Rémi Daou scite author profile

The spectrum of linear modes governing the multidimensional instabilities of gaseous detonations is revisited by combining a numerical analysis with new analytical results. In view of recent develop`ments in nonlinear analyses for describing the cellular structure of weakly unstable detonation fronts, particular attention is paid to the neighbourhood of the instability threshold. A first objective is to check the validity domain of the analytical results and to investigate to what extent they are useful when approaching the self-sustained regime (Chapman–Jouguet conditions). A second objective is to study how the multidimensional instabilities are influenced by multiple-step chemistry. The roles of the induction period and of the stiffness of the exothermic runaway will be investigated separately.

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Effect of heat-loss on flame-edges in a premixed counterflow

Daou¹,

Daou

Dold

2003

Combustion Theory & Modelling

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Effect of volumetric heat loss on triple-flame propagation

Daou

Dold

2002

Proceedings of the Combustion Institute

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Rémi Daou

The effect of heat loss on flame edges in a non-premixed counterflow within a thermo-diffusive model

Instability threshold of gaseous detonations

Effect of heat-loss on flame-edges in a premixed counterflow

Effect of volumetric heat loss on triple-flame propagation

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