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Simultaneous removal of multiple metal(loid)s and neutralization of acid mine drainage using 3D-printed bauxite-containing geopolymers

Nuno P.F. Gonçalves, Eduardo Ferreira da Silva, L.A.C. Tarelho, J.A. Labrincha, Rui M. Novais

2023Journal of Hazardous Materials38 citationsDOIOpen Access PDF

Abstract

The mining industry is one of the largest sources of environmental concern globally. Herein we report for the first time the application of highly porous 3D-printed sorbents containing high amounts (50 wt.%) of red mud, a hazardous waste derived from the alumina industry, for the remediation of acid mine drainage (AMD). The sorption capacity of the inorganic polymers was initially evaluated for the simultaneous removal of five metal(loid) elements, namely Cu(II), Ni(II), Zn(II), Cd(II) and As(V) in synthetic wastewater. The effect of the initial concentration, pH and contact time were assessed, reaching removal efficiencies between 64 and 98%, at pH 4 and initial concentration of 50 mg L-1 of each cation, after 24 h of contact time. The 3D-printed lattices were then used for the remediation of the real AMD water samples, and the role of adsorption and acidic neutralization was investigated. Lattices were also successfully regenerated and reused up to five cycles without compromising their performance. This work paves the way for the use of an industrial waste derived from the production of alumina as raw material for the management of the hazardous AMD. Concerned with the acid mine drainage (AMD) problem, the United Nations set global targets as a tool to preserve water supplies and protect the environment (Managing Mining for Sustainable Development). Water flowing through active/abandoned mine sites results in highly acidic effluents containing a hazardous complex mixture of metal(loid)s. Herein, we report the use of porous geopolymers sorbents prepared by additive manufacturing, incorporating significant amounts (50 wt%) of red mud -hazardous waste resulting from alumina production- capable of simultaneously pH neutralizing the AMD while removing metals through adsorption. Regeneration and reusability tests suggest the use of these novel structures as a promising technology for AMD treatm

Topics & Concepts

Environmental remediationAcid mine drainageHazardous wasteBauxiteRed mudWastewaterSorptionWaste managementNeutralizationAdsorptionRaw materialChemistryHuman decontaminationMetalEnvironmental chemistryPulp and paper industryEnvironmental scienceContaminationEnvironmental engineeringOrganic chemistryPhysical chemistryEcologyEngineeringBiologyAntibodyImmunologyBauxite Residue and UtilizationRecycling and utilization of industrial and municipal waste in materials productionMine drainage and remediation techniques
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