Low Budget Respirometer Chamber Design Based on Wireless Sensor Network

IF 0.2 Q4 AGRONOMY agriTECH Pub Date : 2022-07-22 DOI:10.22146/agritech.65739
Cahyo Muvianto, K. Yuniarto, A. Lastriyanto, Lalu Arioki Setiadi
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引用次数: 0

Abstract

Fresh fruit respiration information is essential optimizing food storage systems. Meanwhile, respiration is defined as the process of oxygen production and carbon dioxide release during storage in a closed respiratory chamber. Therefore, this study aims to design a low-budget computerized respiratory chamber for enhancing fruit packaging and storage system. Real-time fruit respiration can be measured by applying wireless gas sensors network. The respirometer consisted of 3,600 mL glass jar with a screw stainless lid, while the electrochemical and non-dispersive infrared sensors were mounted on the cover of the glass jar for collecting data on the oxygen, carbon dioxide, and temperature during mangoes’ respiration. Arduino USB port was used to record all measured parameters consisting of oxygen (%) and carbon dioxide concentrations (ppm, as well as temperature in the respiration chamber. Additionally, a controlled cooling chamber was applied to maintain the temperature during storage, while data communication was supported by Xbee S2C based on radio frequency. According to the respirometer real-time reading, there was a decrease in oxygen concentration caused by increasing carbon dioxide release with temperature. The low-budget respirometer was used to measure the respiration rate and record the data through a wireless sensor network system. The data plot shows that the respiration rate increased as the storage temperature and the respiratory quotient ranged from 0.32-0.44.
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基于无线传感器网络的低成本呼吸计室设计
新鲜水果的呼吸信息是优化食品储存系统必不可少的。同时,呼吸作用被定义为在封闭的呼吸室中储存氧气和释放二氧化碳的过程。因此,本研究旨在设计一种低成本的计算机呼吸室,以增强水果包装和储存系统。应用无线气体传感器网络可以实时测量水果的呼吸。该呼吸计由3600 mL玻璃罐和螺旋不锈钢盖组成,玻璃罐盖上安装电化学和非色散红外传感器,用于采集芒果呼吸过程中的氧气、二氧化碳和温度数据。使用Arduino USB端口记录所有测量参数,包括氧气(%)和二氧化碳浓度(ppm)以及呼吸室温度。在储存过程中,采用可控冷却室保持温度,Xbee S2C支持基于射频的数据通信。根据呼吸计的实时读数,随着温度的升高,二氧化碳的释放量增加,导致氧气浓度下降。低成本呼吸计用于测量呼吸速率,并通过无线传感器网络系统记录数据。数据图显示,在0.32 ~ 0.44范围内,呼吸速率随贮藏温度和呼吸商的变化而增大。
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来源期刊
agriTECH
agriTECH AGRONOMY-
自引率
0.00%
发文量
30
审稿时长
24 weeks
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