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Fizika Goreniya i Vzryva, 2015, Volume 51, Issue 2, Pages 14–22 (Mi fgv212)  
This article is cited in 15 scientific papers (total in 15 papers)

Superadiabatic temperature phenomenon in the combustion processes due to a competition between chemical reactions

V. S. Babkin, V. A. Bunev, T. A. Bolshova

Institute of Chemical Kinetics and Combustion, Siberian Branch of the Russian Academy of Science, Novosibirsk, 630090, Russia
Full-text PDF (182 kB) Citations (15)
Abstract: The existence of a new type of superadiabatic temperature phenomenon in flames and during autoignition due to a competition between chemical reactions is inferred from literature data and the results of mathematical modeling of chemical kinetics and numerical experiments. The mechanisms, conditions for the occurrence, and nature of the phenomenon are discussed. It is noted that this phenomenon may have promising academic and practical applications.
Keywords: superadiabatic temperatures, flammability limits, autoignition, dimethyl ether, methane, propane.
Received: 30.05.2014
English version:
Combustion, Explosion and Shock Waves, 2015, Volume 51, Issue 2, Pages 151–159
DOI: https://doi.org/10.1134/S0010508215020021
Bibliographic databases:
Document Type: Article
UDC: 536.64
Language: Russian
Citation: V. S. Babkin, V. A. Bunev, T. A. Bolshova, “Superadiabatic temperature phenomenon in the combustion processes due to a competition between chemical reactions”, Fizika Goreniya i Vzryva, 51:2 (2015), 14–22; Combustion, Explosion and Shock Waves, 51:2 (2015), 151–159
Citation in format AMSBIB
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\by V.~S.~Babkin, V.~A.~Bunev, T.~A.~Bolshova
\paper Superadiabatic temperature phenomenon in the combustion processes due to a competition between chemical reactions
\jour Fizika Goreniya i Vzryva
\yr 2015
\vol 51
\issue 2
\pages 14--22
\mathnet{http://mi.mathnet.ru/fgv212}
\elib{https://elibrary.ru/item.asp?id=23342446}
\transl
\jour Combustion, Explosion and Shock Waves
\yr 2015
\vol 51
\issue 2
\pages 151--159
\crossref{https://doi.org/10.1134/S0010508215020021}
Linking options:
  • https://www.mathnet.ru/eng/fgv212
  • https://www.mathnet.ru/eng/fgv/v51/i2/p14
    • This publication is cited in the following 15 articles:
    1. Zhengquan Xue, Haoxin Deng, Xiaoping Wen, Jun Song, Fahui Wang, Guoyan Chen, Qifeng Zhu, “The temperature dependence of laminar burning velocity and superadiabatic flame temperature phenomena in ammonia-hydrogen-air and ammonia oxy-fuel premixed flames”, International Journal of Hydrogen Energy, 117 (2025), 158  crossref
    2. 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  crossref
    3. Jennifer L. Schurr, Atmadeep Bhattacharya, Alexander A. Konnov, Ossi Kaario, “Super adiabatic combustion of H2/Air and H2/N2O mixtures”, Combustion and Flame, 263 (2024), 113397  crossref
    4. Xinlu Han, Zhihua Wang, Riyi Lin, Alexander A. Konnov, “SAFT Regimes and Laminar Burning Velocities: A Comparative Study of NH3 + N2 + O2 and CH4 + N2 + O2 Flames”, Energy Fuels, 37:11 (2023), 7958  crossref
    5. Giang Bui, Atmadeep Bhattacharya, Ossi Kaario, Ville Vuorinen, Rupali Tripathi, Teemu Sarjovaara, “On the super adiabatic flame temperature (SAFT) of toluene primary reference fuels”, Fuel, 335 (2023), 126989  crossref
    6. Xu He, Zechang Liu, Houshi Jiang, Qing Yang, Zhenghui Jiang, Guangyuan Feng, Chengyuan Zhao, “Super adiabatic flame temperature phenomenon for NH3/O2/N2 mixtures”, Fuel, 346 (2023), 128264  crossref
    7. Dimitris M. Manias, Shahid Rabbani, Dimitrios C. Kyritsis, Dimitris A. Goussis, “The effect of fuel additives on the autoignition dynamics of rich methanol/air mixtures”, Fuel, 323 (2022), 124275  crossref
    8. Yan Wang, Xinyi Chen, Zheng Chen, “Super-adiabatic temperature in homogenous ignition of CH4/O2/N2 mixtures”, Fuel, 319 (2022), 123854  crossref
    9. Shahid Rabbani, Dimitris M. Manias, Dimitrios C. Kyritsis, Dimitris A. Goussis, “Chemical dynamics of the autoignition of near-stoichiometric and rich methanol/air mixtures”, Combustion Theory and Modelling, 26:2 (2022), 289  crossref
    10. Yan Wang, Xinyi Chen, Zheng Chen, “Super-Adiabatic Temperature in Homogenous Ignition of Ch4/O2/N2 Mixtures”, SSRN Journal, 2022  crossref
    11. J. L. Ruan, L. Bouheraoua, P. Domingo, G. Ribert, “Simulation of a Scramjet Combustor: A Priori Study of Thermochemistry Tabulation Techniques”, Flow Turbulence Combust, 106:4 (2021), 1241  crossref
    12. V.I. Babushok, D.R. Burgess, M.J. Hegetschweiler, G.T. Linteris, “Flame propagation in the mixtures of O2/N2 oxidizer with fluorinated propene refrigerants (CH2CFCF3, CHFCHCF3, CH2CHCF3)”, Combustion Science and Technology, 193:11 (2021), 1949  crossref
    13. 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  mathnet  mathnet  crossref  crossref
    14. Xinlu Han, Zhihua Wang, Yong He, Shixing Wang, Yanqun Zhu, Alexander A. Konnov, “Over-rich combustion of CH4, C2H6, and C3H8 +air premixed flames investigated by the heat flux method and kinetic modeling”, Combustion and Flame, 210 (2019), 339  crossref
    15. Mahdi Faghih, Zheng Chen, Jialong Huo, Zhuyin Ren, Chung K. Law, “On the determination of laminar flame speed from low-pressure and super-adiabatic propagating spherical flames”, Proceedings of the Combustion Institute, 37:2 (2019), 1505  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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