The Mathematical Theory of Combustion and Explosions |
Contents
ignition The oxidation of hydrogen 39 Thermal self | 69 |
The Homogeneous IdeallyMixing Chemical Reactor | 75 |
Laminar Flames | 92 |
Copyright | |
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Common terms and phrases
activation energy active centers adiabatic approximation asymptotic atoms boundary conditions burning bustion calculations chain reaction chemical kinetics chemical reaction chemical reaction zone coefficients combustion products combustion temperature component concentration const constant coordinate corresponds dependence determined detonation diffusion diffusion equation diffusion flame dimensionless effect eigenvalue enthalpy equal equilibrium exothermic Figure flame front flame propagation velocity flame surface flame velocity Frank-Kamenetskii fuel gas fuel mixture function gas flow gases goreniya heat conduction heat flux heat loss heat transfer hydrodynamic hydrogen ignition induction period initial mixture initial temperature instability integral curves kinetic laminar flame limit linear mass flux molecular molecules obtain oxidant oxygen parameter perturbations plameni plane flame pressure problem reaction rate reagent regime region self-ignition solution stability stationary substance temperature distribution theory of thermal thermal conductivity thermal explosions thermodynamic equilibrium tube variables vessel wall wave Zeldovich zero ᎡᎢ