119108004
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NPTEL Syllabus Radiation Heat Transfer - Video course COURSE OUTLINE 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 COURSE DETAIL Module I Properties of Surfaces 1. Introduction 2. Blackbody radiation 3. Properties of real surfaces 4. Spectral and directional variations Module II Radiation exchange between surfaces 5. Shape factor 6. Triangular enclosure 7. Evaluation of shape factors 8. Radiation in enclosures 9. Electrical analogy 10. Applications 11. Non-gray enclosures 12. Enclosure with Specular surfaces 13. Integral method for enclosures Module III Gas Radiation 14. Introduction to gas radiation 15. Plane parallel model 16. Diffusion approximation 17. Radiative equilibrium 18. Optically thick limit 19. Radiation spectroscopy 20. Isothermal gas emissivity 21. Band models 22. Total Emissivity method 23. Isothermal gas enclosures 24. Well-stirred furnace model 25. Gas radiation in complex enclosures 26. Interaction between radiation and other modes of heat transfer 27. Radiation heat transfer during flow over flat plate Module IV Scattering 28. Radiation and Climate 29. Radiative-convective equilibrium NPTEL http://nptel.iitm.ac.in Atmospheric Science Pre-requisites: Basic Heat Transfer. Coordinators: Prof. J. Srinivasan Department of Mechanical EngineeringIISc Bangalore
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Transcript of 119108004
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NPTEL Syllabus
Radiation Heat Transfer - Video course
COURSE OUTLINE 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 COURSE DETAIL
Module I Properties of Surfaces
1. Introduction2. Blackbody radiation3. Properties of real surfaces4. Spectral and directional variations
Module II Radiation exchange between surfaces
5. Shape factor6. Triangular enclosure7. Evaluation of shape factors8. Radiation in enclosures9. Electrical analogy
10. Applications11. Non-gray enclosures12. Enclosure with Specular surfaces13. Integral method for enclosures
Module III Gas Radiation
14. Introduction to gas radiation15. Plane parallel model16. Diffusion approximation17. Radiative equilibrium18. Optically thick limit19. Radiation spectroscopy20. Isothermal gas emissivity21. Band models22. Total Emissivity method23. Isothermal gas enclosures24. Well-stirred furnace model25. Gas radiation in complex enclosures26. Interaction between radiation and other modes of heat transfer27. Radiation heat transfer during flow over flat plate
Module IV Scattering
28. Radiation and Climate29. Radiative-convective equilibrium
NPTELhttp://nptel.iitm.ac.in
AtmosphericScience
Pre-requisites:
Basic Heat Transfer.
Coordinators:Prof. J. SrinivasanDepartment ofMechanicalEngineeringIIScBangalore
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30. Radiative equilibrium with scattering31. Radiation measurement32. Radiation with internal heat source33. Particle scattering34. Scattering in the atmosphere35. Non-isotropic scattering36. Approximate methods in scattering: 137. Approximate methods in scattering: 238. Monte Carlo method
References:
1. Siegel, R. and Howell, J., Thermal Radiation Heat Transfer, Taylor and Francis 2002.
A joint venture by IISc and IITs, funded by MHRD, Govt of India http://nptel.iitm.ac.in
