Smart Passive Control of Thermoacoustic Instability in a Bluff-Body Stabilized Combustor: A Lagrangian Analysis of Critical Structures

Abstract: The tonal sound production during thermoacoustic instability is detrimental to the components of gas turbine and rocket engines. Identifying the root cause and controlling this oscillatory instability would enable manufacturers to save in costs of power outages and maintenance. An optimal method is to identify the structures in the flow-field that are critical to tonal sound production and perform control measures to disrupt those “critical structures”. Passive control experiments were performed by injecting a… Show more

“…Many passive control strategies are based on suppressing the visible large-scale patterns, such as large-scale coherent structures and standing waves that characterise thermoacoustic instability. [15][16][17] However, such large-scale patterns may appear well after the transition to thermoacoustic instability has occurred.…”

Inhibiting the onset of thermoacoustic instability through targeted control of critical regions

“…Many passive control strategies are based on suppressing the visible large-scale patterns, such as large-scale coherent structures and standing waves that characterise thermoacoustic instability. [15][16][17] However, such large-scale patterns may appear well after the transition to thermoacoustic instability has occurred.…”

Inhibiting the onset of thermoacoustic instability through targeted control of critical regions