This article proposes a review of the state of knowledge in the field of combustion noise. The survey comprises an initial discussion of indirect and direct noise sources and their general characteristics, a summary of expressions devised to estimate combustion noise from turbulent flames, a discussion of the fundamental equations describing sound emission from a reactive region and an evaluation of scaling methods for combustion noise. An account is provided of a set of experiments on noise radiation from perturbed laminar flames. Sources of intense radiation of sound are identified and theoretical expressions of the pressure field are compared with detailed measurements from well controlled experiments. These experiments indicate that flame dynamics determine to a great extent the radiation of sound from flames. This is further demonstrated with experiments dealing with effects of confinement. Links between combustion noise and combustion instabilities are drawn on this basis. These two aspects are usually treated separately but they are manifestations of similar processes. Much of the current effort in the field of combustion noise focuses on numerical estimation techniques using modern computational tools. The state of the art is less advanced than in computational aeroacoustics (CAA) but it is possible to foresee that computational combustion acoustics (CCA) will progressively evolve into a well established scientific field.
AbugovD.ObrezkovO., 1978. Acoustic noise in turbulent flames. Combustion, Explosions and Shock Waves14, 606–612.
2.
AnderssonN.ErikssonL.-E.DavidsonL., 2005. Large-eddy simulation of subsonic turbulent jets and their radiated sound. AIAA Journal43 (9), 1899–1912.
3.
BaillyC.LafonP.CandelS., 1994. Computation of subsonic and supersonic jet noise using a modified k-epsilon model for compressible free shear flows. Acta Acustica2, 101–112.
4.
BaillyC.LafonP.CandelS., 1996. Prediction of supersonic jet noise from a statistical acoustic model and a compressible turbulence closure. Journal of Sound and Vibration194, 219–242.
5.
BaillyC.LafonP.CandelS., 1997. Subsonic and supersonic jet noise predictions from statistical source models. AIAA Journal35, 1688–1696.
6.
BakeF.MichelU.RöhleI., 2007. Investigation of entropy noise in aeroengine combustion. Journal of Engineering for Gas Turbines and Power129, 370–376.
7.
BalachandranR.AyoolaB.KaminskiC.DowlingA.MastorakosE., 2005. Experimental investigation of the non linear response of turbulent premixed flames to imposed inlet velocity oscillations. Combustion and Flame143 (1-2), 37–55.
8.
BastinF., 1996. Jet noise using large eddy simulation. In: Annual Research Briefs of the Center for Turbulent Research. Stanford University, pp. 115–132.
9.
BecharaW.BaillyC.LafonP.CandelS. M., 1994. Stochastic approach to noise modeling for free turbulent flows. AIAA Journal32 (3), 455–463.
10.
BecharaW.LafonP.BaillyC.CandelS., 1995. Application of a k – ε model to the prediction of noise for simple and coaxial free jets. Journal of the Acoustical Society of America97, 3518–3531.
11.
BelliardA., 1997. Etude expérimentale de l'émission sonore de flammes turbulentes. Ph.D. thesis, Université de Provence, Aix-Marseille I, France.
12.
BirbaudA.-L.DucruixS.DuroxD.CandelS., May 2006. Dynamics of free jets modulated by plane acoustic waves: Part 2. numerical simulations. In: 12th AIAA-CEAS Aeroacoustics Conference. AIAA Paper-2006-2670. Cambridge, MA, USA.
13.
BirbaudA. L.DuroxD.DucruixS.CandelS., 2007. Dynamics of confined premixed flames submitted to upstream acoustic modulations. Proceedings of the Combustion Institute31 (1), 1257–1265.
14.
BogeyC.BaillyC., 2004. A family of low dispersive and low dissipative explicit schemes for flow and noise computations. Journal of Computational Physics194, 194–214.
15.
BogeyC.BaillyC., 2006. Computation of a high Reynolds number jet and its radiated noise using large eddy simulation based on explicit filtering. Computers and Fluids35 (10), 1344–1358.
16.
BogeyC.BaillyC.JuveD., 2002. Computation of flow noise using source terms in linearized Euler's equations. AIAA Journal40 (2), 235–243.
17.
BoineauP., 1997. Modélisation et étude expérimentale des sources acoustiques entropiques en combustion turbulente. Phd thesis, Université de Poitiers.
18.
BraggS., 1963. Combustion noise. Journal of the Institute of Fuel36, 12–16.
19.
BuiT. P.IhmeM.MeinkeM.SchröderW.PitschH., 2007. Numerical investigation of combustion noise and sound source mechanisms in a non-premixed flame using LES and APE-RF. AIAA Paper 2007–3406.
20.
CandelS., 1992. Combustion instabilities coupled by pressure waves and their active control. Proceedings of the Combustion Institute, 24, 1277–1296.
21.
CandelS., 2002. Combustion dynamics and control: progress and challenges. Proceedings of the Combustion Institute29, 1–28.
22.
CandelS.BirbaudA.-L.RichecoeurF.DucruixS.NottinC., 2007. Computational flame dynamics (invited lecture). In: 2nd ECCOMAS Thematic Conference on Computational Combustion. Delft, The Netherlands.
23.
CandelS.DuroxD.SchullerT., 2004. Flame interactions as a source of noise and combustion instabilities. AIAA Paper 2004–2928.
24.
CandelS.HuynhC.PoinsotT., 1996. Unsteady Combustion. Kluwer Academic Publishers, Ch. 5. Some modeling methods of combustion instabilities, pp. 83–112.
25.
MarbleF.CandelS., 1977. Acoustic disturbance from gas non-uniformities convected through a nozzle. Journal of Sound and Vibration55, 225–243.
26.
CandelS.PoinsotT., 1990. Flame stretch and the balance equation for flame surface area. Combustion Science Technology70, 1–15.
ColinO.DucrosF.VeynanteD.PoinsotT., 2000. A thickened flame model for large eddy simulations of turbulent premixed combustion. Physics of Fluids12 (7), 1843–1863.
29.
ColinO.RudgyardM., 2000. Development of high-order Taylor-Galerkin schemes for unsteady calculations. Journal of Computational Physics162 (2), 338–371.
30.
ColoniusT.LeleS.MoinP., 1993. Boundary conditions for direct computation of aerodynamic sound generation. AIAA Journal31 (9), 1574–1582.
31.
CrightonD.DowlingA.Ffwocs WilliamsJ.HecklM.LeppingtonF., 1992. Modern methods in analytical acoustics. Lectures Notes. Springer Verlag, London.
32.
CulickF.YangV., 1995. Progress in astronautics and aeronautics: liquid rocket engine combustion instability. Vol. 169. AIAA, Ch. 1: Overview of combustion instabilities in liquid-propellant rocket engines, pp. 3–37.
33.
DoakP., 1973. Fundamentals of aerodynamics sound theory and flow duct acoustics. Journal of Sound and Vibration28 (3), 527–561.
34.
DoshibaR.HiranoT., 1997. Mechanisms of sound generation from a premixed turbulent flame. Sixteenth ICDERS, Cracow, 432–435.
35.
DowlingA., 1995. The calculation of thermoacoustic oscillations. Journal of Sound and Vibration180 (4), 557–581.
36.
DowlingA.Ffwocs WilliamsJ. E.1983. Sound and sources of sound. Ellis Horwood, Chichester, UK.
DucruixS.SchullerT.DuroxD.CandelS., 2003. Combustion dynamics and instabilities: Elementary coupling and driving mechanisms. Journal of Propulsion and Power19 (5), 722–734.
39.
DuroxD.SchullerT.CandelS., 2002. Self-sustained oscillations of a premixed impinging jet flame on a plate. Proceedings of the Combustion Institute29, 69–75.
40.
DuroxD.SchullerT.CandelS., 2005. Combustion dynamics of inverted conical flames. Proceedings of the Combustion Institute30, 1717–1724.
41.
EcksteinJ.FreitagE.HirschC.SattelmayerT., April 2006. Experimental study on the role of entropy waves in low-frequency oscillations in a RQL combustor. Journal of Engineering for Gas Turbines and Power128, 264–270.
42.
EcksteinJ.SattelmayerT., 2006. Low-order modelling of low-freqeuncy of combustion instabilities in aeroengines. Journal of Propulsion and Power22 (2), 425–432.
43.
FernandesE. C.LeandroR. E., 2006. Modeling and experimental validation of unsteady impinging flames. Combustion and Flame146 (4), 674–686.
44.
FlemmingF.SadikiA.JanickaJ., 2007. Investigation of combustion noise using a LES/CAA hybrid approach. Proceedings of the Combustion Institute31 (2), 3189–3196.
45.
FreundJ., 2001. Noise sources in a low-Reynolds-number turbulent jet at Mach 0.9. Journal of Fluid Mechanics438, 277–305.
46.
GametL.EstivalezesJ., 1998. Application of large-eddy simulations and Kirchhoff method to jet noise prediction. AIAA Journal36 (12), 2170–2178.
47.
GoldsteinM., 1976. Aeroacoustics. Mc Graw Hill, New-York.
48.
HassanH., 1974. Scaling of combustion-generated noise. Journal of Fluid Mechanics49, 445–453.
49.
HedgeU.ReuterD.ZinnB., 1988. Sound generation by ducted flames. AIAA Journal26, 532–537.
50.
HeitorM.TaylorA.WhitelawJ., 1984. Influence of confinement on combustion instabilities of premixed flames stabilized on axisymmetric baffles. Combustion and Flame57, 109–121.
51.
HirschC.WäsleJ.WinklerA.SattelmayerT., 2007. A spectral model for the sound pressure from turbulent premixed combustion. Proceedings of the Combustion Institute31, 1435–1441.
52.
HoweM., 1998. Acoustics of fluid-structure interactions. Cambridge University Press.
53.
HurleI.PriceR.SudgenT.ThomasA., 1968. Sound emission from open turbulent flames. Proceedings of the Royal Society London A303, 409–427.
54.
KatsukiM.MizutaniY.ChikamiM. T. K., 1986. Sound emission from a turbulent flame. Proceedings of the Combustion Institute, 21, 1543–1550.
55.
KaufmannA.NicoudF.PoinsotT., 2002. Flow forcing technique for numerical simulation of combustion instabilities. Combustion and Flame131 (4), 371–385.
56.
KendrickD.ZsakT.ZukoskiE., 1996. Unsteady Combustion. Kluwer Academic Publishers, Ch. 3. An experimental and numerical investigation of premixed combustion in a vortex in a laboratory dump combustor, pp. 33–69.
57.
KidinN.LibrovichV.RobertsJ.VuillermozM., 1984. On sound sources in turbulent combustion. In BowenJ. R. (Eds.), Dynamics of flames and reactive systems, Progress in Astronautics and Aeronautics, AIAA, New York95, 343–355.
58.
KleinS.KokJ., 1999. Sound generation by turbulent premixed flames. Combustion Science and Technology149, 267–295.
59.
KotakeS., 1975. On combustion noise related to chemical reactions. Journal of Sound and Vibration42, 399–410.
60.
KotakeS.TakamotoK., 1990. Combustion noise: Effects of the velocity turbulence of unburned mixture. Journal of Sound and Vibration139 (1), 9–20.
61.
LaverdantA.ThéveninD., 2003. Interaction of a gaussian acoustic wave with a turbulent premixed flame. Combustion and Flame134, 11–19.
62.
LeeD.LieuwenT., 2002. Acoustic nearfield characteristics of a conical pre-mixed flame. Journal of the Acoustical Society of America999, 1–11.
63.
LieuwenT.ChoJ., 2005. Coherent acoustic wave amplification/damping by wrinkled flames. Journal of Sound and Vibration279 (3-5), 669–686.
64.
LieuwenT.YangV. (Eds.), 2005. Combustion Instabilities in Gas Turbine Engines: Operational Experience, Fundamental Mechanisms, and Modeling. Progress in Astronautics and AeronauticsVolume 210, AIAA, Washington.
65.
LighthillM., 1952. On sound generated aerodynamically. Proceedings of the Royal Society London A211, 564–587.
66.
MacQuistenM.DowlingA., 1993. Low-frequency combustion oscillations in a model afterburner. Combustion and Flame94, 253–264.
67.
MahanJ.KarchmerA., 1991. Combustion and core noise, Chapter 9, In Aeroacoustics of Flight Vehicles: Theory and Practice. Volume 1: Noise Sources. Vol. 1. NASA. Langley Research Center, pp. 483–517.
68.
MankbadiR., 1999. Review of computational aeroacoustics in propulsion systems. Journal of Propulsion and Power15 (4), 504–511.
69.
MarbleF.E.CandelS., 1978. An analytical study of the non-steady behavior of large combustors. Proceedings of the Combustion Institute, Pittsburgh, 761–769.
70.
MarksteinG., 1964. Non Steady Flame Propagation. Pergamon Press, Elmsford, New York.
71.
MatalonM.MatkowskyB., 1983. Flames in fluids: their interaction and stability. Combustion Science and Technology34, 295–316.
72.
MorseP., 1986. Theoretical Acoustics. Princeton University Press, Princeton.
NoirayN.DuroxD.SchullerT.CandelS., 2006. Self-induced instabilities of premixed flames in a multiple self-induced instabilities of premixed flames in a multiple injection configuration. Combustion and Flame145, 435–446.
75.
NoirayN.DuroxD.SchullerT.CandelS., 2008. A unified framework for nonlinear combustion instability analysis based on the flame describing function. Journal of Fluid Mechanics, In press.
76.
O'RourkeP.BraccoF., 1979. Two scaling transformations for the numerical computation of multidimensional unsteady laminar flames. Journal of Computional Physics33 (2), 185–203.
77.
OzyörükY.LongL., 1996. Computation of sound radiating from engine inlets. AIAA Journal34 (5), 894–901.
78.
PaschereitC.GutmarkE.WeisensteinW., 2000. Excitation of thermoacoustic instabilities by interaction of acoustics and unstable swirling flow. AIAA Journal38 (6), 1025–1034.
79.
PelcéP.ClavinP., 1982. Influence of hydrodynamics and diffusion upon the stability limits of laminar premixed flames. Journal of Fluid Mechanics124, 219–237.
80.
PhillipsO.M., 1960. On the generation of sound by supersonic turbulent shear layers. Journal of Fluid Mechanics9, 1–28.
81.
PoinsotT.CandelS.TrouvéA., 1996. Applications of direct numerical simulation to premixed turbulent combustion. Progress in Energy and Combustion Science21, 531–576.
82.
PoinsotT.VeynanteD., 2005. Theoretical and Numerical Combustion (2nd Edition). Edwards.
83.
PriceR.HurleI.SudgenT., 1968. Optical studies of the generation of noise in turbulent flames. Twelfth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 1093–1102.
84.
RahierG.PrieurJ.VuillotF.LupuglazoffN.BiancheriniA., 2004. Investigation of integral surface formulation for acoustic post-processing of unsteady aerodynamic jet simulations. Aerospace Science and Technology8, 453–467.
85.
RajaramR.GrayJ.LieuwenT., 2006. Premixed combustion noise scaling: total power and spectra. AIAA paper 2006–2612.
86.
RizzettaD.VisbalM.BlaisdellG., 2003. A time-implicit high-order compact differencing and filtering scheme for large-eddy simulation. International Journal of Numerical Methods for Fluids42, 665–693.
87.
RouxS.LartigueG.PoinsotT.MeierU.BeratC., 2005. Studies of mean and unsteady flow in a swirled combustor using experiments, acoustic analysis, and large eddy simulations. Combustion and Flame141, 40–54.
88.
SchullerT.DuroxD.CandelS., 2002. Dynamics of and noise radiated by a perturbed impinging premixed jet flame. Combustion and Flame128, 88–110.
89.
SchullerT.DuroxD.CandelS., 2003. Self-induced combustion oscillation of flames stabilized on annular burners. Combustion and Flame135, 525–537.
90.
SelleL.BenoitL.PoinsotT.NicoudF.KrebsW., 2006. Joint use of compressible large-eddy simulation and Helmholtz solvers for the analysis of rotating modes in an industrial swirled burner. Combustion and Flame145, 194–205.
91.
SelleL.NicoudF.PoinsotT., 2004. Actual impedance for nonreflecting boundary conditions: Implications for computation of resonators. AIAA Journal42 (5), 958–964.
92.
SerorC.SagautP.BaillyC.JuveD., 2000. Subgrid-scale contribution to noise production in decaying isotropic turbulence. AIAA Journal38 (10), 1795–1803.
93.
ShivashankaraB.StrahleW.HandleyJ., 1975. Evaluation of combustion noise scaling laws by an optical technique. AIAA Journal13, 623–627.
94.
SinghK.ZhangC.GoreJ.MongeauL.FrankelS., 2005. An experimental study of partially premixed flame sound. Proceedings of the Combustion Institute30, 1707–1715.
95.
SmithD.ZukoskiE., 1985. Combustion instability sustained by unsteady vortex combustion. AIAA Paper 85-1248.
96.
SmithT.KilhamJ., 1963. Noise generated by open turbulent flame. Journal of the Acoustical Society of America35, 715–724.
97.
StrahleW., 1971. On combustion generated noise. Journal of Fluid Mechanics49, 399–414.
98.
StrahleW., 1972. Some results in combustion generated noise. Journal of Sound and Vibration23, 113–125.
99.
StrahleW., 1973. Refraction, convection, and diffusion flame effects in combustion-generated noise. Proceedings of the Combustion Institute, Pittsburgh, 527–535.
100.
StrahleW., 1985. A modern theory of combustion noise. Recent Advances in the Aerospace Sciences, 103–114.
101.
TamC.FangJ.KurbatskiiK., 1998. Non-homogeneous radiation and outflow boundary conditions simulating incoming acoustic and vorticity waves for exterior computational aeroacoustics problems. International Journal for Numerical Methods in Fluids26, 1107–1123.
102.
TamC. K. W., Sep 2006. Recent advances in computational aeroacoustics. Fluid Dynamics Research38 (9), 591–615.
103.
TamC. K. W.AuriaultL., Feb 1999. Jet mixing noise from fine-scale turbulence. AIAA Journal37 (2), 145–153.
104.
TamC. K. W.WebbJ. C., 1993. Dispersion-relation-preserving finite difference schemes for computational acoustics. Journal of Computational Physics107 (2), 262–281.
105.
ThibautD.CandelS., 1998. Numerical study of unsteady turbulent premixed combustion: Application to flashback simulation. Combustion and Flame113, 53–65.
106.
ThomasA.WilliamsG., 1966. Flame noise: sound emission from sparkignited bubbles of combustible gas. Proceedings of the Royal Society London A294, 449–466.
107.
TranN.DucruixS.SchullerT., 2007. Analysis and control of combustion instabilities by adaptative reflection coefficients. AIAA Paper 2007-3716.
108.
TruffautJ., 1998. Etude expérimentale de l'origine du bruit émis par les flammes de chalumeaux. Ph.D. thesis, Université de Provence, Aix-Marseille I, France.
109.
TruffautJ.SearbyG.BoyerL., 1998. Sound emission by non-isomolar combustion at low Mach numbers. Combustion Theory and Modelling2, 423–428.
110.
TruffinK.PoinsotT., 2005. Comparison and extension of methods for acoustic identification of burners. Combustion and Flame142 (4), 388–400.
111.
VeynanteD.VervischL., 2002. Turbulent combustion modeling. Progress in Energy and Combustion Science28, 193–266.
112.
WilliamsF.A., 1985. Combustion theory. The Benjamin/Cummings Publishing Company, Inc., California.
113.
YuK.TrouvéA.DailyJ., 1991. Low-frequency pressure oscillations in a model ramjet combustor. Journal of Fluid Mechanics232, 47–72.
114.
ZhaoW.FrankelS.MongeauL., 2001. Large eddy simulations of sound radiation from subsonic turbulent jets. AIAA Journal39, 1469–1477.
