Changrong Cui scite author profile

Based on a hydrodynamic length, which is typically larger than the nominal flame thickness, a premixed flame can be viewed as a surface of density discontinuity, advected and distorted by the flow. The velocities and the pressure suffer abrupt changes across the flame front that consist of Rankine–Hugoniot jump conditions, to leading order, with corrections of the order of the flame thickness that account for transverse fluxes and accumulation. To complete the formulation, expressions for the flame temperature and propagation speed, which vary along the flame as a result of local non-uniformities in the flow field and of flame front curvature, are derived. Unlike previous studies that assumed a mixture consisting of a single deficient reactant, the present study uses a two-reactant scheme and thus considers mixtures whose compositions vary from lean to rich conditions. Furthermore, non-unity and general reaction orders are considered in an attempt to mimic a wider range of reaction mechanisms and, to better represent actual experimental conditions, all transport coefficients are allowed to depend arbitrarily on temperature. The present model, expressed in a coordinate-free form, is valid for flames of arbitrary shape propagating in general fluid flows, either laminar or turbulent.

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Effects of differential diffusion on thin and thick flames propagating in channels

Cui

Matalon

Daou

et al. 2004

Combustion Theory and Modelling

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The role of radiative losses in self-extinguishing and self-wrinkling flames

Bechtold

Cui

Matalon

2005

Proceedings of the Combustion Institute

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Pulsating Mode of Flame Propagation in Two-Dimensional Channels

2005

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Changrong Cui

Hydrodynamic theory of premixed flames: effects of stoichiometry, variable transport coefficients and arbitrary reaction orders

Effects of differential diffusion on thin and thick flames propagating in channels

The role of radiative losses in self-extinguishing and self-wrinkling flames

Pulsating Mode of Flame Propagation in Two-Dimensional Channels

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