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CRC Press
568 pages
Industry relies heavily on the combustion process. The already high demand for energy, primarily from combustion, is expected to continue to rapidly increase. Yet, the information is scattered and incomplete, with very little attention paid to the overall combustion system. Designed for practicing engineers, Heat Transfer in Industrial Combustion eclipses the extant literature with an emphasis on the aspects of heat transfer that directly apply to industry.
From a practical point of view, the editor organizes relevant papers into a single, coherent resource. The book encompasses heat transfer, thermodynamics, and fluid mechanics, including the little-covered subjects of the use of oxygen to enhance combustion and flame impingement. Maximizing applications and minimizing theory, it covers modes of heat transfer, computer modeling, heat transfer from flame impingement, from burners, low temperature, high temperature, and advanced applications, and more.
The theoretical focus of most literature has created a clear need for a practical treatment of the heat transfer as it applies to industrial combustion systems. With detailed coverage and extensive references, Heat Transfer in Industrial Combustion fills this void.
Features
"This reviewer would like to congratulate the author for a well-written and a comprehensive book on industrial combustion… With the comprehensive review of the literature and the clear presentation of fundamentals of mass, momentum, and heat transport in combustion flames, this book should find its place as a valuable reference to practitioners in the field of combustion…This reviewer recommends Heat Transfer in Industrial Combustion to his peers as well as to the libraries of institutions for higher learning."
-Lea-Der Chen, Department of Mechanical Engineering, University of Iowa, Iowa City, Iowa, USA
"This book… is intended to 'fill a gap in the literature for books on heat transfer in industrial combustion, written for the practicing engineers…this book would be very useful when teaching… combustion and propulsion class…"."
-Applied Mechanics Review, vol. 54, no. 4, July 2001
Introduction
Importance of Heat Transfer in Industrial Combustion
Literature Discussion
Combustion System Components
Some Fundamentals of Combustion
Combustion Chemistry
Combustion Properties
Exhaust Product Transport Properties
Heat Transfer Modes
Introduction
Convection
Radiation
Conduction
Phase Change
Heat Sources and Sinks
Heat Sources
Heat Sinks
Computer Modeling
Combustion Modeling
Modeling Approaches
Simplified Models
Computational Fluid Dynamic Modeling
Experimental Techniques
Introduction
Heat Flux
Temperature
Gas Flow
Gas Species
Other Measurements
Physical Modeling
Flame Impingement
Introduction
Experimental Conditions
Semi-Analytical Heat Transfer Solutions
Empirical Heat Transfer Correlations
Heat Transfer from Burners
Introduction
Open-Flame Burners
Radiant Burners
Effects on Heat Transfer
In-Flame Treatment
Heat Transfer in Furnaces
Introduction
Furnaces
Heat Recovery
Lower Temperature Applications
Introduction
Ovens and Dryers
Fired Heaters
Heat Treating
Higher Temperature Applications
Introduction
Metals Industry
Minerals Industry
Waste Incineration
Advanced Combustion Systems
Introduction
Oxygen-Enhanced Combustion
Submerged Combustion
Miscellaneous
Appendices
Reference Sources for Further Information
Common Conversions
Methods of Expressing Mixture Ratios for CH4, C3H8, and H2
Properties for CH4, C3H8, and H2 Flames
Fluid Dynamics Equations
Material Properties
Author Index
Subject Index
Each chapter contains a References section.
