State and development of grain storage engineering and technologies in Ukraine

М. Y. Kyrpa
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Abstract

Topicality. These researches are due to the grain storage problem, the features of maize grain storage in metal silos under the various environmental factors, as well as more efficient using the material and technical facilities, including the grain storages of new generation. Purpose. To establish the types of grain storage facilities that are most appropriate for storing the yield of different crops, to improve metal silos and maize grain storage technologies. Materials and Methods. During experiments on maize grain storage, we used the metal silo equipped with a system of sensors to measure the temperature in different places of grain heap. We studied two models of grain storages, such as a standard construction (control) and an experimental one thermal isolated with a polyurethane layer. During the storage experiment, grain quality was monitored on grain moisture content, dockage, damage and germination. Results. Different types of grain storage facilities storing main volume of grain harvest were characterized; the technical, economic and technological advantages and disadvantages of grain storage were highlighted; directions for further development are outlined. The features of maize grain storage in the metal silos under influence of external meteorological conditions for 60 day were established. Temperature fluctuations were 7.1–13 °С in grain storage with thermal insulation, 4.5–25.9 °С – without insulation. As a result of significant temperature fluctuations, the grain was moistened by 2.2 %, its acidity increased by 1 degree, germination decreased by 7 %. At the stage of preparation for storage, maize grain should be cleaned to purity of 93–97 % by removing grain impurities. An effective method for this is fractional separation of grain. Conclusions. Thermal insulation of metal silos significantly reduces the negative impact of fluctuations in ambient air temperature, stabilizes the storage mode, and ensures high quality maize grain. The stability of grain during storage increases in the case of selection from it a fraction of grain of small, unfilled, with a low 1000 grain weight. Key words: types of grain storage facilities, metal silo, thermal insulation, maize, quality, cleaning grain before storage
乌克兰粮食仓储工程与技术的现状与发展
时事性。这些研究是由于粮食储存问题,玉米粮食在各种环境因素下的金属筒仓储存的特点,以及更有效地利用材料和技术设施,包括新一代粮食储存。目的。建立最适合储存不同作物产量的粮食储存设施类型,改进金属筒仓和玉米粮食储存技术。材料与方法。在玉米储粮试验中,我们采用金属筒仓,在筒仓内安装传感器系统,测量粮堆不同位置的温度。我们研究了两种谷物储存模型,如标准结构(对照)和实验用聚氨酯层热隔离的模型。在贮藏试验期间,对籽粒含水率、破损率和萌发率进行了监测。结果。对不同类型的储粮设施的主要储粮量进行了特征分析;强调了粮食仓储的技术、经济和工艺优势与不足;概述了进一步发展的方向。建立了外部气象条件影响下金属筒仓玉米籽粒60 d的贮藏特征。有保温的粮仓温度波动范围为7.1 ~ 13°С,无保温的粮仓温度波动范围为4.5 ~ 25.9°С。由于温度波动较大,籽粒受潮率下降2.2%,酸度升高1度,发芽率下降7%。在贮藏准备阶段,通过去除籽粒杂质,将玉米籽粒净化至93 - 97%的纯度。一种有效的方法是颗粒分级分离。结论。金属筒仓的保温显著降低了环境气温波动的负面影响,稳定了储存方式,保证了玉米的高品质。选用小粒、未灌浆、千粒重较低的籽粒,可提高籽粒在贮藏过程中的稳定性。关键词:储粮设施类型,金属仓,保温,玉米,品质,储粮前清洗
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