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Zbornik radova, Elektrotehnički institut "Nikola Tesla"
2017, vol. 27, br. 27, str. 47-56
jezik rada: srpski
vrsta rada: stručni članak
doi:10.5937/zeint27-15534

Creative Commons License 4.0
Optimizacija parametara dinamičkog modela MOP-a primenom programskog alata ATP/EMTP
Univerzitet u Beogradu, Elektrotehnički institut 'Nikola Tesla', Beograd

e-adresa: ranko.jasika@ieent.org, jmrvic@ieent.org

Sažetak

U radu je demonstriran postupak estimacije parametara dinamičkog modela metaloksidnog odvodnika prenapona primenom genetskog algoritma, implementiranog u optimizacionom modulu grafičkog predprocesora (ATPDraw) programskog alata ATP/EMTP. Prikazane su prednosti novih opcija ATPDraw-a koje omogućavaju optimizaciju parametara zadatog električnog kola. Postupak optimizacije je primenjen na dva frekventno zavisna modela odvodnika. Na kraju rada dato je poređenje rezultata dobijenih pre i nakon optimizacije.

Ključne reči

Reference

*** (1992) Modeling of metal oxide surge arresters. IEEE Transactions on Power Delivery, 7(1): 302-309
Abravesh, M.M., Sheikholeslami, A., Abravesh, H., Yazdani, A.M. (2016) Estimation of parameters of metal-oxide surge arrester models using Big Bang-Big Crunch and Hybrid Big Bang-Big Crunch algorithms. Journal of Artificial Intelligence and Data Mining, 4(2): 235-241
Bayadi, A. (2006) Parameters Calculation of ZnO Surge Arrester Models by Genetic Algorithms. Journal of Electrical Systems, 2-3, pp. 162-171
Christodoulou, C.A., Gonos, I.F., Stathopulos, I.A. (2011) Estimation of the parameters of metal oxide gapless surge arrester equivalent circuit models using genetic algorithm. Electric Power Systems Research, 81(10): 1881-1886
Evangelides, P.F., Christodoulou, C.A., Gonos, I.F., Stathopulos, I.A. (2010) Parameters' selection for metal oxide surge arresters models using genetic algorithm. u: 30th International Conference on Lightning Protection (ICLP), Institute of Electrical and Electronics Engineers (IEEE), str. 1-5
Fernandez, F., Diaz, R. (2001) Metal-oxide surge arrester model for fast transient simulations. u: International Conference On Power System Transients, IPST'01, 20-24 June, paper 144
Hans-Kristian, H. (2009) Daniel Radu, Delcho Penkov, Optimization of cost functions in ATPDraw. u: European EMTP User Group meeting At Delft, September, Netherlands
Meister, A., Shayani, R., de Oliveira, M. (2012) Comparison of metal oxide surge arrester models in overvoltage studies. International Journal of Engineering, Science and Technology, 3(11): 35-45
Nafar, M., Gharehpetian, G.B., Niknam, T. (2011) A novel parameter estimation method for metal oxide surge arrester models. Sadhana, 36(6): 941-961
Pinceti, P., Giannettoni, M. (1999) A simplified model for zinc oxide surge arresters. IEEE Transactions on Power Delivery, 14(2): 393-398