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Conduction and Convection Heat Transfer

Conduction and Convection Heat Transfer. Instructors: Prof. S. K. Som and Prof. Suman Chakraborty, Department of Mechanical Engineering, IIT Kharagpur. This is an introductory course in conduction and convection heat transfer. The subject Heat Transfer has a wide scope and is of prime importance in almost all fields of engineering and biological systems. The course emphasizes the underlying concepts of the conduction and convection modes of heat transfer and enumerates the laws and governing equations relating to the rates of heat transfer, based on derivation from fundamentals. There is a well balanced coverage of physical concepts, mathematical operations along with examples and exercise problems of practical importance. After completion of the course, the students will have a strong foundation on conduction and convection heat transfer and will be able to apply the basic principles, the laws, and the pertinent equations to practical scenarios. (from nptel.ac.in)

Lecture 08 - 1D Steady State Heat Conduction in Cylindrical Geometry

This lecture covers the following topics: 1) Derivation of the governing differential equation for 1D steady state heat conduction through a long cylinder without generation of thermal energy, 2) Solution for temperature profile and heat flux, 3) Conduction and convection resistances for cylindrical geometry and analogous electrical circuit.


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Lecture 01 - Introduction and Fundamental Concepts
Lecture 02 - Introduction and Fundamental Concepts (cont.)
Lecture 03 - Heat Conduction Equation
Lecture 04 - Heat Conduction Equation and Different Types of Boundary Conditions
Lecture 05 - 1D Steady State Heat Conduction in Plane Wall without Generation of Thermal Energy
Lecture 06 - 1D Steady State Heat Conduction in Plane Wall with Generation of Thermal
Lecture 07 - Problems on 1D Steady State Heat Conduction in Plane Wall
Lecture 08 - 1D Steady State Heat Conduction in Cylindrical Geometry
Lecture 09 - 1D Steady State Heat Conduction in Cylindrical Geometry (cont.)
Lecture 10 - 1D Steady State Heat Conduction in Spherical Geometry
Lecture 11 - Heat Transfer from Extended Surfaces (Fins)
Lecture 12 - Heat Transfer from Extended Surfaces (cont.)
Lecture 13 - Two-dimensional Steady State Heat Conduction
Lecture 14 - Unsteady State Heat Conduction
Lecture 15 - Unsteady State Heat Conduction (cont.)
Lecture 16 - One Dimensional Unsteady State Heat Conduction
Lecture 17 - One Dimensional Unsteady State Heat Conduction (cont.)
Lecture 18 - Introduction to Convection
Lecture 19 - Convection
Lecture 20 - Review of Fluid Mechanics I
Lecture 21 - Review of Fluid Mechanics II
Lecture 22 - Review of Fluid Mechanics III
Lecture 23 - Review of Fluid Mechanics IV
Lecture 24 - Review of Fluid Mechanics V
Lecture 25 - Review of Fluid Mechanics VI
Lecture 26 - Review of Fluid Mechanics VII
Lecture 27 - Energy Equation
Lecture 28 - Energy Equation (cont.), Thermal Boundary Layer
Lecture 29 - Thermal Boundary Layer (cont.)
Lecture 30 - Integral Method for Thermal Boundary Layer Analysis
Lecture 31 - Internal Forced Convection I
Lecture 32 - Internal Forced Convection II
Lecture 33 - Internal Forced Convection III
Lecture 34 - Importance of Viscous Dissipation in Forced Convection
Lecture 35 - Free Convection (Natural Convection) I
Lecture 36 - Free Convection (Natural Convection) II
Lecture 37 - Boiling and Condensation
Lecture 38 - Boiling and Condensation (cont.)
Lecture 39 - Heat Exchanger I
Lecture 40 - Heat Exchanger II
Lecture 41 - Heat Exchanger III