A. L. Kustov, T. R. Aymaletdinov, A. A. Shesterkina, K. B. Kalmykov, P. V. Pribytkov, I. V. Mishin, S. F. Dunaev, L. M. Kustov, “Methane dry reforming: influence of the SiO2 and Al2O3 supports on the catalytic properties of Ni catalysts”, Mendeleev Commun., 34:2 (2024), 221

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Mendeleev Communications, 2024, Volume 34, Issue 2, Pages 221–223
DOI: https://doi.org/10.1016/j.mencom.2024.02.020 (Mi mendc89)

This article is cited in 7 scientific papers (total in 7 papers)

Communications

Methane dry reforming: influence of the SiO₂ and Al₂O₃ supports on the catalytic properties of Ni catalysts

A. L. Kustov^ab, T. R. Aymaletdinov^a, A. A. Shesterkina^ab, K. B. Kalmykov^a, P. V. Pribytkov^ab, I. V. Mishin^b, S. F. Dunaev^a, L. M. Kustov^ab

^a Department of Chemistry, M.V. Lomonosov Moscow State University, Moscow, Russian Federation
^b N.D. Zelinsky Institute of Organic Chemistry, Russian Academy of Sciences, Moscow, Russian Federation

Full-text PDF (1744 kB) Citations (7)

DOI: https://doi.org/10.1016/j.mencom.2024.02.020

Graphic abstract: Methane dry reforming: influence of the SiO<sub>2</sub> and Al<sub>2</sub>O<sub>3</sub> supports on the catalytic properties of Ni catalysts

Abstract: The effect of the support nature (SiO₂, Al₂O₃, SiO₂–Al₂O₃) on the catalytic performance of Ni-based catalysts prepared by the incipient wetness method was explored in the dry reforming of methane reaction, and the catalysts were characterized by TG-DTA, SEM-EDX, XRD and UV-VIS methods. The results demonstrate that NiO supported on SiO₂-modified Al₂O₃ exhibits superior catalytic performance in methane dry reforming in the temperature range of 650–700 °C.

Keywords: dry reforming, methane, nickel catalysts, supported catalyst, aluminium oxide.

Document Type: Article

Language: English

*Supplementary materials:*
		Supplementary_data_1.pdf	(1.2 Mb)

Citation: A. L. Kustov, T. R. Aymaletdinov, A. A. Shesterkina, K. B. Kalmykov, P. V. Pribytkov, I. V. Mishin, S. F. Dunaev, L. M. Kustov, “Methane dry reforming: influence of the SiO₂ and Al₂O₃ supports on the catalytic properties of Ni catalysts”, Mendeleev Commun., 34:2 (2024), 221–223

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https://www.mathnet.ru/eng/mendc/v34/i2/p221

This publication is cited in the following 7 articles:

Cui Quan, Shaoxuan Feng, Ningbo Gao, “Production of hydrogen-rich syngas from catalytic reforming of biomass gasification tar model compounds coupled with in-situ CO2 capture”, Biomass and Bioenergy, 193 (2025), 107569
Osarieme Uyi Osazuwa, Kim Hoong Ng, “An overview on the carbon deposited during dry reforming of methane (DRM): Its formation, deposition, identification, and quantification”, Results in Engineering, 25 (2025), 104328
Sakthivel S, “Perspectives on CO2-Free Hydrogen Production: Insights and Strategic Approaches”, Energy Fuels, 38:21 (2024), 20033
Ahmed S. Al-Fatesh, Ahmed I. Osman, Ahmed A. Ibrahim, Yousef M. Alanazi, Anis H. Fakeeha, Ahmed E. Abasaeed, Fahad Saleh Almubaddel, “Integrating advanced fitting models with experimental catalysis to maximize H2 production in dry reforming using nickel on metalized-silica-alumina catalysts”, Sustainable Energy Fuels, 8:21 (2024), 4927
Yuri Fionov, Ksenia Khlusova, Sofia Chuklina, Anton Mushtakov, Alexander Fionov, Dmitriy Zhukov, Alexey Averin, Anna Zhukova, “High-Performance Ni/Al2O3-(Zr + Ce)O2 catalysts for syngas production via ethanol dry reforming”, Fuel, 376 (2024), 132685
Evgenii Grigorevich Chepaikin, Galina Nikolaevna Menchikova, Roza Ibraimovna Dzhusupkalieva, Olga Petrovna Tkachenko, Leonid Modestovich Kustov, Ivan Dmitrievich Kovalev, Svetlana Ibragimovna Pomogailo, “Cintez geterogennykh katalizatorov cherez poverkhnostnye metallokompleksy”, Neftehimiâ, 64:3 (2024), 265
A. E. Dzhusupov, E. O. Pentsak, “Nickel nanoparticles formation during Ni catalyst activation revealed by identical location electron microscopy”, Mendeleev Commun., 34:6 (2024), 899–901

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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