Role of Mixing Dynamics on Mass Convection-Diffusion in Sparkling Wines: A Laboratory Study

Dynamics (Pembroke, Ont.) Pub Date : 2022-09-27 DOI:10.3390/dynamics2040018

F. Beaumont, F. Bogard, S. Murer, G. Polidori

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引用次数: 1

Abstract

This study is based on the hypothesis that the bubbles-induced vortex flows could enhance the release of carbon dioxide (CO2) from a glass of effervescent wine. To provide tangible evidence, we conducted a series of experiments, the first of which aimed to correlate the filling height and the bubble-induced flow dynamics with the CO2 volume flux released from the vessel during a tasting. The results obtained through micro-weighing and PIV experiments showed a correlation between the filling height, the mixing flow dynamics, and the amount of CO2 released at the air/wine interface by several mechanisms (bubble burst, diffusion). In order to hide the role of bubbles, we proposed a simple experimental device that consisted in stirring the wine (supersaturated in dissolved gas) mechanically, while avoiding the phenomenon of nucleation. This mechanical stirring system allowed for controlling the intensity of convective movements of the liquid phase by varying the rotation frequency of a glass rod. The results of this experiment have provided irrefutable evidence of a close link between the stirring dynamics of a wine supersaturated in dissolved gases and the release of CO2 by a mass convection-diffusion phenomenon.

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混合动力学在气泡酒质量对流扩散中的作用:实验室研究

这项研究基于一个假设，即气泡引起的涡流可以增加一杯起泡酒中二氧化碳的释放。为了提供切实的证据，我们进行了一系列实验，其中第一个旨在将灌装高度和气泡诱导的流动动力学与品尝过程中容器释放的二氧化碳体积通量联系起来。通过微称重和PIV实验的结果表明，充填高度、混合流动动力学和空气/酒界面CO2释放量之间存在多种机制(气泡破裂、扩散)的相关性。为了隐藏气泡的作用，我们提出了一种简单的实验装置，即机械搅拌酒(溶解气体中过饱和)，同时避免成核现象。这种机械搅拌系统允许通过改变玻璃棒的旋转频率来控制液相对流运动的强度。实验结果提供了不可辩驳的证据，证明溶解气体中过饱和葡萄酒的搅拌动力学与通过质量对流扩散现象释放CO2之间存在密切联系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Dynamics (Pembroke, Ont.)

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