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The impact of electromagnetic radiation on the degradation of magnetic ferrofluids

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This article deals with magnetic nano-fluids, which are the part of transformer oil ITO 100 and their behavior is influenced by a permanent magnetic field. We performed an IRC analysis in the time domain on the three different samples. Measurements were made before and after radiation of an electromagnetic field. The main objective was to examine changes in the properties of the samples due to the influence of the electromagnetic field. The measurements depend on the orientation of the external magnetic field. This behavior occurs especially during the structuring of the nanoparticles in the sample exposed to the magnetic field. These processes change the polarization of the liquid because the nanoparticles concentration is contained in the fluid.
Rocznik
Strony
361--369
Opis fizyczny
Bibliogr. 19 poz., rys., wz.
Twórcy
autor
  • TUKE FEI, Department of Electric Power Engineering, Mäsiarska 74, 042 00 Košice, Slovakia
  • TUKE FEI, Department of Electric Power Engineering, Mäsiarska 74, 042 00 Košice, Slovakia
autor
  • TUKE FEI, Department of Electric Power Engineering, Mäsiarska 74, 042 00 Košice, Slovakia
autor
  • TUKE FEI, Department of Electric Power Engineering, Mäsiarska 74, 042 00 Košice, Slovakia
autor
  • TUKE FEI, Department of Electric Power Engineering, Mäsiarska 74, 042 00 Košice, Slovakia
autor
  • TUKE FEI, Department of Electric Power Engineering, Mäsiarska 74, 042 00 Košice, Slovakia
autor
  • TUKE FEI, Department of Electric Power Engineering, Mäsiarska 74, 042 00 Košice, Slovakia
autor
  • TUKE FEI, Department of Electric Power Engineering, Mäsiarska 74, 042 00 Košice, Slovakia
autor
  • TUKE SjF, Department of process and environmental engineering, Letna 9, 04200 Kosice, Slovakia
Bibliografia
  • [1] Wolny S., Adamowicz A., Lepich M., Influence of temperature and moisture level in paper oil insulation on the parameters of the Cole-Cole model, IEEE Transactions on Power delivery, vol. 29, no. 1, pp. 246-250 (2014).
  • [2] Cimbala R., Kurimský J., Kolcunová I., Determination of thermal ageing influence on rotating machine insulation system using dielectric spectroscopy, Przegląd Elektrotechniczny, vol. 87, no. 8, pp. 176-179 (2011).
  • [3] Dolník B., Electromagnetic compatibility, TU of Košice (in Slovak), monography, pp. 36-64 (2013).
  • [4] Timko M., Marton K., Király J., Cimbala R. et al., Magneto-dielectric properties of transformer oil based magnetic fluids in the frequency range up to 2 MHz, Magnetohydrodynamics, vol. 48, no. 2, pp. 427-434 (2012).
  • [5] Zbojovský J., Mészáros A., Medveď D., Simulation of electromagnetic fields propagation through the various materials, Proceedings of 15th International Scientific Conference on Electric Power Engineering (EPE), Brno, Czech Republic, pp. 257-260 (2014).
  • [6] Bica D., Preparation of magnetic fluids for various applications, Romanian Reports in Physics, vol. 47, pp. 265-272 (1995).
  • [7] Medveď D., Kanálik M., Addressing arrangement of the electromagnetic field in the vicinity of electric power lines, Elektroenergetika (in Slovak), vol. 8, no. 2, pp: 9-12 (2015).
  • [8] Liptai P., Lukáčová K., The electromagnetic fields near a microwave oven – measurement and analysis, Annals of Faculty Engineering Hunedoara – International Journal of Engineering, vol. 14, no. 1, pp. 83-86 (2016).
  • [9] Du Y., Mamishev A.V., Lesieutre B.C., Zahn M., Kang S.H., Moisture solubility for differently conditioned transformer oils, IEEE Transactions on Dielectrics and Electrical Insulation, vol. 8, no. 5, pp. 805-811 (2001).
  • [10] Petráš J., Balogh J., Džmura J., Overvoltage protection in high-frequency technology, Proceedings of 13th International Scientific Conference on Electric Power Engineering (EPE) (in Czech), Brno, Czech Republic, pp. 893-897 (2012).
  • [11] Zbojovský J. et al., Effect of shielding materials for electromagnetic field distribution, Proceedings of 7th International Scientific Symposium on Electrical Power Engineering (in Slovak), Stará Lesná, Slovak Republic, pp: 439-442 (2013).
  • [12] Cimbala R., Kolcunová I., Dedinska L., Cackova V., Thermal dependency of dielectric properties of liquid insulating materials, Proceedings of 11th International Scientific Conference on Electric Power Engineering (EPE), Brno, Czech Republic, pp. 743-747 (2010).
  • [13] Kanálik M., Kolcun M., Computation of harmonic flows in three-phase systems, Acta Electrotechnica et Informatica, vol. 7, no. 3, pp. 41-45 (2007).
  • [14] Liptai P., Measurement methodology and evaluation of high-frequency electromagnetic fields of base stations of mobile operators in populated areas Ukraine – EU, Modern Technology, Business and Law (in Slovak), pp. 306-309, (2016).
  • [15] Pavlík M., Kolcunová I., Dolník B., Kurimský J., Mészáros A., Medveď D., Kolcun M., Zbojovský J., Measuring of dependence of shielding effectiveness of wet materials on the frequency of electromagnetic field in the high frequency range, Acta Electrotechnica et Informatica, vol. 13, no. 3, pp. 12-16 (2013).
  • [16] Medveď D., Hirka O., Impact of electromagnetic fields in residential areas, Elektroenergetika, vol. 9, no. 2, pp. 13-16 (2016).
  • [17] Zbojovský J., Mészáros A., Kurimský P., Modelling the high frequency electromagnetic field propagation through the polystyrene, Proceedings of 8th International Scientific Symposium on Electrical Power Engineering, Stará Lesná, Slovak Republic, pp. 556-559 (2015).
  • [18] Marton K., Tomčo L., Cimbala R. et al., Magnetic fluid in ionizing electric field, Journal of Electrostatics, vol. 71, no. 3, pp. 467-470 (2013).
  • [19] Rajnak M., Timko M., Kopcansky P., Paulovicova K et al., Structure and viscosity of a transformer oil-based ferrofluid under an external electric field, Journal of Magnetism and Magnetic Materials 2016, doi: 10.1016/j.jmmm.2016.10.008
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-ed92a20c-6405-434d-aed9-c5fb2a97385e
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