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Destined to clarify the research, development, and design requirements in modern and computational terms needed for sustainable technological advances. Written for the combustion scientist/engineer to understand radiative effects on the pollution of the environment. Interrelates the process of thermodynamics, chemical kinetics, fluid mechanics, heat and mass transfer and turbulence. Includes computational design tools. Lays the foundation for modeling and prediction of chemically reacting combustion systems; collects data for operation of combustion devices. Analyzes the construction, use, and numerical results of combustion systems simulation.
460 pages, ©2005
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Table of contents: |
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Chapter 13: Two-Phase Turbulent Combustion |
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13.2 Description of Radiative Transfer in Spray Combustion |
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| 13.2.1 Radiative transfer in spray combustion |
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| 13.2.2 Absorption and scattering coefficients of fuel droplets |
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| 13.2.3 Soot absorption coefficient |
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13.3 Spray Combustion in One-Dimensional Systems |
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13.4 Spray Combustion in a Cylindrical Furnace |
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| 13.4.1 Mathematical description of combusting sprays |
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| 13.4.2 Radiative transfer in spray combustion systems |
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| 13.4.3 Applications of spray combustion with radiation |
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13.5 Description of Radiative Transfer in Pulverized Coal Combustion |
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| 13.5.1 Radiation characteristics of pulverized coals |
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| 13.5.2 Radiation characteristics of flyash |
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13.6 Pulverized Coal Combustion in One-Dimensional Systems |
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13.7 Pulverized Coal Combustion in Furnaces |
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| 13.7.1 Radiative transfer in pulverized coal-fired furnaces |
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| 13.7.2 Applications to furnaces and boilers |
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13.8 Concluding Summary Remarks |
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