A critical review on chemical analysis of heavy metal complexes in water/wastewater and the mechanism of treatment methods

•The review about speciation analysis of HMCs is important but scarce.•Prevalent methods for aqueous HMC mitigation were introduced.•Technologies for aqueous HMC analysis were summarized and discussed.•The importance role of species transformation in HMC decomplexation was elucidated.•Outlook and pe...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2022-02, Vol.429, p.131688, Article 131688
Main Authors: Xu, Zhe, Zhang, Qingrui, Li, Xuchun, Huang, Xianfeng
Format: Article
Language:English
Subjects:
Chemical analysis
Decomplexation
Heavy metal complexes
Separation
Speciation distribution
Water treatment
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Summary:•The review about speciation analysis of HMCs is important but scarce.•Prevalent methods for aqueous HMC mitigation were introduced.•Technologies for aqueous HMC analysis were summarized and discussed.•The importance role of species transformation in HMC decomplexation was elucidated.•Outlook and perspective were provided based on current challenges. Efficient mitigation of toxic and recalcitrant heavy metal complexes (HMCs) from water and wastewater is critical to guarantee the environmental health and safety, but still faces many challenges. Although a number of techniques have been developed to deal with HMCs laden water/wastewater, there is still a lack of comprehensive and insightful understanding of the relevant mechanisms. One of the main reasons is the complicated heavy metal speciation in water/wastewater, which masks the speciation distribution and coordination circumstance of heavy metals. In this review, prevalent methods for HMC elimination (e.g., physical separation and chemical decomplexation) are briefly presented and evaluated. Especially, the characterization methods of HMCs, which afford to provide valuable information on the speciation distribution of heavy metals, are underlined and discussed. Furthermore, typical cases are provided to elucidate the essential role of species transformation in the decomplexation of HMCs and the implications for enhanced mitigation of HMCs are also discussed. Finally, the current challenges and perspectives for future study in this field are proposed.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2021.131688