A simple and efficient dynamic grid deformation technique is proposed for computing unsteady flow problems with geometrical deformation, relative body movement or shape changes due to aerodynamic optimisation and fluid–structure interaction. A Delaunay graph of the solution domain is first generated, which can be moved easily during the geometric dynamic deformation, even for very large distortion. A one to one mapping between the Delaunay graph and the computational grid is maintained during the movement. Therefore the new computational grid after the dynamic movement can be generated efficiently through the mapping while maintaining the primary qualities of the grid. While most dynamic grid deformation techniques are iterative based on th...
Moving grid or mesh deformation is a challenging task for numerical simulation of fluid-structure in...
The dynamic interaction of a flexible body with the surrounding flow at Low Reynolds numbers is stud...
This paper documents the initial development results of an efficient mesh deformation technique to s...
A simple and efficient moving grid technique is proposed for computing unsteady flow problems with g...
Dynamic grid algorithm is essential for numerical simulation of fluid-structure interaction problems...
A deformable overset grid method was proposed to simulate the unsteady aerodynamic problems with mu...
A flapping NACA0012 wing with spanwise rigid and flexible configurations is simulated using the Dela...
AbstractA mesh deformation algorithm for unstructured Cartesian grids is presented. Given a surface ...
The fluid–structure interaction and aerodynamic shape optimization usually involve the moving or def...
A novel mesh deformation technique is developed based on the Delaunay graph mapping (DGM) method and...
A deformable overset grid method is proposed to simulate the unsteady aerodynamic problems with mult...
A novel parallel dynamic moving mesh algorithm designed for multiblock parallel unsteady ow calcula...
A new, efficient, and at the same time most precise calculation method for unsteady aerodynamics is ...
An eective dynamic moving mesh algorithm suitable for multiblock parallel unsteady ow calculations ...
Abstract: Numerical simulation of the aeroelastic behaviour of wings and rotor blades requires the c...
Moving grid or mesh deformation is a challenging task for numerical simulation of fluid-structure in...
The dynamic interaction of a flexible body with the surrounding flow at Low Reynolds numbers is stud...
This paper documents the initial development results of an efficient mesh deformation technique to s...
A simple and efficient moving grid technique is proposed for computing unsteady flow problems with g...
Dynamic grid algorithm is essential for numerical simulation of fluid-structure interaction problems...
A deformable overset grid method was proposed to simulate the unsteady aerodynamic problems with mu...
A flapping NACA0012 wing with spanwise rigid and flexible configurations is simulated using the Dela...
AbstractA mesh deformation algorithm for unstructured Cartesian grids is presented. Given a surface ...
The fluid–structure interaction and aerodynamic shape optimization usually involve the moving or def...
A novel mesh deformation technique is developed based on the Delaunay graph mapping (DGM) method and...
A deformable overset grid method is proposed to simulate the unsteady aerodynamic problems with mult...
A novel parallel dynamic moving mesh algorithm designed for multiblock parallel unsteady ow calcula...
A new, efficient, and at the same time most precise calculation method for unsteady aerodynamics is ...
An eective dynamic moving mesh algorithm suitable for multiblock parallel unsteady ow calculations ...
Abstract: Numerical simulation of the aeroelastic behaviour of wings and rotor blades requires the c...
Moving grid or mesh deformation is a challenging task for numerical simulation of fluid-structure in...
The dynamic interaction of a flexible body with the surrounding flow at Low Reynolds numbers is stud...
This paper documents the initial development results of an efficient mesh deformation technique to s...