The gearbox is one of the most expensive components of the wind turbine system. In order to refine the design and hence increase the long-term reliability, there has been increasing interest in utilizing time domain simulations in the prediction of gearbox design loads. In this study, three problems in time domain based gear contact fatigue analysis under dynamic conditions are discussed: (1) the torque reversal problem under low wind speed conditions, (2) statistical uncertainty effects due to time domain simulations and (3) simplified long term contact fatigue analysis of the gear tooth under dynamic conditions. Several recommendations to deal with these issues are proposed based on analyses of the National Renewable Energy Laboratory’s 7...
Dynamic analysis of wind turbine drive train subjected to nonstationary wind load excitation P Srika...
The gearbox is a critical component of modern MW wind turbines. An accurate model of the gearbox dyn...
With a service life of about 20 years, wind turbine power trains are subjected to a very diverse spe...
This paper presents a general approach to predict the contact fatigue life of the gears in the drive...
Reliability is one of the most important features of the wind turbine gearbox, especially in offshor...
Reliability is one of the most important features of the wind turbine gearbox, especially in offshor...
Quantifying wind turbine (WT) gearbox fatigue life is a critical problem for preventive maintenance ...
In this paper, a long-term fatigue damage analysis method for gear tooth root bending in wind turbin...
Failure prediction of wind turbine gearboxes (WTGs) is especially important since the maintenance of...
Wind turbine gearbox bearings (WTGBs) are the most reliability critical component in wind turbine ge...
This paper studies the dynamic response of a wind turbine gearbox under different excitation conditi...
Transient events cause high loads in the drivetrain components so measuring and calculating these lo...
This paper presents studies of wind turbine load estimation, based upon SCADA data, to derive bearin...
As a critical mechanical component of a wind turbine, gearbox failures mainly attribute to cumulativ...
Among the various causes of bearing damage and failure, metal fatigue of the rolling contact surface...
Dynamic analysis of wind turbine drive train subjected to nonstationary wind load excitation P Srika...
The gearbox is a critical component of modern MW wind turbines. An accurate model of the gearbox dyn...
With a service life of about 20 years, wind turbine power trains are subjected to a very diverse spe...
This paper presents a general approach to predict the contact fatigue life of the gears in the drive...
Reliability is one of the most important features of the wind turbine gearbox, especially in offshor...
Reliability is one of the most important features of the wind turbine gearbox, especially in offshor...
Quantifying wind turbine (WT) gearbox fatigue life is a critical problem for preventive maintenance ...
In this paper, a long-term fatigue damage analysis method for gear tooth root bending in wind turbin...
Failure prediction of wind turbine gearboxes (WTGs) is especially important since the maintenance of...
Wind turbine gearbox bearings (WTGBs) are the most reliability critical component in wind turbine ge...
This paper studies the dynamic response of a wind turbine gearbox under different excitation conditi...
Transient events cause high loads in the drivetrain components so measuring and calculating these lo...
This paper presents studies of wind turbine load estimation, based upon SCADA data, to derive bearin...
As a critical mechanical component of a wind turbine, gearbox failures mainly attribute to cumulativ...
Among the various causes of bearing damage and failure, metal fatigue of the rolling contact surface...
Dynamic analysis of wind turbine drive train subjected to nonstationary wind load excitation P Srika...
The gearbox is a critical component of modern MW wind turbines. An accurate model of the gearbox dyn...
With a service life of about 20 years, wind turbine power trains are subjected to a very diverse spe...