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A New Grinding Technology Using an Electromagnetic Mill – Testing the Efficiency of the Process

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article presents a prototype device for grinding and mixing materials called electromagnetic mill. It further shows the experimental research covering the selection of the optimal design parameters of the internal circuit inductor with the working chamber and the grinding elements with regard to the maximum effectiveness of grinding. The research also addresses how the efficiency of the process is influenced by the amount of grinding elements and the volume of the shredded material arranged in the working chamber of the mill, as well as the shape and dimensions of those elements.
Twórcy
autor
  • Institute of Electrical Engineering and Electrotechnology, Lublin University of Technology, 20-618 Lublin, ul. Nadbystrzycka 38a
Bibliografia
  • 1. Anuszczyk J. W., Pluta A. W. 2009. Soft ferromagnetic in the rotating fields. Research and properties. WNT. Warsaw. (in Polish).
  • 2. Baron B., Spałek D. 2006. Selected problems of the electromagnetic field theory. Publishing House of the Silesian University of Technology. Gliwice. (in Polish).
  • 3. Binczyk F., Polechoński W., Skrzypek S. J., Piątkowski J. 1999. An application of high energy mill for milling and mechanical alloying of powder materials. Materials Engineering. R. XX. nr 3-4, p. 180-185. (in Polish).
  • 4. Boldea I. 1996. Reluctance synchronous machines and driver. Oxford Science Publications. Oxford.
  • 5. Bondar T., Syomin Y., Syomina A. 2011. Research of water-coal fuel preparation by the method of rational loading of ball mill. Тeka. Commision of Motorization and Energetics in Agriculture – 2011, Vol. XI B, 5-11.
  • 6. Buczaj M., Buczaj A. 2012. The use of labview environment for the building of the grain Dust control system in grain mill. Econtechmod. An International Quarterly Journal – 2012, Vol. 1, No. 1, 21–26.
  • 7. Cioska A. 2008. Analysis of the magnetic field in the air gap of asymmetric induction machines. Publishing House of the Silesian University of Technology. Gliwice. (in Polish).
  • 8. Ciszek T. 2009. Technological systems of milling. Vol. 1. Magraf S. C. Bydgoszcz. (in Polish).
  • 9. Drzymała Z. 1992. Research and fundamental construction of the special mills. PWN. Warsaw. (in Polish).
  • 10. Khomeriki G. P. 1968. Electromagnetic Ball Mill. United States Patent Office. 27 August 1968.
  • 11. Koch R., Noworyta A. 1998. Mechanical processes in chemical engineering. WNT. Warsaw. (in Polish).
  • 12. Lazzari A., Cartoceti A., Steinort E. 1979. Device for propelling grinding bodies in a grinding mill. United States Patent Office. 16 January 1979.
  • 13. Lowrison G. Ch. 1974. Crushing and Grinding, Butterworths. London.
  • 14. Matulewicz W. 2008. Electrical Machines. Fundamentals. Publishing House of the Gdańsk University of Technology. Gdańsk. (in Polish).
  • 15. Mitew E. 2005. Electrical Machines. Volume 1 i 2. Publishing House of the Radom University of Technology. Radom. (in Polish).
  • 16. Polechoński W., Najzarek Z. 1997. Multipole reactor and its use in processes for producing fuels from chemical waste. I International Conference „Fuel From Waste ‘97”. Ustroń, 15-17 October 1997, 61-66. (in Polish).
  • 17. PN-ISO 565:2000. Test sieves - Metal wire cloth, perforated metal plate and electroformed sheet - Nominal sizes of openings. (in Polish).
  • 18. PN-ISO 2395:2000. Test sieves and test sieving - Vocabulary. (in Polish).
  • 19. PN-ISO 3310-2:2000. Test sieves - Technical requirements and testing - Part 2: Test sieves of perforated metal plate. (in Polish).
  • 20 PN-ISO 3310-3:2001. Test sieves - Technical requirements and testing - Part 3: Test sieves of electroformed sheets. (in Polish).
  • 21. PN-ISO 2591-1:2000. Test sieving - Part 1: Methods using test sieves of woven wire cloth and perforated metal plate. (in Polish).
  • 22. Pyrhönen J., Jokinen T., Hrabovcová V. 2008. Design of Rotating Electrical Machines. WILEY.
  • 23. Rawa H. 2001. Electricity and magnetism in technique. PWN. Warsaw. (in Polish).
  • 24. Savchenko V., A. Sinyavsky A. 2013. Impact voltage deviation on the technological characteristics of crushers. Econtechmod. An International Quarterly Journal – 2013, Vol. 2, No. 2. 37–40.
  • 25. Sosiński R., Szymanek P., Nowak W. 2006. Aspects of use of the electromagnetic mill for activating the fly ash. XIII International Conference „Ashes from Energetics”. Kraków, 6-8 November 2006, 175-187. (in Polish).
  • 26. Sosiński R. 2006. Development of the design methodology of three-phase inductors with explicit poles rotating field for electromagnetic mills. Dissertation. Częstochowa. (in Polish).
  • 27. Sosiński R., Szczypiorowski A., Szymanek P., Nowak W. 2007. Problems concerning the electromagnetic mill using. XIV International Conference „Ashes from Energetics”. Międzyzdroje, 17-19 October 2007, 95-105. (in Polish).
  • 28. Styła S., Pietrzyk W. 2016. Electromagnetic mill with a three-phase rotating field inductor. PATENT no. 221027, WUP 2/2016; Patent Application no. P.395321 (2011-06-17). (in Polish).
  • 29. Syomin Y., Bondar T. 2014. Theoretical study of the regularities of wet coal grinding in ball mills at the preparation of water-coal fuel. Teka. Commission of Motorization and Energetics in Agriculture – 2014. Vol. 14, No.1. 296-304.
  • 30. Taylor J. R. 1999. An introduction to error analysis. PWN. Warsaw. (in Polish).
  • 31. Zawada J. 2005. An introduction to the mechanics of machine crushing processes for jaw crushers. Publishing House of the Institute for Sustainable Technologies. Radom. (in Polish).
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5992b427-ea1f-40b5-8145-8c6ad0fc8836
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