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Remediation of Rare Earth Element Pollutants by Sorption Process Using Organic Natural Sorbents

BUTNARIU, M. Negrea, P; Lupa, L; Ciopec, M; Negrea, A; Pentea, M; Sarac, I; Samfira, I. Remediation of Rare Earth Element Pollutants by Sorption Process Using Organic Natural Sorbents. International journal of environmental research and public health, (ISSN: 1660–4601. Volume: 12, Issue: 9, Pages: 11278–11287, DOI: 10.3390/ijerph120911278, Accession No: WOS: 000361889100051, PubMed ID: 26378553, Published: SEP 2015), IF(2014): 2.063.

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Author ResearcherID ORCID Number
BUTNARIU, Monica http://orcid.org/0000-0002-2032-5000

INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH, ISSN: 1660-4601, Volume: 12, Issue: 9, Pages: 11278-11287, DOI: 10.3390/ijerph120911278, Published: SEP 2015

Abstract: The effects of the sorption of environmental applications by various source materials of natural organic matter, i.e., bone powder, was examined. Sorption capacities and subsequent rare earth element retention characteristics of all metals tested were markedly increased by ionic task-specific. In this study, the abilities of three models’ isotherms widely were used for the equilibrium sorption data: Langmuir, Freundlich and Redlich-Peterson. For all studied metal ions the maximum adsorption capacity is close to those experimentally determined. The characteristic parameters for each isotherm and related coefficients of determination have been determined. The experimental data achieved excellent fits within the following isotherms in the order: Langmuir > Redlich-Peterson > Freundlich, based on their coefficient of determination values. The bone powder has developed higher adsorption performance in the removal process of Nd(III), Eu(III), La(III) from aqueous solutions than in the case of the removal process of Cs(I), Sr(II) and Tl(I) from aqueous solutions. The described relationships provide direct experimental evidence that the sorption-desorption properties of bone powder are closely related to their degree of the type of the metal. The results suggest a potential for obtaining efficient and cost-effective engineered natural organic sorbents for environmental applications.

MDPI AG, POSTFACH, CH-4005 BASEL, SWITZERLAND
Research Areas: Environmental Sciences & Ecology

Web of Science Categories: Environmental Sciences

Document Type: Article, Accession Number: WOS:000361889100051, PubMed ID: 26378553