P. M. Krishenik, S. V. Kostin, S. A. Rogachev, “Thermal energy accumulation during passage of a combustion waves through a wedge-shaped barrier”, Fizika Goreniya i Vzryva, 57:2 (2021), 60–67; Combustion, Explosion and Shock Waves, 57:2 (2021), 182

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Fizika Goreniya i Vzryva, 2021, Volume 57, Issue 2, Pages 60–67
DOI: https://doi.org/10.15372/FGV20210206 (Mi fgv749)

This article is cited in 7 scientific papers (total in 7 papers)

Thermal energy accumulation during passage of a combustion waves through a wedge-shaped barrier

P. M. Krishenik, S. V. Kostin, S. A. Rogachev

Merzhanov Institute of Structural Macrokinetics and Problems of Materials Science, Russian Academy of Sciences, 142432, Chernogolovka, Russia

Full-text PDF (283 kB) Citations (7)

DOI: https://doi.org/10.15372/FGV20210206

Abstract: A computational and experimental study of the passage of a gasless combustion wave through a wedge-shaped inert barrier was performed. The stability of the transient combustion process to a change in the thermophysical, geometric parameters of the barrier and the energy-kinetic parameters of chemically active layers was studied. By the region of stable transient combustion process is meant the range of parameters in which the passage of the combustion wave through the contact boundary ends with the establishment of a steady-state mode of its propagation along the ignited composition. The dynamics of transient combustion under near-critical conditions of its existence was investigated.

Keywords: transient combustion, layered systems, combustion stability, flame blowout, heat loss.

Received: 13.03.2020
Revised: 03.06.3030
Accepted: 08.06.2020

English version:
Combustion, Explosion and Shock Waves, 2021, Volume 57, Issue 2, Pages 182–189
DOI: https://doi.org/10.1134/S0010508221020064

Bibliographic databases:

Document Type: Article

UDC: 544.452:544.427

Language: Russian

Citation: P. M. Krishenik, S. V. Kostin, S. A. Rogachev, “Thermal energy accumulation during passage of a combustion waves through a wedge-shaped barrier”, Fizika Goreniya i Vzryva, 57:2 (2021), 60–67; Combustion, Explosion and Shock Waves, 57:2 (2021), 182–189

Citation in format AMSBIB

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\paper Thermal energy accumulation during passage of a combustion waves through a wedge-shaped barrier

\jour Fizika Goreniya i Vzryva

\yr 2021

\vol 57

\issue 2

\pages 60--67

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\crossref{https://doi.org/10.15372/FGV20210206}

\elib{https://elibrary.ru/item.asp?id=44866636}

\transl

\jour Combustion, Explosion and Shock Waves

\yr 2021

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\issue 2

\pages 182--189

\crossref{https://doi.org/10.1134/S0010508221020064}

Linking options:

https://www.mathnet.ru/eng/fgv749

https://www.mathnet.ru/eng/fgv/v57/i2/p60

This publication is cited in the following 7 articles:

Deepshikha Shekhawat, Manuela Breiter, Joachim Döll, Farshad Daneshpazhooneja, Anne Jung, Jörg Pezoldt, “Transfer of Self‐Sustained Reactions between Thermally Coupled Reactive Material Elements”, Adv Eng Mater, 2024
A. P. Aldushin, P. M. Krishenik, S. A. Rogachev, “Ignition of a Gasless Mixture Array by a Combustion Wave”, Russ. J. Phys. Chem. B, 18:3 (2024), 692
A. P. Aldushin, P. M. Krishenik, S. A. Rogachev, “Ignition of a gasless mixture array by a combustion wave”, Himičeskaâ fizika, 43:5 (2024), 27
S. V. Kostin, P. M. Krishenik, “Combustion stability of mixtures of titanium with soot to the local excess of the component”, Combustion, Explosion and Shock Waves, 59:5 (2023), 545–552
A. P. Aldushin, P. M. Krishenik, S. A. Rogachev, “Combustion Initiation in Gas-Free Mixture by Local Hot Spot”, Int. J Self-Propag. High-Temp. Synth., 32:3 (2023), 188
R. M. Gabbasov, V. D. Kitler, V. G. Prokof'ev, A. M. Shul'pekov, “Propagation of a gas-free combustion wave through a perforated barrier”, Combustion, Explosion and Shock Waves, 58:6 (2022), 657–664
R. M. Gabbasov, V. D. Kitler, V. G. Prokof'ev, A. M. Shul'pekov, “Combustion wave propagation in conjugated systems of a powder mixture of $\mathrm{Ni}+\mathrm{Al}+\mathrm{Al}_2\mathrm{O}_3$ and a metal plate”, Combustion, Explosion and Shock Waves, 58:2 (2022), 184–189

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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