). Real-time monitoring of gas-phase CO2 was performed through tunable diode laser absorption spectroscopy along a multipoint network in the headspace of two champagne glasses showing distinct shapes and volume capacities (namely, the standard 21 cL INAO glass and the brand new 45 cL OE noXpert glass, designed by the Union of French Oenologists as a universal glass for the tasting of still and sparkling wines). From the start of the pouring stage and during the several minutes following, a kind of glass type-dependent CO2 footprint was revealed in the headspace of glasses, which was discussed based on the glass geometry and headspace volume. For an identical volume of champagne dispensed in both glasses, the headspace of OE noXpert was found to retain gaseous CO2 more efficiently over time than INAO glass does. Therefore, and extrapolating to aromatic compounds, the chemical space of the OE noXpert glass should be better preserved throughout the tasting than that of the INAO glass. Moreover, during tasting.
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页数:12
相关论文
共 31 条
[1]   Unraveling the release of gaseous CO2 during champagne serving through high-speed infrared imaging [J].
Bourget, M. ;
Liger-Belair, G. ;
Pron, H. ;
Polidori, G. .
JOURNAL OF VISUALIZATION, 2013, 16 (01) :47-52
[2]   INTERACTION BETWEEN CHEMO-RECEPTIVE MODALITIES OF ODOR AND IRRITATION [J].
CAIN, WS ;
MURPHY, CL .
NATURE, 1980, 284 (5753) :255-257
[3]  
CAPUTI A, 1970, AM J ENOL VITICULT, V21, P140
[4]   The Taste of Carbonation [J].
Chandrashekar, Jayaram ;
Yarmolinsky, David ;
von Buchholtz, Lars ;
Oka, Yuki ;
Sly, William ;
Ryba, Nicholas J. P. ;
Zuker, Charles S. .
SCIENCE, 2009, 326 (5951) :443-445
[5]   Simultaneous Monitoring of Gaseous CO2 and Ethanol above Champagne Glasses via Micro-gas Chromatography (μGC) [J].
Cilindre, Clara ;
Conreux, Alexandra ;
Liger-Belair, Gerard .
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, 2011, 59 (13) :7317-7323
[6]   Influence of glass shape on wine aroma [J].
Delwiche, JF ;
Pelchat, ML .
JOURNAL OF SENSORY STUDIES, 2002, 17 (01) :19-28
[7]   Psychophysical and neurobiological evidence that the oral sensation elicited by carbonated water is of chemogenic origin [J].
Dessirier, JM ;
Simons, CT ;
Carstens, MI ;
O'Mahony, M ;
Carstens, E .
CHEMICAL SENSES, 2000, 25 (03) :277-284
[8]  
Di Meglio J.-M., 1998, Les Etats de la Matiere
[9]  
Fick A., 1855, POGGENDORFFS ANN, V114, P59, DOI [10.1002/andp.18551700105, DOI 10.1002/ANDP.18551700105]
[10]   Gustatory, Olfactory and Trigeminal Interactions in a Model Carbonated Beverage [J].
Hewson, L. ;
Hollowood, T. ;
Chandra, S. ;
Hort, J. .
CHEMOSENSORY PERCEPTION, 2009, 2 (02) :94-107