Guy Joulin scite author profile

2014 La théorie récente de Clavin et Williams [1] sur les fronts de flammes prémelangées dans les écoulements inhomogènes et instationnaires est généralisée au cas où l'amplitude de déplacement du front est grande. Les effets convectifs associés à l'expansion du gaz sont pleinement pris en compte dans l'étude de la structure locale du front plissé. On montre qu'un seul scalaire mesurant l'étirement du front contrôle localement la forme et la dynamique de la flamme. Ce scalaire peut se décomposer en deux termes représentant respectivement la contribution de la géométrie de la flamme (courbure du front avançant avec une vitesse normale prescrite) et celle de l'inhomogénéité de l'écoulement caractérisée par le tenseur du taux des déformations.Abstract. 2014 The recent theory of Clavin and Williams [1] concerning the premixed flame fronts in non uniform as well as unsteady flows is extended to the case of large amplitudes of the front corrugation. The convective effects associated with the gas expansion are fully taken into account in the study of the flame structure. Only one scalar « the flame stretch » is shown to control the shape and the motion of the front This stretch can be split in two parts, one accounts for the geometry of the front (mean curvature) and the other for the non uniformity of the flow (rate of strain tensor).

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Point-Source Initiation of Lean Spherical Flames of Light Reactants: An Asymptotic Theory

Joulin

1985

Combustion Science and Technology

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Spherical flame initiation: Theory versus experiments for lean propaneair mixtures

Champion

Deshaies

Joulin

et al. 1986

Combustion and Flame

104

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Guy Joulin

Linear stability analysis of nonadiabatic flames: Diffusional-thermal model

Premixed flames in large scale and high intensity turbulent flow

Point-Source Initiation of Lean Spherical Flames of Light Reactants: An Asymptotic Theory

Spherical flame initiation: Theory versus experiments for lean propaneair mixtures

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