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Combustion Science and Technology Volume 91, 1993 - Issue 4-6
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Original Articles

The Linearised Response of the Mass Burning Rate of a Premixed Flame to Rapid Pressure Changes

A. C. McINTOSH Dept. of Fuel and Energy, Leeds University, LEEDS, LS2 9JT, U.K.
Pages 329-346 | Received 31 Aug 1992, Accepted 14 Jan 1993, Published online: 26 Apr 2007

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Mathieu Zellhuber, Bruno Schuermans & Wolfgang Polifke. (2014) Impact of acoustic pressure on autoignition and heat release. Combustion Theory and Modelling 18:1, pages 1-31.
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P. Clavin & G. Searby. (2008) Unsteady response of chain-branching premixed-flames to pressure waves. Combustion Theory and Modelling 12:3, pages 545-567.
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O.J. Teerling, A.C. Mcintosh & J. Brindley. (2007) Pressure wave excitation of natural flame frequencies. Combustion Theory and Modelling 11:1, pages 147-164.
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Andy C McIntosh, John Brindley & Xin-She Yang. (2002) Pressure disturbances and strained premixed flames. Combustion Theory and Modelling 6:1, pages 35-51.
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Geraint Thomas, Richard Bambrey & Caren Brown. (2001) Experimental observations of flame acceleration and transition to detonation following shock-flame interaction. Combustion Theory and Modelling 5:4, pages 573-594.
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FERNANDOFACHINI FILHO. (1996) The Effects of the Acoustic Field On Droplet Extinction Processes. Combustion Science and Technology 120:1-6, pages 237-253.
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R. G. JOHNSON, A. C. MclNTOSH, G. A. BATLEY & J. BRINDLEY. (1994) Nonlinear Oscillations of Premixed Flames Caused by Sharp Pressure Changes. Combustion Science and Technology 99:1-3, pages 201-219.
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N. R. EDWARDS, A. C. MclNTOSH & J. BRINDLEY. (1994) The Development of Pressure Induced Instabilities in Premixed Flames. Combustion Science and Technology 99:1-3, pages 179-199.
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G.A. BATLEY, A.C. MCINTOSH & J. BRINDLEY. (1993) The Time Evolution of Interactions Between Ultra Short Length Scale Pressure Distrubances and Premixed Flames.. Combustion Science and Technology 92:4-6, pages 367-388.
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Articles from other publishers (23)

Tim C. Lieuwen. 2021. Unsteady Combustor Physics. Unsteady Combustor Physics 463 510 .
Tim C. Lieuwen. 2021. Unsteady Combustor Physics. Unsteady Combustor Physics 406 462 .
Michael A. LibermanMichael A. Liberman. 2021. Combustion Physics. Combustion Physics 171 192 .
Guillaume Beardsell & Guillaume Blanquart. (2019) Impact of pressure fluctuations on the dynamics of laminar premixed flames. Proceedings of the Combustion Institute 37:2, pages 1895-1902.
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Emilien Courtine, Laurent Selle & Thierry Poinsot. (2015) DNS of Intrinsic ThermoAcoustic modes in laminar premixed flames. Combustion and Flame 162:11, pages 4331-4341.
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Xianfeng Chen, Yin Zhang & Ying Zhang. (2012) Effect of CH4–Air Ratios on Gas Explosion Flame Microstructure and Propagation Behaviors. Energies 5:10, pages 4132-4146.
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Tim C. Lieuwen. 2012. Unsteady Combustor Physics. Unsteady Combustor Physics 364 400 .
Tim C. Lieuwen. 2012. Unsteady Combustor Physics. Unsteady Combustor Physics 317 363 .
Carmen Jiménez, Joël Quinard, José Graña-Otero, Heiko Schmidt & Geoff Searby. (2012) Unsteady response of hydrogen and methane flames to pressure waves. Combustion and Flame 159:5, pages 1894-1908.
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Shreekrishna Shreekrishna, Prabhakar Venkateswaran & Tim Lieuwen. (2011) Comparative Study of Harmonically Forced, High Frequency Premixed Flame Response Mechanisms. Comparative Study of Harmonically Forced, High Frequency Premixed Flame Response Mechanisms.
XUESONG WU & PARVIZ MOIN. (2010) Large-activation-energy theory for premixed combustion under the influence of enthalpy fluctuations. Journal of Fluid Mechanics 655, pages 3-37.
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Shreekrishna Shreekrishna & Tim Lieuwen. (2009) High Frequency Premixed Flame Response to Acoustic Perturbations. High Frequency Premixed Flame Response to Acoustic Perturbations.
Timothy C. Lieuwen & Vigor Yang. 2006. Combustion Instabilities In Gas Turbine Engines. Combustion Instabilities In Gas Turbine Engines 179 212 .
H. Santosh & R. I. Sujith. (2005) Kinematic Coupling Effects on Heat-Release Transfer Function of a Premixed Flame. Journal of Propulsion and Power 21:4, pages 591-599.
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K.R.A.M. Schreel, E.L. van den Tillaart & L.P.H. de Goey. (2005) The influence of burner material properties on the acoustical transfer function of radiant surface burners. Proceedings of the Combustion Institute 30:2, pages 1741-1748.
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Sebastien Ducruix, Thierry Schuller, Daniel Durox & Sebastien Candel. (2003) Combustion Dynamics and Instabilities: Elementary Coupling and Driving Mechanisms. Journal of Propulsion and Power 19:5, pages 722-734.
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K.R.A.M. Schreel, R. Rook & L.P.H. De Goey. (2002) The acoustic response of burner-stabilized premixed flat flames. Proceedings of the Combustion Institute 29:1, pages 115-122.
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Andy C McIntosh, John Brindley & Xin-She Yang. (2001) The effect of large step pressure drops on strained premixed flames. Combustion and Flame 125:3, pages 1207-1216.
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A. C. McIntosh. (1999) Deflagration fronts and compressibility. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 357:1764, pages 3523-3538.
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A. C. Mclntosh. (1995) Influence of pressure waves on the initial development of an explosion kernel. AIAA Journal 33:9, pages 1651-1658.
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A. C. McIntosh. 1995. Modeling in Combustion Science. Modeling in Combustion Science 176 192 .
J.S. Kim & F.A. Williams. (1994) Contribution of strained diffusion flames to acoustic pressure response. Combustion and Flame 98:3, pages 279-299.
Crossref
A. McIntosh. (1994) The influence of pressure waves in the early stages of explosions. The influence of pressure waves in the early stages of explosions.

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