This study proposes a sustainable hydrogen production platform using a fast-growing and inedible biomass waste, silver grass (Miscanthus sinensis). Pyrolysis of silver grass waste (SGW) was investigated using CO2 as a co-feedstock, focusing on the distribution of hydrogen in different products. When the catalyst was absent, hydrogen element distribution to H2 gas during pyrolysis of SGW at 800 °C reached 10 wt%. During pyrolysis with the Ni/SiO2 catalyst, 60.3 wt% of hydrogen was converted into H2 gas, and 7.3 wt% of hydrogen was distributed in gaseous hydrocarbons at 600 °C. Owing to the addition of CO2, CO production was promoted by the catalytic conversion of CO2 and volatile matter. Notably, CO2 has been proven to be a useful reactant for producing value-added CO. Thus, catalytic pyrolysis in the presence of CO2 can be considered as a renewable approach to produce flammable gases with the mitigation of CO2 emissions.
Keywords: Catalysis; Circular bioeconomy; Hydrogen; Pyrolysis; Waste-to-energy.
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