Maximizing production of high-quality tar from catalytic upgrading of lignite pyrolysis volatiles over Ni-xCe/Y under CH4/CO2 atmosphere

[Display omitted] •A novel integrated process is developed to upgrade lignite volatiles under CH4/CO2.•Light tar yield and LAs contents are significantly enhanced over Ni-7Ce/Y.•Methane dry reforming incorporation into tar is proved by isotopic labelling.•Upgrading behaviors is associated with catal...

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Bibliographic Details
Published in:Fuel (Guildford) 2021-08, Vol.297, p.120767, Article 120767
Main Authors: Wei, Baoyong, Li, Yang, Yang, He, Hu, Haoquan, Zhong, Mei, Jin, Lijun, Wang, Jiaofei
Format: Article
Language:English
Subjects:
Acidity
Aromatic compounds
Bimetals
Carbon dioxide
Catalysts
CH4/CO2 reforming
Coke
Greenhouse effect
Greenhouse gases
Lewis acid
Light aromatics
Lignite
Lignite pyrolysis
Methane
Ni-Ce catalysts
NMR
Nuclear magnetic resonance
Pyrolysis
Reforming
Selectivity
Strong interactions (field theory)
Tar
Upgrading
Volatile compounds
Volatiles
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Summary:[Display omitted] •A novel integrated process is developed to upgrade lignite volatiles under CH4/CO2.•Light tar yield and LAs contents are significantly enhanced over Ni-7Ce/Y.•Methane dry reforming incorporation into tar is proved by isotopic labelling.•Upgrading behaviors is associated with catalyst’s physicochemical properties. In this paper, a novel process for integrating lignite pyrolysis volatiles upgrading with methane dry reforming (MDR) was carried out over Ni-Ce bimetallic catalysts in a fixed-bed reactor. The effects of Ni-xCe/Y catalysts on CH4/CO2 conversions, products distributions and tar compositions were investigated. The results indicated that the Ni-Ce bimetallic catalysts could significantly decrease coke deposit and obviously improve tar components, especially for light aromatics (LAs). The Ni-7Ce/Y catalyst exhibited better catalytic performance in pyrolysis volatiles upgrading in the respects of high light tar yield, selectivity to LAs, the resistance of coke deposition and the removal of heteroatoms in tar. The resultant high-quality tar could be attributed to the moderate acidity with suitable ratio of Brønsted/Lewis acid sites, better dispersion and strong interaction of Ni and Ce species on supports. The 2H NMR and GC–MS results confirmed that methane dry reforming participated in the tar formation, especially aromatic rings. This work could provide more insights into catalytic upgrading of lignite pyrolysis volatiles and sufficient utilization of CH4/CO2 greenhouse gases.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2021.120767