Affiliation:
1. Federal Scientific Agroengineering Center VIM
Abstract
Most of the cultivated fields in Russia are acknowledged to have irregular contours, therefore mineral fertilizers are applied irrationally at the field boundaries. To eliminate this problem, the manufacturers of solid mineral fertilizer spreaders offer several technological solutions: in most cases, the application area is limited by changing the granule flight path. (Research purpose) To develop a distributor disc for a variable application area to use in mineral fertilizer spreaders equipped with variable rate application systems. (Materials and methods) The trajectory for applying mineral fertilizer granules was estimated depending on the bend angle of the distributor disk blade. We designed 3D disk models with a variable blade bend angle from 0 to 25 degrees, which were uploaded into the RealFlow program for the subsequent simulation of solid mineral fertilizer distribution. (Results and discussion) The coordinates were obtained for mineral fertilizer granules that dropped from the disk and landed on the surface. We built graphs of the mineral fertilizer distribution on the field surface. It was found out that changing the bend angle of the distributor disc blade within a 20-degree range makes it possible to vary the granule flight path within 10 meters of width and 8 meters of length, respectively. We developed a design of a mineral fertilizer distributor disk with an adjustable application rate. (Conclusions) A disk design was proposed for a smooth change in the blade bend angle within up to 25 degrees, which will allow the use of this system in conjunction with automated rate application systems, improve the distribution accuracy of solid mineral fertilizers and ameliorants in the boundary, edge and wedge-shaped sections of fields.
Publisher
FSBI All Russian Research Institute for Mechanization in Agriculture (VIM)
Reference23 articles.
1. Lichman G.I., Belykh S.A., Marchenko A.N. Sposoby vneseniya udobreniy v sisteme tochnogo zemledeliya [Methods of applying fertilizers in precision agriculture]. Sel'skokhozyaystvennye mashiny i tekhnologii. 2018. Vol. 12. N4. 4-9 (In Russian)
2. Volynkina O.V., Kopylov A.N. Sroki i sposoby vneseniya mineral'nykh udobreniy [Terms and methods of applying mineral fertilizers]. Agrarnyy sektor. 2021. N3(49). 52-57 (In Russian).
3. Eremina D.V., Demina O.N. Ekonomika planiruemykh urozhaev yarovoy pshenitsy na pakhotnykh chernozemakh za schet vneseniya mineral'nykh udobreniy [Economy of obtaining planned spring wheat yields on around chernozem due to mineral]. Vestnik Kazanskogo gosudarstvennogo agrarnogo universiteta. 2021. Vol. 16. N1(61). 9-14 (In Russian).
4. Li Z.X., Chi F.Q., Zhang J.M., Kuang E.J., Su Q.R. Effects of Long-Term Localized Fertilization on Nutrient Balance and Dynamic Change of Hu Molecular Structure in Black Soil. Spectroscopy and spectral analysis. 2018. Vol. 38. N12. 3875-3882 (In English).
5. Andreev K.P., Danilenko Zh.V., Kostenko M.Yu., et al. Determining the inequality of solid mineral fertilizers application. Journal of Advanced Research in Dynamical and Control Systems. 2018. Vol. 10. N10. Special Issue. 2112-2122 (In English).