The LS-STAG immersed boundary/cut-cell method for non-Newtonian flows in 3D extruded geometries
From MaRDI portal
Publication:2102449
DOI10.1016/J.CPC.2018.01.006zbMath1498.76076OpenAlexW2794441023MaRDI QIDQ2102449
F. Nikfarjam, Olivier Botella, Yoann Cheny
Publication date: 28 November 2022
Published in: Computer Physics Communications (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cpc.2018.01.006
non-Newtonian fluidscut-cell methodscomputational fluid dynamics (CFD)immersed boundary methodshigh-performance computing (HPC)
Related Items (3)
Higher-order accurate diffuse-domain methods for partial differential equations with Dirichlet boundary conditions in complex, evolving geometries ⋮ Accurate discretization of diffusion in the LS-STAG cut-cell method using diamond cell techniques ⋮ A phase-field method for two-phase fluid flow in arbitrary domains
Uses Software
Cites Work
- Unnamed Item
- Numerical simulation of laminar flow past a circular cylinder
- The LS-STAG method: a new immersed boundary/level-set method for the computation of incompressible viscous flows in complex moving geometries with good conservation properties
- A simple boundary condition for unbounded hyperbolic flows
- B-spline method and zonal grids for simulations of complex turbulent flows
- Modeling complex boundaries using an external force field on fixed Cartesian grids in large-eddy simulations.
- Level set methods and dynamic implicit surfaces
- Symmetry-preserving discretization of turbulent flow.
- The finite volume method in computational fluid dynamics. An advanced introduction with OpenFOAM and Matlab
- IMMERSED BOUNDARY METHODS
- Convergence rate of a finite volume scheme for a two dimensional convection-diffusion problem
- Application of the LS-STAG Immersed Boundary/Cut-Cell Method to Viscoelastic Flow Computations
This page was built for publication: The LS-STAG immersed boundary/cut-cell method for non-Newtonian flows in 3D extruded geometries
