kw.\*:("Nombre Markstein")
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Approximations for burning velocities and Markstein numbers for lean hydrocarbon and methanol flamesMÜLLER, U. C; BOLLIG, M; PETERS, N et al.Combustion and flame. 1997, Vol 108, Num 3, pp 349-356, issn 0010-2180Article
Direct and indirect measurements of Markstein numbers of premixed flamesSEARBY, G; QUINARD, J.Combustion and flame. 1990, Vol 82, Num 3-4, pp 298-311, issn 0010-2180, 14 p.Article
Some issues of using Markstein number for modeling premixed turbulent combustionLIPATNIKOV, A. N.Combustion science and technology. 1996, Vol 119, Num 1-6, pp 131-154, issn 0010-2202Article
A study of the effects of diluents on near-limit H2-air flames in microgravity at normal and reduced pressuresQIAO, L; GU, Y; DAHM, W. J. A et al.Combustion and flame. 2007, Vol 151, Num 1-2, pp 196-208, issn 0010-2180, 13 p.Article
Premixed flamelet modelling : Factors influencing the turbulent heat release rate source term and the turbulent burning velocityBRADLEY, D; GASKELL, P. H; GU, X. J et al.Combustion and flame. 2005, Vol 143, Num 3, pp 227-245, issn 0010-2180, 19 p.Article
The velocity of a premixed flame as a function of the flame stretch: an experimental studyDESHAIES, B; CAMBRAY, P.Combustion and flame. 1990, Vol 82, Num 3-4, pp 361-375, issn 0010-2180, 15 p.Article
Turbulent burning rates of methane and methane-hydrogen mixturesFAIRWEATHER, M; ORMSBY, M. P; SHEPPARD, C. G. W et al.Combustion and flame. 2009, Vol 156, Num 4, pp 780-790, issn 0010-2180, 11 p.Article
Experimental Study on Combustion Characteristics of N2-Diluted Diethyl Ether—Air MixturesNI ZHANG; YAGE DI; ZUOHUA HUANG et al.Energy & fuels. 2009, Vol 23, Num 6, pp 5798-5805, issn 0887-0624, 8 p.Article
Experimental study of Markstein number effects on laminar flamelet velocity in turbulent premixed flamesWEISS, M; ZARZALIS, N; SUNTZ, R et al.Combustion and flame. 2008, Vol 154, Num 4, pp 671-691, issn 0010-2180, 21 p.Article
Saffman-Taylor influence on flame propagation in thermoacoustically excited flowALDREDGE, R. C.Combustion science and technology. 2005, Vol 177, Num 1, pp 53-73, issn 0010-2202, 21 p.Article
Suppression effects of diluents on laminar premixed hydrogen/oxygen/nitrogen flamesQIAO, L; KIM, C. H; FAETH, G. M et al.Combustion and flame. 2005, Vol 143, Num 1-2, pp 79-96, issn 0010-2180, 18 p.Article
Methane-air markstein numbers from measurements of thermoacoustic instabilityALDREDGE, R. C.Combustion science and technology. 2005, Vol 177, Num 5-6, pp 1023-1047, issn 0010-2202, 25 p.Conference Paper
Laminar flame velocity determination for H2-air-He-CO2 mixtures using the spherical bomb methodLAMOUREUX, N; DJEBAÏLI-CHAUMEIX, N; PAILLARD, C.-E et al.Experimental thermal and fluid science. 2003, Vol 27, Num 4, pp 385-393, issn 0894-1777, 9 p.Conference Paper
Flammability limits and laminar flame speed of hydrogen—air mixtures at sub-atmospheric pressures : Hydrogen safetyKUZNETSOV, M; KOBELT, S; GRUNE, J et al.International journal of hydrogen energy. 2012, Vol 37, Num 22, pp 17580-17588, issn 0360-3199, 9 p.Article
Measurements of laminar burning velocities and flame stability analysis for dissociated methanol―air―diluent mixtures at elevated temperatures and pressuresXUAN ZHANG; ZUOHUA HUANG; ZHIYUAN ZHANG et al.International journal of hydrogen energy. 2009, Vol 34, Num 11, pp 4862-4875, issn 0360-3199, 14 p.Article
Measurement of laminar burning velocity of dimethyl ether-air premixed mixturesZUOHUA HUANG; QIAN WANG; JINRONG YU et al.Fuel (Guildford). 2007, Vol 86, Num 15, pp 2360-2366, issn 0016-2361, 7 p.Article
Application of the Markstein number concept to curved turbulent flamesLIPATNIKOV, A. N; CHOMIAK, J.Combustion science and technology. 2004, Vol 176, Num 3, pp 331-358, issn 0010-2202, 28 p.Article
Determination of Markstein numbers in counterflow premixed flamesDAVIS, S. G; QUINARD, J; SEARBY, G et al.Combustion and flame. 2002, Vol 130, Num 1-2, pp 112-122, issn 0010-2180Article
Laminar burning velocities and Markstein numbers of syngas-air mixturesMONTEIRO, Eliseu; BELLENOUE, Marc; SOTTON, Julien et al.Fuel (Guildford). 2010, Vol 89, Num 8, pp 1985-1991, issn 0016-2361, 7 p.Article
Measurement of laminar burning speeds and Markstein lengths using a novel methodologyTAHTOUH, Toni; HALTER, Fabien; MOUNAÏM-ROUSSELLE, Christine et al.Combustion and flame. 2009, Vol 156, Num 9, pp 1735-1743, issn 0010-2180, 9 p.Article
Measurements of Markstein numbers and laminar burning velocities for liquefied petroleum gas-air mixturesLIAO, S. Y; JIANG, D. M; GAO, J et al.Fuel (Guildford). 2004, Vol 83, Num 10, pp 1281-1288, issn 0016-2361, 8 p.Article
Measurements of Markstein numbers and laminar burning velocities for natural gas-air mixturesLIAO, S. Y; JIANG, D. M; GAO, J et al.Energy & fuels. 2004, Vol 18, Num 2, pp 316-326, issn 0887-0624, 11 p.Article
Generation of PDFS for flame curvature and for flame stretch rate in premixed turbulent combustionBRADLEY, D; GASKELL, P. H; SEDAGHAT, A et al.Combustion and flame. 2003, Vol 135, Num 4, pp 503-523, issn 0010-2180, 21 p.Article
Flame/stretch interactions in laminar and turbulent premixed flamesAUNG, K. T; HASSAN, M. I; KWON, S et al.Combustion science and technology. 2002, Vol 174, Num 1, pp 61-99, issn 0010-2202Conference Paper
The development and structure of flame instabilities and cellularity at low Markstein numbers in explosionsBRADLEY, D; SHEPPARD, C. G. W; WOOLLEY, R et al.Combustion and flame. 2000, Vol 122, Num 1-2, pp 195-209, issn 0010-2180Article