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The influence of manganese amount in oxyhydroxide of aluminium - precursor of MnOx-Al2o3 catalysts on catalytic activity in reaction of oxidation of C1-C3 of hydrocarbons O. I. Sidorova, S. Galanov, E. N. Gryaznova, L. N. Shiyan

Contributor(s): Sidorova, Olga I | Gryaznova, Elena N | Shiyan, Ludmila N | Galanov, Sergey IMaterial type: ArticleArticleSubject(s): каталитические системы | марганец | реакция глубокого окисления углеводородовGenre/Form: статьи в журналах Online resources: Click here to access online In: Key engineering materials Vol. 670. P. 27-32Abstract: The authors have synthesized nanofibrous aluminum oxyhydroxide (AlOOH), modified with different amounts of manganese ions (II), which is the precursor for methane deep oxidation catalysts. It was shown that the catalytic activity of the manganese-based system obtained depends on manganese amount and thermal activation conditions. It is approved that as the catalyst for deep oxidation of hydrocarbons the system with manganese content of 10.5 wt. % is the most perspective despite the fact that the oxidation rate of methane is lower in it than in the catalyst with Mn content of 5.7 wt. %. As opposed to the catalyst with Mn content of 5.7 wt. %., where the aluminium oxide is in metastable form (s-Al2O3), the catalyst with manganese content of 10.5 wt. % contains in its structure a thermodynamically and thermally stable α-Al2O3 phase.
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The authors have synthesized nanofibrous aluminum oxyhydroxide (AlOOH), modified with different amounts of manganese ions (II), which is the precursor for methane deep oxidation catalysts. It was shown that the catalytic activity of the manganese-based system obtained depends on manganese amount and thermal activation conditions. It is approved that as the catalyst for deep oxidation of hydrocarbons the system with manganese content of 10.5 wt. % is the most perspective despite the fact that the oxidation rate of methane is lower in it than in the catalyst with Mn content of 5.7 wt. %. As opposed to the catalyst with Mn content of 5.7 wt. %., where the aluminium oxide is in metastable form (s-Al2O3), the catalyst with manganese content of 10.5 wt. % contains in its structure a thermodynamically and thermally stable α-Al2O3 phase.

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