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Energies 2019, 12, 2791 21 of 22 13. Falcão, A.F.; Gato, L.M.; Henriques, J.C.; Borges, J.E.; Pereiras, B.; Castro, F. A novel twin-rotor radial-inflow air turbine for oscillating-water-column wave energy converters. Energy 2015, 93, 2116–2125. [CrossRef] 14. Lopes, B.S.; Gato, L.M.; Falcão, A.F.; Henriques, J.C. Test results of a novel twin-rotor radial inflow self-rectifying air turbine for OWC wave energy converters. Energy 2019, 170, 869–879. [CrossRef] 15. Okuhara, S.; Takao, M.; Sato, H.; Takami, A.; Setoguchi, T. A Twin Unidirectional Impulse Turbine for Wave Energy Conversion—Effect of Fluidic Diode on the Performance. Open J. Fluid Dyn. 2014, 4, 433–439. [CrossRef] 16. Pereiras, B.; Valdez, P.; Castro, F. Numerical analysis of a unidirectional axial turbine for twin turbine configuration. Appl. Ocean Res. 2014, 47, 1–8. [CrossRef] 17. Setoguchi, T.; Takao, M. Current status of self rectifying air turbines for wave energy conversion. Energy Convers. Manag. 2006, 47, 2382–2396. [CrossRef] 18. Dudhgaonkar, P.V.; Jayashankar, V.; Jalihal, P.; Kedarnath, S.; Setoguchi, T.; Takao, M.; Nagata, S.; Toyota, K. Fluidic components for oscillating water column based wave energy plants. In Proceedings of the ASME-JSME-KSME 2011 Joint Fluids Engineering Conference, Hamamatsu, Japan, 24–29 July 2011; pp. 1979–1983. 19. Okuhara, S.; Takao, M.; Takami, A.; Setoguchi, T. A Twin Unidirectional Impulse Turbine for Wave Energy Conversion. Open J. Fluid Dyn. 2012, 2, 343–347. [CrossRef] 20. Takao, M.; Takami, A.; Okuhara, S.; Setoguchi, T. A twin unidirectional impulse turbine for wave energy conversion. J. Therm. Sci. 2011, 20, 394–397. [CrossRef] 21. Rodríguez, L.; Pereiras, B.; Fernández-Oro, J.; Castro, F. Viability of unidirectional radial turbines for twin-turbine configuration of OWC wave energy converters. Ocean Eng. 2018, 154, 288–297. [CrossRef] 22. Rodríguez, L.; Pereiras, B.; Fernández-Oro, J.; Castro, F. Optimization and experimental tests of a centrifugal turbine for an OWC device equipped with a twin turbines configuration. Energy 2019, 171, 710–720. [CrossRef] 23. Fleming, A.; MacFarlane, G.; Hunter, S.; Denniss, T. Power performance prediction for a vented oscillating water column wave energy converter with a unidirectional air turbine power take-off. In Proceedings of the 12th European Wave and Tidal Energy Conference (EWTEC), Cork, Ireland, 27 August–1 September 2017; pp. 1–7. 24. Ansarifard, N.; Kianejad, S.; Fleming, A.; Chai, S. A radial inflow air turbine design for a vented oscillating water column. Energy 2019, 166, 380–391. [CrossRef] 25. Falcão, A.F.; Henriques, J.C. Oscillating-water-column wave energy converters and air turbines: A review. Renew. Energy 2016, 85, 1391–1424. [CrossRef] 26. Raghunathan, S.; Setoguchi, T.; Kaneko, K. Aerodynamics of monoplane Wells turbine-a review. In Proceedings of the First International Offshore and Polar Engineering Conference, Edinburgh, UK, 11–16 August 1991. 27. Raghunathan, S.; Tan, C. Effect of blade profile on the performance of the Wells self-rectifying air turbine. Int. J. Heat Fluid Flow 1985, 6, 17–22. [CrossRef] 28. Gratton, T.; Ghisu, T.; Parks, G.; Cambuli, F.; Puddu, P. Optimization of blade profiles for the Wells turbine. Ocean Eng. 2018, 169, 202–214. [CrossRef] 29. Gomes, R.; Henriques, J.; Gato, L.; Falcão, A. Multi-point aerodynamic optimization of the rotor blade sections of an axial-flow impulse air turbine for wave energy conversion. Energy 2012, 45, 570–580. [CrossRef] 30. Mohamed, M.; Janiga, G.; Pap, E.; Thévenin, D. Multi-objective optimization of the airfoil shape of Wells turbine used for wave energy conversion. Energy 2011, 36, 438–446. [CrossRef] 31. Mohamed, M.H.; Shaaban, S. Numerical optimization of axial turbine with self-pitch-controlled blades used for wave energy conversion. Int. J. Energy Res. 2014, 38, 592–601. [CrossRef] 32. Halder, P.; Rhee, S.H.; Samad, A. Numerical optimization of Wells turbine for wave energy extraction. Int. J. Nav. Archit. Ocean Eng. 2017, 9, 11–24. [CrossRef] 33. Badhurshah, R.; Samad, A. Multiple surrogate based optimization of a bidirectional impulse turbine for wave energy conversion. Renew. Energy 2015, 74, 749–760. [CrossRef] 34. Ansarifard, N.; Fleming, A.; Henderson, A.; Kianejad, S.; Chai, S. Optimization Study on the Downstream Section of a Radial Inflow Turbine. In Proceedings of the 4th Asian Wave and Tidal Energy Conference (AWTEC), Taipei, Taiwan, 9–13 September 2018; pp. 1–11.PDF Image | Unidirectional Radial-Air-Turbine OWC Wave Energy Converters
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