期刊
OCEAN ENGINEERING
卷 277, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.oceaneng.2023.114215
关键词
Suspended power cable; Inter-array cable; Dynamic cable; Power umbilical; Floating offshore wind turbine
The feasibility of suspended inter-array cabling between two floating offshore wind turbines is investigated in this study. Power cables, supported by buoyancy modules, are kept afloat midwater below the sea surface. The study examines different sizes and materials of power cables and finds that lightweight cables are more suitable for suspended configurations. Configurations using buoys have lower maximum effective tensions and lower minimum bending radius compared to configurations with buoyancy modules. Power cable excursions do not exceed the mooring line anchor positions of the wind turbines and the hang-off angles are influenced by the motions of the turbines.
The present study investigates the feasibility of suspended inter-array cabling between two floating offshore wind turbines. In these cable configurations, the power cables do not touch the seabed and are kept afloat midwater below the sea surface using buoyancy modules. The floating offshore wind turbine (FOWT) used is the OC3-Hywind. The present study considers power cables of different sizes having cores with different materials, copper and aluminium. Lightweight cables have been found to be generally better suited for suspended con-figurations than heavy cables. Furthermore, suspended configurations using buoys show significantly lower maximum effective tensions than configurations with buoyancy modules attached. The minimum bending radius is low for configurations with buoys, whereas it is high for configurations with buoyancy modules. Power cable excursions can be significant but never exceed the mooring line anchor positions of the FOWTs. The standard deviation of the hang-off angles of the power cables from the FOWTs is more significant for load cases (LCs) at rated wind velocities than for extreme LCs where the turbine rotor stands still. It indicates that the motions of the FOWTs influence the power cable. Cost reductions can be achieved compared with a configuration where the power cable lies on the seabed.
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