Simulating turbulence is critical for many societally important applications in aerospace engineering, environmental science, the energy industry, and biomedicine. Large eddy simulation (LES) has been widely used as an alternative to direct numerical simulation (DNS) for simulating turbulent flows due to its reduced computational cost. However, LES is unable to capture all of the scales of turbulent transport accurately. Reconstructing DNS from low-resolution LES is critical for many scientific and engineering disciplines, but it poses many challenges to existing super-resolution methods due to the spatio-temporal complexity of turbulent flows. In this work, we propose a new physics-guided neural network for reconstructing the sequential DN...
We discuss how large-eddy simulation (LES) can be properly employed to predict the statistics of the...
Solving the Navier-Stokes equations using direct numerical simulation (DNS) is computationally impra...
This numerical study based on high-order finite-difference schemes presents LES-NWR (Large Eddy Simu...
A super-resolution reconstruction model for the subgrid scale (SGS) turbulent flow field in large-ed...
A new super-resolution model, namely the turbulence volumetric super-resolution (TVSR) model, is dev...
Although turbulent flows are common in the world around us, a solution to the fundamental equations ...
Recently, there has been a surge of interest from the industry in unsteady turbulent flows computati...
Turbulence is ubiquitous in nature and central to many applications important to our life. (It is a...
A resolvent-based methodology is employed to obtain spatio--temporal estimates of turbulent pipe flo...
We attempt to assess the resolution quality of Large-Eddy Simulation (LES) using single-grid estimat...
In this article, we demonstrate the use of artificial neural networks as optimal maps which are util...
International audienceThe critical review discusses the most accurate methods for description of tur...
Direct numerical simulation (DNS) and large eddy simulation (LES) of turbulent flows require a numer...
Analysis of compressible turbulent flows is essential for applications related to propulsion, energy...
Direct Numerical Simulation (DNS) is the branch of CFD devoted to high-fidelity solution ofturbulent...
We discuss how large-eddy simulation (LES) can be properly employed to predict the statistics of the...
Solving the Navier-Stokes equations using direct numerical simulation (DNS) is computationally impra...
This numerical study based on high-order finite-difference schemes presents LES-NWR (Large Eddy Simu...
A super-resolution reconstruction model for the subgrid scale (SGS) turbulent flow field in large-ed...
A new super-resolution model, namely the turbulence volumetric super-resolution (TVSR) model, is dev...
Although turbulent flows are common in the world around us, a solution to the fundamental equations ...
Recently, there has been a surge of interest from the industry in unsteady turbulent flows computati...
Turbulence is ubiquitous in nature and central to many applications important to our life. (It is a...
A resolvent-based methodology is employed to obtain spatio--temporal estimates of turbulent pipe flo...
We attempt to assess the resolution quality of Large-Eddy Simulation (LES) using single-grid estimat...
In this article, we demonstrate the use of artificial neural networks as optimal maps which are util...
International audienceThe critical review discusses the most accurate methods for description of tur...
Direct numerical simulation (DNS) and large eddy simulation (LES) of turbulent flows require a numer...
Analysis of compressible turbulent flows is essential for applications related to propulsion, energy...
Direct Numerical Simulation (DNS) is the branch of CFD devoted to high-fidelity solution ofturbulent...
We discuss how large-eddy simulation (LES) can be properly employed to predict the statistics of the...
Solving the Navier-Stokes equations using direct numerical simulation (DNS) is computationally impra...
This numerical study based on high-order finite-difference schemes presents LES-NWR (Large Eddy Simu...