Quantifying narrowing partition thickness in a vertical pneumatic separation channel for soybean seed cleaning

The paper highlights that the study of the soybean seed separation processes in a vertical deep aspirating channel contributes to the improvement of technical and economic indicators in grain cleaning equipment. (Research purpose) The research aims to substantiate the thickness of narrowing partitions in the vertical deep aspirating channel. (Materials and methods) A prototype of a vertical deep aspirating channel with three sections of varying height, was used for cleaning soybean seeds. The optimal thickness of the narrowing partitions in the channel has been justified. Impurity extraction completeness and seed separation efficiency within a vertical aspirating channel were assessed for soybean seed cleaning under maximum specific grain load conditions. (Results and discussion) The following parameters have been determined: the optimal thickness for the narrowing partitions is 70 millimeters under a maximum specific grain load of 5 kilograms per square centimeter per hour. Seed losses do not exceed 3 percent in the aspirating channel with narrowing partitions, with impurity extraction completeness of 74 percent for the «Waste» fraction. The efficiency of the separation process stands at 71 percent, and the purity level of the «Seeds» fraction reaches 81 percent in a single pass during the preliminary cleaning stage. (Conclusions) It has been established that the use of narrowing partitions in a vertical aspirating channel during soybean seed cleaning leads to an increase in the specific grain load up to 5 kilograms per square centimeter per hour, compared to 2 kilograms per square centimeter per hour achieved by traditional pneumatic separation channels. The proposed technical solution reduces soybean seed losses to 3 percent (compared to the initial requirements of no more than 10 percent) in a single pass and reduces machine power consumption from 4.5 to 2.25 kilowatt-hours.

1. Izmaylov A.Yu., Lobachevskiy Ya.P. Razvitie proizvodstva tekhniki dlya selektsii i semenovodstva – odna iz prioritetnykh zadach sel'skokhozyaystvennogo mashinostroeniya. [Advancing Agricultural Engineering: A Focus on Priority Task - Innovations in Breeding and Seed Production Equipment Development]. Sostoyanie i razvitie regional'nogo sel'khozmashinostroeniya. Moscow. Rosinformagrotekh. 2010 (In Russian).

2. Khamuev V.G. Raspredelenie skorostey vozdushnogo potoka v glubokom pnevmosepariruyushchem kanale [Distribution of an air stream in the deep aspirating channel]. Sel'skohozyaystvennye mashiny i tekhnologii. 2015. N4. 12-15 (In Russian).

3. Khamuev V.G., Gerasimenko S.A. Obosnovanie konstruktivno-komponovochnoy skhemy gravitacionno-pnevmaticheskogo ochistitelya semyan soi [Substantiation of the main parameters of a gravity column when cleaning soybean seeds]. Sel'skokhozyaystvennye mashiny i tekhnologii. 2022. Vol. 16. N3. 27-32 (In Russian).

4. Khamuev V.G., Moskovskiy M.N., Borzenko S.I., Gerasimenko S.A. Issledovanie raspredeleniya skorostey vozdushnogo potoka v modeli aspiratsionnogo kanala dlya vysokozasorennoy soevoy produktsii [The spreading of air flow velocities in the aspiration channel model for highly clogged soy products]. Elektrotekhnologii i elektrooborudovanie v APK. 2022. Vol. 69. N2(47). 86-90 (In Russian).

5. Shchuchka R.V. Problematika vozdelyvaniya soi v usloviyakh rasshireniya posevnykh ploshchadey Central'no-Chernozemnoy zony [Soybean cultivation problems under the expansion of cropland areas in the Central Chernozem zone]. Zametki uchenogo. 2022. N2. 123-127 (In Russian).

6. Ivanov A.A., Alekseeva S.N., Chuvorkina T.N., Kadykova O.F. Razvitie proizvodstva zernobobovykh kul’tur i soi – faktor dinamichnogo razvitiya agrarnogo sektora regiona na primere Penzenskoy oblasti [Enchancing agricultural sector dynamics through leguminous crop and soybean production development: a case study of the Penza region]. Vestnik Mariyskogo gosudarstvennogo universiteta. Seriya: Sel'skokhozyaystvennye nauki. Ekonomicheskie nauki. 2021. Vol. 7. N3(27). 284-295 (In Russian).

7. Tkachenko M.A., Volkova A.S., Gnenny E.Yu., Vusik A.S. Dinamika izmeneniya posevnykh ploshchadey v Rossii nekotorykh tekhnicheskikh kul'tur [Dynamics of crop areas in russia of some technical crops]. Colloquium-journal. 2021. N3-2(90). 50-52 (In Russian).

8. Sinegovsky М.О. Sovremennoe sostoyanie proizvodstva soi v Amurskoy oblasti [A modern state of soybean production in Amur region]. Nauchno-tekhnicheskiy byulleten' Vserossiyskogo nauchno-issledovatel'skogo instituta maslichnykh kul'tur. 2015. N3(163). 86-90 (In Russian).

9. Zotikov V.I., Naumkina T.S., Sidorenko V.S. Proizvodstvo zernobobovykh i krupyanykh kul'tur v Rossii: sostoyanie, problemy, perspektivy [Legumes and groat crops production in Russia: state, problems, perspectives]. Zemledelie. 2015. N4. 3-5 (In Russian).

10. Doshi J.S., Patel V.B., Patel J.B., Patel J.A. Quantification of quality improvement in wheat seed processing. Journal of Agricultural Engineering. 2013. Vol. 50. N4. (In English).

11. Kroulík M., Hůla J., Rybka A., Honzík I. Pneumatic conveying characteristics of seeds in a vertical ascending airstream. Research in Agricultural Engineering. 6. 62(2016). 56-63 (In English).

12. Łukaszuk J., Molenda M., Horabik J., et al. Airflow resistance of wheat bedding as influenced by the filling method. Research in Agricultural Engineering. 2008. 54(2). 50-57 (In English).

13. Elizarov V.P., Antyshev N.M., Beylis V.M., Shevtsov V.G. Iskhodnye trebovaniya na tekhnologicheskie operatsii v rastenievodstve [Initial requirements for technological operations in crop production]. Sel'skokhozyaystvennye mashiny i tekhnologii. 2011. N1. 11-14 (In Russian).

14. Drincha V.M.. Tsench Yu.S. Fundamentals and prospects for the technologies development for post-harvest grain processing and seed preparation. Agricultural Machinery and Technologies. 2020. Vol. 14. N4. 17-25 (In English).

15. Izmaylov A.Yu., Lobachevskiy Ya.P., Beylis V.M., Tsench Yu.S. Innovatsionnaya sistema mashinno- tekh no logicheskogo obespecheniya predpriyatiy agropromyshlennogo kompleksa [Innovative system of machine and technological support of agroindustrial enterprises]. Part. 1. Innovatsionnaya sistema mashinno-tekhnologicheskogo obespecheniya sel’skokhozyaystvennykh predpriyatiy na dlitel’nuyu perspektivu. Мoscow: 2019. 228 (In Russian).

16. Drincha V.M., Tsench Yu.S. Evolyutsiya zerno- i semyaochistitel’noy tekhniki v Rossii [Evolution of grain and seed cleaning equipment in Russia]. Sel’skokhozyaystvennye mashiny i tekhnologii. 2021. Vol. 15. N1. 24-33 (In Russian).

17. Newton G.V., Newton V.G. Issledovanie effektivnosti klassifikatsii [Investigation of classification efficiency]. Trudy Vsesoyuznogo Doma uchenyh. Moscow. AS USSR. 1937. N2. 59-74 (In Russian).

18. Malis A.Ya, Demidov A.R. Mashiny dlya ochistki zerna vozdushnym potokom [Machines for cleaning grain by air flow]. Moscow. Mashgiz. 1962. 176 (In Russian).