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Combustion Science and Technology Volume 115, 1996 - Issue 4-6
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Original Articles

Combustion Wave Microstructure in Heterogeneous Gasless Systems

A. S. MUKASYAN Russian Academy of Sciences, Institute of Structural Macrokinetics, Chemogolovka, 142 432, Russia
,
S. HWANG Department of Chemical Engineering, University of Notre Dame, Notre Dame, IN, 46556, U.S.A
,
A. E. SYTCHEV Russian Academy of Sciences, Institute of Structural Macrokinetics, Chemogolovka, 142 432, Russia
,
A. S. ROGACHEV Russian Academy of Sciences, Institute of Structural Macrokinetics, Chemogolovka, 142 432, Russia
,
A. G. MERZHANOV Russian Academy of Sciences, Institute of Structural Macrokinetics, Chemogolovka, 142 432, Russia
&
A. VARMA Department of Chemical Engineering, University of Notre Dame, Notre Dame, IN, 46556, U.S.AView further author information
Pages 335-353 | Received 28 Dec 1995, Published online: 09 Jun 2010

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K.G. SHKADINSKY, G.V. SHKADINSKAYA & B.J. MATKOWSKY. (2000) Slowly and Rapidly Propagating “Liquid Flames” in Gravitational Fields. Combustion Science and Technology 157:1, pages 21-62.
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S. Hwang, A. S. Mukasyan, A. S. Rogachev & A. Varma. (1997) Combustion Wave Microstructure in Gas-Solid Reaction Systems:Experiments and Theory. Combustion Science and Technology 123:1-6, pages 165-184.
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Articles from other publishers (21)

Samuel Goroshin, Jan Palečka & Jeffrey M. Bergthorson. (2022) Some fundamental aspects of laminar flames in nonvolatile solid fuel suspensions. Progress in Energy and Combustion Science 91, pages 100994.
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Abolfazl Afzalabadi, Alireza Khoeini Poorfar, Mehdi Bidabadi, Hesam Moghadasi, Simone Hochgreb, Alireza Rahbari & Charles Dubois. (2017) Study on hybrid combustion of aero-suspensions of boron-aluminum powders in a quiescent reaction medium. Journal of Loss Prevention in the Process Industries 49, pages 645-651.
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Mehdi Bidabadi & Alireza Khoeini Poorfar. (2017) Modeling flame propagation speed and quenching distance of aluminum dust flame with spatially random distribution of particles. Journal of Central South University 24:1, pages 81-89.
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Mehdi Bidabadi, Mohammad Mohebbi, Alireza Khoeini Poorfar, Simone Hochgreb, Cheng-Xian Lin, Saeed Amrollahy Biouki & Mohammadhadi Hajilou. (2016) Modeling quenching distance and flame propagation speed through an iron dust cloud with spatially random distribution of particles. Journal of Loss Prevention in the Process Industries 43, pages 138-146.
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A. S. Rogachev & A. S. Mukas’yan. (2015) Experimental verification of discrete models for combustion of microheterogeneous compositions forming condensed combustion products (Review). Combustion, Explosion, and Shock Waves 51:1, pages 53-62.
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Mehdi Bidabadi, Saeedreza Zadsirjan & Seyed Alireza Mostafavi. (2014) The discrete heat source approach to dust cloud combustion. Heat and Mass Transfer 50:6, pages 759-767.
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Mehdi Bidabadi, Saeedreza Zadsirjan & Seyed Alireza Mostafavi. (2013) Propagation and extinction of dust flames in narrow channels. Journal of Loss Prevention in the Process Industries 26:1, pages 172-176.
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A. S. Rogachev & F. Baras. (2009) Dynamical and statistical properties of high-temperature self-propagating fronts: An experimental study. Physical Review E 79:2.
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A. G. Merzhanov & I. P. Borovinskaya. (2008) Historical retrospective of SHS: An autoreview. International Journal of Self-Propagating High-Temperature Synthesis 17:4, pages 242-265.
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A.S. Mukasyan & A.S. Rogachev. (2008) Discrete reaction waves: Gasless combustion of solid powder mixtures. Progress in Energy and Combustion Science 34:3, pages 377-416.
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S. A. Rashkovskii. (2005) Hot-spot combustion of heterogeneous condensed mixtures. Thermal percolation. Combustion, Explosion, and Shock Waves 41:1, pages 35-46.
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Alexander S. Mukasyan, Alexander S. Rogachev, Michael Mercedes & Arvind Varma. (2004) Microstructural correlations between reaction medium and combustion wave propagation in heterogeneous systems. Chemical Engineering Science 59:22-23, pages 5099-5105.
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Arvind Varma & Alexander S. Mukasyan. (2004) Combustion synthesis of advanced materials: Fundamentals and applications. Korean Journal of Chemical Engineering 21:2, pages 527-536.
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Alberto Cincotti, Giovanni Murgia, Roberto Orrù & Giacomo Cao. (2001) On the Modeling of the Copper Block Combustion Front Quenching Technique To Investigate Solid−Solid Self-Propagating High-Temperature Reactions. Industrial & Engineering Chemistry Research 40:16, pages 3451-3458.
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A. Varma, A.S. Mukasyan & S. Hwang. (2001) Dynamics of self-propagating reactions in heterogeneous media: experiments and model. Chemical Engineering Science 56:4, pages 1459-1466.
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Alexander S. Mukasyan, Alexander S. Rogache & Arvind Varna. (2000) Microstructural mechanism of combustion in heterogeneous reaction media. Proceedings of the Combustion Institute 28:1, pages 1413-1419.
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Alexander S. Mukasyan, Alexander S. Rogachev & Arvind Varma. (2004) Mechanisms of pulsating combustion during synthesis of advanced materials. AIChE Journal 45:12, pages 2580-2585.
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Stephen Hwang, Alexander S. Mukasyan & Arvind Varma. (1998) Mechanisms of combustion wave propagation in heterogeneous reaction systems. Combustion and Flame 115:3, pages 354-363.
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Arvind Varma, Alexander S. Rogachev, Alexander S. Mukasyan & Stephen Hwang. (1998) Complex behavior of self-propagating reaction waves in heterogeneous media. Proceedings of the National Academy of Sciences 95:19, pages 11053-11058.
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Arvind Varma, Alexander S. Rogachev, Alexander S. Mukasyan & Stephen Hwang. 1998. 79 226 .
Alexander Mukasyan, Aleksey Pelekh, Arvind Varma, Alexander Rogachev & Andrew Jenkins. (1997) Effects of Gravity on Combustion Synthesis in Heterogeneous Gasless Systems. AIAA Journal 35:12, pages 1821-1828.
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