Complex Chemical Reaction Systems

I Kinetics of Large Reaction Systems.- Modeling of Large Reaction Systems.- Modeling Studies of RNA Replication and Viral Infection.- Kinetic Modeling of Autoignition of Higher Hydrocarbons: n-Heptane, n-Octane, and iso-Octane.- Unified Modeling of Acetaldehyde Autoignition.- A Shock Tube Study of High Temperature Reaction Rates for CH3 + CH3.- Modelling of High Temperature Gas-Phase Chemical Reaction Systems Behind Shock Waves.- Modelling Studies of Elementary Chemical Reactions.- II Stability of Reaction Systems.- A Graphical Determination of the Possibility of Multiple Steady States in Complex Isothermal CFSTRs.- Oscillatory Chemical Reactions.- Modeling Micromixing Effects in a Temporal Chemical Dissipative Structure: Bistability of the (ClO2-, I-, H+) Reaction.- Modelling Temperature and Reaction-Rate Oscillations Accompanying Simple Exothermic Decomposition in a Closed Vessel.- The Interpretation of Oscillatory Ignition During Hydrogen Oxidation in an Open System.- Bistability and Oscillations in the Oxidation of Hydrazine.- Multistability, Scaling, and Oscillations.- Syntrophic Cocultures in Nature and in Model Systems.- III Laminar Reactive Flow.- A Structured Approach to the Computational Modeling of Chemical Kinetics and Molecular Transport in Flowing Systems.- On the Use of Adaptive Moving Grid Methods in Combustion Problems.- Simulation of Premixed Flames with Mixed Fuels of Methane and Carbon Monoxide.- Time-Dependent Simulations of Laminar Flames in Hydrogen-Air Mixtures.- Calculated Dependence of Flame Speed and Flame Width on Pressure.- Towards a Quantitatively Consistent Scheme for the Oxidation of Hydrogen, Carbon Monoxide, Formaldehyde and Methane in Flames.- Extinction of Strained Premixed Hydrogen-Air Flames.- Concentration Profiles of Flame Radicals Determined by Laser-Induced Fluorescence.- Extinction Behavior of a Tubular Flame for Small Lewis Numbers.- The Asymptotic Structure of Methane Flames. Part I: Stoichiometric Flames.- A Model for Chemical Reactions in Porous Media.- Computer Model for Tubular High-Pressure Polyethylene Reactors.- Simulation of Diffusion and Chemical Reactions with a Cell-Mixing Stochastic Model.- IV Turbulent Reactive Flow.- Methods of Including Realistic Chemical Reaction Mechanisms in Turbulent Combustion Models.- Modeling of Turbulent CO/Air Diffusion Flames with Detailed Chemistry.- Coherent Flame Modelling of Chemical Reactions in a Turbulent Mixing Layer.- pdf Models for Turbulent Mixing with Application to Autoignition.- Index of Contributors.