Tab Article
Preface
Section 1 : Transport Properties and Flow Instability
Chapter 1 : Generalized Equations of State for Process Design
Chapter 2 : Density Correlations for Saturated and Compressed Liquids and Liquid Mixtures
Chapter 3 : Correlations for Molecular Diffusivities in Liquids
Chapter 4 : Diffusion in Liquids
Chapter 5 : Mixing and Isotropy in Homogeneous Turbulence
Chapter 6 : Principles of Micromixing
Chapter 7 : Rayleigh-Taylor Instability
Chapter 8 : Rayleigh-Taylor Instability in Compressible Media
Chapter 9 : Taylor Vortices and Instabilities in Circular Couette Flows
Section 2 : Flow Dynamics and Frictional Behavior
Chapter 10 : Properties and Concepts of Single Fluid Flows
Chapter 11 : Theory of Minimum Energy and Energy Dissipation Rate
Chapter 12 : Principles of Dimensional Analysis
Chapter 13 : Drag in Single Fluid Flows
Chapter 14 : Free Stream Turbulence and Bluff Body Drag
Chapter 15 : Stability of Flat Plates and Cylindrical Shells Exposed to Flows
Chapter 16 : Steady Transonic Flow
Chapter 17 : Numerical Modeling of Transonic Flows Over Airfoils and Cascades
Chapter 18: Approaches to Analyzing Unsteady Laminar Flow in Long Pipes
Chapter 19 : Stability of Spatially Periodic Flows
Chapter 20 : Turbulent Swirling Pipe Flows
Chapter 21 : Turbulent Flows Within Straight Ducts
Chapter 22 : Residence Time Distribution in Straight and Curved Tubes
Chapter 23 : Flow Across Tube Banks
Chapter 24 : Flow in Rectangular Channels
Chapter 25 : Structure of Turbulent Channel Flows
Chapter 26 : Pressure Losses in Rectangular Bends
Chapter 27 : Modeling Flows in Rectangular Enclosures and Cavities
Chapter 28 : Modeling Wavy Film Flows
Chapter 29 : Hydrodynamics of Creeping Flow
Chapter 30 : Steady Non-Newtonian Flow About a Rigid Sphere
Chapter 31 : Power-Law Fluid Velocity Profiles in Turbulent Pipe Flows
Chapter 32 : Molecular Interactions in Drag Reduction in Pipe Flows
Chapter 33 : Generalized Correlation for Friction Loss in Drag Reducing Polymer Solutions
Chapter 34 : Analyses of Power Law Viscous Materials Using Complex Stream, Potential, and Stress Functions
Chapter 35 : Rheological Properties of Thermoplastics
Section 3 : Flow and Turbulence Measurement
Chapter 36 : Techniques for Turbulence Measurement
Chapter 37 : The Measurement of Reynold’s Stresses
Chapter 38 : Measurement Techniques for Multiphase Flows
Chapter 39 : Industrial Flow Measuring Devices
Chapter 40 : Design and Operation of Target Flowmeters
Chapter 41 : Optimal Dimensions of Weirs
Index
