Author:
Drakon A. V.,Eremin A. V.,Korobeinichev O. P.,Shvartsberg V. M.,Shmakov A. G.
Subject
General Physics and Astronomy,Energy Engineering and Power Technology,Fuel Technology,General Chemical Engineering,General Chemistry
Reference64 articles.
1. J. W. Hastie, “Molecular Basis of Flame Inhibition,” J. Res. Nat. Bur. Stand. 77A, 733–754 (1973).
2. K. S. Shin, K. Park, and K. Kim, “The Addition Effect of CH3Cl on Methane Ignition behind Reflected Shock Waves,” Bull. Korean Chem. Soc. 22, 330–332 (2001).
3. V. Babushok, T. Noto, D. R. F. Burgess, A. Hamins, and W. Tsang, “Influence of CF3I, CF3Br, and CF3H on the High-Temperature Combustion of Methane,” Combust. Flame 107, 351–367 (1996).
4. V. V. Azatyan, Yu. N. Shebeko, A. Yu. Shebeko, and V. Yu. Navtsenya, “On the Promotion and Inhibition of Methane Combustion in Oxidizing Environments with Different Oxygen Contents by Fluorinated Hydrocarbon,” Khim. Fiz. 29 (9), 42–51 (2010).
5. J. C. Baugé, P. A. Glaude, P. Pommier, F. Battin Leclerc, G. Scacchi, G. M. Côme, F. Baronnet, and C. Paillard, “Experimental and Modelling Study of the Effect of CF3H, C2F6 and CF3Br on the Ignition Delays of Methane–Oxygen–Argon Mixtures behind Shock Waves,” J. Chim. Phys. Phys.-Chim. Biol. 94, 460–476 (1997).
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