AUTOMATED CALCULATIONS OF THE DYNAMICS OF TURBOGENERATOR ELECTROMAGNETIC PROCESSES IN SOFTWARE ENVIRONMENT FEMM

Authors

  • V. I. Milykh National Technical University "Kharkiv Polytechnic Institute", Ukraine
  • N. V. Polyakova National Technical University "Kharkiv Polytechnic Institute", Ukraine

DOI:

https://doi.org/10.20998/2074-272X.2015.6.04

Keywords:

program FEMM, turbogenerator, magnetic field, electromagnetic processes, dynamics of changes, automated calculations, Lua script

Abstract

Attention is paid to the popular FEMM (Finite Element Method Magnetics) program which is effective in the numerical calculations of the magnetic fields of electrical machines. The principles of the automated calculations providing the analysis of the dynamics of electromagnetic processes in turbo-generators are presented. This is realized in the form of a script on the algorithmic language Lua integrated with FEMM. The temporal functions of electromagnetic quantities are obtained by multi-position calculations of the magnetic field with ensuring its rotation together with the turbo-generator rotor. The developed program is universal in terms of the geometry and dimensions of turbo-generators, as well as the modes of their work with a minimum of input data in numerical form. This paper shows "extraction" of discrete temporal functions: the magnetic flux linkage of the phase stator winding; forces acting on the current-carrying and ferromagnetic elements of the structure; the magnetic induction at the fixed points; electromagnetic moment. This list can be expanded as part of the created program, as well as the use of the program can be extended to other types of electrical machines. The obtaining of a change period of any functions is provided by rotating the rotor to 60°.

References

Meeker D. Finite Element Method Magnetics. FEMM 4.2 32 bit 11 Oct 2010 Self-Installing Executable. Available at: www.femm.info/wiki/OldVersions (accessed 10 March 2014).

Milykh V.I., Polyakova N.V. Numerically-field calculations of the electromagnetic parameters of turbogenerators. Visnyk NTU «KhPI» – Bulletin of NTU «KhPІ», 2014, no.38(1081), pp. 3-18. (Rus).

Milykh V.I., Polyakova N.V. Automated formation of calculation models of turbogenerators for software environment FEMM. Elektrotekhnіka і elektromekhanіka – Electrical engineering & electromechanics, 2015, no.4, pp. 7-14. (Rus).

Milykh V.I., Polyakova N.V. Dynamics of force action in turbogenerators with different tooth-slot structures in nominal mode. Tekhnichna elektrodynamika – Technical electrodynamics, 2014, no.3, pp. 56-63. (Rus).

Milykh V.I., Polyakova N.V. Dynamic power and electromagnetic processes in turbogenerator. Elektrika – Electrician, 2015, no.1, pp. 24-28. (Rus).

Milykh V.I., Polyakova N.V. Theoretical and harmonic analysis of magnetic fields in the active zone of a turbogenerator under load conditions. Elektrotekhnіka і elektromekhanіka – Electrical engineering & electromechanics, 2013, no.6, pp. 40-45. (Rus).

Titov V.V., Hutoreckij G.M., Zagorodnaja G.A., Vartan'jan G.P., Zaslavskij D.I., Smotrov I.A. Turbogeneratory [Turbogenerators]. Leningrad, Energiia Publ., 1967. 895 p. (Rus).

Milykh V.I., Polyakova N.V. A system of directions and phase relationships for electromagnetic parameters at numerical calculations of magnetic fields in a turbogenerator. Elektrotekhnіka і elektromekhanіka – Electrical engineering & electromechanics, 2011, no.5, pp. 33-38. (Rus).

Milykh V.I., Polyakova N.V. Organization of numerical calculation of turbogenerator magnetic field under load with specified output parameters control. Elektrotekhnіka і elektromekhanіka – Electrical engineering & electromechanics, 2012, no.1, pp. 36-41. (Rus).

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Published

2015-11-26

How to Cite

Milykh, V. I., & Polyakova, N. V. (2015). AUTOMATED CALCULATIONS OF THE DYNAMICS OF TURBOGENERATOR ELECTROMAGNETIC PROCESSES IN SOFTWARE ENVIRONMENT FEMM. Electrical Engineering & Electromechanics, (6), 24–30. https://doi.org/10.20998/2074-272X.2015.6.04

Issue

No. 6 (2015)

Section

Electrical Machines and Apparatus

License

Copyright (c) 2015 V. I. Milykh, N. V. Polyakova

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