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Facile synthesis, characterisation and applications of bio-polymer immobilized Zn-modified bauxite residue beads for malachite green dye removal: batch and column studies with CFD analysis

Authors
Chatterjee, AbhrajitPanda, AnuragBorah, DarpanPatel, Jitendra KumarBanerjee, ShirsenduSatpathy, Bijoy K.Jeon, Byong-HunKumar, RameshKhan, Moonis AliChakrabortty, SankhaTripathy, Suraj K.
Issue Date
Jul-2026
Publisher
TAYLOR & FRANCIS LTD
Keywords
Bauxite residue; CFD; material characterisations; adsorption; kinetics and hydrodynamics; economic analysis
Citation
INTERNATIONAL JOURNAL OF ENVIRONMENTAL ANALYTICAL CHEMISTRY, v.106, no.9, pp 2906 - 2936
Pages
31
Indexed
SCIE
SCOPUS
Journal Title
INTERNATIONAL JOURNAL OF ENVIRONMENTAL ANALYTICAL CHEMISTRY
Volume
106
Number
9
Start Page
2906
End Page
2936
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/219104
DOI
10.1080/03067319.2025.2596300
ISSN
0306-7319
1029-0397
Abstract
A sustainable approach for dye pollution mitigation through industrial residue and natural polymer-based wastewater treatment was developed in this work. In the present study, environmentally friendly bio-polymer-immobilised Zn-modified bauxite residue beads (BR-Zn-SA) were prepared to effectively remove toxic cationic dye malachite green, which has widespread applications in textile and paper industries. Zinc chloride was applied to activate the bauxite residue by enhancing its surface porosity, acidity, and Lewis active sites, which increased the amount of electrostatic and coordination binding centres for MG adsorption. Biodegradable polysaccharide sodium alginate acted as an encapsulating matrix providing mechanical stability with a hydrophilic nature and extra -COOH/-OH functional groups, preventing particle leaching and improving reusability in continuous systems. XRD, FTIR, BET, and PZC analyses identified a mesoporous structure with positive surface potential, hence favourable for cationic dye uptake. Batch adsorption study under optimised conditions resulted in the removal of 96-97% at pH 7, 60 g L-1 dosage, 300 rpm, and 10 mg L-1 MG. Fixed-bed column experiments demonstrated better breakthrough performance for the highest bed height of 14 cm and lowest flow rate of 10 mL min-1. Models fitted the column data, and CFD simulation confirmed the optimality of flow uniformity and mass transfer. In this work, a unique combination of waste valorisation through zinc activation, alginate-based biopolymer immobilisation, and CFD-assisted modelling was employed to develop a cost-effective, easily scalable, and ecofriendly adsorbent system for industrial dye remediation.
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COLLEGE OF ENGINEERING (DEPARTMENT OF EARTH RESOURCES AND ENVIRONMENTAL ENGINEERING)
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