A. Kupreenko, Kh.М. Isaev, Yury Kuznetsov, S. Mikhailichenko, I. Kravchenko, L. Kalashnikova
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引用次数: 0
摘要
提出了一种基于太阳能的粮食干燥综合体,包括内置太阳能干燥系统的粮食储存库和粮食滚筒太阳能干燥机。介绍了粮食干燥装置的结构和工作原理。该综合体的每个太阳能干燥系统的基础是两个太阳能集热器的存在,其中一个集热器在进入干燥室的入口处提供干燥剂的加热,并在排气管中对使用过的干燥剂进行二次加热,以增加其流速,并相应地加强谷物干燥。砾石或水蓄热器的可用性允许在夜间和恶劣天气条件下进行谷物干燥或谷物储存过程,而不会有自热的风险。蓄砾器的最佳容量为每1 m2太阳能集热器面积0.5-0.75 m3。滚筒太阳能干燥机提供保证干燥的粮食批为6-7小时的白天时间和粮食批为夜间时间。研究发现,干燥过程中颗粒层的最佳厚度为50 ~ 70 cm,水平太阳能集热器面积的比负荷可达100 kg / m2。
A grain drying complex based on solar energy, including a grain storage with a built-in solar drying system and a drum solar dryer for grain, is proposed. The construction and principle of operation of the grain drying complex is described. The basis of each of the solar drying systems of the complex is the presence of two solar collectors, one of which provides heating of the drying agent at the inlet into the drying chamber, and the second-heating of the used drying agent in the exhaust pipe to increase its flow rate and, accordingly, the intensification of grain drying. Availability of gravel or water heat accumulators allows to carry out the process of grain drying or grain storage, at night and under adverse weather conditions without the risk of self-heating. The optimum capacity of the gravel accumulator is 0.5-0.75 m 3 per 1 m 2 of solar collector area. Drum solar dryer provides guaranteed drying of a grain batch for 6-7 hours of the day time and a grain batch for the night time. It was found that the optimum thickness of the grain layer in the drying process is 50-70 cm and specific load is up to 100 kg of grain per square meter of the horizontal solar collector area.
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