System of pre-sowing seed inoculation

Q3 Economics, Econometrics and Finance Naukovi gorizonti Pub Date : 2023-07-12 DOI:10.48077/scihor7.2023.140
M. Shelest, A. Kalnaguz, Oksana Datsko, E. Zakharchenko, V. Zubko
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Abstract

Pre-sowing inoculation of agricultural crops increases the parameters that affect the yield and quality of the crop, which has been proven by many Ukrainian and foreign researchers. The purpose of the study was to set the operating parameters of the injectors at different pressures, which allowed calculating the rate of discharge of the working solution during sowing to create a system of pre-sowing inoculation, which will simplify the process of seed treatment and increase the energy efficiency of farms. Methods of system and structural analysis, mathematical statistics, abstraction, and mathematical modelling based on the Euler-Lagrange equation, and using the foundations of theoretical mechanics, physics and machine theory were used for experimental research. The planning of the experiment met the current standards, and computer graphics systems and Microsoft Excel software suite were used for statistical data processing. Based on the conducted studies, the amount of liquid that one nozzle can pass in 1 min at pressures of 300, 400, and 500 kPA was determined. It was found that the lowest result was shown by a nozzle with a diameter of 0.1 mm with a pressure of 300 kPA – 10.493 ml/min, and the highest – a nozzle with a diameter of 0.8 mm and a pressure of 500 kPA – 146.379 ml/min. At the same time, injectors with a diameter of 0.4-0.6 mm used almost the same amount of liquid at pressures of 300 and 500 kPA. The amount of liquid that can be poured per 1 ha using a six-row seeding machine with a working width of 4.2 m per sowing unit of corn was calculated. The obtained data can be used to improve any systems that use similar nozzles, such as calculating the rate of discharge of agricultural sprayers or systems that allow cooling pig farms during the summer period
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播前种子接种系统
许多乌克兰和外国研究人员已经证明,农业作物的播种前接种会增加影响作物产量和质量的参数。该研究的目的是在不同压力下设置注射器的操作参数,从而计算播种过程中工作溶液的排放速率,以创建一个播种前接种系统,这将简化种子处理过程并提高农场的能源效率。实验研究采用了基于欧拉-拉格朗日方程的系统和结构分析、数理统计、抽象和数学建模方法,并利用理论力学、物理学和机器理论的基础。实验的计划符合现行标准,并使用计算机图形系统和Microsoft Excel软件套件进行统计数据处理。基于所进行的研究,确定了在300、400和500kPA的压力下,一个喷嘴在1分钟内可以通过的液体量。研究发现,直径为0.1 mm、压力为300 kPA–10.493 ml/min的喷嘴显示出最低的结果,而直径为0.8 mm且压力为500 kPA–146.379 ml/min的喷头显示出最高的结果。同时,直径为0.4-0.6mm的注射器在300和500kPA的压力下使用几乎相同量的液体。计算了使用每播种单位玉米工作宽度为4.2m的六排播种机每1公顷可倾倒的液体量。所获得的数据可用于改进任何使用类似喷嘴的系统,例如计算农业喷雾器的排放速率或允许在夏季冷却养猪场的系统
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来源期刊
Naukovi gorizonti
Naukovi gorizonti Economics, Econometrics and Finance-Economics, Econometrics and Finance (miscellaneous)
CiteScore
1.50
自引率
0.00%
发文量
115
审稿时长
4 weeks
期刊最新文献
The agricultural machinery market for crop production and prospects for its development in the postwar period Technology of production and primary processing of milk in farm conditions Cytogenetic activity of a mutagenic factor with high damaging capacity in winter wheat Risk factors associated with stillbirth of piglets in Ukrainian Meat breed sows Prospective analysis of the implementation of the “green” economy in the agricultural sector of Ukraine for the next 10 years
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