Ilknur Colak∗ and Derya A. Kocabas∗∗


  1. [1] R.H. Charlier and C.W. Finkl, Ocean Energy (Berlin, Germany: Springer, 2009).
  2. [2] G. Malara, A. Romolo, V. Fiamma, and F. Area, On the modelling of Water Column Oscillations in U-OWC energy harvesters, Renewable Energy, 101, 2017, 964–972.
  3. [3] J.C.C. Henriques, L.M.C. Gato, J.M. Lemos, et al., Peakpower control of a grid-integrated oscillating water column wave energy converter, Energy, 109, 2016, 378–390.
  4. [4] R.P.F. Gomes, J.C.C. Henriques, L.M.C. Gato, et al., Wave power extraction of a heaving floating oscillating water column in a wave channel, Renewable Energy, 99, 2016, 1262–1275.
  5. [5] L. Isoldi, J.d.A.M. Grimmler, M. Letzow, J.A. Souza, et al., 3D numerical analysis about the shape influence of the hydropneumatic chamber in an Oscillating Water Column (OWC), Thermal Engineering, 14(1), 2015, 3–8.
  6. [6] W. Sheng, A. Lewis, and R. Alcom, Numerical studies of a floating cylindrical OWC WEC, Ocean Renewable Energy, Rio de Janerio, Brazil, 1–6 July, 2012.
  7. [7] K.M. Sunil, S. Purwar, and N. Kishor, An optimal and nonlinear speed control of oscillating water column wave energy plant with wells turbine and DFIG, International Journal of Renewable Energy Research, 6(3), 2016, 995–1006.
  8. [8] F. Fay, J.C. Henriques, M. Marcos, and E. Robles, Review of control strategies for oscillating water column wave energy converters, EWTEC, Nantes, France, 6–11, September 2015.
  9. [9] S. Ceballos, J. Rea, E. Robles, et al., Control strategies for combining local energy storage with wells turbine oscillating water column devices, Renewable Energy, 83, 1097–1109, 2015.
  10. [10] J. Prendergast, M. Li, and W. Sheng, A Study on the Effects of Wave Spectra on Wave Energy Conversions, IEEE Journal of Oceanic Engineering, 45(1), 271–283, 2020.
  11. [11] (accessed June 2019).
  12. [12] J.D. Nolte and R.C. Ertekin, Wave Power Calculations for a Wave Energy Conversion Device Connected to a Drogue, Journal of Renewable and Sustainable Energy, 6, 013117, January 2014.
  13. [13] P. Bocotti, Wave Mechanics for Ocean Engineering, Elsevier Science Ltd., Amsterdam, vol. 64, 2000.
  14. [14] M. Alberdi, M. Amundarain, A.J. Garrido, et al., Complementary control of oscillating water column-based wave energy conversion plants to improve the instantaneous power output, IEEE Transactions on Energy Conversion, 26(4), 1021–1032, 2011.
  15. [15] F. Wu, P. Ju, X.P. Zhang, et al., Modeling, control strategy, and power conditioning for direct-drive wave energy conversion to operate with power grid, Proceedings of IEEE, 101(4), 925–941, 2013.
  16. [16] P. Sudheer and V. Sandeep, Performance analysis of parallel inverters for accurate proportional power sharing in single phase microgrid, International Journal of Power and Energy Systems, 2019, doi: 10.2316/J.2019.203-0170.
  17. [17] Bernoulli Equation, hbase/pber.html (accessed December 2018).
  18. [18] P. Halder, S.H. Rhee, and A. Samad, Numerical optimization of wells turbine for wave energy extraction, International Journal of Naval Architecture and Ocean Engineering, 9, 11–24, 2016, doi:10.1016.
  19. [19] Z. Carija, L. Kranjcevic, V. Banic, and M. Cavrak, Numerical analyses of wells turbine for wave power conversion, Engineering Review, 32(3), 2012, 141–146.
  20. [20] M. Schweizer, T. Friedli, and J.W. Kolar, Comparative evaluation of advanced three-phase three-level inverter/converter topologies against two-level systems, IEEE Transactions on Industrial Electronics, 60(12), 5515–5527, 2013.
  21. [21] H.A. Hamed, A.F. Abdou, E. El-kholy, and E.H.E. Bayoumi, New current references calculation for dual vector controlled three level active rectifiers under asymmetrical voltage operation, International Journal of Industrial Electronics and Drives, 2(4), 251–261, 2015.
  22. [22] S. Kuppusamy, R. Palanisamy, and V. Krishnasamy, Hysteresis control 3-level SI-NPC inverter with wind energy system, International Journal of Power Electronics and Drive Systems, 8, 2017, 1764–1770.
  23. [23] M.R.A. Pahlavani and Y.K. Vaneqi, Comparing space vector pulse width modulation switching strategies in threelevel NPC inverter from power quality point of view, International Review on Modelling and Simulations, 5(5), 2012, 1894–1909.
  24. [24] I. Colak and D.A. Kocabas, Space vector modulation controlled three-level converter for ocean wave energy conversion, MELECON 2016, Lemesos, Cyprus, 18–20 April, 2016.
  25. [25] M. Anand and R. Senthilkumar, Analysis of neutral point clamped multilevel inverter using space vector modulation technique, IJETR, 3(2), 32–37, February 2015. ISSN: 23210869.
  26. [26] I. Colak, D.A. Kocabas, DC link balancing of space vector modulation controlled three-level converter for ocean wave energy conversion, RTUCON 2016, Riga, Latvia, 13–14 October, 2016.
  27. [27] S. Mekhilef, H.I. Khudhur, and H. Belkamel, DC link capacitor voltage balancing in three level neutral point clamped inverter, COMPEL 2012, Kyoto, Japan, June 10, 2012.
  28. [28] 519-2014 – IEEE recommended practice and requirements for harmonic control in electric power systems, 268

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