Fluctuating wind speed spectrum, which is closer to the actual working conditions, was simulated by davenport wind speed model, and displacement and stress distribution of blade under fluctuating wind speed were calculated by finite element analysis software. The numerical results indicate that the growth trend of vibration amplitude for whole blade at flapping direction is nonlinear along the wingspan. The max von-mises stress appears when the vibration amplitude of tip reaches the maximum, and it is mainly concentrated in the central part of the blade. The stress at trailing edge and tip is smaller than the central part. Above results provide a reference for the strength safety design of wind turbine blade.,Fluctuating wind speed spectrum...
A process of detailed CFD and structural numerical simulations of the 1.5 MW horizontal axis wind tu...
AbstractThe blades of a large wind turbine are subjected to significant vibrations during operation....
A wind turbine is subjected to a regime of varying loads. For example, each rotor revolution causes ...
Aiming at large-scale offshore wind turbine blades, governing equations in fluid domain and motion e...
Analysis of structural dynamic response of wind turbine is one of important issues to assess its str...
For large-scale offshore wind turbine rotating blades (NREL 5MW), the theoretical model of vibration...
When the wind turbine blades are running under normal conditions, the blades will vibrate due to per...
Aiming at improving vibration performance of 1.5 MW wind turbine blades, the theoretical model and t...
The article is devoted to the practical problem of computer simulation of the dynamic behaviour of h...
This paper presents a structural optimization design of the realistic large scale wind turbine blade...
This data set contains the flapwise vibration response simulation of a wind turbine blade under Envi...
The blades of a large Horizontal Axis Wind Turbine (HAWT) are subjected to significant vibrations du...
As the size of wind turbine blades increases, the influence of geometric nonlinearity on aerodynamic...
The research object is based on the 1.5 MW large offshore wind turbine blade. A theoretical model fo...
The effect of dynamic performance shall be considered when calculating the wind speed relative to th...
A process of detailed CFD and structural numerical simulations of the 1.5 MW horizontal axis wind tu...
AbstractThe blades of a large wind turbine are subjected to significant vibrations during operation....
A wind turbine is subjected to a regime of varying loads. For example, each rotor revolution causes ...
Aiming at large-scale offshore wind turbine blades, governing equations in fluid domain and motion e...
Analysis of structural dynamic response of wind turbine is one of important issues to assess its str...
For large-scale offshore wind turbine rotating blades (NREL 5MW), the theoretical model of vibration...
When the wind turbine blades are running under normal conditions, the blades will vibrate due to per...
Aiming at improving vibration performance of 1.5 MW wind turbine blades, the theoretical model and t...
The article is devoted to the practical problem of computer simulation of the dynamic behaviour of h...
This paper presents a structural optimization design of the realistic large scale wind turbine blade...
This data set contains the flapwise vibration response simulation of a wind turbine blade under Envi...
The blades of a large Horizontal Axis Wind Turbine (HAWT) are subjected to significant vibrations du...
As the size of wind turbine blades increases, the influence of geometric nonlinearity on aerodynamic...
The research object is based on the 1.5 MW large offshore wind turbine blade. A theoretical model fo...
The effect of dynamic performance shall be considered when calculating the wind speed relative to th...
A process of detailed CFD and structural numerical simulations of the 1.5 MW horizontal axis wind tu...
AbstractThe blades of a large wind turbine are subjected to significant vibrations during operation....
A wind turbine is subjected to a regime of varying loads. For example, each rotor revolution causes ...