Integrated Chitosan-based coagulation and microbubble pre-treatment for improved microplastic fibre removal from water

壳聚糖 絮凝作用 凝结 浊度 化学 氯化铵 Zeta电位 化学工程 肺表面活性物质 水处理 溶解度 基质(化学分析) 腐植酸 色谱法 限制 水溶液 制浆造纸工业 氯化物 降水 聚乙烯亚胺 硝化作用 核化学 饮用水净化
作者
Nimesha Thathsarani,Mohadeseh Najafi,Mehdi Khiadani,Muhammad Rizwan Azhar,Masoumeh Zargar
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:1009: 181039-181039
标识
DOI:10.1016/j.scitotenv.2025.181039
摘要

Microplastic fibres (MPFs) dominate treatment plant influents but are difficult to remove due to their morphology, composition and low density, limiting the effectiveness of coagulation flocculation pre-treatment. Integrating coagulation-flocculation with microbubble introduction offers a sustainable route to improve MPF removal, yet conventional inorganic coagulants often require high dosages, show strong pH dependence, and pose environmental risks. Chitosan is a biodegradable and non-toxic green alternative, but its application is limited due to its low solubility and pH sensitivity. In this study, two amphoteric derivatives of Chitosan have been successfully developed: CMC-CTA, produced by modifying carboxymethyl Chitosan (CMC) with 3-chloro-2-hydroxypropyl trimethyl ammonium chloride (CTA); and CMC-g-PDMC, obtained by grafting poly[(2-methacryloyloxyethyl) trimethyl ammonium chloride] (PDMC) onto the CMC backbone. MPF removal was evaluated in a deionised (DI) water matrix containing sodium dodecyl benzene sulphonate (SDBS) surfactant using a tailored turbidity measurement approach. To broaden the investigation, additional matrices were explored, including humic acid (HA) alone and HA combined with MPF (HA + MPF) at varying HA concentrations. In the DI water + SDBS matrix, the highest MPF removal was achieved using 1 mg/L CMC-CTA at pH 7. Zeta potential measurements indicated that charge patching occurred during the coagulation process, where microbubble attachment to MPF flocs appeared to facilitate the removal mechanism. The same system was also effective in reducing over 50% of the turbidity caused by 20 mg/L HA in both the HA-only and HA + MPF matrices. The outcomes provide great insights into the hybrid pre-treatment approaches targeting MPFs' removal.
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