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== Abstract == | == Abstract == | ||
− | + | This Master thesis is focussed in the verification of the capabilities of SeaFEM - FAST tool to carry out the fully coupled analysis of offshore wind turbines. First, a state of art of fully coupled analysis is presented. Then, rules to clasify and to certificate offshore wind turbines is studied. Design load conditions for OC3- Hywind NREL 5 MW Baseline are computed. Next, a procedure to carry out the coupled analysis using tool SeaFEM and FAST is presented. Some Design Load Cases are analyzed. OC3 - Hywind NREL 5 Mw tower is verified against DNV rules. Both analysis, FAST/Hydrodyn and SeaFEM-FAST are compared. Finally some conclusions and further research are showed. | |
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== Full document == | == Full document == | ||
<pdf>Media:draft_Gutiérrez Romero_776063931-document.pdf</pdf> | <pdf>Media:draft_Gutiérrez Romero_776063931-document.pdf</pdf> |
This Master thesis is focussed in the verification of the capabilities of SeaFEM - FAST tool to carry out the fully coupled analysis of offshore wind turbines. First, a state of art of fully coupled analysis is presented. Then, rules to clasify and to certificate offshore wind turbines is studied. Design load conditions for OC3- Hywind NREL 5 MW Baseline are computed. Next, a procedure to carry out the coupled analysis using tool SeaFEM and FAST is presented. Some Design Load Cases are analyzed. OC3 - Hywind NREL 5 Mw tower is verified against DNV rules. Both analysis, FAST/Hydrodyn and SeaFEM-FAST are compared. Finally some conclusions and further research are showed.
Published on 22/03/18
Submitted on 22/03/18
Licence: CC BY-NC-SA license
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