Add to ORKGWith todays supercomputers we are able to simulate flows with moderate to high Reynolds numbers. These flows show features that are not present in simulations with lower Reynolds numbers. Recently we have finished a fully resolved direct numerical simulation of a turbulent pipe flow with a bulk Reynolds number of 76,000 on a computational domain which is 18 pipe diameters long. During the conference we will present results from this simulation, such as velocity statistics, pre-multiplied energy spectra and auto correlations.Process and EnergyEnergy Technolog
The effective methods for numerical solution of the three-dimensional Navier - Stokes equations at R...
Nearly all moving objects on Earth pass through fluids and many of them move at high speed. This mak...
© 2011 Dr. Cheng ChinDirect numerical simulation (DNS) of turbulent pipe flow has been performed at ...
In this paper we will present results of several direct numerical simulations of turbulent pipe flow...
In recent years there has been a considerable research effort dedicated to turbulent pipe flow. Topi...
Available online 31 August 2015Results are reported for wall-resolved large-eddy simulation of fully...
Data from the paper: Direct numerical simulation of turbulent pipe flow at moderately high Reynolds...
Turbulent transport computations of a scalar quantity for fully developed turbulent pipe flow with u...
We present results from direct numerical simulations (DNS) of turbulent pipe flow at shear Reynolds ...
Numerical simulation of turbulent flows is discussed. Computational requirements for the direct simu...
Direct numerical simulations (DNSs) of fully developed turbulent pipe flows with a 30. R streamwise ...
This paper is associated with a video winner of a 2021 American Physical Society’s Division of Fluid...
A large amount of the energy needed to push fluids through pipes worldwide is dissipated by viscous ...
Direct numerical simulation of an equilibrium turbulent pipe flow at a Reynolds number of 2500, base...
Fully developed turbulent flow in a pipe was studied by considering experimental and computational m...
The effective methods for numerical solution of the three-dimensional Navier - Stokes equations at R...
Nearly all moving objects on Earth pass through fluids and many of them move at high speed. This mak...
© 2011 Dr. Cheng ChinDirect numerical simulation (DNS) of turbulent pipe flow has been performed at ...
In this paper we will present results of several direct numerical simulations of turbulent pipe flow...
In recent years there has been a considerable research effort dedicated to turbulent pipe flow. Topi...
Available online 31 August 2015Results are reported for wall-resolved large-eddy simulation of fully...
Data from the paper: Direct numerical simulation of turbulent pipe flow at moderately high Reynolds...
Turbulent transport computations of a scalar quantity for fully developed turbulent pipe flow with u...
We present results from direct numerical simulations (DNS) of turbulent pipe flow at shear Reynolds ...
Numerical simulation of turbulent flows is discussed. Computational requirements for the direct simu...
Direct numerical simulations (DNSs) of fully developed turbulent pipe flows with a 30. R streamwise ...
This paper is associated with a video winner of a 2021 American Physical Society’s Division of Fluid...
A large amount of the energy needed to push fluids through pipes worldwide is dissipated by viscous ...
Direct numerical simulation of an equilibrium turbulent pipe flow at a Reynolds number of 2500, base...
Fully developed turbulent flow in a pipe was studied by considering experimental and computational m...
The effective methods for numerical solution of the three-dimensional Navier - Stokes equations at R...
Nearly all moving objects on Earth pass through fluids and many of them move at high speed. This mak...
© 2011 Dr. Cheng ChinDirect numerical simulation (DNS) of turbulent pipe flow has been performed at ...