Modeling in Combustion Science

Some open issues in premixed turbulent combustion.- The scalar-field front propagation equation and its applications.- Effects of local flow field on chemical reactions in thin reaction zone of premixed flames.- Direct numerical simulation of chemically reacting turbulence.- Prediction of NOx emission index of turbulent diffusion flame.- Solitary wave solution of turbulent mixing layer by the method of pseudo-compressibility.- Simplified transport and reduced chemistry models of premixed and nonpremixed combustion.- Preferential diffusion effects in diffusion flames.- Modeling low Reynolds number microgravity combustion problems.- Numerical modeling of graphite combustion using elementary, reduced and semi-global heterogeneous reaction mechanisms.- Atomistic approach on diamond growth from gaseous phases.- Flame propagation in closed vessels.- Pressure-driven disturbances in fluid dynamic interactions with flames.- The nonlinear dynamics of intrinsic acoustic oscillations in combustion-driven systems.- Modeling of combustion of a gaseous sphere using mathematica.- Wavelets as a numerical tool.- Numerical simulation of dynamic interaction of a droplet with a vortex using a CIP-combined unified procedure method.- Gasification and combustion of a moving droplet undergoing continuous phase change in supercritical ambience.- Vapor diffusion flames, their stability, and annular pool fires.- Flames in vortices & tulip-flame inversion.- Flame ignition of premixed methane-air flow.- Combustion waves: Non adiabatic.- Determination of laminar flame speeds from nozzle-generated counterflow flames.- Some topics in reverse smoulder.- Porous medium combustion.- Stability of reacting mixing layers.- Ignition and combustion characteristics in supersonic flow.- Level-set techniques applied to unsteady detonation propagation.