Preview
Unable to display preview. Download preview PDF.
References
Ashurst W.T., Sivashinsky G.I. and Yakhot V. (1988). Flame front propagation in nonsteady hydrodynamic fields. Sandia Rep. SAND88-8891.
Bray K.N.C. (1987). Methods on including realistic chemical reaction mechanisms in turbulent combustion model. 2nd Workshop on modelling of chemical reaction systems, J. Wamatz and W. Jager ed., Springer Verlag, Heidelberg.
Bray K.N.C., Libby P.A. and Moss J.B. (1984). Flamelet crossing frequencies and mean reaction rates in premixed turbulent combustion. Comb. Sci. and Tech. 41, 143–172.
Candel S., Darabiha N. and Esposito E. (1982) Models for a turbulent premixed turbulent combustor. AIAA Paper 82-1261.
Candel S.M., Maistret E., Darabiha N., Poinsot T., Veynante D.and Lacas F. (1988). Experimental and numerical studies of turbulent ducted flames. Proc. of the Marble Symp., Caltech, Pasadena, August 1988.
Carrier G.F., Fendell F.E. and Marble F.E. (1975). The effect of strain rate on diffusion flames. SIAM J. of Appl. Math. 28, 463–500.
Clavin P. and Williams F.A. (1982). Effects of molecular diffusion and thermal expansion on the structure and dynamic of premixed flames in turbulent flows. J. Fluid Mech. 116, 215.
Correa S.M. and Shyvy W. (1987). Computational models and methods for continuous gaseous turbulent combustion. Progr. Energy and Comb. Sci. 13, 249–292.
Darabiha N. (1985). Un modele de flamme cohérente pour la combustion prémélangée. Analyse d'un foyer turbulent à élargissement brusque. These de Docteur Ingenieur, Ecole Centrale de Paris.
Darabiha N., Candel S. and Marble F.E. (1985). The effect of strain rate on a premixed laminar flame. Comb. and Flame 64, 203–217.
Darabiha N., Giovangigli V., Candel S. and Smooke M.D. (1988). Extinction of strained premixed propane-air flames with complex chemistry. Comb. Sci. and Tech.
Darabiha N., Giovangigli V., Trouvé A., Candel S. and Esposito E. (1987). Coherent flame description of turbulent premixed ducted flames. Proc. of the France USA Joint Workshop on Turbulent Combustion, Rouen 1987.
Dupoirieux F., Scherrer D. (1985). Méthodes numériques à convergence rapide utilisées pour le calcul des écoulements rćtifs. Numerical Simulation of Combustion phenomena, Sophia-Antipolis, May 21–24, 1985.
Giovangigli V. (1988). Structure et extinction de flammes laminaires prémélangées. These de Doctorat es Sciences Mathdmatiques. Université Pierre et Marie Curie, Paris 6.
Kuo K.K. (1986). Principles of Combustion. John Wiley, New York.
Lacas F. Zikikout S. and Candel S. (1987). A comparison between calculated experimental mean source terms in non premixed turbulent combustion. AIAA/SAE/ASME/ASEE 23rd Joint Propulsion Conference, AIAA-87-1782, July.
Lacas F., Veynante D. and Candel S.M. (1989). A numerical study of propagating premixed turbulent flames. Numerical Combustion, Antibes, May 23–26,1989.
Libby P.A. and Williams F.A., ed. (1980). Turbulent reacting flows. Springer Verlag, New York
Libby P.A., Sivasegram S. and Whitelaw J.A. (1986). Premixed combustion. Prog. Energy and Comb. Sci. 12, 393–405.
Liew S.K., Bray K.N.C. and Moss J.B. (1981). A flamelet model of turbulent non premixed combustion. Comb. Sci. and Tech. 27, 69–73.
Liu J.T.C. (1988). Coherent mode interaction in developing free shear layers with application to coherent flames. Proc. of the Marble Symposium, Caltech, Pasadena, Aug. 1988
Marble F.E. and Broadwell J.E. (1977). The coherent flame model for turbulent chemical reactions. Project squid headquarters, Chaffee Hall, Purdue Univ. Tech. Rep. TRW.
Marble F.E. and Adamson T.C. (1954). Ignition and combustion in a laminar mixing zone. Jet Propulsion 24,85–94.
Marble F.E. and Broadwell J.E. (1979). A theoretical analysis of nitric oxide production in a methane-air turbulent diffusion flame. EPA Tech. Report.
Peters N. (1984) Laminar diffusion flamelets in non-premixed turbulent combustion. Progr. Energy and Comb. Sci. 10, 319–339.
Peters N. (1986). Laminar flamelet concepts in turbulent combustion. 21st Symp. (Int.) on Combustion, The Combustion Institute.
Peters N., Göttgens J., Klein R. and Clavin P. (1989). Flame surface and burning velocity in premixed turbulent flames. Preprint.
Pope S.B. and Cheng W.K. (1988). The stochastic flamelet model of turbulent combustion. Presented at the 22nd Symp.(Int.) on Combustion, Seattle.
Spalding D.B. (1978). The influence of laminar transport and chemical kinetics on the time mean reaction rate in a turbulent flame. Seventeenth International Symposium on Combustion. The Combustion Institute, Pittsburgh, 431.
Veynante D., Candel S.M. and Martin J.P. (1987). Coherent flame modelling of chemical reaction in a turbulent mixing layer. 2nd Workshop on modelling of chemical reaction systems, J. Warnatz ans W. Jager ed., Springer Verlag, Heidelberg.
Veynante D., Lacas F. and Candel S.M. (1989a). A new flamelet combustion model combining premixed and nonpremixed turbulent flames. AIAA Paper 89-487.
Veynante D., Lacas F. and Candel S.M. (1989b). Numerical simulation of the ignition of a turbulent diffusion flame. Submitted to the 12th ICDERS, U. of Michigan, July 1989
Veynante D., Lacas F., Maistret E. and Candel S.M. (1989c). Coherent flame model in non uniformly premixed turbulent flames. Submitted to 7th Turbulent Shear Flows, Stanford, Aug. 21–23.
Williams F.A. (1975). A review of some theoretical combustions of turbulent flame structure. AGARD Conf. Proc. 164 II l.1.
Williams F.A. (1985). Combustion Theory. Benjamin Cummings, Palo Alto.
Wright F.H. (1959). Bluff body stabilization: blockage effects. Comb. and Flame 3, 319.
Zukoski E.E. and Marble F.E. (1955). The role of wake transition in the process of flame stabilization on bluff bodies. Comb. Researches and Rev. Butterworths, London.
Author information
Authors and Affiliations
Editor information
Rights and permissions
Copyright information
© 1989 Springer-Verlag
About this paper
Cite this paper
Maistret, E. et al. (1989). Recent developments in the coherent flamelet description of turbulent combustion. In: Dervieux, A., Larrouturou, B. (eds) Numerical Combustion. Lecture Notes in Physics, vol 351. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-51968-8_78
Download citation
DOI: https://doi.org/10.1007/3-540-51968-8_78
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-51968-3
Online ISBN: 978-3-540-46866-0
eBook Packages: Springer Book Archive