自动温湿度控制和监测系统,提高干燥系统的性能

Q3 Engineering
L.A. Alkahdery
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引用次数: 0

摘要

温度和相对湿度是保存和改善食品质量的干燥过程中的关键控制参数。为了实现这一目标,已经设计和建造了一个自动控制系统,以根据各种气候区的环境要求和干燥产品的种类提供足够的热量和干燥流。与传感器相结合的控制系统允许通过预定参数在线调节干燥室的温度和湿度。当存在很少或没有辐射时,或者当需要快速干燥速率时,除了备用电加热器之外,还可以使用电动机风扇来产生加热的气流。根据干燥室所需的温度,风扇使用脉冲宽度调制技术自动调整速度以提高能效。基于Arduino Uno板的控制系统构建在太阳能干燥器内,之后进行测试。测试结果显示在显示器上。管理系统的设置是为了将环境温度保持在40至60°C之间,相对湿度保持在10%至20%之间。根据实验结果,该系统是一种灵活的解决方案,适用于不同的气候区和干燥产品,证明了其在管理干燥环境方面的效率。最后,这篇论文可以节约能源,因为它只有在食物周围的温度低于60摄氏度时才有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AUTOMATED TEMPERATUREAND HUMIDITY CONTROL AND MONITORING SYSTEM FOR IMPROVING THE PERFORMANCE IN DRYING SYSTEM
Temperature and relative humidity are the key control parameters in drying processes for preserving and improving food quality. To achieve this goal, an automatic control system has been designed and built to provide adequate heat and drying streams according to the ambient requirements of various climatic zones and the kind of dried product. The control system combined with sensors allows the temperature and humidity of the drying chamber to be adjusted online by predetermined parameters. When there is little or no radiation present or when rapid drying rates are required, the heated air stream may be produced utilizing an electric motor fan in addition to an electrical backup heater. The fan automatically modifies its speed using the Pulse Width Modulationtechniquefor energy efficiency depending on the required temperature of the drying chamber. The control system based on Arduino Uno board is built within the solar dryer, after which tests are carried out. The test results are displayed on a display. Themanagement system was set up to maintain an ambient temperature between 40 and 60 °C andrelative humidity between 10 and 20 %. The system is a flexible solution for different climatic zones and dried products, according to experimental findings demonstratingits efficiency in managing the drying environment. Finally, this paper can conserve energy because it only works when the temperature around the food is below 60 oC.
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来源期刊
CiteScore
1.10
自引率
0.00%
发文量
15
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