Newswise — In a new study published on 11 August 2023, in the journal Frontiers of Environmental Science & Engineering, researchers from Northwestern Polytechnical University introduced a revolutionary SMEC method for uranium recovery from wastewater. This innovative technique not only efficiently extracts uranium but also generates electrical energy, offering a more sustainable and less complex alternative to traditional extraction methods that are often hindered by biotoxicity.
Researchers developed a spontaneous microbial electrochemical (SMEC) method that spatially decouples microbial oxidation and uranium reduction reactions. This innovative system consists of two chambers separated by a proton exchange membrane, with an anode made of carbon felt and a cathode of titanium foil. The process involves microbial-driven electrochemical reactions, which facilitate uranium extraction from wastewater while simultaneously generating electrical energy. The study have demonstrated stable and efficient uranium extraction with net electrical energy production. The SMEC method proved effective with both synthetic and real wastewater, achieving high uranium extraction efficiency. Moreover, metagenomic sequencing revealed the formation of efficient electroactive communities on the anodic biofilm, enriching key functional genes and metabolic pathways involved in electron transfer and energy metabolism.
Highlights
● Stable and efficient U extraction with electrical energy production was achieved.
● The U(VI) removal proceeded via a diffusioncontrolled U(VI)-to-U(IV) reduction.
● Electro-microbiome was constructed for microbial-driven ectopic U extraction.
● Metabolic pathways of anode biofilm were deciphered by metagenomics.
This research marks a significant step forward in the field of sustainable and cost-effective uranium extraction technologies. It opens the door to innovative strategies in resource recovery and wastewater management, offering potential solutions for industries dealing with heavy metal contamination and energy production challenges.
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References
DOI
Original Source URL
https://doi.org/10.1007/s11783-024-1764-y
Funding information
The National Natural Science Foundation of China (52200202 and 42077352).
About Frontiers of Environmental Science & Engineering
Frontiers of Environmental Science & Engineering (FESE) is the leading edge forum for peer-reviewed original submissions in English on all main branches of environmental disciplines. FESE welcomes original research papers, review articles, short communications, and views & comments. All the papers will be published within 6 months since they are submitted. The Editors-in-Chief are Academician Jiuhui Qu from Tsinghua University, and Prof. John C. Crittenden from Georgia Institute of Technology, USA. The journal has been indexed by almost all the authoritative databases such as SCI, Ei, INSPEC, SCOPUS, CSCD, etc.
Journal Link: Frontiers of Environmental Science & Engineering
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