Hydrodynamic theory of flame propagation in an enclosed volume

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 present paper serves three purposes: (1) To introduce a relatzvely new network computer design that is capable o I solving a set o] twenty algebraic equations expressed by the dimensionless relation ri:~-J+ L h'-t ~ohere ~j and d~. are constants depending on the nature o] the problem, and 9 may

Edge flames were investigated in a methane/O 2 /N 2 counterflow diffusion flame burner. In a typical experiment, a stable counterflow diffusion flame in an axysymmetric configuration was perturbed by lowering the relevant Damko ¨hler number slightly below the extinction value, Da ext . As a result,

## Abstract The existence of a weak solution of a two‐dimensional non‐stationary free‐boundary problem related to flame propagation is established. The main feature of the problem is that the nonlinear coupling of the two parabolic equations occur on the free boundary and has exponential growth.