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Hydrogen production through polyoxometalate catalysed electrolysis from biomass components and food waste

Muhammad Umer, Caterina Brandoni, Svetlana Tretsiakova, Neil Hewitt, Psm Dunlop, M.D. Mokim, Kai Zhang, Ye Huang

2024Results in Engineering15 citationsDOIOpen Access PDF

Abstract

Electrolysis from biomass is a promising process for hydrogen generation from biomass and biowaste that is still unexplored. The paper used lignocellulosic biomass components and food waste (banana and cucumber peels) as feedstocks to explore hydrogen generation through an H-type proton exchange membrane electrolytic cell. Polyoxometalates (PMo 12 ) were employed as a catalyst and charge carrier during the pre-treatment stage in the biomass degradation process. Electrochemical characterisations were conducted in a potential range of 0–1.20 V to analyse the electrochemical reaction behaviour at the anode. To assess the impact of temperature on the hydrogen yield rates, the electrolysis was conducted at both room temperature (19 °C) and a higher temperature (80 °C). Results show that the maximum hydrogen produced in the first hour was 7.8 mL per gram of biomass. With an electrical potential of 1.20 V and a temperature of 80 °C, the hydrogen yield rate of glucose was three times higher than that of the individual biomass components, i.e., cellulose, lignin, hemicellulose, and starch. The volume of hydrogen yielded from banana peel and cucumber was 49.2 mL and 39.6 mL, respectively. The overall conversion efficiency was calculated as the weight percentage ratio of the hydrogen contained in cucumber and banana peels and the hydrogen collected was 10 % and 17 %, respectively, suggesting the need to identify solutions to extract the hydrogen content from biomass material further. • Hydrogen production of biomass components and biowaste via electrolysis was studied. • Biomass electrolysis can operate at relatively low temperatures (19 °C and 80 °C). • Glucose recorded the highest hydrogen production, cellulose the minimum. • Banana peel and cucumber peel hydrogen production rate was 49.2 mL and 39.6 mL. • Banana peel showed higher hydrogen production due to lower cellulose content.

Topics & Concepts

PolyoxometalateHydrogen productionFood wasteElectrolysisBiomass (ecology)Production (economics)Environmental scienceWaste managementChemistryHydrogenCatalysisOrganic chemistryEngineeringBiologyElectrodeEcologyEconomicsPhysical chemistryMacroeconomicsElectrolyteCatalysis and Hydrodesulfurization StudiesHybrid Renewable Energy SystemsElectrocatalysts for Energy Conversion