[HTML][HTML] Enhancing the performance of hybrid wave-wind energy systems through a fast and adaptive chaotic multi-objective swarm optimisation method
Hybrid offshore renewable energy platforms have been proposed to optimise power
production and reduce the levelised cost of energy by integrating or co-locating several …
production and reduce the levelised cost of energy by integrating or co-locating several …
Development and application of an aero-hydro-servo-elastic coupling framework for analysis of floating offshore wind turbines
In order to enhance simulation capabilities of existing numerical tools for the design of
floating offshore wind turbines (FOWTs), this study has developed and implemented a …
floating offshore wind turbines (FOWTs), this study has developed and implemented a …
Experimental and numerical analysis of power take-off control effects on the dynamic performance of a floating wind-wave combined system
Z Chen, J Sun, J Yang, Y Sun, Q Chen, H Zhao… - Renewable Energy, 2024 - Elsevier
The integration of wave energy converters (WEC) into floating offshore wind turbines
(FOWT) is regarded as a promising approach for comprehensively harnessing deep-sea …
(FOWT) is regarded as a promising approach for comprehensively harnessing deep-sea …
Implementation of the blade element momentum model on a polar grid and its aeroelastic load impact
We show that the upscaling of wind turbines from rotor diameters of 15–20 m to presently
large rotors of 150–200 m has changed the requirements for the aerodynamic blade …
large rotors of 150–200 m has changed the requirements for the aerodynamic blade …
Fully coupled analysis of an integrated floating wind-wave power generation platform in operational sea-states
M Chen, P ** cost of floating offshore
wind farms; however, their impacts on floating array dynamics are not yet well understood …
wind farms; however, their impacts on floating array dynamics are not yet well understood …
Assessment of wind turbine component loads under yaw-offset conditions
Renewed interest in yaw control for wind turbine and power plants for wake redirection and
load mitigation demands a clear understanding of the effects of running with skewed inflow …
load mitigation demands a clear understanding of the effects of running with skewed inflow …
Numerical analysis of aerodynamic performance of a floating offshore wind turbine under pitch motion
The aerodynamic performance of wind turbines is essential to evaluate their electricity-
generating capability. Compared with the wind turbines with traditional fixed structures, the …
generating capability. Compared with the wind turbines with traditional fixed structures, the …
Modeling and dynamic response analysis of a submersible floating offshore wind turbine integrated with an aquaculture cage
C Zhang, S Wang, M Cui, H Liu, A Liu, J Xu, S **e - Ocean Engineering, 2022 - Elsevier
To reduce the investment payback period of offshore wind farms, an offshore wind turbine
can be combined with an aquaculture cage. This paper proposes a new concept of a floating …
can be combined with an aquaculture cage. This paper proposes a new concept of a floating …
Coupled analysis of a 10 MW multi-body floating offshore wind turbine subjected to tendon failures
In this study dynamic responses of a 10 MW offshore wind turbine supported by a multi-body
floating platform that consists of a wide cylindrical platform and a cylindrical ballast body …
floating platform that consists of a wide cylindrical platform and a cylindrical ballast body …