A Parametric Study Of Rigid Body Viscous Flow Interaction PDF Download

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Fundamental Trends In Fluid-structure Interaction

Fundamental Trends In Fluid-structure Interaction
Author: Giovanni Paolo Galdi
Publisher: World Scientific
Total Pages: 302
Release: 2010-04-30
Genre: Science
ISBN: 9814465402
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The interaction of a fluid with a solid body is a widespread phenomenon in nature, occurring at different scales and different applied disciplines. Interestingly enough, even though the mathematical theory of the motion of bodies in a liquid is one of the oldest and most classical problems in fluid mechanics, mathematicians have, only very recently, become interested in a systematic study of the basic problems related to fluid-structure interaction, from both analytical and numerical viewpoints.Fundamental Trends in Fluid-Structure Interaction is a unique collection of important papers written by world-renowned experts aimed at furnishing the highest level of development in several significant areas of fluid-structure interactions. The contributions cover several aspects of this discipline, from mathematical analysis, numerical simulation and modeling viewpoints, including motion of rigid and elastic bodies in a viscous liquid, particulate flow and hemodynamic.

Fundamental Trends in Fluid-structure Interaction

Fundamental Trends in Fluid-structure Interaction
Author: Giovanni P. Galdi
Publisher: World Scientific
Total Pages: 302
Release: 2010
Genre: Mathematics
ISBN: 9814299332
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The interaction of a fluid with a solid body is a widespread phenomenon in nature, occurring at different scales and different applied disciplines. Interestingly enough, even though the mathematical theory of the motion of bodies in a liquid is one of the oldest and most classical problems in fluid mechanics, mathematicians have, only very recently, become interested in a systematic study of the basic problems related to fluid-structure interaction, from both analytical and numerical viewpoints. Fundamental Trends in Fluid-Structure Interaction is a unique collection of important papers written by world-renowned experts aimed at furnishing the highest level of development in several significant areas of fluid-structure interactions. The contributions cover several aspects of this discipline, from mathematical analysis, numerical simulation and modeling viewpoints, including motion of rigid and elastic bodies in a viscous liquid, particulate flow and hemodynamic.

Fluid-Structure Interactions in Low-Reynolds-Number Flows

Fluid-Structure Interactions in Low-Reynolds-Number Flows
Author: Camille Duprat
Publisher: Royal Society of Chemistry
Total Pages: 499
Release: 2015-11-11
Genre: Science
ISBN: 1782628495
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Fluid-structure interactions have been well studied over the years but most of the focus has been on high Reynolds number flows, inertially dominated flows where the drag force from the fluid typically varies as the square of the local fluid speed. There are though a large number of fluid-structure interaction problems at low values of the Reynolds number, where the fluid effects are dominated by viscosity and the drag force from the fluid typically varies linearly with the local fluid speed, which are applicable to many current research areas including hydrodynamics, microfluidics and hemodynamics. Edited by experts in complex fluids, Fluid-Structure Interactions in Low-Reynolds-Number Flows is the first book to bring together topics on this subject including elasticity of beams, flow in tubes, mechanical instabilities induced by complex liquids drying, blood flow, theoretical models for low-Reynolds number locomotion and capsules in flow. The book includes introductory chapters highlighting important background ideas about low Reynolds number flows and elasticity to make the subject matter more approachable to those new to the area across engineering, physics, chemistry and biology.

Fluid Structure Interaction VI

Fluid Structure Interaction VI
Author: Alain J. Kassab
Publisher: WIT Press
Total Pages: 337
Release: 2011
Genre: Science
ISBN: 184564512X
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This book comprises contributions on new developments in fluid structure interaction problems, presented at sixth in a successful series of biennial conferences that began in 2001. The international experts assembled at the conference will discuss a variety of topics, including: Fluid pipeline interactions, Structure response to severe shock and blast, Hydrodynamic forces, Acoustics and noise, Computational methods, Response of structures, including fluid dynamics, Flow induced vibrations, Experimental studies and validation, Bioengineering applications, Offshore structures and pipelines, Subsea systems, and Soil structure interaction.

Computational Mechanics of Fluid-Structure Interaction

Computational Mechanics of Fluid-Structure Interaction
Author: Rajeev Kumar Jaiman
Publisher: Springer Nature
Total Pages: 337
Release: 2021-11-29
Genre: Technology & Engineering
ISBN: 9811653550
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This book is intended to provide a compilation of the state-of-the-art numerical methods for nonlinear fluid-structure interaction using the moving boundary Lagrangian-Eulerian formulation. Single and two-phase viscous incompressible fluid flows are considered with the increasing complexity of structures ranging from rigid-body, linear elastic and nonlinear large deformation to fully-coupled flexible multibody system. This book is unique with regard to computational modeling of such complex fluid-structure interaction problems at high Reynolds numbers, whereby various coupling techniques are introduced and systematically discussed. The techniques are demonstrated for large-scale practical problems in aerospace and marine/offshore engineering. This book also provides a comprehensive understanding of underlying unsteady physics and coupled mechanical aspects of the fluid-structure interaction from a computational point of view. Using the body-fitted and moving mesh formulations, the physical insights associated with structure-to-fluid mass ratios (i.e., added mass effects), Reynolds number, large structural deformation, free surface, and other interacting physical fields are covered. The book includes the basic tools necessary to build the concepts required for modeling such coupled fluid-structure interaction problems, thus exposing the reader to advanced topics of multiphysics and multiscale phenomena.

Monolithic Methods and Versatile Applications for Numerical Fluid--Structure Interaction Studies

Monolithic Methods and Versatile Applications for Numerical Fluid--Structure Interaction Studies
Author: Ruizhi Yang
Publisher:
Total Pages: 121
Release: 2020
Genre:
ISBN:
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A monolithic method for numerically solving fluid--structure interactions between viscous flow on an unbounded domain and rigid body system is presented. The vorticity form of incompressible Navier--Stokes equations is solved on a uniform Cartesian grid with immersed boundary projection method. The Lattice Green's function based integrating factor technique developed by Liska and Colonius is used to analytically evaluate the viscous diffusion term. Half-explicit Runge--Kutta method is applied for both fluid and rigid body system in time marching. The overall fluid--body saddle point system is designed to be arranged in a way to reveal an added-mass term for viscous flow in the solving procedure of block LU decomposition. The added-mass term is inherently embedded into the coupled system, compared to its explicit use in previous fluid--structure interaction studies. Because the added-mass augments inertia of the body system, the algorithm is proved to be stable for arbitrary small density ratios including zero mass case. Interaction force and boundary conditions on the interface are kept implicitly and solved as internal variables , and no iteration process or parameter tuning is needed. Both passive and active motions of rigid body system are allowed, with joint constraint and active motions enforced through Lagrange multipliers. With a unified treatment, the interaction force on the immersed surface is also enforced through Lagrange multipliers. Multiple applications are demonstrated, including cylinder rising/falling under gravity with different mass ratios, actively oscillating airfoil in a free stream, free swimming of an articulated fish, and self-excited oscillation of an articulated flag. Comparisons are made with previous studies and good agreement is found. Another application of a two-component linked plates model is studies for physical behaviour of bifurcation, hysteresis and energy harvesting. The algorithm is versatile in the sense of implementation. All aforementioned applications can be set up with very little change in the code, benefit from the use of rigid body dynamics in spatial vector form and numerical techniques in this work.