Fluid-Solid Interaction Dynamics Theory, Variational Principles, Numerical Methods, and Applications
Auteur : Xing Jing Tang
Fluid-Solid Interaction Dynamics: Theory, Variational Principles, Numerical Methods and Applications gives a comprehensive accounting of fluid-solid interaction dynamics, including theory, numerical methods and their solutions for various FSI problems in engineering. The title provides the fundamental theories, methodologies and results developed in the application of FSI dynamics. Four numerical approaches that can be used with almost all integrated FSI systems in engineering are presented. Methods are linked with examples to illustrate results. In addition, numerical results are compared with available experiments or numerical data in order to demonstrate the accuracy of the approaches and their value to engineering applications.
The title gives readers the state-of-the-art in theory, variational principles, numerical modeling and applications for fluid-solid interaction dynamics. Readers will be able to independently formulate models to solve their engineering FSI problems using information from this book.
Scientific researchers in engineering, physical science, applied mathematics and aligned fields working on linear and nonlinear FSI analysis, including: marine and ocean engineers; civil engineers; aeronautical and astronautical engineers; medical and biological engineers; and research students in these fields.
- Presents the state-of-the-art in fluid-solid interaction dynamics, providing theory, method and results
- Takes an integrated approach to formulate, model and simulate FSI problems in engineering
- Illustrates results with concrete examples
- Gives four numerical approaches and related theories that are suitable for almost all integrated FSI systems
- Provides the necessary information for bench scientists to independently formulate, model, and solve physical FSI problems in engineering
Date de parution : 08-2019
Ouvrage de 680 p.
21.4x27.6 cm
Thèmes de Fluid-Solid Interaction Dynamics :
Mots-clés :
Fluid solid interaction dynamics; FSI; numerical equations; cartesian tensor; matrix calculus; continuum mechanics; deformation; stress tensor; conservation; Navier-Stokes equations; boundary conditions; variational principles; complementary energy model; pressure-acceleration; mixed energy models; dissipative systems; linear; nonlinear; dimensional problems; waves; airplane; acoustic radiation; ship-water interactions; hydroelasticity