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Engineering Thermodynamics of Thermal Radiation by Richard Petela Book Details
Book Name | Engineering Thermodynamics of Thermal Radiation |
Author | Richard Petela |
Category | Mechanical Engineering Books, Education Books |
Book Language | English |
Pages | 416 |
Country | India |
Book Size | 4 MB |
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About Engineering Thermodynamics of Thermal Radiation by Richard Petela Book
Engineering thermodynamics of thermal radiation is a specialized field within the broader study of thermodynamics that focuses specifically on the transfer of heat through electromagnetic radiation. This branch of thermodynamics is concerned with the principles, analysis, and applications of radiative heat transfer, which plays a crucial role in various engineering disciplines, including aerospace, mechanical, chemical, and materials engineering.
Key concepts and topics related to engineering thermodynamics of thermal radiation include:
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Radiation Laws: Understanding fundamental laws that govern thermal radiation, such as Planck's law (describing the spectral distribution of blackbody radiation), Stefan-Boltzmann law (relating the total energy emitted by a blackbody to its temperature), and Wien's displacement law (relating the peak wavelength of emission to temperature).
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Blackbody Radiation: Studying the behavior of idealized surfaces known as blackbodies, which emit and absorb the maximum amount of radiation possible at a given temperature. Analyzing the spectral distribution, total emissive power, and absorption properties of blackbodies.
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Gray and Non-gray Surfaces: Differentiating between gray surfaces (those with constant emissive power) and non-gray surfaces (those with wavelength-dependent emissive power). Understanding the concept of emissivity, which characterizes the efficiency of a surface in emitting radiation.
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Radiative Heat Transfer Equations: Formulating and solving radiative heat transfer equations, such as the Stefan-Boltzmann equation, the radiative transfer equation, and equations for net radiative heat flux between surfaces.
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Radiative Properties: Characterizing the radiative properties of materials, including reflectivity, transmissivity, and absorptivity. Analyzing the effects of surface orientation, temperature, and wavelength on these properties.
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Radiative Exchange in Enclosures: Investigating radiative heat exchange between surfaces within enclosed spaces. Analyzing configurations such as parallel plates, concentric cylinders, and rectangular enclosures.
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Radiation Shields and Insulation: Designing and optimizing radiation shields and insulating materials to control heat transfer in various engineering applications, such as spacecraft thermal control and industrial furnaces.
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Radiative Heat Transfer in Combustion: Examining the role of radiative heat transfer in combustion processes, including its impact on flame temperature and heat transfer rates.
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Applications: Applying radiative heat transfer principles to various engineering systems, including solar energy conversion, thermal imaging devices, electronic component cooling, and the design of energy-efficient buildings.
Engineering thermodynamics of thermal radiation is a complex and mathematically intensive field that requires a solid foundation in thermodynamics, electromagnetics, and heat transfer. It plays a crucial role in designing and optimizing engineering systems where radiative heat transfer is a significant factor. As technology continues to advance, the understanding and utilization of radiative heat transfer principles become increasingly important in a wide range of innovative applications.
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