Approximate Analytical Method for Calculating the Time Characteristics of Ignition of a Gas Mixture by a Heated Body

摘要

Analytical expressions for calculating the time characteristics of ignition of gas mixtures by a heated body are obtained for the first time with the help of the wave theory of ignition.It is shown that ignition can occur in three different modes:kinetic (one-temperature),diffuse (two-temperature),and transitional,which combines the properties of both diffusion and kinetic modes.The parametric region of implementation of each possible ignition mode is determined.It is found that the transition from the kinetic to the diffusion mode occurs as the temperature of the heater changes from the kinetic to the diffusion mode occurs as the temrature of the heater changes only by one characteristic interval and is accompanied by a jumplike decrease both in the ignition dlay and in the amount of energy necessary for combustion initiation.A relation is established between the laws of ignition and diffusion combustion of a single particl and parmeters of ignition of the gas mixture of a given sort of particles.It is shown that ther is a minimum in the dependences of the time of establishing of the zero gradient of tau_o on Semenov's criterion.The value of tau_o is found to be minimum if the heater temperture is higher than the temperature of ignition of a single particle by one characgeristic interval.The numerical solution of the initial system of equation confirms the validity of the basic assumptions and results of the approximate analysis.The error in detemrining the time characteristics of ignition with the help of approximate formulas is lower than 50%.For the kinetic mode of ignition,a transformation of the time and space scales is found,such that the time characteristics of ignition in new dimensionless variables become independent of the mass concentration of particles.