The impact of weather conditions on microclimate in storage facilities

Q2 Agricultural and Biological Sciences
D. Hájek, J. Šimon, D. Vejchar, J. Bradna
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引用次数: 2

Abstract

The key to maintaining good qualitative parameters of stored grain on farms is to achieve and maintain suitable storage temperatures relative to the outside temperature. In the framework of this research, the main focus was on typical representatives of grain storage facilities used in the Czech agriculture. In the post-harvest period after the crops were stored in the chosen storage facilities, the temperature of the material was monitored at 15-minute intervals using an external temperature probe as well as the temperature and dew point of the outdoor air. A simple linear regression model was used for data analysis. The correlated temperature dependence of the stored grain varies considerably in the monitored storage facilities. The storage halls were characterized by a low dependence (r = 0.2208) of the temperature of the material on the outside air temperature in the first 4 months following the harvest when the grains were being stabilized by active aeration. In addition to the grain and the air temperature, the second focus was monitoring the dew point, i.e. assessing the risk of water vapour condensation on the surface in the upper layer of the stored grain, which is very undesirable for maintaining the quality of the stored grain. The results show that the monitored storage hall can be characterized by the ability to maintain the required climate due to outdoor climatic conditions. In general, this ability mainly depends on the type and design of the storage facility, the aeration system and also the storage capacity. Mainly during spring the dew point and water vapour condensation can often happen within the grain, therefore the need to focus on appropriate measures such as reduced aeration or increased grain mixing, and thus avoiding the formation of critical spots.
天气条件对仓储设施小气候的影响
保持农场储粮质量参数的关键是实现和保持相对于外界温度的适宜贮藏温度。在本研究的框架内,主要关注的是捷克农业中使用的粮食储存设施的典型代表。在作物储存在选定的储存设施后的收获期,使用外部温度探头每隔15分钟监测一次材料的温度以及室外空气的温度和露点。数据分析采用简单线性回归模型。在监测的储粮设施中,储粮的相关温度依赖性变化较大。在收获后的前4个月,当谷物被主动通风稳定时,贮藏厅里的物料温度对外界气温的依赖性较低(r = 0.2208)。除了粮食和空气温度外,第二个重点是监测露点,即评估储粮上层表面水蒸气凝结的风险,这对于保持储粮的质量是非常不可取的。结果表明,监测的储存库能够根据室外气候条件保持所需的气候。一般来说,这种能力主要取决于存储设施的类型和设计、曝气系统以及存储容量。主要是在春季露点和水汽凝结往往会发生在谷物内部,因此需要重点采取适当的措施,如减少通风或增加谷物混合,从而避免形成临界点。
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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来源期刊
Agronomy research
Agronomy research Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
2.10
自引率
0.00%
发文量
0
审稿时长
7 weeks
期刊介绍: Agronomy Research is a peer-reviewed international Journal intended for publication of broad-spectrum original articles, reviews and short communications on actual problems of modern biosystems engineering including crop and animal science, genetics, economics, farm- and production engineering, environmental aspects, agro-ecology, renewable energy and bioenergy etc. in the temperate regions of the world.
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