Global hydrodynamic instability and blowoff dynamics of a bluff-body stabilized lean-premixed flame

We experimentally study the hydrodynamic instability of a lean-premixed flame stabilized behind a circular cylinder. On reducing the equivalence ratio ( phi) at a fixed Reynolds number (Re-D), we find that the flame transitions from a steady mode to a varicose mode and then to a sinuous mode. By examining time-resolved CH* chemiluminescence images and analyzing how the Strouhal number scales with Re-D, we determine that the varicose mode is convectively unstable, maintained by the amplification of disturbances in the turbulent base flow, whereas the sinuous mode is globally unstable as a result of the constructive interaction between the two diametrically opposite shear layers (Benard-von Karman instability). We attribute the emergence of the sinuous global mode to the flame moving sufficiently far downstream with decreasing phi that it is out of the wavemaker region. Finally, we investigate the lean blowoff dynamics and find that local flame pinch-off, which occurs at the end of the recirculation zone, is a reliable precursor of global flame blowoff.

Automated summary

This experimental study investigates the hydrodynamic instability of a lean-premixed flame behind a circular cylinder, discovering transitions between different flame modes and the mechanisms behind them. Additionally, the dynamics of lean blowoff are examined, leading to the identification of a reliable precursor to global flame blowoff.