Second Edition, Academic Press, Elsevier Science, London, New York,
2003, 842 pp.
Прошло десять лет с момента выхода первого издания. Однако, интерес к радиационному переносу тепла и компьютерным расчетам не ослабел. Появились новые темы исследований, были достигнуты значительные успехи в развитии данного направления. Поэтому, содержание второго издания было значительно изменено. Цели книги остаются теми же – дать более обширные знания теории и методов расчета теплового излучения, чем те, которые предусматриваются стандартным учебником, рассчитанным на один семестровый базовый курс.
Ten years have passed since the first edition of "Radiative Heat Transfer" was published. Because of continued interest in the field of radiation and due to the emergence of new research topics, the field has seen many significant advances during these ten years. Thus, the contents of the second edition of this book has changed significantly to reflect this additional knowledge and also to improve its general readability and usefulness. The objectives of this book remain the same, and are more extensive than to provide a standard textbook for a one-semester core course on thermal radiation, since it does not appear possible to cover all important topics in the field of radiative heat transfer in a single graduate course. A number of important areas that would not be part of a "standard" one-semester course have been treated in some detail.
Contents
Preface. Fundamentals of Thermal Radiation. Radiative Property Predictions from Electromagnetic Wave Theory. Radiative Properties of Real Surfaces. View Factors. Radiative Exchange Between Gray, Diffuse Surfaces. Radiative Exchange Between Partially-Specular Gray Surfaces. Radiative Exchange Between Nonideal Surfaces. Surface Radiative Exchange in the Presence of Conduction and Convection. The Equation of Radiative Transfer in Participating Media. Radiative Properties of Molecular Gases. Radiative Properties of Particulate Media. Radiative Properties of Semitransparent Media. Exact Solutions for One-Dimensional Gray Media. Approximate Solution Methods for One-Dimensional Media. The Method of Spherical Harmonics (PN-Approximation). The Method of Discrete Ordinates (SN-Approximation). The Zonal Method. The Treatment of Collimated Irradiation. The Treatment of Nongray Extinction Coefficients. The Monte Carlo Method for Thermal Radiation. Radiation Combined with Conduction and Convection. Inverse Radiative Heat Transfer. Problems. Acknowledgments. Index.
Прошло десять лет с момента выхода первого издания. Однако, интерес к радиационному переносу тепла и компьютерным расчетам не ослабел. Появились новые темы исследований, были достигнуты значительные успехи в развитии данного направления. Поэтому, содержание второго издания было значительно изменено. Цели книги остаются теми же – дать более обширные знания теории и методов расчета теплового излучения, чем те, которые предусматриваются стандартным учебником, рассчитанным на один семестровый базовый курс.
Ten years have passed since the first edition of "Radiative Heat Transfer" was published. Because of continued interest in the field of radiation and due to the emergence of new research topics, the field has seen many significant advances during these ten years. Thus, the contents of the second edition of this book has changed significantly to reflect this additional knowledge and also to improve its general readability and usefulness. The objectives of this book remain the same, and are more extensive than to provide a standard textbook for a one-semester core course on thermal radiation, since it does not appear possible to cover all important topics in the field of radiative heat transfer in a single graduate course. A number of important areas that would not be part of a "standard" one-semester course have been treated in some detail.
Contents
Preface. Fundamentals of Thermal Radiation. Radiative Property Predictions from Electromagnetic Wave Theory. Radiative Properties of Real Surfaces. View Factors. Radiative Exchange Between Gray, Diffuse Surfaces. Radiative Exchange Between Partially-Specular Gray Surfaces. Radiative Exchange Between Nonideal Surfaces. Surface Radiative Exchange in the Presence of Conduction and Convection. The Equation of Radiative Transfer in Participating Media. Radiative Properties of Molecular Gases. Radiative Properties of Particulate Media. Radiative Properties of Semitransparent Media. Exact Solutions for One-Dimensional Gray Media. Approximate Solution Methods for One-Dimensional Media. The Method of Spherical Harmonics (PN-Approximation). The Method of Discrete Ordinates (SN-Approximation). The Zonal Method. The Treatment of Collimated Irradiation. The Treatment of Nongray Extinction Coefficients. The Monte Carlo Method for Thermal Radiation. Radiation Combined with Conduction and Convection. Inverse Radiative Heat Transfer. Problems. Acknowledgments. Index.