Advanced technologies for cherry processing and packaging

Q3 Agricultural and Biological Sciences
M. Dalla Rosa
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引用次数: 1

Abstract

The evolution of food technologies through the use of the so-called emerging technologies lays the basis for obtaining products with at least partial stabilization level against microbial alterations with minimal modifications of the intrinsic sensory and nutritional qualities of the finished products. High hydrostatic pressures, pulsed electric fields, cold plasma and osmodehydration can be used for the processing of sweet and sour cherries, with obtaining products of good quality and medium-long shelf-life avoiding highly impacting thermal treatments. High hydrostatic pressure can be used to obtain a partial stabilization of pitted cherries to prolong their shelf-life up to 15 days in refrigerated conditions without any severe thermal treatments. High pressure homogenization could be instead useful to multiple purposes like partial microbial stabilization, viscosity changes and bioactive compounds incapsulation of cherry juices. Water removal without state exchanges can be performed using the direct osmosis dewatering technology. Up to the 70 % of the initial water had been showed to be removed with the immersion of sweet cherries to a Dalla Rosa 58 hypertonic solution taking advantages of the difference of osmotic pressure between the fruits and the solution, even with any increase of temperature and very low energy demand. Since this technology is time consuming, pre-treatments like application of Ultrasounds or Pulsed Electric Fields (PEF) have been successfully applied in fruit osmotic dewatering. Furthermore, combining the osmotic dehydration and vacuum pulses it has been possible to introduce interesting enriching components like bioactive substances, probiotics and vitamins to reinforce the healthy contents of cherries. Eventually, surface treatments could be adopted to optimize the cherry skin permeability. Among the new technologies potentially able to help the sanitation and thus the extension of the cherry shel-life, cold plasma could be applied to decontaminate the fruit surface also in this case without any temperature increase. The packaging of the fresh and finished products through the use of modified atmosphere pakaging (MAP), combined with the choice of the most suitable flexible films can be a further key to improve the shelf life of the products.
先进的樱桃加工和包装技术
通过使用所谓的新兴技术,食品技术的发展为获得至少具有部分稳定水平的产品奠定了基础,以防止微生物的改变,同时对成品的内在感官和营养品质进行最小的修改。采用高静水压力、脉冲电场、冷等离子体和渗透脱水等方法加工酸甜樱桃,可避免高冲击热处理,获得优质中长保质期的产品。高静水压力可用于获得去核樱桃的部分稳定,以延长其在冷藏条件下的保质期,最长可达15天,无需任何严格的热处理。高压均质可以用于多种目的,如部分微生物稳定,粘度变化和樱桃汁的生物活性化合物的胶囊化。采用直接渗透脱水技术可实现无状态交换的脱水。研究表明,将甜樱桃浸泡在达拉罗萨58高渗溶液中,即使温度升高,能量需求很低,也能利用水果和溶液之间的渗透压差异,去除高达70%的初始水分。由于该技术耗时长,超声波或脉冲电场(PEF)等预处理技术已成功应用于水果渗透脱水。此外,将渗透脱水和真空脉冲相结合,可以引入有趣的丰富成分,如生物活性物质、益生菌和维生素,以增强樱桃的健康成分。最终,可以通过表面处理来优化樱桃皮的透气性。在可能有助于卫生和延长樱桃外壳寿命的新技术中,冷等离子体可以在不增加温度的情况下对水果表面进行净化。通过使用改性气相包装(MAP)对新鲜产品和成品进行包装,结合选择最合适的柔性薄膜,可以进一步提高产品的保质期。
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
Italus Hortus
Italus Hortus Agricultural and Biological Sciences-Food Science
CiteScore
1.70
自引率
0.00%
发文量
18
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