Add to ORKGWind turbines are good examples of time-varying systems as their modal properties depend on their instantaneous configuration. To catch the variations of modal parameters in time-varying systems, classical identification methods have to be adapted to the non-stationary nature of the recorded signals. In this paper, it is proposed to study the dynamic behavior of an offshore five-megawatt wind turbine. First, a numerical model of the wind turbine is created to serve as reference. Then, the time-varying behavior of the system is evaluated by simulating a large number of possible configurations. To this purpose, time responses are generated from the numerical model submitted to different environmental conditions. The wind is considered as the ...
Operational modal analysis (OMA) is an essential tool for understanding the structural dynamics of o...
An offshore wind turbine (OWT) is a complex structure that consists of different parts (e.g., founda...
This paper deals with a model of a 3-bladed wind turbine and its identification. The linear, time-in...
Wind turbines are good examples of time-varying systems as their modal properties depend on their in...
The new approach to modal parameter identification, presented in this paper, uses an asymptotically ...
Increasing the capacity of offshore wind energy is a necessary step in the transition from fossil fu...
Recently, Offshore Wind Turbines (OWT) have attracted great attention in an effort to make a shift f...
International audienceWind turbines are time-varying systems excited by loads due to the wind and to...
Copyright © Inria (2014). Wind turbines are time-varying systems excited by loads due to the wind an...
Wind energy is becoming increasingly important worldwide as an alternative renewable energy source. ...
The present paper provides a model updating application study concerning the jacket substructure of ...
Experimental investigations of the dynamic behavior of wind turbine components as well as of the tur...
Recently several methods have been proposed for the system identification of wind turbines which can...
An offshore wind turbine (OWT) is a complex structure that consists of different parts (e.g., founda...
Many important systems, such as turbomachinery, helicopters and wind turbines, must be modeled with ...
Operational modal analysis (OMA) is an essential tool for understanding the structural dynamics of o...
An offshore wind turbine (OWT) is a complex structure that consists of different parts (e.g., founda...
This paper deals with a model of a 3-bladed wind turbine and its identification. The linear, time-in...
Wind turbines are good examples of time-varying systems as their modal properties depend on their in...
The new approach to modal parameter identification, presented in this paper, uses an asymptotically ...
Increasing the capacity of offshore wind energy is a necessary step in the transition from fossil fu...
Recently, Offshore Wind Turbines (OWT) have attracted great attention in an effort to make a shift f...
International audienceWind turbines are time-varying systems excited by loads due to the wind and to...
Copyright © Inria (2014). Wind turbines are time-varying systems excited by loads due to the wind an...
Wind energy is becoming increasingly important worldwide as an alternative renewable energy source. ...
The present paper provides a model updating application study concerning the jacket substructure of ...
Experimental investigations of the dynamic behavior of wind turbine components as well as of the tur...
Recently several methods have been proposed for the system identification of wind turbines which can...
An offshore wind turbine (OWT) is a complex structure that consists of different parts (e.g., founda...
Many important systems, such as turbomachinery, helicopters and wind turbines, must be modeled with ...
Operational modal analysis (OMA) is an essential tool for understanding the structural dynamics of o...
An offshore wind turbine (OWT) is a complex structure that consists of different parts (e.g., founda...
This paper deals with a model of a 3-bladed wind turbine and its identification. The linear, time-in...