An Engineering Approach for Estimating the Formation of Nitric Oxide from Fuel‐Nitrogen

Explicit approximate equations for estimating the conversion factor of fuel‐nitrogen into nitric oxide are presented. They depend on the fuel‐nitrogen mole fraction, the initial nitric oxide mole fraction, and the kinetics‐equilibrium mole fraction of nitric oxide. This last parameter expresses a limiting value of fuel‐nitrogen conversion; it includes the complex nitrogen chemistry and depends thus on combustion conditions. Experimental results demonstrate that the kinetics‐equilibrium mole fraction for fuel‐lean and high‐temperature conditions can be well estimated by the chemical‐equilibrium mole fraction, but for lower temperatures the kinetics‐equilibrium mole fraction has to be described by other correlations. Explicit equations for estimating the conversion factor of fuel‐nitrogen into nitric oxide are presented as approximate solutions to Fenimore's basic model for the formation of nitric oxide from fuel‐nitrogen. The developed equations provide a valuable approach for engineering calculations and could serve as a bridge between combustion science and combustion engineering.