Appendixes
The data presented in these appendixes are provided as a convenience to assist in solving some of the problems in the text, to meet preliminary research needs, to make rapid estimates in evaluating physical concepts, and to serve as a reference volume for the combustion community. Data in certain areas are constantly changing and thus those presented are subject to change. Although judgment was used in selecting the data and the most reliable and recent values available were chosen, it is important to note further that those presented are not the result of an extensive, critical survey. The reader is cautioned to use the material with care and to seek out original sources when a given datum value is crucial to a research result.
Contents
A. Thermochemical Data and Conversion Factors
Table 1. Conversion Factors and Physical Constants
Table 2. Thermochemical Data for Selected Species
Table 3. Thermochemical Data for Species Included in Reaction List of Appendix C
B. Adiabatic Flame Temperatures of Hydrocarbons
Table 1. Adiabatic Flame Temperatures
C. Specific Reaction Rate Constants
Table 1. H2/O2 Mechanism
Table 2. CO/H2/O2 Mechanism
Table 3. CH2O/CO/H2/O2 Mechanism
Table 4. CH3OH/CH2O/CO/H2/O2 Mechanism
Table 5. CH4/CH3OH/CH2O/CO/H2/O2 Mechanism
Table 6. C2H6/CH4/CH3OH/CH2O/CO/H2/O2 Mechanism
Table 7. Selected Reactions of a C3H8 Oxidation Mechanism
Table 8. NxOy/CO/H2/O2 Mechanism
Table 9. HCl/NxOy/CO/H2/O2 Mechanism
Table 10. O3/NxOy/CO/H2/O2 Mechanism
Table 11. SOx/NxOy/CO/H2/O2 Mechanism
D. Bond Dissociation Energies of Hydrocarbons
Table 1. Bond Dissociation Energies of Alkanes
Table 2. Bond Dissociation Energies of Alkenes, Alkynes, and Aromatics
Table 3. Bond Dissociation Energies of C/H/O Compounds
Table 4. Bond Dissociation Energies of Sulfur-Containing Compounds
Table 5. Bond Dissociation Energies of Nitrogen-Containing Compounds
Table 6. Bond Dissociation of Halocarbons
E. Flammability Limits in Air
Table 1. Flammability Limits of Fuel Gases and Vapors in Air at 25 °C and 1 atm
F. Laminar Flame Speeds
Table 1. Burning Velocities of Various Fuels at 25 °C Air-fuel Temperature (0.31 mol-%H2O in air). Burning Velocity S as a Function of Equivalence Ratio ϕ in Centimeters Per Second
Table 2. Burning Velocities of Various Fuels at 100 °C Air-fuel Temperature (0.31 mol-%H2O in air). Burning Velocity S as a Function of Equivalence Ratio ϕ in Centimeters Per Second
Table 3. Burning Velocities of Various Fuels in Air as a Function of Pressure for an Equivalence Ratio of 1 in Centimeters Per Second
G. Spontaneous Ignition Temperature Data
Table 1. Spontaneous Ignition Temperature Data
H. Minimum Spark Ignition Energies and Quenching Distances
Table 1. Minimum Spark Ignition Energy Data for Fuels in Air at 1 atm Pressure
I. Programs for Combustion Kinetics
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