Onset of detonation in regions with nonuniform temperature and concentration distributions

2009

An approach to describing the formation and propagation of small gas-dynamic perturbations in a spatially inhomogeneous self-igniting medium for arbitrary chemical reaction kinetics was developed in a previous paper. In the present paper, the proposed approach is illustrated by studying the problem for a simple reaction with an Arrhenius reaction rate. A comparison of calculation results with the solution of the complete system of gas dynamics equations shows that the approach provides good accuracy of quantitative estimates.

Section: Shock Wave Formation In a Spatially Inhomogeneous Self-ignitmentioning

confidence: 99%

Section: Comparison With the Solution Of The Complete System Of Gas Dmentioning

confidence: 99%

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Parametric study of shock-wave formation in a spatially inhomogeneous self-igniting medium for arrhenius combustion kinetics

2009

“…In most previous theoretical studies, the main method of research was numerical solution of the complete system of Eulerian equations of gas dynamics for a simple one-stage reaction [4,9,10,14] or a combination of asymptotic and numerical methods for the same model of reactive gas dynamics [11][12][13][14].…”

Section: Introductionmentioning

confidence: 99%

“…Soft detonation initiation has been the subject of many experimental [5][6][7] and theoretical [4,[8][9][10][11][12][13][14] studies. In the papers cited, it has been shown that soft detonation initiation is a complex process including several stages [14]: the propagation of a supersonic attenuating combustion front without shock waves, the forma- 1 Kurchatov Institute, Moscow 123182; zaev@8ka.mipt.ru.…”

Section: Introductionmentioning

confidence: 99%

Transport equation for gas-dynamic perturbations in a spatially nonuniform self-igniting medium

2008

An approach is developed to describe the formation and propagation of small gasdynamic perturbations in a spatially nonuniform self-igniting medium for arbitrary chemical-reaction kinetics. An asymptotic equation describing the variation in the amplitude of the gas-dynamic perturbation along the characteristic is derived, and the conditions of its applicability are defined. Zel'dovich's spontaneous flame wave is shown to be a natural zeroth approximation to the solution of the equations of gas dynamics. A method is proposed to determine the point in space at which a shock wave is formed.

Theoretical description of shock-wave formation in a spatially inhomogeneous combustible medium for chain-branching combustion kinetics

2009

For combustion reactions with chain-branching kinetics, the time scales of induction and heat release vary independently and can be significantly different as well as comparable, depending on the initial conditions. A theoretical study was performed to investigate the influence of the heat-release rate and kinetics on the mechanisms and conditions of shock-wave formation in a spatially inhomogeneous combustible medium -the first step of detonation initiation in systems with an induction time gradient. The study used the transport equation method developed by the authors previously.