Osmosonication for dehydration of fruits and vegetables: Mechanistic understanding, mathematical models and comprehensive applications in processing

IF 15.1 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Abhishek Rana , Atul Dhiman , Satish Kumar , Rajat Suhag , Rajni Saini
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引用次数: 0

Abstract

Background

Over several decades, osmotic dehydration has been used extensively to dehydrate fruits and vegetables. However, it is a time consuming process and leads to poor rehydration ability along with loss of nutrients. To overcome these shortcomings, ultrasound waves are integrated with osmotic dehydration, a process referred to as osmosonication. It is a non-thermal, energy efficient, promising technology with enormous potential to prolong shelf life while maintaining nutritional characteristics.

Scope and approach

Extensive work has been done on osmosonication in the last decade. The objective of this review is to provide a complete paradigm on osmosonication by discussing its working mechanisms and applications for various types of fruits and vegetables. Additionally, its effect on mass transfer kinetics, physicochemical, nutritional and structural properties of individual fruits and vegetables have been discussed. This review also covers the empirical and mathematical models applied during dehydration, factors affecting osmosonication, and its advantages and disadvantages.

Key findings and conclusions

Osmosonication leads to the formation of microchannels in the food matrix, improving the mass transfer rate and reducing drying time. Fruits and vegetables like kiwi, strawberry, apple, plum, potato, aonla and mushroom pretreated with osmosonication were found to have an improved nutritional profile, enhanced physicochemical properties and better overall quality of the final food product, along with improved mass transfer characteristics. Additionally, osmosonication has also assisted in achieving improved retention of bioactive compounds, refined colourimetric results, a good rehydration ratio and a fair weight reduction in the final product. Moreover, osmosonication increased dry matter content, reduced titratable acidity and lowered hardness in the final product, leading to better sensory properties compared to osmotically dehydrated fruits.

Abstract Image

用于水果和蔬菜脱水的渗透作用:加工中的机理认识、数学模型和综合应用
背景几十年来,渗透脱水被广泛用于水果和蔬菜的脱水。然而,这一过程耗时长,而且导致再水化能力差和营养流失。为了克服这些缺点,超声波与渗透脱水相结合,这一过程被称为渗透超声。这是一种非热能、高效节能、前景广阔的技术,在延长保质期的同时保持营养特性方面具有巨大潜力。本综述旨在通过讨论渗透作用的工作机制和在各类水果和蔬菜中的应用,为渗透作用提供一个完整的范例。此外,还讨论了渗透对传质动力学、理化、营养和结构特性的影响。本综述还涉及脱水过程中应用的经验和数学模型、影响渗透作用的因素及其优缺点。主要发现和结论渗透作用可在食品基质中形成微通道,提高传质速率并缩短干燥时间。经渗透处理预处理的水果和蔬菜,如猕猴桃、草莓、苹果、李子、马铃薯、芒果和蘑菇,其营养成分得到改善,理化性质得到提高,最终食品的整体质量更好,传质特性也得到改善。此外,渗透压还有助于提高生物活性化合物的保留率,改善色度结果,提高再水化率,并适当减轻最终产品的重量。此外,与渗透压脱水水果相比,渗透压增加了干物质含量,降低了可滴定酸度,降低了最终产品的硬度,从而获得更好的感官特性。
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来源期刊
Trends in Food Science & Technology
Trends in Food Science & Technology 工程技术-食品科技
CiteScore
32.50
自引率
2.60%
发文量
322
审稿时长
37 days
期刊介绍: Trends in Food Science & Technology is a prestigious international journal that specializes in peer-reviewed articles covering the latest advancements in technology, food science, and human nutrition. It serves as a bridge between specialized primary journals and general trade magazines, providing readable and scientifically rigorous reviews and commentaries on current research developments and their potential applications in the food industry. Unlike traditional journals, Trends in Food Science & Technology does not publish original research papers. Instead, it focuses on critical and comprehensive reviews to offer valuable insights for professionals in the field. By bringing together cutting-edge research and industry applications, this journal plays a vital role in disseminating knowledge and facilitating advancements in the food science and technology sector.
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