The application of Fe–Mn hydrous oxides based adsorbent for removing selenium species from water

[Display omitted] ► The new material based on Fe–Mn hydrous oxides is an efficient selenium adsorbent. ► The adsorbent was more selective towards Se(IV) than Se(VI). ► A variety of operating parameters was tested in static and dynamic conditions. ► Extensive modelling of the experimental data illust...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2013-02, Vol.217, p.159-168
Main Authors: Szlachta, Małgorzata, Chubar, Natalia
Format: Article
Language:English
Subjects:
adsorbents
Adsorption
anions
Applied sciences
Chemical engineering
Exact sciences and technology
Fe–Mn hydrous oxide
Ion exchange
oxides
Selenate
Selenite
selenium
temperature
Water treatment
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Summary:[Display omitted] ► The new material based on Fe–Mn hydrous oxides is an efficient selenium adsorbent. ► The adsorbent was more selective towards Se(IV) than Se(VI). ► A variety of operating parameters was tested in static and dynamic conditions. ► Extensive modelling of the experimental data illustrates the Se removal mechanism. In this study, the adsorptive removal of selenium(IV) and selenium(VI) from water by a newly developed ion exchange adsorbent, based on Fe(III) and Mn(III) hydrous oxides, was examined. This study was conducted to determine the influence of various operating parameters, such as initial anion concentration, contact time, adsorbent dose, pH, solution temperature, and the presence of competitive anions, on the treatment performance. The high Se(IV) adsorptive capacity of the adsorbent (up to 41.02mg/g at pH 4) was due to its high affinity for selenite, as reflected in the fast rate of uptake (batch studies) and an efficient long-term removal (column experiments). Although adsorption of anions traditionally decreases as pH increases, the mixed adsorbent was capable of purifying large volumes of Se(IV)-containing water (at pH 7) to reach concentrations lower than 10μg/L, which meets the European Commission standards. The presence of sulphate and carbonate did not influence Se(IV) adsorption. However, high phosphate and silicate concentrations may have decreased the removal efficiency of Se(IV). Data from the batch and column adsorption experiments were fitted with a number of approved models, which revealed the adsorption mechanism and allowed for a comparison of the results.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2012.11.100