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Tryby energooszczędnego działania systemów elektromechanicznych w liniach produkcyjnych czyszczenia ziarna
Języki publikacji
Abstrakty
The research was aimed at reducing the power consumption for grain cleaning by using energy-saving modes in the electromechanical systems of grain cleaning units. Specific consumption of active energy per production unit was adopted as a criterion for assessing energy-saving operation modes. The applied method of mathematical experiment planning (MEP) reduced the number of experiments to a minimum to obtain a reliable mathematical model of the research object. To determine the optimal specific power consumption, a theoretical method was developed to rebuild the mathematical model. Thus, the minimum specific power consumption of grain cleaning production lines was obtained, which allowed developing science-based rates of power usage that allow energy savings up to 8-10%.
Badania miały na celu zmniejszenie zużycia energii elektrycznej w układach elektromechanicznych linii produkcyjnych czyszczenia ziarna poprzez zastosowanie energooszczędnych trybów pracy. Wpływ czynników energetycznych na jednostkowe zużycie energii elektrycznej badano metodą matematycznego planowania eksperymentu (MEP). Zastosowano jednostkowe zużycie energii czynnej na jednostkę produkcji jako kryterium oceny energooszczędnych trybów pracy. Badania przeprowadzono metodą MEP. Umożliwiło to przeprowadzenie minimalnej liczby badań i uzyskanie wiarygodnego modelu matematycznego obiektu badań. Opracowano teoretyczną metodę restrukturyzacji modelu matematycznego w celu wyznaczenia optymalnej wartości jednostkowego poboru mocy. Zaproponowana technika pozwoliła na uzyskanie minimalnego jednostkowego poboru mocy linii do czyszczenia ziarna oraz opracowanie naukowo uzasadnionych wskaźników zużycia energii elektrycznej. Daje to oszczędności energii sięgające 8-10%.
Czasopismo
Rocznik
Tom
Strony
51--64
Opis fizyczny
Bibliogr. 37 poz., wykr.
Twórcy
autor
- Department of Electrical Engineering and Elmecromechanics named after Professor V.V. Ovcharov, Dmytro Motornyi Tavria State Agrotechnological University
autor
- Department of Machines Application in Agriculture, Dmytro Motornyi Tavria State Agrotechnological University, B. Khmelnitskogo Ave. 18, Melitopol, 72310, Ukraine
autor
- Department of Electrical Engineering and Elmecromechanics named after Professor V.V. Ovcharov, Dmytro Motornyi Tavria State Agrotechnological University
autor
- Department of Electrical Engineering and Elmecromechanics named after Professor V.V. Ovcharov, Dmytro Motornyi Tavria State Agrotechnological University
autor
- Department of Electrical Engineering and Elmecromechanics named after Professor V.V. Ovcharov, Dmytro Motornyi Tavria State Agrotechnological University
autor
- Mechanical and Technological Faculty, National University of life and environmental sciences of Ukraine, Kyiv, Ukraine
autor
- Faculty of Engineering and Technology, Higher Educational Institution "Podillia State University", Kamianets-Podilskyi, Ukraine
autor
- Vo Kucher Corp, USA
autor
- Department of Production Engineering, Logistics and Applied Computer Science, University of Agriculture in Krakow, Krakow, Poland
Bibliografia
- Abdel-Hadi, A., Rahman Salem, A., Abbas, A., Qandil, M., Amano, R. (2021). Study of energy saving analysis for different industries. Journal of Energy Resources Technology, Transactions of the ASME, 143(5), 1-9.
- Aipov, R., Linenko, A., Badretdinov, I., Tuktarov, M., Akchurin, S. (2020). Research of the work of the sieve mill of a grain-cleaning machine with a linear asynchronous drive. Mathematical Biosciences and Engineering, 17(4), 4348-4363.
- 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), 529-534.
- Bilgin, B., Liang, J., Terzic, M., Dong, J., Rodriguez, R., Trickett, E., Emadi, A. (2019). Modeling and Analysis of Electric Motors: State-of-the-Art Review. IEEE Transactions on Transportation Electrification, 5(3), 602-617.
- Boac, J., Ambrose, R., Casada, M., Maghirang, R., Maier, D. (2014). Applications of Discrete Element Method in Modeling of Grain Postharvest Operations. Food Engineering Reviews, 6(4), 128-149.
- Bortolaia, L.A., Andrighetto, P.L., Benatti, M. (2008). Technical evaluation of a suction pneumatic grain conveyor. Ciencia Rural, 38(2), 526-529.
- Bredykhin, V., Gurskyi, P., Alfyorov, O., Bredykhina, K., Pak, A. (2021). Improving the Mechanicalmathematical Model of Grain Mass Separation in A Fluidized Bed. Eastern-European Journal of Enterprise Technologies. Vol. 3, 79-86.
- Choszcz, D., Reszczyński, P., Kolankowska, E., Konopka, S., Lipiński, A. (2020). The Effect of Selected Factors on Separation Efficiency in a Pneumatic Conical Separator. Sustainability, 12(7), 3051.
- Cieślik, S. (2021). Mathematical modeling of the dynamics of linear electrical systems with parallel calculations. Energies, 14, 102.
- Didur, V., Masjutkin, E., Postnikova, M., Maslovskij, V. (2008). Scientific substantiation of specific energy consumption during grain cleaning by the method of mathematical experiment planning. Pratsi instytutu elektrodynamiky NAN Ukrainy, 19, 94-98.
- Drincha, V., Stjagov, V., Shahsaidov, B., Ratenkov, S. (2002). Problems and prospects of using ZAV units and KZS complexes. Traktory i sel'skohozjajstvennye mashiny, 3, 31-33.
- Gembicki, J. (2016). Energy efficiency in the agricultural and food industry illustrated with the example of the feed production plant. 1st International Conference on the Sustainable Energy аnd Environment Development, 10. 00138.
- Jiang, S.L., Zhang, L. (2019). Energy-Oriented Scheduling for Hybrid Flow Shop with Limited Buffers Through Efficient Multi-Objective Optimization. IEEE ACCESS, 7, 34477-34487.
- Jin, H., Hu, S., Xie, B., Yan, Y., Yang, M., Zhou, F. (2021). Experimental optimization for cleaning parameters and field application of cartridge filter in bulk grain loading. Powder Technology, 378A, 421-429.
- Kharchenko, S., Kovalishin, S., Zavgorodniy, A., Kharchenko, F., Mikhaylov, Y. (2019). Effective sifting of flat seeds through sieve. INMATEH-Agricultural Engineering, 58(2), 17-26.
- Kiktev, N., Lendiel, T., Vasilenkov, V., Kapralуuk, O., Hutsol, T., Glowacki, S., Kuboń, M., Kowalczyk, Z. (2021). Automated Microclimate Regulation in Agricultural Facilities Using the Air Curtain System. Sensors, 21, 8182.
- Kiurchev, S., Verkholantseva, V., Kiurcheva, L., Hutsol, T., Semenyshyna, I. (2021). Study of Changes in Currant During Fast Freezing. Environment. Technologies. Resources. Proceedings of the International Scientific and Practical Conference, 1, 113-116.
- Kovalenko, N., Kovalenko, V., Hutsol, T., Ievstafiieva, Y., Polishchuk, A. (2021). Economic Efficiency and Internal Competitive Advantages of Grain Production in The Central Region of Ukraine. Agricultural Engineering, 1, 51-62.
- Kroulík, M., Hůla, J. Rybka, A. Honzík, I. (2016). Pneumatic conveying characteristics of seeds in a vertical ascending airstream. Research in Agricultural Engineering, 62(2), 56-63.
- Kupchuk, I., Solona, O., Derevenko, I., Tverdokhlib, I. (2018). Verification of the mathematical model of the energy consumption drive for vibrating disc crusher. INMATEH-Agricultural Engineering, 55(2), 113-120.
- Li, C. (2018). Theoretical analysis of energy transfer and conversion in grain drying process. Transactions of the Chinese Society of Agricultural Engineering, 34(19), 1-8.
- Linenko, A., Khalilov, B., Kamalov, T., Tuktarov, M., Syrtlanov, D. (2021). Effective technical ways to improve the vibro-centrifugal separator electric drive for grain cleaning. Journal of Agricultural Engineering, 52(2), 1136.
- Linenko, A., Tuktarov, M., Aipov, R., Baynazarov, V. (2017). Analysis of pulsed operating mode of linear induction drive of grain cleaning machine. Proceedings of The International Conference Actual Issues of Mechanical Engineering, 133, 420-424.
- Lutsiak, V., Hutsol, T., Kovalenko, N., Kwaśniewski, D., Kowalczyk, Z., Belei, S., Marusei, T. (2021). Enterprise Activity Modeling in Walnut Sector in Ukraine. Sustainability, 13, 13027.
- Mikhailov, E., Postnikova, M., Zadosnaia, N., Afanasyev, O. (2019). Methodological Aspects of Determining Parameters of a Scalper-Type Air-Sieved Separator Airflow. Modern Development Paths of Agricultural Production. Trends and Innovations. Cham: Springer International, 1, 133-137.
- Muratov, D., Kravchenko, E., Sukhoveeva, A., Andreeva, O. (2020). Innovative study on pneumatic separation of grain heap and economic feasibility of design versions. E3S Web of Conferences: 8th Innovative Technologies in Science and Education, ITSE, 210, 05010.
- Nazar'jan, G., Postnikova, M., Karpova, A. (2012). Solving optimization problems for research objects by planning a mathematical experiment. Melitopol', 68.
- Nesterenko, A., Leshchenko, S., Vasylkovskyi, O., Petrenko, D. (2019). Justification of Technological Parameters of the Grain Separator. Design, production and exploitation of agricultural machines, 49, 34-42.
- Panasiewicz, M., Zawislak, K., Kusinska, E., Sobczak, P. (2008). Purification and separation of loose material in pneumatic system with vertical air stream. TEKA Komisji Motoryzacji Energetyzacji Rolnictwa, 8, 171-176.
- Postnikova, M. (2008). Development of scientifically substantiated norms of energy consumption at grain processing at grain points]. Visnyk Natsionalnoho tekhnichnoho universytetu “KhPI”. Problemy avtomatyzovanoho elektropryvodu. Teoriia i praktyka, 30, 511-512.
- Postnikova, M. (2011). Energy-saving modes of operation of electromechanical grain processing systems at grain stations. Candidate’s thesis. Melitopol', 22.
- Postnikova, М., Mikhailov, E., Nesterchuk, D., Rechina, O. (2019). Energy Saving in the Technological Process of the Grain Grinding. In: Nadykto V. (eds) Modern Development Paths of Agricultural Production. Springer, Cham., 395-403.
- Soldatenko, L., Hornishnyi, O. (2018). Clarification of the methods used for calculating power of sieve separators. Grain products and Mixed Fodder’s, 18(4), 47-50.
- Soldatenko, L., Ostrovkyi, I. (2019). Improvement of the collector output device of the disk separators. Grain products and Mixed Fodder’s, 19(2), 48-50.
- Tryhuba, A., Bashynsky, O., Hutsol, T., Rozkosz, A., Prokopova, O. (2020). Justification of Parameters of the Energy Supply System of Agricultural Enterprises with Using Wind Power Installations. 6th International Conference – Renewable Energy Sources (ICoRES 2019). E3S WebConf, 154, 06001.
- Wang, GY., Wu, WF., Qiao, FX., Fu, DP., Liu, Z., Han, F. (2020). Research on an electric energysaving grain drying system with internal circulation of the drying medium. Journal of Food Process Engineering, 43(9), e13476.
- Zhang, H.H., Wang, Z.Y., Liu, Q., Ma, P.F. (2014). Design and Simulation Research on Mechanical Ventilation System for Small Underground Granary. Materials Research and Applications, 875-877, 2148-2151.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ba24b700-fe8c-477b-b604-bc63cd928587