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About Initiation and Chemical Energy Release in Waves of Multifront Detonation. / Vasil'ev, A. A.

в: Interfacial Phenomena and Heat Transfer, Том 9, № 2, 3, 2021, стр. 15-28.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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Vasil'ev AA. About Initiation and Chemical Energy Release in Waves of Multifront Detonation. Interfacial Phenomena and Heat Transfer. 2021;9(2):15-28. 3. doi: 10.1615/InterfacPhenomHeatTransfer.2021037079

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Vasil'ev, A. A. / About Initiation and Chemical Energy Release in Waves of Multifront Detonation. в: Interfacial Phenomena and Heat Transfer. 2021 ; Том 9, № 2. стр. 15-28.

BibTeX

@article{54e1f1c5914943d39fbb106de0d8d711,
title = "About Initiation and Chemical Energy Release in Waves of Multifront Detonation",
abstract = "The data bank of information about the critical energy (E*) in the initiation of detonation and combustion regimes is very important not only from a scientific point of view, but also in relation to hazards problems and the practical applications of such regimes in the construction of perspective combustion chambers and devices. The chemical energy release (Q*) is the problematic parameter in the experimental measurement of detonation and combustion waves. The value of Q* and the spatial-time history [Q(r, t)] are especially important in the supersonic flow of chemically active mixtures. Some of the experimental and calculated results obtained on the values of E(r, t) and Q(r, t) for detonation waves are presented in this paper. In this case, the strong explosion model was used to recalculate the experimental wave trajectory. The results on a stoichiometric acetylene-oxygen mixture demonstrate the noticeable deviations of the experimental profile of energy release in multifront detonation waves from the profiles of available concepts of idealized one-dimensional detonation models. Also, it was established that the instabilities introduced by the initiator play a certain role in the total kinetic-gasdynamic instability of the chemical active mixture (for example, the sausage electromagnetic instability of an electric conductor with a current, the Meshkov-Richtmeier instability at the expanding boundary of the liquid metal of an exploding wire, etc.).",
keywords = "initiation, shock wave, detonation, energy release, combustible mixture, strong explosion model, Energy release, Detonation, Strong explosion model, Combustible mixture, Initiation, Shock wave",
author = "Vasil'ev, {A. A.}",
note = "Funding Information: The problems of detonation waves are included in the State Programme of Fundamental Investigations of Russian Federation. The investigations of such problems at the Lavrentyev Institute of Hydrodynamics are supported by the Government Department on Science and Education [(GDSE); LIH Project No. III.22.2.1]. This paper and the investigation were financial supported by a grant from GDSE on Agreement No. 075-15-2020-806 (Contract No. 13.1902.21.0014). Publisher Copyright: {\textcopyright} 2021 by Begell House, Inc.",
year = "2021",
doi = "10.1615/InterfacPhenomHeatTransfer.2021037079",
language = "English",
volume = "9",
pages = "15--28",
journal = "Interfacial Phenomena and Heat Transfer",
issn = "2169-2785",
publisher = "Begell House Inc.",
number = "2",

}

RIS

TY - JOUR

T1 - About Initiation and Chemical Energy Release in Waves of Multifront Detonation

AU - Vasil'ev, A. A.

N1 - Funding Information: The problems of detonation waves are included in the State Programme of Fundamental Investigations of Russian Federation. The investigations of such problems at the Lavrentyev Institute of Hydrodynamics are supported by the Government Department on Science and Education [(GDSE); LIH Project No. III.22.2.1]. This paper and the investigation were financial supported by a grant from GDSE on Agreement No. 075-15-2020-806 (Contract No. 13.1902.21.0014). Publisher Copyright: © 2021 by Begell House, Inc.

PY - 2021

Y1 - 2021

N2 - The data bank of information about the critical energy (E*) in the initiation of detonation and combustion regimes is very important not only from a scientific point of view, but also in relation to hazards problems and the practical applications of such regimes in the construction of perspective combustion chambers and devices. The chemical energy release (Q*) is the problematic parameter in the experimental measurement of detonation and combustion waves. The value of Q* and the spatial-time history [Q(r, t)] are especially important in the supersonic flow of chemically active mixtures. Some of the experimental and calculated results obtained on the values of E(r, t) and Q(r, t) for detonation waves are presented in this paper. In this case, the strong explosion model was used to recalculate the experimental wave trajectory. The results on a stoichiometric acetylene-oxygen mixture demonstrate the noticeable deviations of the experimental profile of energy release in multifront detonation waves from the profiles of available concepts of idealized one-dimensional detonation models. Also, it was established that the instabilities introduced by the initiator play a certain role in the total kinetic-gasdynamic instability of the chemical active mixture (for example, the sausage electromagnetic instability of an electric conductor with a current, the Meshkov-Richtmeier instability at the expanding boundary of the liquid metal of an exploding wire, etc.).

AB - The data bank of information about the critical energy (E*) in the initiation of detonation and combustion regimes is very important not only from a scientific point of view, but also in relation to hazards problems and the practical applications of such regimes in the construction of perspective combustion chambers and devices. The chemical energy release (Q*) is the problematic parameter in the experimental measurement of detonation and combustion waves. The value of Q* and the spatial-time history [Q(r, t)] are especially important in the supersonic flow of chemically active mixtures. Some of the experimental and calculated results obtained on the values of E(r, t) and Q(r, t) for detonation waves are presented in this paper. In this case, the strong explosion model was used to recalculate the experimental wave trajectory. The results on a stoichiometric acetylene-oxygen mixture demonstrate the noticeable deviations of the experimental profile of energy release in multifront detonation waves from the profiles of available concepts of idealized one-dimensional detonation models. Also, it was established that the instabilities introduced by the initiator play a certain role in the total kinetic-gasdynamic instability of the chemical active mixture (for example, the sausage electromagnetic instability of an electric conductor with a current, the Meshkov-Richtmeier instability at the expanding boundary of the liquid metal of an exploding wire, etc.).

KW - initiation

KW - shock wave

KW - detonation

KW - energy release

KW - combustible mixture

KW - strong explosion model

KW - Energy release

KW - Detonation

KW - Strong explosion model

KW - Combustible mixture

KW - Initiation

KW - Shock wave

UR - http://www.scopus.com/inward/record.url?scp=85126942495&partnerID=8YFLogxK

U2 - 10.1615/InterfacPhenomHeatTransfer.2021037079

DO - 10.1615/InterfacPhenomHeatTransfer.2021037079

M3 - Article

VL - 9

SP - 15

EP - 28

JO - Interfacial Phenomena and Heat Transfer

JF - Interfacial Phenomena and Heat Transfer

SN - 2169-2785

IS - 2

M1 - 3

ER -

ID: 35409395