Statistical analysis of power output from a single heaving buoy WEC for different sea states
Tóm tắt
Từ khóa
Tài liệu tham khảo
R. Henderson, Design, simulation, and testing of a novel hydraulic power take-off system for the Pelamis wave energy converter. Renew. Energy 31, 271–283 (2006)
Jens Peter Kofoed, Peter Frigaard, Erik Friis-Madsen, Hans Chr Sorensen, and and, Prototype testing of the wave energy converter wave dragon. Renew. Energy 31, 181–189 (2006)
A.P. McCabe, A. Bradshaw, J.A.C. Meadowcroft, G. Aggidis, Developments in the design of the PS Frog Mk 5 wave energy converter. Renew. Energy 31, 141–151 (2006)
D. Elwood, C. Solomon, J. Prudell, C. Stillinger, A. Jouanne, T. Brekken, A. Brown, R. Paaschs, Design, construction, and ocean testing of a taut-moored dual-body wave energy converter with a linear generator power take-off. Renew. Energy 35, 348–354 (2010)
M. Leijon, Hans Bernhoff, Olov Ågren, Jan Isberg, Jan Sundberg, Marcus Berg, Karl Erik Karlsson, Arne Wolfbrandt, Multiphysics simulation of wave energy to electric energy conversion by permanent magnet linear generator. IEEE Trans. Energy Convers. 20(1), 219–224 (2005)
K. Nilsson, M. Grabbe, K. Yuen, M. Leijon, A direct drive generator for marine current energy conversion—first experimental results. in 7th European Wave and Tidal Energy Conference, 11–13 September (2007)
M. Leijon, C. Boström, O. Danielsson, S. Gustafsson, K. Haikonen, O. Langhamer, E. Strömstedt, M. Stålberg, J. Sundberg, O. Svensson, S. Tyrberg, R. Waters, Wave energy from the North Sea: experiences from the Lysekil research site. Surv. Geophys. 29, 221–240 (2008)
E. Strömstedt, A. Savin, H. Heino, K. Antbrams, K. Haikonen, T, Götschl, Project WESA (Wave Energy for a Sustainable Archipelago)—a Single Heaving Buoy Wave Energy Converter Operating and Surviving Ice Interaction in the Baltic Sea. in Proceedings of the 10th European Wave and Tidal Energy Conference (EWTEC 2013), Aalborg, 2–5 Sept (2013)
M.A. Stelzer, R.P. Joshi, Evaluation of the wave energy generation from buoy heave response based on linear generator concepts. J. Renew. Sustain. Energy 4, 063137 (2012)
A.P. McCabe, G.A. Aggidis, Optimum mean power output of a point-absorber wave energy converter in irregular waves. Proc. Inst. Mech. Eng. Part A J. Power Energy 223, 773–781 (2009)
Jan Isberg, Mikael Eriksson, Mats Leijon, Transport of energy in polychromatic fluid gravity waves. J. Eng. Math. 64, 15–23 (2009)
J. Tissandier, A. Babarit, A.H. Clement, Study of the smoothing effect on the power production in an array of SEAREV wave energy converters. in Proceedings of the 18th International Offshore and Polar Engineering Conference, Vancouver, 6–11 July (2008)
A. Babarit, B. Borgarino, P. Ferrant, A. Clement, Assessment of the influence of the distance between two wave energy converters on energy production. IET Renew. Power Gener. 4, 592–601 (2010)
M. Rahm, O. Svensson, C. Bostrom, R. Waters, M. Leijon, Experimental results from the operation of aggregated wave energy converters. IET Renew. Power Gener. 6, 149–160 (2012)
J. Engström, M. Eriksson, M. Göteman, J. Isberg, M. Leijon, Performance of large arrays of point absorbing direct-driven wave energy converters. J. Appl. Phys. 204502, 1–6 (2015)
M. Göteman, J. Engström, M. Eriksson, J. Isberg, M. Leijon, Methods of reducing power fluctuations in wave energy parks. J. Renew. Sustain. Energy 6, 043103 (2014)
M.A. Mueller, N.J. Baker, E. Spooner, Electrical Aspects of Direct Drive Wave Energy Converters. in 4th European Wave Energy Conference, Aalborg (2000)