期刊
CATALYSIS LETTERS
卷 151, 期 9, 页码 2696-2715出版社
SPRINGER
DOI: 10.1007/s10562-020-03513-4
关键词
NiAl- and NiMgAl-hydrotalcite; Mg; Dry reforming of methane; Coking; Catalyst deactivation; Ageing cycle
资金
- General Directorate for Scientific Research and Technological Development (DGRSDT) of the Algerian Ministry of Higher Education
- Spanish Ministry of Science
The study demonstrates that introducing Mg into the catalyst precursor derived from hydrotalcite structure can enhance the activity and resistance to coke formation of Ni-based catalysts for dry reforming of methane, thereby improving their stability in the process.
The importance of the dry reforming of methane (DRM) lies in its capability to upgrade two greenhouse gases (CH4 and CO2) into synthesis gas (CO and H-2), which is one of the main building block for synthesizing hydrocarbons. However, the Ni-based catalysts for DRM reaction usually have a major catalytic stability drawback. This works aims to assess the catalytic activity and stability of two Ni-based catalysts obtained from hydrotalcite (HT) precursors (i.e., NiAl-HT and NiMgAl-HT). The precursors, calcined (-c), reduced (-R) and spent samples were characterized by a series of techniques to gain insight into the influence of MgO over Ni-based catalyst in the drying reforming of methane. An in-situ ageing cycle process to speed up the deactivation of hydrotalcite-derived catalysts showed that the NiMgAl-HTc-R catalyst displayed a higher activity and resistance to coke formation (stability) than NiAl-HTc-R because of the introduction of Mg into hydrotalcite structure in the catalyst precursor. The presence of this element enhances several factors involved in the stability of Ni-based catalysts for the DRM process such as the reducibility and textural features of the catalysts, size and dispersion of Ni-0 nanoparticles and also maintains a good compromise between the acid and base properties of the solid catalysts. [GRAPHICS] .
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