The increasing size and flexibility of large wind turbine blades introduces considerable aeroelastic effects, which are caused by FSI (fluid structure interaction). These effects might result in aeroelastic instability problems, such as edgewise instability and flutter, which can be devastating to the blades and the wind turbine. Therefore, accurate FSI modelling of wind turbine blades is crucial in the development of large wind turbines. In this study, an FSI model for wind turbine blades at full scale is established. The aerodynamic loads are calculated using a CFD (computational fluid dynamics) model implemented in ANSYS FLUENT, and the blade structural responses are determined using a FEA (finite element analysis) model implemented in A...
The wind turbine blades are exposed under complex time-variant aero-dynamic loads, besides, due to t...
In this work the effect of the gravity force on the fluid-structure interaction (FSI) simulation of ...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predic...
The increasing size and flexibility of large wind turbine blades introduces considerable aeroelastic...
The effect of a wind gust impacting on the blades of a large horizontal-axis wind turbine is analyze...
Due to increasing energy requirements, wind turbine blades have increased in size and flexibility. T...
Typically the aero-elastic simulation tools that are used in industry employ simple beam models to r...
This report presents the study of fluid-structure interaction (FSI) of a 5kW horizontal axis wind tu...
During the last several decades engineers and scientists put significant effort into developing reli...
A process of detailed CFD and structural numerical simulations of the 1.5 MW horizontal axis wind tu...
The simulation of the complex flow in the wake of a Horizontal Axis Wind Turbine and how it infuenc...
The current trends of wind turbine blade designs are geared towards a longer and slender blade with ...
With the continuous increasing size and flexibility of large wind turbine blades, aeroelasticity has...
In this work, we focus on the effect of supporting structures on the loads acting on a large h...
In this paper, a numerical model for fluid-structure interaction (FSI) analysis is developed for inv...
The wind turbine blades are exposed under complex time-variant aero-dynamic loads, besides, due to t...
In this work the effect of the gravity force on the fluid-structure interaction (FSI) simulation of ...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predic...
The increasing size and flexibility of large wind turbine blades introduces considerable aeroelastic...
The effect of a wind gust impacting on the blades of a large horizontal-axis wind turbine is analyze...
Due to increasing energy requirements, wind turbine blades have increased in size and flexibility. T...
Typically the aero-elastic simulation tools that are used in industry employ simple beam models to r...
This report presents the study of fluid-structure interaction (FSI) of a 5kW horizontal axis wind tu...
During the last several decades engineers and scientists put significant effort into developing reli...
A process of detailed CFD and structural numerical simulations of the 1.5 MW horizontal axis wind tu...
The simulation of the complex flow in the wake of a Horizontal Axis Wind Turbine and how it infuenc...
The current trends of wind turbine blade designs are geared towards a longer and slender blade with ...
With the continuous increasing size and flexibility of large wind turbine blades, aeroelasticity has...
In this work, we focus on the effect of supporting structures on the loads acting on a large h...
In this paper, a numerical model for fluid-structure interaction (FSI) analysis is developed for inv...
The wind turbine blades are exposed under complex time-variant aero-dynamic loads, besides, due to t...
In this work the effect of the gravity force on the fluid-structure interaction (FSI) simulation of ...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predic...