Efficient temperature control in okra transportation using phase change materials inside packaging box

IF 8.5 1区农林科学 Q1 FOOD SCIENCE & TECHNOLOGY

Food Packaging and Shelf Life Pub Date : 2024-11-08 DOI:10.1016/j.fpsl.2024.101383

Jackson Mwenya , Rattapon Saengrayap , Sujitra Arwatchananukul , Nattapol Aunsri , Chayapol Kamyod , Prasara Jakkaew , Hiroaki Kitazawa , Pramod Mahajan , Sirada Padee , Chureerat Prahsarn , Saowapa Chaiwong

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Abstract

Okra, a high respiration rate crop, is vulnerable to significant damage during transportation and storage without proper temperature control. This study aimed to evaluate the effectiveness of different thermal insulation boxes combined with phase change materials (PCMs) in maintaining the temperature and quality of okra during simulated transportation and storage. Two prototype thermal boxes (A and B) and a control (foam box) were tested, with and without the addition of either commercial gel packs or ice water bottles. The experiment involved cooling okra samples at 0 °C for 2 hours before packing, followed by 48 hours of simulated transportation at 25 °C. Air and okra temperatures were continuously monitored, and thermal imaging was used to analyze temperature profiles and okra color. The results indicate that the addition of PCMs effectively maintained lower temperatures, with reductions of 3.2 °C for IB and 3.6 °C for GP, compared to a minimal reduction of 0.35 °C in boxes without PCMs. Foam box treatments, with or without PCMs, led to CO₂ accumulation levels of up to 15 %. The ice water bottle, wrapped in kraft paper to prevent wetting the okra, resulted in lower relative humidity compared to the commercial gel pack. There were no significant differences in okra mass loss, which was below 5 % among the nine treatments. This study demonstrated that the developed thermal insulation boxes combined with ice water bottles effectively maintained cool temperatures under ambient conditions and have potential as eco-friendly distribution packaging for okra.

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利用包装箱内的相变材料有效控制秋葵运输过程中的温度

秋葵是一种呼吸速率很高的作物，如果没有适当的温度控制，很容易在运输和储存过程中受到严重破坏。本研究旨在评估不同的保温箱结合相变材料（PCM）在模拟运输和储存过程中保持秋葵温度和质量的效果。研究人员测试了两个原型保温箱（A 和 B）和一个对照组（泡沫箱），分别添加和不添加商用凝胶包或冰水瓶。实验包括在包装前将秋葵样品在 0 °C 下冷却 2 小时，然后在 25 °C 下模拟运输 48 小时。连续监测空气和秋葵的温度，并使用热成像技术分析温度曲线和秋葵的颜色。结果表明，添加 PCM 能有效保持较低的温度，IB 和 GP 的温度分别降低了 3.2 ℃ 和 3.6 ℃，而不添加 PCM 的包装箱温度仅降低了 0.35 ℃。无论是否使用 PCM，泡沫箱的 CO₂ 积累水平最高可达 15%。与商用凝胶包装相比，用牛皮纸包裹的冰水瓶可降低秋葵的相对湿度。秋葵的质量损失在九种处理中没有明显差异，均低于 5%。这项研究表明，开发的保温箱与冰水瓶结合使用，能有效保持环境条件下的低温，具有作为秋葵环保配送包装的潜力。

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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来源期刊

Food Packaging and Shelf Life Agricultural and Biological Sciences-Food Science

CiteScore

14.00

自引率

8.80%

发文量

214

审稿时长

70 days

期刊介绍： Food packaging is crucial for preserving food integrity throughout the distribution chain. It safeguards against contamination by physical, chemical, and biological agents, ensuring the safety and quality of processed foods. The evolution of novel food packaging, including modified atmosphere and active packaging, has extended shelf life, enhancing convenience for consumers. Shelf life, the duration a perishable item remains suitable for sale, use, or consumption, is intricately linked with food packaging, emphasizing its role in maintaining product quality and safety.