Direct numerical simulation (DNS) and large eddy simulation (LES) were performed on the wall-bounded flow at Reτ=180 using lattice Boltzmann method (LBM) and multiple GPUs (Graphic Processing Units). In the DNS, 8 K20M GPUs were adopted. The maximum number of meshes is 6.7×107, which results in the nondimensional mesh size of Δ+=1.41 for the whole solution domain. It took 24 hours for GPU-LBM solver to simulate 3×106 LBM steps. The aspect ratio of resolution domain was tested to obtain accurate results for DNS. As a result, both the mean velocity and turbulent variables, such as Reynolds stress and velocity fluctuations, perfectly agree with the results of Kim et al. (1987) when the aspect ratios in streamwise and spanwise directions are 8 ...
Lattice Boltzmann method combined with large eddy simulation is developed in the article to simulate...
In this paper, we verify the newly implemented Large Eddy Simulation (LES) models, namely the Dynami...
Computational fluid mechanics has become a standard approach in many branches of engineering. Simula...
International audienceAn original wall-model for lattice Boltzmann based large-eddy simulation is pr...
Turbulent flow is a complex fluid phenomenon because of its disordered and chaotic flow patterns. An...
International audiencePurpose: The Lattice Boltzmann (LB) method offers an alternative to convention...
The lattice Boltzmann scheme for solving the equations governing the flow of fluids has become incre...
Lattice Boltzmann Methods have shown to be promising tools for solving fluid flow problems. This is ...
The lattice Boltzmann scheme for solving the equations governing the flow of fluids has become incre...
AbstractIn this work, the suitability of the lattice Boltzmann method is evaluated for the simulatio...
We performed a direct numerical simulation of turbulent channel flow at Reynolds number 180 using th...
The lattice Boltzmann method (LBM) has become an attractive and promising approach in computational ...
International audienceIn order to properly address the large-eddy simulation (LES) of complex (weakl...
In order to study the flow behavior at high Reynolds numbers, two modified models, known as the mult...
Session: Validation, Calibration and Testing V - Publisher: www.ibpsa.org - Conference: www.bs2011.o...
Lattice Boltzmann method combined with large eddy simulation is developed in the article to simulate...
In this paper, we verify the newly implemented Large Eddy Simulation (LES) models, namely the Dynami...
Computational fluid mechanics has become a standard approach in many branches of engineering. Simula...
International audienceAn original wall-model for lattice Boltzmann based large-eddy simulation is pr...
Turbulent flow is a complex fluid phenomenon because of its disordered and chaotic flow patterns. An...
International audiencePurpose: The Lattice Boltzmann (LB) method offers an alternative to convention...
The lattice Boltzmann scheme for solving the equations governing the flow of fluids has become incre...
Lattice Boltzmann Methods have shown to be promising tools for solving fluid flow problems. This is ...
The lattice Boltzmann scheme for solving the equations governing the flow of fluids has become incre...
AbstractIn this work, the suitability of the lattice Boltzmann method is evaluated for the simulatio...
We performed a direct numerical simulation of turbulent channel flow at Reynolds number 180 using th...
The lattice Boltzmann method (LBM) has become an attractive and promising approach in computational ...
International audienceIn order to properly address the large-eddy simulation (LES) of complex (weakl...
In order to study the flow behavior at high Reynolds numbers, two modified models, known as the mult...
Session: Validation, Calibration and Testing V - Publisher: www.ibpsa.org - Conference: www.bs2011.o...
Lattice Boltzmann method combined with large eddy simulation is developed in the article to simulate...
In this paper, we verify the newly implemented Large Eddy Simulation (LES) models, namely the Dynami...
Computational fluid mechanics has become a standard approach in many branches of engineering. Simula...