Disturbances of the Normal Operation of Kosovo Power System Regarding Atmospheric Discharges
Authors: B. Prebreza, I. Krasniqi, G. Kabashi, G. Pula, N. Avdiu
Abstract:
This paper discusses aspects of outages in the electric transmission network in the Kosovo Power System caused by the atmospheric discharges.
Frequency and location of the atmospheric discharges in Kosovo territory will be provided by a lightning location system ALARM (Automated Lightning Alert and Risk Management) and from the data from the Meteorological Department in Prishtina International Airport. These data will be used to make comparisons with the actual outages registered in the Kosovo Power System from the Kosovo Transmission, systems and market operator (KOSTT) during a specific time period.
The lines with the worst performance determined, regarding the atmospheric discharges, will be choose for further discussions in terms of over voltages caused by the direct or indirect lightning strokes.
Recommendations for protection in terms of insulator coordination and surge arresters will be given at the end and in this stage dynamic simulation will take part.
Keywords: Atmospheric discharges, dynamic simulations, Kosovo Power System, surge arresters.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1088506
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1840References:
[1] L. L. Grigsby, “Power systems”, CRC Press, New York, 2006, Chapter 6.
[2] ABB Surge Arresters – Buyer’s Guide, Edition 6, 2008 – 08.
[3] J. Krasniqi and G. Latifi, “Teknika e tensioneve të larta” , Universiteti i Prishtinës, Prishtinë, 1996, pp. 177–186.
[4] J. C. Das, “Transients in Electrical Systems-Analysis, Recognition and Mitigation”, Mc Graw Hill, New York, 2009, pp.91-121.
[5] M. S. Naidu and V. Kamaraju, “High Voltage Engineering”, second edition, Mc Graw Hill, 1995.
[6] L. Van Der Sluis, “Transients in Power systems”, John Wiley&Sons, 2001, Chapter 7.
[7] H. Ortiz, C. Avendano, H. Ibanez and F. Roman, “Modeling of metaloxide distribution surge arresters with an intentionally connected series gap”.
[8] Ch. M. Ong, “Dynamic Simulation of electric machinery using MATLAB/SIMULINK”, Prentice Hall, New Yersey, 1998.