The vortex method is applied to the calculation of a homogeneous shear turbulence, and compared with a finite difference code using identical calculation conditions. The core spreading method with spatial adaptation is selected as the viscous diffusion scheme of the vortex method. The shear rate is chosen so that it matches the maximum value observed in a fully developed channel flow. The isosurface, anisotropy tensors, and joint probability density functions reflect the ability of the present vortex method to quantitatively reproduce the anisotropic nature of strongly sheared turbulence, both instantaneously and statistically.
Vortex methods are a powerful tool for solving engineering problems of incompressible flow simulatio...
Vortex methods are competitive for simulating incompressible unsteady flows, because they have negli...
Vortex methods have a history as old as finite differences. They have since faced difficulties stemm...
A vortex method has been developed where spatial adaption of the Lagrangian vortex particles is prov...
Vortex methods, particularly when regarded as a gridfree technique for large eddy simulation, repres...
The flow of a viscous fluid in a plane channel is simulated numerically following the DNS approach, ...
The vortex method is applied to the calculation of a decaying homogeneous isotropic turbulence of Re...
This paper presents the development of core spreading vortex element method, which is a mesh-free me...
AbstractThe implementations of 2D vortex element method adapted to different types of parallel compu...
The discrete vortex method (DVM) is based on a Lagrangian description of the vorticity transport equ...
A new combination of vortex-in-cell and parallel fast multipole methods is presented which allows to...
This thesis is concerned with the numerical simulation of high Reynolds number, three-dimensional, i...
Abstract. Vortex methods are numerical schemes for approximating solutions to the Navier-Stokes equa...
A mixed Lagrangian-Eulerian description of the evolution of the discretized vorticity field is used ...
THESIS 6795The random vortex method is a Lagrangian technique which involves solving the stream func...
Vortex methods are a powerful tool for solving engineering problems of incompressible flow simulatio...
Vortex methods are competitive for simulating incompressible unsteady flows, because they have negli...
Vortex methods have a history as old as finite differences. They have since faced difficulties stemm...
A vortex method has been developed where spatial adaption of the Lagrangian vortex particles is prov...
Vortex methods, particularly when regarded as a gridfree technique for large eddy simulation, repres...
The flow of a viscous fluid in a plane channel is simulated numerically following the DNS approach, ...
The vortex method is applied to the calculation of a decaying homogeneous isotropic turbulence of Re...
This paper presents the development of core spreading vortex element method, which is a mesh-free me...
AbstractThe implementations of 2D vortex element method adapted to different types of parallel compu...
The discrete vortex method (DVM) is based on a Lagrangian description of the vorticity transport equ...
A new combination of vortex-in-cell and parallel fast multipole methods is presented which allows to...
This thesis is concerned with the numerical simulation of high Reynolds number, three-dimensional, i...
Abstract. Vortex methods are numerical schemes for approximating solutions to the Navier-Stokes equa...
A mixed Lagrangian-Eulerian description of the evolution of the discretized vorticity field is used ...
THESIS 6795The random vortex method is a Lagrangian technique which involves solving the stream func...
Vortex methods are a powerful tool for solving engineering problems of incompressible flow simulatio...
Vortex methods are competitive for simulating incompressible unsteady flows, because they have negli...
Vortex methods have a history as old as finite differences. They have since faced difficulties stemm...