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Effects of Chelators on Fluoride Removal by AlCl<sub>3</sub> and Al<sub>13</sub> Coagulation: Performance and Mechanism

Ziniu Deng, An Xu, Xiaolin Zhang, Kaisheng Zhang, Bingcai Pan

2025Environmental Science & Technology17 citationsDOI

Abstract

Aluminum (Al) coagulation is one of the most widely used techniques for the defluoridation of industrial effluents. This study examined the influence of two common chelating agents, i.e., ethylenediaminetetraacetic acid (EDTA) and citric acid (CA), on fluoride removal during coagulation using monomeric Al (AlCl 3 ) and polymeric aluminum species [Al 13 O 4 (OH) 24 (H 2 O) 12 7+, Al 13 ]. The results revealed that EDTA reduced the fluoride removal efficiency by up to 95.4% with AlCl 3 and by 28.3% with Al 13 . In contrast, CA inhibited fluoride removal by up to 100% with AlCl 3 and 90.6% with Al 13 . Both chelators impaired fluoride removal primarily by disrupting floc formation. Advanced analytical techniques, including 19 F/ 27 Al NMR spectroscopy combined with DFT calculations, demonstrated that this interference was due to the formation of EDTA-Al-F ternary complexes and Al-CA binary complexes. Additionally, the formation of a bridging fluoride (μ-F) in the Al 13 structure enhanced its thermodynamic stability against chelators. Specifically, Al 13 maintained structural stability even in the presence of up to 1.50 mmol/L EDTA, whereas CA progressively destabilized the Al 13 structure by forming soluble Al-CA complexes. These findings are believed to help guide the rational design of Al-based coagulants and optimize water treatment strategies aimed at defluoridation of industrial effluents.

Topics & Concepts

FluorideCoagulationMechanism (biology)ChemistryChelationEnvironmental chemistryInorganic chemistryChemical engineeringEngineeringPhysicsMedicinePsychiatryQuantum mechanicsFluoride Effects and RemovalGroundwater and Isotope GeochemistryGeochemistry and Elemental Analysis
Effects of Chelators on Fluoride Removal by AlCl<sub>3</sub> and Al<sub>13</sub> Coagulation: Performance and Mechanism | Litcius