Search Results - "Krivosheyev, P. N."

Experimental Study of Flame Acceleration Processes and Deflagration-to-Detonation Transition: Review of Works of the A.V. Luikov Heat and Mass Transfer Institute of the National Academy of Sciences of Belarus by Krivosheyev, P. N., Kuzmitski, V. V., Penyazkov, O. G.

“…This paper is a brief review and systematization of studies of flame acceleration and deflagration-to-detonation transition in circular smooth pipes, performed…”
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On Initial Stage of Combustion of Acetylene–Oxygen Mixtures in a Tube by Krivosheyev, P. N., Penyazkov, O. G.

“…Experimental study of the process of combustion of a premixed acetylene–oxygen mixture diluted with either nitrogen or argon in a circular cross-section tube…”
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Evolution of the Reaction Front Shape and Structure on Flame Acceleration and Deflagration-to-Detonation Transition by Krivosheyev, P. N., Novitski, A. O., Penyazkov, O. G.

“…Flame acceleration (FA) and the deflagration-to-detonation transition (DDT) are among the most interesting and exciting phenomena in the field of combustion…”
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Flame front dynamics studies at deflagration-to-detonation transition in a cylindrical tube at low-energy initiation mode by Baranyshyn, Y. A., Krivosheyev, P. N., Penyazkov, O. G., Sevrouk, K. L.

“…The aim of this work was to study the dynamics of deflagration-to-detonation transition (DDT) following flame acceleration in a cylindrical tube. We combined…”
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Propagation of Combustion Over Composites Based on Porous Silicon and Sodium-Perchlorate Monohydrate by Mironov, V. N., Golomako, E. S., Krivosheyev, P. N., Penyazkov, O. G., Shumlyaev, S. O.

“…Results of experiments with energy-saturated composites, including those based on fragmented nanostructured silicon (FPS composites), have been presented. It…”
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Theoretical and Experimental Determination of the Rate Constant of the Nonadiabatic Chemiluminescent Reaction H + O + N2 = OH + N2 by Lukhovitskii, B. I., Sharipov, A. S., Arsent’ev, I. V., Pelevkin, A. V., Skilond’, A. V., Kisel’, Yu. S., Krivosheyev, P. N.

“…The electronically nonadiabatic reaction of preassociation H + O + N 2 ↔ OH * + N 2 is the main channel of formation of electronically excited chemiluminescent…”
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Acceleration of the Flame in a Smooth Channel and Detonation Transition by Kiverin, A. D., Krivosheyev, P. N., Novitskii, A. O., Penyazkov, O. G., Yakovenko, I. S., Yarkov, A. V.

“…In the work, the authors have presented a systematization of the data on acceleration of the flame in a smooth channel filled with gaseous fuel mixture. A…”
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Influence of Aluminum Admixtures on the Combustion Regime of Nanostructured Silicon with a Solid-Phase Oxidant by Krivosheyev, P. N., Mironov, V. N., Penyazkov, O. G., Futko, S. I.

“…Consideration has been given to the influence of additives of aluminum nanoparticles to mixtures of nanostructured silicon with a solid-phase oxidant on the…”
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On the Mechanism of Detonation Combustion of Nanostructured Silicon with a Solid-Phase Oxidant by Krivosheyev, P. N., Mironov, V. N., Penyazkov, O. G., Futko, S. I.

“…The physical mechanism of detonation combustion of nanostructured silicon with a solid-phase oxidant at a velocity of the combustion front of 1000–3000 m/s has…”
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On the Mechanism of Combustion of Thin Nanostructurized Silicon Plates in Oxygen at an Elevated Pressure by Futko, S. I., Koznacheev, I. A., Rabinovich, O. S., Penyazkov, O. G., Krivosheyev, P. N.

“…The physical mechanism of combustion of thin nanostructurized silicon plates in oxygen at an elevated pressure is considered. Based on the analysis of…”
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