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Evaluation of limits for effective flame acceleration in hydrogen mixtures
Authors:S. B. Dorofeev   M. S. Kuznetsov   V. I. Alekseev   A. A. Efimenko  W. Breitung
Affiliation:

a Russian Research Center, Kurchatov Institute, Kurchatov Square 1, 123182 Moscow, Russia

b Forschungszentrum Karlsruhe, PO Box 3640, D-76021 Karlsruhe, Germany

Abstract:Results of experiments and data analysis on turbulent flame propagation in obstructed channels are presented. The data cover a wide range of mixtures: H2/air, H2/air/steam (from lean to rich) at normal and elevated initial temperatures (from 298 to 650 K) and pressures (from 1 to 3 bar); and stoichiometric H2/O2 mixtures diluted with N2, Ar, He and CO2 at normal initial conditions. The dataset chosen also covers a wide range of scales exceeding two orders of magnitude. It is shown that basic flame parameters, such as mixture expansion ratio σ, Zeldovich number β and Lewis number Le, can be used to estimate a priori a potential for effective flame acceleration for a given mixture. Critical conditions for effective flame acceleration are suggested in the form of correlations of critical expansion ratio σ* versus dimensionless effective activation energy. On this basis, limits for effective flame acceleration for hydrogen combustibles can be estimated. Uncertainties in determination of critical σ* values are discussed.
Keywords:Turbulent flames   Flame acceleration   Explosion   Scaling
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