High catalytic performance of Fe-rich palygorskite clay-supported Ni catalysts for steam reforming of toluene

Abstract The development and application of Fe-rich palygorskite clay has been restricted significantly by its red colour and low grade. Moreover, the nano-structured properties of palygorskite and the relatively large Fe content of Fe-rich palygorskite clay have received insufficient attention. The...

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Bibliographic Details
Published in:Clay minerals 2023-03, Vol.58 (1), p.67-81
Main Authors: Ji, Minghao, Zou, Xuehua, Liu, Haibo, Zhang, Yinsheng, Dong, Shiwei, Xu, Chengrui, Xie, Qiaoqin, Chen, Dong, Zhu, Chengzhu, Chen, Tianhu
Format: Article
Language:eng ; fre ; ger ; spa
Subjects:
Alloys
Biomass energy
Carbon
Catalysts
Catalytic activity
Chemical synthesis
Clay
Colour
Coprecipitation
Ferrous alloys
Gases
Iron
Kinetics
Microscopy
Nickel
Palygorskite
Performance evaluation
Quartz
Reforming
Steam
Synthesis gas
Temperature
Toluene
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Summary:Abstract The development and application of Fe-rich palygorskite clay has been restricted significantly by its red colour and low grade. Moreover, the nano-structured properties of palygorskite and the relatively large Fe content of Fe-rich palygorskite clay have received insufficient attention. The present study involved the synthesis of Ni-based catalysts via a coprecipitation method using Fe-rich palygorskite clay as the support. The catalysts were then evaluated for their performance for catalytic steam reforming of toluene (CSRT). The experimental findings revealed that the Fe in Fe-rich palygorskite clay interacted strongly with Ni and formed Fe-Ni alloys. The catalyst with a Ni/Fe mass ratio of 14 (Ni 14 /FePal) calcined in air at 600°C exhibited superior performance for CSRT under the reaction temperature 700°C and S/C molar ratio of 1.0. According to the kinetics study, Ni 14 /FePal exhibited the lowest apparent activation energy (33.99 kJ mol −1 ) among the catalysts, which further confirmed the superior catalytic activity in CSRT. The characterizations of the catalysts used demonstrated that the excellent stability and resistance to coke formation of Ni 14 /FePal were attributable to the presence of a sufficient amount of highly dispersed Fe-Ni alloys on its surface.
ISSN:0009-8558
1471-8030
DOI:10.1180/clm.2023.12