2017
DOI: 10.1016/j.proci.2016.08.002
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Acoustic and intrinsic thermoacoustic modes of a premixed combustor

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Cited by 65 publications
(53 citation statements)
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“…(26). The solutions are the forward, f , and backward, g, acoustic waves (Riemann invariants), which travel at speedsc +ū andc −ū, respectively 15 . In addition, there exists an entropy wave, S e , which is convected with the mean flow at speedū, which generates an excess density [211].…”
Section: Helmholtz Equationmentioning
confidence: 99%
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“…(26). The solutions are the forward, f , and backward, g, acoustic waves (Riemann invariants), which travel at speedsc +ū andc −ū, respectively 15 . In addition, there exists an entropy wave, S e , which is convected with the mean flow at speedū, which generates an excess density [211].…”
Section: Helmholtz Equationmentioning
confidence: 99%
“…The assumption of a compact heat source physically signifies that there is no accumulation rate of mass, momentum 15 In other words, the characteristic lines are given by dx/dt =c ±ū 13 Fig. 3: Travelling-wave approach as applied to a longitudinal combustor with upstream (downstream) acoustic reflection coefficient R u (R d ) and entropic reflection coefficient, R e .…”
Section: Helmholtz Equationmentioning
confidence: 99%
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“…2 The characteristically high temperature of pure oxygen combustion can be controlled by recycling either the water vapor or CO 2 from the combustion products to form O 2 /H 2 O or O 2 /CO 2 oxidizer mixtures, respectively. 9 An amplifying pressure oscillation due to thermoacoustic instability can be among the factors leading to flame blowout similar to mixing and chemical time scales, and extinction strain rates. 3 Combustion instability is among the most critical operational challenges encountered in combustion systems of gas turbines, industrial boilers, furnaces, etc.…”
Section: Introductionmentioning
confidence: 99%
“…7,8 Therefore, thermoacoustic instability can occur even in an anechoic medium via flame intrinsic modes. 9 An amplifying pressure oscillation due to thermoacoustic instability can be among the factors leading to flame blowout similar to mixing and chemical time scales, and extinction strain rates. 10 Moreover, acoustic vibrations resulting from thermoacoustic instability are linked to combustors failure as a result of fatigue and reduced combustion efficiency.…”
mentioning
confidence: 99%