Abstract The present study introduces a Gauss-Seidel fluid-structure interaction (FSI) method including the flow solver, structural statics solver and a fast data transfer technique, for the research of structural deformation and flow field variation of rotor blades under the combined influence of steady aerodynamic and centrifugal forces. The FSI method is illustrated and validated by the static aeroelasticity analysis of a transonic compressor rotor blade, NASA Rotor 37. An improved local interpolation with data reduction (LIWDR) algorithm is introduced for fast data transfer on the fluid-solid interface of blade. The results of FSI calculation of NASA Rotor 37 show that when compared with the radial basis function (RBF) based interpolati...
Low-fidelity fluidstructure interaction model of flexible propeller blades is assessed by means of c...
In this paper, helicopter rotor blades are analysed in hover using computational fluid dynamics (CFD...
As wind energy industry is growing, there is a trend in the wind turbine industry towards larger rot...
With the development of the modern turbomachinery design technology, the effects of fluid-structure ...
Aeroelastic stability analysis of rotorcraft requires accurate loads and structural dynamic analysis...
In this paper, a numerical model for fluid-structure interaction (FSI) analysis is developed for inv...
Fluid-structure interaction (FSI) analysis is a common tool used to analyze aeroelastic problems. Th...
Computational Fluid Dynamics (CFD) is a fundamental tool fo the aerodynamic development in industria...
In this paper, we provide a numerical method via FEM software (ANSYS) using two-way Fluid-Structure ...
A fluid-structure coupling method is developed for calculation of unsteady forces applied to the bla...
The practice of three dimensional time accurate computational fluid dynamics (CFD) methods and the u...
Due to increasing energy requirements, wind turbine blades have increased in size and flexibility. T...
An unsteady, three dimensional Navier-Stokes solution in rotating frame formulation for turbomachine...
The interaction between a flexible structure and the surrounding fluid gives rise to a variety of ph...
This paper presents aeroelastic analyses of wind turbines, using the compressible flow Helicopter Mu...
Low-fidelity fluidstructure interaction model of flexible propeller blades is assessed by means of c...
In this paper, helicopter rotor blades are analysed in hover using computational fluid dynamics (CFD...
As wind energy industry is growing, there is a trend in the wind turbine industry towards larger rot...
With the development of the modern turbomachinery design technology, the effects of fluid-structure ...
Aeroelastic stability analysis of rotorcraft requires accurate loads and structural dynamic analysis...
In this paper, a numerical model for fluid-structure interaction (FSI) analysis is developed for inv...
Fluid-structure interaction (FSI) analysis is a common tool used to analyze aeroelastic problems. Th...
Computational Fluid Dynamics (CFD) is a fundamental tool fo the aerodynamic development in industria...
In this paper, we provide a numerical method via FEM software (ANSYS) using two-way Fluid-Structure ...
A fluid-structure coupling method is developed for calculation of unsteady forces applied to the bla...
The practice of three dimensional time accurate computational fluid dynamics (CFD) methods and the u...
Due to increasing energy requirements, wind turbine blades have increased in size and flexibility. T...
An unsteady, three dimensional Navier-Stokes solution in rotating frame formulation for turbomachine...
The interaction between a flexible structure and the surrounding fluid gives rise to a variety of ph...
This paper presents aeroelastic analyses of wind turbines, using the compressible flow Helicopter Mu...
Low-fidelity fluidstructure interaction model of flexible propeller blades is assessed by means of c...
In this paper, helicopter rotor blades are analysed in hover using computational fluid dynamics (CFD...
As wind energy industry is growing, there is a trend in the wind turbine industry towards larger rot...