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Radiation Heat Transfer

Radiation Heat Transfer. Instructor: Prof. J. Srinivasan, Department of Mechanical Engineering, IISc Bangalore. This course discusses topics on thermal radiation heat transfer: blackbody radiation, radiative properties of surfaces, Kirchoff's law, configuration factor, gas radiation, Planck and Rosseland mean absorption coefficient, radiation in furnaces, radiative equilibrium, interaction between conduction, convection and radiation. (from nptel.ac.in)

Lecture 33 - Particle Scattering


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Properties of Surfaces
Lecture 01 - Introduction
Lecture 02 - Blackbody Radiation
Lecture 03 - Properties of Real Surfaces
Lecture 04 - Spectral and Directional Variations
Radiation Exchange between Surfaces
Lecture 05 - Shape Factor
Lecture 06 - Triangular Enclosure
Lecture 07 - Evaluation of Shape Factors
Lecture 08 - Radiation in Enclosures
Lecture 09 - Electrical Analogy
Lecture 10 - Applications
Lecture 11 - Non-gray Enclosures
Lecture 12 - Enclosure with Specular Surfaces
Lecture 13 - Integral Method for Enclosures
Gas Radiation
Lecture 14 - Introduction to Gas Radiation
Lecture 15 - Plane Parallel Model
Lecture 16 - Diffusion Approximation
Lecture 17 - Radiative Equilibrium
Lecture 18 - Optically Thick Limit
Lecture 19 - Radiation Spectroscopy
Lecture 20 - Isothermal Gas Emissivity
Lecture 21 - Band Modes
Lecture 22 - Total Emissivity Method
Lecture 23 - Isothermal Gas Enclosures
Lecture 24 - Well-stirred Furnace Model
Lecture 25 - Gas Radiation in Complex Enclosures
Lecture 26 - Interaction between Radiation and Other Modes of Heat Transfer
Lecture 27 - Radiation Heat Transfer during Flow over Flat Plate
Scattering
Lecture 28 - Radiation and Climate
Lecture 29 - Radiative-Convective Equilibrium
Lecture 30 - Radiative Equilibrium with Scattering
Lecture 31 - Radiation Measurement
Lecture 32 - Radiation with Internal Heat Source
Lecture 33 - Particle Scattering
Lecture 34 - Scattering in the Atmosphere
Lecture 35 - Non-isotropic Scattering
Lecture 36 - Approximate Methods in Scattering
Lecture 37 - Approximate Methods in Scattering (cont.)
Lecture 38 - Monte Carlo Method