Catalytic hydrotreatment of alkaline lignin and its consequent influences on fast pyrolysis
[Display omitted] •Catalytic hydrotreatment of alkaline lignin was performed to recover hydrogenated lignin.•Yield and properties of hydrogenated lignin varied with hydrotreatment conditions.•Products distribution for fast pyrolysis of hydrogenated lignin were investigated in the hydrogen atmosphere...
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Veröffentlicht in: | Carbon resources conversion 2021, Vol.4, p.219-229 |
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Sprache: | eng |
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•Catalytic hydrotreatment of alkaline lignin was performed to recover hydrogenated lignin.•Yield and properties of hydrogenated lignin varied with hydrotreatment conditions.•Products distribution for fast pyrolysis of hydrogenated lignin were investigated in the hydrogen atmosphere.•Total olefins yield for hydrogenated lignin is 3.04 times that for raw lignin.
The current state of lignin has been characterized by these three: (1) as one of the main components in lignocellulosic biomass with an abundant amount; (2) not be taken seriously but treated as a waste product; (3) underutilized due to a complex and stubborn structure. However, lignin can be a rich source for hydrocarbons and aromatic compounds when gives appropriate utilization. In this work, we have studied the hydrotreatment of alkaline lignin (AL) under relatively mild conditions and further investigated the characterization of hydrogenated lignin (HL), especially the behavior during fast pyrolysis. The recovery of the HL decreased with increasing reaction temperature from 60 wt.% to 41 wt.% in the range of 150–250 ℃. The hydrotreated products were analyzed using Elemental Analysis, FTIR (for HL) and GC–MS (for bio-oil). The HL samples were found to have a higher hydrogen/carbon atomic effective ratio (H/Ceff ratio) and a higher degree of saturation than AL. Compared to the internal structure of the lignin before and after hydrotreatment, the side chain groups were removed from AL during the process. After that, from the fast pyrolysis of HL, it was observed that more light hydrocarbons and aromatic compounds were formed than that of AL. Furthermore, fast pyrolysis in the hydrogen atmosphere revealed that more volatile fractions were released compared to the Helium atmosphere. The total olefins yield was increased for HL compared AL from 1.02 wt.% to 3.1 wt.% at 250 ℃ for 7 hours. This study of HL is instructive to some extent for the industrial utilization of lignin. |
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ISSN: | 2588-9133 2588-9133 |
DOI: | 10.1016/j.crcon.2021.09.001 |