Flow-induced transverse vibration of a circular cylinder close to a plane wall at small gap ratios

Abstract: Numerical simulations of flow-induced transverse vibration of a near-wall cylinder with small gap to diameter ratios (e/D ≤ 0.5) at Re = 200 are performed based on the Navier-Stokes equations using a finite volume method based OpenFOAM codes. Multi-block mesh is used. As the cylinder is very close the wall, remeshing is regularly applied during the body oscillation to avoid over distortion of the grid. A model to account for the collision of the cylinder with the wall is adopted, in which when the gap between … Show more

“…The tolerance for the Newton-Raphson iteration is set as 1.0 × 10 −6 .Eqs. ( 13) and ( 14) are solved using a second-order Newmark-β method, as done in Chen and Wu (2020) [34,35]. The algorithms for Eq.…”

Vortex-induced three-degree-of-freedom vibration of a piggyback circular cylinder system

“…The tolerance for the Newton-Raphson iteration is set as 1.0 × 10 −6 .Eqs. ( 13) and ( 14) are solved using a second-order Newmark-β method, as done in Chen and Wu (2020) [34,35]. The algorithms for Eq.…”

Vortex-induced three-degree-of-freedom vibration of a piggyback circular cylinder system

“…Previous researches are largely centered on the dynamic response of VIV of a cylinder close to a wall in the laminar flow. In this paper, the dynamic response of VIV of an elastically supported cylinder for low mass ratio near a wall at high Re in the turbulent regime is numerically investigated based on open-source software OpenFOAM [14][15][16][17][18][19][20][21][22] .…”

Two-Dimensional VIV Simulation of a Cylinder Close to a Wall with High Reynolds Number by Overset Mesh

Flow-Induced Transverse Vibration of Three Equal-Diameter Cylinders in an Equilateral Triangle Using the Immersed Boundary–Lattice Boltzmann Flux Solver