Journal
SURFACES AND INTERFACES
Volume 38, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.surfin.2023.102859
Keywords
Coffee residue; Catalytic biomass gasification; Carbon deposited spent catalyst; Supercapacitor
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Catalytic gasification combined with in-situ CO2 capture over Ni-CaO/Ca2Fe2O5 NPs catalyst was studied for hydrogen-rich synthesis gas production. The Ni-CaO/Ca2Fe2O5 NPs catalyst showed remarkable catalytic performance in convertibility and synthesis gas. The carbon-deposited spent NPs catalyst was successfully reused as an electrode for a supercapacitor with higher capacity than the pristine catalyst.
In this work, catalytic gasification combined with in-situ CO2 capture over Ni-CaO/Ca2Fe2O5 NPs catalyst is studied for hydrogen-rich synthesis gas production. The Ni-CaO/Ca2Fe2O5 NPs catalyst determined remarkable catalytic performance in changeover ability and synthesis gas. The carbon deposited Ni-CaO/Ca2Fe2O5 spent NPs catalyst was successfully reutilized as an electrode for supercapacitor using KOH electrolyte. This recycled catalyst demonstrates an extraordinarily higher capacity than the pristine catalyst. Attributable to these benefits, the carbon deposited spent catalyst conveyed a high specific capacitance of 1455 F g-1 established electrode mass and high-power density 19,224 W kg-1 with long cycle stability (96% retention after 10,000 cycles). The minimal cost of carbon deposited spent catalyst, along with this method for efficiently recycled carbon-deposited spent catalyst for energy storage applications, might be a promising and cost-effective spent catalyst reutilization technique.
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