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Engineering calculations in radiative heat transfer /
Engineering Calculations in Radiative Heat Transfer is a six-chapter book that first explains the basic principles of thermal radiation and direct radiative transfer. Total exchange of radiation within an enclosure containing an absorbing or non-absorbing medium is then described. Subsequent chapter...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford ; New York :
Pergamon Press,
[1974]
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| Edición: | [1st ed.]. |
| Colección: | International series on materials science and technology ;
v. 13. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Engineering Calculations in Radiative Heat Transfer; Copyright Page ; Table of Contents; Nomenclature; Acknowledgements; Chapter 1. Basic Principles of Thermal Radiation; 1.1 Nature of radiation; 1.2 Absorption, reflection and transmission; 1.3 Black-body radiation; 1.4 Stefan-Boltzmann law; 1.5 Variation of thermal radiation with wavelength-Planck's distribution law; 1.6 Wierts displacement law; 1.7 Intensity of radiation; 1.8 Lambert's law; 1.9 Inverse square law; 1.10 Absorptivity of a real surface; 1.11 Emissivity of a real surface; 1.12 Grey bodies.
- 1.13 Effective black-body (or brightness) temperature1.14 Kirchhoff's law; 1.15 Black-body enclosure; 1.16 Data on emmissivities for real surfaces; 1.17 Solar radiation; Chapter 2. Direct Radiative Transfer; 2.1 Simplified situations; 2.2 View factors and exchange areas; 2.3 Total energy transfer among black surfaces; Chapter 3. Total Exchange of Radiation within an Enclosure containing a Non-absorbing Medium; 3.1 Leaving flux or radiosity; 3.2 Radiative heat transfer in an empty enclosure; 3.3 Refractory walls; 3.4 Enclosure comprising grey and black surfaces.
- 3.5 Conduction of heat through furnace walls3.6 Zoning; 3.7 Network method; Chapter 4. Radiative Heat Transfer within an Enclosure containing an Absorbing Medium; 4.1 Emission and absorption of radiation by an absorbing medium; 4.2 Effect of an absorbing medium on the radiative heat transfer within an enclosure; 4.3 Exchange areas for absorbing media; Chapter 5. Radiative Heat Transfer Applications; 5.1 Furnaces; 5.2 Solar radiation; Chapter 6. Measurement of Radiation and Temperature; 6.1 Measurement of radiation; 6.2 Temperature measurement; Appendix 1: Kirchhoff's Law.
- Appendix 2: Monte Carlo MethodA2.1 Selection of a point of emission on a planesurface; A2.2 Selection of the direction of an emitted beam of radiation; A2.3 Non-diffuse surface; A2.4 Variation of emissivity with wavelength; A2.5 Absorption by a medium; Appendix 3: Evaluation of Mean Beam Lengths; Appendix 4: Radiation emitted by a Black Body within Stated Wavelength ranges; Appendix 5: Emissivities of Atmospheres containing Mixtures of Carbon Dioxide and Water Vapour; References; Glossary; Index.