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Fizika Goreniya i Vzryva, 2016, Volume 52, Issue 3, Pages 72–78
DOI: https://doi.org/10.15372/FGV20160310
(Mi fgv325)
 

This article is cited in 13 scientific papers (total in 13 papers)

Coal gasification by a mixture of air and carbon dioxide in the filtration combustion mode

V. M. Kislov, S. V. Glazov, E. A. Salgansky, Yu. Yu. Kolesnikova, M. V. Salganskaya

Institute of Problems of Chemical Physics, Russian Academy of Sciences, Chernogolovka, 142432, Russia
Abstract: This paper presents the results of a numerical and experimental study of gasification of carbonaceous materials in the filtration combustion mode using mixtures of air with CO2 as an oxidizer. The results obtained are compared with the results on gasification of carbonaceous materials by a steam-air mixture. It is shown that the replacement of steam in the gaseous oxidizer by an equal volume CO2 leads to a marked reduction in the combustion temperature. The maximum calorific values of the product gas in coal gasification by a mixture of air and CO2 are close to the values obtained for steam-air gasification.
Keywords: filtration combustion, gasification, coal, power, solid fuel.
Received: 09.06.2015
Revised: 23.10.2015
English version:
Combustion, Explosion and Shock Waves, 2016, Volume 52, Issue 3, Pages 320–325
DOI: https://doi.org/10.1134/S0010508216030102
Bibliographic databases:
Document Type: Article
UDC: 544.45
Language: Russian
Citation: V. M. Kislov, S. V. Glazov, E. A. Salgansky, Yu. Yu. Kolesnikova, M. V. Salganskaya, “Coal gasification by a mixture of air and carbon dioxide in the filtration combustion mode”, Fizika Goreniya i Vzryva, 52:3 (2016), 72–78; Combustion, Explosion and Shock Waves, 52:3 (2016), 320–325
Citation in format AMSBIB
\Bibitem{KisGlaSal16}
\by V.~M.~Kislov, S.~V.~Glazov, E.~A.~Salgansky, Yu.~Yu.~Kolesnikova, M.~V.~Salganskaya
\paper Coal gasification by a mixture of air and carbon dioxide in the filtration combustion mode
\jour Fizika Goreniya i Vzryva
\yr 2016
\vol 52
\issue 3
\pages 72--78
\mathnet{http://mi.mathnet.ru/fgv325}
\crossref{https://doi.org/10.15372/FGV20160310}
\elib{https://elibrary.ru/item.asp?id=26136204}
\transl
\jour Combustion, Explosion and Shock Waves
\yr 2016
\vol 52
\issue 3
\pages 320--325
\crossref{https://doi.org/10.1134/S0010508216030102}
Linking options:
  • https://www.mathnet.ru/eng/fgv325
  • https://www.mathnet.ru/eng/fgv/v52/i3/p72
  • This publication is cited in the following 13 articles:
    1. Yuliya Tsvetkova, Vladimir Kislov, Andrey Zaichenko, Maxim Tsvetkov, Eugeny Salgansky, Dmitry Podlesniy, L. Sakhabutdinova, V. Britvina, “Thermal decomposition of sulfur brown coal”, E3S Web Conf., 498 (2024), 03001  crossref
    2. Vladimir Kislov, Yuliya Tsvetkova, Andrey Zaichenko, Dmitry Podlesniy, Maxim Tsvetkov, Eugeny Salgansky, D. Nazarov, A. Juraeva, S. Talu, “Dynamics of sulfur absorption by marble during combustion of layered brown coal charge”, E3S Web Conf., 541 (2024), 04002  crossref
    3. V. M. Kislov, Yu. Yu. Tsvetkova, E. N. Pilipenko, M. A. Repina, M. V. Salganskaya, “Konversiya produktov gazifikatsii drevesiny metodom partsialnogo okisleniya vozdukhom”, Khimicheskaya fizika, 42:3 (2023), 16  crossref
    4. Mario Toledo, Andrés Arriagada, Nicolás Ripoll, Eugene A. Salgansky, Muhammad Abdul Mujeebu, “Hydrogen and syngas production by hybrid filtration combustion: Progress and challenges”, Renewable and Sustainable Energy Reviews, 177 (2023), 113213  crossref
    5. Jiazhuang Tian, Qiuyun Mao, Zihan You, Qifan Zhong, “Investigation of Petroleum Coke Gasification with CO2/H2O Mixtures and S/N Removal Mechanism via ReaxFF MD Simulation”, ACS Omega, 8:20 (2023), 18140  crossref
    6. V. M. Kislov, Yu. Yu. Tsvetkova, E. N. Pilipenko, M. A. Repina, M. V. Salganskaya, “Conversion of Wood Gasification Products by the Method of Partial Oxidation with Air”, Russ. J. Phys. Chem. B, 17:2 (2023), 374  crossref
    7. K. G. Borovik, N. A. Lutsenko, “Numerical simulation of heterogeneous combustion of axisymmetric porous objects under forced filtration and natural convection”, Combustion, Explosion and Shock Waves, 58:3 (2022), 290–302  mathnet  mathnet  crossref  crossref
    8. M. V. Tsvetkov, D. N. Podlesnii, V. M. Freiman, E. A. Salgansky, Yu. Yu. Tsvetkova, I. V. Zyukin, A. Yu. Zaichenko, M. V. Salganskaya, “Influence of Sodium Oxide on the Fusion of Solid Municipal Waste Ash”, Russ. J. Phys. Chem. B, 14:4 (2020), 647  crossref
    9. M. V. Tsvetkov, D. N. Podlesniy, V. M. Freyman, Yu. Yu. Tsvetkova, M. V. Salganskaya, I. V. Zyukin, A. Yu. Zaichenko, E. A. Salgansky, “Behavior of the Sewage Sludge Ash under the Conditions of High-Temperature Processing”, Russ J Appl Chem, 93:6 (2020), 881  crossref
    10. M. V. Tsvetkov, V. M. Kislov, E. A. Salganskii, “Thermocatalytic Biomass Processing”, Russ J Appl Chem, 92:11 (2019), 1465  crossref
    11. Hongsheng Liu, Dan Wu, Maozhao Xie, Hong Liu, Zhenjie Xu, “Experimental and numerical study on the lean premixed filtration combustion of propane/air in porous medium”, Applied Thermal Engineering, 150 (2019), 445  crossref
    12. Mario Toledo Torres, Nicolás Ripoll Kameid, Sustainable Alternative Syngas Fuel [Working Title], 2019  crossref
    13. Mario Toledo, Carlos Rosales, Claudio Silvestre, Sebastián Caro, “Numerical simulation of the hybrid filtration combustion of biomass”, International Journal of Hydrogen Energy, 41:46 (2016), 21131  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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