Rapid developments in the field precipitated by the increased demand for clean burner systems have rendered much of the published literature outdated. With the Industrial Burners Handbook, best-selling author, editor, and combustion expert Charles Baukal, Jr. fills this gap. This handbook is a comprehensive reference dedicated to the design and applications of industrial burners. In addition to a solid introduction to combustion and burner fundamentals, an outstanding panel of contributing authors address all major burner types and explore a range of topics never before adequately covered in a handbook, including noise, burner controls, and physical modeling.

Although many books have been written on computational fluid dynamics (CFD) and many written on combustion, most contain very limited coverage of the combination of CFD and industrial combustion. Furthermore, most of these books are written at an advanced academic level, emphasize theory over practice, and provide little help to engineers who need to use CFD for combustion modeling.

Computational Fluid Dynamics in Industrial Combustion fills this gap in the literature. Focusing on topics of interest to the practicing engineer, it codifies the many relevant books, papers, and reports written on this combined subject into a single, coherent reference. It looks at each topic from a somewhat narrow perspective to see how that topic affects modeling in industrial combustion. The editor and his team of expert authors address these topics within three main sections:

Modeling Techniques-The basics of CFD modeling in combustion
Industrial Applications-Specific applications of CFD in the steel, aluminum, glass, gas turbine, and petrochemical industries
Advanced Techniques-Subjects rarely addressed in other texts, including design optimization, simulation, and visualization

Rapid increases in computing power and significant advances in commercial CFD codes have led to a tremendous increase in the application of CFD to industrial combustion. Thorough and clearly representing the techniques and issues confronted in industry, Computational Fluid Dynamics in Industrial Combustion will help bring you quickly up to date on current methods and gain the ability to set up and solve the various types of problems you will encounter.

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

Focusing on topics of interest to the practicing engineer, this book codifies the many relevant books, papers, and reports written on this hybrid subject into a single, coherent reference. It looks at each topic from a somewhat narrow perspective to see how that topic affects modeling in industrial combustion. Thorough and clearly representing the techniques and issues confronted in industry, Computational Fluid Dynamics in Industrial Combustion will help bring readers quickly up to date on current methods and gain the ability to set up and solve the various types of problems they will encounter.

Until now, anyone conducting industrial combustion tests had to either rely on old methods, go scurrying through the literature to find proven applicable methodologies, or hire top-shelf consultants such as those that work for cutting-edge companies like John Zink. Manufacturers can no longer take industrial combustion for granted. Air and noise pollution standards must be met, and today no one can afford the inefficient use of fuel.

Drawing on three decades of experience, Charles Baukal Jr. is not only aware of the best methods but is responsible for designing and implementing a number of them, owning 11 patents of his own, as well as having hundreds of articles to his credit. Providing busy engineers with a convenient reference that gives them state-of-the-art techniques without having to cull through the literature, this practical compendium:

• Demonstrates how to conduct meaningful experiments with industrial scale combustion equipment
• Illustrates a number of methods through case studies
• Includes detailed pictures, figures, graphs, and tables, to explain processes and make sense of the data
• Presents valuable information on advanced diagnostics, burner and flare testing, and testing in combustors, including techniques for a variety of kilns, furnaces, and boilers

Written to make better practioners out of academicians and better scholars out of hands-on engineers, this unique volume teaches academics how to work at the large scales associated with industrial combustion, while also teaching engineers the rigorous approach needed for successful modeling.