Theoretical Study of Vibrocentrifugal Separation of Grain Mixtures on a Sieveless Seed-cleaning Machine
References
- Badretdinov, I., Mudarisov, S., Tuktarov, M., Dick, E., Arslanbekova, S. (2019). Mathematical modeling of the grain material separation in the pneumatic system of the grain-cleaning machine. Journal of Applied Engineering Science, 17 (4), pp. 529-534 doi: 10.5937/jaes17-2264010.5937/jaes17-22640
- Bracacescu, C., Gageanu, P., Bunduchi, G., Zaica, A. (2018). Considerations on technical equipment used for cleaning and sorting seed mixtures based on aerodynamic principle. Engineering for Rural Development. Volume 17, pp. 39-44.10.22616/ERDev2018.17.N044
- Bulgakov, V., Ivanovs, S., Adamchuk, V., Ihnatiev, Y. (2017). Investigation of the influence of the parameters of the experimental spiral potato heap separator on the quality of work. Agronomy Research. Vol. 15(1) pp. 44–54.
- Bulgakov, V., Nikolaenko, S., Holovach, I., Adamchuk, V., Kiurchev, S., Ivanovs, S., Olt, J. (2020). Theory of grain mixture particle motion during aspiration separation. Agronomy Research. Vol. 18(1), pp.18.–37., URL: https://dspace.emu.ee/xmlui/bitstream/handle/10492/5667/AR2020_Vol18No1_Bulgakov.pdf
- Dell’aquila, A. (2007). Towards new computer imaging techniques applied to seed quality testing and sorting. Seed Science and Technology, vol. 35(3), pp. 519-538.10.15258/sst.2007.35.3.01
- Drincha V. (2006). Seed separation research and development of machine technologies for their preparation. Voronezh: Publishing house of the NGO “MODEC”, 384 p.
- Konopka, S.; Choszcz, D.; Markowski, P. Optimization of the Separation Parameters and Indicators of Separation Efficiency of Buckwheat Seeds. Sustainability. Vol. 9, 2017, art.2134.10.3390/su9112134
- Kroulík M., Húla J., Rybka A. (2016). Pneumatic conveying characteristics of seeds in a vertical ascending airstream. Research in Agricultural Engineering, vol. 62, pp. 56-63.10.17221/32/2014-RAE
- Lenaerts, B., Aertsen, T., Tijskens, E., Ketelaere B., Ramon, H., Baerdemaeker, J., Saeys, W. (2014). Simulation of grainstraw separation by discrete element modeling with bendable straw particles. Computers and Electronics in Agriculture, vol. 101, pp. 24-33.10.1016/j.compag.2013.12.002
- Malyuta S. (1989). Justification of the technological process and parameters of the seed-cleaning pneumatic centrifuge. Author’s abstract. Diss. kand. Tech. Sciences. Glevakha, 21 pp.
- Nazarova, T.V., Dmitriyev, P.S., Baryshnikov, G.Y. (2021). Using the Extract of “saprolin” for Enhancing Grain Crops. IOP Conference Series: Earth and Environmental Science. Volume 670, Issue 1, Article number 012002202010.1088/1755-1315/670/1/012002
- Nesterenko, A., Leshchenko, S., Vasylkovskyi, O., Petrenko, D. (2017). Analytical assessment of the pneumatic separation quality in the process of grain multilayer feeding. INMATEH-Agricultural Engineering, 53 (3), pp. 65-70. http://www.inmateh.eu/INMATEH_3_2017/53-09%20Nesterenko.pdf
- Poltoretskyi, S., Karpenko, V., Mostoviak, I., Berezovskyi, A. (2017). Comprehensive assessment of productivity interrelations and indicators of quality of millet seeds. Journal of Food, Agriculture and Environment. Volume 15, Issue 3-4, 2017, pp. 68-72.
- Prilutsky A. (2004). Investigation of the process of seed separation by a pneumovibrating centrifuge and justification of its parameters. Kyiv: UNIIM, 150 p.
- Prilutsky, A., Stepanenko, S. (2014). Patent of Ukraine No UA 102768. The machine for sorting seeds.
- Shepelev, S., Cheskidov, M., Chumakov, V., Gritsenko, A., Shepeleva, N. (2020). Results of the Experimental Studies of Grain Cleaning with an Air-Spiral Separator. E3S Web of Conferences, 210, art. 10002. doi.org/10.1051/e3sconf/20202101000210.1051/e3sconf/202021010002
- Stepanenko, S., Prilutsky, A., Shvidya, V. (2013). Patent of Ukraine No UA 103051. Pnevmovibrotsentrifuga.
- Straksas, A., Steponavicius, D., Domeika, R., Katkevicius, T. (2016). Research in cleaning and sorting of ecologically grown white mustard seed. Engineering for Rural Development. Volume 15, pp.210-216.
- Zewdu, A. (2007). Aerodynamic properties of tef grain and straw material. Biosystems Engineering. Volume 98, Issue 3, pp.304-309.10.1016/j.biosystemseng.2007.08.003
DOI: https://doi.org/10.2478/plua-2021-0023 | Journal eISSN: 2256-0939
Language: English
Page range: 116 - 124
Submitted on: Apr 27, 2021
Accepted on: Nov 8, 2021
Published on: Dec 22, 2021
Published by: Latvia University of Life Sciences and Technologies
In partnership with: Paradigm Publishing Services
Publication frequency: 2 issues per year
Related subjects:
© 2021 Valerii Adamchuk, Volodymyr Bulgakov, Iaroslav Gadzalo, Semjons Ivanovs, Serhiy Stepanenko, Ivan Holovach, Yevhen Ihnatiev, published by Latvia University of Life Sciences and Technologies
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.