CFD modelling coupled with floating structures and mooring dynamics for offshore renewable energy devices using the Proteus simulation toolkit
CFD modelling coupled with floating structures and mooring dynamics for offshore renewable energy devices using the Proteus simulation toolkit
In this work, the coupling of novel opensource tools for simulating two-phase incompressible flow problems with fluid-structure interaction and mooring dynamics is presented. The open-source Computational Fluid Dynamics (CFD) toolkit Proteus is used for the simulations. Proteus solves the two phase Navier-Stokes equations using the Finite Element Method (FEM) and is fully coupled with an Arbitrary Lagrangian-Eulerian (ALE) formulation for mesh motion allowing solid body motion within the fluid domain. The multi-body dynamics solver, Chrono, is used for calculating rigid body motion and modelling dynamics of complex mooring systems. At each time step, Proteus computes the forces from
the fluid acting on the rigid body necessary to find its displacement with Chrono which will be used as boundary conditions for mesh motion. Several verification and validation cases are presented here in order to prove the successful coupling between the two toolkits aforementioned. These test cases include wave sloshing in a tank, floating body dynamics under free and wave-induced motion for different degrees of freedom (DOFs), and mooring dynamics using beam element theory coupled with rigid body dynamics and collision detection. The successful validation of each component shows the potential of the coupled
methodology to be used for assisting the design of offshore renewable energy devices.
Lataillade, Tristan de
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Dimakopoulos, Aggelos
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Kees, Christopher
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Johanning, Lars
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Ingram, David
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Tezdogan, Tahsin
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30 August 2017
Lataillade, Tristan de
0a477858-f8be-4029-aa89-bd3dc7fa9344
Dimakopoulos, Aggelos
c39a8b89-93a9-42d9-bc89-f18935b6646a
Kees, Christopher
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Johanning, Lars
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Ingram, David
7cc24f54-45c8-4d42-a902-88573673b040
Tezdogan, Tahsin
7e7328e2-4185-4052-8e9a-53fd81c98909
Lataillade, Tristan de, Dimakopoulos, Aggelos, Kees, Christopher, Johanning, Lars, Ingram, David and Tezdogan, Tahsin
(2017)
CFD modelling coupled with floating structures and mooring dynamics for offshore renewable energy devices using the Proteus simulation toolkit.
In 12th European Wave and Tidal Energy Conference, Cork, Ireland, 27/08/17.
11 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
In this work, the coupling of novel opensource tools for simulating two-phase incompressible flow problems with fluid-structure interaction and mooring dynamics is presented. The open-source Computational Fluid Dynamics (CFD) toolkit Proteus is used for the simulations. Proteus solves the two phase Navier-Stokes equations using the Finite Element Method (FEM) and is fully coupled with an Arbitrary Lagrangian-Eulerian (ALE) formulation for mesh motion allowing solid body motion within the fluid domain. The multi-body dynamics solver, Chrono, is used for calculating rigid body motion and modelling dynamics of complex mooring systems. At each time step, Proteus computes the forces from
the fluid acting on the rigid body necessary to find its displacement with Chrono which will be used as boundary conditions for mesh motion. Several verification and validation cases are presented here in order to prove the successful coupling between the two toolkits aforementioned. These test cases include wave sloshing in a tank, floating body dynamics under free and wave-induced motion for different degrees of freedom (DOFs), and mooring dynamics using beam element theory coupled with rigid body dynamics and collision detection. The successful validation of each component shows the potential of the coupled
methodology to be used for assisting the design of offshore renewable energy devices.
Text
de_Lataillade_etal_EWTEC2017_CFD_modelling_coupled_with_floating_structures_and_mooring
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Published date: 30 August 2017
Identifiers
Local EPrints ID: 479207
URI: http://eprints.soton.ac.uk/id/eprint/479207
PURE UUID: d76caba4-0116-40b2-a8be-4dbe5b8256ca
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Date deposited: 20 Jul 2023 16:45
Last modified: 14 Mar 2024 03:26
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Contributors
Author:
Tristan de Lataillade
Author:
Aggelos Dimakopoulos
Author:
Christopher Kees
Author:
Lars Johanning
Author:
David Ingram
Author:
Tahsin Tezdogan
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