Experimental Study on Chemical Looping Co-gasification of Alfalfa and Polyethylene with Iron Ore as the Oxygen Carrier for High H2/CO Production

Biomass and plastic waste gasification has been demonstrated as a promising technology for developing a long-term waste management system that reduces emissions and enhances energy recovery. Chemical looping co-gasification of alfalfa (AL) and polyethylene (PE) with Fe2O3 as oxygen carrier (OC) was...

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Bibliographic Details
Published in:Energy & fuels 2022-07, Vol.36 (13), p.6939-6948
Main Authors: Al-Qadri, Bashar, Wang, Xiaojia, Chen, Delu
Format: Article
Language:English
Subjects:
Bioenergy, Biofuels, and Biorefinery
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Summary:Biomass and plastic waste gasification has been demonstrated as a promising technology for developing a long-term waste management system that reduces emissions and enhances energy recovery. Chemical looping co-gasification of alfalfa (AL) and polyethylene (PE) with Fe2O3 as oxygen carrier (OC) was studied in a fixed-bed reactor. The effects of temperature, steam/alfalfa mass ratio (S/AL), OC/alfalfa mass ratio (OC/AL), and PE/alfalfa mixing ratio (PE/AL) were investigated. The results revealed that at a gasification temperature of 950 °C, the optimum product distribution was achieved with a S/AL ratio of 1, an OC/AL ratio of 0.5, and PE/AL mixing ratios of 50 and 75%. The presence of PE in the feedstock led to higher production of synthetic gas, particularly the hydrogen yield, as the H2/CO ratio increased to more than 2 to match the demand of Fischer–Tropsch synthesis. At a mixing ratio of 50%, the lower heating value and the H2/CO ratio achieved their maximum values of 14.05 (MJ/Nm3) and 2.50, respectively. This research clarified that the combined gasification of biomass with plastic constitutes an ideal approach for high-quality synthesis gas production as well as environmental preservation and materials recycling.
ISSN:0887-0624
1520-5029
DOI:10.1021/acs.energyfuels.2c00794