Engineers at Lancaster University have led research that discovers a way to generate renewable biofuel additives, using radiation that could be derived from nuclear waste.
The renewable proportion of petrol is set to increase to 20 per cent over the coming years, meaning the discovery of a new production pathway for these additives could help in the fight to cut carbon dioxide emissions and tackle climate change.
In the research paper entitled ‘Nuclear-driven production of renewable fuel additives from waste organics’, published in the science journal Nature Communications Chemistry, engineers propose a process to generate one such additive, solketal, using waste from both biochemical and nuclear industries – termed a nuclear biorefinery.
Lancaster University PhD researcher Arran Plant said: “This research presents a new advance that utilises radiation that could, in the future, be derived from nuclear waste to produce renewable biofuel additives from biodiesel waste, which could then be used in modern petroleum fuel blends. With the renewable proportions of petroleum-derived fuels set to increase from 5 per cent to 20 per cent by 2030, fuel additives sourced this way could help address net-zero carbon emission targets.”
Read more at Lancaster University
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