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Hydrodynamic Performance of Spar-Type Wind Turbine Platform Combined with Wave Energy Converter
In the present study, the numerical investigation of 5 MW spar-type floating offshore wind turbine (FOWT) combined with array of four and six cone–cylindrical shaped heaving type point absorber is performed. Hydrodynamic and multibody analysis is carried out for simple spar, spar combined with circular array of four and six wave energy converters. Individual responses for all wave energy converters are obtained and their effect on spar platform is analyzed. The performance of combined wind and wave energy device is studied on analyzing the motion of platform. The influence of array of wave energy converters on hydrodynamic motion responses on spar platform is analyzed. The Response Amplitude Operator (RAO) for all the three platforms is compared and analyzed for the hydrodynamic stability of platform. The present study will be helpful in the design of novel concept of spar combined with circular array of wave energy converters.
Hydrodynamic Performance of Spar-Type Wind Turbine Platform Combined with Wave Energy Converter
In the present study, the numerical investigation of 5 MW spar-type floating offshore wind turbine (FOWT) combined with array of four and six cone–cylindrical shaped heaving type point absorber is performed. Hydrodynamic and multibody analysis is carried out for simple spar, spar combined with circular array of four and six wave energy converters. Individual responses for all wave energy converters are obtained and their effect on spar platform is analyzed. The performance of combined wind and wave energy device is studied on analyzing the motion of platform. The influence of array of wave energy converters on hydrodynamic motion responses on spar platform is analyzed. The Response Amplitude Operator (RAO) for all the three platforms is compared and analyzed for the hydrodynamic stability of platform. The present study will be helpful in the design of novel concept of spar combined with circular array of wave energy converters.
Hydrodynamic Performance of Spar-Type Wind Turbine Platform Combined with Wave Energy Converter
Lecture Notes in Civil Engineering
Das, Bibhuti Bhusan (editor) / Nanukuttan, Sreejith V. (editor) / Patnaik, Anil K. (editor) / Panandikar, Neena Shekhar (editor) / Patil, Ajay H. (author) / Karmakar, D. (author)
2020-11-24
9 pages
Article/Chapter (Book)
Electronic Resource
English
Wave energy converter , Floating offshore wind turbine , RAO (response amplitude operator) , Combined energy platform Engineering , Building Construction and Design , Construction Management , Geotechnical Engineering & Applied Earth Sciences , Geoengineering, Foundations, Hydraulics , Transportation Technology and Traffic Engineering
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