Industrial Furnaces 6th Edition by W Trinks, MH Mawhinney, RA Shannon, RJ Reed, JR Garvey ISBN 0471387061 9780471387060

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ISBN 10: 0471387061 
ISBN 13: 9780471387060
Author: W Trinks, MH Mawhinney, RA Shannon, RJ Reed, JR Garvey

Industrial and Process Furnaces provides a comprehensive reference to all aspects of furnace operation and design, with coverage of key topics that plant and process engineers and operators need to understand, including the combustion process and its control, furnace fuels, efficiency, burner design and selection, aerodynamics, heat release profiles, furnace atmosphere, safety and emissions.

* Helps to understand complex heat and mass transfer and combustion problems
* Outlines the key elements of furnace theory for optimum design
* Shows how to achieve best possible furnace operation
* Practical, stepped approach breaks topics down to their constituent parts for clarity and easier solution
* Practical examples further assist in the analysis of real-world problems

Developed by authors with experience of a wide range of industrial applications, this book is written for chemical and process engineers, mechanical, design and combustion engineers and students. It is ideal for both task-based problem solving and more detailed analysis work.

* Up-to-date and comprehensive reference covering not only the principles of best practice operation but also the essential elements of furnace theory and design that are essential for engineers and all practitioners who use or work with furnaces, ovens and combustion based systems

* Invaluable coverage of all key process furnace applications; an ideal resource for chemical and process, mechanical, design and combustion engineers and students for both task based problem solving and more detailed analysis work.

* Takes a holistic, stepped approach to complex heat and mass transfer and combustion problems, breaking topics down to their constituent parts for easy understanding and solution

* Case studies and practical examples further assist in the application of complex analysis to real-world problems

* Unlike other books written specifically on combustion or furnace operation, this book covers all aspects of furnace and combustion operation, including the combustion process and its control, furnace fuels, efficiency, burner design and selection, aerodynamics, heat release profiles, furnace atmosphere ad emissions, and brings all these elements together to show how to achieve optimum design and operation.

* Practical chapters on fuel handling, furnace control, emissions control and regulations, construction and maintenance practice ensure that this book provides the most comprehensive single reference on Industrial Furnaces available

Industrial Furnaces 6th Table of contents:

Chapter 1 Introduction
1.1 What is a furnace?
 1.1.1 Furnace outline
 1.1.2 Furnace classification
 1.1.3 Principle objectives of furnace designers and operators
1.2 Where are furnaces used? Brief review of current furnace applications and technology
 1.2.1 Ceramics, brick making and pottery
 1.2.2 Cement and lime
 1.2.3 Glass making
 1.2.4 Metal ore smelting
 1.2.5 Metal refining
 1.2.6 Flash and fluid bed furnaces
 1.2.7 Metal physical processing
 1.2.8 Incinerators and resource recovery furnaces
 1.2.9 Furnaces with reducing atmospheres
 1.2.10 Oil refining and petrochemical furnaces
1.3 Drivers for improved efficiency
1.4 Concluding remarks
References

Chapter 2 The combustion process
2.1 Simple combustion chemistry
 2.1.1 The complete oxidation of carbon
 2.1.2 The complete oxidation of hydrogen
 2.1.3 The incomplete oxidation of carbon
 2.1.4 The oxidation of carbon monoxide
2.2 Combustion calculations
2.3 Chemical reaction kinetics
 2.3.1 Types of reactions
 2.3.2 Reaction rate theory
 2.3.3 Reaction rate behaviour
 2.3.4 Burning droplets and particles
2.4 The physics of combustion
 2.4.1 The role of primary air
 2.4.2 The role of swirl flows
 2.4.3 Turbulence in jets
 2.4.4 Secondary flow aerodynamics
 2.4.5 Effect of excess air on fuel consumption
 2.4.6 Multiple burner installations
Nomenclature
References

Chapter 3 Fuels for furnaces
3.1 Gaseous fuels
 3.1.1 Properties of natural gas
 3.1.2 Manufactured gas
 3.1.3 Wobbe number or index
 3.1.4 Flammability limits
 3.1.5 Flame radiation from gaseous fuels
3.2 Liquid fuels
3.3 Solid fuels
 3.3.1 Ash
3.4 Waste fuels
3.5 Choice of fuel
 3.5.1 Furnace performance
3.6 Safety
3.7 Emissions
Nomenclature
References
Solid fuel bibliography

Chapter 4 An introduction to heat transfer in furnaces
4.1 Conduction
 4.1.1 Steady state conduction
 4.1.2 Transient conduction
4.2 Convection
 4.2.1 Dimensional analysis
 4.2.2 Application to convective heat transfer
 4.2.3 Evaluating convective heat transfer coefficients
 4.2.4 High temperature convective heat transfer
4.3 Radiation
 4.3.1 Physical basics of radiative exchange
 4.3.2 Emissivity and absorptivity
 4.3.3 View factors
 4.3.4 Mean beam length
4.4 Electrical heating
 4.4.1 Resistance heating
 4.4.2 Arc heating
 4.4.3 Induction heating
 4.4.4 Dielectric heating
 4.4.5 Infrared heating
Nomenclature
References
Appendix 4A: Tables of emissivity data

Chapter 5 Flames and burners for furnaces
5.1 Types of flame
 5.1.1 Premixed flames
 5.1.2 Turbulent jet diffusion flames
 5.1.3 Heterogeneous combustion
5.2 Function of a burner and basics of burner design
 5.2.1 The essential importance of heat flux profiles
 5.2.2 Flame stabilisation
5.3 Gas burners
 5.3.1 Premixed burners
 5.3.2 Turbulent jet diffusion burners
 5.3.3 Precessing jet diffusion burners
5.4 Oil burners
 5.4.1 Turndown
 5.4.2 Atomisers
5.5 Pulverised coal burners
5.6 Furnace aerodynamics
 5.6.1 Single burner systems
 5.6.2 Multiple burner systems
 5.6.3 Combustion air duct design
 5.6.4 Common windbox and plenum design
5.7 Combustion system scaling
 5.7.1 Example of combustion system scaling
5.8 Furnace noise
 5.8.1 Combustion roar
 5.8.2 Nozzle and turbulent jet noise
 5.8.3 Fan noise
 5.8.4 Pipe and valve noise
 5.8.5 Furnace noise attenuation
 5.8.6 Combustion driven oscillations
Nomenclature
References

Chapter 6 Combustion and heat transfer modelling
6.1 Physical modelling
 6.1.1 Thring-Newby parameter
 6.1.2 Craya-Curtet parameter
 6.1.3 Becker throttle factor
 6.1.4 Curtet number
 6.1.5 Relationship between scaling parameters
 6.1.6 Determining the required model flows
 6.1.7 Applying the scaling parameter
 6.1.8 Applying a post-measurement correction
6.2 Mathematical modelling
 6.2.1 Simple well-stirred furnace models
 6.2.2 Long furnace models
 6.2.3 Two- and three-dimensional zone models
 6.2.4 Computational fluid dynamics models
 6.2.5 Particle drag in combustion systems
6.3 Application of modelling to furnace design
Nomenclature
References

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Tags: W Trinks, MH Mawhinney, RA Shannon, RJ Reed, JR Garvey, Furnaces