Near-wall treatment for the simulation of turbulent flow by the cumulant lattice Boltzmann method
DOI10.1016/j.camwa.2017.11.022zbMath1443.76183OpenAlexW2771101007MaRDI QIDQ2004480
Andrea Pasquali, Manfred Krafczyk, Martin Geier
Publication date: 7 October 2020
Published in: Computers \& Mathematics with Applications (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.camwa.2017.11.022
turbulencewall functioncumulant lattice Boltzmann methodgeneral-purpose graphics processing unitspartial slip velocity boundary condition
Particle methods and lattice-gas methods (76M28) Direct numerical and large eddy simulation of turbulence (76F65) Applications to the sciences (65Z05)
Related Items (9)
Uses Software
Cites Work
- Wall model for large-eddy simulation based on the lattice Boltzmann method
- Equivalent partial differential equations of a lattice Boltzmann scheme
- Investigation of the LES WALE turbulence model within the lattice Boltzmann framework
- Simulation of turbulent flow past bluff bodies on coarse meshes using general Galerkin methods: drag crisis and turbulent Euler solutions
- The numerical computation of turbulent flows
- Simulation of micro aggregate breakage in turbulent flows by the cumulant lattice Boltzmann method
- Parametrization of the cumulant lattice Boltzmann method for fourth order accurate diffusion. I: Derivation and validation
- Parametrization of the cumulant lattice Boltzmann method for fourth order accurate diffusion. II: Application to flow around a sphere at drag crisis
- The cumulant lattice Boltzmann equation in three dimensions: theory and validation
- Asymptotic analysis of the lattice Boltzmann equation
- Simulation of Separation from Curved Surfaces with Combined LES and RANS Schemes
- Explicit Expression for the Smooth Wall Velocity Distribution in a Turbulent Boundary Layer
- Multiple–relaxation–time lattice Boltzmann models in three dimensions
- Self-consistent high-Reynolds-number asymptotics for zero-pressure-gradient turbulent boundary layers
- Achieving large slip with superhydrophobic surfaces: Scaling laws for generic geometries
- Direct simulations for wall modeling of multicomponent reacting compressible turbulent flows
- A simple clipping procedure for the dynamic mixed model based on Taylor series approximation
- Unnamed Item
- Unnamed Item
This page was built for publication: Near-wall treatment for the simulation of turbulent flow by the cumulant lattice Boltzmann method
