Engineering - Numerical Study of Fluid Solid Interaction in 2D and 3D Geometries: Application of OpenFOAM Technology in Two and Three Dimensional Benchmarking Model Problems

Numerical Study of Fluid Solid Interaction in 2D and 3D Geometries: Application of OpenFOAM Technology in Two and Three Dimensional Benchmarking Model Problems

Name: Numerical Study of Fluid Solid Interaction in 2D and 3D Geometries: Application of OpenFOAM Technology in Two and Three Dimensional Benchmarking Model Problems
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Book Synopsis: Fluid Structure Interaction (FSI) exists in various engineering fields. This book deals with different cases of FSI in 2D and 3D, simulated using OpenFOAM and foam-extend software. These packages have been used to create a coupling between fluid and solid. The vortex-induced vibration phenomenon of flow past a circular cylinder is studied using PIMPLE algorithm for pressure-velocity coupling. The changes of drag and lift coefficient values strongly depend on the study case and the spring-mass-damper system for the flow past a free oscillatory cylinder. A partitioned solution method for strongly coupled solver with independent fluid and solid meshes for transient simulation has been applied. The fluid domain dynamics is governed by the Navier-Stokes equations and the structural field by the nonlinear elastodynamic equations. Fluid and solid domains are discretized by finite volume method in space and time. CFD simulations revealed that, though the flow is laminar, use of turbulence modeling or more refined meshes to capture the generation and release of vortices. The results are presented to demonstrate accuracy, convergence, and stability of different FSI models used in this book.

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Are you looking to further your understanding of Fluid Structure Interaction (FSI) in 2D and 3D geometries? Look no further! Our groundbreaking book, "Numerical Study of Fluid Solid Interaction in 2D and 3D Geometries: Application of OpenFOAM Technology in Two and Three Dimensional Benchmarking Model Problems", has all the answers you need. By utilizing the power of OpenFOAM and foam-extend software, we have created a comprehensive study of FSI that will revolutionize your approach to engineering challenges.

One of the key focuses of our book is the vortex-induced vibration phenomenon of flow past a circular cylinder. Through the implementation of the PIMPLE algorithm for pressure-velocity coupling, we have discovered crucial insights into the changes of drag and lift coefficient values. Additionally, our study includes the flow past a free oscillatory cylinder, analyzing the behavior of the spring-mass-damper system. This unprecedented research gives you a deep understanding of fluid dynamics and its interaction with solid structures.

When it comes to simulation, our book surpasses all others. We have applied a partitioned solution method for a strongly coupled solver, allowing for independent fluid and solid meshes during transient simulation. By using the finite volume method in space and time to discretize the fluid and solid domains, we achieve unparalleled accuracy and convergence.

But our research doesn't stop there. Our CFD simulations have also highlighted the importance of turbulence modeling and mesh refinement in capturing the generation and release of vortices, even in laminar flows. With these extensive findings, we demonstrate the accuracy, convergence, and stability of the FSI models presented in our book.

Ready to take your engineering knowledge to the next level? Grab your copy of "Numerical Study of Fluid Solid Interaction in 2D and 3D Geometries" today and embark on a journey of discovery. Learn more here.

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