We present a time-resolved, adaptive finite element method for aerodynamics, together with the results from the HiLiftPW-2 workshop, where this method is used to compute the flow past a DLR-F11 aircraft model at realistic Reynolds number. The mesh is automatically constructed by the method as part of the computation, and no explicit turbulence model is needed. The effect of unresolved turbulent boundary layers is modeled by a simple parametrization of the wall shear stress in terms of the skin friction. In the extreme case of very high Reynolds numbers we approximate the small skin friction by zero skin friction, corresponding to a free slip boundary condition, which results in a computational model without any model parameter that needs tu...
The turbulent flow over the DrivAer fastback model is here investigated with an order-adaptive disco...
Summarization: The academic computational fluid dynamics code Galatea-I is used in this study for th...
The design of aircraft depends increasingly on the use of Computational Fluid Dynamics (CFD) in whic...
We present a time-resolved, adaptive finite element method for aerodynamics, together with the resul...
Our simulation methodology is referred to as Direct FEM Simulation (DFS), or General Galerkin (G2) a...
We present work towards a parameter-free method for turbulent flow simulation based on adaptive fini...
A new adaptive technique for simulation of unsteady incompressible flows at high Reynolds number is ...
ProjectX is a high-order, adaptive discontinuous Galerkin finite element solver. The DG discretizati...
For some time computational fluid dynamics (CFD) based numerical simulations are an essential compon...
Although turbulent flows are common in the world around us, a solution to the fundamental equations ...
ProjectX is a high-order, adaptive discontinuous Galerkin finite element solver. The DG discretizati...
In this work we present the main features of a p-adaptive Discontinuous Galerkin (DG) method, suited...
Abstract. We show that using adaptive finite element methods it is possible to accurately simulate t...
This paper relates the computational demand of turbulence- resolving flow simulations for aircraft ...
The error magnitude and the order of accuracy of a new unsteady Variational MultiScale (VMS) solver ...
The turbulent flow over the DrivAer fastback model is here investigated with an order-adaptive disco...
Summarization: The academic computational fluid dynamics code Galatea-I is used in this study for th...
The design of aircraft depends increasingly on the use of Computational Fluid Dynamics (CFD) in whic...
We present a time-resolved, adaptive finite element method for aerodynamics, together with the resul...
Our simulation methodology is referred to as Direct FEM Simulation (DFS), or General Galerkin (G2) a...
We present work towards a parameter-free method for turbulent flow simulation based on adaptive fini...
A new adaptive technique for simulation of unsteady incompressible flows at high Reynolds number is ...
ProjectX is a high-order, adaptive discontinuous Galerkin finite element solver. The DG discretizati...
For some time computational fluid dynamics (CFD) based numerical simulations are an essential compon...
Although turbulent flows are common in the world around us, a solution to the fundamental equations ...
ProjectX is a high-order, adaptive discontinuous Galerkin finite element solver. The DG discretizati...
In this work we present the main features of a p-adaptive Discontinuous Galerkin (DG) method, suited...
Abstract. We show that using adaptive finite element methods it is possible to accurately simulate t...
This paper relates the computational demand of turbulence- resolving flow simulations for aircraft ...
The error magnitude and the order of accuracy of a new unsteady Variational MultiScale (VMS) solver ...
The turbulent flow over the DrivAer fastback model is here investigated with an order-adaptive disco...
Summarization: The academic computational fluid dynamics code Galatea-I is used in this study for th...
The design of aircraft depends increasingly on the use of Computational Fluid Dynamics (CFD) in whic...