The Application of Non-Thermal Technologies for Wine Processing, Preservation, and Quality Enhancement

IF 3 Q2 FOOD SCIENCE & TECHNOLOGY
Beverages Pub Date : 2023-04-03 DOI:10.3390/beverages9020030
Yogesh Kumar, M. Marangon, Christine Mayr Marangon
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引用次数: 0

Abstract

Recently, non-thermal wine processing technologies have been proposed as alternatives to conventional winemaking processes, mostly with the aims to improve wine quality, safety, and shelf-life. Winemakers typically rely on sulfites (SO2) to prevent wine oxidation and microbial spoilage, as these processes can negatively affect wine quality and aging potential. However, SO2 can trigger allergic reactions, asthma, and headaches in sensitive consumers, so limitations on their use are needed. In red winemaking, prolonged maceration on skins is required to extract enough phenolic compounds from the wine, which is time-consuming. Consequently, the wine industry is looking for new ways to lower SO2 levels, shorten maceration times, and extend shelf life while retaining wine quality. This review aggregates the information about the novel processing techniques proposed for winemaking, such as high-pressure processing, pulsed electric field, ultrasound, microwave, and irradiation. In general, non-thermal processing techniques have been shown to lead to improvements in wine color characteristics (phenolic and anthocyanin content), wine stability, and wine sensory properties while reducing the need for SO2 additions, shortening the maceration time, and lowering the microbial load, thereby improving the overall quality, safety, and shelf life of the wines.
非热技术在葡萄酒加工、保鲜和品质提升中的应用
最近,非热葡萄酒加工技术被提出作为传统酿酒工艺的替代品,主要目的是提高葡萄酒的质量、安全性和保质期。酿酒师通常依靠亚硫酸盐(SO2)来防止葡萄酒氧化和微生物变质,因为这些过程会对葡萄酒质量和陈化潜力产生负面影响。然而,二氧化硫会在敏感消费者中引发过敏反应、哮喘和头痛,因此需要限制其使用。在红葡萄酒酿造中,需要长时间浸泡葡萄皮才能从葡萄酒中提取足够的酚类化合物,这很耗时。因此,葡萄酒行业正在寻找新的方法来降低SO2水平,缩短浸渍时间,延长保质期,同时保持葡萄酒质量。这篇综述综述了有关酿酒新工艺的信息,如高压加工、脉冲电场、超声波、微波和辐照。一般来说,非热处理技术已被证明可以改善葡萄酒的颜色特性(酚类和花青素含量)、葡萄酒稳定性和葡萄酒感官特性,同时减少添加SO2的需要,缩短浸渍时间,降低微生物负荷,从而提高葡萄酒的整体质量、安全性和保质期。
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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来源期刊
Beverages
Beverages FOOD SCIENCE & TECHNOLOGY-
CiteScore
6.10
自引率
8.60%
发文量
68
审稿时长
11 weeks
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