Delayed detached eddy simulation based on the Spalart–Allmaras turbulence model is applied in conjunction with the immersed boundary method to high-Reynolds number turbulent flows in complex geometries. A fourth-order, finite-difference solver capable of discretely preserving the total kinetic energy in the limit of inviscid flow is adopted to solve the compressible Navier–Stokes equations and model-consistent, adaptive wall functions are employed to provide proper numerical boundary conditions at the fluid/solid interface. Numerical tests, performed for several configurations involving massively separated flows, demonstrate that computations at high Reynolds number typically occurring in flows of industrial relevance can be successfully ca...
An efficient and accurate finite volume incompressible flow solver with a staggered arrangement in t...
A general construction approach for a class of detached-eddy simulation (DES) methods with the turbu...
The paper presents a novel implementation of the embedded boundary algorithm in a Large Eddy Simulat...
Approximate immersed boundary conditions for large-eddy simulation (LES) of turbulent flows in combi...
In this paper we show how the Immersed Boundary (IB) method can be used with the Large-Eddy-Simulati...
International audienceThis paper applies a recently developed immersed boundary-turbulence wall mode...
Computations of turbulent and transitional flows in rotating machinery applications are very challen...
The numerical simulation of flows past flapping foils at moderate Reynolds numbers presents two cha...
Turbulent flows present structures with a wide range of scales. The computation of the complete phys...
The mathematical modeling of turbulent flows around complex moving geometries has always been an ext...
Research is presented on the development and testing of a new procedure for the time dependent, spat...
A novel immersed boundary method based on a domain decomposition approach is proposed in the context...
The present work is devoted to the development and implementation of a computational framework to pe...
A non-boundary-conforming formulation for simulating transitional and turbulent flows with complex g...
We propose a conservative, second-order accurate immersed interface method for representing incompre...
An efficient and accurate finite volume incompressible flow solver with a staggered arrangement in t...
A general construction approach for a class of detached-eddy simulation (DES) methods with the turbu...
The paper presents a novel implementation of the embedded boundary algorithm in a Large Eddy Simulat...
Approximate immersed boundary conditions for large-eddy simulation (LES) of turbulent flows in combi...
In this paper we show how the Immersed Boundary (IB) method can be used with the Large-Eddy-Simulati...
International audienceThis paper applies a recently developed immersed boundary-turbulence wall mode...
Computations of turbulent and transitional flows in rotating machinery applications are very challen...
The numerical simulation of flows past flapping foils at moderate Reynolds numbers presents two cha...
Turbulent flows present structures with a wide range of scales. The computation of the complete phys...
The mathematical modeling of turbulent flows around complex moving geometries has always been an ext...
Research is presented on the development and testing of a new procedure for the time dependent, spat...
A novel immersed boundary method based on a domain decomposition approach is proposed in the context...
The present work is devoted to the development and implementation of a computational framework to pe...
A non-boundary-conforming formulation for simulating transitional and turbulent flows with complex g...
We propose a conservative, second-order accurate immersed interface method for representing incompre...
An efficient and accurate finite volume incompressible flow solver with a staggered arrangement in t...
A general construction approach for a class of detached-eddy simulation (DES) methods with the turbu...
The paper presents a novel implementation of the embedded boundary algorithm in a Large Eddy Simulat...