Search Results - "Agafonov, G.L."

Ignition characteristics of hypergolic fuels with various N-substituents by Khomik, S.V., Usachev, S.V., Medvedev, S.P., Cherepanov, A.A., Stovbun, S.V., Mikhalkin, V.N., Agafonov, G.L.

“…The effect of an N-alkyl substituent R on the characteristics of ignition of hypergolic ionic liquids (ILs) upon contact with white fuming nitric acid (WFNA)…”
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Reasonable testing of hypergolic fuels by Khomik, S.V., Usachev, S.V., Medvedev, S.P., Ivantsov, A.N., Stovbun, S.V., Mikhalkin, V.N., Agafonov, G.L.

“…The paper presents the results of drop tests performed to measure ignition delay for ionic liquids under various experimental conditions. Factors that strongly…”
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Shock tube and modeling study of soot formation during the pyrolysis and oxidation of a number of aliphatic and aromatic hydrocarbons by Agafonov, G.L., Smirnov, V.N., Vlasov, P.A.

“…An experimental and modeling study of soot formation during the shock-tube pyrolysis and oxidation of a number of aromatic and aliphatic hydrocarbons was…”
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Low-temperature ignition delay for hydrogen–air mixtures in light of a reaction mechanism with quantum correction by Medvedev, S.P., Agafonov, G.L., Khomik, S.V.

“…A reaction mechanism with quantum correction is used to model low-temperature/high-pressure autoignition of lean hydrogen–air mixtures. This approach provides…”
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Detailed kinetic modeling of soot formation in shock tube pyrolysis and oxidation of toluene and n-heptane by Agafonov, G.L., Naydenova, I., Vlasov, P.A., Warnatz, J.

“…A new detailed kinetic model of soot formation in shock tube pyrolysis and oxidation of aliphatic and aromatic hydrocarbons is proposed. The model is based on…”
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Unified kinetic model of soot formation in the pyrolysis and oxidation of aliphatic and aromatic hydrocarbons in shock waves by Agafonov, G. L., Bilera, I. V., Vlasov, P. A., Zhil’tsova, I. V., Kolbanovskii, Yu. A., Smirnov, V. N., Tereza, A. M.

“…The formation of soot particles in the pyrolysis and oxidation of various aromatic and aliphatic hydrocarbons in argon behind reflected shock waves has been…”
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Compression ignition of hydrogen-containing mixtures in shock tubes by Medvedev, S. P., Gelfand, B. E., Khomik, S. V., Agafonov, G. L.

“…The state of the art of the problem of discrepancy between the values measured in shock tubes and calculated for the delay of ignition of hydrogen-containing…”
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Initiation of premixed flames in H 2–air–H 2O mixtures by Kusharin, A.Yu, Popov, O.E., Agafonov, G.L., Gelfand, B.E.

“…The dynamics of laminar spherical flame kernels in hydrogen/air mixtures diluted with steam are studied numerically for hydrogen percentage ranging from lean…”
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Initiation of premixed flames in H2–air–H2O mixtures by Kusharin, A.Yu, Popov, O.E., Agafonov, G.L., Gelfand, B.E.

“…Numerical results are presented on the near-limit phenomena and flammability limits in ternary hydrogen/air/steam systems. The flammability diagram is computed…”
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Initiation of laminar flames in near-limit H 2/O 2/H 2O mixtures by Kusharin, A.Y., Popov, O.E., Agafonov, G.L.

“…A one-dimensional spherically symmetrical flame model including a detailed chemical mechanism for hydrogen oxidation, multispecies transport, and thermal…”
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Initiation of laminar flames in near-limit H2/O2/H2O mixtures by Kusharin, A.Y., Popov, O.E., Agafonov, G.L.

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