kw.\*:("Llama laminar")
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Numerical Modeling of Laminar Flames with Detailed Kinetics Based on the Operator-Splitting MethodCUOCI, Alberto; FRASSOLDATI, Alessio; FARAVELLI, Tiziano et al.Energy & fuels. 2013, Vol 27, Num NOVDEC, pp 7730-7753, issn 0887-0624, 24 p.Conference Paper
Methane combustion in laminar diffusion flamesABAM, D. P. S.Proceedings of the Institution of Mechanical Engineers. Part A. Power and process engineering. 1989, Vol 203, Num 1, pp 65-72, issn 0263-7138, 8 p.Article
Laminar burning velocities of stoichiometric mixtures of methane with propane and ethane additivesHILL, P. G; HUNG, J.Combustion science and technology. 1988, Vol 60, Num 1-3, pp 7-30, issn 0010-2202Article
The effect of a perforated plate on the propagation of laminar hydrogen flames in a channel - A numerical studyWANG, C. J; WEN, J. X.International journal of hydrogen energy. 2014, Vol 39, Num 36, pp 21335-21342, issn 0360-3199, 8 p.Article
Application of Newton-Krylov-Schwarz algorithm to low-mach-number compressible combustionMCHUGH, P. R; KNOLL, D. A; KEYES, D. E et al.AIAA journal. 1998, Vol 36, Num 2, pp 290-292, issn 0001-1452Article
Dynamic modeling of soot particle coagulation and aggregation : Implementation with the method of moments and application to high-pressure laminar premixed flamesKAZAKOV, A; FRENKLACH, M.Combustion and flame. 1998, Vol 114, Num 3-4, pp 484-501, issn 0010-2180Article
The measurement of laminar burning velocities and Markstein numbers for iso-octane-air and iso-octane-n-heptane-air mixtures at elevated temperatures and pressures in an explosion bombBRADLEY, D; HICKS, R. A; LAWES, M et al.Combustion and flame. 1998, Vol 115, Num 1-2, pp 126-144, issn 0010-2180Article
Effects of gas-band radiation on soot kinetics in laminar methane/air diffusion flamesSIVATHANU, YU. R; GORE, J. P.Combustion and flame. 1997, Vol 110, Num 1-2, pp 256-263, issn 0010-2180Article
Stabilization of lifted tribrachial flames in a laminar nonpremixed jetLEE, B. J; CHUNG, S. H.Combustion and flame. 1997, Vol 109, Num 1-2, pp 163-172, issn 0010-2180Article
Preferential diffusion effects on the temperature in usual and inverse diffusion flamesTAKAGI, T; XU, Z; KOMIYAMA, M et al.Combustion and flame. 1996, Vol 106, Num 3, pp 252-260, issn 0010-2180Article
Laser-induced fluorescence measurements of nitric oxide in laminar C2H6/O2/N2 flames at high pressureREISEL, J. R; CARTER, C. D; LAURENDEAU, N. M et al.Combustion and flame. 1993, Vol 92, Num 4, pp 485-489, issn 0010-2180Article
Location of the Schlieren image in premixed flames : Axially symmetrical refractive index fieldsDUNN-RANKIN, D; WEINBERG, F.Combustion and flame. 1998, Vol 113, Num 3, pp 303-311, issn 0010-2180Article
On the relative contribution of acetylene and aromatics to soot particle surface growthKAZAKOV, A; FRENKLACH, M.Combustion and flame. 1998, Vol 112, Num 1-2, pp 270-274, issn 0010-2180Article
Time resolved velocity and turbulence measurements in turbulent gaseous explosionsLINDSTEDT, R. P; SAKTHITHARAN, V.Combustion and flame. 1998, Vol 114, Num 3-4, pp 469-483, issn 0010-2180Article
A theory of deflagration-to-detonation transition in unconfined flamesKHOKHLOV, A. M; ORAN, E. S; WHEELER, J. C et al.Combustion and flame. 1997, Vol 108, Num 4, pp 503-517, issn 0010-2180Article
NO production and destruction in a methane/air diffusion flameSMYTH, K. C.Combustion science and technology. 1996, Vol 115, Num 1-3, pp 151-176, issn 0010-2202Article
A model for soot formation in a laminar diffusion flameKENNEDY, I. M; KOLLMANN, W; CHEN, J.-Y et al.Combustion and flame. 1990, Vol 81, Num 1, pp 73-85, issn 0010-2180, 13 p.Article
A continuous flow, gaseous formaldehyde generation system for combustion studiesMOHAMMED SADEQI; BRANCH, M. C.Combustion and flame. 1988, Vol 71, Num 3, pp 325-329, issn 0010-2180Article
Observations on the soot formation mechanism in laminar ethylene-air diffusion flames at one and two atmospheresFLOWER, W. L; BOWMAN, C. T.Combustion science and technology. 1987, Vol 53, Num 2-3, pp 217-224, issn 0010-2202Article
Three-dimensional flame development in a closed vessel. II: Comparisons between measured and theoretical resultsTANAKA, Y.Bulletin of the JSME. 1986, Vol 29, Num 258, pp 4263-4269, issn 0021-3764Article
Schmidt number effects on laminar jet diffusion flame liftoffCHEN, Ruey-Hung; KOTHAWALA, Anupam; CHAOS, Marcos et al.Combustion and flame. 2005, Vol 141, Num 4, pp 469-472, issn 0010-2180, 4 p.Article
Net rate analysis method for assessment and improvement of flame modelsSHANDROSS, R. A; LONGWELL, J. P; HOWARD, J. B et al.Combustion and flame. 1998, Vol 112, Num 3, pp 371-386, issn 0010-2180Article
Soot formation in laminar premixed methane/oxygen flames at atmospheric pressureXU, F; LIN, K.-C; FAETH, G. M et al.Combustion and flame. 1998, Vol 115, Num 1-2, pp 195-209, issn 0010-2180Article
Soot microstructure in steady and flickering laminar methane/air diffusion flamesZHANG, J; MEGARIDIS, C. M.Combustion and flame. 1998, Vol 112, Num 4, pp 473-484, issn 0010-2180Article
Analysis of laminar acetylene-air diffusion flames using reduced reaction mechanisms and state relationshipsZHANG, Z; EZEKOYE, O. A.Combustion science and technology. 1996, Vol 112, pp 231-255, issn 0010-2202Article
