Nitric oxide formation from fuel-nitrogen model compound combustion

A simple heuristic model is proposed to explain the effect of devolatilization on both coal nitrogen conversion and NO formation. The model is cast into three temperature regimes, the intermediate regime II being initiated at Tk 1100 K. Regime II represents pyrolysis of repolymerized volatiles and t

To elucidate the process of 'fuel NO,' formation from cokes and chars on combustion, carbons obtained from urea-resin and melamine-resin were subjected to combustion under a stream of pure oxygen at temperatures between 600°C and 1000°C. The carbons subjected to combustion without any additives prod

A series of experiments with simulated synthetic fuels were conducted in order to investigate the effect of droplet size on the conversion of fuel-nitrogen to NOx. Pyridine and pyrrole were added to n-heptane as nitrogen-containing additives and burned as monodisperse fuel droplets under various ope

The formation of nitrogen oxides from fuel-nitrogen through intermediates was studied by measuring first fuel-O/fuel-N ratios and nitrogen functionality in selected solid fuels. Then the ratios of the yields (fuel-N ---} HCN)/(fueI-N --\* NH 3) in a nearly inert atmosphere at 800°C in an entrained f