Yue Weng scite author profile

We present a phenomenological reduced-order model to capture the transition to thermoacoustic instability in turbulent combustors. Based on the synchronization framework, the model considers the acoustic field and the unsteady heat release rate from turbulent reactive flow as two nonlinearly coupled sub-systems. To model combustion noise, we use a pair of nonlinearly coupled second-order ODEs to represent the unsteady heat release rate. This simple configuration, while nonlinearly coupled to another oscillator that represents the independent sub-system of acoustics (pressure oscillations) in the combustor, is able to produce chaos. Previous experimental studies have reported a route from low amplitude chaotic oscillation (i.e., combustion noise) to periodic oscillation through intermittency in turbulent combustors. By varying the coupling strength, the model can replicate the route of transition observed and reflect the coupled dynamics arising from the interplay of unsteady heat release rate and pressure oscillations.

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Regime and morphology of polyhedral bunsen flames

Weng¹,

Potnis²,

Saha³

2023

Combustion and Flame

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Local statistics in a premixed turbulent Bunsen flame

Weng

Potnis

Unni

et al. 2023

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Yue Weng

Synchronization framework for modeling transition to thermoacoustic instability in laminar combustors

Synchronization-based model for turbulent thermoacoustic systems

Regime and morphology of polyhedral bunsen flames

Local statistics in a premixed turbulent Bunsen flame

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