Abstract:
An increase in warming up in the combustion of hydrocabons with simultaneous initiation at opposite butt-ends of a cylindrical reactor by a factor of ∼2, as compared to flame propagation from a single initiation source, is due to the two-stage combustion process.
Citation:
N. M. Rubtsov, B. S. Seplyarskii, I. M. Naboko, V. I. Chernysh, G. I. Tsvetkov, K. Ya. Troshin, “Non-steady Propagation of single and Counter Hydrogen and Methane Flames in Initially Motionless Gas”, Mendeleev Commun., 24:5 (2014), 308–310
Linking options:
https://www.mathnet.ru/eng/mendc2562
https://www.mathnet.ru/eng/mendc/v24/i5/p308
This publication is cited in the following 14 articles:
Nickolai M. Rubtsov, Kirill Ya. Troshin, Michail I. Alymov, Heat and Mass Transfer, Catalytic Ignition of Hydrogen and Hydrogen-Hydrocarbon Blends Over Noble Metals, 2023, 31
Nickolai M. Rubtsov, Kirill Ya. Troshin, Michail I. Alymov, Heat and Mass Transfer, Catalytic Ignition of Hydrogen and Hydrogen-Hydrocarbon Blends Over Noble Metals, 2023, 185
N. M. Rubtsov, V. I. Chernysh, G. I. Tsvetkov, K. J. Troshin, “Modes of interaction of counterflow flames in diluted methane–oxygen mixtures in a closed reactor”, Mendeleev Commun., 33:3 (2023), 433–435
Nickolai Rubtsov, Mikhail Alymov, Alexander Kalinin, Alexey Vinogradov, Alexey Rodionov, Kirill Troshin, Remote studies of combustion and explosion processes based on optoelectronic methods, 2022
Nikolai M. Rubtsov, Boris S. Seplyarskii, Michail I. Alymov, Fluid Mechanics and Its Applications, 123, Initiation and Flame Propagation in Combustion of Gases and Pyrophoric Metal Nanostructures, 2021, 1
Nickolai M. Rubtsov, Georgii I. Tsvetkov, Victor I. Chernysh, Kirill Ya. Troshin, “Features of hydrogen and deuterium ignition over noble metals at low pressures”, Combustion and Flame, 218 (2020), 179
Nikolai M. Rubtsov, Springer Aerospace Technology, Key Factors of Combustion, 2017, 207
Nikolai M. Rubtsov, Springer Aerospace Technology, Key Factors of Combustion, 2017, 153
N. M. Rubtsov, V. I. Chernysh, G. I. Tsvetkov, K. J. Troshin, “Relative contribution of gas dynamic and chemical factors to flame penetration through small openings in a closed cylindrical reactor”, Mendeleev Commun., 27:1 (2017), 101–103
A E Korobov, V V Volodin, S V Golovastov, “Influence of sound absorbing surfaces on acoustic oscillations and flame acceleration in hydrogen–air mixture”, J. Phys.: Conf. Ser., 774 (2016), 012090
Nickolai M. Rubtsov, Heat and Mass Transfer, The Modes of Gaseous Combustion, 2016, 151
N. M. Rubtsov, A. N. Vinogradov, A. P. Kalinin, A. I. Rodionov, K. J. Troshin, G. I. Tsvetkov, V. I. Chernysh, “Cellular combustion and delay periods of ignition of a nearly stoichiometric H2–air mixture over a platinum surface”, Mendeleev Commun., 26:2 (2016), 160–162
N. M. Rubtsov, I. M. Naboko, B. S. Seplyarskii, V. I. Chernysh, G. I. Tsvetkov, K. J. Troshin, “Interaction of the laminar flames of natural gas–oxygen mixtures with planar obstacles, diffusers and confusers”, Mendeleev Commun., 26:1 (2016), 61–63
N. M. Rubtsov, B. S. Seplyarskii, I. M. Naboko, V. I. Chernysh, G. I. Tsvetkov, K. J. Troshin, “Penetration of methane–oxygen flames through spherical and planar obstacles in a closed cylindrical reactor”, Mendeleev Commun., 25:4 (2015), 304–306
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