S. A. Rashkovskiy, “Hot-spot combustion of heterogeneous condensed mixtures. Thermal percolation”, Fizika Goreniya i Vzryva, 41:1 (2005), 41–54; Combustion, Explosion and Shock Waves, 41:1 (2005), 35

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Fizika Goreniya i Vzryva, 2005, Volume 41, Issue 1, Pages 41–54 (Mi fgv1656)

This article is cited in 15 scientific papers (total in 15 papers)

Hot-spot combustion of heterogeneous condensed mixtures. Thermal percolation

S. A. Rashkovskiy

Institute of Problems in Mechanics, Russian Academy of Sciences, 117526, Moscow

Citations (15)

Abstract: A model of combustion of heterogeneous condensed mixtures composed of reactive particles separated by an inert heat-conducting substance is considered. Propagation of the reaction in a one-dimensional periodic system of point reaction cells connected by inert thermal bridges is examined. The burning rate is determined as a function of the basic parameters of the system, and stability of the steady combustion mode is studied. It is shown that there exists a range of parameters in which the reaction propagates in an unstable manner. Combustion of the system in the instability domain is examined. It is shown that the reaction propagation loses its stability many times as the adiabatic temperature of the system decreases; in this case, the existing unsteady mode is replaced by another, more complicated mode, and the alteration of the regimes in the examined systems always proceeds as a period-doubling bifurcation. Beginning from a certain value of adiabatic temperature, the reaction-propagation process becomes stochastic. In the systems examined, there exists an ultimate adiabatic temperature, below which self-sustained propagation of the reaction in the system becomes impossible.

Keywords: thermite systems, condensed mixtures, hot-spot combustion, instability, bifurcation.

Received: 20.05.2003
Accepted: 30.03.2004

English version:
Combustion, Explosion and Shock Waves, 2005, Volume 41, Issue 1, Pages 35–46
DOI: https://doi.org/10.1007/s10573-005-0004-4

Bibliographic databases:

Document Type: Article

UDC: 536.46

Language: Russian

Citation: S. A. Rashkovskiy, “Hot-spot combustion of heterogeneous condensed mixtures. Thermal percolation”, Fizika Goreniya i Vzryva, 41:1 (2005), 41–54; Combustion, Explosion and Shock Waves, 41:1 (2005), 35–46

Citation in format AMSBIB

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\by S.~A.~Rashkovskiy

\paper Hot-spot combustion of heterogeneous condensed mixtures. Thermal percolation

\jour Fizika Goreniya i Vzryva

\yr 2005

\vol 41

\issue 1

\pages 41--54

\mathnet{http://mi.mathnet.ru/fgv1656}

\elib{https://elibrary.ru/item.asp?id=16532285}

\transl

\jour Combustion, Explosion and Shock Waves

\yr 2005

\vol 41

\issue 1

\pages 35--46

\crossref{https://doi.org/10.1007/s10573-005-0004-4}

Linking options:

https://www.mathnet.ru/eng/fgv1656

https://www.mathnet.ru/eng/fgv/v41/i1/p41

This publication is cited in the following 15 articles:

Guanghua Liu, Kexin Chen, Jiangtao Li, Combustion Synthesis, 2025, 29
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
Samuel Goroshin, Jan Palečka, Jeffrey M. Bergthorson, “Some fundamental aspects of laminar flames in nonvolatile solid fuel suspensions”, Progress in Energy and Combustion Science, 91 (2022), 100994
Naine Tarun Bharat, Debi Prasad Mishra, Manoj Kumar Gundawar, “Effect of Heat Loss on Propagation Limits of Combustion Fronts in Heterogeneous Mixtures”, Combustion Science and Technology, 192:3 (2020), 391
S Yu Ananev, B D Yankovsky, A Yu Dolgoborodov, “Qualitative characteristics of the results of experimental studies of initiation and combustion of mechanically activated mixtures of aluminum and copper oxide powders”, J. Phys.: Conf. Ser., 1147 (2019), 012035
Sergey A. Rashkovskiy, Alexandr Yu. Dolgoborodov, “Structure and Behavior of Gasless Combustion Waves in Powders”, Combustion Science and Technology, 189:12 (2017), 2220
Tarun Bharath Naine, Manoj Kumar Gundawar, “Correlation between discrete probability and reaction front propagation rate in heterogeneous mixtures”, Indian J Phys, 91:9 (2017), 1061
G. G. Savenkov, V. A. Morozov, M. A. Ilyushin, I. A. Oskin, V. A. Bragin, A. S. Kozlov, “Influence of nanosized carbon forms on the properties and susceptibility of energy-saturated cobalt salt to a pulsed electron beam”, Tech. Phys., 62:11 (2017), 1703–1708
Tarun Bharath Naine, Manoj Kumar Gundawar, Duc Pham, “Effects of disordered microstructure and heat release on propagation of combustion front”, Cogent Engineering, 3:1 (2016), 1185823
Kirill L. Klimenok, Sergey A. Rashkovskiy, “Discrete model of gas-free spin combustion of a powder mixture”, Phys. Rev. E, 91:1 (2015)
Naine Tarun Bharath, Sergey A. Rashkovskiy, Surya P. Tewari, Manoj Kumar Gundawar, “Dynamical and statistical behavior of discrete combustion waves: A theoretical and numerical study”, Phys. Rev. E, 87:4 (2013)
Shawn C. Stacy, Michelle L. Pantoya, “Laser Ignition of Nano‐Composite Energetic Loose Powders”, Propellants Explo Pyrotec, 38:3 (2013), 441
Francois-David Tang, Andrew J. Higgins, Samuel Goroshin, “Propagation limits and velocity of reaction-diffusion fronts in a system of discrete random sources”, Phys. Rev. E, 85:3 (2012)
Sergey A. Rashkovskiy, G. Manoj Kumar, Surya P. Tewari, “One-Dimensional Discrete Combustion Waves in Periodical and Random Systems”, Combustion Science and Technology, 182:8 (2010), 1009
Sergey Rashkovskiy, 12th INTERNATIONAL CERAMICS CONGRESS PART B, 63, 12th INTERNATIONAL CERAMICS CONGRESS PART B, 2010, 213

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

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