The John Zink combustion handbook

Despite the length of time it has been around, its importance, and vast amounts of research, combustion is still far from being completely understood. Industrial applications of combustion add environmental, cost, and fuel consumption issues to its fundamental complexity, and the process and power generation industries in particular present their own unique challenges The John Zink Combustion Handbook is dedicated to improving that understanding and meeting those challenges. Under the leadership of Charles E. Baukal, Jr., top combustion engineers and technologists from the world-renowned John Zink Company have joined forces to bring you this landmark work- a synthesis of the multi-disciplinary background that will broaden your understanding, hone your skills, and further advance the art and science of industrial combustion. Background-The fundamentals of thermodynamics, chemical kinetics, fluid mechanics, and transport processes of combustion Equipment-Design, maintenance, and troubleshooting Applications-Duct burners, boiler burners, flares, thermal oxidizers

GENERAL THEORY INTRODUCTION, Charles E. Baukal, Jr. FUNDAMENTALS Joseph Colannino and Charles E. Baukal, Jr. General Chemistry of Hydrocarbons Flame Properties Mass Transfer HEAT TRANSFER Michael Henneke and Jay Karan Conduction Convection Radiation FLUID FLOW Michael Henneke and Randall McDermott Fluid Properties Incompressible Flow Compressible Flow Two-Phase Flow FUEL Terry Dark and John Ackland Gaseous Fuels Liquid Fuels Solid Fuels POLLUTANT EMISSIONS Charles E. Baukal, Jr. and Joseph Colannino NOx Combustibles SOx Particulates NOISE Wes Bussman and Jay Karan Fundamentals of Sound Industrial Noise Pollution Mechnaisms of Industrial Combustion Equipment Noise Noise Abatement Techniques Analysis of Combustion Equipment Noise APPLICATIONS MODELING OF COMBUSTION SYSTEMS, Rajesh Rawat, Michael Henneke, and Wes Bussman Overview Control Volume Analysis Mixing and Scaling Laws for Jet Flames Modeling Detailed Chemistry Applications CFD MODELING Michael Henneke, Rajesh Rawat, and Jay Karan Overview Modeling Turbulent Flows Preprocessing Applications COMBUSTION SAFETY, Terry Dark, and Charles E. Baukal, Jr. Overview Design Engineering BURNER DESIGN Richard T. Waibel, Michael Claxton, and Randall McDermott Fuel and Air Metering Fuel and Air Mixing Maintaining Ignition Flame Shape Molding Minimizing Emissions Material Selection Multi-Fuel Considerations Maintenance Considerations Mounting Considerations COMBUSTION CONTROLS Jay Karan, Terry Dark, and Joseph Colannino Fundamentals of Combustion Control Primary Measurements Fundamentals of FeedbackControl LaPlace Transforms and the Transfer Function Control Methods Typical Control Schemes and Hierarchies Tuning Control Loops, Practical Considerations Burner Management EXPERIMENTAL DESIGN Joseph Colannino Goal of Experimentation Deterministic and Stochastic Variables Statistcally Cognizant Experimental Designs Designs at Two Levels Designs at Three or More Levels Handling Fuel Blends and Mixtures Pitfalls, Diagnostics, and Remedies Integrating Theory and Empiricism BURNER TESTING, Richard T. Waibel, Michael Claxton, and Jeffrey Lewallen Combustor Instrumentation Troubleshooting Selection of Test Fuels FLARES Robert Schwartz, Jeffrey White, and Wes Bussman Flare Systems Factors Influencing Flare Design Flare Design Considerations Flare Equipment Flare Combustion Products THERMAL OXIDIZERS Paul Melton Introduction Combustion Basics Basic System Configurations System Building Blocks Emissions Issues Other APPENDICES Appendix A - Physical Properties of Materials Appendix B - Properties of Gases and Liquids Appendix C - Common Conversions