INFLUENCE OF NATURAL FACTORS ON THE QUALITY OF DRYING CORN GRAIN IN A MODULAR TYPE DRYER

N. Zanko, T. Gaidai, S. Stepchenko, N. Nilova
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Abstract

Aim. Investigation of the influence of natural factors on the quality of grain drying in a grain modular dryer. Methods. Experimental studies in operational conditions and graphical modeling of dried grain moisture depending on natural factors. The results. The change in the environmental conditions causes a certain influence on the return of the spent waste dryer to the environment and the processes of drying the grain in it. This causes the production of undried grain and reduced drying efficiency. The influence of natural factors - temperature and humidity, atmospheric pressure and wind speed on the humidity of corn grain during its drying with a single-module grain dryer has been studied. The output of the refrigerant with moisture vapor is carried out through the perforated panels of the dryer circuit and at the same time experiences some resistance from atmospheric pressure. The results show that the reduction of atmospheric pressure helps to reduce the resistance for the exit of the coolant through the surface of the dryer housing. As a result, the coolant in the chamber is more efficiently spent on the grain drying process. This is evidenced by the simultaneous decrease in pressure and humidity of the dried grain The dryer is also affected by the wind: its body experiences cooling, and the drying temperature and drying conditions of the grain deteriorate. Thus, during the research period, the wind speed decreased from 5,3 m / s to 4,4 m / s, and the humidity of the dried grain decreased from 15,2 % to 13,9 %. That is, the reduction of the effect of wind on the surface of the dryer has a positive effect on the drying process of grain. The ambient air is characterized by the moisture present in it. Its reduction in atmospheric air promotes better moisture yield from corn grain and the "filling" of this air moisture: the humidity of the dried grain decreases. The positive temperature of the atmospheric air causes additional thermal action on the dryer and the drying process in it. In this case, the heat supplied to the working chamber of the dryer is more productively used for the drying process: in accordance with the increase in atmospheric air temperature, the humidity of the dried grain decreased from 15,2 % to 13,9 %. Based on the results of experimental studies, graphical dependences of the humidity of dried corn grain on humidity, pressure, temperature and velocity of atmospheric air are constructed. The grain harvester is a system adapter for Conclusions. Conclusions. The process of grain drying and the moisture content of the resulting dried grain of modular grain dryers depends on the influence of objective natural factors. These include, in particular, the weather conditions during the operation of dryers. With an increase in humidity, pressure and air velocity, the quality of drying deteriorates: when the moisture content of the grain decreases from 18,5 ° C to the regulated 14 %, with a single pass through the dryer, the moisture content of the dried grain exceeds the regulated one and vice versa. Drying grain in conditions of positive ambient air temperatures, especially at an air temperature of more than 21 °C, is most favorable for obtaining grain with a moisture content that is significantly less than 14 % and vice versa. Low wind speed, dry and warm atmospheric air with low pressure contribute to the production of dried grain with regulated humidity. For the maximum elimination of the unfavorable influence of natural factors on the quality of operation of modular dryers according to the criterion of the moisture content of dried grain in the conditions of the forest-steppe zone of Ukraine, it is advisable to carry out the drying process in the period from late September to early October.
自然因素对模块式干燥机干燥玉米品质的影响
目标自然因素对谷物模块化干燥机中谷物干燥质量的影响研究。方法。根据自然因素对干燥谷物水分的操作条件和图形建模进行的实验研究。结果。环境条件的变化对废谷物干燥机返回环境和在其中干燥谷物的过程产生了一定的影响。这导致了未干燥谷物的产生和干燥效率的降低。研究了温度、湿度、气压、风速等自然因素对单模块谷物干燥机干燥玉米籽粒湿度的影响。带有湿气的制冷剂通过干燥器回路的穿孔板输出,同时受到大气压力的一些阻力。结果表明,大气压力的降低有助于降低冷却液通过干燥器壳体表面排出的阻力。因此,腔室中的冷却剂更有效地用于谷物干燥过程。干燥谷物的压力和湿度同时降低证明了这一点。烘干机也受到风的影响:其机身冷却,谷物的干燥温度和干燥条件恶化。因此,在研究期间,风速从5,3米/秒下降到4,4米/秒,干燥谷物的湿度从15,2%下降到13,9%。也就是说,减少风对干燥机表面的影响对谷物的干燥过程有积极影响。环境空气的特征是其中存在的水分。它在大气中的减少促进了玉米粒更好的水分产量和这种空气水分的“填充”:干燥谷物的湿度降低。大气的正温度会对干燥机及其干燥过程产生额外的热作用。在这种情况下,提供给干燥机工作室的热量会更有效地用于干燥过程:随着大气温度的升高,干燥谷物的湿度从15.2%降至13,9%。根据实验研究结果,建立了干燥玉米籽粒湿度与大气湿度、压力、温度和速度的图形依赖关系。谷物收获机是“结论”的系统适配器。结论。模块化谷物干燥机的谷物干燥过程和干燥后的谷物水分含量取决于客观自然因素的影响。其中特别包括干燥机运行期间的天气条件。随着湿度、压力和空气速度的增加,干燥质量会恶化:当谷物的含水量从18.5°C降至规定的14%时,单次通过干燥机,干燥谷物的含湿量就会超过规定的含湿率,反之亦然。在正环境空气温度的条件下干燥谷物,特别是在空气温度超过21°C的条件下,最有利于获得水分含量明显低于14%的谷物,反之亦然。低风速、干燥温暖的低压大气有助于生产湿度可控的干燥谷物。为了最大限度地消除自然因素对模块化干燥机运行质量的不利影响,根据乌克兰森林草原区条件下干燥谷物的含水量标准,建议在9月下旬至10月初进行干燥过程。
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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