Aiming at improving vibration performance of 1.5 MW wind turbine blades, the theoretical model and the calculation process of vibration problems under geometric nonlinearity and unidirectional fluid-structure interaction (UFSI) were presented. The dynamic stability analysis on a 1.5 MW wind turbine blade was carried out. Both the maximum brandish displacement and the maximum Mises stress increase nonlinearly with the increase of wind speed. The influences of turbulent effect, wind shear effect and their joint effect on displacement and stress increase sequentially. Furthermore, the stability critical curves are calculated and analyzed. As a result, the stability region is established where the wind turbine blade can run safely
Analysis of structural dynamic response of wind turbine is one of important issues to assess its str...
For large-scale offshore wind turbine blades, ANSYS and UG were respectively used to complete the so...
In this paper, vibration modal analysis of a horizontal axis micro wind turbine blade of different r...
Aiming at improving vibration performance of 1.5 MW wind turbine blades, the theoretical model and t...
The research object is based on the 1.5 MW large offshore wind turbine blade. A theoretical model fo...
For large-scale offshore wind turbine rotating blades (NREL 5MW), the theoretical model of vibration...
For the 5MW offshore wind turbine blade, the control and discrete equations of the fluid domain and ...
Aiming at large-scale offshore wind turbine blades, governing equations in fluid domain and motion e...
For the large-scale offshore wind turbine blades, the governing equations in fluid domain and the mo...
Fluctuating wind speed spectrum, which is closer to the actual working conditions, was simulated by ...
When the wind turbine blades are running under normal conditions, the blades will vibrate due to per...
A 1.5 MW horizontal-axis wind turbine blade and fluid field model are established to study the diffe...
AbstractThe blades of a large wind turbine are subjected to significant vibrations during operation....
Wind energy is one of the fastest growing sources of renewable energy because of its cleanliness and...
The aerodynamic simulations of wind turbines are typically carried out using a steady inflow conditi...
Analysis of structural dynamic response of wind turbine is one of important issues to assess its str...
For large-scale offshore wind turbine blades, ANSYS and UG were respectively used to complete the so...
In this paper, vibration modal analysis of a horizontal axis micro wind turbine blade of different r...
Aiming at improving vibration performance of 1.5 MW wind turbine blades, the theoretical model and t...
The research object is based on the 1.5 MW large offshore wind turbine blade. A theoretical model fo...
For large-scale offshore wind turbine rotating blades (NREL 5MW), the theoretical model of vibration...
For the 5MW offshore wind turbine blade, the control and discrete equations of the fluid domain and ...
Aiming at large-scale offshore wind turbine blades, governing equations in fluid domain and motion e...
For the large-scale offshore wind turbine blades, the governing equations in fluid domain and the mo...
Fluctuating wind speed spectrum, which is closer to the actual working conditions, was simulated by ...
When the wind turbine blades are running under normal conditions, the blades will vibrate due to per...
A 1.5 MW horizontal-axis wind turbine blade and fluid field model are established to study the diffe...
AbstractThe blades of a large wind turbine are subjected to significant vibrations during operation....
Wind energy is one of the fastest growing sources of renewable energy because of its cleanliness and...
The aerodynamic simulations of wind turbines are typically carried out using a steady inflow conditi...
Analysis of structural dynamic response of wind turbine is one of important issues to assess its str...
For large-scale offshore wind turbine blades, ANSYS and UG were respectively used to complete the so...
In this paper, vibration modal analysis of a horizontal axis micro wind turbine blade of different r...