Direct-forcing immersed-boundary method: a simple correction preventing boundary slip error
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Publication:2122263
DOI10.1016/j.jcp.2021.110265OpenAlexW3135123374MaRDI QIDQ2122263
Publication date: 6 April 2022
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2021.110265
Basic methods in fluid mechanics (76Mxx) Incompressible viscous fluids (76Dxx) Coupling of solid mechanics with other effects (74Fxx)
Related Items (6)
Immersed boundary simulations of flows driven by moving thin membranes ⋮ Analysis of the immersed boundary method for turbulent fluid-structure interaction with lattice Boltzmann method ⋮ A flexible forcing immersed boundary scheme-based one-step simplified lattice Boltzmann method for two-dimensional fluid-solid interaction problems ⋮ The immersed boundary method: a SIMPLE approach ⋮ A VOS based immersed boundary-lattice Boltzmann method for incompressible fluid flows with complex and moving boundaries ⋮ An immersed boundary/multi-relaxation time lattice Boltzmann method on adaptive octree grids for the particle-resolved simulation of particle-laden flows
Cites Work
- An improved immersed boundary method with direct forcing for the simulation of particle laden flows
- Immersed-boundary methods for general finite-difference and finite-volume Navier-Stokes solvers
- Implicit velocity correction-based immersed boundary-lattice Boltzmann method and its applications
- An implicit-forcing immersed boundary method for simulating viscous flows in irregular domains
- Modeling complex boundaries using an external force field on fixed Cartesian grids in large-eddy simulations.
- Combined immersed-boundary finite-difference methods for three-dimensional complex flow simulations
- The immersed boundary method: a projection approach
- An immersed boundary method with direct forcing for the simulation of particulate flows
- The immersed boundary method
- Effect of high rotation rates on the laminar flow around a circular cylinder
- An immersed-boundary finite volume method for simulations of flow in complex geometries
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