Hydrodynamics, Mass and Heat Transfer in Chemical Engineering contains a concise and systematic exposition of fundamental problems of hydrodynamics, heat and mass transfer, and physicochemical hydrodynamics, which constitute the theoretical basis of chemical engineering in science. Areas covered include: fluid flows; processes of chemical engineering; mass and heat transfer in plane channels, tubes and fluid films; problems of mass and heat transfer; the motion and mass exchange of power-law and viscoplastic fluids through tubes, channels, and films; and the basic concepts and properties of very specific technological media, namely foam systems.
Topics are arranged in increasing order of difficulty, with each section beginning with a brief physical and mathematical statement of the problem considered, followed by final results, usually given for the desired variables in the form of final relationships and tables.
Fluid Flows in Films, Jets, Tubes and Boundary Layers. Hydrodynamic Equations and Boundary Conditions. Hydrodynamics of Thin Films. Laminar Flows in Tubes. Hydrodynamic Boundary Layer on a Flat Plate. Transient and Pulsating Flows Motion of Particles, Drops and Bubbles in Fluid Exact. Solutions of the Stokes Equations. Spherical Particles in Translational Flow at Various Reynolds Numbers. Spherical Particles, Drops and Bubbles in Shear Flows. Flow Past a Cylinder (the Plane Problem). Mass and Heat Transfer in Liquid Films, Tubes, and Boundary Layers. Convective Mass and Heat Transfer Equations and Boundary Conditions. Heat Transfer to a Flat Plate. Heat and Mass Transfer in a Laminar Flow in a Circular Tube. Turbulent Heat Transfer in Circular Tube and Plane Channel. Mass and Heat Exchange Between Flow and Particles, Drops, or Bubbles. The Method of Asymptotic Analogies in Theory of Mass and Heat Transfer. Mass and Heat Exchange Between Particles of Various Shapes and a Stagnant Medium. Mass Transfer in Linear Shear Flows at Low Peclet. Numbers, Particles, Drops and Bubbles in Translational Flow. Various Peclet and Reynolds Numbers. Mass Transfer in a Translational-Shear Flow with Flow Parabolic. Profile Mass and Heat Transfer Between Cylinders and Translational of Shear Flows. Qualitative Features of Mass Transfer Inside a Drop at High Peclet Numbers. Mass and Heat Transfer Under Constrained Flow Past Particle, Drops, or Bubbles. Mass and Heat Transfer Under Complicating Factors. Mass Transfer Complicated by a Surface Chemical Reaction. Mass Transfer Between Particles, Drops or Bubbles and Flows with Volume Reactions. Film Condensation, Thermogravitational and Thermocapillary Effect in the Drop Motion. Hydrodynamics and Mass and Heat Transfer in Non-Newtonian Fluids. Rheological Models of Non-Newtonian Incompressible Fluids. Mass Transfer in Channels and Tubes. Account of Dissipation. Hydrodynamic and Diffusion Boundary Layers in Power-Law Fluids. Motion and Mass Exchange of Particle, Drops and Bubbles in Non-Newtonian Fluids. Foam: Structures and Some Properties. Fundamental Parameters. Models of Foams. Kinetics of Surfactant Adsorption in Liquid Solutions. Rheological Properties of Foams.