Boroujeni S T, Milimonfared J, Ashabani M. Design, prototyping, and analysis of a novel tubular permanent- magnet linear machine[J]. IEEE Transactions on Magnetics, 2009, 45(12): 5405-5413.
[3]
Danielsson O, Eriksson M, Leijon M. Study of a longitudinal flux permanent magnet linear generator for wave energy converters[J]. International Journal of Energy Research, 2006, 30(14): 1130-1145.
Zhang Zhen, Xiao Yang, Chen Jin. Review of new wave energy conversion system based on linear generators[J]. Marine Electric & Electronic Engineering, 2010, 30(6): 1-5.
[6]
Prudell J, Stoddard M, Amon E, et al. A permanent- magnet tubular linear generator for ocean wave energy conversion[J]. IEEE Transactions on Industry Application, 2010, 46(6): 2392-2400.
Yuan bang, Yu Haitao, Hu Minqiang. Characteristics analysis of tubular linear generator with Halbach magnet array for wave converter[J]. Micromotors, 2011(2): 20-23.
[9]
Prudell J, Stoddard M, Brekken T K A, et al. A novel permanent magnet tubular linear generator for ocean wave energy[C]. Energy Conversion Congress and Exposition, San Jose, US, 2009: 3641-3646.
[10]
Vermaak R, Kamper M J. Novel permanent magnet linear generator topology for wave energy conversion [C]. 5th IET International Conference on Power Electronics, Machines and Drives, Brighton, UK, 2010: 1-6.
[11]
Seabased AB. A wave-power unit and generator comprising the wave-power unit, generation method and module system of linear generator for producing wave-power units: Swedish, EP1474607(B1) [P]. 2007-08-08.
[12]
Marine Power System Limited. Wave powered generator: WO2013068748(A3) [P]. 2013-10-17.
[13]
Seabased AB. A wave power unit, a buoy, use of a wave power unit and a method for producing electric energy: Swedish, EP2134960(A1) [P]. 2009-12-23.
Zhou Dejia, Zhao Zhengming, Yuan Liqiang, et al. Implementation of a photovoltaic grid-connected system based on improved maximum power point tracking[J]. Proceedings of the CSEE, 2008, 28(31): 94-100.
Tian Youfei, Li Xiaocong, Xu Junhua, et al. Nonlinear control strategy of variable-speed constant- frequency wind turbine driven doubly-fed induction generator for maximum wind energy capture[J]. Automation of Electric Power Systems, 2011(11): 27-32.
[21]
Tedeschi E, Molinas M. Impact of control strategies on the rating of electric power take off for wave energy conversion[C]. IEEE International Symposium on Industrial Electronics, Bari, Italy, 2010: 2406-2411.
[22]
Shek J K H, Macpherson D E, Mueller M A, et al. Reaction force control of a linear electrical generator for direct drive wave energy conversion[J]. IET Renewable Power Generation, 2007, 1(1): 17-24.
[23]
Valério D, Beirão P, Sá Da Costa J. Optimisation of wave energy extraction with the Archimedes Wave Swing[J]. Ocean Engineering, 2007, 34(17-18): 2330-2344.
[24]
Falnes J. Optimal control of oscillation of wave- energy converters[J]. International Journal of Offshore and Polar Engineering, 2002, 12(2): .
[25]
Thorburn K, Leijon M. Farm size comparison with analytical model of linear generator wave energy converters[J]. Ocean Engineering, 2007, 34(5-6): 908-916.
[26]
Wu F, Zhang X P, Ju P. Application of the battery energy storage in wave energy conversion system[C]. International Conference on Sustainable Power Generation and Supply, Nanjing, China, 2009: 1-4.
[27]
Glavin M E, Chan P K W, Armstrong S, et al. A stand-alone photovoltaic supercapacitor battery hybrid energy storage system[C]. 13th Power Electronics and Motion Control Conference, Poznan, Poland, 2008: 1688-1695.
[28]
Murray D B, Hayes J G, Egan M G, et al. Supercapacitor testing for power smoothing in a variable speed offshore wave energy converter[J]. IEEE Journal of Oceanic Engineering, 2012, 37(2): 301-308.
[29]
Zanxiang N, Xi X, Hu Y, et al. Direct drive wave energy converters integrated with a composite energy storage system[C]. International Conference on Electrical Machines and Systems, Beijing, China, 2011: 1-5.
Kang Qing, Xiao Xi, Nie Zanxiang, et al. An optimal control strategyf or output power of the directly driven wave power generation system[J]. Automation of Electric Power Systems, 2013, 37(3): 24-29.
[32]
Nie Zanxiang, Xiao Xi, Richard M. Emulation and control methods for direct drive linear wave energy converters[J]. IEEE Transactions on Industrial Informatics, 2013, 9(2): 790-798.
Cheng Youliang, Dang Yue, Wu Yingjie. Status and trends of the power generation from wave[J]. Applied Energy Technology, 2009(12): 26-30.
[36]
Clément A, Mccullen P, Falcão A, et al. Wave energy in Europe: current status and perspectives[J]. Renewable and Sustainable Energy Reviews, 2002, 6(5): 405-431.
[37]
中国国家统计局. 中国能源统计年鉴[G]. 北京: 中国统计出版社, 2008.
[38]
Stephen H Salter. Apparatus for use in the extraction of energy from waves on water: USA, US4134023(A) [P]. 1979-01-09.
[39]
Washio Y, Osawa H, Ogata T. The open sea tests of the offshore floating type wave power device "Mighty Whale"-characteristics of wave energy absorption and power generation[C]. IEEE Conference and Exhibition Oceans, 2001, 1: 579-585.
[40]
Dalton G J, Alcorn R, Lewis T. Case study feasibility analysis of the pelamis wave energy convertor in Ireland, Portugal and North America[J]. Renewable Energy, 2010, 35(2): 443-455.
[41]
Kofoed J P, Frigaard P, Friis Madsen E, et al. Prototype testing of the wave energy converter wave dragon[J]. Renewable Energy Marine Energy, 2006, 31(2): 181-189.
[42]
Mcarthur S, Brekken T K A. Ocean wave power data generation for grid integration studies[C]. IEEE Power and Energy Society General Meeting, Honolulu, US, 2010: 1-6.
You Yage, Li Wei, Liu Weimin, et al. Development status and perspective of marine energy conversion systems [J]. Automation of Electric Power Systems, 2010(14): 1-12.
[45]
Kim T, Takao M, Setoguchi T, et al. Performance comparison of turbines for wave power conversion[J]. International Journal of Thermal Sciences, 2001, 40(7): 681-689.
[46]
Alcorn R G, Finnigan T D. Control strategy development for an inverter controlled wave energy plant[C]. International Conference on Renewable Energies and Power Quality, Barcelona, Spain, 2004.
[47]
Oyster wave energy converter[M]. Saarbrucken (German): Volutpress, 2013.
[48]
Drew B, Plummer A R, Sahinkaya M N. A review of wave energy converter technology[J]. Journal of Power and Energy, 2009, 223(8): 887-902.
[49]
Rhinefrank K, Prudell J, Schacher A. Development and characterization of a novel direct drive rotary wave energy point absorber MTS-IEEE oceans conference proceedings[C]. MTS/IEEE Biloxi-Marine Technology for Our Future: Global and Local Challenges OCEANS, Biloxi, US, 2009: 1-5.
[50]
Tedeschi E, Molinas M, Carraro M, et al. Analysis of power extraction from irregular waves by all-electric power take off[C]. Energy Conversion Congress and Exposition, Atlanta, US, 2010: 2370-2377.
[51]
Columbia Power Technologies. Direct drive rotary wave energy conversion: USA, US20100213710[P]. 2012-8-26.
[52]
Polinder H, Damen M E C, Gardner F. Linear PM generator system for wave energy conversion in the AWS[J]. IEEE Transactions on Energy Conversion, 2004, 19(3): 583-589.
[53]
Prudell J, Stoddard M, Amon E, et al. A permanent-magnet tubular linear generator for ocean wave energy conversion[J]. IEEE Transactions on Industry Applications, 2010, 46(6): 2392-2400.
[54]
Clifton P C J, Mcmahon R A, Kelly H. Design and commissioning of a 30kW direct drive wave generator[C]. 5th IET International Conference on Power Electronics, Machines and Drives, Brighton, UK, 2010: 1-6.
[55]
Sun Z G, Cheung N C, Zhao S W, et al. Design and simulation of a linear switched reluctance generator for wave energy conversion[C]. 4th International Conference on Power Electronics Systems and Applications, Hong Kong, China, 2011: 1-5.
