Effect of Mechanical Activation on the High-Temperature Synthesis of Fe3Al and Its Catalytic Properties during the Carbon Dioxide Assisted Conversion of Natural Gas
L. I. TSAPALO1, YU. S. NAIBORODENKO2, N. G. KASATSKIY2 and L. A. ARKATOVA1
1 National Research Tomsk State University, Prospekt Lenina 36, Tomsk 634050 (Russia)
E-mail: Tsapalo@sibmail.com
2 Department of Structural Macrokinetics, Siberian Branch of the Russian Academy of Sciences, Prospekt Akademicheskiy 10/3, Tomsk 634021 (Russia)
Keywords: self-propagating high-temperature synthesis, mechanical activation, intermetallides, carbon dioxide conversion of methane
Pages: 335–341
Abstract
Effect of mechanical activation of the powder mixture 3Fe + Al on the structure of mechanocomposites and their evolution during self-propagating high-temperature synthesis was investigated. It was shown that substantial decrease of the temperatures of heat evolution start typical for thermal explosion and the critical temperature of thermal explosion of preliminarily activated mixtures is connected with the presence of regions with fine layered structure in agglomerates, while the heterophase character of synthesis products is due to relatively low maximal synthesis temperature. It was established that mechanical activation of the systems Fe–Al leads to a substantial increase in the catalytic activity of Fe3Al intermetallide during methane conversion into synthesis gas, and also to an increase in the conversion degree of CH4 and CO2 to 93 and 91 %, respectively. In the case of the sample without mechanical activation, these parameters are only 15 and 53 % for CH4 and CO2, respectively.
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