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Combustion Science and Technology Volume 184, 2012 - Issue 10-11: The 23rd International Colloquium on the Dynamics of Explosions and Reactive Systems
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Original Articles

Effect of Iron Pentacarbonyl on Soot Formation Behind Shock Waves

G. L. Agafonov Semenov Institute of Chemical Physics, Russian Academy of Sciences, Moscow, Russia
,
V. N. Smirnov Semenov Institute of Chemical Physics, Russian Academy of Sciences, Moscow, Russia
&
P. A. Vlasov Semenov Institute of Chemical Physics, Russian Academy of Sciences, Moscow, RussiaCorrespondence[email protected]
Pages 1838-1861 | Received 25 Oct 2011, Accepted 24 Mar 2012, Published online: 01 Nov 2012

Citations (12)

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P. A. Vlasov, G. L. Agafonov, D. I. Mikhailov, V. N. Smirnov, A. M. Tereza, I. V. Zhiltsova, A. E. Sychev, A. S. Shchukin, D. N. Khmelenin, A. N. Streletskii, A. B. Borunova & S. V. Stovbun. (2019) Shock-tube study of the formation of iron, carbon, and iron–carbon binary nanoparticles: experiment and detailed kinetic simulations. Combustion Science and Technology 191:2, pages 243-262.
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Articles from other publishers (11)

A. R. Akhunyanov, P. A. Vlasov, V. N. Smirnov, A. V. Arutyunov, D. I. Mikhailov & V. S. Arutyunov. (2023) Influence of Soot Particles on the Gas-Phase Methane Conversion into Synthesis Gas: The Role of H2O and CO2 Additives. Kinetics and Catalysis 64:6, pages 700-715.
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A. R. Akhunyanov, P. A. Vlasov, V. N. Smirnov, A. V. Arutyunov, D. I. Mikhailov & V. S. Arutyunov. (2023) Influence of Soot Particles on the Gas-Phase Methane Conversion into Synthesis-Gas. The Role of H<sub>2</sub>O and CO<sub>2</sub> Additives. Кинетика и катализ 64:6, pages 681-696.
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Dun Li, Jianmin Gao, Ziqi Zhao, Qian Du, Heming Dong & Zhaoyang Cui. (2022) Effects of iron on coal pyrolysis-derived soot formation. Energy 249, pages 123515.
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Vladimir N. Smirnov & Pavel A. Vlasov. (2021) Effects of hydrocarbon impurities, vibrational relaxation, and boundary-layer-induced pressure rise on the ignition of H2–O2‒Ar mixtures behind reflected shock waves. International Journal of Hydrogen Energy 46:14, pages 9580-9594.
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Yu Wang & Suk Ho Chung. (2019) Soot formation in laminar counterflow flames. Progress in Energy and Combustion Science 74, pages 152-238.
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E. V. Gurentsov, A. V. Eremin & S. A. Musikhin. (2019) Study of Evaporation of Laser-Heated Iron–Carbon Nanoparticles Using Analysis of Thermal Radiation. Technical Physics 64:8, pages 1133-1139.
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Vladimir N. Smirnov & Pavel A. Vlasov. (2019) Kinetic and thermochemical characteristics of the dissociation of Mo(CO) 6 and W(CO) 6 . International Journal of Chemical Kinetics 51:3, pages 232-245.
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P A Vlasov, V N Smirnov, A M Tereza, A A Cherepanov, A E Sychev, A S Shchukin, A A Garmash, A N Streletskii & A B Borunova. (2018) Effect of iron pentacarbonyl additives on the nucleation of soot particles during the pyrolysis of ethylene in shock waves. Journal of Physics: Conference Series 946, pages 012072.
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A V Eremin, E V Gurentsov & S A Musikhin. (2018) Diagnostics of carbon-encapsulated iron nanoparticles by laser heating. Journal of Physics: Conference Series 946, pages 012068.
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A.V. Eremin, E.V. Gurentsov & S.A. Musikhin. (2017) Temperature influence on the properties of carbon-encapsulated iron nanoparticles forming in pyrolysis of gaseous precursors. Journal of Alloys and Compounds 727, pages 711-720.
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S. N. Kopylov & T. V. Gubina. (2015) Inhibiting the combustion of air–acetylene mixtures. Russian Journal of Physical Chemistry A 90:1, pages 43-47.
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