Influence of Vibration on the Consumption of Oxygen and Sulfur Dioxide in Wine Bottles Considering Bottle Position and Headspace Volume

IF 2.2 3区 农林科学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Hannah M Renner, E. Richling, Dominik Durner
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引用次数: 2

Abstract

This study investigates the influence of vibration, bottle position, and initial headspace volume on the oxygen (O2) distribution inside a wine bottle. For this purpose, 0.75-L wine bottles were filled with a model wine and stored either horizontally or vertically under different vibration intensities (no vibration, 500 mm/sec2, and 1000 mm/sec2) at a constant frequency of 50 Hz. The bottles were sealed with screwcap or cork closure, with two headspace volumes for each type of closure. Our results indicated that vibration and horizontal bottle position promoted the dissolution of O2 from the headspace of the bottle into the wine, causing accelerated sulfur dioxide (SO2) degradation. The effect of vibration was larger in the horizontally stored bottles, indicating that a larger wine surface area promotes O2 uptake into the wine. In the absence of headspace O2, vibration and bottle position showed no influence on SO2-related O2 degradation. Furthermore, the dissolution of O2 was faster in bottles with cork closure than in those with screwcap closure due to overpressure caused by the corking process. We concluded that vibration and horizontal bottle position have major effects on the dissolution of O2 from the headspace of the bottle into the wine, but not on the chemical reaction of the dissolved O2 with SO2. The larger surface area of wine contacting the headspace in the horizontally stored bottles and the overpressure created by the corking process accelerate O2 uptake from the bottles’ headspace into the wine.
考虑瓶位和顶空容积的振动对葡萄酒瓶耗氧量和二氧化硫的影响
本文研究了振动、酒瓶位置和初始顶空体积对酒瓶内氧气分布的影响。为此,在0.75 l的酒瓶中装满模型酒,在50 Hz的恒定频率下,在不同的振动强度(无振动、500 mm/sec2和1000 mm/sec2)下水平或垂直储存。这些瓶子用螺旋盖或软木塞密封,每种类型的密封都有两个顶空体积。我们的研究结果表明,振动和瓶的水平位置促进了O2从瓶顶空间溶解到葡萄酒中,导致二氧化硫(SO2)的加速降解。振动的影响在水平存放的酒瓶中更大,这表明更大的酒表面积促进了氧气的吸收。在没有顶空O2的情况下,振动和瓶的位置对so2相关的O2降解没有影响。此外,由于软木塞过程产生的超压,在软木塞瓶口中O2的溶解速度比螺旋盖瓶口更快。我们得出结论,振动和瓶的水平位置对O2从瓶顶空间溶解到葡萄酒中有主要影响,但对溶解的O2与SO2的化学反应没有影响。水平存放的酒瓶接触顶空的面积更大,加上软木塞过程产生的超压,加速了氧气从酒瓶顶空吸收到葡萄酒中。
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来源期刊
American Journal of Enology and Viticulture
American Journal of Enology and Viticulture 农林科学-生物工程与应用微生物
CiteScore
3.80
自引率
10.50%
发文量
27
审稿时长
12-24 weeks
期刊介绍: The American Journal of Enology and Viticulture (AJEV), published quarterly, is an official journal of the American Society for Enology and Viticulture (ASEV) and is the premier journal in the English language dedicated to scientific research on winemaking and grapegrowing. AJEV publishes full-length research papers, literature reviews, research notes, and technical briefs on various aspects of enology and viticulture, including wine chemistry, sensory science, process engineering, wine quality assessments, microbiology, methods development, plant pathogenesis, diseases and pests of grape, rootstock and clonal evaluation, effect of field practices, and grape genetics and breeding. All papers are peer reviewed, and authorship of papers is not limited to members of ASEV. The science editor, along with the viticulture, enology, and associate editors, are drawn from academic and research institutions worldwide and guide the content of the Journal.
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