Harold R. Chamorro, Camilo A. Ordóñez, Elkin L. Cantor, and Gustavo A. Ramos


  1. [1] A. El Mofty and K. Youssef, Industrial power quality problems, 16th Int. Conf. Exhibition on Electricity Distribution, 2, 2001, 5.
  2. [2] R.S. Herrera, P. Salmeron, and H. Kim, Instantaneous reactive power theory applied to active power filter compensation: different approaches, assessment, and experimental results, IEEE Transactions on Industrial Electronics, 55(1), 2008, 184–196.
  3. [3] N. Gothelf and A. Lewald, Harmonic filters for industrial applications technology procurement report from the swedish national energy administration, Int. Conf. Exhibition on Electricity Distribution, 2, 2001, 168.
  4. [4] W. Gray and F. Haydock, Industrial power quality considerations when installing adjustable speed drive systems, Cement Industry Technical Conference, 32, 4–9 June 1995, 17–33.
  5. [5] M.H. Shwehdi, A.H. Mantawy, J.M. Bakhashwain, and Y. El Hawi, Harmonic flow study and evaluation of a petrochemical plant in Saudi Arabia, Large Engineering Systems Conference on Power Engineering, 2002, 165–172.
  6. [6] P. Mattavelli and A.M. Stankovic, Energy-based compensation strategy for active filters, IEEE Conference on Decision and Control, 5, 1999, 4656–4661.
  7. [7] H. Akagi, New trends in active filters for power conditioning, IEEE Transactions on Industry Applications, 32(6), 1996, 1312–1322.
  8. [8] E.H. Watanabe, M. Aredes, J.L. Alfonso, J.G. Pinto, L.F.C. Monteiro, and H. Akagi, Instantaneous p–q power theory for control of compensators in microgrids, International School on Nonsinusoidal Currents and Compensation, Lagow, 2010, 17–26.
  9. [9] T.M. Blooming and D.J. Carnovale, Application of IEEE STD 519-1992 harmonic limits, Pulp and Paper Industry Technical Conference, 18–23 June 2006, 1–9.
  10. [10] S.M. Halpin, Harmonic limits in IEEE Std. 519: from recommendations to requirements, IEEE Power and Energy Society General Meeting – Conversion and Delivery of Electrical Energy in the 21st Century, 20–24 July 2008, 1–2.
  11. [11] Huann-Keng Chiang, Bor-Ren Lin, Kai-Tsang Yang, and Kuan-Wei Wu, Hybrid active power filter for power quality compensation, International Conference on Power Electronics and Drives Systems, 2, 28 October–01 November 2005, 949– 954.
  12. [12] C.E. Becker, The new IEEE Standard 739: energy conservation and cost effective planning in industrial facilities, IEEE Transactions on Industry Applications, IA-21 (2), 1985, 464–468.
  13. [13] W.-J. Lee and R. Kenarangui, Energy management for motors, systems, and electrical equipment, IEEE Transactions on Industry Applications, 38(2), 2002, 602–607.
  14. [14] E. Marmolejo, E. Mendez, M.T. Torres, and G. Ramos, Power quality management model for the Colombian industrial sector, Power Systems Conference and Exposition, 1, 2004. IEEE PES, 10–13 October 2004, 17–21.
  15. [15] E. Marmolejo, C. Duque, M.T. Torres, G. Ramos, and A. Torres, Analysis of the prospects for distributed generation (DG) for Colombian electric power sector, Power Systems Conference and Exposition, 2, 10–13 October 2004, 807–814.
  16. [16] H.R. Chamorro and G. Ramos, Harmonic and power flow hybrid controller applied to VSC based HVDC stations, Transmission and Distribution Conference and Exposition: Latin America, 8–10 November 2010, 245–250.
  17. [17] J. Mazumdar and R.G. Harley, Determining IEEE 519 compliance of a customer in a power system, Power Electronics Specialists Conference, 17–21 June 2007, 2758–2764.
  18. [18] G.D. Marques, A comparison of active power filter control methods in unbalanced and non-sinusoidal conditions, Annual Conference of the IEEE Industrial Electronics Society, 1, 1998, 444–449.
  19. [19] G.A. Ramos, A. Torres, and M.A. Rios, Analysis of electrical industrial systems using probabilistic networks, IEEE Latin America Transactions, 8(5), 2010, 505–511.

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