Coupled Interactions Analysis of a Floating Tidal Current Power Station in Uniform Flow
Autor: | Chenyang Yuwen, Yong Ma, Chao Hu, Chenxuan Tang |
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Rok vydání: | 2021 |
Předmět: |
hydrodynamic performance
Power station Naval architecture. Shipbuilding. Marine engineering dynamic fluid boundary interaction VM1-989 Ocean Engineering GC1-1581 Simple harmonic motion Computational fluid dynamics Oceanography Rotation Turbine law.invention Physics::Fluid Dynamics law Water Science and Technology Civil and Structural Engineering Physics business.industry Rotor (electric) Mechanics vertical axis twin-rotor turbine tidal current energy Potential flow Current (fluid) business |
Zdroj: | Journal of Marine Science and Engineering, Vol 9, Iss 958, p 958 (2021) Journal of Marine Science and Engineering Volume 9 Issue 9 |
ISSN: | 2077-1312 |
Popis: | For a floating tidal current power station moored in the sea, the mutual interactions between the carrier and the turbine are pretty complex. Current simulation methods based on potential flow theory could not consider the complicated viscous effects between the carrier motion and rotor rotation. To accurately account for the viscous effect, developing a different numerical simulation method based on computational fluid dynamics is necessary. This paper deals with a moored FTCPS (floating tidal current power station) with 6-degree-of-freedom motion in uniform flow based on dynamic fluid body interactions (DFBI) method. Results showed that the blockage effect caused by the columns would increase the average power output of the turbine, while the power output fluctuation also increased. When the carrier is individually moored in the sea, the motion response of the carrier is pretty small, and the carrier is obviously trimming by the bow. However, when the turbine is mounted on the carrier, the carrier motion response is simple harmonic. The motion response frequency of the carrier is in relation to the rotation frequency of the turbine. |
Databáze: | OpenAIRE |
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