The Effect of Additional Mooring Chains on the Motion Performance of a Floating Wind Turbine with a Tension Leg Platform
In this study, two types of floating offshore wind turbine (FOWT) systems were proposed: a traditional tension leg platform (TLP) type and a new TLP type with additional mooring chains. They were both based on the National Renewable Energy Laboratory 5 MW offshore wind turbine model. Taking the coup...
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| Published in | Energies (Basel) Vol. 5; no. 4; pp. 1135 - 1149 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Basel
MDPI AG
01.04.2012
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| Subjects | |
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| Abstract | In this study, two types of floating offshore wind turbine (FOWT) systems were proposed: a traditional tension leg platform (TLP) type and a new TLP type with additional mooring chains. They were both based on the National Renewable Energy Laboratory 5 MW offshore wind turbine model. Taking the coupled effect of dynamic response of the top wind turbine, tower support structure and lower mooring system into consideration, not only were the 1/60 scale model tests for the two floating wind turbine systems done in HIT’s wind-wave tunnel according to the typical design conditions in IEC61400-3 code, but also the numerical simulations corresponding to the scaled model tests were performed by advanced numerical tools. As a result, the numerical results displayed good agreement with the test data. Moreover, the additional mooring chains could play an active role in reducing the surge displacement, surge acceleration and typical tension leg force responses of the FOWT system, which is very beneficial for ensuring the good operational performance and the safety of the FOWT system. |
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| AbstractList | In this study, two types of floating offshore wind turbine (FOWT) systems were proposed: a traditional tension leg platform (TLP) type and a new TLP type with additional mooring chains. They were both based on the National Renewable Energy Laboratory 5 MW offshore wind turbine model. Taking the coupled effect of dynamic response of the top wind turbine, tower support structure and lower mooring system into consideration, not only were the 1/60 scale model tests for the two floating wind turbine systems done in HIT’s wind-wave tunnel according to the typical design conditions in IEC61400-3 code, but also the numerical simulations corresponding to the scaled model tests were performed by advanced numerical tools. As a result, the numerical results displayed good agreement with the test data. Moreover, the additional mooring chains could play an active role in reducing the surge displacement, surge acceleration and typical tension leg force responses of the FOWT system, which is very beneficial for ensuring the good operational performance and the safety of the FOWT system. |
| Author | Ren, Nianxin Li, Yugang Ou, Jinping |
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| Cites_doi | 10.2514/6.2010-2738 10.2514/6.2006-995 10.1115/OMAE2006-92029 10.1115/OMAE2006-92291 10.1002/we.83 10.1002/we.442 10.1063/1.3435339 10.1002/we.347 |
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| References | Jonkman (ref_10) 2009; 12 Roddier (ref_12) 2010; 2 ref_14 ref_13 ref_3 ref_2 Henderson (ref_1) 2003; 6 ref_15 ref_9 ref_8 ref_5 ref_4 Jonkman (ref_11) 2011; 14 ref_7 ref_6 |
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| SubjectTerms | Alternative energy Energy industry floating offshore wind turbine (FOWT) Fourier transforms Laboratories Numerical analysis Offshore Renewable resources Scale models Simulation tension leg platform (TLP) Turbines Wind farms Wind power wind-wave tunnel test |
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| Title | The Effect of Additional Mooring Chains on the Motion Performance of a Floating Wind Turbine with a Tension Leg Platform |
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