Porous Alumosilicate Aggregate as Lead Ion Sorbent in Wastewater Treatments

Andrea Petrella,Vito Rizzi,Nicoletta De Vietro,Pinalysa Cosma

doi:10.3390/separations4030025

Andrea Petrella, Vito Rizzi + Show 2 more

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https://doi.org/10.3390/separations4030025

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Abstract

Porous alumosilicate aggregate, namely perlite, was used as an alternative material in wastewater treatments for the selective removal of ionic pollutants such as lead which is present in industrial wastewaters and toxic at relatively low concentrations. Metal retention was investigated by single metals and multispecies equilibrium isotherms (batch system) and by carrying out dynamic (column) experiments. Lead ions were supposedly preferentially retained by ion exchange at the negatively charged silicate functional groups present on the perlite material, and to a minor extent by weak electrostatic (Van der Waals) interactions at non-specific functionalities. In the case of the batch system, the Freundlich isotherm gave a good correlation of the experimental data and lead maximum retention (qmax) in single ion solution was 4.28 mg/gperlite, and in multimetal solution was 1.50 mg/gperlite. In the case of the column system, overall capacity was 3.7 mg/gperlite in single ion solution, and in multimetal solution was 3.0 mg/gperlite. In multimetal solutions, lead ions showed the best interaction at the perlite functional groups because of the lowest free energies of hydration and hydrated radius. After sorption, perlite beads were used as lightweight aggregates for cement mortars after evaluation of the potential release of lead ions from the conglomerates.

Highlights

Perlite is a volcanic rock with high water content, low density and expanding property after heating
The novelty of the present paper is to evaluate the potentialities of perlite beads in environmental applications as lead ion sorbent from industrial wastewaters with a following re-use in the construction industry
The sorption properties of a porous alumosilicate aggregate, namely perlite, toward lead ions was shown through batch equilibrium and column tests in single and multimetal solutions

Summary

Introduction

Perlite is a volcanic rock with high water content, low density and expanding property after heating. Perlite may be effectively used in the construction industry as an aggregate for lightweight conglomerates such as concrete and mortars. The novelty of the present paper is to evaluate the potentialities of perlite beads in environmental applications as lead ion sorbent from industrial wastewaters with a following re-use in the construction industry. Lead is present in industrial wastewaters and considered extremely dangerous even at relatively low concentrations [2,3,4]. Lead has many different agricultural, domestic and industrial applications; for this reason, effluents from the production of, e.g., batteries, metal products together with chemical industries need to be treated before discharge into recipient water bodies [5,6,7,8,9]

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