Finite Element Methods for Flow Problems

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ISBN: 9780471496663, 0-471-49666-9

Size: 25 MB (26345624 bytes)

Pages: 358/358

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Jean Donea, Antonio Huerta9780471496663, 0-471-49666-9

Taking an engineering, rather than a mathematical, approach, Finite Element Methods for Flow Problems presents the fundamentals of stabilized finite element methods of the Petrov–Galerkin type developed as an alternative to the standard Galerkin method for the analysis of steady and time-dependent problems. The material presented here epitomizes the forefront of current research in several areas of computational fluid dynamics and combines theoretical aspects and practical applications.
Coverage includes: Steady and transient convection-diffusion problems. Stabilization techniques designed to produce stable and accurate results in convection-dominated situations. The presentation and detailed analysis of high-order accurate time-stepping schemes for tracing the response of truly transient problems. Special methods for purely convective transport governed by linear equations Modelling of non-linear problems governed by the Euler equations of gas dynamics and the Navier–Stokes equations for viscous incompressible flows. Spatial discretization by means of the arbitrary Lagrangian–Eulerian description with application to fluid-structure systems. Worked examples.
The book provides essential reading for graduate students and researchers in engineering and applied sciences in the finite element field. The book will also be of interest to professionals working in aerospace, automotive, civil, environmental and offshore engineering, and safety technology.

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