在共含硅酸铝催化剂上甲烷化二氧化碳

IF 0.7 4区 化学 Q4 CHEMISTRY, MULTIDISCIPLINARY
Sh.F. Tagiyeva, S. N. Osmanova, A. I. Rustamova, D. B. Tagiyev, E. H. Ismailov
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引用次数: 0

摘要

本文介绍了在基于不同 SiO2/Al2O3 比(1、10 和 40)的 Siral 铝硅酸盐的含 Co 催化剂上进行二氧化碳甲烷化的研究结果。结果表明,甲烷是温度高达 573 K 时的主要产物,其产量随硅酸铝的 SiO2/Al2O3 比率而变化。Co/Siral-1 和 Co/Siral-10 催化剂的甲烷产量分别达到 55% 和 41%(573 K 时)。研究表明,在氢气流中还原的催化剂的特点是存在超para/铁磁性颗粒,其电磁辐射光谱的磁共振参数在很大程度上取决于铝硅酸盐的 SiO2/Al2O3 比率。据推测,含 Co 的铝硅酸盐在高温氢处理过程中形成的超顺磁性/铁磁性微粒是二氧化碳甲烷化过程中的催化活性微粒。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Methanation of Carbon Dioxide on Co-Containing Aluminosilicate Catalysts

Methanation of Carbon Dioxide on Co-Containing Aluminosilicate Catalysts

Methanation of Carbon Dioxide on Co-Containing Aluminosilicate Catalysts

Results of the study of CO2 methanation on Co-containing catalysts based on Siral aluminosilicates with different SiO2/Al2O3 ratios (1, 10, and 40) are presented. It is shown that methane is the main product at temperatures up to 573 K, its yield varies depending on the SiO2/Al2O3 ratio of aluminosilicate. Carbon monoxide is formed along with methane at temperatures above 573 K. Maximum methane yields of 55% and 41% (at 573 K) are achieved on Co/Siral-1 and Co/Siral-10 catalysts. It is shown that catalysts reduced in a hydrogen flow are characterized by the presence of superpara/ferromagnetic particles and magnetic resonance parameters of their EMR spectra significantly depends on the SiO2/Al2O3 ratio of the aluminosilicate. It is assumed that the superpara/ferromagnetic particles formed during high-temperature hydrogen treatment of Co-containing aluminosilicates are catalytically active particles in the methanation of carbon dioxide.

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来源期刊
Theoretical and Experimental Chemistry
Theoretical and Experimental Chemistry CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
1.60
自引率
10.00%
发文量
30
审稿时长
6-12 weeks
期刊介绍: Theoretical and Experimental Chemistry is a journal for the rapid publication of research communications and reviews on modern problems of physical chemistry such as: a) physicochemical bases, principles, and methods for creation of novel processes, compounds, and materials; b) physicochemical principles of chemical process control, influence of external physical forces on chemical reactions; c) physical nanochemistry, nanostructures and nanomaterials, functional nanomaterials, size-dependent properties of materials.
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