Polyaluminum chloride-functionalized colloidal gas aphrons for flotation separation of nanoparticles from water.

Author(s) Zhang, M.; Lu, X.; Zhou, Q.; Xie, L.; Shen, C.
Journal J Hazard Mater
Date Published 2019 Jan 15
Abstract

The present work used the coagulative colloidal gas aphron (CCGA)-involved flotation as a robust technology to efficiently remove the typical engineered nanoparticles - silica nanoparticles (SNPs) from water. The inorganic polymer coagulant - polyaluminum chloride (PACl) was used to surface-functionalize the zwitterionic surfactant (C15B)-based CGAs. Results denote that the physicochemical conditions of PACl/C15B mixed solution markedly influenced the flotation behaviors by changing the properties of CCGAs. The C15B molecules showed different dissociated states and interaction behaviors with Al species with the variation of pH. The addition of salt into the PACl/C15B mixed solution decreased the foamability of solution, and the bubbles collapsed before they could efficiently capture SNPs in their rising trajectory. The optimum SNP removal (87.2%) was obtained when the pH and the additional ionic strength of PACl/C15B mixed solution were ∼4.7 and ≤ 1.0 g NaCl/L, individually, and the pH of SNP suspension was ∼9.4. Importantly, modifying PACl on microbubbles took greater advantages than directly using it as coagulant in terms of SNP removal and PACl utlization. The CCGAs were robust since their colloidal attraction and collision efficiency with SNPs were simultaneously enhanced. The PACl was more efficiently utilized during flotation whilst the regular chemical-dosing unit was omitted.

DOI 10.1016/j.jhazmat.2018.09.022
ISSN 1873-3336
Citation Zhang M, Lu X, Zhou Q, Xie L, Shen C. Polyaluminum chloride-functionalized colloidal gas aphrons for flotation separation of nanoparticles from water. J Hazard Mater. 2019;362:196-205.

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