Combustion and Flame

Fonti]n A 1982 Combustion and flames Applied Atomic Collision Physics, Vol 5, Special Topics ed FI S W Massey, E W MoDaniel and B Bederson (New York Aoademio)... [Pg.829]

Overview of Combustion and Flame Propagation Phenomena Related to DDAs... [Pg.51]

Bull, D. C., J. E. Elsworth, and P. J. Shuff. 1982. Detonation cell structures in fiiel-air mixtures. Combustion and Flame 45 7-22. [Pg.66]

Knystautas, R., J. H. Lee, and C. M. Guirao. 1982. The critical tube diameter for detonation failure in hydrocarbon-air mixtures. Combustion and Flame. 48 63-83. [Pg.67]

Benedick, W. B., J. D. Kennedy, and B. Morosin. 1970. Detonation limits of unconfined hydrocarbon-air mixtures. Combust, and Flame. 15 83-84. [Pg.137]

Deshaies, B., and J. D. Leyer. 1981. Flow field induced by unconfined spherical accelerating flames. Combust, and Flame. 40 141-153. [Pg.138]

Leyer, J. C. 1982. An experimental study of pressure fields by exploding cylindrical clouds. Combustion and Flame. 48 251-263. [Pg.141]

Pickles, J. H., and S. H. Bittleston. 1983. Unconfined vapor cloud explosions—The asymmetrical blast from an elongated explosion. Combustion and Flame. 51 45-53. [Pg.142]

Strehlow, R. A. 1975. Blast waves generated by constant velocity flames A simplified approach. Combustion and Flame. 24 257-261. [Pg.143]

Stewart, F. R. 1964. Linear flame heights for various fuels. Combustion and Flame 8 171-178. [Pg.155]

Combustion and Flame (series). New York Elsevier. Combustion Science and Technology (series). New York Gordon and Breach. [Pg.276]

Methane. The vapors of boiling 72% perchloric ac have been found to support the combustion of methane and other organic gases (Ref 39a). This work has been carried forward in a series of papers in Combustion and Flame by G.S. Pearson et al (Vols 8, 199 11, 89, 97, 103 471 12,54)... [Pg.620]

Fundamental research in pyrotechnics is published in the US in Combustion and Flame by the Combustion Institute, and in the UK in Combustion Science and Technology and in Fuel . Germany has the new, journal, Propellants and Explosives (German Chemical Society), which is the successor to the discontinued Explosivstoffe . A necessary caveat is that these journals are strongly oriented toward combustion or propulsion so that only rarely do they yield pyrotechnic information. Likewise, the various publications of the learned societies contain much data on thermodynamics, spectroscopy, and instrumental analysis which are useful in the study of pyrotechnics. In the USSR the situation is somewhat better as Physics of Combustion and Explosion (Fizika Gorenia i Vzryva) of the Siberian Branch Academy of Sciences USSR is exclusively oriented toward subjects of interest, as several scientific institutes are primarily devoted to research in pyrotechnics. The same authors do publish also, however, in the journals of the Academy of Science USSR (of which there are several) as well as in the corresponding journals of the academies of the various republics, so that the impression is created of a high level of activity... [Pg.998]

However, a new era in the development of combustion science started with the foundation of the Combustion Institute in 1954, on the initiative of Bernard Lewis. The institute s influence was further strengthened in 1957 with the release of its journal Combustion and Flame. The creation of the institute brought about two important factors into research activity organization of the combustion commxmity and stimulation of international cooperation. [Pg.1]

Tabaczynski, R. Trinker, F. H., and Shannon, B. A. S., Further refinement and validation of a turbulent flame propagation model for spark-ignition engines. Combustion and Flame, 39, 111-121, 1980. [Pg.55]

Thomas, A., The development of wrinkled turbulent premixed flames, Combustion and Flame, 65,291-312,1986. [Pg.55]

Ishizuka, S., On the flame propagation in a rotating flow field, Combustion and Flame, 82,176-190,1990. [Pg.55]

Ishizuka, S., Murakami, T., Hamasaki, T., Koumura, K., and Hasegawa, R., Flame speeds in combustible vortex rings, Combustion and Flame, 113, 542-553,1998. [Pg.55]

Atobiloye, R. Z. and Britter, R. E., On flame propagation along vortex tubes, Combustion and Flame, 98, 220-230, 1994. [Pg.55]

Asato, K., Wada, H., Himura, T., and Takeuchi, Y., Characteristics of flame propagation in a vortex core Validity of a model for flame propagation. Combustion and Flame, 110, 418 8,1997. [Pg.55]

Umemura, A. and Tomita, K., Rapid flame propagation in a vortex tube in perspective of vortex breakdown phenomena. Combustion and Flame, 125,820-838, 2001. [Pg.55]

Gorczakowski, A., Zawadzki, A., and Jarosinski, J., Combustion mechanism of flame propagation and extinction in a rotating cylindrical vessel. Combustion and Flame, 120, 359-371, 2000. [Pg.55]

Hasegawa, T., Michikami, S., Nomura, T., Gotoh, D., and Sato, T., Flame development along a straight vortex. Combustion and Flame, 129, 294-304, 2002. [Pg.55]

S.G. Davis, J. Quinard, and G. Searby. Markstein numbers in counterflow, methane- and propane-air flames A computational study. Combustion and Flame, 130 123-136, 2002. [Pg.78]

T. Schuller, D. Durox, and S. Candel. Self-induced combustion oscillations of laminar premixed flames stabilized on annular burners. Combustion and Flame, 135 525-537, 2003. [Pg.79]

A. Wangher, G. Searby, and J. Quinard. Experimental investigation of the unsteady response of a flame front to pressure waves. Combustion and Flame, 154(1-2) 310-318, 2008. [Pg.79]

Starke, R. and Roth, P, An experimental investigation of flame behavior during cylindrical vessel explosions. Combustion and Flame, 66,249-259,1986. [Pg.99]

Gonzalez, M., Borghi, R., and Saouab, A., Interaction of a flame front with its self-generated flow in an enclosure The "tulip flame" phenomenon. Combustion and Flame, 88,201-220,1992. [Pg.99]

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