期刊
APPLIED CATALYSIS B-ENVIRONMENTAL
卷 285, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.apcatb.2020.119822
关键词
Dry reforming; IR spectroscopy; Ni-K interaction; Coking-Resistance effect
资金
- Spanish Ministerio de Economia y Competitividad -MINECO - FEDER funds from the European Union [ENE2015-66975-C3-2-R]
- MINECO [BES-2016-0077475]
This study provides a new approach on the anticoking nature of a K-promoted Ni catalyst by revealing the mechanism behind it, showing the Ni-K interfacial sites favor carbonaceous deposits gasification and strongly Mg-O-K basic sites lead to the formation of carbonate intermediates. These results offer a fundamental understanding of the relevant anticoking effect of potassium on Ni-based catalysts.
Dry reforming of methane (DRM) is an effective catalytic route for transforming CO2 and CH4 into valuable syngas and thus potentially attractive for mitigating the emission of environmental harmful gases. Therefore, it is crucial to develop rationally Ni-based catalysts highly resistant to coking and sintering. In this scenario, the addition of small amounts of potassium to nickel catalyst increases their resistance to coking during dry reforming of methane. Nonetheless, the specific role of potassium in these catalysts not have been fully understood and there are still important discrepancies between the different reported studies. This work provides a new approach on the anticoking nature of a K-promoted Ni catalyst by means of a combined IR spectroscopic study of in situ characterization by CO adsorption under static conditions and operando DRIFTS measurements under dynamic conditions of DRM reaction. The involved surface species formed during the reaction were elucidated by transient and steady-state operando DRIFTS studies. It was revealed that the existence of Ni-K interfacial sites favours the gasification of carbonaceous deposits towards reverse Boudouard reaction and reduces the sticking probability of CO2 dissociative adsorption. Moreover, the presence of strongly Mg-O-K basic sites leads to the formation of carbonate intermediates that are subsequently reduced into CO gaseous towards the associative mechanism by RWGS reaction. These results provide a fundamental understanding of the relevant anticoking effect of potassium on Ni-based catalysts.
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