Influence of strain on flame propagation in laminar flow

The structure of a strained premixed laminar flame is examined. The flame is formed in the vicinity of a stagnation point established by the counterflow of fresh mixture and hot combustion products. This ideal configuration analyzed by Libby and Williams [18] with activation energy asymptotics is he

Flame propagation through an array of vortices was studied with a model which incorporated the variation of the local burning velocity with stretch. Assuming incompressible flow, the mean burning velocities were calculated and compared to those of the Huygens limit. It was found that stretch causes

Using a glass tube into which a combustible mixture is tangentially injected from one end, the phenomenon of flame propagation in a rotating flow field has been experimentally investigated. The regions for the flame propagation are mapped as functions of the fuel concentration and the flow velocity,

The structure and propagation of a steady, one-dimensional planar, low-speed flame in a dilute, monodisperse, near-stoichiometric spray, with bulk gas-phase burning, upstream droplet vaporization and downstream droplet vaporization/combustion, are studied through the classification of burning struct

The classic flame problem has been treated as a boundary-value problem using powerful new techniques for difficult multi-variable equa'.ions. Efficient solution methods and general computer programs for arbitrary chemical species ant' reactions have b~en developed. Although .,~ap,~ed transport equat