Numerical benchmarking of fluid-rigid body interactions
@article{Wahl2019NumericalBO,
title={Numerical benchmarking of fluid-rigid body interactions},
author={H. Wahl and T. Richter and C. Lehrenfeld and J. Heiland and Piotr Minakowski},
journal={ArXiv},
year={2019},
volume={abs/1908.04637}
}We propose a fluid-rigid body interaction benchmark problem, consisting of a solid spherical obstacle in a Newtonian fluid, whose centre of mass is fixed but is free to rotate. A number of different problems are defined for both two and three spatial dimensions. The geometry is chosen specifically, such that the fluid-solid partition does not change over time and classical fluid solvers are able to solve the fluid-structure interaction problem. We summarise the different approaches used to… CONTINUE READING
Figures, Tables, and Topics from this paper
References
SHOWING 1-10 OF 46 REFERENCES
A Parallel Newton Multigrid Framework for Monolithic Fluid-Structure Interactions
- Mathematics, Computer Science
- J. Sci. Comput.
- 2020
- 9
- PDF
Direct simulation of freely rotating cylinders in viscous flows by high-order finite element methods
- Mathematics
- 2000
- 22
- Highly Influential
Proposal for Numerical Benchmarking of Fluid-Structure Interaction between an Elastic Object and Laminar Incompressible Flow
- Mathematics
- 2006
- 385
- PDF
The angular velocity of a freely rotating sphere in a weakly viscoelastic matrix fluid
- Physics
- 2011
- 17
- Highly Influential
On reference solutions and the sensitivity of the 2D Kelvin-Helmholtz instability problem
- Mathematics, Physics
- Comput. Math. Appl.
- 2019
- 19
- PDF
ARTIFICIAL BOUNDARIES AND FLUX AND PRESSURE CONDITIONS FOR THE INCOMPRESSIBLE NAVIER–STOKES EQUATIONS
- Mathematics
- 1996
- 504
Application of a Fractional-Step Method to Incompressible Navier-Stokes Equations
- Mathematics, Physics
- 1984
- 2,700
- PDF