Adaptive methods with both mesh and polynomial order refinements have been used extensively in computational fluid dynamics to achieve optimal accuracy with the minimal computational cost. However hp-refinement by itself is not sufficient for numerical simulation of turbulent flows of engineering interest. For instance, eve
A model hierarchy that is based on the one-dimensional isothermal Euler equations of fluid dynamics ...
One of the trends in computational fluid dynamics today is the use of the ever-increasing computatio...
In this paper a parallel adaptive mesh refinement (AMR) strategy for large eddy simulations (LES) of...
Abstract. We show that using adaptive finite element methods it is possible to accurately simulate t...
Since the inception of Computational Fluid Dynamics, turbulence model-ing and numerical methods evol...
Although turbulent flows are common in the world around us, a solution to the fundamental equations ...
The use of a Discontinuous Galerkin framework to perform a compressible Large Eddy Simulation is an ...
The error magnitude and the order of accuracy of a new unsteady Variational MultiScale (VMS) solver ...
We present an approach to Computational Fluid Dynamics CFD based on adaptive stabilized Galerkin fin...
We investigate the possibility of reducing the computational burden of LES configurations by employi...
In this study, we demonstrate the ability to perform large-scale PDE-constrained optimizations using...
Aerospace applications, including but not limited to the aerodynamics of slats and flaps, the aeroac...
In the last years considerable progress has been made in the development of Large Eddy Simulation (L...
We discuss aspects of adaptive DNS/LES, where adaptive finite element methods are used to accurately...
We consider the computation of the mean drag coe#cient in a turbulent flow around a surface mounted...
A model hierarchy that is based on the one-dimensional isothermal Euler equations of fluid dynamics ...
One of the trends in computational fluid dynamics today is the use of the ever-increasing computatio...
In this paper a parallel adaptive mesh refinement (AMR) strategy for large eddy simulations (LES) of...
Abstract. We show that using adaptive finite element methods it is possible to accurately simulate t...
Since the inception of Computational Fluid Dynamics, turbulence model-ing and numerical methods evol...
Although turbulent flows are common in the world around us, a solution to the fundamental equations ...
The use of a Discontinuous Galerkin framework to perform a compressible Large Eddy Simulation is an ...
The error magnitude and the order of accuracy of a new unsteady Variational MultiScale (VMS) solver ...
We present an approach to Computational Fluid Dynamics CFD based on adaptive stabilized Galerkin fin...
We investigate the possibility of reducing the computational burden of LES configurations by employi...
In this study, we demonstrate the ability to perform large-scale PDE-constrained optimizations using...
Aerospace applications, including but not limited to the aerodynamics of slats and flaps, the aeroac...
In the last years considerable progress has been made in the development of Large Eddy Simulation (L...
We discuss aspects of adaptive DNS/LES, where adaptive finite element methods are used to accurately...
We consider the computation of the mean drag coe#cient in a turbulent flow around a surface mounted...
A model hierarchy that is based on the one-dimensional isothermal Euler equations of fluid dynamics ...
One of the trends in computational fluid dynamics today is the use of the ever-increasing computatio...
In this paper a parallel adaptive mesh refinement (AMR) strategy for large eddy simulations (LES) of...