[HTML][HTML] Grand challenges in the design, manufacture, and operation of future wind turbine systems
Wind energy is foundational for achieving 100% renewable electricity production, and
significant innovation is required as the grid expands and accommodates hybrid plant …
significant innovation is required as the grid expands and accommodates hybrid plant …
Harmonic BalanceMethods: A Review and Recent Developments
The harmonic balance (HB) method is one of the most commonly used methods for solving
periodic solutions of both weakly and strongly nonlinear dynamical systems. However, it is …
periodic solutions of both weakly and strongly nonlinear dynamical systems. However, it is …
Bend-twist adaptive control for flexible wind turbine blades: principles and experimental validation
This study proposes a new methodology for optimizing the power curve of a wind turbine at
low wind speeds. The principles of bend-twist coupling and the mechanism of energy …
low wind speeds. The principles of bend-twist coupling and the mechanism of energy …
A novel approach for flutter prediction of pitch–plunge airfoils using an efficient one-shot method
In this work, the one-shot method previously developed for the solution of limit cycle
oscillation problems is extended to predict flutter boundaries of aeroelastic systems. In …
oscillation problems is extended to predict flutter boundaries of aeroelastic systems. In …
A review of ground‐based radar as a noncontact sensor for structural health monitoring of in‐field wind turbines blades
Ground‐based radar (GBR) are increasingly being used either as a vibration‐based or as
guided‐wave‐based structural health monitoring (SHM) sensors for monitoring of wind …
guided‐wave‐based structural health monitoring (SHM) sensors for monitoring of wind …
Fluid flow analysis of composite material-based wind turbine blades using ansys
T Sathish - International Journal of Ambient Energy, 2021 - Taylor & Francis
The environment-friendly energies are wind, solar, wave and marine current power. In the
recent period, the researchers moved to computer simulation from the experimental and …
recent period, the researchers moved to computer simulation from the experimental and …
Influence of turbulence intensity on the aerodynamic performance of wind turbines based on the fluid-structure coupling method
X Zheng, Y Yao, Z Hu, Z Yu, S Hu - Applied Sciences, 2022 - mdpi.com
The deformation and vibration of wind turbine blades in turbulent environment cannot be
ignored; therefore, in order to better ensure the safety of wind turbine blades, the study of air …
ignored; therefore, in order to better ensure the safety of wind turbine blades, the study of air …
Vibration‐based monitoring of a small‐scale wind turbine blade under varying climate and operational conditions. Part II: A numerical benchmark
K Tatsis, Y Ou, VK Dertimanis… - … Control and Health …, 2021 - Wiley Online Library
This paper constitutes the numerical companion of the experimental work on vibration‐
based monitoring of a small‐scale wind turbine (WT) blade. In this second part, a numerical …
based monitoring of a small‐scale wind turbine (WT) blade. In this second part, a numerical …
Nonlinear frequency domain solution method for aerodynamic and aeromechanical analysis of wind turbines
The aerodynamic simulations of wind turbines are typically carried out using a steady inflow
condition. However, the aerodynamics and aeroelasticity of wind turbine blades can be …
condition. However, the aerodynamics and aeroelasticity of wind turbine blades can be …
Performance investigation and energy production of a novel horizontal axis wind turbine with winglet
This study mainly focuses on improving the aerodynamic performance, analysing the
turbulence effect and structural response of the horizontal axis wind turbine (HAWT) blade …
turbulence effect and structural response of the horizontal axis wind turbine (HAWT) blade …