Abstract:
By numerical methods, it is shown that, under constant pressure and conditions of adiabatic autoignition of rich dimethyl ether–air mixtures, superadiabatic temperatures are attained at the expense of kinetic competition of chemical reactions.
Document Type:
Article
Language: English
Citation:
V. A. Bunev, V. S. Babkin, “Effect of superadiabatic temperatures in the autoignition of dimethyl ether mixtures”, Mendeleev Commun., 19:5 (2009), 290–291
Linking options:
https://www.mathnet.ru/eng/mendc3203
https://www.mathnet.ru/eng/mendc/v19/i5/p290
This publication is cited in the following 8 articles:
Jennifer L. Schurr, Atmadeep Bhattacharya, Alexander A. Konnov, Ossi Kaario, “Super adiabatic combustion of carbon-free and carbon-containing fuels”, Combustion and Flame, 276 (2025), 114106
Yan Wang, Xinyi Chen, Zheng Chen, “Super-adiabatic temperature in homogenous ignition of CH4/O2/N2 mixtures”, Fuel, 319 (2022), 123854
Yan Wang, Xinyi Chen, Zheng Chen, “Super-Adiabatic Temperature in Homogenous Ignition of Ch4/O2/N2 Mixtures”, SSRN Journal, 2022
V. M. Shvartsberg, V. A. Bunev, “Characteristics of combustion chemistry of rich methanol mixtures with air”, Combustion, Explosion and Shock Waves, 56:1 (2020), 1–10
V. S. Babkin, V. A. Bunev, T. A. Bolshova, “Superadiabatic temperature phenomenon in the combustion processes due to a competition between chemical reactions”, Combustion, Explosion and Shock Waves, 51:2 (2015), 151–159
V. A. Bunev, T. A. Bolshova, V. S. Babkin, “The nature of the upper laminar flammability limit in methane-air mixtures at high pressures”, Dokl Phys Chem, 452:1 (2013), 197
V. A. Bunev, V. S. Babkin, “Numerical Characteristics of the Low-Temperature Oxidation of Dimethyl Ether with Air”, Mendeleev Commun., 22:6 (2012), 338–339
A. P. Denysiuk, Y. Z. Htwe, “Temperature profile in the combustion wave of low calorific value propellants”, Combustion, Explosion and Shock Waves, 47:2 (2011), 185–192
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