Heat release effects on the instability of parallel shear layers

The influence of time-dependent heat addition on the linear instability of shear layers is of considerable interest in understanding the dynamic behavior of reacting flows and combustion-turbulence interactions. It is shown in this paper that by adopting a kinematic definition of acoustic waves it is readily apparent that heat release rate oscillations serve as a source of sound and have no direct effect on the shear layer instability characteristics when acoustic waves are negligible.