Аннотация:
The interaction between radiation and combustion is studied theoretically in the case of strained counterflow nonluminous laminar flames. Both H$_2$–O$_2$ diffusion and C$_3$H$_8$-air premixed flames are considered. Calculations are based on detailed chemical kinetics and narrow-band statistical modeling of infrared radiative properties. It is shown that radiative transfer decreases the temperature level, which affects particularly the production and consumption of minor species and pollutants. For H$_2$–O$_2$ flames, a low strain rate extinction limit due to radiation is found. It is also shown that the commonly used approximation of optically thin medium is inaccurate, even for the small-scale laboratory flames considered here.