J Braz. Soc. Mech. Sci. Eng.
 2018
DOI: 10.1007/s40430-018-1147-z
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A staggered procedure for fluid–object interaction with free surfaces, large rotations and driven by adaptive time stepping

Thomas Miras
1
,
José J. Camata
2
,
Renato N. Elias
3
et al.

Abstract: The coupling between a rigid body under large rotations and incompressible fluids is investigated within the arbitrary Lagrangian-Eulerian framework. We use here a staggered type of coupling with a predictor/corrector approach for the forces applied to the rigid body. Adaptive time stepping based on feedback control theory imposing a CFL condition on the mesh is investigated. The coupling scheme is first tested on a case illustrating vortex-induced vibrations around a rotating plate. We show the advantages of … Show more

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Cited by 4 publications
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Communication–Free Parallel Mesh Multiplication for Large Scale Simulations

Silva
1
,
Lima
2
,
Camata
3
et al. 2019
High Performance Computing for Computational Science – VECPAR 2018
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Communication–Free Parallel Mesh Multiplication for Large Scale Simulations

Silva
1
,
Lima
2
,
Camata
3
et al. 2019
High Performance Computing for Computational Science – VECPAR 2018
1
0
0
0
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Characterizing water-on-deck propagation with a nonlinear advection-diffusion equation

González-Olvera
1
,
Torres2,
Hernández-Fontes3
et al. 2022
J Braz. Soc. Mech. Sci. Eng.
2
0
1
0
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Data-driven identification of coupling closure equations in vortex-induced vibrations phenomenological models

Honigbaum
1
,
Rochinha
2
2022
Ocean Engineering
2
0
0
0
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