The Finite Element Method for Fluid Dynamics

Front Cover
Butterworth-Heinemann, Nov 21, 2013 - Technology & Engineering - 584 pages

The Finite Element Method for Fluid Dynamics offers a complete introduction the application of the finite element method to fluid mechanics. The book begins with a useful summary of all relevant partial differential equations before moving on to discuss convection stabilization procedures, steady and transient state equations, and numerical solution of fluid dynamic equations.

The character-based split (CBS) scheme is introduced and discussed in detail, followed by thorough coverage of incompressible and compressible fluid dynamics, flow through porous media, shallow water flow, and the numerical treatment of long and short waves. Updated throughout, this new edition includes new chapters on:

  • Fluid-structure interaction, including discussion of one-dimensional and multidimensional problems
  • Biofluid dynamics, covering flow throughout the human arterial system

Focusing on the core knowledge, mathematical and analytical tools needed for successful computational fluid dynamics (CFD), The Finite Element Method for Fluid Dynamics is the authoritative introduction of choice for graduate level students, researchers and professional engineers.

  • A proven keystone reference in the library of any engineer needing to understand and apply the finite element method to fluid mechanics
  • Founded by an influential pioneer in the field and updated in this seventh edition by leading academics who worked closely with Olgierd C. Zienkiewicz
  • Features new chapters on fluid-structure interaction and biofluid dynamics, including coverage of one-dimensional flow in flexible pipes and challenges in modeling systemic arterial circulation
 

Selected pages

Contents

1 Introduction to the Equations of Fluid Dynamics and the Finite Element Approximation
1
Finite Element Approximations to the ConvectionDiffusionReaction Equation
31
A General Procedure for Compressible and Incompressible Flow
87
4 Incompressible Newtonian Laminar Flows
127
5 Incompressible NonNewtonian Flows
163
6 Free Surface and Buoyancy Driven Flows
195
7 Compressible HighSpeed Gas Flow
225
8 Turbulent Flows
283
15 Computer Implementation of the CBS Algorithm
485
SelfAdjoint Differential Equations
493
Nonconservative Form of NavierStokes Equations
495
Computing the Drag Force and Stream Function
497
ConvectionDiffusion Equations VectorValued Variables
499
Integration Formulae
509
EdgeBased Finite Element Formulation
511
Boundary LayerInviscid Flow Coupling
515

9 Generalized Flow and Heat Transfer in Porous Media
309
10 ShallowWater Problems
327
11 Long and Medium Waves
355
12 Short Waves
389
13 FluidStructure Interaction
423
14 Biofluid Dynamics
451
Multigrid Method
519
MassWeighted Averaged Turbulence Transport Equations
521
Author Index
525
Subject Index
539
Copyright

Other editions - View all

The Finite Element Method for Solid and Structural Mechanics
Olek C Zienkiewicz,Robert L Taylor
Limited preview - 2013
The Finite Element Method for Solid and Structural Mechanics
O. C. Zienkiewicz,R. L. Taylor,David Fox
No preview available - 2013
The Finite Element Method for Fluid Dynamics
O. C. Zienkiewicz,R. L. Taylor,P. Nithiarasu
No preview available - 2013

Common terms and phrases

adaptive aerofoil analysis applications approximation arterial Bettess boundary conditions boundary layer calculated CBS algorithm Chapter characteristic coefficient compressible Comput convection coronary density deviatoric diffusion discussed domain error Euler example explicit FIGURE finite difference Finite element analysis finite element method flow past fluid dynamics fluid mechanics fluid–structure interaction formulation free surface Galerkin Galerkin method Helmholtz equation incompressible flow infinite inlet integration inviscid iteration linear Mach number Mech mesh Methods Appl Methods Eng Methods Fluids Morgan Navier-Stokes equations Nithiarasu nodal nodes Non-Newtonian Fluid nondimensional Numer O.C. Zienkiewicz one-dimensional Peraire Petrov-Galerkin Petrov-Galerkin method plane wave porous medium pressure contours procedure Reynolds number scalar scheme Section shallow-water shape functions shock shown in Fig simulation solid solution solved split steady-state step supersonic Taylor-Galerkin transient unstructured mesh values variable vector velocity vessel viscoelastic viscosity wall wave speed zero

About the author (2013)

O. C. Zienkiewicz was one of the early pioneers of the finite element method and is internationally recognized as a leading figure in its development and wide-ranging application. He was awarded numerous honorary degrees, medals and awards over his career, including the Royal Medal of the Royal Society and Commander of the British Empire (CBE). He was a founding author of The Finite Element Method books and developed them through six editions over 40 years up to his death in 2009. Previous positions held by O.C. Zienkiewicz include UNESCO Professor of Numerical Methods in Engineering at the International Centre for Numerical Methods in Engineering, Barcelona, Director of the Institute for Numerical Methods in Engineering at the University of Wales, Swansea, U.K.

R.L Taylor is Professor of the Graduate School at the Department of Civil and Environmental Engineering, University of California at Berkeley, USA. Awarded the Daniel C. Drucker Medal by the American Society of Mechanical Engineering in 2005, the Gauss-Newton Award and Congress Medal by the International Association for Computational Mechanics in 2002, and the Von Neumann Medal by the US Association for Computational Mechanics in 1999.

Professor Nithiarasu is Director of Research and Deputy Head of the College of Engineering of Swansea University, and also holds a position as Dean of Academic Leadership (Research Impact). Previously, PN served as the Head of Zienkewicz Centre for Computational Engineering for 5 years. He was awarded the Zienkiewicz silver medal from the ICE London in 2002, the ECCOMAS Young Investigator award in 2004 and the prestigious EPSRC Advanced Fellowship in 2006.

Bibliographic information

TitleThe Finite Element Method for Fluid Dynamics
The Finite Element Method
AuthorsOlek C Zienkiewicz, Robert L. Taylor, P. Nithiarasu
Edition7, revised
PublisherButterworth-Heinemann, 2013
ISBN0080951376, 9780080951379
Length584 pages
Subjects ›  › 

Science / Mechanics / Fluids
Technology & Engineering / Mechanical
  
Export CitationBiBTeX EndNote RefMan