This graduate textbook is concerned with both the formulation and the solution of radiation heat transfer problems in enclosures. The book is essentially self-contained and includes a brief historical survey. The foundations are carefully discussed from the point of view of the exact mathematical basis of boundary value problems and their variational solutions as well as of the physical foundations. The computational methods developed by the authors are used in engineering applications. The combination of exact mathematical modelling with numerical skills makes this a unique textbook.
Radiation in Enclosures: Elliptic Boundary Value Problem
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"The book is concerned with both the formulation and the general investigation and solution of the radiative heat transfer problem in enclosures of any geometrical shape, and for any temperature distribution and material properties. … the book contains important advances in the radiation theory and will undoubtedly usefull for engineers and specialists in this field." (Vladimir P. Burskii, Zentralblatt MATH, Vol. 1139 (17), 2008)
From the Back Cover
This graduate textbook is concerned with both the formulation and the solution of radiation heat transfer problems in enclosures. The book is essentially self-contained and includes a brief historical survey. The foundations are carefully discussed from the point of view of the exact mathematical basis of boundary value problems and their variational solutions as well as of the physical foundations. The computational methods developed by the authors are used in engineering applications. The combinaton of exact mathematical modelling with numerical skills makes this a unique textbook.
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First Sentence:
All materials viewed at the microscopic scale consist of atoms or molecules packed closely together as in a solid or a liquid, or sparsely distributed as in a gas. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
radiative heat transfer equation, radiative heat flux distributions, finite surface elements, radiative heat transfer calculations, irradiance problem, directional equation, exponential wide band parameters, radiative heat transfer problem, triangular surface elements, total band absorptance, boundary value equation, net radiative heat flux, radiative heat source, heat exchange calculations, medium absorption coefficient, spectral transmissivity, approximated problem, enclosure geometry, enclosure boundary, radiant energy transfer, enclosure volume, band width parameter, blackbody emissive power, incident heat flux, energy balance relations Key Phrases - Capitalized Phrases (CAPs): (learn more)
Bands Vibrational Pressure Band Absorption, Monte Carlo, Principle of Infrared-Radiation New!
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Front Cover | Table of Contents | First Pages | Index | Back Cover | Surprise Me!
All materials viewed at the microscopic scale consist of atoms or molecules packed closely together as in a solid or a liquid, or sparsely distributed as in a gas. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
radiative heat transfer equation, radiative heat flux distributions, finite surface elements, radiative heat transfer calculations, irradiance problem, directional equation, exponential wide band parameters, radiative heat transfer problem, triangular surface elements, total band absorptance, boundary value equation, net radiative heat flux, radiative heat source, heat exchange calculations, medium absorption coefficient, spectral transmissivity, approximated problem, enclosure geometry, enclosure boundary, radiant energy transfer, enclosure volume, band width parameter, blackbody emissive power, incident heat flux, energy balance relations Key Phrases - Capitalized Phrases (CAPs): (learn more)
Bands Vibrational Pressure Band Absorption, Monte Carlo, Principle of Infrared-Radiation New!
Books on Related Topics | Concordance | Text Stats Browse Sample Pages:
Front Cover | Table of Contents | First Pages | Index | Back Cover | Surprise Me!
Citations (learn more)
This book cites 48
books:
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1
book
cites this book:
- Boundary Elements by C.A. Brebbia in Back Matter (1), Back Matter (2), and Back Matter (3)
- Methods of Numerical Integration (Computer Science and Applied Mathematics) by Philip J. Davis in Back Matter
- Hong Kong (Where We Live) by Donna Bailey in Front Matter
- Computational Aspects (Topics in Boundary Element Research) by C. A. Brebbia in Back Matter
- Spectral Methods in Fluid Dynamics (Springer Series in Computational Physics) by C. Canuto in Front Matter
See all 48 books this book cites
- Thermal Radiation Heat Transfer by Robert Siegel on page 703
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