Kinetic modeling of the steam reforming of light hydrocarbon mixture from waste resources: Effects of gas composition on hydrogen production

Steam reforming of a light hydrocarbon mixture, which might be produced during the pyrolysis of waste resources, was experimentally conducted over a commercial Ni-based catalyst. Two different gas compositions were considered as simulated gases to utilize waste resources, and kinetic data were gener...

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Bibliographic Details
Published in:International journal of hydrogen energy 2023-05, Vol.48 (41), p.15383-15391
Main Authors: Woo, Yesol, Park, Jae Min, Bae, Jong Wook, Park, Myung-June
Format: Article
Language:English
Subjects:
Hydrogen production
Kinetic model
Light hydrocarbon mixture
Steam reforming
Waste resources
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Summary:Steam reforming of a light hydrocarbon mixture, which might be produced during the pyrolysis of waste resources, was experimentally conducted over a commercial Ni-based catalyst. Two different gas compositions were considered as simulated gases to utilize waste resources, and kinetic data were generated at a variety of temperatures, space velocities, and steam-to-carbon ratios to develop a kinetic model by fitting the experimental data. Experimental observations indicated that the inclusion of higher chains resulted in low methane conversion compared to those of the other chains, and the model demonstrated that the increased hydrogen production rate by higher chains enhanced methanation, resulting in a decreased methane conversion. The increased fraction of higher chains decreased the steam-to-carbon ratio for methane, resulting in a decreased methane conversion. Further analysis showed that despite the decrease in methane fraction, hydrogen production could be increased by 4% with a 10% methane fraction in the light hydrocarbon mixture, indicating that the direct reforming of a light hydrocarbon mixture from waste resources with no pre-reforming might be feasible. •Steam reforming of a light hydrocarbon mixture was experimentally conducted.•Two different gas compositions were considered as simulated gases to utilize waste resources.•A kinetic model was developed by fitting the experimental data.•The inclusion of higher chains resulted in low methane conversion.•The increased fraction of higher chains in the light hydrocarbon mixture could increase hydrogen production.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2023.01.050