Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:13
  • preuzimanja u poslednjih 30 dana:9

Sadržaj

članak: 7 od 17  
Back povratak na rezultate
2017, vol. 72, br. 6, str. 867-875
Određivanje optimalnih lokacija i snaga kondenzatorskih baterija u distributivnim mrežama u cilju smanjenja harmonika i poboljšanja naponskog profila primenom genetskog algoritma
Univerzitet u Prištini sa privremenim sedištem u Kosovskoj Mitrovici, Fakultet tehničkih nauka

e-adresamilos.milovanovic@pr.ac.rs
Projekat:
Razvoj modela male hidroelektrane za izolovano napajanje ribnjaka, i mikromreže sa različitim obnovljivim izvorima energije (MPNTR - 33046)

Ključne reči: kondenzatorska baterija; distributivna mreža; genetski algoritam; tokovi snaga; viši harmonici
Sažetak
U ovom radu je razmatran problem određivanja optimalnih lokacija i snaga kondenzatorskih baterija (KB) za kompenzaciju reaktivne snage u distributivnim mrežama u cilju redukcije viših harmonika i popravke naponskih prilika. Za rešavanje ovog nelinearnog višeciljnog optimizacionog problema sa ograničenjima predložen je genetski algoritam (GA). Detaljno je izložena metodologija proračuna tokova snaga za osnovni i za više harmonike od interesa i dati su modeli elemenata mreža u harmonijskim analizama. Predloženi postupak je uspešno testiran na standardnoj IEEE 33 test mreži, rešavanjem problema određivanja optimalnih lokacija i snaga KB za tri različite funkcije cilja. Proračun je pokazao efikasnost GA u rešavanju ovog kompleksnog problema.
Reference
*** (1999) European Standard EN 50160: Voltage characteristics of electricity supplied by public distribution systems
*** (1993) IEEE Standard 519-1992: IEEE Recommended practices and requirements for harmonic control in electric power systems. New York: IEEE
Archundia-Aranda, I., Mota-Palomino, R. O. (2014) Harmonic Penetration Method for Radial Distribution Networks. International Journal of Emerging Electric Power Systems, 15(2):
Arrillaga, J. (2003) NR Watson, Power System Harmonics. Christchurch, New Zealand: John Wiley & Sons, University of Canterbury, 2nd edition
Baran, M.E., Wu, F.F. (1989) Network reconfiguration in distribution systems for loss reduction and load balancing. IEEE Transactions on Power Delivery, 4(2): 1401-1407
Bayan, N. (1999) Harmonic Flow Analysis in Power Distribution Networks. Ontario: University of Windsor
Bonner, A., Grebe, T., Gunther, E., Hopkins, L., Marz, M.B., Mahseredjian, J., Miller, N.W., Omneyer, T.H., Rajagopalan, V., Ranade, S.J., Ribeiro, P.F., Shperling, B.R., Sims, T.R., Xu, W. (1996) Modeling and simulation of the propagation of harmonics in electric power networks. IEEE Trans. Power Deli, Part I & II, Vol. 11, No. 1, pp. 452-474
Dobrić, G., Žarković, M., Šošić, D. (2015) Fuzzy-based Monte Carlo simulation for harmonic load flow in distribution networks. IET Generation, Transmission & Distribution, 9(3): 267-275
Fuchs, E.F., Masoum, M.A.S. (2008) Power Quality in Power Systems and Electrical Machines. USA: Elsevier
Heydari, M., Hosseini, S.M., Gholamian, S.A. (2013) Optimal Placement and Sizing of Capacitor and Distributed Generation with Harmonic and Resonance Considerations Using Discrete Particle Swarm Optimization. International Journal of Intelligent Systems and Applications, 5(7): 42-49
Holland, J.H. (1992) Adaptation in natural and artificial systems. Cambridge, MA: Massachusetts Institute of Technology Press / MIT Press
Jeihouni, P., Safari, A., Sakhavati, A. (2011) A Multi Objective Genetic Algorithm for Capacitor Placement in Unbalanced and Harmonic Distorted Distribution Systems. International Journal on Technical and Physical Problems of Engineering (IJTPE), Vol. 4, No. 3, pp. 141-148
Mahela, O.P. (2012) Optimal Capacitor Placement Techniques in Transmission and Distribution Networks to Reduce Line Losses and Voltage Stability Enhancement: A Review. IOSR Journal of Electrical and Electronics Engineering, 3(4): 01-08
Niknam, T., Ranjbar, A.M., Arabian, H., Mirjafari, M. (2004) Optimal reactive power planning in harmonic distored power system using genetic algorithm. u: 2004 IEEE Region 10 Conference TENCON 2004., Institute of Electrical and Electronics Engineers (IEEE), str. 347-350
Radosavljević, J., Jevtić, M. (2013) Analiza distributivnih mreža sa distribuiranim generatorima. Kosovska Mitrovica: Univerzitet u Prištini, Fakultet tehničkih nauka
Shirmohammadi, D., Hong, H.W., Semlyen, A., Luo, G.X. (1988) A compensation-based power flow method for weakly meshed distribution and transmission networks. IEEE Transactions on Power Systems, vol. 3, br. 2, May, str. 753-762
Smith, B.C., Arrillaga, J., Wood, A.R., Watson, N.R. (1998) A review of iterative harmonic analysis for AC-DC power systems. IEEE Transactions on Power Delivery, 13(1): 180-185
Vuletic, J., Todorovski, M. (2015) Reduction of losses and harmonic distortion in distribution networks with different load models by placing shunt capacitors using integer genetic algorithm. Przeglad elektro-techniczny, R. 91 NR 6, pp. 84-87
 

O članku

jezik rada: srpski
vrsta rada: stručni članak
DOI: 10.5937/tehnika1706867M
objavljen u SCIndeksu: 08.01.2018.
Creative Commons License 4.0

Povezani članci

Nema povezanih članaka