On the numerical modeling of buoyancy-dominated turbulent vertical diffusion flames

The velocity-dissipation-composition probability density function (pdf) method is used to model a turbulent CO/H2/N2-air-piloted jet diffusion flame in the regime of extinction. The thermochemistry is modeled by a three-scalar simplified formulation obtained by the intrinsic low-dimensional manifold

A technique for measuring the saturation current was applied to premixed laminar and turbulent methane--oxygennitrogen flames. The burner was taken as the anode and the cathode was an air-cooled spiral of copper tubing matched with the shape of the laminar or turbulent flame front. This geometry of

A mathematical model for the prediction of the turbulent flow, diffusion combustion process, heat transfer including thermal radiation and pollutants formation inside combustion chambers is described. In order to validate the model the results are compared herein against experimental data available