ANALYSIS OF MAGNETIC FIELD DISTRIBUTION IN MATRIX OF MAGNETIC SEPARATOR WITH LAMELLAR POLYGRADIENT MEDIUM

  • Iryna Shvedchykova Volodymyr Dahl East Ukrainian National University, Ukraine
  • Julia Romanchenko Volodymyr Dahl East Ukrainian National University, Ukraine
  • Inna Nikitchenko Volodymyr Dahl East Ukrainian National University, Ukraine
Keywords: magnetic field, magnetic separator, force function, finite element method, similarity criterion

Abstract

The distribution of the magnetic field in the working zones of synthesized polygradient media is studied using a computational experiment. The distribution of the magnetic field is carried out by the numerical finite element method, realized with the help of the ELCUT program complex. It is substantiated that instead of studying the field distribution in the entire interpolar zone of arbitrary structure, it can limited by the field studies in a characteristic, periodically repeating region, taking into account its symmetry. For the studied structural compositions of polygradient media using the ELCUT program tools, two-dimensional geometric models of the working interpolar zones have been developed, taking into account generally accepted engineering assumptions.

A comparative analysis of the distribution of induction and force function of the magnetic field in the working gaps of the synthesized structures of a lamellar polygradient medium of a given configuration is performed.

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Author Biographies

Iryna Shvedchykova, Volodymyr Dahl East Ukrainian National University

Department of electrical engineering

Julia Romanchenko, Volodymyr Dahl East Ukrainian National University

Department of electrical engineering

Inna Nikitchenko, Volodymyr Dahl East Ukrainian National University

Department of electrical engineering

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ELCUT. Available at: http://elcut.ru/


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Published
2017-03-23
How to Cite
Shvedchykova, I., Romanchenko, J., & Nikitchenko, I. (2017). ANALYSIS OF MAGNETIC FIELD DISTRIBUTION IN MATRIX OF MAGNETIC SEPARATOR WITH LAMELLAR POLYGRADIENT MEDIUM. EUREKA: Physics and Engineering, (2), 40-46. https://doi.org/10.21303/2461-4262.2017.00295
Section
Mechanical Engineering