Computational Fluid Dynamics

Name: Computational Fluid Dynamics
Brand: Taylor & Francis Inc
SKU: 9781439856611
Price: 248.0 EUR
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advanced numerical algorithms

Ale Form

approximation

arbitrary Lagrange Euler

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CFL Condition

Chebyshev Polynomials

Classical Les

collocation

Collocation Method

complex flows

computational fluid dynamics

conservation equation

direct numerical simulation

ELA

environmental flow analysis

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finite difference

finite element method

finite volume particle method

fluid mechanics

free surface flow

galerkin

Galerkin Approximation

Ghost Particles

glacier behavior

graduate level fluid dynamics

Interpolation Error

kernel function

Large Eddy Simulation

Les Approach

Liquid Domain

mesh-free methods

meshless fluid simulation methods

meshless particle algorithms

method

methods

mixed-element-volume

mold casting

Numerical Dissipation

numerical simulation techniques

Piecewise Linear

problem

residuals

Reynolds-averaged Navier-Stokes equations

riemann

Riemann Problem

SGS Model

SGS Viscosity

Smagorinsky Model

smoothed particle hydrodynamics

solver

spectral method

Spectral Methods

SPH Approximation

SPH Method

SPH-ALE method

turbulence modeling

VMS

VOF Method

Vreman Model

weighted

Weighted Residuals Method

Product details

ISBN 9781439856611
Weight: 910g
Dimensions: 156 x 234mm
Publication Date: 24 Aug 2011
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

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Exploring new variations of classical methods as well as recent approaches appearing in the field, Computational Fluid Dynamics demonstrates the extensive use of numerical techniques and mathematical models in fluid mechanics. It presents various numerical methods, including finite volume, finite difference, finite element, spectral, smoothed particle hydrodynamics (SPH), mixed-element-volume, and free surface flow.

Taking a unified point of view, the book first introduces the basis of finite volume, weighted residual, and spectral approaches. The contributors present the SPH method, a novel approach of computational fluid dynamics based on the mesh-free technique, and then improve the method using an arbitrary Lagrange Euler (ALE) formalism. They also explain how to improve the accuracy of the mesh-free integration procedure, with special emphasis on the finite volume particle method (FVPM). After describing numerical algorithms for compressible computational fluid dynamics, the text discusses the prediction of turbulent complex flows in environmental and engineering problems. The last chapter explores the modeling and numerical simulation of free surface flows, including future behaviors of glaciers.

The diverse applications discussed in this book illustrate the importance of numerical methods in fluid mechanics. With research continually evolving in the field, there is no doubt that new techniques and tools will emerge to offer greater accuracy and speed in solving and analyzing even more fluid flow problems.

Frédéric Magoulès is a professor in the Applied Mathematics and Systems Laboratory at École Centrale Paris. He is the editor of Fundamentals of Grid Computing: Theory, Algorithms and Technologies (CRC Press, December 2009), co-author of Introduction to Grid Computing (CRC Press, March 2009), and co-author of Grid Resource Management: Toward Virtual and Services Compliant Grid Computing (CRC Press, September 2008).