Fluid-structure interaction simulations with a LES filtering approach in solids4Foam
We consider the interaction of an incompressible fluid described by a Leray model with a hyperelastic structure modeled as a Saint Venant-Kirchhoff material. We focus on a strongly coupled, partitioned fluid-structure interaction (FSI) solver in a finite volume environment, combined with an arbitrary Lagrangian-Eulerian approach to deal with the motion of the fluid domain. The main novelty of this paper lies in applying a Leray model for the description of the flow field within a FSI context. For the implementation of the Leray model, which features a nonlinear differential low-pass filter, we adopt a three-step algorithm called Evolve-Filter-Relax. All the computational results presented in this article have been obtained with solids4Foam, the FSI toolbox developed for foam-extend, a branch of OpenFOAM. We validate our approach against numerical data available in the literature for the 3D cross flow past a cantilever beam at Reynolds number 100 and 400.
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