A matrix free, partitioned solution of fluid–structure interaction problems using finite volume and finite element methods

A fully-coupled partitioned finite volume–finite volume and hybrid finite volume–finite element fluid–structure interaction scheme is presented. The fluid domain is modelled as a viscous incompressible isothermal region governed by the Navier–Stokes equations and discretised using an edge-based hybr...

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Vydáno v:European journal of mechanics, B, Fluids Ročník 49; s. 272 - 286
Hlavní autoři: Suliman, R., Oxtoby, O.F., Malan, A.G., Kok, S.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Masson SAS 01.01.2015
Témata:
Arbitrary Lagrangian–Eulerian (ALE)
Computational fluid dynamics
Finite element methods
Finite volume methods
Fluid flow
Fluid-structure interaction
Fluids
Joining
Mathematical analysis
Mathematical models
Navier-Stokes equations
Parallelisation
Partitioned solution
Fluid–structure interaction
Partitioned solution
Arbitrary Lagrangian–Eulerian (ALE)
Finite element methods
Parallelisation
Finite volume methods
ISSN:0997-7546, 1873-7390
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Abstract A fully-coupled partitioned finite volume–finite volume and hybrid finite volume–finite element fluid–structure interaction scheme is presented. The fluid domain is modelled as a viscous incompressible isothermal region governed by the Navier–Stokes equations and discretised using an edge-based hybrid-unstructured vertex-centred finite volume methodology. The structure, consisting of a homogeneous isotropic elastic solid undergoing large, non-linear deformations, is discretised using either an elemental/nodal-strain finite volume approach or isoparametric Q8 finite elements and is solved using a matrix-free dual-timestepping approach. Coupling is on the solver sub-iteration level leading to a tighter coupling than if the subdomains are converged separately. The solver is parallelised for distributed-memory systems using METIS for domain-decomposition and MPI for inter-domain communication. The developed technology is evaluated by application to benchmark problems for strongly-coupled fluid–structure interaction systems. It is demonstrated that the scheme results in full coupling between the fluid and solid domains, whilst furnishing accurate solutions.
AbstractList A fully-coupled partitioned finite volume-finite volume and hybrid finite volume-finite element fluid-structure interaction scheme is presented. The fluid domain is modelled as a viscous incompressible isothermal region governed by the Navier-Stokes equations and discretised using an edge-based hybrid-unstructured vertex-centred finite volume methodology. The structure, consisting of a homogeneous isotropic elastic solid undergoing large, non-linear deformations, is discretised using either an elemental/nodal-strain finite volume approach or isoparametric Q8 finite elements and is solved using a matrix-free dual-timestepping approach. Coupling is on the solver sub-iteration level leading to a tighter coupling than if the subdomains are converged separately. The solver is parallelised for distributed-memory systems using METIS for domain-decomposition and MPI for inter-domain communication. The developed technology is evaluated by application to benchmark problems for strongly-coupled fluid-structure interaction systems. It is demonstrated that the scheme results in full coupling between the fluid and solid domains, whilst furnishing accurate solutions.
Author Kok, S.
Suliman, R.
Oxtoby, O.F.
Malan, A.G.
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  surname: Kok
  fullname: Kok, S.
  organization: Department of Mechanical and Aeronautical Engineering, University of Pretoria, Pretoria, 0002, South Africa
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Keywords Fluid–structure interaction
Partitioned solution
Arbitrary Lagrangian–Eulerian (ALE)
Finite element methods
Parallelisation
Finite volume methods
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Snippet A fully-coupled partitioned finite volume–finite volume and hybrid finite volume–finite element fluid–structure interaction scheme is presented. The fluid...
A fully-coupled partitioned finite volume-finite volume and hybrid finite volume-finite element fluid-structure interaction scheme is presented. The fluid...
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SubjectTerms Arbitrary Lagrangian–Eulerian (ALE)
Computational fluid dynamics
Finite element methods
Finite volume methods
Fluid flow
Fluid-structure interaction
Fluids
Joining
Mathematical analysis
Mathematical models
Navier-Stokes equations
Parallelisation
Partitioned solution
Title A matrix free, partitioned solution of fluid–structure interaction problems using finite volume and finite element methods
URI https://dx.doi.org/10.1016/j.euromechflu.2014.10.002
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