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Experimental Equipment for Investigation of Soybean Storage with Active Ventilation

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article investigates and substantiates the operating modes of a container-modular equipment with active ventilation, such as specified (real) productivity, power consumption of the conveying process, as well as the use of a progressive method of controlling the humidity and temperature in soybean storage volume. Experimental equipment is developed which adequately simulates the proposed technology for soybean storage with active ventilation for the calculated data verification. The experiments confirm that the proposed experimental equipment makes it possible to adequately simulate the process of soybean storage with active ventilation and conduct experiments with the regulation of basic parameters such as productivity, power consumption, humidity, etc. using modern methods, devices and digital technologies. Experimental results are presented. Along with this, using the “Strazh Klimat” software, humidity and temperature are monitored during the experiments. Experimental data are obtained by the use of which it is possible to establish the dependence of the conveying height on the air flow velocity.
Rocznik
Strony
117--127
Opis fizyczny
Bibliogr. 35 poz., rys., tab.
Twórcy
  • Kazakh National Agrarian University, Abay Avenue, 8, Almaty, 050010, Kazakhstan
  • Kazakh National Agrarian University, Abay Avenue, 8, Almaty, 050010, Kazakhstan
  • University of Chemical Technology and Metallurgy, Kliment Ohridski Blvd., 8, 1756 Sofia, Bulgaria
  • Kazakh National Agrarian University, Abay Avenue, 8, Almaty, 050010, Kazakhstan
  • Kazakh National Agrarian University, Abay Avenue, 8, Almaty, 050010, Kazakhstan
  • Almaty University of Power Engineering and Telecommunications, Almaty, 050013, Kazakhstan
Bibliografia
  • 1. Aniskin V.I. 1972. Theory and technology of drying and temporary preservation of grain by active ventilation. Moscow, VIM.
  • 2. Asoiro F.U. and Chidebeluq J.C. 2014. Effect of moisture content on aerodynamic properties of corn seeds (Zea mays). Journal of Agricultural Engineering and Technology, 22(4), 56–65.
  • 3. Atyhanov А.К., Duisenova S.T., & Karaivanov D.P. 2018. Development of equipment for the storage of soybeans with active ventilation. Mechanization in Agriculture & Conserving of the Resources, 64(1), 8–10.
  • 4. Atykhanov A., Duisenova S., & Karaivanov D. 2019. Container-modular equipment for the storage of soybeans with active ventilation for farms of Kazakhstan. Eurasian Journal of Biosciences, 13(2), 1057–1065.
  • 5. Atykhanov A., Karaivanov D., Kassymbayev B., & Kolev D. 2015. A fruit drying mathematical model. International Journal of Pure and Applied Mathematics, 101(2), 281–288.
  • 6. Atykhanov A.K., Karaivanov D.P., & Duisenova S.T. 2018. Equipment for storage of grain material with active ventilation. Patent KZ U 3135 A01F 25/00, (24.09.2018).
  • 7. Bokusheva R., Finger R., Fischler M., Berlin R., Marín Y., Pérez F., & Paiz F. 2012. Factors determining the adoption and impact of a postharvest storage technology. Food Secur., 4, 279–293.
  • 8. Chang C.S., Converse H.H., & Steele J.L. 1993. Modeling of temperature of grain during storage with aeration. Trans. ASAE. -St. Joseph(Mich.), 36(2), 509–519.
  • 9. Chi Y.H., Ahn J.-E., Yun D.-J., Lee S.Y., Liu T.-X., & Zhu-Salzman K. 2011. Changes in oxygen and carbon dioxide environment alter gene expression of cowpea bruchids. J. Insect Physiol., 57, 220–230.
  • 10. Duisenova S., Atykhanov A., & Karaivanov D. 2019. Justification of the parameters of a pneumatic conveyor for active ventilation of soybean during storage. MATEC Web of Conferences, 287 (6th International BAPT Conference “Power Transmissions 2019”). DOI: https://doi.org/10.1051/matecconf/201928704004.
  • 11. Fleurat-Lessard F. 2017. Integrated management of the risks of stored grain spoilage by seedborne fungi and contamination by storage mould mycotoxins – An update. J. Stored Prod. Res., 71, 22–40.
  • 12. GOST 13586.5. 2015. Grain. Method for determination of moisture content.
  • 13. Jangurazov B.O. and Jangurazov K.B. 2013. Save the Golden grain of Kazakhstan. Almaty: Aleyron.
  • 14. Kalinushkin M.P., Orlovsky Z.E., & Segal I.S. 1961. Pneumatic transport in construction. Moscow: Stroizdat.
  • 15. Kamanula J., Sileshi G.W., Belmain S.R., Sola P., Mvumi B.M., Nyirenda G.K.C., Nyirenda S.P., & Stevenson P.C. 2010. Farmers’ insect pest management practices and pesticidal plant use in the protection of stored maize and beans in Southern Africa. Int. J. Pest Manag., 57, 41–49.
  • 16. Kasumov N. 2014. The determination of the average values of energy intensity labor of different categories of workers depending on the physical activity, Machinery and equipment for the village, 5, 27–29.
  • 17. Kazakov A.P. 1966. Pneumatic transport. Device, theory and calculation. Gorky: Volgo-Vyatka book publishing house.
  • 18. Kazanina M.A. 1988. Processing and storage of agricultural production. Minsk: Uradzhay.
  • 19. Lamond W.J. and Graham R. 1993. The relationship between the equilibrium moisture content of grass mixtures and the temperature and humidity of the air. Journal of Agricultural Engineering Research, 52(4), 327–335.
  • 20. Loveykin V.S., & Kostin A. 2012. Multimass model of the motion of the scraper conveyor considering dissipative forces. Scientific Papers (branch of engineering, construction). PoltNTU, 1(31), 35–43.
  • 21. MAK – Ministry of Agriculture of the Kazakhstan. 2015. On approval of the rules for storage of grain. Order of the Minister of Agriculture of the Republic of Kazakhstan dated June 26, 2015, No. 11839.
  • 22. Martyanova A.Y. 2017. Improving the methods for calculating vacuum deducting systems in cement and dry building mixtures plants. Ph.D. thesis, Saint-Petersburg State University of Architecture and Civil Engineering, Russian Federation.
  • 23. Monitoring system Alarm-Climate. http://softron.com.ua/
  • 24. Navarro S. 2006. Modified atmospheres for the control of stored-product insects and mites. In Insect Management for Food Storage and Processing; Elsevier: Amsterdam, The Netherlands. 105–146.
  • 25. Parimala K., Subramanian S., Mahalinga Kannan S., & Vijayalakshmi K. 2013. Seed storage techniques – a primer. CIKS, Chennai, India.
  • 26. Polat R., Atay U., & Saglam C. 2006. Some Physical and Aerodynamic Properties of Soybean. Journal of Agronomy, 5(1), 74–78.
  • 27. Sakun V.A. 1974. Drying and active ventilation of grain and green feed. Moscow, Kolos.
  • 28. Silva J.B., Carrão-Panizzi M.C., & Prudencio S.H. 2009. Chemical and physical composition of graintype and food-type soybean for food processing. Pesqui Agropecu Bras., 44(11), 777–784.
  • 29. Singh G. 2010. The Soybean: Botany, production and uses. CABI, Wallingford, UK.
  • 30. Turaev N.S, Brus I.D., & Kantaev A.S. 2015. Calculation of pneumatic conveying installations. Tomsk, Polytechnic University of Tomsk Publisher.
  • 31. Vasilev A.N. 1986. Statistical characteristics of atmospheric parameters for active seed ventilation. Automation and computers in agricultural production. Proceedings of V.P. Grachenkin MIISP, 77–82.
  • 32. Velocity of an air flow at vertical pneumo transport. https://chem21.info/info/1606838/
  • 33. Voskresenskiy V.E. 2008. Pneumatic conveying, dust collection, and ventilation systems at woodworking plants. Theory and practice. Politekhnika, Saint-Petersburg.
  • 34. Yukish A.E. and Ilina O.A. 2009. Machinery and technology of grain storage. DeLi, Moscow.
  • 35. Zhikharev E.A 1959. Experimental study of the nature of particle motion in pneumatic transport pipelines. Engineering physics journal, 2(2), 25–31.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e398185b-f70e-449b-b6be-6f7fba346313
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