Manufacturing and Evaluating of Indirect Solar Dryers

Dara K. Khidir
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Abstract

–Indirect solar drying uses solar radiation to heat air and dry agricultural products in harvest time to store them for a longer time and reduce waste. The dryer consists of a solar air heater collector, a drying chamber, and an air ventilation system. In this study, an indirect solar dryer system is constructed and ventilated with an electrical fan. Experiments are conducted on the system using eggplant as an agricultural sample on 2 consequent days (29th and 30th October 2022), to evaluate the system data recorded during the drying process in terms of the temperature for points in the system, solar radiation, and the sample mass. The temperature measurements are ambient, collector, and dried chamber outlet temperatures. The results show that the most effective time for solar drying is between 9:00 and 16:00, and the drying system air temperature is raised to about 40°C when solar radiation reached more than 600 W/m2 in the noon time. The weighted mass is used to evaluate the drying process, and maximum drying rate and drying efficiency are obtained on the 1st day of the drying before noon time.
间接太阳能干燥机的制造与评价
-间接太阳能干燥利用太阳辐射加热空气,在收获季节干燥农产品,使其储存时间更长,减少浪费。该干燥器由太阳能空气加热器集热器、干燥室和空气通风系统组成。在本研究中,构建了一个间接太阳能干燥系统,并使用电风扇进行通风。在接下来的2天(2022年10月29日和30日),以茄子作为农业样品对该系统进行了实验,从系统中各点的温度、太阳辐射和样品质量等方面评估了系统在干燥过程中记录的数据。温度测量包括环境温度、集热器温度和干燥室出口温度。结果表明:太阳能干燥最有效时间为9:00 ~ 16:00,正午时段太阳辐射达到600 W/m2以上时,干燥系统空气温度提高到40℃左右。采用加权质量对干燥过程进行评价,在干燥第1天中午前获得最大干燥速率和干燥效率。
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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