Proposal of a Method for Maintaining the Quality of Agricultural Products under the Cold Environment

IF 0.2 Q4 ENERGY & FUELS

Journal of The Japan Institute of Energy Pub Date : 2022-01-20 DOI:10.3775/jie.101.1

Akihiro Oki, Shun Kataniwa, K. Dowaki

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引用次数: 0

Abstract

Food quality control is important for food companies such as restaurants and consumers. Vegetables release heat energy by breathing even after harvesting. When the storage temperature rises, respiratory heat increases, and as a result, sugar decomposition progresses, and nutrients decrease. Therefore, it is possible to keep the quality of food by storing it at a low temperature. In this study, to confirm that cold storage reduced the respiratory heat of foods, we measured respiratory heat of food at low-temperature preservation by each temperature. To measure the respiratory heat of food at low-temperature preservation, we created an experimental device that can be sealed, kept at low-temperature, and can control temperature. Then, we put the food in the device, and measured the change in CO 2 concentration immediately after the food was placed and 1 hour after the food was placed by each temperature. Finally, by using the measured data, we calculated the respiratory heat. As a result, low-temperature preservation can reduce respiratory heat, and it was found that the quality of food can be kept.

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低温环境下农产品品质保持方法的研究

食品质量控制对餐馆等食品公司和消费者都很重要。蔬菜即使在收获后也会通过呼吸释放热能。当储存温度升高时，呼吸热量增加，结果，糖分解进行，营养物质减少。因此，通过低温储存可以保持食品的质量。在本研究中，为了证实冷藏降低了食物的呼吸热，我们测量了食物在低温保存下的呼吸热。为了测量食品低温保存时的呼吸热，我们制作了一种可密封、低温保存、可控温的实验装置。然后，我们将食物放入设备中，并测量食物放置后立即和食物放置后1小时的co2浓度变化。最后，利用实测数据计算呼吸热。因此，低温保存可以减少呼吸热，并发现可以保持食品的质量。

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

Journal of The Japan Institute of Energy ENERGY & FUELS-

CiteScore

0.60

自引率

0.00%

发文量