Large-eddy simulation of turbulent channel flow using relaxation filtering: resolution requirement and Reynolds number effects
From MaRDI portal
Publication:1645775
DOI10.1016/j.compfluid.2015.03.026zbMath1390.76182OpenAlexW1993659191MaRDI QIDQ1645775
François Kremer, Christophe Bogey
Publication date: 22 June 2018
Published in: Computers and Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.compfluid.2015.03.026
Related Items
Viscous and hyperviscous filtering for direct and large-eddy simulation, Simulations of viscous and compressible gas-gas flows using high-order finite difference schemes, Spectral proper orthogonal decomposition of coupled hydrodynamic and acoustic fields: application to impinging jet configurations (draft), Feedback loop and upwind-propagating waves in ideally expanded supersonic impinging round jets, Assessment of implicit LES modelling for bypass transition of a boundary layer, Numerical assessments of a parametric implicit large eddy simulation model, Non-explicit large eddy simulations of turbulent channel flows from \(R e_\tau = 180\) up to \(R e_\tau = 5 , 200\), Acoustic tones in the near-nozzle region of jets: characteristics and variations between Mach numbers 0.5 and 2, Effects of nozzle-exit boundary-layer profile on the initial shear-layer instability, flow field and noise of subsonic jets, Generation of acoustic tones in round jets at a Mach number of 0.9 impinging on a plate with and without a hole
Cites Work
- Unnamed Item
- Filter shape dependence and effective scale separation in large eddy simulations based on relaxation filtering
- Direct numerical simulation of compressible turbulent channel flows using the discontinuous Galerkin method
- A shock-capturing methodology based on adaptative spatial filtering for high-order non-linear computations
- A high-resolution code for turbulent boundary layers
- Low-dissipation and low-dispersion fourth-order Runge-Kutta algorithm
- A family of low dispersive and low dissipative explicit schemes for flow and noise computations.
- A low-dissipative, scale-selective discretization scheme for the Navier-Stokes equations
- Compressible large eddy simulations of wall-bounded turbulent flows using a semi-implicit numerical scheme for low Mach number aeroacoustics
- On the performance of relaxation filtering for large-eddy simulation
- Turbulent boundary layers at moderate Reynolds numbers: inflow length and tripping effects
- Assessment of direct numerical simulation data of turbulent boundary layers
- Large-eddy simulation of large-scale structures in long channel flow
- Turbulence and energy budget in a self-preserving round jet: direct evaluation using large eddy simulation
- The law of the wake in the turbulent boundary layer
- Energetic spanwise modes in the logarithmic layer of a turbulent boundary layer
- Direct numerical simulation of turbulent channel flow up to Reτ=590
- An explicit filtering method for large eddy simulation of compressible flows
- Spectra of the very large anisotropic scales in turbulent channels
- Wall-bounded turbulent flows at high Reynolds numbers: Recent advances and key issues
- Direct simulation of a turbulent boundary layer up to Rθ = 1410
- The large-scale dynamics of near-wall turbulence
- Turbulence statistics in fully developed channel flow at low Reynolds number
- Scaling of the energy spectra of turbulent channels
- The structure of turbulent boundary layers
- Direct numerical simulation of turbulence in a nominally zero-pressure-gradient flat-plate boundary layer
- Variations of von Kármán coefficient in canonical flows
- Turbulent boundary layers up to Reθ=2500 studied through simulation and experiment
- Turbulent boundary-layer noise: direct radiation at Mach number 0.5
