Dynamic response and power performance of a combined Spar-type floating wind turbine and coaxial floating wave energy converter

Renewable Energy

Volumn 50, Issue , 2013, Pages 47-57

  Muliawan, Made Jaya ^a   Karimirad, Madjid ^a   Moan, Torgeir ^a  

^a NORWEGIAN UNIVERSITY OF SCIENCE AND TECHNOLOGY   (Norway)

Author keywords

Combined wind and wave powers; Dynamic response; Floating wind turbine; Power performance; Wave energy converter

Indexed keywords

AERODYNAMIC FORCES; AERODYNAMIC WAKES; AXISYMMETRIC; CAPITAL COSTS; CAPITAL INVESTMENT; COMBINED WIND AND WAVE POWERS; ECONOMIC VALUES; FLOATING WAVE ENERGY CONVERTERS; HYDRODYNAMIC LOADS; METOCEAN; MOORING LINE; MOORING TENSION; NORTH SEA; OPERATIONAL CONDITIONS; POWER CABLES; POWER PERFORMANCE; POWER PRODUCTION; SIMPLIFIED METHOD; STATFJORD FIELD; STRUCTURAL MASS; TIME DOMAIN; WAVE ENERGY; WAVE ENERGY CONVERTERS; WIND VELOCITIES;

AERODYNAMICS; DYNAMIC RESPONSE; INVESTMENTS; TIME DOMAIN ANALYSIS; WAVE ENERGY CONVERSION; WAVE POWER; WIND TURBINES;

MOORING;

AERODYNAMICS; DATA SET; ENERGY EFFICIENCY; HYDRODYNAMICS; MOORING SYSTEM; PERFORMANCE ASSESSMENT; POWER GENERATION; WAVE ENERGY; WIND POWER; WIND TURBINE; WIND VELOCITY;

ATLANTIC OCEAN; NORTH SEA;

EID: 84863850506     PISSN: 09601481     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.renene.2012.05.025     Document Type: Article

References (17)

1. Sclavounos P.D., Lee S., DiPietro J., Potenza G., Caramuscio P., DeMichele G. Floating offshore wind turbine: tension leg platform and taught leg buoy concept supporting 3.5MW wind turbines. European wind energy conference (EWEC) 2010, Warsaw, Poland.
2. GWEC Global wind 2009 report 2010, Global Wind Energy Council (GWEC), Brussels, Belgium.
3. Aubault A, Alves M, Sarmento A, Roddier D, Peiffer A. Modeling of an oscillating water column on the floating foundation windfloat. In. 30th international conference on ocean, offshore and arctic engineering, paper no. OMAE2011-49014, Rotterdam; 2011, The Netherlands.
4. Peiffer A, Roddier D, Aubault A. Design of a point absorber inside the windfloat structure. In. 30th international conference on ocean, offshore and arctic engineering, paper no. OMAE2011-49015, Rotterdam, 2011, The Netherlands.
5. Roddier D, Peiffer A, Aubault A, Weinstein J. A generic 5 MW windfloat for numerical tool validation & comparison against a generic spar. In. Proceedings of International Conference on ocean, offshore and Artic engineering (OMAE); 2011, [Rotterdam, The Netherlands].
6. Gjørv AB. Presentation on the world's first large scale floating wind turbine, StatoilHydro.
7. [accessed 30.11.2010]. http://www.wavebob.com.
8. Mouwen F. Presentation on wavebob to engineers Ireland. December, 9th, 2008 2008, 10th of September 2010. http://www.engineersireland.ie.
9. Jonkman J.M., Matha D. Dynamics of offshore floating wind turbines - analysis of three concepts. Wind Energy 2011, 14(4):557-569.
10. Karimirad M., Moan T. Wave and wind induced dynamic response of a spar-type offshore wind turbine. Journal of Waterway, Port, Coastal, and Ocean Engineering January 1, 2012, 138(1):9-20.
11. Muliawan MJ, Karimirad M, Moan T, Gao Z. STC (spar-torus combination): a combined spar-type floating wind turbine and large point absorber floating wave energy converter - promising and challenging. In. Proceedings of international conference on ocean, offshore and arctic engineering (OMAE); 2012, Rio de Janairo, Brazil.
12. Muliawan MJ, Gao Z, Moan T, Babarit A. Analysis of a two-body floating wave energy converter with the particular focus on the effects of power take-off and mooring systems on energy capture. In. Proceedings of international conference on ocean, offshore and arctic engineering (OMAE); 2011, [Rotterdam, The Netherlands].
13. Marintek SIMO user manual - program version 3.6 August 2008.
14. Babarit A., Hals J., Muliawan M.J., Kurniawan A., Moan T. Numerical benchmarking study of a selection of wave energy converters. Renewable Energy 2012, 41:44-63.
15. DNV HydroD user manual - program version 1.1-01 2004.
16. Karimirad M., Moan T. A simplified method for coupled analysis of floating offshore wind turbine. Marine Structures 2012, 1-19. 10.1016/j.marstruc.2012.03.003.
17. Private communication with T.D. Hanson, Statoil.