Simulating the process of operation of vortex layer electromagnetic apparatus with ferromagnetic working elements

Yaropud, Vitalii; Aliiev, Elchyn; Mazur, Ihor; Burlaka, Serhii

doi:10.15199/48.2023.09.11

Artykuł - szczegóły

Tytuł artykułu

Simulating the process of operation of vortex layer electromagnetic apparatus with ferromagnetic working elements

Autorzy

Yaropud Vitalii , Aliiev Elchyn , Mazur Ihor , Burlaka Serhii

Wybrane pełne teksty z tego czasopisma

http://pe.org.pl/

Identyfikatory

DOI

10.15199/48.2023.09.11

Warianty tytułu

Symulacja procesu działania aparatury elektromagnetycznej warstwy wirowej z ferromagnetycznymi elementami roboczymi

Języki publikacji

Abstrakty

The article presents the results of the simulation of the work process of the electromagnetic apparatus of the vortex layer with ferromagnetic working elements on the example of the processing of liquid pig manure. As a result of analytical studies of the process of interaction of cylindrical ferromagnetic elements with a magnetic field in the working chamber of the vortex layer apparatus, the appropriate physical and mathematical apparatus was improved, which is the basis of numerical modeling in the STAR-CCM+ software package.

W artykule przedstawiono wyniki symulacji procesu pracy aparatury elektromagnetycznej warstwy wirowej z ferromagnetycznymi elementami roboczymi na przykładzie procesu przetwarzania gnojowicy świńskiej. W wyniku badań analitycznych procesu oddziaływania cylindrycznych elementów ferromagnetycznych z polem magnetycznym w komorze roboczej aparatu warstwy wirowej ulepszono odpowiednią aparaturę fizyko-matematyczną, która jest podstawą modelowania numerycznego w programie STAR-CCM+ pakiet oprogramowania.

Słowa kluczowe

simulation electromagnetic field vortex layer apparatu ferromagnet processing liquid manure

symulacja pole elektromagnetyczne aparat warstwy wirowej ferromagnes obróbka gnojowica

Wydawca

Wydawnictwo SIGMA-NOT

Czasopismo

Przegląd Elektrotechniczny

Rocznik

2023

Tom

R. 99, nr 9

Strony

64--71

Opis fizyczny

Bibliogr. 23 poz., rys.

Twórcy

autor

Yaropud Vitalii

yaropud77@gmail.com

Vinnytsia National Agrarian University, str. Soniachna, 3, 21008, Vinnytsia, Ukraine

https://orcid.org/0000-0003-0502-1356

autor

Aliiev Elchyn

aliev@meta.ua

Dnipro State Agrarian and Economic University, Serhii Efremov Str., 25, 49600, Dnipro, Ukraine

https://orcid.org/0000-0003-4006-8803

autor

Mazur Ihor

mazurigorm77@gmail.com

Vinnytsia National Agrarian University, str. Soniachna, 3, 21008, Vinnytsia, Ukraine

https://orcid.org/0000-0001-6619-810X

autor

Burlaka Serhii

ipserhiy@gmail.com

Vinnytsia National Agrarian University, str. Soniachna, 3, 21008, Vinnytsia, Ukraine

https://orcid.org/0000-0002-4079-4867

Bibliografia

[1] Yaropud V.M., Hrytsun A.V., Mazur I.M. (2022). Promising technologies and technical means of processing liquid manure on pig farms. Vibrations in engineering and technology. 2022. No. 1 (104). P. 98-105.
[2] Oberemok V. M., Nikytenko M. I. (2012). Electromagnetic devices with ferromagnetic working elements. Intensification of technological processes in industrial wastewater treatment: monograph. Poltava: PUET. 318 p.
[3] Aliiev E., Pavlenko S., Golub G., Bielka O. (2022).Research of mechanized process of organic waste composting. Agraarteadus, Journal of Agricultural Science, XXXIII (1): 21– 32. DOI: 10.15159/jas.22.04
[4] Aliiev E., Pavlenko S., Aliieva O., Morhun O. Accelerated biothermal composting of manure-compost mixture. Agraarteadus, Journal of Agricultural Science, 2021, XXXII (2): 169–181. DOI: 10.15159/jas.21.30
[5] Kobets A.S., Naumenko M.M., Ponomarenko N.O., Kharytonov M.M., Velychko O.P., Yaropud V.M. Design substantiation of the three-tier centrifugal type mineral fertilizers spreader. INMATEH - Agricultural Engineering. 2017. Vol. 53, no.3. P. 13-20.
[6] Yaropud V. (2021). Analytical Study of the Automatic Ventilation System for the Intake of Polluted Air from the Pigsty. Scientific Horizons. Vol. 24. No. 3. P.19-27.
[7] Paziuk V.M., Liubin M.V., Yaropud V.M., Tokarchuk O.A., Tokarchuk D.M. Research on the rational regimes of wheat seeds drying. INMATEH - Agricultural Engineering. 2018. Vol. 56. no.3. P. 39-48.
[8] Yaropud V., Kupchuk I., Burlaka S., Poberezhets J., Babyn I. (2022). Experimental studies of design-and-technological parameters of heat exchanger. Przeglad Elektrotechniczny. 2022. Vol. 98, № 10. P. 57-60.
[9] Gunko I., Babyn I., Aliiev E., Yaropud V., Hrytsun A. Research into operating modes of the air injector of the milking parlor flushing system. U.P.B. Sci. Bull., Series D. 2021. Vol. 83, Iss. 2, P. 297-310.
[10] Apparatus of a vortex layer with direct current electromagnets: utility model patent UA 146107: B02C 13/02, B02C 13/12, B02C 17/10. No. u 2020 05204; statement 12.08.2020; published 01/20/2021, Bulletin No. 3. 8 p.
[11] Aliev, E.B., Bandura, V.M., Pryshliak, V.M., Yaropud, V.M., Trukhanska, O.O. (2018). Modeling of mechanical and technological processes of the agricultural industry. INMATEH – Agricultural Engineering. Vol. 54, Nr. 1. P. 95-104 – ISSN 2068 – 4215.
[12] Shevchenko I. Aliiev E. (2020). Improving theefficiency ofthe process ofcontinuous flowmixing of bulkcomponents. Eastern European Journal of Enterprise Technologies. 6/1 (108). P. 6- 13. DOI: 10.15587/1729-4061.2020.216409
[13] Aliiev E., Maliehin R., Ivliev V., Aliieva O. (2021).Simulation of the process of cavitation treatment of liquid feed
[14] Kupchuk I., Yaropud V., Hraniak V., Poberezhets J., Tokarchuk O., Hontar V., Didyk A. (2021).Multicriteria compromise optimization of feed grain grinding process. Przegląd Elektrotechniczny. Vol. 97, № 11. P. 179-183.
[15] Yaropud V., Hunko I., Aliiev E., Kupchuk I. (2021).Justification of the mechatronic system for pigsty microclimate maintenance. Agraarteadus. Vol. 32, № 2. P. 341-351.
[16] Rutkevych, V., Kupchuk, I., Yaropud, V., Hraniak, V., Burlaka, S. Numerical simulation of the liquid distribution problem by an adaptive flow distributor. Przeglad Elektrotechnicznythis link is disabled. 2022. 98 (2), P. 64-69.
[17] Ibragimov R.A., Korolev E.V., Deberdeev T.R., Leksin V.V. (2019). Energy parameters of the binder during activation in the vortex layer apparatus. Materials Science Forum. 945. P. 98- 103. DOI: 10.4028/www.scientific.net/MSF.945.98
[18] Honcharuk I., Kupchuk I., Yaropud V., Kravets R., Burlaka S., Hraniak V., Poberezhets Ju., Rutkevych V. (2022). Mathematical modeling and creation of algorithms for analyzing the ranges of the amplitude-frequency response of a vibrating rotary crusher in the software Mathcad. Przeglad Elektrotechniczny. 2022. Vol. 98 (9). Р. 14-20.
[19] Bozorth R. M. (1993). Ferromagnetism. Wiley-IEEE Press. 992 p.
[20] Jamnani Dinesh. (2009). Modelling and Simulation of a Single Particle in Laminar Flow Regime of a Newtonian Liquid. Excerpt from the Proceedings of the COMSOL Conference 2009 Bangalore P. 1-9.
[21] Nail A. Gumerov, Ramani Duraiswami. (1998).Modeling of particle motion in viscous swirl flow between two porous cylinders Proceedings of FEDSM’98 1998 ASME Fluids Engineering Division Summer Meeting June 21-25,1998, Washington, DC. P. 1-8.
[22] Johnson K.L. (1987). Contact Mechanics. Cambridge University Press. 1987. 434 p.
[23] Pertti Broas. (2001). Advantages and problems of CAVE visualisation for design purposes. Trans. VTT Symposium “Virtual prototyping”. Espoo, Finland, February 1 st. pp. 73–81

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-5215f5bc-eae5-444a-8ec9-2c85f01a054f