期刊
FUEL PROCESSING TECHNOLOGY
卷 209, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.fuproc.2020.106551
关键词
Tar; Catalytic cracking; Steam reforming of ethane; Isotope tracer
资金
- National Natural Science Foundation of China [21576046]
- National Key Research and Development Program of China [2016YFB0600301]
In-situ catalytic cracking of coal tar coupling with steam reforming of ethane (SRE) over activated carbon supported nickel (Ni/AC) was conducted to improve light tar yield. The results show that the content and yield of light tar (the fraction having boiling point below 360 degrees C) under ethane/steam reforming atmosphere increase by 58.7% and 62.2% with Ni/AC, respectively, and phenol oil raised by 112.5% compared with the non-upgrading tar. Compared with the upgrading process under N-2, the benzenes and phenols in the tar gained from upgrading process under ethane/steam mixed atmosphere increases by 99.3% and 21.5%, specially, C3 alkyl substituted benzene and cresol increases from 2.2% and 9.2% to 5.1% and 15.0%. Meanwhile, when using deuterated ethane (C2D6) and deuterated water (D2O) as tracers, tar component with deuterium atom can be detected by GC/MS and H-2 NMR. These reveal that Ni/AC can simultaneously catalyze coal tar cracking and SRE, thus the small radicals such as center dot CHx, center dot C2Hx and center dot H generated from SRE can combine with the radicals from tar cracking to avoid excessive cleavage of tar. Coupled with the MS analysis of typical substances, the reaction mechanism of upgrading process was inferred.
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