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Combustion Science and Technology Volume 182, 2010 - Issue 11-12: The 22nd International Colloquium on the Dynamics of Explosions and Reactive Systems
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Original Articles

A Shock-Tube and Modeling Study of Soot Formation During Pyrolysis of Propane, Propane/Toluene and Rich Propane/Oxygen Mixtures

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 1645-1671 | Received 14 Oct 2009, Accepted 02 Apr 2010, Published online: 27 Oct 2010

Citations (20)

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Read on this site (3)

P. A. Vlasov, I. V. Zhiltsova, V. N. Smirnov, A. M. Tereza, G. L. Agafonov & D. I. Mikhailov. (2018) Chemical Ionization of n-Hexane, Acetylene, and Methane behind Reflected Shock Waves. Combustion Science and Technology 190:1, pages 57-81.
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G. L. Agafonov, D. I. Mikhailov, V. N. Smirnov, A. M. Tereza, P. A. Vlasov & I. V. Zhiltsova. (2016) Shock Tube and Modeling Study of Chemical Ionization in the Oxidation of Acetylene and Methane Mixtures. Combustion Science and Technology 188:11-12, pages 1815-1830.
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G.L. Agafonov, V.N. Smirnov & P.A. Vlasov. (2012) Effect of Iron Pentacarbonyl on Soot Formation Behind Shock Waves. Combustion Science and Technology 184:10-11, pages 1838-1861.
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Articles from other publishers (17)

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.
Crossref
Zuhayr Pasha Mohammed, Ramees Khaleel Rahman, Michael Pierro, Justin Urso & Subith Vasu. DME-Propane Ignition Delay Time Measurements at Mixing Controlled Compression Ignition Engine-Relevant Conditions. DME-Propane Ignition Delay Time Measurements at Mixing Controlled Compression Ignition Engine-Relevant Conditions.
Junyu Mei, Yuxin Zhou, Xiaoqing You & Chung K. Law. (2021) Formation of nascent soot during very fuel-rich oxidation of ethylene at low temperatures. Combustion and Flame 226, pages 31-41.
Crossref
Xiaomei Cao, Chunming Gong, Jianwen Liu, Huimin Ma, Zerong Li, Jingbo Wang & Xiangyuan Li. (2020) Development of a detailed pyrolysis mechanism for C 1 –C 4 hydrocarbons under a wide range of temperature and pressure . International Journal of Chemical Kinetics 52:11, pages 796-821.
Crossref
Maysam Molana, Joshua Abraham Piehl & Omid Samimi-Abianeh. (2020) Rapid Compression Machine Ignition Delay Time Measurements under Near-Constant Pressure Conditions. Energy & Fuels 34:9, pages 11417-11428.
Crossref
Samuel BarakRamees K. RahmanSneha NeupaneErik NinnemannFarhan ArafinAndrew LaichAnthony C. TerraccianoSubith S. Vasu. (2020) Measuring the effectiveness of high-performance Co-Optima biofuels on suppressing soot formation at high temperature. Proceedings of the National Academy of Sciences 117:7, pages 3451-3460.
Crossref
G L Agafonov, P A Vlasov, V N Smirnov, A M Tereza, A A Garmash & V V Shumova. (2019) An experimental and simulation study of the effect of acetone and propane additives on soot formation in acetylene pyrolysis behind reflected shock waves. Journal of Physics: Conference Series 1147, pages 012044.
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Alexander Drakon, Alexander Eremin, Ekaterina Mikheyeva, Bo Shu, Mustapha Fikri & Christof Schulz. (2018) Soot formation in shock-wave-induced pyrolysis of acetylene and benzene with H2, O2, and CH4 addition. Combustion and Flame 198, pages 158-168.
Crossref
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.
Crossref
G. L. Agafonov, I. V. Bilera, Y. A. Kolbanovsky, V. N. Smirnov, A. M. Tereza & P. A. Vlasov. 2017. 30th International Symposium on Shock Waves 1. 30th International Symposium on Shock Waves 1 321 325 .
P. A. Vlasov, V. N. Smirnov, A. M. Tereza, G. L. Agafonov, Yu. A. Kolbanovskii, I. V. Bilera, D. I. Mihailov & I. V. Zhil’tsova. (2017) Effect of pressure on soot formation in the pyrolysis of n-hexane and the oxidation of fuel-rich mixtures of n-heptane behind reflected shock waves. Russian Journal of Physical Chemistry B 10:6, pages 912-921.
Crossref
G. L. Agafonov, I. V. Bilera, P. A. Vlasov, I. V. Zhil’tsova, Yu. A. Kolbanovskii, V. N. Smirnov & A. M. Tereza. (2016) Unified kinetic model of soot formation in the pyrolysis and oxidation of aliphatic and aromatic hydrocarbons in shock waves. Kinetics and Catalysis 57:5, pages 557-572.
Crossref
G. L. Agafonov, I. V. Bilera, P. A. Vlasov, Yu. A. Kolbanovskii, V. N. Smirnov & A. M. Tereza. (2016) Formation of soot particles in pyrolysis and oxidation of aliphatic and aromatic hydrocarbons: Experiments and detailed kinetic modeling. Russian Journal of Physical Chemistry B 10:4, pages 587-594.
Crossref
G. L. Agafonov, I. V. Bilera, P. A. Vlasov, Yu. A. Kolbanovskii, V. N. Smirnov & A. M. Tereza. (2015) Soot formation during the pyrolysis and oxidation of acetylene and ethylene in shock waves. Kinetics and Catalysis 56:1, pages 12-30.
Crossref
G.L. Agafonov, A.V. Lyubimov, V.N. Smirnov, I.L. Sokolova, A.M. Tereza & P.A. Vlasov. (2015) Influence of Various Promotors and Inhibitors of Soot Formation on the Production of Soot Nuclei. Physics Procedia 72, pages 79-84.
Crossref
R. N. Magomedov, A. V. Nikitin, V. I. Savchenko & V. S. Arutyunov. (2014) Production of gas mixtures with regulated ratios between ethylene and carbon monoxide by the gas-phase oxidative cracking of light alkanes. Kinetics and Catalysis 55:5, pages 556-565.
Crossref

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