This PDF book covers the following topics related to Transport Phenomena : Review of basic mathematical tools, Kinematics- Continuum hypothesis, Reference frames, General property balance equations- Continuity, Conservation of linear momentum, application to angular momentum, energy conservation equation, and equation of change for species, dimensional analysis, Momentum transport in laminar flow, Rayleigh Problem or Stoke’s First Problem, Unsteady-state flow in a tube, Flow in a permeable tube or bundles of hollow fiber, Heat and Mass transfer in laminar flow, Gratz-Nusselt Problem, Mass transfer in laminar flow, Steady-state diffusion through a stagnant gas film , Introduction to potential flow, laminar momentum boundary layers, Blasius flow over a flat plate, drag Thermal and concentration boundary layer theories, Basics of turbulence modelling, Convective mass transfer examples, Reduction of BL diffusion equation to heat conduction, CFD-based transport modelling of a CVD reactor.
Author(s): Indian Institute of Technology Kanpur
139Pages
The topics explained in this notes are as follows : Introduction to Vectors and Tensors, Continuity Equation, Kinematics of Fluid Motion, Navier-Stokes Equation, Procedure for Setting up Problems, Boundary Conditions, Example Problems in Fluid Flow, Mathematical Techniques: Solution of Partial Differential Equations, Scaling of Navier-Stokes Equation, Reynolds Number, Boundary Layer Theory, Introduction to Energy Transport, Graetz Problem and Lévêque Approximation, Thermal Boundary Layer, Buoyant Convection and Surface Tension Driven Flow, Introduction to Mass Transport, Simple Example Problems in Mass Transport, Film and Penetration Models.
Author(s): R Shankar Subramanian, Clarkson University
184Pages
Transport Phenomena is the subject which deals with the movement of different physical quantities in any chemical or mechanical process and describes the basic principles and laws of transport. It also describes the relations and similarities among different types of transport that may occur in any system. This lecture notes explains the following : Introduction, Time derivatives in transport phenomena, Momentum transport , Newton’s Law of Viscosity, Laminar and turbulent flow, Reynolds’s experiment, Equation of Motion, Heat conduction through a composite wall, etc.
Author(s): School of Bio and Chemical Engineering, Department of Chemical Engineering, Sathyabama Institute of College and Technology
265Pages
The contents in this notes are as follows : Dimensional Analysis and Scale-Up, Introduction to Fluid Mechanics, Shear Stress and the Shell Momentum Balance, Mass, Energy, and Momentum Balances, Differential Equations of Fluid Mechanics, Velocity Distributions with More Than One Variable, Flow in Chemical Engineering Equipment, Thermal Conductivity and the Mechanisms of Energy Transport, The Equations of Change for Nonisothermal Systems.
Author(s): Andrew Rosen
47Pages
This note covers introduction and concepts, Momentum transport and equation of changes in isothermal systems.
Author(s): Universiti Sains Malaysia
53Pages
This note deals with the transport of energy, mass and momentum in chemically reacting fluids. Topics covered includes: Bulb Blackening, Hot Corrosion, Transport Laws: Assumptions and Control Volumes, Conservation Principles: Mass Conservation, Momentum, Energy Conservation, Entropy Conservation, Conservation Equations: Alternative Formulations, Across Discontinuities, Turbulent Flows and Multiphase Flows, Constitutive Laws: Momentum Transfer, Energy and Mass Transfer, Momentum Transport, Energy Transport, Mass Transport, Similitude Analysis.
Author(s): NPTEL
NAPages
This note deals with solid-state diffusion, homogeneous and heterogeneous chemical reactions, and spinodal decomposition. Topics covered include: heat conduction in solids, convective and radiative heat transfer boundary conditions; fluid dynamics, 1-D solutions to the Navier-Stokes equations, boundary layer theory, turbulent flow, and coupling with heat conduction and diffusion in fluids to calculate heat and mass transfer coefficients.
Author(s): Prof. Adam Powell
NAPages
