Search Results - "Frolov, F. S."

Pulsed combustion of fuel–air mixture in a cavity above water surface: modeling and experiments by Frolov, S. M., Platonov, S. V., Avdeev, K. A., Aksenov, V. S., Ivanov, V. S., Zangiev, A. E., Sadykov, I. A., Tukhvatullina, R. R., Frolov, F. S., Shamshin, I. O.

“…A mathematical model for simulating combustion and detonation of a fuel–air mixture in the gas cavity above the free water surface is developed. The model is…”
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Pulsed detonation hydroramjet: simulations and experiments by Frolov, S. M., Avdeev, K. A., Aksenov, V. S., Frolov, F. S., Sadykov, I. A., Shamshin, I. O., Tukhvatullina, R. R.

“…A water transportation engine of a new type—a pulsed detonation hydroramjet (PDH)—has been designed, manufactured, and tested. The PDH is a pulsed detonation…”
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Pulsed combustion of fuel–air mixture in a cavity under the boat bottom: modeling and experiments by Frolov, S. M., Platonov, S. V., Avdeev, K. A., Aksenov, V. S., Ivanov, V. S., Zangiev, A. E., Sadykov, I. A., Tukhvatullina, R. R., Frolov, F. S., Shamshin, I. O.

“…The physical and mathematical model for simulating combustion and detonation of fuel mixture in the semi-confined gas volumes above the free surface of water…”
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Direct Numerical Simulation of Turbulent Combustion of Hydrogen—Air Mixtures of Various Compositions in a Two-Dimensional Approximation by Basevich, V. Ya, Belyaev, A. A., Frolov, S. M., Frolov, F. S.

“…A technique of two-dimensional direct numerical simulation of turbulent flame propagation in reacting gas mixtures under stationary homogeneous isotropic…”
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Cyclic Detonation of the Ternary Gas Mixture Propane–Oxygen–Steam for Producing Highly Superheated Steam by Frolov, S. M., Smetanyuk, V. A., Shamshin, I. O., Koval’, A. S., Frolov, F. S., Nabatnikov, S. A.

“…Systematic experiments were performed on an innovative pulse detonation steam superheater (PDSS) for determining the concentration limits of detonation of the…”
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Three-Dimensional Direct Numerical Simulation of Turbulent Combustion of Hydrogen-Air Mixtures in a Synthetic Turbulent Field by Basevich, V. Ya, Belyaev, A. A., Ivanov, V. S., Medvedev, S. N., Frolov, S. M., Frolov, F. S., Basara, B.

“…In this paper, we propose a method of three-dimensional direct numerical simulation of turbulent flame propagation in gas-reacting mixtures under stationary,…”
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Low-Temperature Flameless Combustion of a Large Drop of n-Dodecane under Microgravity Conditions by Frolov, S. M., Basevich, V. Ya, Medvedev, S. N., Frolov, F. S.

“…The forced ignition, combustion, and spontaneous ignition of a drop of n -dodecane in an atmosphere of air at a normal pressure under microgravity conditions…”
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Production of highly superheated steam by cyclic detonations of propane- and methane-steam mixtures with oxygen for waste gasification by Frolov, S.M., Smetanyuk, V.A., Shamshin, I.O., Sadykov, I.A., Koval', A.S., Frolov, F.S.

“…•We study pulsed detonations of ternary C3H8/CH4–O2–steam mixtures at 0.1 MPa.•Maximum steam dilution in initial mixtures is 60% for C3H8 and 40% for…”
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A Detailed Kinetic Mechanism of Multistage Oxidation and Combustion of Octanes by Basevich, V. Ya, Belyaev, A. A., Medvedev, S. N., Frolov, S. M., Frolov, F. S.

“…This study has been focused on the construction of a generalized detailed kinetic mechanism of oxidation and combustion of isoheptane and isooctanes…”
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A detailed kinetic mechanism of multistage oxidation and combustion of isooctane by Basevich, V. Ya, Belyaev, A. A., Medvedev, S. N., Posvyanskii, V. S., Frolov, F. S., Frolov, S. M.

“…This study has been focused on the construction of a detailed kinetic mechanism of oxidation and combustion of isooctane (2,2,4-trimethylpentane) to describe…”
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Calculation of shock wave propagation in water containing reactive gas bubbles by Avdeev, K. A., Aksenov, V. S., Borisov, A. A., Sevastopoleva, D. G., Tukhvatullina, R. R., Frolov, S. M., Frolov, F. S., Shamshin, I. O., Basara, B., Edelbauer, W., Pachler, K.

“…The entry of a shock wave from air into water containing reactive gas (stoichiometric acetylene–oxygen mixture) bubbles uniformly distributed over the volume…”
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Self-ignition of hydrocarbon–hydrogen–air mixtures by Frolov, S.M., Medvedev, S.N., Basevich, V.Ya, Frolov, F.S.

“…The effect of hydrogen admixing on self-ignition of homogeneous and hybrid mixtures of heavy hydrocarbons in air is studied theoretically based on the detailed…”
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Experimental and computational studies of shock wave-to-bubbly water momentum transfer by Frolov, S.M., Avdeev, K.A., Aksenov, V.S., Borisov, A.A., Frolov, F.S., Shamshin, I.O., Tukhvatullina, R.R., Basara, B., Edelbauer, W., Pachler, K.

“…•We have measured and calculated the momentum transfer from the air shock wave to bubbly water implying the use of shock-induced motion of water in advanced…”
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Self-ignition of hydrocarbonahydrogenaair mixtures by Frolov, S M, Medvedev, S N, Basevich, VYa, Frolov, F S

“…The effect of hydrogen admixing on self-ignition of homogeneous and hybrid mixtures of heavy hydrocarbons in air is studied theoretically based on the detailed…”
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Promotion of the self-ignition of fuel–air mixtures with mechanoactivated Al (Mg)–MoO3 particles by Troshin, K. Ya, Streletskii, A. N., Kolbanev, I. V., Borisov, A. A., Frolov, S. M., Frolov, F. S.

“…The ignition delay times of heptane–air and diesel oil–air mixtures with and without additives of mechanoactivated Mg–MoO 3 , Al–MoO 3 , and Mg–fluoroplastic…”
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Numerical simulation of momentum transfer from a shock wave to a bubbly medium by Avdeev, K. A., Aksenov, V. S., Borisov, A. A., Tukhvatullina, R. R., Frolov, S. M., Frolov, F. S.

“…Based on the system of equations of two-phase compressible viscous flow, we performed a two-dimensional numerical simulation of momentum transfer by a shock…”
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Momentum transfer from a shock wave to a bubbly liquid by Avdeev, K. A., Aksenov, V. S., Borisov, A. A., Frolov, S. M., Frolov, F. S., Shamshin, I. O.

“…The transfer of momentum from shock waves of various intensities (from 0.05 to 0.5 MPa) to a water column containing air bubbles of a mean diameter of 2.5 mm…”
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Promotion of the high-temperature autoignition of hydrogen-air and methane-air mixtures by normal alkanes by Basevich, V. Ya, Medvedev, S. N., Frolov, F. S., Frolov, S. M.

“…Numerical simulations are performed to examine the effect of small additives of heavy hydrocarbons on the high-temperature autoignition of homogeneous…”
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Autoignition and combustion of hydrocarbon-hydrogen-air homogeneous and heterogeneous ternary mixtures by Frolov, S. M., Medvedev, S. N., Basevich, V. Ya, Frolov, F. S.

“…A numerical simulation of the ignition and combustion of hydrocarbon-hydrogen-air homogeneous and heterogeneous (gas-drop) ternary mixtures for three…”
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Magnetohydrodynamic effects of heterogeneous spray detonation by Avdeev, K. A., Aksenov, V. S., Ivanov, V. S., Medvedev, S. N., Frolov, S. M., Frolov, F. S., Shamshin, I. O.

“…Electrical power on the board of an aircraft with a liquid-fuel pulse-detonation engine is proposed to be produced by a magnetohydrodynamic (MHD) generator…”
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