Numerical modeling of unsteady flame propagation

A hybrid Eulerian-Lagrangian method is employed to study a laminar unsteady propagating flame through an air/fuel-vapor/fuel-droplet mixture in a one-dimensional closed constant volume combustor. The gas-phase properties are obtained by using a continuum approach, whereas the computation of liquid-p

To ascertain the feasibility of multidimensional flame propagation computations with detailed chemical kinetics, a two-dimensional unsteady laminar H2/air flame in a disk-shaped chamber was calculated numerically. The flame stretching technique originally developed by Butler et al. was applied in or

Calzada, M . and Y . Song, A numerical algorithm for flame advection and propagation, Mathematics and Computers in Simulation 35 (1993) 79-92 . We simulate the flow of a pre-mixed, reactive, incompressible, viscous fluid, using a combination of vortex methods and a flame propagation algorithm based

Recent advances in the mathematical study of unsteady laminar premixed flames have required the imposition of nearly constant flame temperature. This condition disallows investigations into such fundamentally important problems as flame propagation into thermal gradients and regions of varying equiv

A new and efficient numerical method has been developed to calculate time dependent, multidimensional flames. This method adapts the grid in an intelligent or solution dependent fashion so that the physics and chemistry of the flow are properly resolved. The method has the greatest advantages for th