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Combustion Science and Technology Volume 186, 2014 - Issue 7
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Original Articles

Surface Burning on a Foam Metal Matrix with the Ceramic Coating

Vladimir M. ShmelevCombustion Laboratory, Institute of Chemical Physics RAS, Moscow, RussiaCorrespondence[email protected]
Pages 943-952 | Received 06 Oct 2013, Accepted 30 Jan 2014, Published online: 02 Jun 2014

Citations (15)

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Roman Fursenko & Anatoly Maznoy. (2020) A simple model with detailed chemistry for estimation of NO and CO emission of porous burners. Combustion Theory and Modelling 24:2, pages 262-278.
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Articles from other publishers (14)

A. R. Akhunyanov, A. V. Arutyunov, P. A. Vlasov, V. N. Smirnov & V. S. Arutyunov. (2023) Effect of СО2 Additives on the Noncatalytic Conversion of Natural Gas into Syngas and Hydrogen. Kinetics and Catalysis 64:2, pages 135-153.
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Xue-Cheng Xu, Xiao-Long Zheng, Yuan-Yuan Chen, Chuan-An Lian, Yan-Ying Zhang, Ruo-Nan Yang & Ben-Wen Li. (2023) Effects of infrared radiant coating on ceramic porous media combustion using simulated natural gas and air mixture. Thermal Science and Engineering Progress 37, pages 101614.
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O.V. Kolisnichenko, Yu.M. Tyurin & M.A. Poleshchuk. (2022) Deposition of ceramic coating on the surface of a porous matrix of infrared gas torch. The Paton Welding Journal 2022:10, pages 37-41.
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O.V. Kolisnichenko, Yu.M. Tyurin & M.A. Poleshchuk. (2022) Deposition of ceramic coating on the surface of a porous matrix of infrared gas torch. Avtomatičeskaâ svarka (Kiev) 2022:10, pages 42-46.
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Ayat Gharehghani, Kasra Ghasemi, Majid Siavashi & Sadegh Mehranfar. (2021) Applications of porous materials in combustion systems: A comprehensive and state-of-the-art review. Fuel 304, pages 121411.
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V. M. Shmelev. (2020) Combustion of a Mixed Mixture in a Slot Matrix. Russian Journal of Physical Chemistry B 14:4, pages 670-677.
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A. Maznoy, A. Kirdyashkin, V. Kitler, N. Pichugin, V. Salamatov & K. Tcoi. (2019) Self-propagating high-temperature synthesis of macroporous B2+L12 Ni-Al intermetallics used in cylindrical radiant burners. Journal of Alloys and Compounds 792, pages 561-573.
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N. Ya. Vasilik, A. V. Porsin & V. M. Shmelev. (2019) Environmental Characteristics of Infrared Burners with a Catalytic Radiation Screen. Russian Journal of Physical Chemistry B 13:1, pages 101-106.
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A Maznoy & N Pichugin. (2018) Environmental and radiative characteristics of cylindrical Ni-Al burners for LPG combustion. Journal of Physics: Conference Series 1115, pages 042030.
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Anatoly Maznoy, Alexander Kirdyashkin, Sergey Minaev, Alexey Markov, Nikita Pichugin & Evgeny Yakovlev. (2018) A study on the effects of porous structure on the environmental and radiative characteristics of cylindrical Ni-Al burners. Energy 160, pages 399-409.
Crossref
Vladimir Shmelev. (2017) Radiation Efficiency of Surface Burning on a Foam Metal Matrix with Ceramic Coating. Energy and Power Engineering 09:07, pages 366-385.
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N. Ya. Vasilik & V. M. Shmelev. (2016) Effect of a ceramic coating on the characteristic of surface combustion. Russian Journal of Physical Chemistry B 10:5, pages 774-779.
Crossref
V. M. Shmelev & V. M. Nikolaev. (2016) Surface combustion on a ceramics-coated foamed-metal matrix. Russian Journal of Physical Chemistry B 10:2, pages 263-271.
Crossref
Xue-Cheng Xu, Xiao-Long Zheng, Yuan-Yuan Chen, Chuan-An Lian, Yan-Ying Zhang, Ruo-Nan Yang & Ben-Wen Li. (2022) Effects of Infrared Radiant Coating on Porous Media Combustion Using Simulated Natural Gas and Air Mixture. SSRN Electronic Journal.
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