A study ofpolygradient media structure regularities

Authors

  • Ирина Алексеевна Шведчикова Eastukrainian National University of Volodymyr Dahl 59 Soviet ave., Severodonetsk, Ukraine, 93400, Ukraine https://orcid.org/0000-0003-3005-7385
  • Игорь Анатольевич Луценко Kremenchuk Mykhailo Ostrohradskyi National University 20 Pershotravneva str., Kremenchuk, Ukraine, 39600, Ukraine https://orcid.org/0000-0003-0261-6602
  • Юлия Андреевна Романченко Eastukrainian National University of Volodymyr Dahl 59 Soviet ave., Severodonetsk, Ukraine, 93400, Ukraine https://orcid.org/0000-0001-6579-6474

DOI:

https://doi.org/10.15587/1729-4061.2015.47785

Keywords:

magnetic separator, poligradient medium, synthesis, genetic operator, generating structure

Abstract

We have proved that the choice of the structure of poligradient media is one of the most important stages in new designs of magnetic separators. Ferromagnetic solids are considered as generating elements of the internal structure of poligradient media, which are elementary monostructuresof various geometric forms that, in terms of genetic concepts, are the parental chromosomes. We have specified that the genetic synthesis algorithms are based on genetic synthesis operators—in particular, on the genetic operators of crossover, replication, mutation,and spatial inversion. We have proved that the problem of selecting a poligradient medium in the working bodies of the separator must be solved through structural synthesis and, in the future, taking into account the properties of the medium, also parametric synthesis. Using genetic operators, we have synthesized an inner structure of a poligradient medium, in which an elementary monostructure generating unit is an isosceles triangle-shaped plate. The reliability of the research findings has been confirmed.

Author Biographies

Ирина Алексеевна Шведчикова, Eastukrainian National University of Volodymyr Dahl 59 Soviet ave., Severodonetsk, Ukraine, 93400

Postgraduate student

Department of metrology and devices

Игорь Анатольевич Луценко, Kremenchuk Mykhailo Ostrohradskyi National University 20 Pershotravneva str., Kremenchuk, Ukraine, 39600

Associate professor, Doctor of technical sciences

Electronic devices department

Юлия Андреевна Романченко, Eastukrainian National University of Volodymyr Dahl 59 Soviet ave., Severodonetsk, Ukraine, 93400

Postgraduate student

Department of metrology and devices

References

  1. Zagirnyak, M. V., Branspiz, Yu. A., Shvedchikova, I. A. (2011). Magnitnye separatory. Problemy proektirovanija. Kiev: Tehnіka, 224.
  2. Oberteuffer, J. (1974). Magnetic separation: A review of principles, devices, and applications. IEEE Transactions on Magnetics, 10 (2), 223–238. doi: 10.1109/tmag.1974.1058315
  3. Svoboda, J. (1987). Magnetic Methods for the Treatment of minerals. Elsevier, 692.
  4. Unkelbach, K. H. (1990). Magnetic separators mode of operation and applicability for the separation of materials. KHD Humboldt Wedag AG, 87.
  5. Zagirnyak, M. (2008). Magnetic Separators. Proceedings of the seventeenth International Electrotechnical and Computer science Conference ERK, Portorož, 7–8.
  6. Zagirnyak, M. V., Volkonanin, E. E. (2014). Separacija nanochastic po frakcijam s ispol'zovaniem magnitnoj sistemy Faradeja. Izvestija vuzov. Jelektromehanika, 4, 30–34.
  7. Moeser, G. D., Roach, A. R., Green, W. H., Alan, T. (2004). Hatton High-Gradient Magnetic Separation of Coated Magnetic Nanoparticles. American Institute of Chemical Engineers, 50, 2835–2848.
  8. Tagunov, P. E., Tagunov, E. Y. (2012). Opredelenie silovyh harakteristik poligradientnoj sharikovoj sredy v magnitnom pole. Gornyj informacionno-analiticheskij bjulleten' MGGU, 2, 117–121.
  9. Kondratenko, I. P., Nekrasov, A. V., Volkanyn, E. E. (2012). Jelektrotehnicheskaja sistema s sostavnymi sterzhnjami dlja vysokogradientnoj magnitnoj separacii. Elektrotehnika i elektromehanika, 2, 38–41.
  10. Volkanyn, E. E., Nekrasov, A. V., Oksanych, A. P. (2012). Opredelenie balansa sil, dejstvujushhih na nanochasticu v jelektrotehnicheskoj sisteme magnitnoj separacii. Elektrotehnika i elektromehanika, 2, 28–31.
  11. Tolmachev, S. T., Bondarevskiy, S. L. (2012). Nekotorye voprosy poligradientnoj magnitnoj separacii. Elektromehanіchnі і energozberіgajuchі sistemi, 17, 31–36.
  12. Tolmachev, S. T., Bondarevskiy, S. L. (2013). Classification of heterogeneous structures and conditions of their doubly periodicity. Eastern-European Journal of Enterprise Technologies, 5/5 (65), 24–28. available at: http://journals.uran.ua/eejet/article/view/18108/15853
  13. Shinkarenko, V. F. (2002). Osnovy teorii' evoljucii' elektromehanichnyh system. Kiev: Naukova dumka, 288.
  14. Kuznetsov, J. N., Shinkarenko, V. F. (2012). Geneticheskij podhod k sozdaniju slozhnyh tehnicheskih sistem. Tehnologіchnі kompleksi, 1 (2), 21–29.
  15. Shvedchikova, I. A., Romanchenko, Y. A. (2014). Klassifikacija poligradientnyh magnitnyh separatorov. Vestnik NTU «HPI», 19, 64–76.
  16. Shvedchikova, I. A., Romanchenko, Y. A. (2015). Strukturno-sistemnyj analiz poligradientnyh magnitnyh separatorov. Praci Tavrijs'kogo derzhavnogo agrotehnichnogo universytetu, 2, 117–125.
  17. Shinkarenko, V. F., Zagirnyak, M. V., Shvedchikova, I. A. (2010). Structural-Systematic Approach in Magnetic Separators Design. Studies in Computational Intelligence, 327, 201–217. doi: 10.1007/978-3-642-16225-1_11
  18. Shinkarenko, V. F., Zagirnyak, M. V., Shvedchikova, I. A. (2010). Methods for using intertype homology for synthesizing new structural versions of magnetic separators. Russian Electrical Engineering, 81 (9), 504–508. doi: 10.3103/s1068371210090105
  19. Zagirnyak, M. V., Shvedchikova, I. A. (2010). Geneticheskij sintez struktur magnitnyh separatorov: Tehnicheskaja jelektrodinamika, 4, 43–47.
  20. Zagirnyak, M., Shvedchikova, I., Miljavec, D. (2011). Forming a genetic record of cylindrical magnetic separator structures. Przegląd elektrotechniczny (Electrical Review), 3, 220–223.
  21. Zagirnyak, M., Shvedchikova, I., Tkach, S. (2014). Automation design of multi-unit electromechanical structures of magnetic separators. Przegląd elektrotechniczny (Electrical Review), 12, 292–295.
  22. Shvedchikova, I. A., Romanchenko, Y. A. (2015). Elektromagnitnyj separator. Zajavka na Patent Ukrai'ny na korysnu model' u201504324 MKY3 V 03 S 1/00.

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Published

2015-08-19

How to Cite

Шведчикова, И. А., Луценко, И. А., & Романченко, Ю. А. (2015). A study ofpolygradient media structure regularities. Eastern-European Journal of Enterprise Technologies, 4(7(76), 62–67. https://doi.org/10.15587/1729-4061.2015.47785

Issue

Vol. 4 No. 7(76) (2015): Applied mechanics

Section

Applied mechanics

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Copyright (c) 2015 Юлия Андреевна Романченко, Игорь Анатольевич Луценко, Ирина Алексеевна Шведчикова

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