Validation of Solar Dehydrator for Food Drying Applications: A Granny Smith Apple Study

Journal of Chemical Engineering Research Updates Pub Date : 2022-07-22 DOI:10.15377/2409-983x.2022.09.2

Jude Ingham, Muskan Kanungo, Brandon Beauchamp, Michael Korbut, M. Swedish, M. Navin, Wujie Zhang

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Abstract

Food loss is a global issue that may be alleviated with effective dehydration strategies. Solar dehydration, rather than traditional sun-drying, is one method that could allow for the safe, efficient preservation of food materials. In this study, passive solar dehydration was achieved using a psychrometric chamber to model the environment of sub-Saharan Africa, where the temperature was the major focus (24.3 °C to 29.4 °C). A mass decrease of 88.56% was achieved within 9 hours. Microbial testing (total aerobic bacteria, Gram-negative bacteria, and total yeasts and molds) demonstrated no difference (all negative) between food stored at 4 °C and dehydrated food, indicating that the dehydrator introduced no new contamination. A 16.0% decrease in vitamin C (VC) concentration was observed due to the lability of VC. Insight into the visual appeal of the food samples was provided by measuring browning values, where it was found that dehydrated green apples are significantly less brown than the sample exposed to air for the same length of time. Passive solar dehydrators could provide a simple method to reduce food waste and maintain nutritional content and visual appeal.

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太阳能脱水机用于食品干燥应用的验证:史密斯奶奶苹果研究

食物损失是一个全球性的问题，可以通过有效的脱水策略来缓解。太阳能脱水，而不是传统的太阳干燥，是一种可以安全，有效地保存食品材料的方法。在这项研究中，使用一个湿度计室来模拟撒哈拉以南非洲的环境，其中温度是主要焦点(24.3°C至29.4°C)，实现了被动式太阳能脱水。9小时内质量下降88.56%。微生物测试(需氧细菌总数、革兰氏阴性细菌总数、酵母和霉菌总数)表明，在4°C储存的食品和脱水食品之间没有差异(均为阴性)，表明脱水机没有引入新的污染。由于VC的不稳定性，维生素C (VC)的浓度下降了16.0%。通过测量褐变值，人们对食物样品的视觉吸引力有了更深的了解。研究发现，脱水后的青苹果的褐变程度明显低于暴露在空气中相同时间的样品。被动式太阳能脱水机可以提供一种简单的方法来减少食物浪费，保持营养成分和视觉吸引力。

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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Journal of Chemical Engineering Research Updates

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