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Combustion Science and Technology Volume 123, 1997 - Issue 1-6
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Original Articles

Combustion Wave Microstructure in Gas-Solid Reaction Systems:Experiments and Theory

S. Hwang Department of Chemical Engineering, University of Notre Dame Notre Dame, IN 46556, USA
,
A. S. Mukasyan Department of Chemical Engineering, University of Notre Dame Notre Dame, IN 46556, USA
,
A. S. Rogachev Department of Chemical Engineering, University of Notre Dame Notre Dame, IN 46556, USA
&
A. Varma Department of Chemical Engineering, University of Notre Dame Notre Dame, IN 46556, USA
Pages 165-184 | Received 27 Feb 1996, Published online: 22 Sep 2010

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Jian Ju, Jie Liu & Hua Guan. (2019) Luminescent Intensity and Thermal Studies against Magnesium Particle Size and Content for Magnesium-Strontium Nitrate-Phenolic Resin Pyrotechnic System. Combustion Science and Technology 191:12, pages 2101-2111.
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Joshua M. Pauls, Christopher E. Shuck, Alexander S. Rogachev & Alexander S. Mukasyan. (2018) Micro-heterogeneous regimes for gasless combustion of composite materials. Combustion Science and Technology 190:5, pages 893-908.
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Articles from other publishers (32)

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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R. F. Mikalsen, B. C. Hagen & V. Frette. (2018) Synchronized smoldering combustion. EPL (Europhysics Letters) 121:5, pages 50002.
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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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Hossein Azizi, Sebastian Gurevich & Nikolas Provatas. (2017) Analysis of thermodiffusive cellular instabilities in continuum combustion fronts. Physical Review E 95:1.
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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, Saeed Amrollahy Biouki, Ebrahim Yaghoubi, Abel Rouboa, Alireza Khoeini Poorfar & Mohammad Mohebbi. (2016) Reaction-diffusion fronts of aluminum dust cloud in a system of random discrete sources. Energy 107, pages 639-647.
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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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H.P. Li. (2008) The Study of Ignition Parameters for Energy Efficient Processing of High Temperature Non-Oxide Ceramics by the Micropyretic Synthesis Route. Key Engineering Materials 395, pages 1-14.
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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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H. P. Li. (2007) A numerical study of the effect of heterogeneities in composition on micropyretic synthesis. Journal of Materials Science 42:4, pages 1177-1183.
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H P Li. (2006) A change in the propagation velocity during the heterogeneous micropyretic/combustion synthesis. Modelling and Simulation in Materials Science and Engineering 14:8, pages 1293-1305.
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Arvind Varma, Victor Diakov & Evgeny Shafirovich. (2005) Heterogeneous combustion: Recent developments and new opportunities for chemical engineers. AIChE Journal 51:11, pages 2876-2884.
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Chuan Lu & Yannis C. Yortsos. (2005) Pattern formation in reverse filtration combustion. Physical Review E 72:3.
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Cochepin Benoit, Heian Ellen, Karnatak Nikhil, Vrel Dominique & Dubois Sylvain. (2005) TiC nucleation/growth processes during SHS reactions. Powder Technology 157:1-3, pages 92-99.
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H.P. Li. (2005) Influence of ignition parameters on micropyretic synthesis of NiAl compound. Materials Science and Engineering: A 404:1-2, pages 146-152.
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A.M. Locci, A. Cincotti, F. Delogu, R. Orrù & G. Cao. (2011) Combustion synthesis of metal carbides: Part I. Model development. Journal of Materials Research 20:5, pages 1257-1268.
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Chuan Lu & Yannis C. Yortsos. (2005) Dynamics of forward filtration combustion at the pore‐network level. AIChE Journal 51:4, pages 1279-1296.
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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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A.M. Locci, A. Cincotti, F. Delogu, R. Orrù & G. Cao. (2004) Advanced modelling of self-propagating high-temperature synthesis: the case of the Ti–C system. Chemical Engineering Science 59:22-23, pages 5121-5128.
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H.P. Li. (2004) A numerical study of the heterogeneous porosity effect on self-propagating high-temperature synthesis (SHS). Materials Research Bulletin 39:12, pages 1881-1894.
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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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J. Kostogorova, H. J. Viljoen & A. Shteinberg. (2004) Role of particle geometry and surface contacts in solid‐phase reactions. AIChE Journal 48:8, pages 1794-1803.
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Chuan Lu & Yannis C. Yortsos. (2001) A Pore-Network Model of In-Situ Combustion in Porous Media. A Pore-Network Model of In-Situ Combustion in Porous Media.
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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Aleksey E. Pelekh, Alexander S. Mukasyan & Arvind Varma. (1999) Kinetics of Rapid High-Temperature Reactions:  Titanium−Nitrogen System. Industrial & Engineering Chemistry Research 38:3, pages 793-798.
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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 .

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