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Australian Journal of Electrical and Electronics Engineering Volume 4, 2008 - Issue 2
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Technical Paper

Investigation on the factors affecting inrush current of transformers based on finite element modelling

M R FeyziFaculty of Electrical and Computer Engineering, University of Tabriz, Tabriz, IranCorrespondence[email protected]
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M B B SharifianFaculty of Electrical and Computer Engineering, University of Tabriz, Tabriz, IranView further author information
Pages 101-107 | Received 07 Mar 2006, Published online: 22 Sep 2015

References

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  • Cui, Y., Abdulsalam, S.G., Chen, S. & Xu, W. 2005, “A sequential phase energisation method for transformer inrush current reduction, Part I: Simulation and experimental results”, IEEE Trans. Power Delivery, Vol. 20, pp. 943-949.
  • Gaudreau, A., Picher, P., Bolduc, L. & Coutu, A. 2002, “No-load losses in transformer under overexcitation/inrush-current conditions: Tests and a new model”, IEEE Trans. on Power Delivery, Vol. 17, No. 4, pp. 1009- 1017.
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  • Richard, N. & Szylowicz, N. 1994, “Comparison between a permeance network model and a 2D finite element model for the inrush current computation in a three phase transformer”, IEEE Trans. on Magnetics, Vol. 30, No. 5, pp. 3232-3235.
  • Sng, Y. H. & Wang, Q. 2000, “A wavelet-based method to discriminate between inrush current and internal fault”, PowerCon 2000, Australia, pp. 927-931.
  • Yacamini, R. & Bronzeado, H. 1994, “Transformer inrush calculations using a coupled electromagnetic model”, IEE Proc., Science, Measurements and Technology, Vol. 141, No. 6, pp. 491-498.
  • Yufeng, H., Deshu, C., Xianggen, Y. & Zhe, Z. 2003, “A novel theory for identifying transformer magnetizing inrush current”, Transmission and Distribution Conference and Exposition, IEEE PES, Vol. 1, pp. 274-278.

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