MODEL AND SIMULATIONS OF WIND TURBINE IN ATP/EMTP AND MATLAB/SIMULINK IN CASE OF ATMOSPHERIC DISCHARGE
DOI:
https://doi.org/10.24867/05BE44KomosarKeywords:
Atmospheric Discharge, Wind Turbine, ATP/EMTP, Matlab/SimulinkAbstract
In this paper, the impact of atmospheric discharge on a wind turbine is presented. Wind turbine is modelled using two different software tools ATP/EMTP and Matlab/Simulink. The current and voltage distribution during lightning impulse current strikes are observed and results are compared.
References
[1] A. V. Rakov and A. M. Uman, “Lightning. Physics and effects”, United Kingdom, Cambridge University Press, 2003.
[2] H. Weifei, “Advanced Wind Turbine Technology”, New York: Springer, 2018.
[3] P. Hasse, J. Wiesinger and W. Zischank, “Handbuch für Blitzschutz und Erdung“, Berlin, 2006.
[4] F. Heidler, "Analytische Blitzstromfunktion zur LEMP-Berechnung", 18th ICLP Intern. Conf. on Lightning Protection, Munich, 1985.
[5] H. K. H. LászlóPrikler, “ATPDRAW version 5.6 for Windows 9x/NT/2000/XP/Vista, Users' Manual”, ATPDraw version 5.6, 2009.
[6] "The MathWorks, Simulink® Getting Started Guide" United States, 2016.
[2] H. Weifei, “Advanced Wind Turbine Technology”, New York: Springer, 2018.
[3] P. Hasse, J. Wiesinger and W. Zischank, “Handbuch für Blitzschutz und Erdung“, Berlin, 2006.
[4] F. Heidler, "Analytische Blitzstromfunktion zur LEMP-Berechnung", 18th ICLP Intern. Conf. on Lightning Protection, Munich, 1985.
[5] H. K. H. LászlóPrikler, “ATPDRAW version 5.6 for Windows 9x/NT/2000/XP/Vista, Users' Manual”, ATPDraw version 5.6, 2009.
[6] "The MathWorks, Simulink® Getting Started Guide" United States, 2016.
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Published
2019-11-07
Issue
Section
Electrotechnical and Computer Engineering
