| Prologue |
| Preface |
| Chemical Thermodynamics and Flame Temperatures / Chapter 1: |
| Introduction / A: |
| Heats of reaction and formation / B: |
| Free energy and the equilibrium constants / C: |
| Flame temperature calculations / D: |
| Analysis / 1: |
| Practical considerations / 2: |
| Sub- and super sonic combustion thermodynamics / E: |
| Comparisons |
| Stagnation pressure considerations |
| Problems |
| Chemical Kinetics / Chapter 2: |
| Rates of reactions and their temperature dependence |
| The Arrhenius rate expression |
| Transition state and recombination rate theories |
| Simultaneous interdependent reactions |
| Chain reactions |
| Pseudo-first-order reactions and the "fall-off" range |
| The partial equilibrium assumption / F: |
| Pressure effect in fractional conversion / G: |
| Chemical kinetics of large reaction mechanisms / H: |
| Sensitivity analysis |
| Rate of production analysis |
| Coupled thermal and chemical reacting systems / 3: |
| Mechanism simplification / 4: |
| Explosive and General Oxidative Characteristics of Fuels / Chapter 3: |
| Chain branching reactions and criteria for explosion |
| Explosion limits and oxidation characteristics of hydrogen |
| Explosion limits and oxidation characteristics of carbon monoxide |
| Explosion limits and oxidation characteristics of hydrocarbons |
| Organic nomenclature |
| Explosion limits |
| "Low-temperature" hydrocarbon oxidation mechanisms |
| The oxidation of aldehydes |
| The oxidation of methane |
| Low-temperature mechanism |
| High-temperature mechanism |
| The oxidation of higher-order hydrocarbons |
| Aliphatic hydrocarbons |
| Alcohols |
| Aromatic hydrocarbons |
| Supercritical effects |
| Flame Phenomena in Premixed Combustible Gases / Chapter 4: |
| Laminar flame structure |
| The laminar flame speed |
| The theory of Mallard and Le Chatelier |
| The theory of Zeldovich, Frank-Kamenetskii, and Semenov |
| Comprehensive theory and laminar flame structure analysis |
| The laminar flame and the energy equation |
| Flame speed measurements / 5: |
| Experimental results: physical and chemical effects / 6: |
| Stability limits of laminar flames |
| Flammability limits |
| Quenching distance |
| Flame stabilization (low velocity) |
| Stability limits and design |
| Flame propagation through stratified combustible mixtures |
| Turbulent reacting flows and turbulent flames |
| The rate of reaction in a turbulent field |
| Regimes of turbulent reacting flows |
| The turbulent flame speed |
| Stirred reactor theory |
| Flame stabilization in high-velocity streams |
| Combustion in small volumes / I: |
| Detonation / Chapter 5: |
| Premixed and diffusion flames |
| Explosion, deflagration, and detonation |
| The onset of detonation |
| Detonation phenomena |
| Hugoniot relations and the hydrodynamic theory of detonations |
| Characterization of the Hugoniot curve and the uniqueness of the C-J point |
| Determination of the speed of sound in the burned gases for conditions above the C-J point |
| Calculation of the detonation velocity |
| Comparison of detonation velocity calculations with experimental results |
| The ZND structure of detonation waves |
| The structure of the cellular detonation front and other detonation phenomena parameters |
| The cellular detonation front |
| The dynamic detonation parameters |
| Detonation limits |
| Detonations in nongaseous media |
| Diffusion Flames / Chapter 6: |
| Gaseous fuel jets |
| Appearance |
| Structure |
| Theoretical considerations |
| The Burke-Schumann development |
| Turbulent fuel jets |
| Burning of condensed phases |
| General mass burning considerations and the evaporation coefficient |
| Single fuel droplets in quiescent atmospheres |
| Burning of droplet clouds |
| Burning in convective atmospheres |
| The stagnant film case |
| The longitudinally burning surface |
| The flowing droplet case |
| Burning rates of plastics: The small B assumption and radiation effects |
| Ignition / Chapter 7: |
| Concepts |
| Chain spontaneous ignition |
| Thermal spontaneous ignition |
| Semenov approach of thermal ignition |
| Frank-Kamenetskii theory of thermal ignition |
| Forced ignition |
| Spark ignition and minimum ignition energy |
| Ignition by adiabatic compression and shock waves |
| Other ignition concepts |
| Hypergolicity and pyrophoricity |
| Catalytic ignition |
| Environmental Combustion Considerations / Chapter 8: |
| The nature of photochemical smog |
| Primary and secondary pollutants |
| The effect of NO[subscript x] |
| The effect of SO[subscript x] |
| Formation and reduction of nitrogen oxides |
| The structure of the nitrogen oxides |
| The effect of flame structure |
| Reaction mechanisms of oxides of nitrogen |
| The reduction of NO[subscript x] |
| SO[subscript x] emissions |
| The product composition and structure of sulfur compounds |
| Oxidative mechanisms of sulfur fuels |
| Particulate formation |
| Characteristics of soot |
| Soot formation processes |
| Experimental systems and soot formation |
| Sooting tendencies |
| Detailed structure of sooting flames |
| Chemical mechanisms of soot formation |
| The influence of physical and chemical parameters on soot formation / 7: |
| Stratospheric ozone |
| The HO[subscript x] catalytic cycle |
| The NO[subscript x] catalytic cycle |
| The ClO[subscript x] catalytic cycle |
| Combustion of Nonvolatile Fuels / Chapter 9: |
| Carbon char, soot, and metal combustion |
| Metal combustion thermodynamics |
| The criterion for vapor-phase combustion |
| Thermodynamics of metal-oxygen systems |
| Thermodynamics of metal-air systems |
| Combustion synthesis |
| Diffusional kinetics |
| Diffusion-controlled burning rate |
| Burning of metals in nearly pure oxygen |
| Burning of small particles - diffusion versus kinetic limits |
| The burning of boron particles |
| Carbon particle combustion (C. R. Shaddix) |
| Practical carbonaceous fuels (C. R. Shaddix) |
| Devolatilization |
| Char combustion |
| Pulverized coal char oxidation |
| Gasification and oxy-combustion |
| Soot oxidation (C. R. Shaddix) |
| Appendixes |
| Thermochemical Data and Conversion Factors / Appendix A: |
| Conversion factors and physical constants / Table A1: |
| Thermochemical data for selected chemical compounds / Table A2: |
| Thermochemical data for species included in reaction list of Appendix C / Table A3: |
| Adiabatic Flame Temperatures of Hydrocarbons / Appendix B: |
| Adiabatic flame temperatures / Table B1: |
| Specific Reaction Rate Constants / Appendix C: |
| H[subscript 2]/O[subscript 2] mechanism / Table C1: |
| CO/H[subscript 2]/O[subscript 2] mechanism / Table C2: |
| CH[subscript 2]O/CO/H[subscript 2]/O[subscript 2] mechanism / Table C3: |
| CH[subscript 3]OH/CH[subscript 2]O/CO/H[subscript 2]/O[subscript 2] mechanism / Table C4: |
| CH[subscript 4]/CH[subscript 3]OH/CH[subscript 2]O/CO/H[subscript 2]/O[subscript 2] mechanism / Table C5: |
| C[subscript 2]H[subscript 6]/CH[subscript 4]/CH[subscript 3]OH/CH[subscript 2]O/CO/H[subscript 2]/O[subscript 2] mechanism / Table C6: |
| Selected reactions of a C[subscript 3]H[subscript 8] oxidation mechanism / Table C7: |
| N[subscript x]O[subscript y]/CO/H[subscript 2]/O[subscript 2] mechanism / Table C8: |
| HCl/N[subscript x]O[subscript y]/CO/H[subscript 2]/O[subscript 2] mechanism / Table C9: |
| O[subscript 3]/N[subscript x]O[subscript y]/CO/H[subscript 2]/O[subscript 2] mechanism / Table C10: |
| SO[subscript x]/N[subscript x]O[subscript y]/CO/H[subscript 2]/O[subscript 2] mechanism / Table C11: |
| Bond Dissociation Energies of Hydrocarbons / Appendix D: |
| Bond dissociation energies of alkanes / Table D1: |
| Bond dissociation energies of alkenes, alkynes, and aromatics / Table D2: |
| Bond dissociation energies of C/H/O compounds / Table D3: |
| Bond dissociation energies of sulfur-containing compounds / Table D4: |
| Bond dissociation energies of nitrogen-containing compounds / Table D5: |
| Bond dissociation energies of halocarbons / Table D6: |
| Flammability Limits in Air / Appendix E: |
| Flammability limits of fuel gases and vapors in air at 25[degree]C and 1 atm / Table E1: |
| Laminar Flame Speeds / Appendix F: |
| Burning velocities of various fuels at 25[degree]C air-fuel temperature (0.31 mol% H[subscript 2]O in air). Burning velocity S as a function of equivalence ratio [phi] in cm/s / Table F1: |
| Burning velocities of various fuels at 100[degree]C air-fuel temperature (0.31 mol% H[subscript 2]O in air). Burning velocity S as a function of equivalence ratio [phi] in cm/s / Table F2: |
| Burning velocities of various fuels in air as a function of pressure for an equivalence ratio of 1 in cm/s / Table F3: |
| Spontaneous Ignition Temperature Data / Appendix G: |
| Spontaneous ignition temperature data / Table G1: |
| Minimum Spark Ignition Energies and Quenching Distances / Appendix H: |
| Minimum spark ignition energy data for fuels in air at 1 atm pressure / Table H1: |
| Programs for Combustion Kinetics / Appendix I: |
| Thermochemical parameters |
| Kinetic parameters |
| Transport parameters |
| Reaction mechanisms |
| Thermodynamic equilibrium |
| Temporal kinetics (Static and flow reactors) |
| Stirred reactors |
| Shock tubes |
| Premixed flames |
| Diffusion flames / J: |
| Boundary layer flow / K: |
| Detonations / L: |
| Model analysis and mechanism reduction / M: |
| Author Index |
| Subject Index |
| Prologue |
| Preface |
| Chemical Thermodynamics and Flame Temperatures / Chapter 1: |
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