Concepts and Definitions. Fluid Statics. Description of a Fluid in Motion. Conservation of Mass: Control--Volume Approach. Newton's Second Law of Motion: Control--Volume Approach. Conservation of Energy: Control--Volume Approach. Shear Stress in Laminar Flow. Analysis of a Differential Fluid Element in Laminar Flow. Differential Equations of Fluid Flow. Inviscid Fluid Flow. Dimensional Analysis. Viscous Flow. The Effect of Turbulence on Momentum Transfer. Flow in Closed Conduits. Fundamentals of Heat Transfer. Differential Equations of Heat Transfer. Steady--State Conduction. Unsteady--State Conduction. Convective Heat Transfer. Convective Heat--Transfer Correlations. Boiling and Condensation. Heat--Transfer Equipment. Radiation Heat Transfer. Fundamentals of Mass Transfer. Differential Equations of Mass Transfer. Steady--State Molecular Diffusion. Unsteady--State Molecular Diffusion. Convective Mass Transfer. Convective Mas Transfer Between Phases. Convective Mass--Transfer Correlations. Mass--Transfer Equipment. Appendices. Indexes.
(source: Nielsen Book Data)
Provides a unified treatment of momentum transfer (fluid mechanics), heat transfer and mass transfer. The treatment of the three areas of transport phenomena is done sequentially. The subjects of momentum, heat, and mass transfer are introduced, in that order, and appropriate analysis tools are developed. (source: Nielsen Book Data)