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Early Career Industry Fellowships - Grant ID: IE230100365
Funder
Australian Research Council
Funding Amount
$462,237.00
Summary
Solar-driven catalytic production of high-value product from waste glycerol. Sustainable bio-refining requires an efficient and economical way of utilising the surplus amount of glycerol generated as a by-product in biodiesel industries. This project aims to construct an industry-scale solar-driven catalytic system to generate high-value-added chemicals and green hydrogen fuel from biomass wastes simultaneously. The structure-reactivity relationship of working catalysts will be established to fi ....Solar-driven catalytic production of high-value product from waste glycerol. Sustainable bio-refining requires an efficient and economical way of utilising the surplus amount of glycerol generated as a by-product in biodiesel industries. This project aims to construct an industry-scale solar-driven catalytic system to generate high-value-added chemicals and green hydrogen fuel from biomass wastes simultaneously. The structure-reactivity relationship of working catalysts will be established to fit the up-scale applications. The gained cutting-edge knowledge and technology will significantly contribute to biomass waste utilisation and sustainable fabrication, further bringing significant economic and social benefits by creating a new competitive business for Australian chemical and fuel areas. Read moreRead less
Nano-engineering of hierarchical catalysts for renewable chemicals. Producing high-value chemicals based on renewable alternatives -biomass resources is vital for the climate and a sustainable economy. This project will develop a unique nano-engineering approach to design hierarchical catalysts for the selective conversion of biomass into tailor-made products. Advanced in situ spectroscopic techniques will be employed to establish the structure-reactivity relationship of working catalysts and th ....Nano-engineering of hierarchical catalysts for renewable chemicals. Producing high-value chemicals based on renewable alternatives -biomass resources is vital for the climate and a sustainable economy. This project will develop a unique nano-engineering approach to design hierarchical catalysts for the selective conversion of biomass into tailor-made products. Advanced in situ spectroscopic techniques will be employed to establish the structure-reactivity relationship of working catalysts and thereby manipulate the key factors governing the activity/selectivity. Such cutting-edge knowledge gained is crucial for optimising process efficiency and resource utilisation, which is essential for the success of the biorefining industry and a more environmentally-friendly chemical economy in Australia.Read moreRead less