The prediction of some pulverized bituminous coal flames in a furnace

A general numerical method for calculating pulverized coal combustion in axisymmetric geometries is utilized, aiming at the optimization of combustion model constants for Greek lignite. The two-equation, "k-~" turbulence model is used for the gas phase, whereas a stochastic approach, based on the la

A computer model was developed to perform three simulations of nitric oxide reduction in the postflame region of a downflow combustor burning Utah bituminous coal at stoichiometric ratios (SR) of 0.8 and 0.4, where SR = 1/~, and ~b is fuel equivalence ratio. Comparisons to experiment are made for al

A model of the ignition of a polydisperse cloud of brown coal particles, in a known gas environment, is presented and used to predict the behavior of the particles in a burner jet of a utility boiler. The model allows for drying, devolatilization, and char combustion of the particles. It is assumed

This work describes an experimental and predicted assessment of the influence of coal particle size on the formation of NO in a large-scale laboratory pulverized coal flame. A detailed archive of quantitative and qualitative data, including an inventory of stable fuel nitrogen species, was taken fro

The initial stages of the devolatilization of three United Kingdom pulverized coals have been studied in a coal-laden turbulent air jet emerging into the combustion gas environment produced by a methane-air flat flame burner. The temperature range provided by these flames was between 1670 and 1870 K