OpenFOAM: Introduction, Capabilities and HPC Needs - LinkSCEEM
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OpenFOAM: Introduction, Capabilities and HPC Needs - LinkSCEEM

OpenFOAM: Introduction, Capabilities and HPC Needs - LinkSCEEM

OpenFOAM: Introduction, Capabilities and HPC Needs - LinkSCEEM

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Fluid-Structure InteractionFluid-Structure Coupling <strong>Capabilities</strong> in <strong>OpenFOAM</strong>• As a Continuum Mechanics solver, <strong>OpenFOAM</strong> can deal with both fluid <strong>and</strong>structure components: easier setup of coupling• (Parallelised) surface coupling tools implemented in library form: facilitate couplingto external solvers without “coupling libraries” using proxy surface mesh• Structural mechanics in <strong>OpenFOAM</strong> targeted to non-linear phenomena: considerbest combination of tools◦ Large deformation formulation in absolute Lagrangian formulation◦ Independent parallelisation in the fluid <strong>and</strong> solid domain◦ Parallelised data transfer in FSI coupling• Dynamic mesh tools <strong>and</strong> boundary h<strong>and</strong>ling used to manipulate the fluid meshCyprus Advanced <strong>HPC</strong> Workshop Winter 2012. Tracking: FH6190763 Feb/2012<strong>OpenFOAM</strong>: <strong>Introduction</strong>, <strong>Capabilities</strong> <strong>and</strong> <strong>HPC</strong> <strong>Needs</strong> – p. 30

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