Mazdak Ebadi


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  2. [2] J. Das, Analysis and control of large-shunt-capacitor-bank switching transients, IEEE Transactions on Industry Applications, 41(6), 2005, 1444–1451.
  3. [3] T. Ghanbari, E. Farjah, and A. Zandnia, Solid-state transient limiter for capacitor bank switching transients, IET Generation, Transmission & Distribution, 7(11), 2013, 1272–1277.
  4. [4] P. Jintakosonwit, S. Srianthumrong, and P. Jintagosonwit, Implementation and performance of an anti-resonance hybrid delta-connected capacitor bank for power factor correction, IEEE Transactions on Power Electronics, 22(6), 2007, 2543– 2551.
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  6. [6] P. Issouribehere, F. Issouribehere, G.A. Barbera, and D. Gomez, Measurements and studies of harmonics and switching, transients in large HV shunt capacitor banks, Proc. IEEE Power Engineering Society General Meeting, Tampa, FL, 2007.
  7. [7] M. Joorabian and M. Ebadi, Locating static VAR compensator (SVC) based on small signal stability of power system, International Review of Electrical Engineering, 4(4), 2009, 635–641.
  8. [8] M. Joorabian, N.F. Ramandi, and M. Ebadi, Optimal location of static VAR compensator (SVC) based on small signal stability of power system, Proc. IEEE 2nd Int. Power and Energy Conf., Johor Bahru, 2008, 1333–1338.
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  15. [15] G. Benmouyal, H. Bilodeau, S. Chano, and G. Sybille, New algorithm for protection of capacitor banks exposed to harmonic over-voltages, IEEE Transactions on Power Delivery, 8(3), 1993, 898–904.
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  17. [17] B.M. Kalesar and J.B. Noshahr, Capacitor bank behaviour of cement factory in presence of supra-harmonics resulted from switching full-power frequency converter of generator, CIRED-Open Access Proceedings Journal, 2017(1), 2017, 535–538.
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  19. [19] I.S. Association, IEEE Guide for Application of Shunt Power Capacitors, IEEE Standard 1036, 2010.

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