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Reductive Removal of Antimony from Wastewater by a UV/Sulfite Process: Targeted Recovery of Strategic Metalloid Antimony

Feng Zhu, Xinmiao Zhang, Xianjia Peng, Mengchang He, Linghao Kong, Guotao Zhou, Jiaguo Yan, Chenlin Zhang, Haizhu Peng

2024Environmental Science & Technology27 citationsDOI

Abstract

The removal of antimony from wastewater using traditional methods such as adsorption and membrane filtration generates large amounts of antimony-containing hazardous wastes, posing significant environmental threats. This study proposed a new treatment strategy to reductively remove and recover antimony from wastewater using an advanced UV/sulfite reduction process in the form of valuable strategic metalloid antimony (Sb(0)), thus preventing hazardous waste generation. The results indicated that more than 99.9% of Sb(V) and Sb(III) were removed from wastewater, reducing residual antimony concentration as low as 5 μg L –1 and obtaining Sb(0) product with a high purity of over 99.9 wt %. Mechanistic investigations revealed the reductive H • radicals and hydrated electrons (e aq – ), along with oxidative SO 3 •– radicals generated by the photolysis of sulfite, in which H • and e aq – are responsible for the reduction of Sb(V) and Sb(III) to Sb(0). Additionally, although Sb(0) can be further reduced to stibine (SbH 3 ) by H • and e aq –, the formed SbH 3 rapidly decays and transforms back to Sb(0) through photolysis and oxidation by SO 3 •– . Thus, the proposed method can achieve the targeted reduction of Sb(III) and Sb(V) to Sb(0) but not to SbH 3 . This study provides a theoretical foundation for the recovery of antimony from wastewater.

Topics & Concepts

AntimonyMetalloidStibineChemistrySulfiteWastewaterArsenicAdsorptionAntimony trioxideInorganic chemistryArsineCatalysisMetalOrganic chemistryEnvironmental engineeringEnvironmental scienceFire retardantPhosphineArsenic contamination and mitigationAdvanced oxidation water treatmentSelenium in Biological Systems
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