Review of control technologies for floating offshore wind turbines
J López-Queija, E Robles, J Jugo… - … and Sustainable Energy …, 2022 - Elsevier
Floating offshore wind growth places the industry development close to commercial scale.
However, the harsh environment with strong winds, waves, and currents, together with the …
However, the harsh environment with strong winds, waves, and currents, together with the …
Data-driven fluid mechanics of wind farms: A review
N Zehtabiyan-Rezaie, A Iosifidis… - Journal of Renewable and …, 2022 - pubs.aip.org
With the growing number of wind farms over the last few decades and the availability of
large datasets, research in wind-farm flow modeling—one of the key components in …
large datasets, research in wind-farm flow modeling—one of the key components in …
A machine learning-based fatigue loads and power prediction method for wind turbines under yaw control
Yaw control is one of the most promising active wake control strategies to maximize the total
power generation of wind farms. Meanwhile, structural performance needs to be considered …
power generation of wind farms. Meanwhile, structural performance needs to be considered …
Quantitative assessment on fatigue damage induced by wake effect and yaw misalignment for floating offshore wind turbines
Wake interaction between floating offshore wind turbines (FOWTs) is complex and
necessitates a comprehensive assessment, which is a prerequisite for the yaw misalignment …
necessitates a comprehensive assessment, which is a prerequisite for the yaw misalignment …
An adaptive replacement strategy-incorporated particle swarm optimizer for wind farm layout optimization
The wind farm layout optimization (WFLO) aims to maximize power generation of a wind
farm by optimizing the location of wind turbines. Traditional mathematical methods cannot …
farm by optimizing the location of wind turbines. Traditional mathematical methods cannot …
On the importance of wind turbine wake boundary to wind energy and environmental impact
Z Fan, S Li, Z Gao, L Zhang, X Zheng, W Zhu… - Energy Conversion and …, 2023 - Elsevier
The increase in global wind power installations has also increased the wind turbine density
in wind farms. This has made the wake interactions between neighbouring turbines more …
in wind farms. This has made the wake interactions between neighbouring turbines more …
Wind farm power production and fatigue load optimization based on dynamic partitioning and wake redirection of wind turbines
W Cai, Y Hu, F Fang, L Yao, J Liu - Applied Energy, 2023 - Elsevier
Due to the wake effect, there is a high degree of coupling between wind turbines in a wind
farm. In order to optimize the power and load performance of wind farms, it is crucial to …
farm. In order to optimize the power and load performance of wind farms, it is crucial to …
[HTML][HTML] A novel hybrid control strategy of wind turbine wakes in tandem configuration to improve power production
The wind turbines that operate in the wake region of the upstream turbines produce less
power and may suffer serious structural issues due to highly unsteady flows, which can …
power and may suffer serious structural issues due to highly unsteady flows, which can …
Effects of blade number on the aerodynamic performance and wake characteristics of a small horizontal-axis wind turbine
H Zhang, J Wen, J Zhan, D Xin - Energy Conversion and Management, 2022 - Elsevier
Small-scale horizontal-axis wind turbines (SHAWTs) are powerful equipments for wind
energy conversion. Furthermore, the wake vortices generated by SHAWTs are used in …
energy conversion. Furthermore, the wake vortices generated by SHAWTs are used in …
Three-dimensional yaw wake model development with validations from wind tunnel experiments
The presence of wake flows caused by wind turbines (WTs) diminish the expected power
generation of wind energy and exacerbate structural vibrations. To mitigate these issues …
generation of wind energy and exacerbate structural vibrations. To mitigate these issues …