Review of turbine parameterization models for large-eddy simulation of wind turbine wakes
Wind turbine parameterization models, which are often employed to avoid the computational
cost of resolving the blade aerodynamics, are critical for the capability of large-eddy …
cost of resolving the blade aerodynamics, are critical for the capability of large-eddy …
Wind farm power optimization through wake steering
Global power production increasingly relies on wind farms to supply low-carbon energy. The
recent Intergovernmental Panel on Climate Change (IPCC) Special Report predicted that …
recent Intergovernmental Panel on Climate Change (IPCC) Special Report predicted that …
Cooperative yaw control of wind farm using a double-layer machine learning framework
An appropriate cooperative yaw control strategy, in which the accurate power prediction and
efficient optimization method play an essential role, can mitigate the significant power loss …
efficient optimization method play an essential role, can mitigate the significant power loss …
The stability of wakes of floating wind turbines
Floating offshore wind turbines (FOWTs) are subjected to platform motion induced by wind
and wave loads. The oscillatory movement trigger vortex instabilities, modifying the wake …
and wave loads. The oscillatory movement trigger vortex instabilities, modifying the wake …
The actuator line method for wind turbine modelling applied in a variational multiscale framework
M Ravensbergen, AB Mohamed, A Korobenko - Computers & Fluids, 2020 - Elsevier
The actuator line method is implemented into a residual-based variational multiscale (VMS)
fluid modelling framework to simulate airflow around a wind turbine. In the actuator line …
fluid modelling framework to simulate airflow around a wind turbine. In the actuator line …
[HTML][HTML] Optimal closed-loop wake steering–Part 1: Conventionally neutral atmospheric boundary layer conditions
Strategies for wake loss mitigation through the use of dynamic closed-loop wake steering
are investigated using large eddy simulations of conventionally neutral atmospheric …
are investigated using large eddy simulations of conventionally neutral atmospheric …
A dynamic model of wind turbine yaw for active farm control
This paper presents a graph‐based dynamic yaw model to predict the dynamic response of
the hub‐height velocities and the power of a wind farm to a change in yaw. The model builds …
the hub‐height velocities and the power of a wind farm to a change in yaw. The model builds …
High-fidelity wind farm simulation methodology with experimental validation
AS Hsieh, KA Brown, NB DeVelder, TG Herges… - Journal of Wind …, 2021 - Elsevier
The complexity and associated uncertainties involved with atmospheric-turbine-wake
interactions produce challenges for accurate wind farm predictions of generator power and …
interactions produce challenges for accurate wind farm predictions of generator power and …
[HTML][HTML] The near-wake development of a wind turbine operating in stalled conditions–Part 1: Assessment of numerical models
This study comprehensively investigates the near-wake development of a model wind
turbine operating at a low tip-speed ratio in stalled conditions. In the present paper, part 1 …
turbine operating at a low tip-speed ratio in stalled conditions. In the present paper, part 1 …
Tip‐vortex breakdown of wind turbines subject to shear
E Kleusberg, S Benard, DS Henningson - Wind Energy, 2019 - Wiley Online Library
Sheared velocity profiles pervade all wind‐turbine applications, thus making it important to
understand their effect on the wake. In this study, a single wind turbine is modeled using the …
understand their effect on the wake. In this study, a single wind turbine is modeled using the …