Handbook of Fluid Dynamics, 2nd Edition

Title: Handbook of Fluid Dynamics, 2nd Edition
Author: Richard W. Johnson
ISBN: 1439849552 / 9781439849552
Format: Hard Cover
Pages: 1560
Publisher: CRC Press
Year: 2016
Availability: Out of Stock

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Handbook of Fluid Dynamics offers balanced coverage of the three traditional areas of fluid dynamics—theoretical, computational, and experimental—complete with valuable appendices presenting the mathematics of fluid dynamics, tables of dimensionless numbers, and tables of the properties of gases and vapors. Each chapter introduces a different fluid dynamics topic, discusses the pertinent issues, outlines proven techniques for addressing those issues, and supplies useful references for further research.

Covering all major aspects of classical and modern fluid dynamics, this fully updated Second Edition:

  • Reflects the latest fluid dynamics research and engineering applications
  • Includes new sections on emerging fields, most notably micro- and nanofluidics
  • Surveys the range of numerical and computational methods used in fluid dynamics analysis and design
  • Expands the scope of a number of contemporary topics by incorporating new experimental methods, more numerical approaches, and additional areas for the application of fluid dynamics

Handbook of Fluid Dynamics, Second Edition provides an indispensable resource for professionals entering the field of fluid dynamics. The book also enables experts specialized in areas outside fluid dynamics to become familiar with the field.

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  • Covers classical areas of fluid dynamics as well as modern problems
  • Describes experimental techniques, such as laser Doppler anemometry, particle image velocimetry, and phase Doppler particle analysis
  • Examines a variety of applications, including chemically reacting flow, flow in porous media, multiphase flow, capillary flow, water hammer, atmospheric and oceanic flow, open channel flow, and lubrication
  • Surveys the range of numerical and computational methods used in fluid dynamics analysis and design

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Preface

Part I : Basics
Chapter 1 :
Introduction
Chapter 2 : Some Reflections on the History of Fluid Dynamics
Chapter 3 : General Equations of Newtonian Fluid Dynamics
Chapter 4 : Special Equation Forms and Related Equations
Chapter 5 : Basic Engineering Fluid Mechanics

Part II : Classical Fluid Dynamics
Chapter 6 :
Overview of Classical Fluid Dynamics
Chapter 7 : Inviscid Flow
Chapter 8 : Incompressible Laminar Viscous Flows
Chapter 9 : Laminar Boundary-Layer Flow
Chapter 10 : Waves
Chapter 11 : Transition and Turbulence
Chapter 12 : Turbulence Modeling and Simulation
Chapter 13 : Non-Newtonian Flows
Chapter 14 : Convective Heat Transfer
Chapter 15 : Exact and Approximate Solutions

Part III : Classical Applications
Chapter 16 : Open Channel Flow
Chapter 17 : Lubrication
Chapter 18 : Plasma Flow
Chapter 19 : Chemically Reacting Flow
Chapter 20 : Multiphase Flow
Chapter 21 : Cavitation
Chapter 22 : Flow in Porous Media
Chapter 23 : Atmospheric Flows
Chapter 24 : Mesoscale Oceanic Flows
Chapter 25 : Water Hammer
Chapter 26 : Capillary Flows

Part IV : Modern Fluid Dynamics
Chapter 27 :
Biothermal Convection and Nanofluid Bioconvection
Chapter 28 : Microsystems and Microfluidics
Chapter 29 : Computational Nanofluid Flow and Heat Transfer in Microchannels
Chapter 30 : Biofluid Flow and Heat Transfer
Chapter 31 : Fluid–Structure Interactions
Chapter 32 : Flow Control
Chapter 33 : Design Optimization and CFD

Part V : Numerical Solution Methods
Chapter 34 :
Finite Difference Method
Chapter 35 : Finite-Volume Method
Chapter 36 : Finite Element Method
Chapter 37 : Spectral Element Methods for Incompressible Flows
Chapter 38 : Complex Flow Simulation via Lattice Boltzmann Method
Chapter 39 : Direct Simulation Monte Carlo
Chapter 40 : Panel Methods
Chapter 41 : Solution Methods for the Incompressible Navier–Stokes Equations
Chapter 42 : Convergence Acceleration
Chapter 43 : Grid Generation
Chapter 44 : Verification and Validation in Computational Fluid Dynamics

Part VI : Experimental Methods in Fluid Dynamics
Chapter 45 :
Basic Instruments
Chapter 46 : Hot-Wire Anemometry
Chapter 47 : Laser Doppler Velocimetry
Chapter 48 : Particle Image Velocimetry
Chapter 49 : Phase Doppler Particle Analyzer
Chapter 50 : Flow Visualization
Chapter 51 : Uncertainty Analysis
Chapter 52 : Optical Diagnostics for Measurements of Species Concentrations and Temperature
Chapter 53 : Molecular Tagging Diagnostics

Appendix A : Mathematics of Fluid Mechanics
Appendix B : Tables of Dimensionless Numbers
Appendix C : Properties of Gases and Vapors
Index