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Klappentext Essentials of Radiation Heat Transfer presents the essential, fundamental information required to gain an understanding of radiation heat transfer and equips the reader with enough knowledge to be able to tackle more challenging problems. All concepts are reinforced by carefully chosen and fully worked examples, and exercise problems are provided at the end of every chapter. Zusammenfassung Essentials of Radiation Heat Transfer presents the essential! fundamental information required to gain an understanding of radiation heat transfer and equips the reader with enough knowledge to be able to tackle more challenging problems. Inhaltsverzeichnis 1 Introduction 11.1 Important of thermal radiation 11.2 Nature of radiation 62 Black body and its characteristics 112.1 Key attributes of a black body 132.2 Solid angle - dw 192.3 Spectral or monochromatic radiation intensity 232.4 Spectral hemispherical emissive power 242.5 Radiation pressure 282.6 Ralationship between the intensity, I and temperature T 332.7 Planck's distribution 382.8 The Rayleigh Jeans distribution 392.9 Planck's distribution salient features 52Problems 643 Radiative properties of non-black surfaces 673.1 Why do we need a gray body model" 683.2 Spectral directional emissivity 703.3 Hemispherical spectral emissive 723.4 Directional total emissivity 733.5 Hemispherical total emissivity, & epsis;(T) 743.6 Absorptivity, ± 843.7 Spectral directional absorptivity , ±' 873.8 Hemispherical spectral absorptivity 913.10 Hemispherical total absorptivity, ± (TA) 933.11 Reflectivity, p 1003.12 Transmissivity, T3.13 Spectral transmissivity 104Problems 1124 Radiation hear transfer between surfaces 1154.1 Enclosure theory 1164.2 View factor 1184.3 View factor algebra 1214.4 View factors from direct integration 1344.5 Enclosure analysis 150Problems 1725 Radiation in participating media 1795.1 Principal difficulties in studying gas radiation 1835.2 Important properties for study of gas radiation 1835.3 Equation of transfer or Radiative transfer equation (RTE) 1845.4 Solution for the straight path 1895.5 Heat fluxes 190Problems 2166 Introduction to atmospheric radiation 2176.1 Introduction 2176.2 Electromagnetic spectrum 2176.3 Black body radiation 2186.4 Radiative transfer equation for a plane parallel atmosphere 2206.5 Radiative transfer equation (RTE) for an absorbing and emitting atmosphere 2216.6 Infrared remote sensing 222Problems 2247 Inverse problems in radiation 2257.1 Introduction 2257.2 Least squares minimization for parameter estimation 2277.3 The Bayesian method for inverse problems 234Problems 242Bibliography 243Index 245...
