The handbook of fluid dynamics

Basics * Introduction, Richard W. Johnson * Some Reflections on the History of Fluid Dynamics, John D. Anderson, Jr. * General Equations of Newtonian Fluid Dynamics, R. Byron Bird and Michael D. Graham * Special Equation Forms and Related Equations, Frank G. Collins and Ronald H. Aungier * Basic Engineering Fluid Mechanics, John F. Foss, Ronald L. Panton, and William S. Janna * Classical Fluid Dynamics * Overview of Classical Fluid Dynamics, Richard W. Johnson * Inviscid Incompressible Flow-Potential Flow, Robert H. Kirchhoff * Inviscid Compressible Flow, Doyle D. Knight * Incompressible Laminar Viscous Flows, Ismet Gursul * Incompressible Laminar Boundary Layer Flow, Z.U.A. Warsi * Compressible Laminar Boundary Layer Flow, Arnold Polak * Waves, Matiur Rahman * Transition and Turbulence, Peter S. Bernard, Jeffrey D. Crouch, Meelan Choudhari, David G. Bogard, and Karen A. Thole * Turbulence Modeling and Simulation, Charles G. Speziale and Ronald M.C. So * Plasma Flows, John J. Lowke and Anthony B. Murphy * Chemically Reacting Flows (Combustion), David G. Lilley * Multiphase Flow - Gas/Liquid, Michael L. Corradini * Multiphase Flow - Gas/Solid, Liang-Shih Fan and Chao Zhu * Multiphase Flow - Liquid/Solid Fluidized Bed Systems, Rong-Her Jean and Liang-Shih Fan * Cavitation, Roger E.A. Arndt * Flow in Porous Media, Massoud Kaviany * Non-Newtonian Fluid Flow, Thomas H. Irvine, Jr., and Massimo Capobianchi * High Reynolds Number Asymptotic Theories * Incompressible Triple-Deck Theory, Alric P. Rothmayer and Frank T. Smith * Free-Interactions and Breakaway Separation, Alric P. Rothmayer and Frank T. Smith * Numerical Solution of Two-Dimensional Steady Triple-Deck Problems, Alric P. Rothmayer and Frank T. Smith * Numerical Solution of the Equations of Fluid Dynamics * Finite Difference Method, Kyran D. Mish * Finite Volume Method, Suhas V. Patankar, K.C. Karki, and K.M. Kelkar * Finite Element Method, A. Jerry Baker * Spectral Element Methods for Incompressible Flows, George Em Karniadakis and * Ronald D. Henderson * Computer Science, Kyran D. Mish * Solution Methods for the Incompressible Navier-Stokes Equations, Wei Shyy and * Rajat Mittal * Convergence Acceleration, David A. Caughey * Experimental Methods in Fluid Mechanics * Basic Instruments, Mohamed Gad-el-Hak * Hot-Wire Anemometry, Genevihve Comte-Bellot * Laser-Doppler Velocimetry (LDV), Leroy M. Fingerson and Rajan K. Menon * Multiphase Flow Measurements Using Particle Image Velocimetry (PIV), Yassin A. * Hasan * Phase Doppler Particle Analyzer (PDPA), William D. Bachalo and Subramanian V. * Sankar * Flow Visualization, James P. Crowder * Uncertainty Analysis, Hugh W. Coleman and W. Glenn Steele * Applications * Axial-Flow Compressor and Fan Aerodynamics, David C. Wisler * Turbomachinery, Lowell W. Pearson and Roger E.A. Arndt * Nozzles and Diffusers, Donald J. Dusa and James L. Younghans * Airfoils and Wings, Bruce R. Munson and Dennis J. Cronin * Pumps, Lev Nelik * Open Channel Flow, M. Hanif Chaudhry and Michael E. Barber * Atmospheric Flows, Donald H. Lenschow * Mesoscale Oceanic Flows, Lynn K. Shay * Lubrication, Ralph A. Burton * Appendixes * A. Mathematics of Fluid Mechanics, Charles Zemach * B. Tables of Dimensionless Numbers * C. Transport Property Tables * D. Units and Constants * Index *