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Fundamentals of Transport Processes

Fundamentals of Transport Processes. Instructor: Prof. V. Kumaran, Department of Chemical Engineering, IISc Bangalore. This course provides a fundamental understanding of the convection and diffusion process in fluids, and how these determine the rates of transport of mass, heat and momentum. Topics covered in this course include Dimensional analysis; Diffusion; Unidirectional transport in cartesian coordinates; Unidirectional transport in curvilinear coordinates; Mass and energy conservation equations; Transport due to diffusion; and Transport at high peclet number. (from nptel.ac.in)

Introduction


Dimensional Analysis
Lecture 01 - Introduction
Lecture 02 - Dimensional Analysis
Lecture 03 - Dimensional Analysis (cont.)
Lecture 04 - Physical Interpretation of Dimensional Groups
Diffusion
Lecture 05 - Continuum Description
Lecture 06 - Mechanisms of Diffusion
Lecture 07 - Mechanisms of Diffusion (cont.)
Unidirectional Transport in Cartesian Coordinates
Lecture 08 - Unidirectional Transport in Cartesian Coordinates
Lecture 09 - Unidirectional Transport in Cartesian Coordinates: Similarity Solutions
Lecture 10 - Unidirectional Transport in Cartesian Coordinates: Similarity Solutions (cont.)
Lecture 11 - Unidirectional Transport in Cartesian Coordinates: Separation of Variables
Lecture 12 - Unidirectional Transport in Cartesian Coordinates: Separation of Variables (cont.)
Lecture 13 - Unidirectional Transport in Cartesian Coordinates: Oscillatory Flows
Lecture 14 - Unidirectional Transport in Cartesian Coordinates: Momentum Source in the Flow
Lecture 15 - Unidirectional Transport in Cartesian Coordinates: Heat and Mass Sources
Unidirectional Transport in Curvilinear Coordinates
Lecture 16 - Unidirectional Transport in Cylindrical Coordinates: Conservation Equations
Lecture 17 - Unidirectional Transport in Cylindrical Coordinates: Similarity Solutions
Lecture 18 - Unidirectional Transport in Cylindrical Coordinates: Separation of Variables
Lecture 19 - Unidirectional Transport in Cylindrical Coordinates: Steady Flow in a Pipe
Lecture 20 - Unidirectional Transport in Cylindrical Coordinates: Oscillatory Flow in a Pipe
Lecture 21 - Oscillatory Flow in a Pipe: Regular Perturbation Expansion
Lecture 22 - Oscillatory Flow in a Pipe: Singular Perturbation Expansion
Lecture 23 - Unidirectional Transport in Spherical Coordinates: Balance Equation
Lecture 24 - Unidirectional Transport in Spherical Coordinates: Separation of Variables
Mass and Energy Conservation Equations
Lecture 25 - Mass and Energy Conservation in Cartesian Coordinates
Lecture 26 - Mass and Energy Conservation in Cartesian Coordinates: Heat Conduction in a Cube
Lecture 27 - Mass and Energy Conservation in Spherical Coordinates: Balance Laws
Lecture 28 - Mass and Energy Conservation in Cylindrical Coordinates
Transport due to Diffusion
Lecture 29 - Diffusion Equation in Spherical Coordinates: Separation of Variables
Lecture 30 - Diffusion Equation in Spherical Coordinates: Separation of Variables (cont.)
Lecture 31 - Diffusion Equation in Spherical Coordinates: Effective Conductivity of a Composite
Lecture 32 - Diffusion Equation: Spherical Harmonics
Lecture 33 - Diffusion Equation: Delta Functions
Lecture 34 - Diffusion Equation: Multipole Expansions
Lecture 35 - Diffusion Equation: Green's Function Formulations
Transport at High Peclet Number
Lecture 36 - High Peclet Number Transport Flow Past a Flat Plate
Lecture 37 - High Peclet number Transport Heat Transfer from a Spherical Particle
Lecture 38 - High Peclet number Transport Heat Transfer from a Spherical Particle (cont.)
Lecture 39 - High Peclet number Transport Heat Transfer from a Gas Bubble
Lecture 40 - Summary

References
Fundamentals of Transport Processes
Instructor: Prof. V. Kumaran, Department of Chemical Engineering, IISc Bangalore. This course provides a fundamental understanding of the convection and diffusion process in fluids, and how these determine the rates of transport of mass, heat and momentum.