Causality and intrinsic thermoacoustic instability modes
CTR-Summer Program, 2014•hal.science
Direct numerical simulation of a confined laminar premixed flame has been performed in an
anechoic combustor, showing self-sustained intrinsic thermoacoustic oscillations.
Theoretical predictions based on acoustic jump relations and the n− τ model for the flame
are presented and causality concerns are discussed. The instability's frequency and mode
structure are recovered numerically with very good accuracy. A detailed discussion on the
interplay of the physical phenomena responsible for this dynamical coupling is also carried …
anechoic combustor, showing self-sustained intrinsic thermoacoustic oscillations.
Theoretical predictions based on acoustic jump relations and the n− τ model for the flame
are presented and causality concerns are discussed. The instability's frequency and mode
structure are recovered numerically with very good accuracy. A detailed discussion on the
interplay of the physical phenomena responsible for this dynamical coupling is also carried …
Direct numerical simulation of a confined laminar premixed flame has been performed in an anechoic combustor, showing self-sustained intrinsic thermoacoustic oscillations. Theoretical predictions based on acoustic jump relations and the n − τ model for the flame are presented and causality concerns are discussed. The instability’s frequency and mode structure are recovered numerically with very good accuracy. A detailed discussion on the interplay of the physical phenomena responsible for this dynamical coupling is also carried out.
hal.science
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