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Results 1 to 25 of 1929

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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

Structure and extinction of a counterflow partially premixed, diffusion flameHAMINS, A; THRIDANDAM, H; SESHADRI, K et al.Chemical engineering science. 1985, Vol 40, Num 11, pp 2027-2038, issn 0009-2509Article

On the dynamics of nearly-extinguished non-adiabatic cellular flamesJOULIN, G; SIVASHINSKY, G. I.Combustion science and technology. 1983, Vol 31, Num 1-2, pp 75-90, issn 0010-2202Article

Modélisation numérique et validation expérimentale des flammes de diffusion turbulentes dominées par les effets de gravitéDe Oliveira Annarumma, Marcelo; Most, Jean-Michel.1989, 204 p.Thesis

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

Experimental and theoretical investigation of partially premixed diffusion flames at extinctionSESHADRI, K; PURI, I; PETERS, N et al.Combustion and flame. 1985, Vol 61, Num 3, pp 237-249, 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

Calculation of turbulent diffusion flame using the coherent flame sheet modelCHENG, W. K.AIAA journal. 1984, Vol 22, Num 11, pp 1694-1696, issn 0001-1452Article

Computation of the aerothermodynamic field of laminar diffusion flamesABAM, D. P. S.Proceedings of the Institution of Mechanical Engineers. Part C. Mechanical engineering science. 1984, Vol 198, Num 12, pp 175-187, issn 0263-7154Article

Large coherent structures in turbulent diffusion flamesPETERS, N.European mechanics colloquium. 138. sd, pp 113-114Conference Paper

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

A structural study of methane-acetonitrile-oxygen diffusion flames diluted with argonCROWHURST, D; SIMMONS, R. F.Combustion and flame. 1985, Vol 59, Num 2, pp 167-176, issn 0010-2180Article

Statistical properties of non-equilibrium effects in turbulent diffusion flamesPETERS, N.Berichte der Bunsengesellschaft für Physikalische Chemie. 1983, Vol 87, Num 11, pp 989-992, issn 0005-9021Article

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

Some source-dependent effects of unbounded firesCOX, G; CHITTY, R.Combustion and flame. 1985, Vol 60, Num 3, pp 219-232, issn 0010-2180Article

On the velocity overshoot in a laminar boundary layer diffusion flameRAMACHANDRA, A; RAGHUNANDAN, B. N.Combustion science and technology. 1983, Vol 33, Num 5-6, pp 309-313, 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

An experimental study of turbulent jet diffusion flamesSONJU, K; HUSTAD, J.Norwegian maritime research. 1984, Vol 12, Num 4, pp 2-11, issn 0304-1743Article

An experimental study of the opening of laminar diffusion flame tipsISHIZUKA, S.Symposium on combustion. 19. 1982, pp 319-326Conference Paper

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

Application of «ESCIMO» to the turbulent hydrogen-air diffusion flameMA, A. S. C; SPALDING, D. B; SUN, R. L. T et al.Symposium on combustion. 19. 1982, pp 393-402Conference Paper

A CHROMATOGRAPHIC AND INTERFEROMETRIC STUDY OF THE DIFFUSION FLAME AROUND A SIMULATED FUEL DROP.ABDEL KHALIK SI; TAMARU T; EL WAKIL MM et al.1974; IN: 15TH SYMP. INT. COMBUST.; TOKYO; 1974; PITTSBURGH; COMBUST. INST.; DA. 1974; PP. 389-399; BIBL. 13 REF.Conference Paper

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