Sustainable Approach Through Combined Vacuum Drying and Molecular Sieves Techniques: Enhancing Quality and Efficiency in Pomegranate Aril Dehydration

IF 5.3 2区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Khouloud Kraiem, Souhir Abdelmoumen, Mohamed Aoun, Samia Ben-Ali
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Abstract

Dried vegetable products serve as nutritional supplements in various culinary, pharmacological, and cosmetic applications. Heat is generally employed as a drying agent in traditional thermal drying methods. This involves a high energy cost and significantly reduces the nutritional quality of vegetable products. This study investigates an unconventional, non-thermal drying method for pomegranate arils (PA). It is based on the use of selective molecular sieves for water molecules. This merely permits the extraction of water without compromising the other components that the fruit still contains. Compared to other dehydration techniques, this drying method uses less energy. It consumes 6.5 kWh of energy to take out 1 l of water including energy consumption for the regeneration of molecular sieves, whereas lyophilization and thermal drying procedures require 19.5 kWh and 8 kWh of energy to remove 1 l of water, respectively. Despite that, there is a lack of previous research on drying pomegranate arils using molecular sieves. Drying process studies were conducted on several characteristics, including water activity, water content, color, hardness, and size variation. It has been also investigated how pretreatments such as freezing and osmotic dehydration enhance drying. Using freezing pretreatment, the time of the drying process was reduced from 34 to 10 h, resulting in a final normalized water content (NWC) of 22.23 ± 0.75%. According to the osmotic dehydration pretreatment (OD), water lost (WL) and solid gain (SG) stabilized with values of 42.38% and 0.38% after 300 min of drying. A drying kinetic modeling study was carried out. The Midilli et al. model describes the experimental results of pomegranate arils after non-thermal drying, which have the highest R2 value (0.999) and lowest RMSE (0.0060) and χ2 (0.00004).

Abstract Image

通过真空干燥和分子筛组合技术实现可持续方法:提高石榴果皮脱水的质量和效率
在各种烹饪、药物和化妆品应用中,干蔬菜产品可作为营养补充剂。在传统的热干燥方法中,热通常被用作干燥剂。这种方法的能源成本很高,而且会大大降低蔬菜产品的营养质量。本研究调查了一种非常规的石榴果仁(PA)非热干燥方法。该方法基于对水分子的选择性分子筛。这种方法只允许提取水分,而不影响水果中仍含有的其他成分。与其他脱水技术相比,这种干燥方法能耗较低。提取 1 升水需要消耗 6.5 千瓦时的能量,其中包括分子筛再生所消耗的能量,而冻干和热干燥程序提取 1 升水分别需要 19.5 千瓦时和 8 千瓦时的能量。尽管如此,以前缺乏对使用分子筛干燥石榴果仁的研究。对干燥过程的几个特征进行了研究,包括水活性、含水量、颜色、硬度和大小变化。还研究了冷冻和渗透脱水等预处理如何促进干燥。通过冷冻预处理,干燥过程的时间从 34 小时缩短到 10 小时,最终的归一化含水量(NWC)为 22.23 ± 0.75%。根据渗透脱水预处理(OD),水分损失(WL)和固体增加(SG)在干燥 300 分钟后趋于稳定,数值分别为 42.38% 和 0.38%。对干燥动力学模型进行了研究。Midilli 等人的模型描述了石榴果仁非热干燥后的实验结果,其 R2 值(0.999)最高,RMSE(0.0060)和 χ2(0.00004)最低。
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来源期刊
Food and Bioprocess Technology
Food and Bioprocess Technology 农林科学-食品科技
CiteScore
9.50
自引率
19.60%
发文量
200
审稿时长
2.8 months
期刊介绍: Food and Bioprocess Technology provides an effective and timely platform for cutting-edge high quality original papers in the engineering and science of all types of food processing technologies, from the original food supply source to the consumer’s dinner table. It aims to be a leading international journal for the multidisciplinary agri-food research community. The journal focuses especially on experimental or theoretical research findings that have the potential for helping the agri-food industry to improve process efficiency, enhance product quality and, extend shelf-life of fresh and processed agri-food products. The editors present critical reviews on new perspectives to established processes, innovative and emerging technologies, and trends and future research in food and bioproducts processing. The journal also publishes short communications for rapidly disseminating preliminary results, letters to the Editor on recent developments and controversy, and book reviews.
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