Direct Numerical Simulation (DNS) is the most accurate, but also the most expensive, way of computing turbulent flow. To cut the costs of DNS we consider a family of second-order, explicit one-leg time-integration methods and look for the method with the best linear stability properties. It turns out that this method requires about two times less computational effort than Adams–Bashforth. Next, we discuss a fourth-order finite-volume method that is constructed as the Richardson extrapolate of a classical second-order method. We compare the results of this fourth-order method and the underlying second-order method for a DNS of the flow in a cubical driven cavity at Re = 10^4. Experimental results are available for comparison. For this exampl...
In recent years, the increased use of off-the-shelf components and the large-scale adoption of paral...
This work is devoted to the development of efficient methods for the numerical simulation of incomp...
Recently, there has been a surge of interest from the industry in unsteady turbulent flows computati...
Direct Numerical Simulation (DNS) is the most accurate, but also the most expensive, way of computin...
At ECCOMAS 94 we have presented results of a direct numerical simulation (DNS) of turbulent flow in ...
Direct numerical simulation (DNS) of turbulent flows is reviewed here. Back-ground of DNS is present...
Although turbulent flows are common in the world around us, a solution to the fundamental equations ...
Understanding the nature of complex turbulent flows remains one of the most challenging problems in ...
Nearly all moving objects on Earth pass through fluids and many of them move at high speed. This mak...
Direct Numerical Simulation (DNS) is the branch of CFD devoted to high-fidelity solution ofturbulent...
Direct Numerical Simulations (DNS) provide an increasing data source to improve our understanding of...
Direct Numerical Simulation (DNS) of turbulent flow and heat transfer requires that most of the ener...
Direct Numerical Simulation (DNS) of turbulent flow and heat transfer requires that most of the ener...
Direct numerical simulations (DNS) of 2 and 3D turbulent flows in a lid-driven cavity have been perf...
This contribution deals with direct numerical simulation (DNS) of incompressible turbulent flows on ...
In recent years, the increased use of off-the-shelf components and the large-scale adoption of paral...
This work is devoted to the development of efficient methods for the numerical simulation of incomp...
Recently, there has been a surge of interest from the industry in unsteady turbulent flows computati...
Direct Numerical Simulation (DNS) is the most accurate, but also the most expensive, way of computin...
At ECCOMAS 94 we have presented results of a direct numerical simulation (DNS) of turbulent flow in ...
Direct numerical simulation (DNS) of turbulent flows is reviewed here. Back-ground of DNS is present...
Although turbulent flows are common in the world around us, a solution to the fundamental equations ...
Understanding the nature of complex turbulent flows remains one of the most challenging problems in ...
Nearly all moving objects on Earth pass through fluids and many of them move at high speed. This mak...
Direct Numerical Simulation (DNS) is the branch of CFD devoted to high-fidelity solution ofturbulent...
Direct Numerical Simulations (DNS) provide an increasing data source to improve our understanding of...
Direct Numerical Simulation (DNS) of turbulent flow and heat transfer requires that most of the ener...
Direct Numerical Simulation (DNS) of turbulent flow and heat transfer requires that most of the ener...
Direct numerical simulations (DNS) of 2 and 3D turbulent flows in a lid-driven cavity have been perf...
This contribution deals with direct numerical simulation (DNS) of incompressible turbulent flows on ...
In recent years, the increased use of off-the-shelf components and the large-scale adoption of paral...
This work is devoted to the development of efficient methods for the numerical simulation of incomp...
Recently, there has been a surge of interest from the industry in unsteady turbulent flows computati...