The necessity of producing more electricity from renewable sources has been driven predominantly by the need to prevent irreversible climate chance. Currently, industry is looking towards floating offshore wind turbine solutions to form part of their future renewable portfolio. However, wind turbine loads are often increased when mounted on a floating rather than fixed platform. Negative damping must also be avoided to prevent tower oscillations. By presenting a turbine actively pitching-to-stall, the impact on the tower fore–aft bending moment of a blade with back twist towards feather as it approaches the tip was explored, utilizing the time domain FAST v8 simulation tool. The turbine was coupled to a floating semisubmersible platform, as...
pre-print version to be submitted in Wind Energy ScienceIn this paper, the coupled dynamics of the f...
Hydrodynamic Floating Offshore Wind Turbine (FOWT) platform specifications are typically dominated b...
Offshore wind turbines suffer from asymmetrical loading (blades, tower, etc), leading to enhanced st...
The necessity of producing more electricity from renewable sources has been driven predominantly by ...
For a turbine mounted on a floating platform, extreme induced loads can be increased by up to 1.6 ti...
The negative effects of anthropogenic climate change has led to an increase in electricity generated...
Floating offshore wind turbines (FOWTs) have the potential to bring renewable energy to waters too d...
Floating offshore wind turbines (FWOT) stand as a promising concept to expand the wind energy genera...
Improving the efficiency of electricity generation is an important component of reducing the cost of...
A newly evolving concept in utility-scale floating wind turbines is investigated through design opti...
This article investigates the impact of the pitch-to-stall and pitch-to-feather control concepts on ...
A novel strategy to reduce unwanted swings and motions in floating wind turbines is presented. At ab...
Wind turbines experience countless shutdowns during their lifetimes. A shutdown is a transient proce...
Undesired motions in Floating Offshore Wind Turbines (FOWT) lead to reduction of system efficiency, ...
Among the renewable energy technologies, offshore wind energy is expected to provide a significant c...
pre-print version to be submitted in Wind Energy ScienceIn this paper, the coupled dynamics of the f...
Hydrodynamic Floating Offshore Wind Turbine (FOWT) platform specifications are typically dominated b...
Offshore wind turbines suffer from asymmetrical loading (blades, tower, etc), leading to enhanced st...
The necessity of producing more electricity from renewable sources has been driven predominantly by ...
For a turbine mounted on a floating platform, extreme induced loads can be increased by up to 1.6 ti...
The negative effects of anthropogenic climate change has led to an increase in electricity generated...
Floating offshore wind turbines (FOWTs) have the potential to bring renewable energy to waters too d...
Floating offshore wind turbines (FWOT) stand as a promising concept to expand the wind energy genera...
Improving the efficiency of electricity generation is an important component of reducing the cost of...
A newly evolving concept in utility-scale floating wind turbines is investigated through design opti...
This article investigates the impact of the pitch-to-stall and pitch-to-feather control concepts on ...
A novel strategy to reduce unwanted swings and motions in floating wind turbines is presented. At ab...
Wind turbines experience countless shutdowns during their lifetimes. A shutdown is a transient proce...
Undesired motions in Floating Offshore Wind Turbines (FOWT) lead to reduction of system efficiency, ...
Among the renewable energy technologies, offshore wind energy is expected to provide a significant c...
pre-print version to be submitted in Wind Energy ScienceIn this paper, the coupled dynamics of the f...
Hydrodynamic Floating Offshore Wind Turbine (FOWT) platform specifications are typically dominated b...
Offshore wind turbines suffer from asymmetrical loading (blades, tower, etc), leading to enhanced st...