kw.\*:("Llama difusión")
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Insights on the nanoparticle formation process in counterflow diffusion flamesSEUNG HYUN CHUNG; VIOLI, Angela.Carbon (New York, NY). 2007, Vol 45, Num 12, pp 2400-2410, issn 0008-6223, 11 p.Article
Comprehensive characterization of a sooting laminar methane-diffusion flame using different laser techniquesSEEGER, Thomas; EGERMANN, Jan; DANKERS, Stefan et al.Chemical engineering & technology. 2004, Vol 27, Num 11, pp 1150-1156, issn 0930-7516, 7 p.Article
Auto- and Forced-Ignition Temperatures of Diffusion Flames Obtained through the Steady RANS ModelingWANG, F; LI, P; MEI, Z et al.Energy & fuels. 2014, Vol 28, Num 1-2, pp 666-677, issn 0887-0624, 12 p.Article
Characterization of TiO2 Particles Synthesized in Diffusion Flame ReactorSUNSAP, Piyabutr; KIM, Dong-Joo; KIM, Kyo-Seon et al.Industrial & engineering chemistry research. 2008, Vol 47, Num 7, pp 2308-2313, issn 0888-5885, 6 p.Article
Self-similar diffusion flameMAHALINGAM, S; FERZIGER, J. H; CANTWELL, B. J et al.Combustion and flame. 1990, Vol 82, Num 2, pp 231-234, issn 0010-2180, 4 p.Article
A species stream function with reactionESSENHIGH, R. H.Combustion and flame. 1986, Vol 65, Num 2, pp 241-242, issn 0010-2180Article
Definition of molecule trajectories in diffusion flames by species stream functionsESSENHIGH, R. H; KUANG-TSAI WU.Combustion and flame. 1986, Vol 65, Num 2, pp 227-239, issn 0010-2180Article
Experimental Study on the Characteristics of Impinging Reaction Region with OH* Chemiluminescence in Opposed Impinging Diffusion FlamesTING ZHANG; GUANGSUO YU; QINGHUA GUO et al.Energy & fuels. 2013, Vol 27, Num NOVDEC, pp 7023-7030, issn 0887-0624, 8 p.Conference Paper
The effects of hydrogen addition on the stability limits of methane jet diffusion flamesKARBASI, M; WIERZBA, S. I.International journal of hydrogen energy. 1998, Vol 23, Num 2, pp 123-129, issn 0360-3199Article
Heat release rate in diffusion flamesTEWARSON, A.Thermochimica acta. 1996, Vol 278, pp 19-38, issn 0040-6031, 19 p.Article
Extinction and stabilization of a diffusion flame on a flat combustible surface with emphasis on thermal controlling mechanismsKODAMA, H; MIYASAKA, K; FERNANDEZ-PELLO, A. C et al.Combustion science and technology. 1987, Vol 54, Num 1-6, pp 37-50, issn 0010-2202Article
Soot formation in methane/air nonpremixed flames doped with small quantities of C3 hydrocarbonsMCENALLY, C. S; PFEFFERLE, L. D.Combustion and flame. 1998, Vol 112, Num 4, pp 545-558, issn 0010-2180Article
Soot volume fraction maps for normal and reduced gravity laminar acetylene jet diffusion flamesGREENBERG, P. S; KU, J. C.Combustion and flame. 1997, Vol 108, Num 1-2, pp 227-230, issn 0010-2180Article
Theory of structures of hydrogen-air diffusion flamesSANCHEZ, A. L; LINAN, A; WILLIAMS, F. A et al.Combustion science and technology. 1995, Vol 110/11, pp 277-302, issn 0010-2202, 25 p.Article
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
Physical and Chemical Effects of CO2 and H2O Additives on Counterflow Diffusion Flame Burning MethaneLIN WANG; ZHAOHUI LIU; SHENG CHEN et al.Energy & fuels. 2013, Vol 27, Num NOVDEC, pp 7602-7611, issn 0887-0624, 10 p.Conference Paper
A two-equation turbulence model and its application to a buoyant diffusion flameZHENGHUA YAN; HOLMSTEDT, G.International journal of heat and mass transfer. 1999, Vol 42, Num 7, pp 1305-1315, issn 0017-9310Article
The flickering candle : transition to a global oscillation in a thermal plumeMAXWORTHY, T.Journal of Fluid Mechanics. 1999, Vol 390, pp 297-323, issn 0022-1120Article
Concentration and temperature profiles of diffusion flames in droptower experimentsTITTMANN, K; SITZKI, L; RAU, H et al.AIAA journal. 1998, Vol 36, Num 9, pp 1743-1744, issn 0001-1452Article
Determination of the soot volume fraction in an ethylene diffusion flame by multiwavelength analysis of soot radiationDE IULIIS, S; BARBINI, M; BENECCHI, S et al.Combustion and flame. 1998, Vol 115, Num 1-2, pp 253-261, issn 0010-2180Article
Velocity and thermal structure, and strain-induced extinction of 14 to 100% hydrogen-air counterflow diffusion flamesPELLETT, G. L; ISAAC, K. M; HUMPHREYS, W. M et al.Combustion and flame. 1998, Vol 112, Num 4, pp 575-592, issn 0010-2180Article
Conditions for a split diffusion flameHERTZBERG, J. R.Combustion and flame. 1997, Vol 109, Num 3, pp 314-322, issn 0010-2180Article
Soot oxidation and agglomeration modeling in a microgravity diffusion flameEZEKOYE, O. A; ZHANG, Z.Combustion and flame. 1997, Vol 110, Num 1-2, pp 127-139, issn 0010-2180Article
Laser-induced incandescence calibration via gravimetric samplingVANDER WAL, R. L; ZHOU, Z; CHOI, M. Y et al.Combustion and flame. 1996, Vol 105, Num 4, pp 462-470, issn 0010-2180Article
Influence of nitrogen dilution and flame temperature on soot formation in diffusion flamesGÜLDER, Ö. L; SNELLING, D. R.Combustion and flame. 1993, Vol 92, Num 1-2, pp 115-124, issn 0010-2180Article
