Search Results - "Bunev, V. A."

On the Nature of the Synergistic Effect in Flames of Methane and Formaldehyde Mixtures with Air by Shvartsberg, V. M., Bunev, V. A.

“…This paper deals with the nature of the synergistic effect in flames of methane and formaldehyde mixtures with air. Combustion of mixtures of different fuels…”
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Numerical Study of the Effect of Carbon Oxide Additives on Dimethyl Ether–Air Flames by Bunev, V. A.

“…Numerical simulation has shown that the effect of small additions of CO to rich dimethyl ether mixtures is due only to the physical contribution to the normal…”
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Experimental and Numerical Study of Combustion of Rich Mixtures of Methanol and Hydrogen with Air by Bunev, V. A.

“…The combustion of rich mixtures of methanol and hydrogen with air has been studied by experimental and numerical methods. It has been shown that the deviation…”
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On the Mechanism of Promoting the Autoignition of Rich Methanol–Air Mixtures by Small Additions of Hydrogen Peroxide by Bunev, V. A.

“…The mechanism of promoting the autoignition of rich methanol–air mixtures by small additions of hydrogen peroxide has been studied using the tracer method. It…”
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Synergistic Effects in Flames of Mixtures of Methane and Carbon Monoxide with Air by Shvartsberg, V. M., Bunev, V. A.

“…Numerical simulation has shown that replacing a part of methane by carbon monoxide in a rich mixture while maintaining the equivalence ratio leads to a…”
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Combustion Chemistry of Rich Methanol–Air Mixtures by Shvartsberg, V. M., Bunev, V. A.

“…Chain branching and heat release processes and their influence on the burning velocity of premixed rich and near-stoichiometric methanol–air flames were…”
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Simulation of Hydrogen Self-Ignition in a Diesel Engine by Bunev, V. A., Korzhavin, A. A., Senachin, A. P., Senachin, P. K.

“…This paper presents a macrokinetics-based mathematical model for the numerical simulation of the fuel self-ignition period in a local volume of a hydrogen…”
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Superadiabatic temperature phenomenon in the combustion processes due to a competition between chemical reactions by Babkin, V. S., Bunev, V. A., Bolshova, T. A.

“…The existence of a new type of superadiabatic temperature phenomenon in flames and during autoignition due to a competition between chemical reactions is…”
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Numerical investigation of the distribution of oxygen atoms in syngas combustion products by Shvartsberg, V. M., Bunev, V. A., Babkin, V. S.

“…The distribution of air oxygen atoms in the oxidation products of rich mixtures of syngas with air in flame and the under autoignition conditions at constant…”
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Numerical study of the combustion chemistry of fuel-rich mixtures of formaldehyde and air by Shvartsberg, V. M., Bunev, V. A., Babkin, V. S.

“…The combustion chemistry of formaldehyde in fuel-rich flames has been studied by numerical modeling and sensitivity analysis. It has been shown that the wide…”
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Role of hydroxyl production and heat release in the two-zone fuel-rich adiabatic dimethyl ether/air flames at atmospheric pressure by Shvartsberg, V.M., Bunev, V.A., Bolshova, T.A., Babkin, V.S.

“…Fuel-rich laminar adiabatic flames of premixed dimethyl ether/air mixtures at a high initial temperature and atmospheric pressure have been studied by…”
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Numerical simulation of the effect of the addition of NO and NO2 on a rich hydrogen flame using the tracer method by Bunev, V. A.

“…The effect of the addition of nitric oxides (NO and NO 2 ) on rich hydrogen-air flames was studied using the tracer method in numerical simulation. It is shown…”
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Dynamics of gaseous combustion in closed systems with an inert porous medium by Korzhavin, A.A., Bunev, V.A., Babkin, V.S.

“…On the basis of previously published information and new experimental data, presented here, a physical model of subsonic flame propagation in closed vessels…”
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The decomposition flame of hydrazine in inert porous media by Koshkin, B.Yu, Bunev, V.A., Babkin, V.S., Laevsky, Yu.M.

“…The propagation of thermal waves of N 2H 4 decomposition in capillary-porous media of two types has been studied with filtrational supply of the reactant to…”
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On the Nature of Superadiabatic Temperatures in Premixed Rich Hydrocarbon Flames by Zamashchikov, V. V., Namyatov, I. G., Bunev, V. A., Babkin, V. S.

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Selective Diffusion during Flame Propagation and Quenching in a Porous Medium by Korzhavin, A. A., Bunev, V. A., Babkin, V. S., Klimenko, A. S.

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Numerical study of laminar rich hydrogen–air flames with added ethanol by Bunev, V. A., Bolshova, T. A., Babkin, V. S.

“…The propagation of fuel-rich hydrogen–air flames with added ethanol has been studied using numerical methods. It has been shown that the inhibition by ethanol…”
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Promotion and inhibition of oxidation of rich hydrogen-air mixtures by nitric oxides (NO and NO2) during adiabatic self-ignition by Bunev, V. A.

“…The tracer method was used to numerically study the effect of nitric oxides (NO and NO 2 ) on the oxidation of rich hydrogen-air mixtures during adiabatic…”
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Enthalpy distribution at the front of an one-dimensional laminar flame by Bunev, V. A., Korzhavin, A. A., Shvartsberg, V. M.

“…The enthalpy distribution at the front of one-dimensional flames of homogeneous mixtures of hydrogen, propane, formaldehyde, and methanol with air was…”
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Specific Features of the Mechanism of Flame Propagation in Rich Hydrogen–Propane–Air Mixtures by Zamashchikov, V. V., Namyatov, I. G., Bunev, V. A.

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