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Combustion

Physical and Chemical Fundamentals, Modeling and Simulation, Experiments, Pollutant Formation

  • Textbook
  • © 1999

Overview

Authors:
  1. Jürgen Warnatz

    1. Universität Heidelberg Interdisziplinäres Zentrum für Wissenschaftliches Rechnen, Heidelberg, Germany

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  2. Ulrich Maas

    1. Institut für Technische Verbrennung, Universität Stuttgart, Stuttgart, Germany

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  3. Robert W. Dibble

    1. Department of Mechanical Engineering, University of California, Berkeley, USA

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  • Advanced textbook treating fundamentals and modern experimental and numerical methods
  • It is based upon recent research results of physics, chemistry, and fluid dynamics
  • Important applications like engine knocking and the formation of pollutants are presented
  • Includes supplementary material: sn.pub/extras

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Table of contents (19 chapters)

  1. Front Matter

    Pages I-X
    Download chapter PDF

  2. Introduction, Fundamental Definitions and Phenomena

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 1-8

  3. Experimental Investigation of Flames

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 9-22

  4. Mathematical Description of Premixed Laminar Flat Flames

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 23-32

  5. Thermodynamics of Combustion Processes

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 33-48

  6. Transport Phenomena

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 49-64

  7. Chemical Kinetics

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 65-84

  8. Reaction Mechanisms

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 85-110

  9. Laminar Premixed Flames

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 111-126

  10. Laminar Nonpremixed Flames

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 127-136

  11. Ignition Processes

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 137-152

  12. The Navier-Stokes-Equations for Three-Dimensional Reacting Flows

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 153-162

  13. Turbulent Reacting Flows

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 163-186

  14. Turbulent Nonpremixed Flames

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 187-200

  15. Turbulent Premixed Flames

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 201-212

  16. Combustion of Liquid and Solid Fuels

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 213-226

  17. Low Temperature Oxidation, Engine Knock

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 227-236

  18. Formation of Nitric Oxides

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 237-256

  19. Formation of Hydrocarbons and Soot

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 257-272

  20. References

    • Jürgen Warnatz, Ulrich Maas, Robert W. Dibble
    Pages 273-288
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Keywords

About this book

Combustion is an old technology, which at present provides about 90% of our worldwide energy support. Combustion research in the past used fluid mechanics with global heat release by chemical reactions described with thermodynamics, assuming infinitely fast reactions. This approach was useful for stationary combustion processes, but it is not sufficient for transient processes like ignition and quenching or for pollutant formation. Yet pollutant formation during combustion of fossil fuels is a central topic and will continue to be so in future. This book provides a detailed and rigorous treatment of the coupling of chemical reactions and fluid flow. Also, combustion-specific topics of chemistry and fluid mechanics are considered, and tools described for the simulation of combustion processes. For the 2nd edition, the parts dealing with experiments, spray combustion, and soot were thoroughly revised.

Authors and Affiliations

  • Universität Heidelberg Interdisziplinäres Zentrum für Wissenschaftliches Rechnen, Heidelberg, Germany

    Jürgen Warnatz

  • Institut für Technische Verbrennung, Universität Stuttgart, Stuttgart, Germany

    Ulrich Maas

  • Department of Mechanical Engineering, University of California, Berkeley, USA

    Robert W. Dibble

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